#endif
//xpdf header files
#include "config.h"
+#ifdef HAVE_POPPLER
+#include <goo/GooString.h>
+#include <goo/gfile.h>
+#else
#include "gfile.h"
#include "GString.h"
-#include "gmem.h"
+#endif
#include "Object.h"
#include "Stream.h"
#include "Array.h"
#include "OutputDev.h"
#include "GfxFont.h"
#include "GfxState.h"
-#include "CharCodeToUnicode.h"
#include "NameToUnicodeTable.h"
#include "GlobalParams.h"
-#include "FoFiType1C.h"
-#include "FoFiTrueType.h"
-#include "GHash.h"
#include "GFXOutputDev.h"
// swftools header files
static int verbose = 0;
-static int dbgindent = 0;
+static int dbgindent = 1;
static void dbg(const char*format, ...)
{
char buf[1024];
this->info = info;
this->doc = doc;
this->xref = doc->getXRef();
-
+
this->jpeginfo = 0;
this->textmodeinfo = 0;
this->linkinfo = 0;
this->pages = 0;
this->pagebuflen = 0;
this->pagepos = 0;
- this->config_convertgradients=0;
+ this->config_bigchar=0;
+ this->config_convertgradients=1;
this->config_break_on_warning=0;
this->config_remapunicode=0;
this->config_transparent=0;
this->config_extrafontdata = 0;
this->config_fontquality = 10;
this->config_optimize_polygons = 0;
+ this->config_multiply = 1;
this->gfxfontlist = gfxfontlist_create();
+ this->dashPattern = 0;
memset(states, 0, sizeof(states));
this->featurewarnings = 0;
this->config_extrafontdata = atoi(value);
} else if(!strcmp(key,"convertgradients")) {
this->config_convertgradients = atoi(value);
+ } else if(!strcmp(key,"multiply")) {
+ this->config_multiply = atoi(value);
+ if(this->config_multiply<1)
+ this->config_multiply=1;
} else if(!strcmp(key,"optimize_polygons")) {
this->config_optimize_polygons = atoi(value);
+ } else if(!strcmp(key,"bigchar")) {
+ this->config_bigchar = atoi(value);
} else if(!strcmp(key,"fontquality")) {
this->config_fontquality = atof(value);
if(this->config_fontquality<=1)
this->config_fontquality=1;
- } else if(!strcmp(key,"help")) {
- printf("\nPDF layer options:\n");
- printf("breakonwarning=0/1 Abort conversion if graphic objects are found which\n");
- printf(" are not 100%% supported\n");
- printf("transparent=0/1 Make PDF transparent (alpha background)\n");
- printf("extrafontdata=0/1 Store Type3 characters and capture characters\n");
- printf("fontquality=1..100 Curve approximation quality of the fonts\n");
}
}
m.ty = (y0 + y1)/2 - 0.5;
device->fillgradient(device, &p1, g, gfxgradient_linear, &m);
+
+ free(g);
return gTrue;
}
this->transformXY(state, 1, 1, &tx2, &ty2);
double f = sqrt(sqr(tx2-tx1)+sqr(ty2-ty1)) / SQRT2;
- f = 1.0; //disable dash length transform for now
-
msg("<trace> %d dashes", this->dashLength);
msg("<trace> | phase: %f", this->dashStart);
for(t=0;t<this->dashLength;t++) {
dash[t] = (float)this->dashPattern[t] * f;
+ if(!dash[t])
+ dash[t] = 1e-37;
msg("<trace> | d%-3d: %f", t, this->dashPattern[t]);
}
dash[this->dashLength] = -1;
gfxline_t*line= gfxPath_to_gfxline(state, path, 0, user_movex + clipmovex, user_movey + clipmovey);
if(getLogLevel() >= LOGLEVEL_TRACE) {
- msg("<trace> cliptostrokepath");
+ double width = state->getTransformedLineWidth();
+ msg("<trace> cliptostrokepath width=%f", width);
dump_outline(line);
}
if(this->pages) {
free(this->pages); this->pages = 0;
}
+ if(this->dashPattern) {
+ free(this->dashPattern);this->dashPattern = 0;
+ }
feature_t*f = this->featurewarnings;
