Class Members

Index of 6275 public class members (functions, variables, typedefs, enums) across all documented classes.

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A

a [var] in MNEProjData — Triangle-local dot product r12 .
a1 [var] in IirBiquad — Denominator coefficient z^-1 (a0 normalised to 1).
a2 [var] in IirBiquad — Denominator coefficient z^-2.
AbstractMetric [fn] in AbstractMetric — Constructs a AbstractMetric object.
AbstractMetric [fn] in AbstractMetric — Constructs a AbstractMetric object.
AbstractTreeItem [fn] in AbstractTreeItem
AbstractView [fn] in AbstractView — Constructs a AbstractView which is a child of parent.
accuracy [var] in FwdCoil — Accuracy.
accurate [var] in ComputeFwdSettings — Use accurate calculations.
accurate [var] in InvDipoleFitSettings — Use accurate coil definitions?
acq_pars [var] in FiffInfo — Acquisition parameters.
acq_stim [var] in FiffInfo — Acquisition stimulus information.
AcquiredPoints [fn] in AcquiredPoints
acquiredPoints [fn] in PolhemusCoregistration
acquisition [fn] in BIDSPath — Acquisition label.
act [var] in MNEProjData — Per-triangle boolean flag: 1 if this triangle is active.
activate_neighbors [fn] in MNESurface — Recursively mark neighboring triangles as active.
activate_projs [fn] in FiffProj — Set all projections to active.
active [var] in FiffDigitizerData — Which points are active.
active [var] in FiffProj — If fiff projector active.
active [var] in MNEMshDisplaySurfaceSet — Boolean array indicating which surfaces are currently active.
active [var] in MNEProjItem — Whether this item is currently active.
active_file [var] in MNEProjItem — Whether this item was active when loaded from file.
activeSurfaceForTarget [slot] in BrainView — Get configured surface type for a target view.
activeVertices [var] in InvGammaMapResult
activeVertices [var] in InvMxneResult
activeVertices [var] in InvTfMxneResult — Indices of active sources.
actualValue [var] in MnaVerificationResult — The evaluated expression result.
ad_hoc_noise [fn] in InvDipoleFitData — Create an ad-hoc diagonal noise-covariance matrix.
add_bem_surface [fn] in MNEMshDisplaySurfaceSet — Read a BEM surface from a FIFF file, optionally validate that it is topologically closed (via solid-angle check), and add it to this set.
add_filter_response [fn] in MNERawData — Create a frequency-domain filter response from the current filter definition and sampling frequency, replacing any existing response.
add_geometry_info [fn] in MNEBemSurface — Add vertex normals and neighbourhood information.
add_geometry_info [fn] in MNEHemisphere — Add vertex normals and neighbourhood information.
add_geometry_info [fn] in MNESurfaceOrVolume — Build complete geometry information for a source space: triangle data, vertex normals, neighbor-triangle lists, neighbor-vertex lists, vertex distances, and center of mass.
add_geometry_info [fn] in MNESurfaceOrVolume — Convenience overload that adds geometry information with border detection disabled and excess-neighbor checking enabled.
add_geometry_info2 [fn] in MNESurfaceOrVolume — Add geometry information with excess-neighbor checking disabled (warns instead of failing when a vertex has too many neighbors).
add_inv [fn] in MNECovMatrix — Compute the inverse square-root of eigenvalues (or diagonal elements) for whitening, storing the result in inv_lambda.
add_item [fn] in MNEProjOp — Add a projection item that is active by default.
add_item_active [fn] in MNEProjOp — Add a projection item with an explicit active/inactive state.
add_patch_stats [fn] in MNESourceSpace — Compute patch statistics (areas, normals, deviations).
add_replace_surface [fn] in MNEMshDisplaySurfaceSet — Add a new surface to the set, or replace an existing surface with the same ID if replace is true.
add_triangle_data [fn] in MNESurfaceOrVolume — Populate the MNETriangle structures for both the full and in-use triangulations by computing edge vectors, normals, and areas.
add_uniform_curv [fn] in MNESurfaceOrVolume — Set all vertex curvature values to 1.0 (uniform curvature), if not already present.
add_vertex_normals [fn] in MNESurfaceOrVolume — Compute vertex normals by area-weighted accumulation of triangle normals, then normalize to unit length.
addAnnotation [fn] in BrainSurface — Add annotation data directly.
addAnnotation [fn] in BrainTreeModel
addBem [fn] in DipoleFitView — Updates GUI to show selected BEM file.
addBemSurface [fn] in BrainTreeModel
addBinding [fn] in MnaParamTree
addCode [fn] in Report — Add a preformatted code block.
addData [slot] in BidsViewModel — Adds data to the item model.
addData [fn] in ChannelDataView — Append new samples (real-time streaming use-case).
addData [fn] in FrequencySpectrumModel — Adds the frequency estimation.
addData [fn] in RtFiffRawView — Add data to the view.
addData [fn] in RtFiffRawViewModel — Adds multiple time points (QVector) for a channel set (VectorXd).
addData [fn] in RtSensorDataController — Add a sensor measurement vector to the streaming queue.
addData [fn] in RtSensorDataWorker — Add a new sensor measurement vector to the streaming queue.
addData [fn] in RtSourceDataController — Add a source estimate data vector to the streaming queue.
addData [fn] in RtSourceDataWorker — Add a new source estimate data vector to the streaming queue.
addData [fn] in SpectrumView — Adds data to the underlying model.
addDataToSession [slot] in BidsViewModel — Adds data item pNewItem to session at sessionIndex.
addDigitizerData [fn] in BrainTreeModel
addDipoles [fn] in BrainTreeModel
addEcd [fn] in InvEcdSet — Appends an Electric Current Dipole to the set.
addEntry [fn] in FineCalibration — Add an entry.
addEvent [fn] in RtFiffRawViewModel — Adds event based on input parameters.
addGroupBox [fn] in QuickControlView — Add a new group box to this Widget.
addGroupBoxWithTabs [fn] in QuickControlView — Add a new group box with tabs to this Widget.
addInverse [fn] in FiffCoordTrans
addKeyValue [fn] in Report — Add a key-value section.
addLayer [fn] in MultimodalScene — Add or replace a layer.
addMeas [fn] in DipoleFitView — Updates GUI to show selected measurement file.
addMri [fn] in DipoleFitView — Updates GUI to show selected MRI file.
addNetwork [fn] in BrainTreeModel
addNode [fn] in MnaGraph
addNoise [fn] in DipoleFitView — Updates GUI to show selecte Noise file.
addReferenceMarkerRequested [signal] in TimeRulerWidget — Emitted when the user requests a new sample marker from the ruler context menu.
addSampleAsEvent [signal] in RtFiffRawView
addSelectionBem [fn] in CoregSettingsView — Add a new Bem to the drop down menu.
addSensors [fn] in BrainTreeModel
addSessionToSubject [slot] in BidsViewModel — Adds session named after sSessionName to subjects names sSubjectName.
addSessionToSubject [slot] in BidsViewModel — Adds session named after sSessionName to subject at subjectIndex.
addSourceSpace [fn] in BrainTreeModel
addSubject [slot] in BidsViewModel — Adds subject with given input name.
addSurface [fn] in BrainTreeModel
addTable [fn] in Report — Add a table section.
addText [fn] in Report — Add a text section.
addToData [slot] in BidsViewModel — Adds a sub-item to a data item (ex.
addTriangleData [fn] in MNEBemSurface — Definition of the mne_add_triangle_data function in mne_add_geometry_info.c.
addVertexNormals [fn] in MNEBemSurface — Definition of the addVertexNormals function in mne_add_geometry_info.c.
addWidget [fn] in QuickControlView — Add a new group box to this Widget.
addWidgetBottom [fn] in MultiView — Adds a QWidget to the bottom docking area.
addWidgets [fn] in QuickControlView — This convenience function adds control widgets to the QuickControlView based on their set objects names.
addWidgetTop [fn] in MultiView — Adds a QWidget to the top docking area.
adjust_baselines [fn] in MNEMeasData — Adjust baseline offset of the current data set.
affect [fn] in MNEProjItem — Test whether this projection item affects any of the listed channels.
affect [fn] in MNEProjOp — Count how many active projection vectors affect a given list of channel names.
affect_chs [fn] in MNEProjOp — Count how many active projection vectors affect the given channels.
align_fiducials [fn] in MNEMshDisplaySurface — Align MEG and MRI coordinate systems using fiducial points and ICP.
allowedMeanErrorDistChanged [signal] in HpiSettingsView — Emit this signal whenever the allowed error changed.
allowedMovementChanged [signal] in HpiSettingsView — Emit this signal whenever the allowed head movement threshold changed.
allowedRotationChanged [signal] in HpiSettingsView — Emit this signal whenever the allowed head rotation threshold changed.
allowMaxShield [var] in ProcessingSettings — Allow unprocessed MaxShield data.
allPaths [fn] in MnaParamTree
alpha [fn] in AbstractTreeItem
alt_overlay_type [var] in MNEMshDisplaySurface — Alternative overlay type identifier.
alt_overlay_values [var] in MNEMshDisplaySurface — Per-vertex alternative overlay values.
amplitudeMax [var] in ButterflyTypeGroup
amplitudeMax [var] in ChannelDisplayInfo — Amplitude value (physical units) that maps to full row height.
Anatomical [var] in BrainRenderer
angleTo [fn] in FiffCoordTrans — Calculate rotation as angle between two rotation matrices.
annotationBoundaryMoved [signal] in ChannelDataView — Emitted when the user drags an annotation boundary to a new position.
annotationBoundaryMoved [signal] in ChannelRhiView — Emitted when the user finishes dragging an annotation boundary.
annotationData [fn] in SurfaceTreeItem
annotationsVisible [fn] in ChannelDataView
annotationsVisible [fn] in ChannelRhiView
annotationsVisibleToggled [signal] in ChannelDataView
append [fn] in AcquiredPoints — Append a new point and emit pointsChanged.
append [fn] in ConnectivitySettings
append [fn] in ConnectivitySettings
append [fn] in ConnectivitySettings
append [fn] in ConnectivitySettings
append [fn] in ConnectivitySettings
append [fn] in ConnectivitySettings
append [fn] in FastrakParser — Append raw bytes received from the serial port.
append [fn] in FiffAnnotations — Appends an annotation.
append [fn] in FiffAnnotations — Appends an annotation by fields.
append [fn] in MNESourceSpaces — Appends a deep copy of the given source space.
append [fn] in Network — Appends a network edge to this network node.
append [fn] in Network — Appends a network edge to this network node.
append [fn] in Network — Appends a network edge to this network node.
append [fn] in Network — Appends a network edge to this network node.
append [fn] in NetworkNode — Appends a network edge to this network node.
append [fn] in NetworkNode — Appends a network edge to this network node.
append [fn] in RtAveraging — Slot to receive incoming data.
append [fn] in RtConnectivity — Slot to receive incoming data.
append [fn] in RtHpi — Slot to receive incoming data.
append [fn] in RtInvOp — Slot to receive incoming noise covariance estimations.
append [fn] in RtNoise — Submit incoming data for noise estimation.
appendData [fn] in ChannelDataModel — Append new samples to the ring buffer.
apply [fn] in ChannelDerivation — Apply derivation rules to a data matrix.
apply [fn] in DecodingSsd — Denoise data by low-rank factorisation.
apply [fn] in EogRegression — Apply the fitted regression to remove EOG artifacts in-place.
apply [fn] in FirFilter — Apply the filter to a single row vector.
apply [fn] in MaxwellMovementComp — Apply movement compensation via SSS.
apply [fn] in MNECTFCompDataSet — Apply or revert CTF compensation on a single-sample data vector using the current compensation operator.
apply [fn] in MNECTFCompDataSet — Overload: apply compensation using the data vector itself as compensation input.
apply [fn] in SensorFieldMapper — Apply the precomputed mapping to the current time point.
apply [fn] in SourceMorph — Apply the morphing to a source estimate.
apply [fn] in SSS — Apply SSS to MEG data — suppress external (environmental) interference.
apply [fn] in Xdawn — Project one epoch into xDAWN component space.
apply_cov [fn] in MNEProjOp — Apply this projection operator to a covariance matrix from both sides: C' = (I - P) C (I - P)^T (or P C P^T if do_complement is false).
apply_inverse_trans [fn] in FiffCoordTrans — Applies the inverse coordinate transform to given coordinates and returns the transformed coordinates.
apply_inverse_trans [fn] in FiffCoordTrans — Applies the inverse coordinate transform to a single 3D point in place.
apply_left_eyes [fn] in MNEMshDisplaySurfaceSet — Apply the left-eye position and up-vector uniformly to all surfaces regardless of hemisphere.
apply_left_right_eyes [fn] in MNEMshDisplaySurfaceSet — Assign hemisphere-appropriate eye positions and up-vectors to each surface (left eye for left hemisphere, right eye for right).
apply_trans [fn] in FiffCoordTrans — TODO: dest - The id of the destination coordinate system (FIFFV_COORD_...).
apply_trans [fn] in FiffCoordTrans — Applies the coordinate transform to a single 3D point in place.
apply_transpose [fn] in MNECTFCompDataSet — Apply or revert CTF compensation across multiple time samples (channels x samples matrix), the transposed equivalent of apply().
applyBaselineCorrection [fn] in FiffEvoked — Applies baseline correction to the evoked data.
applyBaselineCorrection [fn] in MNEEpochData — Applies baseline (mode=mean) correction to the evoked data.
applyBaselineCorrection [fn] in MNEEpochDataList — Applies baseline correction to the evoked data.
applyConvFilter [fn] in FilterKernel — Applies the current filter to the input data using convolution in time domain.
applyDICS [fn] in InvDICS — Apply DICS beamformer to time-domain data at a single frequency.
applyDICSCsd [fn] in InvDICS — Apply DICS beamformer to CSD matrices to estimate source power per frequency.
applyDICSEpochs [fn] in InvDICS — Apply DICS beamformer to each epoch in a list.
applyFftFilter [fn] in FilterKernel — Applies the current filter to the input data using multiplication in frequency domain.
applyLCMV [fn] in InvLCMV — Apply LCMV beamformer to evoked data to produce source time courses.
applyLCMVCov [fn] in InvLCMV — Apply LCMV beamformer to a data covariance to produce a source power map.
applyLCMVEpochs [fn] in InvLCMV — Apply LCMV beamformer to a list of epochs.
applyLCMVRaw [fn] in InvLCMV — Apply LCMV beamformer to raw data matrix.
applyLstmCorrection [fn] in InvCMNE — Apply LSTM-based temporal correction to z-scored rectified dSPM data.
applyMousePan [fn] in CameraController — Apply pan from mouse drag delta (planar multi-view pane).
applyMouseRotation [fn] in CameraController — Apply rotation from mouse drag delta (single-view or perspective pane).
applyOverlayToSurfaces [fn] in SubView — Apply this view's overlayMode to every brain surface whose key matches surfaceType.
applySos [fn] in IirFilter — Apply a biquad cascade to one data row (causal, single-pass).
applySourceEstimateColors [fn] in BrainSurface — Apply source estimate colors to vertices.
applyTemporal [fn] in SSS — Apply temporal SSS (tSSS) — additionally suppress near-field artefacts.
applyToSurface [fn] in SourceEstimateOverlay — Apply source estimate colors to a brain surface at a given time index.
ApplyToView [fn] in ApplyToView — ApplyToView.
applyTransform [fn] in BrainSurface — Apply a transformation to the surface starting from the original data.
applyTransform [fn] in DipoleObject
applyTransform [fn] in FiffDigPointSet — Apply a transformation matrix on the 3D position of the digitized points.
applyUnmixing [fn] in ICA — Project new data through a previously fitted unmixing matrix.
applyZeroPhase [fn] in FirFilter — Apply the filter in a zero-phase forward-backward pass to a single row vector.
applyZeroPhase [fn] in IirFilter — Apply a biquad cascade with zero-phase (forward + backward pass) to one row.
applyZeroPhaseMatrix [fn] in FirFilter — Apply the filter in a zero-phase forward-backward pass to every row of a matrix.
applyZeroPhaseMatrix [fn] in IirFilter — Apply zero-phase filtering to every row of a matrix (each row = one channel).
area [var] in MNEPatchInfo — Total surface area of the patch (m^2).
area [var] in MNETriangle — Triangle area.
arrays [fn] in ElectrodeObject
ArtifactSettingsView [fn] in ArtifactSettingsView
aspect_kind [var] in FiffEvoked — Aspect identifier, either FIFFV_ASPECT_AVERAGE or FIFFV_ASPECT_STD_ERR.
aspectKindToString [fn] in FiffEvoked — Provides the python Evoked string formatted aspect_kind, which is stored in kind: "average" <-> FIFFV_ASPECT_AVERAGE, "standard_error" <-> FIFFV_ASPECT_STD_ERR or "unknown".
assemble_kernel [fn] in MNEInverseOperator — Assemble the inverse kernel matrix.
assign_channels [fn] in MNEProjOp — Assign a channel name list to this projection operator, invalidating any previously compiled projector.
assignedOperatorsChanged [fn] in ChannelInfoModel — Updates the fiff info.
associatedImagePath [var] in BidsCoordinateSystem — Relative path to associated T1w image (OPTIONAL).
at [fn] in ConnectivitySettings
at [fn] in ConnectivitySettings
at [fn] in MNESourceSpaces — Access the underlying shared_ptr at the given index.
at [fn] in MNESourceSpaces — Access the underlying shared_ptr at the given index (const).
atlasDirChanged [signal] in FwdSettingsView — Emit this signal whenever the atlas directory is set.
attach [fn] in Subject — Attaches an observer to the subject.
attach_env [fn] in FiffStream — Attach environment metadata (working directory, command line) to this stream.
attributes [var] in MnaNode — Operation parameters.
attributes [var] in MnaOpSchema — Expected attributes.
autoDetectPortName [fn] in PolhemusConnection — Best-effort auto-detection of an attached Fastrak/FastSCAN.
autoSelect [fn] in StsCovEstimators — Auto-select the best covariance estimator via cross-validation.
availablePorts [fn] in PolhemusConnection — Enumerate every serial port currently visible to the OS.
ave_nn [var] in MNEPatchInfo — Average outward surface normal of the patch.
aveFiles [var] in ProcessingSettings — Averaging description file(s).
average [fn] in EpochExtractor — Compute the grand average (ERP/ERF) across all non-rejected epochs.
average [fn] in MNEEpochDataList — Averages epoch list.
averageArtifactReductionChanged [signal] in RtAveraging
averageBaselineActiveChanged [signal] in RtAveraging
averageBaselineFromChanged [signal] in RtAveraging
averageBaselineToChanged [signal] in RtAveraging
averageCategories [fn] in MNEEpochDataList — averageCategories
averageEpochs [fn] in FiffEpochs — Compute the average (evoked response) across epochs.
AverageLayoutView [fn] in AverageLayoutView — Constructs a AverageLayoutView which is a child of parent.
averageNumberChanged [signal] in RtAveraging
averagePostStimChanged [signal] in RtAveraging
averagePreStimChanged [signal] in RtAveraging
averageResetRequested [signal] in RtAveraging
AverageScene [fn] in AverageScene — Constructs a AverageScene.
AverageSceneItem [fn] in AverageSceneItem — Constructs a AverageSceneItem.
AverageSelectionView [fn] in AverageSelectionView — Constructs a AverageSelectionView which is a child of parent.
averageTriggerChIdxChanged [signal] in RtAveraging
AveragingSettingsView [fn] in AveragingSettingsView

B

b [var] in MNEProjData — Triangle-local dot product r13 .
B [var] in FitDipUserRec
b0 [var] in IirBiquad — Numerator coefficient z^0.
b1 [var] in IirBiquad — Numerator coefficient z^-1.
B2 [var] in FitDipUserRec
b2 [var] in IirBiquad — Numerator coefficient z^-2.
backendName [fn] in PolhemusConnection
backgroundColor [fn] in ChannelDataView
backgroundColor [fn] in ChannelRhiView
backgroundColorChanged [signal] in FiffRawViewSettings — Emit this signal whenever the user changed the background color.
bad [var] in ChannelDisplayInfo — Whether the channel is currently marked bad.
bad [var] in MNEMeasData — Per-channel bad flag array (0 = good, 1 = bad).
bad [var] in MNERawData — Boolean array marking bad channels (0 = good, 1 = bad).
badChannels [var] in BadChannelsMaxwellResult — Names of detected bad channels.
badChannelsHidden [fn] in ChannelDataView
badDescription [var] in AnnotateAmplitudeParams — Description string for annotations.
badIndices [var] in BadChannelsMaxwellResult — Indices in the MEG channel list.
badlist [var] in MNEMeasData — List of bad channel names.
badlist [var] in MNERawData — Bad channel names.
badname [var] in InvDipoleFitSettings — Bad channel list file.
bads [var] in FiffCov — List of bad channels.
bads [var] in FiffInfoBase — List of bad channels.
bads [var] in MNECovMatrix — Channel names designated bad during computation.
bApplyBaseline [var] in EpochExtractorParams — Whether to apply baseline correction.
Bar [fn] in Bar — The constructor for Bar.
base [var] in FwdCoil — Baseline.
base_arr [var] in HPISortStruct
baseline [var] in FiffEvoked — Baseline information in seconds form where the seconds are seen relative to the trigger, meaning they can also be negative [from to].
baselineChanged [signal] in DipoleFitView — Send new basline values.
baselines [var] in MNEMeasDataSet — Per-channel baseline offsets currently applied.
basename [fn] in BIDSPath — Constructs the BIDS-compliant filename (without directory).
baudRate [var] in PolhemusSerialConfig
bBasic [fn] in InvHpiModelParameters
bConverged [var] in IcaResult — True if all components converged within maxIter.
bDebias [var] in InvTfMxneParams — Whether to debias the final solution.
bdipname [var] in InvDipoleFitSettings — Output file in bdip format.
bEegOnly [var] in LofBadChannelParams — If true, only check EEG channels.
beginFrame [fn] in BrainRenderer — Begin the first render pass of a frame.
beginPreservingPass [fn] in BrainRenderer — Begin an additional render pass that preserves previous output.
bem_funcs [var] in InvDipoleFitData — These are the BEM forward functions.
bem_method [var] in FwdBemModel — Approximation method (FWD_BEM_CONSTANT_COLL or FWD_BEM_LINEAR_COLL).
bem_model [var] in InvDipoleFitData — BEM model definition.
bemHead [var] in ViewVisibilityProfile
bemInnerSkull [var] in ViewVisibilityProfile
bemname [var] in ComputeFwdSettings — BEM model file.
bemname [var] in InvDipoleFitData — Using a BEM?
bemname [var] in InvDipoleFitSettings — Boundary-element model.
bemOuterSkull [var] in ViewVisibilityProfile
bemShader [var] in SubView
bemShaderModeForTarget [slot] in BrainView — Get configured BEM shader mode name for a target view.
bemSurfaceData [fn] in BemTreeItem
bemTopVertexInMri [slot] in BrainView — Return the highest-Z vertex of the BEM head surface in MRI coords.
BemTreeItem [fn] in BemTreeItem
best [var] in MNEMorphMap — Index of the closest source surface vertex for each target vertex.
bg_color [var] in MNEMshDisplaySurfaceSet — Background color (RGB).
BIDSPath [fn] in BIDSPath — Constructs an empty BIDSPath.
BIDSPath [fn] in BIDSPath — Constructs a BIDSPath with the most common entities.
BIDSPath [fn] in BIDSPath — Copy constructor.
BidsRawData [fn] in BidsRawData — Default constructor.
BidsRawData [fn] in BidsRawData
BidsRawData [fn] in BidsRawData
BidsTsv [fn] in BidsTsv
bidsVersion [var] in BidsDatasetDescription — BIDS specification version, e.g.
BidsView [fn] in BidsView — Constructs the DataManagerView.
BidsViewModel [fn] in BidsViewModel — Constructs the Analyze Data Model.
binding [var] in MnaOpSchema — Binding type: "internal", "cli", or "script".
bindings [fn] in MnaParamTree
bIsLargeHeadMovement [var] in HpiFitResult
bmax [var] in AverageCategory — Baseline max (s).
bmax [var] in CovDefinition — Baseline max (s).
bmax [var] in InvDipoleFitSettings — Baseline end time (s).
bMegOnly [var] in FilterChpiParams — If true, only filter MEG channels.
bMegOnly [var] in LofBadChannelParams — If true, only check MEG channels.
bmin [var] in AverageCategory — Baseline min (s).
bmin [var] in CovDefinition — Baseline min (s).
bmin [var] in InvDipoleFitSettings — Baseline start time (s).
bonferroni [fn] in StatsMcCorrection — Bonferroni correction: corrected_p = min(p * n, 1.0).
border [var] in MNESurfacePatch — Per-vertex flag: non-zero if the vertex lies on the patch border (size np).
borderChanged [signal] in Spline — emit signal consisting of three threshold lines x-axis value if any one of them is changed
boundingBox [fn] in BrainSurface — Get bounding box of the surface.
boundingBoxMax [fn] in ElectrodeObject
boundingBoxMin [fn] in ElectrodeObject
boundingRect [fn] in AverageSceneItem — Reimplemented virtual functions.
boundingRect [fn] in SelectionSceneItem — Returns the bounding rect of the electrode item.
BoundsFn [type] in MultimodalScene — Per-kind callback that returns a layer's AABB in world coordinates.
BrainRenderer [fn] in BrainRenderer — Default Constructor.
brainShader [var] in SubView
BrainSurface [fn] in BrainSurface — Default Constructor.
BrainTreeModel [fn] in BrainTreeModel
BrainView [fn] in BrainView — Constructor.
BrainVisionReader [fn] in BrainVisionReader — Default constructor.
bReject [var] in MNEEpochData — Whether this epoch is to be rejected.
bRejected [var] in ArtifactRejectionData
buf_size [var] in MNERawInfo — Buffer size in samples.
bufs [var] in MNERawData — Raw data buffer definitions.
build [fn] in MNENamedMatrix — Factory: build a named matrix from its constituent parts.
buildAdjacency [fn] in FsLabelUtils — Build adjacency list from surface triangle mesh.
buildBipolar [fn] in ChannelDerivation — Build bipolar derivation rules from sequential electrode pairs.
buildCommonAverage [fn] in ChannelDerivation — Build common-average reference derivation rules.
buildGaborDictionary [fn] in InvTfMxne — Build a Gabor dictionary (tight frame) for time-frequency decomposition.
buildLabel [fn] in RayPicker — Build a display label from a PickResult.
buildMapping [fn] in SensorFieldMapper — Build the MEG/EEG sensor-to-surface mapping matrices.
bUserReject [var] in MNEEpochData — Whether this epoch was manually excluded by the user.
bUseWhitened [var] in RegionData — Wheather indeces of whitened gain matrix should be used to calculate centroids.
butterflyMode [fn] in ChannelDataView
butterflyMode [fn] in ChannelRhiView
butterflyToggled [signal] in ChannelDataView
ButterflyView [fn] in ButterflyView — The constructor.
bValid [var] in XdawnResult — True if fit() produced a usable decomposition.

C

c [var] in MNEProjData — Triangle-local dot product r12 .
c_ras [var] in MNEVolGeom — Center of the volume in RAS coordinates (mm).
c_ras [var] in MriVolData — Center RAS coordinates (cr, ca, cs).
cachedResultHash [var] in MnaPort — SHA-256 for invalidation.
cachedResultPath [var] in MnaPort — Relative path to cached result.
cal [var] in FiffChInfo — Calibration from volts to units used.
calc_beta [fn] in FwdBemModel — Compute the beta angle used in the linear collocation integration.
calc_f [fn] in FwdBemModel — Compute the f0, fx, fy integration helper values from corner coordinates.
calc_gamma [fn] in FwdBemModel — Compute the gamma angle for the linear field integration (Ferguson).
calc_magic [fn] in FwdBemModel — Compute the "magic" beta and D factors for the Urankar field integration.
calc_pot_components [fn] in FwdEegSphereModel — Calculate the radial and tangential potential components for a dipole in a layered sphere model using a Legendre polynomial series expansion.
CalcCoefficients [fn] in ParksMcClellan — This was added by IowaHills and is called from CalcParkCoeff2().
CalcParkCoeff2 [fn] in ParksMcClellan
calculate [fn] in Coherence — Calculates the coherence between the rows of the data matrix.
calculate [fn] in Coherence — Calculates the coherence between the rows of the data matrix.
calculate [fn] in Connectivity — Computes the network based on the current settings.
calculate [fn] in Connectivity — Computes the network based on the current settings.
calculate [fn] in Correlation — Calculates the correlation coefficient between the rows of the data matrix.
calculate [fn] in Correlation — Calculates the correlation coefficient between the rows of the data matrix.
calculate [fn] in CrossCorrelation — Calculates the cross correlation between the rows of the data matrix.
calculate [fn] in CrossCorrelation — Calculates the cross correlation between the rows of the data matrix.
calculate [fn] in DebiasedSquaredWeightedPhaseLagIndex — Calculates the debiased squared weighted phase lag index between the rows of the data matrix.
calculate [fn] in DebiasedSquaredWeightedPhaseLagIndex — Calculates the debiased squared weighted phase lag index between the rows of the data matrix.
calculate [fn] in DirectedTransferFunction — Calculates the Directed Transfer Function between all channel pairs.
calculate [fn] in DirectedTransferFunction — Calculates the Directed Transfer Function between all channel pairs.
calculate [fn] in FilterOverlapAdd — Creates a user designed filter kernel and filters the raw input data.
calculate [fn] in FilterOverlapAdd — Calculates the filtered version of the raw input data based on a given list filters.
calculate [fn] in GrangerCausality — Calculates spectral Granger causality between all channel pairs.
calculate [fn] in GrangerCausality — Calculates spectral Granger causality between all channel pairs.
calculate [fn] in ImagCoherence — Calculates the imaginary coherence between the rows of the data matrix.
calculate [fn] in ImagCoherence — Calculates the imaginary coherence between the rows of the data matrix.
calculate [fn] in KMeans — Clusters input data X.
calculate [fn] in PartialDirectedCoherence — Calculates Partial Directed Coherence between all channel pairs.
calculate [fn] in PartialDirectedCoherence — Calculates Partial Directed Coherence between all channel pairs.
calculate [fn] in PhaseLagIndex — Calculates the PLI between the rows of the data matrix.
calculate [fn] in PhaseLagIndex — Calculates the PLI between the rows of the data matrix.
calculate [fn] in PhaseLockingValue — Calculates the phase locking value between the rows of the data matrix.
calculate [fn] in PhaseLockingValue — Calculates the phase locking value between the rows of the data matrix.
calculate [fn] in UnbiasedSquaredPhaseLagIndex — Calculates the USPLI between the rows of the data matrix.
calculate [fn] in UnbiasedSquaredPhaseLagIndex — Calculates the USPLI between the rows of the data matrix.
calculate [fn] in Warp — Calculates the TPS Warp of given setup.
calculate [fn] in Warp — Calculates the TPS Warp of a given setup for a List of vertices.
calculate [fn] in WeightedPhaseLagIndex — Calculates the WPLI between the rows of the data matrix.
calculate [fn] in WeightedPhaseLagIndex — Calculates the WPLI between the rows of the data matrix.
calculate_area [fn] in MNEPatchInfo — Calculates the total surface area of this patch.
calculate_digitizer_distances [fn] in MNEMshDisplaySurface — Compute the distance from each active digitizer point to the head surface.
calculate_normal_stats [fn] in MNEPatchInfo — Calculates the average surface normal and its deviation for this patch.
calculate_vertex_distances [fn] in MNESurfaceOrVolume — Compute the Euclidean distances from each vertex to its topological neighbors and store them in the vert_dist array.
calculateAbs [fn] in Coherency — Calculates the absolute value of coherency of the rows of the data matrix.
calculateAbs [fn] in Coherency — Calculates the absolute value of coherency of the rows of the data matrix.
calculateAverage [signal] in AveragingSettingsView
calculateAveragedWeight [fn] in NetworkEdge — Calculates the edge weight based on the currently set min/max frequency bins.
calculateAveragedWeight [fn] in NetworkEdge — Calculates the edge weight based on the currently set min/max frequency bins.
calculateFFTFreqs [fn] in Spectral — Calculates the FFT frequencies.
calculateFit [fn] in InvDipoleFit — Execute the dipole fit using the stored settings.
calculateFwd [fn] in ComputeFwd — Perform the forward calculation.
calculateImag [fn] in Coherency — Calculates the imaginary part of coherency of the rows of the data matrix.
calculateImag [fn] in Coherency — Calculates the imaginary part of coherency of the rows of the data matrix.
calculateInverse [fn] in InvMinimumNorm — Computes a L2-norm inverse solution Actual code using these principles might be different because the inverse operator is often reused across data sets.
calculateInverse [fn] in InvMinimumNorm
calculateInverse [fn] in InvPwlRapMusic — Note: Since they are virtual they have to be implemented to be called.
calculateInverse [fn] in InvPwlRapMusic — Note: Since they are virtual they have to be implemented to be called.
calculateInverse [fn] in InvPwlRapMusic
calculateInverse [fn] in InvRapMusic
calculateInverse [fn] in InvRapMusic
calculateInverse [fn] in InvRapMusic
calibrate [fn] in MNECTFCompData — Apply or remove channel calibration to/from the compensation matrix by scaling each element by (row_cal / col_cal) or its inverse.
calibrated [var] in MNECTFCompData — Whether the coefficients are already calibrated.
cals [var] in FiffRawData — Calibration values.
CameraController [fn] in CameraController — Constructor.
cameraPos [var] in CameraResult
cameraPos [var] in SceneData
cancelLoading [fn] in SourceEstimateManager — Cancel any in-progress STC loading / interpolation and wait for the thread to finish.
cancelPivotCalibration [fn] in PolhemusCoregistration
captureCurrentPenPositionAsFiducial [fn] in PolhemusCoregistration
captureCurrentPenPositionAsHeadShape [fn] in PolhemusCoregistration
captureCurrentPenPositionAsVertex [fn] in PolhemusCoregistration
captureOpticalCalibSample [fn] in PolhemusCoregistration — Record one calibration sample (current tracker pose + current pen position).
cardinalFiducialsInMri [slot] in BrainView — Return cardinal fiducials (NAS/LPA/RPA) transformed to MRI coordinates.
castRay [slot] in BrainView — Cast rays from screen position to find intersected objects.
categories [var] in AverageDescription — The categories.
category [var] in MnaOpSchema — Category: "io", "preprocessing", "source_estimation", etc.
categoryItem [fn] in DigitizerSetTreeItem — Returns the child DigitizerTreeItem for a given category, or nullptr.
cent [var] in MNETriangle — Centroid position.
center [fn] in Sphere — The center of the sphere.
centreOfMass [fn] in InvVolumeSourceEstimate — Compute the centre of mass of the activity at a given time point.
centroidSource_rr [var] in MNEClusterInfo — Centroid location.
centroidVertno [var] in MNEClusterInfo — Id (FsLabel/ROI id) of the centroid.
ch_class [var] in MNECovMatrix — Per-channel type classification for regularization (MEG grad, MEG mag, EEG).
ch_filtered [var] in MNERawBufDef — Per-channel flag: has this channel been filtered already (filtered buffers only).
ch_kind [var] in MNEChSelection — Kinds of the channels corresponding to picks.
ch_major [var] in MNEMeasData — If true, data rows are channels (not times).
ch_name [var] in FiffChInfo — Descriptive name for the channel.
ch_names [fn] in FiffEvoked — Returns list of channel names stored in fiff info -> this is to stay consistent with python.
ch_names [var] in FiffInfoBase — List of all channel names.
ch_names [var] in InvDipoleFitData — List of all channel names.
ch_names [var] in MNERawData — Channel names as a flat list.
changeArtifactThreshold [signal] in ArtifactSettingsView
changeAverageMode [signal] in AveragingSettingsView
changeBaselineActive [signal] in AveragingSettingsView
changeBaselineFrom [signal] in AveragingSettingsView
changeBaselineTo [signal] in AveragingSettingsView
changeDropActive [signal] in AveragingSettingsView
changeNumAverages [signal] in AveragingSettingsView
changePostStim [signal] in AveragingSettingsView
changePreStim [signal] in AveragingSettingsView
changeSelectedBem [signal] in CoregSettingsView — Emit this signal whenever the selected Bem changed.
changeStimChannel [signal] in AveragingSettingsView
channel [var] in BrainVisionMarker — Channel number (0 = all channels).
channel_type [fn] in FiffInfoBase — Get channel type.
channelBadToggled [signal] in ChannelLabelPanel
channelCount [fn] in ChannelDataModel
ChannelDataModel [fn] in ChannelDataModel
ChannelDataView [fn] in ChannelDataView — Constructs a ChannelDataView.
channelIndices [var] in ButterflyTypeGroup
channelInfo [fn] in ChannelDataModel — Display metadata for the given channel.
ChannelInfoModel [fn] in ChannelInfoModel
ChannelInfoModel [fn] in ChannelInfoModel
ChannelLabelPanel [fn] in ChannelLabelPanel
channelMarkingChanged [signal] in RtFiffRawView — Emmited when marking of bad channels is changed.
channelNames [var] in FiffAnnotation — Empty = global annotation.
channelNumber [var] in BrainVisionChannelInfo
channelNumber [var] in EDFChannelInfo
channelOffsetChanged [signal] in ChannelRhiView — Emitted whenever the first visible channel index changes.
ChannelRhiView [fn] in ChannelRhiView
channelRms [fn] in ChannelDataModel — Compute the RMS amplitude of a channel over a sample window.
channelScrollRequested [signal] in ChannelLabelPanel — Emitted while the user drags vertically on the panel.
channelSelectionChanged [fn] in AverageLayoutView — Sets the currently viewable channels using the corrent name and location parameters.
channelSelectionManagerChanged [fn] in AverageLayoutView — call this whenever the external channel selection manager changes
ChannelSelectionView [fn] in ChannelSelectionView — Constructs a ChannelSelectionView which is a child of parent.
channelsMappedToLayout [signal] in ChannelInfoModel — Emit this signal whenever channels where mapped to a layout.
channelsTsvPath [fn] in BIDSPath — Returns the path for the channels.tsv sidecar.
chClass [var] in FiffCov — Channel classification vector.
chdef [var] in MNEChSelection — Channel definitions (may contain regular expressions).
check_ch_names [fn] in MNEInverseOperator — Verify that inverse-operator channels are present in the measurement info.
checkArtifacts [fn] in FiffEvokedSet — Check whether an epoch passes artifact rejection criteria.
checkChThreshold [fn] in MNEEpochDataList
checkEegLocations [fn] in FiffChInfo — Check that all EEG channels in the list have reasonable (non-origin) locations.
checkForArtifact [fn] in MNEEpochDataList — Checks the givven matrix for artifacts beyond a threshold value.
checkForUpdate [fn] in InvHpiDataUpdater — Check if information in FiffInfo changed and update if necessary.
checkForUpdate [fn] in InvHpiFit — Checks if InvSensorSet has changed and updates member InvSensorSet.
checkId [var] in MnaVerificationResult — References MnaVerificationCheck::id.
checkIntegrity [fn] in ComputeFwdSettings — Check whether Compute Forward Settings are correctly set.
checkIntegrity [fn] in InvDipoleFitSettings — Check whether Dipole Fit Settings are correctly set.
checkPrerequisites [fn] in MLTrainer — Check that the required Python packages are importable.
checks [var] in MnaVerification — Declarative checks (authored by user, evaluated by executor).
children [var] in FiffDirNode — Child nodes.
chInfo [var] in MNERawInfo — Channel info data .
chname [var] in FwdCoil — Name of this channel.
chNames [var] in InvBeamformer — Channel names used for filter computation.
chNumber [var] in FineCalEntry — MEG channel number (e.g., 0113 for MEG0113).
chpos [var] in FiffChInfo — Channel location.
chs [var] in FiffInfoBase — List of all channel info descriptors.
chs [var] in InvDipoleFitData — Channels.
chs [var] in MNECTFCompDataSet — Channel information associated with compensation.
chs [var] in MNEDeriv — First matching channel info for each derivation.
chs [var] in MNEMeasData — Channel information list.
chsel [var] in MNEMeasData — Channel selection for raw-data access.
chspick [var] in MNEChSelection — Translated into channel names using the present data.
chspick_nospace [var] in MNEChSelection — The same without spaces.
CircularBuffer [fn] in CircularBuffer — Constructs a CircularBuffer.
classify [fn] in MlIcaLabel — Classify each ICA component using reference signals and spectral heuristics.
classify_channels [fn] in MNECovMatrix — Assign channel-type classifications (MEG mag, MEG grad, EEG) to channels in this covariance matrix, based on channel information.
clean [fn] in InvDipole — clean
clear [fn] in AcquiredPoints — Drop every captured point.
clear [fn] in BidsRawData — Clears all data members and resets to invalid state.
clear [fn] in CircularBuffer — Clears the buffer.
clear [fn] in CommandManager — Clears the command manager.
clear [fn] in FiffAnnotations — Removes all annotations.
clear [fn] in FiffCoordTrans — Initializes the coordinate transformation descriptor.
clear [fn] in FiffCov — Initializes the covariance data matrix.
clear [fn] in FiffCtfComp — Initializes the CTF software compensation data.
clear [fn] in FiffDigPointSet — Initializes FiffDigPointSet.
clear [fn] in FiffEvoked — Initializes fiff evoked data.
clear [fn] in FiffEvokedSet — Initializes fiff evoked data set.
clear [fn] in FiffId — Resets the File identifier.
clear [fn] in FiffInfo — Initializes FIFF measurement information.
clear [fn] in FiffInfoBase — Initializes light FIFF measurement information.
clear [fn] in FiffNamedMatrix — Initializes the named matrix.
clear [fn] in FiffRawData — Initializes the fiff raw measurement data.
clear [fn] in FsAnnotation — Initializes the FsAnnotation.
clear [fn] in FsAnnotationSet — Initializes the FsAnnotationSet.
clear [fn] in FsColortable — Initializes colortable.
clear [fn] in FsLabel — Initializes the FsLabel.
clear [fn] in FsSurface — Initializes the FsSurface.
clear [fn] in FsSurfaceSet — Initializes the FsAnnotationSet.
clear [fn] in InvSourceEstimate — Initializes source estimate.
clear [fn] in MNEBem — Initializes MNE Bem.
clear [fn] in MNEBemSurface — Initializes the BEM surface.
clear [fn] in MNEClusterInfo — Initializes the cluster information.
clear [fn] in MNEForwardSolution — Initializes the MNE forward solution.
clear [fn] in MNEHemisphere — Initializes the hemisphere source space.
clear [fn] in MNESourceSpaces — Initializes MNE source space.
clear [fn] in MultimodalScene — Remove every layer.
clear [fn] in QuickControlView — Clear this widget by removing all of its child widgets.
clear [fn] in RtSensorDataWorker — Clear all queued data and reset averaging state.
clear [fn] in RtSourceDataWorker — Clear all queued data.
clearAllData [fn] in ConnectivitySettings
clearAllData [fn] in ConnectivitySettings
clearBem [slot] in BrainView — Remove all BEM surfaces from the scene.
clearCameraFocusOverride [slot] in BrainView — Remove the camera focus override; revert to auto-computed bounds.
clearData [fn] in ChannelDataModel — Override the per-channel-type amplitude scale.
clearData [fn] in RtSensorDataController — Clear all queued data and reset the worker state.
clearData [fn] in RtSourceDataController — Clear all queued data and reset the worker state.
clearDipoles [slot] in BrainView — Remove dipole objects from the scene.
clearEvoked [slot] in BrainView — Remove evoked / sensor field mapping data.
clearIntermediateData [fn] in ConnectivitySettings
clearIntermediateData [fn] in ConnectivitySettings
clearLiveMarkers [slot] in BrainView — Remove all live overlay markers.
clearLiveRay [slot] in BrainView — Remove the live ray from the scene.
clearModel [fn] in ChannelInfoModel — clearModel clears all model's members
clearNetwork [slot] in BrainView — Remove the connectivity network from the scene.
clearOpticalCalibSamples [fn] in PolhemusCoregistration — Discard all calibration samples and reset the optical calibration.
clearReferenceMarkersRequested [signal] in TimeRulerWidget — Emitted when the user requests that all sample markers be cleared.
clearSelection [fn] in ElectrodeObject — Clear all contact selections.
clearSelectionBem [fn] in CoregSettingsView — Clear/Emüpty the selection menu for bem models.
clearSelectionGroup [fn] in AveragingSettingsView
clearSensors [slot] in BrainView — Remove sensor geometry, digitizer points, and the MEG helmet surface.
clearSourceEstimate [slot] in BrainView — Remove source estimate data and restore surface colours.
clearSourceEstimateColors [fn] in BrainSurface — Clear source estimate overlay colors and restore curvature-based coloring.
clearSourceSpace [slot] in BrainView — Remove source space points from the scene.
clearStaticMarkers [slot] in BrainView — Remove all static overlay markers.
clearSurfaces [slot] in BrainView — Remove all brain surfaces (pial, white, inflated) and their annotations.
clearTransformation [slot] in BrainView — Remove the head-to-MRI coordinate transformation.
clearTwinFiducial [fn] in AcquiredPoints
clearView [fn] in AbstractView — Clears the view.
clearView [fn] in ApplyToView — Clears the view.
clearView [fn] in ArtifactSettingsView — Clears the view.
clearView [fn] in AverageLayoutView — Clears the view.
clearView [fn] in AverageSelectionView — Clears the view.
clearView [fn] in AveragingSettingsView — Clears the view.
clearView [fn] in BidsView — Clears the view.
clearView [fn] in ButterflyView — Clears the view.
clearView [fn] in ChannelDataView — Clears the view.
clearView [fn] in ChannelSelectionView — Clears the view.
clearView [fn] in CompensatorView — Clears the view.
clearView [fn] in ConnectivitySettingsView — Clears the view.
clearView [fn] in CoregSettingsView — Clears the view.
clearView [fn] in CovarianceSettingsView — Clears the view.
clearView [fn] in DipoleFitView — Clears the view.
clearView [fn] in FiffRawViewSettings — Clears the view.
clearView [fn] in FilterDesignView — Clears the view.
clearView [fn] in FilterSettingsView — Clears the view.
clearView [fn] in FwdSettingsView — Clears the view.
clearView [fn] in HpiSettingsView — Clears the view.
clearView [fn] in MinimumNormSettingsView — Clears the view.
clearView [fn] in ModalitySelectionView — Clears the view.
clearView [fn] in ProgressView — Clears the view.
clearView [fn] in ProjectorsView — Clears the view.
clearView [fn] in ProjectSettingsView — Clears the view.
clearView [fn] in RtFiffRawView — Clears the view.
clearView [fn] in ScalingView — Clears the view.
clearView [fn] in SpectrumSettingsView — Clears the view.
clearView [fn] in SpectrumView — Clears the view.
clearView [fn] in SpharaSettingsView — Clears the view.
clearView [fn] in TfSettingsView — Clears the view.
clearView [fn] in TriggerDetectionView — Clears the view.
client [var] in FwdCompData — Client data to pass to the above functions.
client [var] in FwdThreadArg — Client data for the field computation function.
client_free [var] in FwdThreadArg — Releases owned client sub-objects.
clippingToggled [signal] in ChannelDataView
clippingVisible [fn] in ChannelDataView
clippingVisible [fn] in ChannelRhiView
cliTemplate [var] in MnaOpSchema — For CLI ops: command template with {{placeholder}} tokens.
clockTimeFormat [fn] in ChannelDataView
clockTimeFormat [fn] in ChannelRhiView
clockTimeFormat [fn] in TimeRulerWidget
clone [fn] in MNEHemisphere — Creates a deep copy of this hemisphere, preserving the MNEHemisphere type.
clone [fn] in MNESourceSpace — Creates a deep copy of this source space, preserving the actual derived type.
close [fn] in FiffStream — Close stream.
close [fn] in PolhemusConnection — Close the active connection.
close_stream [fn] in stream_inlet — Close the TCP connection to the outlet.
closest [var] in FiffDigitizerData — Closest vertex number on the head surface.
closest_point [var] in FiffDigitizerData — Closest vertex locations on the head surface (npoint x 3).
closestIndex [fn] in SourceEstimateManager
closestSensorFieldIndex [slot] in BrainView — Find the closest sensor field time index for a given time in seconds.
closestStcIndex [slot] in BrainView — Find the closest STC time index for a given time in seconds.
cluster [fn] in RegionData
cluster [fn] in RegionMT — Run KMeans clustering on this region.
cluster_forward_solution [fn] in MNEForwardSolution — Cluster the forward solution and stores the result to p_fwdOut.
cluster_info [var] in MNEHemisphere — Holds the cluster information.
cluster_kernel [fn] in MNEInverseOperator — Cluster the inverse kernel by cortical parcellation.
clusterDistances [var] in MNEClusterInfo — Distances to clusters centroid.
clusteringStatusChanged [signal] in FwdSettingsView — Emit this signal whenever clustering checkbox changed.
clusterLabelIds [var] in MNEClusterInfo — Id (FsLabel/ROI id) of the cluster.
clusterLabelNames [var] in MNEClusterInfo — FsLabel name of the cluster.
clusterNumberChanged [signal] in FwdSettingsView — Emit this signal whenever a forward computation is supposed to be triggered.
clusterSource_rr [var] in MNEClusterInfo — Cluster source locations.
clusterThreshold [var] in StatsClusterResult — t-threshold used for clustering.
clusterVertnos [var] in MNEClusterInfo — Vertnos which belong to corresponding cluster.
cm [var] in MNESurfaceOrVolume — Center of mass of the vertex cloud.
code [var] in MnaScript — The inline source code (resolved at save-time if sourceUri is set).
codeSha256 [var] in MnaScript — SHA-256 of code for integrity verification.
coding [var] in FiffSparseMatrix — FIFF coding type (FIFFTS_MC_RCS or FIFFTS_MC_CCS).
coefficients [fn] in EogRegression — Returns the fitted regression coefficients.
coefficients [fn] in MvarModel — Returns the fitted coefficient matrices A_1 .
coefficients [fn] in MvarModel — Returns the fitted coefficient matrices A_1 .
Coherence [fn] in Coherence — Constructs a Coherence object.
Coherence [fn] in Coherence — Constructs a Coherence object.
Coherency [fn] in Coherency — Constructs a Coherency object.
Coherency [fn] in Coherency — Constructs a Coherency object.
coil_class [var] in FwdCoil — Coil class.
coil_trans [var] in FiffChInfo — Coil coordinate system transformation.
coil_type [var] in FiffChPos — What kind of coil.
coilFrequenciesChanged [signal] in HpiSettingsView — Emit this signal whenever the coil frequencies changed.
CoilParam [fn] in CoilParam
coils [var] in FwdCoilSet — The coil or electrode positions.
coils_els [var] in FwdThreadArg — The coil definitions.
col_names [var] in FiffNamedMatrix — Column names.
colcals [var] in FiffCtfComp — Column calibrations.
colEdges [var] in VisualizationInfo — The edge color.
colEdges [var] in VisualizationInfo — The edge color.
collist [var] in MNENamedMatrix — Name list for the columns (may be empty if unnamed).
collist [var] in MNESparseNamedMatrix — Name list for the columns.
colNodes [var] in VisualizationInfo — The node color.
colNodes [var] in VisualizationInfo — The node color.
color [fn] in AbstractTreeItem
color [var] in AnnotationSpan — Fill / border colour for the highlighted span.
color [var] in AverageCategory — Display color (unused in batch).
color [var] in ButterflyTypeGroup
color [var] in ChannelDisplayInfo — Line colour to use in the GPU renderer.
color [var] in ElectrodeContact — Display color.
color [var] in EventMarker — Display colour of the line and label chip.
color [var] in InstanceData
color [var] in InstanceData
color [var] in LiveMarker
color [var] in TimeRulerEventMark — Display colour.
color [var] in TimeRulerReferenceMark — Display colour.
color [var] in VertexData
color_scale [var] in MNEMshDisplaySurface — Color scale used to compute vertex colors.
colorAnnotation [var] in VertexData
ColorMap [fn] in ColorMap — Default constructor.
colormap [fn] in SensorFieldMapper
colormap [fn] in SourceEstimateOverlay — Get the current colormap name.
colorsAvailable [signal] in RtSensorStreamManager — Emitted when the streaming pipeline produces a new set of per-vertex colours for a sensor surface.
cols [fn] in FiffSparseMatrix — Number of columns.
cols [fn] in MlTensor — 2-D convenience — equivalent to shape(1).
column_norm [var] in InvDipoleFitData — What kind of column normalization to apply to the forward solution.
columnCount [fn] in ChannelInfoModel
columnCount [fn] in EvokedSetModel — Returns the number of columns for the children of the given parent.
columnCount [fn] in FrequencySpectrumModel — Returns the number of columns for the children of the given parent.
columnCount [fn] in RtFiffRawViewModel — Returns the number of columns for the children of the given parent.
combine [fn] in FiffCoordTrans — Combines two coordinate transformations to yield a transform from from to to.
combine [fn] in MNEProjOp — Append all projection items from another operator.
combine_xyz [fn] in Linalg — Compute the three Cartesian components of a vector together.
combine_xyz [fn] in MNE — mne_combine_xyz
Command [fn] in Command — Constructs a Command.
Command [fn] in Command — Constructor which parses a command stored in a json object.
Command [fn] in Command — Constructs a command without parameters.
Command [fn] in Command — Constructor which assembles a command from single parts.
Command [fn] in Command — Constructor which assembles a command from single parts.
Command [fn] in Command — Copy constructor.
command [fn] in Command — Short command for this request.
command [var] in ComputeFwdSettings — Saves the recognized command line for future use.
command [fn] in RawCommand — Command name.
CommandManager [fn] in CommandManager
CommandManager [fn] in CommandManager
CommandManager [fn] in CommandManager
commandMap [fn] in CommandManager — Returns the lookup table of all available commands.
commandMapChanged [signal] in CommandManager
CommandParser [fn] in CommandParser — Default constructor.
comment [var] in AverageCategory — Description.
comment [var] in AverageDescription — Description.
comment [var] in FiffAnnotation — Optional free-form comment.
comment [var] in FiffEvoked — Comment on dataset.
comment [var] in FsLabel — Comment from the first line of the label file.
comment [var] in MNEEvent — Free-text event comment.
comment [var] in MNEMeasDataSet — Comment / description associated with this data set.
comp [var] in FiffRawData — Compensator.
comp [var] in FwdThreadArg — Which component to compute for free orientations.
comp [var] in MNEMeasData — Software gradient compensation data.
comp [var] in MNERawData — CTF compensation data.
comp_coils [var] in FwdCompData — The compensation coil definitions.
comp_data [var] in MNECTFCompData — Intermediate buffer for compensation results.
comp_file [var] in MNERawData — Compensation grade stored in the file.
comp_info [var] in MNESssData — Which components are included.
comp_layers [fn] in FwdEegSphereLayer — Compare two sphere layers by radius for sorting.
comp_now [var] in MNERawData — Current compensation grade applied to data.
comp_status [var] in MNERawBufDef — Compensation status for raw buffers.
compareIdxValuePairBiggerThan [fn] in Linalg — Compares two index-value-pairs (greater-than).
compareIdxValuePairSmallerThan [fn] in Linalg — Compares two index-value-pairs (less-than).
compareTransformation [fn] in InvHpiFit — Compares two 4x4 transformation matrices by evaluating their rotation and translation differences against given thresholds.
compareTripletFirstEntry [fn] in Linalg — Compares triplet first entry (row).
compareTripletSecondEntry [fn] in Linalg — Compares triplet second entry (column).
compClicked [signal] in CompensatorView — Signal mapper signal for compensator changes.
compensate_buffer [fn] in MNERawData — Apply CTF compensation to a loaded raw data buffer if its compensation status differs from the desired one.
compensate_to [fn] in FiffEvokedSet — mne_compensate_to
compensateTo [var] in ProcessingSettings — Desired software gradient compensation (-1 = from file).
CompensatorView [fn] in CompensatorView — Constructs a CompensatorView which is a child of parent.
compilerInfo [var] in MnaProvenance — e.g. "AppleClang 16.0.0"
complete_source_space_info [fn] in MNEHemisphere — Complete triangulation information (triangle centers, normals, areas) for both the main and use triangulations.
componentIndex [var] in IcaLabelResult — 0-based component index.
compose_linear_fitting_data [fn] in FwdEegSphereModel — Build the data matrix and target vector for the linear part of the Berg-Scherg parameter fit.
comps [var] in FiffInfo — List of available CTF software compensators.
comps [var] in MNECTFCompDataSet — All available compensation data sets.
compSelectionChanged [signal] in CompensatorView — Emit this signal whenever the user changes the compensator.
compStatusChanged [signal] in HpiSettingsView — Emit this signal whenever compensator checkbox changed.
compute [fn] in ConnectivityAec — Compute AEC between all pairs of signals.
compute [fn] in Dpss — Compute DPSS tapers for a given window length and half-bandwidth.
compute [fn] in ExtendedInfomax — Compute ICA decomposition using the extended infomax algorithm.
compute [fn] in InvCMNE — Compute CMNE inverse solution.
compute [fn] in InvGammaMap — Compute the Gamma-MAP inverse solution.
compute [fn] in InvMxne — Compute the MxNE inverse solution.
compute [fn] in InvResolutionMatrix — Compute the resolution matrix R = inverseKernel × leadField.
compute [fn] in InvTfMxne — Compute the TF-MxNE inverse solution.
compute [fn] in InvTrapMusic — Compute TRAP-MUSIC source localization.
compute [fn] in MorletTfr — Compute Morlet TFR for a single channel time series.
compute [fn] in MultitaperPsd — Compute multitaper PSD for every channel of a data matrix.
compute [fn] in MultitaperTfr — Compute sliding-window multitaper TFR for every channel of a data matrix.
compute [fn] in SourceMorph — Compute the morphing transformation.
compute [fn] in Spectral — Computes the tapered spectra for a row vector.
compute [fn] in SurfaceLaplacian — Compute the surface Laplacian (CSD) transformation.
compute [fn] in WelchPsd — Compute Welch PSD for every (selected) channel of a data matrix.
compute_cm [fn] in MNESurfaceOrVolume — Compute the center of mass (mean position) of a set of points.
compute_data [fn] in MNETriangle — Compute derived geometry (edge vectors, normal, area, centroid, auxiliary unit vectors) from the current vertex positions.
compute_depth_prior [fn] in MNEForwardSolution — Compute weighting for depth prior.
compute_dipole_field [fn] in InvDipoleFitData — Compute the forward field for a dipole at the given location.
compute_epoch_covariance [fn] in MNE — compute_epoch_covariance
compute_forward_eeg [fn] in FwdBemModel — Compute the EEG forward solution for one or more source spaces.
compute_forward_meg [fn] in FwdBemModel — Compute the MEG forward solution for one or more source spaces.
compute_from_epochs [fn] in FiffCov — Compute a noise covariance matrix from raw data based on event-locked epochs.
compute_from_raw [fn] in FiffProj — compute_from_raw
compute_grad [var] in ComputeFwdSettings
compute_guess_fields [fn] in InvGuessData — Once the guess locations have been set up we can compute the fields Refactored: compute_guess_fields (dipole_fit_setup.c).
compute_linear_parameters [fn] in FwdEegSphereModel — Solve for the optimal lambda (dipole magnitude) parameters given fixed mu values using SVD.
compute_normals [fn] in FsSurface — Efficiently compute vertex normals for triangulated surface.
compute_orient_prior [fn] in MNEForwardSolution — Compute orientation prior.
compute_patch_info [fn] in MNEHemisphere — Compute patch statistics from the nearest-vertex data.
compute_proj [fn] in MNE — compute_proj
compute_surface_cm [fn] in MNESurfaceOrVolume — Compute and store the center of mass of a surface's vertices.
computeAverage [fn] in MNEEpochDataList — Convenience function: reads epochs, optionally applies baseline correction and artifact rejection, then returns the averaged evoked response.
computeAverages [fn] in FiffEvokedSet — Compute epoch-based averages from raw data according to an averaging description.
computeBasis [fn] in SSS — Build the SSS spherical-harmonic basis from MEG sensor geometry.
computeBeamformer [fn] in InvBeamformerCompute — Compute beamformer spatial filter weights from a leadfield and data covariance (or CSD).
computeEegMapping [fn] in FwdFieldMap — Compute EEG electrode-to-surface mapping matrix.
computeEegMapping [fn] in FwdFieldMap — Compute EEG electrode-to-surface mapping matrix with SSP projection and average reference.
computeFourier [fn] in Csd — Compute CSD using Welch-style Fourier segmented estimation.
ComputeFwd [fn] in ComputeFwd — Constructs a ComputeFwd and initialises all data structures needed for the forward computation according to pSettings.
ComputeFwdSettings [fn] in ComputeFwdSettings — Default Constructor.
computeGrandAverage [fn] in FiffCov — Compute a weighted grand-average covariance from multiple covariance matrices, weighting each by its degrees of freedom (nfree).
computeGrandAverage [fn] in FiffEvokedSet — Compute a grand average across multiple evoked data sets.
computeInterpolationMatrix [slot] in RtSourceInterpolationMatWorker — Compute the interpolation matrices for both hemispheres.
computeInterpolationMatrix [fn] in SourceEstimateOverlay — Compute interpolation matrix for a surface.
computeMapping [slot] in RtSensorInterpolationMatWorker — Compute the sensor-to-surface mapping matrices.
computeMegMapping [fn] in FwdFieldMap — Compute MEG sensor-to-surface mapping matrix.
computeMegMapping [fn] in FwdFieldMap — Compute MEG sensor-to-surface mapping matrix with SSP projection.
computeMorlet [fn] in Csd — Compute CSD using Morlet wavelet convolution.
computeMultiChannel [fn] in MorletTfr — Compute Morlet TFR for every (selected) channel of a data matrix.
computeMultitaper [fn] in Csd — Compute CSD using multitaper (DPSS) spectral estimation.
computeMultiView [fn] in CameraController — Compute camera matrices for a multi-view pane.
computeNeighbors [fn] in BrainSurface — Compute neighbor vertices from triangle connectivity.
computeNormRange [fn] in SensorFieldMapper — Compute the normalization range anchored at the peak-GFP time.
computeOrthogonalized [fn] in ConnectivityAec — Compute orthogonalized AEC (corrected for volume conduction / source leakage).
computePower [fn] in InvBeamformerCompute — Compute source power from spatial filter weights and a data covariance / CSD matrix.
computeRegistration [fn] in PolhemusCoregistration — Compute the head→device rigid transform from the three captured fiducials (NAS, LPA, RPA).
computeSignFlip [fn] in InvLabelTimeCourse — Compute sign-flip vector for a label based on vertex normals.
computeSingleView [fn] in CameraController — Compute camera matrices for a single-view viewport.
computeTaperedSpectraMatrix [fn] in Spectral — Calculates the full tapered spectra of a given input matrix data.
computeTaperedSpectraRow [fn] in Spectral — Calculates the full tapered spectra of a given input row data.
computeTransform [fn] in SurfaceLaplacian — Compute only the CSD transformation matrix (without applying to data).
computeVector [fn] in WelchPsd — Compute Welch PSD for a single channel row vector.
computeVox2Ras [fn] in MriVolData — Builds the voxel-to-surface-RAS (MRI) 4×4 transform matrix.
concatenateEpochs [fn] in FiffEpochs — Concatenate multiple epoch sets into a single list.
condition [fn] in MNECovMatrix — Condition the covariance matrix by eigendecomposition with per-channel-type scaling, zeroing sub-threshold eigenvalues, and reconstructing.
confidence [var] in IcaLabelResult — Confidence score in [0, 1].
config [fn] in PythonRunner — Get the current configuration.
connect [fn] in MnaGraph — Connect output port of srcNode to input port of dstNode.
connectedChanged [signal] in PolhemusConnection — Emitted whenever isConnected changes.
connection [fn] in PolhemusCoregistration
connectionChanged [signal] in RtClient — Emitted when connection status changed.
Connectivity [fn] in Connectivity — Constructs a Connectivity object.
Connectivity [fn] in Connectivity — Constructs a Connectivity object.
connectivity [var] in InvSourceEstimate — Pairwise connectivity matrices between sources (one per metric / freq band).
connectivityMetricChanged [signal] in ConnectivitySettingsView — Emit signal whenever the connectivity metric changed.
ConnectivitySettings [fn] in ConnectivitySettings — Constructs a ConnectivitySettings object.
ConnectivitySettings [fn] in ConnectivitySettings — Constructs a ConnectivitySettings object.
ConnectivitySettingsView [fn] in ConnectivitySettingsView — Constructs a ConnectivitySettingsView which is a child of parent.
ConstRowMajorMatrixMap [type] in MlTensor
ConstSPtr [type] in AbstractMetric — Const shared pointer type for AbstractMetric.
ConstSPtr [type] in AbstractMetric — Const shared pointer type for AbstractMetric.
ConstSPtr [type] in AbstractView — Const shared pointer type for AbstractView.
ConstSPtr [type] in ArtifactSettingsView — Const shared pointer type for AveragingAdjustmentWidget.
ConstSPtr [type] in AverageLayoutView — Const shared pointer type for AverageLayoutView.
ConstSPtr [type] in AverageScene — Const shared pointer type for AverageScene.
ConstSPtr [type] in AverageSelectionView — Const shared pointer type for AverageSelectionView.
ConstSPtr [type] in AveragingSettingsView — Const shared pointer type for AveragingAdjustmentWidget.
ConstSPtr [type] in Bar — Const shared pointer type for Bar class.
ConstSPtr [type] in BIDSPath — Const shared pointer type for BIDSPath.
ConstSPtr [type] in BidsRawData
ConstSPtr [type] in BidsViewModel — Const shared pointer type for BidsViewModel.
ConstSPtr [type] in ButterflyView — Const shared pointer type for ButterflyView.
ConstSPtr [type] in ChannelDataModel
ConstSPtr [type] in ChannelDataView
ConstSPtr [type] in ChannelInfoModel — Const shared pointer type for ChannelInfoModel.
ConstSPtr [type] in ChannelSelectionView — Const shared pointer type for ChannelSelectionView.
ConstSPtr [type] in CircularBuffer — Const shared pointer type for CircularBuffer.
ConstSPtr [type] in Coherence — Const shared pointer type for Coherence.
ConstSPtr [type] in Coherence — Const shared pointer type for Coherence.
ConstSPtr [type] in Coherency — Const shared pointer type for Coherency.
ConstSPtr [type] in Coherency — Const shared pointer type for Coherency.
ConstSPtr [type] in ColorMap — Const shared pointer type for ColorMap class.
ConstSPtr [type] in Command
ConstSPtr [type] in CompensatorView — Const shared pointer type for CompensatorView.
ConstSPtr [type] in Connectivity — Const shared pointer type for Connectivity.
ConstSPtr [type] in Connectivity — Const shared pointer type for Connectivity.
ConstSPtr [type] in ConnectivitySettings — Const shared pointer type for ConnectivitySettings.
ConstSPtr [type] in ConnectivitySettings — Const shared pointer type for ConnectivitySettings.
ConstSPtr [type] in ConnectivitySettingsView — Const shared pointer type for ConnectivitySettingsView.
ConstSPtr [type] in Control3DView — Const shared pointer type for Control3DView.
ConstSPtr [type] in CoregSettingsView — Const shared pointer type for DISPLIB.
ConstSPtr [type] in Correlation — Const shared pointer type for Correlation.
ConstSPtr [type] in Correlation — Const shared pointer type for Correlation.
ConstSPtr [type] in CovarianceSettingsView — Const shared pointer type for CovarianceAdjustmentWidget.
ConstSPtr [type] in CrossCorrelation — Const shared pointer type for CrossCorrelation.
ConstSPtr [type] in CrossCorrelation — Const shared pointer type for CrossCorrelation.
ConstSPtr [type] in DebiasedSquaredWeightedPhaseLagIndex — Const shared pointer type for DebiasedSquaredWeightedPhaseLagIndex.
ConstSPtr [type] in DebiasedSquaredWeightedPhaseLagIndex — Const shared pointer type for DebiasedSquaredWeightedPhaseLagIndex.
ConstSPtr [type] in DirectedTransferFunction — Const shared pointer type for DirectedTransferFunction.
ConstSPtr [type] in DirectedTransferFunction — Const shared pointer type for DirectedTransferFunction.
ConstSPtr [type] in DraggableFramelessWidget — Const shared pointer type for DraggableFramelessWidget.
ConstSPtr [type] in EvokedSetModel — Const shared pointer type for EvokedSetModel.
ConstSPtr [type] in FiffAnnotations — Const shared pointer type.
ConstSPtr [type] in FiffChInfo — Const shared pointer type for FiffChInfo.
ConstSPtr [type] in FiffChPos — Const shared pointer type for FiffChPos.
ConstSPtr [type] in FiffCoordTrans — Const shared pointer type for FiffCoordTrans.
ConstSPtr [type] in FiffCoordTransSet — Const shared pointer type for FiffCoordTransSet.
ConstSPtr [type] in FiffCov — Const shared pointer type for FiffCov.
ConstSPtr [type] in FiffCtfComp — Const shared pointer type for FiffCtfComp.
ConstSPtr [type] in FiffDigitizerData — Const shared pointer type for FiffDigitizerData.
ConstSPtr [type] in FiffDigPoint — Const shared pointer type for FiffDigPoint.
ConstSPtr [type] in FiffDigPointSet — Const shared pointer type for FiffDigPointSet.
ConstSPtr [type] in FiffDirEntry — Const shared pointer type for FiffDirEntry.
ConstSPtr [type] in FiffDirNode — Const shared pointer type for FiffDirNode.
ConstSPtr [type] in FiffEvoked — Const shared pointer type for FiffEvoked.
ConstSPtr [type] in FiffEvokedSet — Const shared pointer type for FiffEvokedSet.
ConstSPtr [type] in FiffId — Const shared pointer type for FiffId.
ConstSPtr [type] in FiffInfo — Const shared pointer type for FiffInfo.
ConstSPtr [type] in FiffInfoBase — Const shared pointer type for FiffInfoBase.
ConstSPtr [type] in FiffNamedMatrix — Const shared pointer type for FiffNamedMatrix.
ConstSPtr [type] in FiffProj — Const shared pointer type for FiffProj.
ConstSPtr [type] in FiffRawData — Const shared pointer type for FiffRawData.
ConstSPtr [type] in FiffRawDir — Const shared pointer type for FiffRawDir.
ConstSPtr [type] in FiffRawViewSettings — Const shared pointer type for FiffRawViewSettings.
ConstSPtr [type] in FiffSparseMatrix — Const shared pointer type for FiffSparseMatrix.
ConstSPtr [type] in FiffStream — Const shared pointer type for FiffStream.
ConstSPtr [type] in FiffTag — Const shared pointer type for FiffTag.
ConstSPtr [type] in FilterDesignView — Const shared pointer type for FilterDesignView.
ConstSPtr [type] in FilterIO — Const shared pointer type for FilterIO.
ConstSPtr [type] in FilterOverlapAdd — Const shared pointer type for FilterOverlapAdd.
ConstSPtr [type] in FilterPlotScene — Const shared pointer type for FilterPlotScene class.
ConstSPtr [type] in FilterSettingsView — Const shared pointer type for FilterSettingsView.
ConstSPtr [type] in FilterThreadArg — Const shared pointer type for FilterThreadArg.
ConstSPtr [type] in FrequencySpectrumModel — Const shared pointer type for FrequencySpectrumModel.
ConstSPtr [type] in FsAnnotation — Const shared pointer type for FsAnnotation.
ConstSPtr [type] in FsAnnotationSet — Const shared pointer type for FsAnnotationSet.
ConstSPtr [type] in FsColortable — Const shared pointer type for FsColortable.
ConstSPtr [type] in FsLabel — Const shared pointer type for FsLabel class.
ConstSPtr [type] in FsSurface — Const shared pointer type for FsSurface class.
ConstSPtr [type] in FsSurfaceSet — Const shared pointer type for FsSurfaceSet class.
ConstSPtr [type] in FwdCoilSet — Const shared pointer type for FwdCoilSet.
ConstSPtr [type] in GeometryInfo
ConstSPtr [type] in GrangerCausality — Const shared pointer type for GrangerCausality.
ConstSPtr [type] in GrangerCausality — Const shared pointer type for GrangerCausality.
ConstSPtr [type] in Graph — Const shared pointer type for Graph class.
ConstSPtr [type] in ICommand — Const shared pointer type for ICommand.
ConstSPtr [type] in ImagCoherence — Const shared pointer type for ImagCoherence.
ConstSPtr [type] in ImagCoherence — Const shared pointer type for ImagCoherence.
ConstSPtr [type] in ImageSc — Const shared pointer type for ImageSc class.
ConstSPtr [type] in Interpolation
ConstSPtr [type] in InvBeamformer
ConstSPtr [type] in InvDipoleFit — Const shared pointer type for InvDipoleFit.
ConstSPtr [type] in InvDipoleFitData — Const shared pointer type for InvDipoleFitData.
ConstSPtr [type] in InvDipoleFitSettings — Const shared pointer type for InvDipoleFitSettings.
ConstSPtr [type] in InvDipoleForward — Const shared pointer type for InvDipoleForward.
ConstSPtr [type] in InvEcd — Const shared pointer type for InvEcd.
ConstSPtr [type] in InvEcdSet — Const shared pointer type for InvEcdSet.
ConstSPtr [type] in InvGuessData — Const shared pointer type for InvGuessData.
ConstSPtr [type] in InvHpiDataUpdater — Const shared pointer type for InvHpiDataUpdater.
ConstSPtr [type] in InvHpiFit — Const shared pointer type for InvHpiFit.
ConstSPtr [type] in InvHpiFitData — Const shared pointer type for InvHpiFitData.
ConstSPtr [type] in InvHpiModelParameters — Const shared pointer type for InvHpiModelParameters.
ConstSPtr [type] in InvMinimumNorm — Const shared pointer type for InvMinimumNorm.
ConstSPtr [type] in InvRapMusic — Const shared pointer type for InvRapMusic.
ConstSPtr [type] in InvSensorSet — Const shared pointer type for InvSensorSet.
ConstSPtr [type] in InvSensorSetCreator — Const shared pointer type for InvSensorSet.
ConstSPtr [type] in InvSignalModel — Const shared pointer type for InvSignalModel.
ConstSPtr [type] in InvSourceEstimate — Const shared pointer type for InvSourceEstimate.
ConstSPtr [type] in InvVectorSourceEstimate
ConstSPtr [type] in InvVolumeSourceEstimate
ConstSPtr [type] in IObserver — Const shared pointer type for IObserver.
ConstSPtr [type] in IOUtils — Const shared pointer type for IOUtils class.
ConstSPtr [type] in KMeans — Const shared pointer type for KMeans.
ConstSPtr [type] in LayoutLoader — Const shared pointer type for LayoutLoader.
ConstSPtr [type] in LinePlot — Const shared pointer type for LinePlot.
ConstSPtr [type] in MinimumNormSettingsView — Const shared pointer type for MinimumNormSettingsView.
ConstSPtr [type] in MnaProject — Const shared pointer type.
ConstSPtr [type] in MNEBem — Const shared pointer type for MNEBem.
ConstSPtr [type] in MNEBemSurface — Const shared pointer type for MNEBemSurface.
ConstSPtr [type] in MNEClusterInfo — Const shared pointer type for MNEClusterInfo.
ConstSPtr [type] in MNECovMatrix — Const shared pointer type for MNECovMatrix.
ConstSPtr [type] in MNECTFCompData — Const shared pointer type for MNECTFCompData.
ConstSPtr [type] in MNECTFCompDataSet — Const shared pointer type for MNECTFCompDataSet.
ConstSPtr [type] in MNEDeriv — Const shared pointer type for MNEDeriv.
ConstSPtr [type] in MNEDerivSet — Const shared pointer type for MNEDerivSet.
ConstSPtr [type] in MNEEpochData — Const shared pointer type for MNEEpochData.
ConstSPtr [type] in MNEEpochDataList — Const shared pointer type for MNEEpochDataList.
ConstSPtr [type] in MNEForwardSolution — Const shared pointer type for MNEForwardSolution.
ConstSPtr [type] in MNEHemisphere — Const shared pointer type for MNEHemisphere.
ConstSPtr [type] in MNEInverseOperator — Const shared pointer type for MNEInverseOperator.
ConstSPtr [type] in MNEMeasData — Const shared pointer type for MNEMeasData.
ConstSPtr [type] in MNEMeasDataSet — Const shared pointer type for MNEMeasDataSet.
ConstSPtr [type] in MNEMghTag — Const shared pointer type for MNEMghTag.
ConstSPtr [type] in MNEMghTagGroup — Const shared pointer type for MNEMghTagGroup.
ConstSPtr [type] in MNEMneData — Const shared pointer type for MNEMneData.
ConstSPtr [type] in MNEMorphMap — Const shared pointer type for MNEMorphMap.
ConstSPtr [type] in MNEMshColorScaleDef — Const shared pointer type for MNEMshColorScaleDef.
ConstSPtr [type] in MNEMshDisplaySurface — Const shared pointer type for MNEMshDisplaySurface.
ConstSPtr [type] in MNEMshDisplaySurfaceSet — Const shared pointer type for MNEMshDisplaySurfaceSet.
ConstSPtr [type] in MNEMshEyes — Const shared pointer type for MNEMshEyes.
ConstSPtr [type] in MNEMshLight — Const shared pointer type for MNEMshLight.
ConstSPtr [type] in MNEMshLightSet — Const shared pointer type for MNEMshLightSet.
ConstSPtr [type] in MNEMshPicked — Const shared pointer type for MNEMshPicked.
ConstSPtr [type] in MNENamedMatrix — Const shared pointer type for MNENamedMatrix.
ConstSPtr [type] in MNENearest — Const shared pointer type for MNENearest.
ConstSPtr [type] in MNEOperator — Const shared pointer type for MNEOperator.
ConstSPtr [type] in MNEPatchInfo — Const shared pointer type for MNEPatchInfo.
ConstSPtr [type] in MNEProjData — Const shared pointer type for MNEProjData.
ConstSPtr [type] in MNEProjectToSurface — Const shared pointer type for MNEProjectToSurface.
ConstSPtr [type] in MNEProjItem — Const shared pointer type for MNEProjItem.
ConstSPtr [type] in MNEProjOp — Const shared pointer type for MNEProjOp.
ConstSPtr [type] in MNERawBufDef — Const shared pointer type for MNERawBufDef.
ConstSPtr [type] in MNERawData — Const shared pointer type for MNERawData.
ConstSPtr [type] in MNERawInfo — Const shared pointer type for MNERawInfo.
ConstSPtr [type] in MNESourceSpace — Const shared pointer type for MNESourceSpace.
ConstSPtr [type] in MNESourceSpaces — Const shared pointer type for MNESourceSpaces.
ConstSPtr [type] in MNESssData — Const shared pointer type for MNESssData.
ConstSPtr [type] in MNESurface — Const shared pointer type for MNESurface.
ConstSPtr [type] in MNESurfaceOrVolume — Const shared pointer type for MNESurfaceOrVolume.
ConstSPtr [type] in MNESurfacePatch — Const shared pointer type for MNESurfacePatch.
ConstSPtr [type] in MNETriangle — Const shared pointer type for MNETriangle.
ConstSPtr [type] in MNEVolGeom — Const shared pointer type for MNEVolGeom.
ConstSPtr [type] in ModalitySelectionView — Const shared pointer type for ModalitySelectionView.
ConstSPtr [type] in MultiView — Const shared pointer type for MultiView.
ConstSPtr [type] in MultiViewWindow — Const shared pointer type for MultiViewWindow.
ConstSPtr [type] in Network — Const shared pointer type for Network.
ConstSPtr [type] in Network — Const shared pointer type for Network.
ConstSPtr [type] in NetworkEdge — Const shared pointer type for NetworkEdge.
ConstSPtr [type] in NetworkEdge — Const shared pointer type for NetworkEdge.
ConstSPtr [type] in NetworkNode — Const shared pointer type for NetworkNode.
ConstSPtr [type] in NetworkNode — Const shared pointer type for NetworkNode.
ConstSPtr [type] in PartialDirectedCoherence — Const shared pointer type for PartialDirectedCoherence.
ConstSPtr [type] in PartialDirectedCoherence — Const shared pointer type for PartialDirectedCoherence.
ConstSPtr [type] in PhaseLagIndex — Const shared pointer type for PhaseLagIndex.
ConstSPtr [type] in PhaseLagIndex — Const shared pointer type for PhaseLagIndex.
ConstSPtr [type] in PhaseLockingValue — Const shared pointer type for PhaseLockingValue.
ConstSPtr [type] in PhaseLockingValue — Const shared pointer type for PhaseLockingValue.
ConstSPtr [type] in Plot — Const shared pointer type for Plot class.
ConstSPtr [type] in ProjectorsView — Const shared pointer type for ProjectorsView.
ConstSPtr [type] in QuickControlView — Const shared pointer type for QuickControlView.
ConstSPtr [type] in RtAveraging — Const shared pointer type for RtAveraging.
ConstSPtr [type] in RtClient — Const shared pointer type for MNERtClient.
ConstSPtr [type] in RtCmdClient — Const shared pointer type for RtCmdClient.
ConstSPtr [type] in RtConnectivity — Const shared pointer type for RtConnectivity.
ConstSPtr [type] in RtDataClient — Const shared pointer type for RtDataClient.
ConstSPtr [type] in RtFiffRawView — Const shared pointer type for RtFiffRawView.
ConstSPtr [type] in RtFiffRawViewDelegate — Const shared pointer type for RtFiffRawViewDelegate.
ConstSPtr [type] in RtFiffRawViewModel — Const shared pointer type for RtFiffRawViewModel.
ConstSPtr [type] in RtHpi — Const shared pointer type for RtHpi.
ConstSPtr [type] in RtInvOp — Const shared pointer type for RtInvOp.
ConstSPtr [type] in RtNoise — Const shared pointer type for RtNoise.
ConstSPtr [type] in ScalingView — Const shared pointer type for ScalingView.
ConstSPtr [type] in SelectionScene — Const shared pointer type for SelectionScene.
ConstSPtr [type] in SelectionSceneItem — Const shared pointer type for SelectionSceneItem.
ConstSPtr [type] in SpectrumSettingsView — Const shared pointer type for SpectrumSettingsView.
ConstSPtr [type] in SpectrumView — Const shared pointer type for SpectrumView.
ConstSPtr [type] in SpharaSettingsView — Const shared pointer type for SpharaSettingsView.
ConstSPtr [type] in Spline — Const shared pointer type for Spline class.
ConstSPtr [type] in Subject — Const shared pointer type for Subject.
ConstSPtr [type] in TFplot — Const shared pointer type for TFplot class.
ConstSPtr [type] in TfSettingsView — Const shared pointer type for TfSettingsView.
ConstSPtr [type] in TriggerDetectionView — Const shared pointer type for TriggerDetectionView.
ConstSPtr [type] in UnbiasedSquaredPhaseLagIndex — Const shared pointer type for UnbiasedSquaredPhaseLagIndex.
ConstSPtr [type] in UnbiasedSquaredPhaseLagIndex — Const shared pointer type for UnbiasedSquaredPhaseLagIndex.
ConstSPtr [type] in Warp — Const shared pointer type for Warp.
ConstSPtr [type] in WeightedPhaseLagIndex — Const shared pointer type for WeightedPhaseLagIndex.
ConstSPtr [type] in WeightedPhaseLagIndex — Const shared pointer type for WeightedPhaseLagIndex.
ConstUPtr [type] in FiffChInfo — Const unique pointer type for FiffChInfo.
ConstUPtr [type] in FiffChPos — Const unique pointer type for FiffChPos.
ConstUPtr [type] in FiffCoordTrans — Const unique pointer type for FiffCoordTrans.
ConstUPtr [type] in FiffCoordTransSet — Const unique pointer type for FiffCoordTransSet.
ConstUPtr [type] in FiffCov — Const unique pointer type for FiffCov.
ConstUPtr [type] in FiffCtfComp — Const unique pointer type for FiffCtfComp.
ConstUPtr [type] in FiffDigitizerData — Const unique pointer type for FiffDigitizerData.
ConstUPtr [type] in FiffDigPoint — Const unique pointer type for FiffDigPoint.
ConstUPtr [type] in FiffDigPointSet — Const unique pointer type for FiffDigPointSet.
ConstUPtr [type] in FiffDirEntry — Const unique pointer type for FiffDirEntry.
ConstUPtr [type] in FiffDirNode — Const unique pointer type for FiffDirNode.
ConstUPtr [type] in FiffEvoked — Const unique pointer type for FiffEvoked.
ConstUPtr [type] in FiffEvokedSet — Const unique pointer type for FiffEvokedSet.
ConstUPtr [type] in FiffId — Const unique pointer type for FiffId.
ConstUPtr [type] in FiffInfo — Const unique pointer type for FiffInfo.
ConstUPtr [type] in FiffInfoBase — Const unique pointer type for FiffInfoBase.
ConstUPtr [type] in FiffNamedMatrix — Const unique pointer type for FiffNamedMatrix.
ConstUPtr [type] in FiffProj — Const unique pointer type for FiffProj.
ConstUPtr [type] in FiffRawData — Const unique pointer type for FiffRawData.
ConstUPtr [type] in FiffRawDir — Const unique pointer type for FiffRawDir.
ConstUPtr [type] in FiffSparseMatrix — Const unique pointer type for FiffSparseMatrix.
ConstUPtr [type] in FiffStream — Const unique pointer type for FiffStream.
ConstUPtr [type] in FiffTag — Const unique pointer type for FiffTag.
contactInstanceCount [fn] in ElectrodeObject
contacts [var] in ElectrodeArray — Contacts in array-local order.
contHpiStatusChanged [signal] in HpiSettingsView — Emit this signal whenever continous HPI checkbox changed.
continuousHPIChecked [fn] in HpiSettingsView — Returns whether continuous fitting is checked.
contourStep [fn] in SensorFieldMapper — Compute a "nice" iso-contour step given a value range and target number of ticks.
Control3DView [fn] in Control3DView — Default constructor.
converged [var] in InfomaxResult — Whether the algorithm converged.
convert_ch_pos [fn] in FiffTag — Convert coil position descriptor.
convert_matrix_from_file_data [fn] in FiffTag — Machine dependent data type conversions (tag info only).
convert_matrix_to_file_data [fn] in FiffTag — Convert matrix data before writing to a file inside a fiff tag.
convert_tag_data [fn] in FiffTag — Machine dependent data type conversions (tag info only).
coord_frame [var] in ComputeFwdSettings — Can be changed with the mricoord option.
coord_frame [var] in FiffChInfo — Coordinate Frame.
coord_frame [var] in FiffDigitizerData — The coordinate frame of the above points.
coord_frame [var] in FiffDigPoint — Newly added to stay consistent with fiff MATLAB implementation.
coord_frame [var] in FwdCoil — Which coordinate frame are we in?
coord_frame [var] in FwdCoilSet — Common coordinate frame.
coord_frame [var] in InvDipoleFitData — Common coordinate frame.
coord_frame [var] in MNEForwardSolution — Coil coordinate system definition.
coord_frame [var] in MNEInverseOperator — Coordinate frame of the inverse (MRI or head).
coord_frame [var] in MNERawInfo — Which coordinate frame are the positions defined in?
coord_frame [var] in MNESssData — Coordinate frame.
coord_frame [var] in MNESurfaceOrVolume — Which coordinate system the data are in now.
coordinateSystem [var] in BidsRawData — Coordinate system from *_coordsystem.json.
coordsystemJsonPath [fn] in BIDSPath — Returns the path for the coordsystem.json sidecar.
copy_tree [fn] in Fiff — fiff_copy_tree
copy_tree [fn] in FiffDirNode — Copies directory subtrees from fidin to fidout.
copyData [var] in WriteOptions — Copy the raw data file into the BIDS directory.
copyProcessingHistory [fn] in FiffStream — Copy the FIFF processing history block from one file to another.
copyRealtimeFile [fn] in FiffFileSharer — Copies unfinished fiff file to set directory and appends relevant end tags to copy.
CoregSettingsView [fn] in CoregSettingsView — Constructs a CoregSettingsView object.
correct_auto_elements [fn] in FwdBemModel — Correct the auto (self-coupling) elements of the linear collocation matrix.
correctionDisplayTrueValue [fn] in Spline — correctionDisplayTrueValue creates necessary adjustment of exponential multiplication with base 10
Correlation [fn] in Correlation — Constructs a Correlation object.
Correlation [fn] in Correlation — Constructs a Correlation object.
correlation [var] in TrapMusicDipole — Subspace correlation value (0..1).
correlations [var] in InvSourceCoupling — N x N correlation matrix between the coupled sources.
CosineFilter [fn] in CosineFilter — Constructs a CosineFilter object.
CosineFilter [fn] in CosineFilter — Constructs a CosineFilter object.
cosmag [var] in FwdCoil — The corresponding direction cosines (np x 3).
cosmag [fn] in InvSensorSet
cosmag [fn] in InvSensorSet
count [fn] in Command — Returns the number of parameters.
count [fn] in RawCommand — Returns the number of parameters.
countOf [fn] in AcquiredPoints
couplings [var] in InvSourceEstimate — Correlated source groups overlaid on the grid.
cov [var] in MNECovMatrix — Packed lower-triangle covariance data (ncov*(ncov+1)/2 elements).
cov_diag [var] in MNECovMatrix — Diagonal covariance data (ncov elements).
cov_sparse [var] in MNECovMatrix — Sparse covariance matrix (note: data are floats).
CovarianceSettingsView [fn] in CovarianceSettingsView
covFiles [var] in ProcessingSettings — Covariance description file(s).
create [fn] in MNECovMatrix — Create a covariance matrix from either dense or diagonal data.
create_average_eeg_ref [fn] in MNEProjOp — Create an average EEG reference projector.
create_dense [fn] in MNECovMatrix — Create a dense (full lower-triangle packed) covariance matrix.
create_diag [fn] in MNECovMatrix — Create a diagonal covariance matrix.
create_eeg_el [fn] in FwdCoil — Create an electrode definition.
create_eeg_els [fn] in FwdCoilSet — Create a EEG coil set definition using a channel information Change the coordinate frame if so desired.
create_eeg_multi_thread_duplicate [fn] in FwdThreadArg — Create a thread-safe duplicate for EEG parallel forward computation.
create_meg_coil [fn] in FwdCoilSet — Create a MEG coil definition using a database of templates Change the coordinate frame if so desired.
create_meg_coils [fn] in FwdCoilSet — Create a MEG coil set definition using a database of templates Change the coordinate frame if so desired.
create_meg_multi_thread_duplicate [fn] in FwdThreadArg — Create a thread-safe duplicate for MEG parallel forward computation.
create_source_space [fn] in MNESourceSpace — Create a new source space with np vertices and all associated data initialized to defaults.
create_sparse [fn] in MNECovMatrix — Create a sparse covariance matrix.
create_sparse_rcs [fn] in FiffSparseMatrix — Create a sparse RCS matrix from row-based data.
createBarbell [fn] in MeshFactory — Create a barbell shape (two spheres connected by a thin rod), used for MEG gradiometers.
createBatchedSpheres [fn] in MeshFactory — Create a batched mesh of identical spheres at multiple positions (used for source space points, digitizer points, etc.).
createCylinder [fn] in MeshFactory — Create a cylinder between two world-space endpoints.
created [var] in MnaProject — Creation timestamp.
created_here [var] in MNEEvent — Non-zero if this event was created in the program.
createFilterChannelList [fn] in RtFiffRawViewModel — Create list of channels which are to be filtered based on channel names.
createFromData [fn] in BrainSurface — Create surface from raw vertex and triangle data.
createFromData [fn] in BrainSurface — Create surface from raw vertex, normal and triangle data.
createInterpolationMat [fn] in Interpolation — createInterpolationMat Calculates the weight matrix for interpolation.
createPlate [fn] in MeshFactory — Create a thin oriented rectangular plate (used for MEG magnetometers).
createReader [fn] in BidsRawData — Create the appropriate format reader for a given file extension.
createSphere [fn] in MeshFactory — Create a subdivided icosahedron sphere.
crop [fn] in FiffAnnotations — Returns annotations overlapping [tmin, tmax], clipping partially overlapping ones.
CrossCorrelation [fn] in CrossCorrelation — Constructs a CrossCorrelation object.
CrossCorrelation [fn] in CrossCorrelation — Constructs a CrossCorrelation object.
crosshairEnabled [fn] in ChannelDataView
crosshairEnabled [fn] in ChannelRhiView
crosshairToggled [signal] in ChannelDataView
csdByFreq [var] in CsdResult — One n_ch × n_ch CSD matrix per selected frequency bin.
csdFromTaperedSpectra [fn] in Spectral — Calculates the cross-spectral density of the tapered spectra of seed and target.
ctf_head_t [var] in FiffInfoBase — CTF to head coordinate transformation.
ctfkind [var] in FiffCtfComp — CTF kind.
ctrs [var] in RegionDataOut — Cluster centers.
ctrs [var] in RegionMTOut — Cluster centroids (nClusters x features).
cubic [fn] in Interpolation — cubic Cubic hyperbola interpolation function.
current [var] in MNECTFCompDataSet — Compiled compensation operator for the current target grade.
current [var] in MNEMeasData — Pointer to the currently active data set.
CURRENT_SCHEMA_VERSION [var] in MnaProject — Current MNA schema version.
currentTimePoint [fn] in SourceEstimateManager
currentTimePoint [var] in SubView
currentTimeSample [fn] in MultimodalScene
cursorDataChanged [signal] in ChannelDataView — Forwarded from the underlying ChannelRhiView when the crosshair is active.
cursorDataChanged [signal] in ChannelRhiView — Emitted continuously when the crosshair is active and the mouse moves.
cursorForHit [fn] in MultiViewLayout — Return the Qt::CursorShape appropriate for a splitter hit.
curv [fn] in FsSurface — FreeSurfer curvature.
curv [var] in MNESurfaceOrVolume — The FreeSurfer curvature values (np elements).
curvature_color_mode [var] in MNEMshDisplaySurface — How curvature is visualized.
customLogWriter [fn] in MNELogger — Customized logWriter to colorize type of the message in the terminal.
cxmax [var] in MNELayout — Confined VDC right limit.
cxmin [var] in MNELayout — Confined VDC left limit.
cymax [var] in MNELayout — Confined VDC top limit.
cymin [var] in MNELayout — Confined VDC bottom limit.

