/* $Xorg: pl_oc_attr.c,v 1.4 2000/08/17 19:44:24 cpqbld Exp $ */ /****************************************************************************** Copyright 1992, 1998 The Open Group All Rights Reserved. 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 OPEN GROUP 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 Open Group 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 Open Group. 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" #include "pl_oc_util.h" void PEXSetMarkerType (display, resource_id, req_type, type) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int type; { register pexMarkerType *req; BEGIN_SIMPLE_OC (MarkerType, resource_id, req_type, req); req->markerType = type; END_SIMPLE_OC (MarkerType, resource_id, req_type, req); } void PEXSetMarkerScale (display, resource_id, req_type, scale) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT double scale; { register pexMarkerScale *req; int fpConvert; int fpFormat; BEGIN_SIMPLE_OC (MarkerScale, resource_id, req_type, req); CHECK_FP (fpConvert, fpFormat); if (fpConvert) { FP_CONVERT_DHTON (scale, req->scale, fpFormat); } else req->scale = scale; END_SIMPLE_OC (MarkerScale, resource_id, req_type, req); } void PEXSetMarkerColorIndex (display, resource_id, req_type, index) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT unsigned int index; { register pexMarkerColorIndex *req; BEGIN_SIMPLE_OC (MarkerColorIndex, resource_id, req_type, req); req->index = index; END_SIMPLE_OC (MarkerColorIndex, resource_id, req_type, req); } void PEXSetMarkerColor (display, resource_id, req_type, colorType, color) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int colorType; INPUT PEXColor *color; { register pexMarkerColor *req; char *pBuf; int lenofColor; int fpConvert; int fpFormat; lenofColor = GetColorLength (colorType); PEXInitOC (display, resource_id, req_type, LENOF (pexMarkerColor), lenofColor, pBuf); if (pBuf == NULL) return; CHECK_FP (fpConvert, fpFormat); BEGIN_OC_HEADER (MarkerColor, lenofColor, pBuf, req); req->colorType = colorType; END_OC_HEADER (MarkerColor, pBuf, req); pBuf = PEXGetOCAddr (display, NUMBYTES (lenofColor)); STORE_COLOR_VAL (colorType, (*color), pBuf, fpConvert, fpFormat); PEXFinishOC (display); PEXSyncHandle (display); } void PEXSetMarkerBundleIndex (display, resource_id, req_type, index) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT unsigned int index; { register pexMarkerBundleIndex *req; BEGIN_SIMPLE_OC (MarkerBundleIndex, resource_id, req_type, req); req->index = index; END_SIMPLE_OC (MarkerBundleIndex, resource_id, req_type, req); } void PEXSetTextFontIndex (display, resource_id, req_type, index) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT unsigned int index; { register pexTextFontIndex *req; BEGIN_SIMPLE_OC (TextFontIndex, resource_id, req_type, req); req->index = index; END_SIMPLE_OC (TextFontIndex, resource_id, req_type, req); } void PEXSetTextPrecision (display, resource_id, req_type, precision) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int precision; { register pexTextPrecision *req; BEGIN_SIMPLE_OC (TextPrecision, resource_id, req_type, req); req->precision = precision; END_SIMPLE_OC (TextPrecision, resource_id, req_type, req); } void PEXSetCharExpansion (display, resource_id, req_type, expansion) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT double expansion; { register pexCharExpansion *req; int fpConvert; int fpFormat; BEGIN_SIMPLE_OC (CharExpansion, resource_id, req_type, req); CHECK_FP (fpConvert, fpFormat); if (fpConvert) { FP_CONVERT_DHTON (expansion, req->expansion, fpFormat); } else req->expansion = expansion; END_SIMPLE_OC (CharExpansion, resource_id, req_type, req); } void PEXSetCharSpacing (display, resource_id, req_type, spacing) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT double spacing; { register pexCharSpacing *req; int fpConvert; int fpFormat; BEGIN_SIMPLE_OC (CharSpacing, resource_id, req_type, req); CHECK_FP (fpConvert, fpFormat); if (fpConvert) { FP_CONVERT_DHTON (spacing, req->spacing, fpFormat); } else req->spacing = spacing; END_SIMPLE_OC (CharSpacing, resource_id, req_type, req); } void PEXSetTextColorIndex (display, resource_id, req_type, index) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT unsigned int index; { register pexTextColorIndex *req; BEGIN_SIMPLE_OC (TextColorIndex, resource_id, req_type, req); req->index = index; END_SIMPLE_OC (TextColorIndex, resource_id, req_type, req); } void PEXSetTextColor (display, resource_id, req_type, colorType, color) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int colorType; INPUT