CairoOutputDev.cc 99 KB
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//========================================================================
//
// CairoOutputDev.cc
//
// Copyright 2003 Glyph & Cog, LLC
// Copyright 2004 Red Hat, Inc
//
//========================================================================
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//========================================================================
//
// Modified under the Poppler project - http://poppler.freedesktop.org
//
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// All changes made under the Poppler project to this file are licensed
// under GPL version 2 or later
//
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// Copyright (C) 2005-2008 Jeff Muizelaar <jeff@infidigm.net>
// Copyright (C) 2005, 2006 Kristian Høgsberg <krh@redhat.com>
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// Copyright (C) 2005, 2009, 2012 Albert Astals Cid <aacid@kde.org>
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// Copyright (C) 2005 Nickolay V. Shmyrev <nshmyrev@yandex.ru>
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// Copyright (C) 2006-2011, 2013, 2014 Carlos Garcia Campos <carlosgc@gnome.org>
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// Copyright (C) 2008 Carl Worth <cworth@cworth.org>
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// Copyright (C) 2008-2015 Adrian Johnson <ajohnson@redneon.com>
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// Copyright (C) 2008 Michael Vrable <mvrable@cs.ucsd.edu>
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// Copyright (C) 2008, 2009 Chris Wilson <chris@chris-wilson.co.uk>
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// Copyright (C) 2008, 2012 Hib Eris <hib@hiberis.nl>
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// Copyright (C) 2009, 2010 David Benjamin <davidben@mit.edu>
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// Copyright (C) 2011-2014 Thomas Freitag <Thomas.Freitag@alfa.de>
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// Copyright (C) 2012 Patrick Pfeifer <p2000@mailinator.com>
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// Copyright (C) 2012, 2015, 2016 Jason Crain <jason@aquaticape.us>
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// Copyright (C) 2015 Suzuki Toshiya <mpsuzuki@hiroshima-u.ac.jp>
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//
// 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
//
//========================================================================
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#include <config.h>

#ifdef USE_GCC_PRAGMAS
#pragma implementation
#endif

#include <string.h>
#include <math.h>
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#include <assert.h>
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#include <cairo.h>

#include "goo/gfile.h"
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#include "goo/gtypes_p.h"
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#include "GlobalParams.h"
#include "Error.h"
#include "Object.h"
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#include "Gfx.h"
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#include "GfxState.h"
#include "GfxFont.h"
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#include "Page.h"
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#include "Link.h"
#include "FontEncodingTables.h"
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#include "PDFDocEncoding.h"
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#include <fofi/FoFiTrueType.h>
#include <splash/SplashBitmap.h>
#include "CairoOutputDev.h"
#include "CairoFontEngine.h"
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#include "CairoRescaleBox.h"
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#include "UnicodeMap.h"
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#include "JBIG2Stream.h"
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//------------------------------------------------------------------------

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// #define LOG_CAIRO
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#ifdef LOG_CAIRO
#define LOG(x) (x)
#else
#define LOG(x)
#endif

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static inline void printMatrix(cairo_matrix_t *matrix){
	printf("%f %f, %f %f (%f %f)\n", matrix->xx, matrix->yx,
			matrix->xy, matrix->yy,
			matrix->x0, matrix->y0);
}

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#define MIN(a,b) (((a) < (b)) ? (a) : (b))
#define MAX(a,b) (((a) > (b)) ? (a) : (b))


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//------------------------------------------------------------------------
// CairoImage
//------------------------------------------------------------------------

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CairoImage::CairoImage (double x1, double y1, double x2, double y2) {
  this->image = NULL;
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  this->x1 = x1;
  this->y1 = y1;
  this->x2 = x2;
  this->y2 = y2;
}

CairoImage::~CairoImage () {
  if (image)
    cairo_surface_destroy (image);
}
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void CairoImage::setImage (cairo_surface_t *image) {
  if (this->image)
    cairo_surface_destroy (this->image);
  this->image = cairo_surface_reference (image);
}

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//------------------------------------------------------------------------
// CairoOutputDev
//------------------------------------------------------------------------

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// We cannot tie the lifetime of an FT_Library object to that of
// CairoOutputDev, since any FT_Faces created with it may end up with a
// reference by Cairo which can be held long after the CairoOutputDev is
// deleted.  The simplest way to avoid problems is to never tear down the
// FT_Library instance; to avoid leaks, just use a single global instance
// initialized the first time it is needed.
FT_Library CairoOutputDev::ft_lib;
GBool CairoOutputDev::ft_lib_initialized = gFalse;

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CairoOutputDev::CairoOutputDev() {
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  doc = NULL;
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  if (!ft_lib_initialized) {
    FT_Init_FreeType(&ft_lib);
    ft_lib_initialized = gTrue;
  }

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  fontEngine = NULL;
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  fontEngine_owner = gFalse;
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  glyphs = NULL;
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  fill_pattern = NULL;
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  fill_color.r = fill_color.g = fill_color.b = 0;
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  stroke_pattern = NULL;
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  stroke_color.r = stroke_color.g = stroke_color.b = 0;
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  stroke_opacity = 1.0;
  fill_opacity = 1.0;
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  textClipPath = NULL;
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  strokePathClip = NULL;
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  cairo = NULL;
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  currentFont = NULL;
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  prescaleImages = gTrue;
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  printing = gTrue;
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  use_show_text_glyphs = gFalse;
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  inUncoloredPattern = gFalse;
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  inType3Char = gFalse;
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  t3_glyph_has_bbox = gFalse;
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  text_matrix_valid = gTrue;
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  groupColorSpaceStack = NULL;
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  maskStack = NULL;
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  group = NULL;
  mask = NULL;
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  shape = NULL;
  cairo_shape = NULL;
  knockoutCount = 0;
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  text = NULL;
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  actualText = NULL;
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  // the SA parameter supposedly defaults to false, but Acrobat
  // apparently hardwires it to true
  stroke_adjust = globalParams->getStrokeAdjust();
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  align_stroke_coords = gFalse;
  adjusted_stroke_width = gFalse;
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  xref = NULL;
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}

