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//========================================================================
//
// TextOutputDev.h
//
// Copyright 1997-2003 Glyph & Cog, LLC
//
//========================================================================
//========================================================================
//
// Modified under the Poppler project - http://poppler.freedesktop.org
//
// All changes made under the Poppler project to this file are licensed
// under GPL version 2 or later
//
// Copyright (C) 2005-2007 Kristian Høgsberg <krh@redhat.com>
// Copyright (C) 2006 Ed Catmur <ed@catmur.co.uk>
// Copyright (C) 2007, 2008, 2011, 2013 Carlos Garcia Campos <carlosgc@gnome.org>
// Copyright (C) 2007, 2017 Adrian Johnson <ajohnson@redneon.com>
// Copyright (C) 2008, 2010, 2015, 2016, 2018 Albert Astals Cid <aacid@kde.org>
// Copyright (C) 2010 Brian Ewins <brian.ewins@gmail.com>
// Copyright (C) 2012, 2013, 2015, 2016 Jason Crain <jason@aquaticape.us>
// Copyright (C) 2013 Thomas Freitag <Thomas.Freitag@alfa.de>
// Copyright (C) 2018 Klarälvdalens Datakonsult AB, a KDAB Group company, <info@kdab.com>. Work sponsored by the LiMux project of the city of Munich
// Copyright (C) 2018 Sanchit Anand <sanxchit@gmail.com>
// Copyright (C) 2018 Nelson Benítez León <nbenitezl@gmail.com>
// Copyright (C) 2019 Oliver Sander <oliver.sander@tu-dresden.de>
// Copyright (C) 2019 Dan Shea <dan.shea@logical-innovations.com>
//
// To see a description of the changes please see the Changelog file that
// came with your tarball or type make ChangeLog if you are building from git
//
//========================================================================
#ifndef TEXTOUTPUTDEV_H
#define TEXTOUTPUTDEV_H
#include "poppler-config.h"
#include <stdio.h>
#include "GfxFont.h"
#include "GfxState.h"
#include "OutputDev.h"
class GooString;
class Gfx;
class GfxFont;
class GfxState;
class UnicodeMap;
class AnnotLink;
class TextWord;
class TextPool;
class TextLine;
class TextLineFrag;
class TextBlock;
class TextFlow;
class TextLink;
class TextUnderline;
class TextWordList;
class TextPage;
class TextSelectionVisitor;
//------------------------------------------------------------------------
typedef void (*TextOutputFunc)(void *stream, const char *text, int len);
enum SelectionStyle {
selectionStyleGlyph,
selectionStyleWord,
selectionStyleLine
};
//------------------------------------------------------------------------
// TextFontInfo
//------------------------------------------------------------------------
class TextFontInfo {
public:
TextFontInfo(GfxState *state);
~TextFontInfo();
TextFontInfo(const TextFontInfo &) = delete;
TextFontInfo& operator=(const TextFontInfo &) = delete;
bool matches(GfxState *state) const;
bool matches(const TextFontInfo *fontInfo) const;
// Get the font ascent, or a default value if the font is not set
double getAscent() const;
// Get the font descent, or a default value if the font is not set
double getDescent() const;
// Get the writing mode (0 or 1), or 0 if the font is not set
int getWMode() const;
#ifdef TEXTOUT_WORD_LIST
// Get the font name (which may be NULL).
const GooString *getFontName() const { return fontName; }
// Get font descriptor flags.
bool isFixedWidth() const { return flags & fontFixedWidth; }
bool isSerif() const { return flags & fontSerif; }
bool isSymbolic() const { return flags & fontSymbolic; }
bool isItalic() const { return flags & fontItalic; }
bool isBold() const { return flags & fontBold; }
#endif
private:
GfxFont *gfxFont;
#ifdef TEXTOUT_WORD_LIST
GooString *fontName;
int flags;
#endif
friend class TextWord;
friend class TextPage;
friend class TextSelectionPainter;
};
//------------------------------------------------------------------------
// TextWord
//------------------------------------------------------------------------
class TextWord {
public:
// Constructor.