D

D [var] in RegionDataOut — Distances to the centroid.
D [var] in RegionMTOut — Distance matrix (nSources x nClusters).
dAlphaSpace [var] in InvTfMxneParams — Spatial regularization (L21 penalty on source groups).
dAlphaTime [var] in InvTfMxneParams — Temporal regularization (L1 penalty on TF coefficients).
data [var] in ArtifactRejectionData
data [fn] in ChannelInfoModel
data [fn] in EvokedSetModel — Data for the row and column and given display role.
data [fn] in EvokedSetModel — Returns the data stored under the given role for the item referred to by the index.
data [var] in FiffCov — Covariance data.
data [var] in FiffCtfComp — Compensation data.
data [var] in FiffEpochData — Epoch data (n_channels × n_times_per_epoch).
data [var] in FiffEvoked — 2D array of shape [n_channels x n_times]; Evoked response.
data [var] in FiffNamedMatrix — Matrix data.
data [var] in FiffProj — Projector data, rows are equal to the length of channels.
data [fn] in FrequencySpectrumModel — Returns the data stored under the given role for the item referred to by the index.
data [fn] in FsAnnotationSet — Returns The FsAnnotation set map.
data [fn] in FsSurfaceSet — Returns The surface set map.
data [var] in InvSourceEstimate — Matrix of shape [n_dipoles x n_times] which contains the data in source space.
data [fn] in MlTensor
data [fn] in MlTensor
data [var] in MnaFileRef — Embedded file data (only when embedded == true).
data [var] in MNECTFCompData — The compensation matrix.
data [var] in MNEMeasDataSet — Measured data matrix [np x nchan] (time-major layout).
data [var] in MNEMghTag — Raw tag data payload.
data [var] in MNENamedMatrix — Dense data matrix of dimension nrow x ncol.
data [var] in MNENamedVector — The data itself.
data [var] in MNESparseNamedMatrix — The data itself (sparse).
data [fn] in RtFiffRawViewModel — Returns the data stored under the given role for the item referred to by the index.
data_filt [var] in MNEMeasDataSet — Optionally filtered copy of the data.
data_proj [var] in MNEMeasDataSet — Data after SSP projection (kept separately for some programs).
data_white [var] in MNEMeasDataSet — Whitened data (noise-normalised).
dataChanged [signal] in ChannelDataModel — Emitted whenever stored data changes (new data appended or replaced).
dataKind [var] in MnaOpSchemaPort — Expected data kind.
dataKind [var] in MnaPort — Data kind flowing through this port.
DataLoader [fn] in DataLoader
dataname [var] in InvEcdSet — The associated data file.
datap [var] in MNEMneData — Projection of the whitened data onto the field eigenvectors.
datasetName [var] in WriteOptions — Name for dataset_description.json (defaults to "[Unspecified]").
datasetType [var] in BidsDatasetDescription — "raw" or "derivative" (RECOMMENDED).
datatype [fn] in BIDSPath — BIDS datatype string.
dataUpdate [fn] in ButterflyView — Perform a data update.
date [var] in BrainVisionMarker — Optional date/time (for New Segment markers).
dBaseMax [var] in EpochExtractorParams — Baseline end in seconds (relative to event).
dBaseMin [var] in EpochExtractorParams — Baseline start in seconds (relative to event).
dCorrThresh [var] in BadChannelDetectParams — Mean absolute neighbour correlation below this -> isolated.
DebiasedSquaredWeightedPhaseLagIndex [fn] in DebiasedSquaredWeightedPhaseLagIndex — Constructs a DebiasedSquaredWeightedPhaseLagIndex object.
DebiasedSquaredWeightedPhaseLagIndex [fn] in DebiasedSquaredWeightedPhaseLagIndex — Constructs a DebiasedSquaredWeightedPhaseLagIndex object.
debugFirstDipolePosition [fn] in DipoleObject
decide_curv_display [fn] in MNEMshDisplaySurface — Set the curvature display mode based on a surface type name.
decide_search_restriction [fn] in MNESurface — Set up the triangle activation mask for a restricted surface search.
decide_surface_extent [fn] in MNEMshDisplaySurface — Compute and store the axis-aligned bounding box and field-of-view radius by iterating all vertex positions.
decimatedVertices [fn] in ChannelDataModel — Return a flat float array ready for VBO upload.
decimation [var] in ProcessingSettings — Decimation factor.
DecodingCsp [fn] in DecodingCsp — Constructs a CSP decoder.
DecodingSpoc [fn] in DecodingSpoc — Constructs a SPoC decoder.
DecodingSsd [fn] in DecodingSsd — Constructs an SSD decoder.
decompose_eigen [fn] in MNECovMatrix — Convenience wrapper for decompose_eigen_small() with default threshold and no rank override.
decompose_eigen_small [fn] in MNECovMatrix — Perform eigenvalue decomposition of the covariance matrix, zero sub-threshold eigenvalues, classify eigenvectors by channel type, and compute inverse square-roots for whitening.
decompress [fn] in MriNiftiIO — Decompresses a ``.nii.gz file into rawData.
defaultForIndex [fn] in SubView — Return default SubView configuration for viewport index.
defaultValue [var] in MnaOpSchemaAttr — Default when not set.
defs [var] in CovDescription — Definition sections.
degreesOfFreedom [var] in StatsTtestResult — Degrees of freedom.
delay [var] in AverageCategory — Stimulus delay (s).
delay [var] in CovDefinition — Apply this delay to the stimulus time point.
dElectricalDistanceThreshold [var] in BridgedElectrodeParams — Max electrical distance to flag as bridged.
denoise [fn] in Xdawn — Reconstruct one epoch from the first nComponents xDAWN components.
denoiseEpochs [fn] in Xdawn — Apply denoise() to all epochs in the vector, preserving metadata.
dependencies [var] in MnaParamBinding — Paths this binding reads from.
depth [var] in MNEVolGeom — Dimensions of the volume stack (in voxels).
depth [var] in MriVolData — Third dimension (slowest).
depth_prior [var] in MNEInverseOperator — Depth prior (depth-weighting coefficients).
deriv [var] in MNERawData — Derivation data definitions.
deriv_data [var] in MNEDeriv — The derivation data itself (sparse named matrix).
deriv_matched [var] in MNERawData — Derivation data matched to this raw data.
derivs [var] in MNEDerivSet — List of derivation items.
desc [var] in FiffProj — Projector description.
desc [var] in FwdCoil — Description for this type of a coil.
desc [var] in MNEProjItem — Human-readable description (e.g.
description [var] in BidsChannel — Free-text description (OPTIONAL).
description [var] in BidsCoordinateSystem — Description of the coordinate system (RECOMMENDED).
description [fn] in BIDSPath — Description label.
description [var] in BrainVisionMarker — Description (e.g., "S253", "R255").
description [fn] in Command — Gets the help text or description of this command.
description [var] in FiffAnnotation — Label: "BAD", "BAD_ACQ_SKIP", etc.
description [var] in FiffInfo — (Textual) Description of an object.
description [var] in MnaOpSchema — What the operation does.
description [var] in MnaOpSchemaAttr — Human-readable description.
description [var] in MnaOpSchemaPort — Human-readable description.
description [var] in MnaProject — Project description.
description [var] in MnaVerificationCheck — Human-readable: "Covariance matrix must be positive-definite".
design [fn] in FirFilter — Design a linear-phase FIR filter using FilterKernel as the backend.
designButterworth [fn] in IirFilter — Design a Butterworth filter as a cascade of second-order sections.
DesignMethod [enum] in FirFilter — FIR design method — wraps FilterKernel's iDesignMethod integer codes.
detach [fn] in Subject — Detaches an observer of the subject.
detect [fn] in BadChannelDetect — Run all three detectors and return the union of bad channel row indices.
detect_from_raw [fn] in FiffEvents — Detect trigger events from raw data using a stimulus channel.
detectEcg [fn] in ArtifactDetect — Detect ECG R-peak events.
detectEog [fn] in ArtifactDetect — Detect EOG blink/saccade events.
detectFlat [fn] in BadChannelDetect — Detect flat (dead) channels.
detectHighVariance [fn] in BadChannelDetect — Detect high-variance (noisy) channels.
detectLowCorrelation [fn] in BadChannelDetect — Detect low-correlation (isolated) channels.
detectTriggers [signal] in TriggerDetectionView — Emit this signal when user clicks detect trigger button.
detrendMode [fn] in ChannelDataModel
detrendMode [fn] in ChannelDataView
dev_ctf_t [var] in FiffInfo — Device to CTF coordinate transformation.
dev_head_t [var] in FiffInfoBase — Device to head coordinate transformation.
dev_nn [var] in MNEPatchInfo — Average angular deviation of member normals from ave_nn (radians).
devHeadTrans [var] in HpiFitResult
devHeadTrans [var] in SensorLoadResult — Device→Head transform (identity if absent).
devicePoseChanged [signal] in PolhemusCoregistration
deviceToWorld [fn] in PolhemusCoregistration
dfBetween [var] in StatsFtestResult — Between-groups degrees of freedom.
dFilterHigh [var] in AnnotateMusclParams — Low-pass cutoff for muscle band (Hz).
dFilterHigh [var] in ArtifactDetectEcgParams — Bandpass upper cutoff (Hz).
dFilterHigh [var] in ArtifactDetectEogParams — Low-pass cutoff (Hz).
dFilterLow [var] in AnnotateMusclParams — High-pass cutoff for muscle band (Hz).
dFilterLow [var] in ArtifactDetectEcgParams — Bandpass lower cutoff (Hz).
dFlatMin [var] in AnnotateAmplitudeParams — Flatness threshold — annotate if peak-to-peak in a window < this.
dFlatThreshold [var] in BadChannelDetectParams — Peak-to-peak below this -> flat (SI units; ~0.1 fT for MEG).
dFMax [var] in InvTfMxneParams — Maximum frequency (Hz) for Gabor atoms.
dFMin [var] in InvTfMxneParams — Minimum frequency (Hz) for Gabor atoms.
dfWithin [var] in StatsFtestResult — Within-groups degrees of freedom.
dGain [var] in FineCalEntry — Gain correction factor (nominal = 1.0).
dGof [var] in HeadPosEntry — Goodness of fit for this head position.
diag [var] in FiffCov — If the covariance is stored in a diagonal order.
diagnoise [var] in InvDipoleFitSettings — Use only the diagonals of the noise-covariance matrix.
diagonalFixed [fn] in StsCovEstimators — Fixed diagonal regularisation.
diff [var] in MNEMshLight
dig [var] in FiffInfo — List of all digitization point descriptors.
dig [var] in ViewVisibilityProfile
dig_trans [var] in FiffInfo — Digitizer coordinate transformation.
dig_trigger [var] in MNERawData — Name of the digital trigger channel.
dig_trigger_mask [var] in MNERawData — Bit mask applied to digital trigger channel.
digCardinal [var] in ViewVisibilityProfile
digEeg [var] in ViewVisibilityProfile
digExtra [var] in ViewVisibilityProfile
digFileChanged [signal] in CoregSettingsView — Emit this signal whenever new digitizers were loaded.
digHpi [var] in ViewVisibilityProfile
digitalMax [var] in EDFChannelInfo
digitalMin [var] in EDFChannelInfo
digitizerPoints [var] in SensorLoadResult
digitizersChanged [signal] in HpiSettingsView — Emit this signal whenever new digitzers were loaded.
DigitizerSetTreeItem [fn] in DigitizerSetTreeItem — Constructs a DigitizerSetTreeItem from a list of FIFF digitizer points.
DigitizerTreeItem [fn] in DigitizerTreeItem — Constructs a DigitizerTreeItem for a single category of digitizer points.
digTrigger [var] in ProcessingSettings — Digital trigger channel name.
digTriggerMask [var] in ProcessingSettings — Mask for digital trigger channel.
dim [var] in FiffCov — Dimension of the covariance (dim x dim).
dims [fn] in MriVolData
dimX [fn] in MriVolData
dimx [var] in MriSlice — Pixel size in x direction (meters).
dimY [fn] in MriVolData
dimy [var] in MriSlice — Pixel size in y direction (meters).
dimZ [fn] in MriVolData
dipname [var] in InvDipoleFitSettings — Output file in dip format.
Dipole [var] in BrainRenderer
dipole_forward_one [fn] in InvDipoleFitData — Compute the forward solution for a single dipole position.
DipoleFitView [fn] in DipoleFitView
dipoleIndex [var] in PickResult — Index within the dipole set.
DipoleObject [fn] in DipoleObject
dipoles [var] in ViewVisibilityProfile
DipoleTreeItem [fn] in DipoleTreeItem
dir [var] in FiffDirNode — Directory of tags in this node.
dir [fn] in FiffStream — Returns the directory compiled into a tree dir is set when open() was called.
dir [fn] in FiffStream — Returns the directory compiled into a tree dir is set when open() was called.
dir [fn] in FwdCoil — Return a read-only map to the j-th integration point direction cosine.
dir_tree [var] in FiffDirNode — Directory of tags within this node subtrees as well as FIFF_BLOCK_START and FIFF_BLOCK_END.
dir_tree_find [fn] in Fiff — fiff_dir_tree_find
dir_tree_find [fn] in FiffDirNode — Find nodes of the given kind from a directory tree structure.
directed [var] in InvConnectivity — True for directed measures (Granger, PDC, DTF); false for undirected (COH, PLV, PLI).
DirectedTransferFunction [fn] in DirectedTransferFunction — Constructs a DirectedTransferFunction object.
DirectedTransferFunction [fn] in DirectedTransferFunction — Constructs a DirectedTransferFunction object.
direction [var] in MnaPort — Input or Output.
directory [fn] in BIDSPath — Constructs the directory path for this entity combination.
dirtree [fn] in FiffStream — Returns the directory compiled into a tree tree is set when open() was called.
dirty [var] in MnaNode — Whether node needs re-execution.
dirtyNodes [fn] in MnaGraph
discard [var] in FiffDigitizerData — Which points should be discarded.
discard_outlier_digitizer_points [fn] in MNEMshDisplaySurface — Mark digitizer points whose distance to the head surface exceeds maxdist.
disconnectFromHost [fn] in RtDataClient — Attempts to close the socket.
displayLabel [fn] in PickResult — Build a human-readable display label for the hit object.
displayName [var] in SceneLayer — Human-readable label for the scene tree dock.
dist [var] in FiffDigitizerData — Distance of each point from the head surface.
dist [var] in MNENearest — Distance to the nearest 'inuse' vertex (meters).
dist [var] in MNESurfaceOrVolume — Distances between (used) vertices along the surface.
dist_limit [var] in MNESurfaceOrVolume — Distance limit: values above this were not computed.
dist_valid [var] in FiffDigitizerData — Whether the above distance data is valid.
distance [var] in CameraResult
distance [var] in PickResult — Distance along ray to hit point.
distanceTimeSpacerChanged [signal] in FiffRawViewSettings — Emit this signal whenever the user changed the time spacer distance.
distanceTimeSpacerChanged [fn] in RtFiffRawViewModel — distanceTimeSpacerChanged changes the distance of the time spacers
dMinDuration [var] in AnnotateAmplitudeParams — Minimum duration of annotation (seconds).
dMinDuration [var] in AnnotateMusclParams — Minimum annotation duration in seconds.
dMinGapSec [var] in AnnotateMusclParams — Merge annotations closer than this (seconds).
dMinGapSec [var] in ArtifactDetectEogParams — Minimum gap between successive events in seconds.
dMinHeight [var] in PeakFinderParams — Minimum peak height.
dMinRatio [var] in BadChannelsMaxwellParams — Minimum relative residual to consider (skip near-zero).
dMinRRSec [var] in ArtifactDetectEcgParams — Minimum R–R interval in seconds (caps detection rate at ~170 bpm).
dNotchWidth [var] in FilterChpiParams — Half-width of each notch filter in Hz (notch = freq +/- width).
do_all [var] in ComputeFwdSettings
do_baseline [var] in InvDipoleFitSettings — Are both baseline limits set?
doAbs [var] in AverageCategory — Compute absolute values?
doBaseline [var] in AverageCategory — Should we baseline?
doBaseline [var] in CovDefinition — Should we baseline first?
dockLocationChanged [signal] in MultiView
doDipfitConcurrent [fn] in InvHpiFitData — dipfit function is adapted from Fieldtrip Software.
dof [var] in MriVolData — Degrees of freedom.
doForwardComputation [signal] in FwdSettingsView — Emit this signal whenever a forward computation is supposed to be triggered.
doFreqOrder [signal] in HpiSettingsView — Emit this signal whenever the frequency ordering is supposed to be triggered.
doInverseSetup [fn] in InvMinimumNorm — Perform the inverse setup: Prepares this inverse operator and assembles the kernel.
doSingleHpiFit [signal] in HpiSettingsView — Emit this signal whenever a single HPI fit is supposed to be triggered.
doStdErr [var] in AverageCategory — Compute std error of mean?
downstreamNodes [fn] in MnaGraph
doWork [fn] in RtAveragingWorker — Perform one averaging step on new incoming data.
doWork [fn] in RtConnectivityWorker — Perform actual connectivity estimation.
doWork [fn] in RtHpiWorker — Perform one single HPI fit.
doWork [fn] in RtInvOpWorker — Perform actual inverse operator creation.
doWork [fn] in RtNoiseWorker — Process one data block, accumulate, and emit the spectrum when enough blocks are collected.
dPeakMax [var] in AnnotateAmplitudeParams — Max amplitude — annotate if any sample exceeds this.
dPeakMin [var] in AnnotateAmplitudeParams — Min amplitude — annotate if any sample goes below this.
dpfiterror [var] in CoilParam
dpfitnumitr [var] in CoilParam
dProminence [var] in PeakFinderParams — Minimum peak prominence.
DraggableFramelessWidget [fn] in DraggableFramelessWidget — Constructs a DraggableFramelessWidget which is a child of parent.
dragSplitter [fn] in MultiViewLayout — Update split fractions from a mouse drag position.
drawable [var] in MNEMshDisplaySurfaceSet — Boolean array indicating which surfaces could be drawn.
drawMergedSurfaces [fn] in BrainRenderer — Draw previously prepared merged surfaces in a single drawIndexed.
drawOrder [var] in SceneLayer — Tie-breaker within the same kind.
dRegIn [var] in MaxwellMoveCompParams — Regularisation parameter.
dRegIn [var] in SSSParams — Tikhonov regularisation for the combined-basis pseudoinverse.
dropRejected [fn] in MNEEpochDataList — Drop/Remove all epochs tagged as rejected.
dSFreq [var] in InvTfMxneParams — Sampling frequency (Hz).
dThreshFactor [var] in ArtifactDetectEcgParams — R-peak threshold = dThreshFactor * (max − min) + min of the filtered signal.
dThreshold [var] in AnnotateMusclParams — Z-score threshold for marking as muscle artifact.
dThreshold [var] in ArtifactRejectionData
dThreshold [var] in EpochExtractorParams — Peak-to-peak amplitude rejection threshold (SI units, e.g.
dThreshold [var] in LofBadChannelParams — LOF score threshold for marking a channel as bad.
dThresholdV [var] in ArtifactDetectEogParams — Absolute voltage threshold (V).
dTime [var] in HeadPosEntry — Time in seconds.
dTmax [var] in EpochExtractorParams — Epoch end relative to event in seconds.
dTmin [var] in EpochExtractorParams — Epoch start relative to event in seconds (negative = pre-stimulus).
dTolerance [var] in InvTfMxneParams — Convergence tolerance.
dup [fn] in MNECovMatrix — Create a deep copy of this covariance matrix including data, channel classes, bad channel list, projection, and SSS info.
dup [fn] in MNEProjOp — Create a deep copy of this projection operator.
dup_coil_set [fn] in FwdCoilSet — Make a coil set duplicate.
dup_light_set [fn] in MNEMshDisplaySurfaceSet — Deep-copy a light set including all individual light entries.
duration [var] in BidsEvent — Duration of the event in seconds.
duration [var] in BrainVisionMarker — Duration in samples (0 = point marker).
duration [var] in FiffAnnotation — Duration in seconds (0 for point events).
duration [var] in SimulateStcParams — Duration (seconds).
dVarZThresh [var] in BadChannelDetectParams — Z-score of std-dev above this -> noisy.
dWindowSec [var] in AnnotateAmplitudeParams — Sliding window duration in seconds for flatness check.
dZThreshold [var] in BadChannelsMaxwellParams — Z-score threshold for flagging bad channels.

E

ecdSet [fn] in DipoleTreeItem
EcgParams [type] in ArtifactDetect — Convenience alias so callers can still write ArtifactDetect::EcgParams.
EDFReader [fn] in EDFReader — EDFReader Default constructor.
edgeIndexBuffer [fn] in NetworkObject
edgeIndexCount [fn] in NetworkObject
edgeInstanceBuffer [fn] in NetworkObject
edgeInstanceCount [fn] in NetworkObject
edgeVertexBuffer [fn] in NetworkObject
eeg_client [var] in dipoleFitFuncsRec — Client data for EEG field computations.
eeg_client_free [var] in dipoleFitFuncsRec — Destructor for EEG client data.
eeg_els [var] in InvDipoleFitData — EEG electrode definitions.
eeg_loc [var] in FiffChInfo — Channel location.
eeg_model [var] in InvDipoleFitData — EEG sphere model definition.
eeg_model_file [var] in ComputeFwdSettings — File of EEG sphere model specifications.
eeg_model_file [var] in InvDipoleFitSettings — File of EEG sphere model specifications.
eeg_model_name [var] in ComputeFwdSettings — Name of the EEG model to use.
eeg_model_name [var] in InvDipoleFitSettings — Name of the EEG model to use.
eeg_pot [var] in dipoleFitFuncsRec — EEG forward calculation function.
eeg_reg [var] in InvDipoleFitSettings — Noise-covariance matrix regularization for EEG.
eeg_sphere_rad [var] in ComputeFwdSettings — Scalp radius to use in EEG sphere model.
eeg_sphere_rad [var] in InvDipoleFitSettings — Scalp radius to use in EEG sphere model.
eeg_std [var] in InvDipoleFitSettings — Standard deviation for EEG if noise covariance is not specified.
eeg_vec_pot [var] in dipoleFitFuncsRec — EEG vectorized forward calculation function.
eegFieldContours [var] in ViewVisibilityProfile
eegFieldMap [var] in ViewVisibilityProfile
eegItems [var] in SensorLoadResult
eegMapping [fn] in SensorFieldMapper
eegPick [fn] in SensorFieldMapper
eegSurfaceKey [fn] in SensorFieldMapper
eig [var] in FiffCov — Vector of eigenvalues.
eigen [fn] in FiffSparseMatrix — Mutable access to the underlying Eigen sparse matrix.
eigen [fn] in FiffSparseMatrix — Const access to the underlying Eigen sparse matrix.
eigen [var] in MNECovMatrix — Eigenvectors of the covariance matrix (nzero columns removed).
eigen_fields [var] in MNEInverseOperator — Left singular vectors (eigenfields), channels x components.
eigen_leads [var] in MNEInverseOperator — Right singular vectors (eigenleads), sources x components.
eigen_leads_weighted [var] in MNEInverseOperator — True if eigenleads already include R^{0.5} weighting.
eigenvalues [fn] in DecodingSsd
eigvec [var] in FiffCov — Matrix of eigenvectors (each row represents an eigenvector).
electrodeCount [fn] in StandardMontage — Get the number of electrodes in a montage.
ElectrodeObject [fn] in ElectrodeObject
electrodes [var] in BidsRawData — Electrode positions from *_electrodes.tsv.
electrodesTsvPath [fn] in BIDSPath — Returns the path for the electrodes.tsv sidecar.
embedded [var] in MnaFileRef — Whether data is embedded in the container.
emitChanged [fn] in AcquiredPoints
empty [fn] in MlTensor
enable_all_sources [fn] in MNESourceSpace — Enable all source points (set inuse to TRUE, nuse = np).
enabled [var] in SubView
end_block [fn] in Fiff — fiff_end_block
end_block [fn] in FiffStream — Writes a FIFF_BLOCK_END tag.
end_file [fn] in Fiff — fiff_end_file
end_file [fn] in FiffStream — Writes the closing tags to a fif file and closes the file.
endian [var] in FiffDataRef — Are the data in the little or big endian byte order.
endPass [fn] in BrainRenderer — End any render pass (clearing or preserving).
endSample [var] in AnnotationSpan — Absolute last sample covered by the annotation.
endToSample [fn] in FiffAnnotations — Converts end (onset+duration) of annotation at index to a sample number.
ensureRenderTargets [fn] in BrainRenderer — Create the dual render-target pair for multi-pass rendering.
ensureVenv [fn] in PythonRunner — Ensure a virtual environment exists, is up-to-date, and has all required packages installed.
ent [var] in FiffRawDir — Directory entry description.
ent [var] in MNERawBufDef — Directory entry locating this buffer in the FIFF file (file buffers only).
entries [fn] in FineCalibration — Get the calibration entries.
eog_highpass [var] in MNEFilterDef — EOG highpass in Hz.
eog_highpass_width [var] in MNEFilterDef — EOG highpass transition width in Hz.
eog_lowpass [var] in MNEFilterDef — EOG lowpass in Hz.
eog_lowpass_width [var] in MNEFilterDef — EOG lowpass transition width in Hz.
eogHighpass [var] in FilterSettings — EOG highpass corner (Hz).
eogHighpassWidth [var] in FilterSettings — EOG highpass transition width (Hz).
eogLowpass [var] in FilterSettings — EOG lowpass corner (Hz).
eogLowpassWidth [var] in FilterSettings — EOG lowpass transition width (Hz).
EogParams [type] in ArtifactDetect — Convenience alias so callers can still write ArtifactDetect::EogParams.
EogRegression [fn] in EogRegression — Constructs a default EogRegression object.
epoch [var] in MNEEpochData — The data.
epochMarkersToggled [signal] in ChannelDataView
epochMarkersVisible [fn] in ChannelDataView
epochMarkersVisible [fn] in ChannelRhiView
error [var] in DipFitError
error [signal] in StcLoadingWorker — Emitted when an error occurs.
errorDistances [var] in HpiFitResult
errorOccurred [signal] in PolhemusConnection — Non-fatal protocol/IO error (already logged by the backend).
ErrTest [fn] in ParksMcClellan — This was added by IowaHills and is used in Remez() in 6 places.
estimateCovariance [fn] in RtCov — Perform actual covariance estimation.
eval [fn] in PythonTestHelper — Run inline Python code and return the result.
evalDouble [fn] in PythonTestHelper — Run inline Python code that prints a single double value, and parse it.
evalMatrix [fn] in PythonTestHelper — Run inline Python code that prints a matrix (one row per line, space-separated values), and parse it into an Eigen MatrixXd.
evalMatrixViaFile [fn] in PythonTestHelper — Run Python code that writes a matrix to outputFilePath (e.g.
evaluate [fn] in MnaParamTree — Evaluate all bindings whose trigger condition is met.
evaluatedAt [var] in MnaVerificationResult — When this check was evaluated.
evaluateExpression [fn] in MnaParamTree — Evaluate a single expression in the current context.
evalVector [fn] in PythonTestHelper — Run inline Python code that prints a flat array of doubles (one per line or space-separated), and parse it into an Eigen VectorXd.
even_vertex_color [var] in MNEMshDisplaySurface — Uniform RGBA color for non-data-driven coloring.
event [var] in MNEEpochData — The event code.
event_list [var] in MNERawData — Trigger event list.
eventFile [var] in AverageDescription — Read events from here.
eventFile [var] in CovDescription — Read events from here.
eventFiles [var] in ProcessingSettings — Event file(s) to read.
eventFilter [fn] in RtFiffRawView — Is called when mouse wheel is used.
eventFilter [fn] in SpectrumView — The event filter.
eventIdMap [var] in BidsRawData — trial_type string → numeric value mapping.
events [var] in AverageCategory — The interesting events.
events [var] in BidsRawData — Events from *_events.tsv.
events [var] in CovDefinition — The interesting events.
events [var] in FiffEvents — Event matrix (nEvents x 3): [sample, before, after].
events [var] in MNEEventList — Owned event pointers.
eventSample [var] in MNEEpochData — The sample index of the triggering event.
eventsOutFiles [var] in ProcessingSettings — Save events to these files.
eventsTsvPath [fn] in BIDSPath — Returns the path for the events.tsv sidecar.
eventsVisible [fn] in ChannelDataView
eventsVisible [fn] in ChannelRhiView
eventsVisibleToggled [signal] in ChannelDataView
evoked [var] in FiffEvokedSet — List of Fiff Evoked Data.
evoked [fn] in SensorFieldMapper
EvokedSetModel [fn] in EvokedSetModel — Constructs an real-time multi sample array table model for the given parent.
evokedStim [signal] in RtAveraging
ex [var] in FiffChPos — Coil coordinate system x-axis unit vector.
ex [var] in FwdCoil — Coil coordinate system x unit vector.
ex [var] in MNETriangle — In-plane unit vector (ey x nn; used by BEM).
excludeComponents [fn] in ICA — Reconstruct sensor-space data after suppressing selected components.
execMode [var] in MnaNode — Execution mode.
executable [var] in MnaOpSchema — For CLI ops: executable name (e.g. "recon-all").
execute [fn] in Command — Inherited by ICommand.
execute [fn] in ICommand — Executes the ICommand.
execute [fn] in MnaGraphExecutor — Execute the full graph (all nodes in topological order).
execute [fn] in RawCommand — Executes the ICommand.
executed [signal] in Command — Signal which is emitted when command patterns execute method is processed.
executed [signal] in RawCommand — Signal which is emitted when command patterns execute method is processed.
executedAt [var] in MnaNode — Timestamp of last execution.
executeIncremental [fn] in MnaGraphExecutor — Execute only dirty nodes and their downstream dependents.
executeNode [fn] in MnaGraphExecutor — Execute a single node (for testing/debugging).
executionOrder [var] in StreamContext — Topological order used for startup/shutdown.
exists [fn] in BIDSPath — Checks whether the file at filePath() exists on disk.
exists [fn] in CommandParser — Checks if a command exists.
exitCode [var] in PythonRunnerResult — Process exit code (-1 if never started).
experimenter [var] in FiffInfo — Experimenter name.
explain [fn] in FiffDirNode — Try to explain...
explain_block [fn] in FiffDirNode — Try to explain a block...
explain_comp [fn] in MNECTFCompDataSet — Return a human-readable description string for a compensation kind constant.
explanation [var] in MnaVerification — Human-readable explanation of what this node does and why.
expression [var] in MnaParamBinding — Formula string, e.g. "clamp(ref('noise_est_01/snr') * 0.1, 0.01, 1.0)".
expression [var] in MnaVerificationCheck — Simple evaluable expression: "rank(covariance) > 0".
extension [fn] in BIDSPath — File extension.
externalToolVersion [var] in MnaProvenance — e.g. "FreeSurfer 7.4.1", "Python 3.11.5"
extract [fn] in EpochExtractor — Extract epochs from a continuous raw data matrix.
extract [fn] in InvLabelTimeCourse — Extract label time courses from a source estimate.
extractOrthogonal [fn] in MriSlicer — Extract all three orthogonal slices at a given RAS point.
extractOrthogonal [fn] in MriSlicer — Extract all three orthogonal slices at a given RAS point.
extractSlice [fn] in MriSlicer — Extract a 2D slice from a 3D volume stored as a flat array.
extractSlice [fn] in MriSlicer — Extract a 2D slice from an MriVolData volume.
extraEnv [var] in PythonRunnerConfig — KEY=VALUE pairs appended to environment.
extras [var] in FiffAnnotation — Format-specific metadata.
extras [var] in MnaFileRef — Unknown keys preserved for lossless round-trip.
extras [var] in MnaNode — Unknown keys preserved for lossless round-trip.
extras [var] in MnaPort — Unknown keys preserved for lossless round-trip.
extras [var] in MnaProject — Unknown keys preserved for lossless round-trip.
extras [var] in MnaRecording — Unknown keys preserved for lossless round-trip.
extras [var] in MnaSession — Unknown keys preserved for lossless round-trip.
extras [var] in MnaSubject — Unknown keys preserved for lossless round-trip.
extras [var] in PickResult — Catch-all for renderable-specific extras (shaft name, atlas region, dipole amplitude vector, …).
ey [var] in FiffChPos — Coil coordinate system y-axis unit vector.
ey [var] in FwdCoil — Coil coordinate system y unit vector.
ey [var] in MNETriangle — In-plane unit vector (normalized r13; used by BEM).
eye [var] in MNEMshDisplaySurface — Eye position for 3D viewing.
eye [var] in MNEMshDisplaySurfaceSet — Eye position for viewing (used in composite views).
ez [var] in FiffChPos — Coil coordinate system z-axis unit vector.
ez [var] in FwdCoil — Coil coordinate system z unit vector.
ez [fn] in InvSensorSet
ez [fn] in InvSensorSet