CairoOutputDev::~CairoOutputDev() {
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  if (fontEngine_owner && fontEngine) {
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    delete fontEngine;
  }
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  if (cairo)
    cairo_destroy (cairo);
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  cairo_pattern_destroy (stroke_pattern);
  cairo_pattern_destroy (fill_pattern);
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  if (group)
    cairo_pattern_destroy (group);
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  if (mask)
    cairo_pattern_destroy (mask);
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  if (shape)
    cairo_pattern_destroy (shape);
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  if (text) 
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    text->decRefCnt();
  if (actualText)
    delete actualText;  
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}
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void CairoOutputDev::setCairo(cairo_t *cairo)
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{
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  if (this->cairo != NULL) {
    cairo_status_t status = cairo_status (this->cairo);
    if (status) {
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      error(errInternal, -1, "cairo context error: {0:s}\n", cairo_status_to_string(status));
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    }
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    cairo_destroy (this->cairo);
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    assert(!cairo_shape);
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  }
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  if (cairo != NULL) {
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    this->cairo = cairo_reference (cairo);
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	/* save the initial matrix so that we can use it for type3 fonts. */
	//XXX: is this sufficient? could we miss changes to the matrix somehow?
	cairo_get_matrix(cairo, &orig_matrix);
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	setContextAntialias(cairo, antialias);
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  } else {
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    this->cairo = NULL;
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    this->cairo_shape = NULL;
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  }
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}

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void CairoOutputDev::setTextPage(TextPage *text)
{
  if (this->text) 
    this->text->decRefCnt();
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  if (actualText)
    delete actualText;
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  if (text) {
    this->text = text;
    this->text->incRefCnt();
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    actualText = new ActualText(text);
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  } else {
    this->text = NULL;
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    actualText = NULL;
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  }
}

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void CairoOutputDev::setAntialias(cairo_antialias_t antialias)
{
  this->antialias = antialias;
  if (cairo)
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    setContextAntialias (cairo, antialias);
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  if (cairo_shape)
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    setContextAntialias (cairo_shape, antialias);
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}

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void CairoOutputDev::setContextAntialias(cairo_t *cr, cairo_antialias_t antialias)
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{
  cairo_font_options_t *font_options;
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  cairo_set_antialias (cr, antialias);
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  font_options = cairo_font_options_create ();
  cairo_get_font_options (cr, font_options);
  cairo_font_options_set_antialias (font_options, antialias);
  cairo_set_font_options (cr, font_options);
  cairo_font_options_destroy (font_options);
}

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void CairoOutputDev::startDoc(PDFDoc *docA,
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			      CairoFontEngine *parentFontEngine) {
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  doc = docA;
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  if (parentFontEngine) {
    fontEngine = parentFontEngine;
  } else {
    if (fontEngine) {
      delete fontEngine;
    }
    fontEngine = new CairoFontEngine(ft_lib);
    fontEngine_owner = gTrue;
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  }
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  xref = doc->getXRef();
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}

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void CairoOutputDev::startPage(int pageNum, GfxState *state, XRef *xrefA) {
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  /* set up some per page defaults */
  cairo_pattern_destroy(fill_pattern);
  cairo_pattern_destroy(stroke_pattern);
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  fill_pattern = cairo_pattern_create_rgb(0., 0., 0.);
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  fill_color.r = fill_color.g = fill_color.b = 0;
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  stroke_pattern = cairo_pattern_reference(fill_pattern);
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  stroke_color.r = stroke_color.g = stroke_color.b = 0;
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  if (text)
    text->startPage(state);
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  if (xrefA != NULL) {
    xref = xrefA;
  }
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}

void CairoOutputDev::endPage() {
  if (text) {
    text->endPage();
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    text->coalesce(gTrue, 0, gFalse);
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  }
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}

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void CairoOutputDev::saveState(GfxState *state) {
  LOG(printf ("save\n"));
  cairo_save (cairo);
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  if (cairo_shape)
      cairo_save (cairo_shape);
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  MaskStack *ms = new MaskStack;
  ms->mask = cairo_pattern_reference(mask);
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  ms->mask_matrix = mask_matrix;
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  ms->next = maskStack;
  maskStack = ms;
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  if (strokePathClip)
    strokePathClip->ref_count++;
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}

void CairoOutputDev::restoreState(GfxState *state) {
  LOG(printf ("restore\n"));
  cairo_restore (cairo);
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  if (cairo_shape)
      cairo_restore (cairo_shape);
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  text_matrix_valid = gTrue;

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  /* These aren't restored by cairo_restore() since we keep them in
   * the output device. */
  updateFillColor(state);
  updateStrokeColor(state);
  updateFillOpacity(state);
  updateStrokeOpacity(state);
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  updateBlendMode(state);
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  MaskStack* ms = maskStack;
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  if (ms) {
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    if (mask)
      cairo_pattern_destroy(mask);
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    mask = ms->mask;
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    mask_matrix = ms->mask_matrix;
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    maskStack = ms->next;
    delete ms;
  }
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  if (strokePathClip && --strokePathClip->ref_count == 0) {
    delete strokePathClip->path;
    if (strokePathClip->dashes)
      gfree (strokePathClip->dashes);
    gfree (strokePathClip);
    strokePathClip = NULL;
  }
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}

void CairoOutputDev::updateAll(GfxState *state) {
  updateLineDash(state);
  updateLineJoin(state);
  updateLineCap(state);
  updateLineWidth(state);
  updateFlatness(state);
  updateMiterLimit(state);
  updateFillColor(state);
  updateStrokeColor(state);
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  updateFillOpacity(state);
  updateStrokeOpacity(state);
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  updateBlendMode(state);
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  needFontUpdate = gTrue;
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  if (text)
    text->updateFont(state);
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}

