_HistoCanvas | This GUI element is not for common use in vuMarchingCubes |
_PgmHeader | Defines structures and constants present in PGM files |
_PpmHeader | Defines structures and constants present in PGM files |
_TgaHeader | Defines structures and constants present in TGA files |
_tiff_helper | |
linalg::ALInterp | |
linalg::AREALBlockStreamIn | |
linalg::AREALBlockStreamOut | |
linalg::AREALMark | |
linalg::AREALStreamIn | |
linalg::AREALStreamOut | |
linalg::AREALStrideStreamIn | |
linalg::AREALStrideStreamOut | |
BList | |
C2PassScale< DataClass > | |
CDataRGB_UBYTE | |
CDataRGB_UBYTE::_Accumulator | |
CDataRGBA_UBYTE | |
CDataRGBA_UBYTE::_Accumulator | |
linalg::ConstElementAction | |
linalg::ConstElementAction2 | |
linalg::ConstMatrixColumn | |
linalg::ConstMatrixDA | |
linalg::ConstMatrixDiag | |
linalg::ConstMatrixRow | |
ContributionType | |
datasink_dest_mgr | |
ns_vu1112113::DatGrid | This is an indexed collection of DatPnt instances |
ns_vu1112112::DatGrid | This is an indexed collection of DatPnt instances |
ns_vu1112113::DatPnt | Class containing information about a single grid point |
ns_vu1112112::DatPnt | Class containing information about a single grid point |
linalg::DimSpec | |
linalg::DimSpecSubranged | |
linalg::ElementAction | |
linalg::ElementWise | |
linalg::ElementWiseAction | |
linalg::ElementWiseConst | |
linalg::ElementWiseConst::ElementWiseConstRef | |
linalg::ElementWiseConstAction | |
linalg::ElementWiseStride | |
linalg::ElementWiseStrideConst | |
FastClassification | The class that controls octree and summed area table |
fftw_codelet_desc | |
fftw_complex | |
fftw_plan_node_struct | |
fftw_plan_struct | |
fftw_rader_data_struct | |
fftw_twiddle_struct | |
fftwnd_data | |
FVR_NS::Filter | |
SpecFVRNS::Filter | |
FourierSlicer< SIZE > | |
FourierSlicer_ | |
linalg::FPoint | |
FrameBuffer< N > | Frame buffer class with basic functionality |
linalg::GFS_Default | |
linalg::haar_matrix | |
HWTimer | |
ns_vu1112116::Image | Hold a spectrum for each pixel on the screen |
intermediatePixel | Structure for saving a single pixel in the intermediate image |
intermediatePixel_bcc | Structure for saving |
linalg::IRange | |
linalg::IRangeStride | |
linalg::LABlockStreamIn | |
linalg::LABlockStreamOut | |
linalg::LAS | |
linalg::LAStreamIn | |
linalg::LAStreamOut | |
linalg::LAStrideStreamIn | |
linalg::LAStrideStreamOut | |
linalg::LazyInverseMatrix | |
linalg::LazyMatrix | |
linalg::LazyMatrixProduct | |
linalg::LazyTransposedMatrix | |
linalg::LazyUnitMatrix | |
linalg::LazyZeroMatrix | |
LineContribType | |
MacPattern | |
MacpixMap | |
MacPoint | |
MacRect | This file defines the data structures used in pict files |
MacRGBColour | |
MarchingCubesBase | Base class of the Marching Cubes Model (see vuMarchingCubes) |
ns_vu1112112::Material | Describes spectral properties of a material |
Matrix | |
linalg::Matrix | |
linalg::Matrix::ConstReference | |
linalg::Matrix::Reference | |
linalg::MatrixColumn | |
linalg::MatrixDA | |
linalg::MatrixDABase | |
linalg::MatrixDiag | |
linalg::MatrixPivoting | |
linalg::MatrixRow | |
linalg::MaxDev | |
MCBHistoCallback | This callback class provides an interface to indicate an update of a histogram |
MCBProgressCallback | This class provides a callback interface for the progress callback object |
MCGlobalData | This structure collects variables used in several classes |
MCMesh | The complete mesh |
MCMesh::MCData | Specifies the data structure accapted by glInterleavedArrays |
MCMesh::MCNormal | This simple struct is intended to make life easier in the normals array |
MCMesh::MCTriangle | A single triangle in the mesh |
MCMesh::MCVertex | Represents one vertex in the net |
MemSrcTIFFInfo | |
linalg::MinMax | |
linalg::MultivariateFunctor | |
Node | Structure for the nodes of the octree for fast classification |
