/* $XConsortium: pl_pc.c,v 1.13 94/04/17 20:22:42 rws 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. Copyright 1987,1991 by Digital Equipment Corporation, Maynard, Massachusetts All Rights Reserved Permission to use, copy, modify, distribute, and sell this software and its documentation for any purpose is hereby granted without fee, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation, and that the name of Digital not be used in advertising or publicity pertaining to distribution of the software without specific, written prior permission. Digital make no representations about the suitability of this software for any purpose. It is provided "as is" without express or implied warranty. DIGITAL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL DIGITAL BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. ******************************************************************************/ #include "PEXlib.h" #include "PEXlibint.h" static void _PEXGeneratePCList(); PEXPipelineContext PEXCreatePipelineContext (display, valueMask, values) INPUT Display *display; INPUT unsigned long *valueMask; INPUT PEXPCAttributes *values; { register pexCreatePipelineContextReq *req; char *pBuf; PEXPipelineContext pc; int size = 0; char *pList; int fpConvert; int fpFormat; /* * Get a pipeline context resource id from X. */ pc = XAllocID (display); /* * Lock around the critical section, for multithreading. */ LockDisplay (display); /* * Put the request in the X request buffer. */ PEXGetReq (CreatePipelineContext, pBuf); BEGIN_REQUEST_HEADER (CreatePipelineContext, pBuf, req); CHECK_FP (fpConvert, fpFormat); PEXStoreFPReqHead (CreatePipelineContext, fpFormat, req); req->pc = pc; req->itemMask0 = valueMask[0]; req->itemMask1 = valueMask[1]; req->itemMask2 = valueMask[2]; if (valueMask[0] != 0 || valueMask[1] != 0 || valueMask[2] != 0) { _PEXGeneratePCList (display, fpConvert, fpFormat, valueMask, values, &size, &pList); req->length += NUMWORDS (size); } END_REQUEST_HEADER (CreatePipelineContext, pBuf, req); /* * Send the list of values. */ if (size > 0) Data (display, pList, size); /* * Done, so unlock and check for synchronous-ness. */ UnlockDisplay (display); PEXSyncHandle (display); return (pc); } void PEXFreePipelineContext (display, pc) INPUT Display *display; INPUT PEXPipelineContext pc; { register pexFreePipelineContextReq *req; char *pBuf; /* * Lock around the critical section, for multithreading. */ LockDisplay (display); /* * Put the request in the X request buffer. */ PEXGetReq (FreePipelineContext, pBuf); BEGIN_REQUEST_HEADER (FreePipelineContext, pBuf, req); PEXStoreReqHead (FreePipelineContext, req); req->id = pc; END_REQUEST_HEADER (FreePipelineContext, pBuf, req); /* * Done, so unlock and check for synchronous-ness. */ UnlockDisplay (display); PEXSyncHandle (display); } void PEXCopyPipelineContext (display, valueMask, srcPc, destPc) INPUT Display *display; INPUT unsigned long *valueMask; INPUT PEXPipelineContext srcPc; INPUT PEXPipelineContext destPc; { register pexCopyPipelineContextReq *req; char *pBuf; /* * Lock