// Copyright (C) 2019 Jakub Melka // // This file is part of PdfForQt. // // PdfForQt is free software: you can redistribute it and/or modify // it under the terms of the GNU Lesser General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // PdfForQt 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 Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public License // along with PDFForQt. If not, see . #ifndef PDFPAGECONTENTPROCESSOR_H #define PDFPAGECONTENTPROCESSOR_H #include "pdfrenderer.h" #include "pdfcolorspaces.h" #include "pdfparser.h" #include "pdffont.h" #include "pdfutils.h" #include #include #include #include #include #include namespace pdf { class PDFOptionalContentActivity; static constexpr const char* PDF_RESOURCE_EXTGSTATE = "ExtGState"; /// Process the contents of the page. class PDFPageContentProcessor : public PDFRenderErrorReporter { public: explicit PDFPageContentProcessor(const PDFPage* page, const PDFDocument* document, const PDFFontCache* fontCache, const PDFOptionalContentActivity* optionalContentActivity); virtual ~PDFPageContentProcessor(); enum class Operator { // General graphic state w, J, j, M, d, ri, i, gs SetLineWidth, ///< w, sets the line width SetLineCap, ///< J, sets the line cap SetLineJoin, ///< j, sets the line join SetMitterLimit, ///< M, sets the mitter limit SetLineDashPattern, ///< d, sets the line dash pattern SetRenderingIntent, ///< ri, sets the rendering intent SetFlatness, ///< i, sets the flattness (number in range from 0 to 100) SetGraphicState, ///< gs, sets the whole graphic state (stored in resource dictionary) // Special graphic state: q, Q, cm SaveGraphicState, ///< q, saves the graphic state RestoreGraphicState, ///< Q, restores the graphic state AdjustCurrentTransformationMatrix, ///< cm, modify the current transformation matrix by matrix multiplication // Path construction: m, l, c, v, y, h, re MoveCurrentPoint, ///< m, begin a new subpath by moving to the desired point LineTo, ///< l, appends a straight line segment to the subpath Bezier123To, ///< c, appends a Bézier curve with control points 1, 2, 3 Bezier23To, ///< v, appends a Bézier curve with control points 2, 3 Bezier13To, ///< y, appends a Bézier curve with control points 1, 3 EndSubpath, ///< h, ends current subpath by adding straight line segment from the last point to the beginning Rectangle, ///< re, adds rectangle // Path painting: S, s, f, F, f*, B, B*, b, b*, n PathStroke, ///< S, Stroke PathCloseStroke, ///< s, Close, Stroke (equivalent of operators h S) PathFillWinding, ///< f, Fill, Winding PathFillWinding2, ///< F, same as previous, see PDF Reference 1.7, Table 4.10 PathFillEvenOdd, ///< f*, Fill, Even-Odd PathFillStrokeWinding, ///< B, Fill, Stroke, Winding PathFillStrokeEvenOdd, ///< B*, Fill, Stroke, Even-Odd PathCloseFillStrokeWinding, ///< b, Close, Fill, Stroke, Winding (equivalent of operators h B) PathCloseFillStrokeEvenOdd, ///< b*, Close, Fill, Stroke, Even-Odd (equivalent of operators h B*) PathClear, ///< n, clear path (close current) path, "no-operation", used with clipping // Clipping paths: W, W* ClipWinding, ///< W, modify current clipping path by intersecting it with current path using "Non zero winding number rule" ClipEvenOdd, ///< W*, modify current clipping path by intersecting it with current path using "Even-odd rule" // Text object: BT, ET TextBegin, ///< BT, begin text object, initialize text matrices, cannot be nested TextEnd, ///< ET, end text object, cannot be nested // Text state: Tc, Tw, Tz, TL, Tf, Tr, Ts TextSetCharacterSpacing, ///< Tc, set text character spacing TextSetWordSpacing, ///< Tw, set text word spacing TextSetHorizontalScale, ///< Tz, set text horizontal