/* Copyright (C) 2001-2021 Artifex Software, Inc. All Rights Reserved. This software is provided AS-IS with no warranty, either express or implied. This software is distributed under license and may not be copied, modified or distributed except as expressly authorized under the terms of the license contained in the file LICENSE in this distribution. Refer to licensing information at http://www.artifex.com or contact Artifex Software, Inc., 1305 Grant Avenue - Suite 200, Novato, CA 94945, U.S.A., +1(415)492-9861, for further information. */ /* FontDescriptor implementation for pdfwrite */ #include "math_.h" #include "memory_.h" #include "gx.h" #include "gserrors.h" #include "gsrect.h" /* for rect_merge */ #include "gscencs.h" #include "gxfcopy.h" #include "gdevpdfx.h" #include "gdevpdfo.h" /* for object->written */ #include "gdevpdtb.h" #include "gdevpdtd.h" #include "gdevpdtf.h" /* ================ Types and structures ================ */ /* * There are many different flavors of FontDescriptor. The first division * is between FontDescriptors for actual fonts, and character class entries * in the FD dictionary of a CID-keyed font. The latter include metrics and * a FontName but nothing else. We represent these with a different C * structure (pdf_sub_font_descriptor_t). * * Descriptors for actual fonts have three major orthogonal properties: * * - Whether they represent a CID-keyed font or a name-keyed * (non-CID-keyed) font. We distinguish this by the FontType * of the saved font (see below). * * - Whether the font they represent is embedded. * * - Whether the font they represent is a complete font or a subset. * We always track which glyphs in a font are used: client code * decides whether to treat the font as a subset when the * descriptor (and, if embedded, the font) is written. * * Note that non-embedded fonts in the base set of 14 do not have * descriptors, nor do Type 0 or (synthetic bitmap) Type 3 fonts. */ /* Flag bits */ /*#define FONT_IS_FIXED_WIDTH (1<<0)*/ /* defined in gxfont.h */ #define FONT_IS_SERIF (1<<1) #define FONT_IS_SYMBOLIC (1<<2) #define FONT_IS_SCRIPT (1<<3) /* * There is confusion over the meaning of the 1<<5 bit. According to the * published PDF documentation, in PDF 1.1, it meant "font uses * StandardEncoding", and as of PDF 1.2, it means "font uses (a subset of) * the Adobe standard Latin character set"; however, Acrobat Reader 3 and 4 * seem to use the former interpretation, even if the font is embedded and * the file is identified as a PDF 1.2 file. We have to use the former * interpretation in order to produce output that Acrobat will handle * correctly. */ #define FONT_USES_STANDARD_ENCODING (1<<5) /* always used */ #define FONT_IS_ADOBE_ROMAN (1<<5) /* never used */ #define FONT_IS_ITALIC (1<<6) #define FONT_IS_ALL_CAPS (1<<16) #define FONT_IS_SMALL_CAPS (1<<17) #define FONT_IS_FORCE_BOLD (1<<18) /* * Define a sub-descriptor for a character class (FD dictionary element). */ typedef struct pdf_sub_font_descriptor_s { pdf_font_descriptor_common_t common; } pdf_sub_font_descriptor_t; /* * Font descriptors are pseudo-resources, so their GC descriptors * must be public. */ BASIC_PTRS(pdf_font_descriptor_ptrs) { GC_STRING_ELT(pdf_font_descriptor_t, common.values.FontName), GC_OBJ_ELT(pdf_font_descriptor_t, base_font), GC_OBJ_ELT(pdf_font_descriptor_t, cid.Style), GC_OBJ_ELT(pdf_font_descriptor_t, cid.FD) }; gs_public_st_basic_super(st_pdf_font_descriptor, pdf_font_descriptor_t, "pdf_font_descriptor_t", pdf_font_descriptor_ptrs, pdf_font_descriptor_data, &st_pdf_resource, 0); /* * Sub-font descriptors are also pseudo-resources. */ BASIC_PTRS(pdf_sub_font_descriptor_ptrs) { GC_STRING_ELT(pdf_sub_font_descriptor_t, common.values.FontName) }; gs_public_st_basic_super(st_pdf_sub_font_descriptor, pdf_sub_font_descriptor_t, "pdf_sub_font_descriptor_t", pdf_sub_font_descriptor_ptrs, pdf_sub_font_descriptor_data, &st_pdf_resource, 0); /* ================ Procedures ================ */ /* ---------------- Private ---------------- */ /* Get the ID of font descriptor metrics. */ static inline long pdf_font_descriptor_common_id(const pdf_font_descriptor_common_t *pfdc) { return pdf_resource_id((const pdf_resource_t *)pfdc); } /* Write the common part of a FontDescriptor, aside from the final >>. */ static int write_FontDescriptor_common(gx_device_pdf *pdev, const pdf_font_descriptor_common_t *pfd, bool embed) { stream *s; int code; param_printer_params_t params; printer_param_list_t rlist; gs_param_list *const plist = (gs_param_list *)&rlist; char *base14_name = NULL; pdf_open_separate(pdev, pdf_font_descriptor_common_id(pfd), resourceFontDescriptor); s = pdev->strm; stream_puts(s, "<values.FontName.data, pfd->values.FontName.size); if(base14_name) pdf_put_name(pdev, (byte *)base14_name, strlen(base14_name)); else pdf_put_name(pdev, pfd->values.FontName.data, pfd->values.FontName.size); } else pdf_put_name(pdev, pfd->values.FontName.data, pfd->values.FontName.size); pdf_write_font_bbox(pdev, &pfd->values.FontBBox); params = param_printer_params_default; code = s_init_param_printer(&rlist, ¶ms, s); if (code >= 0) { #define DESC_INT(str, memb)\ {str, gs_param_type_int, offset_of(pdf_font_descriptor_common_t, values.memb)} static const gs_param_item_t required_items[] = { DESC_INT("Ascent", Ascent), DESC_INT("CapHeight", CapHeight), DESC_INT("Descent", Descent), DESC_INT("ItalicAngle", ItalicAngle), DESC_INT("StemV", StemV), gs_param_item_end }; static const gs_param_item_t optional_items[] = { DESC_INT("AvgWidth", AvgWidth), DESC_INT("Leading", Leading), DESC_INT("MaxWidth", MaxWidth), DESC_INT("MissingWidth", MissingWidth), DESC_INT("StemH", StemH), DESC_INT("XHeight", XHeight), gs_param_item_end }; #undef DESC_INT int Flags = pfd->values.Flags; pdf_font_descriptor_t defaults; if (base14_name) Flags |=FONT_USES_STANDARD_ENCODING; code = param_write_int(plist, "Flags", &Flags); if (code < 0) return code; code = gs_param_write_items(plist, pfd, NULL, required_items); if (code < 0) return code; memset(&defaults, 0, sizeof(defaults)); code = gs_param_write_items(plist, pfd, &defaults, optional_items); if (code < 0) return code; s_release_param_printer(&rlist); } return 0; } /* ---------------- Public ---------------- */ /* * Allocate a FontDescriptor, initializing the FontType and rid from