Ubuntu Manpage: vpExtract - extract one field from a rectangular region of a volume

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Provided by: libvolpack1-dev_1.0b3-10_amd64

NAME

       vpExtract - extract one field from a rectangular region of a volume

SYNOPSIS

       #include <volpack.h>

       vpResult
       vpExtract(vpc,  volume_type,  x0,  y0,  z0,  x1,  y1, z1, field, dst, dst_size, dst_xstride, dst_ystride,
               dst_zstride)
           vpContext *vpc;
           int volume_type;
           int x0, y0, z0;
           int x1, y1, z1;
           int field;
           void *dst;
           int dst_size;
           int dst_xstride, dst_ystride, dst_zstride;

ARGUMENTS

       vpc    VolPack context from vpCreateContext.

       volume_type
              A code indicating  which  volume  data  structure  to  extract  the  region  from  (VP_RAW_VOLUME,
              VP_CLASSIFIED_VOLUME, VP_CLX_VOLUME, VP_CLY_VOLUME or VP_CLZ_VOLUME)

       x0, y0, z0
              Origin of the extracted region in the voxel array.

       x1, y1, z1
              Opposite corner of the extracted region in the voxel array.

       field  A  voxel  field  number  identifying  the  field  to  extract,  or  one  of  these  special codes:
              VP_OPACITY_FIELD, VP_CORRECTED_OPAC_FIELD, VP_COLOR_FIELD.

       dst    Destination array.

       dst_size
              Size of destination array in bytes.

       dst_xstride, dst_ystride, dst_zstride
              Strides (in bytes) for the X, Y and Z dimensions of the destination array.

DESCRIPTION

vpExtract is used to extract one field from a rectangular region of the 3D voxel array or the
preclassified volume and store the result in a separate array. It is also possible to retrieve computed
voxel opacities or colors.

The volume_type argument is used to choose which data structure the region should be extracted from. The
choices are:

VP_RAW_VOLUME
Extract from the 3D voxel array (see vpSetRawVoxels(3)).

VP_CLASSIFIED_VOLUME
Extract from the preclassified volume (see vpClassifyVolume(3)). The are three copies of the
voxel data in the preclassified volume, one for each principal viewing axis. The copy which will
result in the fastest access (best memory stride) is selected.

VP_CLX_VOLUME
Extract from the preclassified volume used for X-axis viewing.

VP_CLY_VOLUME
Extract from the preclassified volume used for Y-axis viewing.

VP_CLZ_VOLUME
Extract from the preclassified volume used for Z-axis viewing.

The last three choices for the volume_type argument are usually used only for debugging.

The next six arguments give the coordinates of the corners of the extracted region in the volume. The
coordinates are indexes into the array.

The field argument is used to select which voxel field to extract. Any of the voxel field numbers
previously specified with vpVoxelField may be specified. The output array must be sized appropriately
for the dimensions of the region and the size of the extracted field. The following special constants
may also be used instead of a voxel field number:

VP_OPACITY_FIELD
Return voxel opacities for voxels in the indicated region. If the 3D voxel array is selected then
the opacities are computed on-the-fly using the current opacity transfer function. The minimum
opacity threshold is ignored. If the preclassified volume is selected then the precomputed
opacities are extracted. Opacities below the minimum opacity threshold at the time the volume was
classified are set to 0. The output array should have type unsigned char, and the opacities are
stored as number between 0 (transparent) and 255 (opaque).

VP_CORRECTED_OPAC_FIELD
This option is the same as the VP_OPACITY_FIELD option, except that voxel opacities are corrected
for the current view transformation. The opacity transfer function is assumed to produce the
opacity of a voxel viewed perpendicular to one face of the volume with no scale factor. If the
voxel has been scaled or rotated with respect to the viewer then the apparent opacity must be
corrected.

VP_COLOR_FIELD
Return voxel colors for voxels in the indicated region. The colors are computed on-the-fly using
the current shading, lighting and material parameters. The output array should have type unsigned
char, and each color channel is stored as number between 0 (off) and 255 (full intensity). The
number of color channels per pixels is determined by the current shading parameters. (Not
currently supported for preclassified volumes.)

The remaining arguments specify the output array, its size (for error checking), and the stride for each
dimension (to allow padding the end of scanlines or storing the result in a higher-dimension array).

ERRORS

       The normal return value is VP_OK.  The following error return values are possible:

       VPERROR_BAD_VALUE
              The  volume  coordinates  are  out  of  bounds  or invalid (x0 > x1, etc.), or the field number is
              invalid.

       VPERROR_BAD_SIZE
              The destination array size is incorrect.

       VPERROR_BAD_VOLUME
              The volume data does not exist.

       VPERROR_BAD_OPTION
              The volume_type argument is invalid.

       VPERROR_BAD_VOLUME
              The volume size or data is missing or invalid.

       VPERROR_BAD_VOXEL
              The voxel fields are incorrectly defined.

       VPERROR_BAD_CLASSIFIER
              The opacity transfer function is incorrectly specified.

       VPERROR_BAD_SHADER
              The shading parameters have been incorrectly specified.

       VPERROR_SINGULAR
              One or more of the view transformation matrices is singular.

NAME

SYNOPSIS

ARGUMENTS

DESCRIPTION

ERRORS

SEE ALSO