while(f) {
msg("<debug> drawChar(%f,%f,c='%c' (%d), u=%d <%d>) CID=%d render=%d glyphid=%d font=%08x",x,y,(charid&127)>=32?charid:'?', charid, u, uLen, font->isCIDFont(), render, glyphid, current_gfxfont);
gfxmatrix_t m = this->current_font_matrix;
- this->transformXY(state, x, y, &m.tx, &m.ty);
+ this->transformXY(state, x-originX, y-originY, &m.tx, &m.ty);
+ //m.tx += originX; m.ty += originY;
if(render == RENDER_FILL || render == RENDER_INVISIBLE) {
device->drawchar(device, current_gfxfont, glyphid, &col, &m);
}
void GFXOutputDev::saveState(GfxState *state) {
- dbg("saveState"); dbgindent+=2;
+ dbg("saveState %08x", state); dbgindent+=2;
- msg("<trace> saveState");
+ msg("<trace> saveState %08x", state);
updateAll(state);
if(statepos>=64) {
- msg("<error> Too many nested states in pdf.");
- return;
+ msg("<fatal> Too many nested states in pdf.");
+ exit(1);
}
statepos ++;
+ states[statepos].state = state;
states[statepos].createsoftmask = states[statepos-1].createsoftmask;
states[statepos].transparencygroup = states[statepos-1].transparencygroup;
states[statepos].clipping = 0;
+ states[statepos].olddevice = 0;
states[statepos].clipbbox = states[statepos-1].clipbbox;
};
void GFXOutputDev::restoreState(GfxState *state) {
- dbgindent-=2; dbg("restoreState");
+ dbgindent-=2; dbg("restoreState %08x", state);
if(statepos==0) {
- msg("<error> Invalid restoreState");
- return;
+ msg("<fatal> Invalid restoreState");
+ exit(1);
}
- msg("<trace> restoreState%s%s", states[statepos].softmask?" (end softmask)":"",
+ msg("<trace> restoreState %08x%s%s", state,
+ states[statepos].softmask?" (end softmask)":"",
states[statepos].clipping?" (end clipping)":"");
if(states[statepos].softmask) {
clearSoftMask(state);
}
updateAll(state);
+
while(states[statepos].clipping) {
device->endclip(device);
states[statepos].clipping--;
}
+ if(states[statepos].state!=state) {
+ msg("<fatal> bad state nesting");
+ exit(1);
+ }
+ states[statepos].state=0;
statepos--;
}
void GFXOutputDev::updateLineDash(GfxState *state)
{
- state->getLineDash(&this->dashPattern, &this->dashLength, &this->dashStart);
+ if(this->dashPattern) {
+ free(this->dashPattern);this->dashPattern = 0;
+ }
+ double *pattern = 0;
+ state->getLineDash(&pattern, &this->dashLength, &this->dashStart);
msg("<debug> updateLineDash, %d dashes", this->dashLength);
if(!this->dashLength) {
this->dashPattern = 0;
+ } else {
+ double*p = (double*)malloc(this->dashLength*sizeof(this->dashPattern[0]));
+ memcpy(p, pattern, this->dashLength*sizeof(this->dashPattern[0]));
+ this->dashPattern = p;
}
}
}
-static gfxfont_t* createGfxFont(GfxFont*xpdffont, FontInfo*src, double config_fontquality)
+gfxfont_t* GFXOutputDev::createGfxFont(GfxFont*xpdffont, FontInfo*src)
{
gfxfont_t*font = (gfxfont_t*)malloc(sizeof(gfxfont_t));
memset(font, 0, sizeof(gfxfont_t));
memset(font->glyphs, 0, sizeof(gfxglyph_t)*src->num_glyphs);
font->id = 0;
int t;
-
+
double quality = (INTERNAL_FONT_SIZE * 200 / config_fontquality) / src->max_size;
double scale = 1;
//printf("%d glyphs\n", font->num_glyphs);
font->num_glyphs = 0;
+ font->ascent = fabs(src->descender);
+ font->descent = fabs(src->ascender);
+
for(t=0;t<src->num_glyphs;t++) {
if(src->glyphs[t]) {
SplashPath*path = src->glyphs[t]->path;
// (f&splashPathFirst)?"first":"",