the * gs_font. */ int pdf_font_descriptor_alloc(gx_device_pdf *pdev, pdf_font_descriptor_t **ppfd, gs_font_base *font, bool embed) { pdf_font_descriptor_t *pfd; pdf_base_font_t *pbfont; int code = pdf_base_font_alloc(pdev, &pbfont, font, (font->orig_FontMatrix.xx == 0 && font->orig_FontMatrix.xy == 0 ? &font->FontMatrix : &font->orig_FontMatrix), false); if (code < 0) return code; code = pdf_alloc_resource(pdev, resourceFontDescriptor, font->id, (pdf_resource_t **)&pfd, -1L); if (code < 0) { gs_free_object(pdev->pdf_memory, pbfont, "pdf_font_descriptor_alloc(base_font)"); return code; } memset(&pfd->common.values, 0, sizeof(*pfd) - offset_of(pdf_font_descriptor_t, common.values)); pfd->base_font = pbfont; pfd->FontType = font->FontType; pfd->embed = embed; *ppfd = pfd; return 0; } int pdf_base_font_free(gx_device_pdf *pdev, pdf_base_font_t *pbfont) { gs_font *copied = NULL, *complete = NULL; if (pbfont) { copied = (gs_font *)pbfont->copied; complete = (gs_font *)pbfont->complete; } if (complete && copied != complete) gs_free_copied_font(complete); if (copied) gs_free_copied_font(copied); if (pbfont) { if (pbfont->CIDSet) gs_free_object(pdev->pdf_memory, pbfont->CIDSet, "Free base font CIDSet from FontDescriptor)"); if (pbfont->font_name.size) { gs_free_string(pdev->pdf_memory, pbfont->font_name.data, pbfont->font_name.size, "Free BaseFont FontName string"); pbfont->font_name.data = (byte *)0L; pbfont->font_name.size = 0; } gs_free_object(pdev->pdf_memory, pbfont, "Free base font from FontDescriptor)"); } return 0; } int pdf_font_descriptor_free(gx_device_pdf *pdev, pdf_resource_t *pres) { pdf_font_descriptor_t *pfd = (pdf_font_descriptor_t *)pres; pdf_base_font_t *pbfont = pfd->base_font; pdf_base_font_free(pdev, pbfont); pfd->base_font = 0; if (pres->object) { gs_free_object(pdev->pdf_memory, pres->object, "free FontDescriptor object"); pres->object = NULL; } return 0; } /* Get the object ID of a FontDescriptor. */ long pdf_font_descriptor_id(const pdf_font_descriptor_t *pfd) { return pdf_resource_id((const pdf_resource_t *)pfd); } long pdf_set_font_descriptor_usage(gx_device_pdf *pdev, int parent_id, const pdf_font_descriptor_t *pfd) { int id = pdf_resource_id((const pdf_resource_t *)pfd); pdf_record_usage_by_parent(pdev, id, parent_id); if (pfd->base_font->FontFile) { id = pfd->base_font->FontFile->id; pdf_record_usage_by_parent(pdev, id, parent_id); } return 0; } /* * Get the FontType of a FontDescriptor. */ font_type pdf_font_descriptor_FontType(const pdf_font_descriptor_t *pfd) { return pfd->FontType; } /* * Get the embedding status of a FontDescriptor. */ bool pdf_font_descriptor_embedding(const pdf_font_descriptor_t *pfd) { return pfd->embed; } /* * Check for subset font. */ bool pdf_font_descriptor_is_subset(const pdf_font_descriptor_t *pfd) { return pdf_base_font_is_subset(pfd->base_font); } /* * Return a reference to the FontName of a FontDescriptor, similar to * pdf_base_font_name. */ gs_string *pdf_font_descriptor_name(pdf_font_descriptor_t *pfd) { return &pfd->common.values.FontName; } char *pdf_fontfile_hash(void *pfd) { pdf_font_descriptor_t *fd = (pdf_font_descriptor_t *)pfd; cos_dict_t *pcd; if (fd->base_font && fd->base_font->FontFile) { pcd = (cos_dict_t *)fd->base_font->FontFile; if (pcd->stream_md5_valid) return ((char *)pcd->stream_hash); else return 0; } else return 0; } /* * Return the (copied, subset or complete) font associated with a FontDescriptor. * This procedure probably shouldn't exist.... */ gs_font_base * pdf_font_descriptor_font(const pdf_font_descriptor_t *pfd, bool complete) { return pdf_base_font_font(pfd->base_font, complete); } /* * Drop the copied complete font associated with a FontDescriptor. */ void pdf_font_descriptor_drop_complete_font(const pdf_font_descriptor_t *pfd) { pdf_base_font_drop_complete(pfd->base_font); } /* * Return a reference to the name of a FontDescriptor's base font, per * pdf_base_font_name. */ gs_string *pdf_font_descriptor_base_name(const pdf_font_descriptor_t *pfd) { return pdf_base_font_name(pfd->base_font); } /* * Copy a glyph from a font to the stable copy. Return 0 if this is a * new glyph, 1 if it was already copied. */ int pdf_font_used_glyph(pdf_font_descriptor_t *pfd, gs_glyph glyph, gs_font_base *font) { return pdf_base_font_copy_glyph(pfd->base_font, glyph, font); } /* Compute the FontDescriptor metrics for a font. */ int pdf_compute_font_descriptor(gx_device_pdf *pdev, pdf_font_descriptor_t *pfd) { gs_font_base *bfont = pdf_base_font_font(pfd->base_font, false); gs_glyph glyph, notdef; int index; int wmode = bfont->WMode; int members = (GLYPH_INFO_WIDTH0 << wmode) | GLYPH_INFO_BBOX | GLYPH_INFO_NUM_PIECES; pdf_font_descriptor_values_t desc; gs_matrix smat; gs_matrix *pmat = NULL; int fixed_width = 0; int small_descent = 0, small_height = 0; bool small_present = false; int x_height = 0; int cap_height = 0; gs_rect bbox_colon, bbox_period, bbox_I; bool is_cid = (bfont->FontType == ft_CID_encrypted || bfont->FontType == ft_CID_TrueType); bool have_colon = false, have_period = false, have_I = false; int code; memset(&bbox_colon, 0, sizeof(bbox_colon)); /* quiet gcc warnings. */ memset(&bbox_period, 0, sizeof(bbox_period)); /* quiet gcc warnings. */ memset(&bbox_I, 0, sizeof(bbox_I)); /* quiet gcc warnings. */ memset(&desc, 0, sizeof(desc)); if (is_cid && bfont->FontBBox.p.x != bfont->FontBBox.q.x && bfont->FontBBox.p.y != bfont->FontBBox.q.y) { int scale = (bfont->FontType == ft_TrueType || bfont->FontType == ft_CID_TrueType ? 1000 : 1); desc.FontBBox.p.x = (int)(bfont->FontBBox.p.x * scale); desc.FontBBox.p.y = (int)(bfont->FontBBox.p.y * scale); desc.FontBBox.q.x = (int)(bfont->FontBBox.q.x * scale); desc.FontBBox.q.y = (int)(bfont->FontBBox.q.y * scale); desc.Ascent = desc.FontBBox.q.y; members &= ~GLYPH_INFO_BBOX; } else { desc.FontBBox.p.x = desc.FontBBox.p.y = max_int; desc.FontBBox.q.x = desc.FontBBox.q.y = min_int; } /* * Embedded TrueType fonts use a 1000-unit character space, but the * font itself uses a 1-unit space. Compensate for this here. */ switch (bfont->FontType) { case ft_TrueType: case ft_CID_TrueType: gs_make_scaling(1000.0, 1000.0, &smat); pmat = &smat; /* Type 3 fonts may use a FontMatrix in PDF, so we don't * need to deal with non-standard matrices */ case ft_GL2_531: case ft_PCL_user_defined: case