X-Git-Url: http://git.asbjorn.biz/?a=blobdiff_plain;f=lib%2Fxpdf%2FGfx.cc;fp=lib%2Fxpdf%2FGfx.cc;h=49e9407af396a464054e8a5402eaef9e6f191e84;hb=1279e7201aaf80eca58ad982ec11de68c85631af;hp=0000000000000000000000000000000000000000;hpb=e40d573cbf6659328121d0383d6d5ac8acd58c34;p=swftools.git diff --git a/lib/xpdf/Gfx.cc b/lib/xpdf/Gfx.cc new file mode 100644 index 0000000..49e9407 --- /dev/null +++ b/lib/xpdf/Gfx.cc @@ -0,0 +1,3596 @@ +//======================================================================== +// +// Gfx.cc +// +// Copyright 1996-2003 Glyph & Cog, LLC +// +//======================================================================== + +#include + +#ifdef USE_GCC_PRAGMAS +#pragma implementation +#endif + +#include +#include +#include +#include +#include +#include "gmem.h" +#include "GlobalParams.h" +#include "CharTypes.h" +#include "Object.h" +#include "Array.h" +#include "Dict.h" +#include "Stream.h" +#include "Lexer.h" +#include "Parser.h" +#include "GfxFont.h" +#include "GfxState.h" +#include "OutputDev.h" +#include "Page.h" +#include "Error.h" +#include "Gfx.h" + +// the MSVC math.h doesn't define this +#ifndef M_PI +#define M_PI 3.14159265358979323846 +#endif + +//------------------------------------------------------------------------ +// constants +//------------------------------------------------------------------------ + +// Max recursive depth for a function shading fill. +#define functionMaxDepth 6 + +// Max delta allowed in any color component for a function shading fill. +#define functionColorDelta (dblToCol(1 / 256.0)) + +// Max number of splits along the t axis for an axial shading fill. +#define axialMaxSplits 256 + +// Max delta allowed in any color component for an axial shading fill. +#define axialColorDelta (dblToCol(1 / 256.0)) + +// Max number of splits along the t axis for a radial shading fill. +#define radialMaxSplits 256 + +// Max delta allowed in any color component for a radial shading fill. +#define radialColorDelta (dblToCol(1 / 256.0)) + +// Max recursive depth for a Gouraud triangle shading fill. +#define gouraudMaxDepth 4 + +// Max delta allowed in any color component for a Gouraud triangle +// shading fill. +#define gouraudColorDelta (dblToCol(1 / 256.0)) + +// Max recursive depth for a patch mesh shading fill. +#define patchMaxDepth 6 + +// Max delta allowed in any color component for a patch mesh shading +// fill. +#define patchColorDelta (dblToCol(1 / 256.0)) + +//------------------------------------------------------------------------ +// Operator table +//------------------------------------------------------------------------ + +#ifdef WIN32 // this works around a bug in the VC7 compiler +# pragma optimize("",off) +#endif + +Operator Gfx::opTab[] = { + {"\"", 3, {tchkNum, tchkNum, tchkString}, + &Gfx::opMoveSetShowText}, + {"'", 1, {tchkString}, + &Gfx::opMoveShowText}, + {"B", 0, {tchkNone}, + &Gfx::opFillStroke}, + {"B*", 0, {tchkNone}, + &Gfx::opEOFillStroke}, + {"BDC", 2, {tchkName, tchkProps}, + &Gfx::opBeginMarkedContent}, + {"BI", 0, {tchkNone}, + &Gfx::opBeginImage}, + {"BMC", 1, {tchkName}, + &Gfx::opBeginMarkedContent}, + {"BT", 0, {tchkNone}, + &Gfx::opBeginText}, + {"BX", 0, {tchkNone}, + &Gfx::opBeginIgnoreUndef}, + {"CS", 1, {tchkName}, + &Gfx::opSetStrokeColorSpace}, + {"DP", 2, {tchkName, tchkProps}, + &Gfx::opMarkPoint}, + {"Do", 1, {tchkName}, + &Gfx::opXObject}, + {"EI", 0, {tchkNone}, + &Gfx::opEndImage}, + {"EMC", 0, {tchkNone}, + &Gfx::opEndMarkedContent}, + {"ET", 0, {tchkNone}, + &Gfx::opEndText}, + {"EX", 0, {tchkNone}, + &Gfx::opEndIgnoreUndef}, + {"F", 0, {tchkNone}, + &Gfx::opFill}, + {"G", 1, {tchkNum}, + &Gfx::opSetStrokeGray}, + {"ID", 0, {tchkNone}, + &Gfx::opImageData}, + {"J", 1, {tchkInt}, + &Gfx::opSetLineCap}, + {"K", 4, {tchkNum, tchkNum, tchkNum, tchkNum}, + &Gfx::opSetStrokeCMYKColor}, + {"M", 1, {tchkNum}, + &Gfx::opSetMiterLimit}, + {"MP", 1, {tchkName}, + &Gfx::opMarkPoint}, + {"Q", 0, {tchkNone}, + &Gfx::opRestore}, + {"RG", 3, {tchkNum, tchkNum, tchkNum}, + &Gfx::opSetStrokeRGBColor}, + {"S", 0, {tchkNone}, + &Gfx::opStroke}, + {"SC", -4, {tchkNum, tchkNum, tchkNum, tchkNum}, + &Gfx::opSetStrokeColor}, + {"SCN", -5, {tchkSCN, tchkSCN, tchkSCN, tchkSCN, + tchkSCN}, + &Gfx::opSetStrokeColorN}, + {"T*", 0, {tchkNone}, + &Gfx::opTextNextLine}, + {"TD", 2, {tchkNum, tchkNum}, + &Gfx::opTextMoveSet}, + {"TJ", 1, {tchkArray}, + &Gfx::opShowSpaceText}, + {"TL", 1, {tchkNum}, + &Gfx::opSetTextLeading}, + {"Tc", 1, {tchkNum}, + &Gfx::opSetCharSpacing}, + {"Td", 2, {tchkNum, tchkNum}, + &Gfx::opTextMove}, + {"Tf", 2, {tchkName, tchkNum}, + &Gfx::opSetFont}, + {"Tj", 1, {tchkString}, + &Gfx::opShowText}, + {"Tm", 6, {tchkNum, tchkNum, tchkNum, tchkNum, + tchkNum, tchkNum}, + &Gfx::opSetTextMatrix}, + {"Tr", 1, {tchkInt}, + &Gfx::opSetTextRender}, + {"Ts", 1, {tchkNum}, + &Gfx::opSetTextRise}, + {"Tw", 1, {tchkNum}, + &Gfx::opSetWordSpacing}, + {"Tz", 1, {tchkNum}, + &Gfx::opSetHorizScaling}, + {"W", 0, {tchkNone}, + &Gfx::opClip}, + {"W*", 0, {tchkNone}, + &Gfx::opEOClip}, + {"b", 0, {tchkNone}, + &Gfx::opCloseFillStroke}, + {"b*", 0, {tchkNone}, + &Gfx::opCloseEOFillStroke}, + {"c", 6, {tchkNum, tchkNum, tchkNum, tchkNum, + tchkNum, tchkNum}, + &Gfx::opCurveTo}, + {"cm", 6, {tchkNum, tchkNum, tchkNum, tchkNum, + tchkNum, tchkNum}, + &Gfx::opConcat}, + {"cs", 1, {tchkName}, + &Gfx::opSetFillColorSpace}, + {"d", 2, {tchkArray, tchkNum}, + &Gfx::opSetDash}, + {"d0", 2, {tchkNum, tchkNum}, + &Gfx::opSetCharWidth}, + {"d1", 6, {tchkNum, tchkNum, tchkNum, tchkNum, + tchkNum, tchkNum}, + &Gfx::opSetCacheDevice}, + {"f", 0, {tchkNone}, + &Gfx::opFill}, + {"f*", 0, {tchkNone}, + &Gfx::opEOFill}, + {"g", 1, {tchkNum}, + &Gfx::opSetFillGray}, + {"gs", 1, {tchkName}, + &Gfx::opSetExtGState}, + {"h", 0, {tchkNone}, + &Gfx::opClosePath}, + {"i", 1, {tchkNum}, + &Gfx::opSetFlat}, + {"j", 1, {tchkInt}, + &Gfx::opSetLineJoin}, + {"k", 4, {tchkNum, tchkNum, tchkNum, tchkNum}, + &Gfx::opSetFillCMYKColor}, + {"l", 2, {tchkNum, tchkNum}, + &Gfx::opLineTo}, + {"m", 2, {tchkNum, tchkNum}, + &Gfx::opMoveTo}, + {"n", 0, {tchkNone}, + &Gfx::opEndPath}, + {"q", 0, {tchkNone}, + &Gfx::opSave}, + {"re", 4, {tchkNum, tchkNum, tchkNum, tchkNum}, + &Gfx::opRectangle}, + {"rg", 3, {tchkNum, tchkNum, tchkNum}, + &Gfx::opSetFillRGBColor}, + {"ri", 1, {tchkName}, + &Gfx::opSetRenderingIntent}, + {"s", 0, {tchkNone}, + &Gfx::opCloseStroke}, + {"sc", -4, {tchkNum, tchkNum, tchkNum, tchkNum}, + &Gfx::opSetFillColor}, + {"scn", -5, {tchkSCN, tchkSCN, tchkSCN, tchkSCN, + tchkSCN}, + &Gfx::opSetFillColorN}, + {"sh", 1, {tchkName}, + &Gfx::opShFill}, + {"v", 4, {tchkNum, tchkNum, tchkNum, tchkNum}, + &Gfx::opCurveTo1}, + {"w", 1, {tchkNum}, + &Gfx::opSetLineWidth}, + {"y", 4, {tchkNum, tchkNum, tchkNum, tchkNum}, + &Gfx::opCurveTo2}, +}; + +#ifdef WIN32 // this works around a bug in the VC7 compiler +# pragma optimize("",on) +#endif + +#define numOps (sizeof(opTab) / sizeof(Operator)) + +//------------------------------------------------------------------------ +// GfxResources +//------------------------------------------------------------------------ + +GfxResources::GfxResources(XRef *xref, Dict *resDict, GfxResources *nextA) { + Object obj1, obj2; + Ref r; + + if (resDict) { + + // build font dictionary + fonts = NULL; + resDict->lookupNF("Font", &obj1); + if (obj1.isRef()) { + obj1.fetch(xref, &obj2); + if (obj2.isDict()) { + r = obj1.getRef(); + fonts = new GfxFontDict(xref, &r, obj2.getDict()); + } + obj2.free(); + } else if (obj1.isDict()) { + fonts = new GfxFontDict(xref, NULL, obj1.getDict()); + } + obj1.free(); + + // get XObject dictionary + resDict->lookup("XObject", &xObjDict); + + // get color space dictionary + resDict->lookup("ColorSpace", &colorSpaceDict); + + // get pattern dictionary + resDict->lookup("Pattern", &patternDict); + + // get shading dictionary + resDict->lookup("Shading", &shadingDict); + + // get graphics state parameter dictionary + resDict->lookup("ExtGState", &gStateDict); + + } else { + fonts = NULL; + xObjDict.initNull(); + colorSpaceDict.initNull(); + patternDict.initNull(); + shadingDict.initNull(); + gStateDict.initNull(); + } + + next = nextA; +} + +GfxResources::~GfxResources() { + if (fonts) { + delete fonts; + } + xObjDict.free(); + colorSpaceDict.free(); + patternDict.free(); + shadingDict.free(); + gStateDict.free(); +} + +GfxFont *GfxResources::lookupFont(char *name) { + GfxFont *font; + GfxResources *resPtr; + + for (resPtr = this; resPtr; resPtr = resPtr->next) { + if (resPtr->fonts) { + if ((font = resPtr->fonts->lookup(name))) + return font; + } + } + error(-1, "Unknown font tag '%s'", name); + return NULL; +} + +GBool GfxResources::lookupXObject(char *name, Object *obj) { + GfxResources *resPtr; + + for (resPtr = this; resPtr; resPtr = resPtr->next) { + if (resPtr->xObjDict.isDict()) { + if (!resPtr->xObjDict.dictLookup(name, obj)->isNull()) + return gTrue; + obj->free(); + } + } + error(-1, "XObject '%s' is unknown", name); + return gFalse; +} + +GBool GfxResources::lookupXObjectNF(char *name, Object *obj) { + GfxResources *resPtr; + + for (resPtr = this; resPtr; resPtr = resPtr->next) { + if (resPtr->xObjDict.isDict()) { + if (!resPtr->xObjDict.dictLookupNF(name, obj)->isNull()) + return gTrue; + obj->free(); + } + } + error(-1, "XObject '%s' is unknown", name); + return gFalse; +} + +void GfxResources::lookupColorSpace(char *name, Object *obj) { + GfxResources *resPtr; + + for (resPtr = this; resPtr; resPtr = resPtr->next) { + if (resPtr->colorSpaceDict.isDict()) { + if (!resPtr->colorSpaceDict.dictLookup(name, obj)->isNull()) { + return; + } + obj->free(); + } + } + obj->initNull(); +} + +GfxPattern *GfxResources::lookupPattern(char *name) { + GfxResources *resPtr; + GfxPattern *pattern; + Object obj; + + for (resPtr = this; resPtr; resPtr = resPtr->next) { + if (resPtr->patternDict.isDict()) { + if (!resPtr->patternDict.dictLookup(name, &obj)->isNull()) { + pattern = GfxPattern::parse(&obj); + obj.free(); + return pattern; + } + obj.free(); + } + } + error(-1, "Unknown pattern '%s'", name); + return NULL; +} + +GfxShading *GfxResources::lookupShading(char *name) { + GfxResources *resPtr; + GfxShading *shading; + Object obj; + + for (resPtr = this; resPtr; resPtr = resPtr->next) { + if (resPtr->shadingDict.isDict()) { + if (!resPtr->shadingDict.dictLookup(name, &obj)->isNull()) { + shading = GfxShading::parse(&obj); + obj.free(); + return shading; + } + obj.free(); + } + } + error(-1, "Unknown shading '%s'", name); + return NULL; +} + +GBool GfxResources::lookupGState(char *name, Object *obj) { + GfxResources *resPtr; + + for (resPtr = this; resPtr; resPtr = resPtr->next) { + if (resPtr->gStateDict.isDict()) { + if (!resPtr->gStateDict.dictLookup(name, obj)->isNull()) { + return gTrue; + } + obj->free(); + } + } + error(-1, "ExtGState '%s' is unknown", name); + return gFalse; +} + +//------------------------------------------------------------------------ +// Gfx +//------------------------------------------------------------------------ + +Gfx::Gfx(XRef *xrefA, OutputDev *outA, int pageNum, Dict *resDict, + double hDPI, double vDPI, PDFRectangle *box, + PDFRectangle *cropBox, int rotate, + GBool (*abortCheckCbkA)(void *data), + void *abortCheckCbkDataA) { + int i; + + xref = xrefA; + subPage = gFalse; + printCommands = globalParams->getPrintCommands(); + + // start the resource stack + res = new GfxResources(xref, resDict, NULL); + + // initialize + out = outA; + state = new GfxState(hDPI, vDPI, box, rotate, out->upsideDown()); + fontChanged = gFalse; + clip = clipNone; + ignoreUndef = 0; + out->startPage(pageNum, state, cropBox->x1,cropBox->y1,cropBox->x2,cropBox->y2); + out->setDefaultCTM(state->getCTM()); + out->updateAll(state); + for (i = 0; i < 6; ++i) { + baseMatrix[i] = state->getCTM()[i]; + } + formDepth = 0; + abortCheckCbk = abortCheckCbkA; + abortCheckCbkData = abortCheckCbkDataA; + + // set crop box + /*if (cropBox) { + state->moveTo(cropBox->x1, cropBox->y1); + state->lineTo(cropBox->x2, cropBox->y1); + state->lineTo(cropBox->x2, cropBox->y2); + state->lineTo(cropBox->x1, cropBox->y2); + state->closePath(); + state->clip(); + out->clip(state); + state->clearPath(); + }*/ +} + +Gfx::Gfx(XRef *xrefA, OutputDev *outA, Dict *resDict, + PDFRectangle *box, PDFRectangle *cropBox, + GBool (*abortCheckCbkA)(void *data), + void *abortCheckCbkDataA) { + int i; + + xref = xrefA; + subPage = gTrue; + printCommands = globalParams->getPrintCommands(); + + // start the resource stack + res = new GfxResources(xref, resDict, NULL); + + // initialize + out = outA; + state = new GfxState(72, 72, box, 0, gFalse); + fontChanged = gFalse; + clip = clipNone; + ignoreUndef = 0; + for (i = 0; i < 6; ++i) { + baseMatrix[i] = state->getCTM()[i]; + } + formDepth = 0; + abortCheckCbk = abortCheckCbkA; + abortCheckCbkData = abortCheckCbkDataA; + + // set crop box + if (cropBox) { + state->moveTo(cropBox->x1, cropBox->y1); + state->lineTo(cropBox->x2, cropBox->y1); + state->lineTo(cropBox->x2, cropBox->y2); + state->lineTo(cropBox->x1, cropBox->y2); + state->closePath(); + state->clip(); + out->clip(state); + state->clearPath(); + } +} + +Gfx::~Gfx() { + while (state->hasSaves()) { + restoreState(); + } + if (!subPage) { + out->endPage(); + } + while (res) { + popResources(); + } + if (state) { + delete state; + } +} + +void Gfx::display(Object *obj, GBool topLevel) { + Object obj2; + int i; + + if (obj->isArray()) { + for (i = 0; i < obj->arrayGetLength(); ++i) { + obj->arrayGet(i, &obj2); + if (!obj2.isStream()) { + error(-1, "Weird page contents"); + obj2.free(); + return; + } + obj2.free(); + } + } else if (!obj->isStream()) { + error(-1, "Weird page contents"); + return; + } + parser = new Parser(xref, new Lexer(xref, obj)); + go(topLevel); + delete parser; + parser = NULL; +} + +void Gfx::go(GBool topLevel) { + Object obj; + Object args[maxArgs]; + int numArgs, i; + int lastAbortCheck; + + // scan a sequence of objects + updateLevel = lastAbortCheck = 0; + numArgs = 0; + parser->getObj(&obj); + while (!obj.isEOF()) { + + // got a command - execute it + if (obj.isCmd()) { + if (printCommands) { + obj.print(stdout); + for (i = 0; i < numArgs; ++i) { + printf(" "); + args[i].print(stdout); + } + printf("\n"); + fflush(stdout); + } + execOp(&obj, args, numArgs); + obj.free(); + for (i = 0; i < numArgs; ++i) + args[i].free(); + numArgs = 0; + + // periodically update display + if (++updateLevel >= 20000) { + out->dump(); + updateLevel = 0; + } + + // check for an abort + if (abortCheckCbk) { + if (updateLevel - lastAbortCheck > 10) { + if ((*abortCheckCbk)(abortCheckCbkData)) { + break; + } + lastAbortCheck = updateLevel; + } + } + + // got an argument - save it + } else if (numArgs < maxArgs) { + args[numArgs++] = obj; + + // too many arguments - something is wrong + } else { + error(getPos(), "Too many args in content stream"); + if (printCommands) { + printf("throwing away arg: "); + obj.print(stdout); + printf("\n"); + fflush(stdout); + } + obj.free(); + } + + // grab the next object + parser->getObj(&obj); + } + obj.free(); + + // args at end with no command + if (numArgs > 0) { + error(getPos(), "Leftover args in content stream"); + if (printCommands) { + printf("%d leftovers:", numArgs); + for (i = 0; i < numArgs; ++i) { + printf(" "); + args[i].print(stdout); + } + printf("\n"); + fflush(stdout); + } + for (i = 0; i < numArgs; ++i) + args[i].free(); + } + + // update display + if (topLevel && updateLevel > 0) { + out->dump(); + } +} + +void Gfx::execOp(Object *cmd, Object args[], int numArgs) { + Operator *op; + char *name; + Object *argPtr; + int i; + + // find operator + name = cmd->getCmd(); + if (!(op = findOp(name))) { + if (ignoreUndef == 0) + error(getPos(), "Unknown operator '%s'", name); + return; + } + + // type check args + argPtr = args; + if (op->numArgs >= 0) { + if (numArgs < op->numArgs) { + error(getPos(), "Too few (%d) args to '%s' operator", numArgs, name); + return; + } + if (numArgs > op->numArgs) { +#if 0 + error(getPos(), "Too many (%d) args to '%s' operator", numArgs, name); +#endif + argPtr += numArgs - op->numArgs; + numArgs = op->numArgs; + } + } else { + if (numArgs > -op->numArgs) { + error(getPos(), "Too many (%d) args to '%s' operator", + numArgs, name); + return; + } + } + for (i = 0; i < numArgs; ++i) { + if (!checkArg(&argPtr[i], op->tchk[i])) { + error(getPos(), "Arg #%d to '%s' operator is wrong type (%s)", + i, name, argPtr[i].getTypeName()); + return; + } + } + + // do it + (this->*op->func)(argPtr, numArgs); +} + +Operator *Gfx::findOp(char *name) { + int a, b, m, cmp; + + a = -1; + b = numOps; + // invariant: opTab[a] < name < opTab[b] + while (b - a > 1) { + m = (a + b) / 2; + cmp = strcmp(opTab[m].name, name); + if (cmp < 0) + a = m; + else if (cmp > 0) + b = m; + else + a = b = m; + } + if (cmp != 0) + return NULL; + return &opTab[a]; +} + +GBool Gfx::checkArg(Object *arg, TchkType type) { + switch (type) { + case tchkBool: return arg->isBool(); + case tchkInt: return arg->isInt(); + case tchkNum: return arg->isNum(); + case tchkString: return arg->isString(); + case tchkName: return arg->isName(); + case tchkArray: return arg->isArray(); + case tchkProps: return arg->isDict() || arg->isName(); + case tchkSCN: return arg->isNum() || arg->isName(); + case tchkNone: return gFalse; + } + return gFalse; +} + +int Gfx::getPos() { + return parser ? parser->getPos() : -1; +} + +//------------------------------------------------------------------------ +// graphics state operators +//------------------------------------------------------------------------ + +void Gfx::opSave(Object args[], int numArgs) { + saveState(); +} + +void Gfx::opRestore(Object args[], int numArgs) { + restoreState(); +} + +void Gfx::opConcat(Object args[], int numArgs) { + state->concatCTM(args[0].getNum(), args[1].getNum(), + args[2].getNum(), args[3].getNum(), + args[4].getNum(), args[5].getNum()); + out->updateCTM(state, args[0].getNum(), args[1].getNum(), + args[2].getNum(), args[3].getNum(), + args[4].getNum(), args[5].getNum()); + fontChanged = gTrue; +} + +void Gfx::opSetDash(Object args[], int numArgs) { + Array *a; + int length; + Object obj; + double *dash; + int i; + + a = args[0].getArray(); + length = a->getLength(); + if (length == 0) { + dash = NULL; + } else { + dash = (double *)gmallocn(length, sizeof(double)); + for (i = 0; i < length; ++i) { + dash[i] = a->get(i, &obj)->getNum(); + obj.free(); + } + } + state->setLineDash(dash, length, args[1].getNum()); + out->updateLineDash(state); +} + +void Gfx::opSetFlat(Object args[], int numArgs) { + state->setFlatness((int)args[0].getNum()); + out->updateFlatness(state); +} + +void Gfx::opSetLineJoin(Object args[], int numArgs) { + state->setLineJoin(args[0].getInt()); + out->updateLineJoin(state); +} + +void Gfx::opSetLineCap(Object args[], int numArgs) { + state->setLineCap(args[0].getInt()); + out->updateLineCap(state); +} + +void Gfx::opSetMiterLimit(Object args[], int numArgs) { + state->setMiterLimit(args[0].getNum()); + out->updateMiterLimit(state); +} + +void Gfx::opSetLineWidth(Object args[], int numArgs) { + state->setLineWidth(args[0].getNum()); + out->updateLineWidth(state); +} + +void Gfx::opSetExtGState(Object args[], int numArgs) { + Object obj1, obj2; + GfxBlendMode mode; + GBool haveFillOP; + + if (!res->lookupGState(args[0].getName(), &obj1)) { + return; + } + if (!obj1.isDict()) { + error(getPos(), "ExtGState '%s' is wrong type", args[0].getName()); + obj1.free(); + return; + } + + // transparency support: blend mode, fill/stroke opacity + if (!obj1.dictLookup("BM", &obj2)->isNull()) { + if (state->parseBlendMode(&obj2, &mode)) { + state->setBlendMode(mode); + out->updateBlendMode(state); + } else { + error(getPos(), "Invalid blend mode in ExtGState"); + } + } + obj2.free(); + if (obj1.dictLookup("ca", &obj2)->isNum()) { + state->setFillOpacity(obj2.getNum()); + out->updateFillOpacity(state); + } + obj2.free(); + if (obj1.dictLookup("CA", &obj2)->isNum()) { + state->setStrokeOpacity(obj2.getNum()); + out->updateStrokeOpacity(state); + } + obj2.free(); + + // fill/stroke overprint + if ((haveFillOP = (obj1.dictLookup("op", &obj2)->isBool()))) { + state->setFillOverprint(obj2.getBool()); + out->updateFillOverprint(state); + } + obj2.free(); + if (obj1.dictLookup("OP", &obj2)->isBool()) { + state->setStrokeOverprint(obj2.getBool()); + out->updateStrokeOverprint(state); + if (!haveFillOP) { + state->setFillOverprint(obj2.getBool()); + out->updateFillOverprint(state); + } + } + obj2.free(); + + obj1.free(); +} + +void Gfx::opSetRenderingIntent(Object args[], int numArgs) { +} + +//------------------------------------------------------------------------ +// color operators +//------------------------------------------------------------------------ + +void Gfx::opSetFillGray(Object args[], int numArgs) { + GfxColor color; + + state->setFillPattern(NULL); + state->setFillColorSpace(new GfxDeviceGrayColorSpace()); + out->updateFillColorSpace(state); + color.c[0] = dblToCol(args[0].getNum()); + state->setFillColor(&color); + out->updateFillColor(state); +} + +void Gfx::opSetStrokeGray(Object args[], int numArgs) { + GfxColor color; + + state->setStrokePattern(NULL); + state->setStrokeColorSpace(new GfxDeviceGrayColorSpace()); + out->updateStrokeColorSpace(state); + color.c[0] = dblToCol(args[0].getNum()); + state->setStrokeColor(&color); + out->updateStrokeColor(state); +} + +void Gfx::opSetFillCMYKColor(Object args[], int numArgs) { + GfxColor color; + int i; + + state->setFillPattern(NULL); + state->setFillColorSpace(new GfxDeviceCMYKColorSpace()); + out->updateFillColorSpace(state); + for (i = 0; i < 4; ++i) { + color.c[i] = dblToCol(args[i].getNum()); + } + state->setFillColor(&color); + out->updateFillColor(state); +} + +void Gfx::opSetStrokeCMYKColor(Object args[], int numArgs) { + GfxColor color; + int i; + + state->setStrokePattern(NULL); + state->setStrokeColorSpace(new GfxDeviceCMYKColorSpace()); + out->updateStrokeColorSpace(state); + for (i = 0; i < 4; ++i) { + color.c[i] = dblToCol(args[i].getNum()); + } + state->setStrokeColor(&color); + out->updateStrokeColor(state); +} + +void Gfx::opSetFillRGBColor(Object args[], int numArgs) { + GfxColor color; + int i; + + state->setFillPattern(NULL); + state->setFillColorSpace(new GfxDeviceRGBColorSpace()); + out->updateFillColorSpace(state); + for (i = 0; i < 3; ++i) { + color.c[i] = dblToCol(args[i].getNum()); + } + state->setFillColor(&color); + out->updateFillColor(state); +} + +void Gfx::opSetStrokeRGBColor(Object args[], int numArgs) { + GfxColor color; + int i; + + state->setStrokePattern(NULL); + state->setStrokeColorSpace(new GfxDeviceRGBColorSpace()); + out->updateStrokeColorSpace(state); + for (i = 0; i < 3; ++i) { + color.c[i] = dblToCol(args[i].getNum()); + } + state->setStrokeColor(&color); + out->updateStrokeColor(state); +} + +void