1 files changed, 3335 insertions, 0 deletions

diff --git a/kpdf/xpdf/splash/Splash.cc b/kpdf/xpdf/splash/Splash.cc
new file mode 100644
index 00000000..30179fda
--- /dev/null
+++ b/kpdf/xpdf/splash/Splash.cc
@@ -0,0 +1,3335 @@
+//========================================================================
+//
+// Splash.cc
+//
+//========================================================================
+
+#include <aconf.h>
+
+#ifdef USE_GCC_PRAGMAS
+#pragma implementation
+#endif
+
+#include <stdlib.h>
+#include <string.h>
+#include "gmem.h"
+#include "SplashErrorCodes.h"
+#include "SplashMath.h"
+#include "SplashBitmap.h"
+#include "SplashState.h"
+#include "SplashPath.h"
+#include "SplashXPath.h"
+#include "SplashXPathScanner.h"
+#include "SplashPattern.h"
+#include "SplashScreen.h"
+#include "SplashFont.h"
+#include "SplashGlyphBitmap.h"
+#include "Splash.h"
+
+//------------------------------------------------------------------------
+
+// distance of Bezier control point from center for circle approximation
+// = (4 * (sqrt(2) - 1) / 3) * r
+#define bezierCircle ((SplashCoord)0.55228475)
+#define bezierCircle2 ((SplashCoord)(0.5 * 0.55228475))
+
+// Divide a 16-bit value (in [0, 255*255]) by 255, returning an 8-bit result.
+static inline Guchar div255(int x) {
+  return (Guchar)((x + (x >> 8) + 0x80) >> 8);
+}
+
+//------------------------------------------------------------------------
+// SplashPipe
+//------------------------------------------------------------------------
+
+#define splashPipeMaxStages 9
+
+struct SplashPipe {
+  // pixel coordinates
+  int x, y;
+
+  // source pattern
+  SplashPattern *pattern;
+
+  // source alpha and color
+  SplashCoord aInput;
+  GBool usesShape;
+  Guchar aSrc;
+  SplashColorPtr cSrc;
+  SplashColor cSrcVal;
+
+  // non-isolated group alpha0
+  Guchar *alpha0Ptr;
+
+  // soft mask
+  SplashColorPtr softMaskPtr;
+
+  // destination alpha and color
+  SplashColorPtr destColorPtr;
+  int destColorMask;
+  Guchar *destAlphaPtr;
+
+  // shape
+  SplashCoord shape;
+
+  // result alpha and color
+  GBool noTransparency;
+  SplashPipeResultColorCtrl resultColorCtrl;
+
+  // non-isolated group correction
+  int nonIsolatedGroup;
+};
+
+SplashPipeResultColorCtrl Splash::pipeResultColorNoAlphaBlend[] = {
+  splashPipeResultColorNoAlphaBlendMono,
+  splashPipeResultColorNoAlphaBlendMono,
+  splashPipeResultColorNoAlphaBlendRGB,
+  splashPipeResultColorNoAlphaBlendRGB
+#if SPLASH_CMYK
+  ,
+  splashPipeResultColorNoAlphaBlendCMYK
+#endif
+};
+
+SplashPipeResultColorCtrl Splash::pipeResultColorAlphaNoBlend[] = {
+  splashPipeResultColorAlphaNoBlendMono,
+  splashPipeResultColorAlphaNoBlendMono,
+  splashPipeResultColorAlphaNoBlendRGB,
+  splashPipeResultColorAlphaNoBlendRGB
+#if SPLASH_CMYK
+  ,
+  splashPipeResultColorAlphaNoBlendCMYK
+#endif
+};
+
+SplashPipeResultColorCtrl Splash::pipeResultColorAlphaBlend[] = {
+  splashPipeResultColorAlphaBlendMono,
+  splashPipeResultColorAlphaBlendMono,
+  splashPipeResultColorAlphaBlendRGB,
+  splashPipeResultColorAlphaBlendRGB
+#if SPLASH_CMYK
+  ,
+  splashPipeResultColorAlphaBlendCMYK
+#endif
+};
+
+//------------------------------------------------------------------------
+
+static void blendXor(SplashColorPtr src, SplashColorPtr dest,
+		     SplashColorPtr blend, SplashColorMode cm) {
+  int i;
+
+  for (i = 0; i < splashColorModeNComps[cm]; ++i) {
+    blend[i] = src[i] ^ dest[i];
+  }
+}
+
+//------------------------------------------------------------------------
+// modified region
+//------------------------------------------------------------------------
+
+void Splash::clearModRegion() {
+  modXMin = bitmap->getWidth();
+  modYMin = bitmap->getHeight();
+  modXMax = -1;
+  modYMax = -1;
+}
+
+inline void Splash::updateModX(int x) {
+  if (x < modXMin) {
+    modXMin = x;
+  }
+  if (x > modXMax) {
+    modXMax = x;
+  }
+}
+
+inline void Splash::updateModY(int y) {
+  if (y < modYMin) {
+    modYMin = y;
+  }
+  if (y > modYMax) {
+    modYMax = y;
+  }
+}
+
+//------------------------------------------------------------------------
+// pipeline
+//------------------------------------------------------------------------
+
+inline void Splash::pipeInit(SplashPipe *pipe, int x, int y,
+			     SplashPattern *pattern, SplashColorPtr cSrc,
+			     SplashCoord aInput, GBool usesShape,
+			     GBool nonIsolatedGroup) {
+  pipeSetXY(pipe, x, y);
+  pipe->pattern = NULL;
+
+  // source color
+  if (pattern) {
+    if (pattern->isStatic()) {
+      pattern->getColor(x, y, pipe->cSrcVal);
+    } else {
+      pipe->pattern = pattern;
+    }
+    pipe->cSrc = pipe->cSrcVal;
+  } else {
+    pipe->cSrc = cSrc;
+  }
+
+  // source alpha
+  pipe->aInput = aInput;
+  if (!state->softMask) {
+    if (usesShape) {
+      pipe->aInput *= 255;
+    } else {
+      pipe->aSrc = (Guchar)splashRound(pipe->aInput * 255);
+    }
+  }
+  pipe->usesShape = usesShape;
+
+  // result alpha
+  if (aInput == 1 && !state->softMask && !usesShape &&
+      !state->inNonIsolatedGroup) {
+    pipe->noTransparency = gTrue;
+  } else {
+    pipe->noTransparency = gFalse;
+  }
+
+  // result color
+  if (pipe->noTransparency) {
+    // the !state->blendFunc case is handled separately in pipeRun
+    pipe->resultColorCtrl = pipeResultColorNoAlphaBlend[bitmap->mode];
+  } else if (!state->blendFunc) {
+    pipe->resultColorCtrl = pipeResultColorAlphaNoBlend[bitmap->mode];
+  } else {
+    pipe->resultColorCtrl = pipeResultColorAlphaBlend[bitmap->mode];
+  }
+
+  // non-isolated group correction
+  if (nonIsolatedGroup) {
+    pipe->nonIsolatedGroup = splashColorModeNComps[bitmap->mode];
+  } else {
+    pipe->nonIsolatedGroup = 0;
+  }
+}
+
+inline void Splash::pipeRun(SplashPipe *pipe) {
+  Guchar aSrc, aDest, alpha2, alpha0, aResult;
+  SplashColor cDest, cBlend;
+  Guchar cResult0, cResult1, cResult2, cResult3;
+
+  //----- source color
+
+  // static pattern: handled in pipeInit
+  // fixed color: handled in pipeInit
+
+  // dynamic pattern
+  if (pipe->pattern) {
+    pipe->pattern->getColor(pipe->x, pipe->y, pipe->cSrcVal);
+  }
+
+  if (pipe->noTransparency && !state->blendFunc) {
+
+    //----- write destination pixel
+
+    switch (bitmap->mode) {
+    case splashModeMono1:
+      cResult0 = pipe->cSrc[0];
+      if (state->screen->test(pipe->x, pipe->y, cResult0)) {
+	*pipe->destColorPtr |= pipe->destColorMask;
+      } else {
+	*pipe->destColorPtr &= ~pipe->destColorMask;
+      }
+      if (!(pipe->destColorMask >>= 1)) {
+	pipe->destColorMask = 0x80;
+	++pipe->destColorPtr;
+      }
+      break;
+    case splashModeMono8:
+      *pipe->destColorPtr++ = pipe->cSrc[0];
+      break;
+    case splashModeRGB8:
+      *pipe->destColorPtr++ = pipe->cSrc[0];
+      *pipe->destColorPtr++ = pipe->cSrc[1];
+      *pipe->destColorPtr++ = pipe->cSrc[2];
+      break;
+    case splashModeBGR8:
+      *pipe->destColorPtr++ = pipe->cSrc[2];
+      *pipe->destColorPtr++ = pipe->cSrc[1];
+      *pipe->destColorPtr++ = pipe->cSrc[0];
+      break;
+#if SPLASH_CMYK
+    case splashModeCMYK8:
+      *pipe->destColorPtr++ = pipe->cSrc[0];
+      *pipe->destColorPtr++ = pipe->cSrc[1];
+      *pipe->destColorPtr++ = pipe->cSrc[2];
+      *pipe->destColorPtr++ = pipe->cSrc[3];
+      break;
+#endif
+    }
+    if (pipe->destAlphaPtr) {
+      *pipe->destAlphaPtr++ = 255;
+    }
+
+  } else {
+
+    //----- read destination pixel
+
+    switch (bitmap->mode) {
+    case splashModeMono1:
+      cDest[0] = (*pipe->destColorPtr & pipe->destColorMask) ? 0xff : 0x00;
+      break;
+    case splashModeMono8:
+      cDest[0] = *pipe->destColorPtr;
+      break;
+    case splashModeRGB8:
+      cDest[0] = pipe->destColorPtr[0];
+      cDest[1] = pipe->destColorPtr[1];
+      cDest[2] = pipe->destColorPtr[2];
+      break;
+    case splashModeBGR8:
+      cDest[0] = pipe->destColorPtr[2];
+      cDest[1] = pipe->destColorPtr[1];
+      cDest[2] = pipe->destColorPtr[0];
+      break;
+#if SPLASH_CMYK
+    case splashModeCMYK8:
+      cDest[0] = pipe->destColorPtr[0];
+      cDest[1] = pipe->destColorPtr[1];
+      cDest[2] = pipe->destColorPtr[2];
+      cDest[3] = pipe->destColorPtr[3];
+      break;
+#endif
+    }
+    if (pipe->destAlphaPtr) {
+      aDest = *pipe->destAlphaPtr;
+    } else {
+      aDest = 0xff;
+    }
+
+    //----- blend function
+
+    if (state->blendFunc) {
+      (*state->blendFunc)(pipe->cSrc, cDest, cBlend, bitmap->mode);
+    }
+
+    //----- source alpha
+
+    if (state->softMask) {
+      if (pipe->usesShape) {
+	aSrc = (Guchar)splashRound(pipe->aInput * *pipe->softMaskPtr++
+				   * pipe->shape);
+      } else {
+	aSrc = (Guchar)splashRound(pipe->aInput * *pipe->softMaskPtr++);
+      }
+    } else if (pipe->usesShape) {
+      // pipe->aInput is premultiplied by 255 in pipeInit
+      aSrc = (Guchar)splashRound(pipe->aInput * pipe->shape);
+    } else {
+      // precomputed in pipeInit
+      aSrc = pipe->aSrc;
+    }
+
+    //----- result alpha and non-isolated group element correction
+
+    if (pipe->noTransparency) {
+      alpha2 = aResult = 255;
+    } else {
+      aResult = aSrc + aDest - div255(aSrc * aDest);
+
+      if (pipe->alpha0Ptr) {
+	alpha0 = *pipe->alpha0Ptr++;
+	alpha2 = aResult + alpha0 - div255(aResult * alpha0);
+      } else {
+	alpha2 = aResult;
+      }
+    }
+
+    //----- result color
+
+    cResult0 = cResult1 = cResult2 = cResult3 = 0; // make gcc happy
+
+    switch (pipe->resultColorCtrl) {
+
+#if SPLASH_CMYK
+    case splashPipeResultColorNoAlphaBlendCMYK:
+      cResult3 = div255((255 - aDest) * pipe->cSrc[3] + aDest * cBlend[3]);
+#endif
+    case splashPipeResultColorNoAlphaBlendRGB:
+      cResult2 = div255((255 - aDest) * pipe->cSrc[2] + aDest * cBlend[2]);
+      cResult1 = div255((255 - aDest) * pipe->cSrc[1] + aDest * cBlend[1]);
+    case splashPipeResultColorNoAlphaBlendMono:
+      cResult0 = div255((255 - aDest) * pipe->cSrc[0] + aDest * cBlend[0]);
+      break;
+
+    case splashPipeResultColorAlphaNoBlendMono:
+      if (alpha2 == 0) {
+	cResult0 = 0;
+      } else {
+	cResult0 = (Guchar)(((alpha2 - aSrc) * cDest[0] +