TextWord(const GfxState *state, int rotA, double fontSize);
// Destructor.
~TextWord();
TextWord(const TextWord &) = delete;
TextWord& operator=(const TextWord &) = delete;
// Add a character to the word.
void addChar(GfxState *state, TextFontInfo *fontA, double x, double y,
double dx, double dy, int charPosA, int charLen,
CharCode c, Unicode u, const Matrix &textMatA);
// Attempt to add a character to the word as a combining character.
// Either character u or the last character in the word must be an
// acute, dieresis, or other combining character. Returns true if
// the character was added.
bool addCombining(GfxState *state, TextFontInfo *fontA, double fontSizeA, double x, double y,
double dx, double dy, int charPosA, int charLen,
CharCode c, Unicode u, const Matrix &textMatA);
// Merge <word> onto the end of <this>.
void merge(TextWord *word);
// Compares <this> to <word>, returning -1 (<), 0 (=), or +1 (>),
// based on a primary-axis comparison, e.g., x ordering if rot=0.
int primaryCmp(TextWord *word);
// Return the distance along the primary axis between <this> and
// <word>.
double primaryDelta(TextWord *word);
static int cmpYX(const void *p1, const void *p2);
void visitSelection(TextSelectionVisitor *visitor,
PDFRectangle *selection,
SelectionStyle style);
// Get the TextFontInfo object associated with a character.
TextFontInfo *getFontInfo(int idx) { return font[idx]; }
// Get the next TextWord on the linked list.
TextWord *getNext() { return next; }
#ifdef TEXTOUT_WORD_LIST
int getLength() { return len; }
const Unicode *getChar(int idx) { return &text[idx]; }
GooString *getText();
GooString *getFontName(int idx) { return font[idx]->fontName; }
void getColor(double *r, double *g, double *b)
{ *r = colorR; *g = colorG; *b = colorB; }
void getBBox(double *xMinA, double *yMinA, double *xMaxA, double *yMaxA)
{ *xMinA = xMin; *yMinA = yMin; *xMaxA = xMax; *yMaxA = yMax; }
void getCharBBox(int charIdx, double *xMinA, double *yMinA,
double *xMaxA, double *yMaxA);
double getFontSize() { return fontSize; }
int getRotation() { return rot; }
int getCharPos() { return charPos[0]; }
int getCharLen() { return charPos[len] - charPos[0]; }
bool getSpaceAfter() { return spaceAfter; }
#endif
bool isUnderlined() { return underlined; }
AnnotLink *getLink() { return link; }
double getEdge(int i) { return edge[i]; }
double getBaseline () { return base; }
bool hasSpaceAfter () { return spaceAfter; }
TextWord* nextWord () { return next; };
private:
void ensureCapacity(int capacity);
void setInitialBounds(TextFontInfo *fontA, double x, double y);
int rot; // rotation, multiple of 90 degrees
// (0, 1, 2, or 3)
int wMode; // horizontal (0) or vertical (1) writing mode
double xMin, xMax; // bounding box x coordinates
double yMin, yMax; // bounding box y coordinates
double base; // baseline x or y coordinate
Unicode *text; // the text
CharCode *charcode; // glyph indices
double *edge; // "near" edge x or y coord of each char
// (plus one extra entry for the last char)
int *charPos; // character position (within content stream)
// of each char (plus one extra entry for
// the last char)
int len; // length of text/edge/charPos/font arrays
int size; // size of text/edge/charPos/font arrays
TextFontInfo **font; // font information for each char
Matrix *textMat; // transformation matrix for each char
double fontSize; // font size
bool spaceAfter; // set if there is a space between this
// word and the next word on the line
bool underlined;
TextWord *next; // next word in line
#ifdef TEXTOUT_WORD_LIST
double colorR, // word color
colorG,
colorB;
#endif
AnnotLink *link;
friend class TextPool;
friend class TextLine;
friend class TextBlock;
friend class TextFlow;
friend class TextWordList;
friend class TextPage;
friend class TextSelectionPainter;
friend class TextSelectionDumper;
};
//------------------------------------------------------------------------
// TextPool
//------------------------------------------------------------------------
class TextPool {
public:
TextPool();
~TextPool();
TextPool(const TextPool &) = delete;
TextPool& operator=(const TextPool &) = delete;
TextWord *getPool(int baseIdx) { return pool[baseIdx - minBaseIdx]; }
void setPool(int baseIdx, TextWord *p) { pool[baseIdx - minBaseIdx] = p; }
int getBaseIdx(double base);
void addWord(TextWord *word);
private:
int minBaseIdx; // min baseline bucket index
int maxBaseIdx; // max baseline bucket index
TextWord **pool; // array of linked lists, one for each
// baseline value (multiple of 4 pts)
TextWord *cursor; // pointer to last-accessed word
int cursorBaseIdx; // baseline bucket index of last-accessed word
friend class TextBlock;
friend class TextPage;
};
struct TextFlowData;
//------------------------------------------------------------------------
// TextLine
//------------------------------------------------------------------------
class TextLine {
public:
TextLine(TextBlock *blkA, int rotA, double baseA);
~TextLine();
TextLine(const TextLine &) = delete;
TextLine& operator=(const TextLine &) = delete;
void addWord(TextWord *word);
// Return the distance along the primary axis between <this> and
// <line>.