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void CairoOutputDev::setDefaultCTM(double *ctm) {
  cairo_matrix_t matrix;
  matrix.xx = ctm[0];
  matrix.yx = ctm[1];
  matrix.xy = ctm[2];
  matrix.yy = ctm[3];
  matrix.x0 = ctm[4];
  matrix.y0 = ctm[5];

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  cairo_transform (cairo, &matrix);
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  if (cairo_shape)
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      cairo_transform (cairo_shape, &matrix);
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  OutputDev::setDefaultCTM(ctm);
}

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void CairoOutputDev::updateCTM(GfxState *state, double m11, double m12,
				double m21, double m22,
				double m31, double m32) {
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  cairo_matrix_t matrix, invert_matrix;
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  matrix.xx = m11;
  matrix.yx = m12;
  matrix.xy = m21;
  matrix.yy = m22;
  matrix.x0 = m31;
  matrix.y0 = m32;

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  /* Make sure the matrix is invertible before setting it.
   * cairo will blow up if we give it a matrix that's not
   * invertible, so we need to check before passing it
   * to cairo_transform. Ignoring it is likely to give better
   * results than not rendering anything at all. See #14398
   *
   * Ideally, we could do the cairo_transform
   * and then check if anything went wrong and fix it then
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   * instead of having to invert the matrix. */
  invert_matrix = matrix;
  if (cairo_matrix_invert(&invert_matrix)) {
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    error(errSyntaxWarning, -1, "matrix not invertible\n");
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    return;
  }

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  cairo_transform (cairo, &matrix);
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  if (cairo_shape)
    cairo_transform (cairo_shape, &matrix);
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  updateLineDash(state);
  updateLineJoin(state);
  updateLineCap(state);
  updateLineWidth(state);
}

void CairoOutputDev::updateLineDash(GfxState *state) {
  double *dashPattern;
  int dashLength;
  double dashStart;

  state->getLineDash(&dashPattern, &dashLength, &dashStart);
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  cairo_set_dash (cairo, dashPattern, dashLength, dashStart);
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  if (cairo_shape)
    cairo_set_dash (cairo_shape, dashPattern, dashLength, dashStart);
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}

void CairoOutputDev::updateFlatness(GfxState *state) {
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  // cairo_set_tolerance (cairo, state->getFlatness());
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}

void CairoOutputDev::updateLineJoin(GfxState *state) {
  switch (state->getLineJoin()) {
  case 0:
    cairo_set_line_join (cairo, CAIRO_LINE_JOIN_MITER);
    break;
  case 1:
    cairo_set_line_join (cairo, CAIRO_LINE_JOIN_ROUND);
    break;
  case 2:
    cairo_set_line_join (cairo, CAIRO_LINE_JOIN_BEVEL);
    break;
  }
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  if (cairo_shape)
    cairo_set_line_join (cairo_shape, cairo_get_line_join(cairo));
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}

void CairoOutputDev::updateLineCap(GfxState *state) {
  switch (state->getLineCap()) {
  case 0:
    cairo_set_line_cap (cairo, CAIRO_LINE_CAP_BUTT);
    break;
  case 1:
    cairo_set_line_cap (cairo, CAIRO_LINE_CAP_ROUND);
    break;
  case 2:
    cairo_set_line_cap (cairo, CAIRO_LINE_CAP_SQUARE);
    break;
  }
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  if (cairo_shape)
    cairo_set_line_cap (cairo_shape, cairo_get_line_cap(cairo));
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}

void CairoOutputDev::updateMiterLimit(GfxState *state) {
  cairo_set_miter_limit (cairo, state->getMiterLimit());
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  if (cairo_shape)
    cairo_set_miter_limit (cairo_shape, state->getMiterLimit());
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}

void CairoOutputDev::updateLineWidth(GfxState *state) {
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  LOG(printf ("line width: %f\n", state->getLineWidth()));
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  adjusted_stroke_width = gFalse;
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  double width = state->getLineWidth();
  if (stroke_adjust && !printing) {
    double x, y;
    x = y = width;

    /* find out line width in device units */
    cairo_user_to_device_distance(cairo, &x, &y);
    if (fabs(x) <= 1.0 && fabs(y) <= 1.0) {
      /* adjust width to at least one device pixel */
      x = y = 1.0;
      cairo_device_to_user_distance(cairo, &x, &y);
      width = MIN(fabs(x),fabs(y));
      adjusted_stroke_width = gTrue;
    }
  } else if (width == 0.0) {
    /* Cairo does not support 0 line width == 1 device pixel. Find out
     * how big pixels (device unit) are in the x and y
     * directions. Choose the smaller of the two as our line width.
     */
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    double x = 1.0, y = 1.0;
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    if (printing) {
      // assume printer pixel size is 1/600 inch
      x = 72.0/600;
      y = 72.0/600;
    }
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    cairo_device_to_user_distance(cairo, &x, &y);
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    width = MIN(fabs(x),fabs(y));
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  }
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  cairo_set_line_width (cairo, width);
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  if (cairo_shape)
    cairo_set_line_width (cairo_shape, cairo_get_line_width (cairo));
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}

void CairoOutputDev::updateFillColor(GfxState *state) {
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  GfxRGB color = fill_color;
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  if (inUncoloredPattern)
    return;

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  state->getFillRGB(&fill_color);
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  if (cairo_pattern_get_type (fill_pattern) != CAIRO_PATTERN_TYPE_SOLID ||
      color.r != fill_color.r ||
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      color.g != fill_color.g ||
      color.b != fill_color.b)
  {
    cairo_pattern_destroy(fill_pattern);
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    fill_pattern = cairo_pattern_create_rgba(colToDbl(fill_color.r),
					     colToDbl(fill_color.g),
					     colToDbl(fill_color.b),
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					     fill_opacity);