Gfx::opSetFillColorSpace(Object args[], int numArgs) { + Object obj; + GfxColorSpace *colorSpace; + GfxColor color; + int i; + + state->setFillPattern(NULL); + res->lookupColorSpace(args[0].getName(), &obj); + if (obj.isNull()) { + colorSpace = GfxColorSpace::parse(&args[0]); + } else { + colorSpace = GfxColorSpace::parse(&obj); + } + obj.free(); + if (colorSpace) { + state->setFillColorSpace(colorSpace); + out->updateFillColorSpace(state); + } else { + error(getPos(), "Bad color space (fill)"); + } + for (i = 0; i < gfxColorMaxComps; ++i) { + color.c[i] = 0; + } + state->setFillColor(&color); + out->updateFillColor(state); +} + +void Gfx::opSetStrokeColorSpace(Object args[], int numArgs) { + Object obj; + GfxColorSpace *colorSpace; + GfxColor color; + int i; + + state->setStrokePattern(NULL); + res->lookupColorSpace(args[0].getName(), &obj); + if (obj.isNull()) { + colorSpace = GfxColorSpace::parse(&args[0]); + } else { + colorSpace = GfxColorSpace::parse(&obj); + } + obj.free(); + if (colorSpace) { + state->setStrokeColorSpace(colorSpace); + out->updateStrokeColorSpace(state); + } else { + error(getPos(), "Bad color space (stroke)"); + } + for (i = 0; i < gfxColorMaxComps; ++i) { + color.c[i] = 0; + } + state->setStrokeColor(&color); + out->updateStrokeColor(state); +} + +void Gfx::opSetFillColor(Object args[], int numArgs) { + GfxColor color; + int i; + + state->setFillPattern(NULL); + for (i = 0; i < numArgs; ++i) { + color.c[i] = dblToCol(args[i].getNum()); + } + state->setFillColor(&color); + out->updateFillColor(state); +} + +void Gfx::opSetStrokeColor(Object args[], int numArgs) { + GfxColor color; + int i; + + state->setStrokePattern(NULL); + for (i = 0; i < numArgs; ++i) { + color.c[i] = dblToCol(args[i].getNum()); + } + state->setStrokeColor(&color); + out->updateStrokeColor(state); +} + +void Gfx::opSetFillColorN(Object args[], int numArgs) { + GfxColor color; + GfxPattern *pattern; + int i; + + if (state->getFillColorSpace()->getMode() == csPattern) { + if (numArgs > 1) { + for (i = 0; i < numArgs && i < 4; ++i) { + if (args[i].isNum()) { + color.c[i] = dblToCol(args[i].getNum()); + } + } + state->setFillColor(&color); + out->updateFillColor(state); + } + if (args[numArgs-1].isName() && + (pattern = res->lookupPattern(args[numArgs-1].getName()))) { + state->setFillPattern(pattern); + } + + } else { + state->setFillPattern(NULL); + for (i = 0; i < numArgs && i < 4; ++i) { + if (args[i].isNum()) { + color.c[i] = dblToCol(args[i].getNum()); + } + } + state->setFillColor(&color); + out->updateFillColor(state); + } +} + +void Gfx::opSetStrokeColorN(Object args[], int numArgs) { + GfxColor color; + GfxPattern *pattern; + int i; + + if (state->getStrokeColorSpace()->getMode() == csPattern) { + if (numArgs > 1) { + for (i = 0; i < numArgs && i < 4; ++i) { + if (args[i].isNum()) { + color.c[i] = dblToCol(args[i].getNum()); + } + } + state->setStrokeColor(&color); + out->updateStrokeColor(state); + } + if (args[numArgs-1].isName() && + (pattern = res->lookupPattern(args[numArgs-1].getName()))) { + state->setStrokePattern(pattern); + } + + } else { + state->setStrokePattern(NULL); + for (i = 0; i < numArgs && i < 4; ++i) { + if (args[i].isNum()) { + color.c[i] = dblToCol(args[i].getNum()); + } + } + state->setStrokeColor(&color); + out->updateStrokeColor(state); + } +} + +//------------------------------------------------------------------------ +// path segment operators +//------------------------------------------------------------------------ + +void Gfx::opMoveTo(Object args[], int numArgs) { + state->moveTo(args[0].getNum(), args[1].getNum()); +} + +void Gfx::opLineTo(Object args[], int numArgs) { + if (!state->isCurPt()) { + error(getPos(), "No current point in lineto"); + return; + } + state->lineTo(args[0].getNum(), args[1].getNum()); +} + +void Gfx::opCurveTo(Object args[], int numArgs) { + double x1, y1, x2, y2, x3, y3; + + if (!state->isCurPt()) { + error(getPos(), "No current point in curveto"); + return; + } + x1 = args[0].getNum(); + y1 = args[1].getNum(); + x2 = args[2].getNum(); + y2 = args[3].getNum(); + x3 = args[4].getNum(); + y3 = args[5].getNum(); + state->curveTo(x1, y1, x2, y2, x3, y3); +} + +void Gfx::opCurveTo1(Object args[], int numArgs) { + double x1, y1, x2, y2, x3, y3; + + if (!state->isCurPt()) { + error(getPos(), "No current point in curveto1"); + return; + } + x1 = state->getCurX(); + y1 = state->getCurY(); + x2 = args[0].getNum(); + y2 = args[1].getNum(); + x3 = args[2].getNum(); + y3 = args[3].getNum(); + state->curveTo(x1, y1, x2, y2, x3, y3); +} + +void Gfx::opCurveTo2(Object args[], int numArgs) { + double x1, y1, x2, y2, x3, y3; + + if (!state->isCurPt()) { + error(getPos(), "No current point in curveto2"); + return; + } + x1 = args[0].getNum(); + y1 = args[1].getNum(); + x2 = args[2].getNum(); + y2 = args[3].getNum(); + x3 = x2; + y3 = y2; + state->curveTo(x1, y1, x2, y2, x3, y3); +} + +void Gfx::opRectangle(Object args[], int numArgs) { + double x, y, w, h; + + x = args[0].getNum(); + y = args[1].getNum(); + w = args[2].getNum(); + h = args[3].getNum(); + state->moveTo(x, y); + state->lineTo(x + w, y); + state->lineTo(x + w, y + h); + state->lineTo(x, y + h); + state->closePath(); +} + +void Gfx::opClosePath(Object args[], int numArgs) { + if (!state->isCurPt()) { + error(getPos(), "No current point in closepath"); + return; + } + state->closePath(); +} + +//------------------------------------------------------------------------ +// path painting operators +//------------------------------------------------------------------------ + +void Gfx::opEndPath(Object args[], int numArgs) { + doEndPath(); +} + +void Gfx::opStroke(Object args[], int numArgs) { + if (!state->isCurPt()) { + //error(getPos(), "No path in stroke"); + return; + } + if (state->isPath()) + out->stroke(state); + doEndPath(); +} + +void Gfx::opCloseStroke(Object args[], int numArgs) { + if (!state->isCurPt()) { + //error(getPos(), "No path in closepath/stroke"); + return; + } + if (state->isPath()) { + state->closePath(); + out->stroke(state); + } + doEndPath(); +} + +void Gfx::opFill(Object args[], int numArgs) { + if (!state->isCurPt()) { + //error(getPos(), "No path in fill"); + return; + } + if (state->isPath()) { + if (state->getFillColorSpace()->getMode() == csPattern) { + doPatternFill(gFalse); + } else { + out->fill(state); + } + } + doEndPath(); +} + +void Gfx::opEOFill(Object args[], int numArgs) { + if (!state->isCurPt()) { + //error(getPos(), "No path in eofill"); + return; + } + if (state->isPath()) { + if (state->getFillColorSpace()->getMode() == csPattern) { + doPatternFill(gTrue); + } else { + out->eoFill(state); + } + } + doEndPath(); +} + +void Gfx::opFillStroke(Object args[], int numArgs) { + if (!state->isCurPt()) { + //error(getPos(), "No path in fill/stroke"); + return; + } + if (state->isPath()) { + if (state->getFillColorSpace()->getMode() == csPattern) { + doPatternFill(gFalse); + } else { + out->fill(state); + } + out->stroke(state); + } + doEndPath(); +} + +void Gfx::opCloseFillStroke(Object args[], int numArgs) { + if (!state->isCurPt()) { + //error(getPos(), "No path in closepath/fill/stroke"); + return; + } + if (state->isPath()) { + state->closePath(); + if (state->getFillColorSpace()->getMode() == csPattern) { + doPatternFill(gFalse); + } else { + out->fill(state); + } + out->stroke(state); + } + doEndPath(); +} + +void Gfx::opEOFillStroke(Object args[], int numArgs) { + if (!state->isCurPt()) { + //error(getPos(), "No path in eofill/stroke"); + return; + } + if (state->isPath()) { + if (state->getFillColorSpace()->getMode() == csPattern) { + doPatternFill(gTrue); + } else { + out->eoFill(state); + } + out->stroke(state); + } + doEndPath(); +} + +void Gfx::opCloseEOFillStroke(Object args[], int numArgs) { + if (!state->isCurPt()) { + //error(getPos(), "No path in closepath/eofill/stroke"); + return; + } + if (state->isPath()) { + state->closePath(); + if (state->getFillColorSpace()->getMode() == csPattern) { + doPatternFill(gTrue); + } else { + out->eoFill(state); + } + out->stroke(state); + } + doEndPath(); +} + +void Gfx::doPatternFill(GBool eoFill) { + GfxPattern *pattern; + + // this is a bit of a kludge -- patterns can be really slow, so we + // skip them if we're only doing text extraction, since they almost + // certainly don't contain any text + if (!out->needNonText()) { + return; + } + + if (!(pattern = state->getFillPattern())) { + return; + } + switch (pattern->getType()) { + case 1: + doTilingPatternFill((GfxTilingPattern *)pattern, eoFill); + break; + case 2: + doShadingPatternFill((GfxShadingPattern *)pattern, eoFill); + break; + default: + error(getPos(), "Unimplemented pattern type (%d) in fill", + pattern->getType()); + break; + } +} + +void Gfx::doTilingPatternFill(GfxTilingPattern *tPat, GBool eoFill) { + GfxPatternColorSpace *patCS; + GfxColorSpace *cs; + GfxPath *savedPath; + double xMin, yMin, xMax, yMax, x, y, x1, y1; + double cxMin, cyMin, cxMax, cyMax; + int xi0, yi0, xi1, yi1, xi, yi; + double *ctm, *btm, *ptm; + double m[6], ictm[6], m1[6], imb[6]; + double det; + double xstep, ystep; + int i; + + // get color space + patCS = (GfxPatternColorSpace *)state->getFillColorSpace(); + + // construct a (pattern space) -> (current space) transform matrix + ctm = state->getCTM(); + btm = baseMatrix; + ptm = tPat->getMatrix(); + // iCTM = invert CTM + det = 1 / (ctm[0] * ctm[3] - ctm[1] * ctm[2]); + ictm[0] = ctm[3] * det; + ictm[1] = -ctm[1] * det; + ictm[2] = -ctm[2] * det; + ictm[3] = ctm[0] * det; + ictm[4] = (ctm[2] * ctm[5] - ctm[3] * ctm[4]) * det; + ictm[5] = (ctm[1] * ctm[4] - ctm[0] * ctm[5]) * det; + // m1 = PTM * BTM = PTM * base transform matrix + m1[0] = ptm[0] * btm[0] + ptm[1] * btm[2]; + m1[1] = ptm[0] * btm[1] + ptm[1] * btm[3]; + m1[2] = ptm[2] * btm[0] + ptm[3] * btm[2]; + m1[3] = ptm[2] * btm[1] + ptm[3] * btm[3]; + m1[4] = ptm[4] * btm[0] + ptm[5] * btm[2] + btm[4]; + m1[5] = ptm[4] * btm[1] + ptm[5] * btm[3] + btm[5]; + // m = m1 * iCTM = (PTM * BTM) * (iCTM) + m[0] = m1[0] * ictm[0] + m1[1] * ictm[2]; + m[1] = m1[0] * ictm[1] + m1[1] * ictm[3]; + m[2] = m1[2] * ictm[0] + m1[3] * ictm[2]; + m[3] = m1[2] * ictm[1] + m1[3] * ictm[3]; + m[4] = m1[4] * ictm[0] + m1[5] * ictm[2] + ictm[4]; + m[5] = m1[4] * ictm[1] + m1[5] * ictm[3] + ictm[5]; + + // construct a (device space) -> (pattern space) transform matrix + det = 1 / (m1[0] * m1[3] - m1[1] * m1[2]); + imb[0] = m1[3] * det; + imb[1] = -m1[1] * det; + imb[2] = -m1[2] * det; + imb[3] = m1[0] * det; + imb[4] = (m1[2] * m1[5] - m1[3] * m1[4]) * det; + imb[5] = (m1[1] * m1[4] - m1[0] * m1[5]) * det; + + // save current graphics state + savedPath = state->getPath()->copy(); + saveState(); + + // set underlying color space (for uncolored tiling patterns); set + // various other parameters (stroke color, line width) to match + // Adobe's behavior + if (tPat->getPaintType() == 2 && (cs = patCS->getUnder())) { + state->setFillColorSpace(cs->copy()); + out->updateFillColorSpace(state); + state->setStrokeColorSpace(cs->copy()); + out->updateStrokeColorSpace(state); + state->setStrokeColor(state->getFillColor()); + } else { + state->setFillColorSpace(new GfxDeviceGrayColorSpace()); + out->updateFillColorSpace(state); + state->setStrokeColorSpace(new GfxDeviceGrayColorSpace()); + out->updateStrokeColorSpace(state); + } + state->setFillPattern(NULL); + out->updateFillColor(state); + state->setStrokePattern(NULL); + out->updateStrokeColor(state); + state->setLineWidth(0); + out->updateLineWidth(state); + + // clip