double primaryDelta(TextLine *line);
// Compares <this> to <line>, returning -1 (<), 0 (=), or +1 (>),
// based on a primary-axis comparison, e.g., x ordering if rot=0.
int primaryCmp(TextLine *line);
// Compares <this> to <line>, returning -1 (<), 0 (=), or +1 (>),
// based on a secondary-axis comparison of the baselines, e.g., y
// ordering if rot=0.
int secondaryCmp(TextLine *line);
int cmpYX(TextLine *line);
static int cmpXY(const void *p1, const void *p2);
void coalesce(UnicodeMap *uMap);
void visitSelection(TextSelectionVisitor *visitor,
PDFRectangle *selection,
SelectionStyle style);
// Get the head of the linked list of TextWords.
TextWord *getWords() { return words; }
// Get the next TextLine on the linked list.
TextLine *getNext() { return next; }
// Returns true if the last char of the line is a hyphen.
bool isHyphenated() { return hyphenated; }
private:
TextBlock *blk; // parent block
int rot; // text rotation
double xMin, xMax; // bounding box x coordinates
double yMin, yMax; // bounding box y coordinates
double base; // baseline x or y coordinate
TextWord *words; // words in this line
TextWord *lastWord; // last word in this line
Unicode *text; // Unicode text of the line, including
// spaces between words
double *edge; // "near" edge x or y coord of each char
// (plus one extra entry for the last char)
int *col; // starting column number of each Unicode char
int len; // number of Unicode chars
int convertedLen; // total number of converted characters
bool hyphenated; // set if last char is a hyphen
TextLine *next; // next line in block
Unicode *normalized; // normalized form of Unicode text
int normalized_len; // number of normalized Unicode chars
int *normalized_idx; // indices of normalized chars into Unicode text
Unicode *ascii_translation; // ascii translation from the normalized text
int ascii_len; // length of ascii translation text
int *ascii_idx; // indices of ascii chars into Unicode text of line
friend class TextLineFrag;
friend class TextBlock;
friend class TextFlow;
friend class TextWordList;
friend class TextPage;
friend class TextSelectionPainter;
friend class TextSelectionSizer;
friend class TextSelectionDumper;
};
//------------------------------------------------------------------------
// TextBlock
//------------------------------------------------------------------------
class TextBlock {
public:
TextBlock(TextPage *pageA, int rotA);
~TextBlock();
TextBlock(const TextBlock &) = delete;
TextBlock& operator=(const TextBlock &) = delete;
void addWord(TextWord *word);
void coalesce(UnicodeMap *uMap, double fixedPitch);
// Update this block's priMin and priMax values, looking at <blk>.
void updatePriMinMax(TextBlock *blk);
static int cmpXYPrimaryRot(const void *p1, const void *p2);
static int cmpYXPrimaryRot(const void *p1, const void *p2);
int primaryCmp(TextBlock *blk);
double secondaryDelta(TextBlock *blk);
// Returns true if <this> is below <blk>, relative to the page's
// primary rotation.
bool isBelow(TextBlock *blk);
void visitSelection(TextSelectionVisitor *visitor,
PDFRectangle *selection,
SelectionStyle style);
// Get the head of the linked list of TextLines.
