inkscape-potrace.cpp revision fdeb14b5acd8ab24c8c8dab6e78c23c967547747
/*
* This is the C++ glue between Inkscape and Potrace
*
* Authors:
* Bob Jamison <rjamison@titan.com>
*
* Copyright (C) 2004 Bob Jamison
*
* Released under GNU GPL, read the file 'COPYING' for more information
*
* Potrace, the wonderful tracer located at http://potrace.sourceforge.net,
* is provided by the generosity of Peter Selinger, to whom we are grateful.
*
*/
#include "inkscape-potrace.h"
#include <glibmm/i18n.h>
#include <gtkmm.h>
#include "trace/filterset.h"
#include "trace/imagemap-gdk.h"
#include <inkscape.h>
#include <desktop-handles.h>
#include "message-stack.h"
#include <sp-path.h>
#include <svg/stringstream.h>
#include "curve.h"
#include "bitmap.h"
static void updateGui()
{
//## Allow the GUI to update
Gtk::Main::iteration(false); //at least once, non-blocking
while( Gtk::Main::events_pending() )
Gtk::Main::iteration();
}
static void potraceStatusCallback(double progress, void *userData) /* callback fn */
{
updateGui();
if (!userData)
return;
//g_message("progress: %f\n", progress);
//Inkscape::Trace::Potrace::PotraceTracingEngine *engine =
// (Inkscape::Trace::Potrace::PotraceTracingEngine *)userData;
}
//required by potrace
namespace Inkscape {
namespace Trace {
namespace Potrace {
/**
*
*/
PotraceTracingEngine::PotraceTracingEngine()
{
//##### Our defaults
invert = false;
traceType = TRACE_BRIGHTNESS;
quantizationNrColors = 8;
brightnessThreshold = 0.45;
cannyHighThreshold = 0.65;
}
typedef struct
{
double x;
double y;
} Point;
/**
* Check a point against a list of points to see if it
* has already occurred.
*/
static bool
hasPoint(std::vector<Point> &points, double x, double y)
{
for (unsigned int i=0; i<points.size() ; i++)
{
Point p = points[i];
if (p.x == x && p.y == y)
return true;
}
return false;
}
/**
* Recursively descend the path_t node tree, writing paths in SVG
* format into the output stream. The Point vector is used to prevent
* redundant paths. Returns number of paths processed.
*/
static long
writePaths(PotraceTracingEngine *engine, potrace_path_t *plist,
Inkscape::SVGOStringStream& data, std::vector<Point> &points)
{
long nodeCount = 0L;
potrace_path_t *node;
for (node=plist; node ; node=node->sibling)
{
potrace_curve_t *curve = &(node->curve);
//g_message("node->fm:%d\n", node->fm);
if (!curve->n)
continue;
dpoint_t *pt = curve->c[curve->n - 1];
double x0 = 0.0;
double y0 = 0.0;
double x1 = 0.0;
double y1 = 0.0;
double x2 = pt[2].x;
double y2 = pt[2].y;
//Have we been here already?
if (hasPoint(points, x2, y2))
{
//g_message("duplicate point: (%f,%f)\n", x2, y2);
continue;
}
else
{
Point p;
p.x = x2; p.y = y2;
points.push_back(p);
}
data << "M " << x2 << " " << y2 << " ";
nodeCount++;
for (int i=0 ; i<curve->n ; i++)
{
if (!engine->keepGoing)
return 0L;
pt = curve->c[i];
x0 = pt[0].x;
y0 = pt[0].y;
x1 = pt[1].x;
y1 = pt[1].y;
x2 = pt[2].x;
y2 = pt[2].y;
switch (curve->tag[i])
{
case POTRACE_CORNER:
data << "L " << x1 << " " << y1 << " " ;
data << "L " << x2 << " " << y2 << " " ;
break;
case POTRACE_CURVETO:
data << "C " << x0 << " " << y0 << " "
<< x1 << " " << y1 << " "
<< x2 << " " << y2 << " ";
break;
default:
break;
}
nodeCount++;
}
data << "z";
for (path_t *child=node->childlist; child ; child=child->sibling)
{
nodeCount += writePaths(engine, child, data, points);
