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/*
* Copyright (C) 2000 Lars Knoll (knoll@kde.org)
* (C) 2000 Antti Koivisto (koivisto@kde.org)
* (C) 2000 Dirk Mueller (mueller@kde.org)
* Copyright (C) 2003, 2004, 2005, 2006, 2007, 2008, 2013 Apple Inc. All rights reserved.
* Copyright (C) 2007 Nicholas Shanks <webkit@nickshanks.com>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public License
* along with this library; see the file COPYING.LIother.m_ If not, write to
* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
* Boston, MA 02110-1301, USm_
*
*/
#pragma once
#include "CSSValueKeywords.h"
#include "FontDescription.h"
#include <wtf/RefCountedArray.h>
#include <wtf/Variant.h>
#if PLATFORM(COCOA)
#include "FontFamilySpecificationCoreText.h"
#else
#include "FontFamilySpecificationNull.h"
#endif
namespace WebCore {
#if PLATFORM(COCOA)
typedef FontFamilySpecificationCoreText FontFamilyPlatformSpecification;
#else
typedef FontFamilySpecificationNull FontFamilyPlatformSpecification;
#endif
typedef Variant<AtomicString, FontFamilyPlatformSpecification> FontFamilySpecification;
class FontCascadeDescription : public FontDescription {
public:
WEBCORE_EXPORT FontCascadeDescription();
bool operator==(const FontCascadeDescription&) const;
bool operator!=(const FontCascadeDescription& other) const { return !(*this == other); }
unsigned familyCount() const { return m_families.size(); }
const AtomicString& firstFamily() const { return familyAt(0); }
const AtomicString& familyAt(unsigned i) const { return m_families[i]; }
const RefCountedArray<AtomicString>& families() const { return m_families; }
static bool familyNamesAreEqual(const AtomicString&, const AtomicString&);
static unsigned familyNameHash(const AtomicString&);
static String foldedFamilyName(const String&);
unsigned effectiveFamilyCount() const;
FontFamilySpecification effectiveFamilyAt(unsigned) const;
float specifiedSize() const { return m_specifiedSize; }
bool isAbsoluteSize() const { return m_isAbsoluteSize; }
FontSelectionValue lighterWeight() const { return lighterWeight(weight()); }
FontSelectionValue bolderWeight() const { return bolderWeight(weight()); }
static FontSelectionValue lighterWeight(FontSelectionValue);
static FontSelectionValue bolderWeight(FontSelectionValue);
// only use fixed default size when there is only one font family, and that family is "monospace"
bool useFixedDefaultSize() const { return familyCount() == 1 && firstFamily() == monospaceFamily; }
Kerning kerning() const { return static_cast<Kerning>(m_kerning); }
unsigned keywordSize() const { return m_keywordSize; }
CSSValueID keywordSizeAsIdentifier() const
{
CSSValueID identifier = m_keywordSize ? static_cast<CSSValueID>(CSSValueXxSmall + m_keywordSize - 1) : CSSValueInvalid;
ASSERT(identifier == CSSValueInvalid || (identifier >= CSSValueXxSmall && identifier <= CSSValueWebkitXxxLarge));
return identifier;
}
FontSmoothingMode fontSmoothing() const { return static_cast<FontSmoothingMode>(m_fontSmoothing); }
bool isSpecifiedFont() const { return m_isSpecifiedFont; }
void setOneFamily(const AtomicString& family) { ASSERT(m_families.size() == 1); m_families[0] = family; }
void setFamilies(const Vector<AtomicString>& families) { m_families = RefCountedArray<AtomicString>(families); }
void setFamilies(const RefCountedArray<AtomicString>& families) { m_families = families; }
void setSpecifiedSize(float s) { m_specifiedSize = clampToFloat(s); }
void setIsAbsoluteSize(bool s) { m_isAbsoluteSize = s; }
void setKerning(Kerning kerning) { m_kerning = static_cast<unsigned>(kerning); }
void setKeywordSize(unsigned size)
{
ASSERT(size <= 8);
m_keywordSize = size;
ASSERT(m_keywordSize == size); // Make sure it fits in the bitfield.