to current path + state->clip(); + if (eoFill) { + out->eoClip(state); + } else { + out->clip(state); + } + state->clearPath(); + + // get the clip region, check for empty + state->getClipBBox(&cxMin, &cyMin, &cxMax, &cyMax); + if (cxMin > cxMax || cyMin > cyMax) { + goto err; + } + + // transform clip region bbox to pattern space + xMin = xMax = cxMin * imb[0] + cyMin * imb[2] + imb[4]; + yMin = yMax = cxMin * imb[1] + cyMin * imb[3] + imb[5]; + x1 = cxMin * imb[0] + cyMax * imb[2] + imb[4]; + y1 = cxMin * imb[1] + cyMax * imb[3] + imb[5]; + if (x1 < xMin) { + xMin = x1; + } else if (x1 > xMax) { + xMax = x1; + } + if (y1 < yMin) { + yMin = y1; + } else if (y1 > yMax) { + yMax = y1; + } + x1 = cxMax * imb[0] + cyMin * imb[2] + imb[4]; + y1 = cxMax * imb[1] + cyMin * imb[3] + imb[5]; + if (x1 < xMin) { + xMin = x1; + } else if (x1 > xMax) { + xMax = x1; + } + if (y1 < yMin) { + yMin = y1; + } else if (y1 > yMax) { + yMax = y1; + } + x1 = cxMax * imb[0] + cyMax * imb[2] + imb[4]; + y1 = cxMax * imb[1] + cyMax * imb[3] + imb[5]; + if (x1 < xMin) { + xMin = x1; + } else if (x1 > xMax) { + xMax = x1; + } + if (y1 < yMin) { + yMin = y1; + } else if (y1 > yMax) { + yMax = y1; + } + + // draw the pattern + //~ this should treat negative steps differently -- start at right/top + //~ edge instead of left/bottom (?) + xstep = fabs(tPat->getXStep()); + ystep = fabs(tPat->getYStep()); + xi0 = (int)floor((xMin - tPat->getBBox()[0]) / xstep); + xi1 = (int)ceil((xMax - tPat->getBBox()[0]) / xstep); + yi0 = (int)floor((yMin - tPat->getBBox()[1]) / ystep); + yi1 = (int)ceil((yMax - tPat->getBBox()[1]) / ystep); + for (i = 0; i < 4; ++i) { + m1[i] = m[i]; + } + if (out->useTilingPatternFill()) { + m1[4] = m[4]; + m1[5] = m[5]; + out->tilingPatternFill(state, tPat->getContentStream(), + tPat->getPaintType(), tPat->getResDict(), + m1, tPat->getBBox(), + xi0, yi0, xi1, yi1, xstep, ystep); + } else { + for (yi = yi0; yi < yi1; ++yi) { + for (xi = xi0; xi < xi1; ++xi) { + x = xi * xstep; + y = yi * ystep; + m1[4] = x * m[0] + y * m[2] + m[4]; + m1[5] = x * m[1] + y * m[3] + m[5]; + doForm1(tPat->getContentStream(), tPat->getResDict(), + m1, tPat->getBBox()); + } + } + } + + // restore graphics state + err: + restoreState(); + state->setPath(savedPath); +} + +void Gfx::doShadingPatternFill(GfxShadingPattern *sPat, GBool eoFill) { + GfxShading *shading; + GfxPath *savedPath; + double *ctm, *btm, *ptm; + double m[6], ictm[6], m1[6]; + double xMin, yMin, xMax, yMax; + double det; + + shading = sPat->getShading(); + + // save current graphics state + savedPath = state->getPath()->copy(); + saveState(); + + // clip to bbox + if (shading->getHasBBox()) { + shading->getBBox(&xMin, &yMin, &xMax, &yMax); + state->moveTo(xMin, yMin); + state->lineTo(xMax, yMin); + state->lineTo(xMax, yMax); + state->lineTo(xMin, yMax); + state->closePath(); + state->clip(); + out->clip(state); + state->setPath(savedPath->copy()); + } + + // clip to current path + state->clip(); + if (eoFill) { + out->eoClip(state); + } else { + out->clip(state); + } + + // set the color space + state->setFillColorSpace(shading->getColorSpace()->copy()); + out->updateFillColorSpace(state); + + // background color fill + if (shading->getHasBackground()) { + state->setFillColor(shading->getBackground()); + out->updateFillColor(state); + out->fill(state); + } + state->clearPath(); + + // construct a (pattern space) -> (current space) transform matrix + ctm = state->getCTM(); + btm = baseMatrix; + ptm = sPat->getMatrix(); + // iCTM = invert CTM + det = 1 / (ctm[0] * ctm[3] - ctm[1] * ctm[2]); + ictm[0] = ctm[3] * det; + ictm[1] = -ctm[1] * det; + ictm[2] = -ctm[2] * det; + ictm[3] = ctm[0] * det; + ictm[4] = (ctm[2] * ctm[5] - ctm[3] * ctm[4]) * det; + ictm[5] = (ctm[1] * ctm[4] - ctm[0] * ctm[5]) * det; + // m1 = PTM * BTM = PTM * base transform matrix + m1[0] = ptm[0] * btm[0] + ptm[1] * btm[2]; + m1[1] = ptm[0] * btm[1] + ptm[1] * btm[3]; + m1[2] = ptm[2] * btm[0] + ptm[3] * btm[2]; + m1[3] = ptm[2] * btm[1] + ptm[3] * btm[3]; + m1[4] = ptm[4] * btm[0] + ptm[5] * btm[2] + btm[4]; + m1[5] = ptm[4] * btm[1] + ptm[5] * btm[3] + btm[5]; + // m = m1 * iCTM = (PTM * BTM) * (iCTM) + m[0] = m1[0] * ictm[0] + m1[1] * ictm[2]; + m[1] = m1[0] * ictm[1] + m1[1] * ictm[3]; + m[2] = m1[2] * ictm[0] + m1[3] * ictm[2]; + m[3] = m1[2] * ictm[1] + m1[3] * ictm[3]; + m[4] = m1[4] * ictm[0] + m1[5] * ictm[2] + ictm[4]; + m[5] = m1[4] * ictm[1] + m1[5] * ictm[3] + ictm[5]; + + // set the new matrix + state->concatCTM(m[0], m[1], m[2], m[3], m[4], m[5]); + out->updateCTM(state, m[0], m[1], m[2], m[3], m[4], m[5]); + + // do shading type-specific operations + switch (shading->getType()) { + case 1: + doFunctionShFill((GfxFunctionShading *)shading); + break; + case 2: + doAxialShFill((GfxAxialShading *)shading); + break; + case 3: + doRadialShFill((GfxRadialShading *)shading); + break; + case 4: + case 5: + doGouraudTriangleShFill((GfxGouraudTriangleShading *)shading); + break; + case 6: + case 7: + doPatchMeshShFill((GfxPatchMeshShading *)shading); + break; + } + + // restore graphics state + restoreState(); + state->setPath(savedPath); +} + +void Gfx::opShFill(Object args[], int numArgs) { + GfxShading *shading; + GfxPath *savedPath; + double xMin, yMin, xMax, yMax; + + if (!(shading = res->lookupShading(args[0].getName()))) { + return; + } + + // save current graphics state + savedPath = state->getPath()->copy(); + saveState(); + + // clip to bbox + if (shading->getHasBBox()) { + shading->getBBox(&xMin, &yMin, &xMax, &yMax); + state->moveTo(xMin, yMin); + state->lineTo(xMax, yMin); + state->lineTo(xMax, yMax); + state->lineTo(xMin, yMax); + state->closePath(); + state->clip(); + out->clip(state); + state->clearPath(); + } + + // set the color space + state->setFillColorSpace(shading->getColorSpace()->copy()); + out->updateFillColorSpace(state); + + // do shading type-specific operations + switch (shading->getType()) { + case 1: + doFunctionShFill((GfxFunctionShading *)shading); + break; + case 2: + doAxialShFill((GfxAxialShading *)shading); + break; + case 3: + doRadialShFill((GfxRadialShading *)shading); + break; + case 4: + case 5: + doGouraudTriangleShFill((GfxGouraudTriangleShading *)shading); + break; + case 6: + case 7: + doPatchMeshShFill((GfxPatchMeshShading *)shading); + break; + } + + // restore graphics state + restoreState(); + state->setPath(savedPath); + + delete shading; +} + +void Gfx::doFunctionShFill(GfxFunctionShading *shading) { + double x0, y0, x1, y1; + GfxColor colors[4]; + + if (out->useShadedFills()) { + out->functionShadedFill(state, shading); + } else { + shading->getDomain(&x0, &y0, &x1, &y1); + shading->getColor(x0, y0, &colors[0]); + shading->getColor(x0, y1, &colors[1]); + shading->getColor(x1, y0, &colors[2]); + shading->getColor(x1, y1, &colors[3]); + doFunctionShFill1(shading, x0, y0, x1, y1, colors, 0); + } +} + +void Gfx::doFunctionShFill1(GfxFunctionShading *shading, + double x0, double y0, + double x1, double y1, + GfxColor *colors, int depth) { + GfxColor fillColor; + GfxColor color0M, color1M, colorM0, colorM1, colorMM; + GfxColor colors2[4]; + double *matrix; + double xM, yM; + int nComps, i, j; + + nComps = shading->getColorSpace()->getNComps(); + matrix = shading->getMatrix(); + + // compare the four corner colors + for (i = 0; i < 4; ++i) { + for (j = 0; j < nComps; ++j) { + if (abs(colors[i].c[j] - colors[(i+1)&3].c[j]) > functionColorDelta) { + break; + } + } + if (j < nComps) { + break; + } + } + + // center of the rectangle + xM = 0.5 * (x0 + x1); + yM = 0.5 * (y0 + y1); + + // the four corner colors are close (or we hit the recursive limit) + // -- fill the rectangle; but require at least one subdivision + // (depth==0) to avoid problems when the four outer corners of the + // shaded region are the same color + if ((i == 4 && depth > 0) || depth == functionMaxDepth) { + + // use the center color + shading->getColor(xM, yM, &fillColor); + state->setFillColor(&fillColor); + out->updateFillColor(state); + + // fill the rectangle + state->moveTo(x0 * matrix[0] + y0 * matrix[2] + matrix[4], + x0 * matrix[1] + y0 * matrix[3] + matrix[5]); + state->lineTo(x1 * matrix[0] + y0 * matrix[2] + matrix[4], + x1 * matrix[1] + y0 * matrix[3] + matrix[5]); + state->lineTo(x1 * matrix[0] + y1 * matrix[2] + matrix[4], + x1 * matrix[1] + y1 * matrix[3] + matrix[5]); + state->lineTo(x0 * matrix[0] + y1 * matrix[2] + matrix[4], + x0 * matrix[1] + y1 * matrix[3] + matrix[5]); + state->closePath(); + out->fill(state); + state->clearPath(); + + // the four corner colors are not close enough -- subdivide the + // rectangle + } else { + + // colors[0] colorM0 colors[2] + // (x0,y0) (xM,y0) (x1,y0) + // +----------+----------+ + // | | | + // | UL | UR | + // color0M | colorMM | color1M + // (x0,yM) +----------+----------+ (x1,yM) + // | (xM,yM) | + // | LL | LR | + // | | | + // +----------+----------+ + // colors[1] colorM1 colors[3] + // (x0,y1) (xM,y1) (x1,y1) + + shading->getColor(x0, yM, &color0M); + shading->getColor(x1, yM, &color1M); + shading->getColor(xM, y0, &colorM0); + shading->getColor(xM, y1, &colorM1); + shading->getColor(xM, yM, &colorMM); + + // upper-left sub-rectangle + colors2[0] = colors[0]; + colors2[1] = color0M; + colors2[2] = colorM0; + colors2[3] = colorMM; + doFunctionShFill1(shading, x0, y0, xM, yM, colors2, depth + 1); + + // lower-left sub-rectangle + colors2[0] = color0M; + colors2[1] = colors[1]; + colors2[2] = colorMM; + colors2[3] = colorM1; + doFunctionShFill1(shading, x0, yM, xM, y1, colors2, depth + 1); + + // upper-right sub-rectangle + colors2[0] = colorM0; + colors2[1] = colorMM; + colors2[2] = colors[2]; + colors2[3] = color1M; + doFunctionShFill1(shading, xM, y0, x1, yM, colors2, depth + 1); + + // lower-right sub-rectangle + colors2[0] = colorMM; + colors2[1] = colorM1; + colors2[2] = color1M; + colors2[3] = colors[3]; + doFunctionShFill1(shading, xM, yM, x1, y1, colors2, depth + 1); + } +} + +void Gfx::doAxialShFill(GfxAxialShading *shading) { + double xMin, yMin, xMax, yMax; + double x0, y0, x1, y1; + double dx, dy, mul; + GBool dxZero, dyZero; + double tMin, tMax, t, tx, ty; + double s[4], sMin, sMax, tmp; + double ux0, uy0, ux1, uy1, vx0, vy0, vx1, vy1; + double t0, t1, tt; + double ta[axialMaxSplits + 1]; + int next[axialMaxSplits + 1]; + GfxColor color0, color1; + int nComps; + int i, j, k, kk; + + if (out->useShadedFills()) { + + out->axialShadedFill(state, shading); + + } else { + + // get the clip region bbox + state->getUserClipBBox(&xMin, &yMin, &xMax, &yMax); + + // compute min and max t values, based on the four corners of the + // clip region bbox + shading->getCoords(&x0, &y0, &x1, &y1); + dx = x1 - x0; + dy = y1 - y0; + dxZero = fabs(dx) < 0.001; + dyZero = fabs(dy) < 0.001; + mul = 1 / (dx * dx + dy * dy); + tMin = tMax = ((xMin - x0) * dx + (yMin - y0) * dy) * mul; + t = ((xMin - x0) * dx + (yMax - y0) * dy) * mul; + if (t < tMin) { + tMin = t; + } else if (t > tMax) { + tMax = t; + } + t = ((xMax - x0) * dx + (yMin - y0) * dy) * mul; + if (t < tMin) { + tMin = t; + } else if (t > tMax) { + tMax = t; + } + t = ((xMax - x0) * dx + (yMax - y0) * dy) * mul; + if (t < tMin) { + tMin = t; + } else if (t > tMax) { + tMax = t; + } + if (tMin < 0 && !shading->getExtend0()) { + tMin = 0; + } + if (tMax > 1 && !shading->getExtend1()) { + tMax = 1; + } + + // get the function domain + t0 = shading->getDomain0(); + t1 = shading->getDomain1(); + + // Traverse the t axis and do the shading. + // + // For each point (tx, ty) on the t axis, consider a line through + // that point perpendicular to the t axis: + // + // x(s) = tx + s * -dy --> s = (x - tx) / -dy + // y(s) = ty + s * dx --> s = (y - ty) / dx + // + // Then look at the intersection of this line with the bounding box + // (xMin, yMin, xMax, yMax). In the general case, there are four + // intersection points: + // + // s0 = (xMin - tx) / -dy + // s1 = (xMax - tx) / -dy + // s2 = (yMin - ty) / dx + // s3 = (yMax - ty) / dx + // + // and we want the middle two s values. + // + // In the case where dx = 0, take s0 and s1; in the case where dy = + // 0, take s2 and s3. + // + // Each filled polygon is bounded by two of these line segments + // perpdendicular to the t axis. + // + // The t axis is bisected into smaller regions until the color + // difference across a region is small enough, and then the region + // is painted with a single color. + + // set up: require at least one split to avoid problems when the two + // ends of the t axis have the same color + nComps = shading->getColorSpace()->getNComps(); + ta[0] = tMin; + next[0] = axialMaxSplits / 2; + ta[axialMaxSplits / 2] = 0.5 * (tMin + tMax); + next[axialMaxSplits / 2] = axialMaxSplits; + ta[axialMaxSplits] = tMax; + + // compute the color at t = tMin + if (tMin < 0) { + tt = t0; + } else if (tMin > 1) { + tt = t1; + } else { + tt = t0 + (t1 - t0) * tMin; + } + shading->getColor(tt, &color0); + + // compute the coordinates of the point on the t axis at t = tMin; + // then compute the intersection of the perpendicular line with the + // bounding box + tx = x0 + tMin * dx; + ty = y0 + tMin * dy; + if (dxZero && dyZero) { + sMin = sMax = 0; + } if (dxZero) { + sMin = (xMin - tx) / -dy; + sMax = (xMax - tx) / -dy; + if (sMin > sMax) { tmp = sMin; sMin = sMax; sMax = tmp; } + } else if (dyZero) { + sMin = (yMin - ty) / dx; + sMax = (yMax - ty) / dx; + if (sMin > sMax) { tmp = sMin; sMin = sMax; sMax = tmp; } + } else { + s[0] = (yMin - ty) / dx; + s[1] = (yMax - ty) / dx; + s[2] = (xMin - tx) / -dy; + s[3] = (xMax - tx) / -dy; + for (j = 0; j < 3; ++j) { + kk = j; + for (k = j + 1; k < 4; ++k) { + if (s[k] < s[kk]) { + kk = k; + } + } + tmp = s[j]; s[j] = s[kk]; s[kk] = tmp; + } + sMin = s[1]; + sMax = s[2]; + } + ux0 = tx - sMin * dy; + uy0 = ty + sMin * dx; + vx0 = tx - sMax * dy; + vy0 = ty + sMax * dx; + + i = 0; + while (i < axialMaxSplits) { + + // bisect until color difference is small enough or we hit the + // bisection limit + j = next[i]; + while (j > i + 1) { + if (ta[j] < 0) { + tt = t0; + } else if (ta[j] > 1) { + tt = t1; + } else { + tt = t0 + (t1 - t0) * ta[j]; + } + shading->getColor(tt, &color1); + for (k = 0; k < nComps; ++k) { + if (abs(color1.c[k] - color0.c[k]) > axialColorDelta) { + break; + } + } + if (k == nComps) { + break; + } + k = (i + j) / 2; + ta[k] = 0.5 * (ta[i] + ta[j]); + next[i] = k; + next[k] = j; + j = k; + } + + // use the average of the colors of the two sides of the region + for (k = 0; k < nComps; ++k) { + color0.c[k] = (color0.c[k] + color1.c[k]) / 2; + } + + // compute the coordinates of the point on the t axis; then + // compute the intersection of the perpendicular line with the + // bounding box + tx = x0 + ta[j] * dx; + ty = y0 + ta[j] * dy; + if (dxZero && dyZero) { + sMin = sMax = 0; + } if (dxZero) { + sMin = (xMin - tx) / -dy; + sMax = (xMax - tx) / -dy; + if (sMin > sMax) { tmp = sMin; sMin = sMax; sMax = tmp; } + } else if (dyZero) { + sMin = (yMin - ty) / dx; + sMax = (yMax - ty) / dx; + if (sMin > sMax) { tmp = sMin; sMin = sMax; sMax = tmp; } + } else { + s[0] = (yMin - ty) / dx; + s[1] = (yMax - ty) / dx; + s[2] = (xMin - tx) / -dy; + s[3] = (xMax - tx) / -dy; + for (j = 0; j < 3; ++j) { + kk = j; + for (k = j + 1; k < 4; ++k) { + if (s[k] < s[kk]) { + kk = k; + } + } + tmp = s[j]; s[j] = s[kk]; s[kk] = tmp; + } + sMin = s[1]; + sMax = s[2]; + } + ux1 = tx - sMin * dy; + uy1 = ty + sMin * dx; + vx1 = tx - sMax * dy; + vy1 = ty + sMax * dx; + + // set the color + state->setFillColor(&color0); + out->updateFillColor(state); + + // fill the region + state->moveTo(ux0, uy0); + state->lineTo(vx0, vy0); + state->lineTo(vx1, vy1); + state->lineTo(ux1, uy1); + state->closePath(); + out->fill(state); + state->clearPath(); + + // set up for next region + ux0 = ux1; + uy0 = uy1; + vx0 = vx1; + vy0 = vy1; + color0 = color1; + i = next[i]; + } + } +} + +void Gfx::doRadialShFill(GfxRadialShading *shading) { + double sMin, sMax, xMin, yMin, xMax, yMax; + double x0, y0, r0, x1, y1, r1, t0, t1; + int nComps; + GfxColor colorA, colorB; + double xa, ya, xb, yb, ra, rb; + double ta, tb, sa, sb; + int ia, ib, k, n; + double *ctm; + double angle, t, d0, d1; + + if (out->useShadedFills()) { + + out->radialShadedFill(state, shading); + + } else { + + // get the shading info + shading->getCoords(&x0, &y0, &r0, &x1, &y1, &r1); + t0 = shading->getDomain0(); + t1 = shading->getDomain1(); + nComps = shading->getColorSpace()->getNComps(); + + // compute the (possibly extended) s range + sMin = 0; + sMax = 1; + if (shading->getExtend0()) { + if (r0 < r1) { + // extend the smaller end + sMin = -r0 / (r1 - r0); + } else { + // extend the larger end + state->getUserClipBBox(&xMin, &yMin, &xMax, &yMax); + d0 = (x0 - xMin) * (x0 - xMin); + d1 = (x0 - xMax) * (x0 - xMax); + sMin = d0 > d1 ? d0 : d1; + d0 = (y0 - yMin) * (y0 - yMin); + d1 = (y0 - yMax) * (y0 - yMax); + sMin += d0 > d1 ? d0 : d1; + sMin = (sqrt(sMin) - r0) / (r1 - r0); + if (sMin > 0) { + sMin = 0; + } else if (sMin < -20) { + // sanity check + sMin = -20; + } + } + } + if (shading->getExtend1()) { + if (r1 < r0) { + // extend the smaller end + sMax = -r0 / (r1 - r0); + } else if (r1 > r0) { + // extend the larger end + state->getUserClipBBox(&xMin, &yMin, &xMax, &yMax); + d0 = (x1 - xMin) * (x1 - xMin); + d1 = (x1 - xMax) * (x1 - xMax); + sMax = d0 > d1 ? d0 : d1; + d0 = (y1 - yMin) * (y1 - yMin); + d1 = (y1 - yMax) * (y1 - yMax); + sMax += d0 > d1 ? d0 : d1; + sMax = (sqrt(sMax) - r0) / (r1 - r0); + if (sMax < 1) { + sMax = 1; + } else if (sMax > 20) { + // sanity check + sMax = 20; + } + } + } + + // compute the number of steps into which circles must be divided to + // achieve a curve flatness of 0.1 pixel in device space for the + // largest circle (note that "device space" is 72 dpi when generating + // PostScript, hence the relatively small 0.1 pixel accuracy) + ctm = state->getCTM(); + t = fabs(ctm[0]); + if (fabs(ctm[1]) > t) { + t = fabs(ctm[1]); + } + if (fabs(ctm[2]) > t) { + t = fabs(ctm[2]); + } + if (fabs(ctm[3]) > t) { + t = fabs(ctm[3]); + } + if (r0 > r1) { + t *= r0; + } else { + t *= r1; + } + if (t < 1) { + n = 3; + } else { + n = (int)(M_PI / acos(1 - 0.1 / t)); + if (n < 3) { + n = 3; + } else if (n > 200) { + n = 200; + } + } + + // Traverse the t axis and do the shading. + // + // This generates and fills a series of rings. Each ring is defined + // by two circles: + // sa, ta, xa, ya, ra, colorA + // sb, tb, xb, yb, rb, colorB + // + // The s/t axis is divided into radialMaxSplits parts; these parts + // are combined as much as possible while respecting the + // radialColorDelta parameter. + + // setup for the start circle + ia = 0; + sa = sMin; + ta = t0 + sa * (t1 - t0); + xa = x0 + sa * (x1 - x0); + ya = y0 + sa * (y1 - y0); + ra = r0 + sa * (r1 - r0); + if (ta < t0) { + shading->getColor(t0, &colorA); + } else if (ta > t1) { + shading->getColor(t1, &colorA); + } else { + shading->getColor(ta, &colorA); + } + + while (ia < radialMaxSplits) { + + // go as far along the t axis (toward t1) as we can, such that the + // color difference is within the tolerance (radialColorDelta) -- + // this uses bisection (between the current value, t, and t1), + // limited to radialMaxSplits points along the t axis; require at + // least one split to avoid problems when the innermost and + // outermost colors are the same + ib = radialMaxSplits; + sb = sMin + ((double)ib / (double)radialMaxSplits) * (sMax - sMin); + tb = t0 + sb * (t1 - t0); + if (tb < t0) { + shading->getColor(t0, &colorB); + } else if (tb > t1) { + shading->getColor(t1, &colorB); + } else { + shading->getColor(tb, &colorB); + } + while (ib - ia > 1) { + for (k = 0; k < nComps; ++k) { + if (abs(colorB.c[k] - colorA.c[k]) > radialColorDelta) { + break; + } + } + if (k == nComps && ib < radialMaxSplits) { + break; + } + ib = (ia + ib) / 2; + sb = sMin + ((double)ib / (double)radialMaxSplits) * (sMax - sMin); + tb = t0 + sb * (t1 - t0); + if (tb < t0) { + shading->getColor(t0, &colorB); + } else if (tb > t1) { + shading->getColor(t1, &colorB); + } else { + shading->getColor(tb, &colorB); + } + } + + // compute center and radius of the circle + xb = x0 + sb * (x1 - x0); + yb = y0 + sb * (y1 - y0); + rb = r0 + sb * (r1 - r0); + + // use the average of the colors at the two circles + for (k = 0; k < nComps; ++k) { + colorA.c[k] = (colorA.c[k] + colorB.c[k]) / 2; + } + state->setFillColor(&colorA); + out->updateFillColor(state); + + // construct path for first circle + state->moveTo(xa + ra, ya); + for (k = 1; k < n; ++k) { + angle = ((double)k / (double)n) * 2 * M_PI; + state->lineTo(xa + ra * cos(angle), ya + ra * sin(angle)); + } + state->closePath(); + + // construct and append path for second circle + state->moveTo(xb + rb, yb); + for (k = 1; k < n; ++k) { + angle = ((double)k / (double)n) * 2 * M_PI; + state->lineTo(xb + rb * cos(angle), yb + rb * sin(angle)); + } + state->closePath(); + + // fill the ring + out->eoFill(state); + state->clearPath(); + + // step to the next value of t + ia = ib; + sa = sb; + ta = tb; + xa = xb; + ya = yb; + ra = rb; + colorA = colorB; + } + } +} + +void Gfx::doGouraudTriangleShFill(GfxGouraudTriangleShading *shading) { + double x0, y0, x1, y1, x2, y2; + GfxColor color0, color1, color2; + int i; + + for (i = 0; i < shading->getNTriangles(); ++i) { + shading->getTriangle(i, &x0, &y0, &color0, + &x1, &y1, &color1, + &x2, &y2, &color2); + gouraudFillTriangle(x0, y0, &color0, x1, y1, &color1, x2, y2, &color2, + shading->getColorSpace()->getNComps(), 0); + } +} + +void Gfx::gouraudFillTriangle(double x0, double y0, GfxColor *color0, + double x1, double y1, GfxColor *color1, + double x2, double y2, GfxColor *color2, + int nComps, int depth) { + double x01, y01, x12, y12, x20, y20; + GfxColor color01, color12, color20; + int i; + + for (i = 0; i < nComps; ++i) { + if (abs(color0->c[i] - color1->c[i]) > gouraudColorDelta || + abs(color1->c[i] - color2->c[i]) > gouraudColorDelta) { + break; + } + } + if (i == nComps || depth == gouraudMaxDepth) { + state->setFillColor(color0); + out->updateFillColor(state); + state->moveTo(x0, y0); + state->lineTo(x1, y1); + state->lineTo(x2, y2); + state->closePath(); + out->fill(state); + state->clearPath(); + } else { + x01 = 0.5 * (x0 + x1); + y01 = 0.5 * (y0 + y1); + x12 = 0.5 * (x1 + x2); + y12 = 0.5 * (y1 + y2); + x20 = 0.5 * (x2 + x0); + y20 = 0.5 * (y2 + y0); + //~ if the shading has a Function, this should interpolate on the + //~ function parameter, not on the color components + for (i = 0; i < nComps; ++i) { + color01.c[i] = (color0->c[i] + color1->c[i]) / 2; + color12.c[i] = (color1->c[i] + color2->c[i]) / 2; + color20.c[i] = (color2->c[i] + color0->c[i]) / 2; + } + gouraudFillTriangle(x0, y0, color0, x01, y01, &color01, + x20, y20, &color20, nComps, depth + 