TextLine *getLines() { return lines; }
// Get the next TextBlock on the linked list.
TextBlock *getNext() { return next; }
void getBBox(double *xMinA, double *yMinA, double *xMaxA, double *yMaxA)
{ *xMinA = xMin; *yMinA = yMin; *xMaxA = xMax; *yMaxA = yMax; }
int getLineCount() { return nLines; }
private:
bool isBeforeByRule1(TextBlock *blk1);
bool isBeforeByRepeatedRule1(TextBlock *blkList, TextBlock *blk1);
bool isBeforeByRule2(TextBlock *blk1);
int visitDepthFirst(TextBlock *blkList, int pos1,
TextBlock **sorted, int sortPos,
bool* visited);
int visitDepthFirst(TextBlock *blkList, int pos1,
TextBlock **sorted, int sortPos,
bool* visited,
TextBlock **cache, int cacheSize);
TextPage *page; // the parent page
int rot; // text rotation
double xMin, xMax; // bounding box x coordinates
double yMin, yMax; // bounding box y coordinates
double priMin, priMax; // whitespace bounding box along primary axis
double ExMin, ExMax; // extended bounding box x coordinates
double EyMin, EyMax; // extended bounding box y coordinates
int tableId; // id of table to which this block belongs
bool tableEnd; // is this block at end of line of actual table
TextPool *pool; // pool of words (used only until lines
// are built)
TextLine *lines; // linked list of lines
TextLine *curLine; // most recently added line
int nLines; // number of lines
int charCount; // number of characters in the block
int col; // starting column
int nColumns; // number of columns in the block
TextBlock *next;
TextBlock *stackNext;
friend class TextLine;
friend class TextLineFrag;
friend class TextFlow;
friend class TextWordList;
friend class TextPage;
friend class TextSelectionPainter;
friend class TextSelectionDumper;
};
//------------------------------------------------------------------------
// TextFlow
//------------------------------------------------------------------------
class TextFlow {
public:
TextFlow(TextPage *pageA, TextBlock *blk);
~TextFlow();
TextFlow(const TextFlow &) = delete;
TextFlow& operator=(const TextFlow &) = delete;
// Add a block to the end of this flow.
void addBlock(TextBlock *blk);
// Returns true if <blk> fits below <prevBlk> in the flow, i.e., (1)
// it uses a font no larger than the last block added to the flow,
// and (2) it fits within the flow's [priMin, priMax] along the
// primary axis.
bool blockFits(TextBlock *blk, TextBlock *prevBlk);
// Get the head of the linked list of TextBlocks.
TextBlock *getBlocks() { return blocks; }
// Get the next TextFlow on the linked list.
TextFlow *getNext() { return next; }
private:
TextPage *page; // the parent page
double xMin, xMax; // bounding box x coordinates
double yMin, yMax; // bounding box y coordinates
double priMin, priMax; // whitespace bounding box along primary axis
TextBlock *blocks; // blocks in flow
TextBlock *lastBlk; // last block in this flow
TextFlow *next;
friend class TextWordList;
friend class TextPage;
};
#ifdef TEXTOUT_WORD_LIST
//------------------------------------------------------------------------
// TextWordList
//------------------------------------------------------------------------
class TextWordList {
public:
// Build a flat word list, in content stream order (if
// text->rawOrder is true), physical layout order (if <physLayout>
// is true and text->rawOrder is false), or reading order (if both
// flags are false).
TextWordList(TextPage *text, bool physLayout);
~TextWordList();
TextWordList(const TextWordList &) = delete;
TextWordList& operator=(const TextWordList &) = delete;
// Return the number of words on the list.
int getLength();
// Return the <idx>th word from the list.