+			     aSrc * pipe->cSrc[0]) / alpha2);
+      }
+      break;
+    case splashPipeResultColorAlphaNoBlendRGB:
+      if (alpha2 == 0) {
+	cResult0 = 0;
+	cResult1 = 0;
+	cResult2 = 0;
+      } else {
+	cResult0 = (Guchar)(((alpha2 - aSrc) * cDest[0] +
+			     aSrc * pipe->cSrc[0]) / alpha2);
+	cResult1 = (Guchar)(((alpha2 - aSrc) * cDest[1] +
+			     aSrc * pipe->cSrc[1]) / alpha2);
+	cResult2 = (Guchar)(((alpha2 - aSrc) * cDest[2] +
+			     aSrc * pipe->cSrc[2]) / alpha2);
+      }
+      break;
+#if SPLASH_CMYK
+    case splashPipeResultColorAlphaNoBlendCMYK:
+      if (alpha2 == 0) {
+	cResult0 = 0;
+	cResult1 = 0;
+	cResult2 = 0;
+	cResult3 = 0;
+      } else {
+	cResult0 = (Guchar)(((alpha2 - aSrc) * cDest[0] +
+			     aSrc * pipe->cSrc[0]) / alpha2);
+	cResult1 = (Guchar)(((alpha2 - aSrc) * cDest[1] +
+			     aSrc * pipe->cSrc[1]) / alpha2);
+	cResult2 = (Guchar)(((alpha2 - aSrc) * cDest[2] +
+			     aSrc * pipe->cSrc[2]) / alpha2);
+	cResult3 = (Guchar)(((alpha2 - aSrc) * cDest[3] +
+			     aSrc * pipe->cSrc[3]) / alpha2);
+      }
+      break;
+#endif
+
+    case splashPipeResultColorAlphaBlendMono:
+      if (alpha2 == 0) {
+	cResult0 = 0;
+      } else {
+	cResult0 = (Guchar)(((alpha2 - aSrc) * cDest[0] +
+			     aSrc * ((255 - aDest) * pipe->cSrc[0] +
+				     aDest * cBlend[0]) / 255) /
+			    alpha2);
+      }
+      break;
+    case splashPipeResultColorAlphaBlendRGB:
+      if (alpha2 == 0) {
+	cResult0 = 0;
+	cResult1 = 0;
+	cResult2 = 0;
+      } else {
+	cResult0 = (Guchar)(((alpha2 - aSrc) * cDest[0] +
+			     aSrc * ((255 - aDest) * pipe->cSrc[0] +
+				     aDest * cBlend[0]) / 255) /
+			    alpha2);
+	cResult1 = (Guchar)(((alpha2 - aSrc) * cDest[1] +
+			     aSrc * ((255 - aDest) * pipe->cSrc[1] +
+				     aDest * cBlend[1]) / 255) /
+			    alpha2);
+	cResult2 = (Guchar)(((alpha2 - aSrc) * cDest[2] +
+			     aSrc * ((255 - aDest) * pipe->cSrc[2] +
+				     aDest * cBlend[2]) / 255) /
+			    alpha2);
+      }
+      break;
+#if SPLASH_CMYK
+    case splashPipeResultColorAlphaBlendCMYK:
+      if (alpha2 == 0) {
+	cResult0 = 0;
+	cResult1 = 0;
+	cResult2 = 0;
+	cResult3 = 0;
+      } else {
+	cResult0 = (Guchar)(((alpha2 - aSrc) * cDest[0] +
+			     aSrc * ((255 - aDest) * pipe->cSrc[0] +
+				     aDest * cBlend[0]) / 255) /
+			    alpha2);
+	cResult1 = (Guchar)(((alpha2 - aSrc) * cDest[1] +
+			     aSrc * ((255 - aDest) * pipe->cSrc[1] +
+				     aDest * cBlend[1]) / 255) /
+			    alpha2);
+	cResult2 = (Guchar)(((alpha2 - aSrc) * cDest[2] +
+			     aSrc * ((255 - aDest) * pipe->cSrc[2] +
+				     aDest * cBlend[2]) / 255) /
+			    alpha2);
+	cResult3 = (Guchar)(((alpha2 - aSrc) * cDest[3] +
+			     aSrc * ((255 - aDest) * pipe->cSrc[3] +
+				     aDest * cBlend[3]) / 255) /
+			    alpha2);
+      }
+      break;
+#endif
+    }
+
+    //----- non-isolated group correction
+
+    if (aResult != 0) {
+      switch (pipe->nonIsolatedGroup) {
+#if SPLASH_CMYK
+      case 4:
+	cResult3 += (cResult3 - cDest[3]) * aDest *
+	            (255 - aResult) / (255 * aResult);
+#endif
+      case 3:
+	cResult2 += (cResult2 - cDest[2]) * aDest *
+	            (255 - aResult) / (255 * aResult);
+	cResult1 += (cResult1 - cDest[1]) * aDest *
+	            (255 - aResult) / (255 * aResult);
+      case 1:
+	cResult0 += (cResult0 - cDest[0]) * aDest *
+	            (255 - aResult) / (255 * aResult);
+      case 0:
+	break;
+      }
+    }
+
+    //----- write destination pixel
+
+    switch (bitmap->mode) {
+    case splashModeMono1:
+      if (state->screen->test(pipe->x, pipe->y, cResult0)) {
+	*pipe->destColorPtr |= pipe->destColorMask;
+      } else {
+	*pipe->destColorPtr &= ~pipe->destColorMask;
+      }
+      if (!(pipe->destColorMask >>= 1)) {
+	pipe->destColorMask = 0x80;
+	++pipe->destColorPtr;
+      }
+      break;
+    case splashModeMono8:
+      *pipe->destColorPtr++ = cResult0;
+      break;
+    case splashModeRGB8:
+      *pipe->destColorPtr++ = cResult0;
+      *pipe->destColorPtr++ = cResult1;
+      *pipe->destColorPtr++ = cResult2;
+      break;
+    case splashModeBGR8:
+      *pipe->destColorPtr++ = cResult2;
+      *pipe->destColorPtr++ = cResult1;
+      *pipe->destColorPtr++ = cResult0;
+      break;
+#if SPLASH_CMYK
+    case splashModeCMYK8:
+      *pipe->destColorPtr++ = cResult0;
+      *pipe->destColorPtr++ = cResult1;
+      *pipe->destColorPtr++ = cResult2;
+      *pipe->destColorPtr++ = cResult3;
+      break;
+#endif
+    }
+    if (pipe->destAlphaPtr) {
+      *pipe->destAlphaPtr++ = aResult;
+    }
+
+  }
+
+  ++pipe->x;
+}
+
+inline void Splash::pipeSetXY(SplashPipe *pipe, int x, int y) {
+  pipe->x = x;
+  pipe->y = y;
+  if (state->softMask) {
+    pipe->softMaskPtr =
+        &state->softMask->data[y * state->softMask->rowSize + x];
+  }
+  switch (bitmap->mode) {
+  case splashModeMono1:
+    pipe->destColorPtr = &bitmap->data[y * bitmap->rowSize + (x >> 3)];
+    pipe->destColorMask = 0x80 >> (x & 7);
+    break;
+  case splashModeMono8:
+    pipe->destColorPtr = &bitmap->data[y * bitmap->rowSize + x];
+    break;
+  case splashModeRGB8:
+  case splashModeBGR8:
+    pipe->destColorPtr = &bitmap->data[y * bitmap->rowSize + 3 * x];
+    break;
+#if SPLASH_CMYK
+  case splashModeCMYK8:
+    pipe->destColorPtr = &bitmap->data[y * bitmap->rowSize + 4 * x];
+    break;
+#endif
+  }
+  if (bitmap->alpha) {
+    pipe->destAlphaPtr = &bitmap->alpha[y * bitmap->width + x];
+  } else {
+    pipe->destAlphaPtr = NULL;
+  }
+  if (state->inNonIsolatedGroup && alpha0Bitmap->alpha) {
+    pipe->alpha0Ptr =
+        &alpha0Bitmap->alpha[(alpha0Y + y) * alpha0Bitmap->width +
+			     (alpha0X + x)];
+  } else {
+    pipe->alpha0Ptr = NULL;
+  }
+}
+
+inline void Splash::pipeIncX(SplashPipe *pipe) {
+  ++pipe->x;
+  if (state->softMask) {
+    ++pipe->softMaskPtr;
+  }
+  switch (bitmap->mode) {
+  case splashModeMono1:
+    if (!(pipe->destColorMask >>= 1)) {
+      pipe->destColorMask = 0x80;
+      ++pipe->destColorPtr;
+    }
+    break;
+  case splashModeMono8:
+    ++pipe->destColorPtr;
+    break;
+  case splashModeRGB8:
+  case splashModeBGR8:
+    pipe->destColorPtr += 3;
+    break;
+#if SPLASH_CMYK
+  case splashModeCMYK8:
+    pipe->destColorPtr += 4;
+    break;
+#endif
+  }
+  if (pipe->destAlphaPtr) {
+    ++pipe->destAlphaPtr;
+  }
+  if (pipe->alpha0Ptr) {
+    ++pipe->alpha0Ptr;
+  }
+}
+
+inline void Splash::drawPixel(SplashPipe *pipe, int x, int y, GBool noClip) {
+  if (noClip || state->clip->test(x, y)) {
+    pipeSetXY(pipe, x, y);
+    pipeRun(pipe);
+    updateModX(x);
+    updateModY(y);
+  }
+}
+
+inline void Splash::drawAAPixelInit() {
+  aaBufY = -1;
+}
+
+inline void Splash::drawAAPixel(SplashPipe *pipe, int x, int y) {
+#if splashAASize == 4
+  static int bitCount4[16] = { 0, 1, 1, 2, 1, 2, 2, 3,
+			       1, 2, 2, 3, 2, 3, 3, 4 };
+  int w;
+#else
+  int xx, yy;
+#endif
+  SplashColorPtr p;
+  int x0, x1, t;
+
+  if (x < 0 || x >= bitmap->width ||
+      y < state->clip->getYMinI() || y > state->clip->getYMaxI()) {
+    return;
+  }
+
+  // update aaBuf
+  if (y != aaBufY) {
+    memset(aaBuf->getDataPtr(), 0xff,
+	   aaBuf->getRowSize() * aaBuf->getHeight());
+    x0 = 0;
+    x1 = bitmap->width - 1;
+    state->clip->clipAALine(aaBuf, &x0, &x1, y);
+    aaBufY = y;
+  }
+
+  // compute the shape value
+#if splashAASize == 4
+  p = aaBuf->getDataPtr() + (x >> 1);
+  w = aaBuf->getRowSize();
+  if (x & 1) {
+    t = bitCount4[*p & 0x0f] + bitCount4[p[w] & 0x0f] +
+        bitCount4[p[2*w] & 0x0f] + bitCount4[p[3*w] & 0x0f];
+  } else {
+    t = bitCount4[*p >> 4] + bitCount4[p[w] >> 4] +
+        bitCount4[p[2*w] >> 4] + bitCount4[p[3*w] >> 4];
+  }
+#else
+  t = 0;
+  for (yy = 0; yy < splashAASize; ++yy) {
+    for (xx = 0; xx < splashAASize; ++xx) {
+      p = aaBuf->getDataPtr() + yy * aaBuf->getRowSize() +
+	  ((x * splashAASize + xx) >> 3);
+      t += (*p >> (7 - ((x * splashAASize + xx) & 7))) & 1;
+    }
+  }
+#endif
+
+  // draw the pixel
+  if (t != 0) {
+    pipeSetXY(pipe, x, y);
+    pipe->shape *= aaGamma[t];
+    pipeRun(pipe);
+    updateModX(x);
+    updateModY(y);
+  }
+}
+
+inline void Splash::drawSpan(SplashPipe *pipe, int x0, int x1, int y,
+			     GBool noClip) {
+  int x;
+
+  pipeSetXY(pipe, x0, y);
+  if (noClip) {
+    for (x = x0; x <= x1; ++x) {
+      pipeRun(pipe);
+    }
+    updateModX(x0);
+    updateModX(x1);
+    updateModY(y);
+  } else {
+    for (x = x0; x <= x1; ++x) {
+      if (state->clip->test(x, y)) {
+	pipeRun(pipe);
+	updateModX(x);
+	updateModY(y);
+      } else {
+	pipeIncX(pipe);
+      }
+    }
+  }
+}
+
+inline void Splash::drawAALine(SplashPipe *pipe, int x0, int x1, int y) {
+#if splashAASize == 4
+  static int bitCount4[16] = { 0, 1, 1, 2, 1, 2, 2, 3,
+			       1, 2, 2, 3, 2, 3, 3, 4 };
+  SplashColorPtr p0, p1, p2, p3;
+  int t;
+#else
+  SplashColorPtr p;
+  int xx, yy, t;
+#endif
+  int x;
+
+#if splashAASize == 4
+  p0 = aaBuf->getDataPtr() + (x0 >> 1);
+  p1 = p0 + aaBuf->getRowSize();
+  p2 = p1 + aaBuf->getRowSize();
+  p3 = p2 + aaBuf->getRowSize();
+#endif
+  pipeSetXY(pipe, x0, y);
+  for (x = x0; x <= x1; ++x) {
+
+    // compute the shape value
+#if splashAASize == 4
+    if (x & 1) {
+      t = bitCount4[*p0 & 0x0f] + bitCount4[*p1 & 0x0f] +
+	  bitCount4[*p2 & 0x0f] + bitCount4[*p3 & 0x0f];
+      ++p0; ++p1; ++p2; ++p3;
+    } else {
+      t = bitCount4[*p0 >> 4] + bitCount4[*p1 >> 4] +
+	  bitCount4[*p2 >> 4] + bitCount4[*p3 >> 4];
+    }
+#else
+    t = 0;
+    for (yy = 0; yy < splashAASize; ++yy) {
+      for (xx = 0; xx < splashAASize; ++xx) {
+	p = aaBuf->getDataPtr() + yy * aaBuf->getRowSize() +
+	    ((x * splashAASize + xx) >> 3);
+	t += (*p >> (7 - ((x * splashAASize + xx) & 7))) & 1;
+      }
+    }
+#endif
+
+    if (t != 0) {
+      pipe->shape = aaGamma[t];
+      pipeRun(pipe);
+      updateModX(x);
+      updateModY(y);
+    } else {
+      pipeIncX(pipe);
+    }
+  }
+}
+
+//------------------------------------------------------------------------
+
+// Transform a point from user space to device space.
