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sample.cc
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sample.cc
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/*Copyright 2014 Francisco Alvaro
This file is part of SESHAT.
SESHAT is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
SESHAT is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with SESHAT. If not, see <http://www.gnu.org/licenses/>.
*/
#include <cstdio>
#include <cstdlib>
#include <unistd.h>
#include <algorithm>
#include <climits>
#include <cfloat>
#include <cstring>
#include <cmath>
#include <map>
#include <vector>
#include <queue>
#include "sample.h"
#include <xercesc/util/PlatformUtils.hpp>
#include <xercesc/parsers/XercesDOMParser.hpp>
#include <xercesc/util/XMLUni.hpp>
#include <xercesc/dom/DOM.hpp>
#include <xercesc/dom/DOMDocument.hpp>
#include <xercesc/dom/DOMDocumentType.hpp>
#include <xercesc/dom/DOMElement.hpp>
#include <xercesc/dom/DOMImplementation.hpp>
#include <xercesc/dom/DOMImplementationLS.hpp>
#include <xercesc/dom/DOMNodeIterator.hpp>
#include <xercesc/dom/DOMNodeList.hpp>
#include <xercesc/dom/DOMText.hpp>
#define PI 3.14159265
using namespace std;
bool isRelation(char *str) {
if( !strcmp(str, "Hor") ) return true;
if( !strcmp(str, "Sub") ) return true;
if( !strcmp(str, "Sup") ) return true;
if( !strcmp(str, "Ver") ) return true;
if( !strcmp(str, "Ins") ) return true;
if( !strcmp(str, "Mrt") ) return true;
return false;
}
Sample::Sample(char *in) {
RX = RY = 0;
outinkml = outdot = NULL;
//Read file extension
bool isInkML = true;
const char auxext[7] = ".inkml";
for(int i=strlen(in)-1, j=0; i>=0 && j<6; i--, j++)
if( in[i] != auxext[5-j] ) {
isInkML = false;
break;
}
if( !isInkML )
loadSCGInk( in );
else
loadInkML( in );
ox = oy = INT_MAX;
os = ot = -INT_MAX;
for(int i=0; i<nStrokes(); i++) {
//Compute bouding box
if( dataon[i]->rx < ox ) ox = dataon[i]->rx;
if( dataon[i]->ry < oy ) oy = dataon[i]->ry;
if( dataon[i]->rs > os ) os = dataon[i]->rs;
if( dataon[i]->rt > ot ) ot = dataon[i]->rt;
//Compute centroid
dataon[i]->cx = dataon[i]->cy = 0;
int np;
for(np=0; np < dataon[i]->getNpuntos() ; np++) {
Punto *pto = dataon[ i ]->get(np);
dataon[i]->cx += pto->x;
dataon[i]->cy += pto->y;
}
dataon[i]->cx /= np;
dataon[i]->cy /= np;
}
//Render image representation
dataoff = render(&X, &Y);
}
void Sample::setSymRec( SymRec *sr ){
SR = sr;
}
void Sample::loadSCGInk(char *str) {
FILE *fd=fopen(str,"r");
if( !fd ) {
fprintf(stderr, "Error loading SCGInk file '%s'\n", str);
exit(1);
}
char line[1024];
fgets(line, 1024, fd);
if( strcmp(line, "SCG_INK\n") ) {
fprintf(stderr, "Error: input file format is not SCG_INK\n");
exit(-1);
}
int nstrokes, npuntos;
fscanf(fd, "%d", &nstrokes);
for(int i=0; i<nstrokes; i++) {
fscanf(fd, "%d", &npuntos);
dataon.push_back(new Stroke(npuntos, fd));
}
fclose(fd);
}
void Sample::loadInkML(char *str) {
//Check if file exists
FILE *auxfile=fopen(str,"r");
if( !auxfile ) {
fprintf(stderr, "Error loading InkML file '%s'\n", str);
exit(1);
}
fclose(auxfile);
//If file exists, let the XML library parse the InkML file
try {
