/**************************************************************************** ** ** Copyright (C) 2011 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the QtGui module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** GNU Lesser General Public License Usage ** This file may be used under the terms of the GNU Lesser General Public ** License version 2.1 as published by the Free Software Foundation and ** appearing in the file LICENSE.LGPL included in the packaging of this ** file. Please review the following information to ensure the GNU Lesser ** General Public License version 2.1 requirements will be met: ** http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain additional ** rights. These rights are described in the Nokia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU General ** Public License version 3.0 as published by the Free Software Foundation ** and appearing in the file LICENSE.GPL included in the packaging of this ** file. Please review the following information to ensure the GNU General ** Public License version 3.0 requirements will be met: ** http://www.gnu.org/copyleft/gpl.html. ** ** Other Usage ** Alternatively, this file may be used in accordance with the terms and ** conditions contained in a signed written agreement between you and Nokia. ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #ifndef QTEXTENGINE_P_H #define QTEXTENGINE_P_H // // W A R N I N G // ------------- // // This file is not part of the Qt API. It exists for the convenience // of other Qt classes. This header file may change from version to // version without notice, or even be removed. // // We mean it. // #include "QtCore/qglobal.h" #include "QtCore/qstring.h" #include "QtCore/qvarlengtharray.h" #include "QtCore/qnamespace.h" #include "QtGui/qtextlayout.h" #include "private/qtextformat_p.h" #include "private/qfont_p.h" #include "QtCore/qvector.h" #include "QtGui/qpaintengine.h" #include "QtGui/qtextobject.h" #include "QtGui/qtextoption.h" #include "QtCore/qset.h" #include "QtCore/qdebug.h" #ifndef QT_BUILD_COMPAT_LIB #include "private/qtextdocument_p.h" #endif #include "private/qharfbuzz_p.h" #include "private/qfixed_p.h" #include QT_BEGIN_NAMESPACE class QFontPrivate; class QFontEngine; class QString; class QPainter; class QAbstractTextDocumentLayout; // this uses the same coordinate system as Qt, but a different one to freetype. // * y is usually negative, and is equal to the ascent. // * negative yoff means the following stuff is drawn higher up. // the characters bounding rect is given by QRect(x,y,width,height), its advance by // xoo and yoff struct glyph_metrics_t { inline glyph_metrics_t() : x(100000), y(100000) {} inline glyph_metrics_t(QFixed _x, QFixed _y, QFixed _width, QFixed _height, QFixed _xoff, QFixed _yoff) : x(_x), y(_y), width(_width), height(_height), xoff(_xoff), yoff(_yoff) {} QFixed x; QFixed y; QFixed width; QFixed height; QFixed xoff; QFixed yoff; glyph_metrics_t transformed(const QTransform &xform) const; inline bool isValid() const {return x != 100000 && y != 100000;} }; Q_DECLARE_TYPEINFO(glyph_metrics_t, Q_PRIMITIVE_TYPE); struct Q_AUTOTEST_EXPORT QScriptAnalysis { enum Flags { None = 0, Lowercase = 1, Uppercase = 2, SmallCaps = 3, LineOrParagraphSeparator = 4, Space = 5, SpaceTabOrObject = Space, Tab = 6, TabOrObject = Tab, Object = 7 }; unsigned short script : 8; unsigned short bidiLevel : 6; // Unicode Bidi algorithm embedding level (0-61) unsigned short flags : 3; inline bool operator == (const QScriptAnalysis &other) const { return script == other.script && bidiLevel == other.bidiLevel && flags == other.flags; } }; Q_DECLARE_TYPEINFO(QScriptAnalysis, Q_PRIMITIVE_TYPE); struct QGlyphJustification { inline QGlyphJustification() : type(0), nKashidas(0), space_18d6(0) {} enum JustificationType { JustifyNone, JustifySpace, JustifyKashida }; uint type :2; uint nKashidas : 6; // more do not make sense... uint space_18d6 : 24; }; Q_DECLARE_TYPEINFO(QGlyphJustification, Q_PRIMITIVE_TYPE); struct QGlyphLayoutInstance { QFixedPoint offset; QFixedPoint advance; HB_Glyph glyph; QGlyphJustification justification; HB_GlyphAttributes attributes; }; struct QGlyphLayout { // init to 0 not needed, done when shaping QFixedPoint *offsets; // 8 bytes per element HB_Glyph *glyphs; // 