Octree | Represents an octree for fast classification |
OpDef | Table of the first 200 or so PICT opcodes with size & description |
ns_vu1112112::Parser | This defines a parser class |
PLAnyBmp | Manipulates uncompressed device- and platform-independent bitmaps |
PLAnyPicDecoder | Class which decodes pictures with any known format |
PLBilinearContribDef | |
PLBlackmanContribDef | |
PLBmp | Device- and OS-independent bitmap class |
PLBmpDecoder | Windows bitmap file decoder |
PLBmpEncoder | |
PLBoxContribDef | |
PLContribDef | |
PLDataSink | This is a base class for a destination of picture data |
PLDataSource | This is a base class for a source of picture data |
PLFileSink | This is a class which takes a file as a destination of picture data |
PLFileSource | This is a class which takes a file as a source of picture data |
PLFilter | Base class for filters that operate on bitmaps |
PLFilterContrast | Enhances or reduces the image contrast using a linear mapping between input and output |
PLFilterCrop | Filter that cuts part of the image off |
PLFilterFill | Fills a 32 bpp Bitmap completely with a color |
PLFilterFillRect< PixelC > | |
PLFilterFlip | Flips a 32 bpp bitmap upside-down |
PLFilterGetAlpha | Returns an 8 bpp grayscale bitmap containing only the alpha channel of the source bitmap |
PLFilterGrayscale | Creates a grayscale version of a 32 bpp bitmap |
PLFilterIntensity | Changes the intensity of a 24 or 32 bpp bitmap |
PLFilterLightness | Filter that changes the lightness of a 32 bpp bitmap |
PLFilterMirror | Creates a mirror image of a bitmap |
PLFilterPixel< PixelC, PixelOp > | |
PLFilterQuantize | Returns an 8 bpp bitmap containing a best-fit representation of the source 32 bpp bitmap |
PLFilterQuantize::tagHISTONODE | |
PLFilterQuantize::tagQUBOX | |
PLFilterResize | Base class for filters that resize the image |
PLFilterResizeBilinear | Resizes a 32 bpp bitmap using bilinear interpolation |
PLFilterResizeBox | Resizes a 32 bpp bitmap using a box filter to calculate results |
PLFilterResizeGaussian | Resizes a 32 bpp bitmap using a gaussian filter to determine result pixels |
PLFilterResizeHamming | Resizes a 32 bpp bitmap using a hamming filter to determine result pixels |
PLFilterThreshold | Returns an 8 bpp grayscale bitmap that contains only the channel selected and is black wherever this channel has values <= threshold_min or >= threshold_max |
PLFilterVideoInvert | |
PLGaussianContribDef | |
PLGIFDecoder | |
PLHammingContribDef | |
PLIProgressNotification | Defines an interface for progress notifications |
PLJPEGDecoder | JPEG file decoder |
PLJPEGEncoder | JPEG file encoder |
PLMemSink | This is a class which takes a memory region as a destination of picture data |
PLMemSource | This is a class which takes a memory pointer as a source of picture data |
PLObject | |
PLPCXDecoder | PCX file decoder |
PLPGMDecoder | Portable Graymap file decoder. Delivers an 8 bpp grayscale image |
PLPicDecoder | PLPicDecoder is an abstract base class |
PLPicEncoder | PLPicEncoder is an abstract base class |
PLPictDecoder | This class decodes macintosh PICT files with 1,2,4,8,16 and 32 bits per pixel as well as PICT/JPEG |
PLPixel24 | 24 bit pixel class |
PLPixel32 | 32 bit pixel class |
PLPixel8 | 8 bit pixel class |
PLPNGDecoder | PNG file decoder |
PLPNGEncoder | PNG file encoder. Uses LIBPNG to do the actual conversion |
PLPoint | Simple point class for 2d coordinate manipulations |
PLPPMDecoder | Portable Pixmap file decoder. Delivers a 24 bit true color image |
PLPSDChannelInfo | |
PLPSDHeader | |
PLPSDLayerInfo | |
PLPSDResolutionInfo | |
PLRect | |
PLTextException | An object of this class is thrown by other classes when an error occurs |
PLTGADecoder | Targa file decoder |
PLTIFFDecoder | TIFF file decoder |