xercesc::XMLPlatformUtils::Initialize();
}
catch (const xercesc::XMLException& toCatch) {
fprintf(stderr, "Error initializing Xerces library: %s\n", xercesc::XMLString::transcode(toCatch.getMessage()));
exit(1);
}
xercesc::XercesDOMParser *inkmlParser;
XMLCh *TAG_trace, *TAG_traceFormat, *TAG_traceGroup, *TAG_traceView, *TAG_annotation;
XMLCh *TAG_annotationXML, *TAG_math;
XMLCh *ATTR_id, *ATTR_xmlid, *ATTR_traceDataRef, *ATTR_href, *ATTR_type;
TAG_trace = xercesc::XMLString::transcode("trace");
TAG_traceFormat = xercesc::XMLString::transcode("traceFormat");
TAG_traceGroup = xercesc::XMLString::transcode("traceGroup");
TAG_traceView = xercesc::XMLString::transcode("traceView");
TAG_annotation = xercesc::XMLString::transcode("annotation");
TAG_annotationXML = xercesc::XMLString::transcode("annotationXML");
TAG_math = xercesc::XMLString::transcode("math");
ATTR_id = xercesc::XMLString::transcode("id");
ATTR_xmlid = xercesc::XMLString::transcode("xml:id");
ATTR_traceDataRef = xercesc::XMLString::transcode("traceDataRef");
ATTR_href = xercesc::XMLString::transcode("href");
ATTR_type = xercesc::XMLString::transcode("type");
inkmlParser = new xercesc::XercesDOMParser;
//Configure DOM parser
inkmlParser->setValidationScheme( xercesc::XercesDOMParser::Val_Never );
inkmlParser->setDoNamespaces( false );
inkmlParser->setDoSchema( false );
inkmlParser->setLoadExternalDTD( false );
//Parse document
try{
inkmlParser->parse( str );
//No need to free this pointer - owned by the parent parser object
xercesc::DOMDocument* xmlDoc = inkmlParser->getDocument();
xercesc::DOMElement *elementRoot = xmlDoc->getDocumentElement();
if( !elementRoot ) fprintf(stderr, "Error: '%s' empty XML document\n", str);
xercesc::DOMNodeList* children = elementRoot->getChildNodes();
const XMLSize_t nodeCount = children->getLength();
for( XMLSize_t xx = 0; xx < nodeCount; ++xx ) {
xercesc::DOMNode* currentNode = children->item(xx);
if( currentNode->getNodeType() &&
currentNode->getNodeType() == xercesc::DOMNode::ELEMENT_NODE ) {
xercesc::DOMElement* currentElement = dynamic_cast< xercesc::DOMElement* >( currentNode );
if( xercesc::XMLString::equals(currentElement->getTagName(), TAG_trace) ) {
const XMLCh* xmlch_id = currentElement->getAttribute(ATTR_id);
char *id = xercesc::XMLString::transcode(xmlch_id);
int idstroke=atoi(id);
next_id = idstroke;
xercesc::XMLString::release( &id );
xercesc::DOMNodeList *puntos = currentElement->getChildNodes();
for( XMLSize_t pp = 0; pp < puntos->getLength(); pp++ ) {
xercesc::DOMNode *pt = puntos->item(pp);
if( pt->getNodeType() && pt->getNodeType() == xercesc::DOMNode::TEXT_NODE ) {
char *aux = xercesc::XMLString::transcode(pt->getNodeValue());
dataon.push_back(new Stroke(aux, idstroke));
xercesc::XMLString::release( &aux );
}
}
}
else if( xercesc::XMLString::equals(currentElement->getTagName(), TAG_annotation) ) {
const XMLCh* xmlch_type = currentElement->getAttribute(ATTR_type);
char *type = xercesc::XMLString::transcode(xmlch_type);
if( !strcmp(type, "UI") ) {
xercesc::DOMNodeList *nodes = currentElement->getChildNodes();
for( XMLSize_t pp = 0; pp < nodes->getLength(); pp++ ) {