around the critical section, for multithreading. */ LockDisplay (display); /* * Put the request in the X request buffer. */ PEXGetReq (CopyPipelineContext, pBuf); BEGIN_REQUEST_HEADER (CopyPipelineContext, pBuf, req); PEXStoreReqHead (CopyPipelineContext, req); req->src = srcPc; req->dst = destPc; req->itemMask0 = valueMask[0]; req->itemMask1 = valueMask[1]; req->itemMask2 = valueMask[2]; END_REQUEST_HEADER (CopyPipelineContext, pBuf, req); /* * Done, so unlock and check for synchronous-ness. */ UnlockDisplay (display); PEXSyncHandle (display); } PEXPCAttributes * PEXGetPipelineContext (display, pc, valueMask) INPUT Display *display; INPUT PEXPipelineContext pc; INPUT unsigned long *valueMask; { register pexGetPipelineContextReq *req; char *pBuf, *pBufSave; pexGetPipelineContextReply rep; PEXPCAttributes *pAttr; Bool bitSet; unsigned int size; CARD32 count; int n; INT16 pscType; INT16 paramSize; int fpConvert; int fpFormat; /* * Lock around the critical section, for multithreading. */ LockDisplay (display); /* * Put the request in the X request buffer and get a reply. */ PEXGetReq (GetPipelineContext, pBuf); BEGIN_REQUEST_HEADER (GetPipelineContext, pBuf, req); CHECK_FP (fpConvert, fpFormat); PEXStoreFPReqHead (GetPipelineContext, fpFormat, req); req->pc = pc; req->itemMask0 = valueMask[0]; req->itemMask1 = valueMask[1]; req->itemMask2 = valueMask[2]; END_REQUEST_HEADER (GetPipelineContext, pBuf, req); if (_XReply (display, (xReply *)&rep, 0, xFalse) == 0) { UnlockDisplay (display); PEXSyncHandle (display); return (NULL); /* return an error */ } /* * Read the reply data into a scratch buffer. */ XREAD_INTO_SCRATCH (display, pBufSave, rep.length << 2); pBuf = pBufSave; /* * Allocate a buffer for the replies to pass back to the client. */ pAttr = (PEXPCAttributes *) Xmalloc (sizeof (PEXPCAttributes)); pAttr->model_clip_volume.count = 0; pAttr->model_clip_volume.half_spaces = NULL; pAttr->light_state.count = 0; pAttr->light_state.indices = NULL; pAttr->para_surf_char.type = 0; /* * Fill in the PC attributes. */ for (n = 0; n < (PEXPCMaxShift + 1); n++) { bitSet = valueMask[n >> 5] & (1L << (n & 0x1f)); if (bitSet != 0) { switch (n) { case PEXPCMarkerType: EXTRACT_LOV_INT16 (pBuf, pAttr->marker_type); break; case PEXPCMarkerScale: EXTRACT_FLOAT32 (pBuf, pAttr->marker_scale, fpConvert, fpFormat); break; case PEXPCMarkerColor: EXTRACT_COLOR_SPEC (pBuf, pAttr->marker_color, fpConvert, fpFormat); break; case PEXPCMarkerBundleIndex: EXTRACT_LOV_CARD16 (pBuf, pAttr->marker_bundle_index); break; case PEXPCTextFont: EXTRACT_LOV_CARD16 (pBuf, pAttr->text_font); break; case PEXPCTextPrecision: EXTRACT_LOV_CARD16 (pBuf, pAttr->text_precision); break; case PEXPCCharExpansion: EXTRACT_FLOAT32 (pBuf, pAttr->char_expansion, fpConvert, fpFormat); break; case PEXPCCharSpacing: EXTRACT_FLOAT32 (pBuf, pAttr->char_spacing, fpConvert, fpFormat); break; case PEXPCTextColor: EXTRACT_COLOR_SPEC (pBuf, pAttr->text_color, fpConvert, fpFormat); break; case PEXPCCharHeight: EXTRACT_FLOAT32 (pBuf, pAttr->char_height, fpConvert, fpFormat); break; case