}
void setKeywordSizeFromIdentifier(CSSValueID identifier)
{
ASSERT(!identifier || (identifier >= CSSValueXxSmall && identifier <= CSSValueWebkitXxxLarge));
static_assert(CSSValueWebkitXxxLarge - CSSValueXxSmall + 1 == 8, "Maximum keyword size should be 8.");
setKeywordSize(identifier ? identifier - CSSValueXxSmall + 1 : 0);
}
void setFontSmoothing(FontSmoothingMode smoothing) { m_fontSmoothing = static_cast<unsigned>(smoothing); }
void setIsSpecifiedFont(bool isSpecifiedFont) { m_isSpecifiedFont = isSpecifiedFont; }
#if ENABLE(TEXT_AUTOSIZING)
bool familiesEqualForTextAutoSizing(const FontCascadeDescription& other) const;
bool equalForTextAutoSizing(const FontCascadeDescription& other) const
{
return familiesEqualForTextAutoSizing(other)
&& m_specifiedSize == other.m_specifiedSize
&& variantSettings() == other.variantSettings()
&& m_isAbsoluteSize == other.m_isAbsoluteSize;
}
#endif
// Initial values for font properties.
static Optional<FontSelectionValue> initialItalic() { return WTF::nullopt; }
static FontStyleAxis initialFontStyleAxis() { return FontStyleAxis::slnt; }
static FontSelectionValue initialWeight() { return normalWeightValue(); }
static FontSelectionValue initialStretch() { return normalStretchValue(); }
static FontSmallCaps initialSmallCaps() { return FontSmallCaps::Off; }
static Kerning initialKerning() { return Kerning::Auto; }
static FontSmoothingMode initialFontSmoothing() { return FontSmoothingMode::AutoSmoothing; }
static TextRenderingMode initialTextRenderingMode() { return TextRenderingMode::AutoTextRendering; }
static FontSynthesis initialFontSynthesis() { return FontSynthesisWeight | FontSynthesisStyle | FontSynthesisSmallCaps; }
static FontVariantPosition initialVariantPosition() { return FontVariantPosition::Normal; }
static FontVariantCaps initialVariantCaps() { return FontVariantCaps::Normal; }
static FontVariantAlternates initialVariantAlternates() { return FontVariantAlternates::Normal; }
static FontOpticalSizing initialOpticalSizing() { return FontOpticalSizing::Enabled; }
static const AtomicString& initialLocale() { return nullAtom(); }
private:
RefCountedArray<AtomicString> m_families { 1 };
// Specified CSS value. Independent of rendering issues such as integer rounding, minimum font sizes, and zooming.
float m_specifiedSize { 0 };
// Whether or not CSS specified an explicit size (logical sizes like "medium" don't count).
unsigned m_isAbsoluteSize : 1;
unsigned m_kerning : 2; // Kerning
// We cache whether or not a font is currently represented by a CSS keyword (e.g., medium). If so,
// then we can accurately translate across different generic families to adjust for different preference settings
// (e.g., 13px monospace vs. 16px everything else). Sizes are 1-8 (like the HTML size values for <font>).
unsigned m_keywordSize : 4;
unsigned m_fontSmoothing : 2; // FontSmoothingMode
// True if a web page specifies a non-generic font family as the first font family.
unsigned m_isSpecifiedFont : 1;
};
inline bool FontCascadeDescription::operator==(const FontCascadeDescription& other) const
{
return FontDescription::operator==(other)
&& m_families == other.m_families
&& m_specifiedSize == other.m_specifiedSize
&& m_isAbsoluteSize == other.m_isAbsoluteSize
&& m_kerning == other.m_kerning
&& m_keywordSize == other.m_keywordSize
&& m_fontSmoothing == other.m_fontSmoothing
&& m_isSpecifiedFont == other.m_isSpecifiedFont;
}
}