}
}
return nodeCount;
}
static GrayMap *
filter(PotraceTracingEngine &engine, GdkPixbuf * pixbuf)
{
if (!pixbuf)
return NULL;
GrayMap *newGm = NULL;
/*### Color quantization -- banding ###*/
if (engine.getTraceType() == TRACE_QUANT)
{
RgbMap *rgbmap = gdkPixbufToRgbMap(pixbuf);
//rgbMap->writePPM(rgbMap, "rgb.ppm");
newGm = quantizeBand(rgbmap,
engine.getQuantizationNrColors());
rgbmap->destroy(rgbmap);
//return newGm;
}
/*### Brightness threshold ###*/
else if ( engine.getTraceType() == TRACE_BRIGHTNESS ||
engine.getTraceType() == TRACE_BRIGHTNESS_MULTI )
{
GrayMap *gm = gdkPixbufToGrayMap(pixbuf);
newGm = GrayMapCreate(gm->width, gm->height);
double floor = 3.0 *
( engine.getBrightnessFloor() * 256.0 );
double cutoff = 3.0 *
( engine.getBrightnessThreshold() * 256.0 );
for (int y=0 ; y<gm->height ; y++)
{
for (int x=0 ; x<gm->width ; x++)
{
double brightness = (double)gm->getPixel(gm, x, y);
if (brightness >= floor && brightness < cutoff)
newGm->setPixel(newGm, x, y, GRAYMAP_BLACK); //black pixel
else
newGm->setPixel(newGm, x, y, GRAYMAP_WHITE); //white pixel
}
}
gm->destroy(gm);
//newGm->writePPM(newGm, "brightness.ppm");
//return newGm;
}
/*### Canny edge detection ###*/
else if (engine.getTraceType() == TRACE_CANNY)
{
GrayMap *gm = gdkPixbufToGrayMap(pixbuf);
newGm = grayMapCanny(gm, 0.1, engine.getCannyHighThreshold());
gm->destroy(gm);
//newGm->writePPM(newGm, "canny.ppm");
//return newGm;
}
/*### Do I invert the image? ###*/
if (newGm && engine.getInvert())
{
for (int y=0 ; y<newGm->height ; y++)
{
for (int x=0 ; x<newGm->width ; x++)
{
unsigned long brightness = newGm->getPixel(newGm, x, y);
brightness = 765 - brightness;
newGm->setPixel(newGm, x, y, brightness);
}
}
}
return newGm;//none of the above
}
static IndexedMap *
filterIndexed(PotraceTracingEngine &engine, GdkPixbuf * pixbuf)
{
if (!pixbuf)
return NULL;
IndexedMap *newGm = NULL;
/*### Color quant multiscan ###*/
if (engine.getTraceType() == TRACE_QUANT_COLOR)
{
RgbMap *gm = gdkPixbufToRgbMap(pixbuf);
if (engine.getMultiScanSmooth())
{
RgbMap *gaussMap = rgbMapGaussian(gm);
newGm = rgbMapQuantize(gaussMap, (int)log2(engine.getMultiScanNrColors())+2, engine.getMultiScanNrColors());
gaussMap->destroy(gaussMap);
}
else
{
newGm = rgbMapQuantize(gm, (int)log2(engine.getMultiScanNrColors())+2, engine.getMultiScanNrColors());
}
gm->destroy(gm);
}
/*### Quant multiscan ###*/
else if (engine.getTraceType() == TRACE_QUANT_MONO)
{
RgbMap *gm = gdkPixbufToRgbMap(pixbuf);
if (engine.getMultiScanSmooth())
{
RgbMap *gaussMap = rgbMapGaussian(gm);
newGm = rgbMapQuantize(gaussMap, (int)log2(engine.getMultiScanNrColors())+2, engine.getMultiScanNrColors());
gaussMap->destroy(gaussMap);
}
else
{
newGm = rgbMapQuantize(gm, (int)log2(engine.getMultiScanNrColors())+2, engine.getMultiScanNrColors());
}
gm->destroy(gm);
//Turn to grays
for (int i=0 ; i<newGm->nrColors ; i++)
{
RGB rgb = newGm->clut[i];
int grayVal = (rgb.r + rgb.g + rgb.b) / 3;
rgb.r = rgb.g = rgb.b = grayVal;
newGm->clut[i] = rgb;
}
}
return newGm;
}
Glib::RefPtr<Gdk::Pixbuf>
PotraceTracingEngine::preview(Glib::RefPtr<Gdk::Pixbuf> thePixbuf)
{
GdkPixbuf *pixbuf = thePixbuf->gobj();
if ( traceType == TRACE_QUANT_COLOR ||
traceType == TRACE_QUANT_MONO )
{
IndexedMap *gm = filterIndexed(*this, pixbuf);
if (!gm)