ft_GL2_stick_user_defined: case ft_MicroType: case ft_PDF_user_defined: case ft_user_defined: break; /* Other font types may use a non-standard (not 1000x1000) design grid * The FontMatrix is used to map to the unit square. However PDF files * don't allow FontMatrix entries, all fonts are nominally 1000x1000. * If we have a font with a non-standard matrix we must account for that * here by scaling the font outline. */ default: gs_matrix_scale(&bfont->FontMatrix, 1000.0, 1000.0, &smat); pmat = &smat; break; } /* * Scan the entire glyph space to compute Ascent, Descent, FontBBox, and * the fixed width if any. For non-symbolic fonts, also note the * bounding boxes for Latin letters and a couple of other characters, * for computing the remaining descriptor values (CapHeight, * ItalicAngle, StemV, XHeight, and flags SERIF, SCRIPT, ITALIC, * ALL_CAPS, and SMALL_CAPS). (The algorithms are pretty crude.) */ notdef = GS_NO_GLYPH; for (index = 0; (bfont->procs.enumerate_glyph((gs_font *)bfont, &index, (is_cid ? GLYPH_SPACE_INDEX : GLYPH_SPACE_NAME), &glyph)) >= 0 && index != 0; ) { gs_glyph_info_t info; gs_const_string gname; gs_glyph glyph_known_enc; gs_char position=0; code = bfont->procs.glyph_info((gs_font *)bfont, glyph, pmat, members, &info); if (code == gs_error_VMerror) return code; if (code < 0) { /* * Since this function may be indirtectly called from gx_device_finalize, * we are unable to propagate error code to the interpreter. * Therefore we skip it here hoping that few errors can be * recovered by the integration through entire glyph set. */ continue; } if (members & GLYPH_INFO_BBOX) { /* rect_merge(desc.FontBBox, info.bbox); Expanding due to type cast :*/ if (info.bbox.p.x < desc.FontBBox.p.x) desc.FontBBox.p.x = (int)info.bbox.p.x; if (info.bbox.q.x > desc.FontBBox.q.x) desc.FontBBox.q.x = (int)info.bbox.q.x; if (info.bbox.p.y < desc.FontBBox.p.y) desc.FontBBox.p.y = (int)info.bbox.p.y; if (info.bbox.q.y > desc.FontBBox.q.y) desc.FontBBox.q.y = (int)info.bbox.q.y; if (!info.num_pieces) desc.Ascent = max(desc.Ascent, (int)info.bbox.q.y); } if (notdef == GS_NO_GLYPH && gs_font_glyph_is_notdef(bfont, glyph)) { notdef = glyph; desc.MissingWidth = (int)info.width[wmode].x; } if (info.width[wmode].y != 0) fixed_width = min_int; else if (fixed_width == 0) fixed_width = (int)info.width[wmode].x; else if (info.width[wmode].x != fixed_width) fixed_width = min_int; if (desc.Flags & FONT_IS_SYMBOLIC) continue; /* skip Roman-only computation */ if (is_cid) continue; code = bfont->procs.glyph_name((gs_font *)bfont, glyph, &gname); if (code < 0) { /* If we fail to get the glyph name, best assume this is a symbolic font */ desc.Flags |= FONT_IS_SYMBOLIC; continue; } /* See if the glyph name is in any of the known encodings */ glyph_known_enc = gs_c_name_glyph(gname.data, gname.size); if (glyph_known_enc == GS_NO_GLYPH) { desc.Flags |= FONT_IS_SYMBOLIC; continue; } /* Finally check if the encoded glyph is in Standard Encoding */ /* gs_c_decode always fails to find .notdef, its always present so * don't worry about it */ if(strncmp(".notdef", (const char *)gname.data, gname.size)) { position = gs_c_decode(glyph_known_enc, 