    LOG(printf ("fill color: %d %d %d\n",
		fill_color.r, fill_color.g, fill_color.b));
  }
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}

void CairoOutputDev::updateStrokeColor(GfxState *state) {
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  GfxRGB color = stroke_color;
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  if (inUncoloredPattern)
    return;

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  state->getStrokeRGB(&stroke_color);
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  if (cairo_pattern_get_type (fill_pattern) != CAIRO_PATTERN_TYPE_SOLID ||
      color.r != stroke_color.r ||
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      color.g != stroke_color.g ||
      color.b != stroke_color.b)
  {
    cairo_pattern_destroy(stroke_pattern);
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    stroke_pattern = cairo_pattern_create_rgba(colToDbl(stroke_color.r),
					       colToDbl(stroke_color.g),
					       colToDbl(stroke_color.b),
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					       stroke_opacity);

    LOG(printf ("stroke color: %d %d %d\n",
		stroke_color.r, stroke_color.g, stroke_color.b));
  }
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}

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void CairoOutputDev::updateFillOpacity(GfxState *state) {
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  double opacity = fill_opacity;
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  if (inUncoloredPattern)
    return;

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  fill_opacity = state->getFillOpacity();
  if (opacity != fill_opacity) {
    cairo_pattern_destroy(fill_pattern);
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    fill_pattern = cairo_pattern_create_rgba(colToDbl(fill_color.r),
					     colToDbl(fill_color.g),
					     colToDbl(fill_color.b),
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					     fill_opacity);

    LOG(printf ("fill opacity: %f\n", fill_opacity));
  }
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}

void CairoOutputDev::updateStrokeOpacity(GfxState *state) {
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  double opacity = stroke_opacity;
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  if (inUncoloredPattern)
    return;

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  stroke_opacity = state->getStrokeOpacity();
  if (opacity != stroke_opacity) {
    cairo_pattern_destroy(stroke_pattern);
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    stroke_pattern = cairo_pattern_create_rgba(colToDbl(stroke_color.r),
					       colToDbl(stroke_color.g),
					       colToDbl(stroke_color.b),
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					       stroke_opacity);

    LOG(printf ("stroke opacity: %f\n", stroke_opacity));
  }
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}

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void CairoOutputDev::updateFillColorStop(GfxState *state, double offset) {
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  if (inUncoloredPattern)
    return;

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  state->getFillRGB(&fill_color);

  cairo_pattern_add_color_stop_rgba(fill_pattern, offset,
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				    colToDbl(fill_color.r),
				    colToDbl(fill_color.g),
				    colToDbl(fill_color.b),
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				    fill_opacity);
  LOG(printf ("fill color stop: %f (%d, %d, %d)\n",
	      offset, fill_color.r, fill_color.g, fill_color.b));
}

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void CairoOutputDev::updateBlendMode(GfxState *state) {
  switch (state->getBlendMode()) {
  default:
  case gfxBlendNormal:
    cairo_set_operator (cairo, CAIRO_OPERATOR_OVER);
    break;
  case gfxBlendMultiply:
    cairo_set_operator (cairo, CAIRO_OPERATOR_MULTIPLY);
    break;
  case gfxBlendScreen:
    cairo_set_operator (cairo, CAIRO_OPERATOR_SCREEN);
    break;
  case gfxBlendOverlay:
    cairo_set_operator (cairo, CAIRO_OPERATOR_OVERLAY);
    break;
  case gfxBlendDarken:
    cairo_set_operator (cairo, CAIRO_OPERATOR_DARKEN);
    break;
  case gfxBlendLighten:
    cairo_set_operator (cairo, CAIRO_OPERATOR_LIGHTEN);
    break;
  case gfxBlendColorDodge:
    cairo_set_operator (cairo, CAIRO_OPERATOR_COLOR_DODGE);
    break;
  case gfxBlendColorBurn:
    cairo_set_operator (cairo, CAIRO_OPERATOR_COLOR_BURN);
    break;
  case gfxBlendHardLight:
    cairo_set_operator (cairo, CAIRO_OPERATOR_HARD_LIGHT);
    break;
  case gfxBlendSoftLight:
    cairo_set_operator (cairo, CAIRO_OPERATOR_SOFT_LIGHT);
    break;
  case gfxBlendDifference:
    cairo_set_operator (cairo, CAIRO_OPERATOR_DIFFERENCE);
    break;
  case gfxBlendExclusion:
    cairo_set_operator (cairo, CAIRO_OPERATOR_EXCLUSION);
    break;
  case gfxBlendHue:
    cairo_set_operator (cairo, CAIRO_OPERATOR_HSL_HUE);
    break;
  case gfxBlendSaturation:
    cairo_set_operator (cairo, CAIRO_OPERATOR_HSL_SATURATION);
    break;
  case gfxBlendColor:
    cairo_set_operator (cairo, CAIRO_OPERATOR_HSL_COLOR);
    break;
  case gfxBlendLuminosity:
    cairo_set_operator (cairo, CAIRO_OPERATOR_HSL_LUMINOSITY);
    break;
  }
  LOG(printf ("blend mode: %d\n", (int)state->getBlendMode()));
}

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void CairoOutputDev::updateFont(GfxState *state) {
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  cairo_font_face_t *font_face;
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  cairo_matrix_t matrix, invert_matrix;
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  LOG(printf ("updateFont() font=%s\n", state->getFont()->getName()->getCString()));
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  needFontUpdate = gFalse;

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  //FIXME: use cairo font engine?
  if (text)
    text->updateFont(state);
  