// (f&splashPathLast)?"last":"");
}
+
glyph->line = (gfxline_t*)drawer.result(&drawer);
- glyph->advance = xmax*scale; // we don't know the real advance value, so this'll have to do
+ if(src->glyphs[t]->advance>0) {
+ glyph->advance = src->glyphs[t]->advance;
+ } else {
+ msg("<warning> Approximating advance value for glyph %d", t);
+ glyph->advance = xmax*scale;
+ }
+ if(this->config_bigchar) {
+ double max = src->glyphs[t]->advance_max;
+ if(max>0 && max > glyph->advance) {
+ glyph->advance = max;
+ }
+ }
+
font->num_glyphs++;
}
}
gfxfont_t*font = gfxfontlist_findfont(this->gfxfontlist,id);
if(!font) {
- font = createGfxFont(gfxFont, current_fontinfo, this->config_fontquality);
+ font = this->createGfxFont(gfxFont, current_fontinfo);
font->id = strdup(id);
this->gfxfontlist = gfxfontlist_addfont(this->gfxfontlist, font);
}
unsigned char* antialize(unsigned char*data, int width, int height, int newwidth, int newheight, int palettesize)
{
- if((newwidth<2 || newheight<2) ||
+ if((newwidth<1 || newheight<1) ||
(width<=newwidth || height<=newheight))
return 0;
unsigned char*newdata;
int x,y;
newdata= (unsigned char*)malloc(newwidth*newheight);
- double fx = (double)(width)/newwidth;
- double fy = (double)(height)/newheight;
+ double fx = ((double)width)/newwidth;
+ double fy = ((double)height)/newheight;
double px = 0;
int blocksize = (int)(8192/(fx*fy));
int r = 8192*256/palettesize;
double ex = px + fx;
int fromx = (int)px;
int tox = (int)ex;
- int xweight1 = (int)(((fromx+1)-px)*256);
+ int xweight1 = (int)((1-(px-fromx))*256);
int xweight2 = (int)((ex-tox)*256);
double py =0;
for(y=0;y<newheight;y++) {
double ey = py + fy;
int fromy = (int)py;
int toy = (int)ey;
- int yweight1 = (int)(((fromy+1)-py)*256);
+ int yweight1 = (int)((1-(py-fromy))*256);
int yweight2 = (int)((ey-toy)*256);
int a = 0;
int xx,yy;
+ if(tox>=width)
+ tox = width-1;
+ if(toy>=height)
+ toy = height-1;
for(xx=fromx;xx<=tox;xx++)
for(yy=fromy;yy<=toy;yy++) {
int b = 1-data[width*yy+xx];
double x1,double y1,
double x2,double y2,
double x3,double y3,
- double x4,double y4, int type)
+ double x4,double y4, int type, int multiply)
{
gfxcolor_t*newpic=0;
p5.x = (int)(p5.x*20)/20.0;
p5.y = (int)(p5.y*20)/20.0;
}
-
+
gfxmatrix_t m;
m.m00 = (p4.x-p1.x)/sizex; m.m10 = (p2.x-p1.x)/sizey;
m.m01 = (p4.y-p1.y)/sizex; m.m11 = (p2.y-p1.y)/sizey;
- m.tx = p1.x - 0.5;
- m.ty = p1.y - 0.5;
+
+ m.tx = p1.x - 0.5*multiply;
+ m.ty = p1.y - 0.5*multiply;
gfximage_t img;
img.data = (gfxcolor_t*)data;
/* TODO: pass image_dpi to device instead */
dev->setparameter(dev, "next_bitmap_is_jpeg", "1");
+ dump_outline(&p1);
dev->fillbitmap(dev, &p1, &img, &m, 0);
}
void drawimagejpeg(gfxdevice_t*dev, gfxcolor_t*mem, int sizex,int sizey,
- double x1,double y1, double x2,double y2, double x3,double y3, double x4,double y4)
+ double x1,double y1, double x2,double y2, double x3,double y3, double x4,double y4, int multiply)
{
- drawimage(dev,mem,sizex,sizey,x1,y1,x2,y2,x3,y3,x4,y4, IMAGE_TYPE_JPEG);
+ drawimage(dev,mem,sizex,sizey,x1,y1,x2,y2,x3,y3,x4,y4, IMAGE_TYPE_JPEG, multiply);
}
void drawimagelossless(gfxdevice_t*dev, gfxcolor_t*mem, int sizex,int sizey,
- double x1,double y1, double x2,double y2, double x3,double y3, double x4,double y4)
+ double x1,double y1, double x2,double y2, double x3,double y3, double x4,double y4, int multiply)