F

factorAnalysis [fn] in StsCovEstimators — Factor Analysis covariance estimator via EM algorithm.
FastrakParser [fn] in FastrakParser
fCdf [fn] in StatsFtest — Compute the CDF of the F-distribution using the regularized incomplete beta function.
fdr [fn] in StatsMcCorrection — False Discovery Rate (Benjamini-Hochberg) correction.
fHeadMovementAngle [var] in HpiFitResult
fHeadMovementDistance [var] in HpiFitResult
fidFileChanged [signal] in CoregSettingsView — Emit this signal whenever new fiducials were loaded.
fidStoreFileChanged [signal] in CoregSettingsView — Emit this signal whenever the file to store the fiducials changed.
fiducial [fn] in AcquiredPoints — Convenience accessor: returns the captured fiducial position for id, or a default-constructed QVector3D if not yet captured.
fiducialChanged [signal] in CoregSettingsView — Emit this signal whenever the picked fiducial changed.
field [var] in FwdCompData — Computes the field of given direction dipole.
field_grad [var] in FwdCompData — Computes the field and gradient of one dipole direction.
field_integrals [fn] in FwdBemModel — Compute the geometry integrals for the magnetic field from a triangle.
field_mult [var] in FwdBemModel — Magnetic-field multipliers (length nsurf).
field_pot [var] in FwdThreadArg — Computes the field or potential for one dipole orientation.
field_pot_grad [var] in FwdThreadArg — Computes the gradient of field or potential for one dipole orientation.
fiff_get_float_sparse_matrix [fn] in FiffSparseMatrix — Conversion of tag data into the standard sparse representation.
fiff_get_matrix_sparse_dims [fn] in FiffSparseMatrix — Interpret dimensions and nz from matrix data.
fiff_type_base [fn] in FiffTag — These return information about fiff type base.
fiff_type_fundamental [fn] in FiffTag — These return information about a fiff type.
fiff_type_matrix_coding [fn] in FiffTag — These return information about the matrix coding.
FiffAnnotations [fn] in FiffAnnotations — Constructs an empty FiffAnnotations object.
FiffChInfo [fn] in FiffChInfo — Constructs the channel info descriptor.
FiffChInfo [fn] in FiffChInfo — Copy constructor.
FiffChPos [fn] in FiffChPos — Constructs the coil position descriptor.
FiffChPos [fn] in FiffChPos — Copy constructor.
FiffCoordTrans [fn] in FiffCoordTrans — Constructs the coordinate transformation descriptor.
FiffCoordTrans [fn] in FiffCoordTrans — Constructs a coordinate transformation, by reading from a IO device.
FiffCoordTrans [fn] in FiffCoordTrans — Copy constructor.
FiffCoordTrans [fn] in FiffCoordTrans — Constructs a coordinate transformation from a rotation matrix and translation vector.
FiffCoordTrans [fn] in FiffCoordTrans — Constructs a coordinate transformation from a 4×4 homogeneous matrix.
FiffCoordTransSet [fn] in FiffCoordTransSet — Constructs the FiffCoordTransSet.
FiffCov [fn] in FiffCov — Constructs the covariance data matrix.
FiffCov [fn] in FiffCov — Constructs a covariance data matrix, by reading from a IO device.
FiffCov [fn] in FiffCov — Copy constructor.
FiffCtfComp [fn] in FiffCtfComp — Constructs the CTF software compensation data.
FiffCtfComp [fn] in FiffCtfComp — Copy constructor.
FiffDataRef [fn] in FiffDataRef — Default constructor.
FiffDigitizerData [fn] in FiffDigitizerData — Constructs the FiffDigitizerData.
FiffDigitizerData [fn] in FiffDigitizerData — Copy constructor.
FiffDigitizerData [fn] in FiffDigitizerData — Constructs a FiffDigitizerData by reading from an IO device.
FiffDigPoint [fn] in FiffDigPoint — Constructs the digitization point description.
FiffDigPointSet [fn] in FiffDigPointSet — Constructs a FiffDigPointSet object.
FiffDigPointSet [fn] in FiffDigPointSet — Copy constructor.
FiffDigPointSet [fn] in FiffDigPointSet — Construct FiffDigPointSet based on input pointList.
FiffDigPointSet [fn] in FiffDigPointSet — Constructs a FiffDigPointSet by reading from a IO device.
FiffDirEntry [fn] in FiffDirEntry — Constructs the dir entry.
FiffDirEntry [fn] in FiffDirEntry — Copy constructor.
FiffDirNode [fn] in FiffDirNode — Constructors the directory tree structure.
FiffDirNode [fn] in FiffDirNode — Copy constructor.
FiffEvents [fn] in FiffEvents — Default constructor.
FiffEvents [fn] in FiffEvents — Constructs FiffEvents by reading from an I/O device.
FiffEvoked [fn] in FiffEvoked — Constructs a fiff evoked data.
FiffEvoked [fn] in FiffEvoked — Constructs fiff evoked data, by reading from a IO device.
FiffEvoked [fn] in FiffEvoked — Copy constructor.
FiffEvokedSet [fn] in FiffEvokedSet — Constructs a fiff evoked data set.
FiffEvokedSet [fn] in FiffEvokedSet — Constructs a fiff evoked data set, by reading from a IO device.
FiffEvokedSet [fn] in FiffEvokedSet — Copy constructor.
FiffFileSharer [fn] in FiffFileSharer — Constructs a FiffFileSharer with default paramaters (based on m_sDefaultDirectory and m_sDefaultFileName).
FiffFileSharer [fn] in FiffFileSharer — Constructs a FiffFileSharer to watch/save to sDirName.
FiffId [fn] in FiffId — Default Constructor.
FiffId [fn] in FiffId — Copy constructor.
FiffInfo [fn] in FiffInfo — Constructors the fiff measurement file information.
FiffInfo [fn] in FiffInfo — Copy constructor.
FiffInfoBase [fn] in FiffInfoBase — Constructors the light fiff measurement file information.
FiffInfoBase [fn] in FiffInfoBase — Copy constructor.
FiffIO [fn] in FiffIO — Constructs a FiffIO.
FiffIO [fn] in FiffIO — Constructs a FiffIO object by reading from a I/O device pIODevice.
FiffIO [fn] in FiffIO — Constructs a FiffIO object that uses the I/O device pIODevice.
FiffIO [fn] in FiffIO — Copy constructor.
FiffNamedMatrix [fn] in FiffNamedMatrix — Default constructor.
FiffNamedMatrix [fn] in FiffNamedMatrix — Constructs named matrix with given parameters.
FiffNamedMatrix [fn] in FiffNamedMatrix — Copy constructor.
FiffProj [fn] in FiffProj — Default constructor.
FiffProj [fn] in FiffProj — Copy constructor.
FiffProj [fn] in FiffProj — Constructor.
FiffRawData [fn] in FiffRawData — Default constructor.
FiffRawData [fn] in FiffRawData — Copy constructor.
FiffRawData [fn] in FiffRawData — Constructs fiff raw data, by reading from a IO device.
FiffRawData [fn] in FiffRawData — Constructs fiff raw data, by reading from a IO device with specified endianness.
FiffRawDir [fn] in FiffRawDir — Default constructor.
FiffRawDir [fn] in FiffRawDir — Copy constructor.
FiffRawViewSettings [fn] in FiffRawViewSettings — Constructs a FiffRawViewSettings which is a child of parent.
FiffSparseMatrix [fn] in FiffSparseMatrix — Constructs an empty FiffSparseMatrix.
FiffSparseMatrix [fn] in FiffSparseMatrix — Constructs a FiffSparseMatrix wrapping an existing Eigen sparse matrix.
FiffSparseMatrix [fn] in FiffSparseMatrix — Default copy constructor.
FiffSparseMatrix [fn] in FiffSparseMatrix — Default move constructor.
FiffStream [fn] in FiffStream — Constructs a fiff stream that uses the I/O device p_pIODevice.
FiffStream [fn] in FiffStream — Constructs a fiff stream that operates on a byte array, a.
FiffTag [fn] in FiffTag — Constructs a default FiffTag.
FiffTag [fn] in FiffTag — Copy constructor.
FiffTag [fn] in FiffTag — Move constructor.
FiffTime [fn] in FiffTime — Default constructor.
FiffTime [fn] in FiffTime — Parameterized constructor.
file [var] in FiffRawData — replaces fid.
file [var] in MNERawData — Owned QFile backing the FIFF stream.
file_id [var] in FiffInfo — File ID.
filename [var] in AverageDescription — Output file.
filename [var] in CovDescription — Output file.
filename [var] in FiffDigitizerData — Source file path.
filename [var] in FiffInfoBase — Filename when the info is read of a fiff file.
filename [var] in MNEDeriv — Source file name the derivation was loaded from.
filename [var] in MNEMeasData — Path to the source FIFF file.
filename [var] in MNEMshDisplaySurface — Path to the file this surface was loaded from.
filename [var] in MNERawData — Path to the raw FIFF file.
filename [var] in MNERawInfo — The name of the file this comes from.
filename [var] in MNEVolGeom — Path to the MRI data file this geometry was read from.
fileName [fn] in FsAnnotation — annotation file name
fileName [fn] in FsSurface — surf file name
fileName [var] in MriSlice — Source file name.
fileName [var] in MriVolData — Name of the source file.
fileNameChanged [signal] in ProjectSettingsView
filePath [fn] in BIDSPath — Constructs the full file path: directory() + basename().
filePath [fn] in FsAnnotation — annotation file path
filePath [fn] in FsSurface — path to surf directuryt
files [var] in MnaRecording — Files belonging to this recording.
filt_bufs [var] in MNERawData — Filtered data buffer definitions.
filt_ring [var] in MNERawData — Ring buffer for filtered data.
filter [var] in InvDipoleFitSettings — Data filter definition.
filter [var] in MNERawData — Filter definition (highpass/lowpass).
filter [var] in ProcessingSettings
filter_data [var] in MNERawData — Pre-computed frequency-domain filter state.
filter_on [var] in MNEFilterDef — Is it on?
filter_source_space [fn] in MNESourceSpace
filter_source_spaces [fn] in MNESourceSpace
filter_source_spaces [fn] in MNESourceSpace
filter_spaces [var] in ComputeFwdSettings — Filter the source space points.
filterActivationChanged [signal] in FilterSettingsView — Signal emited when the filter activation box's state is changed.
filterBadChannels [fn] in GeometryInfo — filterBadChannels Filters bad channels from distance table.
filterChanged [signal] in FilterDesignView — Emitted when the filter changes.
filterChannelTypeChanged [signal] in FilterDesignView — Emitted when the filter channel type changed.
FilterDesignView [fn] in FilterDesignView — Constructs a FilterDesignView dialog which is a child of parent.
filtered [var] in FilterThreadArg — Optional stream to log omitted point locations (may be NULL).
FilterIO [fn] in FilterIO — Constructs a FilterIO object.
FilterKernel [fn] in FilterKernel — FilterKernel creates a default FilterKernel object.
FilterKernel [fn] in FilterKernel — Constructs a FilterKernel object.
filterKernel [var] in FilterObject
filterOn [var] in FilterSettings — Filter active?
FilterParameter [fn] in FilterParameter — Creates a filter parameter with name 'Unknown'.
FilterParameter [fn] in FilterParameter — Creates a filter parameter with name sName.
FilterParameter [fn] in FilterParameter — Creates a filter parameter with name sName and description sDescription.
FilterPlotScene [fn] in FilterPlotScene — Constructs a FilterPlotScene dialog which is a child of parent.
filters [fn] in DecodingCsp
filters [fn] in DecodingSpoc
filters [fn] in DecodingSsd
FilterSettingsView [fn] in FilterSettingsView — Constructs a FilterSettingsView which is a child of parent.
filterSize [var] in FilterSettings — FFT size.
FilterThreadArg [fn] in FilterThreadArg — Constructs the Filter Thread Argument Refactored: new_filter_thread_arg (filter_source_space.c).
FilterType [enum] in FirFilter — FIR filter type — mirrors IirFilter::FilterType for a uniform API.
FilterType [enum] in IirFilter — Filter type selector.
find_closest_on_surface [fn] in MNEProjectToSurface — Projects a set of points r on the FsSurface.
find_closest_on_surface_approx [fn] in MNESurface — For each point, find the closest point on the surface using neighborhood-restricted search.
find_evoked [fn] in Fiff — fiff_find_evoked
find_evoked [fn] in FiffEvokedSet — fiff_find_evoked
find_maxshield [fn] in MNERawInfo — Finds the MaxShield raw data block in the FIFF directory tree.
find_meas [fn] in MNERawInfo — Finds the nearest FIFFB_MEAS parent node in the FIFF directory tree.
find_meas_info [fn] in MNERawInfo — Finds the FIFFB_MEAS_INFO child node within the nearest FIFFB_MEAS block.
find_raw [fn] in MNERawInfo — Finds the raw data block in the FIFF directory tree.
find_source_space_hemi [fn] in MNE — mne_find_source_space_hemi
find_source_space_hemi [fn] in MNESourceSpace — Returns the hemisphere id (FIFFV_MNE_SURF_LEFT_HEMI or FIFFV_MNE_SURF_RIGHT_HEMI) for this source space, based on the average x-coordinate of all vertices.
find_source_space_hemi [fn] in MNESourceSpaces
find_tag [fn] in FiffDirNode — Definition of the find_tag function in various files e.g.
find_tag [fn] in FiffDirNode — Definition of the find_tag function in various files e.g.
findArtifactComponents [fn] in MlIcaLabel — Extract indices of artifact components (EOG, ECG, muscle).
findElectrode [fn] in StandardMontage — Look up a single electrode position by name.
findEntry [fn] in FineCalibration — Find entry by channel number.
findHeadSurfaceKey [fn] in SensorFieldMapper — Find a BEM head surface key in the given surface map.
findHelmetSurfaceKey [fn] in SensorFieldMapper — Find the MEG helmet surface key ("sens_surface_meg") if present.
findLayer [fn] in MultimodalScene
findPeakIndex [fn] in StatsSourceMetrics — Find the index of the source with maximum absolute amplitude.
findTabWidgetLayout [fn] in QuickControlView
FineCalibration [fn] in FineCalibration
finish_writing_raw [fn] in Fiff — fiff_finish_writing_raw
finish_writing_raw [fn] in FiffStream — Finishes a raw file by writing all necessary end tags.
finished [signal] in PythonRunner — Emitted when the script finishes.
finished [signal] in StcLoadingWorker — Emitted when loading is complete.
finishedAt [var] in MnaProvenance
FirCoeff [var] in ParksMcClellan — containt the generated filter coefficients.
first [var] in FiffEvoked — First time sample.
first [var] in FiffRawDir — first sample.
first [var] in MNEMeasDataSet — First sample index (for raw-data processing).
first_samp [var] in FiffRawData — First sample number.
first_samp [var] in MNERawData — First sample index in the file.
first_samp_old [var] in MNERawData — First sample index (old-version compatible value).
first_sample_val [var] in MNERawData — Values at the first sample (for DC offset correction before filtering).
firstChannel [var] in TileResult
firsts [var] in MNERawBufDef — First sample index.
firstSample [fn] in ChannelDataModel
firstVisibleChannel [fn] in ChannelRhiView
firstVisibleSample [fn] in ChannelDataView — Returns the first currently visible sample.
fit [fn] in DecodingCsp — Fit CSP from labelled epoch data (binary classification).
fit [fn] in DecodingSpoc — Fit SPoC from epoch data and a continuous target variable.
fit [fn] in DecodingSsd — Fit SSD from continuous data.
fit [fn] in EogRegression — Fit regression coefficients from EOG to all other channels.
fit [fn] in InvHpiFit — Perform one single HPI fit.
fit [fn] in InvHpiFit
fit [fn] in MvarModel — Fits an MVAR model of order p to multi-channel data.
fit [fn] in MvarModel — Fits an MVAR model of order p to multi-channel data.
fit [fn] in Xdawn — Fit xDAWN spatial filters for a target event code.
fit_dipoles [fn] in InvDipoleFit — Fit a single dipole to each time point of averaged data.
fit_dipoles_raw [fn] in InvDipoleFit — Fit a single dipole to each time point of raw data.
fit_dipoles_raw [fn] in InvDipoleFit — Fit dipoles to raw data (convenience overload without output set).
fit_mag_dipoles [var] in InvDipoleFitData — Fit magnetic dipoles?
fit_mag_dipoles [var] in InvDipoleFitSettings — Fit magnetic dipoles?
fit_one [fn] in InvDipoleFitData — Fit a single dipole to the given data.
fit_sphere [fn] in Sphere — Fits a sphere to a point cloud.
fit_sphere_simplex [fn] in Sphere — Fits a sphere to a point cloud.
fit_sphere_to_points [fn] in Sphere — Fits a sphere to a point cloud.
fit_sphere_to_points [fn] in Sphere
fitApply [fn] in EogRegression — Convenience: fit and apply in one step.
fitData [fn] in InvSignalModel — Fit the data to the model constructed from given model parameters.
fitFiducials [signal] in CoregSettingsView — Emit this signal whenever fiducial alignment is requested.
fitICP [signal] in CoregSettingsView — Emit this signal whenever icp alignment is requested.
fitSphereOrigin [fn] in SensorFieldMapper — Fit a sphere to the digitization headshape points.
fittedCoils [var] in HpiFitResult
fittingChanged [signal] in DipoleFitView — Send new fitting values.
fittingWindowSizeChanged [signal] in HpiSettingsView — Emit this signal when 'fits per second' control gets updated.
fitTransform [fn] in DecodingCsp — Fit and transform in one step.
fitTransform [fn] in DecodingSpoc — Fit and transform in one step.
fitTransform [fn] in DecodingSsd — Fit and transform in one step.
fixed_noise [var] in InvDipoleFitData — Were fixed noise values used rather than a noise-covariance matrix read from a file.
fixed_ori [var] in ComputeFwdSettings — Fixed-orientation dipoles?
fixed_ori [var] in FwdThreadArg — Compute fixed orientation solution?
fixSkew [var] in AverageDescription — Fix skew on trigger lines.
fixSkew [var] in CovDescription — Fix skew on trigger lines.
flags [fn] in ChannelInfoModel
flat [var] in MNESurfacePatch — Non-zero if the patch has been flattened.
flipAngle [var] in MriVolData — Flip angle (radians).
fmax [var] in InvConnectivity — Upper frequency bound (Hz); 0 if broadband / time-domain.
fmid [var] in MNEMshColorScaleDef
fmin [var] in InvConnectivity — Lower frequency bound (Hz); 0 if broadband / time-domain.
fmri_prior [var] in MNEInverseOperator — fMRI prior (if available).
fn [var] in fitUserRec
fn [var] in FwdEegSphereModel — Coefficients saved to speed up the computations.
focalDipoles [var] in InvSourceEstimate — Off-grid focal dipoles (ECD results).
focusPoint [var] in OpticalCalibSample — Stylus focus point in world frame (metres).
focusPosition [fn] in VideoOverlay
format [var] in MnaFileRef — File format: "fiff", "mgh", "stc", etc.
formatName [fn] in AbstractFormatReader — Return a descriptive name for the format (e.g.
formatName [fn] in BrainVisionReader — Return a descriptive name for the format (e.g.
formatName [fn] in EDFReader — Return a descriptive name for the format (e.g.
fov [var] in MNEMshDisplaySurface — Field of view (extent of the surface).
fov [var] in MNEMshDisplaySurfaceSet — Field of view (extent of the surface).
FoV [var] in MriVolData — Field of view (unreliable per FreeSurfer docs).
fov_scale [var] in MNEMshDisplaySurface — Scale factor for extra space around FOV.
fov_scale [var] in MNEMshDisplaySurfaceSet — Scale factor for extra space around FOV.
frame [fn] in VideoOverlay
frame_name [fn] in FiffCoordTrans — Map coordinate frame integers to human-readable names.
frameGeneration [fn] in VideoOverlay — Monotonic counter, incremented on every setFrame() call.
fread3 [fn] in FsSurface — Reads a 3-byte integer out of a QDataStream (FreeSurfer format).
fread3 [fn] in FsSurface — Reads a 3-byte integer out of a std::iostream (FreeSurfer format).
fread3_many [fn] in FsSurface — Reads multiple 3-byte integers out of a QDataStream (FreeSurfer format).
fread3_many [fn] in FsSurface — Reads multiple 3-byte integers out of a std::iostream (FreeSurfer format).
free_proj [fn] in MNEProjOp — Release the compiled projector data.
freeSurferDir [var] in MnaSubject — Relative path to FreeSurfer SUBJECTS_DIR.
freqAxis [fn] in WelchPsd — Build the frequency axis for a given FFT length and sampling frequency.
freqBandChanged [signal] in ConnectivitySettingsView — Emit signal whenever the frequency band changed.
frequencies [var] in InvBeamformer — Center frequencies for DICS (Hz).
frequency [var] in EDFChannelInfo
FrequencySpectrumDelegate [fn] in FrequencySpectrumDelegate — Creates a new abstract item delegate with the given parent.
FrequencySpectrumModel [fn] in FrequencySpectrumModel — Constructs an real-time multi sample array table model for the given parent.
from [var] in FiffCoordTrans — Source coordinate system.
from [var] in MNEEvent — Source transition value.
from_kind [var] in MNEMorphMap — FsSurface kind identifier (e.g., hemisphere) of the source surface (-1 = unknown).
from_subj [var] in MNEMorphMap — Subject name of the source surface.
fromBemSurface [fn] in BrainSurface — Load geometry from a MNE BEM surface.
fromBuffer [fn] in MlTensor — Copy raw data into a new owning tensor (legacy 2-D helper).
fromCardinalPoints [fn] in FiffCoordTrans — Constructs a coordinate transformation from cardinal points (LPA, Nasion, RPA).
fromCbor [fn] in MnaFileRef — Deserialize from QCborMap.
fromCbor [fn] in MnaGraph
fromCbor [fn] in MnaNode
fromCbor [fn] in MnaParamBinding
fromCbor [fn] in MnaPort
fromCbor [fn] in MnaProject — Deserialize from QCborMap.
fromCbor [fn] in MnaProvenance
fromCbor [fn] in MnaRecording — Deserialize from QCborMap.
fromCbor [fn] in MnaScript
fromCbor [fn] in MnaSession — Deserialize from QCborMap.
fromCbor [fn] in MnaSubject — Deserialize from QCborMap.
fromCbor [fn] in MnaVerification
fromCbor [fn] in MnaVerificationCheck
fromCbor [fn] in MnaVerificationResult
fromChannelPositions [fn] in StatsAdjacency — Build a spatial adjacency matrix from channel positions in FiffInfo.
fromEigenSparse [fn] in FiffSparseMatrix — Create a FiffSparseMatrix from an Eigen::SparseMatrix<double>.
fromEigenSparse [fn] in FiffSparseMatrix — Create a FiffSparseMatrix from an Eigen::SparseMatrix<float>.
fromJson [fn] in MnaFileRef — Deserialize from QJsonObject.
fromJson [fn] in MnaGraph
fromJson [fn] in MnaNode
fromJson [fn] in MnaParamBinding
fromJson [fn] in MnaParamTree
fromJson [fn] in MnaPort
fromJson [fn] in MnaProject — Deserialize from QJsonObject.
fromJson [fn] in MnaProvenance
fromJson [fn] in MnaRecording — Deserialize from QJsonObject.
fromJson [fn] in MnaScript
fromJson [fn] in MnaSession — Deserialize from QJsonObject.
fromJson [fn] in MnaSubject — Deserialize from QJsonObject.
fromJson [fn] in MnaVerification
fromJson [fn] in MnaVerificationCheck
fromJson [fn] in MnaVerificationResult
fromSourceSpace [fn] in StatsAdjacency — Build a spatial adjacency matrix from a triangulated source space.
fromSourceSpaceTemporal [fn] in StatsAdjacency — Build a spatio-temporal adjacency matrix from a triangulated source space.
fromSurface [fn] in BrainSurface — Load geometry from a FreeSurfer surface.
FsAnnotation [fn] in FsAnnotation — Default constructor.
FsAnnotation [fn] in FsAnnotation — Construts the annotation by reading it of the given file.
FsAnnotation [fn] in FsAnnotation — Construts the annotation by reading it of the given file.
FsAnnotation [fn] in FsAnnotation — Construts the annotation by reading it of the given file.
FsAnnotationSet [fn] in FsAnnotationSet — Default constructor.
FsAnnotationSet [fn] in FsAnnotationSet — Construts the surface set by reading it of the given files.
FsAnnotationSet [fn] in FsAnnotationSet — Construts the surface set by reading it of the given files.
FsAnnotationSet [fn] in FsAnnotationSet — Constructs an annotation set by assembling given annotations.
FsAnnotationSet [fn] in FsAnnotationSet — Constructs an annotation set by reading from annotation files.
FsAtlasLookup [fn] in FsAtlasLookup — Constructs an empty atlas lookup.
FsColortable [fn] in FsColortable — Default constructor.
FsLabel [fn] in FsLabel — Default constructor.
FsLabel [fn] in FsLabel — Constructs a label.
fslope [var] in MNEMshColorScaleDef
FsSurface [fn] in FsSurface — Default constructor.
FsSurface [fn] in FsSurface — Construts the surface by reading it of the given file.
FsSurface [fn] in FsSurface — Construts the surface by reading it of the given file.
FsSurface [fn] in FsSurface — Construts the surface by reading it of the given file.
FsSurfaceSet [fn] in FsSurfaceSet — Default constructor.
FsSurfaceSet [fn] in FsSurfaceSet — Construts the surface set by reading it of the given files.
FsSurfaceSet [fn] in FsSurfaceSet — Construts the surface set by reading it of the given files.
FsSurfaceSet [fn] in FsSurfaceSet — Constructs a surface set by assembling given surfaces.
FsSurfaceSet [fn] in FsSurfaceSet — Constructs an annotation set by reading from annotation files.
fTestPermutationTest [fn] in StatsCluster — F-test cluster-based permutation test for one-way ANOVA.
fthresh [var] in MNEMshColorScaleDef
funcs [var] in InvDipoleFitData — Non-owning alias — points to one of the two above.
fwd [var] in FitDipUserRec
fwd [var] in InvDipoleForward — Forward solution, projected and whitened (3*ndip x nch, row-major).
fwd [var] in MNEMeasData — Forward operator for dipole fitting (not owned).
fwd_add_default_eeg_sphere_model [fn] in FwdEegSphereModelSet — Choose and setup the default EEG sphere model Refactored from: fwd_eeg_sphere_models.c.
fwd_add_to_eeg_sphere_model_set [fn] in FwdEegSphereModelSet — Add a model to a set.
fwd_bem_check_solids [fn] in FwdBemModel — Verify that solid-angle sums match the expected value.
fwd_bem_compute_solution [fn] in FwdBemModel — Compute the BEM solution matrix using the specified method.
fwd_bem_constant_collocation_solution [fn] in FwdBemModel — Compute the constant-collocation BEM solution for this model.
fwd_bem_explain_method [fn] in FwdBemModel — Return a human-readable label for a BEM method.
fwd_bem_explain_surface [fn] in FwdBemModel — Return a human-readable label for a BEM surface kind.
fwd_bem_field [fn] in FwdBemModel — Callback: compute BEM magnetic fields at coils for a dipole.
fwd_bem_field_calc [fn] in FwdBemModel — Compute BEM magnetic fields at coils using constant collocation.
fwd_bem_field_coeff [fn] in FwdBemModel — Assemble the constant-collocation magnetic field coefficient matrix.
fwd_bem_field_grad [fn] in FwdBemModel — Callback: compute BEM magnetic fields and position gradients at coils.
fwd_bem_field_grad_calc [fn] in FwdBemModel — Compute the gradient of BEM magnetic fields with respect to dipole position (constant collocation).
fwd_bem_find_surface [fn] in FwdBemModel — Find a surface of the given kind in this BEM model.
fwd_bem_free_solution [fn] in FwdBemModel — Release the potential solution matrix and associated workspace.
fwd_bem_homog_solution [fn] in FwdBemModel — Compute the homogeneous (single-layer) BEM solution.
fwd_bem_inf_field [fn] in FwdBemModel — Compute the infinite-medium magnetic field at a single point.
fwd_bem_inf_field_der [fn] in FwdBemModel — Compute the derivative of the infinite-medium magnetic field with respect to dipole position.
fwd_bem_inf_pot [fn] in FwdBemModel — Compute the infinite-medium electric potential at a single point.
fwd_bem_inf_pot_der [fn] in FwdBemModel — Compute the derivative of the infinite-medium electric potential with respect to dipole position.
fwd_bem_ip_modify_solution [fn] in FwdBemModel — Modify the BEM solution with the isolated-problem (IP) approach.
fwd_bem_lin_field_calc [fn] in FwdBemModel — Compute BEM magnetic fields at coils using linear collocation.
fwd_bem_lin_field_coeff [fn] in FwdBemModel — Assemble the linear-collocation magnetic field coefficient matrix.
fwd_bem_lin_field_grad_calc [fn] in FwdBemModel — Compute the gradient of BEM magnetic fields with respect to dipole position (linear collocation).
fwd_bem_lin_pot_calc [fn] in FwdBemModel — Compute BEM potentials at electrodes using linear collocation.
fwd_bem_lin_pot_coeff [fn] in FwdBemModel — Assemble the full linear-collocation potential coefficient matrix.
fwd_bem_lin_pot_grad_calc [fn] in FwdBemModel — Compute the gradient of BEM potentials with respect to dipole position (linear collocation).
fwd_bem_linear_collocation_solution [fn] in FwdBemModel — Compute the linear-collocation BEM solution for this model.
fwd_bem_load_homog_surface [fn] in FwdBemModel — Load a single-layer (homogeneous) BEM model from a FIFF file.
fwd_bem_load_recompute_solution [fn] in FwdBemModel — Load a BEM solution from file, recomputing if necessary.
fwd_bem_load_solution [fn] in FwdBemModel — Load a pre-computed BEM solution from a FIFF file.
fwd_bem_load_surfaces [fn] in FwdBemModel — Load BEM surfaces of specified kinds from a FIFF file.
fwd_bem_load_three_layer_surfaces [fn] in FwdBemModel — Load a three-layer BEM model (scalp, outer skull, inner skull) from a FIFF file.
fwd_bem_make_bem_sol_name [fn] in FwdBemModel — Build a standard BEM solution file name from a model name.
fwd_bem_multi_solution [fn] in FwdBemModel — Compute the multi-surface BEM solution from solid-angle coefficients.
fwd_bem_one_lin_field_coeff_ferg [fn] in FwdBemModel — Compute linear field coefficients using the Ferguson method.
fwd_bem_one_lin_field_coeff_simple [fn] in FwdBemModel — Compute linear field coefficients using the simple (direct) method.
fwd_bem_one_lin_field_coeff_uran [fn] in FwdBemModel — Compute linear field coefficients using the Urankar method.
fwd_bem_pot_calc [fn] in FwdBemModel — Compute BEM potentials at electrodes using constant collocation.
fwd_bem_pot_els [fn] in FwdBemModel — Callback: compute BEM potentials at electrodes for a dipole.
fwd_bem_pot_grad_calc [fn] in FwdBemModel — Compute the gradient of BEM potentials with respect to dipole position (constant collocation).
fwd_bem_pot_grad_els [fn] in FwdBemModel — Callback: compute BEM potentials and position gradients at electrodes.
fwd_bem_set_head_mri_t [fn] in FwdBemModel — Set the Head-to-MRI coordinate transform for this BEM model.
fwd_bem_solid_angles [fn] in FwdBemModel — Compute the solid-angle matrix for all BEM surfaces.
fwd_bem_specify_coils [fn] in FwdBemModel — Precompute the coil-specific BEM solution for MEG.
fwd_bem_specify_els [fn] in FwdBemModel — Precompute the electrode-specific BEM solution.
fwd_comp_field [fn] in FwdCompData — Calculate the compensated field for one dipole component.
fwd_comp_field_grad [fn] in FwdCompData — Calculate the compensated field and gradient for one dipole component.
fwd_comp_field_vec [fn] in FwdCompData — Calculate the compensated field for all three dipole components.
fwd_create_eeg_sphere_model [fn] in FwdEegSphereModel — Create a new multi-layer EEG sphere model structure.
fwd_eeg_fit_berg_scherg [fn] in FwdEegSphereModel — Fit Berg-Scherg equivalent spherical model parameters (mu and lambda) by minimizing the difference between actual and approximated series expansions using simplex optimization.
fwd_eeg_get_multi_sphere_model_coeff [fn] in FwdEegSphereModel — fwd_multi_spherepot.c Get the model depended weighting factor for n
fwd_eeg_multi_spherepot [fn] in FwdEegSphereModel — Compute EEG potentials at multiple electrodes for a current dipole in a multi-layer spherical head model.
fwd_eeg_multi_spherepot_coil1 [fn] in FwdEegSphereModel — Calculate EEG potentials at compound electrodes (coils) by summing weighted contributions from individual integration points.
fwd_eeg_spherepot [fn] in FwdEegSphereModel — fwd_multi_spherepot.c
fwd_eeg_spherepot_coil [fn] in FwdEegSphereModel — fwd_multi_spherepot.c
fwd_eeg_spherepot_coil_vec [fn] in FwdEegSphereModel — fwd_multi_spherepot.c
fwd_eeg_spherepot_grad_coil [fn] in FwdEegSphereModel — Compute potentials and spatial gradients of the potential field at coils using finite differences.
fwd_eeg_spherepot_vec [fn] in FwdEegSphereModel — Compute the electric potentials in a set of electrodes in spherically Symmetric head model.
fwd_list_eeg_sphere_models [fn] in FwdEegSphereModelSet — List the properties of available models via qInfo.
fwd_load_eeg_sphere_models [fn] in FwdEegSphereModelSet — Load all models available in the specified file Refactored from: fwd_eeg_sphere_models.c.
fwd_mag_dipole_field [fn] in FwdBemModel — Callback: compute the magnetic field of a magnetic dipole at coils.
fwd_mag_dipole_field_vec [fn] in FwdBemModel — Callback: compute the vector magnetic field of a magnetic dipole at coils.
fwd_make_comp_data [fn] in FwdCompData — Compose a compensation data set.
fwd_make_ctf_comp_coils [fn] in FwdCompData — Set up CTF compensation coils for field computations.
fwd_select_eeg_sphere_model [fn] in FwdEegSphereModelSet — Find a model with a given name and return a duplicate Refactored from: fwd_eeg_sphere_models.c.
fwd_setup_eeg_sphere_model [fn] in FwdEegSphereModel — fwd_eeg_sphere_models.c
fwd_sphere_field [fn] in FwdBemModel — Callback: compute the spherical-model magnetic field at coils.
fwd_sphere_field_grad [fn] in FwdBemModel — Callback: compute the spherical-model magnetic field and its position gradient at coils.
fwd_sphere_field_vec [fn] in FwdBemModel — Callback: compute the spherical-model vector magnetic field at coils.
FwdBemModel [fn] in FwdBemModel — Constructs an empty BEM model.
FwdBemSolution [fn] in FwdBemSolution — Constructs the Forward BEM Solution.
FwdCoil [fn] in FwdCoil — Constructs the Forward Coil.
FwdCoil [fn] in FwdCoil — Copy constructor.
FwdCoilSet [fn] in FwdCoilSet — Constructs the Forward Coil Set description.
FwdCompData [fn] in FwdCompData — Constructs the Forward Compensation Data.
FwdEegSphereLayer [fn] in FwdEegSphereLayer — Constructs the Electric Current Dipole.
FwdEegSphereModel [fn] in FwdEegSphereModel — Constructs the Forward EEG Sphere Model.
FwdEegSphereModel [fn] in FwdEegSphereModel — Copy constructor.
FwdEegSphereModelSet [fn] in FwdEegSphereModelSet — Constructs a Forward EEG Sphere Model Set object.
FwdEegSphereModelSet [fn] in FwdEegSphereModelSet
FwdEegSphereModelSet [fn] in FwdEegSphereModelSet
FwdSettingsView [fn] in FwdSettingsView — Constructs a FwdSettingsView object.
FwdThreadArg [fn] in FwdThreadArg — Constructs the Forward Thread Argument.

G

gainVector [fn] in FineCalibration — Build gain correction diagonal matrix for MEG channels.
gamma [var] in FwdBemModel — Conductivity-ratio coupling matrix (nsurf x nsurf).
gantry_angle [var] in FiffInfo — Tilt angle of the dewar in degrees.
gaussian [fn] in Interpolation — gaussian Gaussian interpolation function (sigma=1).
gaussianLogLikelihood [fn] in StsCovEstimators — Gaussian log-likelihood of held-out data given a covariance model.
gcd [fn] in Numerics — Finds the Greatest Common Divisor (GCD) of two integer values.
GEE2 [fn] in ParksMcClellan — Function to evaluate the frequency response using the Lagrange interpolation formula in the barycentric form.
generateContactInstances [fn] in ElectrodeObject — Generate per-instance data for contact spheres.
generateQuadIndices [fn] in SliceObject — Generate quad index buffer: 2 triangles = 6 indices.
generateQuadVertices [fn] in SliceObject — Generate quad vertex buffer: 4 vertices × (3 pos + 2 UV) = 20 floats.
generateShaftGeometry [fn] in ElectrodeObject — Generate interleaved vertex + index data for all shaft cylinders.
generateTapers [fn] in Spectral — Calculates a hanning window of given length.
generateTapers [fn] in Spectral — Calculates a hanning window of given length.
GeometryInfo [fn] in GeometryInfo
get_channel_types [fn] in FiffInfoBase — Parses the channel info information and returns a string list of channel types.
get_comp [fn] in MNECTFCompDataSet — Extract the compensation grade from MEG channel coil types.
get_current_comp [fn] in FiffInfo — mne_get_current_comp
get_current_comp [fn] in MNE — mne_get_current_comp
get_evoked_entries [fn] in FiffStream — Helper to get all evoked entries.
get_head_scale [fn] in MNEMshDisplaySurface — Compute a uniform head scale factor by fitting spheres.
get_int [fn] in FwdBemModel — Read an integer tag from a FIFF node.
get_machid [fn] in FiffId — Returns the machine ID consisting of a two integer number.
get_meas_info [fn] in MNERawInfo — Reads measurement information from the nearest FIFFB_MEAS_INFO parent of a node.
get_meas_info [fn] in MNERawInfo — This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts. Overload that does not return the measurement start time.
get_tag_explanation [fn] in FiffDirNode — Get textual explanation of a tag.
get_vertno [fn] in MNESourceSpaces — Returns the Zero based (different to MATLAB) indices of the used vertices of both hemispheres.
get_whitener [fn] in Linalg — Returns the whitener of a given matrix.
get_whitener [fn] in Linalg — Returns the whitener of a given matrix.
getAllChannelInfos [fn] in EDFReader — Return all channel infos (measurement + extra).
getAllowedMeanErrorDistChanged [fn] in HpiSettingsView — Get the allowed mean error distance.
getAllowedMovementChanged [fn] in HpiSettingsView — Get the allowed head movement.
getAllowedRotationChanged [fn] in HpiSettingsView — Get the allowed head rotation.
getAnnotationLabel [fn] in BrainSurface — Get the annotation label name for a given vertex.
getAnnotationLabelId [fn] in BrainSurface
getAutoComputeStatus [fn] in AveragingSettingsView
getAutoScale [fn] in CoregSettingsView — Get the auto scale state.
getAverageActivation [fn] in AverageLayoutView — Get the current average activations.
getAverageActivation [fn] in AverageSelectionView — Get the current average activations.
getAverageActivation [fn] in ButterflyView — Get the current average activations.
getAverageActivation [fn] in EvokedSetModel — Get the current average activations.
getAverageColor [fn] in AverageLayoutView — Get the current average colors.
getAverageColor [fn] in AverageSelectionView — Get the current average colors.
getAverageColor [fn] in ButterflyView — Get the current average colors.
getAverageColor [fn] in EvokedSetModel — Get the current average colors.
getBackgroundColor [fn] in AverageLayoutView — Returns the background color of the scene.
getBackgroundColor [fn] in ButterflyView — Returns the background color.
getBackgroundColor [fn] in FiffRawViewSettings — Returns the current background color.
getBackgroundColor [fn] in RtFiffRawView — Returns the current background color.
getBadChannelHideStatus [fn] in RtFiffRawView — Get whether the bad channels are currently hidden or not.
getBadChannelList [fn] in ChannelInfoModel — Returns bad channel list.
getBandwidth [fn] in FilterKernel
getBaselineFromSeconds [fn] in AveragingSettingsView
getBaselineInfo [fn] in EvokedSetModel — Returns the current baseline information.
getBaselineToSeconds [fn] in AveragingSettingsView
getCenterFrequency [fn] in FilterKernel
getChannelCount [fn] in AbstractFormatReader — Return the number of measurement channels.
getChannelCount [fn] in BrainVisionReader — Return the number of measurement channels.
getChannelCount [fn] in EDFReader — Return the number of measurement channels.
getChannelInfos [fn] in BrainVisionReader — Return all channel infos.
getChannels [fn] in InvHpiDataUpdater — inline get functions for private member variables.
getChannelType [fn] in FilterDesignView — Returns the current channel type which is to be filtered.
getClientId [fn] in RtDataClient — Requests the ID at mne_rt_server and returns it.
getClusteringStatusChanged [fn] in FwdSettingsView — Get status of clustering check box.
getClusterNumber [fn] in FwdSettingsView — Get status of cluster size spin box.
getCoefficients [fn] in FilterKernel
getCoil [fn] in EvokedSetModel — Returns the coil type of a given channel number.
getCoil [fn] in RtFiffRawViewModel — Returns the coil type of a given channel number.
getColortable [fn] in FsAnnotation — Returns the coloratable containing the label based nomenclature.
getColortable [fn] in FsAnnotation — Returns the coloratable containing the label based nomenclature.
getCompensators [fn] in CompensatorView — Get the current compensators.
getCompStatusChanged [fn] in HpiSettingsView — Get the Comp checked status.
getConditionNumber [fn] in Linalg — Returns the condition number of a given matrix.
getConditionSlope [fn] in Linalg — Returns the condition slope of a given matrix.
getConnectionStatus [fn] in RtClient — Rt Server status, returns true when rt server is started.
getConnectivityMethod [fn] in Network — Returns the connectivity measure method used to create the data of this network structure.
getConnectivityMethod [fn] in Network — Returns the connectivity measure method used to create the data of this network structure.
getConnectivityMethods [fn] in ConnectivitySettings
getConnectivityMethods [fn] in ConnectivitySettings
getConnectivityMetric [fn] in ConnectivitySettingsView — Get the current connectivity metric.
getControlWidget [fn] in ChannelSelectionView — Returns pointer to the portion of the channel view with the controls.
getConvergence [fn] in CoregSettingsView — Get the onvergence value.
getCtf [fn] in InvResolutionMatrix — Extract the cross-talk function (CTF) for a given source index.
getCtfs [fn] in InvResolutionMatrix — Extract CTFs for multiple source indices.
getCurrentFiducial [fn] in CoregSettingsView — Get the checked radio box for fiducial picking.
getCurrentFileName [fn] in ProjectSettingsView — Updates and gets current file name based on project and subject.
getCurrentFilter [fn] in FilterDesignView — Returns the current filter.
getCurrentGroupFile [fn] in ChannelSelectionView — Returns the currently loaded group file.
getCurrentLayoutFile [fn] in ChannelSelectionView — Returns the currently selected layout file.
getCurrentOverlapAddDelay [fn] in RtFiffRawViewModel — Returns the current overlap add delay.
getCurrentSampleIndex [fn] in RtFiffRawViewModel — Returns the current sample index which represents the index which the next incoming data will be stored at in the data.
getCurrentSelectedBem [fn] in CoregSettingsView — Return the currently selected bem.
getCurrentSelectGroup [fn] in AveragingSettingsView
getCurrentStimCh [fn] in AveragingSettingsView
getCurrentTriggerIndex [fn] in RtFiffRawViewModel — Returns the current trigger channel index.
getData [fn] in InvHpiDataUpdater
getDataRange [fn] in SourceEstimateOverlay — Get the data range (min/max values) across all time points for auto-thresholding.
getDefault [fn] in FiffId — Returns a default FiffId object to be used as a mutable placeholder for a default instance of the class.
getDesignMethod [fn] in FilterKernel
getDetectedTriggers [fn] in RtFiffRawViewModel — Returns current detected trigger flanks.
getDetectedTriggersOld [fn] in RtFiffRawViewModel — Returns old detected trigger flanks.
getDigitizerCheckState [fn] in CoregSettingsView — Get the types of digitizers to use for coregistration.
getDistanceTimeSpacer [fn] in FiffRawViewSettings — Get current distance time spacer.
getDistanceTimeSpacer [fn] in RtFiffRawView — Returns teh current distance between time spacers.
getDoArtifactThresholdRejection [fn] in ArtifactSettingsView
getDoBaselineCorrection [fn] in AveragingSettingsView
getEdgeAt [fn] in Network — Returns the edge at a specific position.
getEdgeAt [fn] in Network — Returns the edge at a specific position.
getElectrodeNames [fn] in StandardMontage — Get electrode names for a standard montage.
getEndNodeID [fn] in NetworkEdge — Returns the end node of this edge.
getEndNodeID [fn] in NetworkEdge — Returns the end node of this edge.
getEventsToDisplay [fn] in RtFiffRawViewModel — Returns event sample positions between two samples.
getEvokedSet [fn] in EvokedSetModel
getEvokedSetModel [fn] in AverageLayoutView — Returns the currently set EvokedSetModel.
getEvokedSetModel [fn] in ButterflyView — Returns the currently set EvokedSetModel.
getFftCoefficients [fn] in FilterKernel
getFFTSize [fn] in ConnectivitySettings
getFFTSize [fn] in ConnectivitySettings
getFFTSize [fn] in Network — Returns the current FFT size.
getFFTSize [fn] in Network — Returns the current FFT size.
getFiffInfo [fn] in RtClient — Request Fiff Info.
getFilterActive [fn] in FilterSettingsView — Returns true if the filters a set as active.
getFilterOrder [fn] in FilterKernel
getFilterTaps [fn] in FilterDesignView — Returns the currently set number of filter taps.
getFilterType [fn] in FilterKernel
getFilterView [fn] in FilterSettingsView — Returns the filter design view used to design filters.
getFirstSampleOffset [fn] in RtFiffRawViewModel — Get offset of first drawn sample in the window.
getFittingWindowSize [fn] in HpiSettingsView — Get number of fits per second to do when performing continuous hpi.
getFreeElementsRead [fn] in CircularBuffer — Returns the number of free elements for thread safe reading.
getFreeElementsWrite [fn] in CircularBuffer — Returns the number of free elements for thread safe reading.
getFreqScale [fn] in FrequencySpectrumModel — Returns the frequency scale of the x axis.
getFreqScaleBound [fn] in FrequencySpectrumModel — Returns the frequency scale scaled to boundaries of the x axis.
getFrequency [fn] in AbstractFormatReader — Return the sampling frequency in Hz.
getFrequency [fn] in BrainVisionReader — Return the sampling frequency in Hz.
getFrequency [fn] in EDFReader — Return the sampling frequency in Hz.
getFrequencyBins [fn] in NetworkEdge — Returns the current frequency bins to average from/to.
getFrequencyBins [fn] in NetworkEdge — Returns the current frequency bins to average from/to.
getFrequencyRange [fn] in Network — Returns the current frequency edge to average from/to.
getFrequencyRange [fn] in Network — Returns the current frequency edge to average from/to.
getFrom [fn] in FilterDesignView — Get filter 'From' value.
getFullConnectivityMatrix [fn] in Network — Returns the full connectivity matrix for this network structure.
getFullConnectivityMatrix [fn] in Network — Returns the full connectivity matrix for this network structure.
getFullDegree [fn] in NetworkNode — Returns node degree corresponding to the full network.
getFullDegree [fn] in NetworkNode — Returns node degree corresponding to the full network.
getFullDistribution [fn] in Network — Returns network distribution, also known as network degree, corresponding to the full network.
getFullDistribution [fn] in Network — Returns network distribution, also known as network degree, corresponding to the full network.
getFullEdges [fn] in Network — Returns the full and non thresholded edges.
getFullEdges [fn] in Network — Returns the full and non thresholded edges.
getFullEdges [fn] in NetworkNode — Returns the ingoing edges corresponding to the full network.
getFullEdges [fn] in NetworkNode — Returns the ingoing edges corresponding to the full network.
getFullEdgesIn [fn] in NetworkNode — Returns the ingoing edges corresponding to the full network.
getFullEdgesIn [fn] in NetworkNode — Returns the ingoing edges corresponding to the full network.
getFullEdgesOut [fn] in NetworkNode — Returns the outgoing edges corresponding to the full network.
getFullEdgesOut [fn] in NetworkNode — Returns the outgoing edges corresponding to the full network.
getFullIndegree [fn] in NetworkNode — Returns node indegree corresponding to the full network.
getFullIndegree [fn] in NetworkNode — Returns node indegree corresponding to the full network.
getFullInstrength [fn] in NetworkNode — Returns node strength of all ingoing edges corresponding to the full network.
getFullInstrength [fn] in NetworkNode — Returns node strength of all ingoing edges corresponding to the full network.
getFullOutdegree [fn] in NetworkNode — Returns node outdegree corresponding to the full network.
getFullOutdegree [fn] in NetworkNode — Returns node outdegree corresponding to the full network.
getFullOutstrength [fn] in NetworkNode — Returns node strength of all outgoing edges corresponding to the full network.
getFullOutstrength [fn] in NetworkNode — Returns node strength of all outgoing edges corresponding to the full network.
getFullStrength [fn] in NetworkNode — Returns node strength corresponding to the full network.
getFullStrength [fn] in NetworkNode — Returns node strength corresponding to the full network.
getHighpassFreq [fn] in FilterKernel
getHpiDigitizer [fn] in InvHpiDataUpdater
getHubStatus [fn] in NetworkNode — Returns flag describing whether this node is a hub or not.
getHubStatus [fn] in NetworkNode — Returns flag describing whether this node is a hub or not.
getId [fn] in NetworkNode — Returns the node id.
getId [fn] in NetworkNode — Returns the node id.
getIdxSelMap [fn] in EvokedSetModel — Returns a map which conatins the channel idx and its corresponding selection status.
getIdxSelMap [fn] in FrequencySpectrumModel — Returns a map which conatins the channel idx and its corresponding selection status.
getIdxSelMap [fn] in RtFiffRawViewModel — Returns a map which conatins the channel idx and its corresponding selection status.
getIndexFromMappedChName [fn] in ChannelInfoModel — Returns the model index for the given input channel fro mthe mapped channel list.
getIndexFromOrigChName [fn] in ChannelInfoModel — Returns the model index for the given input channel fro mthe original channel list.
getIndicesByLabel [fn] in InvSourceEstimate — Returns the indices of sources in the data matrix based on their beloning label.
getInfo [fn] in AbstractFormatReader — Return measurement metadata as FiffInfo.
getInfo [fn] in BrainVisionReader — Return measurement metadata as FiffInfo.
getInfo [fn] in EDFReader — Return measurement metadata as FiffInfo.
getInfo [fn] in FiffTag — Type information as a string.
getInfo [fn] in FrequencySpectrumModel — Returns the fiff info.
getIntermediateSumData [fn] in ConnectivitySettings
getIntermediateSumData [fn] in ConnectivitySettings
getIsChannelBad [fn] in EvokedSetModel — Returns true or fals whether the provided channel is bad.
getItemForChName [fn] in ChannelSelectionView — gets the item corresponding to text in listWidget
getKernel [fn] in InvMinimumNorm — Get the assembled kernel.
getKernel [fn] in MNEInverseOperator — Access the most recently assembled kernel (mutable).
getKernel [fn] in MNEInverseOperator — Access the most recently assembled kernel (const).
getKind [fn] in EvokedSetModel — Returns the kind of a given channel number.
getKind [fn] in RtFiffRawViewModel — Returns the kind of a given channel number.
getLabelIds [fn] in FsAnnotation — Returns the vertix labels.
getLabelIds [fn] in FsAnnotation — Returns the vertix labels.
getLabelIds [fn] in FsColortable — Ids encoded in the colortable.
getLastBlock [fn] in RtFiffRawView — Get the latest data block from the underlying model.
getLastBlock [fn] in RtFiffRawViewModel — Returns the last received data block.
getLastBlockFirstValue [fn] in RtFiffRawViewModel — Returns the first value of the last complete data display block.
getLastTo [fn] in CompensatorView — Get the last value of comp.to.
getLayoutMap [fn] in ChannelSelectionView — returns the current layout map.
getList [fn] in FiffDigPointSet — Returns list of digitizer point the set contains.
getLowerBound [fn] in SpectrumSettingsView — Returns the lower bound.
getLowerFreq [fn] in ConnectivitySettingsView — Get the current lower frequency range.
getLowerFrqBound [fn] in FrequencySpectrumModel — Returns the lower frequency boundary.
getLowpassFreq [fn] in FilterKernel
getMappedChannelsList [fn] in ChannelInfoModel — Updates the layout map.
getMarkers [fn] in BrainVisionReader — Return all parsed markers from the .vmrk file.
getMatrixCoding [fn] in FiffTag — Provides information about matrix coding.
getMatrixDimensions [fn] in FiffTag — Returns matrix dimensions Refactors: fiff_get_matrix_dims (fiff_matrix.c).
getMatrixWeight [fn] in NetworkEdge — Returns the edge weight non-averaged in form of a matrix.
getMatrixWeight [fn] in NetworkEdge — Returns the edge weight non-averaged in form of a matrix.
getMaxIter [fn] in CoregSettingsView — Get the maximum number of icp iterations.
getMaxSamples [fn] in RtFiffRawViewModel — Returns the maximal number of samples of the downsampled data to display.
getMaxValueFromRawViewModel [fn] in RtFiffRawViewModel — Get maximum range of respective channel type.
getMeasurementChannelInfos [fn] in EDFReader — Return measurement channel infos only.
getMinMaxFullDegrees [fn] in Network — Returns the minimum and maximum degree (in and out) corresponding to the full network.
getMinMaxFullDegrees [fn] in Network — Returns the minimum and maximum degree (in and out) corresponding to the full network.
getMinMaxFullIndegrees [fn] in Network — Returns the minimum and maximum indegree corresponding to the full network.
getMinMaxFullIndegrees [fn] in Network — Returns the minimum and maximum indegree corresponding to the full network.
getMinMaxFullOutdegrees [fn] in Network — Returns the minimum and maximum outdegree corresponding to the full network.
getMinMaxFullOutdegrees [fn] in Network — Returns the minimum and maximum outdegree corresponding to the full network.
getMinMaxFullWeights [fn] in Network — Returns the minimum and maximum weight strength of the entire network.
getMinMaxFullWeights [fn] in Network — Returns the minimum and maximum weight strength of the entire network.
getMinMaxThresholdedDegrees [fn] in Network — Returns the minimum and maximum degree (in and out) corresponding to the thresholded network.
getMinMaxThresholdedDegrees [fn] in Network — Returns the minimum and maximum degree (in and out) corresponding to the thresholded network.
getMinMaxThresholdedIndegrees [fn] in Network — Returns the minimum and maximum indegree corresponding to the thresholded network.
getMinMaxThresholdedIndegrees [fn] in Network — Returns the minimum and maximum indegree corresponding to the thresholded network.
getMinMaxThresholdedOutdegrees [fn] in Network — Returns the minimum and maximum outdegree corresponding to the thresholded network.
getMinMaxThresholdedOutdegrees [fn] in Network — Returns the minimum and maximum outdegree corresponding to the thresholded network.
getMinMaxThresholdedWeights [fn] in Network — Returns the minimum and maximum weight strength of the thresholded network.
getMinMaxThresholdedWeights [fn] in Network — Returns the minimum and maximum weight strength of the thresholded network.
getModalityMap [fn] in ButterflyView — Get the activation of the already created modality check boxes.
getModalityMap [fn] in ModalitySelectionView — Get the activation of the already created modality check boxes.
getModelCheckpoint [fn] in MinimumNormSettingsView — Returns the current model checkpoint path.
getMontage [fn] in StandardMontage — Get a standard montage by system name.
getName [fn] in FilterKernel
getName [fn] in FilterParameter — Returns parameter name.
getName [fn] in InvMinimumNorm — Get the name of the inverse operator.
getName [fn] in InvPwlRapMusic
getName [fn] in InvRapMusic
getNames [fn] in FsColortable — Names encoded in the colortable.
getNodeAt [fn] in Network — Returns the node at a specific position.
getNodeAt [fn] in Network — Returns the node at a specific position.
getNodePositions [fn] in ConnectivitySettings
getNodePositions [fn] in ConnectivitySettings
getNodes [fn] in Network — Returns the nodes.
getNodes [fn] in Network — Returns the nodes.
getNumAverages [fn] in AveragingSettingsView
getNumAverages [fn] in EvokedSetModel — Returns the current number of stored averages.
getNumberOfTimeSpacers [fn] in EvokedSetModel — Returns the current number for the time spacers.
getNumberOfTimeSpacers [fn] in RtFiffRawViewModel — Returns the current number for the time spacers.
getNumberTrials [fn] in ConnectivitySettingsView — Get the current number of trials.
getNumPreStimSamples [fn] in EvokedSetModel — Returns the number of pre-stimulus samples.
getNumSamples [fn] in EvokedSetModel — Returns the number of samples.
getNumStems [fn] in FrequencySpectrumModel — Returns the number of stems.
getOmmitDistance [fn] in CoregSettingsView — Get the the maximum distance for digitizers from the surface.
getOpacityValue [fn] in QuickControlView — Get current opacity value.
getParksWidth [fn] in FilterKernel
getPostStimMSeconds [fn] in AveragingSettingsView
getPreparedInverseOperator [fn] in InvMinimumNorm — Get the prepared inverse operator.
getPreStimMSeconds [fn] in AveragingSettingsView
getProjectedData [fn] in InvHpiDataUpdater
getProjectors [fn] in InvHpiDataUpdater
getProjectors [fn] in ProjectorsView — Get the current projectors.
getPsf [fn] in InvResolutionMatrix — Extract the point-spread function (PSF) for a given source index.
getPsfs [fn] in InvResolutionMatrix — Extract PSFs for multiple source indices.
getRawCommand [fn] in CommandParser — Returns the stored RawCommand.
getRecomputationStatusChanged [fn] in FwdSettingsView — Get status of recomputation check box.
getRGBAs [fn] in FsColortable — RGBAs encoded in the colortable.
getSampleCount [fn] in AbstractFormatReader — Return total number of samples across the recording.
getSampleCount [fn] in BrainVisionReader — Return total number of samples across the recording.
getSampleCount [fn] in EDFReader — Return total number of samples across the recording.
getSamplingFreq [fn] in RtFiffRawView — Getter fcn for Sampling Frequency member.
getSamplingFrequency [fn] in ConnectivitySettings
getSamplingFrequency [fn] in ConnectivitySettings
getSamplingFrequency [fn] in EvokedSetModel — Returns the current sampling frequency.
getSamplingFrequency [fn] in FilterKernel
getSamplingFrequency [fn] in Network — Get the currently set sampling frequency.
getSamplingFrequency [fn] in Network — Get the currently set sampling frequency.
getScaleMap [fn] in ScalingView — Get the current scaling map.
getScaling [fn] in RtFiffRawViewModel — Returns current scaling.
getScalingMap [fn] in RtFiffRawView — Get the current scaling map.
getSelectedChannels [fn] in ChannelSelectionView — Current selected channels This function returns the current channel selection.
getSelectedStimChannel [fn] in TriggerDetectionView — Gets currently selected STIM channel in GUI.
getSelectedViews [fn] in ApplyToView
getSensors [fn] in InvHpiDataUpdater
getShortDescription [fn] in FilterKernel
getSignalColor [fn] in FiffRawViewSettings — Returns the current signal color.
getSignalColor [fn] in RtFiffRawView — Returns the signal color.
getSignalColor [fn] in RtFiffRawViewDelegate — Returns the signal color.
getSignalColorForAllItems [fn] in AverageScene — Set the signal color for all items in the scene.
getSourcePositionsByLabel [fn] in MNEForwardSolution — Returns the positions of the specified sources based on their beloning labels.
getSourceSpace [fn] in InvMinimumNorm — Get the source space corresponding to this inverse operator.
getSourceSpace [fn] in InvRapMusic
getSspStatusChanged [fn] in HpiSettingsView — Get the SSP checked status.
getStartNodeID [fn] in NetworkEdge — Returns the start node of this edge.
getStartNodeID [fn] in NetworkEdge — Returns the start node of this edge.
getStimChannelIdx [fn] in AveragingSettingsView
getThreshold [fn] in Network — Returns the current threshold of the network.
getThreshold [fn] in Network — Returns the current threshold of the network.
getThreshold [fn] in Spline — getThreshold retrieves the current threshold values
getThresholdedConnectivityMatrix [fn] in Network — Returns the thresholded connectivity matrix for this network structure.
getThresholdedConnectivityMatrix [fn] in Network — Returns the thresholded connectivity matrix for this network structure.
getThresholdedDegree [fn] in NetworkNode — Returns node degree corresponding to the thresholded network.
getThresholdedDegree [fn] in NetworkNode — Returns node degree corresponding to the thresholded network.
getThresholdedDistribution [fn] in Network — Returns network distribution, also known as network degree, corresponding to the thresholded network.
getThresholdedDistribution [fn] in Network — Returns network distribution, also known as network degree, corresponding to the thresholded network.
getThresholdedEdges [fn] in Network — Returns the thresholded edges.
getThresholdedEdges [fn] in Network — Returns the thresholded edges.
getThresholdedEdges [fn] in NetworkNode — Returns all edges corresponding to the thresholded network.
getThresholdedEdges [fn] in NetworkNode — Returns all edges corresponding to the thresholded network.
getThresholdedEdgesIn [fn] in NetworkNode — Returns the ingoing edges corresponding to the thresholded network.
getThresholdedEdgesIn [fn] in NetworkNode — Returns the ingoing edges corresponding to the thresholded network.
getThresholdedEdgesOut [fn] in NetworkNode — Returns the outgoing edges corresponding to the thresholded network.
getThresholdedEdgesOut [fn] in NetworkNode — Returns the outgoing edges corresponding to the thresholded network.
getThresholdedIndegree [fn] in NetworkNode — Returns node indegree corresponding to the thresholded network.
getThresholdedIndegree [fn] in NetworkNode — Returns node indegree corresponding to the thresholded network.
getThresholdedInstrength [fn] in NetworkNode — Returns node strength of all ingoing edges corresponding to the thresholded network.
getThresholdedInstrength [fn] in NetworkNode — Returns node strength of all ingoing edges corresponding to the thresholded network.
getThresholdedOutdegree [fn] in NetworkNode — Returns node outdegree corresponding to the thresholded network.
getThresholdedOutdegree [fn] in NetworkNode — Returns node outdegree corresponding to the thresholded network.
getThresholdedOutstrength [fn] in NetworkNode — Returns node strength of all outgoing edges corresponding to the thresholded network.
getThresholdedOutstrength [fn] in NetworkNode — Returns node strength of all outgoing edges corresponding to the thresholded network.
getThresholdedStrength [fn] in NetworkNode — Returns node strength corresponding to the thresholded network.
getThresholdedStrength [fn] in NetworkNode — Returns node strength corresponding to the thresholded network.
getThresholdMap [fn] in ArtifactSettingsView
getTo [fn] in FilterDesignView — Get filter 'To' value.
getTransParams [fn] in CoregSettingsView — Get the parameters for the new transformation to build from the adjustment values.
getTrialData [fn] in ConnectivitySettings
getTrialData [fn] in ConnectivitySettings
getTriCoords [fn] in MNEHemisphere — Qt 3d geometry information.
getTriggerColor [fn] in RtFiffRawViewModel — Returns current trigger color.
getTriggerName [fn] in RtFiffRawViewModel — Returns the current trigger name.
getTriggerThreshold [fn] in RtFiffRawViewModel — Returns the current trigger threshold.
getTriggerType [fn] in ConnectivitySettingsView — Get the current trigger type.
getType [fn] in FiffTag — Provides the tag type information.
getUI [fn] in ScaleControl — getUI Return a pointer to the GUI of the ScaleControl.
getUnit [fn] in EvokedSetModel — Returns the unit of a given channel number.
getUnit [fn] in RtFiffRawViewModel — Returns the unit of a given channel number.
getUpperBound [fn] in SpectrumSettingsView — Returns the upper bound.
getUpperFreq [fn] in ConnectivitySettingsView — Get the current upper frequency range.
getUpperFrqBound [fn] in FrequencySpectrumModel — Returns the upper frequency boundary.
getUsedFreqBins [fn] in Network — Get the currently set number of frequency bins.
getUsedFreqBins [fn] in Network — Get the currently set number of frequency bins.
getValuesAtTime [fn] in MNEMeasDataSet — Pick signal values at a specified time point using linear interpolation.
getValuesFromChannelData [fn] in MNEMeasDataSet — Pick signal values at a specified time point using linear interpolation (channel-major layout).
getVert [fn] in NetworkNode — Returns the vertex (position) of the node.
getVert [fn] in NetworkNode — Returns the vertex (position) of the node.
getVertices [fn] in FsAnnotation — Returns the vertix indeces.
getVertices [fn] in FsAnnotation — Returns the vertix indeces.
getViewWidget [fn] in ChannelSelectionView — Returns pointer to the portion of the channel view with the graphics view.
getVisualizationInfo [fn] in Network — Get the current visualization info.
getVisualizationInfo [fn] in Network — Get the current visualization info.
getWeight [fn] in NetworkEdge — Returns the edge weight.
getWeight [fn] in NetworkEdge — Returns the edge weight.
getWeightEEG [fn] in CoregSettingsView
getWeightHPI [fn] in CoregSettingsView
getWeightHSP [fn] in CoregSettingsView
getWeightLPA [fn] in CoregSettingsView — Get the weights for the digitizer types.
getWeightNAS [fn] in CoregSettingsView
getWeightRPA [fn] in CoregSettingsView
getWindowSize [fn] in FiffRawViewSettings — Returns the current window size.
getWindowSize [fn] in RtFiffRawView — Get the current window size.
getWindowType [fn] in ConnectivitySettings
getWindowType [fn] in ConnectivitySettings
getWindowType [fn] in ConnectivitySettingsView — Get the current window type.
getZoom [fn] in FiffRawViewSettings — Returns the current zoom.
getZoom [fn] in RtFiffRawView — Get the current zoom.
GoF [var] in HpiFitResult
good [var] in InvEcd — Goodness of fit.
goodness [var] in InvFocalDipole — Goodness-of-fit (0..1).
grad_reg [var] in InvDipoleFitSettings — Noise-covariance matrix regularization for planar gradiometers.
grad_std [var] in InvDipoleFitSettings — Standard deviation for gradiometers if noise covariance is not specified.
grandAveFile [var] in ProcessingSettings — Grand average output file.
grandCovFile [var] in ProcessingSettings — Grand covariance output file.
GrangerCausality [fn] in GrangerCausality — Constructs a GrangerCausality object.
GrangerCausality [fn] in GrangerCausality — Constructs a GrangerCausality object.
Graph [fn] in Graph — The constructor.
graph [var] in StreamContext — The pipeline graph (owned externally).
graphInputs [var] in Context — Graph-level inputs (populated before execution).
graphInputs [var] in MnaGraph — Named, typed entry points.
graphOutputs [var] in MnaGraph — Named, typed exit points.
gridCols [var] in ElectrodeArray — Grid only: number of cols (Strip uses Cols = N, Rows = 1).
gridIndex [var] in InvFocalDipole — Nearest grid index (-1 if truly off-grid).
gridIndices [var] in InvSourceCoupling — Grid indices of the coupled sources (size N).
gridRows [var] in ElectrodeArray — Grid only: number of rows.
gridVisible [fn] in ChannelRhiView
growLabel [fn] in FsLabelUtils — Grow a label by expanding along the surface mesh.
guess_exclude [var] in InvDipoleFitSettings — Exclude points closer than this to the origin.
guess_fwd [var] in InvGuessData — Forward solutions for the guesses.
guess_grid [var] in InvDipoleFitSettings — Grid spacing.
guess_mindist [var] in InvDipoleFitSettings — Minimum allowed distance to the surface.
guess_rad [var] in InvDipoleFitSettings — Radius of spherical guess surface.
guess_surfname [var] in InvDipoleFitSettings — Load the inner skull surface from this BEM file.
guessname [var] in InvDipoleFitSettings — Initial guess grid (if not present, the values below will be employed to generate the grid).
gui [var] in InvDipoleFitSettings — Should the GUI be shown?
GuiMode [enum] in AbstractView
guiStyleChanged [signal] in AbstractView — Signal emited whenever the gui style mode changes.
guiStyleChanged [fn] in FilterDesignView — Process the event of style mode change in an upper class.