scaling (in percents, 100% = normal scaling) TextSetLeading, ///< TL, set text leading TextSetFontAndFontSize, ///< Tf, set text font (name from dictionary) and its size TextSetRenderMode, ///< Tr, set text render mode TextSetRise, ///< Ts, set text rise // Text positioning: Td, TD, Tm, T* TextMoveByOffset, ///< Td, move by offset TextSetLeadingAndMoveByOffset, ///< TD, sets text leading and moves by offset, x y TD is equivalent to sequence -y TL x y Td TextSetMatrix, ///< Tm, set text matrix TextMoveByLeading, ///< T*, moves text by leading, equivalent to 0 leading Td // Text showing: Tj, TJ, ', " TextShowTextString, ///< Tj, show text string TextShowTextIndividualSpacing, ///< TJ, show text, allow individual text spacing TextNextLineShowText, ///< ', move to the next line and show text ("string '" is equivalent to "T* string Tj") TextSetSpacingAndShowText, ///< ", move to the next line, set spacing and show text (equivalent to sequence "w1 Tw w2 Tc string '") // Type 3 font: d0, d1 Type3FontSetOffset, ///< d0, set width information, see PDF 1.7 Reference, Table 5.10 Type3FontSetOffsetAndBB, ///< d1, set offset and glyph bounding box // Color: CS, cs, SC, SCN, sc, scn, G, g, RG, rg, K, k ColorSetStrokingColorSpace, ///< CS, set current color space for stroking operations ColorSetFillingColorSpace, ///< cs, set current color space for filling operations ColorSetStrokingColor, ///< SC, set current stroking color ColorSetStrokingColorN, ///< SCN, same as SC, but also supports Pattern, Separation, DeviceN and ICCBased color spaces ColorSetFillingColor, ///< sc, set current filling color ColorSetFillingColorN, ///< scn, same as sc, but also supports Pattern, Separation, DeviceN and ICCBased color spaces ColorSetDeviceGrayStroking, ///< G, set DeviceGray color space for stroking color and set color ColorSetDeviceGrayFilling, ///< g, set DeviceGray color space for filling color and set color ColorSetDeviceRGBStroking, ///< RG, set DeviceRGB color space for stroking color and set color ColorSetDeviceRGBFilling, ///< rg, set DeviceRGB color space for filling color and set color ColorSetDeviceCMYKStroking, ///< K, set DeviceCMYK color space for stroking color and set color ColorSetDeviceCMYKFilling, ///< k, set DeviceCMYK color space for filling color and set color // Shading pattern: sh ShadingPaintShape, ///< sh, paint shape // Inline images: BI, ID, EI InlineImageBegin, ///< BI, begin inline image InlineImageData, ///< ID, inline image data InlineImageEnd, ///< EI, end of inline image // XObject: Do PaintXObject, ///< Do, paint the X Object (image, form, ...) // Marked content: MP, DP, BMC, BDC, EMC MarkedContentPoint, ///< MP, marked content point MarkedContentPointWithProperties, ///< DP, marked content point with properties MarkedContentBegin, ///< BMC, begin of sequence of marked content MarkedContentBeginWithProperties, ///< BDC, begin of sequence of marked content with properties MarkedContentEnd, ///< EMC, end of marked content sequence // Compatibility: BX, EX CompatibilityBegin, ///< BX, Compatibility mode begin (unrecognized operators are ignored) CompatibilityEnd, ///< EX, Compatibility mode end Invalid ///< Invalid operator, use for error reporting }; /// Process the contents of the page QList processContents(); virtual void reportRenderError(RenderErrorType type, QString message) override; protected: class PDFLineDashPattern { public: explicit inline PDFLineDashPattern() = default; explicit inline PDFLineDashPattern(const std::vector& dashArray, PDFReal dashOffset) : m_dashArray(dashArray), m_dashOffset(dashOffset) { } inline const std::vector& getDashArray() const { return m_dashArray; } inline void setDashArray(const std::vector& dashArray) { m_dashArray = dashArray; } inline PDFReal getDashOffset() const { return m_dashOffset; } inline void setDashOffset(PDFReal dashOffset) { m_dashOffset = dashOffset; } inline bool operator==(const PDFLineDashPattern& other) const { return m_dashArray == other.m_dashArray && m_dashOffset == other.m_dashOffset; } inline bool operator!