+inline void Splash::transform(SplashCoord *matrix,
+			      SplashCoord xi, SplashCoord yi,
+			      SplashCoord *xo, SplashCoord *yo) {
+  //                          [ m[0] m[1] 0 ]
+  // [xo yo 1] = [xi yi 1] *  [ m[2] m[3] 0 ]
+  //                          [ m[4] m[5] 1 ]
+  *xo = xi * matrix[0] + yi * matrix[2] + matrix[4];
+  *yo = xi * matrix[1] + yi * matrix[3] + matrix[5];
+}
+
+//------------------------------------------------------------------------
+// Splash
+//------------------------------------------------------------------------
+
+Splash::Splash(SplashBitmap *bitmapA, GBool vectorAntialiasA,
+	       SplashScreenParams *screenParams) {
+  int i;
+
+  bitmap = bitmapA;
+  vectorAntialias = vectorAntialiasA;
+  state = new SplashState(bitmap->width, bitmap->height, vectorAntialias,
+			  screenParams);
+  if (vectorAntialias) {
+    aaBuf = new SplashBitmap(splashAASize * bitmap->width, splashAASize,
+			     1, splashModeMono1, gFalse);
+    for (i = 0; i <= splashAASize * splashAASize; ++i) {
+      aaGamma[i] = splashPow((SplashCoord)i /
+			       (SplashCoord)(splashAASize * splashAASize),
+			     1.5);
+    }
+  } else {
+    aaBuf = NULL;
+  }
+  clearModRegion();
+  debugMode = gFalse;
+}
+
+Splash::Splash(SplashBitmap *bitmapA, GBool vectorAntialiasA,
+	       SplashScreen *screenA) {
+  int i;
+
+  bitmap = bitmapA;
+  vectorAntialias = vectorAntialiasA;
+  state = new SplashState(bitmap->width, bitmap->height, vectorAntialias,
+			  screenA);
+  if (vectorAntialias) {
+    aaBuf = new SplashBitmap(splashAASize * bitmap->width, splashAASize,
+			     1, splashModeMono1, gFalse);
+    for (i = 0; i <= splashAASize * splashAASize; ++i) {
+      aaGamma[i] = splashPow((SplashCoord)i /
+			       (SplashCoord)(splashAASize * splashAASize),
+			     1.5);
+    }
+  } else {
+    aaBuf = NULL;
+  }
+  clearModRegion();
+  debugMode = gFalse;
+}
+
+Splash::~Splash() {
+  while (state->next) {
+    restoreState();
+  }
+  delete state;
+  if (vectorAntialias) {
+    delete aaBuf;
+  }
+}
+
+//------------------------------------------------------------------------
+// state read
+//------------------------------------------------------------------------
+
+SplashCoord *Splash::getMatrix() {
+  return state->matrix;
+}
+
+SplashPattern *Splash::getStrokePattern() {
+  return state->strokePattern;
+}
+
+SplashPattern *Splash::getFillPattern() {
+  return state->fillPattern;
+}
+
+SplashScreen *Splash::getScreen() {
+  return state->screen;
+}
+
+SplashBlendFunc Splash::getBlendFunc() {
+  return state->blendFunc;
+}
+
+SplashCoord Splash::getStrokeAlpha() {
+  return state->strokeAlpha;
+}
+
+SplashCoord Splash::getFillAlpha() {
+  return state->fillAlpha;
+}
+
+SplashCoord Splash::getLineWidth() {
+  return state->lineWidth;
+}
+
+int Splash::getLineCap() {
+  return state->lineCap;
+}
+
+int Splash::getLineJoin() {
+  return state->lineJoin;
+}
+
+SplashCoord Splash::getMiterLimit() {
+  return state->miterLimit;
+}
+
+SplashCoord Splash::getFlatness() {
+  return state->flatness;
+}
+
+SplashCoord *Splash::getLineDash() {
+  return state->lineDash;
+}
+
+int Splash::getLineDashLength() {
+  return state->lineDashLength;
+}
+
+SplashCoord Splash::getLineDashPhase() {
+  return state->lineDashPhase;
+}
+
+SplashClip *Splash::getClip() {
+  return state->clip;
+}
+
+SplashBitmap *Splash::getSoftMask() {
+  return state->softMask;
+}
+
+GBool Splash::getInNonIsolatedGroup() {
+  return state->inNonIsolatedGroup;
+}
+
+//------------------------------------------------------------------------
+// state write
+//------------------------------------------------------------------------
+
+void Splash::setMatrix(SplashCoord *matrix) {
+  memcpy(state->matrix, matrix, 6 * sizeof(SplashCoord));
+}
+
+void Splash::setStrokePattern(SplashPattern *strokePattern) {
+  state->setStrokePattern(strokePattern);
+}
+
+void Splash::setFillPattern(SplashPattern *fillPattern) {
+  state->setFillPattern(fillPattern);
+}
+
+void Splash::setScreen(SplashScreen *screen) {
+  state->setScreen(screen);
+}
+
+void Splash::setBlendFunc(SplashBlendFunc func) {
+  state->blendFunc = func;
+}
+
+void Splash::setStrokeAlpha(SplashCoord alpha) {
+  state->strokeAlpha = alpha;
+}
+
+void Splash::setFillAlpha(SplashCoord alpha) {
+  state->fillAlpha = alpha;
+}
+
+void Splash::setLineWidth(SplashCoord lineWidth) {
+  state->lineWidth = lineWidth;
+}
+
+void Splash::setLineCap(int lineCap) {
+  state->lineCap = lineCap;
+}
+
+void Splash::setLineJoin(int lineJoin) {
+  state->lineJoin = lineJoin;
+}
+
+void Splash::setMiterLimit(SplashCoord miterLimit) {
+  state->miterLimit = miterLimit;
+}
+
+void Splash::setFlatness(SplashCoord flatness) {
+  if (flatness < 1) {
+    state->flatness = 1;
+  } else {
+    state->flatness = flatness;
+  }
+}
+
+void Splash::setLineDash(SplashCoord *lineDash, int lineDashLength,
+			 SplashCoord lineDashPhase) {
+  state->setLineDash(lineDash, lineDashLength, lineDashPhase);
+}
+
+void Splash::setStrokeAdjust(GBool strokeAdjust) {
+  state->strokeAdjust = strokeAdjust;
+}
+
+void Splash::clipResetToRect(SplashCoord x0, SplashCoord y0,
+			     SplashCoord x1, SplashCoord y1) {
+  state->clip->resetToRect(x0, y0, x1, y1);
+}
+
+SplashError Splash::clipToRect(SplashCoord x0, SplashCoord y0,
+			       SplashCoord x1, SplashCoord y1) {
+  return state->clip->clipToRect(x0, y0, x1, y1);
+}
+
+SplashError Splash::clipToPath(SplashPath *path, GBool eo) {
+  return state->clip->clipToPath(path, state->matrix, state->flatness, eo);
+}
+
+void Splash::setSoftMask(SplashBitmap *softMask) {
+  state->setSoftMask(softMask);
+}
+
+void Splash::setInNonIsolatedGroup(SplashBitmap *alpha0BitmapA,
+				   int alpha0XA, int alpha0YA) {
+  alpha0Bitmap = alpha0BitmapA;
+  alpha0X = alpha0XA;
+  alpha0Y = alpha0YA;
+  state->inNonIsolatedGroup = gTrue;
+}
+
+//------------------------------------------------------------------------
+// state save/restore
+//------------------------------------------------------------------------
+
+void Splash::saveState() {
+  SplashState *newState;
+
+  newState = state->copy();
+  newState->next = state;
+  state = newState;
+}
+
+SplashError Splash::restoreState() {
+  SplashState *oldState;
+
+  if (!state->next) {
+    return splashErrNoSave;
+  }
+  oldState = state;
+  state = state->next;
+  delete oldState;
+  return splashOk;
+}
+
+//------------------------------------------------------------------------
+// drawing operations
+//------------------------------------------------------------------------
+
+void Splash::clear(SplashColorPtr color, Guchar alpha) {
+  SplashColorPtr row, p;
+  Guchar mono;
+  int x, y;
+
+  switch (bitmap->mode) {
+  case splashModeMono1:
+    mono = (color[0] & 0x80) ? 0xff : 0x00;
+    if (bitmap->rowSize < 0) {
+      memset(bitmap->data + bitmap->rowSize * (bitmap->height - 1),
+	     mono, -bitmap->rowSize * bitmap->height);
+    } else {
+      memset(bitmap->data, mono, bitmap->rowSize * bitmap->height);
+    }
+    break;
+  case splashModeMono8:
+    if (bitmap->rowSize < 0) {
+      memset(bitmap->data + bitmap->rowSize * (bitmap->height - 1),
+	     color[0], -bitmap->rowSize * bitmap->height);
+    } else {
+      memset(bitmap->data, color[0], bitmap->rowSize * bitmap->height);
+    }
+    break;
+  case splashModeRGB8:
+    if (color[0] == color[1] && color[1] == color[2]) {
+      if (bitmap->rowSize < 0) {
+	memset(bitmap->data + bitmap->rowSize * (bitmap->height - 1),
+	       color[0], -bitmap->rowSize * bitmap->height);
+      } else {
+	memset(bitmap->data, color[0], bitmap->rowSize * bitmap->height);
+      }
+    } else {
+      row = bitmap->data;
+      for (y = 0; y < bitmap->height; ++y) {
+	p = row;
+	for (x = 0; x < bitmap->width; ++x) {
+	  *p++ = color[2];
+	  *p++ = color[1];
+	  *p++ = color[0];
+	}
+	row += bitmap->rowSize;
+      }
+    }
+    break;
+  case splashModeBGR8:
+    if (color[0] == color[1] && color[1] == color[2]) {
+      if (bitmap->rowSize < 0) {
+	memset(bitmap->data + bitmap->rowSize * (bitmap->height - 1),
+	       color[0], -bitmap->rowSize * bitmap->height);
+      } else {
+	memset(bitmap->data, color[0], bitmap->rowSize * bitmap->height);
+      }
+    } else {
+      row = bitmap->data;
+      for (y = 0; y < bitmap->height; ++y) {
+	p = row;
+	for (x = 0; x < bitmap->width; ++x) {
+	  *p++ = color[0];
+	  *p++ = color[1];
+	  *p++ = color[2];
+	}
+	row += bitmap->rowSize;
+      }
+    }
+    break;
+#if SPLASH_CMYK
+  case splashModeCMYK8:
+    if (color[0] == color[1] && color[1] == color[2] && color[2] == color[3]) {
+      if (bitmap->rowSize < 0) {
+	memset(bitmap->data + bitmap->rowSize * (bitmap->height - 1),
+	       color[0], -bitmap->rowSize * bitmap->height);
+      } else {
+	memset(bitmap->data, color[0], bitmap->rowSize * bitmap->height);
+      }
+    } else {
+      row = bitmap->data;
+      for (y = 0; y < bitmap->height; ++y) {
+	p = row;
+	for (x = 0; x < bitmap->width; ++x) {
+	  *p++ = color[0];
+	  *p++ = color[1];
+	  *p++ = color[2];
+	  *p++ = color[3];
+	}
+	row += bitmap->rowSize;
+      }
+    }
+    break;
+#endif
+  }
+
+  if (bitmap->alpha) {
+    memset(bitmap->alpha, alpha, bitmap->width * bitmap->height);
+  }
+
+  updateModX(0);
+  updateModY(0);
+  updateModX(bitmap->width - 1);
+  updateModY(bitmap->height - 1);
+}
+
+SplashError Splash::stroke(SplashPath *path) {
+  SplashPath *path2, *dPath;
+
+  if (debugMode) {
+    printf("stroke [dash:%d] [width:%.2f]:\n",
+	   state->lineDashLength, (double)state->lineWidth);
+    dumpPath(path);
+  }
+  opClipRes = splashClipAllOutside;
+  if (path->length == 0) {
+    return splashErrEmptyPath;
+  }
+  path2 = flattenPath(path, state->matrix, state->flatness);
+  if (state->lineDashLength > 0) {
+    dPath = makeDashedPath(path2);
+    delete path2;
+    path2 = dPath;
+  }
+  if (state->lineWidth == 0) {
+    strokeNarrow(path2);
+  } else {
+    strokeWide(path2);
+  }
+  delete path2;
+  return splashOk;
+}
+
+void Splash::strokeNarrow(SplashPath *path) {
+  SplashPipe pipe;
+  SplashXPath *xPath;
+  SplashXPathSeg *seg;
+  int x0, x1, x2, x3, y0, y1, x, y, t;
+  SplashCoord dx, dy, dxdy;
+  SplashClipResult clipRes;
+  int nClipRes[3];
+  int i;
+
+  nClipRes[0] = nClipRes[1] = nClipRes[2] = 0;
+
+  xPath = new SplashXPath(path, state->matrix, state->flatness, gFalse);
+
+  pipeInit(&pipe, 0, 0, state->strokePattern, NULL, state->strokeAlpha,
+	   gFalse, gFalse);
+
+  for (i = 0, seg = xPath->segs; i < xPath->length; ++i, ++seg) {
+
+    x0 = splashFloor(seg->x0);
+    x1 = splashFloor(seg->x1);
+    y0 = splashFloor(seg->y0);
+    y1 = splashFloor(seg->y1);
+
+    // horizontal segment
+    if (y0 == y1) {
+      if (x0 > x1) {
+	t = x0; x0 = x1; x1 = t;
+      }
+      if ((clipRes = state->clip->testSpan(x0, x1, y0))
+	  != splashClipAllOutside) {
+	drawSpan(&pipe, x0, x1, y0, clipRes == splashClipAllInside);
+      }
+
+    // segment with |dx| > |dy|
+    } else if (splashAbs(seg->dxdy) > 1) {
+      dx = seg->x1 - seg->x0;
+      dy = seg->y1 - seg->y0;
+      dxdy = seg->dxdy;
+      if (y0 > y1) {
+	t = y0; y0 = y1; y1 = t;
+	t = x0; x0 = x1; x1 = t;
+	dx = -dx;
+	dy = -dy;
+      }
+      if ((clipRes = state->clip->testRect(x0 <= x1 ? x0 : x1, y0,
+					   x0 <= x1 ? x1 : x0, y1))
+	  != splashClipAllOutside) {
+	if (dx > 0) {
+	  x2 = x0;
+	  x3 = splashFloor(seg->x0 + ((SplashCoord)y0 + 1 - seg->y0) * dxdy);
+	  drawSpan(&pipe, x2, (x2 <= x3 - 1) ? x3 - 1 : x2, y0,
+		   clipRes == splashClipAllInside);
+	  x2 = x3;
+	  for (y = y0 + 1; y <= y1 - 1; ++y) {
+	    x3 = splashFloor(seg->x0 + ((SplashCoord)y + 1 - seg->y0) * dxdy);
+	    drawSpan(&pipe, x2, x3 - 1, y, clipRes == splashClipAllInside);
+	    x2 = x3;
+	  }
+	  drawSpan(&pipe, x2, x2 <= x1 ? x1 : x2, y1,
+		   clipRes == splashClipAllInside);
+	} else {
+	  x2 = x0;
+	  x3 = splashFloor(seg->x0 + ((SplashCoord)y0 + 1 - seg->y0) * dxdy);
+	  drawSpan(&pipe, (x3 + 1 <= x2) ? x3 + 1 : x2, x2, y0,
+		   clipRes == splashClipAllInside);
+	  x2 = x3;
+	  for (y = y0 + 1; y <= y1 - 1; ++y) {
+	    x3 = splashFloor(seg->x0 + ((SplashCoord)y + 1 - seg->y0) * dxdy);
+	    drawSpan(&pipe, x3 + 1, x2, y, clipRes == splashClipAllInside);
+	    x2 = x3;
+	  }
+	  drawSpan(&pipe, x1, (x1 <= x2) ? x2 : x1, y1,
+		   clipRes == splashClipAllInside);
+	}
+      }
+
+    // segment with |dy| > |dx|
+    } else {
+      dxdy = seg->dxdy;
+      if (y0 > y1) {
+	t = x0; x0 = x1; x1 = t;
+	t = y0; y0 = y1; y1 = t;
+      }
+      if ((clipRes = state->clip->testRect(x0 <= x1 ? x0 : x1, y0,
+					   x0 <= x1 ? x1 : x0, y1))
+	  != splashClipAllOutside) {
+	drawPixel(&pipe, x0, y0, clipRes == splashClipAllInside);
+	for (y = y0 + 1; y <= y1 - 1; ++y) {
+	  x = splashFloor(seg->x0 + ((SplashCoord)y - seg->y0) * dxdy);
+	  drawPixel(&pipe, x, y, clipRes == splashClipAllInside);
+	}
+	drawPixel(&pipe, x1, y1, clipRes == splashClipAllInside);
+      }
+    }
+    ++nClipRes[clipRes];
+  }
