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/******************************************************************************
*
*
* Copyright (C) 1997-2010 by Dimitri van Heesch.
*
* Permission to use, copy, modify, and distribute this software and its
* documentation under the terms of the GNU General Public License is hereby
* granted. No representations are made about the suitability of this software
* for any purpose. It is provided "as is" without express or implied warranty.
* See the GNU General Public License for more details.
*
* Documents produced by Doxygen are derivative works derived from the
* input used in their production; they are not affected by this license.
*
*/
#include <stdlib.h>
#include <unistd.h>
#include "qtbc.h"
#include <qfile.h>
#include <qfileinfo.h>
#include <qtextstream.h>
#include <qdir.h>
#include "formula.h"
#include "image.h"
#include "util.h"
#include "message.h"
#include "config.h"
#include "portable.h"
#include "index.h"
#include "doxygen.h"
#include "ftextstream.h"
Formula::Formula(const char *text)
{
static int count=0;
number = count++;
form=text;
}
Formula::~Formula()
{
}
int Formula::getId()
{
return number;
}
void FormulaList::generateBitmaps(const char *path)
{
int x1,y1,x2,y2;
QDir d(path);
// store the original directory
if (!d.exists()) { err("error: Output dir %s does not exist!\n",path); exit(1); }
QCString oldDir = convertToQCString(QDir::currentDirPath());
// go to the html output directory (i.e. path)
QDir::setCurrent(d.absPath());
QDir thisDir;
// generate a latex file containing one formula per page.
QCString texName="_formulas.tex";
QList<int> pagesToGenerate;
pagesToGenerate.setAutoDelete(TRUE);
FormulaListIterator fli(*this);
Formula *formula;
QFile f(texName);
bool formulaError=FALSE;
if (f.open(IO_WriteOnly))
{
FTextStream t(&f);
if (Config_getBool("LATEX_BATCHMODE")) t << "\\batchmode" << endl;
t << "\\documentclass{article}" << endl;
t << "\\usepackage{epsfig}" << endl; // for those who want to include images
const char *s=Config_getList("EXTRA_PACKAGES").first();
while (s)
{
t << "\\usepackage{" << s << "}\n";
s=Config_getList("EXTRA_PACKAGES").next();
}
t << "\\pagestyle{empty}" << endl;
t << "\\begin{document}" << endl;
int page=0;
for (fli.toFirst();(formula=fli.current());++fli)
{
QCString resultName;
resultName.sprintf("form_%d.png",formula->getId());
// only formulas for which no image exists are generated
QFileInfo fi(resultName);
if (!fi.exists())
{
// we force a pagebreak after each formula
t << formula->getFormulaText() << endl << "\\pagebreak\n\n";
pagesToGenerate.append(new int(page));
}
Doxygen::indexList.addImageFile(resultName);
page++;
}
t << "\\end{document}" << endl;
f.close();
}
if (pagesToGenerate.count()>0) // there are new formulas
{
//printf("Running latex...\n");
//system("latex _formulas.tex </dev/null >/dev/null");
QCString latexCmd = Config_getString("LATEX_CMD_NAME");
if (latexCmd.isEmpty()) latexCmd="latex";
portable_sysTimerStart();
if (portable_system(latexCmd,"_formulas.tex")!=0)
{
err("Problems running latex. Check your installation or look "
"for typos in _formulas.tex and check _formulas.log!\n");
formulaError=TRUE;
//return;
}
portable_sysTimerStop();
//printf("Running dvips...\n");
QListIterator<int> pli(pagesToGenerate);
int *pagePtr;
int pageIndex=1;
for (;(pagePtr=pli.current());++pli,++pageIndex)
{
int pageNum=*pagePtr;
msg("Generating image form_%d.png for formula\n",pageNum);
char dviArgs[4096];
QCString formBase;
formBase.sprintf("_form%d",pageNum);
// run dvips to convert the page with number pageIndex to an
// encapsulated postscript.
sprintf(dviArgs,"-q -D 600 -E -n 1 -p %d -o %s.eps _formulas.dvi",
pageIndex,formBase.data());
portable_sysTimerStart();
if (portable_system("dvips",dviArgs)!=0)
{
err("Problems running dvips. Check your installation!\n");
portable_sysTimerStop();
return;
}
portable_sysTimerStop();
// now we read the generated postscript file to extract the bounding box
QFileInfo fi(formBase+".eps");
if (fi.exists())
{
QCString eps = fileToString(formBase+".eps");
int i=eps.find("%%BoundingBox:");
if (i!=-1)
{
sscanf(eps.data()+i,"%%%%BoundingBox:%d %d %d %d",&x1,&y1,&x2,&y2);
}
else
{
err("error: Couldn't extract bounding box!\n");
}
}
// next we generate a postscript file which contains the eps
// and displays it in the right colors and the right bounding box
f.setName(formBase+".ps");
if (f.open(IO_WriteOnly))
{
FTextStream t(&f);
t << "1 1 1 setrgbcolor" << endl; // anti-alias to white background
t << "newpath" << endl;
t << "-1 -1 moveto" << endl;
t << (x2-x1+2) << " -1 lineto" << endl;
t << (x2-x1+2) << " " << (y2-y1+2) << " lineto" << endl;
t << "-1 " << (y2-y1+2) << " lineto" <<endl;
t << "closepath" << endl;
t << "fill" << endl;
t << -x1 << " " << -y1 << " translate" << endl;
t << "0 0 0 setrgbcolor" << endl;
t << "(" << formBase << ".eps) run" << endl;
f.close();
}
// scale the image so that it is four times larger than needed.