TextWord *get(int idx);
private:
std::vector<TextWord*> *words;
};
#endif // TEXTOUT_WORD_LIST
class TextWordSelection {
public:
TextWordSelection(TextWord *wordA, int beginA, int endA)
: word(wordA), begin(beginA), end(endA)
{
}
TextWord * getWord() const { return word; }
int getBegin() const { return begin; }
int getEnd() const { return end; }
private:
TextWord *word;
int begin;
int end;
friend class TextSelectionPainter;
friend class TextSelectionDumper;
};
//------------------------------------------------------------------------
// TextPage
//------------------------------------------------------------------------
class TextPage {
public:
// Constructor.
TextPage(bool rawOrderA, bool discardDiagA = false);
TextPage(const TextPage &) = delete;
TextPage& operator=(const TextPage &) = delete;
void incRefCnt();
void decRefCnt();
// Start a new page.
void startPage(GfxState *state);
// End the current page.
void endPage();
// Update the current font.
void updateFont(GfxState *state);
// Begin a new word.
void beginWord(GfxState *state);
// Add a character to the current word.
void addChar(GfxState *state, double x, double y,
double dx, double dy,
CharCode c, int nBytes, Unicode *u, int uLen);
// Add <nChars> invisible characters.
void incCharCount(int nChars);
// End the current word, sorting it into the list of words.
void endWord();
// Add a word, sorting it into the list of words.
void addWord(TextWord *word);
// Add a (potential) underline.
void addUnderline(double x0, double y0, double x1, double y1);
// Add a hyperlink.
void addLink(int xMin, int yMin, int xMax, int yMax, AnnotLink *link);
// Coalesce strings that look like parts of the same line.
void coalesce(bool physLayout, double fixedPitch, bool doHTML);
// Find a string. If <startAtTop> is true, starts looking at the
// top of the page; else if <startAtLast> is true, starts looking
// immediately after the last find result; else starts looking at
// <xMin>,<yMin>. If <stopAtBottom> is true, stops looking at the
// bottom of the page; else if <stopAtLast> is true, stops looking
// just before the last find result; else stops looking at
// <xMax>,<yMax>.
bool findText(Unicode *s, int len,
bool startAtTop, bool stopAtBottom,
bool startAtLast, bool stopAtLast,
bool caseSensitive, bool backward,
bool wholeWord,
double *xMin, double *yMin,
double *xMax, double *yMax);
// Adds new parameter ignoreDiacritics, which will do diacritics
// insensitive search, i.e. ignore accents, umlauts, diaeresis,etc.
// while matching. This option will be ignored if <s> contains characters
// which are not pure ascii.
bool findText(Unicode *s, int len,
bool startAtTop, bool stopAtBottom,
bool startAtLast, bool stopAtLast,
bool caseSensitive, bool ignoreDiacritics,
bool backward, bool wholeWord,
double *xMin, double *yMin,
double *xMax, double *yMax);
// Get the text which is inside the specified rectangle.
GooString *getText(double xMin, double yMin,
double xMax, double yMax);
void visitSelection(TextSelectionVisitor *visitor,
PDFRectangle *selection,
SelectionStyle style);
void drawSelection(OutputDev *out,
double scale,
int rotation,
PDFRectangle *selection,
SelectionStyle style,
GfxColor *glyph_color, GfxColor *box_color);
std::vector<PDFRectangle*> *getSelectionRegion(PDFRectangle *selection,
SelectionStyle style,
double scale);
GooString *getSelectionText(PDFRectangle *selection,
SelectionStyle style);
std::vector<TextWordSelection*> **getSelectionWords(PDFRectangle *selection,
SelectionStyle style,
int *nLines);
// Find a string by character position and length. If found, sets
// the text bounding rectangle and returns true; otherwise returns
// false.
bool findCharRange(int pos, int length,
double *xMin, double *yMin,
double *xMax, double *yMax);
// Dump contents of page to a file.
void dump(void *outputStream, TextOutputFunc outputFunc,
bool physLayout);
// Get the head of the linked list of TextFlows.