xercesc::DOMNode *pt = nodes->item(pp);
if( pt->getNodeType() && pt->getNodeType() == xercesc::DOMNode::TEXT_NODE ) {
char *aux = xercesc::XMLString::transcode(pt->getNodeValue());
UItag = aux;
xercesc::XMLString::release( &aux );
}
}
}
xercesc::XMLString::release( &type );
}
}
}
}
catch( xercesc::XMLException& e ) {
fprintf(stderr, "Error parsing file '%s': %s\n", str, xercesc::XMLString::transcode(e.getMessage()));
exit(1);
}
delete inkmlParser;
xercesc::XMLString::release( &TAG_trace );
xercesc::XMLPlatformUtils::Terminate();
//Compute bounding box of the input expression
float xmin=FLT_MAX, ymin=FLT_MAX;
float xmax=-FLT_MAX, ymax=-FLT_MAX;
for(int i=0; i<nStrokes(); i++)
for(int j=0; j<dataon[i]->getNpuntos(); j++) {
Punto *p = dataon[i]->get(j);
if( p->x < xmin ) xmin = p->x;
if( p->x > xmax ) xmax = p->x;
if( p->y < ymin ) ymin = p->y;
if( p->y > ymax ) ymax = p->y;
}
//Just in case there is only one point or a sequence of points perfectly
//aligned with the x or y axis
if( xmax == xmin ) xmax = xmin + 1;
if( ymax == ymin ) ymax = ymin + 1;
//Renormalize to height [0,10000] keeping the aspect ratio
float H=10000;
float W=H*(xmax-xmin)/(ymax-ymin);
for(int i=0; i<nStrokes(); i++) {
dataon[i]->rx = dataon[i]->ry = INT_MAX;
dataon[i]->rs = dataon[i]->rt = -INT_MAX;
for(int j=0; j < dataon[i]->getNpuntos(); j++) {
Punto *p = dataon[i]->get(j);
p->x = (int)(W*(p->x-xmin)/(xmax-xmin));
p->y = (int)(H*(p->y-ymin)/(ymax-ymin));
//Compute bounding box
if( p->x < dataon[i]->rx ) dataon[i]->rx = (int)p->x;
if( p->x > dataon[i]->rs ) dataon[i]->rs = (int)p->x;
if( p->y < dataon[i]->ry ) dataon[i]->ry = (int)p->y;
if( p->y > dataon[i]->rt ) dataon[i]->rt = (int)p->y;
}
}
}
Sample::~Sample() {
for(int i=0; i<nStrokes(); i++) {
delete dataon[i];
delete[] stk_dis[i];
}
delete[] stk_dis;
for(int y=0; y<Y; y++)
delete[] dataoff[y];
delete[] dataoff;
for(int i=0; i<Y; i++)
delete[] pix_stk[i];
delete[] pix_stk;
if( outinkml ) delete[] outinkml;
if( outdot ) delete[] outdot;
}
int Sample::get(int x, int y) {
return dataoff[y][x];
}
Stroke *Sample::getStroke(int i) {
return dataon[i];
}
int Sample::dimX() {
return X;
}
int Sample::dimY() {
return Y;
}
int Sample::nStrokes() {
return (int)dataon.size();
}
void Sample::render_img(char *out) {
FILE *frender=fopen(out, "w");
if( frender ) {
fprintf(frender, "P2\n%d %d\n255\n", X, Y);
for(int i=0; i<Y; i++) {
for(int j=0; j<X; j++)
fprintf(frender, " %3d", dataoff[i][j]);
fprintf(frender, "\n");
}
fclose(frender);
}
else
fprintf(stderr, "WARNING: Error creating file '%s'\n", out);
}
void Sample::set_out_inkml(char *out) {
outinkml = new char[strlen(out)+1];
strcpy(outinkml, out);
}
void Sample::set_out_dot(char *out) {
outdot = new char[strlen(out)+1];
strcpy(outdot, out);
}
char *Sample::getOutDot() {
return outdot;
}
void Sample::detRefSymbol() {
vector<int> vmedx, vmedy;
int nregs=0, lAr;
float mAr=0;
RX=0, RY=0;
//Compute reference symbol for normalization
for(int i=0; i<nStrokes(); i++) {
int ancho = dataon[i]->rs - dataon[i]->rx + 1;
int alto = dataon[i]->rt - dataon[i]->ry + 1;
float aspectratio = (float)ancho/alto;