PLTIFFDecoderEx | Modest interface to get access to tagged fields This should move to CTiffDecoder but I dare not re-introduce data members in the reworked thread-safe base decoder |
PLTIFFEncoder | TIFF file encoder. Uses LIBTIFF to do the actual conversion |
PLTIFFEncoderEx | Basic tiff output is available via "PLTIFFEncoder::MakeFileFromBmp()" |
Point3d | |
RLEplane | Structure for saving a single voxel slice |
RLEslice_bcc | Structure for saving a single voxel slice |
RLEvoxel | Structure for saving a single voxel |
RLEvoxel_bcc | Structure for saving a single voxel |
linalg::rowcol | |
linalg::RWWatchDog | |
Scanner | |
SMatrix | This class is (another) implementation of a matrix |
SOptimizer | |
SPaled | |
SPalette | The spectral palette organizes light sources and reflectances |
SPalette::SDesignColour | Hold RGB value, weight and status information for a certain refl/light pair |
SPalette::SFreeColour | Holds ID and bounds for a 'free' colour |
SPalette::SSpectrum | Record for a spectrum for a reflectance or a light source |
ns_vu1112112::SpectralImage | Hold a spectrum for each pixel on the screen |
SplatSlicer | Prepares preintegrated slices of a splatting kernel |
SummedAreaTable | This class represents the summed area table |
linalg::SVD | |
linalg::SVD_inv_mult | |
SVector | Nx1 matrix, nothing else ;-) |
tagPCXHEADER | |
tagWINBITMAPCOREHEADER | |
tagWINBITMAPFILEHEADER | |
tagWINBITMAPINFO | |
tagWINBITMAPINFOHEADER | |
tagWINRGBQUAD | Windows Bitmap Struct Definitions |
FVR_NS::TorstensFilters | |
SpecFVRNS::TorstensFilters | |
linalg::UnivariateFunctor | |
Vector | |
linalg::Vector | |
Volume | |
VolumeSet | This class is managing several volumes |
vu1 | The root class for all volume data in the vuVolume project |
vu11 | The base class for regular volume data in the vuVolume data tree |
vu111 | The base class for regular unimodal volume data in the vuVolume data tree |
vu1111 | This is the base class for Regular Unimodal 2D renderers |
vu1112 | The base class for regular unimodal 3d data in the vuVolume data tree |
vu11121 | The base class for regular unimodal 3d 1 byte data in the vuVolume data tree |
vu111211 | The base class for visualization approaches using simple intensity transfer functions |
vu1112111 | Implements a general splatter for this leaf of the tree |
ns_vu1112112::vu1112112 | This class performs raycasting using a spectral colour model |
vu1112113 | This class performs raycasting using a spectral colour model |
vu1112115 | Implements a splatter using a spectral colour model |
vu1112116 | This is a simple slicer Nicetohave: display corresponding slices along all axes at the same time, Animation |
vu1112117 | |
vu1112118 | |
vu1112119 | |
vu111211a | |
vu111211A | Implements a shear-warp algorithm for this leaf of the tree |
vu111212 | The base class for visualization approaches using simple intensity transfer functions |
vu11122 | |
vu111221 | The base class for visualization approaches using simple intensity transfer functions |
vu1112211 | Data specisific implementaition of the marching cubes algorithm |
vu1113 | This is the base class for Regular, Unimodal, 4D datasets |
vu112 | This is the base class from which regular multimodal renderers will be derived |
vu1121 | This is the base class for Regular, MultiModal, 2D renderers |
vu1122 | This is the base class from which Regular, Multimodal, 3d renderers will be derived This provides the capabilities to manipulate dimensional information |
vu1123 | This is the bsae class from which regular, multimodal, 4d renderers will be derived This will provide the dimension handling capabilities to those methods (ie get the number of increments of the dataset in each dimension |
vu12 | This is the base class from which the Rectilinear Rendering methos will be derived |
vu121 | This is the base class from which Rectilinear, Unimodal Renderers are derived |