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  currentFont = fontEngine->getFont (state->getFont(), doc, printing, xref);
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  if (!currentFont)
    return;
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  font_face = currentFont->getFontFace();
  cairo_set_font_face (cairo, font_face);
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  use_show_text_glyphs = state->getFont()->hasToUnicodeCMap() &&
    cairo_surface_has_show_text_glyphs (cairo_get_target (cairo));
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  double fontSize = state->getFontSize();
  double *m = state->getTextMat();
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  /* NOTE: adjusting by a constant is hack. The correct solution
   * is probably to use user-fonts and compute the scale on a per
   * glyph basis instead of for the entire font */
  double w = currentFont->getSubstitutionCorrection(state->getFont());
  matrix.xx = m[0] * fontSize * state->getHorizScaling() * w;
  matrix.yx = m[1] * fontSize * state->getHorizScaling() * w;
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  matrix.xy = -m[2] * fontSize;
  matrix.yy = -m[3] * fontSize;
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  matrix.x0 = 0;
  matrix.y0 = 0;
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  LOG(printf ("font matrix: %f %f %f %f\n", matrix.xx, matrix.yx, matrix.xy, matrix.yy));

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 /* Make sure the font matrix is invertible before setting it.  cairo
  * will blow up if we give it a matrix that's not invertible, so we
  * need to check before passing it to cairo_set_font_matrix. Ignoring it
  * is likely to give better results than not rendering anything at
  * all. See #18254.
  */
  invert_matrix = matrix;
  if (cairo_matrix_invert(&invert_matrix)) {
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    error(errSyntaxWarning, -1, "font matrix not invertible");
    text_matrix_valid = gFalse;
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    return;
  }

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  cairo_set_font_matrix (cairo, &matrix);
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  text_matrix_valid = gTrue;
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}

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/* Tolerance in pixels for checking if strokes are horizontal or vertical
 * lines in device space */
#define STROKE_COORD_TOLERANCE 0.5

/* Align stroke coordinate i if the point is the start or end of a
 * horizontal or vertical line */
void CairoOutputDev::alignStrokeCoords(GfxSubpath *subpath, int i, double *x, double *y)
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{
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  double x1, y1, x2, y2;
  GBool align = gFalse;

  x1 = subpath->getX(i);
  y1 = subpath->getY(i);
  cairo_user_to_device (cairo, &x1, &y1);

  // Does the current coord and prev coord form a horiz or vert line?
  if (i > 0 && !subpath->getCurve(i - 1)) {
    x2 = subpath->getX(i - 1);
    y2 = subpath->getY(i - 1);
    cairo_user_to_device (cairo, &x2, &y2);
    if (fabs(x2 - x1) < STROKE_COORD_TOLERANCE || fabs(y2 - y1) < STROKE_COORD_TOLERANCE)
      align = gTrue;
  }

  // Does the current coord and next coord form a horiz or vert line?
  if (i < subpath->getNumPoints() - 1 && !subpath->getCurve(i + 1)) {
    x2 = subpath->getX(i + 1);
    y2 = subpath->getY(i + 1);
    cairo_user_to_device (cairo, &x2, &y2);
    if (fabs(x2 - x1) < STROKE_COORD_TOLERANCE || fabs(y2 - y1) < STROKE_COORD_TOLERANCE)
      align = gTrue;
  }

  *x = subpath->getX(i);
  *y = subpath->getY(i);
  if (align) {
    /* see http://www.cairographics.org/FAQ/#sharp_lines */
    cairo_user_to_device (cairo, x, y);
    *x = floor(*x) + 0.5;
    *y = floor(*y) + 0.5;
    cairo_device_to_user (cairo, x, y);
  }
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}

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#undef STROKE_COORD_TOLERANCE

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void CairoOutputDev::doPath(cairo_t *cairo, GfxState *state, GfxPath *path) {
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  GfxSubpath *subpath;
  int i, j;
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  double x, y;
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  cairo_new_path (cairo);
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  for (i = 0; i < path->getNumSubpaths(); ++i) {
    subpath = path->getSubpath(i);
    if (subpath->getNumPoints() > 0) {
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      if (align_stroke_coords) {
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        alignStrokeCoords(subpath, 0, &x, &y);
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      } else {
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        x = subpath->getX(0);
        y = subpath->getY(0);
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      }
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      cairo_move_to (cairo, x, y);
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      j = 1;
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      while (j < subpath->getNumPoints()) {
	if (subpath->getCurve(j)) {
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	  if (align_stroke_coords) {
            alignStrokeCoords(subpath, j + 2, &x, &y);
          } else {
            x = subpath->getX(j+2);
            y = subpath->getY(j+2);
          }
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	  cairo_curve_to( cairo,
			  subpath->getX(j), subpath->getY(j),
			  subpath->getX(j+1), subpath->getY(j+1),
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			  x, y);
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	  j += 3;
	} else {
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	  if (align_stroke_coords) {
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            alignStrokeCoords(subpath, j, &x, &y);
          } else {
            x = subpath->getX(j);
            y = subpath->getY(j);
          }
          cairo_line_to (cairo, x, y);
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	  ++j;
	}
      }
      if (subpath->isClosed()) {
	LOG (printf ("close\n"));
	cairo_close_path (cairo);
      }
    }
  }
}

void CairoOutputDev::stroke(GfxState *state) {
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  if (inType3Char) {
      GfxGray gray;
      state->getFillGray(&gray);
      if (colToDbl(gray) > 0.5)
	  return;
  }

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  if (adjusted_stroke_width)
    align_stroke_coords = gTrue;
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  doPath (cairo, state, state->getPath());
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  align_stroke_coords = gFalse;
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  cairo_set_source (cairo, stroke_pattern);
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  LOG(printf ("stroke\n"));
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  if (strokePathClip) {
    cairo_push_group (cairo);
    cairo_stroke (cairo);
    cairo_pop_group_to_source (cairo);
    fillToStrokePathClip (state);
  } else {
    cairo_stroke (cairo);
  }
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  if (cairo_shape) {
    doPath (cairo_shape, state, state->getPath());
    cairo_stroke (cairo_shape);
  }
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}

void CairoOutputDev::fill(GfxState *state) {
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  if (inType3Char) {
      GfxGray gray;
      state->getFillGray(&gray);
      if (colToDbl(gray) > 0.5)
	  return;
  }