+  if (nClipRes[splashClipPartial] ||
+      (nClipRes[splashClipAllInside] && nClipRes[splashClipAllOutside])) {
+    opClipRes = splashClipPartial;
+  } else if (nClipRes[splashClipAllInside]) {
+    opClipRes = splashClipAllInside;
+  } else {
+    opClipRes = splashClipAllOutside;
+  }
+
+  delete xPath;
+}
+
+void Splash::strokeWide(SplashPath *path) {
+  SplashPath *path2;
+
+  path2 = makeStrokePath(path, gFalse);
+  fillWithPattern(path2, gFalse, state->strokePattern, state->strokeAlpha);
+  delete path2;
+}
+
+SplashPath *Splash::flattenPath(SplashPath *path, SplashCoord *matrix,
+				SplashCoord flatness) {
+  SplashPath *fPath;
+  SplashCoord flatness2;
+  Guchar flag;
+  int i;
+
+  fPath = new SplashPath();
+  flatness2 = flatness * flatness;
+  i = 0;
+  while (i < path->length) {
+    flag = path->flags[i];
+    if (flag & splashPathFirst) {
+      fPath->moveTo(path->pts[i].x, path->pts[i].y);
+      ++i;
+    } else {
+      if (flag & splashPathCurve) {
+	flattenCurve(path->pts[i-1].x, path->pts[i-1].y,
+		     path->pts[i  ].x, path->pts[i  ].y,
+		     path->pts[i+1].x, path->pts[i+1].y,
+		     path->pts[i+2].x, path->pts[i+2].y,
+		     matrix, flatness2, fPath);
+	i += 3;
+      } else {
+	fPath->lineTo(path->pts[i].x, path->pts[i].y);
+	++i;
+      }
+      if (path->flags[i-1] & splashPathClosed) {
+	fPath->close();
+      }
+    }
+  }
+  return fPath;
+}
+
+void Splash::flattenCurve(SplashCoord x0, SplashCoord y0,
+			  SplashCoord x1, SplashCoord y1,
+			  SplashCoord x2, SplashCoord y2,
+			  SplashCoord x3, SplashCoord y3,
+			  SplashCoord *matrix, SplashCoord flatness2,
+			  SplashPath *fPath) {
+  SplashCoord cx[splashMaxCurveSplits + 1][3];
+  SplashCoord cy[splashMaxCurveSplits + 1][3];
+  int cNext[splashMaxCurveSplits + 1];
+  SplashCoord xl0, xl1, xl2, xr0, xr1, xr2, xr3, xx1, xx2, xh;
+  SplashCoord yl0, yl1, yl2, yr0, yr1, yr2, yr3, yy1, yy2, yh;
+  SplashCoord dx, dy, mx, my, tx, ty, d1, d2;
+  int p1, p2, p3;
+
+  // initial segment
+  p1 = 0;
+  p2 = splashMaxCurveSplits;
+  cx[p1][0] = x0;  cy[p1][0] = y0;
+  cx[p1][1] = x1;  cy[p1][1] = y1;
+  cx[p1][2] = x2;  cy[p1][2] = y2;
+  cx[p2][0] = x3;  cy[p2][0] = y3;
+  cNext[p1] = p2;
+
+  while (p1 < splashMaxCurveSplits) {
+
+    // get the next segment
+    xl0 = cx[p1][0];  yl0 = cy[p1][0];
+    xx1 = cx[p1][1];  yy1 = cy[p1][1];
+    xx2 = cx[p1][2];  yy2 = cy[p1][2];
+    p2 = cNext[p1];
+    xr3 = cx[p2][0];  yr3 = cy[p2][0];
+
+    // compute the distances (in device space) from the control points
+    // to the midpoint of the straight line (this is a bit of a hack,
+    // but it's much faster than computing the actual distances to the
+    // line)
+    transform(matrix, (xl0 + xr3) * 0.5, (yl0 + yr3) * 0.5, &mx, &my);
+    transform(matrix, xx1, yy1, &tx, &ty);
+    dx = tx - mx;
+    dy = ty - my;
+    d1 = dx*dx + dy*dy;
+    transform(matrix, xx2, yy2, &tx, &ty);
+    dx = tx - mx;
+    dy = ty - my;
+    d2 = dx*dx + dy*dy;
+
+    // if the curve is flat enough, or no more subdivisions are
+    // allowed, add the straight line segment
+    if (p2 - p1 == 1 || (d1 <= flatness2 && d2 <= flatness2)) {
+      fPath->lineTo(xr3, yr3);
+      p1 = p2;
+
+    // otherwise, subdivide the curve
+    } else {
+      xl1 = (xl0 + xx1) * 0.5;
+      yl1 = (yl0 + yy1) * 0.5;
+      xh = (xx1 + xx2) * 0.5;
+      yh = (yy1 + yy2) * 0.5;
+      xl2 = (xl1 + xh) * 0.5;
+      yl2 = (yl1 + yh) * 0.5;
+      xr2 = (xx2 + xr3) * 0.5;
+      yr2 = (yy2 + yr3) * 0.5;
+      xr1 = (xh + xr2) * 0.5;
+      yr1 = (yh + yr2) * 0.5;
+      xr0 = (xl2 + xr1) * 0.5;
+      yr0 = (yl2 + yr1) * 0.5;
+      // add the new subdivision points
+      p3 = (p1 + p2) / 2;
+      cx[p1][1] = xl1;  cy[p1][1] = yl1;
+      cx[p1][2] = xl2;  cy[p1][2] = yl2;
+      cNext[p1] = p3;
+      cx[p3][0] = xr0;  cy[p3][0] = yr0;
+      cx[p3][1] = xr1;  cy[p3][1] = yr1;
+      cx[p3][2] = xr2;  cy[p3][2] = yr2;
+      cNext[p3] = p2;
+    }
+  }
+}
+
+SplashPath *Splash::makeDashedPath(SplashPath *path) {
+  SplashPath *dPath;
+  SplashCoord lineDashTotal;
+  SplashCoord lineDashStartPhase, lineDashDist, segLen;
+  SplashCoord x0, y0, x1, y1, xa, ya;
+  GBool lineDashStartOn, lineDashOn, newPath;
+  int lineDashStartIdx, lineDashIdx;
+  int i, j, k;
+
+  lineDashTotal = 0;
+  for (i = 0; i < state->lineDashLength; ++i) {
+    lineDashTotal += state->lineDash[i];
+  }
+  lineDashStartPhase = state->lineDashPhase;
+  i = splashFloor(lineDashStartPhase / lineDashTotal);
+  lineDashStartPhase -= (SplashCoord)i * lineDashTotal;
+  lineDashStartOn = gTrue;
+  lineDashStartIdx = 0;
+  while (lineDashStartPhase >= state->lineDash[lineDashStartIdx]) {
+    lineDashStartOn = !lineDashStartOn;
+    lineDashStartPhase -= state->lineDash[lineDashStartIdx];
+    ++lineDashStartIdx;
+  }
+
+  dPath = new SplashPath();
+
+  // process each subpath
+  i = 0;
+  while (i < path->length) {
+
+    // find the end of the subpath
+    for (j = i;
+	 j < path->length - 1 && !(path->flags[j] & splashPathLast);
+	 ++j) ;
+
+    // initialize the dash parameters
+    lineDashOn = lineDashStartOn;
+    lineDashIdx = lineDashStartIdx;
+    lineDashDist = state->lineDash[lineDashIdx] - lineDashStartPhase;
+
+    // process each segment of the subpath
+    newPath = gTrue;
+    for (k = i; k < j; ++k) {
+
+      // grab the segment
+      x0 = path->pts[k].x;
+      y0 = path->pts[k].y;
+      x1 = path->pts[k+1].x;
+      y1 = path->pts[k+1].y;
+      segLen = splashDist(x0, y0, x1, y1);
+
+      // process the segment
+      while (segLen > 0) {
+
+	if (lineDashDist >= segLen) {
+	  if (lineDashOn) {
+	    if (newPath) {
+	      dPath->moveTo(x0, y0);
+	      newPath = gFalse;
+	    }
+	    dPath->lineTo(x1, y1);
+	  }
+	  lineDashDist -= segLen;
+	  segLen = 0;
+
+	} else {
+	  xa = x0 + (lineDashDist / segLen) * (x1 - x0);
+	  ya = y0 + (lineDashDist / segLen) * (y1 - y0);
+	  if (lineDashOn) {
+	    if (newPath) {
+	      dPath->moveTo(x0, y0);
+	      newPath = gFalse;
+	    }
+	    dPath->lineTo(xa, ya);
+	  }
+	  x0 = xa;
+	  y0 = ya;
+	  segLen -= lineDashDist;
+	  lineDashDist = 0;
+	}
+
+	// get the next entry in the dash array
+	if (lineDashDist <= 0) {
+	  lineDashOn = !lineDashOn;
+	  if (++lineDashIdx == state->lineDashLength) {
+	    lineDashIdx = 0;
+	  }
+	  lineDashDist = state->lineDash[lineDashIdx];
+	  newPath = gTrue;
+	}
+      }
+    }
+    i = j + 1;
+  }
+
+  return dPath;
+}
+
+SplashError Splash::fill(SplashPath *path, GBool eo) {
+  if (debugMode) {
+    printf("fill [eo:%d]:\n", eo);
+    dumpPath(path);
+  }
+  return fillWithPattern(path, eo, state->fillPattern, state->fillAlpha);
+}
+
+SplashError Splash::fillWithPattern(SplashPath *path, GBool eo,
+				    SplashPattern *pattern,
+				    SplashCoord alpha) {
+  SplashPipe pipe;
+  SplashXPath *xPath;
+  SplashXPathScanner *scanner;
+  int xMinI, yMinI, xMaxI, yMaxI, x0, x1, y;
+  SplashClipResult clipRes, clipRes2;
+
+  if (path->length == 0) {
+    return splashErrEmptyPath;
+  }
+  xPath = new SplashXPath(path, state->matrix, state->flatness, gTrue);
+  if (vectorAntialias) {
+    xPath->aaScale();
+  }
+  xPath->sort();
+  scanner = new SplashXPathScanner(xPath, eo);
+
+  // get the min and max x and y values
+  if (vectorAntialias) {
+    scanner->getBBoxAA(&xMinI, &yMinI, &xMaxI, &yMaxI);
+  } else {
+    scanner->getBBox(&xMinI, &yMinI, &xMaxI, &yMaxI);
+  }
+
+  // check clipping
+  if ((clipRes = state->clip->testRect(xMinI, yMinI, xMaxI, yMaxI))
+      != splashClipAllOutside) {
+
+    // limit the y range
+    if (yMinI < state->clip->getYMinI()) {
+      yMinI = state->clip->getYMinI();
+    }
+    if (yMaxI > state->clip->getYMaxI()) {
+      yMaxI = state->clip->getYMaxI();
+    }
+
+    pipeInit(&pipe, 0, yMinI, pattern, NULL, alpha, vectorAntialias, gFalse);
+
+    // draw the spans
+    if (vectorAntialias) {
+      for (y = yMinI; y <= yMaxI; ++y) {
+	scanner->renderAALine(aaBuf, &x0, &x1, y);
+	if (clipRes != splashClipAllInside) {
+	  state->clip->clipAALine(aaBuf, &x0, &x1, y);
+	}
+	drawAALine(&pipe, x0, x1, y);
+      }
+    } else {
+      for (y = yMinI; y <= yMaxI; ++y) {
+	while (scanner->getNextSpan(y, &x0, &x1)) {
+	  if (clipRes == splashClipAllInside) {
+	    drawSpan(&pipe, x0, x1, y, gTrue);
+	  } else {
+	    // limit the x range
+	    if (x0 < state->clip->getXMinI()) {
+	      x0 = state->clip->getXMinI();
+	    }
+	    if (x1 > state->clip->getXMaxI()) {
+	      x1 = state->clip->getXMaxI();
+	    }
+	    clipRes2 = state->clip->testSpan(x0, x1, y);
+	    drawSpan(&pipe, x0, x1, y, clipRes2 == splashClipAllInside);
+	  }
+	}
+      }
+    }
+  }
+  opClipRes = clipRes;
+
+  delete scanner;
+  delete xPath;
+  return splashOk;
+}
+
+SplashError Splash::xorFill(SplashPath *path, GBool eo) {
+  SplashPipe pipe;
+  SplashXPath *xPath;
+  SplashXPathScanner *scanner;
+  int xMinI, yMinI, xMaxI, yMaxI, x0, x1, y;
+  SplashClipResult clipRes, clipRes2;
+  SplashBlendFunc origBlendFunc;
+
+  if (path->length == 0) {
+    return splashErrEmptyPath;
+  }
+  xPath = new SplashXPath(path, state->matrix, state->flatness, gTrue);
+  xPath->sort();
+  scanner = new SplashXPathScanner(xPath, eo);
+
+  // get the min and max x and y values
+  scanner->getBBox(&xMinI, &yMinI, &xMaxI, &yMaxI);
+
+  // check clipping
+  if ((clipRes = state->clip->testRect(xMinI, yMinI, xMaxI, yMaxI))
+      != splashClipAllOutside) {
+
+    // limit the y range
+    if (yMinI < state->clip->getYMinI()) {
+      yMinI = state->clip->getYMinI();
+    }
+    if (yMaxI > state->clip->getYMaxI()) {
+      yMaxI = state->clip->getYMaxI();
+    }
+
+    origBlendFunc = state->blendFunc;
+    state->blendFunc = &blendXor;
+    pipeInit(&pipe, 0, yMinI, state->fillPattern, NULL, 1, gFalse, gFalse);
+
+    // draw the spans
+    for (y = yMinI; y <= yMaxI; ++y) {
+      while (scanner->getNextSpan(y, &x0, &x1)) {
+	if (clipRes == splashClipAllInside) {
+	  drawSpan(&pipe, x0, x1, y, gTrue);
+	} else {
+	  // limit the x range
+	  if (x0 < state->clip->getXMinI()) {
+	    x0 = state->clip->getXMinI();
+	  }
+	  if (x1 > state->clip->getXMaxI()) {
+	    x1 = state->clip->getXMaxI();
+	  }
+	  clipRes2 = state->clip->testSpan(x0, x1, y);
+	  drawSpan(&pipe, x0, x1, y, clipRes2 == splashClipAllInside);
+	}
+      }
+    }
+    state->blendFunc = origBlendFunc;
+  }
+  opClipRes = clipRes;
+
+  delete scanner;
+  delete xPath;
+  return splashOk;
+}
+
+SplashError Splash::fillChar(SplashCoord x, SplashCoord y,
+			     int c, SplashFont *font) {
+  SplashGlyphBitmap glyph;
+  SplashCoord xt, yt;
+  int x0, y0, xFrac, yFrac;
+  SplashClipResult clipRes;
+
+  if (debugMode) {
+    printf("fillChar: x=%.2f y=%.2f c=%3d=0x%02x='%c'\n",
+	   (double)x, (double)y, c, c, c);
+  }
+  transform(state->matrix, x, y, &xt, &yt);
+  x0 = splashFloor(xt);
+  xFrac = splashFloor((xt - x0) * splashFontFraction);
+  y0 = splashFloor(yt);
+  yFrac = splashFloor((yt - y0) * splashFontFraction);
+  if (!font->getGlyph(c, xFrac, yFrac, &glyph, x0, y0, state->clip, &clipRes)) {
+    return splashErrNoGlyph;
+  }
+  if (clipRes != splashClipAllOutside) {
+    fillGlyph2(x0, y0, &glyph, clipRes == splashClipAllInside);
+  }
+  opClipRes = clipRes;
+  if (glyph.freeData) {
+    gfree(glyph.data);
+  }
+  return splashOk;
+}
+
+void Splash::fillGlyph(SplashCoord x, SplashCoord y,
+			      SplashGlyphBitmap *glyph) {
+  SplashCoord xt, yt;
+  int x0, y0;
+
+  transform(state->matrix, x, y, &xt, &yt);
+  x0 = splashFloor(xt);
+  y0 = splashFloor(yt);
+  SplashClipResult clipRes = state->clip->testRect(x0 - glyph->x,
+                             y0 - glyph->y,
+                             x0 - glyph->x + glyph->w - 1,
+                             y0 - glyph->y + glyph->h - 1);
+  if (clipRes != splashClipAllOutside) {
+    fillGlyph2(x0, y0, glyph, clipRes == splashClipAllInside);
+  }
+  opClipRes = clipRes;
+}
+
+void Splash::fillGlyph2(int x0, int y0, SplashGlyphBitmap *glyph, GBool noClip) {
+  SplashPipe pipe;
+  int alpha0, alpha;
+  Guchar *p;
+  int x1, y1, xx, xx1, yy;
+
+  p = glyph->data;
+  int xStart = x0 - glyph->x;
+  int yStart = y0 - glyph->y;
+  int xxLimit = glyph->w;
+  int yyLimit = glyph->h;
+
+  if (yStart < 0)
+  {
+    p += glyph->w * -yStart; // move p to the beginning of the first painted row
+    yyLimit += yStart;
+    yStart = 0;
+  }
+
+  if (xStart < 0)
+  {
+    p += -xStart; // move p to the first painted pixel
+    xxLimit += xStart;
+    xStart = 0;
+  }
+
+  if (xxLimit + xStart >= bitmap->width) xxLimit = bitmap->width - xStart;
+  if (yyLimit + yStart >= bitmap->height) yyLimit = bitmap->height - yStart;
+
+    if (noClip) {
+      if (glyph->aa) {
+	pipeInit(&pipe, xStart, yStart,
+		 state->fillPattern, NULL, state->fillAlpha, gTrue, gFalse);
+	for (yy = 0, y1 = yStart; yy < yyLimit; ++yy, ++y1) {
+	  pipeSetXY(&pipe, xStart, y1);
+	  for (xx = 0, x1 = xStart; xx < xxLimit; ++xx, ++x1) {
+	    alpha = p[xx];
+	    if (alpha != 0) {
+	      pipe.shape = (SplashCoord)(alpha / 255.0);