1); + gouraudFillTriangle(x01, y01, &color01, x1, y1, color1, + x12, y12, &color12, nComps, depth + 1); + gouraudFillTriangle(x01, y01, &color01, x12, y12, &color12, + x20, y20, &color20, nComps, depth + 1); + gouraudFillTriangle(x20, y20, &color20, x12, y12, &color12, + x2, y2, color2, nComps, depth + 1); + } +} + +void Gfx::doPatchMeshShFill(GfxPatchMeshShading *shading) { + int start, i; + + if (shading->getNPatches() > 128) { + start = 3; + } else if (shading->getNPatches() > 64) { + start = 2; + } else if (shading->getNPatches() > 16) { + start = 1; + } else { + start = 0; + } + for (i = 0; i < shading->getNPatches(); ++i) { + fillPatch(shading->getPatch(i), shading->getColorSpace()->getNComps(), + start); + } +} + +void Gfx::fillPatch(GfxPatch *patch, int nComps, int depth) { + GfxPatch patch00, patch01, patch10, patch11; + double xx[4][8], yy[4][8]; + double xxm, yym; + int i; + + for (i = 0; i < nComps; ++i) { + if (abs(patch->color[0][0].c[i] - patch->color[0][1].c[i]) + > patchColorDelta || + abs(patch->color[0][1].c[i] - patch->color[1][1].c[i]) + > patchColorDelta || + abs(patch->color[1][1].c[i] - patch->color[1][0].c[i]) + > patchColorDelta || + abs(patch->color[1][0].c[i] - patch->color[0][0].c[i]) + > patchColorDelta) { + break; + } + } + if (i == nComps || depth == patchMaxDepth) { + state->setFillColor(&patch->color[0][0]); + out->updateFillColor(state); + state->moveTo(patch->x[0][0], patch->y[0][0]); + state->curveTo(patch->x[0][1], patch->y[0][1], + patch->x[0][2], patch->y[0][2], + patch->x[0][3], patch->y[0][3]); + state->curveTo(patch->x[1][3], patch->y[1][3], + patch->x[2][3], patch->y[2][3], + patch->x[3][3], patch->y[3][3]); + state->curveTo(patch->x[3][2], patch->y[3][2], + patch->x[3][1], patch->y[3][1], + patch->x[3][0], patch->y[3][0]); + state->curveTo(patch->x[2][0], patch->y[2][0], + patch->x[1][0], patch->y[1][0], + patch->x[0][0], patch->y[0][0]); + state->closePath(); + out->fill(state); + state->clearPath(); + } else { + for (i = 0; i < 4; ++i) { + xx[i][0] = patch->x[i][0]; + yy[i][0] = patch->y[i][0]; + xx[i][1] = 0.5 * (patch->x[i][0] + patch->x[i][1]); + yy[i][1] = 0.5 * (patch->y[i][0] + patch->y[i][1]); + xxm = 0.5 * (patch->x[i][1] + patch->x[i][2]); + yym = 0.5 * (patch->y[i][1] + patch->y[i][2]); + xx[i][6] = 0.5 * (patch->x[i][2] + patch->x[i][3]); + yy[i][6] = 0.5 * (patch->y[i][2] + patch->y[i][3]); + xx[i][2] = 0.5 * (xx[i][1] + xxm); + yy[i][2] = 0.5 * (yy[i][1] + yym); + xx[i][5] = 0.5 * (xxm + xx[i][6]); + yy[i][5] = 0.5 * (yym + yy[i][6]); + xx[i][3] = xx[i][4] = 0.5 * (xx[i][2] + xx[i][5]); + yy[i][3] = yy[i][4] = 0.5 * (yy[i][2] + yy[i][5]); + xx[i][7] = patch->x[i][3]; + yy[i][7] = patch->y[i][3]; + } + for (i = 0; i < 4; ++i) { + patch00.x[0][i] = xx[0][i]; + patch00.y[0][i] = yy[0][i]; + patch00.x[1][i] = 0.5 * (xx[0][i] + xx[1][i]); + patch00.y[1][i] = 0.5 * (yy[0][i] + yy[1][i]); + xxm = 0.5 * (xx[1][i] + xx[2][i]); + yym = 0.5 * (yy[1][i] + yy[2][i]); + patch10.x[2][i] = 0.5 * (xx[2][i] + xx[3][i]); + patch10.y[2][i] = 0.5 * (yy[2][i] + yy[3][i]); + patch00.x[2][i] = 0.5 * (patch00.x[1][i] + xxm); + patch00.y[2][i] = 0.5 * (patch00.y[1][i] + yym); + patch10.x[1][i] = 0.5 * (xxm + patch10.x[2][i]); + patch10.y[1][i] = 0.5 * (yym + patch10.y[2][i]); + patch00.x[3][i] = 0.5 * (patch00.x[2][i] + patch10.x[1][i]); + patch00.y[3][i] = 0.5 * (patch00.y[2][i] + patch10.y[1][i]); + patch10.x[0][i] = patch00.x[3][i]; + patch10.y[0][i] = patch00.y[3][i]; + patch10.x[3][i] = xx[3][i]; + patch10.y[3][i] = yy[3][i]; + } + for (i = 4; i < 8; ++i) { + patch01.x[0][i-4] = xx[0][i]; + patch01.y[0][i-4] = yy[0][i]; + patch01.x[1][i-4] = 0.5 * (xx[0][i] + xx[1][i]); + patch01.y[1][i-4] = 0.5 * (yy[0][i] + yy[1][i]); + xxm = 0.5 * (xx[1][i] + xx[2][i]); + yym = 0.5 * (yy[1][i] + yy[2][i]); + patch11.x[2][i-4] = 0.5 * (xx[2][i] + xx[3][i]); + patch11.y[2][i-4] = 0.5 * (yy[2][i] + yy[3][i]); + patch01.x[2][i-4] = 0.5 * (patch01.x[1][i-4] + xxm); + patch01.y[2][i-4] = 0.5 * (patch01.y[1][i-4] + yym); + patch11.x[1][i-4] = 0.5 * (xxm + patch11.x[2][i-4]); + patch11.y[1][i-4] = 0.5 * (yym + patch11.y[2][i-4]); + patch01.x[3][i-4] = 0.5 * (patch01.x[2][i-4] + patch11.x[1][i-4]); + patch01.y[3][i-4] = 0.5 * (patch01.y[2][i-4] + patch11.y[1][i-4]); + patch11.x[0][i-4] = patch01.x[3][i-4]; + patch11.y[0][i-4] = patch01.y[3][i-4]; + patch11.x[3][i-4] = xx[3][i]; + patch11.y[3][i-4] = yy[3][i]; + } + //~ if the shading has a Function, this should interpolate on the + //~ function parameter, not on the color components + for (i = 0; i < nComps; ++i) { + patch00.color[0][0].c[i] = patch->color[0][0].c[i]; + patch00.color[0][1].c[i] = (patch->color[0][0].c[i] + + patch->color[0][1].c[i]) / 2; + patch01.color[0][0].c[i] = patch00.color[0][1].c[i]; + patch01.color[0][1].c[i] = patch->color[0][1].c[i]; + patch01.color[1][1].c[i] = (patch->color[0][1].c[i] + + patch->color[1][1].c[i]) / 2; + patch11.color[0][1].c[i] = patch01.color[1][1].c[i]; + patch11.color[1][1].c[i] = patch->color[1][1].c[i]; + patch11.color[1][0].c[i] = (patch->color[1][1].c[i] + + patch->color[1][0].c[i]) / 2; + patch10.color[1][1].c[i] = patch11.color[1][0].c[i]; + patch10.color[1][0].c[i] = patch->color[1][0].c[i]; + patch10.color[0][0].c[i] = (patch->color[1][0].c[i] + + patch->color[0][0].c[i]) / 2; + patch00.color[1][0].c[i] = patch10.color[0][0].c[i]; + patch00.color[1][1].c[i] = (patch00.color[1][0].c[i] + + patch01.color[1][1].c[i]) / 2; + patch01.color[1][0].c[i] = patch00.color[1][1].c[i]; + patch11.color[0][0].c[i] = patch00.color[1][1].c[i]; + patch10.color[0][1].c[i] = patch00.color[1][1].c[i]; + } + fillPatch(&patch00, nComps, depth + 1); + fillPatch(&patch10, nComps, depth + 1); + fillPatch(&patch01, nComps, depth + 1); + fillPatch(&patch11, nComps, depth + 1); + } +} + +void Gfx::doEndPath() { + if (state->isCurPt() && clip != clipNone) { + state->clip(); + if (clip == clipNormal) { + out->clip(state); + } else { + out->eoClip(state); + } + } + clip = clipNone; + state->clearPath(); +} + +//------------------------------------------------------------------------ +// path clipping operators +//------------------------------------------------------------------------ + +void Gfx::opClip(Object args[], int numArgs) { + clip = clipNormal; +} + +void Gfx::opEOClip(Object args[], int numArgs) { + clip = clipEO; +} + +//------------------------------------------------------------------------ +// text object operators +//------------------------------------------------------------------------ + +void Gfx::opBeginText(Object args[], int numArgs) { + state->setTextMat(1, 0, 0, 1, 0, 0); + state->textMoveTo(0, 0); + out->updateTextMat(state); + out->updateTextPos(state); + fontChanged = gTrue; +} + +void Gfx::opEndText(Object args[], int numArgs) { + out->endTextObject(state); +} + +//------------------------------------------------------------------------ +// text state operators +//------------------------------------------------------------------------ + +void Gfx::opSetCharSpacing(Object args[], int numArgs) { + state->setCharSpace(args[0].getNum()); + out->updateCharSpace(state); +} + +void Gfx::opSetFont(Object args[], int numArgs) { + GfxFont *font; + + if (!(font = res->lookupFont(args[0].getName()))) { + return; + } + if (printCommands) { + printf(" font: tag=%s name='%s' %g\n", + font->getTag()->getCString(), + font->getName() ? font->getName()->getCString() : "???", + args[1].getNum()); + fflush(stdout); + } + state->setFont(font, args[1].getNum()); + fontChanged = gTrue; +} + +void Gfx::opSetTextLeading(Object args[], int numArgs) { + state->setLeading(args[0].getNum()); +} + +void Gfx::opSetTextRender(Object args[], int numArgs) { + state->setRender(args[0].getInt()); + out->updateRender(state); +} + +void Gfx::opSetTextRise(Object args[], int numArgs) { + state->setRise(args[0].getNum()); + out->updateRise(state); +} + +void Gfx::opSetWordSpacing(Object args[], int numArgs) { + state->setWordSpace(args[0].getNum()); + out->updateWordSpace(state); +} + +void Gfx::opSetHorizScaling(Object args[], int numArgs) { + state->setHorizScaling(args[0].getNum()); + out->updateHorizScaling(state); + fontChanged = gTrue; +} + +//------------------------------------------------------------------------ +// text positioning operators +//------------------------------------------------------------------------ + +void Gfx::opTextMove(Object args[], int numArgs) { + double tx, ty; + + tx = state->getLineX() + args[0].getNum(); + ty = state->getLineY() + args[1].getNum(); + state->textMoveTo(tx, ty); + out->updateTextPos(state); +} + +void Gfx::opTextMoveSet(Object args[], int numArgs) { + double tx, ty; + + tx = state->getLineX() + args[0].getNum(); + ty = args[1].getNum(); + state->setLeading(-ty); + ty += state->getLineY(); + state->textMoveTo(tx, ty); + out->updateTextPos(state); +} + +void Gfx::opSetTextMatrix(Object args[], int numArgs) { + state->setTextMat(args[0].getNum(), args[1].getNum(), + args[2].getNum(), args[3].getNum(), + args[4].getNum(), args[5].getNum()); + state->textMoveTo(0, 0); + out->updateTextMat(state); + out->updateTextPos(state); + fontChanged = gTrue; +} + +void Gfx::opTextNextLine(Object args[], int numArgs) { + double tx, ty; + + tx = state->getLineX(); + ty = state->getLineY() - state->getLeading(); + state->textMoveTo(tx, ty); + out->updateTextPos(state); +} + +//------------------------------------------------------------------------ +// text string operators +//------------------------------------------------------------------------ + +void Gfx::opShowText(Object args[], int numArgs) { + if (!state->getFont()) { + error(getPos(), "No font in show"); + return; + } + if (fontChanged) { + out->updateFont(state); + fontChanged = gFalse; + } + out->beginStringOp(state); + doShowText(args[0].getString()); + out->endStringOp(state); +} + +void Gfx::opMoveShowText(Object args[], int numArgs) { + double tx, ty; + + if (!state->getFont()) { + error(getPos(), "No font in move/show"); + return; + } + if (fontChanged) { + out->updateFont(state); + fontChanged = gFalse; + } + tx = state->getLineX(); + ty = state->getLineY() - state->getLeading(); + state->textMoveTo(tx, ty); + out->updateTextPos(state); + out->beginStringOp(state); + doShowText(args[0].getString()); + out->endStringOp(state); +} + +void Gfx::opMoveSetShowText(Object args[], int numArgs) { + double tx, ty; + + if (!state->getFont()) { + error(getPos(), "No font in move/set/show"); + return; + } + if (fontChanged) { + out->updateFont(state); + fontChanged = gFalse; + } + state->setWordSpace(args[0].getNum()); + state->setCharSpace(args[1].getNum()); + tx = state->getLineX(); + ty = state->getLineY() - state->getLeading(); + state->textMoveTo(tx, ty); + out->updateWordSpace(state); + out->updateCharSpace(state); + out->updateTextPos(state); + out->beginStringOp(state); + doShowText(args[2].getString()); + out->endStringOp(state); +} + +void Gfx::opShowSpaceText(Object args[], int numArgs) { + Array *a; + Object obj; + int wMode; + int i; + + if (!state->getFont()) { + error(getPos(), "No font in show/space"); + return; + } + if (fontChanged) { + out->updateFont(state); + fontChanged = gFalse; + } + out->beginStringOp(state); + wMode = state->getFont()->getWMode(); + a = args[0].getArray(); + for (i = 0; i < a->getLength(); ++i) { + a->get(i, &obj); + if (obj.isNum()) { + // this uses the absolute value of the font size to match + // Acrobat's behavior + if (wMode) { + state->textShift(0, -obj.getNum() * 