=(const PDFLineDashPattern& other) const { return !(*this == other); } /// Is line solid? Function returns true, if yes. bool isSolid() const { return m_dashArray.empty(); } private: std::vector m_dashArray; PDFReal m_dashOffset = 0.0; }; /// Represents graphic state of the PDF (holding current graphic state parameters). /// Please see PDF Reference 1.7, Chapter 4.3 "Graphic State" class PDFPageContentProcessorState { public: explicit PDFPageContentProcessorState(); ~PDFPageContentProcessorState(); PDFPageContentProcessorState(const PDFPageContentProcessorState&) = default; PDFPageContentProcessorState(PDFPageContentProcessorState&&) = default; PDFPageContentProcessorState& operator=(PDFPageContentProcessorState&&) = delete; PDFPageContentProcessorState& operator=(const PDFPageContentProcessorState& other); enum StateFlag { StateUnchanged = 0x00000000, StateCurrentTransformationMatrix = 0x00000001, StateStrokeColorSpace = 0x00000002, StateFillColorSpace = 0x00000004, StateStrokeColor = 0x00000008, StateFillColor = 0x00000010, StateLineWidth = 0x00000020, StateLineCapStyle = 0x00000040, StateLineJoinStyle = 0x00000080, StateMitterLimit = 0x00000100, StateLineDashPattern = 0x00000200, StateRenderingIntent = 0x00000400, StateFlatness = 0x00000800, StateSmoothness = 0x00001000, StateTextMatrix = 0x00002000, StateTextLineMatrix = 0x00004000, StateTextCharacterSpacing = 0x00008000, StateTextWordSpacing = 0x00010000, StateTextHorizontalScaling = 0x00020000, StateTextLeading = 0x00040000, StateTextFont = 0x00080000, StateTextFontSize = 0x00100000, StateTextRenderingMode = 0x00200000, StateTextRise = 0x00400000, StateTextKnockout = 0x00800000, StateAll = 0xFFFF }; Q_DECLARE_FLAGS(StateFlags, StateFlag) const QMatrix& getCurrentTransformationMatrix() const { return m_currentTransformationMatrix; } void setCurrentTransformationMatrix(const QMatrix& currentTransformationMatrix); const PDFAbstractColorSpace* getStrokeColorSpace() const { return m_strokeColorSpace.data(); } void setStrokeColorSpace(const QSharedPointer& strokeColorSpace); const PDFAbstractColorSpace* getFillColorSpace() const { return m_fillColorSpace.data(); } void setFillColorSpace(const QSharedPointer& fillColorSpace); const QColor& getStrokeColor() const { return m_strokeColor; } void setStrokeColor(const QColor& strokeColor); const QColor& getFillColor() const { return m_fillColor; } void setFillColor(const QColor& fillColor); PDFReal getLineWidth() const { return m_lineWidth; } void setLineWidth(PDFReal lineWidth); Qt::PenCapStyle getLineCapStyle() const { return m_lineCapStyle; } void setLineCapStyle(Qt::PenCapStyle lineCapStyle); Qt::PenJoinStyle getLineJoinStyle() const { return m_lineJoinStyle; } void setLineJoinStyle(Qt::PenJoinStyle lineJoinStyle); PDFReal getMitterLimit() const { return m_mitterLimit; } void setMitterLimit(PDFReal mitterLimit); const PDFLineDashPattern& getLineDashPattern() const { return m_lineDashPattern; } void setLineDashPattern(PDFLineDashPattern pattern); const QByteArray& getRenderingIntent() const { return m_renderingIntent; } void setRenderingIntent(const QByteArray& renderingIntent); PDFReal getFlatness() const { return m_flatness; } void setFlatness(PDFReal flatness); PDFReal getSmoothness() const { return m_smoothness; } void setSmoothness(PDFReal smoothness); StateFlags getStateFlags() const { return