vu1211 | This is the base class from which Rectilinear, Unimodal, 2d renderers will be derived This class will provide the capabilities handle the size of the dimensions of the datasets |
vu1212 | This is the base class for Rectilinear, Unimodal, 3d volume renderers This implements the capabilities to handle the range of the dataset in each dimension (NB, the range is from 0 to an integer |
vu1213 | This is the base class from which Rectilinear, Unimodal, 4d renderers will be derived This class will provide the capability to set and change the range of the dataset in each dimension |
vu122 | This is the base class from which Rectilinear, Multimodal renderers will be derived |
vu1221 | This is the base class from which Rectilinear, Multimodal, 2d renderers will be derived |
vu1222 | This is the base class from which Rectilinear, Multimodal, 3D renderers will be derived |
vu1223 | This is the base class from which Rectilinear, Multimodal, 4d renderers will be derived This class will provide the functionality to handle the range of the dataset in each dimension |
vu13 | This is the base class from which Curvilinear renderers will be derived |
vu131 | This is the base class from which Curvilinear, Unimodal renderers will be derived |
vu1311 | This is the base class from which curvlinear, unimodal, 2D renderers will be derived This provides the functionality to handle the range of the dataset in each dimension |
vu1312 | This is the base class from which Curvilinear, unimodal, 3d renderers are derived |
vu1313 | This is the base class from which Curvilinear, unimodal, 3d renderers are derived |
vu132 | This is the base class from which curvlinear multimodal renderes are derived |
vu1321 | This is the base class from which Curvilinear, multimodal, 2d renderers are derived |
vu1322 | This is the base class from which curvlinear, multimodal, 3D renderers will be derived This provides the functionality to handle the range of the dataset in each dimension |
vu1323 | This is the base class from which curvlinear, multimodal, 4D renderers will be derived This provides the functionality to handle the range of the dataset in each dimension |
vu14 | This is the base class from which Irregular volume renderers are derived (ie, those that handle irregular datasets) |
vu141 | |
vu1411 | This is the base class from which Irregular, unimodal, 2D renderers will be derived This provides the functionality to handle the range of the dataset in each dimension |
vu1412 | This is the base class from which Irregular, unimodal, 2D renderers will be derived This provides the functionality to handle the range of the dataset in each dimension |
vu1413 | This is the base class from which Irregular, unimodal, 4D renderers will be derived This provides the functionality to handle the range of the dataset in each dimension |
vu142 | This is the base class from which irregular, multimodal renderers are to be derived |
vu1421 | This is the base class from which Irregular, multimodal, 2D renderers will be derived This provides the functionality to handle the range of the dataset in each dimension |
vu1422 | This is the base class from which Irregular, multimodal, 3D renderers will be derived This provides the functionality to handle the range of the dataset in each dimension |
vu1423 | This is the base class from which Irregular, multimodal, 4D renderers will be derived This provides the functionality to handle the range of the dataset in each dimension |
vu15 | The base class for regular volume data in the vuVolume data tree |
vu151 | The base class for bcc unimodal volume data in the vuVolume data tree |
vu1512 | The base class for bcc unimodal 3d data in the vuVolume data tree |
vu15121 | The base class for bcc unimodal 3d 1 byte data in the vuVolume data tree |