H

has_eeg [var] in MNEProjItem — Whether the projection covers EEG channels.
has_kind [fn] in FiffDirNode — Checks whether a FiffDirNode has a specific kind.
has_meg [var] in MNEProjItem — Whether the projection covers MEG channels.
has_tag [fn] in FiffDirNode — Definition of the has_tag function in fiff_read_named_matrix.m.
hasAllFiducials [fn] in AcquiredPoints — True iff all three cardinal fiducials have been captured.
hasAllModelFiducials [fn] in PolhemusCoregistration
hasAllPenFiducials [fn] in PolhemusCoregistration
hasAllTwinFiducials [fn] in AcquiredPoints
hasBinding [fn] in MnaParamTree
hasCommand [fn] in CommandManager — Checks if a command is managed;.
hasCommand [fn] in RtCmdClient — Checks if a command is managed;.
hasConnectivity [fn] in InvSourceEstimate — Returns true if the estimate contains connectivity results.
hasCouplings [fn] in InvSourceEstimate — Returns true if the estimate contains source coupling annotations (e.g.
hasData [fn] in NetworkObject
hasDevHead [var] in SensorLoadResult — Whether a valid dev→head transform was found.
hasDigitizer [var] in SensorLoadResult
hasFiducial [fn] in AcquiredPoints — True iff a fiducial of the given id has been captured.
hasFocalDipoles [fn] in InvSourceEstimate — Returns true if the estimate contains focal (off-grid) dipole results.
hasFrame [fn] in VideoOverlay
hasGridData [fn] in InvSourceEstimate — Returns true if the estimate contains grid-based data (distributed methods or RAP-MUSIC amplitudes).
hasInfo [var] in SensorLoadResult
hasLh [fn] in StcLoadingWorker — Check if left hemisphere data was loaded.
hasMappingFor [fn] in SensorFieldMapper — Check whether the current mapping matrices can be reused for a new evoked data set (i.e., same sensor configuration: same channels, same SSP projectors, same bad channels).
hasMergedContent [fn] in BrainRenderer — Check if a merged group has drawable geometry (indexCount > 0).
hasModelFiducial [fn] in PolhemusCoregistration
hasModelVertex [fn] in PolhemusCoregistration
hasNode [fn] in MnaGraph
hasOp [fn] in MnaOpRegistry — Check if an operation type is registered.
hasOrientation [var] in FastrakSample
hasOrientation [fn] in SensorTreeItem — Returns true if an explicit orientation was set.
hasPackage [fn] in PythonTestHelper — Check if a specific Python package is importable.
hasParam [fn] in MnaParamTree
hasPenVertex [fn] in PolhemusCoregistration
hasPositions [fn] in InvSourceEstimate — Returns true if the estimate carries explicit source positions (discrete source space).
hasRh [fn] in StcLoadingWorker — Check if right hemisphere data was loaded.
hasShape [fn] in InvVolumeSourceEstimate — Check whether the grid shape has been set.
hasTwinFiducial [fn] in AcquiredPoints
have_consumers [fn] in stream_outlet — Check whether any consumers are currently connected.
haveLivePenPosition [fn] in PolhemusCoregistration
head_mri_t [var] in FiffDigitizerData — Head to MRI coordinate transformation.
head_mri_t [var] in FwdBemModel — Head-to-MRI coordinate transform.
head_mri_t_adj [var] in FiffDigitizerData — Adjusted head to MRI transformation.
head_surf_RAS_t [var] in FiffCoordTransSet — Transform from MEG head coordinates to surface RAS.
headerData [fn] in ChannelInfoModel
headerData [fn] in EvokedSetModel — Returns the data for the given role and section in the header with the specified orientation.
headerData [fn] in FrequencySpectrumModel — Returns the data for the given role and section in the header with the specified orientation.
headerData [fn] in RtFiffRawViewModel — Returns the data for the given role and section in the header with the specified orientation.
headToDevice [fn] in PolhemusCoregistration
headToWorld [fn] in PolhemusCoregistration
height [var] in MNEVolGeom
height [var] in MriSlice — Height of the image in pixels.
height [var] in MriSliceImage — Height of the slice image in pixels.
height [var] in MriVolData — Second dimension.
helmetSurface [var] in SensorLoadResult — May be null.
hemi [fn] in BrainSurface — Get the hemisphere index.
hemi [fn] in FsAnnotation — Returns the hemisphere id (0 = lh; 1 = rh).
hemi [var] in FsLabel — Hemisphere (lh = 0; rh = 1).
hemi [fn] in FsSurface — Returns the hemisphere id (0 = lh; 1 = rh).
hemisphere [var] in PickResult — Hemisphere for CorticalVertex (0 = left, 1 = right).
hemisphere [var] in PolhemusSerialConfig — Hemisphere vector for all stations.
hemisphereAt [fn] in MNESourceSpaces — Safe downcast to MNEHemisphere at the given index.
hemisphereAt [fn] in MNESourceSpaces — Safe downcast to MNEHemisphere at the given index (const).
hideBadChannels [fn] in ChannelDataView — Show or hide channels marked bad.
hideBadChannels [fn] in ChannelRhiView
hideBadChannels [fn] in RtFiffRawView — Hides/shows all bad channels in the view.
hideFileNameUi [fn] in ProjectSettingsView — Hides file name ui elements.
hideItems [fn] in SelectionScene — Hides all items described in list.
hideParadigmUi [fn] in ProjectSettingsView — Hides paradigm ui elements.
hideRows [fn] in RtFiffRawViewModel — Hides the given list of channel.
highCutoff [var] in BidsChannel — Low-pass cutoff frequency in Hz (OPTIONAL).
highlightChannels [fn] in ChannelSelectionView — Highlight channels This function highlights channels which were selected outside this selection manager (i.e in the DataWindow's Table View).
highpass [var] in FiffInfo — Highpass frequency.
highpass [var] in FilterSettings — Highpass corner (Hz).
highpass [var] in MNEFilterDef — Highpass in Hz.
highpass [var] in MNEMeasData — High-pass filter setting (Hz).
highpass [var] in MNERawInfo — Highpass filter setting.
highpass_width [var] in MNEFilterDef — Highpass transition width in Hz.
highpassWidth [var] in FilterSettings — Highpass transition width (Hz).
hilbertEnvelope [fn] in ConnectivityAec — Compute the analytic signal envelope via Hilbert transform (using FFT).
histcounts [fn] in Numerics — Creates a class and frequency distribution from data matrix.
histcounts [fn] in Numerics
histcounts [fn] in Numerics
hit [var] in PickResult — True if something was hit.
hitPoint [var] in PickResult — World-space intersection point.
hitTestSplitter [fn] in MultiViewLayout — Hit-test the splitter bars.
hitTolerancePx [fn] in MultiViewLayout
holmBonferroni [fn] in StatsMcCorrection — Holm-Bonferroni step-down correction.
Holographic [var] in BrainRenderer
hostName [var] in MnaProvenance — Machine name (for cluster provenance).
hoveredRegionChanged [signal] in BrainView — Emitted when the hovered brain region changes.
hpiFreqs [var] in HpiFitResult
HpiSettingsView [fn] in HpiSettingsView — Constructs a HpiSettingsView object.
htmlContent [var] in ReportSection

I

iBlockSize [var] in BadChannelsMaxwellParams — Block size for averaging (0 = use all data).
icoDownsample [fn] in MNESourceSpace — Downsample a hemisphere source space to an icosahedral subdivision of the given grade.
id [var] in FiffDirNode — Id of this block if any.
id [fn] in FiffStream — Returns the file identifier.
id [var] in InvToken — Vocabulary token ID.
id [var] in MnaNode — Unique node identifier.
id [var] in MnaRecording — Recording identifier.
id [var] in MnaSession — Session identifier.
id [var] in MnaSubject — Subject identifier.
id [var] in MnaVerificationCheck — Unique check identifier within the node (e.g. "cov_posdef").
id [var] in MNERawInfo — Measurement id from the file.
id [var] in MNESurfaceOrVolume — FsSurface id.
id [var] in SceneLayer — Caller-supplied unique id ("cortex_lh", "seeg_LH", "mri_axial").
id_name [fn] in MNEBemSurface — Map bem id integers to human-readable names.
idcs [var] in RegionData — Get source space indeces.
idcs [var] in RegionMT — Source-space indices for this region.
ident [var] in FiffDigPoint — Number identifying this point.
identity [fn] in FiffCoordTrans — Creates an identity transformation between two coordinate systems.
identNumber [var] in DigitizedPoint — 1-based id used by FIFF on export.
idx [var] in HPISortStruct
IdxIntValue [type] in Linalg — Typedef of a pair of ints.
ieegReference [var] in BidsRawData — Reference electrode name (RECOMMENDED).
iFilterOrder [var] in AnnotateMusclParams — Butterworth order.
iFilterOrder [var] in ArtifactDetectEcgParams — Butterworth order for the bandpass pre-filter.
iFilterOrder [var] in ArtifactDetectEogParams — Butterworth order for the low-pass pre-filter.
iFilterOrder [var] in FilterChpiParams — Butterworth order for each notch filter.
ignore [var] in AverageCategory — Which trigger lines to ignore.
ignore [var] in CovDefinition — Which trigger lines to ignore.
iLabelIdxIn [var] in RegionData — FsLabel ID.
iLabelIdxIn [var] in RegionMT — Label index passed through to the output.
iLabelIdxOut [var] in RegionDataOut — FsLabel ID.
iLabelIdxOut [var] in RegionMTOut — Label index carried through from the input.
iLineFreq [fn] in InvHpiModelParameters
ImagCoherence [fn] in ImagCoherence — Constructs a ImagCoherence object.
ImagCoherence [fn] in ImagCoherence — Constructs a ImagCoherence object.
image [fn] in SliceObject
image [var] in TileResult
ImageSc [fn] in ImageSc — Creates the scaled image view.
ImageSc [fn] in ImageSc — Creates the scaled image view with a given double matrix.
ImageSc [fn] in ImageSc — Creates the scaled image view with a given float matrix.
ImageSc [fn] in ImageSc — Creates the scaled image view with a given integer matrix.
iMaxIterations [var] in InvTfMxneParams — Maximum number of iterations.
imbalance [var] in FineCalEntry — Cross-talk imbalance correction (x, y, z).
imbalanceMatrix [fn] in FineCalibration — Build imbalance matrix.
iMinDistance [var] in PeakFinderParams — Minimum distance between peaks (samples).
impedance [var] in BidsElectrode — Impedance value or "n/a" (OPTIONAL).
in_nuse [var] in MNESssData — How many components included in the inside expansion.
in_order [var] in MNESssData — Order of the inside expansion.
in_use [var] in MNEDeriv — Per-column count of non-zero elements in the derivation data.
include_eeg [var] in ComputeFwdSettings
include_eeg [var] in InvDipoleFitSettings — Use EEG?
include_meg [var] in ComputeFwdSettings
include_meg [var] in InvDipoleFitSettings — Use MEG?
includeConnectivity [var] in InvTokenizeOptions — Emit connectivity matrices.
includeCouplings [var] in InvTokenizeOptions — Emit source coupling annotations.
includeFocalDipoles [var] in InvTokenizeOptions — Emit focal dipole layer.
includeGridData [var] in InvTokenizeOptions — Emit grid amplitude data.
includePositions [var] in InvTokenizeOptions — Emit explicit 3-D positions.
independent [fn] in StatsTtest — Independent two-sample t-test.
indexBuffer [fn] in BrainSurface
indexBuffer [fn] in DipoleObject
indexBuffer [fn] in ElectrodeObject
indexCount [fn] in BrainSurface
indexCount [fn] in DipoleObject
indexDataRef [fn] in BrainSurface — Const-ref access to CPU-side index data (used by merged rendering).
iNeighbours [var] in BadChannelDetectParams — Number of channels on each side to use as neighbours.
iNfft [var] in TaperedSpectraInputData
info [var] in FiffEvoked — Measurement info.
info [var] in FiffEvokedSet — FIFF measurement information.
info [var] in FiffRawData — Fiff measurement information.
info [var] in MNEForwardSolution — light weighted measurement info.
info [var] in MNEInverseOperator — Lightweight measurement info (channel names, types, etc.).
info [var] in MNERawData — Raw data information loaded using MNE routines.
info [var] in SensorLoadResult — Channel / dig info.
info [fn] in stream_outlet — Get the stream_info associated with this outlet (including the assigned data port).
iNFreqs [var] in InvTfMxneParams — Number of frequency bins for Gabor dictionary.
iNHpiCoils [fn] in InvHpiModelParameters
iNin [var] in Basis — N_in = iOrderIn*(iOrderIn+2).
init [fn] in ChannelDataModel — Initialise with channel metadata from a FiffInfo.
init [fn] in ChannelDataView — Initialise the view from a FiffInfo (channel names, types, sampling rate).
init [fn] in EvokedSetModel
init [fn] in Graph — Init this class.
init [fn] in ImageSc — Initializes the ImageSc object.
init [fn] in InvRapMusic — Initializes the RAP MUSIC algorithm with the given model.
init [fn] in ParksMcClellan — Using nothrow prevents an exception from being thrown.
init [fn] in Plot — Initializes the Plot object.
init [fn] in RtFiffRawView — Initilaizes the RtFiffRawView based on a FiffInfo.
init [fn] in SpectrumView — Initializes the view based on the FiffInfo and scale type.
init [fn] in TriggerDetectionView — Init the view.
initialize [fn] in BrainRenderer — Initialize resources (shaders, pipelines) for the given RHI and render pass.
initialize_custom_lights [fn] in MNEMshDisplaySurfaceSet — Create a default set of 8 directional lights if custom lights have not been initialized yet.
initPainterPaths [fn] in RtFiffRawViewDelegate — Initializes painter path variables to fit number of channels in the model/view.
initWatcher [fn] in FiffFileSharer — Sets member QFileSystemWatcher to watch set directory.
iNNeighbors [var] in LofBadChannelParams — Number of neighbours for LOF (k parameter).
iNout [var] in Basis — N_out = iOrderOut*(iOrderOut+2).
inputHashes [var] in MnaProvenance — portName → SHA-256
inputPorts [var] in MnaOpSchema — Expected input ports.
inputs [var] in MnaNode — Input ports.
inputWeights [var] in DerivationRule — Map of input channel name → weight.
insert [fn] in CommandManager — Inserts commands encoded in a json document.
insert [fn] in CommandManager — Inserts a single command.
insert [fn] in CommandManager — Inserts a new command and emmits dataChanged signal.
insert [fn] in FsAnnotationSet — Insert an annotation.
insert [fn] in FsSurfaceSet — Insert a surface.
insertRows [fn] in ChannelInfoModel
insetForSeparator [fn] in MultiViewLayout — Apply a separator-pixel inset to a pane rect so adjacent panes don't overlap the separator bar.
instance [fn] in MnaOpRegistry — Access the singleton instance.
instanceBuffer [fn] in DipoleObject
instanceBuffer [fn] in ElectrodeObject
instanceCount [fn] in DipoleObject
integ [var] in InvDipoleFitSettings — Integration time for each fit (s).
interpolateSignal [fn] in Interpolation — interpolateSignal Interpolates sensor data using the weight matrix (shared pointer version).
interpolateSignal [fn] in Interpolation — interpolateSignal Interpolates sensor data using the weight matrix (reference version).
Interpolation [fn] in Interpolation
interpolationMatLh [fn] in SourceEstimateOverlay — Get the interpolation matrix for the left hemisphere.
interpolationMatLh [fn] in StcLoadingWorker — Get the computed left hemisphere interpolation matrix.
interpolationMatRh [fn] in SourceEstimateOverlay — Get the interpolation matrix for the right hemisphere.
interpolationMatRh [fn] in StcLoadingWorker — Get the computed right hemisphere interpolation matrix.
interpolator [var] in MNESurfaceOrVolume — Sparse matrix to interpolate from source space into an MRI volume.
interpreter [var] in MnaScript — Interpreter command (e.g.
interpreterArgs [var] in MnaScript — Extra args before the script file (e.g. ["-u"] for unbuffered Python).
intersect [fn] in DipoleObject — Test ray intersection with dipoles.
intersect [fn] in Linalg — Find the intersection of two vectors.
intersects [fn] in BrainSurface — Test ray intersection with this surface.
intersectWorldRay [slot] in BrainView — Intersect a world-space ray with loaded scene geometry.
inuse [var] in MNESurfaceOrVolume — Boolean array indicating whether each vertex is in use in the source space (np elements).
inv_lambda [var] in MNECovMatrix — Inverse square-roots of eigenvalues (for whitening).
invalidateMergedGroup [fn] in BrainRenderer — Mark a merged group as dirty so it is rebuilt on the next prepareMergedSurfaces call.
InvBeamformer [fn] in InvBeamformer — Default constructor — produces an empty (invalid) beamformer.
InvConnectivity [fn] in InvConnectivity
InvDipole [fn] in InvDipole — Default constructor.
InvDipoleFit [fn] in InvDipoleFit — Constructs Dipole Fit algorithm.
InvDipoleFitData [fn] in InvDipoleFitData — Default Constructor.
InvDipoleFitSettings [fn] in InvDipoleFitSettings — Default Constructor.
InvDipoleFitSettings [fn] in InvDipoleFitSettings — Constructs Dipole Fit Settings.
InvDipoleForward [fn] in InvDipoleForward — Constructs a default (empty) InvDipoleForward.
InvEcd [fn] in InvEcd — Constructs the Electric Current Dipole.
InvEcd [fn] in InvEcd — Copy constructor.
InvEcdSet [fn] in InvEcdSet — Constructs a Electric Current Dipole Set object.
InvEcdSet [fn] in InvEcdSet — Copy constructor.
inverseTransform [fn] in DecodingCsp — Project CSP power features back to sensor space.
inversion [var] in InvBeamformer — Inversion method used.
invert [var] in MNELayoutPort — Invert the signal coming to this port.
invert_transform [fn] in Fiff — fiff_invert_transform
invert_transform [fn] in FiffCoordTrans — Invert a coordinate transformation (actual obsolete - cause trans and inverse are both stored).
inverted [fn] in FiffCoordTrans — Returns a new inverted copy of this transformation (swaps from/to and trans/invtrans).
invertSlider [fn] in ScaleControl — Invert the effect of sliding the control slider to the right.
InvFocalDipole [fn] in InvFocalDipole
InvGuessData [fn] in InvGuessData — Constructs the Guess Data Refactored: new_guess_data (dipole_fit_setup.c).
InvGuessData [fn] in InvGuessData — Deleted — non-copyable due to unique_ptr members.
InvGuessData [fn] in InvGuessData — Constructs the Guess Data from given Data Refactored: make_guess_data (setup.c).
InvGuessData [fn] in InvGuessData — Constructs the Guess Data from given Data Refactored: make_guess_data (dipole_fit_setup.c).
InvHpiDataUpdater [fn] in InvHpiDataUpdater — Constructs a InvHpiDataUpdater object.
InvHpiFit [fn] in InvHpiFit — Default constructor.
InvHpiFit [fn] in InvHpiFit — Constructs the HPI from a InvSensorSet.
InvHpiFitData [fn] in InvHpiFitData — Default constructor.
InvHpiModelParameters [fn] in InvHpiModelParameters — Defaul Constructor.
InvHpiModelParameters [fn] in InvHpiModelParameters — Constructs a InvHpiModelParameters object.
InvHpiModelParameters [fn] in InvHpiModelParameters — Copy constructor.
InvMinimumNorm [fn] in InvMinimumNorm — Constructs minimum norm inverse algorithm.
InvMinimumNorm [fn] in InvMinimumNorm — Constructs minimum norm inverse algorithm.
invOperatorCalculated [signal] in RtInvOp — Signal which is emitted when a inverse operator is calculated.
InvPwlRapMusic [fn] in InvPwlRapMusic — Default constructor creates an empty POWELL RAP MUSIC algorithm which still needs to be initialized.
InvPwlRapMusic [fn] in InvPwlRapMusic — Constructor which initializes the POWELL RAP MUSIC algorithm with the given model.
InvRapMusic [fn] in InvRapMusic — Default constructor creates an empty InvRapMusic algorithm which still needs to be initialized.
InvRapMusic [fn] in InvRapMusic — Constructor which initializes the InvRapMusic algorithm with the given model.
InvSensorSet [fn] in InvSensorSet — Default Constructor.
InvSensorSet [fn] in InvSensorSet — InvSensorSet that yiealds sensor position, orientation and weights for geometric averaging.
InvSensorSetCreator [fn] in InvSensorSetCreator — Constructs a MEG InvSensorSet object.
InvSignalModel [fn] in InvSignalModel — Constructs a InvSignalModel object.
InvSourceCoupling [fn] in InvSourceCoupling
InvSourceEstimate [fn] in InvSourceEstimate — Default constructor.
InvSourceEstimate [fn] in InvSourceEstimate — Constructs a source estimation from given data.
InvSourceEstimate [fn] in InvSourceEstimate — Copy constructor.
InvSourceEstimate [fn] in InvSourceEstimate — Constructs a source estimation, by reading from a IO device.
InvToken [fn] in InvToken
InvToken [fn] in InvToken
InvToken [fn] in InvToken
invtrans [var] in FiffCoordTrans — The inverse transform.
invtransform [fn] in MNEBem — Transform the Bem using the inverse.
InvTrapMusic [fn] in InvTrapMusic — Construct TRAP-MUSIC scanner.
InvVectorSourceEstimate [fn] in InvVectorSourceEstimate
InvVectorSourceEstimate [fn] in InvVectorSourceEstimate — Construct from data and vertices.
InvVolumeSourceEstimate [fn] in InvVolumeSourceEstimate
InvVolumeSourceEstimate [fn] in InvVolumeSourceEstimate — Construct from data and vertices.
iOrderIn [var] in BadChannelsMaxwellParams — Internal SSS order.
iOrderIn [var] in Basis — Internal order used.
iOrderIn [var] in MaxwellMoveCompParams — Internal SSS order.
iOrderIn [var] in SSSParams — Internal spherical-harmonic expansion order (default 8).
iOrderOut [var] in BadChannelsMaxwellParams — External SSS order.
iOrderOut [var] in Basis — External order used.
iOrderOut [var] in MaxwellMoveCompParams — External SSS order.
iOrderOut [var] in SSSParams — External spherical-harmonic expansion order (default 3).
ip_approach_limit [var] in FwdBemModel — Threshold for isolated-problem approach.
ipcArgs [var] in MnaNode — Command-line arguments (supports {{placeholder}} tokens).
ipcCommand [var] in MnaNode — External executable command.
ipcTransport [var] in MnaNode — "stdio", "tcp", "shm", "file"
ipcWorkDir [var] in MnaNode — Working directory for external process.
iRangeHigh [var] in SpectogramInputData
iRangeLow [var] in SpectogramInputData
iRefIdx [var] in MaxwellMoveCompParams — Index of reference head position in headPos list.
iRow [var] in FilterObject
is_axial_coil [fn] in FwdCoil — Checks if this is an axial coil.
is_axial_coil_type [fn] in FwdCoilSet — Checks if a set of templates contains an axial coil of a specified type.
is_diag [fn] in MNECovMatrix — Check whether this covariance matrix is stored in diagonal form.
is_eeg_electrode [fn] in FwdCoil — Checks if this is an EEG electrode.
is_eeg_electrode_type [fn] in FwdCoilSet — Checks if a set of templates contains an EEG electrode of a specified type.
is_empty [fn] in FiffEvents — Returns true if no events are stored.
is_empty [fn] in FiffSparseMatrix — Check whether this sparse matrix is empty (no non-zero elements).
is_left_hemi [fn] in MNESourceSpace — Determine whether this source space is on the left hemisphere based on the average x-coordinate of all vertices.
is_magnetometer_coil [fn] in FwdCoil — Checks if this is an magnetometer.
is_magnetometer_coil_type [fn] in FwdCoilSet — Checks if a set of templates contains a magnetometer of a specified type.
is_planar_coil [fn] in FwdCoil — Checks if this is an planar coil.
is_planar_coil_type [fn] in FwdCoilSet — Checks if a set of templates contains a planar coil of a specified type.
is_raw [var] in InvDipoleFitSettings — Is this a raw data file.
is_skip [var] in MNERawBufDef — True if this buffer represents a data skip.
isActive [fn] in CommandManager — Returns if CommandManager is active.
isActive [fn] in NetworkEdge — Returns the activity flag of this edge.
isActive [fn] in NetworkEdge — Returns the activity flag of this edge.
iSampleFreq [fn] in InvHpiModelParameters
isAvailable [fn] in PythonTestHelper — Check if Python is available and MNE-Python is importable.
isBrainSurfaceKey [fn] in SubView — True when key identifies a brain-tissue surface (lh_/rh_) as opposed to BEM, sensor, digitizer, or source-space geometry.
isCancelled [fn] in StcLoadingWorker
isClustered [fn] in MNEForwardSolution — Indicates whether fwd conatins a clustered forward solution.
isClustered [fn] in MNEHemisphere — is hemisphere clustered?
isComputed [fn] in SourceMorph — Check if the morph has been computed.
isConnected [fn] in PolhemusConnection
isDipole [var] in PickResult — True if a dipole was hit.
isEmpty [fn] in ConnectivitySettings
isEmpty [fn] in ConnectivitySettings
isEmpty [fn] in FiffAnnotations — Returns true if no annotations are stored.
isEmpty [fn] in FiffCoordTrans — Returns true if coordinate transform contains no data.
isEmpty [fn] in FiffCov — True if FIFF covariance is empty.
isEmpty [fn] in FiffDigPointSet — True if FiffDigPointSet is empty.
isEmpty [fn] in FiffDirNode — Returns true if directory tree structure contains no data.
isEmpty [fn] in FiffEvoked — Returns whether FiffEvoked is empty.
isEmpty [fn] in FiffId — True if FIFF id is empty.
isEmpty [fn] in FiffInfoBase — True if FIFF measurement file information is empty.
isEmpty [fn] in FiffNamedMatrix — Returns true if named matrix contains no data.
isEmpty [fn] in FiffRawData — True if fiff raw data are empty.
isEmpty [fn] in FineCalibration — Check if empty.
isEmpty [fn] in FsAnnotation — Returns whether FsAnnotation is empty.
isEmpty [fn] in FsAnnotationSet — True if FsAnnotationSet is empty.
isEmpty [fn] in FsLabel — True if FsLabel is empty.
isEmpty [fn] in FsSurface — Returns whether FsSurface is empty.
isEmpty [fn] in FsSurfaceSet — True if FsSurfaceSet is empty.
isEmpty [fn] in InvSourceEstimate — Returns whether SourceEstimate is empty.
isEmpty [fn] in MNEBem — True if MNE Bem is empty.
isEmpty [fn] in MNEClusterInfo — Returns true if MNE cluster information contains no data.
isEmpty [fn] in MNEForwardSolution — True if FIFF measurement file information is empty.
isEmpty [fn] in MNESourceSpaces — True if MNE Source Space is empty.
isEmpty [fn] in Network — Returns whether the Network is empty by checking the number of nodes and edges.
isEmpty [fn] in Network — Returns whether the Network is empty by checking the number of nodes and edges.
isEnabled [fn] in VideoOverlay
isFitted [fn] in DecodingCsp
isFitted [fn] in DecodingSpoc
isFitted [fn] in DecodingSsd
isFitted [fn] in EogRegression — Returns true if fit() has been called successfully.
isFixedOrient [fn] in MNEForwardSolution — Has forward operator fixed orientation?
isFixedOrient [fn] in MNEInverseOperator — Check whether the inverse operator uses fixed source orientations.
isFreezed [fn] in EvokedSetModel — Returns current freezing status.
isFreezed [fn] in FrequencySpectrumModel — Returns current freezing status.
isFreezed [fn] in RtFiffRawViewModel — Returns current freezing status.
isFreOri [var] in InvBeamformer — True if free orientation (n_orient = 3).
isFrozen [fn] in ChannelRhiView
isInfoPanelVisible [slot] in BrainView — Whether the info panel is currently visible.
isInit [fn] in EvokedSetModel — Returns whether this class is initalized.
isJson [fn] in Command — If received command was Json fomratted or triggered command should be Json formatted.
isJson [fn] in RawCommand — Returns whether the received command was in Json format.
isLoaded [fn] in FsAtlasLookup — Check whether a parcellation volume has been loaded.
isLoaded [fn] in MlOnnxModel
isLoaded [fn] in SensorFieldMapper
isLoaded [fn] in SourceEstimateManager
isLoaded [fn] in SourceEstimateOverlay — Check if source estimate data is loaded.
isLoading [fn] in SourceEstimateManager
isMatrix [fn] in FiffTag — Provides information if tag contains a matrix.
isMeasurement [var] in EDFChannelInfo
isObjectVisible [fn] in ViewVisibilityProfile — Query visibility of a named object.
isPackageAvailable [fn] in PythonRunner — Check whether a Python package is importable.
isPlaying [var] in SubView
isPythonAvailable [fn] in PythonRunner — Check that the configured Python interpreter is reachable.
isPythonAvailable [fn] in PythonTestHelper — Check if Python is available (without checking for mne package).
isPythonRequired [fn] in PythonTestHelper — Check whether the environment demands Python availability.
isRealtimeSensorStreaming [slot] in BrainView — Check whether real-time sensor streaming is active.
isRealtimeStreaming [slot] in BrainView — Check whether real-time streaming is active.
isRejected [fn] in MNEEpochData — Returns whether this epoch should be excluded from averaging.
isRunning [fn] in RtNoise — Returns whether the worker thread is running.
isSelected [fn] in BrainSurface
isSelected [var] in InstanceData
isSelected [var] in InstanceData
isSelectionEmpty [fn] in ChannelSelectionView — Returns whether there is a user selection.
issparse [fn] in Numerics — Determines if a given data (stored as vector v) are representing a sparse matrix.
isStreaming [fn] in RtSensorDataController — Check if streaming is active.
isStreaming [fn] in RtSensorStreamManager
isStreaming [fn] in RtSourceDataController — Check if streaming is active.
isStreaming [fn] in SourceEstimateManager
issueSurfaceDraw [fn] in BrainRenderer — Issue draw commands for a surface using a pre-computed uniform offset.
isValid [fn] in BidsRawData — Returns true if the data was loaded successfully.
isValid [fn] in InvBeamformer — Returns true if this beamformer contains valid filter weights.
isValid [fn] in MriVolData — Returns whether this volume contains valid data.
isValidEeg [fn] in FiffChInfo — Check whether this channel has a valid EEG electrode position.
isValidEntityValue [fn] in BIDSPath — Validates entity values (no forbidden characters: -, _, /).
isVideoOverlayEnabled [slot] in BrainView
isView [fn] in MlTensor
isViewportEnabled [slot] in BrainView — Check if a multi-view viewport is enabled.
isVirtualChannel [var] in ChannelDisplayInfo — Browser-level derived channel without a direct FIFF row.
isVisible [fn] in AbstractTreeItem
isVisible [fn] in BrainSurface — Check if the surface is visible.
isVisible [fn] in DipoleObject
isVisible [fn] in NetworkObject
iTargetEvent [var] in XdawnResult — Event code used as the target class.
item [var] in PickResult — Tree item that was hit (nullable).
ItemRole [enum] in AbstractTreeItem
items [var] in MNEProjOp — The projection items.
ItemType [enum] in AbstractTreeItem
itemTypeId [fn] in AbstractTreeItem
iterate_alignment_once [fn] in MNEMshDisplaySurface — Perform one iteration of ICP-like alignment.
itris [var] in MNESurfaceOrVolume — Triangle vertex indices (ntri x 3, row-major).

J

job [var] in MNESssData — Value of FIFF_SSS_JOB tag.

K

kBarHeight [var] in OverviewBarWidget
keepTempFile [var] in MnaScript — true → preserve temp script file after execution (debug aid)
khi2 [var] in InvEcd — khi^2 value.
khi2 [var] in InvFocalDipole — Chi-squared value of the fit.
kind [var] in DigitizedPoint
kind [var] in FiffChInfo — Kind of channel.
kind [var] in FiffCov — Covariance kind -> fiff_constants.h.
kind [var] in FiffCtfComp — Fiff kind -> fiff_constants.h.
kind [var] in FiffDigPoint — FIFFV_POINT_CARDINAL, FIFFV_POINT_HPI, FIFFV_POINT_EXTRA or FIFFV_POINT_EEG.
kind [var] in FiffDirEntry — Tag number.
kind [var] in FiffExplainEntry
kind [var] in FiffProj — Fiff kind.
kind [var] in FiffTag — Tag number.
kind [var] in InvBeamformer — "LCMV" or "DICS".
kind [var] in MNEChSelection — Loaded from file or created here?
kind [var] in MNECovMatrix — Covariance kind: sensor or source.
kind [var] in MNECTFCompData — The CTF compensation kind constant.
kind [var] in MNEMeasDataSet — FIFF aspect kind (e.g.
kind [var] in MNEProjItem — FIFF projection item kind (FIFFV_PROJ_ITEM_*).
kind [var] in PickResult — What was hit.
kind [var] in SceneLayer
KMeans [fn] in KMeans — Constructs a KMeans algorithm object.
KMeans [fn] in KMeans — Constructs a KMeans algorithm object using enum parameters (preferred for performance).
kStimZoneH [var] in TimeRulerWidget — Height of the stimulus lane (px).
kTimeZoneH [var] in TimeRulerWidget — Height of the time-tick zone (px).
kTotalH [var] in TimeRulerWidget — Total widget height (px).

L

label [var] in AnnotationSpan — Annotation label shown near the top edge.
label [var] in DigitizedPoint — Human label ("NAS", "Cz", "HSP-42", …).
label [var] in EDFChannelInfo
label [var] in ElectrodeArray — Array label: "LH", "GridA", etc.
label [var] in EventMarker — Short text label (shown at the bottom strip); defaults to type number.
label [var] in IcaLabelResult — Assigned label.
label [var] in PickResult — Human-readable label (contact name, vertex coordinate string, …).
label [var] in TimeRulerEventMark — Short text (event type number).
label [var] in TimeRulerReferenceMark — Short text identifier, e.g. M1.
label_id [var] in FsLabel — FsLabel id (optional).
label_src_vertno_sel [fn] in MNESourceSpaces — Find vertex numbers and indices from label.
labelAtRas [fn] in FsAtlasLookup — Look up the anatomical label at a RAS coordinate.
labels [var] in ComputeFwdSettings — Compute the solution only for these labels.
labelsForPositions [fn] in FsAtlasLookup — Look up labels for multiple RAS positions.
labelsToStc [fn] in FsLabelUtils — Convert labels to a binary source estimate mask.
labelToString [fn] in IcaLabelResult
lambda [var] in FwdEegSphereModel
lambda [var] in MNECovMatrix — Eigenvalues of the covariance matrix.
lambda2 [var] in InvCMNESettings — Tikhonov regularisation (SNR=3 -> lambda^2=1/9).
lambda2 [var] in MNEMneData — Regularization parameter to be used (as a function of time).
lambda2_est [var] in MNEMneData — Regularization parameter estimated from available data.
language [var] in MnaScript — "python", "shell", "r", "matlab", "octave", "julia"
last [var] in FiffEvoked — Last time sample.
last [var] in FiffRawDir — last sample.
last_samp [var] in FiffRawData — Last sample number.
lastFileSample [fn] in ChannelRhiView
lastPick [fn] in MultimodalScene
lasts [var] in MNERawBufDef — Last sample index.
layers [var] in FwdEegSphereModel — An array of layers.
layers [fn] in MultimodalScene
layersChanged [signal] in MultimodalScene — Emitted whenever the layer set or any layer flag (visibility, opacity, drawOrder) changes.
layout [var] in ElectrodeArray — Geometry kind.
layoutChanged [fn] in ChannelInfoModel — Updates the layout map.
LayoutScene [fn] in LayoutScene — Constructs a LayoutScene.
ledoitWolf [fn] in StsCovEstimators — Ledoit-Wolf optimal shrinkage covariance estimator.
left [var] in MNEMshEyes — Left hemisphere viewpoint (x, y, z).
left_up [var] in MNEMshEyes — Left hemisphere up-vector.
LeGrangeInterp2 [fn] in ParksMcClellan — Function to calculate the lagrange interpolation coefficients for use in the function gee.
len [var] in MNEMghTag — Byte length of the tag data payload.
lh [var] in ViewVisibilityProfile
library [var] in MnaOpSchema — Which library provides the implementation.
license [var] in BidsDatasetDescription — License identifier (RECOMMENDED).
lightColorChanged [signal] in Control3DView — Use this signal whenever the light color was changed by the user.
lightDir [var] in SceneData
lightingEnabled [var] in SceneData
lightIntensityChanged [signal] in Control3DView — Use this signal whenever the light intensity was changed by the user.
lights [var] in MNEMshDisplaySurfaceSet — Current active lighting configuration.
lights [var] in MNEMshLightSet — Owned light objects.
limit [var] in FilterThreadArg — Distance limit for filtering (meters).
limit [var] in FitDipUserRec
lin_pot_coeff [fn] in FwdBemModel — Compute the linear potential coefficients for one source-destination pair.
linear [fn] in Interpolation — linear Identity interpolation function.
linefreq [var] in FiffInfo — Power line frequency.
LinePlot [fn] in LinePlot — Constructs a line series plot.
LinePlot [fn] in LinePlot — Constructs a line series plot.
LinePlot [fn] in LinePlot — Constructs a line series plot.
lineReceived [signal] in PythonRunner — Emitted for every stdout/stderr line (mirrors the line callback).
linFieldIntFunc [type] in FwdBemModel — Function pointer type for linear field coefficient integration methods.
livePlugins [var] in StreamContext — nodeId → live plugin instance (QObject* avoids scan dependency)
load [fn] in DipoleObject
load [fn] in FsAtlasLookup — Load a FreeSurfer MGH/MGZ volume parcellation.
load [fn] in MlModel — Load a model from disk.
load [fn] in MlOnnxModel — Load a model from disk.
load [fn] in MNEMshDisplaySurfaceSet — Load left and right hemisphere FreeSurfer surfaces (with curvature) from the subjects directory, configuring eye positions and lighting.
load [fn] in MNERawInfo — Loads raw data information from a FIFF file.
load [fn] in NetworkObject — Load network data and generate node/edge instances.
load [fn] in SourceEstimateManager — Start async STC file loading on a background thread.
load [fn] in SubView — Load this SubView's state from QSettings under the given prefix.
load [fn] in ViewVisibilityProfile — Load this profile from QSettings under the given key prefix.
load_one_buffer [fn] in MNERawData — Read a single raw data buffer from the FIFF file into memory, allocating from the ring buffer if needed.
load_one_filt_buf [fn] in MNERawData — Load a single filter-sized buffer by picking projected unfiltered data with taper margins for overlap-add filtering.
load_surface [fn] in MNESourceSpace — Load a FreeSurfer surface from disk, adding full geometry information.
load_surface_geom [fn] in MNESourceSpace — Load a FreeSurfer surface from disk, optionally adding geometry information.
loadAnnotation [fn] in BrainSurface — Load annotation data from file.
loadCoilPresets [fn] in HpiSettingsView — Load coil presets from json file at the provided path.
loadDipoles [slot] in BrainView — Load dipoles from a .dip or .bdip file.
loadDipoles [fn] in DataLoader — Load dipole set from a .dip file.
loadDirectory [fn] in MnaRegistryLoader — Load the master manifest plus all drop-in files from a directory.
loaded [signal] in SourceEstimateManager — Emitted when STC data finishes loading.
loadedLayoutMap [signal] in ChannelSelectionView — emit this signal whenever a new layout was loaded
loadEvoked [fn] in DataLoader — Load an FiffEvoked from a FIF file.
loadFile [fn] in MnaRegistryLoader — Load a single registry manifest file and register all ops.
loadHeadToMriTransform [fn] in DataLoader — Load a coordinate transformation from a FIF file and normalise it to Head → MRI orientation.
loadHelmetSurface [fn] in DataLoader — Load a standalone MEG helmet surface from a BEM FIF file.
loadingProgress [signal] in SourceEstimateManager — Emitted during async loading to report progress.
loadMegHelmetSurface [slot] in BrainView — Load a standalone MEG helmet surface, replacing the current one.
loadNetwork [slot] in BrainView — Load a connectivity network for visualization.
loadRegistryFiles [fn] in MnaOpRegistry — Load registry files from the standard resources/mna/ directory.
loadSensorField [slot] in BrainView — Load sensor measurements from an evoked/average FIF file.
loadSensors [slot] in BrainView — Load sensors (MEG/EEG/Digitizers) from a FIF file.
loadSensors [fn] in DataLoader — Load sensor channels, digitizer points and MEG helmet from a FIF file.
loadSettings [fn] in AbstractView — Loads and inits all important settings of this view via QSettings.
loadSettings [fn] in ApplyToView — Loads and inits all important settings of this view via QSettings.
loadSettings [fn] in ArtifactSettingsView — Loads and inits all important settings of this view via QSettings.
loadSettings [fn] in AverageLayoutView — Loads and inits all important settings of this view via QSettings.
loadSettings [fn] in AverageSelectionView — Loads and inits all important settings of this view via QSettings.
loadSettings [fn] in AveragingSettingsView — Loads and inits all important settings of this view via QSettings.
loadSettings [fn] in BidsView — Loads and inits all important settings of this view via QSettings.
loadSettings [fn] in ButterflyView — Loads and inits all important settings of this view via QSettings.
loadSettings [fn] in ChannelDataView — Loads and inits all important settings of this view via QSettings.
loadSettings [fn] in ChannelSelectionView — Loads and inits all important settings of this view via QSettings.
loadSettings [fn] in CompensatorView — Loads and inits all important settings of this view via QSettings.
loadSettings [fn] in ConnectivitySettingsView — Loads and inits all important settings of this view via QSettings.
loadSettings [fn] in Control3DView — Loads and inits all important settings of this view via QSettings.
loadSettings [fn] in CoregSettingsView — Loads and inits all important settings of this view via QSettings.
loadSettings [fn] in CovarianceSettingsView — Loads and inits all important settings of this view via QSettings.
loadSettings [fn] in DipoleFitView — Loads and inits all important settings of this view via QSettings.
loadSettings [fn] in FiffRawViewSettings — Loads and inits all important settings of this view via QSettings.
loadSettings [fn] in FilterDesignView — Loads and inits all important settings of this view via QSettings.
loadSettings [fn] in FilterSettingsView — Loads and inits all important settings of this view via QSettings.
loadSettings [fn] in FwdSettingsView — Loads and inits all important settings of this view via QSettings.
loadSettings [fn] in HpiSettingsView — Loads and inits all important settings of this view via QSettings.
loadSettings [fn] in MinimumNormSettingsView — Loads and inits all important settings of this view via QSettings.
loadSettings [fn] in ModalitySelectionView — Loads and inits all important settings of this view via QSettings.
loadSettings [fn] in MultiView — Restores geometry and state as saved by saveSettings().
loadSettings [fn] in ProgressView — Loads and inits all important settings of this view via QSettings.
loadSettings [fn] in ProjectorsView — Loads and inits all important settings of this view via QSettings.
loadSettings [fn] in ProjectSettingsView — Loads and inits all important settings of this view via QSettings.
loadSettings [fn] in QuickControlView — Loads and inits all important settings of this view via QSettings.
loadSettings [fn] in RtFiffRawView — Loads and inits all important settings of this view via QSettings.
loadSettings [fn] in ScalingView — Loads and inits all important settings of this view via QSettings.
loadSettings [fn] in SpectrumSettingsView — Loads and inits all important settings of this view via QSettings.
loadSettings [fn] in SpectrumView — Loads and inits all important settings of this view via QSettings.
loadSettings [fn] in SpharaSettingsView — Loads and inits all important settings of this view via QSettings.
loadSettings [fn] in TfSettingsView — Loads and inits all important settings of this view via QSettings.
loadSettings [fn] in TriggerDetectionView — Loads and inits all important settings of this view via QSettings.
loadSourceEstimate [slot] in BrainView — Load source estimate files (.stc) for both hemispheres.
loadSourceSpace [slot] in BrainView — Load source space from a FIF file (forward solution or source space file).
loadSourceSpace [fn] in DataLoader — Load source space from a forward-solution FIF file.
loadStc [fn] in SourceEstimateOverlay — Load a source estimate file (.stc) for a hemisphere.
loadTrans [signal] in CoregSettingsView — Emit this signal whenever the transformation should be loaded.
loadTransformation [slot] in BrainView — Load a coordinate transformation from a FIF file.
log2 [fn] in Numerics — Compute log base 2 of a given number.
logFile [var] in AverageDescription — Save log here.
logFile [var] in CovDescription — Save log here.
logNo [var] in FiffChInfo — Logical channel #.
lookAt [var] in CameraResult
lookBack [var] in InvCMNESettings — k: number of past time steps.
looseOriConstraint [var] in InvCMNESettings — Orientation constraint.
lowCutoff [var] in BidsChannel — High-pass cutoff frequency in Hz (OPTIONAL).
lowpass [var] in FiffInfo — Lowpass frequency.
lowpass [var] in FilterSettings — Lowpass corner (Hz).
lowpass [var] in MNEFilterDef — Lowpass in Hz.
lowpass [var] in MNEMeasData — Low-pass filter setting (Hz).
lowpass [var] in MNERawInfo — Lowpass filter setting.
lowpass_width [var] in MNEFilterDef — Lowpass transition width in Hz.
lowpassWidth [var] in FilterSettings — Lowpass transition width (Hz).
lt_packed_index [fn] in MNECovMatrix — Compute the linear index into a symmetric lower-triangular packed storage array for element (j, k).