PEXColor *color; { register pexTextColor *req; char *pBuf; int lenofColor; int fpConvert; int fpFormat; lenofColor = GetColorLength (colorType); PEXInitOC (display, resource_id, req_type, LENOF (pexTextColor), lenofColor, pBuf); if (pBuf == NULL) return; CHECK_FP (fpConvert, fpFormat); BEGIN_OC_HEADER (TextColor, lenofColor, pBuf, req); req->colorType = colorType; END_OC_HEADER (TextColor, pBuf, req); pBuf = PEXGetOCAddr (display, NUMBYTES (lenofColor)); STORE_COLOR_VAL (colorType, (*color), pBuf, fpConvert, fpFormat); PEXFinishOC (display); PEXSyncHandle (display); } void PEXSetCharHeight (display, resource_id, req_type, height) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT double height; { register pexCharHeight *req; int fpConvert; int fpFormat; BEGIN_SIMPLE_OC (CharHeight, resource_id, req_type, req); CHECK_FP (fpConvert, fpFormat); if (fpConvert) { FP_CONVERT_DHTON (height, req->height, fpFormat); } else req->height = height; END_SIMPLE_OC (CharHeight, resource_id, req_type, req); } void PEXSetCharUpVector (display, resource_id, req_type, vector) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT PEXVector2D *vector; { register pexCharUpVector *req; int fpConvert; int fpFormat; BEGIN_SIMPLE_OC (CharUpVector, resource_id, req_type, req); CHECK_FP (fpConvert, fpFormat); if (fpConvert) { FP_CONVERT_HTON (vector->x, req->up_x, fpFormat); FP_CONVERT_HTON (vector->y, req->up_y, fpFormat); } else { req->up_x = vector->x; req->up_y = vector->y; } END_SIMPLE_OC (CharUpVector, resource_id, req_type, req); } void PEXSetTextPath (display, resource_id, req_type, path) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int path; { register pexTextPath *req; BEGIN_SIMPLE_OC (TextPath, resource_id, req_type, req); req->path = path; END_SIMPLE_OC (TextPath, resource_id, req_type, req); } void PEXSetTextAlignment (display, resource_id, req_type, halignment, valignment) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int halignment; INPUT int valignment; { register pexTextAlignment *req; BEGIN_SIMPLE_OC (TextAlignment, resource_id, req_type, req); req->alignment_vertical = valignment; req->alignment_horizontal = halignment; END_SIMPLE_OC (TextAlignment, resource_id, req_type, req); } void PEXSetATextHeight (display, resource_id, req_type, height) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT double height; { register pexATextHeight *req; int fpConvert; int fpFormat; BEGIN_SIMPLE_OC (ATextHeight, resource_id, req_type, req); CHECK_FP (fpConvert, fpFormat); if (fpConvert) { FP_CONVERT_DHTON (height, req->height, fpFormat); } else req->height = height; END_SIMPLE_OC (ATextHeight, resource_id, req_type, req); } void PEXSetATextUpVector (display, resource_id, req_type, vector) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT PEXVector2D *vector; { register pexATextUpVector *req; int fpConvert; int fpFormat; BEGIN_SIMPLE_OC (ATextUpVector, resource_id, req_type, req); CHECK_FP (fpConvert, fpFormat); if (fpConvert) { FP_CONVERT_HTON (vector->x, req->up_x, fpFormat); FP_CONVERT_HTON (vector->y, req->up_y, fpFormat); } else { req->up_x = vector->x; req->up_y = vector->y; } END_SIMPLE_OC (ATextUpVector, resource_id, req_type, req); } void PEXSetATextPath (display, resource_id, req_type, path) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int path; { register pexATextPath *req; BEGIN_SIMPLE_OC (ATextPath, resource_id, req_type, req); req->path = path; END_SIMPLE_OC (ATextPath, resource_id, req_type, req); } void PEXSetATextAlignment (display, resource_id, req_type, halignment, valignment) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int halignment; INPUT int valignment; { register pexATextAlignment *req; BEGIN_SIMPLE_OC (ATextAlignment, resource_id, req_type, req); req->alignment_vertical = valignment; req->alignment_horizontal = halignment; END_SIMPLE_OC (ATextAlignment, resource_id, req_type, req); } void PEXSetATextStyle (display, resource_id, req_type, style) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int style; { register pexATextStyle *req; BEGIN_SIMPLE_OC (ATextStyle, resource_id, req_type, req); req->style = style; END_SIMPLE_OC (ATextStyle, resource_id, req_type, req); } void PEXSetTextBundleIndex (display, resource_id, req_type, index) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT unsigned int index; { register pexTextBundleIndex *req; BEGIN_SIMPLE_OC (TextBundleIndex, resource_id, req_type, req); req->index = index; END_SIMPLE_OC (TextBundleIndex, resource_id, req_type, req); } void PEXSetLineType (display, resource_id, req_type, type) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int