vu151211 | The base class for visualization approaches using simple intensity transfer functions |
vu1512111 | |
vu1512112 | Implements a sheet-based splatter for this leaf of the tree |
vu1512113 | |
vu1512119 | Implements a shear-warp algorithm (based on BCC-grids) for this leaf of the tree |
vu151212 | |
vu1512121 | Implements a general splatter for this leaf of the tree |
vu1512122 | First hit raycaster for bcc grid images don't look pretty yet |
vu16 | The base class for lightfield volume data in the vuVolume data tree |
vu161 | |
vu1611< SIZE, TYPE > | |
vu1611_1< SIZE, TYPE > | A spherical lightfield browser allows to browse throw all views |
vu1611_2< SIZE, TYPE > | An Image Based Renderer for spherical lightfields |
vu1611_3< SIZE, TYPE > | |
vu1611_4< SIZE, TYPE > | An Fourier Based Renderer for spherical lightfields |
vu1611_ST | |
vu17 | The base class for fourier volume data in the vuVolume data tree |
vu171 | The base class for fourier unimodal volume data in the vuVolume data tree |
vu1712< SIZE > | The base class for fourier unimodal 3d data in the vuVolume data tree |
vu1712_1< SIZE > | Implements the standard FVR rendering method |
vuArcBall | Provides arc ball control for a vuCamera |
vuBasicGLCanvas | The Basic gl canvas class that comes with the vuBasicUtility |
vuBasicLightfieldConverter | |
vuBasicSubViewer | |
vuBasicSubViewerCanvas | |
vuBasicSubWindow | |
vuBasicUtility | A minimal implementation of the vuUtilityWindow that can be used to quickly create utility windows |
vuBCCFirstHitRaycaster | A utility window for raycasting with a spectral colour model |
vuBCCMarchingTetrahedra | A utility window for using Steve's more general splatter |
vuBCCRaycaster | A utility window for raycasting BCC grid data |
vuBCCShearWarp | A utility window for shear-warp |
vuBCCSheetSplatter | |
vuBccSplat | A utility window for using Steve's more general splatter |
vuCamera | The camera class controls the parameters associated with a camera |
vuCellProjector | A utility window for using Steve's more general cellProjectorter |
vuColour< S > | General colour class |
vuColour31a | Implementation for the 'full; spectral colour model |
vuColour7a | Implementation for the seven component colour model plus alpha channel |
vuColour9a | Implementation for the seven component colour model plus alpha channel |
vuColourN | VuColourN is a virtual base class for all colours |
vuColourRGBa | Implementation for the RGB colour model plus alpha channel |
vuColourSpecial | Implementation for a colour model with a 'specialized' basis plus alpha channel |
vuColourXYZa | Implementation for the XYZ colour model plus alpha channel |
vuCommandLineTool | |
vuConvert | |
vuConvexHull | |
vuConvexHull::CHPoint | |
vuDrawTools | This class provides basic drawing function using the GUI (wxWindows). This is an alternative to OpenGL rendering allowing more direct frame buffer access |
vuDVector< T > | VuDVector is a templatized dynamic vector class for the volume tree |
vuEvtGenerator | This class will allow me to create a timer event for vuKeyFramer |
vuFBRSubCanvas< SIZE, TYPE > | Canvas for Fourier Based Rendering (FBR) martin-2003-03-27 |
vuFBRSubViewer< SIZE, TYPE > | A sub viewer for Fourier Based Rendering (FBR) martin-2003-03-27 |
vuFileHelper | |
vuFilter | |
vuFixel< SIZE, TYPE > | VuFixel defines a basic template class for a fixel |
vuFixelMap< SIZE, TYPE > | |
vuFixelMap_ST | A FixelMap is comparable to an image |
vuFixelType< TYPE > | |
vuFixelTypeConverter< INPUT_TYPE, OUTPUT_TYPE > | |
vuFourier_IO | |
vuFourierCluster< SIZE, TYPE > | |
vuFourierClusterN< SIZE, TYPE > | |
vuFourierFilter | |
vuFourierVolume< SIZE > | |
vuFourierVolume_IO< S > | |
vuFVR | Created September 2002 By Martin Spindler |
vuFVRarg | |
vuGLCanvas | A specialization of the wxGLCanvas to our project |
vuGrid | This class models a grid |