int area = ancho*alto;
vmedx.push_back(ancho);
vmedy.push_back(alto);
mAr += area;
if( aspectratio >= 0.25 && aspectratio <= 4.0 ) {
RX += ancho;
RY += alto;
nregs++;
}
}
//Average area
mAr /= vmedx.size();
lAr = (int)(sqrt(mAr)+0.5);
lAr *= 0.9;
if( nregs > 0 ) {
RX /= nregs;
RY /= nregs;
}
else {
for(int i=0; i<nStrokes(); i++) {
int ancho = dataon[i]->rs - dataon[i]->rx + 1;
int alto = dataon[i]->rt - dataon[i]->ry + 1;
RX += ancho;
RY += alto;
nregs++;
}
RX /= nregs;
RY /= nregs;
}
//Compute median
sort(vmedx.begin(),vmedx.end());
sort(vmedy.begin(),vmedy.end());
//Reference is the average of (mean,median,avg_area)
RX = (RX + vmedx[vmedx.size()/2] + lAr)/3.0;
RY = (RY + vmedy[vmedy.size()/2] + lAr)/3.0;
}
void Sample::setRegion(CellCYK *c, int nStk) {
c->ccc[nStk] = true;
c->x = dataon[nStk]->rx;
c->y = dataon[nStk]->ry;
c->s = dataon[nStk]->rs;
c->t = dataon[nStk]->rt;
}
void Sample::setRegion(CellCYK *c, list<int> *LT) {
c->x = c->y = INT_MAX;
c->s = c->t = -INT_MAX;
for(list<int>::iterator it=LT->begin(); it!=LT->end(); it++) {
c->ccc[*it] = true;
if( dataon[*it]->rx < c->x )
c->x = dataon[*it]->rx;
if( dataon[*it]->ry < c->y )
c->y = dataon[*it]->ry;
if( dataon[*it]->rs > c->s )
c->s = dataon[*it]->rs;
if( dataon[*it]->rt > c->t )
c->t = dataon[*it]->rt;
}
}
void Sample::getAVGstroke_size(float *avgw, float *avgh) {
*avgw = *avgh = 0.0;
for(int i=0; i<(int)dataon.size(); i++) {
*avgw += dataon[i]->rs - dataon[i]->rx;
*avgh += dataon[i]->rt - dataon[i]->ry;
}
*avgw /= (int)dataon.size();
*avgh /= (int)dataon.size();
}
void Sample::setRegion(CellCYK *c, int *v, int size) {
c->x = c->y = INT_MAX;
c->s = c->t = -INT_MAX;
for(int i=0; i<size; i++) {
c->ccc[v[i]] = true;
if( dataon[v[i]]->rx < c->x )
c->x = dataon[v[i]]->rx;
if( dataon[v[i]]->ry < c->y )
c->y = dataon[v[i]]->ry;
if( dataon[v[i]]->rs > c->s )
c->s = dataon[v[i]]->rs;
if( dataon[v[i]]->rt > c->t )
c->t = dataon[v[i]]->rt;
}
}
void Sample::print() {
printf("Number of strokes: %d\n", nStrokes());
// for(int i=0; i<nStrokes(); i++) {
// printf("Stroke %d: (%d,%d)-(%d,%d)\n", i, dataon[i]->rx, dataon[i]->ry,
// dataon[i]->rs, dataon[i]->rt);
// }
}
void Sample::printInkML(Grammar *G, Hypothesis *H) {
//If no output file specified, skip
if( !outinkml ) return;
FILE *fout=fopen(outinkml, "w");
if( !fout ) {
fprintf(stderr, "Error: Can't create inkml output file '%s'\n", outinkml);
exit(1);
}
fprintf(fout, "<ink xmlns=\"http://www.w3.org/2003/InkML\">\n");
fprintf(fout, "<annotation type=\"UI\">%s</annotation>\n", UItag.c_str());
fprintf(fout, "<annotationXML type=\"truth\" encoding=\"Content-MathML\">\n");
//fprintf(fout, "<?xml version=\"1.0\" encoding=\"UTF-8\"?>\n");
fprintf(fout, "<math xmlns='http://www.w3.org/1998/Math/MathML'>\n");
//Save the value of next_id in order to restore it after printing the MathML expression
//and generating the IDs for symbols
int nid_bak = next_id;
next_id++; //Skip one ID that will be the traceGroup that starts the symbol part
//Print MathML
if( !H->pt )
H->prod->print_mathml(G, H, fout, &next_id);
else {
char tipo = H->pt->getMLtype( H->clase );
