/* Copyright (C) 2004, 2005, 2007 Nikolas Zimmermann 2004, 2005, 2006, 2007 Rob Buis This file is part of the KDE project 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.LIB. If not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include "config.h" #if ENABLE(SVG) #include "SVGTextContentElement.h" #include "CSSPropertyNames.h" #include "CSSValueKeywords.h" #include "ExceptionCode.h" #include "FloatPoint.h" #include "FloatRect.h" #include "Frame.h" #include "Position.h" #include "RenderSVGText.h" #include "SelectionController.h" #include "SVGCharacterLayoutInfo.h" #include "SVGRootInlineBox.h" #include "SVGLength.h" #include "SVGInlineTextBox.h" #include "SVGNames.h" #include "XMLNames.h" namespace WebCore { SVGTextContentElement::SVGTextContentElement(const QualifiedName& tagName, Document* doc) : SVGStyledElement(tagName, doc) , SVGTests() , SVGLangSpace() , SVGExternalResourcesRequired() , m_textLength(this, LengthModeOther) , m_lengthAdjust(LENGTHADJUST_SPACING) { } SVGTextContentElement::~SVGTextContentElement() { } ANIMATED_PROPERTY_DEFINITIONS(SVGTextContentElement, SVGLength, Length, length, TextLength, textLength, SVGNames::textLengthAttr.localName(), m_textLength) ANIMATED_PROPERTY_DEFINITIONS(SVGTextContentElement, int, Enumeration, enumeration, LengthAdjust, lengthAdjust, SVGNames::lengthAdjustAttr.localName(), m_lengthAdjust) static inline float cummulatedCharacterRangeLength(const Vector::iterator& start, const Vector::iterator& end, SVGInlineTextBox* textBox, int startOffset, long startPosition, long length, bool isVerticalText, long& atCharacter) { float textLength = 0.0f; RenderStyle* style = textBox->textObject()->style(); bool usesFullRange = (startPosition == -1 && length == -1); for (Vector::iterator it = start; it != end; ++it) { if (usesFullRange || (atCharacter >= startPosition && atCharacter <= startPosition + length)) { unsigned int newOffset = textBox->start() + (it - start) + startOffset; // Take RTL text into account and pick right glyph width/height. if (textBox->m_reversed) newOffset = textBox->start() + textBox->end() - newOffset; if (isVerticalText) textLength += textBox->calculateGlyphHeight(style, newOffset); else textLength += textBox->calculateGlyphWidth(style, newOffset); } if (!usesFullRange) { if (atCharacter < startPosition + length) atCharacter++; else if (atCharacter == startPosition + length) break; } } return textLength; } // Helper class for querying certain glyph information struct SVGInlineTextBoxQueryWalker { typedef enum { NumberOfCharacters, TextLength, SubStringLength, StartPosition, EndPosition, Extent, Rotation, CharacterNumberAtPosition } QueryMode; SVGInlineTextBoxQueryWalker(const SVGTextContentElement* reference, QueryMode mode) : m_reference(reference) , m_mode(mode) , m_queryStartPosition(0) , m_queryLength(0) , m_queryPointInput() , m_queryLongResult(0) , m_queryFloatResult(0.0f) , m_queryPointResult() , m_queryRectResult() , m_stopProcessing(true) , m_atCharacter(0) { } void chunkPortionCallback(SVGInlineTextBox* textBox, int startOffset, const AffineTransform& chunkCtm, const Vector::iterator& start, const Vector::iterator& end) { RenderStyle* style = textBox->textObject()->style(); bool isVerticalText = style->svgStyle()->writingMode() == WM_TBRL || style->svgStyle()->writingMode() == WM_TB; switch (m_mode) { case NumberOfCharacters: { m_queryLongResult += (end - start); m_stopProcessing = false; return; } case TextLength: { float textLength = cummulatedCharacterRangeLength(start, end, textBox, startOffset, -1, -1, isVerticalText, m_atCharacter); if (isVerticalText) m_queryFloatResult += textLength; else m_queryFloatResult += textLength; m_stopProcessing = false; return; } case SubStringLength: { long startPosition = m_queryStartPosition; long length = m_queryLength; float textLength = cummulatedCharacterRangeLength(start, end, textBox, startOffset, startPosition, length, isVerticalText, m_atCharacter); if (isVerticalText) m_queryFloatResult += textLength; else m_queryFloatResult += textLength; if (m_atCharacter == startPosition + length) m_stopProcessing = true; else m_stopProcessing = false; return; } case StartPosition: { for (Vector::iterator it = start; it != end; ++it) { if (m_atCharacter == m_queryStartPosition) { m_queryPointResult = FloatPoint(it->x, it->y); m_stopProcessing = true; return; } m_atCharacter++; } m_stopProcessing = false; return; } case EndPosition: { for (Vector::iterator it = start; it != end; ++it) { if (m_atCharacter == m_queryStartPosition) { unsigned int newOffset = textBox->start() + (it - start) + startOffset; // Take RTL text into account and pick right glyph width/height. if (textBox->m_reversed) newOffset = textBox->start() + textBox->end() - newOffset; if (isVerticalText) m_queryPointResult.move(it->x, it->y + textBox->calculateGlyphHeight(style, newOffset)); else m_queryPointResult.move(it->x + textBox->calculateGlyphWidth(style, newOffset), it->y); m_stopProcessing = true; return; } m_atCharacter++; } m_stopProcessing = false; return; } case Extent: { for (Vector::iterator it = start; it != end; ++it) { if (m_atCharacter == m_queryStartPosition) { unsigned int newOffset = textBox->start() + (it - start) + startOffset; m_queryRectResult = textBox->calculateGlyphBoundaries(style, newOffset, *it); m_stopProcessing = true; return; } m_atCharacter++; } m_stopProcessing = false; return; } case Rotation: { for (Vector::iterator it = start; it != end; ++it) { if (m_atCharacter == m_queryStartPosition) { m_queryFloatResult = it->angle; m_stopProcessing = true; return; } m_atCharacter++; } m_stopProcessing = false; return; } case CharacterNumberAtPosition: { int offset = 0; SVGChar* charAtPos = textBox->closestCharacterToPosition(m_queryPointInput.x(), m_queryPointInput.y(), offset); offset += m_atCharacter; if (charAtPos && offset > m_queryLongResult) m_queryLongResult = offset; m_atCharacter += end - start; m_stopProcessing = false; return; } default: ASSERT_NOT_REACHED(); m_stopProcessing = true; return; } } void setQueryInputParameters(long startPosition, long length, FloatPoint referencePoint) { m_queryStartPosition = startPosition; m_queryLength = length; m_queryPointInput = referencePoint; } long longResult() const { return m_queryLongResult; } float floatResult() const { return m_queryFloatResult; } FloatPoint pointResult() const { return m_queryPointResult; } FloatRect rectResult() const { return m_queryRectResult; } bool stopProcessing() const { return m_stopProcessing; } private: const SVGTextContentElement* m_reference; QueryMode m_mode; long m_queryStartPosition; long m_queryLength; FloatPoint m_queryPointInput; long m_queryLongResult; float m_queryFloatResult; FloatPoint m_queryPointResult; FloatRect m_queryRectResult; bool m_stopProcessing; long m_atCharacter; }; static Vector findInlineTextBoxInTextChunks(const SVGTextContentElement* element, const Vector& chunks) { Vector::const_iterator it = chunks.begin(); const Vector::const_iterator end = chunks.end(); Vector boxes; for (; it != end; ++it) { Vector::const_iterator boxIt = it->boxes.begin(); const Vector::const_iterator boxEnd = it->boxes.end(); for (; boxIt != boxEnd; ++boxIt) { SVGInlineTextBox* textBox = static_cast(boxIt->box); Node* textElement = textBox->textObject()->parent()->element(); ASSERT(textElement); if (textElement == element || textElement->parent() == element) boxes.append(textBox); } } return boxes; } static inline SVGRootInlineBox* rootInlineBoxForTextContentElement(const SVGTextContentElement* element) { RenderObject* object = element->renderer(); ASSERT(object); if (!object->isSVGText() || object->isText()) return 0; RenderSVGText* svgText = static_cast(object); // Find root inline box SVGRootInlineBox* rootBox = static_cast(svgText->firstRootBox()); if (!rootBox) { // Layout is not sync yet! element->document()->updateLayoutIgnorePendingStylesheets(); rootBox = static_cast(svgText->firstRootBox()); } ASSERT(rootBox); return rootBox; } static inline SVGInlineTextBoxQueryWalker executeTextQuery(const SVGTextContentElement* element, SVGInlineTextBoxQueryWalker::QueryMode mode, long startPosition = 0, long length = 0, FloatPoint referencePoint = FloatPoint()) { SVGRootInlineBox* rootBox = rootInlineBoxForTextContentElement(element); if (!rootBox) return SVGInlineTextBoxQueryWalker(0, mode); // Find all inline text box associated with our renderer Vector textBoxes = findInlineTextBoxInTextChunks(element, rootBox->svgTextChunks()); // Walk text chunks to find chunks associated with our