vuGUI | The application class defined according to the architecture for wxWindows |
vuGuiParser | Parses gui script files into separate sections and generates the corresponding utility |
vuHelpPanel | A very simple panel for displaying some help information, martin-2002-11-?? |
vuHistogram | Class to assist in the creation of various Histograms |
vuHWTimer | This class implements a basic hardware clock on systems that have hardware which support a high performance counter |
vuImage | Hold a spectrum for each pixel on the screen |
vuKeyFrameCanvas | This is supposed to diplay the chart of frames in time.. |
vuKeyFramerDialog | This is the Key Frame Animator for the vuVolume class |
vuKFThread | |
vuLightDial | A multidimensional slider for the light weights! |
vuLightfieldFile | |
vuLock | Using this class to trigger a mutex prevents from forgetting unlock() |
vuMainWindow | The main class of the GUI Tool. It implements the main window and the general functionality |
vuMap | Class to handle remapping intensities |
vuMarchingCubes | A utility window for the marching cubes algorithm on regular unimodal grids |
vuMatrix | 4x4 matrix that works in conjunction with the vuVector class (a 3D homogeneous vector) |
vuMCBackgroundChange | |
vuMCBitField | This widget provides GUI elementes to manipulate a bitfield |
vuMCCubeChange | |
vuMCCubeSizeChange | |
vuMCDecorator< t > | Abstract base class for the callback decorator framework in the Marching cubes engine |
vuMCFrameChange | |
vuMCGrayColor | This class provides widgets to change a gray color |
vuMCHistogram | This widget shows a historgram and displayes the value of a bar under the mouse cursor |
vuMCKeyValue | Displays a key-value-pair |
vuMCKeyVector | Displays a key-value-pair where the value is a vector |
vuMCLineColorChange | |
vuMCMCBHistoCallback | |
vuMCMCBProgressCallback | Implementation of the MarchingCubesBase progress callback class |
vuMCNormalLengthChange | |
vuMCObjectColorChange | |
vuMCProgress | |
vuMCRender | |
vuMCResize | |
vuMCRGBColor | Class provides a Button and a slider to manipulate a color |
vuMCSelectType | |
vuMCSlider | The widget provides a slider and to labels to display a title an the actual value |
vuMCThresChange | |
vuMCWidget | Base class of all Marching Cubes spezial widgets |
vuMutex | Wrapper class for POSIX mutex |
vuNormalBlock | |
vuNormalTable | Can quantize a large set of normals to a smaller collection |
vuParallelCamera | This class creates a camera class for orthogonal projections |
vuParser | Provides basic parsing functionality |
vuPerspectiveCamera | Creates a camera for perpective projection |
vuPPM | This class will read/write PPM P6 files into/from a vuImage so that the Key Framer (and possibly others as needed) will be able to read/write Images to disk |
vuPreviewWin | Creates a little subwindow showing a box from a certain perspective |
vuProgressHandler | |
vuRay | Defines a ray with start point and direction |
vuRaycast | A utility window for RGBa raycasting |
ns_vu1112112::vuSampleRay | Defines a Ray using the direction vector as sampling step |
ns_vu1112113::vuSampleRay | Defines a Ray using the direction vector as sampling step |
vuShearWarp | A utility window for shear-warp |
vuSimpleFBR< SIZE, TYPE > | |
vuSimpleFBR1B | |
vuSimpleFBR3B | |
vuSimpleFVRCanvas | |
vuSimpleFVRDialog | A sub viewer |
vuSimpleProgressHandler | |
vuSliceFilter | |
vuSlicer | A utility window for the slicer |
vuSpecFVR | A utility window for fourier volume rendering with a spectral color model |
vuSpecPalette | A graphical interface for designing a spectral palette |
vuSpecSplat | A utility window for the spectral splatter |
vuSpectral | A utility window for raycasting with a spectral color model |
vuSpectralImage | Hold a spectrum for each pixel on the screen |