m_stateFlags; } void setStateFlags(StateFlags stateFlags) { m_stateFlags = stateFlags; } PDFReal getTextCharacterSpacing() const { return m_textCharacterSpacing; } void setTextCharacterSpacing(PDFReal textCharacterSpacing); PDFReal getTextWordSpacing() const { return m_textWordSpacing; } void setTextWordSpacing(PDFReal textWordSpacing); PDFReal getTextHorizontalScaling() const { return m_textHorizontalScaling; } void setTextHorizontalScaling(PDFReal textHorizontalScaling); PDFReal getTextLeading() const { return m_textLeading; } void setTextLeading(PDFReal textLeading); const PDFFontPointer& getTextFont() const { return m_textFont; } void setTextFont(const PDFFontPointer& textFont); PDFReal getTextFontSize() const { return m_textFontSize; } void setTextFontSize(PDFReal textFontSize); TextRenderingMode getTextRenderingMode() const { return m_textRenderingMode; } void setTextRenderingMode(TextRenderingMode textRenderingMode); PDFReal getTextRise() const { return m_textRise; } void setTextRise(PDFReal textRise); bool getTextKnockout() const { return m_textKnockout; } void setTextKnockout(bool textKnockout); const QMatrix& getTextMatrix() const { return m_textMatrix; } void setTextMatrix(const QMatrix& textMatrix); const QMatrix& getTextLineMatrix() const { return m_textLineMatrix; } void setTextLineMatrix(const QMatrix& textLineMatrix); private: QMatrix m_currentTransformationMatrix; PDFColorSpacePointer m_strokeColorSpace; PDFColorSpacePointer m_fillColorSpace; QColor m_strokeColor; QColor m_fillColor; PDFReal m_lineWidth; Qt::PenCapStyle m_lineCapStyle; Qt::PenJoinStyle m_lineJoinStyle; PDFReal m_mitterLimit; PDFLineDashPattern m_lineDashPattern; QByteArray m_renderingIntent; PDFReal m_flatness; PDFReal m_smoothness; PDFReal m_textCharacterSpacing; // T_c PDFReal m_textWordSpacing; // T_w PDFReal m_textHorizontalScaling; // T_h, percentage PDFReal m_textLeading; // T_l PDFFontPointer m_textFont; // Text font PDFReal m_textFontSize; // T_fs TextRenderingMode m_textRenderingMode; // Text rendering mode PDFReal m_textRise; // T_rise bool m_textKnockout; QMatrix m_textMatrix; QMatrix m_textLineMatrix; StateFlags m_stateFlags; }; enum class ProcessOrder { BeforeOperation, AfterOperation }; /// This function has to be implemented in the client drawing implementation, it should /// draw the path according to the parameters. /// \param path Path, which should be drawn (can be emtpy - in that case nothing happens) /// \param stroke Stroke the path /// \param fill Fill the path using given rule /// \param text Is text being drawn? /// \param fillRule Fill rule used in the fill mode virtual void performPathPainting(const QPainterPath& path, bool stroke, bool fill, bool text, Qt::FillRule fillRule); /// This function has to be implemented in the client drawing implementation, it should /// clip along the path (intersect with current clipping path). virtual void performClipping(const QPainterPath& path, Qt::FillRule fillRule); /// This function has to be implemented in the client drawing implementation, it should /// draw the image. /// \param image Image to be painted virtual void performImagePainting(const QImage& image); /// This function has to be implemented in the client drawing implementation, it should /// update the device according to the graphic state change. The flags are set when /// the value differs from the previous graphic state. virtual void performUpdateGraphicsState(const PDFPageContentProcessorState& state); /// Implement to perform save of the graphic state. This function is called two times - /// before the operation and after the operation. Parameter \p order determines when /// this function is called. /// \param order If this