TextFlow *getFlows() { return flows; }
// If true, will combine characters when a base and combining
// character are drawn on eachother.
void setMergeCombining(bool merge);
#ifdef TEXTOUT_WORD_LIST
// Build a flat word list, in content stream order (if
// this->rawOrder is true), physical layout order (if <physLayout>
// is true and this->rawOrder is false), or reading order (if both
// flags are false).
TextWordList *makeWordList(bool physLayout);
#endif
private:
// Destructor.
~TextPage();
void clear();
void assignColumns(TextLineFrag *frags, int nFrags, bool rot);
int dumpFragment(Unicode *text, int len, UnicodeMap *uMap, GooString *s);
bool rawOrder; // keep text in content stream order
bool discardDiag; // discard diagonal text
bool mergeCombining; // merge when combining and base characters
// are drawn on top of each other
double pageWidth, pageHeight; // width and height of current page
TextWord *curWord; // currently active string
int charPos; // next character position (within content
// stream)
TextFontInfo *curFont; // current font
double curFontSize; // current font size
int nest; // current nesting level (for Type 3 fonts)
int nTinyChars; // number of "tiny" chars seen so far
bool lastCharOverlap; // set if the last added char overlapped the
// previous char
bool diagonal; // whether the current text is diagonal
TextPool *pools[4]; // a "pool" of TextWords for each rotation
TextFlow *flows; // linked list of flows
TextBlock **blocks; // array of blocks, in yx order
int nBlocks; // number of blocks
int primaryRot; // primary rotation
bool primaryLR; // primary direction (true means L-to-R,
// false means R-to-L)
TextWord *rawWords; // list of words, in raw order (only if
// rawOrder is set)
TextWord *rawLastWord; // last word on rawWords list
std::vector<TextFontInfo*> *fonts;// all font info objects used on this page
double lastFindXMin, // coordinates of the last "find" result
lastFindYMin;
bool haveLastFind;
std::vector<TextUnderline*> *underlines;
std::vector<TextLink*> *links;
int refCnt;
friend class TextLine;
friend class TextLineFrag;
friend class TextBlock;
friend class TextFlow;
friend class TextWordList;
friend class TextSelectionPainter;
friend class TextSelectionDumper;
};
//------------------------------------------------------------------------
// ActualText
//------------------------------------------------------------------------
class ActualText {
public:
// Create an ActualText
ActualText(TextPage *out);
~ActualText();
ActualText(const ActualText &) = delete;
ActualText& operator=(const ActualText &) = delete;
void addChar(GfxState *state, double x, double y,
double dx, double dy,
CharCode c, int nBytes, Unicode *u, int uLen);
void begin(GfxState *state, const GooString *text);
void end(GfxState *state);
private:
TextPage *text;
GooString *actualText; // replacement text for the span
double actualTextX0;
double actualTextY0;
double actualTextX1;
double actualTextY1;
int actualTextNBytes;
};
//------------------------------------------------------------------------
// TextOutputDev
//------------------------------------------------------------------------
class TextOutputDev: public OutputDev {
public:
// Open a text output file. If <fileName> is NULL, no file is
// written (this is useful, e.g., for searching text). If
// <physLayoutA> is true, the original physical layout of the text
// is maintained. If <rawOrder> is true, the text is kept in
// content stream order. If <discardDiag> is true, diagonal text
// is removed from output.
TextOutputDev(const char *fileName, bool physLayoutA,
double fixedPitchA, bool rawOrderA,
bool append, bool discardDiagA = false);
// Create a TextOutputDev which will write to a generic stream. If
// <physLayoutA> is true, the original physical layout of the text
// is maintained. If <rawOrder> is true, the text is kept in
// content stream order. If <discardDiag> is true, diagonal text
// is removed from output.
TextOutputDev(TextOutputFunc func, void *stream,
bool physLayoutA, double fixedPitchA,
bool rawOrderA, bool discardDiagA = false);
// Destructor.
~TextOutputDev();
// Check if file was successfully created.
virtual bool isOk() { return ok; }
//---- get info about output device
// Does this device use upside-down coordinates?