+	      pipeRun(&pipe);
+	      updateModX(x1);
+	      updateModY(y1);
+	    } else {
+	      pipeIncX(&pipe);
+	    }
+	  }
+	  p += glyph->w;
+	}
+      } else {
+	const int widthEight = (int)ceil(glyph->w / 8.0);
+
+	pipeInit(&pipe, xStart, yStart,
+		 state->fillPattern, NULL, state->fillAlpha, gFalse, gFalse);
+	for (yy = 0, y1 = yStart; yy < yyLimit; ++yy, ++y1) {
+	  pipeSetXY(&pipe, xStart, y1);
+	  for (xx = 0, x1 = xStart; xx < xxLimit; xx += 8) {
+	    alpha0 = p[xx / 8];
+	    for (xx1 = 0; xx1 < 8 && xx + xx1 < xxLimit; ++xx1, ++x1) {
+	      if (alpha0 & 0x80) {
+		pipeRun(&pipe);
+		updateModX(x1);
+		updateModY(y1);
+	      } else {
+		pipeIncX(&pipe);
+	      }
+	      alpha0 <<= 1;
+	    }
+	  }
+	  p += widthEight;
+	}
+      }
+    } else {
+      if (glyph->aa) {
+	pipeInit(&pipe, xStart, yStart,
+		 state->fillPattern, NULL, state->fillAlpha, gTrue, gFalse);
+	for (yy = 0, y1 = yStart; yy < yyLimit; ++yy, ++y1) {
+	  pipeSetXY(&pipe, xStart, y1);
+	  for (xx = 0, x1 = xStart; xx < xxLimit; ++xx, ++x1) {
+	    if (state->clip->test(x1, y1)) {
+	      alpha = p[xx];
+	      if (alpha != 0) {
+		pipe.shape = (SplashCoord)(alpha / 255.0);
+		pipeRun(&pipe);
+		updateModX(x1);
+		updateModY(y1);
+	      } else {
+		pipeIncX(&pipe);
+	      }
+	    } else {
+	      pipeIncX(&pipe);
+	    }
+	  }
+	  p += glyph->w;
+	}
+      } else {
+	const int widthEight = (int)ceil(glyph->w / 8.0);
+
+	pipeInit(&pipe, xStart, yStart,
+		 state->fillPattern, NULL, state->fillAlpha, gFalse, gFalse);
+	for (yy = 0, y1 = yStart; yy < yyLimit; ++yy, ++y1) {
+	  pipeSetXY(&pipe, xStart, y1);
+	  for (xx = 0, x1 = xStart; xx < xxLimit; xx += 8) {
+	    alpha0 = p[xx / 8];
+	    for (xx1 = 0; xx1 < 8 && xx + xx1 < xxLimit; ++xx1, ++x1) {
+	      if (state->clip->test(x1, y1)) {
+		if (alpha0 & 0x80) {
+		  pipeRun(&pipe);
+		  updateModX(x1);
+		  updateModY(y1);
+		} else {
+		  pipeIncX(&pipe);
+		}
+	      } else {
+		pipeIncX(&pipe);
+	      }
+	      alpha0 <<= 1;
+	    }
+	  }
+	  p += widthEight;
+	}
+      }
+    }
+}
+
+SplashError Splash::fillImageMask(SplashImageMaskSource src, void *srcData,
+				  int w, int h, SplashCoord *mat,
+				  GBool glyphMode) {
+  SplashPipe pipe;
+  GBool rot;
+  SplashCoord xScale, yScale, xShear, yShear, yShear1;
+  int tx, tx2, ty, ty2, scaledWidth, scaledHeight, xSign, ySign;
+  int ulx, uly, llx, lly, urx, ury, lrx, lry;
+  int ulx1, uly1, llx1, lly1, urx1, ury1, lrx1, lry1;
+  int xMin, xMax, yMin, yMax;
+  SplashClipResult clipRes, clipRes2;
+  int yp, yq, yt, yStep, lastYStep;
+  int xp, xq, xt, xStep, xSrc;
+  int k1, spanXMin, spanXMax, spanY;
+  SplashColorPtr pixBuf, p;
+  int pixAcc;
+  int x, y, x1, x2, y2;
+  SplashCoord y1;
+  int n, m, i, j;
+
+  if (debugMode) {
+    printf("fillImageMask: w=%d h=%d mat=[%.2f %.2f %.2f %.2f %.2f %.2f]\n",
+	   w, h, (double)mat[0], (double)mat[1], (double)mat[2],
+	   (double)mat[3], (double)mat[4], (double)mat[5]);
+  }
+
+  if (w == 0 && h == 0) return splashErrZeroImage;
+
+  // check for singular matrix
+  if (splashAbs(mat[0] * mat[3] - mat[1] * mat[2]) < 0.000001) {
+    return splashErrSingularMatrix;
+  }
+
+  // compute scale, shear, rotation, translation parameters
+  rot = splashAbs(mat[1]) > splashAbs(mat[0]);
+  if (rot) {
+    xScale = -mat[1];
+    yScale = mat[2] - (mat[0] * mat[3]) / mat[1];
+    xShear = -mat[3] / yScale;
+    yShear = -mat[0] / mat[1];
+  } else {
+    xScale = mat[0];
+    yScale = mat[3] - (mat[1] * mat[2]) / mat[0];
+    xShear = mat[2] / yScale;
+    yShear = mat[1] / mat[0];
+  }
+  // Note 1: The PDF spec says that all pixels whose *centers* lie
+  // within the region get painted -- but that doesn't seem to match
+  // up with what Acrobat actually does: it ends up leaving gaps
+  // between image stripes.  So we use the same rule here as for
+  // fills: any pixel that overlaps the region gets painted.
+  // Note 2: The "glyphMode" flag is a kludge: it switches back to
+  // "correct" behavior (matching the spec), for use in rendering Type
+  // 3 fonts.
+  // Note 3: The +/-0.01 in these computations is to avoid floating
+  // point precision problems which can lead to gaps between image
+  // stripes (it can cause image stripes to overlap, but that's a much
+  // less visible problem).
+  if (glyphMode) {
+    if (xScale >= 0) {
+      tx = splashRound(mat[4]);
+      tx2 = splashRound(mat[4] + xScale) - 1;
+    } else {
+      tx = splashRound(mat[4]) - 1;
+      tx2 = splashRound(mat[4] + xScale);
+    }
+  } else {
+    if (xScale >= 0) {
+      tx = splashFloor(mat[4] - 0.01);
+      tx2 = splashFloor(mat[4] + xScale + 0.01);
+    } else {
+      tx = splashFloor(mat[4] + 0.01);
+      tx2 = splashFloor(mat[4] + xScale - 0.01);
+    }
+  }
+  scaledWidth = abs(tx2 - tx) + 1;
+  if (glyphMode) {
+    if (yScale >= 0) {
+      ty = splashRound(mat[5]);
+      ty2 = splashRound(mat[5] + yScale) - 1;
+    } else {
+      ty = splashRound(mat[5]) - 1;
+      ty2 = splashRound(mat[5] + yScale);
+    }
+  } else {
+    if (yScale >= 0) {
+      ty = splashFloor(mat[5] - 0.01);
+      ty2 = splashFloor(mat[5] + yScale + 0.01);
+    } else {
+      ty = splashFloor(mat[5] + 0.01);
+      ty2 = splashFloor(mat[5] + yScale - 0.01);
+    }
+  }
+  scaledHeight = abs(ty2 - ty) + 1;
+  xSign = (xScale < 0) ? -1 : 1;
+  ySign = (yScale < 0) ? -1 : 1;
+  yShear1 = (SplashCoord)xSign * yShear;
+
+  // clipping
+  ulx1 = 0;
+  uly1 = 0;
+  urx1 = xSign * (scaledWidth - 1);
+  ury1 = (int)(yShear * urx1);
+  llx1 = splashRound(xShear * ySign * (scaledHeight - 1));
+  lly1 = ySign * (scaledHeight - 1) + (int)(yShear * llx1);
+  lrx1 = xSign * (scaledWidth - 1) +
+           splashRound(xShear * ySign * (scaledHeight - 1));
+  lry1 = ySign * (scaledHeight - 1) + (int)(yShear * lrx1);
+  if (rot) {
+    ulx = tx + uly1;    uly = ty - ulx1;
+    urx = tx + ury1;    ury = ty - urx1;
+    llx = tx + lly1;    lly = ty - llx1;
+    lrx = tx + lry1;    lry = ty - lrx1;
+  } else {
+    ulx = tx + ulx1;    uly = ty + uly1;
+    urx = tx + urx1;    ury = ty + ury1;
+    llx = tx + llx1;    lly = ty + lly1;
+    lrx = tx + lrx1;    lry = ty + lry1;
+  }
+  xMin = (ulx < urx) ? (ulx < llx) ? (ulx < lrx) ? ulx : lrx
+                                   : (llx < lrx) ? llx : lrx
+		     : (urx < llx) ? (urx < lrx) ? urx : lrx
+                                   : (llx < lrx) ? llx : lrx;
+  xMax = (ulx > urx) ? (ulx > llx) ? (ulx > lrx) ? ulx : lrx
+                                   : (llx > lrx) ? llx : lrx
+		     : (urx > llx) ? (urx > lrx) ? urx : lrx
+                                   : (llx > lrx) ? llx : lrx;
+  yMin = (uly < ury) ? (uly < lly) ? (uly < lry) ? uly : lry
+                                   : (lly < lry) ? lly : lry
+		     : (ury < lly) ? (ury < lry) ? ury : lry
+                                   : (lly < lry) ? lly : lry;
+  yMax = (uly > ury) ? (uly > lly) ? (uly > lry) ? uly : lry
+                                   : (lly > lry) ? lly : lry
+		     : (ury > lly) ? (ury > lry) ? ury : lry
+                                   : (lly > lry) ? lly : lry;
+  clipRes = state->clip->testRect(xMin, yMin, xMax, yMax);
+  opClipRes = clipRes;
+
+  // compute Bresenham parameters for x and y scaling
+  yp = h / scaledHeight;
+  yq = h % scaledHeight;
+  xp = w / scaledWidth;
+  xq = w % scaledWidth;
+
+  // allocate pixel buffer
+  pixBuf = (SplashColorPtr)gmalloc((yp + 1) * w);
+
+  // initialize the pixel pipe
+  pipeInit(&pipe, 0, 0, state->fillPattern, NULL, state->fillAlpha,
+	   gTrue, gFalse);
+  if (vectorAntialias) {
+    drawAAPixelInit();
+  }
+
+  // init y scale Bresenham
+  yt = 0;
+  lastYStep = 1;
+
+  for (y = 0; y < scaledHeight; ++y) {
+
+    // y scale Bresenham
+    yStep = yp;
+    yt += yq;
+    if (yt >= scaledHeight) {
+      yt -= scaledHeight;
+      ++yStep;
+    }
+
+    // read row(s) from image
+    n = (yp > 0) ? yStep : lastYStep;
+    if (n > 0) {
+      p = pixBuf;
+      for (i = 0; i < n; ++i) {
+	(*src)(srcData, p);
+	p += w;
+      }
+    }
+    lastYStep = yStep;
+
+    // loop-invariant constants
+    k1 = splashRound(xShear * ySign * y);
+
+    // clipping test
+    if (clipRes != splashClipAllInside &&
+	!rot &&
+	(int)(yShear * k1) ==
+	  (int)(yShear * (xSign * (scaledWidth - 1) + k1))) {
+      if (xSign > 0) {
+	spanXMin = tx + k1;
+	spanXMax = spanXMin + (scaledWidth - 1);
+      } else {
+	spanXMax = tx + k1;
+	spanXMin = spanXMax - (scaledWidth - 1);
+      }
+      spanY = ty + ySign * y + (int)(yShear * k1);
+      clipRes2 = state->clip->testSpan(spanXMin, spanXMax, spanY);
+      if (clipRes2 == splashClipAllOutside) {
+	continue;
+      }
+    } else {
+      clipRes2 = clipRes;
+    }
+
+    // init x scale Bresenham
+    xt = 0;
+    xSrc = 0;
+
+    // x shear
+    x1 = k1;
+
+    // y shear
+    y1 = (SplashCoord)ySign * y + yShear * x1;
+    // this is a kludge: if yShear1 is negative, then (int)y1 would
+    // change immediately after the first pixel, which is not what we
+    // want
+    if (yShear1 < 0) {
+      y1 += 0.999;
+    }
+
+    // loop-invariant constants
+    n = yStep > 0 ? yStep : 1;
+
+    for (x = 0; x < scaledWidth; ++x) {
+
+      // x scale Bresenham
+      xStep = xp;
+      xt += xq;
+      if (xt >= scaledWidth) {
+	xt -= scaledWidth;
+	++xStep;
+      }
+
+      // rotation
+      if (rot) {
+	x2 = (int)y1;
+	y2 = -x1;
+      } else {
+	x2 = x1;
+	y2 = (int)y1;
+      }
+
+      // compute the alpha value for (x,y) after the x and y scaling
+      // operations
+      m = xStep > 0 ? xStep : 1;
+      p = pixBuf + xSrc;
+      pixAcc = 0;
+      for (i = 0; i < n; ++i) {
+	for (j = 0; j < m; ++j) {
+	  pixAcc += *p++;
+	}
+	p += w - m;
+      }
+
+      // blend fill color with background
+      if (pixAcc != 0) {
+	pipe.shape = (pixAcc == n * m)
+	                 ? (SplashCoord)1
+	                 : (SplashCoord)pixAcc / (SplashCoord)(n * m);
+	if (vectorAntialias && clipRes2 != splashClipAllInside) {
+	  drawAAPixel(&pipe, tx + x2, ty + y2);
+	} else {
+	  drawPixel(&pipe, tx + x2, ty + y2, clipRes2 == splashClipAllInside);
+	}
+      }
+
+      // x scale Bresenham
+      xSrc += xStep;
+
+      // x shear
+      x1 += xSign;
+
+      // y shear
+      y1 += yShear1;
+    }
+  }
+
+  // free memory
+  gfree(pixBuf);
+
+  return splashOk;
+}
+
+SplashError Splash::drawImage(SplashImageSource src, void *srcData,
+			      SplashColorMode srcMode, GBool srcAlpha,
+			      int w, int h, SplashCoord *mat) {
+  SplashPipe pipe;
+  GBool ok, rot;
+  SplashCoord xScale, yScale, xShear, yShear, yShear1;
+  int tx, tx2, ty, ty2, scaledWidth, scaledHeight, xSign, ySign;
+  int ulx, uly, llx, lly, urx, ury, lrx, lry;
+  int ulx1, uly1, llx1, lly1, urx1, ury1, lrx1, lry1;
+  int xMin, xMax, yMin, yMax;
+  SplashClipResult clipRes, clipRes2;
+  int yp, yq, yt, yStep, lastYStep;
+  int xp, xq, xt, xStep, xSrc;
+  int k1, spanXMin, spanXMax, spanY;
+  SplashColorPtr colorBuf, p;
+  SplashColor pix;
+  Guchar *alphaBuf, *q;
+#if SPLASH_CMYK
+  int pixAcc0, pixAcc1, pixAcc2, pixAcc3;
+#else
+  int pixAcc0, pixAcc1, pixAcc2;
+#endif
+  int alphaAcc;
+  SplashCoord pixMul, alphaMul, alpha;
+  int x, y, x1, x2, y2;
+  SplashCoord y1;
+  int nComps, n, m, i, j;
+
+  if (debugMode) {
+    printf("drawImage: srcMode=%d srcAlpha=%d w=%d h=%d mat=[%.2f %.2f %.2f %.2f %.2f %.2f]\n",
+	   srcMode, srcAlpha, w, h, (double)mat[0], (double)mat[1], (double)mat[2],
+	   (double)mat[3], (double)mat[4], (double)mat[5]);
+  }
+
+  // check color modes
+  ok = gFalse; // make gcc happy
+  nComps = 0; // make gcc happy
+  switch (bitmap->mode) {
+  case splashModeMono1:
+  case splashModeMono8:
+    ok = srcMode == splashModeMono8;
+    nComps = 1;
+    break;
+  case splashModeRGB8:
+    ok = srcMode == splashModeRGB8;
+    nComps = 3;
+    break;
+  case splashModeBGR8:
+    ok = srcMode == splashModeBGR8;
+    nComps = 3;
+    break;
+#if SPLASH_CMYK
+  case splashModeCMYK8:
+    ok = srcMode == splashModeCMYK8;
+    nComps = 4;
+    break;
+#endif
+  }
+  if (!ok) {
+    return splashErrModeMismatch;
+  }
+
+  // check for singular matrix
+  if (splashAbs(mat[0] * mat[3] - mat[1] * mat[2]) < 0.000001) {
+    return splashErrSingularMatrix;
+  }
+
+  // compute scale, shear, rotation, translation parameters
+  rot = splashAbs(mat[1]) > splashAbs(mat[0]);
+  if (rot) {
+    xScale = -mat[1];
+    yScale = mat[2] - (mat[0] * mat[3]) / mat[1];
+    xShear = -mat[3] / yScale;
+    yShear = -mat[0] / mat[1];
+  } else {
+    xScale = mat[0];
+    yScale = mat[3] - (mat[1] * mat[2]) / mat[0];
+    xShear = mat[2] / yScale;
+    yShear = mat[1] / mat[0];
+  }
+  // Note 1: The PDF spec says that all pixels whose *centers* lie
+  // within the region get painted -- but that doesn't seem to match
+  // up with what Acrobat actually does: it ends up leaving gaps
+  // between image stripes.  So we use the same rule here as for
+  // fills: any pixel that overlaps the region gets painted.
