// Copyright (c) 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "ui/gfx/font_list.h" #include "base/lazy_instance.h" #include "base/strings/string_number_conversions.h" #include "base/strings/string_split.h" #include "base/strings/string_util.h" #include "third_party/skia/include/core/SkTypeface.h" #include "third_party/skia/include/ports/SkFontMgr.h" #include "ui/gfx/font_list_impl.h" namespace { // Font description of the default font set. base::LazyInstance::Leaky g_default_font_description = LAZY_INSTANCE_INITIALIZER; // The default instance of gfx::FontListImpl. base::LazyInstance >::Leaky g_default_impl = LAZY_INSTANCE_INITIALIZER; bool g_default_impl_initialized = false; bool IsFontFamilyAvailable(const std::string& family, SkFontMgr* fontManager) { #if defined(OS_LINUX) sk_sp typeface( fontManager->legacyCreateTypeface(family.c_str(), SkFontStyle())); return typeface; #else sk_sp set(fontManager->matchFamily(family.c_str())); return set && set->count(); #endif } } // namespace namespace gfx { // static bool FontList::ParseDescription(const std::string& description, std::vector* families_out, int* style_out, int* size_pixels_out, Font::Weight* weight_out) { DCHECK(families_out); DCHECK(style_out); DCHECK(size_pixels_out); DCHECK(weight_out); *families_out = base::SplitString( description, ",", base::TRIM_WHITESPACE, base::SPLIT_WANT_ALL); if (families_out->empty()) return false; for (auto& family : *families_out) base::TrimWhitespaceASCII(family, base::TRIM_ALL, &family); // The last item is "[STYLE1] [STYLE2] [...] SIZE". std::vector styles = base::SplitString( families_out->back(), base::kWhitespaceASCII, base::KEEP_WHITESPACE, base::SPLIT_WANT_NONEMPTY); families_out->pop_back(); if (styles.empty()) return false; // The size takes the form "px". std::string size_string = styles.back(); styles.pop_back(); if (!base::EndsWith(size_string, "px", base::CompareCase::SENSITIVE)) return false; size_string.resize(size_string.size() - 2); if (!base::StringToInt(size_string, size_pixels_out) || *size_pixels_out <= 0) return false; // Font supports ITALIC and weights; underline is supported via RenderText. *style_out = Font::NORMAL; *weight_out = Font::Weight::NORMAL; for (const auto& style_string : styles) { if (style_string == "Italic") *style_out |= Font::ITALIC; else if (style_string == "Thin") *weight_out = Font::Weight::THIN; else if (style_string == "Ultra-Light") *weight_out = Font::Weight::EXTRA_LIGHT; else if (style_string == "Light") *weight_out = Font::Weight::LIGHT; else if (style_string == "Normal") *weight_out = Font::Weight::NORMAL; else if (style_string == "Medium") *weight_out = Font::Weight::MEDIUM; else if (style_string == "Semi-Bold") *weight_out = Font::Weight::SEMIBOLD; else if (style_string == "Bold") *weight_out = Font::Weight::BOLD; else if (style_string == "Ultra-Bold") *weight_out = Font::Weight::EXTRA_BOLD; else if (style_string == "Heavy") *weight_out = Font::Weight::BLACK; else return false; } return true; } FontList::FontList() : impl_(GetDefaultImpl()) {} FontList::FontList(const FontList& other) : impl_(other.impl_) {} FontList::FontList(const std::string& font_description_string) : impl_(new FontListImpl(font_description_string)) {} FontList::FontList(const std::vector& font_names, int font_style, int font_size, Font::Weight font_weight) : impl_(new FontListImpl(font_names, font_style, font_size, font_weight)) {} FontList::FontList(const std::vector& fonts) : impl_(new FontListImpl(fonts)) {} FontList::FontList(const Font& font) : impl_(new FontListImpl(font)) {} FontList::~FontList() {} FontList& FontList::operator=(const FontList& other) { impl_ = other.impl_; return *this; } // static void FontList::SetDefaultFontDescription(const std::string& font_description) { // The description string must end with "px" for size in pixel, or must be // the empty string, which specifies to use a single default font. DCHECK(font_description.empty() || base::EndsWith(font_description, "px", base::CompareCase::SENSITIVE)); g_default_font_description.Get() = font_description; g_default_impl_initialized = false; } FontList FontList::Derive(int size_delta, int font_style, Font::Weight weight) const { return FontList(impl_->Derive(size_delta, font_style, weight)); } FontList FontList::DeriveWithSizeDelta(int size_delta) const { return Derive(size_delta, GetFontStyle(), GetFontWeight()); } FontList FontList::DeriveWithStyle(int font_style) const { return Derive(0, font_style, GetFontWeight()); } FontList FontList::DeriveWithWeight(Font::Weight weight) const { return Derive(0, GetFontStyle(), weight); } FontList FontList::DeriveWithHeightUpperBound(int height) const { FontList font_list(*this); for (int font_size = font_list.GetFontSize(); font_size > 1; --font_size) { const int internal_leading = font_list.GetBaseline() - font_list.GetCapHeight(); // Some platforms don't support getting the cap height, and simply return // the entire font ascent from GetCapHeight(). Centering the ascent makes // the font look too low, so if GetCapHeight() returns the ascent, center // the entire font height instead. const int space = height - ((internal_leading != 0) ? font_list.GetCapHeight() : font_list.GetHeight()); const int y_offset = space / 2 - internal_leading; const int space_at_bottom = height - (y_offset + font_list.GetHeight()); if ((y_offset >= 0) && (space_at_bottom >= 0)) break; font_list = font_list.DeriveWithSizeDelta(-1); } return font_list; } int FontList::GetHeight() const { return impl_->GetHeight(); } int FontList::GetBaseline() const { return impl_->GetBaseline(); } int FontList::GetCapHeight() const { return impl_->GetCapHeight(); } int FontList::GetExpectedTextWidth(int length) const { return impl_->GetExpectedTextWidth(length); } int FontList::GetFontStyle() const { return impl_->GetFontStyle(); } int FontList::GetFontSize() const { return impl_->GetFontSize(); } Font::Weight FontList::GetFontWeight() const { return impl_->GetFontWeight(); } const std::vector& FontList::GetFonts() const { return impl_->GetFonts(); } const Font& FontList::GetPrimaryFont() const { return impl_->GetPrimaryFont(); } FontList::FontList(FontListImpl* impl) : impl_(impl) {} // static const scoped_refptr& FontList::GetDefaultImpl() { // SetDefaultFontDescription() must be called and the default font description // must be set earlier than any call of this function. DCHECK(!(g_default_font_description == NULL)) // != is not overloaded. << "SetDefaultFontDescription has not been called."; if (!g_default_impl_initialized) { g_default_impl.Get() = g_default_font_description.Get().empty() ? new FontListImpl(Font()) : new FontListImpl(g_default_font_description.Get()); g_default_impl_initialized = true; } return g_default_impl.Get(); } // static std::string FontList::FirstAvailableOrFirst(const std::string& font_name_list) { std::vector families = base::SplitString( font_name_list, ",", base::TRIM_WHITESPACE, base::SPLIT_WANT_NONEMPTY); if (families.empty()) return std::string(); if (families.size() == 1) return families[0]; sk_sp fm(SkFontMgr::RefDefault()); for (const auto& family : families) { if (IsFontFamilyAvailable(family, fm.get())) return family; } return families[0]; } } // namespace gfx