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  doPath (cairo, state, state->getPath());
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  cairo_set_fill_rule (cairo, CAIRO_FILL_RULE_WINDING);
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  cairo_set_source (cairo, fill_pattern);
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  LOG(printf ("fill\n"));
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  //XXX: how do we get the path
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  if (mask) {
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    cairo_save (cairo);
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    cairo_clip (cairo);
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    if (strokePathClip) {
      cairo_push_group (cairo);
      fillToStrokePathClip (state);
      cairo_pop_group_to_source (cairo);
    }
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    cairo_set_matrix (cairo, &mask_matrix);
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    cairo_mask (cairo, mask);
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    cairo_restore (cairo);
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  } else if (strokePathClip) {
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    fillToStrokePathClip(state);
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  } else {
    cairo_fill (cairo);
  }
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  if (cairo_shape) {
    cairo_set_fill_rule (cairo_shape, CAIRO_FILL_RULE_WINDING);
    doPath (cairo_shape, state, state->getPath());
    cairo_fill (cairo_shape);
  }
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}

void CairoOutputDev::eoFill(GfxState *state) {
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  doPath (cairo, state, state->getPath());
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  cairo_set_fill_rule (cairo, CAIRO_FILL_RULE_EVEN_ODD);
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  cairo_set_source (cairo, fill_pattern);
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  LOG(printf ("fill-eo\n"));
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  if (mask) {
    cairo_save (cairo);
    cairo_clip (cairo);
    cairo_set_matrix (cairo, &mask_matrix);
    cairo_mask (cairo, mask);
    cairo_restore (cairo);
  } else {
    cairo_fill (cairo);
  }
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  if (cairo_shape) {
    cairo_set_fill_rule (cairo_shape, CAIRO_FILL_RULE_EVEN_ODD);
    doPath (cairo_shape, state, state->getPath());
    cairo_fill (cairo_shape);
  }

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}

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GBool CairoOutputDev::tilingPatternFill(GfxState *state, Gfx *gfxA, Catalog *cat, Object *str,
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					double *pmat, int paintType, int /*tilingType*/, Dict *resDict,
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					double *mat, double *bbox,
					int x0, int y0, int x1, int y1,
					double xStep, double yStep)
{
  PDFRectangle box;
  Gfx *gfx;
  cairo_pattern_t *pattern;
  cairo_surface_t *surface;
  cairo_matrix_t matrix;
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  cairo_matrix_t pattern_matrix;
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  cairo_t *old_cairo;
  double xMin, yMin, xMax, yMax;
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  double width, height;
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  double scaleX, scaleY;
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  int surface_width, surface_height;
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  StrokePathClip *strokePathTmp;
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  GBool adjusted_stroke_width_tmp;
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  cairo_pattern_t *maskTmp;
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  width = bbox[2] - bbox[0];
  height = bbox[3] - bbox[1];

  if (xStep != width || yStep != height)
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    return gFalse;
  /* TODO: implement the other cases here too */

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  // Find the width and height of the transformed pattern
  cairo_get_matrix (cairo, &matrix);
  cairo_matrix_init (&pattern_matrix, mat[0], mat[1], mat[2], mat[3], mat[4], mat[5]);
  cairo_matrix_multiply (&matrix, &matrix, &pattern_matrix);

  double widthX = width, widthY = 0;
  cairo_matrix_transform_distance (&matrix, &widthX, &widthY);
  surface_width = ceil (sqrt (widthX * widthX + widthY * widthY));

  double heightX = 0, heightY = height;
  cairo_matrix_transform_distance (&matrix, &heightX, &heightY);
  surface_height = ceil (sqrt (heightX * heightX + heightY * heightY));
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  scaleX = surface_width / width;
  scaleY = surface_height / height;
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  surface = cairo_surface_create_similar (cairo_get_target (cairo),
					  CAIRO_CONTENT_COLOR_ALPHA,
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					  surface_width, surface_height);
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  if (cairo_surface_status (surface))
    return gFalse;

  old_cairo = cairo;
  cairo = cairo_create (surface);
  cairo_surface_destroy (surface);
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  setContextAntialias(cairo, antialias);
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  box.x1 = bbox[0]; box.y1 = bbox[1];
  box.x2 = bbox[2]; box.y2 = bbox[3];
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  cairo_scale (cairo, scaleX, scaleY);
  cairo_translate (cairo, -box.x1, -box.y1);

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  strokePathTmp = strokePathClip;
  strokePathClip = NULL;
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  adjusted_stroke_width_tmp = adjusted_stroke_width;
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  maskTmp = mask;
  mask = NULL;
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  gfx = new Gfx(doc, this, resDict, &box, NULL, NULL, NULL, gfxA->getXRef());
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  if (paintType == 2)
    inUncoloredPattern = gTrue;
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  gfx->display(str);
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  if (paintType == 2)
    inUncoloredPattern = gFalse;
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  delete gfx;
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  strokePathClip = strokePathTmp;
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  adjusted_stroke_width = adjusted_stroke_width_tmp;
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  mask = maskTmp;
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  pattern = cairo_pattern_create_for_surface (cairo_get_target (cairo));
  cairo_destroy (cairo);
  cairo = old_cairo;
  if (cairo_pattern_status (pattern))
    return gFalse;

  state->getUserClipBBox(&xMin, &yMin, &xMax, &yMax);
  cairo_rectangle (cairo, xMin, yMin, xMax - xMin, yMax - yMin);

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  cairo_matrix_init_scale (&matrix, scaleX, scaleY);
  cairo_matrix_translate (&matrix, -box.x1, -box.y1);
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  cairo_pattern_set_matrix (pattern, &matrix);