0); if (position == GS_NO_CHAR) { desc.Flags |= FONT_IS_SYMBOLIC; continue; } } switch (gname.size) { case 5: if (!memcmp(gname.data, "colon", 5)) bbox_colon = info.bbox, have_colon = true; continue; case 6: if (!memcmp(gname.data, "period", 6)) bbox_period = info.bbox, have_period = true; continue; case 1: break; default: continue; } if (gname.data[0] >= 'A' && gname.data[0] <= 'Z') { cap_height = max(cap_height, (int)info.bbox.q.y); if (gname.data[0] == 'I') bbox_I = info.bbox, have_I = true; } else if (gname.data[0] >= 'a' && gname.data[0] <= 'z') { int y0 = (int)(info.bbox.p.y), y1 = (int)(info.bbox.q.y); small_present = true; switch (gname.data[0]) { case 'b': case 'd': case 'f': case 'h': case 'k': case 'l': case 't': /* ascender */ small_height = max(small_height, y1); case 'i': /* anomalous ascent */ break; case 'j': /* descender with anomalous ascent */ small_descent = min(small_descent, y0); break; case 'g': case 'p': case 'q': case 'y': /* descender */ small_descent = min(small_descent, y0); /* fall through */ default: /* no ascender or descender */ x_height = max(x_height, y1); } } } if (!(desc.Flags & FONT_IS_SYMBOLIC)) { desc.Flags |= FONT_IS_ADOBE_ROMAN; /* required if not symbolic */ desc.XHeight = (int)x_height; if (!small_present && (pdev->PDFA == 0 || bfont->FontType != ft_TrueType)) desc.Flags |= FONT_IS_ALL_CAPS; desc.CapHeight = cap_height; /* * Look at various glyphs to determine ItalicAngle, StemV, * SERIF, SCRIPT, and ITALIC. */ if (have_colon && have_period) { /* Calculate the dominant angle. */ int angle = (int)(atan2((bbox_colon.q.y - bbox_colon.p.y) - (bbox_period.q.y - bbox_period.p.y), (bbox_colon.q.x - bbox_colon.p.x) - (bbox_period.q.x - bbox_period.p.x)) * radians_to_degrees) - 90; /* Normalize to [-90..90]. */ while (angle > 90) angle -= 180; while (angle < -90) angle += 180; if (angle < -30) angle = -30; else if (angle > 30) angle = 30; /* * For script or embellished fonts, we can get an angle that is * slightly off from zero even for non-italic fonts. * Compensate for this now. */ if (angle <= 2 && angle >= -2) angle = 0; desc.ItalicAngle = angle; } if (desc.ItalicAngle) desc.Flags |= FONT_IS_ITALIC; if (have_I) { double wdot = bbox_period.q.x - bbox_period.p.x; double wcolon = bbox_I.q.x - bbox_I.p.x; double wI = bbox_period.q.x - bbox_period.p.x; desc.StemV = (int)wdot; if (wI > wcolon * 2.5 || wI > (bbox_period.q.y - bbox_period.p.y) * 0.25) desc.Flags |= FONT_IS_SERIF; } } if (desc.Ascent == 0) desc.Ascent = desc.FontBBox.q.y; desc.Descent = desc.FontBBox.p.y; if (!(desc.Flags & (FONT_IS_SYMBOLIC | FONT_IS_ALL_CAPS)) && (small_descent > desc.Descent / 3 || desc.XHeight > small_height * 0.9) && (pdev->PDFA == 0 || bfont->FontType != ft_TrueType) ) desc.Flags |= FONT_IS_SMALL_CAPS; if (fixed_width > 0 && (pdev->PDFA == 0 || bfont->FontType != ft_TrueType)) { desc.Flags |= FONT_IS_FIXED_WIDTH; desc.AvgWidth = desc.MaxWidth = desc.MissingWidth = fixed_width; } if (desc.CapHeight == 0) desc.CapHeight = desc.Ascent; if (desc.StemV == 0) desc.StemV = (int)(desc.FontBBox.q.x * 0.15); pfd->common.values = desc; return 0; } /* * Finish a FontDescriptor by computing