return Glib::RefPtr<Gdk::Pixbuf>(NULL);
Glib::RefPtr<Gdk::Pixbuf> newBuf =
Glib::wrap(indexedMapToGdkPixbuf(gm), false);
gm->destroy(gm);
return newBuf;
}
else
{
GrayMap *gm = filter(*this, pixbuf);
if (!gm)
return Glib::RefPtr<Gdk::Pixbuf>(NULL);
Glib::RefPtr<Gdk::Pixbuf> newBuf =
Glib::wrap(grayMapToGdkPixbuf(gm), false);
gm->destroy(gm);
return newBuf;
}
}
//*This is the core inkscape-to-potrace binding
char *PotraceTracingEngine::grayMapToPath(GrayMap *grayMap, long *nodeCount)
{
/* get default parameters */
potrace_param_t *potraceParams = potrace_param_default();
potraceParams->progress.callback = potraceStatusCallback;
potraceParams->progress.data = (void *)this;
potrace_bitmap_t *potraceBitmap = bm_new(grayMap->width, grayMap->height);
bm_clear(potraceBitmap, 0);
//##Read the data out of the GrayMap
for (int y=0 ; y<grayMap->height ; y++)
{
for (int x=0 ; x<grayMap->width ; x++)
{
BM_UPUT(potraceBitmap, x, y,
grayMap->getPixel(grayMap, x, y) ? 0 : 1);
}
}
//##Debug
/*
FILE *f = fopen("poimage.pbm", "wb");
bm_writepbm(f, bm);
fclose(f);
*/
if (!keepGoing)
{
g_warning("aborted");
return NULL;
}
/* trace a bitmap*/
potrace_state_t *potraceState = potrace_trace(potraceParams,
potraceBitmap);
//## Free the Potrace bitmap
bm_free(potraceBitmap);
if (!keepGoing)
{
g_warning("aborted");
potrace_state_free(potraceState);
potrace_param_free(potraceParams);
return NULL;
}
Inkscape::SVGOStringStream data;
data << "";
//## copy the path information into our d="" attribute string
std::vector<Point> points;
long thisNodeCount = writePaths(this, potraceState->plist, data, points);
/* free a potrace items */
potrace_state_free(potraceState);
potrace_param_free(potraceParams);
if (!keepGoing)
return NULL;
char *d = strdup((char *)data.str().c_str());
if ( nodeCount)
*nodeCount = thisNodeCount;
return d;
}
/**
* This is called for a single scan
*/
TracingEngineResult *
PotraceTracingEngine::traceSingle(GdkPixbuf * thePixbuf, int *nrPaths)
{
if (!thePixbuf)
return NULL;
brightnessFloor = 0.0; //important to set this
GrayMap *grayMap = filter(*this, thePixbuf);
if (!grayMap)
return NULL;
long nodeCount;
char *d = grayMapToPath(grayMap, &nodeCount);
grayMap->destroy(grayMap);
if (!d)
{
*nrPaths = 0;
return NULL;
}
char *style = "fill:#000000";
//g_message("### GOT '%s' \n", d);
TracingEngineResult *result = new TracingEngineResult(style, d, nodeCount);
free(d);
*nrPaths = 1;
return result;
}
/**
* Called for multiple-scanning algorithms
*/
TracingEngineResult *
PotraceTracingEngine::traceBrightnessMulti(GdkPixbuf * thePixbuf, int *nrPaths)
{
if (!thePixbuf)
return NULL;
double low = 0.2; //bottom of range
double high = 0.9; //top of range
double delta = (high - low ) / ((double)multiScanNrColors);
brightnessFloor = 0.0; //Set bottom to black
int traceCount = 0;
TracingEngineResult *results = NULL;
for ( brightnessThreshold = low ;
brightnessThreshold <= high ;
brightnessThreshold += delta)
{
GrayMap *grayMap = filter(*this, thePixbuf);
if (!grayMap)
return NULL;
long nodeCount;
char *d = grayMapToPath(grayMap, &nodeCount);
grayMap->destroy(grayMap);
if (!d)
{
*nrPaths = 0;
return NULL;
}
int grayVal = (int)(256.0 * brightnessThreshold);
char style[31];
sprintf(style, "fill-opacity:1.0;fill:#%02x%02x%02x",
grayVal, grayVal, grayVal);
//g_message("### GOT '%s' \n", d);