M

M [var] in fitUserRec
m_bHighlightItem [var] in SelectionSceneItem — Whether this item is to be highlighted.
m_bIsBad [var] in AverageSceneItem — Whether this channel is bad.
m_bIsBadChannel [var] in SelectionSceneItem — Whether this item is a bad channel.
m_bIsJson [var] in Command — True when the command was parsed from JSON.
m_bShowAll [var] in SelectionItem — Whether to show all channels.
m_bStorageModeIsActive [var] in AbstractMetric
m_bStorageModeIsActive [var] in AbstractMetric
m_cChannelColor [var] in SelectionSceneItem — The current channel color.
m_coilPos [var] in InvHpiFitData
m_colorDefault [var] in AverageSceneItem — The color for the avergaed signal.
m_designMethods [var] in FilterKernel — Vector of possible filter design methods.
m_Dipole1 [var] in InvDipolePair — InvDipole one.
m_Dipole2 [var] in InvDipolePair — InvDipole two.
m_dMaxAxisX [var] in Spline — Display value of the largest point on the series in x-axis.
m_dMinAxisX [var] in Spline — Display value of the smallest point of the series in x-axis.
m_errorInfo [var] in InvHpiFitData
m_fAbortError [var] in InvHpiFitData
m_filterTypes [var] in FilterKernel — Vector of possible filter design types.
m_firstLastSample [var] in AverageSceneItem — The first and last sample.
m_iChannelKind [var] in AverageSceneItem — The channel kind.
m_iChannelKind [var] in SelectionItem — The channel kind.
m_iChannelKind [var] in SelectionSceneItem — The channel kind.
m_iChannelNumber [var] in AverageSceneItem — The channel number.
m_iChannelNumber [var] in SelectionItem — The channel number.
m_iChannelNumber [var] in SelectionSceneItem — The channel number.
m_iChannelTypeMode [var] in SelectionScene — The channel type mode.
m_iChannelUnit [var] in AverageSceneItem — The channel unit.
m_iChannelUnit [var] in SelectionItem — The channel unit.
m_iChannelUnit [var] in SelectionSceneItem — The channel unit.
m_iFilterOrder [var] in CosineFilter
m_iFontTextSize [var] in AverageSceneItem — The font text size of the electrode names.
m_iIdx1 [var] in InvDipolePair — Index of dipole one.
m_iIdx2 [var] in InvDipolePair — Index of dipole two.
m_iMaxHeigth [var] in AverageSceneItem — The max heigth.
m_iMaxIterations [var] in InvHpiFitData
m_iMaxWidth [var] in AverageSceneItem — The max width.
m_iNumberBinAmount [var] in AbstractMetric
m_iNumberBinAmount [var] in AbstractMetric
m_iNumberBinStart [var] in AbstractMetric
m_iNumberBinStart [var] in AbstractMetric
m_iTotalNumberChannels [var] in AverageSceneItem — The total number of channels loaded in the curent evoked data set.
m_lAverageData [var] in AverageSceneItem — The channels average data which is to be plotted.
m_matProjector [var] in InvHpiFitData
m_OperatorType [var] in MNEOperator
m_pDigitizerData [var] in MetaData — Head-shape digitizer point set.
m_pInfo [var] in MetaData — Measurement information (channel layout, sampling rate, etc.).
m_qlistEvoked [var] in FiffIO — List of evoked data sets.
m_qListParamDescriptions [var] in Command — Per-parameter description strings.
m_qListParamNames [var] in Command — Parameter names (positional order).
m_qListParamValues [var] in Command — Current parameter values (same order as names).
m_qlistRaw [var] in FiffIO — List of raw data sets.
m_qMapAverageActivation [var] in AverageSceneItem — The average activation information.
m_qMapAverageColor [var] in AverageSceneItem — The average color information.
m_qpChannelPosition [var] in AverageSceneItem — The channels 2D position in the scene.
m_qpChannelPosition [var] in SelectionItem — The channel's 2D position in the scene.
m_qpChannelPosition [var] in SelectionSceneItem — The channel's 2D position in the scene.
m_rectBoundingRect [var] in AverageSceneItem — The bounding rect.
m_scaleMap [var] in AverageSceneItem — Map with all channel types and their current scaling value.
m_sChannelName [var] in AverageSceneItem — The channel name.
m_sChannelName [var] in SelectionItem — The channel's name.
m_sChannelName [var] in SelectionSceneItem — The channel's name.
m_sCommand [var] in Command — The command keyword.
m_sDescription [var] in Command — Human-readable description of the command.
m_sensorData [var] in InvHpiFitData
m_sensors [var] in InvHpiFitData
m_sName [var] in MNEOperator
m_sViewsToApply [var] in SelectionItem
m_vCorrelation [var] in InvDipolePair — Correlation of the dipole pair.
m_vecCoeff [var] in CosineFilter — the time filter coefficient set
m_vecFftCoeff [var] in CosineFilter — the FFT-transformed forward filter coefficient set, required for frequency-domain filtering, zero-padded to m_iFftLength.
m_vecResultExponentValues [var] in Spline — Common exponent values for the entire histogram.
machid [var] in FiffId — Unique machine ID.
mag_dipole_funcs [var] in InvDipoleFitData — Functions to fit a magnetic dipole.
MAG_FACTOR [var] in FwdBemModel — Magnetic constant mu_0 / (4 * pi).
mag_reg [var] in InvDipoleFitSettings — Noise-covariance matrix regularization for MEG (magnetometers and axial gradiometers).
mag_std [var] in InvDipoleFitSettings — Standard deviation for magnetometers if noise covariance is not specified.
magnitude [fn] in InvVectorSourceEstimate — Compute the magnitude (L2 norm) at each vertex across time.
make_block_diag [fn] in Linalg — Make a sparse block diagonal matrix.
make_block_diag [fn] in MNE — mne_block_diag - encoding part
make_comp [fn] in MNECTFCompDataSet — Build the current compensation operator for the given channel set by locating the matching compensation matrix and constructing pre/post-selection sparse matrices.
make_compensator [fn] in FiffInfo — mne_make_compensator
make_compensator [fn] in MNE — mne_make_compensator
make_guesses [fn] in FwdBemModel — Generate a set of dipole guess locations inside a boundary surface.
make_inverse_operator [fn] in MNEInverseOperator — Assemble an inverse operator from a forward solution and noise covariance.
make_proj [fn] in MNEProjOp — Compile the projection operator via SVD (no bad channels).
make_proj_bad [fn] in MNEProjOp — Compile the projection operator via SVD, excluding bad channels.
make_projector [fn] in FiffInfo — mne_make_projector_info
make_projector [fn] in FiffInfo — mne_make_projector_info
make_projector [fn] in FiffProj — mne_make_projector
make_projector [fn] in MNE — make_projector
make_projector [fn] in MNE — mne_make_projector_info
make_subtree [fn] in FiffStream — Create the directory tree structure.
make_volume_source_space [fn] in MNESourceSpace — Create a volumetric source space by laying out a 3D grid of points within the bounding box of a surface, filtering out points that lie outside the surface or closer than mindist to the surface, and establishing 26-neighbor connectivity.
makeCorticalMap [fn] in MNECorticalMap — Create a cortical mapping matrix that transforms sensor-level data to source space.
makeDICS [fn] in InvDICS — Compute DICS beamformer spatial filters for one or more frequencies.
makeFixedLengthEpochs [fn] in FiffEpochs — Create fixed-length epochs from continuous data.
makeLayout [fn] in LayoutMaker — Reads the specified ANT elc-layout file.
makeLayout [fn] in LayoutMaker — Reads the specified ANT elc-layout file.
makeLCMV [fn] in InvLCMV — Compute LCMV beamformer spatial filters.
makeLCMVResolutionMatrix [fn] in InvLCMV — Compute the LCMV resolution matrix: R = W @ G.
makeProj [var] in ProcessingSettings — Create a new projection operator.
makeProjection [fn] in MNEProjOp — Load and combine SSP projection operators from files for the selected channels.
makeScalpSurfaces [fn] in MNEBemSurface — Decimate the outer skin surface to the target vertex counts using iterative edge collapse simplification.
makeScreenshot [signal] in FiffRawViewSettings — Emit this signal whenever the user wants to make a screenshot.
makeSpectrogram [fn] in Spectrogram — Calculates the spectrogram (tf-representation) of a given signal.
manufacturer [var] in BidsRawData — Amplifier manufacturer (RECOMMENDED).
manufacturerModelName [var] in BidsRawData — Amplifier model (RECOMMENDED).
map [var] in MNEMorphMap — Sparse interpolation matrix: multiply source surface data by this to obtain values on the target ('this') surface.
map_comp_kind [fn] in MNECTFCompDataSet — Map a gradient compensation integer code to the corresponding CTF compensation constant.
maps [var] in MNEMshDisplaySurface — Morphing maps from other surfaces to this one.
markChBad [fn] in RtFiffRawViewModel — markChBad marks the selected channels as bad/good in m_chInfolist
markChBad [fn] in RtFiffRawViewModel — markChBad marks the selected channels as bad/good in m_chInfolist
marker_color [var] in MNEMshDisplaySurface — RGBA color for markers.
marker_colors [var] in MNEMshDisplaySurface — Per-vertex marker color array.
marker_tri [var] in MNEMshDisplaySurface — Array of triangles containing markers.
marker_tri_no [var] in MNEMshDisplaySurface — Triangle indices of the marker triangles.
marker_values [var] in MNEMshDisplaySurface — Per-vertex marker values (shown in shades of marker color).
markerMoved [signal] in RtFiffRawView — position is emitted whenever user moves the mouse inside of the table view viewport
markerMoved [fn] in RtFiffRawViewDelegate — markerMoved is called whenever user moves the mouse inside of the table view viewport
match [fn] in BIDSPath — Searches the BIDS root for all files matching the current entities.
match [var] in MNELayout — Channel-to-port matching matrix (nchan x nport).
match [var] in MNELayoutPort — Non-zero if this port matches the current channel.
matchesSurfaceType [fn] in SubView — True when the brain-surface key matches this view's surfaceType (e.g.
matchEvent [fn] in FiffEvents — Check whether an event matches a category definition.
matClusterIds [var] in StatsClusterResult — Cluster label at each (channel, time) point; 0 = not in cluster.
matCsd [var] in CsdResult — n_channels × n_channels mean CSD across selected frequencies
matData [var] in IntermediateTrialData
matData [var] in IntermediateTrialData
matData [var] in RtCovComputeResult
matData [var] in SurfaceLaplacianResult — Transformed data (n_eeg_channels × n_times).
material [var] in BidsElectrode — Electrode material (OPTIONAL).
matFilters [var] in XdawnResult — Spatial filters W (n_channels x n_components).
matFstat [var] in StatsFtestResult — F-statistics.
matKernelDspm [var] in InvCMNEResult — Static dSPM kernel (n_sources x n_channels).
matMixing [var] in IcaResult — Mixing matrix A (n_channels x n_components).
matMixing [var] in InfomaxResult — Mixing matrix (n_channels x n_components).
matNoiseCov [var] in XdawnResult — Residual-noise covariance (n_channels x n_channels).
matPatterns [var] in XdawnResult — Spatial patterns A (n_channels x n_components).
matPinvAll [var] in Basis — Pseudoinverse of [S_in | S_out], shape (N_in+N_out) × n_meg.
matPower [var] in MorletTfrResult — n_freqs × n_times, instantaneous power (amplitude²)
matProjIn [var] in Basis — Internal-space projector P_in = S_in · pinv(S)[:N_in,:] (n_meg × n_meg).
matPsd [var] in IntermediateTrialData
matPsd [var] in IntermediateTrialData
matPsd [var] in MultitaperPsdResult — n_channels × n_freqs; one-sided PSD in unit²/Hz
matPsd [var] in WelchPsdResult — n_channels × (iNfft/2+1); one-sided PSD in unit²/Hz
matPsdSum [var] in IntermediateSumData
matPsdSum [var] in IntermediateSumData
matPval [var] in StatsFtestResult — p-values.
matPval [var] in StatsTtestResult — p-values.
matrix [var] in InvConnectivity — [N x N] connectivity values between sources.
matrix [fn] in MlTensor — Mutable row-major Eigen::Map for 2-D tensors.
matrix [fn] in MlTensor — Const row-major Eigen::Map for 2-D tensors.
Matrix6T [type] in InvRapMusic — Defines Eigen::Matrix<T, 6, 6> as Matrix6T type.
Matrix6XT [type] in InvRapMusic — Defines Eigen::Matrix<T, 6, Eigen::Dynamic> as Matrix6XT type.
MatrixX6T [type] in InvRapMusic — Defines Eigen::Matrix<T, Eigen::Dynamic, 6> as MatrixX6T type.
MatrixXT [type] in InvRapMusic — Defines Eigen::Matrix<T, Eigen::Dynamic, Eigen::Dynamic> as MatrixXT type.
matRoiG [var] in RegionData — Reshaped region gain matrix sources x sensors(x,y,z).
matRoiGOrig [var] in RegionData — Region gain matrix sensors x sources(x,y,z).
matRoiGWhitened [var] in RegionData — Reshaped whitened region gain matrix sources x sensors(x,y,z).
matRoiMT [var] in RegionMT — Reshaped gain matrix (sources x sensors*3).
matRoiMTOrig [var] in RegionMT — Original gain matrix (sensors x sources*3).
matSignalCov [var] in XdawnResult — Target-evoked covariance (n_channels x n_channels).
matSin [var] in Basis — Internal basis S_in (n_meg × N_in).
matSources [var] in IcaResult — Source time series S (n_components x n_samples).
matSources [var] in InfomaxResult — Source activations (n_components x n_times).
matSout [var] in Basis — External basis S_out (n_meg × N_out).
matTaper [var] in TaperedSpectraInputData
matTapers [var] in DpssResult — nTapers × N, each row is a unit-norm taper
matTargetEvoked [var] in XdawnResult — Average target evoked response (n_channels x n_samples).
matTObs [var] in StatsClusterResult — Observed t-statistic map (nChannels x nTimes).
matTransform [var] in SurfaceLaplacianResult — CSD transformation matrix (n_eeg × n_eeg).
matTstat [var] in StatsTtestResult — t-statistics (same shape as input columns).
matUnmixing [var] in IcaResult — Unmixing matrix W (n_components x n_channels).
matUnmixing [var] in InfomaxResult — Unmixing matrix (n_components x n_channels).
max_event [var] in MNERawData — Maximum event number in use.
maxAbsCorrelation [fn] in MlIcaLabel — Compute the maximum absolute Pearson correlation between a source and reference channels.
maxPowerOri [var] in InvBeamformer — Optimal orientation per source (n_sources, 3).
maxshield_data [var] in MNERawInfo — Are these unprocessed MaxShield data.
maxSources [var] in InvTokenizeOptions — Sub-sample grid sources (-1 = all).
maxTimePoints [var] in InvTokenizeOptions — Sub-sample time points (-1 = all).
maxv [var] in MNEMshDisplaySurface — Maximum values along the three coordinate axes.
maxX [fn] in BrainSurface — Get maximum X coordinate.
mean [fn] in DecodingCsp
mean [fn] in DecodingSpoc
meas_date [var] in FiffInfo — Measurement date.
meas_date [var] in MNEMeasData — Measurement date / time stamp.
meas_id [var] in FiffInfoBase — Measurement ID.
meas_id [var] in MNEMeasData — Measurement block ID from the FIFF file.
measname [var] in ComputeFwdSettings — Measurement file.
measname [var] in InvDipoleFitSettings — Data file.
measure [var] in InvConnectivity — Metric name, e.g.
meg_client [var] in dipoleFitFuncsRec — Client data for MEG field computations.
meg_client_free [var] in dipoleFitFuncsRec — Destructor for MEG client data.
meg_coils [var] in InvDipoleFitData — MEG coil definitions.
meg_eeg_fwd_one_source_space [fn] in FwdBemModel — Thread worker: compute the forward solution for one source space.
meg_field [var] in dipoleFitFuncsRec — MEG forward calculation function.
meg_head_t [var] in ComputeFwdSettings — The meg <-> head transformation.
meg_head_t [var] in InvDipoleFitData — MEG <-> head coordinate transformation.
meg_head_t [var] in MNEMeasData — MEG device ↔ head coordinate transform.
meg_vec_field [var] in dipoleFitFuncsRec — MEG vectorized forward calculation function.
megChannelIdx [var] in Basis — Original channel indices in FiffInfo for the MEG rows.
megFieldContours [var] in ViewVisibilityProfile
megFieldMap [var] in ViewVisibilityProfile
megFieldMapOnHead [fn] in SensorFieldMapper
megFieldMapOnHead [var] in ViewVisibilityProfile
megFieldMapOnHeadForTarget [slot] in BrainView — Check whether MEG field mapping uses head surface for a target.
megGradItems [var] in SensorLoadResult — Ownership passes to caller.
megMagItems [var] in SensorLoadResult
megMapping [fn] in SensorFieldMapper
megPick [fn] in SensorFieldMapper
megSurfaceKey [fn] in SensorFieldMapper
memb_vert [var] in MNEPatchInfo — Vertex indices that constitute the patch.
MeshFactory [fn] in MeshFactory
message [var] in MnaVerificationResult — Formatted message: "PASS: ..." or "FAIL [error]: ...".
metaChanged [signal] in ChannelDataModel — Emitted when channel metadata (scale, colour, bad-flag) changes.
MetaData [fn] in MetaData
method [var] in InvCMNESettings — 0=MNE, 1=dSPM (default), 2=sLORETA.
method [var] in InvSourceEstimate — The inverse method that produced this estimate.
methodChanged [signal] in MinimumNormSettingsView — Emit signal whenever the method changed.
methods [var] in MNEInverseOperator — Modality flag: FIFFV_MNE_MEG, _EEG, or _MEG_EEG.
mgh_tags [var] in MNESurfaceOrVolume — Tags listed in the file.
mindist [var] in ComputeFwdSettings — Minimum allowed distance of the sources from the inner skull surface.
mindistoutname [var] in ComputeFwdSettings — Output file for omitted source space points.
MinimumNormSettingsView [fn] in MinimumNormSettingsView — Constructs a MinimumNormSettingsView which is a child of parent.
minimumSizeHint [fn] in ChannelLabelPanel
minimumSizeHint [fn] in OverviewBarWidget
minimumSizeHint [fn] in TimeRulerWidget
minPanePx [fn] in MultiViewLayout
minv [var] in MNEMshDisplaySurface — Minimum values along the three coordinate axes.
minX [fn] in BrainSurface — Get minimum X coordinate.
mirrorX [fn] in PolhemusCoregistration
mirrorY [fn] in PolhemusCoregistration
missingOps [fn] in MnaOpRegistry — Return op types referenced in a project that have no registered schema.
mkdirs [fn] in BIDSPath — Creates the directory structure for this path (mkdir -p).
MlOnnxModel [fn] in MlOnnxModel — Default constructor.
MlTensor [fn] in MlTensor — Default constructor – creates an empty 0-element tensor with shape {}.
MlTensor [fn] in MlTensor — Construct from a moved data buffer and an arbitrary shape.
MlTensor [fn] in MlTensor — Construct by copying from a raw pointer and a shape.
MlTensor [fn] in MlTensor — Construct from an Eigen column-major MatrixXf.
MlTensor [fn] in MlTensor — Construct from an Eigen column-major MatrixXd.
MLTrainer [fn] in MLTrainer — Construct an MLTrainer with default PythonRunner configuration.
MLTrainer [fn] in MLTrainer — Construct an MLTrainer with explicit PythonRunner configuration.
MnaGraph [fn] in MnaGraph
MnaParamTree [fn] in MnaParamTree
MnaProject [fn] in MnaProject — Default constructor.
mnaVersion [var] in MnaProject — MNA schema version.
mne_add_upper_triangle_rcs [fn] in FiffSparseMatrix — Add the upper triangle to a lower-triangular sparse RCS matrix.
mne_kind [var] in MNECTFCompData — MNE-internal compensation kind.
mne_read_meas_data [fn] in MNEMeasData — Read an evoked-response data set into a new container.
mne_read_meas_data_add [fn] in MNEMeasData — Read an evoked-response data set and append it to an existing container.
mne_read_meg_comp_eeg_ch_info [fn] in FiffInfoBase — Read MEG, compensation, and EEG channel information from this measurement info.
MNEBem [fn] in MNEBem — Default constructor.
MNEBem [fn] in MNEBem — Copy constructor.
MNEBem [fn] in MNEBem — Default constructor.
MNEBemSurface [fn] in MNEBemSurface — Constructors the bem surface.
MNEBemSurface [fn] in MNEBemSurface — Copy constructor.
MNEChSelection [fn] in MNEChSelection
MNEClusterInfo [fn] in MNEClusterInfo — Default constructor.
MNECorticalMap [fn] in MNECorticalMap
MNECovMatrix [fn] in MNECovMatrix — Construct a covariance matrix.
mneCppVersion [var] in MnaProvenance — e.g. "2.2.0"
MNECTFCompData [fn] in MNECTFCompData — Constructs an empty MNE CTF Compensation Data object.
MNECTFCompData [fn] in MNECTFCompData — Copy constructor.
MNECTFCompDataSet [fn] in MNECTFCompDataSet — Construct an empty compensation data set.
MNECTFCompDataSet [fn] in MNECTFCompDataSet — Copy constructor.
MNEDeriv [fn] in MNEDeriv — Constructs an empty MNE Derivation.
MNEDerivSet [fn] in MNEDerivSet — Constructs the MNE Derivation Set.
MNEEpochData [fn] in MNEEpochData — Default constructor.
MNEEpochData [fn] in MNEEpochData — Copy constructor.
MNEEpochDataList [fn] in MNEEpochDataList — Default constructor.
MNEEvent [fn] in MNEEvent
MNEEventList [fn] in MNEEventList
MNEEventList [fn] in MNEEventList
MNEEventList [fn] in MNEEventList
MNEFilterDef [fn] in MNEFilterDef
MNEForwardSolution [fn] in MNEForwardSolution — Default constructor.
MNEForwardSolution [fn] in MNEForwardSolution — Constructs a forward operator, by reading from a IO device.
MNEForwardSolution [fn] in MNEForwardSolution — Copy constructor.
MNEForwardSolution [fn] in MNEForwardSolution — Move constructs an MNEForwardSolution.
MNEHemisphere [fn] in MNEHemisphere — Constructors the hemisphere source space.
MNEHemisphere [fn] in MNEHemisphere — Copy constructor.
MNEInverseOperator [fn] in MNEInverseOperator — Constructs an empty inverse operator with invalid sentinel values.
MNEInverseOperator [fn] in MNEInverseOperator — Constructs an inverse operator by reading from a FIFF IO device.
MNEInverseOperator [fn] in MNEInverseOperator — Constructs an inverse operator from measurement info, forward solution, and noise covariance.
MNEInverseOperator [fn] in MNEInverseOperator — Copy constructor.
MNELayout [fn] in MNELayout
MNELayoutPort [fn] in MNELayoutPort
MNEMeasData [fn] in MNEMeasData — Constructs an empty measurement data container.
MNEMeasDataSet [fn] in MNEMeasDataSet — Constructs an empty measurement data set.
MNEMghTag [fn] in MNEMghTag — Constructs an empty MNEMghTag.
MNEMghTagGroup [fn] in MNEMghTagGroup — Constructs an empty MNEMghTagGroup.
MNEMghTagGroup [fn] in MNEMghTagGroup
MNEMghTagGroup [fn] in MNEMghTagGroup
MNEMneData [fn] in MNEMneData — Constructs the MNEMneData.
MNEMorphMap [fn] in MNEMorphMap — Constructs the MNEMorphMap.
MNEMshColorScaleDef [fn] in MNEMshColorScaleDef — Constructs the MNEMshColorScaleDef.
MNEMshDisplaySurface [fn] in MNEMshDisplaySurface — Constructs the MNEMshDisplaySurface.
MNEMshDisplaySurfaceSet [fn] in MNEMshDisplaySurfaceSet — Constructs the MNEMshDisplaySurfaceSet.
MNEMshEyes [fn] in MNEMshEyes — Constructs an empty MNEMshEyes.
MNEMshLight [fn] in MNEMshLight — Constructs the MNEMshLight.
MNEMshLight [fn] in MNEMshLight — Copy Constructs of the MNEMshLight.
MNEMshLight [fn] in MNEMshLight — Constructs the MNEMshLight.
MNEMshLightSet [fn] in MNEMshLightSet — Constructs an empty MNEMshLightSet.
MNEMshLightSet [fn] in MNEMshLightSet
MNEMshLightSet [fn] in MNEMshLightSet
MNEMshPicked [fn] in MNEMshPicked — Constructs the MNEMshPicked.
MNENamedMatrix [fn] in MNENamedMatrix — Default constructor.
MNENamedMatrix [fn] in MNENamedMatrix — Copy constructor.
MNENamedVector [fn] in MNENamedVector
MNENearest [fn] in MNENearest — Constructs the MNE Nearest.
MNEOperator [fn] in MNEOperator
MNEOperator [fn] in MNEOperator
MNEOperator [fn] in MNEOperator
MNEPatchInfo [fn] in MNEPatchInfo — Constructs the MNE Patch Information Refactored: mne_new_patch (mne_source_space.c).
MNEProjData [fn] in MNEProjData — Constructs the MNEProjData.
MNEProjectToSurface [fn] in MNEProjectToSurface — Constructs a MNEProjectToSurface object.
MNEProjectToSurface [fn] in MNEProjectToSurface — Constructs a MNEProjectToSurface with the data of a MNEBemSurface object.
MNEProjItem [fn] in MNEProjItem — Default constructor.
MNEProjItem [fn] in MNEProjItem — Copy constructor.
MNEProjItem [fn] in MNEProjItem — Move constructor (defaulted).
MNEProjOp [fn] in MNEProjOp — Default constructor.
MNERawBufDef [fn] in MNERawBufDef — Default constructor.
MNERawData [fn] in MNERawData — Constructs the MNE Raw Data Refactored: new_raw_data (mne_raw_data.c).
MNERawInfo [fn] in MNERawInfo — Constructs a default MNERawInfo.
MNESourceSpace [fn] in MNESourceSpace — Constructs the MNE Source Space.
MNESourceSpaces [fn] in MNESourceSpaces — Default constructor.
MNESourceSpaces [fn] in MNESourceSpaces — Copy constructor.
MNESparseNamedMatrix [fn] in MNESparseNamedMatrix
MNESssData [fn] in MNESssData — Constructs the MNE SSS Data.
MNESssData [fn] in MNESssData — Copy constructor.
MNESurface [fn] in MNESurface — Constructs the MNE FsSurface.
MNESurfaceOrVolume [fn] in MNESurfaceOrVolume — Constructs the MNE FsSurface or Volume.
MNESurfaceOrVolume [fn] in MNESurfaceOrVolume
MNESurfaceOrVolume [fn] in MNESurfaceOrVolume
MNESurfacePatch [fn] in MNESurfacePatch — Constructs a patch with np vertices.
MNETriangle [fn] in MNETriangle — Constructs an empty MNETriangle with zeroed geometry.
MNEVolGeom [fn] in MNEVolGeom — Constructs the MNE Volume Geometry.
MNI_tal_tal_gtz_t [var] in FiffCoordTransSet — Transform MNI Talairach to FreeSurfer Talairach coordinates (z > 0).
MNI_tal_tal_ltz_t [var] in FiffCoordTransSet — Transform MNI Talairach to FreeSurfer Talairach coordinates (z < 0).
modalitiesChanged [signal] in ModalitySelectionView — Emit this signal whenever the user changed the modality.
modality [fn] in RtSensorStreamManager
modalityChanged [signal] in DipoleFitView — Send new modality selection.
ModalitySelectionView [fn] in ModalitySelectionView — Constructs a ModalitySelectionView which is a child of parent.
ModeAnnotation [var] in BrainSurface
model [var] in CameraResult
model [fn] in ChannelDataView — Returns the underlying data model (non-owning pointer).
model [var] in InstanceData
model [var] in InstanceData
modelCheckpointChanged [signal] in MinimumNormSettingsView — Emit signal whenever the CMNE model checkpoint path changed.
modelFiducial [fn] in PolhemusCoregistration
models [var] in FwdEegSphereModelSet — Set of EEG sphere model definitions.
modelType [fn] in MlModel
modelType [fn] in MlOnnxModel
modelVertex [fn] in PolhemusCoregistration
ModeScientific [var] in BrainSurface
ModeSourceEstimate [var] in BrainSurface
ModeSurface [var] in BrainSurface
modified [var] in MnaProject — Last modification timestamp.
mom [var] in CoilParam
moment [var] in DipFitError
moment [var] in InvFocalDipole — Current dipole moment (Am).
moments [var] in InvSourceCoupling — Dipole moment / orientation for each coupled source (size N).
morph_subj [var] in MNEMshDisplaySurfaceSet — The subject we are morphing to.
mousePressEvent [fn] in AverageSceneItem
mousePressEvent [fn] in Spline — constructor for mouse press event behaviour to create threshold lines and signal emit
mouseReleaseEvent [fn] in AverageSceneItem
move [var] in MNEMshDisplaySurface — Translation offset for the origin.
move [var] in MNEMshDisplaySurfaceSet — Translation offset for the origin.
moveDataToSession [slot] in BidsViewModel — Moves data at dataIndex to session at sessionIndex.
moveSessionToSubject [slot] in BidsViewModel — Moves a session to a new subject.
mri_fids [var] in FiffDigitizerData — MRI coordinate system fiducials.
mri_filename [var] in MNEForwardSolution — MRI file name (parent provenance).
mri_head_ident [var] in ComputeFwdSettings — Are the head and MRI coordinates the same?
mri_head_t [var] in FilterThreadArg — MRI-to-head coordinate transformation.
mri_head_t [var] in InvDipoleFitData — MRI <-> head coordinate transformation.
mri_head_t [var] in MNEForwardSolution — MRI head coordinate transformation.
mri_head_t [var] in MNEInverseOperator — MRI-to-head coordinate transformation.
mri_head_t [var] in MNEMeasData — MRI ↔ head coordinate transform.
mri_id [var] in MNEForwardSolution — MRI file ID (parent provenance).
MRI_surf_RAS_RAS_t [var] in MNESurfaceOrVolume — Transform from surface RAS to scanner RAS in the associated MRI volume.
MRI_vol_dims [var] in MNESurfaceOrVolume — Dimensions of the associated MRI volume (width x height x depth).
MRI_volume [var] in MNESurfaceOrVolume — Path to the MRI volume file the interpolator is based on.
MRI_voxel_surf_RAS_t [var] in MNESurfaceOrVolume — Voxel-to-surface-RAS transform for the associated MRI volume.
mriname [var] in ComputeFwdSettings — MRI file for head <-> MRI transformation.
mriname [var] in InvDipoleFitSettings — Gives the MRI <-> head transform.
MriSlice [fn] in MriSlice — Default constructor.
MriVolData [fn] in MriVolData — Default constructor.
mu [var] in FwdEegSphereModel — The Berg-Scherg equivalence parameters.
mu [var] in RtCovComputeResult
mult [var] in MNEMshColorScaleDef
MultimodalScene [fn] in MultimodalScene
MultiView [fn] in MultiView — Constructs an MultiView.
MultiViewLayout [fn] in MultiViewLayout — Constructor.
MultiViewWindow [fn] in MultiViewWindow — Constructs an MultiViewWindow.
muscleScore [fn] in MlIcaLabel — Compute a simple spectral power ratio heuristic for muscle artifact detection.
MvarModel [fn] in MvarModel — Constructs a default MvarModel object.
MvarModel [fn] in MvarModel — Constructs a default MvarModel object.
mvp [var] in SceneData

N

nactive [var] in MNEProjData — Number of currently active triangles.
name [var] in BidsChannel — Channel name (REQUIRED).
name [var] in BidsDatasetDescription — Human-readable dataset name (REQUIRED).
name [var] in BidsElectrode — Electrode name (REQUIRED).
name [var] in BrainVisionChannelInfo
name [var] in ChannelDisplayInfo — Channel name for the label.
name [var] in ElectrodeContact — Contact label, e.g.
name [var] in ElectrodePosition — Electrode name (e.g.
name [var] in FsLabel — Name of the label.
name [var] in FwdEegSphereModel — Textual identifier.
name [var] in MnaOpSchemaAttr — Attribute key.
name [var] in MnaOpSchemaPort — Port name.
name [var] in MnaPort — Port name (unique within a node).
name [var] in MnaProject — Project name.
name [var] in MNEChSelection — Name of this selection.
name [var] in MNELayout — Source file name this layout was loaded from.
name [var] in MNEMshEyes — Name of this viewpoint definition.
name [var] in MNEMshLightSet — Name of this light set.
names [var] in FiffCov — Channel names.
names [var] in MNECovMatrix — Channel names (optional).
names [var] in MNELayoutPort — Channels assigned to this port (colon-separated).
names [var] in MNENamedVector — Name list for the elements.
names [var] in MNEProjOp — Names of the channels in the final compiled projector.
nave [var] in FiffEvoked — Number of averaged epochs.
nave [var] in InvDipoleFitData — How many averages does this correspond to?
nave [var] in MNEInverseOperator — Number of averages (default 1).
nave [var] in MNEMeasDataSet — Number of averaged responses.
nbad [var] in MNECovMatrix — Number of bad channels.
nbad [var] in MNEMeasData — Number of bad channels.
nbad [var] in MNERawData — Number of bad channels.
nch [var] in InvDipoleForward — Number of channels.
nch [var] in MNECTFCompDataSet — Number of channels.
nch [var] in MNEProjOp — Number of channels in the final projector.
nchan [var] in FiffInfoBase — Number of channels.
nchan [var] in MNEChSelection — How many picked channels?
nchan [var] in MNEForwardSolution — Number of channels.
nchan [var] in MNEInverseOperator — Number of channels (= number of singular values).
nchan [var] in MNEMeasData — Number of channels.
nchan [var] in MNERawBufDef — Number of channels.
nchan [var] in MNERawInfo — Number of channels.
nchan [var] in MNESssData — How many channels.
nChannels [fn] in InvBeamformer — Returns the number of channels.
nchild [fn] in FiffDirNode — Returns the number of child nodes.
nchoose2 [fn] in Numerics — Calculates the combination of n over 2 (nchoosek(n,2)).
ncluster [var] in ComputeFwdSettings — Number of sources desired in clustered solution.
nClusters [var] in RegionData — Number of clusters within this region.
nClusters [var] in RegionMT — Number of clusters for this region.
ncoil [var] in FwdBemSolution — Number of sensors.
ncoil [fn] in FwdCoilSet — Number of coils (convenience accessor).
ncoils [fn] in InvSensorSet
ncol [var] in FiffNamedMatrix — Number of columns.
ncol [var] in MNENamedMatrix — Number of columns in data.
ncol [var] in MNESparseNamedMatrix — Number of columns (same as in data).
ncomp [var] in MNECTFCompDataSet — Number of compensation data sets.
ncov [var] in MNECovMatrix — Dimension (number of channels).
ndef [var] in MNEChSelection — How many of them.
nderiv [var] in MNEChSelection — How many derivations in the above.
ndim [fn] in MlTensor
ndip [var] in InvDipoleForward — Number of dipoles.
ndir [var] in MNERawInfo — Number of tags in the above directory.
nearest [var] in MNENearest — Index of the nearest 'inuse' vertex.
nearest [var] in MNESurfaceOrVolume — Nearest in-use vertex info for each vertex (np elements).
nearest_triangle_point [fn] in MNESurface — Find the nearest point on a triangle to a given point.
nearest_triangle_point [fn] in MNESurface — Find the nearest point on a triangle (simplified, no projection data).
nearestDistVec [fn] in MNESurfaceOrVolume — Extract the nearest distances from the nearest vector as doubles.
nearestVertIdx [fn] in MNESurfaceOrVolume — Extract the nearest in-use vertex indices from the nearest vector.
neeg [var] in InvDipoleFitData — How many EEG.
neighbor_tri [var] in MNESurfaceOrVolume — Neighboring triangles for each vertex (np entries, variable length).
neighbor_vert [var] in MNESurfaceOrVolume — Vertices neighboring each vertex (np entries, variable length).
nent [fn] in FiffDirNode — Returns the number of entries in this node.
nent [fn] in FiffStream — How many entries?
nent_tree [var] in FiffDirNode — Number of entries in the directory tree node.
Network [fn] in Network — Constructs a Network object.
Network [fn] in Network — Constructs a Network object.
network [var] in ViewVisibilityProfile
NetworkEdge [fn] in NetworkEdge — Constructs a NetworkEdge object.
NetworkEdge [fn] in NetworkEdge — Constructs a NetworkEdge object.
NetworkNode [fn] in NetworkNode — Constructs a NetworkNode object.
NetworkNode [fn] in NetworkNode — Constructs a NetworkNode object.
NetworkObject [fn] in NetworkObject — Default constructor.
NetworkTreeItem [fn] in NetworkTreeItem — Constructs a NetworkTreeItem.
neval [var] in InvEcd — Number of function evaluations required for this fit.
nevent [fn] in MNEEventList — Returns the number of events in the list.
new_file_id [fn] in FiffId — Constructs a (hopefully) unique file id.
new_fit_user [fn] in FwdEegSphereModel — Allocate and initialize a fitting workspace for Berg-Scherg parameter estimation.
newAverageActivationMap [signal] in AverageSelectionView — Emmited when new average activation is available.
newAverageActivationMap [signal] in EvokedSetModel — Emmited when new average activation is available.
newAverageColorMap [signal] in AverageSelectionView — Emmited when new average color is available.
newAverageColorMap [signal] in EvokedSetModel — Emmited when new average color is available.
newConnectivityResultAvailable [signal] in RtConnectivity
newDigitizerList [fn] in HpiSettingsView — Display digitizer metadata bsed on input pointList.
newEegMappingAvailable [signal] in RtSensorDataController — Emitted when a new EEG mapping matrix has been computed by the background worker.
newEegMappingAvailable [signal] in RtSensorInterpolationMatWorker — Emitted when new EEG mapping data is available.
newFiffFileLoaded [fn] in ChannelSelectionView — call this whenever a new file was loaded.
newFileAtPath [signal] in FiffFileSharer — Emits path of new shared fiff file.
newHpiFitResultAvailable [signal] in RtHpi
newInterpolationMatrixLeftAvailable [signal] in RtSourceDataController — Emitted when a new left hemisphere interpolation matrix has been computed.
newInterpolationMatrixLeftAvailable [signal] in RtSourceInterpolationMatWorker — Emitted when a new left hemisphere interpolation matrix is available.
newInterpolationMatrixRightAvailable [signal] in RtSourceDataController — Emitted when a new right hemisphere interpolation matrix has been computed.
newInterpolationMatrixRightAvailable [signal] in RtSourceInterpolationMatWorker — Emitted when a new right hemisphere interpolation matrix is available.
newItemIndex [signal] in BidsViewModel — Emit index of newly added items to be selected.
newMegMappingAvailable [signal] in RtSensorDataController — Emitted when a new MEG mapping matrix has been computed by the background worker.
newMegMappingAvailable [signal] in RtSensorInterpolationMatWorker — Emitted when new MEG mapping data is available.
newParadigm [signal] in ProjectSettingsView
newProject [signal] in ProjectSettingsView
newRawDataAvailable [signal] in RtSourceDataController — Emitted when raw (non-interpolated) data is available.
newRawSensorDataAvailable [signal] in RtSensorDataController — Emitted when raw (non-mapped) sensor data is available.
newRtRawData [signal] in RtSourceDataWorker — Emitted when new raw (non-interpolated) data is available.
newRtRawSensorData [signal] in RtSensorDataWorker — Emitted when raw (non-mapped) sensor data is available.
newRtSensorColors [signal] in RtSensorDataWorker — Emitted when new per-vertex color data is ready for rendering.
newRtSmoothedData [signal] in RtSourceDataWorker — Emitted when new interpolated color data is ready for rendering.
newSelection [signal] in EvokedSetModel — Emmited when new selcetion was made.
newSelection [signal] in FrequencySpectrumModel — Emmited when new selcetion was made.
newSelection [signal] in RtFiffRawViewModel — Emmited when new selcetion was made.
newSensorColorsAvailable [signal] in RtSensorDataController — Emitted when new per-vertex color data for a sensor surface is available.
newSmoothedDataAvailable [signal] in RtSourceDataController — Emitted when new interpolated per-vertex color data is available for rendering.
newSubject [signal] in ProjectSettingsView
next [var] in FiffTag — Pointer to the next object.
next_legen [fn] in FwdEegSphereModel — Compute the next Legendre polynomials of the first and second kind using a recursion formula.
nextEvent [var] in AverageCategory — Require this event next.
nextIgnore [var] in AverageCategory — Ignore mask for next event.
nextSample [fn] in FastrakParser — Pop the next fully-decoded sample, if any.
nfids [fn] in FiffDigitizerData — Returns the number of MRI fiducial points (cardinal points transformed into MRI coordinates via head_mri_t_adj).
nfit [var] in fitUserRec
nfit [var] in FwdEegSphereModel — How many?
nframes [var] in MriVolData — Number of frames (scalar components per voxel).
nfree [var] in FiffCov — Number of degrees of freedom.
nfree [var] in InvEcd — Degrees of freedom for the above.
nfree [var] in InvFocalDipole — Degrees of freedom.
nfree [var] in MNECovMatrix — Number of degrees of freedom used in estimation.
nFreqs [fn] in InvBeamformer — Returns the number of frequency bins (1 for LCMV, >= 1 for DICS).
nguess [var] in InvGuessData — How many sources.
nitems [var] in MNEProjOp — Number of items.
nIterations [var] in InfomaxResult — Number of iterations performed.
nIterations [var] in InvGammaMapResult
nIterations [var] in InvMxneResult
nIterations [var] in InvTfMxneResult — Number of iterations performed.
nlabel [var] in ComputeFwdSettings
nlayer [fn] in FwdEegSphereModel
nlight [fn] in MNEMshLightSet — Returns the number of lights in the set.
nmarker_colors [var] in MNEMshDisplaySurface — Number of color components per marker vertex.
nmarker_tri [var] in MNEMshDisplaySurface — Number of marker triangles.
nmatch [fn] in MNELayout — Returns the number of channels (rows in match matrix).
nmeg [var] in InvDipoleFitData — How many MEG.
nmodel [fn] in FwdEegSphereModelSet — Number of models in this set.
nn [fn] in FsSurface — Normalized surface normals for each vertex.
nn [var] in MNESurfaceOrVolume — FsSurface normals at these points (np x 3, row-major).
nn [var] in MNETriangle — Unit normal vector.
nneighbor_tri [var] in MNESurfaceOrVolume — Number of neighboring triangles for each vertex (np elements).
nneighbor_vert [var] in MNESurfaceOrVolume — Number of vertices neighboring each vertex (np elements).
node [fn] in MnaGraph
node [fn] in MnaGraph
nodeIndexBuffer [fn] in NetworkObject
nodeIndexCount [fn] in NetworkObject
nodeInstanceBuffer [fn] in NetworkObject
nodeInstanceCount [fn] in NetworkObject
nodes [fn] in MnaGraph
nodes [fn] in MnaGraph
nodeVertexBuffer [fn] in NetworkObject
noise [var] in InvDipoleFitData — Noise covariance matrix (weighted to take the selection into account).
noise_cov [var] in MNEInverseOperator — Noise covariance matrix.
noise_orig [var] in InvDipoleFitData — Noise covariance matrix (original, currently unused).
noiseChanged [signal] in DipoleFitView — Set new manual noise parameters.
noiseCov [fn] in MvarModel — Returns the noise covariance matrix (nChannels x nChannels).
noiseCov [fn] in MvarModel — Returns the noise covariance matrix (nChannels x nChannels).
noiseCov [var] in RtInvOpInput
noisename [var] in InvDipoleFitSettings — Noise-covariance matrix.
noisenorm [var] in MNEInverseOperator — Diagonal noise-normalisation matrix (dSPM / sLORETA).
nonZeros [fn] in FiffSparseMatrix — Number of stored non-zero elements.
nOrient [fn] in InvBeamformer — Returns the number of orientations per source (1 or 3).
norm [var] in VertexData
normal [fn] in MNESurfaceOrVolume — Return a read-only map to the k-th vertex normal (3 contiguous floats).
normalize [fn] in Network — Normalize the network.
normalize [fn] in Network — Normalize the network.
NormalsT [type] in MNESurfaceOrVolume — Type abbreviation for np x 3 normal data.
notch [var] in BidsChannel — Notch filter frequency in Hz (OPTIONAL).
notify [fn] in Subject — Notifies all attached servers by calling there update method.
notifyEnabled [var] in Subject — Holds the status whether notification is enabled.
np [var] in fitUserRec
np [var] in FwdBemModel — Vertex count per surface (length nsurf).
np [var] in FwdBemSolution — Number of potential solution points.
np [var] in FwdCoil — Number of integration points.
np [fn] in InvSensorSet
np [var] in MNEMeasDataSet — Number of time samples.
np [var] in MNESurfaceOrVolume — Number of vertices.
npoint [var] in FiffDigitizerData — Number of points.
nproj [var] in MNECovMatrix — Number of dimensions projected out.
nrow [var] in FiffNamedMatrix — Number of rows.
nrow [var] in MNENamedMatrix — Number of rows in data.
nrow [var] in MNESparseNamedMatrix — Number of rows (same as in data).
ns [var] in MNERawBufDef — Number of samples (lasts - firsts + 1).
nsamp [var] in FiffRawDir — Number of samples.
nsamp [var] in MNERawData — Total number of samples in the file.
nset [var] in MNEMeasData — Number of loaded data sets.
nsol [var] in FwdBemModel — Dimension of the solution matrix.
nsource [var] in MNEForwardSolution — Number of source dipoles.
nsource [var] in MNEInverseOperator — Number of source-space points.
nSources [fn] in InvBeamformer — Returns the number of source points.
nSourcesTotal [var] in InvBeamformer — Total number of source points.
nsurf [var] in FwdBemModel — Number of interface surfaces.
nsurf [var] in MNEMshDisplaySurfaceSet — Number of surfaces.
ntags [fn] in MNEMghTagGroup — Returns the number of tags in the group.
ntaper [var] in MNERawBufDef — Taper length for filtered buffers.
nterms [var] in fitUserRec
nterms [var] in FwdEegSphereModel — How many?
ntri [var] in FwdBemModel — Triangle count per surface (length nsurf).
ntri [var] in MNESurfaceOrVolume — Number of triangles in the surface.
num_events [fn] in FiffEvents — Returns the number of events.
numberTrialRowChanged [signal] in TfSettingsView — Emit signal whenever trial number changed.
numberTrialsChanged [signal] in ConnectivitySettingsView — Emit signal whenever the number of trials changed.
numClust [fn] in MNEClusterInfo — Returns the number of clusters.
numEntries [var] in FsColortable — Number of entries.
numIterations [var] in DipFitError
numSources [var] in InvCMNESettings — n_s: must match model input dim.
numTimePoints [fn] in SourceEstimateManager
numTimePoints [fn] in SourceEstimateOverlay — Get the number of time points in the source estimate.
numVLines [fn] in EvokedSetModel — Returns the number of vertical lines (one per second).
numVLines [fn] in RtFiffRawViewModel — Returns the number of vertical lines (one per second).
nuse [var] in MNESurfaceOrVolume — Number of vertices in use.
nuse_tri [var] in MNESurfaceOrVolume — Number of triangles in the in-use triangulation.
nvec [var] in MNENamedVector — Number of elements.
nvec [var] in MNEProjItem — Number of projection vectors (== vecs->nrow when vecs is set).
nvec [var] in MNEProjOp — Number of orthogonalized vectors in the final projector.
nvertex_colors [var] in MNEMshDisplaySurface — Number of color components per vertex.
nVertices [fn] in InvVectorSourceEstimate — Number of source vertices (data.rows() / 3).
nVerticesTo [fn] in SourceMorph — Get the number of target vertices.
nx [var] in VertexData
nx [var] in VertexData
ny [var] in VertexData
ny [var] in VertexData
nz [var] in VertexData
nz [var] in VertexData
nzero [var] in MNECovMatrix — Number of zero or small eigenvalues.

O

oas [fn] in StsCovEstimators — Oracle Approximating Shrinkage (OAS) covariance estimator.
objectId [var] in PickResult — Stable identifier for the picked element within its renderable (e.g.
objectKey [fn] in NetworkTreeItem — Returns the object key identifying this network.
objectVisibleForTarget [slot] in BrainView — Check object visibility for a given target view.
observerNumDebug [fn] in Subject — Returns attached observers.
observers [fn] in Subject — Returns attached observers.
off [var] in FwdThreadArg — Offset within the result to the first source space vertex solution.
offset [var] in FiffDataRef — Offset to the data in the external file.
offset [fn] in FsSurface — Vector offset.
offset [fn] in FsSurface — Vector offset.
offsets [var] in MNERawData — DC offset corrections for display.
omit_data_proj [var] in InvDipoleFitSettings — Omit the projection in the data file.
omit_samp [var] in MNERawData — Number of skip samples omitted from the beginning.
omit_samp_old [var] in MNERawData — Omitted samples (old-version compatible value).
omitSubjectInfo [var] in ProcessingSettings — Omit subject info from output.
onAddSession [signal] in BidsView — Triggers a session to be added with name sSessionName to subject at index subjectIndex.
onAddSubject [signal] in BidsView — Triggers a subject to be added with name sSubjectName.
onClusteringStatusChanged [fn] in FwdSettingsView — Updates clustered forward solution information.
onDataChanged [slot] in BrainView
one_field_coeff [fn] in FwdBemModel — Compute the constant-collocation magnetic field coefficient for one triangle.
one_step [fn] in FwdEegSphereModel — Objective function for the simplex optimizer: evaluate the residual sum of squares for a given set of mu values.
oneSample [fn] in StatsTtest — One-sample t-test.
oneSamplePermutationTest [fn] in StatsCluster — One-sample cluster-based permutation test.
oneWay [fn] in StatsFtest — One-way ANOVA F-test.
onFail [var] in MnaVerificationCheck — Optional remediation hint.
onMoveData [signal] in BidsView — Triggers data at dataIndex to be moved to session at sessionIndex.
onMoveSession [signal] in BidsView — Triggers session at sessionIndex to be moved to subject at subjectIndex.
onnxModelPath [var] in InvCMNESettings — Path to trained LSTM model (.onnx).
onRowsInserted [slot] in BrainView
onset [var] in BidsEvent — Onset in seconds from the start of the recording.
onset [var] in FiffAnnotation — Onset in seconds.
onsetToSample [fn] in FiffAnnotations — Converts onset of annotation at index to a sample number.
onTreeViewDescriptionHide [fn] in Control3DView — Slot called when tree view description visibilty changed.
onTreeViewHeaderHide [fn] in Control3DView — Slot called when tree view header visibilty changed.
onTreeViewRemoveItem [fn] in Control3DView — Slot called when an item should be removed.
op [var] in MNEMeasData — Associated inverse operator (not owned).
opacity [var] in SceneLayer
opacity [fn] in SliceObject
opacity [fn] in VideoOverlay
open [fn] in AbstractFormatReader — Open and parse the file header.
open [fn] in BrainVisionReader — Open and parse the file header.
open [fn] in EDFReader — Open and parse the file header.
open [fn] in Fiff — fiff_open
open [fn] in FiffStream — QFile::open.
open [fn] in PolhemusConnection — Open the connection.
open_file [fn] in MNERawData — Open a raw FIFF file using the file's native compensation grade.
open_file_comp [fn] in MNERawData — Open a raw FIFF file with explicit compensation grade.
open_stream [fn] in stream_inlet — Open the TCP connection to the outlet and begin receiving data.
open_update [fn] in FiffStream — Open fiff file for update.
operate [signal] in RtAveraging
operate [signal] in RtConnectivity
operate [signal] in RtHpi
operate [signal] in RtInvOp — Emit this signal whenver the worker should create a new inverse operator estimation.
operate [signal] in RtNoise — Internal signal to forward data to the worker thread.
operator const Eigen::SparseMatrix< float > & [fn] in FiffSparseMatrix — Implicit conversion to const Eigen::SparseMatrix<float>&.
operator!= [fn] in InvHpiModelParameters
operator!= [fn] in InvSensorSet
operator+= [fn] in FiffEvoked — Inputs a new data set and recalculates the average.
operator<< [fn] in FiffDigPointSet — Subscript operator << to add a new FiffDigPoint.
operator<< [fn] in FiffDigPointSet — Subscript operator << to add a new FiffDigPoint.
operator<< [fn] in InvEcdSet — Subscript operator << to add a new InvEcd.
operator<< [fn] in MNEBem — Subscript operator << to add a new bem_surface.
operator<< [fn] in MNEBem — Subscript operator << to add a new bem_surface.
operator= [fn] in BIDSPath
operator= [fn] in BidsRawData
operator= [fn] in BidsRawData
operator= [fn] in Command — Assignment Operator.
operator= [fn] in FiffCov — Assignment Operator.
operator= [fn] in FiffDigitizerData — Copy assignment operator (deep-copies unique_ptr members).
operator= [fn] in FiffSparseMatrix — Default copy-assignment operator.
operator= [fn] in FiffSparseMatrix — Default move-assignment operator.
operator= [fn] in FiffTag — Copy assignment operator.
operator= [fn] in FiffTag — Move assignment operator.
operator= [fn] in FwdEegSphereModelSet
operator= [fn] in FwdEegSphereModelSet
operator= [fn] in InvGuessData
operator= [fn] in InvHpiModelParameters
operator= [fn] in InvSourceEstimate — Assignment Operator.
operator= [fn] in MNEEventList
operator= [fn] in MNEEventList
operator= [fn] in MNEForwardSolution — Copy assignment operator.
operator= [fn] in MNEForwardSolution — Move assignment operator.
operator= [fn] in MNEHemisphere — Copy assignment operator.
operator= [fn] in MNEMghTagGroup
operator= [fn] in MNEMghTagGroup
operator= [fn] in MNEMshLightSet
operator= [fn] in MNEMshLightSet
operator= [fn] in MNEProjItem — Copy assignment operator.
operator= [fn] in MNEProjItem — Move assignment operator (defaulted).
operator= [fn] in MNESurfaceOrVolume
operator= [fn] in MNESurfaceOrVolume
operator= [fn] in RawCommand — Assignment Operator.
operator= [fn] in stream_info — Copy assignment operator.
operator== [fn] in InvHpiModelParameters
operator== [fn] in InvSensorSet
operator[] [fn] in Command — Subscript operator [] to access parameter values by name.
operator[] [fn] in Command — Subscript operator [] to access parameter values by index.
operator[] [fn] in Command — Subscript operator [].
operator[] [fn] in CommandManager — Subscript operator [] to access commands by command name.
operator[] [fn] in CommandManager — Subscript operator [] to access commands by command name.
operator[] [fn] in FiffAnnotations — Const subscript operator.
operator[] [fn] in FiffAnnotations — Subscript operator.
operator[] [fn] in FiffDigPointSet — Subscript operator [] to access FiffDigPoint by index.
operator[] [fn] in FiffDigPointSet — Subscript operator [] to access FiffDigPoint by index.
operator[] [fn] in FsAnnotationSet — Subscript operator [] to access annotation by index.
operator[] [fn] in FsAnnotationSet — Subscript operator [] to access annotation by index.
operator[] [fn] in FsAnnotationSet — Subscript operator [] to access annotation by identifier.
operator[] [fn] in FsAnnotationSet — Subscript operator [] to access annotation by identifier.
operator[] [fn] in FsSurfaceSet — Subscript operator [] to access surface by index.
operator[] [fn] in FsSurfaceSet — Subscript operator [] to access surface by index.
operator[] [fn] in FsSurfaceSet — Subscript operator [] to access surface by identifier.
operator[] [fn] in FsSurfaceSet — Subscript operator [] to access surface by identifier.
operator[] [fn] in InvEcdSet — Subscript operator [] to access InvEcd by index.
operator[] [fn] in InvEcdSet — Subscript operator [] to access InvEcd by index.
operator[] [fn] in MNEBem — Subscript operator [] to access bem_surface by index.
operator[] [fn] in MNEBem — Subscript operator [] to access bem_surface by index.
operator[] [fn] in MNESourceSpaces — Subscript operator [] to access source spaces by index.
operator[] [fn] in MNESourceSpaces — Subscript operator [] to access source spaces by index.
operator[] [fn] in MNESourceSpaces — Subscript operator [] to access source spaces by hemisphere identifier.
operator[] [fn] in MNESourceSpaces — Subscript operator [] to access source spaces by hemisphere identifier.
operator[] [fn] in RtCmdClient — Subscript operator [] to access commands by command name.
operator[] [fn] in RtCmdClient — Subscript operator [] to access commands by command name.
OperatorType [enum] in MNEOperator
OpFunc [type] in MnaOpRegistry — Operation implementation callback type.
opFunc [fn] in MnaOpRegistry — Get the implementation function for an operation type.
opticalAxisLocal [fn] in PolhemusCoregistration — Direction of the optical axis in the tracker body frame (unit vector).
opticalCalibDepthSpreadMm [fn] in PolhemusCoregistration — Depth spread of calibration samples along the optical axis (mm).
opticalCalibrationChanged [signal] in PolhemusCoregistration
opticalCalibrationValid [fn] in PolhemusCoregistration
opticalCalibResidualMm [fn] in PolhemusCoregistration — RMS residual of the last optical calibration (mm).
opticalCalibSampleCount [fn] in PolhemusCoregistration
opticalCenterLocal [fn] in PolhemusCoregistration — Position of the optical center in the tracker body frame (metres).
opticalRayInWorld [fn] in PolhemusCoregistration — Compute the current optical axis ray in Polhemus world frame.
opType [var] in MnaNode — Operation type (looked up in MnaOpRegistry).
opType [var] in MnaOpSchema — Operation type string.
order [fn] in MvarModel — Returns the fitted model order.
order [fn] in MvarModel — Returns the fitted model order.
orient_prior [var] in MNEInverseOperator — Orientation prior (loose-constraint weighting).
orientation [var] in FastrakSample — Sensor orientation; identity if not provided.
orientation [var] in MriSliceImage — Orientation of the slice.
orientation [fn] in SensorTreeItem — Returns the coil orientation (identity if not set).
orientation [fn] in SliceObject
orientation [var] in StationSample
orientation [var] in TrapMusicDipole — Dipole orientation (unit vector).
orientationType [var] in InvSourceEstimate — Orientation constraint used (fixed, free, loose).
orig_tab [var] in FsColortable — FsColortable raw data.
origin [var] in BadChannelsMaxwellParams — Expansion origin (metres, head frame).
origin [var] in MaxwellMoveCompParams — SSS expansion origin (metres).
origin [var] in MNESssData — The expansion origin.
origin [var] in SSSParams — Expansion origin in metres, head-coordinate frame (default: 4 cm superior to head origin).
osInfo [var] in MnaProvenance — e.g. "macOS 15.4 arm64"
out_nuse [var] in MNESssData — How many components included in the outside expansion.
out_order [var] in MNESssData — Order of the outside expansion.
outputName [var] in DerivationRule — Name of the derived output channel.
outputPorts [var] in MnaOpSchema — Expected output ports.
outputs [var] in MnaNode — Output ports.
overlay [fn] in SourceEstimateManager
overlay_color_mode [var] in MNEMshDisplaySurface — How overlay data affects coloring.
overlay_type [var] in MNEMshDisplaySurface — Type identifier for the overlay values.
overlay_values [var] in MNEMshDisplaySurface — Per-vertex overlay value array.
overlayFmax [fn] in MultimodalScene
overlayFmid [fn] in MultimodalScene
overlayFmin [fn] in MultimodalScene
overlayMode [var] in SceneData
overlayMode [var] in SubView
overlayModeForTarget [slot] in BrainView — Get configured overlay mode name for a target view.
overlayThresholdsChanged [signal] in MultimodalScene — Emitted when any of the shared overlay thresholds change.
overviewBarToggled [signal] in ChannelDataView
overviewBarVisible [fn] in ChannelDataView
OverviewBarWidget [fn] in OverviewBarWidget
overwrite [var] in WriteOptions — Overwrite existing files if true.

