/* * Copyright 2011 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "SkPDFMakeToUnicodeCmap.h" #include "SkPDFUtils.h" #include "SkTo.h" #include "SkUTF.h" static void append_tounicode_header(SkDynamicMemoryWStream* cmap, bool multibyte) { // 12 dict begin: 12 is an Adobe-suggested value. Shall not change. // It's there to prevent old version Adobe Readers from malfunctioning. const char* kHeader = "/CIDInit /ProcSet findresource begin\n" "12 dict begin\n" "begincmap\n"; cmap->writeText(kHeader); // The /CIDSystemInfo must be consistent to the one in // SkPDFFont::populateCIDFont(). // We can not pass over the system info object here because the format is // different. This is not a reference object. const char* kSysInfo = "/CIDSystemInfo\n" "<< /Registry (Adobe)\n" "/Ordering (UCS)\n" "/Supplement 0\n" ">> def\n"; cmap->writeText(kSysInfo); // The CMapName must be consistent to /CIDSystemInfo above. // /CMapType 2 means ToUnicode. // Codespace range just tells the PDF processor the valid range. const char* kTypeInfoHeader = "/CMapName /Adobe-Identity-UCS def\n" "/CMapType 2 def\n" "1 begincodespacerange\n"; cmap->writeText(kTypeInfoHeader); if (multibyte) { cmap->writeText("<0000> \n"); } else { cmap->writeText("<00> \n"); } cmap->writeText("endcodespacerange\n"); } static void append_cmap_footer(SkDynamicMemoryWStream* cmap) { const char kFooter[] = "endcmap\n" "CMapName currentdict /CMap defineresource pop\n" "end\n" "end"; cmap->writeText(kFooter); } namespace { struct BFChar { SkGlyphID fGlyphId; SkUnichar fUnicode; }; struct BFRange { SkGlyphID fStart; SkGlyphID fEnd; SkUnichar fUnicode; }; } // namespace static void write_glyph(SkDynamicMemoryWStream* cmap, bool multiByte, SkGlyphID gid) { if (multiByte) { SkPDFUtils::WriteUInt16BE(cmap, gid); } else { SkPDFUtils::WriteUInt8(cmap, SkToU8(gid)); } } static void append_bfchar_section(const std::vector& bfchar, bool multiByte, SkDynamicMemoryWStream* cmap) { // PDF spec defines that every bf* list can have at most 100 entries. for (size_t i = 0; i < bfchar.size(); i += 100) { int count = SkToInt(bfchar.size() - i); count = SkMin32(count, 100); cmap->writeDecAsText(count); cmap->writeText(" beginbfchar\n"); for (int j = 0; j < count; ++j) { cmap->writeText("<"); write_glyph(cmap, multiByte, bfchar[i + j].fGlyphId); cmap->writeText("> <"); SkPDFUtils::WriteUTF16beHex(cmap, bfchar[i + j].fUnicode); cmap->writeText(">\n"); } cmap->writeText("endbfchar\n"); } } static void append_bfrange_section(const std::vector& bfrange, bool multiByte, SkDynamicMemoryWStream* cmap) { // PDF spec defines that every bf* list can have at most 100 entries. for (size_t i = 0; i < bfrange.size(); i += 100) { int count = SkToInt(bfrange.size() - i); count = SkMin32(count, 100); cmap->writeDecAsText(count); cmap->writeText(" beginbfrange\n"); for (int j = 0; j < count; ++j) { cmap->writeText("<"); write_glyph(cmap, multiByte, bfrange[i + j].fStart); cmap->writeText("> <"); write_glyph(cmap, multiByte, bfrange[i + j].fEnd); cmap->writeText("> <"); SkPDFUtils::WriteUTF16beHex(cmap, bfrange[i + j].fUnicode); cmap->writeText(">\n"); } cmap->writeText("endbfrange\n"); } } // Generate and table according to PDF spec 1.4 and Adobe // Technote 5014. // The function is not static so we can test it in unit tests. // // Current implementation guarantees bfchar and bfrange entries do not overlap. // // Current implementation does not attempt aggressive optimizations against // following case because the specification is not clear. // // 4 beginbfchar 1 beginbfchar // <0003> <0013> <0020> <0014> // <0005> <0015> to endbfchar // <0007> <0017> 1 beginbfrange // <0020> <0014> <0003> <0007> <0013> // endbfchar endbfrange // // Adobe Technote 5014 said: "Code mappings (unlike codespace ranges) may // overlap, but succeeding maps supersede preceding maps." // // In case of searching text in PDF, bfrange will have higher precedence so // typing char id 0x0014 in search box will get glyph id 0x0004 first. However, // the spec does not mention how will this kind of conflict being resolved. // // For the worst case (having 65536 continuous unicode and we use every other // one of them), the possible savings by aggressive optimization is 416KB // pre-compressed and does not provide enough motivation for implementation. void SkPDFAppendCmapSections(const SkUnichar* glyphToUnicode, const SkPDFGlyphUse* subset, SkDynamicMemoryWStream* cmap, bool multiByteGlyphs, SkGlyphID firstGlyphID, SkGlyphID lastGlyphID) { int glyphOffset = 0; if (!multiByteGlyphs) { glyphOffset = firstGlyphID - 1; } std::vector bfcharEntries; std::vector bfrangeEntries; BFRange currentRangeEntry = {0, 0, 0}; bool rangeEmpty = true; const int limit = (int)lastGlyphID + 1 - glyphOffset; for (int i = firstGlyphID - glyphOffset; i < limit + 1; ++i) { SkGlyphID gid = i + glyphOffset; bool inSubset = i < limit && (subset == nullptr || subset->has(gid)); if (!rangeEmpty) { // PDF spec requires bfrange not changing the higher byte, // e.g. <1035> <10FF> <2222> is ok, but // <1035> <1100> <2222> is no good bool inRange = i == currentRangeEntry.fEnd + 1 && i >> 8 == currentRangeEntry.fStart >> 8 && i < limit && glyphToUnicode[gid] == currentRangeEntry.fUnicode + i - currentRangeEntry.fStart; if (!inSubset || !inRange) { if (currentRangeEntry.fEnd > currentRangeEntry.fStart) { bfrangeEntries.push_back(currentRangeEntry); } else { bfcharEntries.push_back({currentRangeEntry.fStart, currentRangeEntry.fUnicode}); } rangeEmpty = true; } } if (inSubset) { currentRangeEntry.fEnd = i; if (rangeEmpty) { currentRangeEntry.fStart = i; currentRangeEntry.fUnicode = glyphToUnicode[gid]; rangeEmpty = false; } } } // The spec requires all bfchar entries for a font must come before bfrange // entries. append_bfchar_section(bfcharEntries, multiByteGlyphs, cmap); append_bfrange_section(bfrangeEntries, multiByteGlyphs, cmap); } std::unique_ptr SkPDFMakeToUnicodeCmap( const SkUnichar* glyphToUnicode, const SkPDFGlyphUse* subset, bool multiByteGlyphs, SkGlyphID firstGlyphID, SkGlyphID lastGlyphID) { SkDynamicMemoryWStream cmap; append_tounicode_header(&cmap, multiByteGlyphs); SkPDFAppendCmapSections(glyphToUnicode, subset, &cmap, multiByteGlyphs, firstGlyphID, lastGlyphID); append_cmap_footer(&cmap); return cmap.detachAsStream(); }