the metric values, and then * writing the associated embedded font if any. */ int pdf_finish_FontDescriptor(gx_device_pdf *pdev, pdf_resource_t *pres) { pdf_font_descriptor_t *pfd = (pdf_font_descriptor_t *)pres; int code = 0; cos_dict_t *pcd = 0; if (pfd->common.object->id == -1) return 0; if (!pfd->common.object->written && (code = pdf_compute_font_descriptor(pdev, pfd)) >= 0 && (!pfd->embed || (code = pdf_write_embedded_font(pdev, pfd->base_font, pfd->FontType, &pfd->common.values.FontBBox, pfd->common.rid, &pcd)) >= 0) ) { pdf_set_FontFile_object(pfd->base_font, pcd); } return code; } /* Write a FontDescriptor. */ int pdf_write_FontDescriptor(gx_device_pdf *pdev, pdf_resource_t *pres) { pdf_font_descriptor_t *pfd = (pdf_font_descriptor_t *)pres; font_type ftype = pfd->FontType; long cidset_id = 0; int code = 0; stream *s; if (pfd->common.object->written) return 0; if (pfd->common.object->id == -1) return 0; /* If this is a CIDFont subset, write the CIDSet now. */ switch (ftype) { case ft_CID_encrypted: case ft_CID_TrueType: if (pdf_do_subset_font(pdev, pfd->base_font, pfd->common.rid)) { if (pdev->PDFA < 2) { code = pdf_write_CIDSet(pdev, pfd->base_font, &cidset_id); if (code < 0) return code; } } default: break; } { /* * Hack: make all embedded TrueType fonts "symbolic" to * work around undocumented assumptions in Acrobat Reader. */ /* See the comments in pdf_make_font_resource(). If we are embedding a font, its * a TrueType font, we are not subsetting it, *and* the original font was not symbolic, * then force the font to be non-symbolic. Otherwise, yes, force it symbolic. */ pdf_font_descriptor_common_t fd; fd = pfd->common; if (pfd->embed && pfd->FontType == ft_TrueType) { fd.values.Flags = (fd.values.Flags & ~(FONT_IS_ADOBE_ROMAN)) | FONT_IS_SYMBOLIC; if (pfd->base_font->do_subset == DO_SUBSET_NO && ((const gs_font_base *)(pfd->base_font->copied))->nearest_encoding_index != ENCODING_INDEX_UNKNOWN) { fd.values.Flags = (fd.values.Flags & ~(FONT_IS_SYMBOLIC)) | FONT_IS_ADOBE_ROMAN; } } code = write_FontDescriptor_common(pdev, &fd, pfd->embed); } if (code < 0) return code; s = pdev->strm; if (cidset_id != 0) pprintld1(s, "/CIDSet %ld 0 R\n", cidset_id); else if (pdf_do_subset_font(pdev, pfd->base_font, pfd->common.rid) && (ftype == ft_encrypted || ftype == ft_encrypted2) && pdev->CompatibilityLevel <= 1.7 ) { stream_puts(s, "/CharSet"); code = pdf_write_CharSet(pdev, pfd->base_font); if (code < 0) return code; } if (pfd->embed && pfd->base_font->FontFile) { code = pdf_write_FontFile_entry(pdev, pfd->base_font); if (code < 0) return code; } if (pfd->cid.Style) { stream_puts(s, "/Style"); COS_WRITE(pfd->cid.Style, pdev); } if (pfd->cid.Lang[0]) { pprints1(s, "/Lang(%s)", pfd->cid.Lang); } if (pfd->cid.FD) { stream_puts(s, "/FD"); COS_WRITE(pfd->cid.FD, pdev); } stream_puts(s, ">>\n"); pdf_end_separate(pdev, resourceFontDescriptor); pfd->common.object->written = true; { const cos_object_t *pco = (const cos_object_t *)pdf_get_FontFile_object(pfd->base_font); if (pco != NULL) { code = COS_WRITE_OBJECT(pco, pdev, resourceFontFile); if (code < 0) return code; } } return 0; } /* * Release a FontDescriptor