P

packageDir [var] in PythonRunnerConfig — Directory containing pyproject.toml for pip install .
paint [fn] in AverageSceneItem
paint [fn] in FrequencySpectrumDelegate — Use the painter and style option to render the item specified by the item index.
paint [fn] in RtFiffRawViewDelegate — Use the painter and style option to render the item specified by the item index.
paint [fn] in SelectionSceneItem — Reimplemented paint function.
paired [fn] in StatsTtest — Paired t-test.
pan [var] in SubView
param [fn] in MnaParamTree
Params [type] in BadChannelDetect — Convenience alias so callers can still write BadChannelDetect::Params.
Params [type] in EpochExtractor — Convenience alias so callers can still write EpochExtractor::Params.
Params [type] in SSS — Convenience alias so callers can still write SSS::Params.
paramTree [var] in MnaGraph — Hierarchical parameter store with formula-driven bindings.
parent [var] in FiffDirNode — Parent node.
parent_id [var] in FiffDirNode — Newly added to stay consistent with MATLAB implementation.
ParksMcClellan [fn] in ParksMcClellan
ParksMcClellan [fn] in ParksMcClellan — NumTaps must be odd for high pass and notch filters.
parse [fn] in CommandParser — Parses a CLI command or JSON command (list) and notifies all attached observers (command managers).
parseAverageFile [fn] in MNEDescriptionParser — Parse an averaging description file.
parseCovarianceFile [fn] in MNEDescriptionParser — Parse a covariance description file.
parseRecord [fn] in FastrakParser — Parse one record line (without trailing CR/LF) — exposed for unit tests and for callers that pre-frame their data.
PartialDirectedCoherence [fn] in PartialDirectedCoherence — Constructs a PartialDirectedCoherence object.
PartialDirectedCoherence [fn] in PartialDirectedCoherence — Constructs a PartialDirectedCoherence object.
passed [var] in MnaVerificationResult — true if the expression evaluated to true
patch [var] in MNENearest — Non-owning pointer to the patch this vertex belongs to.
patch_inds [var] in MNEHemisphere — List of neighboring vertices in the high resolution triangulation.
patch_info [fn] in MNE — mne_patch_info
patch_info [fn] in MNESourceSpaces
patch_rot [var] in MNEMshDisplaySurfaceSet — Rotation angles for the (flat) patches.
patches [var] in MNEMshDisplaySurfaceSet — Optional flat patches for display (owned).
patches [var] in MNESurfaceOrVolume — Patch information for each in-use vertex (nuse elements).
path [var] in MnaFileRef — Relative POSIX path.
patterns [fn] in DecodingCsp
patterns [fn] in DecodingSpoc
patterns [fn] in DecodingSsd
pause [fn] in CircularBuffer — Pauses the buffer.
payload [var] in SceneLayer — Renderable-specific data (ElectrodeObject, SliceObject, BrainSurface, …).
pca [fn] in StsCovEstimators — PCA-based rank-reduced covariance estimator.
pDescriptions [fn] in Command — Get parameter descriptions.
peakLocalisationError [fn] in InvResolutionMatrix — Compute peak localisation error for each source.
peakLocalizationError [fn] in StatsSourceMetrics — Peak localization error (Euclidean distance between true and estimated peak).
peakMemoryBytes [var] in MnaProvenance — Peak RSS (if measurable), 0 otherwise.
pearsonCorrelation [fn] in ConnectivityAec — Pearson correlation between two vectors.
penButtonPressed [signal] in PolhemusConnection — Emitted when the continuous stream pauses (pen button pressed).
penButtonPressed [signal] in PolhemusCoregistration
penOrientation [fn] in PolhemusCoregistration
penPoseChanged [signal] in PolhemusCoregistration
penPosition [fn] in PolhemusCoregistration
penStation [fn] in PolhemusCoregistration
penTipOffset [fn] in PolhemusCoregistration
penVertex [fn] in PolhemusCoregistration
performDipoleFit [signal] in DipoleFitView — Triggers dipole fit calculation.
periodMs [var] in MnaParamBinding — Evaluation period when trigger == "periodic" (ignored otherwise).
permutationTest [fn] in StatsCluster — Cluster-based permutation test.
perspectiveRotation [var] in SubView
pFiffInfo [var] in ComputeFwdSettings — The FiffInfo file from the measurement.
pFiffInfo [var] in RtInvOpInput
pFwd [var] in RtInvOpInput
phase [var] in MnaVerificationCheck — "pre" (before execution) or "post" (after execution)
PhaseLagIndex [fn] in PhaseLagIndex — Constructs a PhaseLagIndex object.
PhaseLagIndex [fn] in PhaseLagIndex — Constructs a PhaseLagIndex object.
PhaseLockingValue [fn] in PhaseLockingValue — Constructs a PhaseLockingValue object.
PhaseLockingValue [fn] in PhaseLockingValue — Constructs a PhaseLockingValue object.
phi_x [fn] in InvDipole
phi_x [fn] in InvDipole
phi_y [fn] in InvDipole
phi_y [fn] in InvDipole
phi_z [fn] in InvDipole
phi_z [fn] in InvDipole
physicalDimension [var] in EDFChannelInfo
physicalMax [var] in EDFChannelInfo
physicalMin [var] in EDFChannelInfo
pick [var] in InvDipoleFitData — Matrix to pick data from the full data set which may contain channels we are not interested in (currently unused).
pick [var] in MNEChSelection — Corresponding channels in raw data (< 0 indicates missing).
pick [fn] in MNENamedMatrix — Create a sub-matrix by picking named rows and columns.
pick [fn] in MNENamedVector — Pick elements from this named vector by name matching, writing them into a result vector ordered according to the supplied name list.
pick [fn] in RayPicker — Cast a ray against all surfaces in the scene.
pick_channels [fn] in Fiff — fiff_pick_channels
pick_channels [fn] in Fiff — fiff_pick_channels_evoked
pick_channels [fn] in FiffCov — python pick_channels_cov
pick_channels [fn] in FiffEvoked — fiff_pick_channels_evoked
pick_channels [fn] in FiffEvokedSet — fiff_pick_channels_evoked
pick_channels [fn] in FiffInfoBase — fiff_pick_channels
pick_channels [fn] in MNEEpochData — Reduces the data to the selected rows.
pick_channels [fn] in MNEEpochDataList — Reduces alld epochs to the selected rows.
pick_channels [fn] in MNEForwardSolution — mne.fiff.pick_channels_forward
pick_chs_omit [fn] in MNECovMatrix — Pick designated channels from this covariance matrix, optionally omitting MEG-EEG cross-correlations.
pick_data [fn] in MNERawData — Extract raw data samples for selected channels (including derived channels) with compensation applied, zero-padding or edge-extending as needed at boundaries.
pick_data_filt [fn] in MNERawData — Pick filtered data for a channel selection by loading filter buffers, applying the frequency-domain filter per channel (skipping stimulus channels), and accumulating overlapping results.
pick_data_proj [fn] in MNERawData — Extract raw data with SSP projection applied to each time sample before channel selection.
pick_deriv [var] in MNEChSelection — Corresponding derivations in raw data.
pick_info [fn] in Fiff — fiff_pick_info
pick_info [fn] in FiffInfo — fiff_pick_info
pick_info [fn] in FiffInfoBase — fiff_pick_info
pick_regions [fn] in MNEForwardSolution — Reduces a forward solution to selected regions.
pick_regions [fn] in MNESourceSpaces — Reduces a source space to selected regions.
pick_types [fn] in Fiff — fiff_pick_types
pick_types [fn] in FiffInfoBase — fiff_pick_types (highy diversity in meg picking)
pick_types [fn] in FiffInfoBase — fiff_pick_types
pick_types [fn] in MNEForwardSolution — mne.fiff.pick_types_forward
pickCardinalFiducials [fn] in FiffDigitizerData — Extracts cardinal digitizer points (LPA, Nasion, RPA) from the digitizer point list and transforms them into MRI coordinates using head_mri_t_adj, populating the mri_fids list.
picked [var] in MNEMshDisplaySurface — Picked locations in world coordinates.
picked [signal] in MultimodalScene — Emitted when a pick is reported.
pickFiducials [signal] in CoregSettingsView — Emit this signal whenever fiducial picking from 3DView should be activated.
pickLowerTriangleRcs [fn] in FiffSparseMatrix — Extract only the lower triangle (including diagonal) from a square RCS matrix.
pickOri [var] in InvBeamformer — Orientation picking mode.
pickTypes [fn] in FiffDigPointSet — Pick the wanted types from this set and returns them.
pinfo [var] in MNEHemisphere — Patch information (using option -cps during mne_setup_source_space).
pinv [fn] in Linalg — Creates the pseudo inverse of a matrix.
pipeline [var] in MnaProject — Processing pipeline nodes.
pivotCalibrationDone [signal] in PolhemusCoregistration
pivotResidualMm [fn] in PolhemusCoregistration
pivotSampleCollected [signal] in PolhemusCoregistration
pivotSampleCount [fn] in PolhemusCoregistration
PivotState [enum] in PolhemusCoregistration
pivotState [fn] in PolhemusCoregistration
pivotStateChanged [signal] in PolhemusCoregistration
pixelFormat [var] in MriSlice — Pixel format: FIFFV_MRI_PIXEL_BYTE(1), WORD(2), FLOAT(4).
pixels [var] in MriSlice — Pixel data (unsigned char), for FIFFV_MRI_PIXEL_BYTE.
pixels [var] in MriSliceImage — 2D pixel data, normalised 0-1.
pixelsFloat [var] in MriSlice — Pixel data (float), for FIFFV_MRI_PIXEL_FLOAT.
pixelsWord [var] in MriSlice — Pixel data (unsigned short), for FIFFV_MRI_PIXEL_WORD.
playbackSpeed [var] in SubView
Plot [fn] in Plot — Creates the plot.
Plot [fn] in Plot — Creates the plot using a given double vector.
PluginFactory [type] in MnaGraphExecutor — Factory callback: given a node's opType, create the corresponding live plugin.
pNames [fn] in Command — Get parameter names.
point [fn] in MNESurfaceOrVolume — Return a read-only map to the k-th vertex position (3 contiguous floats).
point [fn] in MNESurfaceOrVolume — Return a mutable map to the k-th vertex position.
PointKind [enum] in DigitizerTreeItem — Digitizer point category, matching FIFF digitizer point kinds.
pointKind [fn] in DigitizerTreeItem — Returns the digitizer point category.
pointNames [fn] in DigitizerTreeItem — Returns the display names for individual points.
pointReceived [signal] in PolhemusConnection
points [fn] in AcquiredPoints
points [var] in FiffDigitizerData — The digitizer points.
pointsChanged [signal] in AcquiredPoints
PointsT [type] in MNESurfaceOrVolume — Type abbreviation for np x 3 point data.
PolhemusConnection [fn] in PolhemusConnection
PolhemusCoregistration [fn] in PolhemusCoregistration
pop [fn] in CircularBuffer — Returns the first element (first in first out).
portno [var] in MNELayoutPort — Running number of this viewport.
ports [var] in MNELayout — Viewports.
pos [var] in CoilParam
pos [var] in ElectrodePosition — Position in metres (MNI head coords).
pos [var] in FiffDirEntry — Location in file; Note: the data is located at pos + FIFFC_DATA_OFFSET: 2GB restriction -> change this to fiff_long_t.
pos [var] in FsLabel — Locations in meters.
pos [fn] in FwdCoil — Return a read-only map to the j-th integration point position (3 contiguous floats).
pos [var] in MNEMshLight
pos [var] in VertexData
position [var] in BrainVisionMarker — 0-based sample position.
position [var] in DigitizedPoint — Position in metres, sensor frame.
position [var] in ElectrodeContact — 3-D position in MRI (surface RAS) coords.
position [var] in FastrakSample — Position in metres (always normalised to SI).
position [var] in InvFocalDipole — Dipole position (m) in head coordinates.
position [var] in LiveMarker
position [fn] in SensorTreeItem
position [var] in StationSample
position [var] in TrapMusicDipole — 3D position (meters).
positions [fn] in DigitizerTreeItem — Returns all point positions in this category.
positions [var] in InvSourceEstimate — 3D positions (m) in head coordinates, one row per source.
positions [fn] in SourceSpaceTreeItem — Returns all source point positions.
postResults [var] in MnaVerification — Results of post-execution checks (populated by executor).
postsel [var] in MNECTFCompData — Sparse selector applied after compensation.
postsel_data [var] in MNECTFCompData — Intermediate buffer for post-selection results.
PowellIdxVec [fn] in InvPwlRapMusic
PowellOffset [fn] in InvPwlRapMusic
predict [fn] in MlModel — Run inference on the given input tensor.
predict [fn] in MlOnnxModel — Run inference on the given input tensor.
predicted [var] in MNEMneData — The predicted data.
prefiltering [var] in EDFChannelInfo
prepare_forward [fn] in MNEForwardSolution — Prepare forward for assembling the inverse operator.
prepare_inverse_operator [fn] in MNEInverseOperator — Prepare the inverse operator for source estimation.
prepare_noise_cov [fn] in FiffCov — Prepare noise covariance matrix.
prepareDataAndProjectors [fn] in InvHpiDataUpdater — Reduce data to only use good channels.
prepareFilter [fn] in FilterKernel — Prepares a filter kernel to be used wiht a specific data block length.
prepareMergedSurfaces [fn] in BrainRenderer — Prepare merged brain surface geometry for single-drawIndexed rendering.
prepareSurfaceDraw [fn] in BrainRenderer — Upload uniform data for a surface into a shared resource batch.
prepareVideoOverlay [fn] in BrainRenderer — Prepare live video overlay GPU resources and upload the latest frame.
preResults [var] in MnaVerification — Results of pre-execution checks (populated by executor).
presel [var] in MNECTFCompData — Sparse selector applied before compensation.
presel_data [var] in MNECTFCompData — Intermediate buffer for pre-selection results.
preset [var] in SubView
prevEvent [var] in AverageCategory — Require this event just before.
prevIgnore [var] in AverageCategory — Ignore mask for previous event.
print [fn] in FiffCoordTrans — Prints the coordinate transform.
print [fn] in FiffDigitizerData — Prints class contents.
print [fn] in FiffDirNode — Prints elements of a tree.
print [fn] in FiffId — Prints the id.
print [fn] in FiffInfo — Prints class contents.
print [fn] in InvEcd — Prints the InvEcd dipole information to the debug output.
print [fn] in MNESssData — Output the SSS information for debugging purposes.
probeEvokedSets [slot] in BrainView — Probe evoked data sets in a FIF file.
probeEvokedSets [fn] in DataLoader — Probe a FIF file for the available evoked data sets.
process [slot] in StcLoadingWorker — Perform the loading and computation work.
processing [fn] in BIDSPath — Processing label.
processingDescription [var] in BidsCoordinateSystem — How coordinates were obtained (RECOMMENDED).
ProcessingMode [enum] in AbstractView
procrustesAlign [fn] in FiffCoordTrans — Performs a Procrustes alignment between two sets of corresponding 3D points.
progress [signal] in StcLoadingWorker — Emitted to report progress.
ProgressCallback [type] in MnaGraphExecutor — Progress callback type.
progressPct [var] in PythonRunnerResult — Last parsed progress percentage (0–100), or -1 if none.
progressUpdated [signal] in PythonRunner — Emitted when a progress line is parsed (mirrors the progress callback).
ProgressView [fn] in ProgressView — Creates an instance of a ProgressView object.
proj [var] in FiffEvoked — SSP projection.
proj [var] in FiffRawData — SSP operator to apply to the data.
proj [var] in InvBeamformer — SSP projection matrix (n_channels, n_channels).
proj [var] in InvDipoleFitData — The projection operator to use.
proj [var] in MNECovMatrix — The projection operator active when this matrix was computed.
proj [var] in MNEInverseOperator — SSP projector matrix applied to data.
proj [var] in MNEMeasData — SSP projection operator (may be nullptr).
proj [var] in MNERawData — SSP projection operator.
proj_data [var] in MNEProjOp — The compiled projector: orthogonalized projection vectors (nvec x nch).
proj_id [var] in FiffInfo — Project ID.
proj_name [var] in FiffInfo — Project name.
project_dvector [fn] in MNEProjOp — Apply the compiled projection operator to a double-precision data vector.
project_to_surface [fn] in MNESurface — Project a point onto the nearest triangle of the surface.
project_to_triangle [fn] in MNESurface — Compute 3D position on a triangle from barycentric coordinates.
project_to_triangle [fn] in MNESurface — Find the nearest point on a given triangle and return the projected 3D coordinates.
project_vector [fn] in MNEProjOp — Apply the compiled projection operator to a data vector in-place.
projection [var] in CameraResult
ProjectorsView [fn] in ProjectorsView — Constructs a ProjectorsView which is a child of parent.
projectSensors [fn] in GeometryInfo — projectSensors Calculates the nearest neighbor vertex to each sensor.
ProjectSettingsView [fn] in ProjectSettingsView
projectToNormals [fn] in InvVectorSourceEstimate — Project the 3D vectors onto surface normals to produce a signed scalar estimate.
projEegReject [var] in ProcessingSettings — EEG rejection for projection.
projEvent [var] in ProcessingSettings — Which event for projector creation.
projFiles [var] in ProcessingSettings — SSP data files.
projGradReject [var] in ProcessingSettings — Gradiometer rejection for projection.
projMagReject [var] in ProcessingSettings — Magnetometer rejection for projection.
projnames [var] in InvDipoleFitSettings — Projection file names.
projNEeg [var] in ProcessingSettings — Number of EEG components.
projNGrad [var] in ProcessingSettings — Number of grad components.
projNMag [var] in ProcessingSettings — Number of mag components.
projOn [var] in ProcessingSettings — -1=unspecified, 0=off, 1=on.
projs [var] in FiffCov — List of available ssp projectors.
projs [var] in FiffInfo — List of available SSP projectors.
projs [var] in MNEInverseOperator — SSP projectors read from the file.
projSelectionChanged [signal] in ProjectorsView — Emit this signal whenever the user changes the projections.
projTmax [var] in ProcessingSettings — End time for projection calculation.
projTmin [var] in ProcessingSettings — Start time for projection calculation.
provenance [var] in MnaVerification — Complete provenance snapshot (populated by executor).
psdFromTaperedSpectra [fn] in Spectral — Calculates the power spectral density of given tapered spectrum.
pull_chunk [fn] in stream_inlet — Pull a chunk of multichannel data from the inlet.
pull_chunk_float [fn] in stream_inlet — Pull a chunk of float data (non-template version).
push [fn] in CircularBuffer — Adds a whole array at the end buffer.
push [fn] in CircularBuffer — Adds an element at the end of the buffer.
push_chunk [fn] in stream_outlet — Push a chunk of multichannel samples into the outlet.
push_sample [fn] in stream_outlet — Push a single multichannel sample into the outlet.
pushData [fn] in RtSensorStreamManager — Push a single measurement vector into the streaming queue.
pushData [fn] in SourceEstimateManager — Push a single column of source data into the streaming queue.
pushRealtimeSensorData [slot] in BrainView — Push a single sensor measurement vector into the real-time sensor pipeline.
pushRealtimeSourceData [slot] in BrainView — Push a single source-data vector into the real-time pipeline.
pushVideoOverlayFrame [slot] in BrainView — Push a new video frame to the overlay (e.g.
pValues [fn] in Command — Returns parameter values.
pValues [fn] in RawCommand — Returns parameter values.
pythonExe [var] in PythonRunnerConfig — Python interpreter path or command.
PythonRunner [fn] in PythonRunner — Construct a PythonRunner with default configuration.
PythonRunner [fn] in PythonRunner — Construct a PythonRunner with explicit configuration.
PythonTestHelper [fn] in PythonTestHelper — Constructs a PythonTestHelper with auto-detected Python.
pythonVersion [fn] in PythonRunner — Query the version string of the configured Python interpreter.

Q

Q [var] in InvEcd — Dipole moment.
qtVersion [var] in MnaProvenance — e.g. "6.11.0"
QuickControlView [fn] in QuickControlView — Constructs a QuickControlView which is a child of parent.

R

r [var] in FiffDigPoint — Point location.
r0 [var] in ComputeFwdSettings — Sphere model origin .
r0 [var] in FiffChPos — Coil coordinate system origin.
r0 [var] in FwdCoil — Coil coordinate system origin.
r0 [var] in FwdEegSphereModel — The origin.
r0 [var] in InvDipoleFitData — Sphere model origin.
r0 [var] in InvDipoleFitSettings — Sphere model origin.
r0 [fn] in InvSensorSet
r0 [fn] in InvSensorSet
r1 [var] in MNETriangle — Position of vertex 0.
r12 [var] in MNETriangle — Edge vector from vertex 0 to vertex 1 (r2 - r1).
r13 [var] in MNETriangle — Edge vector from vertex 0 to vertex 2 (r3 - r1).
r2 [var] in MNETriangle — Position of vertex 1.
r3 [var] in MNETriangle — Position of vertex 2.
rad [var] in FwdEegSphereLayer — The actual rads.
radius [var] in ElectrodeContact — Contact radius in mm.
radius [var] in LiveMarker
radius [fn] in Sphere — The radius of the sphere.
randomSeed [var] in MnaProvenance — -1 if not applicable
range [var] in FiffChInfo — Voltmeter range (-1 = auto ranging).
rank [var] in InvBeamformer — Data covariance rank used.
rank [fn] in Linalg — Returns the rank of a matrix A.
RAS_MNI_tal_t [var] in FiffCoordTransSet — Transform from RAS (nonzero origin) to MNI Talairach coordinates.
rasGood [var] in MriVolData — Whether the direction cosines in the header are valid.
rasToVoxel [fn] in MriSlicer — Convert RAS coordinate to voxel index.
rasToVoxel [fn] in MriSlicer — Convert RAS coordinate to voxel index using a volume's transform.
raw [var] in BidsRawData — Raw data with fully populated FiffInfo.
raw [var] in MNEMeasData — Raw-data handle when data originates from a raw file.
rawBufferReceived [signal] in RtClient — Emits a received raw buffer - ToDo change the emits to fiff raw data.
RawCommand [fn] in RawCommand — Default constructor.
RawCommand [fn] in RawCommand — Constructor which parses a command stored in a json object.
RawCommand [fn] in RawCommand — Copy constructor.
rawdir [var] in FiffRawData — Special fiff directory entry for raw data.
rawDir [var] in MNERawInfo — Directory of raw data tags (FIFF_DATA_BUFFER, FIFF_DATA_SKIP, etc.).
rawFiles [var] in ProcessingSettings — Raw data file(s).
rcvMouseLoc [fn] in FrequencySpectrumDelegate — Receive Mouse location.
rd [var] in InvDipoleForward — Dipole locations (ndip x 3).
rd [var] in InvEcd — Dipole location.
read [fn] in BidsDatasetDescription — Read a dataset_description.json file.
read [fn] in BidsRawData — Read a BIDS dataset from disk.
read [fn] in FiffAnnotations — Auto-detects format and reads annotations.
read [fn] in FiffCoordTrans — Reads a coordinate transform from a fif file.
read [fn] in FiffEvents — Read events from a FIFF or ASCII event file.
read [fn] in FiffEvoked — fiff_read_evoked
read [fn] in FiffEvokedSet — fiff_read_evoked
read [fn] in FiffIO — Read data from a pIODevice.
read [fn] in FiffIO — Read data from a QList of pIODevices.
read [fn] in FineCalibration — Read a fine calibration file (.dat format).
read [fn] in FsAnnotation — Reads a FreeSurfer annotation file.
read [fn] in FsAnnotation — Reads a FreeSurfer annotation file.
read [fn] in FsAnnotation — Reads an annotation of a file.
read [fn] in FsAnnotationSet — Reads different annotation files and assembles them to a FsAnnotationSet.
read [fn] in FsLabel — mne_read_label_file
read [fn] in FsSurface — mne_read_surface
read [fn] in FsSurface — mne_read_surface
read [fn] in FsSurface — mne_read_surface
read [fn] in FsSurfaceSet — Reads different surface files and assembles them to a FsSurfaceSet.
read [fn] in InvSourceEstimate — mne_read_stc_file
read [fn] in MnaIO — Read an MNA project from file.
read [fn] in MnaProject — Read an MNA project from file.
read [fn] in MNECovMatrix — Read a covariance matrix of the specified kind from a FIFF file.
read [fn] in MNECTFCompDataSet — Read all CTF compensation data sets (matrices and channel info) from a FIFF file, calibrate them, and return a populated set.
read [fn] in MNEForwardSolution
read [fn] in MNENamedMatrix — Factory: read a named matrix from a FIFF file.
read [fn] in MNEProjOp — Read a projection operator from a FIFF file by path.
read [fn] in MNESssData — Read SSS data from anywhere in a file Refactored: mne_read (mne_sss_data.c).
read [fn] in MriCorIO — Reads COR slice files from a directory.
read [fn] in MriMghIO — Reads a FreeSurfer MGH or MGZ file.
read [fn] in MriNiftiIO — Reads a NIfTI-1 single-file volume.
read [fn] in MriVolData — Convenience loader: reads an MGH/MGZ file and populates this volume.
read_bad_channels [fn] in Fiff — fiff_read_bad_channels
read_bad_channels [fn] in FiffStream — fiff_read_bad_channels
read_bem_surface [fn] in MNESurface — Read a BEM surface from a FIFF file (excess-neighbor checking enabled).
read_bem_surface [fn] in MNESurface — Read a BEM surface from a FIFF file (excess-neighbor checking enabled).
read_bem_surface [fn] in MNESurface — Read a BEM surface from a FIFF file.
read_bem_surface2 [fn] in MNESurface — Read a BEM surface from a FIFF file (excess-neighbor checking disabled).
read_coil_defs [fn] in FwdCoilSet — Read a coil definitions from file.
read_cov [fn] in FiffStream — mne_read_cov - also for mne_read_noise_cov
read_cov [fn] in MNE — mne_read_cov
read_ctf_comp [fn] in Fiff — fiff_read_ctf_comp
read_ctf_comp [fn] in FiffStream — fiff_read_ctf_comp
read_curv [fn] in FsSurface — reads a binary curvature file into a vector
read_digitizer_data [fn] in FiffStream — Reimplemntation of load_digitizer_data (digitizer.c).
read_dipoles_dip [fn] in InvEcdSet — Read dipoles from the dip format compatible with mrilab.
read_eigen_matrix [fn] in IOUtils — Read Eigen Matrix from file (QString path).
read_eigen_matrix [fn] in IOUtils
read_eigen_matrix [fn] in IOUtils
read_eigen_matrix [fn] in IOUtils — Read Eigen Matrix from file (std::string path).
read_eigen_matrix [fn] in IOUtils
read_eigen_matrix [fn] in IOUtils
read_events [fn] in MNE
read_events_from_ascii [fn] in MNE — read_events
read_events_from_fif [fn] in MNE — mne_read_events
read_evoked [fn] in Fiff — fiff_read_evoked
read_evoked_set [fn] in Fiff — Read all evoked data from one file.
read_forward_solution [fn] in Fwd — mne_read_forward_solution
read_from_ascii [fn] in FiffEvents — Read a list of events from an ASCII event file.
read_from_fif [fn] in FiffEvents — Read an event list from a FIFF file.
read_from_node [fn] in MNEProjOp — Read all linear projection items from a FIFF tree node.
read_from_node [fn] in MNESssData — Read the SSS data from the given node of an open fiff stream Refactored: mne_read_from_node (mne_sss_data.c).
read_inverse_operator [fn] in MNEInverseOperator — Read an inverse operator from a FIFF file.
read_label [fn] in MNESourceSpace
read_meas_info [fn] in Fiff — fiff_read_meas_info
read_meas_info [fn] in FiffStream — fiff_read_meas_info
read_meas_info_base [fn] in FiffStream — python read_forward_meas_info
read_named_matrix [fn] in Fiff — fiff_read_named_matrix
read_named_matrix [fn] in FiffStream — fiff_read_named_matrix
read_proj [fn] in Fiff — [ projdata ] = fiff_read_proj(fid,node)
read_proj [fn] in FiffStream — Read the SSP data under a given directory node.
read_raw_segment [fn] in Fiff — fiff_read_raw_segment
read_raw_segment [fn] in Fiff — fiff_read_raw_segment
read_raw_segment [fn] in FiffRawData — Read a specific raw data segment.
read_raw_segment [fn] in FiffRawData — Read a specific raw data segment.
read_raw_segment_times [fn] in FiffRawData — Read a specific raw data segment.
read_rt_tag [fn] in FiffStream — Read one tag from a fif real-time stream.
read_source_spaces [fn] in MNE — mne_read_source_spaces
read_source_spaces [fn] in MNESourceSpace
read_tag [fn] in Fiff — fiff_read_tag
read_tag [fn] in FiffStream — Read one tag from a fif file.
read_tag_data [fn] in FiffStream — Read tag data from a fif file.
read_tag_info [fn] in Fiff — fiff_read_tag_info
read_tag_info [fn] in FiffStream — Read tag information of one tag from a fif file.
read_w [fn] in InvSourceEstimate — Read a .w file (single time-point source estimate).
readAsaElcFile [fn] in LayoutLoader — Reads the specified ANT elc-layout file.
readAsaElcFile [fn] in LayoutLoader — Reads the specified ANT elc-layout file.
readAvailableData [fn] in RtCmdClient — Returns the available data.
readBadChannelsFromFile [fn] in FiffInfoBase — Read bad channel names from a plain text file (one name per line, '#' comments skipped).
readBrainstormMonFile [fn] in SelectionIO — Reads the specified Brainstorm montage file.
readBrainstormMonFile [fn] in SelectionIO — Reads the specified Brainstorm montage file.
readCsv [fn] in FiffAnnotations — Reads annotations from a CSV file.
readCsv [fn] in InvSourceEstimateIO — Read source estimate from CSV format.
readDefinitionFile [fn] in ChannelDerivation — Read derivation rules from a text definition file.
readEpochs [fn] in MNEEpochDataList — Read the epochs from a raw file based on provided events.
reader [var] in BidsRawData — The underlying format reader (keeps file open).
readFilter [fn] in FilterIO — Reads a given txt file and scans it for filter coefficients.
readFromStream [fn] in FiffDigPointSet — Reads FiffDigPointSet from a fif file.
readFromStream [fn] in MNEBem
readFromStream [fn] in MNESourceSpaces
readFromTag [fn] in FiffCoordTrans — Reads a coordinate transform from a FIFF tag.
readFShead2mriTransform [fn] in FiffCoordTrans — Reads the FreeSurfer head → MRI transform from an ASCII file.
readHeadPos [fn] in MaxwellMovementComp — Read head positions from a file.
readInfo [fn] in RtDataClient — Reads fiff measurement information of a data the connection.
readJson [fn] in BidsCoordinateSystem — Read a BIDS *_coordsystem.json file.
readJson [fn] in FiffAnnotations — Reads annotations from a JSON file.
readMatrix [fn] in PythonTestHelper — Read an Eigen matrix from a text file (space-separated values, one row per line).
readMeasTransform [fn] in FiffCoordTrans — Reads the MEG device → head coordinate transform from a FIFF file.
readMegEegChannels [fn] in FiffInfo — Read MEG and EEG channel information from a FIFF file, excluding bad channels.
readMetadata [fn] in RtDataClient — Reads fiff metaata class from data connection.
readMNELoutFile [fn] in LayoutLoader — Reads the specified MNE .lout file.
readMNELoutFile [fn] in LayoutLoader — Reads the specified MNE .lout file.
readMNESelFile [fn] in SelectionIO — Reads the specified MNE sel file.
readMNESelFile [fn] in SelectionIO — Reads the specified MNE sel file.
readMriTransform [fn] in FiffCoordTrans — Reads the MRI → head coordinate transform from a FIFF file.
readRawBuffer [fn] in RtDataClient — Reads fiff measurement information of a data the connection.
readRawSegment [fn] in AbstractFormatReader — Read a segment of raw data.
readRawSegment [fn] in BrainVisionReader — Read a segment of raw data.
readRawSegment [fn] in EDFReader — Read a segment of raw data.
readsLm [fn] in Warp — Read electrode positions from MRI Database.
readsLm [fn] in Warp — Read electrode positions from MRI Database.
readTransform [fn] in FiffCoordTrans — Reads a specified coordinate transform from a FIFF file.
readTransformAscii [fn] in FiffCoordTrans — Reads a coordinate transform from an ASCII 4×3 matrix file (mm-to-m conversion applied).
readTransformFromNode [fn] in FiffCoordTrans — Reads a coordinate transform from a FIFF stream node.
readTsv [fn] in BidsChannel — Read a BIDS *_channels.tsv file.
readTsv [fn] in BidsElectrode — Read a BIDS *_electrodes.tsv file.
readTsv [fn] in BidsEvent — Read a BIDS *_events.tsv file.
readTsv [fn] in BidsTsv — Reads a TSV file into an ordered list of row maps.
realtimeColorsAvailable [signal] in SourceEstimateManager — Emitted when the real-time pipeline produces a new set of per-vertex colours.
rearrange_source_space [fn] in MNESourceSpace — Rearrange source space after filtering: recount nuse, rebuild vertno, and recompute patch statistics if nearest info is available.
recompStatusChanged [signal] in FwdSettingsView — Emit this signal whenever recomputation checkbox changed.
recomputeInterpolation [fn] in RtSourceDataController — Trigger an asynchronous recomputation of the interpolation matrices.
recomputeMapping [fn] in RtSensorDataController — Trigger an asynchronous recomputation of the mapping matrix.
recording [fn] in BIDSPath — Recording label.
recordings [var] in MnaSession — Recordings in this session.
recordingTimerStateChanged [signal] in ProjectSettingsView
recordingType [var] in BidsRawData — "continuous", "epoched", or "discontinuous" (RECOMMENDED).
redrawGUI [fn] in ProjectorsView — Redraw the view.
reduce [fn] in InvSourceEstimate — Reduces the source estimate to selected samples.
reduce [fn] in Spectral — Reduces the taperedSpectra results to a final result.
reduce_forward_solution [fn] in MNEForwardSolution — reduces the forward solution and stores the result to p_fwdOut.
reference [var] in BrainVisionChannelInfo
referenceMarkerAddRequested [signal] in ChannelDataView — Emitted when the ruler context menu requests a new sample marker.
referenceMarkerRemoveRequested [signal] in ChannelDataView — Emitted when the ruler context menu requests removal of a nearby sample marker.
referenceMarkersClearRequested [signal] in ChannelDataView — Emitted when the ruler context menu requests clearing all sample markers.
reg [var] in InvBeamformer — Regularization parameter used.
regChanged [signal] in DipoleFitView — Set new regularization parameters.
reginv [var] in MNEInverseOperator — Diagonal regularised inverse of the singular values.
regionId [var] in PickResult — FsAnnotation label ID.
regionName [var] in PickResult — FsAnnotation region label (if available).
registerBoundsFn [fn] in MultimodalScene — Register an AABB extractor for a given layer kind.
registeredOps [fn] in MnaOpRegistry — List all registered operation types.
registerOp [fn] in MnaOpRegistry — Register an operation schema.
registerOpFunc [fn] in MnaOpRegistry — Register an implementation function for an operation type.
registrationChanged [signal] in PolhemusCoregistration
registrationValid [fn] in PolhemusCoregistration
regularize [fn] in FiffCov — Regularize noise covariance matrix.
regularize [fn] in MNECovMatrix — Regularize different channel types of the covariance matrix by adding a fraction of the average diagonal value for each channel class.
regularizedBeta [fn] in StatsTtest — Regularized incomplete beta function I_x(a, b).
rej [var] in AverageDescription — Rejection limits.
rej [var] in CovDescription — Rejection limits.
rejectMarked [fn] in EpochExtractor — Return only the epochs that are NOT marked for rejection.
rel_rad [var] in FwdEegSphereLayer — Relative rads.
relative [var] in MNEMshColorScaleDef
Remez2 [fn] in ParksMcClellan
remove [fn] in FiffAnnotations — Removes the annotation at the given index.
removeBinding [fn] in MnaParamTree
removeDC [fn] in ChannelDataModel
removeFiducial [fn] in AcquiredPoints — Remove a previously captured fiducial so it can be re-recorded.
removeFirst [fn] in ConnectivitySettings
removeFirst [fn] in ConnectivitySettings
removeItem [signal] in BidsView — Sends index of item to be removed from model.
removeItem [slot] in BidsViewModel — Removes item at index itemIndex.
removeLast [fn] in ConnectivitySettings
removeLast [fn] in ConnectivitySettings
removeLayer [fn] in MultimodalScene — Remove a layer by id.
removeModel [fn] in DipoleFitView — Removes model from view.
removeNode [fn] in MnaGraph
removeReferenceMarkerRequested [signal] in TimeRulerWidget — Emitted when the user requests removal of the nearest sample marker from the ruler context menu.
removeRows [fn] in ChannelInfoModel
removeSampleMean [var] in CovDescription — Remove the mean at each sample.
renderDipoles [fn] in BrainRenderer — Render dipoles using instanced rendering.
renderNetwork [fn] in BrainRenderer — Render a connectivity network using instanced rendering.
renderSurface [fn] in BrainRenderer — Render a single surface.
renderVideoOverlay [fn] in BrainRenderer — Render a live video overlay as a camera-facing textured quad.
renderVideoOverlayOnSurface [fn] in BrainRenderer — Render a live video overlay projected onto an existing surface mesh.
repaintItems [fn] in AverageScene — Repaints all items from the layout data in the scene.
repaintItems [fn] in SelectionScene — Updates layout data.
repaintSelectionItems [fn] in AverageScene — Repaints all items from the layout data in the scene from a SelectionItem object.
reply [fn] in Command — Inherited command reply channel.
report [var] in FitUser
report [var] in fitUserRec
report [fn] in MNEProjOp — Write a one-line-per-item summary of all projection items to a text stream (no vector data).
Report [fn] in Report — Construct a report with a title.
report_data [fn] in MNEProjOp — Write a formatted summary of all projection items to a text stream, optionally including the full projection vector data while zeroing out excluded channels.
report_dim [var] in FitDipUserRec
reportPick [fn] in MultimodalScene — Report a pick result from a layer's renderer or hit-tester.
requestBufsize [fn] in RtCmdClient — Request buffer size from mne_rt_server.
requestCancel [fn] in StcLoadingWorker — Request cancellation of the current loading/interpolation.
requestCommands [fn] in RtCmdClient — Request available commands from mne_rt_server.
requestConnectors [fn] in RtCmdClient — Request available connectors from mne_rt_server.
requestParams [fn] in DipoleFitView — Sends updated signals for parameters (excluding selected models).
required [var] in MnaOpSchemaAttr — Must be set?
required [var] in MnaOpSchemaPort — Must be connected?
requirementsFile [var] in PythonRunnerConfig — Fallback: path to requirements.txt for pip install -r.
res [var] in FwdThreadArg — Destination for the solution (ncoil x nsources).
res_grad [var] in FwdThreadArg — Gradient result (ncoil x 3*nsources).
resample [fn] in Resample — Resample a single-channel row vector from dOldSFreq to dNewSFreq.
resampleMatrix [fn] in Resample — Resample every row of a data matrix.
rescale [fn] in Numerics — Rescale (baseline correct) data.
rescale [fn] in Numerics — Rescale (baseline correct) data.
reset [fn] in FastrakParser — Reset accumulated buffer state.
reset [fn] in FilterOverlapAdd — Reset the stored overlap matrices.
reset [fn] in RtAveraging — Reset the data processing in the real-time worker.
reset [fn] in RtAveragingWorker — Resets the averaged data stored.
resetAllSubViewState [slot] in BrainView — Reset all per-pane SubView state (camera, visibility, shaders, surface type, overlay) to its index-specific factory defaults and reset the single-view state too.
resetAverage [signal] in AveragingSettingsView
resetChannelOrder [fn] in ChannelDataView
resetMultiViewLayout [slot] in BrainView — Reset the multi-view splitter layout to equal-sized panes.
resetRegistration [fn] in PolhemusCoregistration — Reset the registration state (headToWorld, headToDevice) to identity.
resetRotation [fn] in CameraController — Reset single-view rotation to identity.
resetSelection [fn] in EvokedSetModel — Resets the current selection (selects all channels).
resetSelection [fn] in FrequencySpectrumModel — Resets the current selection (selects all channels).
resetSelection [fn] in RtFiffRawViewModel — Resets the current selection (selects all channels).
resetSingleViewCameraState [slot] in BrainView — Reset single-view camera state (rotation and zoom) to defaults.
resetSplits [fn] in MultiViewLayout
resetTriggerCounter [fn] in RtFiffRawView — resetTriggerCounter resets the trigger counter
resetTriggerCounter [fn] in RtFiffRawViewModel — resetTriggerCounter resets the trigger counter
resetTriggerCounter [signal] in TriggerDetectionView — Emit this signal whenever the user pressed the trigger counter.
resetViewportCameraState [slot] in BrainView — Reset one multi-view pane's camera state (zoom, pan, perspective rotation).
reshape [fn] in MlTensor — Return a tensor that shares the same storage but has a different shape.
resi [var] in fitUserRec
residualNorm [var] in InvGammaMapResult
residualNorm [var] in InvMxneResult
residualNorm [var] in InvTfMxneResult — Final residual norm.
residuals [var] in BadChannelsMaxwellResult — Per-channel reconstruction residuals.
resolution [var] in BrainVisionChannelInfo — Scaling factor (calibration value).
resolvedAttributes [var] in MnaProvenance
response [signal] in CommandManager — Is triggered when a reply is available.
response [signal] in CommandParser — Response channel which is used by attached observers (command managers) to send data back to subject.
response [signal] in RtCmdClient — Emits the received response.
restart [fn] in RtAveraging — Restarts the thread by interrupting its computation queue, quitting, waiting and then starting it again.
restart [fn] in RtConnectivity — Restarts the thread by interrupting its computation queue, quitting, waiting and then starting it again.
restart [fn] in RtHpi — Restarts the thread by interrupting its computation queue, quitting, waiting and then starting it again.
restart [fn] in RtInvOp — Restarts the thread by interrupting its computation queue, quitting, waiting and then starting it again.
restrict_gain_matrix [fn] in MNEForwardSolution — Restrict gain matrix entries for optimal depth weighting.
restrict_sources_to_labels [fn] in MNESourceSpace
resultReady [signal] in RtAveragingWorker — Signal which is emitted when new evoked stimulus data are available.
resultReady [signal] in RtConnectivityWorker
resultReady [signal] in RtHpiWorker
resultReady [signal] in RtInvOpWorker — Emit this signal whenever a new inverse operator was estimated.
resultReady [signal] in RtNoiseWorker — Emitted when a new power spectral density matrix is available.
results [var] in Context — nodeId::portName → data (QVariant wrapping domain objects or file paths)
revert_to_diag [fn] in MNECovMatrix — Revert a full (lower-triangle packed) covariance matrix to its diagonal elements, discarding off-diagonal data and eigendecomposition.
rh [var] in ViewVisibilityProfile
right [var] in MNEMshEyes — Right hemisphere viewpoint (x, y, z).
right_up [var] in MNEMshEyes — Right hemisphere up-vector.
ring [var] in MNERawData — Ring buffer for raw data.
rmag [var] in FwdCoil — The field point locations (np x 3).
rmag [fn] in InvSensorSet
rmag [fn] in InvSensorSet
rms_digitizer_distance [fn] in MNEMshDisplaySurface — Compute the RMS distance from active digitizer points to the head surface.
roiIdx [var] in RegionDataOut — Region cluster indices.
roiIdx [var] in RegionMTOut — Per-source cluster assignment indices.
role [var] in MnaFileRef — Role of the file.
root [fn] in BIDSPath — BIDS dataset root path.
rot [var] in MNEMshDisplaySurface — Rotation angles of the MRI (in radians).
rot [var] in MNEMshDisplaySurfaceSet — Rotation angles of the MRI (in radians).
rotation [fn] in CameraController
rotation [var] in HeadPosEntry — Rotation quaternion (device → head).
rotationChanged [signal] in Control3DView — Use this signal whenever the user wants to rotate the 3D model.
row_names [var] in FiffNamedMatrix — Row names.
rowcals [var] in FiffCtfComp — Row calibrations.
rowCount [fn] in ChannelInfoModel — Reimplemented virtual functions.
rowCount [fn] in EvokedSetModel — Returns the number of rows under the given parent.
rowCount [fn] in FrequencySpectrumModel — Returns the number of rows under the given parent.
rowCount [fn] in RtFiffRawViewModel — Returns the number of rows under the given parent.
rowlist [var] in MNENamedMatrix — Name list for the rows (may be empty if unnamed).
rowlist [var] in MNESparseNamedMatrix — Name list for the rows.
RowMajorMatrixMap [type] in MlTensor
RowMajorMatrixXf [type] in MlTensor
rows [fn] in FiffSparseMatrix — Number of rows.
rows [fn] in MlTensor — 2-D convenience — equivalent to shape(0).
rr [var] in FitUser
rr [var] in fitUserRec
rr [fn] in FsSurface — Coordinates of vertices (rr).
rr [var] in InvGuessData — Guess dipole locations (nguess x 3, row-major).
rr [var] in MNESurfaceOrVolume — The vertex locations (np x 3, row-major).
RtAveraging [fn] in RtAveraging — Creates the real-time averaging object.
RtAveragingWorker [fn] in RtAveragingWorker — Creates the real-time averaging object.
rtClear [fn] in BrainRenderer
RtClient [fn] in RtClient — Creates the real-time client.
RtCmdClient [fn] in RtCmdClient — Creates the real-time command client.
RtConnectivity [fn] in RtConnectivity — Creates the real-time connectivity estimation object.
RtCov [fn] in RtCov
RtDataClient [fn] in RtDataClient — Creates the real-time data client.
RtFiffRawView [fn] in RtFiffRawView — Constructs a RtFiffRawView which is a child of parent.
RtFiffRawViewDelegate [fn] in RtFiffRawViewDelegate — Creates a new abstract item delegate with the given parent.
RtFiffRawViewModel [fn] in RtFiffRawViewModel — Constructs an real-time multi sample array table model for the given parent.
RtHpi [fn] in RtHpi — Creates the real-time HPIS estimation object.
RtHpiWorker [fn] in RtHpiWorker — Creates the real-time HPI worker object.
RtInvOp [fn] in RtInvOp — Creates the real-time inverse operator estimation object.
RtNoise [fn] in RtNoise — Creates the real-time noise estimation object.
RtNoiseWorker [fn] in RtNoiseWorker — Creates the worker.
rtPreserve [fn] in BrainRenderer
RtSensorDataController [fn] in RtSensorDataController — Constructor.
RtSensorDataWorker [fn] in RtSensorDataWorker — Constructor.
RtSensorInterpolationMatWorker [fn] in RtSensorInterpolationMatWorker — Constructor.
RtSensorStreamManager [fn] in RtSensorStreamManager — Constructor.
RtSourceDataController [fn] in RtSourceDataController — Constructor.
RtSourceDataWorker [fn] in RtSourceDataWorker — Constructor.
RtSourceInterpolationMatWorker [fn] in RtSourceInterpolationMatWorker — Constructor.
run [fn] in BIDSPath — Run index.
run [fn] in ICA — Fit FastICA on the given data matrix.
run [fn] in MLTrainer — Run a training script.
run [fn] in PicardIca — Run the Picard ICA algorithm.
run [fn] in PythonRunner — Run a Python script synchronously.
runCode [fn] in PythonRunner — Run a Python one-liner synchronously (python -c "...").
runInVenv [fn] in PythonRunner — Convenience: ensure venv, then run a script inside it.
runner [fn] in MLTrainer — Access the underlying PythonRunner for callback/config changes.
running [var] in StreamContext — Whether the stream is active.
runScript [fn] in PythonTestHelper — Run a Python script file and return the result.