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  cairo_transform (cairo, &pattern_matrix);
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  cairo_set_source (cairo, pattern);
  cairo_pattern_set_extend (pattern, CAIRO_EXTEND_REPEAT);
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  if (strokePathClip) {
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    fillToStrokePathClip(state);
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  } else {
    cairo_fill (cairo);
  }
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  cairo_pattern_destroy (pattern);

  return gTrue;
}

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#if CAIRO_VERSION >= CAIRO_VERSION_ENCODE(1, 12, 0)
GBool CairoOutputDev::functionShadedFill(GfxState *state, GfxFunctionShading *shading)
{
  // Function shaded fills are subdivided to rectangles that are the
  // following size in device space.  Note when printing this size is
  // in points.
  const int subdivide_pixels = 10;

  double x_begin, x_end, x1, x2;
  double y_begin, y_end, y1, y2;
  double x_step;
  double y_step;
  GfxColor color;
  GfxRGB rgb;
  double *matrix;
  cairo_matrix_t mat;

  matrix = shading->getMatrix();
  mat.xx = matrix[0];
  mat.yx = matrix[1];
  mat.xy = matrix[2];
  mat.yy = matrix[3];
  mat.x0 = matrix[4];
  mat.y0 = matrix[5];
  if (cairo_matrix_invert(&mat)) {
    error(errSyntaxWarning, -1, "matrix not invertible\n");
    return gFalse;
    }

  // get cell size in pattern space
  x_step = y_step = subdivide_pixels;
  cairo_matrix_transform_distance (&mat, &x_step, &y_step);

  cairo_pattern_destroy(fill_pattern);
  fill_pattern = cairo_pattern_create_mesh ();
  cairo_pattern_set_matrix(fill_pattern, &mat);
  shading->getDomain(&x_begin, &y_begin, &x_end, &y_end);

  for (x1 = x_begin; x1 < x_end; x1 += x_step) {
    x2 = x1 + x_step;
    if (x2 > x_end)
      x2 = x_end;

    for (y1 = y_begin; y1 < y_end; y1 += y_step) {
      y2 = y1 + y_step;
      if (y2 > y_end)
	y2 = y_end;

      cairo_mesh_pattern_begin_patch (fill_pattern);
      cairo_mesh_pattern_move_to (fill_pattern, x1, y1);
      cairo_mesh_pattern_line_to (fill_pattern, x2, y1);
      cairo_mesh_pattern_line_to (fill_pattern, x2, y2);
      cairo_mesh_pattern_line_to (fill_pattern, x1, y2);

      shading->getColor(x1, y1, &color);
      shading->getColorSpace()->getRGB(&color, &rgb);
      cairo_mesh_pattern_set_corner_color_rgb (fill_pattern, 0,
					       colToDbl(rgb.r),
					       colToDbl(rgb.g),
					       colToDbl(rgb.b));

      shading->getColor(x2, y1, &color);
      shading->getColorSpace()->getRGB(&color, &rgb);
      cairo_mesh_pattern_set_corner_color_rgb (fill_pattern, 1,
					       colToDbl(rgb.r),
					       colToDbl(rgb.g),
					       colToDbl(rgb.b));

      shading->getColor(x2, y2, &color);
      shading->getColorSpace()->getRGB(&color, &rgb);
      cairo_mesh_pattern_set_corner_color_rgb (fill_pattern, 2,
					       colToDbl(rgb.r),
					       colToDbl(rgb.g),
					       colToDbl(rgb.b));

      shading->getColor(x1, y2, &color);
      shading->getColorSpace()->getRGB(&color, &rgb);
      cairo_mesh_pattern_set_corner_color_rgb (fill_pattern, 3,
					       colToDbl(rgb.r),
					       colToDbl(rgb.g),
					       colToDbl(rgb.b));

      cairo_mesh_pattern_end_patch (fill_pattern);
    }
  }

  double xMin, yMin, xMax, yMax;
  // get the clip region bbox
  state->getUserClipBBox(&xMin, &yMin, &xMax, &yMax);
  state->moveTo(xMin, yMin);
  state->lineTo(xMin, yMax);
  state->lineTo(xMax, yMax);
  state->lineTo(xMax, yMin);
  state->closePath();
  fill(state);
  state->clearPath();

  return gTrue;
}
#endif /* CAIRO_VERSION >= CAIRO_VERSION_ENCODE(1, 12, 0) */

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GBool CairoOutputDev::axialShadedFill(GfxState *state, GfxAxialShading *shading, double tMin, double tMax) {
  double x0, y0, x1, y1;
  double dx, dy;

  shading->getCoords(&x0, &y0, &x1, &y1);
  dx = x1 - x0;
  dy = y1 - y0;

  cairo_pattern_destroy(fill_pattern);
  fill_pattern = cairo_pattern_create_linear (x0 + tMin * dx, y0 + tMin * dy,
					      x0 + tMax * dx, y0 + tMax * dy);
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  if (!shading->getExtend0() && !shading->getExtend1())
    cairo_pattern_set_extend (fill_pattern, CAIRO_EXTEND_NONE);
  else
    cairo_pattern_set_extend (fill_pattern, CAIRO_EXTEND_PAD);
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  LOG (printf ("axial-sh\n"));

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  // TODO: use the actual stops in the shading in the case
  // of linear interpolation (Type 2 Exponential functions with N=1)
  return gFalse;
}

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GBool CairoOutputDev::axialShadedSupportExtend(GfxState *state, GfxAxialShading *shading)
{
  return (shading->getExtend0() == shading->getExtend1());
}

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GBool CairoOutputDev::radialShadedFill(GfxState *state, GfxRadialShading *shading, double sMin, double sMax) {
  double x0, y0, r0, x1, y1, r1;
  double dx, dy, dr;
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  cairo_matrix_t matrix;
  double scale;
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  shading->getCoords(&x0, &y0, &r0, &x1, &y1, &r1);
  dx = x1 - x0;
  dy = y1 - y0;
  dr = r1 - r0;
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  // Cairo/pixman do not work well with a very large or small scaled
  // matrix.  See cairo bug #81657.
  //
  // As a workaround, scale the pattern by the average of the vertical
  // and horizontal scaling of the current transformation matrix.
  cairo_get_matrix(cairo, &matrix);
  scale = (sqrt(matrix.xx * matrix.xx + matrix.yx * matrix.yx)
	   + sqrt(matrix.xy * matrix.xy + matrix.yy * matrix.yy)) / 2;
  cairo_matrix_init_scale(&matrix, scale, scale);