function is called before the operation, or after the operation. virtual void performSaveGraphicState(ProcessOrder order); /// Implement to perform restore of the graphic state. This function is called two times - /// before the operation and after the operation. Parameter \p order determines when /// this function is called. /// \param order If this function is called before the operation, or after the operation. virtual void performRestoreGraphicState(ProcessOrder order); /// Implement to react on marked content point. Properties object can be null, in case /// that no properties are provided. /// \param tag Tag of the marked content point /// \param properties Properties of the marked content point. virtual void performMarkedContentPoint(const QByteArray& tag, const PDFObject& properties); /// Implement to react on marked content begin. /// \param tag Tag of the marked content point /// \param properties Properties of the marked content point. virtual void performMarkedContentBegin(const QByteArray& tag, const PDFObject& properties); /// Implement to react on marked content end virtual void performMarkedContentEnd(); /// Returns current graphic state const PDFPageContentProcessorState* getGraphicState() const { return &m_graphicState; } /// Adds error to the error list /// \param error Error message void addError(const QString& error) { m_errorList.append(PDFRenderError(RenderErrorType::Error, error)); } /// Returns true, if graphic content is suppressed bool isContentSuppressed() const; private: /// Initializes the resources dictionaries void initDictionaries(const PDFObject& resourcesObject); /// Process the content stream void processContentStream(const PDFStream* stream); /// Process the content void processContent(const QByteArray& content); /// Processes single command void processCommand(const QByteArray& command); /// Processes form (XObject of type form) /// \param Matrix Transformation matrix from form coordinate system to page coordinate system /// \param boundingBox Bounding box, to which is drawed content clipped /// \param resources Resources, assigned to the form /// \param content Content stream of the form void processForm(const QMatrix& matrix, const QRectF& boundingBox, const PDFObject& resources, const QByteArray& content); enum class MarkedContentKind { OptionalContent, Other }; struct MarkedContentState { inline explicit MarkedContentState() = default; inline explicit MarkedContentState(const QByteArray& tag, MarkedContentKind kind, bool contentSuppressed) : tag(tag), kind(kind), contentSuppressed(contentSuppressed) { } QByteArray tag; MarkedContentKind kind = MarkedContentKind::Other; bool contentSuppressed = false; }; struct PDFPageContentProcessorStateGuard { public: explicit PDFPageContentProcessorStateGuard(PDFPageContentProcessor* processor); ~PDFPageContentProcessorStateGuard(); private: PDFPageContentProcessor* m_processor; // Stored resources const PDFDictionary* m_colorSpaceDictionary; const PDFDictionary* m_fontDictionary; const PDFDictionary* m_xobjectDictionary; const PDFDictionary* m_extendedGraphicStateDictionary; const PDFDictionary* m_propertiesDictionary; }; /// Wrapper for PDF Name struct PDFOperandName { QByteArray name; }; /// Wrapper for PDF String struct PDFOperandString { QByteArray string; }; template T readOperand(size_t index) const; template<> PDFReal readOperand(size_t index) const; template<> PDFInteger readOperand(size_t index) const; template<> PDFOperandName readOperand(size_t index) const; template<> PDFOperandString readOperand(size_t index) const; template inline T readOperand() const { return readOperand(index); } template inline void invokeOperatorImpl(F