{
- drawimage(dev,mem,sizex,sizey,x1,y1,x2,y2,x3,y3,x4,y4, IMAGE_TYPE_LOSSLESS);
+ drawimage(dev,mem,sizex,sizey,x1,y1,x2,y2,x3,y3,x4,y4, IMAGE_TYPE_LOSSLESS, multiply);
}
GBool inlineImg, int mask, int*maskColors,
Stream *maskStr, int maskWidth, int maskHeight, GBool maskInvert, GfxImageColorMap*maskColorMap)
{
+ /* the code in this function is *old*. It's not pretty, but it works. */
+
double x1,y1,x2,y2,x3,y3,x4,y4;
ImageStream *imgStr;
Guchar pixBuf[4];
imgStr = new ImageStream(str, width, ncomps,bits);
imgStr->reset();
- if(!width || !height || (height<=1 && width<=1 && maskWidth<=1 && maskHeight<=1))
+ if(!width || !height || ((height+width)<=1 && (maskWidth+maskHeight)<=1))
{
msg("<verbose> Ignoring %d by %d image", width, height);
unsigned char buf[8];
this->transformXY(state, 1, 0, &x3, &y3);
this->transformXY(state, 1, 1, &x4, &y4);
+ if(type3active) {
+ /* as type 3 bitmaps are antialized, we need to place them
+ at integer coordinates, otherwise flash player's antializing
+ will kick in and make everything blurry */
+ x1 = (int)(x1);y1 = (int)(y1);
+ x2 = (int)(x2);y2 = (int)(y2);
+ x3 = (int)(x3);y3 = (int)(y3);
+ x4 = (int)(x4);y4 = (int)(y4);
+ }
+
if(!pbminfo && !(str->getKind()==strDCT)) {
if(!type3active) {
msg("<notice> File contains pbm pictures %s",mask?"(masked)":"");
buf[0]=1-buf[0];
pic[width*y+x] = buf[0];
}
-
- /* the size of the drawn image is added to the identifier
- as the same image may require different bitmaps if displayed
- at different sizes (due to antialiasing): */
- int found = -1;
+
if(type3active) {
unsigned char*pic2 = 0;
numpalette = 16;
delete imgStr;
return;
}
-
+
width = realwidth;
height = realheight;
delete[] pic;
pal[t].b = colToByte(rgb.b);
pal[t].a = (unsigned char)(t*r);
}
+
}
gfxcolor_t*pic2 = new gfxcolor_t[width*height];
pic2[width*y+x] = pal[pic[y*width+x]];
}
}
- drawimagelossless(device, pic2, width, height, x1,y1,x2,y2,x3,y3,x4,y4);
+ drawimagelossless(device, pic2, width, height, x1,y1,x2,y2,x3,y3,x4,y4, config_multiply);
delete[] pic2;
delete[] pic;
delete imgStr;
pic[width*y+x].b = (unsigned char)(colToByte(rgb.b));
pic[width*y+x].a = 255;//(U8)(rgb.a * 255 + 0.5);
if(maskbitmap) {
- pic[width*y+x].a = maskbitmap[(y*maskHeight/height)*maskWidth+(x*maskWidth/width)];
+ int x1 = x*maskWidth/width;
+ int y1 = y*maskHeight/height;
+ int x2 = (x+1)*maskWidth/width;
+ int y2 = (y+1)*maskHeight/height;
+ int xx,yy;
+ unsigned int alpha=0;
+ unsigned int count=0;
+ for(xx=x1;xx<x2;xx++)
+ for(yy=y1;yy<y2;yy++) {
+ alpha += maskbitmap[yy*maskWidth+xx];
+ count ++;
+ }
+ if(count) {
+ pic[width*y+x].a = alpha / count;
+ } else {
+ pic[width*y+x].a = maskbitmap[y1*maskWidth+x1];
+ }
}
}
}
if(str->getKind()==strDCT)
- drawimagejpeg(device, pic, width, height, x1,y1,x2,y2,x3,y3,x4,y4);
+ drawimagejpeg(device, pic, width, height, x1,y1,x2,y2,x3,y3,x4,y4, config_multiply);
else
- drawimagelossless(device, pic, width, height, x1,y1,x2,y2,x3,y3,x4,y4);
+ drawimagelossless(device, pic, width, height, x1,y1,x2,y2,x3,y3,x4,y4, config_multiply);
delete[] pic;
delete imgStr;
if(maskbitmap) free(maskbitmap);
height = maskHeight;
}
}
- drawimagelossless(device, pic, width, height, x1,y1,x2,y2,x3,y3,x4,y4);
+ drawimagelossless(device, pic, width, height, x1,y1,x2,y2,x3,y3,x4,y4, config_multiply);
