#include "fitz.h" #include "mupdf.h" static pdf_csi * pdf_newcsi(pdf_xref *xref, fz_device *dev, fz_matrix ctm, char *target) { pdf_csi *csi; csi = fz_malloc(sizeof(pdf_csi)); csi->xref = xref; csi->dev = dev; csi->target = target; csi->top = 0; csi->obj = nil; csi->name[0] = 0; csi->stringlen = 0; memset(csi->stack, 0, sizeof csi->stack); csi->xbalance = 0; csi->intext = 0; csi->inarray = 0; csi->path = fz_newpath(); csi->clip = 0; csi->clipevenodd = 0; csi->text = nil; csi->tlm = fz_identity; csi->tm = fz_identity; csi->textmode = 0; csi->accumulate = 1; csi->topctm = ctm; pdf_initgstate(&csi->gstate[0], ctm); csi->gtop = 0; return csi; } static void pdf_clearstack(pdf_csi *csi) { int i; if (csi->obj) fz_dropobj(csi->obj); csi->obj = nil; csi->name[0] = 0; csi->stringlen = 0; for (i = 0; i < csi->top; i++) csi->stack[i] = 0; csi->top = 0; } pdf_material * pdf_keepmaterial(pdf_material *mat) { if (mat->colorspace) fz_keepcolorspace(mat->colorspace); if (mat->pattern) pdf_keeppattern(mat->pattern); if (mat->shade) fz_keepshade(mat->shade); return mat; } pdf_material * pdf_dropmaterial(pdf_material *mat) { if (mat->colorspace) fz_dropcolorspace(mat->colorspace); if (mat->pattern) pdf_droppattern(mat->pattern); if (mat->shade) fz_dropshade(mat->shade); return mat; } void pdf_gsave(pdf_csi *csi) { pdf_gstate *gs = csi->gstate + csi->gtop; if (csi->gtop == nelem(csi->gstate) - 1) { fz_warn("gstate overflow in content stream"); return; } memcpy(&csi->gstate[csi->gtop + 1], &csi->gstate[csi->gtop], sizeof(pdf_gstate)); csi->gtop ++; pdf_keepmaterial(&gs->stroke); pdf_keepmaterial(&gs->fill); if (gs->font) pdf_keepfont(gs->font); if (gs->softmask) pdf_keepxobject(gs->softmask); } void pdf_grestore(pdf_csi *csi) { pdf_gstate *gs = csi->gstate + csi->gtop; int clipdepth = gs->clipdepth; if (csi->gtop == 0) { fz_warn("gstate underflow in content stream"); return; } pdf_dropmaterial(&gs->stroke); pdf_dropmaterial(&gs->fill); if (gs->font) pdf_dropfont(gs->font); if (gs->softmask) pdf_dropxobject(gs->softmask); csi->gtop --; gs = csi->gstate + csi->gtop; while (clipdepth > gs->clipdepth) { csi->dev->popclip(csi->dev->user); clipdepth--; } } static void pdf_freecsi(pdf_csi *csi) { while (csi->gtop) pdf_grestore(csi); pdf_dropmaterial(&csi->gstate[0].fill); pdf_dropmaterial(&csi->gstate[0].stroke); if (csi->gstate[0].font) pdf_dropfont(csi->gstate[0].font); if (csi->gstate[0].softmask) pdf_dropxobject(csi->gstate[0].softmask); while (csi->gstate[0].clipdepth--) csi->dev->popclip(csi->dev->user); if (csi->path) fz_freepath(csi->path); if (csi->text) fz_freetext(csi->text); pdf_clearstack(csi); fz_free(csi); } static int pdf_ishiddenocg(pdf_csi *csi, fz_obj *xobj) { char target_state[16]; fz_obj *obj; fz_strlcpy(target_state, csi->target, sizeof target_state); fz_strlcat(target_state, "State", sizeof target_state); obj = fz_dictgets(xobj, "OC"); obj = fz_dictgets(obj, "OCGs"); if (fz_isarray(obj)) obj = fz_arrayget(obj, 0); obj = fz_dictgets(obj, "Usage"); obj = fz_dictgets(obj, csi->target); obj = fz_dictgets(obj, target_state); return !strcmp(fz_toname(obj), "OFF"); } fz_error pdf_runxobject(pdf_csi *csi, fz_obj *resources, pdf_xobject *xobj, fz_matrix transform) { fz_error error; pdf_gstate *gstate; fz_matrix oldtopctm; int oldtop; int popmask; pdf_gsave(csi); gstate = csi->gstate + csi->gtop; oldtop = csi->gtop; popmask = 0; /* apply xobject's transform matrix */ transform = fz_concat(transform, xobj->matrix); gstate->ctm = fz_concat(transform, gstate->ctm); /* apply soft mask, create transparency group and reset state */ if (xobj->transparency) { if (gstate->softmask) { pdf_xobject *softmask = gstate->softmask; fz_rect bbox = fz_transformrect(gstate->ctm, xobj->bbox); gstate->softmask = nil; popmask = 1; csi->dev->beginmask(csi->dev->user, bbox, gstate->luminosity, softmask->colorspace, gstate->softmaskbc); error = pdf_runxobject(csi, resources, softmask, fz_identity); if (error) return fz_rethrow(error, "cannot run softmask"); csi->dev->endmask(csi->dev->user); pdf_dropxobject(softmask); } csi->dev->begingroup(csi->dev->user, fz_transformrect(gstate->ctm, xobj->bbox), xobj->isolated, xobj->knockout, gstate->blendmode, gstate->fill.alpha); gstate->blendmode = FZ_BNORMAL; gstate->stroke.alpha = 1; gstate->fill.alpha = 1; } /* clip to the bounds */ fz_moveto(csi->path, xobj->bbox.x0, xobj->bbox.y0); fz_lineto(csi->path, xobj->bbox.x1, xobj->bbox.y0); fz_lineto(csi->path, xobj->bbox.x1, xobj->bbox.y1); fz_lineto(csi->path, xobj->bbox.x0, xobj->bbox.y1); fz_closepath(csi->path); csi->clip = 1; pdf_showpath(csi, 0, 0, 0, 0); /* run contents */ oldtopctm = csi->topctm; csi->topctm = gstate->ctm; if (xobj->resources) resources = xobj->resources; error = pdf_runcsibuffer(csi, resources, xobj->contents); if (error) return fz_rethrow(error, "cannot interpret XObject stream"); csi->topctm = oldtopctm; while (oldtop < csi->gtop) pdf_grestore(csi); pdf_grestore(csi); /* wrap up transparency stacks */ if (xobj->transparency) { csi->dev->endgroup(csi->dev->user); if (popmask) csi->dev->popclip(csi->dev->user); } return fz_okay; } static fz_error pdf_runinlineimage(pdf_csi *csi, fz_obj *rdb, fz_stream *file, fz_obj *dict) { fz_error error; fz_pixmap *img; int ch; error = pdf_loadinlineimage(&img, csi->xref, rdb, dict, file); if (error) return fz_rethrow(error, "cannot load inline image"); /* find EI */ ch = fz_readbyte(file); while (ch != 'E' && ch != EOF) ch = fz_readbyte(file); ch = fz_readbyte(file); if (ch != 'I') { fz_droppixmap(img); return fz_rethrow(error, "syntax error after inline image"); } pdf_showimage(csi, img); fz_droppixmap(img); return fz_okay; } static fz_error pdf_runextgstate(pdf_csi *csi, fz_obj *rdb, fz_obj *extgstate) { pdf_gstate *gstate = csi->gstate + csi->gtop; fz_colorspace *colorspace; int i, k; pdf_flushtext(csi); for (i = 0; i < fz_dictlen(extgstate); i++) { fz_obj *key = fz_dictgetkey(extgstate, i); fz_obj *val = fz_dictgetval(extgstate, i); char *s = fz_toname(key); if (!strcmp(s, "Font")) { if (fz_isarray(val) && fz_arraylen(val) == 2) { fz_error error; fz_obj *font = fz_arrayget(val, 0); if (gstate->font) { pdf_dropfont(gstate->font); gstate->font = nil; } error = pdf_loadfont(&gstate->font, csi->xref, rdb, font); if (error) return fz_rethrow(error, "cannot load font (%d %d R)", fz_tonum(font), fz_togen(font)); if (!gstate->font) return fz_throw("cannot find font in store"); gstate->size = fz_toreal(fz_arrayget(val, 1)); } else return fz_throw("malformed /Font dictionary"); } else if (!strcmp(s, "LW")) gstate->strokestate.linewidth = fz_toreal(val); else if (!strcmp(s, "LC")) gstate->strokestate.linecap = fz_toint(val); else if (!strcmp(s, "LJ")) gstate->strokestate.linejoin = fz_toint(val); else if (!strcmp(s, "ML")) gstate->strokestate.miterlimit = fz_toreal(val); else if (!strcmp(s, "D")) { if (fz_isarray(val) && fz_arraylen(val) == 2) { fz_obj *dashes = fz_arrayget(val, 0); gstate->strokestate.dashlen = MAX(fz_arraylen(dashes), 32); for (k = 0; k < gstate->strokestate.dashlen; k++) gstate->strokestate.dashlist[k] = fz_toreal(fz_arrayget(dashes, k)); gstate->strokestate.dashphase = fz_toreal(fz_arrayget(val, 1)); } else return fz_throw("malformed /D"); } else if (!strcmp(s, "CA")) gstate->stroke.alpha = fz_toreal(val); else if (!strcmp(s, "ca")) gstate->fill.alpha = fz_toreal(val); else if (!strcmp(s, "BM")) { if (fz_isarray(val)) val = fz_arrayget(val, 0); gstate->blendmode = FZ_BNORMAL; for (k = 0; fz_blendnames[k]; k++) if (!strcmp(fz_blendnames[k], fz_toname(val))) gstate->blendmode = k; } else if (!strcmp(s, "SMask")) { if (fz_isdict(val)) { fz_error error; pdf_xobject *xobj; fz_obj *group, *luminosity, *bc; if (gstate->softmask) { pdf_dropxobject(gstate->softmask); gstate->softmask = nil; } group = fz_dictgets(val, "G"); if (!group) return fz_throw("cannot load softmask xobject (%d %d R)", fz_tonum(val), fz_togen(val)); error = pdf_loadxobject(&xobj, csi->xref, group); if (error) return fz_rethrow(error, "cannot load xobject (%d %d R)", fz_tonum(val), fz_togen(val)); colorspace = xobj->colorspace; if (!colorspace) colorspace = fz_devicegray; gstate->softmaskctm = fz_concat(xobj->matrix, gstate->ctm); gstate->softmask = xobj; for (k = 0; k < colorspace->n; k++) gstate->softmaskbc[k] = 0; bc = fz_dictgets(val, "BC"); if (fz_isarray(bc)) { for (k = 0; k < colorspace->n; k++) gstate->softmaskbc[k] = fz_toreal(fz_arrayget(bc, k)); } luminosity = fz_dictgets(val, "S"); if (fz_isname(luminosity) && !strcmp(fz_toname(luminosity), "Luminosity")) gstate->luminosity = 1; else gstate->luminosity = 0; } else if (fz_isname(val) && !strcmp(fz_toname(val), "None")) { if (gstate->softmask) { pdf_dropxobject(gstate->softmask); gstate->softmask = nil; } } } else if (!strcmp(s, "TR")) { if (fz_isname(val) && strcmp(fz_toname(val), "Identity")) fz_warn("ignoring transfer function"); } } return fz_okay; } static void pdf_run_BDC(pdf_csi *csi) { } static fz_error pdf_run_BI(pdf_csi *csi, fz_obj *rdb, fz_stream *file) { int ch; fz_error error; char *buf = csi->xref->scratch; int buflen = sizeof(csi->xref->scratch); fz_obj *obj; error = pdf_parsedict(&obj, csi->xref, file, buf, buflen); if (error) return fz_rethrow(error, "cannot parse inline image dictionary"); /* read whitespace after ID keyword */ ch = fz_readbyte(file); if (ch == '\r') if (fz_peekbyte(file) == '\n') fz_readbyte(file); error = pdf_runinlineimage(csi, rdb, file, obj); fz_dropobj(obj); if (error) return fz_rethrow(error, "cannot parse inline image"); return fz_okay; } static void pdf_run_B(pdf_csi *csi) { pdf_showpath(csi, 0, 1, 1, 0); } static void pdf_run_BMC(pdf_csi *csi) { } static void pdf_run_BT(pdf_csi *csi) { csi->intext = 1; csi->tm = fz_identity; csi->tlm = fz_identity; } static void pdf_run_BX(pdf_csi *csi) { csi->xbalance ++; } static void pdf_run_Bstar(pdf_csi *csi) { pdf_showpath(csi, 0, 1, 1, 1); } static fz_error pdf_run_cs_imp(pdf_csi *csi, fz_obj *rdb, int what) { fz_colorspace *colorspace; fz_obj *obj, *dict; fz_error error; if (!strcmp(csi->name, "Pattern")) { pdf_setpattern(csi, what, nil, nil); } else { if (!strcmp(csi->name, "DeviceGray")) colorspace = fz_keepcolorspace(fz_devicegray); else if (!strcmp(csi->name, "DeviceRGB")) colorspace = fz_keepcolorspace(fz_devicergb); else if (!strcmp(csi->name, "DeviceCMYK")) colorspace = fz_keepcolorspace(fz_devicecmyk); else { dict = fz_dictgets(rdb, "ColorSpace"); if (!dict) return fz_throw("cannot find ColorSpace dictionary"); obj = fz_dictgets(dict, csi->name); if (!obj) return fz_throw("cannot find colorspace resource '%s'", csi->name); error = pdf_loadcolorspace(&colorspace, csi->xref, obj); if (error) return fz_rethrow(error, "cannot load colorspace (%d 0 R)", fz_tonum(obj)); } pdf_setcolorspace(csi, what, colorspace); fz_dropcolorspace(colorspace); } return fz_okay; } static void pdf_run_CS(pdf_csi *csi, fz_obj *rdb) { fz_error error; error = pdf_run_cs_imp(csi, rdb, PDF_MSTROKE); if (error) fz_catch(error, "cannot set colorspace"); } static void pdf_run_cs(pdf_csi *csi, fz_obj *rdb) { fz_error error; error = pdf_run_cs_imp(csi, rdb, PDF_MFILL); if (error) fz_catch(error, "cannot set colorspace"); } static void pdf_run_DP(pdf_csi *csi) { } static fz_error pdf_run_Do(pdf_csi *csi, fz_obj *rdb) { fz_obj *dict; fz_obj *obj; fz_obj *subtype; fz_error error; dict = fz_dictgets(rdb, "XObject"); if (!dict) return fz_throw("cannot find XObject dictionary when looking for: '%s'", csi->name); obj = fz_dictgets(dict, csi->name); if (!obj) return fz_throw("cannot find