function, std::index_sequence) { (this->*function)(readOperand::type>()...); } /// Function invokes operator (function) with given arguments. For that reason, variadic /// templates are used. Basically, for each argument of the function, we need type of the argument, /// and its index. To retrieve it, we use std::tuple, variadic template and functionality /// analogic to std::apply implementation. template inline void invokeOperator(void(PDFPageContentProcessor::* function)(Operands...)) { invokeOperatorImpl>(function, std::make_index_sequence>>>{}); } /// Returns the current poin in the path. If path doesn't exist, then /// exception is thrown. QPointF getCurrentPoint() const; /// Notifies the updated graphic state. If nothing changed in graphic state, then nothing happens. void updateGraphicState(); template inline QColor getColorFromColorSpace(const PDFAbstractColorSpace* colorSpace, Operands... operands) { constexpr const size_t operandCount = sizeof...(Operands); const size_t colorSpaceComponentCount = colorSpace->getColorComponentCount(); if (operandCount == colorSpaceComponentCount) { return colorSpace->getColor(PDFColor(static_cast(operands)...)); } else { throw PDFRendererException(RenderErrorType::Error, PDFTranslationContext::tr("Invalid color component count. Provided %1, required %2.").arg(operandCount).arg(colorSpaceComponentCount)); } return QColor(); } /// Converts PDF line cap to Qt's pen cap style. Function always succeeds, /// if invalid \p lineCap occurs, then some valid pen cap style is returned. /// \param lineCap PDF Line cap style (see PDF Reference 1.7, values can be 0, 1, and 2) static Qt::PenCapStyle convertLineCapToPenCapStyle(PDFInteger lineCap); /// Convers Qt's pen cap style to PDF's line cap style (defined in the PDF Reference) /// \param penCapStyle Qt's pen cap style to be converted static PDFInteger convertPenCapStyleToLineCap(Qt::PenCapStyle penCapStyle); /// Converts PDF line join to Qt's pen join style. Function always succeeds, /// if invalid \p lineJoin occurs, then some valid pen join style is returned. /// \param lineJoin PDF Line join style (see PDF Reference 1.7, values can be 0, 1, and 2) static Qt::PenJoinStyle convertLineJoinToPenJoinStyle(PDFInteger lineJoin); /// Convers Qt's pen join style to PDF's line join style (defined in the PDF Reference) /// \param penJoinStyle Qt's pen join style to be converted static PDFInteger convertPenJoinStyleToLineJoin(Qt::PenJoinStyle penJoinStyle); // General graphic state w, J, j, M, d, ri, i, gs void operatorSetLineWidth(PDFReal lineWidth); ///< w, sets the line width void operatorSetLineCap(PDFInteger lineCap); ///< J, sets the line cap void operatorSetLineJoin(PDFInteger lineJoin); ///< j, sets the line join void operatorSetMitterLimit(PDFReal mitterLimit); ///< M, sets the mitter limit void operatorSetLineDashPattern(); ///< d, sets the line dash pattern void operatorSetRenderingIntent(PDFOperandName intent); ///< ri, sets the rendering intent void operatorSetFlatness(PDFReal flatness); ///< i, sets the flattness (number in range from 0 to 100) void operatorSetGraphicState(PDFOperandName dictionaryName); ///< gs, sets the whole graphic state (stored in resource dictionary) // Special graphic state: q, Q, cm void operatorSaveGraphicState(); ///< q, saves the graphic state void operatorRestoreGraphicState(); ///< Q, restores the graphic state void operatorAdjustCurrentTransformationMatrix(PDFReal a, PDFReal b, PDFReal c, PDFReal d, PDFReal e, PDFReal f); ///< cm, modify the current transformation matrix by matrix multiplication // Path construction operators void operatorMoveCurrentPoint(PDFReal x, PDFReal y); void operatorLineTo(PDFReal x, PDFReal y); void operatorBezier123To(PDFReal