/* $XConsortium: pl_oc_dec.c,v 1.14 94/04/17 20:22:36 mor Exp $ */ /* Copyright (c) 1992 X Consortium Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE X CONSORTIUM BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of the X Consortium shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from the X Consortium. */ #include "PEXlib.h" #include "PEXlibint.h" #include "pl_oc_util.h" PEXOCData * PEXDecodeOCs (float_format, oc_count, length, encoded_ocs) INPUT int float_format; INPUT unsigned long oc_count; INPUT unsigned long length; INPUT char *encoded_ocs; { extern void (*(PEX_decode_oc_funcs[]))(); PEXOCData *ocDest, *ocRet; pexElementInfo *elemInfo; char *ocSrc; int i; /* * Allocate a buffer to hold the decoded OC data. */ ocRet = (PEXOCData *) Xmalloc ((unsigned) (oc_count * sizeof (PEXOCData))); /* * Now, decode the OCs. */ ocSrc = encoded_ocs; ocDest = ocRet; for (i = 0; i < oc_count; i++, ocDest++) { GET_STRUCT_PTR (pexElementInfo, ocSrc, elemInfo); ocDest->oc_type = elemInfo->elementType; (*PEX_decode_oc_funcs[elemInfo->elementType]) (float_format, &ocSrc, ocDest); } #ifdef DEBUG if (ocSrc - encoded_ocs != length) { printf ("PEXlib WARNING : Internal error in PEXDecodeOCs :\n"); printf ("Number of bytes parsed not equal to size of input buffer.\n"); } #endif return (ocRet); } void _PEXDecodeEnumType (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexMarkerType *oc; GET_STRUCT_PTR (pexMarkerType, *ocSrc, oc); *ocSrc += SIZEOF (pexMarkerType); ocDest->data.SetMarkerType.marker_type = oc->markerType; } void _PEXDecodeTableIndex (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexMarkerColorIndex *oc; GET_STRUCT_PTR (pexMarkerColorIndex, *ocSrc, oc); *ocSrc += SIZEOF (pexMarkerColorIndex); ocDest->data.SetMarkerColorIndex.index = oc->index; } void _PEXDecodeColor (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexMarkerColor *oc; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); GET_STRUCT_PTR (pexMarkerColor, *ocSrc, oc); *ocSrc += SIZEOF (pexMarkerColor); ocDest->data.SetMarkerColor.color_type = oc->colorType; EXTRACT_COLOR_VAL (*ocSrc, oc->colorType, ocDest->data.SetMarkerColor.color, fpConvert, fpFormat); } void _PEXDecodeFloat (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexMarkerScale *oc; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); GET_STRUCT_PTR (pexMarkerScale, *ocSrc, oc); *ocSrc += SIZEOF (pexMarkerScale); if (fpConvert) { FP_CONVERT_NTOH (oc->scale, ocDest->data.SetMarkerScale.scale, fpFormat); } else ocDest->data.SetMarkerScale.scale = oc->scale; } void _PEXDecodeCARD16 (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexTextPrecision *oc; GET_STRUCT_PTR (pexTextPrecision, *ocSrc, oc); *ocSrc += SIZEOF (pexTextPrecision); ocDest->data.SetTextPrecision.precision = oc->precision; } void _PEXDecodeVector2D (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexCharUpVector *oc; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); GET_STRUCT_PTR (pexCharUpVector, *ocSrc, oc); *ocSrc += SIZEOF (pexCharUpVector); if (fpConvert) { FP_CONVERT_NTOH (oc->up_x, ocDest->data.SetCharUpVector.vector.x, fpFormat); FP_CONVERT_NTOH (oc->up_y, ocDest->data.SetCharUpVector.vector.y, fpFormat); } else { ocDest->data.SetCharUpVector.vector.x = oc->up_x; ocDest->data.SetCharUpVector.vector.y = oc->up_y; } } void _PEXDecodeTextAlignment (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexTextAlignment *oc; GET_STRUCT_PTR (pexTextAlignment, *ocSrc, oc); *ocSrc += SIZEOF (pexTextAlignment); ocDest->data.SetTextAlignment.halignment = oc->alignment_horizontal; ocDest->data.SetTextAlignment.valignment = oc->alignment_vertical; } void _PEXDecodeCurveApprox (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexCurveApprox *oc; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); GET_STRUCT_PTR (pexCurveApprox, *ocSrc, oc); *ocSrc += SIZEOF (pexCurveApprox); ocDest->data.SetCurveApprox.method = oc->approxMethod; if (fpConvert) { FP_CONVERT_NTOH (oc->tolerance, ocDest->data.SetCurveApprox.tolerance, fpFormat); } else ocDest->data.SetCurveApprox.tolerance = oc->tolerance; } void _PEXDecodeReflectionAttr (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { int fpConvert = (fpFormat != NATIVE_FP_FORMAT); *ocSrc += SIZEOF (pexElementInfo); EXTRACT_REFLECTION_ATTR (*ocSrc, ocDest->data.SetReflectionAttributes.attributes, fpConvert, fpFormat); } void _PEXDecodeSurfaceApprox (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexSurfaceApprox *oc; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); GET_STRUCT_PTR (pexSurfaceApprox, *ocSrc, oc); *ocSrc += SIZEOF (pexSurfaceApprox); ocDest->data.SetSurfaceApprox.method = oc->approxMethod; if (fpConvert) { FP_CONVERT_NTOH (oc->uTolerance, ocDest->data.SetSurfaceApprox.utolerance, fpFormat); FP_CONVERT_NTOH (oc->vTolerance, ocDest->data.SetSurfaceApprox.vtolerance, fpFormat); } else { ocDest->data.SetSurfaceApprox.utolerance = oc->uTolerance; ocDest->data.SetSurfaceApprox.vtolerance = oc->vTolerance; } } void _PEXDecodeCullMode (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexFacetCullingMode *oc; GET_STRUCT_PTR (pexFacetCullingMode, *ocSrc, oc); *ocSrc += SIZEOF (pexFacetCullingMode); ocDest->data.SetFacetCullingMode.mode = oc->cullMode; } void _PEXDecodeSwitch (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexFacetDistinguishFlag *oc; GET_STRUCT_PTR (pexFacetDistinguishFlag, *ocSrc, oc); *ocSrc += SIZEOF (pexFacetDistinguishFlag); ocDest->data.SetFacetDistinguishFlag.flag = oc->distinguish; } void _PEXDecodePatternSize (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexPatternSize *oc; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); GET_STRUCT_PTR (pexPatternSize, *ocSrc, oc); *ocSrc += SIZEOF (pexPatternSize); if (fpConvert) { FP_CONVERT_NTOH (oc->size_x, ocDest->data.SetPatternSize.width, fpFormat); FP_CONVERT_NTOH (oc->size_y, ocDest->data.SetPatternSize.height, fpFormat); } else { ocDest->data.SetPatternSize.width = oc->size_x; ocDest->data.SetPatternSize.height = oc->size_y; } } void _PEXDecodePatternAttr2D (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexPatternAttributes2D *oc; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); GET_STRUCT_PTR (pexPatternAttributes2D, *ocSrc, oc); *ocSrc += SIZEOF (pexPatternAttributes2D); if (fpConvert) { FP_CONVERT_NTOH (oc->point_x, ocDest->data.SetPatternAttributes2D.ref_point.x, fpFormat); FP_CONVERT_NTOH (oc->point_y, ocDest->data.SetPatternAttributes2D.ref_point.y, fpFormat); } else { ocDest->data.SetPatternAttributes2D.ref_point.x = oc->point_x; ocDest->data.SetPatternAttributes2D.ref_point.y = oc->point_y; } } void _PEXDecodePatternAttr (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexPatternAttributes *oc; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); GET_STRUCT_PTR (pexPatternAttributes, *ocSrc, oc); *ocSrc += SIZEOF (pexPatternAttributes); if (fpConvert) { FP_CONVERT_NTOH (oc->refPt_x, ocDest->data.SetPatternAttributes.ref_point.x, fpFormat); FP_CONVERT_NTOH (oc->refPt_y, ocDest->data.SetPatternAttributes.ref_point.y, fpFormat); FP_CONVERT_NTOH (oc->refPt_z, ocDest->data.SetPatternAttributes.ref_point.z, fpFormat); FP_CONVERT_NTOH (oc->vector1_x, ocDest->data.SetPatternAttributes.vector1.x, fpFormat); FP_CONVERT_NTOH (oc->vector1_y, ocDest->data.SetPatternAttributes.vector1.y, fpFormat); FP_CONVERT_NTOH (oc->vector1_z, ocDest->data.SetPatternAttributes.vector1.z, fpFormat); FP_CONVERT_NTOH (oc->vector2_x, ocDest->data.SetPatternAttributes.vector2.x, fpFormat); FP_CONVERT_NTOH (oc->vector2_y, ocDest->data.SetPatternAttributes.vector2.y, fpFormat); FP_CONVERT_NTOH (oc->vector2_z, ocDest->data.SetPatternAttributes.vector2.z, fpFormat); } else { ocDest->data.SetPatternAttributes.ref_point.x = oc->refPt_x; ocDest->data.SetPatternAttributes.ref_point.y = oc->refPt_y; ocDest->data.SetPatternAttributes.ref_point.z = oc->refPt_z; ocDest->data.SetPatternAttributes.vector1.x = oc->vector1_x; ocDest->data.SetPatternAttributes.vector1.y = oc->vector1_y; ocDest->data.SetPatternAttributes.vector1.z = oc->vector1_z; ocDest->data.SetPatternAttributes.vector2.x = oc->vector2_x; ocDest->data.SetPatternAttributes.vector2.y = oc->vector2_y; ocDest->data.SetPatternAttributes.vector2.z = oc->vector2_z; } } void _PEXDecodeASF (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexIndividualASF *oc; GET_STRUCT_PTR (pexIndividualASF, *ocSrc, oc); *ocSrc += SIZEOF (pexIndividualASF); ocDest->data.SetIndividualASF.attribute = oc->attribute; ocDest->data.SetIndividualASF.asf = oc->source; } void _PEXDecodeLocalTransform (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { int fpConvert = (fpFormat != NATIVE_FP_FORMAT); *ocSrc += SIZEOF (pexElementInfo); EXTRACT_CARD16 (*ocSrc, ocDest->data.SetLocalTransform.composition); *ocSrc += 2; EXTRACT_LISTOF_FLOAT32 (16, *ocSrc, ocDest->data.SetLocalTransform.transform, fpConvert, fpFormat); } void _PEXDecodeLocalTransform2D (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { int fpConvert = (fpFormat != NATIVE_FP_FORMAT); *ocSrc += SIZEOF (pexElementInfo); EXTRACT_CARD16 (*ocSrc, ocDest->data.SetLocalTransform2D.composition); *ocSrc += 2; EXTRACT_LISTOF_FLOAT32 (9, *ocSrc, ocDest->data.SetLocalTransform2D.transform, fpConvert, fpFormat); } void _PEXDecodeGlobalTransform (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { int fpConvert = (fpFormat != NATIVE_FP_FORMAT); *ocSrc += SIZEOF (pexElementInfo); EXTRACT_LISTOF_FLOAT32 (16, *ocSrc, ocDest->data.SetGlobalTransform.transform, fpConvert, fpFormat); } void _PEXDecodeGlobalTransform2D (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { int fpConvert = (fpFormat != NATIVE_FP_FORMAT); *ocSrc += SIZEOF (pexElementInfo); EXTRACT_LISTOF_FLOAT32 (9, *ocSrc, ocDest->data.SetGlobalTransform2D.transform, fpConvert, fpFormat); } void _PEXDecodeModelClipVolume (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexModelClipVolume *oc; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); GET_STRUCT_PTR (pexModelClipVolume, *ocSrc, oc); *ocSrc += SIZEOF (pexModelClipVolume); ocDest->data.SetModelClipVolume.op = oc->modelClipOperator; ocDest->data.SetModelClipVolume.count = oc->numHalfSpaces; ocDest->data.SetModelClipVolume.half_spaces = (PEXHalfSpace *) Xmalloc ((unsigned) (oc->numHalfSpaces * sizeof (PEXHalfSpace))); EXTRACT_LISTOF_HALFSPACE3D (oc->numHalfSpaces, *ocSrc, ocDest->data.SetModelClipVolume.half_spaces, fpConvert, fpFormat); } void _PEXDecodeModelClipVolume2D (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexModelClipVolume2D *oc; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); GET_STRUCT_PTR (pexModelClipVolume2D, *ocSrc, oc); *ocSrc += SIZEOF (pexModelClipVolume2D); ocDest->data.SetModelClipVolume2D.op = oc->modelClipOperator; ocDest->data.SetModelClipVolume2D.count = oc->numHalfSpaces; ocDest->data.SetModelClipVolume2D.half_spaces = (PEXHalfSpace2D *) Xmalloc ((unsigned) (oc->numHalfSpaces * sizeof (PEXHalfSpace2D))); EXTRACT_LISTOF_HALFSPACE2D (oc->numHalfSpaces, *ocSrc, ocDest->data.SetModelClipVolume2D.half_spaces, fpConvert, fpFormat); } void _PEXDecodeRestoreModelClip (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { /* no data to decode */ *ocSrc += SIZEOF (pexRestoreModelClipVolume); } void _PEXDecodeLightSourceState (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexLightSourceState *oc; GET_STRUCT_PTR (pexLightSourceState, *ocSrc, oc); *ocSrc += SIZEOF (pexLightSourceState); ocDest->data.SetLightSourceState.enable_count = oc->numEnable; ocDest->data.SetLightSourceState.disable_count = oc->numDisable; ocDest->data.SetLightSourceState.enable = (PEXTableIndex *) Xmalloc ((unsigned) (oc->numEnable * sizeof (PEXTableIndex))); ocDest->data.SetLightSourceState.disable = (PEXTableIndex *) Xmalloc ((unsigned) (oc->numDisable * sizeof (PEXTableIndex))); EXTRACT_LISTOF_CARD16 (oc->numEnable, *ocSrc, ocDest->data.SetLightSourceState.enable); if (oc->numEnable & 1) *ocSrc += 2; EXTRACT_LISTOF_CARD16 (oc->numDisable, *ocSrc, ocDest->data.SetLightSourceState.disable); if (oc->numDisable & 1) *ocSrc += 2; } void _PEXDecodeID (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexPickID *oc; GET_STRUCT_PTR (pexPickID, *ocSrc, oc); *ocSrc += SIZEOF (pexPickID); ocDest->data.SetPickID.pick_id = oc->pickId; } void _PEXDecodePSC (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexParaSurfCharacteristics *oc; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); GET_STRUCT_PTR (pexParaSurfCharacteristics, *ocSrc, oc); *ocSrc += SIZEOF (pexParaSurfCharacteristics); ocDest->data.SetParaSurfCharacteristics.psc_type = oc->characteristics; switch (oc->characteristics) { case PEXPSCIsoCurves: { EXTRACT_PSC_ISOCURVES (*ocSrc, ocDest->data.SetParaSurfCharacteristics.characteristics.iso_curves); break; } case PEXPSCMCLevelCurves: case PEXPSCWCLevelCurves: { PEXPSCLevelCurves *levelDest = (PEXPSCLevelCurves *) &ocDest->data.SetParaSurfCharacteristics.characteristics.level_curves; EXTRACT_PSC_LEVELCURVES (*ocSrc, (*levelDest), fpConvert, fpFormat); levelDest->parameters = (float *) Xmalloc ( (unsigned) (sizeof (float) * levelDest->count)); EXTRACT_LISTOF_FLOAT32 (levelDest->count, *ocSrc, levelDest->parameters, fpConvert, fpFormat); break; } default: *ocSrc += PADDED_BYTES (oc->length); break; } } void _PEXDecodeNameSet (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexElementInfo *elemInfo; unsigned count; GET_STRUCT_PTR (pexElementInfo, *ocSrc, elemInfo); *ocSrc += SIZEOF (pexElementInfo); ocDest->data.AddToNameSet.count = count = elemInfo->length - 1; ocDest->data.AddToNameSet.names = (PEXName *) Xmalloc (count * sizeof (PEXName)); EXTRACT_LISTOF_CARD32 (count, *ocSrc, ocDest->data.AddToNameSet.names); } void _PEXDecodeExecuteStructure (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexExecuteStructure *oc; GET_STRUCT_PTR (pexExecuteStructure, *ocSrc, oc); *ocSrc += SIZEOF (pexExecuteStructure); ocDest->data.ExecuteStructure.structure = oc->id; } void _PEXDecodeLabel (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexLabel *oc; GET_STRUCT_PTR (pexLabel, *ocSrc, oc); *ocSrc += SIZEOF (pexLabel); ocDest->data.Label.label = oc->label; } void _PEXDecodeApplicationData (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexApplicationData *oc; GET_STRUCT_PTR (pexApplicationData, *ocSrc, oc); *ocSrc += SIZEOF (pexApplicationData); ocDest->data.ApplicationData.length = oc->numElements; ocDest->data.ApplicationData.data = (PEXPointer) Xmalloc ((unsigned) oc->numElements); memcpy (ocDest->data.ApplicationData.data, *ocSrc, oc->numElements); *ocSrc += PADDED_BYTES (oc->numElements); } void _PEXDecodeGSE (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexGSE *oc; GET_STRUCT_PTR (pexGSE, *ocSrc, oc); *ocSrc += SIZEOF (pexGSE); ocDest->data.GSE.id = oc->id; ocDest->data.GSE.length = oc->numElements; ocDest->data.GSE.data = (char *) Xmalloc ((unsigned) oc->numElements); memcpy (ocDest->data.GSE.data, *ocSrc, oc->numElements); *ocSrc += PADDED_BYTES (oc->numElements); } void _PEXDecodeMarkers (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexMarkers *oc; unsigned count; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); GET_STRUCT_PTR (pexMarkers, *ocSrc, oc); *ocSrc += SIZEOF (pexMarkers); ocDest->data.Markers.count = count = (SIZEOF (CARD32) * ((int) oc->oc_length - 1)) / SIZEOF (pexCoord3D); ocDest->data.Markers.points = (PEXCoord *) Xmalloc (count * sizeof (PEXCoord)); EXTRACT_LISTOF_COORD3D (count, *ocSrc, ocDest->data.Markers.points, fpConvert, fpFormat); } void _PEXDecodeMarkers2D (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexMarkers2D *oc; unsigned count; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); GET_STRUCT_PTR (pexMarkers2D, *ocSrc, oc); *ocSrc += SIZEOF (pexMarkers2D); ocDest->data.Markers2D.count = count = (SIZEOF (CARD32) * ((int) oc->oc_length - 1)) / SIZEOF (pexCoord2D); ocDest->data.Markers2D.points = (PEXCoord2D *) Xmalloc (count * sizeof (PEXCoord2D)); EXTRACT_LISTOF_COORD2D (count, *ocSrc, ocDest->data.Markers2D.points, fpConvert, fpFormat); } void _PEXDecodePolyline (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexPolyline *oc; unsigned count; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); GET_STRUCT_PTR (pexPolyline, *ocSrc, oc); *ocSrc += SIZEOF (pexPolyline); ocDest->data.Polyline.count = count = (SIZEOF (CARD32) * ((int) oc->oc_length - 1)) / SIZEOF (pexCoord3D); ocDest->data.Polyline.points = (PEXCoord *) Xmalloc (count * sizeof (PEXCoord)); EXTRACT_LISTOF_COORD3D (count, *ocSrc, ocDest->data.Polyline.points, fpConvert, fpFormat); } void _PEXDecodePolyline2D (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexPolyline2D *oc; unsigned count; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); GET_STRUCT_PTR (pexPolyline2D, *ocSrc, oc); *ocSrc += SIZEOF (pexPolyline2D); ocDest->data.Polyline2D.count = count = (SIZEOF (CARD32) * ((int) oc->oc_length - 1)) / SIZEOF (pexCoord2D); ocDest->data.Polyline2D.points = (PEXCoord2D *) Xmalloc (count * sizeof (PEXCoord2D)); EXTRACT_LISTOF_COORD2D (count, *ocSrc, ocDest->data.Polyline2D.points, fpConvert, fpFormat); } void _PEXDecodeText (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { /* Text is always mono encoded */ pexText *oc; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); GET_STRUCT_PTR (pexText, *ocSrc, oc); *ocSrc += SIZEOF (pexText); if (fpConvert) { FP_CONVERT_NTOH (oc->origin_x, ocDest->data.EncodedText.origin.x, fpFormat); FP_CONVERT_NTOH (oc->origin_y, ocDest->data.EncodedText.origin.y, fpFormat); FP_CONVERT_NTOH (oc->origin_z, ocDest->data.EncodedText.origin.z, fpFormat); FP_CONVERT_NTOH (oc->vector1_x, ocDest->data.EncodedText.vector1.x, fpFormat); FP_CONVERT_NTOH (oc->vector1_y, ocDest->data.EncodedText.vector1.y, fpFormat); FP_CONVERT_NTOH (oc->vector1_z, ocDest->data.EncodedText.vector1.z, fpFormat); FP_CONVERT_NTOH (oc->vector2_x, ocDest->data.EncodedText.vector2.x, fpFormat); FP_CONVERT_NTOH (oc->vector2_y, ocDest->data.EncodedText.vector2.y, fpFormat); FP_CONVERT_NTOH (oc->vector2_z, ocDest->data.EncodedText.vector2.z, fpFormat); } else { ocDest->data.EncodedText.origin.x = oc->origin_x; ocDest->data.EncodedText.origin.y = oc->origin_y; ocDest->data.EncodedText.origin.z = oc->origin_z; ocDest->data.EncodedText.vector1.x = oc->vector1_x; ocDest->data.EncodedText.vector1.y = oc->vector1_y; ocDest->data.EncodedText.vector1.z = oc->vector1_z; ocDest->data.EncodedText.vector2.x = oc->vector2_x; ocDest->data.EncodedText.vector2.y = oc->vector2_y; ocDest->data.EncodedText.vector2.z = oc->vector2_z; } ocDest->data.EncodedText.count = oc->numEncodings; ocDest->data.EncodedText.encoded_text = (PEXEncodedTextData *) Xmalloc ((unsigned) (oc->numEncodings * sizeof (PEXEncodedTextData))); EXTRACT_LISTOF_MONOENCODING (oc->numEncodings, *ocSrc, ocDest->data.EncodedText.encoded_text); } void _PEXDecodeText2D (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { /* Text is always mono encoded */ pexText2D *oc; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); GET_STRUCT_PTR (pexText2D, *ocSrc, oc); *ocSrc += SIZEOF (pexText2D); if (fpConvert) { FP_CONVERT_NTOH (oc->origin_x, ocDest->data.EncodedText2D.origin.x, fpFormat); FP_CONVERT_NTOH (oc->origin_y, ocDest->data.EncodedText2D.origin.y, fpFormat); } else { ocDest->data.EncodedText2D.origin.x = oc->origin_x; ocDest->data.EncodedText2D.origin.y = oc->origin_y; } ocDest->data.EncodedText2D.count = oc->numEncodings; ocDest->data.EncodedText2D.encoded_text = (PEXEncodedTextData *) Xmalloc ((unsigned) (oc->numEncodings * sizeof (PEXEncodedTextData))); EXTRACT_LISTOF_MONOENCODING (oc->numEncodings, *ocSrc, ocDest->data.EncodedText2D.encoded_text); } void _PEXDecodeAnnoText (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { /* Anno Text is always mono encoded */ pexAnnotationText *oc; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); GET_STRUCT_PTR (pexAnnotationText, *ocSrc, oc); *ocSrc += SIZEOF (pexAnnotationText); if (fpConvert) { FP_CONVERT_NTOH (oc->origin_x, ocDest->data.EncodedAnnoText.origin.x, fpFormat); FP_CONVERT_NTOH (oc->origin_y, ocDest->data.EncodedAnnoText.origin.y, fpFormat); FP_CONVERT_NTOH (oc->origin_z, ocDest->data.EncodedAnnoText.origin.z, fpFormat); FP_CONVERT_NTOH (oc->offset_x, ocDest->data.EncodedAnnoText.offset.x, fpFormat); FP_CONVERT_NTOH (oc->offset_y, ocDest->data.EncodedAnnoText.offset.y, fpFormat); FP_CONVERT_NTOH (oc->offset_z, ocDest->data.EncodedAnnoText.offset.z, fpFormat); } else { ocDest->data.EncodedAnnoText.origin.x = oc->origin_x; ocDest->data.EncodedAnnoText.origin.y = oc->origin_y; ocDest->data.EncodedAnnoText.origin.z = oc->origin_z; ocDest->data.EncodedAnnoText.offset.x = oc->offset_x; ocDest->data.EncodedAnnoText.offset.y = oc->offset_y; ocDest->data.EncodedAnnoText.offset.z = oc->offset_z; } ocDest->data.EncodedAnnoText.count = oc->numEncodings; ocDest->data.EncodedAnnoText.encoded_text = (PEXEncodedTextData *) Xmalloc ((unsigned) (oc->numEncodings * sizeof (PEXEncodedTextData))); EXTRACT_LISTOF_MONOENCODING (oc->numEncodings, *ocSrc, ocDest->data.EncodedAnnoText.encoded_text); } void _PEXDecodeAnnoText2D (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { /* Anno Text is always mono encoded */ pexAnnotationText2D *oc; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); GET_STRUCT_PTR (pexAnnotationText2D, *ocSrc, oc); *ocSrc += SIZEOF (pexAnnotationText2D); if (fpConvert) { FP_CONVERT_NTOH (oc->origin_x, ocDest->data.EncodedAnnoText2D.origin.x, fpFormat); FP_CONVERT_NTOH (oc->origin_y, ocDest->data.EncodedAnnoText2D.origin.y, fpFormat); FP_CONVERT_NTOH (oc->offset_x, ocDest->data.EncodedAnnoText2D.offset.x, fpFormat); FP_CONVERT_NTOH (oc->offset_y, ocDest->data.EncodedAnnoText2D.offset.y, fpFormat); } else { ocDest->data.EncodedAnnoText2D.origin.x = oc->origin_x; ocDest->data.EncodedAnnoText2D.origin.y = oc->origin_y; ocDest->data.EncodedAnnoText2D.offset.x = oc->offset_x; ocDest->data.EncodedAnnoText2D.offset.y = oc->offset_y; } ocDest->data.EncodedAnnoText2D.count = oc->numEncodings; ocDest->data.EncodedAnnoText2D.encoded_text = (PEXEncodedTextData *) Xmalloc ((unsigned) (oc->numEncodings * sizeof (PEXEncodedTextData))); EXTRACT_LISTOF_MONOENCODING (oc->numEncodings, *ocSrc, ocDest->data.EncodedAnnoText2D.encoded_text); } void _PEXDecodePolylineSet (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexPolylineSetWithData *oc; PEXListOfVertex *plset; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); int vertexSize; int i; GET_STRUCT_PTR (pexPolylineSetWithData, *ocSrc, oc); *ocSrc += SIZEOF (pexPolylineSetWithData); ocDest->data.PolylineSetWithData.vertex_attributes = oc->vertexAttribs; ocDest->data.PolylineSetWithData.color_type = oc->colorType; ocDest->data.PolylineSetWithData.count = oc->numLists; ocDest->data.PolylineSetWithData.vertex_lists = plset = (PEXListOfVertex *) Xmalloc ((unsigned) (oc->numLists * sizeof (PEXListOfVertex))); vertexSize = GetClientVertexSize (oc->colorType, oc->vertexAttribs); for (i = 0; i < oc->numLists; i++, plset++) { EXTRACT_CARD32 (*ocSrc, plset->count); plset->vertices.no_data = (PEXCoord *) Xmalloc ( (unsigned) (plset->count * vertexSize)); EXTRACT_LISTOF_VERTEX (plset->count, *ocSrc, vertexSize, oc->colorType, oc->vertexAttribs, plset->vertices, fpConvert, fpFormat); } } void _PEXDecodeNURBCurve (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexNURBCurve *oc; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); GET_STRUCT_PTR (pexNURBCurve, *ocSrc, oc); *ocSrc += SIZEOF (pexNURBCurve); ocDest->data.NURBCurve.rationality = oc->coordType; ocDest->data.NURBCurve.order = oc->curveOrder; ocDest->data.NURBCurve.count = oc->numPoints; if (fpConvert) { FP_CONVERT_NTOH (oc->tmin, ocDest->data.NURBCurve.tmin, fpFormat); FP_CONVERT_NTOH (oc->tmax, ocDest->data.NURBCurve.tmax, fpFormat); } else { ocDest->data.NURBCurve.tmin = oc->tmin; ocDest->data.NURBCurve.tmax = oc->tmax; } ocDest->data.NURBCurve.knots = (float *) Xmalloc ((unsigned) (oc->numKnots * sizeof (float))); EXTRACT_LISTOF_FLOAT32 (oc->numKnots, *ocSrc, ocDest->data.NURBCurve.knots, fpConvert, fpFormat); if (oc->coordType == PEXRational) { ocDest->data.NURBCurve.points.point_4d = (PEXCoord4D *) Xmalloc ( (unsigned) (oc->numPoints * sizeof (PEXCoord4D))); EXTRACT_LISTOF_COORD4D (oc->numPoints, *ocSrc, ocDest->data.NURBCurve.points.point_4d, fpConvert, fpFormat); } else { ocDest->data.NURBCurve.points.point = (PEXCoord *) Xmalloc ( (unsigned) (oc->numPoints * sizeof (PEXCoord))); EXTRACT_LISTOF_COORD3D (oc->numPoints, *ocSrc, ocDest->data.NURBCurve.points.point, fpConvert, fpFormat); } } void _PEXDecodeFillArea (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexFillArea *oc; unsigned count; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); GET_STRUCT_PTR (pexFillArea, *ocSrc, oc); *ocSrc += SIZEOF (pexFillArea); ocDest->data.FillArea.shape_hint = oc->shape; ocDest->data.FillArea.ignore_edges = oc->ignoreEdges; ocDest->data.FillArea.count = count = (SIZEOF (CARD32) * ((int) oc->oc_length - 2)) / SIZEOF (pexCoord3D); ocDest->data.FillArea.points = (PEXCoord *) Xmalloc (count * sizeof (PEXCoord)); EXTRACT_LISTOF_COORD3D (count, *ocSrc, ocDest->data.FillArea.points, fpConvert, fpFormat); } void _PEXDecodeFillArea2D (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexFillArea2D *oc; unsigned count; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); GET_STRUCT_PTR (pexFillArea2D, *ocSrc, oc); *ocSrc += SIZEOF (pexFillArea2D); ocDest->data.FillArea2D.shape_hint = oc->shape; ocDest->data.FillArea2D.ignore_edges = oc->ignoreEdges; ocDest->data.FillArea2D.count = count = (SIZEOF (CARD32) * ((int) oc->oc_length - 2)) / SIZEOF (pexCoord2D); ocDest->data.FillArea2D.points = (PEXCoord2D *) Xmalloc (count * sizeof (PEXCoord2D)); EXTRACT_LISTOF_COORD2D (count, *ocSrc, ocDest->data.FillArea2D.points, fpConvert, fpFormat); } void _PEXDecodeFillAreaWithData (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexFillAreaWithData *oc; CARD32 count; int vertexSize; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); GET_STRUCT_PTR (pexFillAreaWithData, *ocSrc, oc); *ocSrc += SIZEOF (pexFillAreaWithData); ocDest->data.FillAreaWithData.shape_hint = oc->shape; ocDest->data.FillAreaWithData.ignore_edges = oc->ignoreEdges; ocDest->data.FillAreaWithData.facet_attributes = oc->facetAttribs; ocDest->data.FillAreaWithData.vertex_attributes = oc->vertexAttribs; ocDest->data.FillAreaWithData.color_type = oc->colorType; if (oc->facetAttribs) { EXTRACT_FACET (*ocSrc, oc->colorType, oc->facetAttribs, ocDest->data.FillAreaWithData.facet_data, fpConvert, fpFormat); } EXTRACT_CARD32 (*ocSrc, count); ocDest->data.FillAreaWithData.count = count; vertexSize = GetClientVertexSize (oc->colorType, oc->vertexAttribs); ocDest->data.FillAreaWithData.vertices.no_data = (PEXCoord *) Xmalloc ((unsigned) (count * vertexSize)); EXTRACT_LISTOF_VERTEX (count, *ocSrc, vertexSize, oc->colorType, oc->vertexAttribs, ocDest->data.FillAreaWithData.vertices, fpConvert, fpFormat); } void _PEXDecodeFillAreaSet (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexFillAreaSet *oc; PEXListOfCoord *pList; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); int i; GET_STRUCT_PTR (pexFillAreaSet, *ocSrc, oc); *ocSrc += SIZEOF (pexFillAreaSet); ocDest->data.FillAreaSet.shape_hint = oc->shape; ocDest->data.FillAreaSet.ignore_edges = oc->ignoreEdges; ocDest->data.FillAreaSet.contour_hint = oc->contourHint; ocDest->data.FillAreaSet.count = oc->numLists; ocDest->data.FillAreaSet.point_lists = pList = (PEXListOfCoord *) Xmalloc ((unsigned) (oc->numLists * sizeof (PEXListOfCoord))); for (i = 0; i < oc->numLists; i++, pList++) { EXTRACT_CARD32 (*ocSrc, pList->count); pList->points = (PEXCoord *) Xmalloc ((unsigned) (pList->count * sizeof (PEXCoord))); EXTRACT_LISTOF_COORD3D (pList->count, *ocSrc, pList->points, fpConvert, fpFormat); } } void _PEXDecodeFillAreaSet2D (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexFillAreaSet2D *oc; PEXListOfCoord2D *pList; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); int i; GET_STRUCT_PTR (pexFillAreaSet2D, *ocSrc, oc); *ocSrc += SIZEOF (pexFillAreaSet2D); ocDest->data.FillAreaSet2D.shape_hint = oc->shape; ocDest->data.FillAreaSet2D.ignore_edges = oc->ignoreEdges; ocDest->data.FillAreaSet2D.contour_hint = oc->contourHint; ocDest->data.FillAreaSet2D.count = oc->numLists; ocDest->data.FillAreaSet2D.point_lists = pList = (PEXListOfCoord2D *) Xmalloc ((unsigned) (oc->numLists * sizeof (PEXListOfCoord2D))); for (i = 0; i < oc->numLists; i++, pList++) { EXTRACT_CARD32 (*ocSrc, pList->count); pList->points = (PEXCoord2D *) Xmalloc ((unsigned) (pList->count * sizeof (PEXCoord2D))); EXTRACT_LISTOF_COORD2D (pList->count, *ocSrc, pList->points, fpConvert, fpFormat); } } void _PEXDecodeFillAreaSetWithData (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexFillAreaSetWithData *oc; PEXListOfVertex *pList; int vertexSize, i; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); GET_STRUCT_PTR (pexFillAreaSetWithData, *ocSrc, oc); *ocSrc += SIZEOF (pexFillAreaSetWithData); ocDest->data.FillAreaSetWithData.shape_hint = oc->shape; ocDest->data.FillAreaSetWithData.ignore_edges = oc->ignoreEdges; ocDest->data.FillAreaSetWithData.contour_hint = oc->contourHint; ocDest->data.FillAreaSetWithData.facet_attributes = oc->facetAttribs; ocDest->data.FillAreaSetWithData.vertex_attributes = oc->vertexAttribs; ocDest->data.FillAreaSetWithData.color_type = oc->colorType; if (oc->facetAttribs) { EXTRACT_FACET (*ocSrc, oc->colorType, oc->facetAttribs, ocDest->data.FillAreaSetWithData.facet_data, fpConvert, fpFormat); } ocDest->data.FillAreaSetWithData.count = oc->numLists; ocDest->data.FillAreaSetWithData.vertex_lists = pList = (PEXListOfVertex *) Xmalloc ((unsigned) (oc->numLists * sizeof (PEXListOfVertex))); vertexSize = GetClientVertexSize (oc->colorType, oc->vertexAttribs); if (oc->vertexAttribs & PEXGAEdges) vertexSize += sizeof (unsigned int); for (i = 0; i < oc->numLists; i++, pList++) { EXTRACT_CARD32 (*ocSrc, pList->count); pList->vertices.no_data = (PEXCoord *) Xmalloc ( (unsigned) (pList->count * vertexSize)); EXTRACT_LISTOF_VERTEX (pList->count, *ocSrc, vertexSize, oc->colorType, oc->vertexAttribs, pList->vertices, fpConvert, fpFormat); } } void _PEXDecodeTriangleStrip (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexTriangleStrip *oc; int facetSize; int vertexSize; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); GET_STRUCT_PTR (pexTriangleStrip, *ocSrc, oc); *ocSrc += SIZEOF (pexTriangleStrip); ocDest->data.TriangleStrip.facet_attributes = oc->facetAttribs; ocDest->data.TriangleStrip.vertex_attributes = oc->vertexAttribs; ocDest->data.TriangleStrip.color_type = oc->colorType; ocDest->data.TriangleStrip.count = oc->numVertices; if (oc->facetAttribs) { facetSize = GetClientFacetSize (oc->colorType, oc->facetAttribs); ocDest->data.TriangleStrip.facet_data.index = (PEXColorIndexed *) Xmalloc ((unsigned) ((oc->numVertices - 2) * facetSize)); EXTRACT_LISTOF_FACET ((oc->numVertices - 2), *ocSrc, facetSize, oc->colorType, oc->facetAttribs, ocDest->data.TriangleStrip.facet_data, fpConvert, fpFormat); } else ocDest->data.TriangleStrip.facet_data.index = NULL; vertexSize = GetClientVertexSize (oc->colorType, oc->vertexAttribs); ocDest->data.TriangleStrip.vertices.no_data = (PEXCoord *) Xmalloc ((unsigned) (oc->numVertices * vertexSize)); EXTRACT_LISTOF_VERTEX (oc->numVertices, *ocSrc, vertexSize, oc->colorType, oc->vertexAttribs, ocDest->data.TriangleStrip.vertices, fpConvert, fpFormat); } void _PEXDecodeQuadMesh (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexQuadrilateralMesh *oc; int count; int facetSize; int vertexSize; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); GET_STRUCT_PTR (pexQuadrilateralMesh, *ocSrc, oc); *ocSrc += SIZEOF (pexQuadrilateralMesh); ocDest->data.QuadrilateralMesh.shape_hint = oc->shape; ocDest->data.QuadrilateralMesh.facet_attributes = oc->facetAttribs; ocDest->data.QuadrilateralMesh.vertex_attributes = oc->vertexAttribs; ocDest->data.QuadrilateralMesh.color_type = oc->colorType; ocDest->data.QuadrilateralMesh.col_count = oc->mPts; ocDest->data.QuadrilateralMesh.row_count = oc->nPts; if (oc->facetAttribs) { facetSize = GetClientFacetSize (oc->colorType, oc->facetAttribs); count = (oc->mPts - 1) * (oc->nPts - 1); ocDest->data.QuadrilateralMesh.facet_data.index = (PEXColorIndexed *) Xmalloc ((unsigned) (count * facetSize)); EXTRACT_LISTOF_FACET (count, *ocSrc, facetSize, oc->colorType, oc->facetAttribs, ocDest->data.QuadrilateralMesh.facet_data, fpConvert, fpFormat); } else ocDest->data.QuadrilateralMesh.facet_data.index = NULL; vertexSize = GetClientVertexSize (oc->colorType, oc->vertexAttribs); count = oc->mPts * oc->nPts; ocDest->data.QuadrilateralMesh.vertices.no_data = (PEXCoord *) Xmalloc ((unsigned) (count * vertexSize)); EXTRACT_LISTOF_VERTEX (count, *ocSrc, vertexSize, oc->colorType, oc->vertexAttribs, ocDest->data.QuadrilateralMesh.vertices, fpConvert, fpFormat); } void _PEXDecodeSOFA (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexSetOfFillAreaSets *oc; PEXConnectivityData *pCon; PEXListOfUShort *pList; int cbytes; int facetSize; int vertexSize; int i, j; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); GET_STRUCT_PTR (pexSetOfFillAreaSets, *ocSrc, oc); *ocSrc += SIZEOF (pexSetOfFillAreaSets); ocDest->data.SetOfFillAreaSets.shape_hint = oc->shape; ocDest->data.SetOfFillAreaSets.facet_attributes = oc->FAS_Attributes; ocDest->data.SetOfFillAreaSets.vertex_attributes = oc->vertexAttributes; ocDest->data.SetOfFillAreaSets.edge_attributes = (oc->edgeAttributes == PEXOn) ? PEXGAEdges : 0; ocDest->data.SetOfFillAreaSets.contour_hint = oc->contourHint; ocDest->data.SetOfFillAreaSets.contours_all_one = oc->contourCountsFlag; ocDest->data.SetOfFillAreaSets.color_type = oc->colorType; ocDest->data.SetOfFillAreaSets.set_count = oc->numFAS; ocDest->data.SetOfFillAreaSets.vertex_count = oc->numVertices; ocDest->data.SetOfFillAreaSets.index_count = oc->numEdges; if (oc->FAS_Attributes) { facetSize = GetClientFacetSize (oc->colorType, oc->FAS_Attributes); ocDest->data.SetOfFillAreaSets.facet_data.index = (PEXColorIndexed *) Xmalloc ((unsigned) (oc->numFAS * facetSize)); EXTRACT_LISTOF_FACET (oc->numFAS, *ocSrc, facetSize, oc->colorType, oc->FAS_Attributes, ocDest->data.SetOfFillAreaSets.facet_data, fpConvert, fpFormat); } else ocDest->data.SetOfFillAreaSets.facet_data.index = NULL; vertexSize = GetClientVertexSize (oc->colorType, oc->vertexAttributes); ocDest->data.SetOfFillAreaSets.vertices.no_data = (PEXCoord *) Xmalloc ((unsigned) (oc->numVertices * vertexSize)); EXTRACT_LISTOF_VERTEX (oc->numVertices, *ocSrc, vertexSize, oc->colorType, oc->vertexAttributes, ocDest->data.SetOfFillAreaSets.vertices, fpConvert, fpFormat); if (oc->edgeAttributes) { unsigned int size = oc->numEdges * sizeof (CARD8); ocDest->data.SetOfFillAreaSets.edge_flags = (PEXSwitch *) Xmalloc (size); memcpy (ocDest->data.SetOfFillAreaSets.edge_flags, *ocSrc, size); *ocSrc += PADDED_BYTES (size); } else ocDest->data.SetOfFillAreaSets.edge_flags = NULL; ocDest->data.SetOfFillAreaSets.connectivity = pCon = (PEXConnectivityData *) Xmalloc ((unsigned) (oc->numFAS * sizeof (PEXConnectivityData))); for (i = 0; i < (int) oc->numFAS; i++, pCon++) { EXTRACT_CARD16 (*ocSrc, pCon->count); pCon->lists = pList = (PEXListOfUShort *) Xmalloc ((unsigned) (pCon->count * sizeof (PEXListOfUShort))); for (j = 0; j < (int) pCon->count; j++, pList++) { EXTRACT_CARD16 (*ocSrc, pList->count); pList->shorts = (unsigned short *) Xmalloc ( (unsigned) (pList->count * sizeof (unsigned short))); EXTRACT_LISTOF_CARD16 (pList->count, *ocSrc, pList->shorts); } } cbytes = SIZEOF (CARD16) * (oc->numFAS + oc->numContours + oc->numEdges); *ocSrc += PAD (cbytes); } void _PEXDecodeNURBSurface (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexNURBSurface *oc; PEXListOfTrimCurve *pList; pexTrimCurve *trimSrc; PEXTrimCurve *trimDest; unsigned count; int i, j; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); GET_STRUCT_PTR (pexNURBSurface, *ocSrc, oc); *ocSrc += SIZEOF (pexNURBSurface); ocDest->data.NURBSurface.rationality = oc->type; ocDest->data.NURBSurface.uorder = oc->uOrder; ocDest->data.NURBSurface.vorder = oc->vOrder; ocDest->data.NURBSurface.col_count = oc->mPts; ocDest->data.NURBSurface.row_count = oc->nPts; count = oc->uOrder + oc->mPts; ocDest->data.NURBSurface.uknots = (float *) Xmalloc (count * sizeof (float)); EXTRACT_LISTOF_FLOAT32 (count, *ocSrc, ocDest->data.NURBSurface.uknots, fpConvert, fpFormat); count = oc->vOrder + oc->nPts; ocDest->data.NURBSurface.vknots = (float *) Xmalloc (count * sizeof (float)); EXTRACT_LISTOF_FLOAT32 (count, *ocSrc, ocDest->data.NURBSurface.vknots, fpConvert, fpFormat); count = oc->mPts * oc->nPts; if (oc->type == PEXRational) { ocDest->data.NURBSurface.points.point_4d = (PEXCoord4D *) Xmalloc (count * sizeof (PEXCoord4D)); EXTRACT_LISTOF_COORD4D (count, *ocSrc, ocDest->data.NURBSurface.points.point_4d, fpConvert, fpFormat); } else { ocDest->data.NURBSurface.points.point = (PEXCoord *) Xmalloc (count * sizeof (PEXCoord)); EXTRACT_LISTOF_COORD3D (count, *ocSrc, ocDest->data.NURBSurface.points.point, fpConvert, fpFormat); } ocDest->data.NURBSurface.curve_count = oc->numLists; ocDest->data.NURBSurface.trim_curves = pList = (PEXListOfTrimCurve *) Xmalloc ((unsigned) (oc->numLists * sizeof (PEXListOfTrimCurve))); for (i = 0; i < oc->numLists; i++, pList++) { EXTRACT_CARD32 (*ocSrc, pList->count); pList->curves = trimDest = (PEXTrimCurve *) Xmalloc ((unsigned) (pList->count * sizeof (PEXTrimCurve))); for (j = 0; j < (int) pList->count; j++, trimDest++) { GET_STRUCT_PTR (pexTrimCurve, *ocSrc, trimSrc); *ocSrc += SIZEOF (pexTrimCurve); trimDest->visibility = trimSrc->visibility; trimDest->order = trimSrc->order; trimDest->rationality = trimSrc->type; trimDest->approx_method = trimSrc->approxMethod; if (fpConvert) { FP_CONVERT_NTOH (trimSrc->tolerance, trimDest->tolerance, fpFormat); FP_CONVERT_NTOH (trimSrc->tMin, trimDest->tmin, fpFormat); FP_CONVERT_NTOH (trimSrc->tMax, trimDest->tmax, fpFormat); } else { trimDest->tolerance = trimSrc->tolerance; trimDest->tmin = trimSrc->tMin; trimDest->tmax = trimSrc->tMax; } count = trimSrc->order + trimSrc->numCoord; trimDest->knots.count = count; trimDest->knots.floats = (float *) Xmalloc (count * sizeof (float)); EXTRACT_LISTOF_FLOAT32 (count, *ocSrc, trimDest->knots.floats, fpConvert, fpFormat); trimDest->count = trimSrc->numCoord; if (trimSrc->type == PEXRational) { trimDest->control_points.point = (PEXCoord *) Xmalloc ( (unsigned) (trimSrc->numCoord * sizeof (PEXCoord))); EXTRACT_LISTOF_COORD3D (trimSrc->numCoord, *ocSrc, trimDest->control_points.point, fpConvert, fpFormat); } else { trimDest->control_points.point_2d = (PEXCoord2D *) Xmalloc ( (unsigned) (trimSrc->numCoord * sizeof (PEXCoord2D))); EXTRACT_LISTOF_COORD2D (trimSrc->numCoord, *ocSrc, trimDest->control_points.point_2d, fpConvert, fpFormat); } } } } void _PEXDecodeCellArray (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexCellArray *oc; unsigned count; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); GET_STRUCT_PTR (pexCellArray, *ocSrc, oc); *ocSrc += SIZEOF (pexCellArray); if (fpConvert) { FP_CONVERT_NTOH (oc->point1_x, ocDest->data.CellArray.point1.x, fpFormat); FP_CONVERT_NTOH (oc->point1_y, ocDest->data.CellArray.point1.y, fpFormat); FP_CONVERT_NTOH (oc->point1_z, ocDest->data.CellArray.point1.z, fpFormat); FP_CONVERT_NTOH (oc->point2_x, ocDest->data.CellArray.point2.x, fpFormat); FP_CONVERT_NTOH (oc->point2_y, ocDest->data.CellArray.point2.y, fpFormat); FP_CONVERT_NTOH (oc->point2_z, ocDest->data.CellArray.point2.z, fpFormat); FP_CONVERT_NTOH (oc->point3_x, ocDest->data.CellArray.point3.x, fpFormat); FP_CONVERT_NTOH (oc->point3_y, ocDest->data.CellArray.point3.y, fpFormat); FP_CONVERT_NTOH (oc->point3_z, ocDest->data.CellArray.point3.z, fpFormat); } else { ocDest->data.CellArray.point1.x = oc->point1_x; ocDest->data.CellArray.point1.y = oc->point1_y; ocDest->data.CellArray.point1.z = oc->point1_z; ocDest->data.CellArray.point2.x = oc->point2_x; ocDest->data.CellArray.point2.y = oc->point2_y; ocDest->data.CellArray.point2.z = oc->point2_z; ocDest->data.CellArray.point3.x = oc->point3_x; ocDest->data.CellArray.point3.y = oc->point3_y; ocDest->data.CellArray.point3.z = oc->point3_z; } ocDest->data.CellArray.col_count = oc->dx; ocDest->data.CellArray.row_count = oc->dy; count = oc->dx * oc->dy; ocDest->data.CellArray.color_indices = (PEXTableIndex *) Xmalloc (count * sizeof (PEXTableIndex)); EXTRACT_LISTOF_CARD16 (count, *ocSrc, ocDest->data.CellArray.color_indices); if (count & 1) *ocSrc += 2; } void _PEXDecodeCellArray2D (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexCellArray2D *oc; unsigned count; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); GET_STRUCT_PTR (pexCellArray2D, *ocSrc, oc); *ocSrc += SIZEOF (pexCellArray2D); if (fpConvert) { FP_CONVERT_NTOH (oc->point1_x, ocDest->data.CellArray2D.point1.x, fpFormat); FP_CONVERT_NTOH (oc->point1_y, ocDest->data.CellArray2D.point1.y, fpFormat); FP_CONVERT_NTOH (oc->point2_x, ocDest->data.CellArray2D.point2.x, fpFormat); FP_CONVERT_NTOH (oc->point2_y, ocDest->data.CellArray2D.point2.y, fpFormat); } else { ocDest->data.CellArray2D.point1.x = oc->point1_x; ocDest->data.CellArray2D.point1.y = oc->point1_y; ocDest->data.CellArray2D.point2.x = oc->point2_x; ocDest->data.CellArray2D.point2.y = oc->point2_y; } ocDest->data.CellArray2D.col_count = oc->dx; ocDest->data.CellArray2D.row_count = oc->dy; count = oc->dx * oc->dy; ocDest->data.CellArray2D.color_indices = (PEXTableIndex *) Xmalloc (count * sizeof (PEXTableIndex)); EXTRACT_LISTOF_CARD16 (count, *ocSrc, ocDest->data.CellArray2D.color_indices); if (count & 1) *ocSrc += 2; } void _PEXDecodeExtendedCellArray (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexExtendedCellArray *oc; unsigned count; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); GET_STRUCT_PTR (pexExtendedCellArray, *ocSrc, oc); *ocSrc += SIZEOF (pexExtendedCellArray); if (fpConvert) { FP_CONVERT_NTOH (oc->point1_x, ocDest->data.ExtendedCellArray.point1.x, fpFormat); FP_CONVERT_NTOH (oc->point1_y, ocDest->data.ExtendedCellArray.point1.y, fpFormat); FP_CONVERT_NTOH (oc->point1_z, ocDest->data.ExtendedCellArray.point1.z, fpFormat); FP_CONVERT_NTOH (oc->point2_x, ocDest->data.ExtendedCellArray.point2.x, fpFormat); FP_CONVERT_NTOH (oc->point2_y, ocDest->data.ExtendedCellArray.point2.y, fpFormat); FP_CONVERT_NTOH (oc->point2_z, ocDest->data.ExtendedCellArray.point2.z, fpFormat); FP_CONVERT_NTOH (oc->point3_x, ocDest->data.ExtendedCellArray.point3.x, fpFormat); FP_CONVERT_NTOH (oc->point3_y, ocDest->data.ExtendedCellArray.point3.y, fpFormat); FP_CONVERT_NTOH (oc->point3_z, ocDest->data.ExtendedCellArray.point3.z, fpFormat); } else { ocDest->data.ExtendedCellArray.point1.x = oc->point1_x; ocDest->data.ExtendedCellArray.point1.y = oc->point1_y; ocDest->data.ExtendedCellArray.point1.z = oc->point1_z; ocDest->data.ExtendedCellArray.point2.x = oc->point2_x; ocDest->data.ExtendedCellArray.point2.y = oc->point2_y; ocDest->data.ExtendedCellArray.point2.z = oc->point2_z; ocDest->data.ExtendedCellArray.point3.x = oc->point3_x; ocDest->data.ExtendedCellArray.point3.y = oc->point3_y; ocDest->data.ExtendedCellArray.point3.z = oc->point3_z; } ocDest->data.ExtendedCellArray.col_count = oc->dx; ocDest->data.ExtendedCellArray.row_count = oc->dy; ocDest->data.ExtendedCellArray.color_type = oc->colorType; count = oc->dx * oc->dy; ocDest->data.ExtendedCellArray.colors.indexed = (PEXColorIndexed *) Xmalloc (count * GetClientColorSize (oc->colorType)); EXTRACT_LISTOF_COLOR_VAL (count, *ocSrc, oc->colorType, ocDest->data.ExtendedCellArray.colors, fpConvert, fpFormat); } void _PEXDecodeGDP (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexGDP *oc; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); GET_STRUCT_PTR (pexGDP, *ocSrc, oc); *ocSrc += SIZEOF (pexGDP); ocDest->data.GDP.gdp_id = oc->gdpId; ocDest->data.GDP.count = oc->numPoints; ocDest->data.GDP.length = oc->numBytes; ocDest->data.GDP.points = (PEXCoord *) Xmalloc ((unsigned) (oc->numPoints * sizeof (PEXCoord))); EXTRACT_LISTOF_COORD3D (oc->numPoints, *ocSrc, ocDest->data.GDP.points, fpConvert, fpFormat); ocDest->data.GDP.data = (char *) Xmalloc ((unsigned) (oc->numBytes)); memcpy (ocDest->data.GDP.data, *ocSrc, oc->numBytes); *ocSrc += PADDED_BYTES (oc->numBytes); } void _PEXDecodeGDP2D (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { pexGDP2D *oc; int fpConvert = (fpFormat != NATIVE_FP_FORMAT); GET_STRUCT_PTR (pexGDP2D, *ocSrc, oc); *ocSrc += SIZEOF (pexGDP2D); ocDest->data.GDP2D.gdp_id = oc->gdpId; ocDest->data.GDP2D.count = oc->numPoints; ocDest->data.GDP2D.length = oc->numBytes; ocDest->data.GDP2D.points = (PEXCoord2D *) Xmalloc ( (unsigned) (oc->numPoints * sizeof (PEXCoord2D))); EXTRACT_LISTOF_COORD2D (oc->numPoints, *ocSrc, ocDest->data.GDP2D.points, fpConvert, fpFormat); ocDest->data.GDP2D.data = (char *) Xmalloc ((unsigned) oc->numBytes); memcpy (ocDest->data.GDP2D.data, *ocSrc, oc->numBytes); *ocSrc += PADDED_BYTES (oc->numBytes); } void _PEXDecodeNoop (fpFormat, ocSrc, ocDest) int fpFormat; char **ocSrc; PEXOCData *ocDest; { /* no data to decode */ *ocSrc += SIZEOF (pexNoop); }