S

s [var] in FilterThreadArg — The source space to process.
s [var] in FwdThreadArg — The source space to process.
s [var] in MNESurfacePatch — Patch represented as a source space surface.
sample [var] in BidsEvent — Sample index (0-based) corresponding to onset.
sample [var] in EventMarker — Absolute sample index of the event onset.
sample [var] in MNEEvent — Sample number.
sample [var] in TimeRulerEventMark — Absolute sample index.
sample [var] in TimeRulerReferenceMark — Absolute sample index.
sampleClicked [signal] in ChannelDataView — Emitted when the user clicks on a sample position.
sampleClicked [signal] in ChannelRhiView — Emitted whenever the user clicks; provides the sample index under the cursor.
sampleCount [var] in EDFChannelInfo
sampleFirst [var] in TileResult
sampleRangeSelected [signal] in ChannelDataView — Emitted when the user selected a sample range for annotation creation.
sampleRangeSelected [signal] in ChannelRhiView — Emitted when the user selects a time span with Shift+drag in annotation mode.
samples [fn] in InvSourceEstimate — Returns the number of samples.
samples_available [fn] in stream_inlet — Check whether new samples are available in the internal buffer.
samplesChanged [signal] in CovarianceSettingsView
samplesPerPixel [fn] in ChannelRhiView
samplesPerPixel [var] in TileResult
samplesPerPixelChanged [signal] in ChannelRhiView
samplesPerRecord [var] in EDFChannelInfo
sampleToViewportX [fn] in ChannelDataView — Maps an absolute sample index to an x coordinate inside the signal viewport.
sampleValueAt [fn] in ChannelDataModel — Return the raw sample value at a specific absolute sample index for the given channel.
samplingFreq [var] in BidsChannel — Sampling frequency in Hz (OPTIONAL).
save [fn] in FiffCov — Save this covariance matrix to a FIFF file.
save [fn] in FiffEvokedSet — Save this evoked data set to a FIFF file.
save [fn] in FiffRawData — Save raw data to a FIFF file, optionally with decimation and channel picking.
save [fn] in MlModel — Serialise the model to disk.
save [fn] in MlOnnxModel — Serialise the model to disk.
save [fn] in Report — Save the report to an HTML file.
save [fn] in SubView — Save this SubView's state to QSettings under the given prefix.
save [fn] in ViewVisibilityProfile — Save this profile to QSettings under the given key prefix.
save_calibrated [var] in FiffCtfComp — If data should be saved calibrated.
save_dipoles_bdip [fn] in InvEcdSet — Save dipoles in the bdip format employed by xfit.
save_dipoles_dip [fn] in InvEcdSet — Save dipoles in the dip format suitable for mrilab.
save_raw [fn] in MNE — save_raw
saveAllEvents [var] in ProcessingSettings — Save all transitions (not just leading edge).
saveAveTag [var] in ProcessingSettings — Tag for average output files.
saveCovTag [var] in ProcessingSettings — Tag for covariance output files.
saveFile [fn] in MnaRegistryLoader — Serialize current registry schemas to a JSON manifest file.
saveFiles [var] in ProcessingSettings — Destination(s) for saving filtered raw data.
saveHere [var] in ProcessingSettings — Save auto-generated files in CWD instead of raw data dir.
saveProjAugmented [var] in ProcessingSettings — Output in augmented format for graph.
saveProjTag [var] in ProcessingSettings — Tag for projection output files.
saveSettings [fn] in AbstractView — Saves all important settings of this view via QSettings.
saveSettings [fn] in ApplyToView — Saves all important settings of this view via QSettings.
saveSettings [fn] in ArtifactSettingsView — Saves all important settings of this view via QSettings.
saveSettings [fn] in AverageLayoutView — Saves all important settings of this view via QSettings.
saveSettings [fn] in AverageSelectionView — Saves all important settings of this view via QSettings.
saveSettings [fn] in AveragingSettingsView — Saves all important settings of this view via QSettings.
saveSettings [fn] in BidsView — Saves all important settings of this view via QSettings.
saveSettings [fn] in ButterflyView — Saves all important settings of this view via QSettings.
saveSettings [fn] in ChannelDataView — Saves all important settings of this view via QSettings.
saveSettings [fn] in ChannelSelectionView — Saves all important settings of this view via QSettings.
saveSettings [fn] in CompensatorView — Saves all important settings of this view via QSettings.
saveSettings [fn] in ConnectivitySettingsView — Saves all important settings of this view via QSettings.
saveSettings [fn] in Control3DView — Saves all important settings of this view via QSettings.
saveSettings [fn] in CoregSettingsView — Saves all important settings of this view via QSettings.
saveSettings [fn] in CovarianceSettingsView — Saves all important settings of this view via QSettings.
saveSettings [fn] in DipoleFitView — Saves all important settings of this view via QSettings.
saveSettings [fn] in FiffRawViewSettings — Saves all important settings of this view via QSettings.
saveSettings [fn] in FilterDesignView — Saves all important settings of this view via QSettings.
saveSettings [fn] in FilterSettingsView — Saves all important settings of this view via QSettings.
saveSettings [fn] in FwdSettingsView — Saves all important settings of this view via QSettings.
saveSettings [fn] in HpiSettingsView — Saves all important settings of this view via QSettings.
saveSettings [fn] in MinimumNormSettingsView — Saves all important settings of this view via QSettings.
saveSettings [fn] in ModalitySelectionView — Saves all important settings of this view via QSettings.
saveSettings [fn] in MultiView — Saves geometry and state of GUI dock widgets that have given a name with setObjectName().
saveSettings [fn] in ProgressView — Saves all important settings of this view via QSettings.
saveSettings [fn] in ProjectorsView — Saves all important settings of this view via QSettings.
saveSettings [fn] in ProjectSettingsView — Saves all important settings of this view via QSettings.
saveSettings [fn] in QuickControlView — Saves all important settings of this view via QSettings.
saveSettings [fn] in RtFiffRawView — Saves all important settings of this view via QSettings.
saveSettings [fn] in ScalingView — Saves all important settings of this view via QSettings.
saveSettings [fn] in SpectrumSettingsView — Saves all important settings of this view via QSettings.
saveSettings [fn] in SpectrumView — Saves all important settings of this view via QSettings.
saveSettings [fn] in SpharaSettingsView — Saves all important settings of this view via QSettings.
saveSettings [fn] in TfSettingsView — Saves all important settings of this view via QSettings.
saveSettings [fn] in TriggerDetectionView — Saves all important settings of this view via QSettings.
saveSnapshot [slot] in BrainView — Save a snapshot of the current view to a file.
scale [fn] in DigitizerTreeItem — Returns the rendering scale (sphere radius).
scale [fn] in MNEMshDisplaySurface — Scale a display surface's bounding box and all vertex positions.
scale [var] in MriSlice — Scaling factor for pixel data.
scale [fn] in SensorTreeItem
scale [fn] in SourceSpaceTreeItem — Returns the rendering scale.
scale_dipole_fit_noise_cov [fn] in InvDipoleFitData — Scale dipole-fit noise covariance for a given number of averages.
scale_eeg_pos [var] in ComputeFwdSettings — Scale the electrode locations to scalp in the sphere model.
scale_eeg_pos [var] in InvDipoleFitSettings — Scale the electrode locations to scalp in the sphere model.
scale_noise_cov [fn] in InvDipoleFitData — Scale the noise-covariance matrix for a given number of averages.
scale_pos [var] in FwdEegSphereModel — Scale the positions to the surface of the sphere?
scalebarsToggled [signal] in ChannelDataView
scalebarsVisible [fn] in ChannelDataView
scalebarsVisible [fn] in ChannelRhiView
ScaleControl [fn] in ScaleControl — Constructs a ScaleControl object who's Qlabel element will be set.
ScaleControl [fn] in ScaleControl — Constructs a ScaleControl object who's Qlabel element will be set, and sets the parent of the underlying QWidget.
ScaleControl [fn] in ScaleControl — Constructs a ScaleControl object who's Qlabel element will be set, and sets the parent of the underlying QWidget.
scales [var] in InvDipoleForward — Column normalization scales applied to fwd (3*ndip).
scalingChanged [signal] in ScalingView — Emit this signal whenever the scaling sliders or spin boxes changed.
scalingMap [fn] in ChannelDataView
ScalingView [fn] in ScalingView — Constructs a ScalingView which is a child of parent.
scanCorrelations [fn] in InvTrapMusic — Compute the MUSIC-type subspace correlation for all source locations.
scanNo [var] in FiffChInfo — Scanning order number.
scdc [fn] in GeometryInfo — scdc Calculates surface constrained distances on a mesh.
scdcInterpolationMat [fn] in GeometryInfo — scdcInterpolationMat Computes geodesic distances (SCDC) and builds the sparse interpolation matrix in a single pass, without allocating a dense nVertices x nSources distance table.
sceneCenter [fn] in CameraController
sceneColorChanged [signal] in Control3DView — Use this signal whenever the scene color was changed by the user.
sceneSize [fn] in CameraController
sceneUpdateRequested [signal] in AverageSceneItem — Signal to request a scene update.
schema [fn] in MnaOpRegistry — Get the schema for an operation type.
sChName [var] in ArtifactRejectionData
scissorH [var] in SceneData
scissorW [var] in SceneData
scissorX [var] in SceneData
scissorY [var] in SceneData
sColormap [var] in VisualizationInfo — The colormap.
sColormap [var] in VisualizationInfo — The colormap.
script [var] in MnaNode — Inline source code, interpreter, language.
script [var] in MnaVerificationCheck — Optional script for complex checks (exit code 0 = pass).
scrollPositionChanged [signal] in ChannelDataView — Emitted whenever the scroll position changes.
scrollRequested [signal] in OverviewBarWidget
scrollSample [fn] in ChannelRhiView
scrollSampleChanged [signal] in ChannelRhiView
scrollSpeedChanged [signal] in ChannelDataView
scrollSpeedFactor [fn] in ChannelDataView
scrollSpeedFactor [fn] in ChannelRhiView
scrollTo [fn] in ChannelRhiView — Smoothly animate the scroll position.
scrollToSample [fn] in ChannelDataView — Scroll to the given absolute sample index.
sDistMeasure [var] in RegionData — "cityblock" or "sqeuclidean".
sDistMeasure [var] in RegionMT — Distance metric: "cityblock" or "sqeuclidean".
SDPtr [type] in FiffCov — Shared data pointer type for FiffCov.
SDPtr [type] in FiffNamedMatrix — Shared data pointer type for FiffNamedMatrix.
secs [var] in FiffTime — GMT time in seconds since epoch.
sectionCount [fn] in Report — Get the number of sections.
seed [var] in SimulateStcParams — Random seed for reproducibility.
select [fn] in FiffAnnotations — Selects annotations whose description starts with the filter string.
select_dipole_fit_noise_cov [fn] in InvDipoleFitData — Select and weight the noise-covariance for the active channel set.
selectAll [fn] in ApplyToView — Selects all View Select checkboxes.
selectByChannel [fn] in FiffAnnotations — Selects annotations that reference the given channel name.
selectChannels [fn] in ChannelSelectionView — Select channels This function selects channels which were selected outside this selection manager (i.e in the DataWindow's Table View).
selectClear [fn] in ApplyToView — Clear all View Select checkboxes.
selectContact [fn] in ElectrodeObject — Select a contact by name.
selected [var] in ElectrodeContact — Whether the contact is selected/highlighted.
selectedBem [signal] in DipoleFitView — Set new Bem model.
selectedContact [fn] in ElectrodeObject
selectedItemChanged [signal] in BidsView — Sends the index of currently selected item to update saved current items.
selectedMeas [signal] in DipoleFitView — Set new measurement model.
selectedModelChanged [signal] in BidsView — Sends model in 'data' to be send via the event manager.
selectedMri [signal] in DipoleFitView — Set new Mri model.
selectedNoise [signal] in DipoleFitView — Set new Noise model.
selectedRegionId [fn] in BrainSurface
selectedVertexStart [fn] in BrainSurface
selectionChanged [signal] in ChannelSelectionView — emit this signal whenever the selection in the scene has changed
SelectionIO [fn] in SelectionIO — Constructs a Filter object.
SelectionItem [fn] in SelectionItem
SelectionItem [fn] in SelectionItem
SelectionScene [fn] in SelectionScene — Constructs a SelectionScene.
SelectionSceneItem [fn] in SelectionSceneItem — Constructs a SelectionSceneItem.
selectRows [fn] in EvokedSetModel — Selects the given list of channel indeces and unselect all other channels.
selectRows [fn] in FrequencySpectrumModel — Selects the given list of channel indeces and unselect all other channels.
selectRows [fn] in RtFiffRawViewModel — Selects the given list of channel indeces and unselect all other channels.
selectTris [fn] in FsLabel — Select tris for this label from a given surface file.
selectTris [fn] in FsLabel — Select tris for this label from a given tri matrix.
send [fn] in Command — Sender slot which emmits triggered signal.
sendCLICommand [fn] in RtCmdClient — Sends a command line formatted command to a connected mne_rt_server.
sendCommandJSON [fn] in RtCmdClient — Sends a command to a connected mne_rt_server.
sendMouseLoc [signal] in SpectrumView — Signals for sending the mouse location to the delegate.
sensEeg [var] in ViewVisibilityProfile
sensMeg [var] in ViewVisibilityProfile
sensMegGrad [var] in ViewVisibilityProfile
sensMegHelmet [var] in ViewVisibilityProfile
sensMegMag [var] in ViewVisibilityProfile
sensorFieldLoaded [signal] in BrainView — Emitted when sensor field data is loaded.
SensorFieldMapper [fn] in SensorFieldMapper — Construct an empty (unloaded) mapper.
sensorFieldTimePointChanged [signal] in BrainView — Emitted when the sensor field time point changes.
sensorFieldTimeRange [slot] in BrainView — Get the time range of the loaded sensor field (evoked) data.
SensorTreeItem [fn] in SensorTreeItem
separatorGeometries [fn] in MultiViewLayout — Compute the separator widget geometries.
separatorLinePx [fn] in MultiViewLayout
session [fn] in BIDSPath — Session label (without "ses-").
sessions [var] in MnaSubject — Sessions for this subject.
set [var] in FwdCompData — The compensation data set.
set_comp [fn] in MNECTFCompDataSet — Write the compensation grade into the upper 16 bits of coil_type for all MEG channels in the list.
set_compensation [fn] in MNECTFCompDataSet — Configure the full compensation pipeline: determine current compensation, build undo and target operators, and update channel coil types accordingly.
set_current_comp [fn] in FiffInfo — Set the current compensation value in the channel info structures.
set_current_comp [fn] in FiffInfo — mne_set_current_comp
set_current_comp [fn] in MNE — mne_set_current_comp
setAcquisition [fn] in BIDSPath — Set the acquisition label.
setActivationPerAverage [fn] in AverageScene — Set the activation per average map information.
setActive [fn] in NetworkEdge — Sets the activity flag of this edge.
setActive [fn] in NetworkEdge — Sets the activity flag of this edge.
setActiveSurface [slot] in BrainView — Set the active surface type to search for (e.g.
setAlpha [fn] in AbstractTreeItem
setAnnotationData [fn] in SurfaceTreeItem
setAnnotationInfoLeft [fn] in RtSourceDataController — Set annotation info for the left hemisphere.
setAnnotationInfoLeft [fn] in RtSourceInterpolationMatWorker — Set annotation info for the left hemisphere.
setAnnotationInfoRight [fn] in RtSourceDataController — Set annotation info for the right hemisphere.
setAnnotationInfoRight [fn] in RtSourceInterpolationMatWorker — Set annotation info for the right hemisphere.
setAnnotations [fn] in ChannelDataView — Set the list of annotation spans to display as translucent overlays.
setAnnotations [fn] in ChannelRhiView — Set the list of time-span annotations to overlay on the traces.
setAnnotations [fn] in OverviewBarWidget
setAnnotationSelectionEnabled [fn] in ChannelDataView — Enable or disable annotation span selection in the raw browser.
setAnnotationSelectionEnabled [fn] in ChannelRhiView — Enable or disable annotation range selection.
setAnnotationsVisible [fn] in ChannelDataView
setAnnotationsVisible [fn] in ChannelRhiView
setArrays [fn] in ElectrodeObject — Set electrode data from array definitions.
setArtifactReduction [fn] in RtAveraging — Sets the artifact reduction.
setArtifactReduction [fn] in RtAveragingWorker — Sets the artifact reduction.
setAutoCompute [signal] in AveragingSettingsView
setAverageActivation [fn] in AverageLayoutView — Set the average activations.
setAverageActivation [fn] in AverageSelectionView — Set the average activations.
setAverageActivation [fn] in ButterflyView — Set the average activations.
setAverageActivation [fn] in EvokedSetModel — Set the average activations.
setAverageColor [fn] in AverageLayoutView — Set the average colors.
setAverageColor [fn] in AverageSelectionView — Set the average colors.
setAverageColor [fn] in ButterflyView — Set the average colors.
setAverageColor [fn] in EvokedSetModel — Set the average colors.
setAverageNumber [fn] in RtAveraging — Sets the number of averages.
setAverageNumber [fn] in RtAveragingWorker — Sets the number of averages.
setAverages [fn] in RtSensorStreamManager — Set the number of averages for smoothing.
setAxisMirror [fn] in PolhemusCoregistration — Negate X and/or Y of incoming Polhemus positions.
setBackgroundColor [fn] in AverageLayoutView — Sets the background color of the scene.
setBackgroundColor [fn] in ButterflyView — Set the background color.
setBackgroundColor [fn] in ChannelDataView — Set the background colour of the rendering surface.
setBackgroundColor [fn] in ChannelRhiView — Background colour of the render surface.
setBackgroundColor [fn] in FiffRawViewSettings — Set current background color.
setBackgroundColor [fn] in RtFiffRawView — Broadcast the background color changes made in the QuickControl widget.
setBackgroundColor [fn] in RtFiffRawViewModel — Set the background color.
setBadChannels [fn] in RtSensorDataController — Set bad channels for the interpolation worker.
setBadChannels [fn] in RtSensorInterpolationMatWorker — Set the bad channels.
setBandwidth [fn] in FilterKernel
setBaselineActive [fn] in RtAveraging — Sets the baseline correction on or off.
setBaselineActive [fn] in RtAveragingWorker — Sets the baseline correction on or off.
setBaselineFrom [fn] in RtAveraging — Sets the from mSeconds of the baseline area.
setBaselineFrom [fn] in RtAveragingWorker — Sets the from mSeconds of the baseline area.
setBaselineTo [fn] in RtAveraging — Sets the to mSeconds of the baseline area.
setBaselineTo [fn] in RtAveragingWorker — Sets the to mSeconds of the baseline area.
setBemHighContrast [slot] in BrainView — Set whether BEM surfaces should use their standard (colorful) definition or white.
setBemShaderMode [slot] in BrainView — Set the shader mode for BEM surfaces (Standard, Holographic, Atlas).
setBemVisible [slot] in BrainView — Toggle visibility of a BEM surface layer.
setBoundaries [fn] in FrequencySpectrumModel — Set plotting boundaries.
setBoundaries [fn] in SpectrumSettingsView — Sets the sampling frequency as well as boundaries and configure the GUI elements accordingly.
setBoundaries [fn] in SpectrumView — Sets the boundaries.
setButterflyMode [fn] in ChannelDataView — Toggle butterfly mode (overlay all same-type channels).
setButterflyMode [fn] in ChannelLabelPanel — Enable or disable butterfly mode.
setButterflyMode [fn] in ChannelRhiView — Toggle butterfly mode: all channels of the same type are overlaid in a single lane.
setCameraFocusOverride [slot] in BrainView — Override the auto-computed scene center and size.
setCancelDistance [fn] in RtSourceDataController — Set the cancel distance for on-the-fly matrix computation.
setCancelDistance [fn] in RtSourceInterpolationMatWorker — Set the cancel distance used in SCDC distance calculations.
setCenterFrequency [fn] in FilterKernel
setChanged [signal] in DipoleFitView — Select set from measurement to use.
setChannelBad [fn] in ChannelDataModel — Mark/unmark a channel as bad.
setChannelFilter [fn] in ChannelDataView — Restrict the view to a named subset of channels.
setChannelIndices [fn] in ChannelLabelPanel — Restrict the panel to a subset of model channel indices.
setChannelIndices [fn] in ChannelRhiView — Restrict rendering to a specific subset of channel indices.
setChannelInfoModel [fn] in AverageLayoutView — Sets the channel info model.
setChannelInfoModel [fn] in ButterflyView — Set the channel info model.
setChannelType [fn] in FilterDesignView — Sets the current channel type which is to be filtered.
setChInfo [fn] in ArtifactSettingsView
setClientAlias [fn] in RtDataClient — Sets the alias of the data client.
setClippingVisible [fn] in ChannelDataView
setClippingVisible [fn] in ChannelRhiView
setClockTimeFormat [fn] in ChannelDataView — Set clock time format on the ruler.
setClockTimeFormat [fn] in ChannelRhiView — Set whether the crosshair label uses clock time (mm:ss.ms) or seconds.
setClockTimeFormat [fn] in TimeRulerWidget — Set whether to use clock time (HH:MM:SS) or float seconds for labels.
setClusteredInformation [fn] in FwdSettingsView — Updates clustered forward solution information.
setCoefficients [fn] in FilterKernel
setColor [fn] in AbstractTreeItem
setColorMap [fn] in ImageSc — Sets the color map to use, e.g.
setColorMap [fn] in Spline — setColorMap sets the color mapping on the histogram background
setColormap [fn] in NetworkObject — Set the colormap used for edge/node coloring.
setColormap [fn] in RtSensorStreamManager — Set the colormap used for colour mapping.
setColormap [fn] in SensorFieldMapper — Set the colormap name used when painting field values.
setColormap [fn] in SourceEstimateManager — Set the colormap used for source estimate visualisation.
setColormap [fn] in SourceEstimateOverlay — Set the colormap to use for visualization.
setColormapType [fn] in RtSensorDataController — Set the colormap type.
setColormapType [fn] in RtSensorDataWorker — Set the colormap type used for color conversion.
setColormapType [fn] in RtSourceDataController — Set the colormap type.
setColormapType [fn] in RtSourceDataWorker — Set the colormap type used for color conversion.
setColorPerAverage [fn] in AverageScene — Set the color per average map information.
setCompensators [fn] in CompensatorView — Set the current compensators.
setConfig [fn] in PythonRunner — Set the configuration.
setConnection [fn] in PolhemusCoregistration
setConnectivityMethod [fn] in Network — Sets the connectivity measure method used to create the data of this network structure.
setConnectivityMethod [fn] in Network — Sets the connectivity measure method used to create the data of this network structure.
setConnectivityMethods [fn] in ConnectivitySettings
setConnectivityMethods [fn] in ConnectivitySettings
setContactValues [fn] in ElectrodeObject — Apply per-contact scalar overlay values and map them to a color gradient.
setCrosshairEnabled [fn] in ChannelDataView — Enable or disable the crosshair cursor with coordinate readout.
setCrosshairEnabled [fn] in ChannelRhiView — Enable or disable the crosshair cursor overlay.
setCurrentLayoutFile [fn] in ChannelSelectionView — Sets the current layout file.
setCurrentlyMappedFiffChannels [fn] in ChannelSelectionView — Sets the currently mapped fiff channels.
setCurrentSamples [fn] in CovarianceSettingsView — Set current samples to gather until a new covariance is calculated.
setCurrentTimeSample [fn] in MultimodalScene — Set the current time index.
setData [fn] in Bar — Sets new data to the bar chart.
setData [fn] in Bar
setData [fn] in ChannelDataModel — Replace all stored data with the provided matrix (channels × samples).
setData [fn] in ChannelDataView — Replace all buffered data.
setData [fn] in ChannelInfoModel
setData [fn] in Spline — creates a spline histogram from 2 vectors: class limits and class frequency
setData [fn] in Spline
setDatatype [fn] in BIDSPath — Set the BIDS datatype (e.g.
setDecimals [fn] in ScaleControl — Set the number of decimals to show in the spinbox of the control.
setDefaultColor [fn] in AverageSceneItem — Sets the item color to the input parameter viewColor.
setDelegate [fn] in Control3DView — Set the delegate for the tree view.
setDescription [fn] in BIDSPath — Set the description label.
setDesignMethod [fn] in FilterKernel
setDetectedEpochs [fn] in AveragingSettingsView
setDetrendMode [fn] in ChannelDataModel
setDetrendMode [fn] in ChannelDataView — Set the detrending mode for on-the-fly trend removal during rendering.
setDipoleVisible [slot] in BrainView — Toggle visibility of dipoles.
setDistanceTimeSpacer [fn] in FiffRawViewSettings — Set current distance time spacer combo box.
setDistanceTimeSpacer [fn] in RtFiffRawView — distanceTimeSpacerChanged changes the distance of the time spacers
setDraggable [fn] in DraggableFramelessWidget — Set the draggable flag of this widget.
setEegSurface [fn] in RtSensorDataController — Set the EEG target surface geometry for on-the-fly mapping.
setEegSurface [fn] in RtSensorInterpolationMatWorker — Set the surface geometry used for EEG field mapping.
setELoretaOptions [fn] in InvMinimumNorm — Set eLORETA options.
setEnabled [fn] in VideoOverlay
setEpochMarkers [fn] in ChannelDataView
setEpochMarkers [fn] in ChannelRhiView
setEpochMarkersVisible [fn] in ChannelDataView
setEpochMarkersVisible [fn] in ChannelRhiView
setErrorLabels [fn] in HpiSettingsView — Updates the error related labels.
setEventCallbacks [fn] in RtFiffRawViewModel — Sets callbacks for adding and querying events.
setEvents [fn] in ChannelDataView — Set the list of event / stimulus markers to display as coloured vertical lines.
setEvents [fn] in ChannelRhiView — Set the list of stimulus / event markers to overlay on the traces.
setEvents [fn] in OverviewBarWidget
setEvents [fn] in TimeRulerWidget — Set the list of stimulus / event marks to display in the stim lane.
setEventsVisible [fn] in ChannelDataView
setEventsVisible [fn] in ChannelRhiView
setEvoked [fn] in RtSensorDataController — Set the evoked data that contains channel info and sensor definitions.
setEvoked [fn] in RtSensorInterpolationMatWorker — Set the evoked data that contains channel info and sensor definitions.
setEvoked [fn] in SensorFieldMapper — Set the evoked data that supplies measurements and channel info.
setEvokedSet [fn] in EvokedSetModel — Sets corresponding evoked set.
setEvokedSetModel [fn] in AverageLayoutView — Sets the evoked set model.
setEvokedSetModel [fn] in ButterflyView — Set the evoked set model.
setExtension [fn] in BIDSPath — Set the file extension including dot (e.g.
setFftCoefficients [fn] in FilterKernel
setFFTSize [fn] in ConnectivitySettings
setFFTSize [fn] in ConnectivitySettings
setFFTSize [fn] in Network — Set the new FFT size.
setFFTSize [fn] in Network — Set the new FFT size.
setFiducials [fn] in CoregSettingsView — Set the position of the fiducials.
setFiffInfo [fn] in AverageLayoutView — Stores FiffInfo to local variable to be used for getting channel info.
setFiffInfo [fn] in ChannelInfoModel — Updates the fiff info.
setFiffInfo [fn] in RtFiffRawViewModel — Sets corresponding fiff information.
setFileBounds [fn] in ChannelDataView — Set the absolute sample indices of the file's first and last samples.
setFilter [fn] in RtFiffRawView — Filter parameters changed.
setFilter [fn] in RtFiffRawViewModel — Set new filter parameters.
setFilterActive [fn] in RtFiffRawView — Filter avtivated.
setFilterActive [fn] in RtFiffRawViewModel — Set filter activation.
setFilterChannelType [fn] in RtFiffRawView — Sets the type of channel which are to be filtered.
setFilterChannelType [fn] in RtFiffRawViewModel — Sets the type of channel which are to be filtered.
setFilterOrder [fn] in FilterKernel
setFilterType [fn] in FilterKernel
setFirstFileSample [fn] in ChannelRhiView — Set the absolute sample index of the first sample in the file.
setFirstFileSample [fn] in OverviewBarWidget
setFirstFileSample [fn] in TimeRulerWidget — Set the absolute sample index of the left viewport edge (file-relative).
setFirstVisibleChannel [fn] in ChannelLabelPanel — Set the index of the first visible channel row (kept in sync with ChannelRhiView).
setFirstVisibleChannel [fn] in ChannelRhiView — Set the index of the first visible channel row.
setFlags [fn] in Control3DView — Set the flags specifying which part of the GUI should be shown.
setFocusPosition [fn] in VideoOverlay
setFrame [fn] in VideoOverlay — Push a new video frame; bumps the generation counter so the GPU re-uploads.
setFrequencyBand [fn] in ConnectivitySettingsView — Sets the frequency band.
setFrequencyBins [fn] in NetworkEdge — Sets the frequency bins to average from/to.
setFrequencyBins [fn] in NetworkEdge — Sets the frequency bins to average from/to.
setFrequencyRange [fn] in Network — Sets the frequency range to average from/to.
setFrequencyRange [fn] in Network — Sets the frequency range to average from/to.
setFrom [fn] in FilterDesignView — Sets filter 'From' value.
setFrozen [fn] in ChannelRhiView — Freeze or unfreeze drag-panning (mouse drag and inertia).
setFwdSolution [fn] in RtInvOp — Slot to receive incoming forward solution.
setGoFLabels [fn] in HpiSettingsView — Updates the gof related labels.
setGridVisible [fn] in ChannelRhiView — Show or hide the time and amplitude grid overlay.
setGuiMode [fn] in AbstractView — Sets the GUI of this view to a specific mode.
setHemi [fn] in BrainSurface — Set the hemisphere index.
setHemiVisible [slot] in BrainView — Toggle visibility of a hemisphere.
setHideBadChannels [fn] in ChannelLabelPanel — Show or hide bad-channel rows.
setHideBadChannels [fn] in ChannelRhiView — Show or hide waveform traces of channels marked bad.
setHighpassFreq [fn] in FilterKernel
setHorizontal [fn] in ProgressView — Sets message to appear next to loading bar.
setHpiDigitizer [fn] in RtHpi — Set the new projection matrix.
setHubStatus [fn] in NetworkNode — Sets the hub status of this node.
setHubStatus [fn] in NetworkNode — Sets the hub status of this node.
setInfo [fn] in FiffEvoked — Set a new fiff measurement info.
setInfo [fn] in FrequencySpectrumModel — Sets corresponding fiff info.
setInfoPanelVisible [slot] in BrainView — Show or hide the info panel (FPS, vertices, shader).
setInitialCameraRotation [fn] in BrainView — Set the initial camera rotation for this view.
setInterpolationFunction [fn] in RtSourceDataController — Set the interpolation function for on-the-fly matrix computation.
setInterpolationFunction [fn] in RtSourceInterpolationMatWorker — Set the interpolation function used for weight computation.
setInterpolationInfoLeft [fn] in RtSourceDataController — Set the surface and source geometry for the left hemisphere.
setInterpolationInfoLeft [fn] in RtSourceInterpolationMatWorker — Set the surface and source geometry for the left hemisphere.
setInterpolationInfoRight [fn] in RtSourceDataController — Set the surface and source geometry for the right hemisphere.
setInterpolationInfoRight [fn] in RtSourceInterpolationMatWorker — Set the surface and source geometry for the right hemisphere.
setInterpolationMatrix [fn] in SourceEstimateOverlay — Set the interpolation matrix directly (used by async loader).
setInterpolationMatrixLeft [fn] in RtSourceDataController — Set the interpolation matrix for the left hemisphere.
setInterpolationMatrixLeft [fn] in RtSourceDataWorker — Set the interpolation matrix for the left hemisphere.
setInterpolationMatrixRight [fn] in RtSourceDataController — Set the interpolation matrix for the right hemisphere.
setInterpolationMatrixRight [fn] in RtSourceDataWorker — Set the interpolation matrix for the right hemisphere.
setInterval [fn] in RtSensorStreamManager — Set the streaming playback interval in milliseconds.
setInterval [fn] in SourceEstimateManager — Set the streaming playback interval in milliseconds.
setLastFileSample [fn] in ChannelRhiView — Set the absolute sample index of the last sample in the file.
setLastFileSample [fn] in OverviewBarWidget
setLayerOpacity [fn] in MultimodalScene — Set per-layer opacity in [0, 1].
setLayerVisible [fn] in MultimodalScene — Toggle visibility of a layer.
setLightingEnabled [slot] in BrainView — Enable or disable lighting for the scene.
setLineCallback [fn] in PythonRunner — Set a callback invoked for every stdout/stderr line.
setLiveMarkers [slot] in BrainView — Replace the set of live overlay markers.
setLiveRay [slot] in BrainView — Set a semi-transparent ray cylinder between two world-space points.
setLoadingBarVisible [slot] in ProgressView — Sets whether loading bar is visible.
setLooping [fn] in RtSensorStreamManager — Enable or disable looping of the streaming queue.
setLooping [fn] in SourceEstimateManager — Enable or disable looping of the streaming queue.
setLoopState [fn] in RtSensorDataController — Enable or disable looping (replay data when queue is exhausted).
setLoopState [fn] in RtSensorDataWorker — Enable or disable looping (replay from beginning when queue is exhausted).
setLoopState [fn] in RtSourceDataController — Enable or disable looping (replay data when queue is exhausted).
setLoopState [fn] in RtSourceDataWorker — Enable or disable looping (replay from beginning when queue is exhausted).
setLowpassFreq [fn] in FilterKernel
setMagGradLink [fn] in ScalingView — Link the Magnetometers to the Gradiometers scale.
setMappingMatrix [fn] in RtSensorDataController — Set the dense mapping matrix (sensor → surface vertices).
setMappingMatrix [fn] in RtSensorDataWorker — Set the dense mapping matrix (sensor → surface vertices).
setMaxAllowedFilterTaps [fn] in FilterDesignView — Sets the max number of allowed filter taps.
setMaxSensitivityPoint [fn] in ScaleControl — Set the value of the maximum sensitivity point for the non-linear sensitivity curve of the sensor.
setMaxStoredSamples [fn] in ChannelDataModel — Set the maximum number of samples to keep in the ring buffer.
setMegFieldMapOnHead [slot] in BrainView — Choose MEG mapping surface (helmet or head).
setMegFieldMapOnHead [fn] in RtSensorDataController — Set whether the MEG field should be mapped onto the head (BEM) surface rather than the helmet surface.
setMegFieldMapOnHead [fn] in RtSensorInterpolationMatWorker — Set whether the MEG field should be mapped onto the head (BEM) surface rather than the helmet surface.
setMegFieldMapOnHead [fn] in SensorFieldMapper — Whether the MEG field should be mapped onto the head (BEM) surface rather than the helmet surface.
setMegHelmetOverride [slot] in BrainView — Override the auto-selected MEG helmet surface path.
setMegSurface [fn] in RtSensorDataController — Set the MEG target surface geometry for on-the-fly mapping.
setMegSurface [fn] in RtSensorInterpolationMatWorker — Set the surface geometry used for MEG field mapping.
setMessage [slot] in ProgressView — Dsiplays a new message below/beside the loading bar.
setMethod [fn] in InvMinimumNorm — Set minimum norm algorithm method ("MNE" | "dSPM" | "sLORETA" | "eLORETA").
setMethod [fn] in InvMinimumNorm — Set minimum norm algorithm method ("MNE" | "dSPM" | "sLORETA" | "eLORETA").
setMinSamples [fn] in CovarianceSettingsView — Set minimum number of samples to gather until a new covariance is calculated.
setModalityMap [fn] in ButterflyView — Set the modality checkboxes.
setModalityMap [fn] in ModalitySelectionView — Set the modality checkboxes.
setModel [fn] in BidsView — Sets the model to the tree view.
setModel [fn] in BrainView — Set the data model.
setModel [fn] in ChannelLabelPanel
setModel [fn] in ChannelRhiView — Attach the data model.
setModel [fn] in Control3DView — Init the control widget based on the 3D view and data model.
setModel [fn] in OverviewBarWidget
setModelCheckpoint [fn] in MinimumNormSettingsView — Sets the model checkpoint path shown in the read-only line edit.
setModelFiducial [fn] in PolhemusCoregistration
setModelParameters [fn] in RtHpi — Set the coil frequencies.
setModelVertex [fn] in PolhemusCoregistration
setMovementResults [fn] in HpiSettingsView — Updates the movement refered to last reference head position.
setName [fn] in FilterKernel
setNearestData [fn] in MNESurfaceOrVolume — Populate the nearest vector from separate index and distance arrays.
setNetworkColormap [slot] in BrainView — Set the colormap for connectivity network visualization.
setNetworkThreshold [slot] in BrainView — Set the threshold for connectivity network edge filtering.
setNetworkVisible [slot] in BrainView — Toggle visibility of connectivity network.
setno [var] in InvDipoleFitSettings — Which data set.
setNodePositions [fn] in ConnectivitySettings
setNodePositions [fn] in ConnectivitySettings
setNodePositions [fn] in ConnectivitySettings
setNodePositions [fn] in ConnectivitySettings
setNodePositions [fn] in ConnectivitySettings
setNodePositions [fn] in ConnectivitySettings
setNumberAverages [fn] in RtSensorDataController — Set the number of samples to average before emitting.
setNumberAverages [fn] in RtSensorDataWorker — Set the number of samples to average before emitting.
setNumberAverages [fn] in RtSourceDataController — Set the number of samples to average before emitting.
setNumberAverages [fn] in RtSourceDataWorker — Set the number of samples to average before emitting.
setNumberDetectedTriggersAndTypes [fn] in TriggerDetectionView — Set total number of detected triggers and trigger types.
setNumberTrials [fn] in ConnectivitySettingsView — Sets the new number of trials.
setObjectVisible [fn] in ViewVisibilityProfile — Set visibility of a named object.
setOmittedPoints [fn] in CoregSettingsView — Set the the number of omitted points.
setOpacity [fn] in SliceObject
setOpacity [fn] in VideoOverlay
setOpacityValue [fn] in QuickControlView — Sets the values of the opacity slider.
setOrientation [fn] in SensorTreeItem — Set the coil orientation matrix (3x3 rotation from coil_trans).
setOverlayThresholds [fn] in MultimodalScene — Set the shared (fmin, fmid, fmax) overlay thresholds used by the data-driven Overlay dock and the renderables it drives.
setOverviewBarVisible [fn] in ChannelDataView
setParam [fn] in MnaParamTree
setParksWidth [fn] in FilterKernel
setPenStation [fn] in PolhemusCoregistration
setPenTipOffset [fn] in PolhemusCoregistration
setPosition [fn] in AcquiredPoints
setPostStim [fn] in RtAveraging — Sets the number of post stimulus samples.
setPostStim [fn] in RtAveragingWorker — Sets the number of post stimulus samples.
setPrefetchFactor [fn] in ChannelRhiView — How many samples to prefetch beyond the visible window on each side (in multiples of the visible window).
setPreStim [fn] in RtAveraging — Sets the number of pre stimulus samples.
setPreStim [fn] in RtAveragingWorker — Sets the number of pre stimulus samples.
setProcessing [fn] in BIDSPath — Set the processing label.
setProcessingMode [fn] in AbstractView — Sets the GUI of this view to a specific mode.
setProgressCallback [fn] in MnaGraphExecutor — Set a progress callback invoked for each node execution.
setProgressCallback [fn] in PythonRunner — Set a callback invoked when a progress line is detected.
setProjectionMatrix [fn] in RtHpi — Set the new projection matrix.
setProjectors [fn] in ProjectorsView — Set the current projectors.
setRange [fn] in ScaleControl — Set the range of the Scalecontrol object.
setRealtimeInterval [slot] in BrainView — Set the streaming speed (interval between frames).
setRealtimeLooping [slot] in BrainView — Enable or disable looping for real-time streaming.
setRealtimeSensorAverages [slot] in BrainView — Set the number of averages for sensor streaming.
setRealtimeSensorColormap [slot] in BrainView — Set the colormap used for sensor streaming visualization.
setRealtimeSensorInterval [slot] in BrainView — Set the streaming speed for sensor streaming (interval between frames).
setRealtimeSensorLooping [slot] in BrainView — Enable or disable looping for real-time sensor streaming.
setRecomputationStatus [fn] in FwdSettingsView — Updates the clustering status (0 Initializing, 1 Computing, 2 Recomputing, 3 Clustering, 4 Not Computed, 5 Finished).
setRecording [fn] in BIDSPath — Set the recording label.
setRecordingElapsedTime [fn] in ProjectSettingsView — Sets elapsed time to input parameter.
setReferenceMarkers [fn] in ChannelDataView — Set the list of persistent sample/reference markers shown in the time ruler.
setReferenceMarkers [fn] in TimeRulerWidget — Set the list of persistent sample markers to display in the ruler.
setRegularization [fn] in InvMinimumNorm — Set regularization factor.
setRemoveDC [fn] in ChannelDataModel — Enable or disable DC (mean) removal applied on-the-fly during rendering.
setRemoveDC [fn] in ChannelDataView — Enable or disable DC (mean) removal applied at render time.
setRMSE [fn] in CoregSettingsView — Set the the Root-Mean-Square-Error (Digitizer-FsSurface) after icp.
setRoot [fn] in BIDSPath — Set the BIDS dataset root directory.
setRotation [fn] in CameraController — Set user rotation for single-view.
setRun [fn] in BIDSPath — Set the run index (will be zero-padded to 2 digits).
sets [var] in MNEMeasData — All loaded data-set epochs.
setSamplesPerPixel [fn] in ChannelRhiView — Set the horizontal zoom (samples per screen pixel).
setSamplesPerPixel [slot] in TimeRulerWidget — Update the horizontal zoom and trigger a repaint.
setSamplingFrequency [fn] in ConnectivitySettings
setSamplingFrequency [fn] in ConnectivitySettings
setSamplingFrequency [fn] in FilterKernel
setSamplingFrequency [fn] in Network — Set the new sampling frequency.
setSamplingFrequency [fn] in Network — Set the new sampling frequency.
setSamplingInfo [fn] in RtFiffRawViewModel — Sets the sampling information and calculates the resulting downsampling factor between actual sps and desired sps.
setSamplingRate [fn] in FilterDesignView — Sets the new samplingRate.
setSamplingRate [fn] in FilterSettingsView — Sets the sampling frequency and setups this view accrodingly.
setScalebarsVisible [fn] in ChannelDataView — Show or hide per-channel-type amplitude scalebars.
setScalebarsVisible [fn] in ChannelRhiView — Show or hide per-channel-type scalebars in the bottom-right corner.
setScaleMap [fn] in AverageLayoutView — Sets the scale map to scaleMap.
setScaleMap [fn] in AverageScene — Sets the scale map to scaleMap.
setScaleMap [fn] in ButterflyView — Sets the scale map to scaleMap.
setScaleMap [fn] in ChannelDataModel
setScaleMap [fn] in ScalingView — Set the current scaling map.
setScaleMapFromStrings [fn] in ChannelDataModel
setScaleType [fn] in FrequencySpectrumDelegate — Set scale type.
setScaleType [fn] in FrequencySpectrumModel — Sets Scale type.
setScaling [fn] in RtFiffRawViewModel — Set scaling channel scaling.
setScalingMap [fn] in ChannelDataView — Set the per-channel-type amplitude scale map.
setScalingMap [fn] in RtFiffRawView — Broadcast channel scaling.
setSceneCenter [fn] in CameraController — Set the scene center (centroid of visible objects).
setSceneSize [fn] in CameraController — Set the scene size (extent of visible objects).
setScrollSample [fn] in ChannelRhiView — Set the left-edge scroll position.
setScrollSample [slot] in TimeRulerWidget — Update the left-edge scroll position and trigger a repaint.
setScrollSpeedFactor [fn] in ChannelDataView
setScrollSpeedFactor [fn] in ChannelRhiView
setSelected [fn] in BrainSurface
setSelected [fn] in DipoleObject
setSelectedChannels [fn] in ButterflyView — Set the selected channels.
setSelectedRegion [fn] in BrainSurface — Set the selected region for highlighting.
setSelectedVertexRange [fn] in BrainSurface — Highlight a contiguous range of vertices (e.g.
setSensitivity [fn] in ScaleControl — Set the sensitivity value of the non-linear mapping between the control slider and the control value.
setSensorFieldColormap [slot] in BrainView — Set colormap for sensor field maps.
setSensorFieldContourVisible [slot] in BrainView — Set contour visibility for sensor field maps.
setSensorFieldTimePoint [slot] in BrainView — Set the time point for sensor field maps.
setSensorFieldVisible [slot] in BrainView — Set visibility for sensor field maps.
setSensorTransEnabled [slot] in BrainView — Set whether sensor transformations (if loaded) should be applied.
setSensorVisible [slot] in BrainView — Toggle visibility of sensor groups.
setSession [fn] in BIDSPath — Set the session label (without "ses-" prefix).
setSettingsPath [fn] in RtFiffRawView — Set the path where to store the settings of this widget via QSettings.
setSFreq [fn] in RtSensorDataController — Set the sampling frequency of the incoming data.
setSFreq [fn] in RtSensorDataWorker — Set the sampling frequency of the incoming data.
setSFreq [fn] in RtSourceDataController — Set the sampling frequency of the incoming data.
setSFreq [fn] in RtSourceDataWorker — Set the sampling frequency of the incoming data.
setSfreq [fn] in ChannelRhiView — Set the sampling frequency (Hz) used to place time-grid tick lines.
setSfreq [fn] in OverviewBarWidget
setSfreq [fn] in TimeRulerWidget — Set the file sampling frequency.
setShaderMode [slot] in BrainView — Set the shader mode (Standard, Holographic, Atlas).
setShaderMode [fn] in SurfaceTreeItem
setShape [fn] in InvVolumeSourceEstimate — Set the 3D grid shape (nx, ny, nz) for volume reshaping.
setSignalColor [fn] in ChannelDataModel — Set the signal line colour for all channels.
setSignalColor [fn] in ChannelDataView — Set the default signal line colour (used for channel types without a type-specific colour).
setSignalColor [fn] in FiffRawViewSettings — Set current signal color.
setSignalColor [fn] in RtFiffRawView — Set the signal color.
setSignalColor [fn] in RtFiffRawViewDelegate — Set the signal color.
setSignalItemColor [fn] in AverageScene — Sets the signal color for the items the scene holds.
setSingleAverageColor [fn] in AverageLayoutView — Sets the color used to draw the average to avgColor.
setSingleAverageColor [fn] in ButterflyView — Sets the color used to draw the average to avgColor.
setSizeMeters [fn] in VideoOverlay
setSlice [fn] in SliceObject — Set the slice image data and orientation.
setSolutionInformation [fn] in FwdSettingsView — Updates forward solution information.
setSourceColormap [slot] in BrainView — Set the colormap for source estimate visualization.
setSourceSpaceVisible [slot] in BrainView — Toggle visibility of source space points.
setSourceThresholds [slot] in BrainView — Set threshold values for source estimate visualization.
setSpace [fn] in BIDSPath — Set the space label.
setSplit [fn] in BIDSPath — Set the split index.
setSplitX [fn] in MultiViewLayout
setSplitY [fn] in MultiViewLayout
setStaticMarkers [slot] in BrainView — Replace the set of static overlay markers (fiducials, acquired points).
setStatus [fn] in CommandManager — Sets the activation status of the CommandManager.
setStcAttr [fn] in InvRapMusic — Sets the source estimate attributes.
setStcData [fn] in SourceEstimateOverlay — Set the source estimate data directly (used by async loader).
setStimChannels [fn] in AveragingSettingsView
setStreamingState [fn] in RtSensorDataController — Start or stop the streaming.
setStreamingState [fn] in RtSourceDataController — Start or stop the streaming.
setStreamSmoothedData [fn] in RtSensorDataController — Toggle between emitting per-vertex color data (smoothed) and raw sensor values.
setStreamSmoothedData [fn] in RtSensorDataWorker — Toggle between emitting per-vertex color data (smoothed) and raw sensor values.
setStreamSmoothedData [fn] in RtSourceDataController — Toggle between emitting interpolated color data (smoothed) and raw source values split by hemisphere.
setStreamSmoothedData [fn] in RtSourceDataWorker — Toggle between emitting interpolated color data (smoothed) and raw source values split by hemisphere.
setSubject [fn] in BIDSPath — Set the subject label (without "sub-" prefix).
setSuffix [fn] in BIDSPath — Set the filename suffix (e.g.
setSurfaceColor [fn] in RtSourceDataController — Set the base surface colors for both hemispheres.
setSurfaceColor [fn] in RtSourceDataWorker — Set the base surface colors for both hemispheres.
setSurfaceData [fn] in SurfaceTreeItem
setTask [fn] in BIDSPath — Set the task label.
setTextStyleSheet [fn] in ProgressView — Sets stylesheet parameters for the QLabels that display loading message.
setThreshold [fn] in Network — Sets the threshold of the network and updates the resulting active edges.
setThreshold [fn] in Network — Sets the threshold of the network and updates the resulting active edges.
setThreshold [fn] in NetworkObject — Update the threshold and regenerate visible edges/nodes.
setThreshold [fn] in Spline — setThreshold takes in QVector3D value and creates the corresponding lines in the histogram
setThresholdMap [fn] in ArtifactSettingsView
setThresholds [fn] in RtSensorDataController — Set explicit normalization thresholds for sensor data.
setThresholds [fn] in RtSensorDataWorker — Set explicit normalization thresholds instead of auto-normalization.
setThresholds [fn] in RtSourceDataController — Set the normalization thresholds.
setThresholds [fn] in RtSourceDataWorker — Set the threshold values for normalization.
setThresholds [fn] in SourceEstimateManager — Set source estimate thresholds.
setThresholds [fn] in SourceEstimateOverlay — Set threshold values for normalization.
setTimeCursor [fn] in MultimodalScene — Set the shared time cursor in seconds.
setTimeInterval [fn] in RtSensorDataController — Set the streaming interval (time between frames).
setTimeInterval [fn] in RtSourceDataController — Set the streaming interval (time between frames).
setTimePoint [slot] in BrainView — Set the current time point for source estimate visualization.
setTimePoint [fn] in SensorFieldMapper — Set the active time point index into the evoked data matrix.
setTimePoint [fn] in SourceEstimateManager — Set the current STC time-point and apply colours to matching surfaces.
settingsChanged [signal] in SpectrumSettingsView — Emitted whenever the settings changed and are ready to be retreived.
setTipOffsetEnabled [fn] in PolhemusCoregistration
setTissueType [fn] in BrainSurface — Set the tissue type (Brain, Skin, Skull, etc.).
setTitle [fn] in Graph — Sets the scaled image view title.
setTitle [fn] in LinePlot — Sets the plot title.
setTo [fn] in FilterDesignView — Sets filter 'To' value.
setTrackerStation [fn] in PolhemusCoregistration
setTrackerToDeviceOffset [fn] in PolhemusCoregistration — Set the rigid offset from the tracker sensor body frame to the device frame.
setTransform [fn] in AbstractTreeItem
setTransform [fn] in RtSensorDataController — Set the head-to-MRI coordinate transform for the interpolation worker.
setTransform [fn] in RtSensorInterpolationMatWorker — Set the head-to-MRI coordinate transform.
setTransParams [fn] in CoregSettingsView — Set the transformation received from the ICP algorithm.
setTriggerChIndx [fn] in RtAveraging — Sets the index of the trigger channel which is to be scanned fo triggers.
setTriggerChIndx [fn] in RtAveragingWorker — Sets the index of the trigger channel which is to be scanned fo triggers.
setTriggerTypes [fn] in ConnectivitySettingsView — Destroys the ConnectivitySettingsView.
setTriggerTypes [fn] in MinimumNormSettingsView — Destroys the MinimumNormSettingsView.
setTwinFiducial [fn] in AcquiredPoints
setUnits [fn] in FastrakParser — Configure the linear unit reported by the device.
setup_compensators [fn] in MNE
setup_current_lights [fn] in MNEMshDisplaySurfaceSet — Initialize the custom light set (if needed) and apply it as the active lighting configuration.
setup_curvature_colors [fn] in MNEMshDisplaySurface — Allocate and fill per-vertex color arrays using positive/negative curvature colors (if curvature overlay mode is on) or uniform gray.
setup_dipole_fit_data [fn] in InvDipoleFitData — Master setup: read all inputs and build a ready-to-use fit workspace.
setup_eeg_sphere_model [fn] in FwdEegSphereModel — Set up the desired sphere model for EEG.
setup_filter_bufs [fn] in MNERawData — Allocate filter output buffers spanning the entire raw data range (with taper overlap), initialize a ring buffer for filtered data, and create the filter response.
setup_forward_model [fn] in InvDipoleFitData — Set up the sphere-model and (optionally) BEM forward functions.
setup_lights [fn] in MNEMshDisplaySurfaceSet — Replace the current active lighting with a deep copy of the provided light set.
setup_read [fn] in FiffIO — Setup a FiffStream.
setup_read_raw [fn] in Fiff — fiff_setup_read_raw
setup_read_raw [fn] in FiffStream — fiff_setup_read_raw
setUpperItemIndex [fn] in RtFiffRawViewDelegate — Set the new upper item index color.
setUseDefaultColor [fn] in BrainSurface — Set/Get whether to use the default surface color.
setUsedFreqBins [fn] in Network — Set the new number of used frequency bins.
setUsedFreqBins [fn] in Network — Set the new number of used frequency bins.
setValid [fn] in BidsRawData — Marks the data as valid or invalid.
setValue [slot] in ScaleControl — Set the value of the control.
setVertical [fn] in ProgressView — Sets message to appear under the loading bar.
setVideoOverlayEnabled [slot] in BrainView — Enable or disable the generic live video overlay decal that is drawn on top of the head surface at the current focus position.
setVideoOverlayFocusPosition [slot] in BrainView — Set the world-space focus position (metres) of the overlay quad.
setVideoOverlayOpacity [slot] in BrainView — Set the overall opacity of the overlay [0..1].
setVideoOverlaySize [slot] in BrainView — Set the side length of the overlay quad (metres).
setViewCount [slot] in BrainView — Set the number of visible viewport panes (1–4).
setViewport [fn] in OverviewBarWidget
setViewportCameraPreset [slot] in BrainView — Set the camera preset for a specific viewport.
setViewportEnabled [slot] in BrainView — Enable or disable a specific viewport in multi-view mode.
setVirtualChannels [fn] in ChannelDataModel — Set extra browser-level virtual channels appended after the FIFF channels.
setVisible [fn] in AbstractTreeItem
setVisible [fn] in BrainSurface — Set the visibility of the surface.
setVisible [fn] in DipoleObject
setVisible [fn] in NetworkObject
setVisibleChannelCount [fn] in ChannelLabelPanel — Set how many channel rows are simultaneously visible (kept in sync with ChannelRhiView).
setVisibleChannelCount [fn] in ChannelRhiView — Set how many channel rows are displayed simultaneously.
setVisibleSampleRange [fn] in ChannelLabelPanel — Update the visible sample window used for the per-channel RMS level bar.
setVisiblityHideOpacityClose [fn] in QuickControlView — Sets the visibility of the hide/show and close button.
setVisualizationEditTarget [slot] in BrainView — Select which view's visualization settings are edited by UI controls.
setVisualizationInfo [fn] in Network — Set the current visualization info.
setVisualizationInfo [fn] in Network — Set the current visualization info.
setVisualizationMode [fn] in BrainSurface — Set the visualization mode (FsSurface, FsAnnotation, Scientific).
setVisualizationMode [slot] in BrainView — Set the overlay mode (FsSurface, FsAnnotation, Scientific).
setVisualizationType [fn] in RtSourceDataController — Set the visualization type (interpolation-based or annotation-based).
setVisualizationType [fn] in RtSourceInterpolationMatWorker — Set the visualization type.
setWeight [fn] in NetworkEdge — Set the averaged edge weight.
setWeight [fn] in NetworkEdge — Set the averaged edge weight.
setWheelScrollsChannels [fn] in ChannelRhiView — Control what the vertical mouse wheel scrolls.
setWidgetList [fn] in FiffRawViewSettings — Init the view.
setWindowLevel [fn] in SliceObject — Intensity windowing parameters for the fragment shader.
setWindowSize [fn] in ChannelDataView — Set the visible time window (in seconds).
setWindowSize [fn] in FiffRawViewSettings — Sets the values of the windowSize spin box.
setWindowSize [fn] in RtFiffRawView — Sets new time window size.
setWindowType [fn] in ConnectivitySettings
setWindowType [fn] in ConnectivitySettings
setXLabel [fn] in Graph — Sets the label of the y axes.
setXLabel [fn] in LinePlot — Sets the label of the x axis.
setYLabel [fn] in Graph — Sets the label of the y axes.
setYLabel [fn] in LinePlot — Sets the label of the y axis.
setZoom [fn] in CameraController — Single-view zoom level.
setZoom [fn] in ChannelDataView — Set the zoom factor (> 1 = zoom in, < 1 = zoom out relative to default).
setZoom [fn] in FiffRawViewSettings — Sets the values of the zoomFactor spin box.
setZoom [fn] in RtFiffRawView — Sets new zoom factor.
setZScoreMode [fn] in ChannelDataView
setZScoreMode [fn] in ChannelRhiView
severity [var] in MnaVerificationCheck — "error" (abort), "warning" (log + continue), "info" (always continue)
severity [var] in MnaVerificationResult — Echoed from the check definition.
sFilePathDigitzers [var] in HpiFitResult
sfreq [fn] in ChannelDataModel — Sampling frequency in Hz; 0 if no FiffInfo attached.
sfreq [var] in FiffInfo — Sample frequency.
sfreq [var] in MNEMeasData — Sampling frequency (Hz).
sfreq [var] in MNERawInfo — Sampling frequency.
sfreq [var] in SimulateStcParams — Sampling frequency (Hz).
sha256 [var] in MnaFileRef — SHA-256 hash of file contents.
ShaderMode [type] in BrainRenderer
shaderMode [fn] in SurfaceTreeItem
shaderModeChanged [signal] in BrainView — Emitted whenever the active brain shader mode changes — either via setShaderMode or after restoring persisted state in loadMultiViewSettings.
shaderModeForTarget [slot] in BrainView — Get configured shader mode name for a target view.
shaftColor [var] in ElectrodeArray — Depth only: shaft body color.
shaftIndexCount [fn] in ElectrodeObject
shaftRadius [var] in ElectrodeArray — Depth only: cylinder radius in mm.
shape [fn] in InvVolumeSourceEstimate — Get the 3D grid shape.
shape [fn] in MlTensor
shape [fn] in MlTensor
shortname [var] in MNEDeriv — Short nickname for this derivation.
shouldRenderSurface [fn] in SubView — True when the surface identified by key should be rendered according to this view's visibility profile.
show [var] in FiffDigitizerData — Whether the digitizer data should be shown.
show [var] in MNEEvent — Display flag (application-defined).
show_aux_data [var] in MNEMshDisplaySurface — Non-zero to show auxiliary data related to this surface.
show_minimal [var] in FiffDigitizerData — Show fiducials and coils only.
showAllChannels [fn] in ButterflyView — Shows all channels in view.
showAtlasDirDialog [fn] in FwdSettingsView — Shows atlas selection dialog.
showCoordAxis [signal] in Control3DView — Use this signal whenever the user wants to show the coordinate axis.
showFileNameUi [fn] in ProjectSettingsView — Shows file name ui elements.
showFullScreen [signal] in Control3DView — Use this signal whenever the user wants to use full screen mode.
showMultiView [slot] in BrainView — Switch to multi-view mode (four viewports: top, perspective, front, left).
ShowNormals [var] in BrainRenderer
showParadigmUi [fn] in ProjectSettingsView — Shows paradigm ui elements.
showSelectedChannels [fn] in ButterflyView — Shows selected channels based on a list of selected channel indices.
showSelectedChannelsOnly [fn] in ButterflyView — Only shows the channels defined in the QStringList selectedChannels.
showSelectedChannelsOnly [signal] in ChannelSelectionView — emit this signal whenever the user or group selection has changed
showSelectedChannelsOnly [fn] in RtFiffRawView — Only shows the channels defined in the QStringList selectedChannels.
showSingleView [slot] in BrainView — Switch to single-view mode (one viewport, interactive camera).
sidecarJsonPath [fn] in BIDSPath — Returns the path for the sidecar JSON metadata file (e.g.
sigma [var] in FwdBemModel — Conductivity of each layer (length nsurf).
sigma [var] in FwdEegSphereLayer — Conductivity.
sigma [var] in MNESurfaceOrVolume — Conductivity of a BEM compartment (-1 if not set).
signalColor [fn] in ChannelDataView
signalColorChanged [signal] in FiffRawViewSettings — Emit this signal whenever the user changed the signal color.
signalViewportRect [fn] in ChannelDataView — Returns the geometry of the actual QRHI signal viewport in ChannelDataView-local coordinates.
simplex_minimize [fn] in SimplexAlgorithm — mne_simplex_fit.c Refactored: mne_simplex_minimize
simplex_minimize [fn] in SimplexAlgorithm — Overload without report function (no reporting).
sing [var] in fitUserRec
sing [var] in InvDipoleForward — Singular values of the forward matrix (3*ndip).
sing [var] in MNEInverseOperator — Singular values of the whitened lead field.
size [var] in BidsElectrode — Electrode size in mm or "n/a" (RECOMMENDED for iEEG).
size [fn] in ConnectivitySettings
size [fn] in ConnectivitySettings
size [fn] in FiffAnnotations — Returns the number of annotations.
size [var] in FiffDataRef — Size of the data, can be over 2 GB.
size [fn] in FiffDigPointSet — Returns the number of stored FiffDigPoints.
size [var] in FiffDirEntry — How many bytes.
size [fn] in FineCalibration — Get the number of entries.
size [fn] in FsAnnotationSet — Returns number of loaded hemispheres.
size [fn] in FsSurfaceSet — Returns number of loaded hemispheres.
size [var] in FwdCoil — Coil size.
size [fn] in InvEcdSet — Returns the number of stored ECDs.
size [fn] in MlTensor
size [fn] in MNEBem — Returns the number of stored bem surfaces.
size [var] in MNEFilterDef — Length in samples (must be a power of 2).
size [fn] in MNESourceSpaces — Returns the number of stored hemispheres 0, 1 or 2.
sizeBytes [var] in MnaFileRef — File size in bytes.
sizeHint [fn] in ChannelLabelPanel
sizeHint [fn] in FrequencySpectrumDelegate — Item size.
sizeHint [fn] in OverviewBarWidget
sizeHint [fn] in RtFiffRawViewDelegate — Item size.
sizeHint [fn] in TimeRulerWidget
sizeMeters [fn] in VideoOverlay
sketch [var] in MNEMshDisplaySurface — Non-zero to use sketch mode with decimated triangulation.
sliceIndex [var] in MriSliceImage — Index along the slicing axis.
sliceIndex [fn] in SliceObject
SliceObject [fn] in SliceObject
sliceOrientation [var] in PickResult — MRI slice orientation index for MriVoxel (0 = axial, 1 = sagittal, 2 = coronal).
slices [var] in MriVolData — Per-slice data (for COR-equivalent representation).
sliceToRas [var] in MriSliceImage — 4x4 transform placing the slice in RAS space.
sliceToWorld [fn] in SliceObject
slotRect [fn] in MultiViewLayout — Compute the pixel rectangle for a layout slot.
sMethod [var] in VisualizationInfo — The color method: Map (uses sColormap parameter) or Color (uses colNodes and colEdges).
sMethod [var] in VisualizationInfo — The color method: Map (uses sColormap parameter) or Color (uses colNodes and colEdges).
SNR [var] in MNEMneData — Estimated power SNR as a function of time.
softwareVersions [var] in BidsRawData — Recording software versions (RECOMMENDED).
sol [var] in MNEForwardSolution — Forward solution.
sol_grad [var] in MNEForwardSolution — ToDo...
sol_name [var] in FwdBemModel — File from which the solution was loaded.
solid_angle [fn] in MNESurfaceOrVolume — Compute the solid angle subtended by a triangle as seen from a given point using van Oosterom's formula (scalar triple product of the edge vectors).
solname [var] in ComputeFwdSettings — Solution file.
solution [var] in FwdBemModel — Potential solution matrix (nsol x nsol).
solution [var] in FwdBemSolution — Solution matrix (ncoil x np).
solveOpticalCalibration [fn] in PolhemusCoregistration — Fit a 3D line through the focus points in tracker-local frame.
sort [fn] in Linalg — Sorts a vector (ascending order) in place and returns the track of the original indices.
sort [fn] in Linalg — Sorts a vector and a corresponding matrix in place and returns the track of the original indices.
sortChannelsByType [fn] in ChannelDataView
sortrows [fn] in Linalg — Sort rows in ascending order.
source_cov [var] in MNEInverseOperator — Source covariance matrix (depth + orientation weighting).
source_mult [var] in FwdBemModel — Infinite-medium potential multipliers (length nsurf).
source_nn [var] in MNEForwardSolution — Source normals (number depends on fixed or free orientation).
source_nn [var] in MNEInverseOperator — Source-normal vectors (nsource x 3, or nsource*3 x 3 for free).
source_ori [var] in MNEForwardSolution — Source orientation: fixed or free.
source_ori [var] in MNEInverseOperator — Source orientation constraint (FIFFV_MNE_FREE_ORI / FIXED_ORI).
source_rr [var] in MNEForwardSolution — Source locations.
sourceDataColumn [fn] in SourceEstimateOverlay — Get a single column of concatenated source data (LH + RH) at a given time index.
sourceEstimateLoaded [signal] in BrainView — Emitted when a source estimate is loaded.
SourceEstimateManager [fn] in SourceEstimateManager — Constructor.
SourceEstimateOverlay [fn] in SourceEstimateOverlay — Constructor.
sourceId [var] in PickResult — Source renderable identifier — opaque string assigned by the MultimodalScene when the renderable was added.
sourceIdx [var] in TrapMusicDipole — Index in the lead field grid.
SourceMorph [fn] in SourceMorph
sourceNn [var] in InvBeamformer — Source normals (n_sources, 3).
sourceNodeId [var] in MnaPort — Which node produces this input? (empty → graph-level input).
sourcePortName [var] in MnaPort — Which output port on that node?
sourceSpace [var] in ViewVisibilityProfile
SourceSpaceTreeItem [fn] in SourceSpaceTreeItem — Constructs a SourceSpaceTreeItem for a hemisphere.
sourceSpaceType [var] in InvSourceEstimate — Source space type (surface, volume, mixed, discrete).
sourceThresholdsUpdated [signal] in BrainView — Emitted when auto-thresholds are set from loaded source estimate data.
sourceUri [var] in MnaScript — Optional authoring-time reference (e.g.
space [fn] in BIDSPath — Space label.
sparse [var] in MNEMshPicked
spatialDispersion [fn] in StatsSourceMetrics — Spatial dispersion (amplitude-weighted mean distance from peak).
spatialSpread [fn] in InvResolutionMatrix — Compute spatial spread (peak-width) metric for each source.
SpecCalculated [signal] in RtNoise — Emitted when a new spectrum is available.
Spectral [fn] in Spectral — deleted default constructor (static class).
spectralMatrix [fn] in MvarModel — Computes the spectral matrix S(f) = H(f) * Sigma * H(f)^H.
spectralMatrix [fn] in MvarModel — Computes the spectral matrix S(f) = H(f) * Sigma * H(f)^H.
SpectrumSettingsView [fn] in SpectrumSettingsView — Constructs a SpectrumSettingsView which is a child of parent.
SpectrumView [fn] in SpectrumView — Constructs a SpectrumView which is a child of parent.
spharaActivationChanged [signal] in SpharaSettingsView — Emit this signal whenever the user toggled the SPHARA operator.
spharaOptionsChanged [signal] in SpharaSettingsView — Emit this signal whenever the user changes the SPHARA operator.
SpharaSettingsView [fn] in SpharaSettingsView — Constructs a SpharaSettingsView which is a child of parent.
Sphere [fn] in Sphere — Constructs the Sphere.
sphere_funcs [var] in InvDipoleFitData — These are the sphere model forward functions.
sphereChanged [signal] in DipoleFitView — Set new spherer model parameters.
sphereVertexCount [fn] in MeshFactory — Number of vertices in a subdivided icosahedron (for picking calculations).
Spline [fn] in Spline — The constructor for Spline.
split [fn] in BIDSPath — Split index.
split_name_list [fn] in Fiff — fiff_split_name_list
split_name_list [fn] in FiffStream — fiff_split_name_list
splitCoefficientAndExponent [fn] in Bar — splitCoefficientAndExponent takes in QVector value of coefficient and exponent and normalizes them.
splitCoefficientAndExponent [fn] in Spline — splitCoefficientAndExponent takes in QVector value of coefficient and exponent and normalizes them.
splitLabel [fn] in FsLabelUtils — Split a label into connected components.
splitSize [var] in ProcessingSettings — Split output into chunks of this many bytes (-1=no split).
splitX [fn] in MultiViewLayout
splitY [fn] in MultiViewLayout
SPtr [type] in AbstractMetric — Shared pointer type for AbstractMetric.
SPtr [type] in AbstractMetric — Shared pointer type for AbstractMetric.
SPtr [type] in AbstractView — Shared pointer type for AbstractView.
SPtr [type] in ArtifactSettingsView — Shared pointer type for AveragingAdjustmentWidget.
SPtr [type] in AverageLayoutView — Shared pointer type for AverageLayoutView.
SPtr [type] in AverageScene — Shared pointer type for AverageScene.
SPtr [type] in AverageSelectionView — Shared pointer type for AverageSelectionView.
SPtr [type] in AveragingSettingsView — Shared pointer type for AveragingAdjustmentWidget.
SPtr [type] in Bar — Shared pointer type for Bar class.
SPtr [type] in BIDSPath — Shared pointer type for BIDSPath.
SPtr [type] in BidsRawData
SPtr [type] in BidsTsv
SPtr [type] in BidsViewModel — Shared pointer type for BidsViewModel.
SPtr [type] in ButterflyView — Shared pointer type for ButterflyView.
SPtr [type] in ChannelDataModel
SPtr [type] in ChannelDataView
SPtr [type] in ChannelInfoModel — Shared pointer type for ChannelInfoModel.
SPtr [type] in ChannelSelectionView — Shared pointer type for ChannelSelectionView.
SPtr [type] in CircularBuffer — Shared pointer type for CircularBuffer.
SPtr [type] in Coherence — Shared pointer type for Coherence.
SPtr [type] in Coherence — Shared pointer type for Coherence.
SPtr [type] in Coherency — Shared pointer type for Coherency.
SPtr [type] in Coherency — Shared pointer type for Coherency.
SPtr [type] in ColorMap — Shared pointer type for ColorMap class.
SPtr [type] in Command
SPtr [type] in CompensatorView — Shared pointer type for CompensatorView.
SPtr [type] in Connectivity — Shared pointer type for Connectivity.
SPtr [type] in Connectivity — Shared pointer type for Connectivity.
SPtr [type] in ConnectivitySettings — Shared pointer type for ConnectivitySettings.
SPtr [type] in ConnectivitySettings — Shared pointer type for ConnectivitySettings.
SPtr [type] in ConnectivitySettingsView — Shared pointer type for ConnectivitySettingsView.
SPtr [type] in Control3DView — Shared pointer type for Control3DView.
SPtr [type] in CoregSettingsView — Shared pointer type for DISPLIB.
SPtr [type] in Correlation — Shared pointer type for Correlation.
SPtr [type] in Correlation — Shared pointer type for Correlation.
SPtr [type] in CovarianceSettingsView — Shared pointer type for CovarianceAdjustmentWidget.
SPtr [type] in CrossCorrelation — Shared pointer type for CrossCorrelation.
SPtr [type] in CrossCorrelation — Shared pointer type for CrossCorrelation.
SPtr [type] in DebiasedSquaredWeightedPhaseLagIndex — Shared pointer type for DebiasedSquaredWeightedPhaseLagIndex.
SPtr [type] in DebiasedSquaredWeightedPhaseLagIndex — Shared pointer type for DebiasedSquaredWeightedPhaseLagIndex.
SPtr [type] in DirectedTransferFunction — Shared pointer type for DirectedTransferFunction.
SPtr [type] in DirectedTransferFunction — Shared pointer type for DirectedTransferFunction.
SPtr [type] in DraggableFramelessWidget — Shared pointer type for DraggableFramelessWidget.
SPtr [type] in EvokedSetModel — Shared pointer type for EvokedSetModel.
SPtr [type] in FiffAnnotations — Shared pointer type.
SPtr [type] in FiffChInfo — Shared pointer type for FiffChInfo.
SPtr [type] in FiffChPos — Shared pointer type for FiffChPos.
SPtr [type] in FiffCoordTrans — Shared pointer type for FiffCoordTrans.
SPtr [type] in FiffCoordTransSet — Shared pointer type for FiffCoordTransSet.
SPtr [type] in FiffCov — Shared pointer type for FiffCov.
SPtr [type] in FiffCtfComp — Shared pointer type for FiffCtfComp.
SPtr [type] in FiffDigitizerData — Shared pointer type for FiffDigitizerData.
SPtr [type] in FiffDigPoint — Shared pointer type for FiffDigPoint.
SPtr [type] in FiffDigPointSet — Shared pointer type for FiffDigPointSet.
SPtr [type] in FiffDirEntry — Shared pointer type for FiffDirEntry.
SPtr [type] in FiffDirNode — Shared pointer type for FiffDirNode.
SPtr [type] in FiffEvoked — Shared pointer type for FiffEvoked.
SPtr [type] in FiffEvokedSet — Shared pointer type for FiffEvokedSet.
SPtr [type] in FiffId — Shared pointer type for FiffId.
SPtr [type] in FiffInfo — Shared pointer type for FiffInfo.
SPtr [type] in FiffInfoBase — Shared pointer type for FiffInfoBase.
SPtr [type] in FiffNamedMatrix — Shared pointer type for FiffNamedMatrix.
SPtr [type] in FiffProj — Shared pointer type for FiffProj.
SPtr [type] in FiffRawData — Shared pointer type for FiffRawData.
SPtr [type] in FiffRawDir — Shared pointer type for FiffRawDir.
SPtr [type] in FiffRawViewSettings — Shared pointer type for FiffRawViewSettings.
SPtr [type] in FiffSparseMatrix — Shared pointer type for FiffSparseMatrix.
SPtr [type] in FiffStream — Shared pointer type for FiffStream.
SPtr [type] in FiffTag — Shared pointer type for FiffTag.
SPtr [type] in FilterDesignView — Shared pointer type for FilterDesignView.
SPtr [type] in FilterIO — Shared pointer type for FilterIO.
SPtr [type] in FilterOverlapAdd — Shared pointer type for FilterOverlapAdd.
SPtr [type] in FilterPlotScene — Shared pointer type for FilterPlotScene class.
SPtr [type] in FilterSettingsView — Shared pointer type for FilterSettingsView.
SPtr [type] in FilterThreadArg — Shared pointer type for FilterThreadArg.
SPtr [type] in FrequencySpectrumModel — Shared pointer type for FrequencySpectrumModel.
SPtr [type] in FsAnnotation — Shared pointer type for FsAnnotation.
SPtr [type] in FsAnnotationSet — Shared pointer type for FsAnnotationSet.
SPtr [type] in FsColortable — Shared pointer type for FsColortable.
SPtr [type] in FsLabel — Shared pointer type for FsLabel class.
SPtr [type] in FsSurface — Shared pointer type for FsSurface class.
SPtr [type] in FsSurfaceSet — Shared pointer type for FsSurfaceSet class.
SPtr [type] in FwdCoilSet — Shared pointer type for FwdCoilSet.
SPtr [type] in GeometryInfo
SPtr [type] in GrangerCausality — Shared pointer type for GrangerCausality.
SPtr [type] in GrangerCausality — Shared pointer type for GrangerCausality.
SPtr [type] in Graph — Shared pointer type for Graph class.
SPtr [type] in ICommand — Shared pointer type for ICommand.
SPtr [type] in ImagCoherence — Shared pointer type for ImagCoherence.
SPtr [type] in ImagCoherence — Shared pointer type for ImagCoherence.
SPtr [type] in ImageSc — Shared pointer type for ImageSc class.
SPtr [type] in Interpolation
SPtr [type] in InvBeamformer
SPtr [type] in InvDipoleFit — Shared pointer type for InvDipoleFit.
SPtr [type] in InvDipoleFitData — Shared pointer type for InvDipoleFitData.
SPtr [type] in InvDipoleFitSettings — Shared pointer type for InvDipoleFitSettings.
SPtr [type] in InvDipoleForward — Shared pointer type for InvDipoleForward.
SPtr [type] in InvEcd — Shared pointer type for InvEcd.
SPtr [type] in InvEcdSet — Shared pointer type for InvEcdSet.
SPtr [type] in InvGuessData — Shared pointer type for InvGuessData.
SPtr [type] in InvHpiDataUpdater — Shared pointer type for InvHpiDataUpdater.
SPtr [type] in InvHpiFit — Shared pointer type for InvHpiFit.
SPtr [type] in InvHpiFitData — Shared pointer type for InvHpiFitData.
SPtr [type] in InvHpiModelParameters — Shared pointer type for InvHpiModelParameters.
SPtr [type] in InvMinimumNorm — Shared pointer type for InvMinimumNorm.
SPtr [type] in InvRapMusic — Shared pointer type for InvRapMusic.
SPtr [type] in InvSensorSet — Shared pointer type for InvSensorSet.
SPtr [type] in InvSensorSetCreator — Shared pointer type for InvSensorSet.
SPtr [type] in InvSignalModel — Shared pointer type for InvSignalModel.
SPtr [type] in InvSourceEstimate — Shared pointer type for InvSourceEstimate.
SPtr [type] in InvVectorSourceEstimate
SPtr [type] in InvVolumeSourceEstimate
SPtr [type] in IObserver — Shared pointer type for IObserver.
SPtr [type] in IOUtils — Shared pointer type for IOUtils class.
SPtr [type] in KMeans — Shared pointer type for KMeans.
SPtr [type] in LayoutLoader — Shared pointer type for LayoutLoader.
SPtr [type] in LinePlot — Shared pointer type for LinePlot.
SPtr [type] in MinimumNormSettingsView — Shared pointer type for MinimumNormSettingsView.
SPtr [type] in MlModel — Shared pointer type for MlModel.
SPtr [type] in MnaProject — Shared pointer type.
SPtr [type] in MNEBem — Shared pointer type for MNEBem.
SPtr [type] in MNEBemSurface — Shared pointer type for MNEBemSurface.
SPtr [type] in MNEClusterInfo — Shared pointer type for MNEClusterInfo.
SPtr [type] in MNECovMatrix — Shared pointer type for MNECovMatrix.
SPtr [type] in MNECTFCompData — Shared pointer type for MNECTFCompData.
SPtr [type] in MNECTFCompDataSet — Shared pointer type for MNECTFCompDataSet.
SPtr [type] in MNEDeriv — Shared pointer type for MNEDeriv.
SPtr [type] in MNEDerivSet — Shared pointer type for MNEDerivSet.
SPtr [type] in MNEEpochData — Shared pointer type for MNEEpochData.
SPtr [type] in MNEEpochDataList — Shared pointer type for MNEEpochDataList.
SPtr [type] in MNEForwardSolution — Shared pointer type for MNEForwardSolution.
SPtr [type] in MNEHemisphere — Shared pointer type for MNEHemisphere.
SPtr [type] in MNEInverseOperator — Shared pointer type for MNEInverseOperator.
SPtr [type] in MNEMeasData — Shared pointer type for MNEMeasData.
SPtr [type] in MNEMeasDataSet — Shared pointer type for MNEMeasDataSet.
SPtr [type] in MNEMghTag — Shared pointer type for MNEMghTag.
SPtr [type] in MNEMghTagGroup — Shared pointer type for MNEMghTagGroup.
SPtr [type] in MNEMneData — Shared pointer type for MNEMneData.
SPtr [type] in MNEMorphMap — Shared pointer type for MNEMorphMap.
SPtr [type] in MNEMshColorScaleDef — Shared pointer type for MNEMshColorScaleDef.
SPtr [type] in MNEMshDisplaySurface — Shared pointer type for MNEMshDisplaySurface.
SPtr [type] in MNEMshDisplaySurfaceSet — Shared pointer type for MNEMshDisplaySurfaceSet.
SPtr [type] in MNEMshEyes — Shared pointer type for MNEMshEyes.
SPtr [type] in MNEMshLight — Shared pointer type for MNEMshLight.
SPtr [type] in MNEMshLightSet — Shared pointer type for MNEMshLightSet.
SPtr [type] in MNEMshPicked — Shared pointer type for MNEMshPicked.
SPtr [type] in MNENamedMatrix — Shared pointer type for MNENamedMatrix.
SPtr [type] in MNENearest — Shared pointer type for MNENearest.
SPtr [type] in MNEOperator — Shared pointer type for MNEOperator.
SPtr [type] in MNEPatchInfo — Shared pointer type for MNEPatchInfo.
SPtr [type] in MNEProjData — Shared pointer type for MNEProjData.
SPtr [type] in MNEProjectToSurface — Shared pointer type for MNEProjectToSurface.
SPtr [type] in MNEProjItem — Shared pointer type for MNEProjItem.
SPtr [type] in MNEProjOp — Shared pointer type for MNEProjOp.
SPtr [type] in MNERawBufDef — Shared pointer type for MNERawBufDef.
SPtr [type] in MNERawData — Shared pointer type for MNERawData.
SPtr [type] in MNERawInfo — Shared pointer type for MNERawInfo.
SPtr [type] in MNESourceSpace — Shared pointer type for MNESourceSpace.
SPtr [type] in MNESourceSpaces — Shared pointer type for MNESourceSpaces.
SPtr [type] in MNESssData — Shared pointer type for MNESssData.
SPtr [type] in MNESurface — Shared pointer type for MNESurface.
SPtr [type] in MNESurfaceOrVolume — Shared pointer type for MNESurfaceOrVolume.
SPtr [type] in MNESurfacePatch — Shared pointer type for MNESurfacePatch.
SPtr [type] in MNETriangle — Shared pointer type for MNETriangle.
SPtr [type] in MNEVolGeom — Shared pointer type for MNEVolGeom.
SPtr [type] in ModalitySelectionView — Shared pointer type for ModalitySelectionView.
SPtr [type] in MultiView — Shared pointer type for MultiView.
SPtr [type] in MultiViewWindow — Shared pointer type for MultiViewWindow.
SPtr [type] in Network — Shared pointer type for Network.
SPtr [type] in Network — Shared pointer type for Network.
SPtr [type] in NetworkEdge — Shared pointer type for NetworkEdge.
SPtr [type] in NetworkEdge — Shared pointer type for NetworkEdge.
SPtr [type] in NetworkNode — Shared pointer type for NetworkNode.
SPtr [type] in NetworkNode — Shared pointer type for NetworkNode.
SPtr [type] in PartialDirectedCoherence — Shared pointer type for PartialDirectedCoherence.
SPtr [type] in PartialDirectedCoherence — Shared pointer type for PartialDirectedCoherence.
SPtr [type] in PhaseLagIndex — Shared pointer type for PhaseLagIndex.
SPtr [type] in PhaseLagIndex — Shared pointer type for PhaseLagIndex.
SPtr [type] in PhaseLockingValue — Shared pointer type for PhaseLockingValue.
SPtr [type] in PhaseLockingValue — Shared pointer type for PhaseLockingValue.
SPtr [type] in Plot — Shared pointer type for Plot class.
SPtr [type] in ProjectorsView — Shared pointer type for ProjectorsView.
SPtr [type] in QuickControlView — Shared pointer type for QuickControlView.
SPtr [type] in RtAveraging — Shared pointer type for RtAveraging.
SPtr [type] in RtClient — Shared pointer type for MNERtClient.
SPtr [type] in RtCmdClient — Shared pointer type for RtCmdClient.
SPtr [type] in RtConnectivity — Shared pointer type for RtConnectivity.
SPtr [type] in RtDataClient — Shared pointer type for RtDataClient.
SPtr [type] in RtFiffRawView — Shared pointer type for RtFiffRawView.
SPtr [type] in RtFiffRawViewDelegate — Shared pointer type for RtFiffRawViewDelegate.
SPtr [type] in RtFiffRawViewModel — Shared pointer type for RtFiffRawViewModel.
SPtr [type] in RtHpi — Shared pointer type for RtHpi.
SPtr [type] in RtInvOp — Shared pointer type for RtInvOp.
SPtr [type] in RtNoise — Shared pointer type for RtNoise.
SPtr [type] in ScalingView — Shared pointer type for ScalingView.
SPtr [type] in SelectionScene — Shared pointer type for SelectionScene.
SPtr [type] in SelectionSceneItem — Shared pointer type for SelectionSceneItem.
SPtr [type] in SpectrumSettingsView — Shared pointer type for SpectrumSettingsView.
SPtr [type] in SpectrumView — Shared pointer type for SpectrumView.
SPtr [type] in SpharaSettingsView — Shared pointer type for SpharaSettingsView.
SPtr [type] in Spline — Shared pointer type for Spline class.
SPtr [type] in Subject — Shared pointer type for Subject.
SPtr [type] in TFplot — Shared pointer type for TFplot class.
SPtr [type] in TfSettingsView — Shared pointer type for TfSettingsView.
SPtr [type] in TriggerDetectionView — Shared pointer type for TriggerDetectionView.
SPtr [type] in UnbiasedSquaredPhaseLagIndex — Shared pointer type for UnbiasedSquaredPhaseLagIndex.
SPtr [type] in UnbiasedSquaredPhaseLagIndex — Shared pointer type for UnbiasedSquaredPhaseLagIndex.
SPtr [type] in Warp — Shared pointer type for Warp.
SPtr [type] in WeightedPhaseLagIndex — Shared pointer type for WeightedPhaseLagIndex.
SPtr [type] in WeightedPhaseLagIndex — Shared pointer type for WeightedPhaseLagIndex.
square [fn] in Interpolation — square Negative parabola interpolation function with y-offset of 1.
src [var] in MNEForwardSolution — Geometric description of the source spaces (hemispheres).
src [var] in MNEInverseOperator — Source space (surfaces and/or volume).
srcname [var] in ComputeFwdSettings — Source space.
srcType [var] in InvBeamformer — "surface", "volume", "mixed", "discrete".
sspStatusChanged [signal] in HpiSettingsView — Emit this signal whenever SSP checkbox changed.
sss [var] in MNECovMatrix — SSS data from the associated raw data file.
sss [var] in MNERawData — SSS data found in this file.
Standard [var] in BrainRenderer
start [fn] in RtNoise — Starts the worker thread.
start_block [fn] in Fiff — fiff_start_block
start_block [fn] in FiffStream — Writes a FIFF_BLOCK_START tag.
start_file [fn] in Fiff — fiff_start_file
start_file [fn] in FiffStream — Opens a fiff file for writing and writes the compulsory header tags.
start_time [var] in MNERawInfo — Acquisition start time (from meas date or block id).
start_writing_raw [fn] in Fiff — fiff_start_writing_raw
start_writing_raw [fn] in FiffStream — fiff_start_writing_raw
startedAt [var] in MnaProvenance
startPivotCalibration [fn] in PolhemusCoregistration
startRealtimeSensorStreaming [slot] in BrainView — Start real-time sensor data streaming for the specified modality.
startRealtimeStreaming [slot] in BrainView — Start real-time source data streaming.
startSample [var] in AnnotationSpan — Absolute first sample covered by the annotation.
startStream [fn] in MnaGraphExecutor — Start stream-mode execution of a graph.
startStreaming [fn] in RtSensorStreamManager — Start real-time sensor streaming for the given modality.
startStreaming [fn] in SourceEstimateManager — Start real-time playback.
stat [var] in FilterThreadArg — Status code indicating whether filtering succeeded.
stat [var] in FwdThreadArg — Result status (OK or FAIL).
state [var] in MNEMshLight
station [var] in FastrakSample — 1-based station id reported by the device.
status [var] in BidsChannel — "good" or "bad" (OPTIONAL).
stc [var] in InvGammaMapResult
stc [var] in InvMxneResult
stc [var] in InvTfMxneResult — Sparse source estimate (time domain).
stcCmne [var] in InvCMNEResult — CMNE-corrected estimate.
stcDspm [var] in InvCMNEResult — Uncorrected dSPM estimate.
stcLh [fn] in StcLoadingWorker — Get the loaded left hemisphere source estimate.
stcLoadingProgress [signal] in BrainView — Emitted to report STC loading progress.
StcLoadingWorker [fn] in StcLoadingWorker — Constructor.
stcLstmPredict [var] in InvCMNEResult — Raw LSTM prediction (diagnostics).
stcNumTimePoints [slot] in BrainView — Get the number of time points in the loaded source estimate.
stcRh [fn] in StcLoadingWorker — Get the loaded right hemisphere source estimate.
stcStep [slot] in BrainView — Get the time step of the loaded source estimate.
stcStepAccum [var] in SubView
stcTmin [slot] in BrainView — Get the start time of the loaded source estimate.
stcToLabel [fn] in FsLabelUtils — Convert a source estimate to labels by thresholding.
stddev [fn] in DecodingCsp
stddev [fn] in DecodingSpoc
stdErr [var] in PythonRunnerResult — Complete captured standard error.
stdOut [var] in PythonRunnerResult — Complete captured standard output.
stim14 [var] in MNEMeasDataSet — Samples from the digital stimulus / trigger channel.
stop [fn] in RtAveraging — Stops the thread by interrupting its computation queue, quitting and waiting.
stop [fn] in RtClient — Stops the RtClient by stopping the producer's thread.
stop [fn] in RtConnectivity — Stops the thread by interrupting its computation queue, quitting and waiting.
stop [fn] in RtHpi — Stops the thread by interrupting its computation queue, quitting and waiting.
stop [fn] in RtInvOp — Stops the thread by interrupting its computation queue, quitting and waiting.
stop [fn] in RtNoise — Stops the worker thread.
stopAllStreaming [slot] in BrainView — Stop all active background streaming (source estimate + sensor).
stopRealtimeSensorStreaming [slot] in BrainView — Stop real-time sensor data streaming.
stopRealtimeStreaming [slot] in BrainView — Stop real-time source data streaming.
stopStream [fn] in MnaGraphExecutor — Stop a running stream.
stopStreaming [fn] in RtSensorStreamManager — Stop real-time sensor streaming.
stopStreaming [fn] in SourceEstimateManager — Stop real-time streaming.
storageSize [fn] in FiffChInfo — Size of the old struct (fiffChInfoRec) 20int + 16 = 204 + 16 = 96.
storageSize [fn] in FiffChPos — Size of the old struct (fiffChPosRec) 13int = 134 = 52.
storageSize [fn] in FiffCoordTrans — Size of the old struct (fiffCoordTransRec) 26int = 264 = 104.
storageSize [fn] in FiffDataRef — Size of the old struct (fiffDataRefRec) 2int + 2long = 24 + 28 = 24.
storageSize [fn] in FiffDigPoint — Size of the old struct (fiffDigPointRec) 5int = 54 = 20.
storageSize [fn] in FiffDirEntry — Size of the old struct (fiffDirEntryRec) 4int = 44 = 16.
storageSize [fn] in FiffId — Size of the old struct (fiffIdRec) 5int = 54 = 20.
storageSize [fn] in FiffTag — Size of the on-disk tag info header: kind + type + size + next = 4 x fiff_int_t.
storageSize [fn] in FiffTime — Size of the old struct (fiffTimeRec) 2int = 24 = 8.
storeHeadPosition [fn] in InvHpiFit — Store results from dev_Head_t as quaternions in position matrix.
storeTrans [signal] in CoregSettingsView — Emit this signal whenever the transformation should be stored.
stream [var] in MNERawData — Open FIFF stream for reading.
stream_info [fn] in stream_info — Default constructor.
stream_info [fn] in stream_info — Construct a new stream_info object.
stream_info [fn] in stream_info — Copy constructor.
stream_inlet [fn] in stream_inlet — Construct a new stream_inlet from a resolved stream_info.
stream_outlet [fn] in stream_outlet — Construct a stream_outlet for the given stream_info.
streamBufferMs [var] in MnaPort — Ring-buffer length in ms (0 = unbounded).
streamCommand [var] in PolhemusSerialConfig — Stream control command sent right after opening the port.
streamData [slot] in RtSensorDataWorker — Stream one frame of data.
streamData [slot] in RtSourceDataWorker — Stream one frame of data.
streamEndpoint [var] in MnaPort — Protocol-specific address (e.g. "localhost:4218" for fiff-rt).
streamName [fn] in FiffStream — Get the stream name.
streamProtocol [var] in MnaPort — "fiff-rt", "lsl", "ftbuffer", "shm", "" = internal signal/slot
struct_names [var] in FsColortable — Anatomical ROI description.
StyleMode [enum] in AbstractView
subj [var] in MNEMshDisplaySurface — Subject name in SUBJECTS_DIR.
subj [var] in MNEMshDisplaySurfaceSet — The name of the subject.
subject [fn] in BIDSPath — Subject label (without "sub-").
subject [var] in InvBeamformer — Subject identifier.
subject [var] in MNESurfaceOrVolume — Name (id) of the subject.
subjects [var] in MnaProject — Subjects in the project.
subtractBaseline [fn] in FiffEvokedSet — Subtract baseline from each channel of an epoch.
success [var] in PythonRunnerResult — True when process exited with code 0.
suffix [fn] in BIDSPath — Filename suffix.
sum_solids [fn] in MNESurface — Sum the solid angles of all triangles as seen from a given point.
sumd [var] in RegionDataOut — Sums of the distances to the centroid.
sumd [var] in RegionMTOut — Sum of distances to the assigned centroid.
supportsExtension [fn] in AbstractFormatReader — Check whether this reader can handle the given file extension.
supportsExtension [fn] in BrainVisionReader — Check whether this reader can handle the given file extension.
supportsExtension [fn] in EDFReader — Check whether this reader can handle the given file extension.
surf [var] in FilterThreadArg — Non-owning reference to the inner skull BEM surface (caller holds QSharedPointer).
surf [fn] in FsSurface — Loaded surface (eg.
surf [fn] in FsSurfaceSet — The kind of Surfaces which are held by the FsSurfaceSet (eg.
surf_name [var] in FwdBemModel — File from which surfaces were loaded.
surf_name [var] in MNEMshDisplaySurface — Name of the surface (e.g., "inflated", "white").
surf_ori [var] in MNEForwardSolution — If surface oriented.
surf_RAS_RAS_t [var] in FiffCoordTransSet — Transform from surface RAS to RAS (nonzero origin) coordinates.
surf_tri [var] in MNESurfacePatch — Map from complete-surface triangle index to patch triangle index (-1 if absent).
surf_vert [var] in MNESurfacePatch — Map from complete-surface vertex index to patch vertex index (-1 if absent).
surfaceData [fn] in SurfaceTreeItem
surfaceId [var] in VertexData
surfaceKey [var] in PickResult — FsSurface map key of the hit surface.
surfacePointClicked [signal] in BrainView — Emitted on left-click when the click hits a surface.
surfacePointDoubleClicked [signal] in BrainView — Emitted on double-click when the click hits a surface.
SurfaceRole [enum] in SurfaceTreeItem
SurfaceTreeItem [fn] in SurfaceTreeItem
surfaceType [var] in SubView
surfs [var] in FwdBemModel — Interface surfaces, outermost first.
surfs [var] in MNEMshDisplaySurfaceSet — Array of display surfaces (owned).
symMatPow [fn] in InvBeamformerCompute — Symmetric matrix power: X^p via eigendecomposition.
syncBemShadersToBrainShaders [slot] in BrainView — Synchronize all BEM shader targets to their respective brain shader targets.
System [enum] in StandardMontage — Supported standard montage systems.
system [var] in BidsCoordinateSystem — e.g.