TracingEngineResult *result = new TracingEngineResult(style, d, nodeCount);
free(d);
if (!results)
{
results = result; //first one
}
else
{
//walk to end of list
TracingEngineResult *r;
for (r=results ; r->next ; r=r->next)
{}
r->next = result;
}
if (!multiScanStack)
brightnessFloor = brightnessThreshold;
SPDesktop *desktop = SP_ACTIVE_DESKTOP;
if (desktop)
{
gchar *msg = g_strdup_printf(_("Trace: %d. %ld nodes"), traceCount++, nodeCount);
sp_desktop_message_stack(desktop)->flash(Inkscape::NORMAL_MESSAGE, msg);
g_free(msg);
}
}
//report the count of paths processed
*nrPaths = multiScanNrColors;
return results;
}
/**
* Quantization
*/
TracingEngineResult *
PotraceTracingEngine::traceQuant(GdkPixbuf * thePixbuf, int *nrPaths)
{
if (!thePixbuf)
return NULL;
IndexedMap *iMap = filterIndexed(*this, thePixbuf);
if (!iMap)
return NULL;
TracingEngineResult *results = NULL;
//Create and clear a gray map
GrayMap *gm = GrayMapCreate(iMap->width, iMap->height);
for (int row=0 ; row<gm->height ; row++)
for (int col=0 ; col<gm->width ; col++)
gm->setPixel(gm, col, row, GRAYMAP_WHITE);
for (int colorIndex=0 ; colorIndex<iMap->nrColors ; colorIndex++)
{
/*Make a gray map for each color index */
for (int row=0 ; row<iMap->height ; row++)
{
for (int col=0 ; col<iMap->width ; col++)
{
int indx = (int) iMap->getPixel(iMap, col, row);
if (indx == colorIndex)
{
gm->setPixel(gm, col, row, GRAYMAP_BLACK); //black
}
else
{
if (!multiScanStack)
gm->setPixel(gm, col, row, GRAYMAP_WHITE);//white
}
}
}
//## Now we have a traceable graymap
long nodeCount;
char *d = grayMapToPath(gm, &nodeCount);
if (!d)
{
*nrPaths = 0;
return NULL;
}
//### get style info
char style[13];
RGB rgb = iMap->clut[colorIndex];
sprintf(style, "fill:#%02x%02x%02x", rgb.r, rgb.g, rgb.b);
//g_message("### GOT '%s' \n", d);
TracingEngineResult *result = new TracingEngineResult(style, d, nodeCount);
free(d);
if (!results)
{
results = result; //first one
}
else
{
//prepend
/*
result->next = results;
results = result;
*/
//append
TracingEngineResult *r;
for (r=results ; r->next ; r=r->next)
{}
r->next = result;
}
SPDesktop *desktop = SP_ACTIVE_DESKTOP;
if (desktop)
{
gchar *msg = g_strdup_printf(_("Trace: %d. %ld nodes"), colorIndex, nodeCount);
sp_desktop_message_stack(desktop)->flash(Inkscape::NORMAL_MESSAGE, msg);
g_free(msg);
}
}
//report the count of paths processed
*nrPaths = iMap->nrColors;
gm->destroy(gm);
iMap->destroy(iMap);
return results;
}
/**
* This is the working method of this interface, and all
* implementing classes. Take a GdkPixbuf, trace it, and
* return the path data that is compatible with the d="" attribute
* of an SVG <path> element.
*/
TracingEngineResult *
PotraceTracingEngine::trace(Glib::RefPtr<Gdk::Pixbuf> pixbuf,
int *nrPaths)
{
GdkPixbuf *thePixbuf = pixbuf->gobj();
//Set up for messages
keepGoing = 1;
if ( traceType == TRACE_QUANT_COLOR ||
traceType == TRACE_QUANT_MONO )
{
return traceQuant(thePixbuf, nrPaths);
}
else if ( traceType == TRACE_BRIGHTNESS_MULTI )
{
return traceBrightnessMulti(thePixbuf, nrPaths);
}
else
{
return traceSingle(thePixbuf, nrPaths);
}
}
/**
* Abort the thread that is executing getPathDataFromPixbuf()
*/
void
PotraceTracingEngine::abort()
{
//g_message("PotraceTracingEngine::abort()\n");
keepGoing = 0;
}
} // namespace Potrace
} // namespace Trace
} // namespace Inkscape