x1, PDFReal y1, PDFReal x2, PDFReal y2, PDFReal x3, PDFReal y3); void operatorBezier23To(PDFReal x2, PDFReal y2, PDFReal x3, PDFReal y3); void operatorBezier13To(PDFReal x1, PDFReal y1, PDFReal x3, PDFReal y3); void operatorEndSubpath(); void operatorRectangle(PDFReal x, PDFReal y, PDFReal width, PDFReal height); // Path painting operators void operatorPathStroke(); void operatorPathCloseStroke(); void operatorPathFillWinding(); void operatorPathFillEvenOdd(); void operatorPathFillStrokeWinding(); void operatorPathFillStrokeEvenOdd(); void operatorPathCloseFillStrokeWinding(); void operatorPathCloseFillStrokeEvenOdd(); void operatorPathClear(); // Clipping paths: W, W* void operatorClipWinding(); ///< W, modify current clipping path by intersecting it with current path using "Non zero winding number rule" void operatorClipEvenOdd(); ///< W*, modify current clipping path by intersecting it with current path using "Even-odd rule" // Color: CS, cs, SC, SCN, sc, scn, G, g, RG, rg, K, k void operatorColorSetStrokingColorSpace(PDFOperandName name); ///< CS, set current color space for stroking operations void operatorColorSetFillingColorSpace(PDFOperandName name); ///< cs, set current color space for filling operations void operatorColorSetStrokingColor(); ///< SC, set current stroking color void operatorColorSetStrokingColorN(); ///< SCN, same as SC, but also supports Pattern, Separation, DeviceN and ICCBased color spaces void operatorColorSetFillingColor(); ///< sc, set current filling color void operatorColorSetFillingColorN(); ///< scn, same as sc, but also supports Pattern, Separation, DeviceN and ICCBased color spaces void operatorColorSetDeviceGrayStroking(PDFReal gray); ///< G, set DeviceGray color space for stroking color and set color void operatorColorSetDeviceGrayFilling(PDFReal gray); ///< g, set DeviceGray color space for filling color and set color void operatorColorSetDeviceRGBStroking(PDFReal r, PDFReal g, PDFReal b); ///< RG, set DeviceRGB color space for stroking color and set color void operatorColorSetDeviceRGBFilling(PDFReal r, PDFReal g, PDFReal b); ///< rg, set DeviceRGB color space for filling color and set color void operatorColorSetDeviceCMYKStroking(PDFReal c, PDFReal m, PDFReal y, PDFReal k); ///< K, set DeviceCMYK color space for stroking color and set color void operatorColorSetDeviceCMYKFilling(PDFReal c, PDFReal m, PDFReal y, PDFReal k); ///< k, set DeviceCMYK color space for filling color and set color // Text object: BT, ET void operatorTextBegin(); ///< BT, begin text object, initialize text matrices, cannot be nested void operatorTextEnd(); ///< ET, end text object, cannot be nested // Text state: Tc, Tw, Tz, TL, Tf, Tr, Ts void operatorTextSetCharacterSpacing(PDFReal charSpacing); ///< Tc, set text character spacing void operatorTextSetWordSpacing(PDFReal wordSpacing); ///< Tw, set text word spacing void operatorTextSetHorizontalScale(PDFReal horizontalScaling); ///< Tz, set text horizontal scaling (in percents, 100% = normal scaling) void operatorTextSetLeading(PDFReal leading); ///< TL, set text leading void operatorTextSetFontAndFontSize(PDFOperandName fontName, PDFReal fontSize); ///< Tf, set text font (name from dictionary) and its size void operatorTextSetRenderMode(PDFInteger mode); ///< Tr, set text render mode void operatorTextSetRise(PDFReal rise); ///< Ts, set text rise // Text positioning: Td, TD, Tm, T* void operatorTextMoveByOffset(PDFReal t_x, PDFReal t_y); ///< Td, move by offset void operatorTextSetLeadingAndMoveByOffset(PDFReal t_x, PDFReal t_y); ///< TD, sets text leading and moves by offset, x y TD is equivalent to sequence -y TL x y Td void operatorTextSetMatrix(PDFReal a, PDFReal