4 bytes per element QFixed *advances_x; // 4 bytes per element QFixed *advances_y; // 4 bytes per element QGlyphJustification *justifications; // 4 bytes per element HB_GlyphAttributes *attributes; // 2 bytes per element int numGlyphs; inline QGlyphLayout() : numGlyphs(0) {} inline explicit QGlyphLayout(char *address, int totalGlyphs) { offsets = reinterpret_cast(address); int offset = totalGlyphs * sizeof(HB_FixedPoint); glyphs = reinterpret_cast(address + offset); offset += totalGlyphs * sizeof(HB_Glyph); advances_x = reinterpret_cast(address + offset); offset += totalGlyphs * sizeof(QFixed); advances_y = reinterpret_cast(address + offset); offset += totalGlyphs * sizeof(QFixed); justifications = reinterpret_cast(address + offset); offset += totalGlyphs * sizeof(QGlyphJustification); attributes = reinterpret_cast(address + offset); numGlyphs = totalGlyphs; } inline QGlyphLayout mid(int position, int n = -1) const { QGlyphLayout copy = *this; copy.glyphs += position; copy.advances_x += position; copy.advances_y += position; copy.offsets += position; copy.justifications += position; copy.attributes += position; if (n == -1) copy.numGlyphs -= position; else copy.numGlyphs = n; return copy; } static inline int spaceNeededForGlyphLayout(int totalGlyphs) { return totalGlyphs * (sizeof(HB_Glyph) + sizeof(HB_GlyphAttributes) + sizeof(QFixed) + sizeof(QFixed) + sizeof(QFixedPoint) + sizeof(QGlyphJustification)); } inline QFixed effectiveAdvance(int item) const { return (advances_x[item] + QFixed::fromFixed(justifications[item].space_18d6)) * !attributes[item].dontPrint; } inline QGlyphLayoutInstance instance(int position) const { QGlyphLayoutInstance g; g.offset.x = offsets[position].x; g.offset.y = offsets[position].y; g.glyph = glyphs[position]; g.advance.x = advances_x[position]; g.advance.y = advances_y[position]; g.justification = justifications[position]; g.attributes = attributes[position]; return g; } inline void setInstance(int position, const QGlyphLayoutInstance &g) { offsets[position].x = g.offset.x; offsets[position].y = g.offset.y; glyphs[position] = g.glyph; advances_x[position] = g.advance.x; advances_y[position] = g.advance.y; justifications[position] = g.justification; attributes[position] = g.attributes; } inline void clear(int first = 0, int last = -1) { if (last == -1) last = numGlyphs; if (first == 0 && last == numGlyphs && reinterpret_cast(offsets + numGlyphs) == reinterpret_cast(glyphs)) { memset(offsets, 0, spaceNeededForGlyphLayout(numGlyphs)); } else { const int num = last - first; memset(offsets + first, 0, num * sizeof(QFixedPoint)); memset(glyphs + first, 0, num * sizeof(HB_Glyph)); memset(advances_x + first, 0, num * sizeof(QFixed)); memset(advances_y + first, 0, num * sizeof(QFixed)); memset(justifications + first, 0, num * sizeof(QGlyphJustification)); memset(attributes + first, 0, num * sizeof(HB_GlyphAttributes)); } } inline char *data() { return reinterpret_cast(offsets); } void grow(char *address, int totalGlyphs); }; class QVarLengthGlyphLayoutArray : private QVarLengthArray, public QGlyphLayout { private: typedef QVarLengthArray Array; public: QVarLengthGlyphLayoutArray(int totalGlyphs) : Array(spaceNeededForGlyphLayout(totalGlyphs) / sizeof(void *) + 1) , QGlyphLayout(reinterpret_cast(Array::data()), totalGlyphs) { memset(Array::data(), 0, Array::size() * sizeof(void *)); } void resize(int totalGlyphs) { Array::resize(spaceNeededForGlyphLayout(totalGlyphs) / sizeof(void *) + 1); *((QGlyphLayout *)this) = QGlyphLayout(reinterpret_cast(Array::data()), totalGlyphs); memset(Array::data(), 0, Array::size() * sizeof(void *)); } }; template struct QGlyphLayoutArray : public QGlyphLayout { public: QGlyphLayoutArray() : QGlyphLayout(reinterpret_cast(buffer), N) { memset(buffer, 0, sizeof(buffer)); } private: void *buffer[(N * (sizeof(HB_Glyph) + sizeof(HB_GlyphAttributes) + sizeof(QFixed) + sizeof(QFixed) + sizeof(QFixedPoint) + sizeof(QGlyphJustification))) / sizeof(void *) + 1]; }; struct QScriptItem; /// Internal QTextItem class QTextItemInt : public QTextItem { public: inline QTextItemInt() : justified(false), underlineStyle(QTextCharFormat::NoUnderline), num_chars(0), chars(0), logClusters(0), f(0), fontEngine(0) {} QTextItemInt(const QScriptItem &si, QFont *font, const QTextCharFormat &format = QTextCharFormat()); QTextItemInt(const QGlyphLayout &g, QFont *font, const QChar *chars, int numChars, QFontEngine *fe); /// copy the structure items, adjusting the glyphs arrays to the right subarrays. /// the width of the returned QTextItemInt is not adjusted, for speed reasons QTextItemInt midItem(QFontEngine *fontEngine, int firstGlyphIndex, int numGlyphs) const; QFixed descent; QFixed ascent; QFixed width; RenderFlags flags; bool justified; QTextCharFormat::UnderlineStyle underlineStyle; const QTextCharFormat charFormat; int num_chars; const QChar *chars; const unsigned short *logClusters; const QFont *f; QGlyphLayout glyphs; QFontEngine *fontEngine; }; inline bool qIsControlChar(ushort uc) { return uc >= 0x200b && uc <= 0x206f && (uc <= 0x200f /* ZW Space, ZWNJ, ZWJ, LRM and RLM */ || (uc >= 0x2028 && uc <= 0x202f /* LS, PS, LRE, RLE, PDF, LRO, RLO, NNBSP */) || uc >= 0x206a /* ISS, ASS, IAFS, AFS, NADS, NODS */); } struct Q_AUTOTEST_EXPORT QScriptItem { inline QScriptItem() : position(0), num_glyphs(0), descent(-1), ascent(-1), leading(-1), width(-1), glyph_data_offset(0) {} inline QScriptItem(int p, const QScriptAnalysis &a) : position(p), analysis(a), num_glyphs(0), descent(-1), ascent(-1), leading(-1), width(-1), glyph_data_offset(0) {} int position; QScriptAnalysis analysis; unsigned short num_glyphs; QFixed descent; QFixed ascent; QFixed leading; QFixed width; int glyph_data_offset; QFixed height() const { return ascent + descent + 1; } }; Q_DECLARE_TYPEINFO(QScriptItem, Q_MOVABLE_TYPE); typedef QVector QScriptItemArray; struct Q_AUTOTEST_EXPORT QScriptLine { // created and filled in QTextLine::layout_helper QScriptLine() : from(0), length(0), justified(0), gridfitted(0), hasTrailingSpaces(0), leadingIncluded(0) {} QFixed descent; QFixed ascent; QFixed leading; QFixed x; QFixed y; QFixed width; QFixed textWidth; QFixed textAdvance; int from; signed int length : 29; mutable uint justified : 1; mutable uint gridfitted : 1; uint hasTrailingSpaces : 1; uint leadingIncluded : 1; QFixed height() const { return (ascent + descent).ceil() + 1 + (leadingIncluded? qMax(QFixed(),leading) : QFixed()); } QFixed base() const { return ascent + (leadingIncluded ? qMax(QFixed(),leading) : QFixed()); } void setDefaultHeight(QTextEngine *eng); void operator+=(const QScriptLine &other); }; Q_DECLARE_TYPEINFO(QScriptLine, Q_PRIMITIVE_TYPE); inline void QScriptLine::operator+=(const QScriptLine &other) { leading= qMax(leading + ascent, other.leading + other.ascent) - qMax(ascent, other.ascent); descent = qMax(descent, other.descent); ascent = qMax(ascent, other.ascent); textWidth += other.textWidth; length += other.length; } typedef QVector QScriptLineArray; class QFontPrivate; class QTextFormatCollection; class Q_GUI_EXPORT QTextEngine { public: enum LayoutState { LayoutEmpty, InLayout, LayoutFailed, }; struct LayoutData { LayoutData(const QString &str, void **stack_memory, int mem_size); LayoutData(); ~LayoutData(); mutable QScriptItemArray items; int allocated; int available_glyphs; void **memory; unsigned short *logClustersPtr; QGlyphLayout glyphLayout; mutable int used; uint hasBidi : 1; uint layoutState : 2; uint memory_on_stack : 1; bool haveCharAttributes; QString string; bool reallocate(int totalGlyphs); }; QTextEngine(LayoutData *data); QTextEngine(); QTextEngine(const QString &str, const QFont &f); ~QTextEngine(); enum Mode { WidthOnly = 0x07 }; // keep in sync with QAbstractFontEngine::TextShapingFlag!! enum ShaperFlag { RightToLeft = 0x0001, DesignMetrics = 0x0002, GlyphIndicesOnly = 0x0004 }; Q_DECLARE_FLAGS(ShaperFlags, ShaperFlag) void invalidate(); void clearLineData(); void validate() const; void itemize() const; bool isRightToLeft() const; static void bidiReorder(int numRuns, const quint8 *levels, int *visualOrder); const HB_CharAttributes *attributes() const; void shape(int item) const; void justify(const QScriptLine &si); QFixed width(int charFrom, int numChars) const; glyph_metrics_t boundingBox(int from, int len) const; glyph_metrics_t tightBoundingBox(int from, int len) const; int length(int item) const { const QScriptItem &si = layoutData->items[item]; int from = si.position; item++; return (item < layoutData->items.size() ? layoutData->items[item].position : layoutData->string.length()) - from; } int length(const QScriptItem *si) const { int end; if (si + 1 < layoutData->items.constData()+ layoutData->items.size()) end = (si+1)->position; else end = layoutData->string.length(); return end - si->position; } QFontEngine *fontEngine(const QScriptItem &si, QFixed *ascent = 0, QFixed *descent = 0, QFixed *leading = 0) const; QFont font(const QScriptItem &si) const; inline QFont font() const { return fnt; } /** * Returns a pointer to an array of log clusters, offset at the script item. * Each item in the array is a unsigned short. For each character in the original string there is an entry in the table * so there is a one to one correlation in indexes between the original text and the index in the logcluster. * The value of each item is the position in the glyphs array. Multiple similar pointers in the logclusters array imply * that one glyph is used for more than one character. * \sa glyphs() */ inline unsigned short *logClusters(const QScriptItem *si) const { return layoutData->logClustersPtr+si->position; } /** * Returns an array of QGlyphLayout items, offset at the script item. * Each item in the array matches one glyph in the text, storing the advance, position etc. * The returned item's length equals to the number of available glyphs. This may be more * than what was actually shaped. * \sa logClusters() */ inline QGlyphLayout availableGlyphs(const QScriptItem *si) const { return layoutData->glyphLayout.mid(si->glyph_data_offset); } /** * Returns an array of QGlyphLayout items, offset at the script item. * Each item in the array matches one glyph in the text, storing the advance, position etc. * The returned item's length equals to the number of shaped glyphs. * \sa logClusters() */ inline QGlyphLayout shapedGlyphs(const QScriptItem *si) const { return layoutData->glyphLayout.mid(si->glyph_data_offset, si->num_glyphs); } inline bool ensureSpace(int nGlyphs) const { if (layoutData->glyphLayout.numGlyphs - layoutData->used < nGlyphs) return layoutData->reallocate((((layoutData->used + nGlyphs)*3/2 + 15) >> 4) << 4); return true; } void freeMemory(); int findItem(int strPos) const; inline QTextFormatCollection *formats() const { #ifdef QT_BUILD_COMPAT_LIB return 0; // Compat should never reference this symbol #else return block.docHandle()->formatCollection(); #endif } QTextCharFormat format(const QScriptItem *si) const; inline QAbstractTextDocumentLayout *docLayout() const { #ifdef QT_BUILD_COMPAT_LIB return 0; // Compat should never reference this symbol #else return block.docHandle()->document()->documentLayout(); #endif } int formatIndex(const QScriptItem *si) const; /// returns the width of tab at index (in the tabs array) with the tab-start at position x QFixed calculateTabWidth(int index, QFixed x) const; mutable QScriptLineArray lines; QString text; QFont fnt; QTextBlock block; QTextOption option; QFixed minWidth; QFixed maxWidth; QPointF position; uint ignoreBidi : 1; uint cacheGlyphs : 1; uint stackEngine : 1; uint forceJustification : 1; int *underlinePositions; mutable LayoutData *layoutData; inline bool hasFormats() const { return (block.docHandle() || specialData); } struct SpecialData { int preeditPosition; QString preeditText; QList addFormats; QVector addFormatIndices; QVector resolvedFormatIndices; }; SpecialData *specialData; bool atWordSeparator(int position) const; bool atSpace(int position) const; void indexAdditionalFormats(); QString elidedText(Qt::TextElideMode mode, const QFixed &width, int flags = 0) const; void shapeLine(const QScriptLine &line); QFixed leadingSpaceWidth(const QScriptLine &line); private: void setBoundary(int strPos) const; void addRequiredBoundaries() const; void shapeText(int item) const; void shapeTextWithHarfbuzz(int item) const; #if defined(Q_WS_WINCE) void shapeTextWithCE(int item) const; #endif #if defined(Q_WS_MAC) void shapeTextMac(int item) const; #endif void splitItem(int item, int pos) const; void resolveAdditionalFormats() const; }; class QStackTextEngine : public QTextEngine { public: enum { MemSize = 256*40/sizeof(void *) }; QStackTextEngine(const QString &string, const QFont &f); LayoutData _layoutData; void *_memory[MemSize]; }; Q_DECLARE_OPERATORS_FOR_FLAGS(QTextEngine::ShaperFlags) QT_END_NAMESPACE #endif // QTEXTENGINE_P_H