PEXPCCharUpVector: EXTRACT_VECTOR2D (pBuf, pAttr->char_up_vector, fpConvert, fpFormat); break; case PEXPCTextPath: EXTRACT_LOV_CARD16 (pBuf, pAttr->text_path); break; case PEXPCTextAlignment: EXTRACT_TEXTALIGN (pBuf, pAttr->text_alignment); break; case PEXPCATextHeight: EXTRACT_FLOAT32 (pBuf, pAttr->atext_height, fpConvert, fpFormat); break; case PEXPCATextUpVector: EXTRACT_VECTOR2D (pBuf, pAttr->atext_up_vector, fpConvert, fpFormat); break; case PEXPCATextPath: EXTRACT_LOV_CARD16 (pBuf, pAttr->atext_path); break; case PEXPCATextAlignment: EXTRACT_TEXTALIGN (pBuf, pAttr->atext_alignment); break; case PEXPCATextStyle: EXTRACT_LOV_INT16 (pBuf, pAttr->atext_style); break; case PEXPCTextBundleIndex: EXTRACT_LOV_CARD16 (pBuf, pAttr->text_bundle_index); break; case PEXPCLineType: EXTRACT_LOV_INT16 (pBuf, pAttr->line_type); break; case PEXPCLineWidth: EXTRACT_FLOAT32 (pBuf, pAttr->line_width, fpConvert, fpFormat); break; case PEXPCLineColor: EXTRACT_COLOR_SPEC (pBuf, pAttr->line_color, fpConvert, fpFormat); break; case PEXPCCurveApprox: EXTRACT_LOV_INT16 (pBuf, pAttr->curve_approx.method); EXTRACT_FLOAT32 (pBuf, pAttr->curve_approx.tolerance, fpConvert, fpFormat); break; case PEXPCPolylineInterp: EXTRACT_LOV_INT16 (pBuf, pAttr->polyline_interp); break; case PEXPCLineBundleIndex: EXTRACT_LOV_CARD16 (pBuf, pAttr->line_bundle_index); break; case PEXPCInteriorStyle: EXTRACT_LOV_INT16 (pBuf, pAttr->interior_style); break; case PEXPCInteriorStyleIndex: EXTRACT_LOV_CARD16 (pBuf, pAttr->interior_style_index); break; case PEXPCSurfaceColor: EXTRACT_COLOR_SPEC (pBuf, pAttr->surface_color, fpConvert, fpFormat); break; case PEXPCReflectionAttr: EXTRACT_REFLECTION_ATTR (pBuf, pAttr->reflection_attr, fpConvert, fpFormat); break; case PEXPCReflectionModel: EXTRACT_LOV_INT16 (pBuf, pAttr->reflection_model); break; case PEXPCSurfaceInterp: EXTRACT_LOV_INT16 (pBuf, pAttr->surface_interp); break; case PEXPCBFInteriorStyle: EXTRACT_LOV_INT16 (pBuf, pAttr->bf_interior_style); break; case PEXPCBFInteriorStyleIndex: EXTRACT_LOV_CARD16 (pBuf, pAttr->bf_interior_style_index); break; case PEXPCBFSurfaceColor: EXTRACT_COLOR_SPEC (pBuf, pAttr->bf_surface_color, fpConvert, fpFormat); break; case PEXPCBFReflectionAttr: EXTRACT_REFLECTION_ATTR (pBuf, pAttr->bf_reflection_attr, fpConvert, fpFormat); break; case PEXPCBFReflectionModel: EXTRACT_LOV_INT16 (pBuf, pAttr->bf_reflection_model); break; case PEXPCBFSurfaceInterp: EXTRACT_LOV_INT16 (pBuf, pAttr->bf_surface_interp); break; case PEXPCSurfaceApprox: EXTRACT_LOV_INT16 (pBuf, pAttr->surface_approx.method); EXTRACT_FLOAT32 (pBuf, pAttr->surface_approx.u_tolerance, fpConvert, fpFormat); EXTRACT_FLOAT32 (pBuf, pAttr->surface_approx.v_tolerance, fpConvert, fpFormat); break; case PEXPCCullingMode: EXTRACT_LOV_CARD16 (pBuf, pAttr->culling_mode); break; case PEXPCDistinguishFlag: EXTRACT_LOV_CARD8 (pBuf, pAttr->distinguish); break; case PEXPCPatternSize: EXTRACT_COORD2D (pBuf, pAttr->pattern_size, fpConvert, fpFormat); break; case PEXPCPatternRefPoint: EXTRACT_COORD3D (pBuf, pAttr->pattern_ref_point, fpConvert, fpFormat); break; case