b, PDFReal c, PDFReal d, PDFReal e, PDFReal f); ///< Tm, set text matrix void operatorTextMoveByLeading(); ///< T*, moves text by leading, equivalent to 0 leading Td // Text showing: Tj, TJ, ', " void operatorTextShowTextString(PDFOperandString text); ///< Tj, show text string void operatorTextShowTextIndividualSpacing(); ///< TJ, show text, allow individual text spacing void operatorTextNextLineShowText(PDFOperandString text); ///< ', move to the next line and show text ("string '" is equivalent to "T* string Tj") void operatorTextSetSpacingAndShowText(PDFReal t_w, PDFReal t_c, PDFOperandString text); ///< ", move to the next line, set spacing and show text (equivalent to sequence "w1 Tw w2 Tc string '") // XObject: Do void operatorPaintXObject(PDFOperandName name); ///< Do, paint the X Object (image, form, ...) // Marked content: MP, DP, BMC, BDC, EMC void operatorMarkedContentPoint(PDFOperandName name); ///< MP, marked content point void operatorMarkedContentPointWithProperties(PDFOperandName name, PDFObject properties); ///< DP, marked content point with properties void operatorMarkedContentBegin(PDFOperandName name); ///< BMC, begin of sequence of marked content void operatorMarkedContentBeginWithProperties(PDFOperandName name, PDFObject properties); ///< BDC, begin of sequence of marked content with properties void operatorMarkedContentEnd(); ///< EMC, end of marked content sequence // Compatibility: BX, EX void operatorCompatibilityBegin(); ///< BX, Compatibility mode begin (unrecognized operators are ignored) void operatorCompatibilityEnd(); ///< EX, Compatibility mode end // Draws the text using the text sequence void drawText(const TextSequence& textSequence); /// Returns realized font const PDFRealizedFontPointer& getRealizedFont() { return m_realizedFont.get(this, &PDFPageContentProcessor::getRealizedFontImpl); } /// Returns realized font (or empty font, if font can't be realized) PDFRealizedFontPointer getRealizedFontImpl() const; /// Checks, if stroking color is valid void checkStrokingColor(); /// Checks, if filling color is valid void checkFillingColor(); /// Read object from operand stack PDFObject readObjectFromOperandStack(size_t startPosition) const; /// Computes visibility of OCG/OCMD - returns false, if it is not suppressed, /// or true, if it is suppressed. bool isContentSuppressedByOC(PDFObjectReference ocgOrOcmd); const PDFPage* m_page; const PDFDocument* m_document; const PDFFontCache* m_fontCache; const PDFOptionalContentActivity* m_optionalContentActivity; const PDFDictionary* m_colorSpaceDictionary; const PDFDictionary* m_fontDictionary; const PDFDictionary* m_xobjectDictionary; const PDFDictionary* m_extendedGraphicStateDictionary; const PDFDictionary* m_propertiesDictionary; // Default color spaces PDFColorSpacePointer m_deviceGrayColorSpace; PDFColorSpacePointer m_deviceRGBColorSpace; PDFColorSpacePointer m_deviceCMYKColorSpace; /// Array with current operand arguments PDFFlatArray m_operands; /// Stack with saved graphic states std::stack m_stack; /// Stack with marked content std::vector m_markedContentStack; /// Current graphic state PDFPageContentProcessorState m_graphicState; /// List of errors QList m_errorList; /// Current painter path QPainterPath m_currentPath; /// Nesting level of the begin/end of text object int m_textBeginEndState; /// Compatibility level (if positive, then unrecognized operators are ignored) int m_compatibilityBeginEndState; /// Actually realized physical font PDFCachedItem m_realizedFont; /// Actual clipping path obtained from text. Clipping path /// is in device space coordinates. QPainterPath m_textClippingPath; }; } // namespace pdf #endif // PDFPAGECONTENTPROCESSOR_H