+  // Note 2: The +/-0.01 in these computations is to avoid floating
+  // point precision problems which can lead to gaps between image
+  // stripes (it can cause image stripes to overlap, but that's a much
+  // less visible problem).
+  if (xScale >= 0) {
+    tx = splashFloor(mat[4] - 0.01);
+    tx2 = splashFloor(mat[4] + xScale + 0.01);
+  } else {
+    tx = splashFloor(mat[4] + 0.01);
+    tx2 = splashFloor(mat[4] + xScale - 0.01);
+  }
+  scaledWidth = abs(tx2 - tx) + 1;
+  if (yScale >= 0) {
+    ty = splashFloor(mat[5] - 0.01);
+    ty2 = splashFloor(mat[5] + yScale + 0.01);
+  } else {
+    ty = splashFloor(mat[5] + 0.01);
+    ty2 = splashFloor(mat[5] + yScale - 0.01);
+  }
+  scaledHeight = abs(ty2 - ty) + 1;
+  xSign = (xScale < 0) ? -1 : 1;
+  ySign = (yScale < 0) ? -1 : 1;
+  yShear1 = (SplashCoord)xSign * yShear;
+
+  // clipping
+  ulx1 = 0;
+  uly1 = 0;
+  urx1 = xSign * (scaledWidth - 1);
+  ury1 = (int)(yShear * urx1);
+  llx1 = splashRound(xShear * ySign * (scaledHeight - 1));
+  lly1 = ySign * (scaledHeight - 1) + (int)(yShear * llx1);
+  lrx1 = xSign * (scaledWidth - 1) +
+           splashRound(xShear * ySign * (scaledHeight - 1));
+  lry1 = ySign * (scaledHeight - 1) + (int)(yShear * lrx1);
+  if (rot) {
+    ulx = tx + uly1;    uly = ty - ulx1;
+    urx = tx + ury1;    ury = ty - urx1;
+    llx = tx + lly1;    lly = ty - llx1;
+    lrx = tx + lry1;    lry = ty - lrx1;
+  } else {
+    ulx = tx + ulx1;    uly = ty + uly1;
+    urx = tx + urx1;    ury = ty + ury1;
+    llx = tx + llx1;    lly = ty + lly1;
+    lrx = tx + lrx1;    lry = ty + lry1;
+  }
+  xMin = (ulx < urx) ? (ulx < llx) ? (ulx < lrx) ? ulx : lrx
+                                   : (llx < lrx) ? llx : lrx
+		     : (urx < llx) ? (urx < lrx) ? urx : lrx
+                                   : (llx < lrx) ? llx : lrx;
+  xMax = (ulx > urx) ? (ulx > llx) ? (ulx > lrx) ? ulx : lrx
+                                   : (llx > lrx) ? llx : lrx
+		     : (urx > llx) ? (urx > lrx) ? urx : lrx
+                                   : (llx > lrx) ? llx : lrx;
+  yMin = (uly < ury) ? (uly < lly) ? (uly < lry) ? uly : lry
+                                   : (lly < lry) ? lly : lry
+		     : (ury < lly) ? (ury < lry) ? ury : lry
+                                   : (lly < lry) ? lly : lry;
+  yMax = (uly > ury) ? (uly > lly) ? (uly > lry) ? uly : lry
+                                   : (lly > lry) ? lly : lry
+		     : (ury > lly) ? (ury > lry) ? ury : lry
+                                   : (lly > lry) ? lly : lry;
+  clipRes = state->clip->testRect(xMin, yMin, xMax, yMax);
+  opClipRes = clipRes;
+  if (clipRes == splashClipAllOutside) {
+    return splashOk;
+  }
+
+  // compute Bresenham parameters for x and y scaling
+  yp = h / scaledHeight;
+  yq = h % scaledHeight;
+  xp = w / scaledWidth;
+  xq = w % scaledWidth;
+
+  // allocate pixel buffers
+  colorBuf = (SplashColorPtr)gmalloc((yp + 1) * w * nComps);
+  if (srcAlpha) {
+    alphaBuf = (Guchar *)gmalloc((yp + 1) * w);
+  } else {
+    alphaBuf = NULL;
+  }
+
+  pixAcc0 = pixAcc1 = pixAcc2 = 0; // make gcc happy
+#if SPLASH_CMYK
+  pixAcc3 = 0; // make gcc happy
+#endif
+
+  // initialize the pixel pipe
+  pipeInit(&pipe, 0, 0, NULL, pix, state->fillAlpha,
+	   srcAlpha || (vectorAntialias && clipRes != splashClipAllInside),
+	   gFalse);
+  if (vectorAntialias) {
+    drawAAPixelInit();
+  }
+
+  if (srcAlpha) {
+
+    // init y scale Bresenham
+    yt = 0;
+    lastYStep = 1;
+
+    for (y = 0; y < scaledHeight; ++y) {
+
+      // y scale Bresenham
+      yStep = yp;
+      yt += yq;
+      if (yt >= scaledHeight) {
+	yt -= scaledHeight;
+	++yStep;
+      }
+
+      // read row(s) from image
+      n = (yp > 0) ? yStep : lastYStep;
+      if (n > 0) {
+	p = colorBuf;
+	q = alphaBuf;
+	for (i = 0; i < n; ++i) {
+	  (*src)(srcData, p, q);
+	  p += w * nComps;
+	  q += w;
+	}
+      }
+      lastYStep = yStep;
+
+      // loop-invariant constants
+      k1 = splashRound(xShear * ySign * y);
+
+      // clipping test
+      if (clipRes != splashClipAllInside &&
+	  !rot &&
+	  (int)(yShear * k1) ==
+	    (int)(yShear * (xSign * (scaledWidth - 1) + k1))) {
+	if (xSign > 0) {
+	  spanXMin = tx + k1;
+	  spanXMax = spanXMin + (scaledWidth - 1);
+	} else {
+	  spanXMax = tx + k1;
+	  spanXMin = spanXMax - (scaledWidth - 1);
+	}
+	spanY = ty + ySign * y + (int)(yShear * k1);
+	clipRes2 = state->clip->testSpan(spanXMin, spanXMax, spanY);
+	if (clipRes2 == splashClipAllOutside) {
+	  continue;
+	}
+      } else {
+	clipRes2 = clipRes;
+      }
+
+      // init x scale Bresenham
+      xt = 0;
+      xSrc = 0;
+
+      // x shear
+      x1 = k1;
+
+      // y shear
+      y1 = (SplashCoord)ySign * y + yShear * x1;
+      // this is a kludge: if yShear1 is negative, then (int)y1 would
+      // change immediately after the first pixel, which is not what
+      // we want
+      if (yShear1 < 0) {
+	y1 += 0.999;
+      }
+
+      // loop-invariant constants
+      n = yStep > 0 ? yStep : 1;
+
+      switch (srcMode) {
+
+      case splashModeMono1:
+      case splashModeMono8:
+	for (x = 0; x < scaledWidth; ++x) {
+
+	  // x scale Bresenham
+	  xStep = xp;
+	  xt += xq;
+	  if (xt >= scaledWidth) {
+	    xt -= scaledWidth;
+	    ++xStep;
+	  }
+
+	  // rotation
+	  if (rot) {
+	    x2 = (int)y1;
+	    y2 = -x1;
+	  } else {
+	    x2 = x1;
+	    y2 = (int)y1;
+	  }
+
+	  // compute the filtered pixel at (x,y) after the x and y scaling
+	  // operations
+	  m = xStep > 0 ? xStep : 1;
+	  alphaAcc = 0;
+	  p = colorBuf + xSrc;
+	  q = alphaBuf + xSrc;
+	  pixAcc0 = 0;
+	  for (i = 0; i < n; ++i) {
+	    for (j = 0; j < m; ++j) {
+	      pixAcc0 += *p++;
+	      alphaAcc += *q++;
+	    }
+	    p += w - m;
+	    q += w - m;
+	  }
+	  pixMul = (SplashCoord)1 / (SplashCoord)(n * m);
+	  alphaMul = pixMul * (1.0 / 255.0);
+	  alpha = (SplashCoord)alphaAcc * alphaMul;
+
+	  if (alpha > 0) {
+	    pix[0] = (int)((SplashCoord)pixAcc0 * pixMul);
+
+	    // set pixel
+	    pipe.shape = alpha;
+	    if (vectorAntialias && clipRes != splashClipAllInside) {
+	      drawAAPixel(&pipe, tx + x2, ty + y2);
+	    } else {
+	      drawPixel(&pipe, tx + x2, ty + y2,
+			clipRes2 == splashClipAllInside);
+	    }
+	  }
+
+	  // x scale Bresenham
+	  xSrc += xStep;
+
+	  // x shear
+	  x1 += xSign;
+
+	  // y shear
+	  y1 += yShear1;
+	}
+	break;
+
+      case splashModeRGB8:
+      case splashModeBGR8:
+	for (x = 0; x < scaledWidth; ++x) {
+
+	  // x scale Bresenham
+	  xStep = xp;
+	  xt += xq;
+	  if (xt >= scaledWidth) {
+	    xt -= scaledWidth;
+	    ++xStep;
+	  }
+
+	  // rotation
+	  if (rot) {
+	    x2 = (int)y1;
+	    y2 = -x1;
+	  } else {
+	    x2 = x1;
+	    y2 = (int)y1;
+	  }
+
+	  // compute the filtered pixel at (x,y) after the x and y scaling
+	  // operations
+	  m = xStep > 0 ? xStep : 1;
+	  alphaAcc = 0;
+	  p = colorBuf + xSrc * 3;
+	  q = alphaBuf + xSrc;
+	  pixAcc0 = pixAcc1 = pixAcc2 = 0;
+	  for (i = 0; i < n; ++i) {
+	    for (j = 0; j < m; ++j) {
+	      pixAcc0 += *p++;
+	      pixAcc1 += *p++;
+	      pixAcc2 += *p++;
+	      alphaAcc += *q++;
+	    }
+	    p += 3 * (w - m);
+	    q += w - m;
+	  }
+	  pixMul = (SplashCoord)1 / (SplashCoord)(n * m);
+	  alphaMul = pixMul * (1.0 / 255.0);
+	  alpha = (SplashCoord)alphaAcc * alphaMul;
+
+	  if (alpha > 0) {
+	    pix[0] = (int)((SplashCoord)pixAcc0 * pixMul);
+	    pix[1] = (int)((SplashCoord)pixAcc1 * pixMul);
+	    pix[2] = (int)((SplashCoord)pixAcc2 * pixMul);
+
+	    // set pixel
+	    pipe.shape = alpha;
+	    if (vectorAntialias && clipRes != splashClipAllInside) {
+	      drawAAPixel(&pipe, tx + x2, ty + y2);
+	    } else {
+	      drawPixel(&pipe, tx + x2, ty + y2,
+			clipRes2 == splashClipAllInside);
+	    }
+	  }
+
+	  // x scale Bresenham
+	  xSrc += xStep;
+
+	  // x shear
+	  x1 += xSign;
+
+	  // y shear
+	  y1 += yShear1;
+	}
+	break;
+
+#if SPLASH_CMYK
+      case splashModeCMYK8:
+	for (x = 0; x < scaledWidth; ++x) {
+
+	  // x scale Bresenham
+	  xStep = xp;
+	  xt += xq;
+	  if (xt >= scaledWidth) {
+	    xt -= scaledWidth;
+	    ++xStep;
+	  }
+
+	  // rotation
+	  if (rot) {
+	    x2 = (int)y1;
+	    y2 = -x1;
+	  } else {
+	    x2 = x1;
+	    y2 = (int)y1;
+	  }
+
+	  // compute the filtered pixel at (x,y) after the x and y scaling
+	  // operations
+	  m = xStep > 0 ? xStep : 1;
+	  alphaAcc = 0;
+	  p = colorBuf + xSrc * 4;
+	  q = alphaBuf + xSrc;
+	  pixAcc0 = pixAcc1 = pixAcc2 = pixAcc3 = 0;
+	  for (i = 0; i < n; ++i) {
+	    for (j = 0; j < m; ++j) {
+	      pixAcc0 += *p++;
+	      pixAcc1 += *p++;
+	      pixAcc2 += *p++;
+	      pixAcc3 += *p++;
+	      alphaAcc += *q++;
+	    }
+	    p += 4 * (w - m);
+	    q += w - m;
+	  }
+	  pixMul = (SplashCoord)1 / (SplashCoord)(n * m);
+	  alphaMul = pixMul * (1.0 / 255.0);
+	  alpha = (SplashCoord)alphaAcc * alphaMul;
+
+	  if (alpha > 0) {
+	    pix[0] = (int)((SplashCoord)pixAcc0 * pixMul);
+	    pix[1] = (int)((SplashCoord)pixAcc1 * pixMul);
+	    pix[2] = (int)((SplashCoord)pixAcc2 * pixMul);
+	    pix[3] = (int)((SplashCoord)pixAcc3 * pixMul);
+
+	    // set pixel
+	    pipe.shape = alpha;
+	    if (vectorAntialias && clipRes != splashClipAllInside) {
+	      drawAAPixel(&pipe, tx + x2, ty + y2);
+	    } else {
+	      drawPixel(&pipe, tx + x2, ty + y2,
+			clipRes2 == splashClipAllInside);
+	    }
+	  }
+
+	  // x scale Bresenham
+	  xSrc += xStep;
+
+	  // x shear
+	  x1 += xSign;
+
+	  // y shear
+	  y1 += yShear1;
+	}
+	break;
+#endif // SPLASH_CMYK
+      }
+    }
+
+  } else {
+
+    // init y scale Bresenham
+    yt = 0;
+    lastYStep = 1;
+
+    for (y = 0; y < scaledHeight; ++y) {
+
+      // y scale Bresenham
+      yStep = yp;
+      yt += yq;
+      if (yt >= scaledHeight) {
+	yt -= scaledHeight;
+	++yStep;
+      }
+
+      // read row(s) from image
+      n = (yp > 0) ? yStep : lastYStep;
+      if (n > 0) {
+	p = colorBuf;
+	for (i = 0; i < n; ++i) {
+	  (*src)(srcData, p, NULL);
+	  p += w * nComps;
+	}
+      }
+      lastYStep = yStep;
+
+      // loop-invariant constants
+      k1 = splashRound(xShear * ySign * y);
+
+      // clipping test
+      if (clipRes != splashClipAllInside &&
+	  !rot &&
+	  (int)(yShear * k1) ==
+	    (int)(yShear * (xSign * (scaledWidth - 1) + k1))) {
+	if (xSign > 0) {
+	  spanXMin = tx + k1;
+	  spanXMax = spanXMin + (scaledWidth - 1);
+	} else {
+	  spanXMax = tx + k1;
+	  spanXMin = spanXMax - (scaledWidth - 1);
+	}
+	spanY = ty + ySign * y + (int)(yShear * k1);
+	clipRes2 = state->clip->testSpan(spanXMin, spanXMax, spanY);
+	if (clipRes2 == splashClipAllOutside) {