// (Upside-down means (0,0) is the top left corner of the page.)
bool upsideDown() override { return true; }
// Does this device use drawChar() or drawString()?
bool useDrawChar() override { return true; }
// Does this device use beginType3Char/endType3Char? Otherwise,
// text in Type 3 fonts will be drawn with drawChar/drawString.
bool interpretType3Chars() override { return false; }
// Does this device need non-text content?
bool needNonText() override { return false; }
// Does this device require incCharCount to be called for text on
// non-shown layers?
bool needCharCount() override { return true; }
//----- initialization and control
// Start a page.
void startPage(int pageNum, GfxState *state, XRef *xref) override;
// End a page.
void endPage() override;
//----- save/restore graphics state
void restoreState(GfxState *state) override;
//----- update text state
void updateFont(GfxState *state) override;
//----- text drawing
void beginString(GfxState *state, const GooString *s) override;
void endString(GfxState *state) override;
void drawChar(GfxState *state, double x, double y,
double dx, double dy,
double originX, double originY,
CharCode c, int nBytes, Unicode *u, int uLen) override;
void incCharCount(int nChars) override;
void beginActualText(GfxState *state, const GooString *text) override;
void endActualText(GfxState *state) override;
//----- path painting
void stroke(GfxState *state) override;
void fill(GfxState *state) override;
void eoFill(GfxState *state) override;
//----- link borders
void processLink(AnnotLink *link) override;
//----- special access
// Find a string. If <startAtTop> is true, starts looking at the
// top of the page; else if <startAtLast> is true, starts looking
// immediately after the last find result; else starts looking at
// <xMin>,<yMin>. If <stopAtBottom> is true, stops looking at the
// bottom of the page; else if <stopAtLast> is true, stops looking
// just before the last find result; else stops looking at
// <xMax>,<yMax>.
bool findText(Unicode *s, int len,
bool startAtTop, bool stopAtBottom,
bool startAtLast, bool stopAtLast,
bool caseSensitive, bool backward,
bool wholeWord,
double *xMin, double *yMin,
double *xMax, double *yMax);
// Get the text which is inside the specified rectangle.
GooString *getText(double xMin, double yMin,
double xMax, double yMax);
// Find a string by character position and length. If found, sets
// the text bounding rectangle and returns true; otherwise returns
// false.
bool findCharRange(int pos, int length,
double *xMin, double *yMin,
double *xMax, double *yMax);
void drawSelection(OutputDev *out, double scale, int rotation,
PDFRectangle *selection,
SelectionStyle style,
GfxColor *glyph_color, GfxColor *box_color);
std::vector<PDFRectangle*> *getSelectionRegion(PDFRectangle *selection,
SelectionStyle style,
double scale);
GooString *getSelectionText(PDFRectangle *selection,
SelectionStyle style);
// If true, will combine characters when a base and combining
// character are drawn on eachother.
void setMergeCombining(bool merge);
#ifdef TEXTOUT_WORD_LIST
// Build a flat word list, in content stream order (if
// this->rawOrder is true), physical layout order (if
// this->physLayout is true and this->rawOrder is false), or reading
// order (if both flags are false).
TextWordList *makeWordList();
#endif
// Returns the TextPage object for the last rasterized page,
// transferring ownership to the caller.
TextPage *takeText();
// Turn extra processing for HTML conversion on or off.
void enableHTMLExtras(bool doHTMLA) { doHTML = doHTMLA; }
// Get the head of the linked list of TextFlows for the
// last rasterized page.
TextFlow *getFlows();
private:
TextOutputFunc outputFunc; // output function
void *outputStream; // output stream
bool needClose; // need to close the output file?
// (only if outputStream is a FILE*)
TextPage *text; // text for the current page
bool physLayout; // maintain original physical layout when
// dumping text
double fixedPitch; // if physLayout is true and this is non-zero,
// assume fixed-pitch characters with this
// width
bool rawOrder; // keep text in content stream order
bool discardDiag; // Diagonal text, i.e., text that is not close to one of the
//0, 90, 180, or 270 degree axes, is discarded. This is useful
// to skip watermarks drawn on top of body text, etc.
bool doHTML; // extra processing for HTML conversion
bool ok; // set up ok?
ActualText *actualText;
};
#endif