vuSpherical | A class for representing 3d spherical coordinates |
vuSphericBrowser< SIZE, TYPE > | A utility template for browsing spherical lightfields |
vuSphericBrowser1B | |
vuSphericBrowser1F | |
vuSphericBrowser2F | |
vuSphericBrowser3B | |
vuSphericBrowser3F | |
vuSphericFBR< SIZE, TYPE > | A utility window for Fourier Based Rendering of lightfields |
vuSphericFBR2F | |
vuSphericFilter< SIZE, TYPE > | |
vuSphericFilter_ST | |
vuSphericFilterFactory< SIZE, TYPE > | |
vuSphericFourierBrowser< SIZE, TYPE > | A utility template for browsing spherical lightfields |
vuSphericFourierBrowser2F | |
vuSphericIBR< SIZE, TYPE > | A utility window for Image Based Rendering of lightfields |
vuSphericIBR1B | |
vuSphericIBR1F | |
vuSphericIBR2F | |
vuSphericIBR3B | |
vuSphericIBR3F | |
vuSphericInteractive< SIZE, TYPE > | |
vuSphericLightfieldBasicConverter< SI, TI, SO, TO > | |
vuSphericLightfieldConverter< SI, TI, SO, TO > | |
vuSphericLightfieldConverterFactory | |
vuSphericLightfieldFile< SIZE, TYPE > | |
vuSphericLightfieldFourier< SI, TI, SO, TO > | |
vuSphericLightfieldFourierFactory | |
vuSphericRevolver< SIZE, TYPE > | A utility window for Image Based Rendering of lightfields |
vuSphericRevolver1B | |
vuSphericRevolver1F | |
vuSphericRevolver2F | |
vuSphericRevolver3B | |
vuSphericRevolver3F | |
vuSphericView< SIZE, TYPE > | |
vuSphericView_ST | The vuSphericView template holds all neccessary data for a spherical view |
vuSphericViewFilter< SIZE, TYPE > | |
vuSphericViewFilterFactory< SIZE, TYPE > | |
vuSphericViewWin | |
vuSphLfFlt_All< SIZE, TYPE > | |
vuSphLfFlt_BestMatch< SIZE, TYPE > | |
vuSphLfFlt_FitAngle< SIZE, TYPE > | |
vuSphLfFlt_Line< SIZE, TYPE > | |
vuSphLfFlt_Nearest< SIZE, TYPE > | |
vuSphLfFlt_Triangle< SIZE, TYPE > | |
vuSphLfFlt_XYZ_Axis< SIZE, TYPE > | |
vuSphLfFlt_XZ_Axis< SIZE, TYPE > | |
vuSphLfFlt_Z_Axis< SIZE, TYPE > | |
vuSphVwFlt_Black< SIZE, TYPE > | |
vuSphVwFlt_Blend< SIZE, TYPE > | |
vuSphVwFlt_Fourier< SIZE, TYPE > | |
vuSphVwFlt_Lazy< SIZE, TYPE > | |
vuSplat | A utility window for using Steve's more general splatter |
vuStandardFVR< SIZE > | A utility template for the standard fourier volume renderin |
vuStandardFVR1F | |
vuStandardFVR3F | |
vuStopWatch | Stop watch class for the vuVolume project |
vuString | A string class for the volume tree that's lightweight and doesn't conflict with wxWindows or the standard library |
vuTFDesign | A transfer function based on the one described by Design Galleries |
vuTFDesign::ColourNode | The structure for representing colour nodes |
vuTFDesign::OpacityNode | The structure representing opacity control nodes |
vuTFDesignSpec | A transfer function based on vuTFDesign with specialization on spectral colour models |
vuTFDesignSpec::LightNode | The structure for representing light nodes |
vuTFDialogSpec | A dialog window editor for the vuTFDesignSpec transfer function |
vuTFIntensity | A base class for transfer functions operating only on the intensity of data |
vuTFLinear | A simple linear transfer function |
vuTFPreintegrated | Provides a preintegrated transfer function based on vuTFIntensity class |
vuThread | Class providing basic multithreading functions |
vuTimer | |
vuTorstensFourierFilter | |
vuTransferCanvas | A viewer and editor for the vuTFDesign transfer function |
vuTransferDialog | A dialog window editor for the vuTFDesign transfer function |
vuUDSphere | |
vuUtilityFactory | The factory class for creating vuUtilityWindow implementations |
vuUtilityWindow | The interface for utility windows of the GUI Tool. It must be implemented by all the windows |
vuVector | A class for representing 3d vectors |
vuVHImage | Class to manage import of fre.Z images as used in the visible human project |
wxApp | |
wxCHILDWINDOW | |
wxDialog | |
wxFrame | |
wxGLCanvas | |
wxPanel | |
wxPARENTWINDOW | |
wxTimer | |