type; { register pexLineType *req; BEGIN_SIMPLE_OC (LineType, resource_id, req_type, req); req->lineType = type; END_SIMPLE_OC (LineType, resource_id, req_type, req); } void PEXSetLineWidth (display, resource_id, req_type, width) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT double width; { register pexLineWidth *req; int fpConvert; int fpFormat; BEGIN_SIMPLE_OC (LineWidth, resource_id, req_type, req); CHECK_FP (fpConvert, fpFormat); if (fpConvert) { FP_CONVERT_DHTON (width, req->width, fpFormat); } else req->width = width; END_SIMPLE_OC (LineWidth, resource_id, req_type, req); } void PEXSetLineColorIndex (display, resource_id, req_type, index) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT unsigned int index; { register pexLineColorIndex *req; BEGIN_SIMPLE_OC (LineColorIndex, resource_id, req_type, req); req->index = index; END_SIMPLE_OC (LineColorIndex, resource_id, req_type, req); } void PEXSetLineColor (display, resource_id, req_type, colorType, color) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int colorType; INPUT PEXColor *color; { register pexLineColor *req; char *pBuf; int lenofColor; int fpConvert; int fpFormat; lenofColor = GetColorLength (colorType); PEXInitOC (display, resource_id, req_type, LENOF (pexLineColor), lenofColor, pBuf); if (pBuf == NULL) return; CHECK_FP (fpConvert, fpFormat); BEGIN_OC_HEADER (LineColor, lenofColor, pBuf, req); req->colorType = colorType; END_OC_HEADER (LineColor, pBuf, req); pBuf = PEXGetOCAddr (display, NUMBYTES (lenofColor)); STORE_COLOR_VAL (colorType, (*color), pBuf, fpConvert, fpFormat); PEXFinishOC (display); PEXSyncHandle (display); } void PEXSetCurveApprox (display, resource_id, req_type, approxMethod, tolerance) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int approxMethod; INPUT double tolerance; { register pexCurveApprox *req; int fpConvert; int fpFormat; BEGIN_SIMPLE_OC (CurveApprox, resource_id, req_type, req); CHECK_FP (fpConvert, fpFormat); req->approxMethod = approxMethod; if (fpConvert) { FP_CONVERT_DHTON (tolerance, req->tolerance, fpFormat); } else req->tolerance = tolerance; END_SIMPLE_OC (CurveApprox, resource_id, req_type, req); } void PEXSetPolylineInterpMethod (display, resource_id, req_type, method) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int method; { register pexPolylineInterpMethod *req; BEGIN_SIMPLE_OC (PolylineInterpMethod, resource_id, req_type, req); req->polylineInterp = method; END_SIMPLE_OC (PolylineInterpMethod, resource_id, req_type, req); } void PEXSetLineBundleIndex (display, resource_id, req_type, index) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT unsigned int index; { register pexLineBundleIndex *req; BEGIN_SIMPLE_OC (LineBundleIndex, resource_id, req_type, req); req->index = index; END_SIMPLE_OC (LineBundleIndex, resource_id, req_type, req); } void PEXSetInteriorStyle (display, resource_id, req_type, style) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int style; { register pexInteriorStyle *req; BEGIN_SIMPLE_OC (InteriorStyle, resource_id, req_type, req); req->interiorStyle = style; END_SIMPLE_OC (InteriorStyle, resource_id, req_type, req); } void PEXSetInteriorStyleIndex (display, resource_id, req_type, index) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int index; { register pexInteriorStyleIndex *req; BEGIN_SIMPLE_OC (InteriorStyleIndex, resource_id, req_type, req); req->index = index; END_SIMPLE_OC (InteriorStyleIndex, resource_id, req_type, req); } void PEXSetSurfaceColorIndex (display, resource_id, req_type, index) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT unsigned int index; { register pexSurfaceColorIndex *req; BEGIN_SIMPLE_OC (SurfaceColorIndex, resource_id, req_type, req); req->index = index; END_SIMPLE_OC (SurfaceColorIndex, resource_id, req_type, req); } void PEXSetSurfaceColor (display, resource_id, req_type, colorType, color) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int colorType; INPUT PEXColor *color; { register pexSurfaceColor *req; char *pBuf; int lenofColor; int fpConvert; int fpFormat; lenofColor = GetColorLength (colorType); PEXInitOC (display, resource_id, req_type, LENOF (pexSurfaceColor), lenofColor, pBuf); if (pBuf == NULL) return; CHECK_FP (fpConvert, fpFormat); BEGIN_OC_HEADER (SurfaceColor, lenofColor, pBuf, req); req->colorType = colorType; END_OC_HEADER (SurfaceColor, pBuf, req); pBuf = PEXGetOCAddr (display, NUMBYTES (lenofColor)); STORE_COLOR_VAL (colorType, (*color), pBuf, fpConvert, fpFormat); PEXFinishOC (display); PEXSyncHandle (display); } void PEXSetReflectionAttributes (display, resource_id, req_type, reflectionAttr) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT PEXReflectionAttributes *reflectionAttr; { register pexReflectionAttributes *req; char *pBuf; int lenofColor; int fpConvert; int fpFormat; lenofColor = GetColorLength (reflectionAttr->specular_color.type); PEXInitOC (display, resource_id, req_type, LENOF (pexReflectionAttributes), lenofColor, pBuf); if (pBuf == NULL) return; CHECK_FP (fpConvert, fpFormat); BEGIN_OC_HEADER (ReflectionAttributes, lenofColor, pBuf, req); if (fpConvert) { FP_CONVERT_HTON (reflectionAttr->ambient, req->ambient, fpFormat); FP_CONVERT_HTON (reflectionAttr->diffuse, req->diffuse, fpFormat); FP_CONVERT_HTON (reflectionAttr->specular, req->specular, fpFormat); FP_CONVERT_HTON (reflectionAttr->specular_conc, req->specularConc, fpFormat); FP_CONVERT_HTON (reflectionAttr->transmission, req->transmission, fpFormat); } else { req->ambient = reflectionAttr->ambient; req->diffuse = reflectionAttr->diffuse; req->specular = reflectionAttr->specular; req->specularConc = reflectionAttr->specular_conc; req->transmission = reflectionAttr->transmission; } req->specular_colorType = reflectionAttr->specular_color.type; END_OC_HEADER (ReflectionAttributes, pBuf, req); pBuf = PEXGetOCAddr (display, NUMBYTES (lenofColor)); STORE_COLOR_VAL (reflectionAttr->specular_color.type, reflectionAttr->specular_color.value, pBuf, fpConvert, fpFormat); PEXFinishOC (display); PEXSyncHandle (display); } void PEXSetReflectionModel (display, resource_id, req_type, model) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int model; { register pexReflectionModel *req; BEGIN_SIMPLE_OC (ReflectionModel, resource_id, req_type, req); req->reflectionModel = model; END_SIMPLE_OC (ReflectionModel, resource_id, req_type, req); } void PEXSetSurfaceInterpMethod (display, resource_id, req_type, method) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int method; { register pexSurfaceInterpMethod *req; BEGIN_SIMPLE_OC (SurfaceInterpMethod, resource_id, req_type, req); req->surfaceInterp = method; END_SIMPLE_OC (SurfaceInterpMethod, resource_id, req_type, req); } void PEXSetBFInteriorStyle (display, resource_id, req_type, style) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int style; { register pexBFInteriorStyle *req; BEGIN_SIMPLE_OC (BFInteriorStyle, resource_id, req_type, req); req->interiorStyle = style; END_SIMPLE_OC (BFInteriorStyle, resource_id, req_type, req); } void PEXSetBFInteriorStyleIndex (display, resource_id, req_type, index) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int index; { register pexBFInteriorStyleIndex *req; BEGIN_SIMPLE_OC (BFInteriorStyleIndex, resource_id, req_type, req); req->index = index; END_SIMPLE_OC (BFInteriorStyleIndex, resource_id, req_type, req); } void PEXSetBFSurfaceColorIndex (display, resource_id, req_type, index) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT unsigned int index; { register pexBFSurfaceColorIndex *req; BEGIN_SIMPLE_OC (BFSurfaceColorIndex, resource_id, req_type, req); req->index = index; END_SIMPLE_OC (BFSurfaceColorIndex, resource_id, req_type, req); } void PEXSetBFSurfaceColor (display, resource_id, req_type, colorType, color) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int colorType; INPUT PEXColor *color; { register pexBFSurfaceColor *req; char *pBuf; int lenofColor; int fpConvert; int fpFormat; lenofColor = GetColorLength (colorType); PEXInitOC (display, resource_id, req_type, LENOF (pexBFSurfaceColor), lenofColor, pBuf); if (pBuf == NULL) return; CHECK_FP (fpConvert, fpFormat); BEGIN_OC_HEADER (BFSurfaceColor, lenofColor, pBuf, req); req->colorType = colorType; END_OC_HEADER (BFSurfaceColor, pBuf, req); pBuf = PEXGetOCAddr (display, NUMBYTES (lenofColor)); STORE_COLOR_VAL (colorType, (*color), pBuf, fpConvert, fpFormat); PEXFinishOC (display); PEXSyncHandle (display); } void PEXSetBFReflectionAttributes (display, resource_id, req_type, reflectionAttr) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT PEXReflectionAttributes *reflectionAttr; { register pexBFReflectionAttributes *req; char *pBuf; int lenofColor; int fpConvert; int fpFormat; lenofColor = GetColorLength (reflectionAttr->specular_color.type); PEXInitOC (display, resource_id, req_type, LENOF (pexBFReflectionAttributes), lenofColor, pBuf); if (pBuf == NULL) return; CHECK_FP (fpConvert, fpFormat); BEGIN_OC_HEADER (BFReflectionAttributes, lenofColor, pBuf, req); if (fpConvert) { FP_CONVERT_HTON (reflectionAttr->ambient, req->ambient, fpFormat); FP_CONVERT_HTON (reflectionAttr->diffuse, req->diffuse, fpFormat); FP_CONVERT_HTON (reflectionAttr->specular, req->specular, fpFormat); FP_CONVERT_HTON (reflectionAttr->specular_conc, req->specularConc, fpFormat); FP_CONVERT_HTON (reflectionAttr->transmission, req->transmission, fpFormat); } else { req->ambient = reflectionAttr->ambient; req->diffuse = reflectionAttr->diffuse; req->specular = reflectionAttr->specular; req->specularConc = reflectionAttr->specular_conc; req->transmission = reflectionAttr->transmission; } req->specular_colorType = reflectionAttr->specular_color.type; END_OC_HEADER (BFReflectionAttributes, pBuf, req); pBuf = PEXGetOCAddr (display, NUMBYTES (lenofColor)); STORE_COLOR_VAL (reflectionAttr->specular_color.type, reflectionAttr->specular_color.value, pBuf, fpConvert, fpFormat); PEXFinishOC (display); PEXSyncHandle (display); } void PEXSetBFReflectionModel (display, resource_id, req_type, model) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int model; { register pexBFReflectionModel *req; BEGIN_SIMPLE_OC (BFReflectionModel, resource_id, req_type, req); req->reflectionModel = model; END_SIMPLE_OC (BFReflectionModel, resource_id, req_type, req); } void PEXSetBFSurfaceInterpMethod (display, resource_id, req_type, method) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int method; { register pexBFSurfaceInterpMethod *req; BEGIN_SIMPLE_OC (BFSurfaceInterpMethod, resource_id, req_type, req); req->surfaceInterp = method; END_SIMPLE_OC (BFSurfaceInterpMethod, resource_id, req_type, req); } void PEXSetSurfaceApprox (display, resource_id, req_type, approxMethod, uTolerance, vTolerance) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int approxMethod; INPUT double uTolerance; INPUT double vTolerance; { register pexSurfaceApprox *req; int fpConvert; int fpFormat; BEGIN_SIMPLE_OC (SurfaceApprox, resource_id, req_type, req); CHECK_FP (fpConvert, fpFormat); req->approxMethod = approxMethod; if (fpConvert) { FP_CONVERT_DHTON (uTolerance, req->uTolerance, fpFormat); FP_CONVERT_DHTON (vTolerance, req->vTolerance, fpFormat); } else { req->uTolerance = uTolerance; req->vTolerance = vTolerance; } END_SIMPLE_OC (SurfaceApprox, resource_id, req_type, req); } void PEXSetFacetCullingMode (display, resource_id, req_type, mode) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int mode; { register pexFacetCullingMode *req; BEGIN_SIMPLE_OC (FacetCullingMode, resource_id, req_type, req); req->cullMode = mode; END_SIMPLE_OC (FacetCullingMode, resource_id, req_type, req); } void PEXSetFacetDistinguishFlag (display, resource_id, req_type, flag) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int flag; { register pexFacetDistinguishFlag *req; BEGIN_SIMPLE_OC (FacetDistinguishFlag, resource_id, req_type, req); req->distinguish = flag; END_SIMPLE_OC (FacetDistinguishFlag, resource_id, req_type, req); } void PEXSetPatternSize (display, resource_id, req_type, width, height) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT double width; INPUT double height; { register pexPatternSize *req; int fpConvert; int fpFormat; BEGIN_SIMPLE_OC (PatternSize, resource_id, req_type, req); CHECK_FP (fpConvert, fpFormat); if (fpConvert) { FP_CONVERT_DHTON (width, req->size_x, fpFormat); FP_CONVERT_DHTON (height, req->size_y, fpFormat); } else { req->size_x = width; req->size_y = height; } END_SIMPLE_OC (PatternSize, resource_id, req_type, req); } void PEXSetPatternAttributes2D (display, resource_id, req_type, ref_point) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT PEXCoord2D *ref_point; { register pexPatternAttributes2D *req; int fpConvert; int fpFormat; BEGIN_SIMPLE_OC (PatternAttributes2D, resource_id, req_type, req); CHECK_FP (fpConvert, fpFormat); if (fpConvert) { FP_CONVERT_HTON (ref_point->x, req->point_x, fpFormat); FP_CONVERT_HTON (ref_point->y, req->point_y, fpFormat); } else { req->point_x = ref_point->x; req->point_y = ref_point->y; } END_SIMPLE_OC (PatternAttributes2D, resource_id, req_type, req); } void PEXSetPatternAttributes (display, resource_id, req_type, refPt, vec1, vec2) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT PEXCoord *refPt; INPUT PEXVector *vec1; INPUT PEXVector *vec2; { register pexPatternAttributes *req; int fpConvert; int fpFormat; BEGIN_SIMPLE_OC (PatternAttributes, resource_id, req_type, req); CHECK_FP (fpConvert, fpFormat); if (fpConvert) { FP_CONVERT_HTON (refPt->x, req->refPt_x, fpFormat); FP_CONVERT_HTON (refPt->y, req->refPt_y, fpFormat); FP_CONVERT_HTON (refPt->z, req->refPt_z, fpFormat); FP_CONVERT_HTON (vec1->x, req->vector1_x, fpFormat); FP_CONVERT_HTON (vec1->y, req->vector1_y, fpFormat); FP_CONVERT_HTON (vec1->z, req->vector1_z, fpFormat); FP_CONVERT_HTON (vec2->x, req->vector2_x, fpFormat); FP_CONVERT_HTON (vec2->y, req->vector2_y, fpFormat); FP_CONVERT_HTON (vec2->z, req->vector2_z, fpFormat); } else { req->refPt_x = refPt->x; req->refPt_y = refPt->y; req->refPt_z = refPt->z; req->vector1_x = vec1->x; req->vector1_y = vec1->y; req->vector1_z = vec1->z; req->vector2_x = vec2->x; req->vector2_y = vec2->y; req->vector2_z = vec2->z; } END_SIMPLE_OC (PatternAttributes, resource_id, req_type, req); } void PEXSetInteriorBundleIndex (display, resource_id, req_type, index) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT unsigned int index; { register pexInteriorBundleIndex *req; BEGIN_SIMPLE_OC (InteriorBundleIndex, resource_id, req_type, req); req->index = index; END_SIMPLE_OC (InteriorBundleIndex, resource_id, req_type, req); } void PEXSetSurfaceEdgeFlag (display, resource_id, req_type, flag) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int flag; { register pexSurfaceEdgeFlag *req; BEGIN_SIMPLE_OC (SurfaceEdgeFlag, resource_id, req_type, req); req->onoff = flag; END_SIMPLE_OC (SurfaceEdgeFlag, resource_id, req_type, req); } void PEXSetSurfaceEdgeType (display, resource_id, req_type, type) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int type; { register pexSurfaceEdgeType *req; BEGIN_SIMPLE_OC (SurfaceEdgeType, resource_id, req_type, req); req->edgeType = type; END_SIMPLE_OC (SurfaceEdgeType, resource_id, req_type, req); } void PEXSetSurfaceEdgeWidth (display, resource_id, req_type, width) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT double width; { register pexSurfaceEdgeWidth *req; int fpConvert; int fpFormat; BEGIN_SIMPLE_OC (SurfaceEdgeWidth, resource_id, req_type, req); CHECK_FP (fpConvert, fpFormat); if (fpConvert) { FP_CONVERT_DHTON (width, req->width, fpFormat); } else req->width = width; END_SIMPLE_OC (SurfaceEdgeWidth, resource_id, req_type, req); } void PEXSetSurfaceEdgeColorIndex (display, resource_id, req_type, index) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT unsigned int index; { register pexSurfaceEdgeColorIndex *req; BEGIN_SIMPLE_OC (SurfaceEdgeColorIndex, resource_id, req_type, req); req->index = index; END_SIMPLE_OC (SurfaceEdgeColorIndex, resource_id, req_type, req); } void PEXSetSurfaceEdgeColor (display, resource_id, req_type, colorType, color) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int colorType; INPUT PEXColor *color; { register pexSurfaceEdgeColor *req; char *pBuf; int lenofColor; int fpConvert; int fpFormat; lenofColor = GetColorLength (colorType); PEXInitOC (display, resource_id, req_type, LENOF (pexSurfaceEdgeColor), lenofColor, pBuf); if (pBuf == NULL) return; CHECK_FP (fpConvert, fpFormat); BEGIN_OC_HEADER (SurfaceEdgeColor, lenofColor, pBuf, req); req->colorType = colorType; END_OC_HEADER (SurfaceEdgeColor, pBuf, req); pBuf = PEXGetOCAddr (display, NUMBYTES (lenofColor)); STORE_COLOR_VAL (colorType, (*color), pBuf, fpConvert, fpFormat); PEXFinishOC (display); PEXSyncHandle (display); } void PEXSetEdgeBundleIndex (display, resource_id, req_type, index) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT unsigned int index; { register pexEdgeBundleIndex *req; BEGIN_SIMPLE_OC (EdgeBundleIndex, resource_id, req_type, req); req->index = index; END_SIMPLE_OC (EdgeBundleIndex, resource_id, req_type, req); } void PEXSetIndividualASF (display, resource_id, req_type, attribute, value) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT unsigned long attribute; INPUT int value; { register pexIndividualASF *req; BEGIN_SIMPLE_OC (IndividualASF, resource_id, req_type, req); req->attribute = attribute; req->source = value; END_SIMPLE_OC (IndividualASF, resource_id, req_type, req); } void PEXSetLocalTransform (display, resource_id, req_type, compType, transform) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int compType; INPUT PEXMatrix transform; { register pexLocalTransform *req; char *ptr; int fpConvert; int fpFormat; BEGIN_SIMPLE_OC (LocalTransform, resource_id, req_type, req); CHECK_FP (fpConvert, fpFormat); req->compType = compType; ptr = (char *) req->matrix; STORE_LISTOF_FLOAT32 (16, transform, ptr, fpConvert, fpFormat); END_SIMPLE_OC (LocalTransform, resource_id, req_type, req); } void PEXSetLocalTransform2D (display, resource_id, req_type, compType, transform) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int compType; INPUT PEXMatrix3x3 transform; { register pexLocalTransform2D *req; char *ptr; int fpConvert; int fpFormat; BEGIN_SIMPLE_OC (LocalTransform2D, resource_id, req_type, req); CHECK_FP (fpConvert, fpFormat); req->compType = compType; ptr = (char *) req->matrix3X3; STORE_LISTOF_FLOAT32 (9, transform, ptr, fpConvert, fpFormat); END_SIMPLE_OC (LocalTransform2D, resource_id, req_type, req); } void PEXSetGlobalTransform (display, resource_id, req_type, transform) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT PEXMatrix transform; { register pexGlobalTransform *req; char *ptr; int fpConvert; int fpFormat; BEGIN_SIMPLE_OC (GlobalTransform, resource_id, req_type, req); CHECK_FP (fpConvert, fpFormat); ptr = (char *) req->matrix; STORE_LISTOF_FLOAT32 (16, transform, ptr, fpConvert, fpFormat); END_SIMPLE_OC (GlobalTransform, resource_id, req_type, req); } void PEXSetGlobalTransform2D (display, resource_id, req_type, transform) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT PEXMatrix3x3 transform; { register pexGlobalTransform2D *req; char *ptr; int fpConvert; int fpFormat; BEGIN_SIMPLE_OC (GlobalTransform2D, resource_id, req_type, req); CHECK_FP (fpConvert, fpFormat); ptr = (char *) req->matrix3X3; STORE_LISTOF_FLOAT32 (9, transform, ptr, fpConvert, fpFormat); END_SIMPLE_OC (GlobalTransform2D, resource_id, req_type, req); } void PEXSetModelClipFlag (display, resource_id, req_type, flag) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int flag; { register pexModelClipFlag *req; BEGIN_SIMPLE_OC (ModelClipFlag, resource_id, req_type, req); req->onoff = flag; END_SIMPLE_OC (ModelClipFlag, resource_id, req_type, req); } void PEXSetModelClipVolume (display, resource_id, req_type, op, numHalfSpaces, halfSpaces) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int op; INPUT unsigned int numHalfSpaces; INPUT PEXHalfSpace *halfSpaces; { register pexModelClipVolume *req; char *pBuf; int dataLength; int fpConvert; int fpFormat; /* * Initialize the OC request. */ dataLength = NUMWORDS (numHalfSpaces * SIZEOF (pexHalfSpace)); PEXInitOC (display, resource_id, req_type, LENOF (pexModelClipVolume), dataLength, pBuf); if (pBuf == NULL) return; /* * Store the request header data. */ CHECK_FP (fpConvert, fpFormat); BEGIN_OC_HEADER (ModelClipVolume, dataLength, pBuf, req); req->modelClipOperator = op; req->numHalfSpaces = numHalfSpaces; END_OC_HEADER (ModelClipVolume, pBuf, req); /* * Copy the oc data. */ OC_LISTOF_HALFSPACE3D (numHalfSpaces, halfSpaces, fpConvert, fpFormat); PEXFinishOC (display); PEXSyncHandle (display); } void PEXSetModelClipVolume2D (display, resource_id, req_type, op, numHalfSpaces, halfSpaces) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int op; INPUT unsigned int numHalfSpaces; INPUT PEXHalfSpace2D *halfSpaces; { register pexModelClipVolume2D *req; char *pBuf; int dataLength; int fpConvert; int fpFormat; /* * Initialize the OC request. */ dataLength = NUMWORDS (numHalfSpaces * SIZEOF (pexHalfSpace2D)); PEXInitOC (display, resource_id, req_type, LENOF (pexModelClipVolume2D), dataLength, pBuf); if (pBuf == NULL) return; /* * Store the request header data. */ CHECK_FP (fpConvert, fpFormat); BEGIN_OC_HEADER (ModelClipVolume2D, dataLength, pBuf, req); req->modelClipOperator = op; req->numHalfSpaces = numHalfSpaces; END_OC_HEADER (ModelClipVolume2D, pBuf, req); /* * Copy the oc data. */ OC_LISTOF_HALFSPACE2D (numHalfSpaces, halfSpaces, fpConvert, fpFormat); PEXFinishOC (display); PEXSyncHandle (display); } void PEXRestoreModelClipVolume (display, resource_id, req_type) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; { register pexRestoreModelClipVolume *req; BEGIN_SIMPLE_OC (RestoreModelClipVolume, resource_id, req_type, req); /* no data */ END_SIMPLE_OC (RestoreModelClipVolume, resource_id, req_type, req); } void PEXSetViewIndex (display, resource_id, req_type, index) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT unsigned int index; { register pexViewIndex *req; BEGIN_SIMPLE_OC (ViewIndex, resource_id, req_type, req); req->index = index; END_SIMPLE_OC (ViewIndex, resource_id, req_type, req); } void PEXSetLightSourceState (display, resource_id, req_type, numEnable, enable, numDisable, disable) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT unsigned int numEnable; INPUT PEXTableIndex *enable; INPUT unsigned int numDisable; INPUT PEXTableIndex *disable; { register pexLightSourceState *req; char *pBuf; int dataLength; /* * Initialize the OC request. */ dataLength = NUMWORDS (numEnable * SIZEOF (CARD16)) + NUMWORDS (numDisable * SIZEOF (CARD16)); PEXInitOC (display, resource_id, req_type, LENOF (pexLightSourceState), dataLength, pBuf); if (pBuf == NULL) return; /* * Store the request header data. */ BEGIN_OC_HEADER (LightSourceState, dataLength, pBuf, req); req->numEnable = numEnable; req->numDisable = numDisable; END_OC_HEADER (LightSourceState, pBuf, req); /* * Copy the oc data. */ OC_LISTOF_CARD16_PAD (numEnable, enable); OC_LISTOF_CARD16_PAD (numDisable, disable); PEXFinishOC (display); PEXSyncHandle (display); } void PEXSetDepthCueIndex (display, resource_id, req_type, index) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT unsigned int index; { register pexDepthCueIndex *req; BEGIN_SIMPLE_OC (DepthCueIndex, resource_id, req_type, req); req->index = index; END_SIMPLE_OC (DepthCueIndex, resource_id, req_type, req); } void PEXSetPickID (display, resource_id, req_type, id) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT unsigned long id; { register pexPickID *req; BEGIN_SIMPLE_OC (PickID, resource_id, req_type, req); req->pickId = id; END_SIMPLE_OC (PickID, resource_id, req_type, req); } void PEXSetHLHSRID (display, resource_id, req_type, id) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT unsigned long id; { register pexHLHSRID *req; BEGIN_SIMPLE_OC (HLHSRID, resource_id, req_type, req); req->hlhsrID = id; END_SIMPLE_OC (HLHSRID, resource_id, req_type, req); } void PEXSetColorApproxIndex (display, resource_id, req_type, index) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT unsigned int index; { register pexColorApproxIndex *req; BEGIN_SIMPLE_OC (ColorApproxIndex, resource_id, req_type, req); req->index = index; END_SIMPLE_OC (ColorApproxIndex, resource_id, req_type, req); } void PEXSetParaSurfCharacteristics (display, resource_id, req_type, pscType, pscData) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int pscType; INPUT PEXPSCData *pscData; { register pexParaSurfCharacteristics *req; char *pBuf; int dataLength = 0; int fpConvert; int fpFormat; /* * Initialize the OC request. */ if (pscType == PEXPSCIsoCurves) { dataLength = LENOF (pexPSC_IsoparametricCurves); } else if (pscType == PEXPSCMCLevelCurves || pscType == PEXPSCWCLevelCurves) { dataLength = NUMWORDS (SIZEOF (pexPSC_LevelCurves) + (pscData->level_curves.count * SIZEOF (float))); } PEXInitOC (display, resource_id, req_type, LENOF (pexParaSurfCharacteristics), dataLength, pBuf); if (pBuf == NULL) return; /* * Store the request header data. */ CHECK_FP (fpConvert, fpFormat); BEGIN_OC_HEADER (ParaSurfCharacteristics, dataLength, pBuf, req); req->characteristics = pscType; req->length = NUMBYTES (dataLength); END_OC_HEADER (ParaSurfCharacteristics, pBuf, req); /* * Copy the oc data. */ if ((pBuf = PEXGetOCAddr (display, req->length))) { if (pscType == PEXPSCIsoCurves) { STORE_PSC_ISOCURVES (pscData->iso_curves, pBuf); } else if (pscType == PEXPSCMCLevelCurves || pscType == PEXPSCWCLevelCurves) { STORE_PSC_LEVELCURVES (pscData->level_curves, pBuf, fpConvert, fpFormat); STORE_LISTOF_FLOAT32 (pscData->level_curves.count, pscData->level_curves.parameters, pBuf, fpConvert, fpFormat); } } PEXFinishOC (display); PEXSyncHandle (display); } void PEXSetRenderingColorModel (display, resource_id, req_type, model) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT int model; { register pexRenderingColorModel *req; BEGIN_SIMPLE_OC (RenderingColorModel, resource_id, req_type, req); req->model = model; END_SIMPLE_OC (RenderingColorModel, resource_id, req_type, req); } void PEXAddToNameSet (display, resource_id, req_type, numNames, names) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT unsigned long numNames; INPUT PEXName *names; { register pexAddToNameSet *req; char *pBuf; int dataLength; /* * Initialize the OC request. */ dataLength = NUMWORDS (numNames * SIZEOF (pexName)); PEXInitOC (display, resource_id, req_type, LENOF (pexAddToNameSet), dataLength, pBuf); if (pBuf == NULL) return; /* * Store the request header data. */ BEGIN_OC_HEADER (AddToNameSet, dataLength, pBuf, req); END_OC_HEADER (AddToNameSet, pBuf, req); /* * Copy the oc data. */ OC_LISTOF_CARD32 (numNames, names); PEXFinishOC (display); PEXSyncHandle (display); } void PEXRemoveFromNameSet (display, resource_id, req_type, numNames, names) INPUT Display *display; INPUT XID resource_id; INPUT PEXOCRequestType req_type; INPUT unsigned long numNames; INPUT PEXName *names; { register pexRemoveFromNameSet *req; char *pBuf; int dataLength; /* * Initialize the OC request. */ dataLength = NUMWORDS (numNames * SIZEOF (pexName)); PEXInitOC (display, resource_id, req_type, LENOF (pexRemoveFromNameSet), dataLength, pBuf); if (pBuf == NULL) return; /* * Store the request header data. */ BEGIN_OC_HEADER (RemoveFromNameSet, dataLength, pBuf, req); END_OC_HEADER (RemoveFromNameSet, pBuf, req); /* * Copy the oc data. */ OC_LISTOF_CARD32 (numNames, names); PEXFinishOC (display); PEXSyncHandle (display); }