xobject resource: '%s'", csi->name); subtype = fz_dictgets(obj, "Subtype"); if (!fz_isname(subtype)) return fz_throw("no XObject subtype specified"); if (pdf_ishiddenocg(csi, obj)) return fz_okay; if (!strcmp(fz_toname(subtype), "Form") && fz_dictgets(obj, "Subtype2")) subtype = fz_dictgets(obj, "Subtype2"); if (!strcmp(fz_toname(subtype), "Form")) { pdf_xobject *xobj; error = pdf_loadxobject(&xobj, csi->xref, obj); if (error) return fz_rethrow(error, "cannot load xobject (%d %d R)", fz_tonum(obj), fz_togen(obj)); /* Inherit parent resources, in case this one was empty XXX check where it's loaded */ if (!xobj->resources) xobj->resources = fz_keepobj(rdb); error = pdf_runxobject(csi, xobj->resources, xobj, fz_identity); if (error) return fz_rethrow(error, "cannot draw xobject (%d %d R)", fz_tonum(obj), fz_togen(obj)); pdf_dropxobject(xobj); } else if (!strcmp(fz_toname(subtype), "Image")) { if ((csi->dev->hints & FZ_IGNOREIMAGE) == 0) { fz_pixmap *img; error = pdf_loadimage(&img, csi->xref, obj); if (error) return fz_rethrow(error, "cannot load image (%d %d R)", fz_tonum(obj), fz_togen(obj)); pdf_showimage(csi, img); fz_droppixmap(img); } } else if (!strcmp(fz_toname(subtype), "PS")) { fz_warn("ignoring XObject with subtype PS"); } else { return fz_throw("unknown XObject subtype: '%s'", fz_toname(subtype)); } return fz_okay; } static void pdf_run_EMC(pdf_csi *csi) { } static void pdf_run_ET(pdf_csi *csi) { pdf_flushtext(csi); csi->accumulate = 1; csi->intext = 0; } static void pdf_run_EX(pdf_csi *csi) { csi->xbalance --; } static void pdf_run_F(pdf_csi *csi) { pdf_showpath(csi, 0, 1, 0, 0); } static void pdf_run_G(pdf_csi *csi) { pdf_setcolorspace(csi, PDF_MSTROKE, fz_devicegray); pdf_setcolor(csi, PDF_MSTROKE, csi->stack); } static void pdf_run_J(pdf_csi *csi) { pdf_gstate *gstate = csi->gstate + csi->gtop; gstate->strokestate.linecap = csi->stack[0]; } static void pdf_run_K(pdf_csi *csi) { pdf_setcolorspace(csi, PDF_MSTROKE, fz_devicecmyk); pdf_setcolor(csi, PDF_MSTROKE, csi->stack); } static void pdf_run_M(pdf_csi *csi) { pdf_gstate *gstate = csi->gstate + csi->gtop; gstate->strokestate.miterlimit = csi->stack[0]; } static void pdf_run_MP(pdf_csi *csi) { } static void pdf_run_Q(pdf_csi *csi) { pdf_grestore(csi); } static void pdf_run_RG(pdf_csi *csi) { pdf_setcolorspace(csi, PDF_MSTROKE, fz_devicergb); pdf_setcolor(csi, PDF_MSTROKE, csi->stack); } static void pdf_run_S(pdf_csi *csi) { pdf_showpath(csi, 0, 0, 1, 0); } static fz_error pdf_run_SC_imp(pdf_csi *csi, fz_obj *rdb, int what, pdf_material *mat) { fz_error error; fz_obj *patterntype; fz_obj *dict; fz_obj *obj; int kind; kind = mat->kind; if (csi->name[0]) kind = PDF_MPATTERN; switch (kind) { case PDF_MNONE: return fz_throw("cannot set color in mask objects"); case PDF_MCOLOR: pdf_setcolor(csi, what, csi->stack); break; case PDF_MPATTERN: dict = fz_dictgets(rdb, "Pattern"); if (!dict) return fz_throw("cannot find Pattern dictionary"); obj = fz_dictgets(dict, csi->name); if (!obj) return fz_throw("cannot find pattern resource '%s'", csi->name); patterntype = fz_dictgets(obj, "PatternType"); if (fz_toint(patterntype) == 1) { pdf_pattern *pat; error = pdf_loadpattern(&pat, csi->xref, obj); if (error) return fz_rethrow(error, "cannot load pattern (%d 0 R)", fz_tonum(obj)); pdf_setpattern(csi, what, pat, csi->top > 0 ? csi->stack : nil); pdf_droppattern(pat); } else if (fz_toint(patterntype) == 2) { fz_shade *shd; error = pdf_loadshading(&shd, csi->xref, obj); if (error) return fz_rethrow(error, "cannot load shading (%d 0 R)", fz_tonum(obj)); pdf_setshade(csi, what, shd); fz_dropshade(shd); } else { return fz_throw("unknown pattern type: %d", fz_toint(patterntype)); } break; case PDF_MSHADE: return fz_throw("cannot set color in shade objects"); } return fz_okay; } static void pdf_run_SC(pdf_csi *csi, fz_obj *rdb) { fz_error