+	  continue;
+	}
+      } else {
+	clipRes2 = clipRes;
+      }
+
+      // init x scale Bresenham
+      xt = 0;
+      xSrc = 0;
+
+      // x shear
+      x1 = k1;
+
+      // y shear
+      y1 = (SplashCoord)ySign * y + yShear * x1;
+      // this is a kludge: if yShear1 is negative, then (int)y1 would
+      // change immediately after the first pixel, which is not what
+      // we want
+      if (yShear1 < 0) {
+	y1 += 0.999;
+      }
+
+      // loop-invariant constants
+      n = yStep > 0 ? yStep : 1;
+
+      switch (srcMode) {
+
+      case splashModeMono1:
+      case splashModeMono8:
+	for (x = 0; x < scaledWidth; ++x) {
+
+	  // x scale Bresenham
+	  xStep = xp;
+	  xt += xq;
+	  if (xt >= scaledWidth) {
+	    xt -= scaledWidth;
+	    ++xStep;
+	  }
+
+	  // rotation
+	  if (rot) {
+	    x2 = (int)y1;
+	    y2 = -x1;
+	  } else {
+	    x2 = x1;
+	    y2 = (int)y1;
+	  }
+
+	  // compute the filtered pixel at (x,y) after the x and y scaling
+	  // operations
+	  m = xStep > 0 ? xStep : 1;
+	  p = colorBuf + xSrc;
+	  pixAcc0 = 0;
+	  for (i = 0; i < n; ++i) {
+	    for (j = 0; j < m; ++j) {
+	      pixAcc0 += *p++;
+	    }
+	    p += w - m;
+	  }
+	  pixMul = (SplashCoord)1 / (SplashCoord)(n * m);
+
+	  pix[0] = (int)((SplashCoord)pixAcc0 * pixMul);
+
+	  // set pixel
+	  if (vectorAntialias && clipRes != splashClipAllInside) {
+	    pipe.shape = (SplashCoord)1;
+	    drawAAPixel(&pipe, tx + x2, ty + y2);
+	  } else {
+	    drawPixel(&pipe, tx + x2, ty + y2,
+		      clipRes2 == splashClipAllInside);
+	  }
+
+	  // x scale Bresenham
+	  xSrc += xStep;
+
+	  // x shear
+	  x1 += xSign;
+
+	  // y shear
+	  y1 += yShear1;
+	}
+	break;
+
+      case splashModeRGB8:
+      case splashModeBGR8:
+	for (x = 0; x < scaledWidth; ++x) {
+
+	  // x scale Bresenham
+	  xStep = xp;
+	  xt += xq;
+	  if (xt >= scaledWidth) {
+	    xt -= scaledWidth;
+	    ++xStep;
+	  }
+
+	  // rotation
+	  if (rot) {
+	    x2 = (int)y1;
+	    y2 = -x1;
+	  } else {
+	    x2 = x1;
+	    y2 = (int)y1;
+	  }
+
+	  // compute the filtered pixel at (x,y) after the x and y scaling
+	  // operations
+	  m = xStep > 0 ? xStep : 1;
+	  p = colorBuf + xSrc * 3;
+	  pixAcc0 = pixAcc1 = pixAcc2 = 0;
+	  for (i = 0; i < n; ++i) {
+	    for (j = 0; j < m; ++j) {
+	      pixAcc0 += *p++;
+	      pixAcc1 += *p++;
+	      pixAcc2 += *p++;
+	    }
+	    p += 3 * (w - m);
+	  }
+	  pixMul = (SplashCoord)1 / (SplashCoord)(n * m);
+
+	  pix[0] = (int)((SplashCoord)pixAcc0 * pixMul);
+	  pix[1] = (int)((SplashCoord)pixAcc1 * pixMul);
+	  pix[2] = (int)((SplashCoord)pixAcc2 * pixMul);
+
+	  // set pixel
+	  if (vectorAntialias && clipRes != splashClipAllInside) {
+	    pipe.shape = (SplashCoord)1;
+	    drawAAPixel(&pipe, tx + x2, ty + y2);
+	  } else {
+	    drawPixel(&pipe, tx + x2, ty + y2,
+		      clipRes2 == splashClipAllInside);
+	  }
+
+	  // x scale Bresenham
+	  xSrc += xStep;
+
+	  // x shear
+	  x1 += xSign;
+
+	  // y shear
+	  y1 += yShear1;
+	}
+	break;
+
+#if SPLASH_CMYK
+      case splashModeCMYK8:
+	for (x = 0; x < scaledWidth; ++x) {
+
+	  // x scale Bresenham
+	  xStep = xp;
+	  xt += xq;
+	  if (xt >= scaledWidth) {
+	    xt -= scaledWidth;
+	    ++xStep;
+	  }
+
+	  // rotation
+	  if (rot) {
+	    x2 = (int)y1;
+	    y2 = -x1;
+	  } else {
+	    x2 = x1;
+	    y2 = (int)y1;
+	  }
+
+	  // compute the filtered pixel at (x,y) after the x and y scaling
+	  // operations
+	  m = xStep > 0 ? xStep : 1;
+	  p = colorBuf + xSrc * 4;
+	  pixAcc0 = pixAcc1 = pixAcc2 = pixAcc3 = 0;
+	  for (i = 0; i < n; ++i) {
+	    for (j = 0; j < m; ++j) {
+	      pixAcc0 += *p++;
+	      pixAcc1 += *p++;
+	      pixAcc2 += *p++;
+	      pixAcc3 += *p++;
+	    }
+	    p += 4 * (w - m);
+	  }
+	  pixMul = (SplashCoord)1 / (SplashCoord)(n * m);
+
+	  pix[0] = (int)((SplashCoord)pixAcc0 * pixMul);
+	  pix[1] = (int)((SplashCoord)pixAcc1 * pixMul);
+	  pix[2] = (int)((SplashCoord)pixAcc2 * pixMul);
+	  pix[3] = (int)((SplashCoord)pixAcc3 * pixMul);
+
+	  // set pixel
+	  if (vectorAntialias && clipRes != splashClipAllInside) {
+	    pipe.shape = (SplashCoord)1;
+	    drawAAPixel(&pipe, tx + x2, ty + y2);
+	  } else {
+	    drawPixel(&pipe, tx + x2, ty + y2,
+		      clipRes2 == splashClipAllInside);
+	  }
+
+	  // x scale Bresenham
+	  xSrc += xStep;
+
+	  // x shear
+	  x1 += xSign;
+
+	  // y shear
+	  y1 += yShear1;
+	}
+	break;
+#endif // SPLASH_CMYK
+      }
+    }
+
+  }
+
+  gfree(colorBuf);
+  gfree(alphaBuf);
+
+  return splashOk;
+}
+
+SplashError Splash::composite(SplashBitmap *src, int xSrc, int ySrc,
+			      int xDest, int yDest, int w, int h,
+			      GBool noClip, GBool nonIsolated) {
+  SplashPipe pipe;
+  SplashColor pixel;
+  Guchar alpha;
+  Guchar *ap;
+  int x, y;
+
+  if (src->mode != bitmap->mode) {
+    return splashErrModeMismatch;
+  }
+
+  if (src->alpha) {
+    pipeInit(&pipe, xDest, yDest, NULL, pixel, state->fillAlpha,
+	     gTrue, nonIsolated);
+    for (y = 0; y < h; ++y) {
+      pipeSetXY(&pipe, xDest, yDest + y);
+      ap = src->getAlphaPtr() + (ySrc + y) * src->getWidth() + xSrc;
+      for (x = 0; x < w; ++x) {
+	src->getPixel(xSrc + x, ySrc + y, pixel);
+	alpha = *ap++;
+	if (noClip || state->clip->test(xDest + x, yDest + y)) {
+	  // this uses shape instead of alpha, which isn't technically
+	  // correct, but works out the same
+	  pipe.shape = (SplashCoord)(alpha / 255.0);
+	  pipeRun(&pipe);
+	  updateModX(xDest + x);
+	  updateModY(yDest + y);
+	} else {
+	  pipeIncX(&pipe);
+	}
+      }
+    }
+  } else {
+    pipeInit(&pipe, xDest, yDest, NULL, pixel, state->fillAlpha,
+	     gFalse, nonIsolated);
+    for (y = 0; y < h; ++y) {
+      pipeSetXY(&pipe, xDest, yDest + y);
+      for (x = 0; x < w; ++x) {
+	src->getPixel(xSrc + x, ySrc + y, pixel);
+	if (noClip || state->clip->test(xDest + x, yDest + y)) {
+	  pipeRun(&pipe);
+	  updateModX(xDest + x);
+	  updateModY(yDest + y);
+	} else {
+	  pipeIncX(&pipe);
+	}
+      }
+    }
+  }
+
+  return splashOk;
+}
+
+void Splash::compositeBackground(SplashColorPtr color) {
+  SplashColorPtr p;
+  Guchar *q;
+  Guchar alpha, alpha1, c, color0, color1, color2, color3;
+  int x, y, mask;
+
+  switch (bitmap->mode) {
+  case splashModeMono1:
+    color0 = color[0];
+    for (y = 0; y < bitmap->height; ++y) {
+      p = &bitmap->data[y * bitmap->rowSize];
+      q = &bitmap->alpha[y * bitmap->width];
+      mask = 0x80;
+      for (x = 0; x < bitmap->width; ++x) {
+	alpha = *q++;
+	alpha1 = 255 - alpha;
+	c = (*p & mask) ? 0xff : 0x00;
+	c = div255(alpha1 * color0 + alpha * c);
+	if (c & 0x80) {
+	  *p |= mask;
+	} else {
+	  *p &= ~mask;
+	}
+	if (!(mask >>= 1)) {
+	  mask = 0x80;
+	  ++p;
+	}
+      }
+    }
+    break;
+  case splashModeMono8:
+    color0 = color[0];
+    for (y = 0; y < bitmap->height; ++y) {
+      p = &bitmap->data[y * bitmap->rowSize];
+      q = &bitmap->alpha[y * bitmap->width];
+      for (x = 0; x < bitmap->width; ++x) {
+	alpha = *q++;
+	alpha1 = 255 - alpha;
+	p[0] = div255(alpha1 * color0 + alpha * p[0]);
+	++p;
+      }
+    }
+    break;
+  case splashModeRGB8:
+  case splashModeBGR8:
+    color0 = color[0];
+    color1 = color[1];
+    color2 = color[2];
+    for (y = 0; y < bitmap->height; ++y) {
+      p = &bitmap->data[y * bitmap->rowSize];
+      q = &bitmap->alpha[y * bitmap->width];
+      for (x = 0; x < bitmap->width; ++x) {
+	alpha = *q++;
+	alpha1 = 255 - alpha;
+	p[0] = div255(alpha1 * color0 + alpha * p[0]);
+	p[1] = div255(alpha1 * color1 + alpha * p[1]);
+	p[2] = div255(alpha1 * color2 + alpha * p[2]);
+	p += 3;
+      }
+    }
+    break;
+#if SPLASH_CMYK
+  case splashModeCMYK8:
+    color0 = color[0];
+    color1 = color[1];
+    color2 = color[2];
+    color3 = color[3];
+    for (y = 0; y < bitmap->height; ++y) {
+      p = &bitmap->data[y * bitmap->rowSize];
+      q = &bitmap->alpha[y * bitmap->width];
+      for (x = 0; x < bitmap->width; ++x) {
+	alpha = *q++;
+	alpha1 = 255 - alpha;
+	p[0] = div255(alpha1 * color0 + alpha * p[0]);
+	p[1] = div255(alpha1 * color1 + alpha * p[1]);
+	p[2] = div255(alpha1 * color2 + alpha * p[2]);
+	p[3] = div255(alpha1 * color3 + alpha * p[3]);
+	p += 4;
+      }
+    }
+    break;
+#endif
+  }
+  memset(bitmap->alpha, 255, bitmap->width * bitmap->height);
+}
+
+SplashError Splash::blitTransparent(SplashBitmap *src, int xSrc, int ySrc,
+				    int xDest, int yDest, int w, int h) {
+  SplashColor pixel;
+  SplashColorPtr p;
+  Guchar *q;
+  int x, y, mask;
+
+  if (src->mode != bitmap->mode) {
+    return splashErrModeMismatch;
+  }
+
+  switch (bitmap->mode) {
+  case splashModeMono1:
+    for (y = 0; y < h; ++y) {
+      p = &bitmap->data[(yDest + y) * bitmap->rowSize + (xDest >> 3)];
+      mask = 0x80 >> (xDest & 7);
+      for (x = 0; x < w; ++x) {
+	src->getPixel(xSrc + x, ySrc + y, pixel);
+	if (pixel[0]) {
+	  *p |= mask;
+	} else {
+	  *p &= ~mask;
+	}
+	if (!(mask >>= 1)) {
+	  mask = 0x80;
+	  ++p;
+	}
+      }
+    }
+    break;
+  case splashModeMono8:
+    for (y = 0; y < h; ++y) {
+      p = &bitmap->data[(yDest + y) * bitmap->rowSize + xDest];
+      for (x = 0; x < w; ++x) {
+	src->getPixel(xSrc + x, ySrc + y, pixel);
+	*p++ = pixel[0];
+      }
+    }
+    break;
+  case splashModeRGB8:
+  case splashModeBGR8:
+    for (y = 0; y < h; ++y) {
+      p = &bitmap->data[(yDest + y) * bitmap->rowSize + 3 * xDest];
+      for (x = 0; x < w; ++x) {
+	src->getPixel(xSrc + x, ySrc + y, pixel);
+	*p++ = pixel[0];
+	*p++ = pixel[1];
+	*p++ = pixel[2];
+      }
+    }
+    break;
+#if SPLASH_CMYK
+  case splashModeCMYK8:
+    for (y = 0; y < h; ++y) {
+      p = &bitmap->data[(yDest + y) * bitmap->rowSize + 4 * xDest];
+      for (x = 0; x < w; ++x) {
+	src->getPixel(xSrc + x, ySrc + y, pixel);
+	*p++ = pixel[0];
+	*p++ = pixel[1];
+	*p++ = pixel[2];
+	*p++ = pixel[3];
+      }
+    }
+    break;
+#endif
+  }
+
+  if (bitmap->alpha) {
+    for (y = 0; y < h; ++y) {
+      q = &bitmap->alpha[(yDest + y) * bitmap->width + xDest];
+      for (x = 0; x < w; ++x) {
+	*q++ = 0x00;
+      }
+    }
+  }
+
+  return splashOk;
+}
+
+SplashPath *Splash::makeStrokePath(SplashPath *path, GBool flatten) {
+  SplashPath *pathIn, *pathOut;
+  SplashCoord w, d, dx, dy, wdx, wdy, dxNext, dyNext, wdxNext, wdyNext;
+  SplashCoord crossprod, dotprod, miter, m;
+  GBool first, last, closed;
+  int subpathStart, next, i;
+  int left0, left1, left2, right0, right1, right2, join0, join1, join2;
+  int leftFirst, rightFirst, firstPt;
+
+  if (flatten) {
+    pathIn = flattenPath(path, state->matrix, state->flatness);
+    if (state->lineDashLength > 0) {