components. */ int pdf_release_FontDescriptor_components(gx_device_pdf *pdev, pdf_resource_t *pres) { pdf_font_descriptor_t *pfd = (pdf_font_descriptor_t *) pres; gs_free_object(pdev->pdf_memory, pfd->base_font, "pdf_release_FontDescriptor_components"); pfd->base_font = NULL; /* fixme: underimplemented. */ return 0; } /* * Mark a FontDescriptor used in a text. */ int pdf_mark_font_descriptor_used(gx_device_pdf *pdev, pdf_font_descriptor_t *pfd) { if (pfd != NULL && pfd->common.object->id == -1) pdf_reserve_object_id(pdev, (pdf_resource_t *)&pfd->common, 0); return 0; } /* * Convert True Type font descriptor into CID font descriptor for PDF/A. */ int pdf_convert_truetype_font_descriptor(gx_device_pdf *pdev, pdf_font_resource_t *pdfont) { pdf_font_descriptor_t *pfd = pdfont->FontDescriptor; pdf_base_font_t *pbfont = pfd->base_font; gs_font *pfont = (gs_font *)pbfont->copied; gs_char ch; /* Save the simple font descriptor data because CID font data overlap them. */ int FirstChar = pdfont->u.simple.FirstChar, LastChar = pdfont->u.simple.LastChar; pdf_encoding_element_t *Encoding = pdfont->u.simple.Encoding; int length_CIDSet = (pbfont->num_glyphs > LastChar ? (pbfont->num_glyphs + 7) / 8 : ((LastChar + 1) + 7 / 8)); int length_CIDToGIDMap = (pbfont->num_glyphs > LastChar ? (pbfont->num_glyphs + 1) * sizeof(ushort) : (LastChar + 1) * sizeof(ushort)); pfd->FontType = ft_CID_TrueType; pdfont->u.simple.Encoding = NULL; /* Drop due to overlapping against a garbager problem. */ pbfont->CIDSet = gs_alloc_bytes(pdev->pdf_memory, length_CIDSet, "pdf_convert_truetype_font_descriptor"); if (pbfont->CIDSet == NULL) return_error(gs_error_VMerror); memset(pbfont->CIDSet, 0, length_CIDSet); pdfont->u.cidfont.CIDToGIDMap = (ushort *)gs_alloc_bytes(pdev->pdf_memory, length_CIDToGIDMap, "pdf_convert_truetype_font_descriptor"); if (pdfont->u.cidfont.CIDToGIDMap == NULL) return_error(gs_error_VMerror); memset(pdfont->u.cidfont.CIDToGIDMap, 0, length_CIDToGIDMap); if(pdev->PDFA) { for (ch = FirstChar; ch <= LastChar; ch++) { if (Encoding[ch].glyph != GS_NO_GLYPH) { gs_glyph glyph = pfont->procs.encode_char(pfont, ch, GLYPH_SPACE_INDEX); pbfont->CIDSet[ch / 8] |= 0x80 >> (ch % 8); pdfont->u.cidfont.CIDToGIDMap[ch] = glyph - GS_MIN_GLYPH_INDEX; } } /* Set the CIDSet bit for CID 0 (the /.notdef) which must always be present */ pbfont->CIDSet[0] |= 0x80; } else { for (ch = 0; ch <= pbfont->num_glyphs; ch++) { gs_glyph glyph = pfont->procs.encode_char(pfont, ch, GLYPH_SPACE_INDEX); pbfont->CIDSet[ch / 8] |= 0x80 >> (ch % 8); pdfont->u.cidfont.CIDToGIDMap[ch] = glyph - GS_MIN_GLYPH_INDEX; } } pbfont->CIDSetLength = length_CIDSet; pdfont->u.cidfont.CIDToGIDMapLength = length_CIDToGIDMap / sizeof(ushort); pdfont->u.cidfont.Widths2 = NULL; pdfont->u.cidfont.used2 = NULL; pdfont->u.cidfont.v = NULL; return 0; } int mark_font_descriptor_symbolic(const pdf_font_resource_t *pdfont) { pdf_font_descriptor_values_t *desc; if(!pdfont || !pdfont->FontDescriptor) return 0; desc = &pdfont->FontDescriptor->common.values; if (!(desc->Flags & FONT_IS_SYMBOLIC)) { desc->Flags |= FONT_IS_SYMBOLIC; desc->Flags &= ~FONT_IS_ADOBE_ROMAN; } return 1; }