error; pdf_gstate *gstate = csi->gstate + csi->gtop; error = pdf_run_SC_imp(csi, rdb, PDF_MSTROKE, &gstate->stroke); if (error) fz_catch(error, "cannot set color and colorspace"); } static void pdf_run_sc(pdf_csi *csi, fz_obj *rdb) { fz_error error; pdf_gstate *gstate = csi->gstate + csi->gtop; error = pdf_run_SC_imp(csi, rdb, PDF_MFILL, &gstate->fill); if (error) fz_catch(error, "cannot set color and colorspace"); } static void pdf_run_Tc(pdf_csi *csi) { pdf_gstate *gstate = csi->gstate + csi->gtop; gstate->charspace = csi->stack[0]; } static void pdf_run_Tw(pdf_csi *csi) { pdf_gstate *gstate = csi->gstate + csi->gtop; gstate->wordspace = csi->stack[0]; } static void pdf_run_Tz(pdf_csi *csi) { pdf_gstate *gstate = csi->gstate + csi->gtop; float a = csi->stack[0] / 100; pdf_flushtext(csi); gstate->scale = a; } static void pdf_run_TL(pdf_csi *csi) { pdf_gstate *gstate = csi->gstate + csi->gtop; gstate->leading = csi->stack[0]; } static fz_error pdf_run_Tf(pdf_csi *csi, fz_obj *rdb) { pdf_gstate *gstate = csi->gstate + csi->gtop; fz_error error; fz_obj *dict; fz_obj *obj; gstate->size = csi->stack[0]; if (gstate->font) pdf_dropfont(gstate->font); gstate->font = nil; dict = fz_dictgets(rdb, "Font"); if (!dict) return fz_throw("cannot find Font dictionary"); obj = fz_dictgets(dict, csi->name); if (!obj) return fz_throw("cannot find font resource: '%s'", csi->name); error = pdf_loadfont(&gstate->font, csi->xref, rdb, obj); if (error) return fz_rethrow(error, "cannot load font (%d 0 R)", fz_tonum(obj)); return fz_okay; } static void pdf_run_Tr(pdf_csi *csi) { pdf_gstate *gstate = csi->gstate + csi->gtop; gstate->render = csi->stack[0]; } static void pdf_run_Ts(pdf_csi *csi) { pdf_gstate *gstate = csi->gstate + csi->gtop; gstate->rise = csi->stack[0]; } static void pdf_run_Td(pdf_csi *csi) { fz_matrix m = fz_translate(csi->stack[0], csi->stack[1]); csi->tlm = fz_concat(m, csi->tlm); csi->tm = csi->tlm; } static void pdf_run_TD(pdf_csi *csi) { pdf_gstate *gstate = csi->gstate + csi->gtop; fz_matrix m; gstate->leading = -csi->stack[1]; m = fz_translate(csi->stack[0], csi->stack[1]); csi->tlm = fz_concat(m, csi->tlm); csi->tm = csi->tlm; } static void pdf_run_Tm(pdf_csi *csi) { pdf_flushtext(csi); csi->tm.a = csi->stack[0]; csi->tm.b = csi->stack[1]; csi->tm.c = csi->stack[2]; csi->tm.d = csi->stack[3]; csi->tm.e = csi->stack[4]; csi->tm.f = csi->stack[5]; csi->tlm = csi->tm; } static void pdf_run_Tstar(pdf_csi *csi) { pdf_gstate *gstate = csi->gstate + csi->gtop; fz_matrix m = fz_translate(0, -gstate->leading); csi->tlm = fz_concat(m, csi->tlm); csi->tm = csi->tlm; } static void pdf_run_Tj(pdf_csi *csi) { if (csi->stringlen) pdf_showstring(csi, csi->string, csi->stringlen); else pdf_showtext(csi, csi->obj); } static void pdf_run_TJ(pdf_csi *csi) { if (csi->stringlen) pdf_showstring(csi, csi->string, csi->stringlen); else pdf_showtext(csi, csi->obj); } static void pdf_run_W(pdf_csi *csi) { csi->clip = 1; csi->clipevenodd = 0; } static void pdf_run_Wstar(pdf_csi *csi) { csi->clip = 1; csi->clipevenodd = 1; } static void pdf_run_b(pdf_csi *csi) { pdf_showpath(csi, 1, 1, 1, 0); } static void pdf_run_bstar(pdf_csi *csi) { pdf_showpath(csi, 1, 1, 1, 1); } static void pdf_run_c(pdf_csi *csi) { float a, b, c, d, e, f; a = csi->stack[0]; b = csi->stack[1]; c = csi->stack[2]; d = csi->stack[3]; e = csi->stack[4]; f = csi->stack[5]; fz_curveto(csi->path, a, b, c, d, e, f); } static void pdf_run_cm(pdf_csi *csi) { pdf_gstate *gstate = csi->gstate + csi->gtop; fz_matrix m; m.a = csi->stack[0]; m.b = csi->stack[1]; m.c = csi->stack[2]; m.d = csi->stack[3]; m.e = csi->stack[4]; m.f = csi->stack[5]; gstate->ctm = fz_concat(m, gstate->ctm); } static void pdf_run_d(pdf_csi *csi) { pdf_gstate *gstate = csi->gstate + csi->gtop; fz_obj *array; int i; array = csi->obj; gstate->strokestate.dashlen = MIN(fz_arraylen(array), nelem(gstate->strokestate.dashlist)); for (i = 0; i < gstate->strokestate.dashlen; i++) gstate->strokestate.dashlist[i] = fz_toreal(fz_arrayget(array, i)); gstate->strokestate.dashphase = csi->stack[0]; } static void pdf_run_d0(pdf_csi *csi) { } static void pdf_run_d1(pdf_csi *csi) { } static void pdf_run_f(pdf_csi *csi) { pdf_showpath(csi, 0, 1, 0, 0); } static void pdf_run_fstar(pdf_csi *csi) { pdf_showpath(csi, 0, 1, 0, 1); } static void pdf_run_g(pdf_csi *csi) { pdf_setcolorspace(csi, PDF_MFILL, fz_devicegray); pdf_setcolor(csi, PDF_MFILL, csi->stack); } static fz_error pdf_run_gs(pdf_csi *csi, fz_obj *rdb) { fz_error error; fz_obj *dict; fz_obj *obj; dict = fz_dictgets(rdb, "ExtGState"); if (!dict) return fz_throw("cannot find ExtGState dictionary"); obj = fz_dictgets(dict, csi->name); if (!obj) return fz_throw("cannot find extgstate resource '%s'", csi->name); error = pdf_runextgstate(csi, rdb, obj); if (error) return fz_rethrow(error, "cannot set ExtGState (%d 0 R)", fz_tonum(obj)); return fz_okay; } static void pdf_run_h(pdf_csi *csi) { fz_closepath(csi->path); } static void pdf_run_i(pdf_csi *csi) { } static void pdf_run_j(pdf_csi *csi) { pdf_gstate *gstate = csi->gstate + csi->gtop; gstate->strokestate.linejoin = csi->stack[0]; } static void pdf_run_k(pdf_csi *csi) { pdf_setcolorspace(csi, PDF_MFILL, fz_devicecmyk); pdf_setcolor(csi, PDF_MFILL, csi->stack); } static void pdf_run_l(pdf_csi *csi) { float a, b; a = csi->stack[0]; b = csi->stack[1]; fz_lineto(csi->path, a, b); } static void pdf_run_m(pdf_csi *csi) { float a, b; a = csi->stack[0]; b = csi->stack[1]; fz_moveto(csi->path, a, b); } static void pdf_run_n(pdf_csi *csi) { pdf_showpath(csi, 0, 0, 0, csi->clipevenodd); } static void pdf_run_q(pdf_csi *csi) { pdf_gsave(csi); } static void pdf_run_re(pdf_csi *csi) { float x, y, w, h; x = csi->stack[0]; y = csi->stack[1]; w = csi->stack[2]; h = csi->stack[3]; fz_moveto(csi->path, x, y); fz_lineto(csi->path, x + w, y); fz_lineto(csi->path, x + w, y + h); fz_lineto(csi->path, x, y + h); fz_closepath(csi->path); } static void pdf_run_rg(pdf_csi *csi) { pdf_setcolorspace(csi, PDF_MFILL, fz_devicergb); pdf_setcolor(csi, PDF_MFILL, csi->stack); } static void pdf_run_ri(pdf_csi *csi) { } static void pdf_run_s(pdf_csi *csi) { pdf_showpath(csi, 1, 0, 1, 0); } static fz_error pdf_run_sh(pdf_csi *csi, fz_obj *rdb) { fz_obj *dict; fz_obj *obj; fz_shade *shd; fz_error error; dict = fz_dictgets(rdb, "Shading"); if (!dict) return fz_throw("cannot find shading dictionary"); obj = fz_dictgets(dict, csi->name); if (!obj) return fz_throw("cannot find shading resource: '%s'", csi->name); if ((csi->dev->hints & FZ_IGNORESHADE) == 0) { error = pdf_loadshading(&shd, csi->xref, obj); if (error) return fz_rethrow(error, "cannot load shading (%d %d R)", fz_tonum(obj), fz_togen(obj)); pdf_showshade(csi, shd); fz_dropshade(shd); } return fz_okay; } static void pdf_run_v(pdf_csi *csi) { float a, b, c, d; a = csi->stack[0]; b = csi->stack[1]; c = csi->stack[2]; d = csi->stack[3]; fz_curvetov(csi->path, a, b, c, d); } static void pdf_run_w(pdf_csi *csi) { pdf_gstate *gstate = csi->gstate + csi->gtop; gstate->strokestate.linewidth = csi->stack[0]; } static void pdf_run_y(pdf_csi *csi) { float a, b, c, d; a = csi->stack[0]; b = csi->stack[1]; c = csi->stack[2]; d = csi->stack[3]; fz_curvetoy(csi->path, a, b, c, d); } static void pdf_run_squote(pdf_csi *csi) { fz_matrix m; pdf_gstate *gstate = csi->gstate + csi->gtop; m = fz_translate(0, -gstate->leading); csi->tlm = fz_concat(m, csi->tlm); csi->tm = csi->tlm; if (csi->stringlen) pdf_showstring(csi, csi->string, csi->stringlen); else pdf_showtext(csi, csi->obj); } static void pdf_run_dquote(pdf_csi *csi) { fz_matrix m; pdf_gstate *gstate = csi->gstate + csi->gtop; gstate->wordspace = csi->stack[0]; gstate->charspace = csi->stack[1]; m = fz_translate(0, -gstate->leading); csi->tlm = fz_concat(m, csi->tlm); csi->tm = csi->tlm; if (csi->stringlen) pdf_showstring(csi, csi->string, csi->stringlen); else pdf_showtext(csi, csi->obj); } #define A(a) (a) #define B(a,b) (a | b << 8) #define C(a,b,c) (a | b << 8 | c << 16) static fz_error pdf_runkeyword(pdf_csi *csi, fz_obj *rdb, fz_stream *file, char *buf) { fz_error error; int key; key = buf[0]; if (buf[1]) { key |= buf[1] << 8; if (buf[2]) { key |= buf[2] << 16; if (buf[3]) key = 0; } } switch (key) { case A('"'): pdf_run_dquote(csi); break; case A('\''): pdf_run_squote(csi); break; case A('B'): pdf_run_B(csi); break; case B('B','*'): pdf_run_Bstar(csi); break; case C('B','D','C'): pdf_run_BDC(csi); break; case B('B','I'): error = pdf_run_BI(csi, rdb, file); if (error) return fz_rethrow(error, "cannot draw inline image"); break; case C('B','M','C'): pdf_run_BMC(csi); break; case B('B','T'): pdf_run_BT(csi); break; case B('B','X'): pdf_run_BX(csi); break; case B('C','S'): pdf_run_CS(csi, rdb); break; case B('D','P'): pdf_run_DP(csi); break; case B('D','o'): error = pdf_run_Do(csi, rdb); if (error) fz_catch(error, "cannot draw xobject/image"); break; case C('E','M','C'): pdf_run_EMC(csi); break; case B('E','T'): pdf_run_ET(csi); break; case B('E','X'): pdf_run_EX(csi); break; case A('F'): pdf_run_F(csi); break; case A('G'): pdf_run_G(csi); break; case A('J'): pdf_run_J(csi); break; case A('K'): pdf_run_K(csi); break; case A('M'): pdf_run_M(csi); break; case B('M','P'): pdf_run_MP(csi); break; case A('Q'): pdf_run_Q(csi); break; case B('R','G'): pdf_run_RG(csi); break; case A('S'): pdf_run_S(csi); break; case B('S','C'): pdf_run_SC(csi, rdb); break; case C('S','C','N'): pdf_run_SC(csi, rdb); break; case B('T','*'): pdf_run_Tstar(csi); break; case B('T','D'): pdf_run_TD(csi); break; case B('T','J'): pdf_run_TJ(csi); break; case B('T','L'): pdf_run_TL(csi); break; case B('T','c'): pdf_run_Tc(csi); break; case B('T','d'): pdf_run_Td(csi); break; case B('T','f'): error = pdf_run_Tf(csi, rdb); if (error) fz_catch(error, "cannot set font"); break; case B('T','j'): pdf_run_Tj(csi); break; case B('T','m'): pdf_run_Tm(csi); break; case B('T','r'): pdf_run_Tr(csi); break; case B('T','s'): pdf_run_Ts(csi); break; case B('T','w'): pdf_run_Tw(csi); break; case B('T','z'): pdf_run_Tz(csi); break; case A('W'): pdf_run_W(csi); break; case B('W','*'): pdf_run_Wstar(csi); break; case A('b'): pdf_run_b(csi); break; case B('b','*'): pdf_run_bstar(csi); break; case A('c'): pdf_run_c(csi); break; case B('c','m'): pdf_run_cm(csi); break; case B('c','s'): pdf_run_cs(csi, rdb); break; case A('d'): pdf_run_d(csi); break; case B('d','0'): pdf_run_d0(csi); break; case B('d','1'): pdf_run_d1(csi); break; case A('f'): pdf_run_f(csi); break; case B('f','*'): pdf_run_fstar(csi); break; case A('g'): pdf_run_g(csi); break; case B('g','s'): error = pdf_run_gs(csi, rdb); if (error) fz_catch(error, "cannot set graphics state"); break; case A('h'): pdf_run_h(csi); break; case A('i'): pdf_run_i(csi); break; case A('j'): pdf_run_j(csi); break; case A('k'): pdf_run_k(csi); break; case A('l'): pdf_run_l(csi); break; case A('m'): pdf_run_m(csi); break; case A('n'): pdf_run_n(csi); break; case A('q'): pdf_run_q(csi); break; case B('r','e'): pdf_run_re(csi); break; case B('r','g'): pdf_run_rg(csi); break; case B('r','i'): pdf_run_ri(csi); break; case A('s'): pdf_run_s(csi); break; case B('s','c'): pdf_run_sc(csi, rdb); break; case C('s','c','n'): pdf_run_sc(csi, rdb); break; case B('s','h'): error = pdf_run_sh(csi, rdb); if (error) fz_catch(error, "cannot draw shading"); break; case A('v'): pdf_run_v(csi); break; case A('w'): pdf_run_w(csi); break; case A('y'): pdf_run_y(csi); break; default: if (!csi->xbalance) fz_warn("unknown keyword: '%s'", buf); break; } return