+      pathOut = makeDashedPath(pathIn);
+      delete pathIn;
+      pathIn = pathOut;
+    }
+  } else {
+    pathIn = path;
+  }
+
+  subpathStart = 0; // make gcc happy
+  closed = gFalse; // make gcc happy
+  left0 = left1 = right0 = right1 = join0 = join1 = 0; // make gcc happy
+  leftFirst = rightFirst = firstPt = 0; // make gcc happy
+
+  pathOut = new SplashPath();
+  w = state->lineWidth;
+
+  for (i = 0; i < pathIn->length - 1; ++i) {
+    if (pathIn->flags[i] & splashPathLast) {
+      continue;
+    }
+    if ((first = pathIn->flags[i] & splashPathFirst)) {
+      subpathStart = i;
+      closed = pathIn->flags[i] & splashPathClosed;
+    }
+    last = pathIn->flags[i+1] & splashPathLast;
+
+    // compute the deltas for segment (i, i+1)
+    d = splashDist(pathIn->pts[i].x, pathIn->pts[i].y,
+		   pathIn->pts[i+1].x, pathIn->pts[i+1].y);
+    if (d == 0) {
+      // we need to draw end caps on zero-length lines
+      //~ not clear what the behavior should be for splashLineCapButt
+      //~   with d==0
+      dx = 0;
+      dy = 1;
+    } else {
+      d = (SplashCoord)1 / d;
+      dx = d * (pathIn->pts[i+1].x - pathIn->pts[i].x);
+      dy = d * (pathIn->pts[i+1].y - pathIn->pts[i].y);
+    }
+    wdx = (SplashCoord)0.5 * w * dx;
+    wdy = (SplashCoord)0.5 * w * dy;
+
+    // compute the deltas for segment (i+1, next)
+    next = last ? subpathStart + 1 : i + 2;
+    d = splashDist(pathIn->pts[i+1].x, pathIn->pts[i+1].y,
+		   pathIn->pts[next].x, pathIn->pts[next].y);
+    if (d == 0) {
+      // we need to draw end caps on zero-length lines
+      //~ not clear what the behavior should be for splashLineCapButt
+      //~   with d==0
+      dxNext = 0;
+      dyNext = 1;
+    } else {
+      d = (SplashCoord)1 / d;
+      dxNext = d * (pathIn->pts[next].x - pathIn->pts[i+1].x);
+      dyNext = d * (pathIn->pts[next].y - pathIn->pts[i+1].y);
+    }
+    wdxNext = (SplashCoord)0.5 * w * dxNext;
+    wdyNext = (SplashCoord)0.5 * w * dyNext;
+
+    // draw the start cap
+    pathOut->moveTo(pathIn->pts[i].x - wdy, pathIn->pts[i].y + wdx);
+    if (i == subpathStart) {
+      firstPt = pathOut->length - 1;
+    }
+    if (first && !closed) {
+      switch (state->lineCap) {
+      case splashLineCapButt:
+	pathOut->lineTo(pathIn->pts[i].x + wdy, pathIn->pts[i].y - wdx);
+	break;
+      case splashLineCapRound:
+	pathOut->curveTo(pathIn->pts[i].x - wdy - bezierCircle * wdx,
+			 pathIn->pts[i].y + wdx - bezierCircle * wdy,
+			 pathIn->pts[i].x - wdx - bezierCircle * wdy,
+			 pathIn->pts[i].y - wdy + bezierCircle * wdx,
+			 pathIn->pts[i].x - wdx,
+			 pathIn->pts[i].y - wdy);
+	pathOut->curveTo(pathIn->pts[i].x - wdx + bezierCircle * wdy,
+			 pathIn->pts[i].y - wdy - bezierCircle * wdx,
+			 pathIn->pts[i].x + wdy - bezierCircle * wdx,
+			 pathIn->pts[i].y - wdx - bezierCircle * wdy,
+			 pathIn->pts[i].x + wdy,
+			 pathIn->pts[i].y - wdx);
+	break;
+      case splashLineCapProjecting:
+	pathOut->lineTo(pathIn->pts[i].x - wdx - wdy,
+			pathIn->pts[i].y + wdx - wdy);
+	pathOut->lineTo(pathIn->pts[i].x - wdx + wdy,
+			pathIn->pts[i].y - wdx - wdy);
+	pathOut->lineTo(pathIn->pts[i].x + wdy,
+			pathIn->pts[i].y - wdx);
+	break;
+      }
+    } else {
+      pathOut->lineTo(pathIn->pts[i].x + wdy, pathIn->pts[i].y - wdx);
+    }
+
+    // draw the left side of the segment rectangle
+    left2 = pathOut->length - 1;
+    pathOut->lineTo(pathIn->pts[i+1].x + wdy, pathIn->pts[i+1].y - wdx);
+
+    // draw the end cap
+    if (last && !closed) {
+      switch (state->lineCap) {
+      case splashLineCapButt:
+	pathOut->lineTo(pathIn->pts[i+1].x - wdy, pathIn->pts[i+1].y + wdx);
+	break;
+      case splashLineCapRound:
+	pathOut->curveTo(pathIn->pts[i+1].x + wdy + bezierCircle * wdx,
+			 pathIn->pts[i+1].y - wdx + bezierCircle * wdy,
+			 pathIn->pts[i+1].x + wdx + bezierCircle * wdy,
+			 pathIn->pts[i+1].y + wdy - bezierCircle * wdx,
+			 pathIn->pts[i+1].x + wdx,
+			 pathIn->pts[i+1].y + wdy);
+	pathOut->curveTo(pathIn->pts[i+1].x + wdx - bezierCircle * wdy,
+			 pathIn->pts[i+1].y + wdy + bezierCircle * wdx,
+			 pathIn->pts[i+1].x - wdy + bezierCircle * wdx,
+			 pathIn->pts[i+1].y + wdx + bezierCircle * wdy,
+			 pathIn->pts[i+1].x - wdy,
+			 pathIn->pts[i+1].y + wdx);
+	break;
+      case splashLineCapProjecting:
+	pathOut->lineTo(pathIn->pts[i+1].x + wdy + wdx,
+			pathIn->pts[i+1].y - wdx + wdy);
+	pathOut->lineTo(pathIn->pts[i+1].x - wdy + wdx,
+			pathIn->pts[i+1].y + wdx + wdy);
+	pathOut->lineTo(pathIn->pts[i+1].x - wdy,
+			pathIn->pts[i+1].y + wdx);
+	break;
+      }
+    } else {
+      pathOut->lineTo(pathIn->pts[i+1].x - wdy, pathIn->pts[i+1].y + wdx);
+    }
+
+    // draw the right side of the segment rectangle
+    right2 = pathOut->length - 1;
+    pathOut->close();
+
+    // draw the join
+    join2 = pathOut->length;
+    if (!last || closed) {
+      crossprod = dx * dyNext - dy * dxNext;
+      dotprod = -(dx * dxNext + dy * dyNext);
+      if (dotprod > 0.99999) {
+	// avoid a divide-by-zero -- set miter to something arbitrary
+	// such that sqrt(miter) will exceed miterLimit (and m is never
+	// used in that situation)
+	miter = (state->miterLimit + 1) * (state->miterLimit + 1);
+	m = 0;
+      } else {
+	miter = (SplashCoord)2 / ((SplashCoord)1 - dotprod);
+	if (miter < 1) {
+	  // this can happen because of floating point inaccuracies
+	  miter = 1;
+	}
+	m = splashSqrt(miter - 1);
+      }
+
+      // round join
+      if (state->lineJoin == splashLineJoinRound) {
+	pathOut->moveTo(pathIn->pts[i+1].x + (SplashCoord)0.5 * w,
+			pathIn->pts[i+1].y);
+	pathOut->curveTo(pathIn->pts[i+1].x + (SplashCoord)0.5 * w,
+			 pathIn->pts[i+1].y + bezierCircle2 * w,
+			 pathIn->pts[i+1].x + bezierCircle2 * w,
+			 pathIn->pts[i+1].y + (SplashCoord)0.5 * w,
+			 pathIn->pts[i+1].x,
+			 pathIn->pts[i+1].y + (SplashCoord)0.5 * w);
+	pathOut->curveTo(pathIn->pts[i+1].x - bezierCircle2 * w,
+			 pathIn->pts[i+1].y + (SplashCoord)0.5 * w,
+			 pathIn->pts[i+1].x - (SplashCoord)0.5 * w,
+			 pathIn->pts[i+1].y + bezierCircle2 * w,
+			 pathIn->pts[i+1].x - (SplashCoord)0.5 * w,
+			 pathIn->pts[i+1].y);
+	pathOut->curveTo(pathIn->pts[i+1].x - (SplashCoord)0.5 * w,
+			 pathIn->pts[i+1].y - bezierCircle2 * w,
+			 pathIn->pts[i+1].x - bezierCircle2 * w,
+			 pathIn->pts[i+1].y - (SplashCoord)0.5 * w,
+			 pathIn->pts[i+1].x,
+			 pathIn->pts[i+1].y - (SplashCoord)0.5 * w);
+	pathOut->curveTo(pathIn->pts[i+1].x + bezierCircle2 * w,
+			 pathIn->pts[i+1].y - (SplashCoord)0.5 * w,
+			 pathIn->pts[i+1].x + (SplashCoord)0.5 * w,
+			 pathIn->pts[i+1].y - bezierCircle2 * w,
+			 pathIn->pts[i+1].x + (SplashCoord)0.5 * w,
+			 pathIn->pts[i+1].y);
+
+      } else {
+	pathOut->moveTo(pathIn->pts[i+1].x, pathIn->pts[i+1].y);
+
+	// angle < 180
+	if (crossprod < 0) {
+	  pathOut->lineTo(pathIn->pts[i+1].x - wdyNext,
+			  pathIn->pts[i+1].y + wdxNext);
+	  // miter join inside limit
+	  if (state->lineJoin == splashLineJoinMiter &&
+	      splashSqrt(miter) <= state->miterLimit) {
+	    pathOut->lineTo(pathIn->pts[i+1].x - wdy + wdx * m,
+			    pathIn->pts[i+1].y + wdx + wdy * m);
+	    pathOut->lineTo(pathIn->pts[i+1].x - wdy,
+			    pathIn->pts[i+1].y + wdx);
+	  // bevel join or miter join outside limit
+	  } else {
+	    pathOut->lineTo(pathIn->pts[i+1].x - wdy, pathIn->pts[i+1].y + wdx);
+	  }
+
+	// angle >= 180
+	} else {
+	  pathOut->lineTo(pathIn->pts[i+1].x + wdy,
+			  pathIn->pts[i+1].y - wdx);
+	  // miter join inside limit
+	  if (state->lineJoin == splashLineJoinMiter &&
+	      splashSqrt(miter) <= state->miterLimit) {
+	    pathOut->lineTo(pathIn->pts[i+1].x + wdy + wdx * m,
+			    pathIn->pts[i+1].y - wdx + wdy * m);
+	    pathOut->lineTo(pathIn->pts[i+1].x + wdyNext,
+			    pathIn->pts[i+1].y - wdxNext);
+	  // bevel join or miter join outside limit
+	  } else {
+	    pathOut->lineTo(pathIn->pts[i+1].x + wdyNext,
+			    pathIn->pts[i+1].y - wdxNext);
+	  }
+	}
+      }
+
+      pathOut->close();
+    }
+
+    // add stroke adjustment hints
+    if (state->strokeAdjust) {
+      if (i >= subpathStart + 1) {
+	if (i >= subpathStart + 2) {
+	  pathOut->addStrokeAdjustHint(left1, right1, left0 + 1, right0);
+	  pathOut->addStrokeAdjustHint(left1, right1, join0, left2);
+	} else {
+	  pathOut->addStrokeAdjustHint(left1, right1, firstPt, left2);
+	}
+	pathOut->addStrokeAdjustHint(left1, right1, right2 + 1, right2 + 1);
+      }
+      left0 = left1;
+      left1 = left2;
+      right0 = right1;
+      right1 = right2;
+      join0 = join1;
+      join1 = join2;
+      if (i == subpathStart) {
+	leftFirst = left2;
+	rightFirst = right2;
+      }
+      if (last) {
+	if (i >= subpathStart + 2) {
+	  pathOut->addStrokeAdjustHint(left1, right1, left0 + 1, right0);
+	  pathOut->addStrokeAdjustHint(left1, right1,
+				       join0, pathOut->length - 1);
+	} else {
+	  pathOut->addStrokeAdjustHint(left1, right1,
+				       firstPt, pathOut->length - 1);
+	}
+	if (closed) {
+	  pathOut->addStrokeAdjustHint(left1, right1, firstPt, leftFirst);
+	  pathOut->addStrokeAdjustHint(left1, right1,
+				       rightFirst + 1, rightFirst + 1);
+	  pathOut->addStrokeAdjustHint(leftFirst, rightFirst,
+				       left1 + 1, right1);
+	  pathOut->addStrokeAdjustHint(leftFirst, rightFirst,
+				       join1, pathOut->length - 1);
+	}
+      }
+    }
+  }
+
+  if (pathIn != path) {
+    delete pathIn;
+  }
+
+  return pathOut;
+}
+
+void Splash::dumpPath(SplashPath *path) {
+  int i;
+
+  for (i = 0; i < path->length; ++i) {
+    printf("  %3d: x=%8.2f y=%8.2f%s%s%s%s\n",
+	   i, (double)path->pts[i].x, (double)path->pts[i].y,
+	   (path->flags[i] & splashPathFirst) ? " first" : "",
+	   (path->flags[i] & splashPathLast) ? " last" : "",
+	   (path->flags[i] & splashPathClosed) ? " closed" : "",
+	   (path->flags[i] & splashPathCurve) ? " curve" : "");
+  }
+}
+
+void Splash::dumpXPath(SplashXPath *path) {
+  int i;
+
+  for (i = 0; i < path->length; ++i) {
+    printf("  %4d: x0=%8.2f y0=%8.2f x1=%8.2f y1=%8.2f %s%s%s%s%s%s%s\n",
+	   i, (double)path->segs[i].x0, (double)path->segs[i].y0,
+	   (double)path->segs[i].x1, (double)path->segs[i].y1,
+	   (path->segs[i].flags	& splashXPathFirst) ? "F" : " ",
+	   (path->segs[i].flags	& splashXPathLast) ? "L" : " ",
+	   (path->segs[i].flags	& splashXPathEnd0) ? "0" : " ",
+	   (path->segs[i].flags	& splashXPathEnd1) ? "1" : " ",
+	   (path->segs[i].flags	& splashXPathHoriz) ? "H" : " ",
+	   (path->segs[i].flags	& splashXPathVert) ? "V" : " ",
+	   (path->segs[i].flags	& splashXPathFlip) ? "P" : " ");
+  }
+}