0.001 * + fabs(state->getFontSize())); + } else { + state->textShift(-obj.getNum() * 0.001 * + fabs(state->getFontSize()), 0); + } + out->updateTextShift(state, obj.getNum()); + } else if (obj.isString()) { + doShowText(obj.getString()); + } else { + error(getPos(), "Element of show/space array must be number or string"); + } + obj.free(); + } + out->endStringOp(state); +} + +void Gfx::doShowText(GString *s) { + GfxFont *font; + int wMode; + double riseX, riseY; + CharCode code; + Unicode u[8]; + double x, y, dx, dy, dx2, dy2, curX, curY, tdx, tdy, lineX, lineY; + double originX, originY, tOriginX, tOriginY; + double oldCTM[6], newCTM[6]; + double *mat; + Object charProc; + Dict *resDict; + Parser *oldParser; + char *p; + int len, n, uLen, nChars, nSpaces, i; + + font = state->getFont(); + wMode = font->getWMode(); + + if (out->useDrawChar()) { + out->beginString(state, s); + } + + // handle a Type 3 char + if (font->getType() == fontType3 && out->interpretType3Chars()) { + mat = state->getCTM(); + for (i = 0; i < 6; ++i) { + oldCTM[i] = mat[i]; + } + mat = state->getTextMat(); + newCTM[0] = mat[0] * oldCTM[0] + mat[1] * oldCTM[2]; + newCTM[1] = mat[0] * oldCTM[1] + mat[1] * oldCTM[3]; + newCTM[2] = mat[2] * oldCTM[0] + mat[3] * oldCTM[2]; + newCTM[3] = mat[2] * oldCTM[1] + mat[3] * oldCTM[3]; + mat = font->getFontMatrix(); + newCTM[0] = mat[0] * newCTM[0] + mat[1] * newCTM[2]; + newCTM[1] = mat[0] * newCTM[1] + mat[1] * newCTM[3]; + newCTM[2] = mat[2] * newCTM[0] + mat[3] * newCTM[2]; + newCTM[3] = mat[2] * newCTM[1] + mat[3] * newCTM[3]; + newCTM[0] *= state->getFontSize(); + newCTM[1] *= state->getFontSize(); + newCTM[2] *= state->getFontSize(); + newCTM[3] *= state->getFontSize(); + newCTM[0] *= state->getHorizScaling(); + newCTM[2] *= state->getHorizScaling(); + state->textTransformDelta(0, state->getRise(), &riseX, &riseY); + curX = state->getCurX(); + curY = state->getCurY(); + lineX = state->getLineX(); + lineY = state->getLineY(); + oldParser = parser; + p = s->getCString(); + len = s->getLength(); + while (len > 0) { + n = font->getNextChar(p, len, &code, + u, (int)(sizeof(u) / sizeof(Unicode)), &uLen, + &dx, &dy, &originX, &originY); + dx = dx * state->getFontSize() + state->getCharSpace(); + if (n == 1 && *p == ' ') { + dx += state->getWordSpace(); + } + dx *= state->getHorizScaling(); + dy *= state->getFontSize(); + state->textTransformDelta(dx, dy, &tdx, &tdy); + state->transform(curX + riseX, curY + riseY, &x, &y); + saveState(); + state->setCTM(newCTM[0], newCTM[1], newCTM[2], newCTM[3], x, y); + //~ out->updateCTM(???) + if (!out->beginType3Char(state, curX + riseX, curY + riseY, tdx, tdy, + code, u, uLen)) { + ((Gfx8BitFont *)font)->getCharProc(code, &charProc); + if ((resDict = ((Gfx8BitFont *)font)->getResources())) { + pushResources(resDict); + } + if (charProc.isStream()) { + display(&charProc, gFalse); + } else { + error(getPos(), "Missing or bad Type3 CharProc entry"); + } + out->endType3Char(state); + if (resDict) { + popResources(); + } + charProc.free(); + } + restoreState(); + // GfxState::restore() does *not* restore the current position, + // so we deal with it here using (curX, curY) and (lineX, lineY) + curX += tdx; + curY += tdy; + state->moveTo(curX, curY); + state->textSetPos(lineX, lineY); + p += n; + len -= n; + } + parser = oldParser; + + } else if (out->useDrawChar()) { + state->textTransformDelta(0, state->getRise(), &riseX, &riseY); + p = s->getCString(); + len = s->getLength(); + while (len > 0) { + n = font->getNextChar(p, len, &code, + u, (int)(sizeof(u) / sizeof(Unicode)), &uLen, + &dx, &dy, &originX, &originY); + if (wMode) { + dx *= state->getFontSize(); + dy = dy * state->getFontSize() + state->getCharSpace(); + if (n == 1 && *p == ' ') { + dy += state->getWordSpace(); + } + } else { + dx = dx * state->getFontSize() + state->getCharSpace(); + if (n == 1 && *p == ' ') { + dx += state->getWordSpace(); + } + dx *= state->getHorizScaling(); + dy *= state->getFontSize(); + } + state->textTransformDelta(dx, dy, &tdx, &tdy); + originX *= state->getFontSize(); + originY *= state->getFontSize(); + state->textTransformDelta(originX, originY, &tOriginX, &tOriginY); + out->drawChar(state, state->getCurX() + riseX, state->getCurY() + riseY, + tdx, tdy, tOriginX, tOriginY, code, n, u, uLen); + state->shift(tdx, tdy); + p += n; + len -= n; + } + + } else { + dx = dy = 0; + p = s->getCString(); + len = s->getLength(); + nChars = nSpaces = 0; + while (len > 0) { + n = font->getNextChar(p, len, &code, + u, (int)(sizeof(u) / sizeof(Unicode)), &uLen, + &dx2, &dy2, &originX, &originY); + dx += dx2; + dy += dy2; + if (n == 1 && *p == ' ') { + ++nSpaces; + } + ++nChars; + p += n; + len -= n; + } + if (wMode) { + dx *= state->getFontSize(); + dy = dy * state->getFontSize() + + nChars * state->getCharSpace() + + nSpaces * state->getWordSpace(); + } else { + dx = dx * state->getFontSize() + + nChars * state->getCharSpace() + + nSpaces * state->getWordSpace(); + dx *= state->getHorizScaling(); + dy *= state->getFontSize(); + } + state->textTransformDelta(dx, dy, &tdx, &tdy); + out->drawString(state, s); + state->shift(tdx, tdy); + } + + if (out->useDrawChar()) { + out->endString(state); + } + + updateLevel += 10 * s->getLength(); +} + +//------------------------------------------------------------------------ +// XObject operators +//------------------------------------------------------------------------ + +void Gfx::opXObject(Object args[], int numArgs) { + Object obj1, obj2, obj3, refObj; +#if OPI_SUPPORT + Object opiDict; +#endif + + if (!res->lookupXObject(args[0].getName(), &obj1)) { + return; + } + if (!obj1.isStream()) { + error(getPos(), "XObject '%s' is wrong type", args[0].getName()); + obj1.free(); + return; + } +#if OPI_SUPPORT + obj1.streamGetDict()->lookup("OPI", &opiDict); + if (opiDict.isDict()) { + out->opiBegin(state, opiDict.getDict()); + } +#endif + obj1.streamGetDict()->lookup("Subtype", &obj2); + if (obj2.isName("Image")) { + if (out->needNonText()) { + res->lookupXObjectNF(args[0].getName(), &refObj); + doImage(&refObj, obj1.getStream(), gFalse); + refObj.free(); + } + } else if (obj2.isName("Form")) { + doForm(&obj1); + } else if (obj2.isName("PS")) { + obj1.streamGetDict()->lookup("Level1", &obj3); + out->psXObject(obj1.getStream(), + obj3.isStream() ? obj3.getStream() : (Stream *)NULL); + } else if (obj2.isName()) { + error(getPos(), "Unknown XObject subtype '%s'", obj2.getName()); + } else { + error(getPos(), "XObject subtype is missing or wrong type"); + } + obj2.free(); +#if OPI_SUPPORT + if (opiDict.isDict()) { + out->opiEnd(state, opiDict.getDict()); + } + opiDict.free(); +#endif + obj1.free(); +} + +void Gfx::doImage(Object *ref, Stream *str, GBool inlineImg) { + Dict *dict, *maskDict; + int width, height; + int bits, maskBits; + StreamColorSpaceMode csMode; + GBool mask; + GBool invert; + GfxColorSpace *colorSpace, *maskColorSpace; + GfxImageColorMap *colorMap, *maskColorMap; + Object maskObj, smaskObj; + GBool haveColorKeyMask, haveExplicitMask, haveSoftMask; + int maskColors[2*gfxColorMaxComps]; + int maskWidth, maskHeight; + GBool maskInvert; + Stream *maskStr; + Object obj1, obj2; + int i; + + // get info from the stream + bits = 0; + csMode = streamCSNone; + str->getImageParams(&bits, &csMode); + + // get stream dict + dict = str->getDict(); + + // get size + dict->lookup("Width", &obj1); + if (obj1.isNull()) { + obj1.free(); + dict->lookup("W", &obj1); + } + if (!obj1.isInt()) + goto err2; + width = obj1.getInt(); + obj1.free(); + dict->lookup("Height", &obj1); + if (obj1.isNull()) { + obj1.free(); + dict->lookup("H", &obj1); + } + if (!obj1.isInt()) + goto err2; + height = obj1.getInt(); + obj1.free(); + + // image or mask? + dict->lookup("ImageMask", &obj1); + if (obj1.isNull()) { + obj1.free(); + dict->lookup("IM", &obj1); + } + mask = gFalse; + if (obj1.isBool()) + mask = obj1.getBool(); + else if (!obj1.isNull()) + goto err2; + obj1.free(); + + // bit depth + if (bits == 0) { + dict->lookup("BitsPerComponent", &obj1); + if (obj1.isNull()) { + obj1.free(); + dict->lookup("BPC", &obj1); + } + if (obj1.isInt()) { + bits = obj1.getInt(); + } else if (mask) { + bits = 1; + } else { + goto err2; + } + obj1.free(); + } + + // display a mask + if (mask) { + + // check for inverted mask + if (bits != 1) + goto err1; + invert = gFalse; + dict->lookup("Decode", &obj1); + if (obj1.isNull()) { + obj1.free(); + dict->lookup("D", &obj1); + } + if (obj1.isArray()) { + obj1.arrayGet(0, &obj2); + if (obj2.isInt() && obj2.getInt() == 1) + invert = gTrue; + obj2.free(); + } else if (!obj1.isNull()) { + goto err2; + } + obj1.free(); + + // draw it + out->drawImageMask(state, ref, str, width, height, invert, inlineImg); + + } else { + + // get color space and color map + dict->lookup("ColorSpace", &obj1); + if (obj1.isNull()) { + obj1.free(); + dict->lookup("CS", &obj1); + } + if (obj1.isName()) { + res->lookupColorSpace(obj1.getName(), &obj2); + if (!obj2.isNull()) { + obj1.free(); + obj1 = obj2; + } else { + obj2.free(); + } + } + if (!obj1.isNull()) { + colorSpace = GfxColorSpace::parse(&obj1); + } else if (csMode == streamCSDeviceGray) { + colorSpace = new GfxDeviceGrayColorSpace(); + } else if (csMode == streamCSDeviceRGB) { + colorSpace = new GfxDeviceRGBColorSpace(); + } else if (csMode == streamCSDeviceCMYK) { + colorSpace = new GfxDeviceCMYKColorSpace(); + } else { + colorSpace = NULL; + } + obj1.free(); + if (!colorSpace) { + goto err1; + } + dict->lookup("Decode", &obj1); + if (obj1.isNull()) { + obj1.free(); + dict->lookup("D", &obj1); + } + colorMap = new GfxImageColorMap(bits, &obj1, colorSpace); + obj1.free(); + if (!colorMap->isOk()) { + delete colorMap; + goto err1; + } + + // get the mask + haveColorKeyMask = haveExplicitMask = haveSoftMask = gFalse; + maskStr = NULL; // make gcc happy + maskWidth = maskHeight = 0; // make gcc happy + maskInvert = gFalse; // make gcc happy + maskColorMap = NULL; // make gcc happy + dict->lookup("Mask", &maskObj); + dict->lookup("SMask", &smaskObj); + if (smaskObj.isStream()) { + // soft mask + if (inlineImg) { + goto err1; + } + maskStr = smaskObj.getStream(); + maskDict = smaskObj.streamGetDict(); + maskDict->lookup("Width", &obj1); + if (obj1.isNull()) { + obj1.free(); + maskDict->lookup("W", &obj1); + } + if (!obj1.isInt()) { + goto err2; + } + maskWidth = obj1.getInt(); + obj1.free(); + maskDict->lookup("Height", &obj1); + if (obj1.isNull()) { + obj1.free(); + maskDict->lookup("H", &obj1); + } + if (!obj1.isInt()) { + goto err2; + } + maskHeight = obj1.getInt(); + obj1.free(); + maskDict->lookup("BitsPerComponent", &obj1); + if (obj1.isNull()) { + obj1.free(); + maskDict->lookup("BPC", &obj1); + } + if (!obj1.isInt()) { + goto err2; + } + maskBits = obj1.getInt(); + obj1.free(); + maskDict->lookup("ColorSpace", &obj1); + if (obj1.isNull()) { + obj1.free(); + maskDict->lookup("CS", &obj1); + } + if (obj1.isName()) { + res->lookupColorSpace(obj1.getName(), &obj2); + if (!obj2.isNull()) { + obj1.free(); + obj1 = obj2; + } else { + obj2.free(); + } + } + maskColorSpace = GfxColorSpace::parse(&obj1); + obj1.free(); + if (!maskColorSpace || maskColorSpace->getMode() != csDeviceGray) { + goto err1; + } + maskDict->lookup("Decode", &obj1); + if (obj1.isNull()) { + obj1.free(); + maskDict->lookup("D", &obj1); + } + maskColorMap = new GfxImageColorMap(maskBits, &obj1, maskColorSpace); + obj1.free(); + if (!maskColorMap->isOk()) { + delete