fz_okay; } static fz_error pdf_runcsifile(pdf_csi *csi, fz_obj *rdb, fz_stream *file, char *buf, int buflen) { fz_error error; int tok; int len; pdf_clearstack(csi); while (1) { if (csi->top == nelem(csi->stack) - 1) return fz_throw("stack overflow"); error = pdf_lex(&tok, file, buf, buflen, &len); if (error) return fz_rethrow(error, "lexical error in content stream"); if (csi->inarray) { if (tok == PDF_TCARRAY) { csi->inarray = 0; } else if (tok == PDF_TINT || tok == PDF_TREAL) { pdf_gstate *gstate = csi->gstate + csi->gtop; pdf_showspace(csi, -atof(buf) * gstate->size * 0.001f); } else if (tok == PDF_TSTRING) { pdf_showstring(csi, (unsigned char *)buf, len); } else if (tok == PDF_TKEYWORD) { if (!strcmp(buf, "Tw") || !strcmp(buf, "Tc")) fz_warn("ignoring keyword '%s' inside array", buf); else return fz_throw("syntax error in array"); } else if (tok == PDF_TEOF) return fz_okay; else return fz_throw("syntax error in array"); } else switch (tok) { case PDF_TENDSTREAM: case PDF_TEOF: return fz_okay; case PDF_TOARRAY: if (!csi->intext) { error = pdf_parsearray(&csi->obj, csi->xref, file, buf, buflen); if (error) return fz_rethrow(error, "cannot parse array"); } else { csi->inarray = 1; } break; case PDF_TODICT: error = pdf_parsedict(&csi->obj, csi->xref, file, buf, buflen); if (error) return fz_rethrow(error, "cannot parse dictionary"); break; case PDF_TNAME: fz_strlcpy(csi->name, buf, sizeof(csi->name)); break; case PDF_TINT: csi->stack[csi->top] = atoi(buf); csi->top ++; break; case PDF_TREAL: csi->stack[csi->top] = atof(buf); csi->top ++; break; case PDF_TSTRING: if (len <= sizeof(csi->string)) { memcpy(csi->string, buf, len); csi->stringlen = len; } else { csi->obj = fz_newstring(buf, len); } break; case PDF_TKEYWORD: error = pdf_runkeyword(csi, rdb, file, buf); if (error) return fz_rethrow(error, "cannot run keyword"); pdf_clearstack(csi); break; default: return fz_throw("syntax error in content stream"); } } } fz_error pdf_runcsibuffer(pdf_csi *csi, fz_obj *rdb, fz_buffer *contents) { fz_stream *file; fz_error error; file = fz_openbuffer(contents); error = pdf_runcsifile(csi, rdb, file, csi->xref->scratch, sizeof csi->xref->scratch); fz_close(file); if (error) return fz_rethrow(error, "cannot parse content stream"); return fz_okay; } fz_error pdf_runpagewithtarget(pdf_xref *xref, pdf_page *page, fz_device *dev, fz_matrix ctm, char *target) { pdf_csi *csi; fz_error error; pdf_annot *annot; int flags; if (page->transparency) dev->begingroup(dev->user, fz_transformrect(ctm, page->mediabox), 0, 0, FZ_BNORMAL, 1); csi = pdf_newcsi(xref, dev, ctm, target); error = pdf_runcsibuffer(csi, page->resources, page->contents); pdf_freecsi(csi); if (error) return fz_rethrow(error, "cannot parse page content stream"); for (annot = page->annots; annot; annot = annot->next) { flags = fz_toint(fz_dictgets(annot->obj, "F")); /* TODO: NoZoom and NoRotate */ if (flags & (1 << 0)) /* Invisible */ continue; if (flags & (1 << 1)) /* Hidden */ continue; if (flags & (1 << 5)) /* NoView */ continue; if (pdf_ishiddenocg(csi, annot->obj)) continue; csi = pdf_newcsi(xref, dev, ctm, target); error = pdf_runxobject(csi, page->resources, annot->ap, annot->matrix); pdf_freecsi(csi); if (error) return fz_rethrow(error, "cannot parse annotation appearance stream"); } if (page->transparency) dev->endgroup(dev->user); return fz_okay; } fz_error pdf_runpage(pdf_xref *xref, pdf_page *page, fz_device *dev, fz_matrix ctm) { return pdf_runpagewithtarget(xref, page, dev, ctm, "View"); } fz_error pdf_runglyph(pdf_xref *xref, fz_obj *resources, fz_buffer *contents, fz_device *dev, fz_matrix ctm) { pdf_csi *csi = pdf_newcsi(xref, dev, ctm, "View"); fz_error error = pdf_runcsibuffer(csi, resources, contents); pdf_freecsi(csi); if (error) return fz_rethrow(error, "cannot parse glyph content stream"); return fz_okay; }