delete[] pic;
delete imgStr;
if(!this->pages) {
this->pagebuflen = 1024;
+ if(pdfpage > this->pagebuflen)
+ this->pagebuflen = pdfpage+1;
this->pages = (int*)malloc(this->pagebuflen*sizeof(int));
memset(this->pages, -1, this->pagebuflen*sizeof(int));
- } else {
- while(pdfpage >= this->pagebuflen)
- {
- int oldlen = this->pagebuflen;
- this->pagebuflen+=1024;
- this->pages = (int*)realloc(this->pages, this->pagebuflen*sizeof(int));
- memset(&this->pages[oldlen], -1, (this->pagebuflen-oldlen)*sizeof(int));
- }
}
+
+ while(pdfpage >= this->pagebuflen)
+ {
+ int oldlen = this->pagebuflen;
+ this->pagebuflen+=1024;
+ this->pages = (int*)realloc(this->pages, this->pagebuflen*sizeof(int));
+ memset(&this->pages[oldlen], -1, (this->pagebuflen-oldlen)*sizeof(int));
+ }
+
this->pages[pdfpage] = outputpage;
if(pdfpage>this->pagepos)
this->pagepos = pdfpage;
states[statepos].olddevice = this->device;
this->device = (gfxdevice_t*)rfx_calloc(sizeof(gfxdevice_t));
+ dbg("this->device now %08x (old: %08x)", this->device, states[statepos].olddevice);
gfxdevice_record_init(this->device);
dbgindent-=2;
gfxdevice_t*r = this->device;
+ dbg("endTransparencyGroup this->device now back to %08x (destroying %08x)", states[statepos].olddevice, this->device);
+
this->device = states[statepos].olddevice;
+ if(!this->device) {
+ msg("<fatal> bad state nesting in transparency group- PDF file broken?");
+ /* if these errors occur more often, we should build a seperate
+ transparency group stack, like xpdf/SplashOutputDev.cc does */
+ restoreState(state);
+ this->device = states[statepos].olddevice;
+ }
+ states[statepos].olddevice = 0;
gfxresult_t*recording = r->finish(r);
- dbg("endTransparencyGroup forsoftmask=%d recording=%08x/%08x", states[statepos].createsoftmask, r, recording);
+ dbg(" forsoftmask=%d recording=%08x/%08x", states[statepos].createsoftmask, r, recording);
msg("<verbose> endTransparencyGroup forsoftmask=%d recording=%08x/%08x", states[statepos].createsoftmask, r, recording);
if(states[statepos].createsoftmask) {
"colordodge","colorburn","hardlight","softlight","difference",
"exclusion","hue","saturation","color","luminosity"};
- dbg("paintTransparencyGroup blend=%s softmaskon=%d", blendmodes[state->getBlendMode()], states[statepos].softmask);
+ dbg("paintTransparencyGroup blend=%s softmaskon=%d recording=%08x", blendmodes[state->getBlendMode()], states[statepos].softmask, states[statepos].grouprecording);
msg("<verbose> paintTransparencyGroup blend=%s softmaskon=%d", blendmodes[state->getBlendMode()], states[statepos].softmask);
-
+
if(state->getBlendMode() == gfxBlendNormal)
infofeature("transparency groups");
else {
if(blendmode == gfxBlendMultiply && alpha>200)
alpha = 128;
gfxdevice_t ops;
+ dbg("this->device=%08x, this->device->name=%s\n", this->device, this->device->name);
gfxdevice_ops_init(&ops, this->device, alpha);
gfxresult_record_replay(grouprecording, &ops);
ops.finish(&ops);
infofeature("soft masks");
else
warnfeature("soft masks from alpha channel",0);
-
+
+ if(states[statepos].olddevice) {
+ msg("<fatal> Internal error: badly balanced softmasks/transparency groups");
+ exit(1);
+ }
states[statepos].olddevice = this->device;
this->device = (gfxdevice_t*)rfx_calloc(sizeof(gfxdevice_t));
gfxdevice_record_init(this->device);