T

t [var] in VelocitySample
t_Observers [type] in Subject — Defines a new IObserver set type.
table [var] in FsColortable — labels and corresponing colorcode.
tag [var] in MNEMghTag — Tag identifier code.
tags [var] in MNEMghTagGroup — Owned tag entries.
takeScreenshot [fn] in AverageLayoutView — Renders a screenshot of the scene and saves it to the passed path.
takeScreenshot [fn] in ButterflyView — Renders a screenshot of the view and saves it to the passed path.
takeScreenshot [fn] in RtFiffRawView — Renders a screenshot of the view and saves it to the passed path.
takeScreenshotChanged [signal] in Control3DView — Use this signal whenever the take screenshot button was clicked by the user.
talairachXfmPath [var] in MriVolData — Path to the Talairach .xfm file (from MGH footer tags).
taper_size [var] in MNEFilterDef — How long a taper in the beginning and end.
taperSize [var] in FilterSettings — Taper size.
targetPath [var] in MnaParamBinding — Parameter to control: "nodeId/attrKey".
task [fn] in BIDSPath — Task label.
taskDescription [var] in BidsRawData — Task description (OPTIONAL).
taskType [fn] in MlModel
taskType [fn] in MlOnnxModel
tc_mult [var] in MNEMshColorScaleDef
tCdf [fn] in StatsTtest — Compute the CDF of the t-distribution using the regularized incomplete beta function.
TE [var] in MriVolData — Echo time (ms).
testDataPath [fn] in PythonTestHelper — Get the standard path to mne-cpp-test-data from the test binary location.
text [var] in FiffExplainEntry
text_color [var] in MNEMshDisplaySurfaceSet — Text color (RGB).
tfce [fn] in StatsCluster — Threshold-Free Cluster Enhancement (TFCE).
tfCoefficients [var] in InvTfMxneResult — Time-frequency coefficients of active sources (n_active*n_freqs × n_times).
TFplot [fn] in TFplot — Constructs TFplot class.
TFplot [fn] in TFplot — Constructs TFplot class.
tfrData [var] in MultitaperTfrResult — One matrix per channel, each: n_freqs × n_times.
TfSettingsView [fn] in TfSettingsView — Constructs a TfSettingsView which is a child of parent.
thresholdMax [fn] in SourceEstimateOverlay
thresholdMid [fn] in SourceEstimateOverlay
thresholdMin [fn] in SourceEstimateOverlay — Get the current threshold values.
thresholdsUpdated [signal] in SourceEstimateManager — Emitted when thresholds are auto-computed from data.
TI [var] in MriVolData — Inversion time (ms).
time [var] in FiffId — Time of the ID creation.
time [var] in InvEcd — Time point.
time_loaded [var] in MNEMshDisplaySurface — Timestamp when the surface was loaded.
timeAtIndex [fn] in SourceEstimateOverlay — Get the time value at a given index.
timeChanged [signal] in DipoleFitView — Send new time values.
timeCursor [fn] in MultimodalScene
timeCursorChanged [signal] in MultimodalScene — Emitted when the shared time cursor (seconds) changes.
timedOut [var] in PythonRunnerResult — True if the timeout was reached.
timeoutMsec [var] in PythonRunnerConfig — Wall-clock timeout (-1 = no limit).
timePoint [fn] in SensorFieldMapper
timePointChanged [signal] in BrainView — Emitted when the time point changes.
timePointChanged [signal] in MinimumNormSettingsView — Emit signal whenever the time point changed.
timePointChanged [signal] in SourceEstimateManager — Emitted when the active time point changes.
timerChanged [signal] in ProjectSettingsView
TimeRulerWidget [fn] in TimeRulerWidget
times [var] in FiffEvoked — Vector of time instants in seconds.
times [var] in InvSourceEstimate — The time vector with n_times steps.
timeSample [var] in PickResult — Time index for time-varying overlays (-1 = not time-resolved).
timeSampleChanged [signal] in MultimodalScene — Emitted when the shared time index changes.
timeWindowChanged [signal] in FiffRawViewSettings — Emit this signal whenever the user changes the window size.
tipOffsetEnabled [fn] in PolhemusCoregistration
TissueType [enum] in BrainSurface
tissueType [fn] in BrainSurface — Get the tissue type.
title [fn] in Report — Get the report title.
title [var] in ReportSection
tmax [var] in AverageCategory — Maximum time (s).
tmax [var] in CovDefinition — Maximum time (s).
tmax [var] in FiffEpochData — End time of this epoch in seconds.
tmax [var] in InvConnectivity — End of the time window (s) this connectivity represents.
tmax [var] in InvDipoleFitSettings — Fit end time (s).
tmax [var] in InvFocalDipole — End of the time window (s) this dipole represents.
tmax [var] in InvSourceCoupling — End of the time window (s) this coupling represents.
tmax [var] in MNEEpochData — New end time of the data (cannot exceed data duration).
tmin [var] in AverageCategory — Minimum time (s).
tmin [var] in CovDefinition — Minimum time (s).
tmin [var] in FiffEpochData — Start time of this epoch in seconds.
tmin [var] in InvConnectivity — Start of the time window (s) this connectivity represents.
tmin [var] in InvDipoleFitSettings — Fit start time (s).
tmin [var] in InvFocalDipole — Start of the time window (s) this dipole represents.
tmin [var] in InvSourceCoupling — Start of the time window (s) this coupling represents.
tmin [var] in InvSourceEstimate — Time starting point.
tmin [var] in MNEEpochData — New start time (must be >= 0).
tmin [var] in MNEMeasDataSet — Start time of the epoch (seconds).
tmin [var] in SimulateStcParams — Start time (seconds).
tmin [fn] in SourceEstimateManager
tmin [fn] in SourceEstimateOverlay — Get the minimum time value.
to [var] in FiffCoordTrans — Destination coordinate system.
to [var] in MNEEvent — Destination transition value.
to_fixed_ori [fn] in MNEForwardSolution — Helper to convert the forward solution to fixed ori from free.
toByte [fn] in FiffTag — to Byte Fast access; Data are deleted if tag gets deleted, and vice versa
toCbor [fn] in MnaFileRef — Serialize to QCborMap.
toCbor [fn] in MnaGraph
toCbor [fn] in MnaNode
toCbor [fn] in MnaParamBinding
toCbor [fn] in MnaPort
toCbor [fn] in MnaProject — Serialize to QCborMap.
toCbor [fn] in MnaProvenance
toCbor [fn] in MnaRecording — Serialize to QCborMap.
toCbor [fn] in MnaScript
toCbor [fn] in MnaSession — Serialize to QCborMap.
toCbor [fn] in MnaSubject — Serialize to QCborMap.
toCbor [fn] in MnaVerification
toCbor [fn] in MnaVerificationCheck
toCbor [fn] in MnaVerificationResult
toChInfo [fn] in FiffTag — to fiff CH INFO
toCoordTrans [fn] in FiffTag — to fiff COORD TRANS
toDauPack16 [fn] in FiffTag — to DauPack16 Fast access; Data are deleted if tag gets deleted, and vice versa
toDigPoint [fn] in FiffTag — to fiff DIG POINT
toDirEntry [fn] in FiffTag — to fiff OLD PACK
toDouble [fn] in FiffTag — to Double Fast access; Data are deleted if tag gets deleted, and vice versa
toEigenSparse [fn] in FiffSparseMatrix — Convert to Eigen::SparseMatrix<double> (cast from float).
toFiffChInfo [fn] in BrainVisionChannelInfo
toFiffChInfo [fn] in EDFChannelInfo
toFiffCoordTrans [fn] in BidsCoordinateSystem — Convert parsed transform to a FiffCoordTrans.
toFiffDigPoints [fn] in BidsElectrode — Convert a list of BIDS electrodes to a FIFF digitizer point set.
toFiffID [fn] in FiffTag — to fiff ID
toFiffRawData [fn] in AbstractFormatReader — Convert the entire dataset to a FiffRawData structure.
toFiffRawData [fn] in BrainVisionReader — Convert the entire dataset to a FiffRawData structure.
toFiffRawData [fn] in EDFReader — Convert the entire dataset to a FiffRawData structure.
toFloat [fn] in FiffTag — to Float Fast access; Data are deleted if tag gets deleted, and vice versa
toFloatMatrix [fn] in FiffTag — to fiff FIFFT FLOAT MATRIX
toggleFreeze [fn] in EvokedSetModel — Toggle freeze for all channels when a channel is double clicked.
toggleFreeze [fn] in FrequencySpectrumModel — Toggle freeze for all channels when a channel is double clicked.
toggleFreeze [fn] in RtFiffRawViewModel — Toggle freeze for all channels when a channel is double clicked.
toggleMutiview [signal] in Control3DView — Notifies the 'Multiview' radio button has been checked.
toggleSingleView [signal] in Control3DView — Notifies the 'Single View' radio button has been checked.
toggleTimeFormat [fn] in ChannelDataView — Toggle time format between float seconds and HH:MM:SS clock time.
toggleTimeFormat [fn] in TimeRulerWidget — Toggle the time format between float seconds and HH:MM:SS clock time.
toHtml [fn] in Report — Generate the full HTML string.
toInt [fn] in FiffTag — to Int Fast access; Data are deleted if tag gets deleted, and vice versa
toIntMatrix [fn] in FiffTag — to fiff FIFFT INT MATRIX
toJson [fn] in MnaFileRef — Serialize to QJsonObject.
toJson [fn] in MnaGraph
toJson [fn] in MnaNode
toJson [fn] in MnaParamBinding
toJson [fn] in MnaParamTree
toJson [fn] in MnaPort
toJson [fn] in MnaProject — Serialize to QJsonObject.
toJson [fn] in MnaProvenance
toJson [fn] in MnaRecording — Serialize to QJsonObject.
toJson [fn] in MnaScript
toJson [fn] in MnaSession — Serialize to QJsonObject.
toJson [fn] in MnaSubject — Serialize to QJsonObject.
toJson [fn] in MnaVerification
toJson [fn] in MnaVerificationCheck
toJson [fn] in MnaVerificationResult
toJsonObject [fn] in Command — Creates a JSON Command Object.
toJulian [fn] in FiffTag — to Julian Fast access; Data are deleted if tag gets deleted, and vice versa
toLabels [fn] in FsAnnotation — python labels_from_parc
toLabels [fn] in FsAnnotationSet — python labels_from_parc
toMachidString [fn] in FiffId — Returns the machine ID as a human-readable string.
toMatrixList [fn] in FiffEpochs — Extract data matrices from epoch structures.
toMatrixXd [fn] in MlTensor
toMatrixXf [fn] in MlTensor
toolVersion [var] in MnaNode — Version of tool that last executed this node.
topologicalSort [fn] in MnaGraph
toShort [fn] in FiffTag — to Short Fast access; Data are deleted if tag gets deleted, and vice versa
toSparseFloatMatrix [fn] in FiffTag — to sparse fiff FIFFT FLOAT MATRIX
toString [fn] in FiffId — Returns a human-readable string representation of this ID.
toString [fn] in FiffTag — to String
toStringList [fn] in Command — Creates a StringList with three items.
toStringReadySend [fn] in Command — Creates a string JSON formatted ready send command.
tot_area [var] in MNESurfaceOrVolume — Total area of the surface, computed from the triangles (m^2).
totalContactCount [fn] in ElectrodeObject
totalLogicalChannels [fn] in ChannelRhiView — Total number of logical channels available for scrolling (respects active filter).
totalPointCount [fn] in DigitizerSetTreeItem — Returns the total number of digitizer points across all categories.
totalSamples [fn] in ChannelDataModel
toUnsignedInt [fn] in FiffTag — to Int Fast access; Data are deleted if tag gets deleted, and vice versa
toUnsignedShort [fn] in FiffTag — to unsigned Short Fast access; Data are deleted if tag gets deleted, and vice versa
toVector [fn] in FiffAnnotations — Returns a const reference to the underlying vector.
toVolume [fn] in InvVolumeSourceEstimate — Extract a 3D volume for a given time point, filling the grid with zeros where no source is active.
TPassType [enum] in CosineFilter
TPassType [enum] in ParksMcClellan
TR [var] in MriVolData — Repetition time (ms).
tra [fn] in InvSensorSet
tra [fn] in InvSensorSet
trackerOri [var] in OpticalCalibSample — Tracker orientation in world frame.
trackerPos [var] in OpticalCalibSample — Tracker position in world frame (metres).
trackerStation [fn] in PolhemusCoregistration
trackerToDeviceRotation [fn] in PolhemusCoregistration
trackerToDeviceTranslation [fn] in PolhemusCoregistration
trainLstm [fn] in InvCMNE — Train the CMNE LSTM model by invoking the Python training script.
trans [var] in FiffCoordTrans — The forward transform.
trans [var] in MNEMshDisplaySurface — Extra 4x4 transformation matrix for this surface.
trans [var] in MNERawInfo — Coordinate transformation FIFF_COORD_HEAD <-> FIFF_COORD_DEVICE.
trans [var] in MriSlice — Coordinate transform: slice -> MRI (surface RAS).
transducerType [var] in EDFChannelInfo
transferFunction [fn] in MvarModel — Computes the transfer function H(f) at the given normalized frequencies.
transferFunction [fn] in MvarModel — Computes the transfer function H(f) at the given normalized frequencies.
transform [fn] in AbstractTreeItem
transform [var] in BidsCoordinateSystem — 4x4 affine transform (identity if not provided).
transform [fn] in BrainSurface — Apply a generic 4x4 transformation matrix to all vertices and normals.
transform [fn] in DecodingCsp — Transform epoch data using the fitted CSP filters.
transform [fn] in DecodingSpoc — Transform epoch data using the fitted SPoC filters.
transform [fn] in DecodingSsd — Apply spatial filters to data.
transform [fn] in MNEBem — Transform the Bem.
transform_hemisphere_to [fn] in MNEHemisphere — mne_transform_source_space_to
transform_source_space [fn] in MNESourceSpace — Transform this source space into another coordinate frame.
transform_source_space_to [fn] in MNE — mne_transform_source_space_to
transform_source_space_to [fn] in MNESourceSpaces
transform_source_spaces_to [fn] in MNESourceSpace
TransformMode [enum] in DecodingCsp — Transform mode for the CSP output.
TransformMode [enum] in DecodingSpoc — Transform mode for the SPoC output.
translateX [fn] in BrainSurface — Translate all vertices along the X axis.
translation [var] in HeadPosEntry — Translation from device to head (metres).
translationTo [fn] in FiffCoordTrans — Calculate translation between two rotation matrices in meter.
transname [var] in ComputeFwdSettings — head2mri transformation file.
transParamChanged [signal] in CoregSettingsView — Emit this signal whenever the scaling, translation or rotation parmeters have changed.
transparent [var] in LiveMarker — If true, rendered with alpha blending.
transparent [var] in MNEMshDisplaySurface — Non-zero if this surface is rendered transparently.
transpose_named_matrix [fn] in FiffNamedMatrix — Transpose a named matrix (FiffNamedMatrix).
transpose_named_matrix [fn] in MNE — mne_transpose_named_matrix
tri [var] in MNESurfacePatch — Map from patch triangle index to complete-surface triangle index.
tri_area [var] in MNEBemSurface — Triangle areas.
tri_area [var] in MNEHemisphere — Triangle areas.
tri_cent [var] in MNEBemSurface — Triangle centers.
tri_cent [var] in MNEHemisphere — Triangle centers.
tri_nn [var] in MNEBemSurface — Triangle normals.
tri_nn [var] in MNEHemisphere — Triangle normals.
trialType [var] in BidsEvent — Trial type or condition label (e.g.
triangle_coords [fn] in MNESurface — Compute barycentric-like coordinates of a point relative to a triangle.
triangleIndices [fn] in BrainSurface — Get the triangle index buffer.
TrianglesT [type] in MNESurfaceOrVolume — Type abbreviation for ntri x 3 triangle indices.
trigger [var] in MnaParamBinding — "on_change", "periodic", "manual"
triggerDetected [signal] in RtFiffRawView — Emmited when trigger detection was performed.
triggerDetected [signal] in RtFiffRawViewModel — Emmited when trigger detection was performed.
triggerDetectionActive [fn] in RtFiffRawViewModel — Returns whether trigger detection is active or not.
TriggerDetectionView [fn] in TriggerDetectionView — Constructs a TriggerDetectionView which is a child of parent.
triggered [signal] in CommandManager — Is emitted when a command is ready to send.
triggerFileNameUpdate [fn] in ProjectSettingsView — Updates file name based on current project and subject.
triggerInfoChanged [fn] in RtFiffRawView — markChBad marks the selected channels as bad/good in m_chInfolist
triggerInfoChanged [fn] in RtFiffRawViewModel — markChBad marks the selected channels as bad/good in m_chInfolist
triggerInfoChanged [signal] in TriggerDetectionView — Emit this signal whenever the trigger information changed.
triggerTypeChanged [signal] in ConnectivitySettingsView — Emit signal whenever the trigger type changed.
triggerTypeChanged [signal] in MinimumNormSettingsView — Emit signal whenever the trigger type changed.
tripletSelection [fn] in MNEForwardSolution
tris [fn] in FsSurface — The triangle descriptions.
tris [var] in MNESurfaceOrVolume — The full triangulation data (ntri elements).
tstep [var] in InvDipoleFitSettings — Step between fits (s).
tstep [var] in InvSourceEstimate — Time steps within the times vector.
tstep [var] in MNEMeasDataSet — Sampling interval (seconds).
tstep [fn] in SourceEstimateManager
tstep [fn] in SourceEstimateOverlay — Get the time step between samples.
twinFiducial [fn] in AcquiredPoints
type [fn] in AbstractTreeItem
type [var] in BidsChannel — BIDS channel type: EEG, ECOG, SEEG, DBS, TRIG, etc.
type [var] in BidsElectrode — Electrode type: "depth", "strip", "grid" (OPTIONAL).
type [var] in BrainVisionMarker — Marker type (e.g., "New Segment", "Stimulus", "Response").
type [var] in EventMarker — Numeric event type (stimulus code).
type [var] in FiffDataRef — Type of the data.
type [var] in FiffDirEntry — Data type.
type [var] in FiffDirNode — Block type for this directory.
type [var] in FiffTag — Data type.
type [var] in FwdCoil — Coil type.
type [var] in MnaOpSchemaAttr — Expected value type.
type [var] in MNEMshColorScaleDef
type [var] in MNESurfaceOrVolume — Is this a volume or a surface.
type [var] in MriVolData — Voxel data type (MRI_UCHAR, MRI_INT, MRI_FLOAT, MRI_SHORT).
typeLabel [var] in ButterflyTypeGroup
typeLabel [var] in ChannelDisplayInfo — Short type string: "MEG grad", "MEG mag", "EEG", "EOG", "ECG", "EMG", "STIM", "MISC".

U

UnbiasedSquaredPhaseLagIndex [fn] in UnbiasedSquaredPhaseLagIndex — Constructs a UnbiasedSquaredPhaseLagIndex object.
UnbiasedSquaredPhaseLagIndex [fn] in UnbiasedSquaredPhaseLagIndex — Constructs a UnbiasedSquaredPhaseLagIndex object.
unbuffered [var] in PythonRunnerConfig — Pass -u to Python for unbuffered I/O.
undo [var] in MNECTFCompDataSet — Compensation data to undo the current state.
undoLast [fn] in AcquiredPoints — Remove the most recently captured point matching kind, if any.
unit [var] in BrainVisionChannelInfo — Physical unit string (e.g.
unit [var] in FiffChInfo — Unit of measurement.
unit_mul [var] in FiffChInfo — Unit multiplier exponent.
Units [enum] in FastrakParser
units [var] in BidsChannel — Unit of measurement: V, uV, mV (REQUIRED).
units [var] in BidsCoordinateSystem — "m", "mm", or "cm" (REQUIRED for iEEG).
units [fn] in FastrakParser
units [var] in PolhemusSerialConfig
unitScale [fn] in BrainVisionReader
unproject [fn] in RayPicker — Unproject a screen position to a world-space ray.
up [var] in MNEMshDisplaySurface — Up vector for 3D viewing.
up [var] in MNEMshDisplaySurfaceSet — Up vector for viewing.
update [fn] in CommandManager — Updates the IObserver (CommandManager) when a new command was received.
update [fn] in IObserver — Updates the IObserver.
update_inuse [fn] in MNESourceSpace — Update the active vertex (inuse) vector and recompute vertno.
updateBadChannels [fn] in ChannelSelectionView — Update the scene items according to the bad channel list in the fiff info file.
updateBuffers [fn] in BrainSurface — Update graphics buffers (vertex/index) on the GPU.
updateBuffers [fn] in DipoleObject
updateBuffers [fn] in ElectrodeObject — Update GPU buffers (shaft vertex/index, contact instance) via QRhi.
updateCompensator [fn] in EvokedSetModel — Update the compensator.
updateCompensator [fn] in RtFiffRawView — Update the compensator.
updateCompensator [fn] in RtFiffRawViewModel — Update the compensator.
updateData [fn] in AverageLayoutView — call this function whenever the items' data needs to be updated
updateData [fn] in EvokedSetModel — Update stored data.
updateData [fn] in ImageSc — Updates the scaled image view with a given double matrix.
updateData [fn] in ImageSc — Updates the scaled image view with a given float matrix.
updateData [fn] in ImageSc — Updates the scaled image view with a given integer matrix.
updateData [fn] in LinePlot — Updates the plot using a given double vector without given X data.
updateData [fn] in LinePlot — Updates the plot using the given vectors.
updateData [fn] in Plot — Updates the plot using a given double vector without given X data.
updateDataView [fn] in ChannelSelectionView — Updates data view.
updateEdgeBuffers [fn] in NetworkObject — Upload or update GPU buffers for edge geometry.
updateFilter [fn] in FilterPlotScene — Updates the current filter.
updateFilterFrom [signal] in FilterDesignView — Update to simple filter control 'From'.
updateFilterPlot [fn] in FilterDesignView — updates the filter plot scene with the newly generated filter
updateFilterTo [signal] in FilterDesignView — Update to simple filter control 'To'.
updateGuiMode [fn] in AbstractView — Update the views GUI based on the set GuiMode (Clinical=0, Research=1).
updateGuiMode [fn] in AveragingSettingsView — Update the views GUI based on the set GuiMode (Clinical=0, Research=1).
updateGuiMode [fn] in BidsView — Update the views GUI based on the set GuiMode (Clinical=0, Research=1).
updateGuiMode [fn] in ChannelSelectionView — Update the views GUI based on the set GuiMode (Clinical=0, Research=1).
updateGuiMode [fn] in CompensatorView — Update the views GUI based on the set GuiMode (Clinical=0, Research=1).
updateGuiMode [fn] in CoregSettingsView — Update the views GUI based on the set GuiMode (Clinical=0, Research=1).
updateGuiMode [fn] in ProgressView — Update the views GUI based on the set GuiMode (Clinical=0, Research=1).
updateHeadPos [fn] in ComputeFwd — Update the head position with a new device-to-head transform and recompute the MEG portion of the forward solution.
updateNodeBuffers [fn] in NetworkObject — Upload or update GPU buffers for node geometry.
updatePlot [fn] in Bar — Updates the bar plot with the new data.
updatePlot [fn] in Spline — Updates the spline with new data.
updateProcessingMode [fn] in AbstractView — Update the views GUI based on the set ProcessingMode (RealTime=0, Offline=1).
updateProcessingMode [fn] in AveragingSettingsView — Update the views GUI based on the set ProcessingMode (RealTime=0, Offline=1).
updateProcessingMode [fn] in BidsView — Update the views GUI based on the set ProcessingMode (RealTime=0, Offline=1).
updateProcessingMode [fn] in ChannelSelectionView — Update the views GUI based on the set ProcessingMode (RealTime=0, Offline=1).
updateProcessingMode [fn] in CompensatorView — Update the views GUI based on the set ProcessingMode (RealTime=0, Offline=1).
updateProcessingMode [fn] in CoregSettingsView — Update the views GUI based on the set ProcessingMode (RealTime=0, Offline=1).
updateProcessingMode [fn] in ProgressView — Update the views GUI based on the set ProcessingMode (RealTime=0, Offline=1).
updateProgress [slot] in ProgressView — Sets new completion percentage and updates message.
updateProjection [fn] in EvokedSetModel — Update projections.
updateProjection [fn] in RtFiffRawView — Update the SSP projection.
updateProjection [fn] in RtFiffRawViewModel — Update the SSP projection.
updateScene [fn] in AverageScene — Updates and repaints the scene.
updateSceneUniforms [fn] in BrainRenderer — Set uniforms that are shared for the entire frame.
updateSensorSet [fn] in InvSensorSetCreator — Update InvSensorSet from new channel list with new accuracy.
updateSpharaActivation [fn] in RtFiffRawView — Update the SPHARA operator.
updateSpharaActivation [fn] in RtFiffRawViewModel — Update the SPHARA operator.
updateSpharaOptions [fn] in RtFiffRawView — Update the SPHARA operator.
updateSpharaOptions [fn] in RtFiffRawViewModel — Update the SPHARA operator.
updateThresholdsFromData [fn] in SourceEstimateOverlay — Update thresholds based on loaded data range.
updateValue [fn] in SpectrumSettingsView — Update slider value.
updateView [fn] in ButterflyView — Perform a view update from outside of this class.
updateViewport [fn] in AverageLayoutView — Update the viewport.
updateViewport [fn] in ButterflyView — Update the viewport.
updateViewport [fn] in RtFiffRawView — Update the viewport.
upstreamNodes [fn] in MnaGraph
UPtr [type] in AbstractFormatReader
UPtr [type] in FiffChInfo — Unique pointer type for FiffChInfo.
UPtr [type] in FiffChPos — Unique pointer type for FiffChPos.
UPtr [type] in FiffCoordTrans — Unique pointer type for FiffCoordTrans.
UPtr [type] in FiffCoordTransSet — Unique pointer type for FiffCoordTransSet.
UPtr [type] in FiffCov — Unique pointer type for FiffCov.
UPtr [type] in FiffCtfComp — Unique pointer type for FiffCtfComp.
UPtr [type] in FiffDigitizerData — Unique pointer type for FiffDigitizerData.
UPtr [type] in FiffDigPoint — Unique pointer type for FiffDigPoint.
UPtr [type] in FiffDigPointSet — Unique pointer type for FiffDigPointSet.
UPtr [type] in FiffDirEntry — Unique pointer type for FiffDirEntry.
UPtr [type] in FiffDirNode — Unique pointer type for FiffDirNode.
UPtr [type] in FiffEvoked — Unique pointer type for FiffEvoked.
UPtr [type] in FiffEvokedSet — Unique pointer type for FiffEvokedSet.
UPtr [type] in FiffId — Unique pointer type for FiffId.
UPtr [type] in FiffInfo — Unique pointer type for FiffInfo.
UPtr [type] in FiffInfoBase — Unique pointer type for FiffInfoBase.
UPtr [type] in FiffNamedMatrix — Unique pointer type for FiffNamedMatrix.
UPtr [type] in FiffProj — Unique pointer type for FiffProj.
UPtr [type] in FiffRawData — Unique pointer type for FiffRawData.
UPtr [type] in FiffRawDir — Unique pointer type for FiffRawDir.
UPtr [type] in FiffSparseMatrix — Unique pointer type for FiffSparseMatrix.
UPtr [type] in FiffStream — Unique pointer type for FiffStream.
UPtr [type] in FiffTag — Unique pointer type for FiffTag.
UPtr [type] in FwdBemModel — Unique pointer type for FwdBemModel.
UPtr [type] in FwdBemSolution — Unique pointer type for FwdBemSolution.
UPtr [type] in FwdCoil — Unique pointer type for FwdCoil.
UPtr [type] in FwdCoilSet — Unique pointer type for FwdCoilSet.
UPtr [type] in FwdEegSphereModel — Unique pointer type for FwdEegSphereModel.
UPtr [type] in FwdEegSphereModelSet — Unique pointer type for FwdEegSphereModelSet.
UPtr [type] in FwdThreadArg — Unique pointer type for FwdThreadArg.
UPtr [type] in InvDipoleForward — Unique pointer type for InvDipoleForward.
UPtr [type] in MNECTFCompDataSet — Unique pointer type for MNECTFCompDataSet.
UPtr [type] in MNEForwardSolution — Unique pointer type for MNEForwardSolution.
UPtr [type] in MNESourceSpace — Unique pointer type for MNESourceSpace.
UPtr [type] in MNESurface — Unique pointer type for MNESurface.
upVector [var] in CameraResult
use_equiv_eeg [var] in ComputeFwdSettings — Use the equivalent source approach for the EEG sphere model.
use_ip_approach [var] in FwdBemModel — Whether the isolated-problem approach is active.
use_itris [var] in MNESurfaceOrVolume — Vertex indices for the in-use triangulation (row-major).
use_patches [var] in MNEMshDisplaySurfaceSet — Whether to use patches for display.
use_threads [var] in ComputeFwdSettings — Parallelize?
use_tri_area [var] in MNEHemisphere — Triangle areas of used triangles.
use_tri_cent [var] in MNEHemisphere — Triangle centers of used triangles.
use_tri_nn [var] in MNEHemisphere — Triangle normals of used triangles.
use_tris [var] in MNESurfaceOrVolume — Triangulation data for the in-use vertices.
usecs [var] in FiffTime — Fraction of seconds in microseconds.
user [var] in InvDipoleFitData — Non-owning pointer to dipole fit workspace (set during fit_one).
user_data [var] in FwdCoilSet — Coil-specific BEM solution.
user_data [var] in MNEMshDisplaySurface — Arbitrary user-defined data pointer.
user_data_free [var] in MNEMshDisplaySurface — Function to free user_data.
utc_offset [var] in FiffInfo — UTC offset of related meas_date (sHH:MM).
uu [var] in fitUserRec
uu [var] in InvDipoleForward — Right singular vectors V^T of fwd (udim x nch, row-major).

V

v0 [var] in FwdBemModel — Workspace for infinite-medium potentials (length nsol).
val [var] in MNESurfaceOrVolume — Auxiliary values associated with the vertices (np elements).
valid [var] in InvEcd — Is this dipole valid.
valid [var] in InvFocalDipole — Whether this dipole passed validity checks.
valid [var] in MNEDeriv — Per-derivation validity flags considering input channel units.
valid [var] in MNERawBufDef — True if the data in this buffer are meaningful.
valid [var] in MNEVolGeom — Non-zero if the geometry information below is valid.
validate [fn] in MnaGraph — Validate the graph: acyclicity, port connections, data-kind compatibility, op schema compliance, required attributes.
validate [fn] in MnaOpSchema — Validate that a node conforms to this schema.
vals [var] in MNERawBufDef — Sample values matrix [nchan x ns], row-major (empty if not loaded).
value [var] in BidsEvent — Numeric event value / trigger code.
value [var] in ElectrodeContact — Optional scalar for colormap overlay.
value [var] in InvToken — Continuous value (0 for structural tokens).
value [var] in PickResult — Optional scalar overlay value at the picked element (uV, dSPM, MRI intensity).
value [fn] in ScaleControl — Return the value of the control.
valueChanged [signal] in ScaleControl — Signal emitted when the value of the control changes.
values [var] in FsLabel — Values at the vertices.
valueToBone [fn] in ColorMap — Returns a Bone RGB to a given double value [0,1].
valueToColor [fn] in ColorMap — Returns a Jet RGB to a given double value [0,1] and a colormap specified by sMap.
valueToCool [fn] in ColorMap — Returns a Cool RGB to a given double value [-1,1].
valueToHot [fn] in ColorMap — Returns a Hot RGB to a given double value [0,1].
valueToHotNegative1 [fn] in ColorMap — Returns a negative skewed hot RGB to a given double value [0,1].
valueToHotNegative2 [fn] in ColorMap — Returns a negative skewed hot RGB to a given double value [0,1].
valueToJet [fn] in ColorMap — Returns a Jet RGB to a given double value [0,1].
valueToRedBlue [fn] in ColorMap — Returns a RedBlue RGB to a given double value [-1,1].
valueToViridis [fn] in ColorMap — Returns a Viridis RGB to a given double value [-1,1].
valueToViridisNegated [fn] in ColorMap — Returns a negated Viridis RGB to a given double value [-1,1].
vbo [var] in ChannelGpuData
vboFirstSample [var] in ChannelGpuData
vec_field [var] in FwdCompData — Computes the fields of all three dipole components.
vec_field_pot [var] in FwdThreadArg — Computes the field or potential for all dipole orientations.
vec_work [var] in FwdCompData — The vector work area (3 x ncoil).
vecClusterPvals [var] in StatsClusterResult — p-value for each observed cluster.
vecClusterStats [var] in StatsClusterResult — Sum of t-values for each observed cluster.
vecData [var] in FilterObject
vecData [var] in TaperedSpectraInputData
vecEigenvalues [var] in DpssResult — Concentration ratios, length nTapers.
vecFreqs [var] in CsdResult — Frequency axis (Hz) for csdByFreq entries.
vecFreqs [var] in MorletTfrResult — Centre frequencies in Hz, length n_freqs.
vecFreqs [var] in MultitaperPsdResult — Frequency axis in Hz, length nFft/2+1.
vecFreqs [var] in MultitaperTfrResult — Frequency axis in Hz.
vecFreqs [var] in WelchPsdResult — Frequency axis in Hz, length iNfft/2+1.
vecGamma [var] in InvGammaMapResult — Source variance hyperparameters.
vecHpiFreqs [fn] in InvHpiModelParameters — Inline functions to get acces to parameters.
vecInputData [var] in SpectogramInputData
vecMean [var] in IcaResult — Per-channel mean removed during centering (n_channels).
vecPairCsd [var] in IntermediateTrialData
vecPairCsd [var] in IntermediateTrialData
vecPairCsdImagAbs [var] in IntermediateTrialData
vecPairCsdImagAbs [var] in IntermediateTrialData
vecPairCsdImagAbsSum [var] in IntermediateSumData
vecPairCsdImagAbsSum [var] in IntermediateSumData
vecPairCsdImagSign [var] in IntermediateTrialData
vecPairCsdImagSign [var] in IntermediateTrialData
vecPairCsdImagSignSum [var] in IntermediateSumData
vecPairCsdImagSignSum [var] in IntermediateSumData
vecPairCsdImagSqrd [var] in IntermediateTrialData
vecPairCsdImagSqrd [var] in IntermediateTrialData
vecPairCsdImagSqrdSum [var] in IntermediateSumData
vecPairCsdImagSqrdSum [var] in IntermediateSumData
vecPairCsdNormalized [var] in IntermediateTrialData
vecPairCsdNormalized [var] in IntermediateTrialData
vecPairCsdNormalizedSum [var] in IntermediateSumData
vecPairCsdNormalizedSum [var] in IntermediateSumData
vecPairCsdSum [var] in IntermediateSumData
vecPairCsdSum [var] in IntermediateSumData
vecs [var] in MNEProjItem — Projection vectors (nrow = nvec, ncol = nch); may be nullptr when nvec == 0.
vecTapSpectra [var] in IntermediateTrialData
vecTapSpectra [var] in IntermediateTrialData
vecTimes [var] in MultitaperTfrResult — Time axis in seconds (window centres).
Vector6T [type] in InvRapMusic — Defines Eigen::Matrix<T, 6, 1> as Vector6T type.
VectorXT [type] in InvRapMusic — Defines Eigen::Matrix<T, Eigen::Dynamic, 1> as VectorXT type.
venvDir [var] in PythonRunnerConfig — Virtual-env directory (empty = no venv).
venvPythonPath [fn] in PythonRunner — Get the Python interpreter path inside the configured venv.
verbose [var] in InvDipoleFitSettings — Verbose output.
verification [var] in MnaNode — Explanation, checks, results, and provenance snapshot.
version [var] in FiffId — File version.
version [var] in MnaOpSchema — Version of the operation (e.g. "2.2.0").
version [var] in MriVolData — MGH format version (should be 1).
vert [var] in MNEMshPicked
vert [var] in MNENearest — Vertex index in the full surface mesh.
vert [var] in MNEPatchInfo — Source vertex index this patch applies to.
vert [var] in MNESurfacePatch — Vertex numbers in the complete surface (size np).
vert [var] in MNETriangle — Triangle vertex indices (non-owning; points into parent surface itris).
vert_dist [var] in MNESurfaceOrVolume — Euclidean distances between neighboring vertices (np entries, variable length).
vertex_colors [var] in MNEMshDisplaySurface — Per-vertex RGBA color array.
vertexBuffer [fn] in BrainSurface
vertexBuffer [fn] in DipoleObject
vertexBuffer [fn] in ElectrodeObject
vertexCount [fn] in BrainSurface
vertexCount [var] in ChannelGpuData
vertexData [fn] in InvVectorSourceEstimate — Extract the (x, y, z) data for a specific vertex.
vertexDataRef [fn] in BrainSurface — Const-ref access to CPU-side vertex data (used by merged rendering).
vertexGeneration [fn] in BrainSurface — Monotonically increasing counter bumped whenever vertex data changes.
vertexIndex [var] in PickResult — Vertex or element index at hit.
vertexNormals [fn] in BrainSurface — Get a copy of the current vertex normals.
vertexPositions [fn] in BrainSurface — Get a copy of the current vertex positions.
vertices [var] in FsLabel — Vertex indices (0 based).
vertices [var] in InvBeamformer — Source vertex indices.
vertices [var] in InvSourceEstimate — The indices of the dipoles in the different source spaces.
verticesAsMatrix [fn] in BrainSurface — Get vertex positions as Eigen matrix.
vertno [var] in MNESurfaceOrVolume — Vertex numbers of the used vertices in the full source space (nuse elements).
VideoOverlay [fn] in VideoOverlay
view [var] in CameraResult
view [fn] in MlTensor — Create a non-owning view over external mutable memory.
viewCount [slot] in BrainView
viewCountChanged [signal] in BrainView — Emitted whenever the number of viewports changes — either via setViewCount or after restoring persisted state in loadMultiViewSettings.
ViewMode [enum] in BrainView — View mode for single or multi-viewport display.
viewMode [slot] in BrainView — Get the current view mode.
viewportCameraPreset [slot] in BrainView — Get the camera preset for a specific viewport.
viewportH [var] in SceneData
viewportIndexAt [fn] in MultiViewLayout — Given a cursor position and output size, determine which viewport index the cursor is in.
viewportW [var] in SceneData
viewportX [var] in SceneData
viewportXToSample [fn] in ChannelDataView — Maps a ChannelDataView-local x coordinate inside the signal viewport to an absolute sample index.
viewportY [var] in SceneData
viewResized [signal] in ChannelRhiView
visibility [var] in SubView
visible [var] in SceneLayer
visibleChannelCount [fn] in ChannelRhiView
visibleCount [var] in TileResult
visibleFirstSample [fn] in ChannelRhiView — Returns the absolute sample index currently shown at x = 0 (left edge).
visibleSampleCount [fn] in ChannelDataView
visibleSampleCount [fn] in ChannelRhiView — Returns the number of samples currently visible.
visualizationEditTarget [slot] in BrainView — Get current visualization edit target.
visualizationEditTargetChanged [signal] in BrainView — Emitted when the active visualization edit target changes.
VisualizationMode [type] in BrainSurface
VisualizationType [enum] in RtSourceInterpolationMatWorker — Visualization type enum — selects which matrix the worker emits.
vol_dims [var] in MNESurfaceOrVolume — Dimensions of the volume grid (width x height x depth).
vol_geom [var] in MNESurfaceOrVolume — MRI volume geometry information as FreeSurfer likes it.
voxel [var] in PickResult — Voxel coordinates for MriVoxel.
voxel_size [var] in MNESurfaceOrVolume — Voxel size in meters, derived from the voxel transform.
voxel_surf_RAS_t [var] in MNESurfaceOrVolume — Transform from voxel coordinates to surface RAS (MRI) coordinates.
voxelDataAsFloat [fn] in MriVolData — Returns all voxel data as a contiguous float array in x-fastest order.
voxelSurfRasT [var] in MriVolData — Voxel -> surface RAS (MRI) transform.
voxelToRas [fn] in MriSlicer — Convert voxel index to RAS coordinate.
voxelToRas [fn] in MriSlicer — Convert voxel index to RAS coordinate using a volume's transform.
vv [var] in fitUserRec
vv [var] in InvDipoleForward — Left singular vectors U^T of fwd (udim x 3*ndip, row-major).

W

w [var] in fitUserRec
w [var] in FwdCoil — The weighting coefficients.
w [fn] in InvSensorSet
w [fn] in InvSensorSet
wait [fn] in RtNoise — Blocks until the worker thread has finished, or until the timeout (ms) expires.
waitForDataAvailable [fn] in RtCmdClient — Wait for ready read until data are available.
wallTimeMs [var] in MnaProvenance — Wall-clock duration in milliseconds.
warp [fn] in MNEBem — Warp the Bem.
WeightedPhaseLagIndex [fn] in WeightedPhaseLagIndex — Constructs a WeightedPhaseLagIndex object.
WeightedPhaseLagIndex [fn] in WeightedPhaseLagIndex — Constructs a WeightedPhaseLagIndex object.
weightNorm [var] in InvBeamformer — Applied weight normalization.
weights [var] in InvBeamformer — Filter weights, size 1 for LCMV, n_freqs for DICS.
wheelScrollsChannels [fn] in ChannelRhiView
whiten_vector [fn] in MNECovMatrix — Apply whitening to a data vector using the inverse square-root eigenvalues stored in this covariance matrix.
whitener [var] in InvBeamformer — Whitening matrix (n_channels, n_channels).
whitener [var] in MNEInverseOperator — Whitening matrix (derived from noise covariance).
width [var] in MNEVolGeom
width [var] in MriSlice — Width of the image in pixels.
width [var] in MriSliceImage — Width of the slice image in pixels.
width [var] in MriVolData — First dimension of the image buffer (fastest).
window_size [var] in SpectogramInputData
windowCenter [fn] in SliceObject
windowSize [fn] in ChannelDataView — Get the current visible time window in seconds.
windowSizeChanged [signal] in RtFiffRawViewModel — Emmited when the window size/max number of samples changed.
WindowType [enum] in WelchPsd — Window function applied to each segment before the FFT.
windowTypeChanged [signal] in ConnectivitySettingsView — Emit signal whenever the window type changed.
windowWidth [fn] in SliceObject
withSuffix [fn] in BIDSPath — Returns a copy of this BIDSPath with updated suffix and extension.
work [var] in FwdCompData — The work area.
workingDir [var] in ProcessingSettings
workingDir [var] in PythonRunnerConfig — Working directory (empty = inherit).
world [var] in PickResult — Hit position in world (MRI surface RAS) coordinates.
worldBounds [fn] in MultimodalScene
worldToModel [fn] in PolhemusCoregistration
write [fn] in BidsDatasetDescription — Write a dataset_description.json file.
write [fn] in BidsRawData — Write this dataset to a BIDS-compliant directory.
write [fn] in BidsRawData — Convenience overload — write with default options.
write [fn] in FiffAnnotations — Auto-detects format and writes annotations.
write [fn] in FiffCoordTrans — Writes the transformation to file.
write [fn] in FiffDigPointSet — Writes the FiffDigPointSet to a FIFF file.
write [fn] in FiffDigPointSet — Convenience overload: write the digitizer point set to a path on disk.
write [fn] in FiffIO — Write data to a single pIODevice.
write [fn] in FiffIO — Write whole data of a type to a fiff file.
write [fn] in FineCalibration — Write fine calibration to a .dat file.
write [fn] in InvSourceEstimate — mne_write_stc_file
write [fn] in MnaIO — Write an MNA project to file.
write [fn] in MnaProject — Write an MNA project to file.
write [fn] in MNEBem — MNE Toolbox function mne_write_bem_surfaces_block.
write [fn] in MNEClusterInfo — Writes the cluster info to a file.
write [fn] in MNEForwardSolution — Write the forward solution to a FIFF file.
write [fn] in MNEInverseOperator — Write the inverse operator to a FIFF file.
write [fn] in MriCorFifIO — Writes COR.fif file from slice data.
write_bad_channels [fn] in FiffStream — Write a bad channel list as a FIFFB_MNE_BAD_CHANNELS block.
write_ch_info [fn] in Fiff — fiff_write_ch_info
write_ch_info [fn] in FiffStream — Writes a channel information record to a fif file The type, cal, unit, and pos members are explained in Table 9.5 of the MNE manual.
write_ch_pos [fn] in FiffStream — Writes a channel position to a fif file.
write_coord_trans [fn] in Fiff — fiff_write_coord_trans
write_coord_trans [fn] in FiffStream — Writes a coordinate transformation structure.
write_cov [fn] in FiffStream — Write a noise covariance matrix.
write_ctf_comp [fn] in Fiff — fiff_write_ctf_comp
write_ctf_comp [fn] in FiffStream — fiff_write_ctf_comp
write_dig_point [fn] in Fiff — fiff_write_dig_point
write_dig_point [fn] in FiffStream — fiff_write_dig_point
write_dir_entries [fn] in FiffStream — Writes a list of dir entries to a fif file, as a FIFFT_DIR_ENTRY_STRUCT Returns the postion where the structure was written to.
write_dir_pointer [fn] in FiffStream — Writes directory position pointer FIFF_DIR_POINTER Returns the postion where the structure was written to.
write_double [fn] in FiffStream — Writes a double-precision floating point tag to a fif file.
write_eigen_matrix [fn] in IOUtils — Write Eigen Matrix to file (QString path).
write_eigen_matrix [fn] in IOUtils
write_eigen_matrix [fn] in IOUtils
write_eigen_matrix [fn] in IOUtils — Write Eigen Matrix to file (std::string path).
write_eigen_matrix [fn] in IOUtils
write_eigen_matrix [fn] in IOUtils
write_events_to_ascii [fn] in MNE — write_events_to_ascii
write_events_to_fif [fn] in MNE — write_events_to_fif
write_evoked_set [fn] in FiffStream — fiff_write_evoked_set
write_float [fn] in Fiff — fiff_write_float
write_float [fn] in FiffStream — Writes a single-precision floating point tag to a fif file.
write_float_matrix [fn] in Fiff — fiff_write_float_matrix
write_float_matrix [fn] in FiffStream — Writes a single-precision floating-point matrix tag.
write_float_sparse_ccs [fn] in FiffStream — fiff_write_float_sparse_ccs
write_float_sparse_rcs [fn] in FiffStream — fiff_write_float_sparse_rcs
write_id [fn] in Fiff — fiff_write_id
write_id [fn] in FiffStream — Writes fiff id If the id argument is missing it will be generated here.
write_info_base [fn] in FiffStream — Write measurement info stored in forward solution.
write_int [fn] in Fiff — fiff_write_int
write_int [fn] in FiffStream — Writes a 32-bit integer tag to a fif file.
write_int_matrix [fn] in FiffStream — fiff_write_int_matrix
write_name_list [fn] in Fiff — fiff_write_name_list
write_name_list [fn] in FiffStream — fiff_write_name_list
write_named_matrix [fn] in Fiff — fiff_write_named_matrix
write_named_matrix [fn] in FiffStream — fiff_write_named_matrix
write_proj [fn] in Fiff — fiff_write_proj
write_proj [fn] in FiffStream — fiff_write_proj
write_raw [fn] in FiffIO — Write raw data to a pIODevice.
write_raw_buffer [fn] in Fiff — fiff_write_raw_buffer
write_raw_buffer [fn] in FiffStream — fiff_write_raw_buffer
write_raw_buffer [fn] in FiffStream — fiff_write_raw_buffer
write_raw_buffer [fn] in FiffStream — fiff_write_raw_buffer
write_rt_command [fn] in FiffStream — Writes a real-time command.
write_string [fn] in Fiff — fiff_write_string
write_string [fn] in FiffStream — Writes a string tag.
write_tag [fn] in FiffStream — Write one tag to file including its data Data is not written if it is nullptr.
write_to_ascii [fn] in FiffEvents — Write the event list to a text file (MNE-C compatible format).
write_to_fif [fn] in FiffEvents — Write the event list to a FIFF file.
write_w [fn] in InvSourceEstimate — Write the first time point of this source estimate to a .w file.
writeBrainstormMonFiles [fn] in SelectionIO — Writes the specified selection groups to different Brainstorm .mon files.
writeBrainstormMonFiles [fn] in SelectionIO — Writes the specified selection groups to different Brainstorm .mon files.
writeCsv [fn] in FiffAnnotations — Writes annotations to a CSV file.
writeCsv [fn] in InvSourceEstimateIO — Export source estimate to CSV format.
writeDefinitionFile [fn] in ChannelDerivation — Write derivation rules to a text definition file.
writeFilter [fn] in FilterIO — Writes a given filter to txt file .
writeHeadPos [fn] in MaxwellMovementComp — Write head positions to a file.
writeJson [fn] in BidsCoordinateSystem — Write a BIDS *_coordsystem.json file.
writeJson [fn] in FiffAnnotations — Writes annotations to a JSON file.
writeMatrix [fn] in InvSourceEstimateIO — Export source estimate as a tab-separated matrix for easy import.
writeMatrix [fn] in PythonTestHelper — Write an Eigen matrix to a text file with full double precision.
writeMNESelFile [fn] in SelectionIO — Writes the specified selection groups to a single MNE .sel file.
writeMNESelFile [fn] in SelectionIO — Writes the specified selection groups to a single MNE .sel file.
writeToStream [fn] in FiffCoordTrans — Writes the transformation to a FIFF stream.
writeToStream [fn] in FiffDigPointSet — Writes the FiffDigPointSet to a FIFF stream.
writeToStream [fn] in FiffInfo — Writes the fiff information to a FIF stream.
writeToStream [fn] in MNEBem — MNE Toolbox function mne_write_bem_surfaces_block.
writeToStream [fn] in MNEBemSurface — Writes the bem surface to a FIFF stream.
writeToStream [fn] in MNEHemisphere — mne_python _write_one_source_space
writeToStream [fn] in MNEInverseOperator — Write the inverse operator into an already-open FIFF stream.
writeToStream [fn] in MNESourceSpace — Write this source space to a FIFF stream.
writeToStream [fn] in MNESourceSpaces
writeTsv [fn] in BidsChannel — Write a BIDS *_channels.tsv file.
writeTsv [fn] in BidsElectrode — Write a BIDS *_electrodes.tsv file.
writeTsv [fn] in BidsEvent — Write a BIDS *_events.tsv file.
writeTsv [fn] in BidsTsv — Writes rows to a TSV file.

X

x [var] in BidsElectrode — X coordinate or "n/a" (REQUIRED).
x [fn] in InvDipole
x [fn] in InvDipole
x [var] in VelocitySample
x [var] in VertexData
x [var] in VertexData
x1 [var] in Pair — Index one of the pair.
x2 [var] in Pair — Index two of the pair.
x_ras [var] in MNEVolGeom
x_ras [var] in MriVolData — X-direction cosines (xr, xa, xs).
xmax [var] in MNELayout — VDC right limit.
xmax [var] in MNELayoutPort — Viewport right bound.
xmin [var] in MNELayout — VDC left limit.
xmin [var] in MNELayoutPort — Viewport left bound.
xplotter_layout [var] in FiffInfo — xplotter layout tag.
XRay [var] in BrainRenderer
xsize [var] in MNEVolGeom
xsize [var] in MriVolData — Voxel spacing in X direction (mm).

Y

y [var] in BidsElectrode — Y coordinate or "n/a" (REQUIRED).
y [var] in fitUserRec
y [fn] in InvDipole
y [fn] in InvDipole
y [var] in VertexData
y [var] in VertexData
y_ras [var] in MNEVolGeom
y_ras [var] in MriVolData — Y-direction cosines (yr, ya, ys).
ymax [var] in MNELayout — VDC top limit.
ymax [var] in MNELayoutPort — Viewport top bound.
ymin [var] in MNELayout — VDC bottom limit.
ymin [var] in MNELayoutPort — Viewport bottom bound.
ysize [var] in MNEVolGeom
ysize [var] in MriVolData — Voxel spacing in Y direction (mm).

Z

z [var] in BidsElectrode — Z coordinate or "n/a" (REQUIRED).
z [fn] in InvDipole
z [fn] in InvDipole
z [var] in VertexData
z [var] in VertexData
z_ras [var] in MNEVolGeom — Direction cosines of the three voxel axes in RAS coordinates.
z_ras [var] in MriVolData — Z-direction cosines (zr, za, zs).
zoom [fn] in CameraController
zoom [fn] in ChannelDataView — Return the current zoom factor.
zoom [var] in SubView
zoomChanged [signal] in FiffRawViewSettings — Emit this signal whenever the user changes the row height (zoom) of the channels.
zoomTo [fn] in ChannelRhiView — Smoothly animate the zoom level.
zScoreMode [fn] in ChannelDataView
zScoreMode [fn] in ChannelRhiView
zScoreModeToggled [signal] in ChannelDataView
zScores [var] in BadChannelsMaxwellResult — Per-channel z-scores of residuals.
zsize [var] in MNEVolGeom — Voxel size in each direction (mm).
zsize [var] in MriVolData — Voxel spacing in Z direction (mm).

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