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  cairo_pattern_destroy(fill_pattern);
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  fill_pattern = cairo_pattern_create_radial ((x0 + sMin * dx) * scale,
					      (y0 + sMin * dy) * scale,
					      (r0 + sMin * dr) * scale,
					      (x0 + sMax * dx) * scale,
					      (y0 + sMax * dy) * scale,
					      (r0 + sMax * dr) * scale);
  cairo_pattern_set_matrix(fill_pattern, &matrix);
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  if (shading->getExtend0() && shading->getExtend1())
    cairo_pattern_set_extend (fill_pattern, CAIRO_EXTEND_PAD);
  else
    cairo_pattern_set_extend (fill_pattern, CAIRO_EXTEND_NONE);

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  LOG (printf ("radial-sh\n"));

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  return gFalse;
}

GBool CairoOutputDev::radialShadedSupportExtend(GfxState *state, GfxRadialShading *shading)
{
  return (shading->getExtend0() == shading->getExtend1());
}

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#if CAIRO_VERSION >= CAIRO_VERSION_ENCODE(1, 12, 0)
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GBool CairoOutputDev::gouraudTriangleShadedFill(GfxState *state, GfxGouraudTriangleShading *shading)
{
  double x0, y0, x1, y1, x2, y2;
  GfxColor color[3];
  int i, j;
  GfxRGB rgb;

  cairo_pattern_destroy(fill_pattern);
  fill_pattern = cairo_pattern_create_mesh ();

  for (i = 0; i < shading->getNTriangles(); i++) {
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    if (shading->isParameterized()) {
      double color0, color1, color2;
      shading->getTriangle(i, &x0, &y0, &color0,
                              &x1, &y1, &color1,
                              &x2, &y2, &color2);
      shading->getParameterizedColor(color0, &color[0]);
      shading->getParameterizedColor(color1, &color[1]);
      shading->getParameterizedColor(color2, &color[2]);
    } else {
      shading->getTriangle(i,
                           &x0, &y0, &color[0],
                           &x1, &y1, &color[1],
                           &x2, &y2, &color[2]);

    }
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    cairo_mesh_pattern_begin_patch (fill_pattern);
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    cairo_mesh_pattern_move_to (fill_pattern, x0, y0);
    cairo_mesh_pattern_line_to (fill_pattern, x1, y1);
    cairo_mesh_pattern_line_to (fill_pattern, x2, y2);
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    for (j = 0; j < 3; j++) {
	shading->getColorSpace()->getRGB(&color[j], &rgb);
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	cairo_mesh_pattern_set_corner_color_rgb (fill_pattern, j,
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						 colToDbl(rgb.r),
						 colToDbl(rgb.g),
						 colToDbl(rgb.b));
    }

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    cairo_mesh_pattern_end_patch (fill_pattern);
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  }

  double xMin, yMin, xMax, yMax;
  // get the clip region bbox
  state->getUserClipBBox(&xMin, &yMin, &xMax, &yMax);
  state->moveTo(xMin, yMin);
  state->lineTo(xMin, yMax);
  state->lineTo(xMax, yMax);
  state->lineTo(xMax, yMin);
  state->closePath();
  fill(state);
  state->clearPath();

  return gTrue;
}

GBool CairoOutputDev::patchMeshShadedFill(GfxState *state, GfxPatchMeshShading *shading)
{
  int i, j, k;

  cairo_pattern_destroy(fill_pattern);
  fill_pattern = cairo_pattern_create_mesh ();

  for (i = 0; i < shading->getNPatches(); i++) {
    GfxPatch *patch = shading->getPatch(i);
    GfxColor color;
    GfxRGB rgb;

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    cairo_mesh_pattern_begin_patch (fill_pattern);
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    cairo_mesh_pattern_move_to (fill_pattern, patch->x[0][0], patch->y[0][0]);
    cairo_mesh_pattern_curve_to (fill_pattern,
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			    patch->x[0][1], patch->y[0][1],
			    patch->x[0][2], patch->y[0][2],
			    patch->x[0][3], patch->y[0][3]);

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    cairo_mesh_pattern_curve_to (fill_pattern,
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			    patch->x[1][3], patch->y[1][3],
			    patch->x[2][3], patch->y[2][3],
			    patch->x[3][3], patch->y[3][3]);

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    cairo_mesh_pattern_curve_to (fill_pattern,
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			    patch->x[3][2], patch->y[3][2],
			    patch->x[3][1], patch->y[3][1],
			    patch->x[3][0], patch->y[3][0]);

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    cairo_mesh_pattern_curve_to (fill_pattern,
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			    patch->x[2][0], patch->y[2][0],
			    patch->x[1][0], patch->y[1][0],
			    patch->x[0][0], patch->y[0][0]);

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    cairo_mesh_pattern_set_control_point (fill_pattern, 0, patch->x[1][1], patch->y[1][1]);
    cairo_mesh_pattern_set_control_point (fill_pattern, 1, patch->x[1][2], patch->y[1][2]);
    cairo_mesh_pattern_set_control_point (fill_pattern, 2, patch->x[2][2], patch->y[2][2]);
    cairo_mesh_pattern_set_control_point (fill_pattern, 3, patch->x[2][1], patch->y[2][1]);
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    for (j = 0; j < 4; j++) {
      int u, v;

      switch (j) {
	case 0:
	  u = 0; v = 0;
	  break;
	case 1:
	  u = 0; v = 1;
	  break;