inline text box SVGInlineTextBoxQueryWalker walkerCallback(element, mode); walkerCallback.setQueryInputParameters(startPosition, length, referencePoint); SVGTextChunkWalker walker(&walkerCallback, &SVGInlineTextBoxQueryWalker::chunkPortionCallback); Vector::iterator it = textBoxes.begin(); Vector::iterator end = textBoxes.end(); for (; it != end; ++it) { rootBox->walkTextChunks(&walker, *it); if (walkerCallback.stopProcessing()) break; } return walkerCallback; } long SVGTextContentElement::getNumberOfChars() const { return executeTextQuery(this, SVGInlineTextBoxQueryWalker::NumberOfCharacters).longResult(); } float SVGTextContentElement::getComputedTextLength() const { return executeTextQuery(this, SVGInlineTextBoxQueryWalker::TextLength).floatResult(); } float SVGTextContentElement::getSubStringLength(long charnum, unsigned long nchars, ExceptionCode& ec) const { if (charnum < 0 || charnum > getNumberOfChars()) { ec = INDEX_SIZE_ERR; return 0.0f; } return executeTextQuery(this, SVGInlineTextBoxQueryWalker::SubStringLength, charnum, nchars).floatResult(); } FloatPoint SVGTextContentElement::getStartPositionOfChar(long charnum, ExceptionCode& ec) const { if (charnum < 0 || charnum > getNumberOfChars()) { ec = INDEX_SIZE_ERR; return FloatPoint(); } return executeTextQuery(this, SVGInlineTextBoxQueryWalker::StartPosition, charnum).pointResult(); } FloatPoint SVGTextContentElement::getEndPositionOfChar(long charnum, ExceptionCode& ec) const { if (charnum < 0 || charnum > getNumberOfChars()) { ec = INDEX_SIZE_ERR; return FloatPoint(); } return executeTextQuery(this, SVGInlineTextBoxQueryWalker::EndPosition, charnum).pointResult(); } FloatRect SVGTextContentElement::getExtentOfChar(long charnum, ExceptionCode& ec) const { if (charnum < 0 || charnum > getNumberOfChars()) { ec = INDEX_SIZE_ERR; return FloatRect(); } return executeTextQuery(this, SVGInlineTextBoxQueryWalker::Extent, charnum).rectResult(); } float SVGTextContentElement::getRotationOfChar(long charnum, ExceptionCode& ec) const { if (charnum < 0 || charnum > getNumberOfChars()) { ec = INDEX_SIZE_ERR; return 0.0f; } return executeTextQuery(this, SVGInlineTextBoxQueryWalker::Rotation, charnum).floatResult(); } long SVGTextContentElement::getCharNumAtPosition(const FloatPoint& point) const { return executeTextQuery(this, SVGInlineTextBoxQueryWalker::CharacterNumberAtPosition, 0.0f, 0.0f, point).longResult(); } void SVGTextContentElement::selectSubString(long charnum, long nchars, ExceptionCode& ec) const { long numberOfChars = getNumberOfChars(); if (charnum < 0 || nchars < 0 || charnum > numberOfChars) { ec = INDEX_SIZE_ERR; return; } if (nchars > numberOfChars - charnum) nchars = numberOfChars - charnum; ASSERT(document()); ASSERT(document()->frame()); SelectionController* controller = document()->frame()->selectionController(); if (!controller) return; // Find selection start VisiblePosition start(const_cast(this), 0, SEL_DEFAULT_AFFINITY); for (long i = 0; i < charnum; ++i) start = start.next(); // Find selection end VisiblePosition end(start); for (long i = 0; i < nchars; ++i) end = end.next(); controller->setSelection(Selection(start, end)); } void SVGTextContentElement::parseMappedAttribute(MappedAttribute* attr) { if (attr->name() == SVGNames::lengthAdjustAttr) { if (attr->value() == "spacing") setLengthAdjustBaseValue(LENGTHADJUST_SPACING); else if (attr->value() == "spacingAndGlyphs") setLengthAdjustBaseValue(LENGTHADJUST_SPACINGANDGLYPHS); } else if (attr->name() == SVGNames::textLengthAttr) { setTextLengthBaseValue(SVGLength(this, LengthModeOther, attr->value())); if (textLength().value() < 0.0) document()->accessSVGExtensions()->reportError("A negative value for text attribute is not allowed"); } else { if (SVGTests::parseMappedAttribute(attr)) return; if (SVGLangSpace::parseMappedAttribute(attr)) { if (attr->name().matches(XMLNames::spaceAttr)) { static const AtomicString preserveString("preserve"); if (attr->value() == preserveString) addCSSProperty(attr, CSS_PROP_WHITE_SPACE, CSS_VAL_PRE); else addCSSProperty(attr, CSS_PROP_WHITE_SPACE, CSS_VAL_NOWRAP); } return; } if (SVGExternalResourcesRequired::parseMappedAttribute(attr)) return; SVGStyledElement::parseMappedAttribute(attr); } } } #endif // ENABLE(SVG) // vim:ts=4:noet