// Copyright 2016 PDFium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // Original code copyright 2014 Foxit Software Inc. http://www.foxitsoftware.com #include "core/fpdfapi/font/cpdf_simplefont.h" #include "core/fpdfapi/parser/cpdf_array.h" #include "core/fpdfapi/parser/cpdf_dictionary.h" #include "core/fxge/fx_freetype.h" #include "third_party/base/numerics/safe_math.h" CPDF_SimpleFont::CPDF_SimpleFont(CPDF_Document* pDocument, CPDF_Dictionary* pFontDict) : CPDF_Font(pDocument, pFontDict) { memset(m_CharWidth, 0xff, sizeof(m_CharWidth)); memset(m_GlyphIndex, 0xff, sizeof(m_GlyphIndex)); memset(m_ExtGID, 0xff, sizeof(m_ExtGID)); for (size_t i = 0; i < FX_ArraySize(m_CharBBox); ++i) m_CharBBox[i] = FX_RECT(-1, -1, -1, -1); } CPDF_SimpleFont::~CPDF_SimpleFont() = default; int CPDF_SimpleFont::GlyphFromCharCode(uint32_t charcode, bool* pVertGlyph) { if (pVertGlyph) *pVertGlyph = false; if (charcode > 0xff) return -1; int index = m_GlyphIndex[charcode]; if (index == 0xffff || (index == 0 && IsTrueTypeFont())) return -1; return index; } void CPDF_SimpleFont::LoadCharMetrics(int charcode) { if (!m_Font.GetFace()) return; if (charcode < 0 || charcode > 0xff) { return; } int glyph_index = m_GlyphIndex[charcode]; if (glyph_index == 0xffff) { if (!m_pFontFile && charcode != 32) { LoadCharMetrics(32); m_CharBBox[charcode] = m_CharBBox[32]; if (m_bUseFontWidth) { m_CharWidth[charcode] = m_CharWidth[32]; } } return; } FXFT_Face face = m_Font.GetFace(); int err = FXFT_Load_Glyph( face, glyph_index, FXFT_LOAD_NO_SCALE | FXFT_LOAD_IGNORE_GLOBAL_ADVANCE_WIDTH); if (err) return; int iHoriBearingX = FXFT_Get_Glyph_HoriBearingX(face); int iHoriBearingY = FXFT_Get_Glyph_HoriBearingY(face); m_CharBBox[charcode] = FX_RECT(TT2PDF(iHoriBearingX, face), TT2PDF(iHoriBearingY, face), TT2PDF(iHoriBearingX + FXFT_Get_Glyph_Width(face), face), TT2PDF(iHoriBearingY - FXFT_Get_Glyph_Height(face), face)); if (m_bUseFontWidth) { int TT_Width = TT2PDF(FXFT_Get_Glyph_HoriAdvance(face), face); if (m_CharWidth[charcode] == 0xffff) { m_CharWidth[charcode] = TT_Width; } else if (TT_Width && !IsEmbedded()) { m_CharBBox[charcode].right = m_CharBBox[charcode].right * m_CharWidth[charcode] / TT_Width; m_CharBBox[charcode].left = m_CharBBox[charcode].left * m_CharWidth[charcode] / TT_Width; } } } uint32_t CPDF_SimpleFont::GetCharWidthF(uint32_t charcode) { if (charcode > 0xff) charcode = 0; if (m_CharWidth[charcode] == 0xffff) { LoadCharMetrics(charcode); if (m_CharWidth[charcode] == 0xffff) { m_CharWidth[charcode] = 0; } } return m_CharWidth[charcode]; } FX_RECT CPDF_SimpleFont::GetCharBBox(uint32_t charcode) { if (charcode > 0xff) charcode = 0; if (m_CharBBox[charcode].left == -1) LoadCharMetrics(charcode); return m_CharBBox[charcode]; } bool CPDF_SimpleFont::LoadCommon() { const CPDF_Dictionary* pFontDesc = m_pFontDict->GetDictFor("FontDescriptor"); if (pFontDesc) { LoadFontDescriptor(pFontDesc); } const CPDF_Array* pWidthArray = m_pFontDict->GetArrayFor("Widths"); m_bUseFontWidth = !pWidthArray; if (pWidthArray) { if (pFontDesc && pFontDesc->KeyExist("MissingWidth")) { int MissingWidth = pFontDesc->GetIntegerFor("MissingWidth"); for (int i = 0; i < 256; i++) { m_CharWidth[i] = MissingWidth; } } size_t width_start = m_pFontDict->GetIntegerFor("FirstChar", 0); size_t width_end = m_pFontDict->GetIntegerFor("LastChar", 0); if (width_start <= 255) { if (width_end == 0 || width_end >= width_start + pWidthArray->GetCount()) width_end = width_start + pWidthArray->GetCount() - 1; if (width_end > 255) width_end = 255; for (size_t i = width_start; i <= width_end; i++) m_CharWidth[i] = pWidthArray->GetIntegerAt(i - width_start); } } if (m_pFontFile) { if (m_BaseFont.GetLength() > 8 && m_BaseFont[7] == '+') m_BaseFont = m_BaseFont.Right(m_BaseFont.GetLength() - 8); } else { LoadSubstFont(); } if (!FontStyleIsSymbolic(m_Flags)) m_BaseEncoding = PDFFONT_ENCODING_STANDARD; CPDF_Object* pEncoding = m_pFontDict->GetDirectObjectFor("Encoding"); LoadPDFEncoding(pEncoding, m_BaseEncoding, &m_CharNames, !!m_pFontFile, m_Font.IsTTFont()); LoadGlyphMap(); m_CharNames.clear(); if (!m_Font.GetFace()) return true; if (FontStyleIsAllCaps(m_Flags)) { unsigned char kLowercases[][2] = {{'a', 'z'}, {0xe0, 0xf6}, {0xf8, 0xfd}}; for (size_t range = 0; range < FX_ArraySize(kLowercases); ++range) { const auto& lower = kLowercases[range]; for (int i = lower[0]; i <= lower[1]; ++i) { if (m_GlyphIndex[i] != 0xffff && m_pFontFile) continue; int j = i - 32; m_GlyphIndex[i] = m_GlyphIndex[j]; if (m_CharWidth[j]) { m_CharWidth[i] = m_CharWidth[j]; m_CharBBox[i] = m_CharBBox[j]; } } } } CheckFontMetrics(); return true; } void CPDF_SimpleFont::LoadSubstFont() { if (!m_bUseFontWidth && !FontStyleIsFixedPitch(m_Flags)) { int width = 0, i; for (i = 0; i < 256; i++) { if (m_CharWidth[i] == 0 || m_CharWidth[i] == 0xffff) continue; if (width == 0) width = m_CharWidth[i]; else if (width != m_CharWidth[i]) break; } if (i == 256 && width) m_Flags |= FXFONT_FIXED_PITCH; } pdfium::base::CheckedNumeric safeStemV(m_StemV); if (m_StemV < 140) safeStemV *= 5; else safeStemV = safeStemV * 4 + 140; m_Font.LoadSubst(m_BaseFont, IsTrueTypeFont(), m_Flags, safeStemV.ValueOrDefault(FXFONT_FW_NORMAL), m_ItalicAngle, 0, false); } bool CPDF_SimpleFont::IsUnicodeCompatible() const { return m_BaseEncoding != PDFFONT_ENCODING_BUILTIN && m_BaseEncoding != PDFFONT_ENCODING_ADOBE_SYMBOL && m_BaseEncoding != PDFFONT_ENCODING_ZAPFDINGBATS; } WideString CPDF_SimpleFont::UnicodeFromCharCode(uint32_t charcode) const { WideString unicode = CPDF_Font::UnicodeFromCharCode(charcode); if (!unicode.IsEmpty()) return unicode; wchar_t ret = m_Encoding.UnicodeFromCharCode((uint8_t)charcode); if (ret == 0) return WideString(); return ret; } uint32_t CPDF_SimpleFont::CharCodeFromUnicode(wchar_t unicode) const { uint32_t ret = CPDF_Font::CharCodeFromUnicode(unicode); if (ret) return ret; return m_Encoding.CharCodeFromUnicode(unicode); } bool CPDF_SimpleFont::HasFontWidths() const { return !m_bUseFontWidth; }