PEXPCPatternRefVec1: EXTRACT_VECTOR3D (pBuf, pAttr->pattern_ref_vec1, fpConvert, fpFormat); break; case PEXPCPatternRefVec2: EXTRACT_VECTOR3D (pBuf, pAttr->pattern_ref_vec2, fpConvert, fpFormat); break; case PEXPCInteriorBundleIndex: EXTRACT_LOV_CARD16 (pBuf, pAttr->interior_bundle_index); break; case PEXPCSurfaceEdgeFlag: EXTRACT_LOV_CARD16 (pBuf, pAttr->surface_edges); break; case PEXPCSurfaceEdgeType: EXTRACT_LOV_INT16 (pBuf, pAttr->surface_edge_type); break; case PEXPCSurfaceEdgeWidth: EXTRACT_FLOAT32 (pBuf, pAttr->surface_edge_width, fpConvert, fpFormat); break; case PEXPCSurfaceEdgeColor: EXTRACT_COLOR_SPEC (pBuf, pAttr->surface_edge_color, fpConvert, fpFormat); break; case PEXPCEdgeBundleIndex: EXTRACT_LOV_CARD16 (pBuf, pAttr->edge_bundle_index); break; case PEXPCLocalTransform: EXTRACT_LISTOF_FLOAT32 (16, pBuf, pAttr->local_transform, fpConvert, fpFormat); break; case PEXPCGlobalTransform: EXTRACT_LISTOF_FLOAT32 (16, pBuf, pAttr->global_transform, fpConvert, fpFormat); break; case PEXPCModelClip: EXTRACT_LOV_CARD16 (pBuf, pAttr->model_clip); break; case PEXPCModelClipVolume: EXTRACT_CARD32 (pBuf, count); pAttr->model_clip_volume.count = count; size = count * sizeof (PEXHalfSpace); pAttr->model_clip_volume.half_spaces = (PEXHalfSpace *) Xmalloc (size); EXTRACT_LISTOF_HALFSPACE3D (count, pBuf, pAttr->model_clip_volume.half_spaces, fpConvert, fpFormat); break; case PEXPCViewIndex: EXTRACT_LOV_CARD16 (pBuf, pAttr->view_index); break; case PEXPCLightState: EXTRACT_CARD32 (pBuf, count); pAttr->light_state.count = count; size = count * sizeof (PEXTableIndex); pAttr->light_state.indices = (PEXTableIndex *) Xmalloc (size); EXTRACT_LISTOF_CARD16 (count, pBuf, pAttr->light_state.indices); if (count & 1) pBuf += SIZEOF (CARD16); break; case PEXPCDepthCueIndex: EXTRACT_LOV_CARD16 (pBuf, pAttr->depth_cue_index); break; case PEXPCPickID: EXTRACT_CARD32 (pBuf, pAttr->pick_id); break; case PEXPCHLHSRIdentifier: EXTRACT_CARD32 (pBuf, pAttr->hlhsr_id); break; case PEXPCNameSet: EXTRACT_CARD32 (pBuf, pAttr->name_set); break; case PEXPCASFValues: EXTRACT_CARD32 (pBuf, pAttr->asf_enables); EXTRACT_CARD32 (pBuf, pAttr->asf_values); break; case PEXPCColorApproxIndex: EXTRACT_LOV_CARD16 (pBuf, pAttr->color_approx_index); break; case PEXPCRenderingColorModel: EXTRACT_LOV_INT16 (pBuf, pAttr->rendering_color_model); break; case PEXPCParaSurfCharacteristics: EXTRACT_INT16 (pBuf, pscType); EXTRACT_INT16 (pBuf, paramSize); pAttr->para_surf_char.type = pscType; if (pscType == PEXPSCIsoCurves) { EXTRACT_PSC_ISOCURVES (pBuf, pAttr->para_surf_char.psc.iso_curves); } else if (pscType == PEXPSCMCLevelCurves || pscType == PEXPSCWCLevelCurves) { count = (paramSize - SIZEOF (pexPSC_LevelCurves)) / SIZEOF (float); EXTRACT_PSC_LEVELCURVES (pBuf, pAttr->para_surf_char.psc.level_curves, fpConvert, fpFormat); pAttr->para_surf_char.psc.level_curves.parameters = (float *) Xmalloc ((unsigned) (count * sizeof (float))); EXTRACT_LISTOF_FLOAT32 (count, pBuf, pAttr->para_surf_char.psc.level_curves.parameters, fpConvert, fpFormat); } break; } } } FINISH_WITH_SCRATCH (display, pBufSave, rep.length << 2); /* * Done, so unlock and check for synchronous-ness. */ UnlockDisplay (display); PEXSyncHandle (display); return (pAttr); } void PEXChangePipelineContext (display, pc, valueMask, pcAttributes) INPUT Display *display; INPUT PEXPipelineContext pc; INPUT unsigned long *valueMask; INPUT PEXPCAttributes *pcAttributes; { register pexChangePipelineContextReq *req; char *pBuf; int size = 0; char *pList; int fpConvert; int fpFormat; /* * Lock around the critical section, for multithreading. */ LockDisplay (display); /* * Put the request in the X request buffer. */ PEXGetReq (ChangePipelineContext, pBuf); BEGIN_REQUEST_HEADER (ChangePipelineContext, pBuf, req); CHECK_FP (fpConvert, fpFormat); PEXStoreFPReqHead (ChangePipelineContext, fpFormat, req); req->pc = pc; req->itemMask0 = valueMask[0]; req->itemMask1 = valueMask[1]; req->itemMask2 = valueMask[2]; if (valueMask[0] != 0 || valueMask[1] != 0 || valueMask[2] != 0) { _PEXGeneratePCList (display, fpConvert, fpFormat, valueMask, pcAttributes, &size, &pList); req->length += NUMWORDS (size); } END_REQUEST_HEADER (ChangePipelineContext, pBuf, req); /* * Send the list of values. */ if (size > 0) Data (display, pList, size); /* * Done, so unlock and check for synchronous-ness. */ UnlockDisplay (display); PEXSyncHandle (display); } /* * Routine to write a packed list of pc attributes into the transport buf. */ static void _PEXGeneratePCList (display, fpConvert, fpFormat, valueMask, values, sizeRet, listRet) INPUT Display *display; INPUT int fpConvert; INPUT int fpFormat; INPUT unsigned long *valueMask; INPUT PEXPCAttributes *values; OUTPUT int *sizeRet; OUTPUT char **listRet; { register char *pBuf; unsigned long size; CARD32 count; Bool bitSet; int pscType, n; /* * size is the maximum size we might need to store the PC list. Just * use 2*sizeof(PEXPCAttributes) to account for padding between shorts. */ size = 2 * sizeof (PEXPCAttributes); if (valueMask[1] & 1L << (PEXPCModelClipVolume - PEXPCBFInteriorStyleIndex)) size += values->model_clip_volume.count * SIZEOF (pexHalfSpace); if (valueMask[1] & 1L << (PEXPCLightState - PEXPCBFInteriorStyleIndex)) size += PADDED_BYTES (values->light_state.count * SIZEOF (pexTableIndex)); *listRet = pBuf = (char *) _XAllocScratch (display, size); for (n = 0; n < (PEXPCMaxShift + 1); n++) { bitSet = valueMask[n >> 5] & (1L << (n & 0x1f)); if (bitSet != 0) { switch (n) { case PEXPCMarkerType: STORE_CARD32 (values->marker_type, pBuf); break; case PEXPCMarkerScale: STORE_FLOAT32 (values->marker_scale, pBuf, fpConvert, fpFormat); break; case PEXPCMarkerColor: STORE_COLOR_SPEC (values->marker_color, pBuf, fpConvert, fpFormat); break; case PEXPCMarkerBundleIndex: STORE_CARD32 (values->marker_bundle_index, pBuf); break; case PEXPCTextFont: STORE_CARD32 (values->text_font, pBuf); break; case PEXPCTextPrecision: STORE_CARD32 (values->text_precision, pBuf); break; case PEXPCCharExpansion: STORE_FLOAT32 (values->char_expansion, pBuf, fpConvert, fpFormat); break; case PEXPCCharSpacing: STORE_FLOAT32 (values->char_spacing, pBuf, fpConvert, fpFormat); break; case PEXPCTextColor: STORE_COLOR_SPEC (values->text_color, pBuf, fpConvert, fpFormat); break; case PEXPCCharHeight: STORE_FLOAT32 (values->char_height, pBuf, fpConvert, fpFormat); break; case PEXPCCharUpVector: STORE_VECTOR2D (values->char_up_vector, pBuf, fpConvert, fpFormat); break; case PEXPCTextPath: STORE_CARD32 (values->text_path, pBuf); break; case PEXPCTextAlignment: STORE_TEXTALIGN (values->text_alignment, pBuf); break; case PEXPCATextHeight: STORE_FLOAT32 (values->atext_height, pBuf, fpConvert, fpFormat); break; case PEXPCATextUpVector: STORE_VECTOR2D (values->atext_up_vector, pBuf, fpConvert, fpFormat); break; case PEXPCATextPath: STORE_CARD32 (values->atext_path, pBuf); break; case PEXPCATextAlignment: STORE_TEXTALIGN (values->atext_alignment, pBuf); break; case PEXPCATextStyle: STORE_CARD32 (values->atext_style, pBuf); break; case PEXPCTextBundleIndex: STORE_CARD32 (values->text_bundle_index, pBuf); break; case PEXPCLineType: STORE_CARD32 (values->line_type, pBuf); break; case PEXPCLineWidth: STORE_FLOAT32 (values->line_width, pBuf, fpConvert, fpFormat); break; case PEXPCLineColor: STORE_COLOR_SPEC (values->line_color, pBuf, fpConvert, fpFormat); break; case PEXPCCurveApprox: STORE_CARD32 (values->curve_approx.method, pBuf); STORE_FLOAT32 (values->curve_approx.tolerance, pBuf, fpConvert, fpFormat); break; case PEXPCPolylineInterp: STORE_CARD32 (values->polyline_interp, pBuf); break; case PEXPCLineBundleIndex: STORE_CARD32 (values->line_bundle_index, pBuf); break; case PEXPCInteriorStyle: STORE_CARD32 (values->interior_style, pBuf); break; case PEXPCInteriorStyleIndex: STORE_CARD32 (values->interior_style_index, pBuf); break; case PEXPCSurfaceColor: STORE_COLOR_SPEC (values->surface_color, pBuf, fpConvert, fpFormat); break; case PEXPCReflectionAttr: STORE_REFLECTION_ATTR (values->reflection_attr, pBuf, fpConvert, fpFormat); break; case PEXPCReflectionModel: STORE_CARD32 (values->reflection_model, pBuf); break; case PEXPCSurfaceInterp: STORE_CARD32 (values->surface_interp, pBuf); break; case PEXPCBFInteriorStyle: STORE_CARD32 (values->bf_interior_style, pBuf); break; case PEXPCBFInteriorStyleIndex: STORE_CARD32 (values->bf_interior_style_index, pBuf); break; case PEXPCBFSurfaceColor: STORE_COLOR_SPEC (values->bf_surface_color, pBuf, fpConvert, fpFormat); break; case PEXPCBFReflectionAttr: STORE_REFLECTION_ATTR (values->bf_reflection_attr, pBuf, fpConvert, fpFormat); break; case PEXPCBFReflectionModel: STORE_CARD32 (values->bf_reflection_model, pBuf); break; case PEXPCBFSurfaceInterp: STORE_CARD32 (values->bf_surface_interp, pBuf); break; case PEXPCSurfaceApprox: STORE_CARD32 (values->surface_approx.method, pBuf); STORE_FLOAT32 (values->surface_approx.u_tolerance, pBuf, fpConvert, fpFormat); STORE_FLOAT32 (values->surface_approx.v_tolerance, pBuf, fpConvert, fpFormat); break; case PEXPCCullingMode: STORE_CARD32 (values->culling_mode, pBuf); break; case PEXPCDistinguishFlag: STORE_CARD32 (values->distinguish, pBuf); break; case PEXPCPatternSize: STORE_COORD2D (values->pattern_size, pBuf, fpConvert, fpFormat); break; case PEXPCPatternRefPoint: STORE_COORD3D (values->pattern_ref_point, pBuf, fpConvert, fpFormat); break; case PEXPCPatternRefVec1: STORE_VECTOR3D (values->pattern_ref_vec1, pBuf, fpConvert, fpFormat); break; case PEXPCPatternRefVec2: STORE_VECTOR3D (values->pattern_ref_vec2, pBuf, fpConvert, fpFormat); break; case PEXPCInteriorBundleIndex: STORE_CARD32 (values->interior_bundle_index, pBuf); break; case PEXPCSurfaceEdgeFlag: STORE_CARD32 (values->surface_edges, pBuf); break; case PEXPCSurfaceEdgeType: STORE_CARD32 (values->surface_edge_type, pBuf); break; case PEXPCSurfaceEdgeWidth: STORE_FLOAT32 (values->surface_edge_width, pBuf, fpConvert, fpFormat); break; case PEXPCSurfaceEdgeColor: STORE_COLOR_SPEC (values->surface_edge_color, pBuf, fpConvert, fpFormat); break; case PEXPCEdgeBundleIndex: STORE_CARD32 (values->edge_bundle_index, pBuf); break; case PEXPCLocalTransform: STORE_LISTOF_FLOAT32 (16, values->local_transform, pBuf, fpConvert, fpFormat); break; case PEXPCGlobalTransform: STORE_LISTOF_FLOAT32 (16, values->global_transform, pBuf, fpConvert, fpFormat); break; case PEXPCModelClip: STORE_CARD32 (values->model_clip, pBuf); break; case PEXPCModelClipVolume: count = values->model_clip_volume.count; STORE_CARD32 (count, pBuf); STORE_LISTOF_HALFSPACE3D (count, values->model_clip_volume.half_spaces, pBuf, fpConvert, fpFormat); break; case PEXPCViewIndex: STORE_CARD32 (values->view_index, pBuf); break; case PEXPCLightState: count = values->light_state.count; STORE_CARD32 (count, pBuf); STORE_LISTOF_CARD16 (count, values->light_state.indices, pBuf); if (count & 1) pBuf += SIZEOF (CARD16); break; case PEXPCDepthCueIndex: STORE_CARD32 (values->depth_cue_index, pBuf); break; case PEXPCPickID: STORE_CARD32 (values->pick_id, pBuf); break; case PEXPCHLHSRIdentifier: STORE_CARD32 (values->hlhsr_id, pBuf); break; case PEXPCNameSet: STORE_CARD32 (values->name_set, pBuf); break; case PEXPCASFValues: STORE_CARD32 (values->asf_enables, pBuf); STORE_CARD32 (values->asf_values, pBuf); break; case PEXPCColorApproxIndex: STORE_CARD32 (values->color_approx_index, pBuf); break; case PEXPCRenderingColorModel: STORE_CARD32 (values->rendering_color_model, pBuf); break; case PEXPCParaSurfCharacteristics: pscType = values->para_surf_char.type; if (pscType == PEXPSCIsoCurves) { size = SIZEOF (pexPSC_IsoparametricCurves); STORE_INT16 (PEXPSCIsoCurves, pBuf); STORE_INT16 (size, pBuf); STORE_PSC_ISOCURVES ( values->para_surf_char.psc.iso_curves, pBuf); } else if (pscType == PEXPSCMCLevelCurves || pscType == PEXPSCWCLevelCurves) { size = SIZEOF (pexPSC_LevelCurves) + (SIZEOF (float) * values->para_surf_char.psc.level_curves.count); STORE_INT16 (pscType, pBuf); STORE_INT16 (size, pBuf); STORE_PSC_LEVELCURVES ( values->para_surf_char.psc.level_curves, pBuf, fpConvert, fpFormat); STORE_LISTOF_FLOAT32 ( values->para_surf_char.psc.level_curves.count, values->para_surf_char.psc.level_curves.parameters, pBuf, fpConvert, fpFormat); } break; } } } *sizeRet = pBuf - *listRet; }