// and the sizes are a multiple of four.
double scaleFactor = 16.0/3.0;
int zoomFactor = Config_getInt("FORMULA_FONTSIZE");
if (zoomFactor<8 || zoomFactor>50) zoomFactor=10;
scaleFactor *= zoomFactor/10.0;
int gx = (((int)((x2-x1)*scaleFactor))+3)&~1;
int gy = (((int)((y2-y1)*scaleFactor))+3)&~1;
// Then we run ghostscript to convert the postscript to a pixmap
// The pixmap is a truecolor image, where only black and white are
// used.
char gsArgs[4096];
sprintf(gsArgs,"-q -g%dx%d -r%dx%dx -sDEVICE=ppmraw "
"-sOutputFile=%s.pnm -dNOPAUSE -dBATCH -- %s.ps",
gx,gy,(int)(scaleFactor*72),(int)(scaleFactor*72),
formBase.data(),formBase.data()
);
portable_sysTimerStart();
if (portable_system(portable_ghostScriptCommand(),gsArgs)!=0)
{
err("Problem running ghostscript %s %s. Check your installation!\n",portable_ghostScriptCommand(),gsArgs);
portable_sysTimerStop();
return;
}
portable_sysTimerStop();
f.setName(formBase+".pnm");
uint imageX=0,imageY=0;
// we read the generated image again, to obtain the pixel data.
if (f.open(IO_ReadOnly))
{
QTextStream t(&f);
QCString s;
if (!t.eof())
s=t.readLine();
if (s.length()<2 || s.left(2)!="P6")
err("error: ghostscript produced an illegal image format!");
else
{
// assume the size if after the first line that does not start with
// # excluding the first line of the file.
while (!t.eof() && (s=t.readLine()) && !s.isEmpty() && s.at(0)=='#') { }
sscanf(s,"%d %d",&imageX,&imageY);
}
if (imageX>0 && imageY>0)
{
//printf("Converting image...\n");
char *data = new char[imageX*imageY*3]; // rgb 8:8:8 format
uint i,x,y,ix,iy;
f.readBlock(data,imageX*imageY*3);
Image srcImage(imageX,imageY),
filteredImage(imageX,imageY),
dstImage(imageX/4,imageY/4);
uchar *ps=srcImage.getData();
// convert image to black (1) and white (0) index.
for (i=0;i<imageX*imageY;i++) *ps++= (data[i*3]==0 ? 1 : 0);
// apply a simple box filter to the image
static int filterMask[]={1,2,1,2,8,2,1,2,1};
for (y=0;y<srcImage.getHeight();y++)
{
for (x=0;x<srcImage.getWidth();x++)
{
int s=0;
for (iy=0;iy<2;iy++)
{
for (ix=0;ix<2;ix++)
{
s+=srcImage.getPixel(x+ix-1,y+iy-1)*filterMask[iy*3+ix];
}
}
filteredImage.setPixel(x,y,s);
}
}
// down-sample the image to 1/16th of the area using 16 gray scale
// colors.
// TODO: optimize this code.
for (y=0;y<dstImage.getHeight();y++)
{
for (x=0;x<dstImage.getWidth();x++)
{
int xp=x<<2;
int yp=y<<2;
int c=filteredImage.getPixel(xp+0,yp+0)+
filteredImage.getPixel(xp+1,yp+0)+
filteredImage.getPixel(xp+2,yp+0)+
filteredImage.getPixel(xp+3,yp+0)+
filteredImage.getPixel(xp+0,yp+1)+
filteredImage.getPixel(xp+1,yp+1)+
filteredImage.getPixel(xp+2,yp+1)+
filteredImage.getPixel(xp+3,yp+1)+
filteredImage.getPixel(xp+0,yp+2)+
filteredImage.getPixel(xp+1,yp+2)+
filteredImage.getPixel(xp+2,yp+2)+
filteredImage.getPixel(xp+3,yp+2)+
filteredImage.getPixel(xp+0,yp+3)+
filteredImage.getPixel(xp+1,yp+3)+
filteredImage.getPixel(xp+2,yp+3)+
filteredImage.getPixel(xp+3,yp+3);
// here we scale and clip the color value so the
// resulting image has a reasonable contrast
dstImage.setPixel(x,y,QMIN(15,(c*15)/(16*10)));
}
}
// save the result as a bitmap
QCString resultName;
resultName.sprintf("form_%d.png",pageNum);
// the option parameter 1 is used here as a temporary hack
// to select the right color palette!
dstImage.save(resultName,1);
delete[] data;
}
f.close();
}
// remove intermediate image files
thisDir.remove(formBase+".eps");
thisDir.remove(formBase+".pnm");
thisDir.remove(formBase+".ps");
}
// remove intermediate files produced by latex
thisDir.remove("_formulas.dvi");
if (!formulaError) thisDir.remove("_formulas.log"); // keep file in case of errors
thisDir.remove("_formulas.aux");
}
// remove the latex file itself
if (!formulaError) thisDir.remove("_formulas.tex");
// write/update the formula repository so we know what text the
// generated images represent (we use this next time to avoid regeneration
// of the images, and to avoid forcing the user to delete all images in order
// to let a browser refresh the images).
f.setName("formula.repository");
if (f.open(IO_WriteOnly))
{
FTextStream t(&f);
for (fli.toFirst();(formula=fli.current());++fli)
{
t << "\\form#" << formula->getId() << ":" << formula->getFormulaText() << endl;
}
f.close();
}
// reset the directory to the original location.
QDir::setCurrent(oldDir);
}
#ifdef FORMULA_TEST
int main()
{
FormulaList fl;
fl.append(new Formula("$x^2$"));
fl.append(new Formula("$y^2$"));
fl.append(new Formula("$\\sqrt{x_0^2+x_1^2+x_2^2}$"));
fl.generateBitmaps("dest");
return 0;
}
#endif
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