maskColorMap; + goto err1; + } + //~ handle the Matte entry + haveSoftMask = gTrue; + } else if (maskObj.isArray()) { + // color key mask + for (i = 0; + i < maskObj.arrayGetLength() && i < 2*gfxColorMaxComps; + ++i) { + maskObj.arrayGet(i, &obj1); + maskColors[i] = obj1.getInt(); + obj1.free(); + } + haveColorKeyMask = gTrue; + } else if (maskObj.isStream()) { + // explicit mask + if (inlineImg) { + goto err1; + } + maskStr = maskObj.getStream(); + maskDict = maskObj.streamGetDict(); + maskDict->lookup("Width", &obj1); + if (obj1.isNull()) { + obj1.free(); + maskDict->lookup("W", &obj1); + } + if (!obj1.isInt()) { + goto err2; + } + maskWidth = obj1.getInt(); + obj1.free(); + maskDict->lookup("Height", &obj1); + if (obj1.isNull()) { + obj1.free(); + maskDict->lookup("H", &obj1); + } + if (!obj1.isInt()) { + goto err2; + } + maskHeight = obj1.getInt(); + obj1.free(); + maskDict->lookup("ImageMask", &obj1); + if (obj1.isNull()) { + obj1.free(); + maskDict->lookup("IM", &obj1); + } + if (!obj1.isBool() || !obj1.getBool()) { + goto err2; + } + obj1.free(); + maskInvert = gFalse; + maskDict->lookup("Decode", &obj1); + if (obj1.isNull()) { + obj1.free(); + maskDict->lookup("D", &obj1); + } + if (obj1.isArray()) { + obj1.arrayGet(0, &obj2); + if (obj2.isInt() && obj2.getInt() == 1) { + maskInvert = gTrue; + } + obj2.free(); + } else if (!obj1.isNull()) { + goto err2; + } + obj1.free(); + haveExplicitMask = gTrue; + } + + // draw it + if (haveSoftMask) { + out->drawSoftMaskedImage(state, ref, str, width, height, colorMap, + maskStr, maskWidth, maskHeight, maskColorMap); + delete maskColorMap; + } else if (haveExplicitMask) { + out->drawMaskedImage(state, ref, str, width, height, colorMap, + maskStr, maskWidth, maskHeight, maskInvert); + } else { + out->drawImage(state, ref, str, width, height, colorMap, + haveColorKeyMask ? maskColors : (int *)NULL, inlineImg); + } + delete colorMap; + + maskObj.free(); + smaskObj.free(); + } + + if ((i = width * height) > 1000) { + i = 1000; + } + updateLevel += i; + + return; + + err2: + obj1.free(); + err1: + error(getPos(), "Bad image parameters"); +} + +void Gfx::doForm(Object *str) { + Dict *dict; + Object matrixObj, bboxObj; + double m[6], bbox[6]; + Object resObj; + Dict *resDict; + Object obj1; + int i; + + // check for excessive recursion + if (formDepth > 20) { + return; + } + + // get stream dict + dict = str->streamGetDict(); + + // check form type + dict->lookup("FormType", &obj1); + if (!(obj1.isNull() || (obj1.isInt() && obj1.getInt() == 1))) { + error(getPos(), "Unknown form type"); + } + obj1.free(); + + // get bounding box + dict->lookup("BBox", &bboxObj); + if (!bboxObj.isArray()) { + matrixObj.free(); + bboxObj.free(); + error(getPos(), "Bad form bounding box"); + return; + } + for (i = 0; i < 4; ++i) { + bboxObj.arrayGet(i, &obj1); + bbox[i] = obj1.getNum(); + obj1.free(); + } + bboxObj.free(); + + // get matrix + dict->lookup("Matrix", &matrixObj); + if (matrixObj.isArray()) { + for (i = 0; i < 6; ++i) { + matrixObj.arrayGet(i, &obj1); + m[i] = obj1.getNum(); + obj1.free(); + } + } else { + m[0] = 1; m[1] = 0; + m[2] = 0; m[3] = 1; + m[4] = 0; m[5] = 0; + } + matrixObj.free(); + + // get resources + dict->lookup("Resources", &resObj); + resDict = resObj.isDict() ? resObj.getDict() : (Dict *)NULL; + + // draw it + ++formDepth; + doForm1(str, resDict, m, bbox); + --formDepth; + + resObj.free(); +} + +void Gfx::doAnnot(Object *str, double xMin, double yMin, + double xMax, double yMax) { + Dict *dict, *resDict; + Object matrixObj, bboxObj, resObj; + Object obj1; + double m[6], bbox[6], ictm[6]; + double *ctm; + double formX0, formY0, formX1, formY1; + double annotX0, annotY0, annotX1, annotY1; + double det, x, y, sx, sy; + int i; + + // get stream dict + dict = str->streamGetDict(); + + // get the form bounding box + dict->lookup("BBox", &bboxObj); + if (!bboxObj.isArray()) { + bboxObj.free(); + error(getPos(), "Bad form bounding box"); + return; + } + for (i = 0; i < 4; ++i) { + bboxObj.arrayGet(i, &obj1); + bbox[i] = obj1.getNum(); + obj1.free(); + } + bboxObj.free(); + + // get the form matrix + dict->lookup("Matrix", &matrixObj); + if (matrixObj.isArray()) { + for (i = 0; i < 6; ++i) { + matrixObj.arrayGet(i, &obj1); + m[i] = obj1.getNum(); + obj1.free(); + } + } else { + m[0] = 1; m[1] = 0; + m[2] = 0; m[3] = 1; + m[4] = 0; m[5] = 0; + } + matrixObj.free(); + + // transform the form bbox from form space to user space + formX0 = bbox[0] * m[0] + bbox[1] * m[2] + m[4]; + formY0 = bbox[0] * m[1] + bbox[1] * m[3] + m[5]; + formX1 = bbox[2] * m[0] + bbox[3] * m[2] + m[4]; + formY1 = bbox[2] * m[1] + bbox[3] * m[3] + m[5]; + + // transform the annotation bbox from default user space to user + // space: (bbox * baseMatrix) * iCTM + ctm = state->getCTM(); + det = 1 / (ctm[0] * ctm[3] - ctm[1] * ctm[2]); + ictm[0] = ctm[3] * det; + ictm[1] = -ctm[1] * det; + ictm[2] = -ctm[2] * det; + ictm[3] = ctm[0] * det; + ictm[4] = (ctm[2] * ctm[5] - ctm[3] * ctm[4]) * det; + ictm[5] = (ctm[1] * ctm[4] - ctm[0] * ctm[5]) * det; + x = baseMatrix[0] * xMin + baseMatrix[2] * yMin + baseMatrix[4]; + y = baseMatrix[1] * xMin + baseMatrix[3] * yMin + baseMatrix[5]; + annotX0 = ictm[0] * x + ictm[2] * y + ictm[4]; + annotY0 = ictm[1] * x + ictm[3] * y + ictm[5]; + x = baseMatrix[0] * xMax + baseMatrix[2] * yMax + baseMatrix[4]; + y = baseMatrix[1] * xMax + baseMatrix[3] * yMax + baseMatrix[5]; + annotX1 = ictm[0] * x + ictm[2] * y + ictm[4]; + annotY1 = ictm[1] * x + ictm[3] * y + ictm[5]; + + // swap min/max coords + if (formX0 > formX1) { + x = formX0; formX0 = formX1; formX1 = x; + } + if (formY0 > formY1) { + y = formY0; formY0 = formY1; formY1 = y; + } + if (annotX0 > annotX1) { + x = annotX0; annotX0 = annotX1; annotX1 = x; + } + if (annotY0 > annotY1) { + y = annotY0; annotY0 = annotY1; annotY1 = y; + } + + // scale the form to fit the annotation bbox + if (formX1 == formX0) { + // this shouldn't happen + sx = 1; + } else { + sx = (annotX1 - annotX0) / (formX1 - formX0); + } + if (formY1 == formY0) { + // this shouldn't happen + sy = 1; + } else { + sy = (annotY1 - annotY0) / (formY1 - formY0); + } + m[0] *= sx; + m[2] *= sx; + m[4] = (m[4] - formX0) * sx + annotX0; + m[1] *= sy; + m[3] *= sy; + m[5] = (m[5] - formY0) * sy + annotY0; + + // get resources + dict->lookup("Resources", &resObj); + resDict = resObj.isDict() ? resObj.getDict() : (Dict *)NULL; + + // draw it + doForm1(str, resDict, m, bbox); + + resObj.free(); + bboxObj.free(); +} + +void Gfx::doForm1(Object *str, Dict *resDict, double *matrix, double *bbox) { + Parser *oldParser; + double oldBaseMatrix[6]; + int i; + + // push new resources on stack + pushResources(resDict); + + // save current graphics state + saveState(); + + // kill any pre-existing path + state->clearPath(); + + // save current parser + oldParser = parser; + + // set form transformation matrix + state->concatCTM(matrix[0], matrix[1], matrix[2], + matrix[3], matrix[4], matrix[5]); + out->updateCTM(state, matrix[0], matrix[1], matrix[2], + matrix[3], matrix[4], matrix[5]); + + // set new base matrix + for (i = 0; i < 6; ++i) { + oldBaseMatrix[i] = baseMatrix[i]; + baseMatrix[i] = state->getCTM()[i]; + } + + // set form bounding box + state->moveTo(bbox[0], bbox[1]); + state->lineTo(bbox[2], bbox[1]); + state->lineTo(bbox[2], bbox[3]); + state->lineTo(bbox[0], bbox[3]); + state->closePath(); + state->clip(); + out->clip(state); + state->clearPath(); + + // draw the form + display(str, gFalse); + + // restore base matrix + for (i = 0; i < 6; ++i) { + baseMatrix[i] = oldBaseMatrix[i]; + } + + // restore parser + parser = oldParser; + + // restore graphics state + restoreState(); + + // pop resource stack + popResources(); + + return; +} + +//------------------------------------------------------------------------ +// in-line image operators +//------------------------------------------------------------------------ + +void Gfx::opBeginImage(Object args[], int numArgs) { + Stream *str; + int c1, c2; + + // build dict/stream + str = buildImageStream(); + + // display the image + if (str) { + doImage(NULL, str, gTrue); + + // skip 'EI' tag + c1 = str->getBaseStream()->getChar(); + c2 = str->getBaseStream()->getChar(); + while (!(c1 == 'E' && c2 == 'I') && c2 != EOF) { + c1 = c2; + c2 = str->getBaseStream()->getChar(); + } + delete str; + } +} + +Stream *Gfx::buildImageStream() { + Object dict; + Object obj; + char *key; + Stream *str; + + // build dictionary + dict.initDict(xref); + parser->getObj(&obj); + while (!obj.isCmd("ID") && !obj.isEOF()) { + if (!obj.isName()) { + error(getPos(), "Inline image dictionary key must be a name object"); + obj.free(); + } else { + key = copyString(obj.getName()); + obj.free(); + parser->getObj(&obj); + if (obj.isEOF() || obj.isError()) { + gfree(key); + break; + } + dict.dictAdd(key, &obj); + } + parser->getObj(&obj); + } + if (obj.isEOF()) { + error(getPos(), "End of file in inline image"); + obj.free(); + dict.free(); + return NULL; + } + obj.free(); + + // make stream + str = new EmbedStream(parser->getStream(), &dict, gFalse, 0); + str = str->addFilters(&dict); + + return str; +} + +void Gfx::opImageData(Object args[], int numArgs) { + error(getPos(), "Internal: got 'ID' operator"); +} + +void Gfx::opEndImage(Object args[], int numArgs) { + error(getPos(), "Internal: got 'EI' operator"); +} + +//------------------------------------------------------------------------ +// type 3 font operators +//------------------------------------------------------------------------ + +void Gfx::opSetCharWidth(Object args[], int numArgs) { + out->type3D0(state, args[0].getNum(), args[1].getNum()); +} + +void Gfx::opSetCacheDevice(Object args[], int numArgs) { + out->type3D1(state, args[0].getNum(), args[1].getNum(), + args[2].getNum(), args[3].getNum(), + args[4].getNum(), args[5].getNum()); +} + +//------------------------------------------------------------------------ +// compatibility operators +//------------------------------------------------------------------------ + +void Gfx::opBeginIgnoreUndef(Object args[], int numArgs) { + ++ignoreUndef; +} + +void Gfx::opEndIgnoreUndef(Object args[], int numArgs) { + if (ignoreUndef > 0) + --ignoreUndef; +} + +//------------------------------------------------------------------------ +// marked content operators +//------------------------------------------------------------------------ + +void Gfx::opBeginMarkedContent(Object args[], int numArgs) { + if (printCommands) { + printf(" marked content: %s ", args[0].getName()); + if (numArgs == 2) + args[2].print(stdout); + printf("\n"); + fflush(stdout); + } +} + +void Gfx::opEndMarkedContent(Object args[], int numArgs) { +} + +void Gfx::opMarkPoint(Object args[], int numArgs) { + if (printCommands) { + printf(" mark point: %s ", args[0].getName()); + if (numArgs == 2) + args[2].print(stdout); + printf("\n"); + fflush(stdout); + } +} + +//------------------------------------------------------------------------ +// misc +//------------------------------------------------------------------------ + +void Gfx::saveState() { + out->saveState(state); + state = state->save(); +} + +void Gfx::restoreState() { + state = state->restore(); + out->restoreState(state); +} + +void Gfx::pushResources(Dict *resDict) { + res = new GfxResources(xref, resDict, res); +} + +void Gfx::popResources() { + GfxResources *resPtr; + + resPtr = res->getNext(); + delete res; + res = resPtr; +}