char *clase = H->pt->getTeX( H->clase );
char inkid[128];
sprintf(inkid, "%s_%d", clase, next_id+1);
H->inkml_id = inkid;
fprintf(fout, "<m%c xml:id=\"%s\">%s</m%c>\n",
tipo, H->inkml_id.c_str(), clase, tipo);
}
//Restore next_id
next_id = nid_bak;
fprintf(fout, "</math>\n");
fprintf(fout, "</annotationXML>\n");
//Print the strokes
for(int i=0; i<nStrokes(); i++) {
fprintf(fout, "<trace id=\"%d\">\n", i);
Punto *pto = dataon[ i ]->get(0);
fprintf(fout, "%d %d", (int)pto->x, (int)pto->y);
for(int np=1; np < dataon[ i ]->getNpuntos() ; np++) {
pto = dataon[ i ]->get(np);
fprintf(fout, ", %d %d", (int)pto->x, (int)pto->y);
}
fprintf(fout, "\n</trace>\n");
}
fprintf(fout, "<traceGroup xml:id=\"%d\">\n", ++next_id);
fprintf(fout, "<annotation type=\"truth\">Segmentation</annotation>\n");
//Print the information about symbol segmentation and recognition
printSymRecInkML(H, fout);
fprintf(fout, "</traceGroup>\n");
fprintf(fout, "</ink>\n");
fclose(fout);
}
void Sample::printSymRecInkML(Hypothesis *H, FILE *fout) {
//Example (symbol + composed of strokes 3 and 4)
// <traceGroup xml:id="17">
// <annotation type="truth">+</annotation>
// <traceView traceDataRef="3"/>
// <traceView traceDataRef="4"/>
// <annotationXML href="+_1"/>
// </traceGroup>
if( H->prod && !H->pt ) {
printSymRecInkML( H->hi, fout );
printSymRecInkML( H->hd, fout );
}
else {
next_id++;
fprintf(fout, "<traceGroup xml:id=\"%d\">\n", next_id);
fprintf(fout, " <annotation type=\"truth\">%s</annotation>\n", H->pt->getTeX(H->clase));
for(int i=0; i<H->parent->nc; i++)
if( H->parent->ccc[i] ) {
fprintf(fout, " <traceView traceDataRef=\"%d\"/>\n", i);
}
fprintf(fout, " <annotationXML href=\"%s\"/>", H->inkml_id.c_str());
fprintf(fout, "</traceGroup>\n");
}
}
void Sample::linea(int **img, Punto *pa, Punto *pb, int stkid) {
const float dl = 3.125e-3;
int dx = (int)pb->x - (int)pa->x;
int dy = (int)pb->y - (int)pa->y;
for(float l=0.0; l < 1.0; l += dl) {
int x = (int)pa->x + (int)(dx*l+0.5);
int y = (int)pa->y + (int)(dy*l+0.5);
for(int i=y-1; i<=y+1; i++)
for(int j=x-1; j<=x+1; j++) {
img[i][j] = 0;
if( stkid>=0 ) pix_stk[i][j] = stkid;
}
}
}
void Sample::linea_pbm(int **img, Punto *pa, Punto *pb, int stkid) {
const float dl = 3.125e-3;
int dx = (int)pb->x - (int)pa->x;
int dy = (int)pb->y - (int)pa->y;
for(float l=0.0; l < 1.0; l += dl) {
int x = (int)pa->x + (int)(dx*l+0.5);
int y = (int)pa->y + (int)(dy*l+0.5);
img[y][x] = 0;
}
}
int **Sample::render(int *pW, int *pH) {
int xMAX=-INT_MAX, yMAX=-INT_MAX, xMIN=INT_MAX, yMIN=INT_MAX;
for(int i=0; i < nStrokes(); i++) {
for(int np=0; np < dataon[ i ]->getNpuntos() ; np++) {
Punto *pto = dataon[ i ]->get(np);
if( pto->x > xMAX ) xMAX = pto->x;
if( pto->x < xMIN ) xMIN = pto->x;
if( pto->y > yMAX ) yMAX = pto->y;
if( pto->y < yMIN ) yMIN = pto->y;
}
}
//Image dimensions
int W = xMAX - xMIN + 1;
int H = yMAX - yMIN + 1;
float R = (float)W/H;
//Keeping the aspect ratio (R), scale to 256 pixels height
H=256;
W=(int)(H*R);
if( W<=0 ) W=1;
//Give some margin to the image
W += 10;
H += 10;
//Create image
int **img = new int*[H];
for(int i=0; i<H; i++) {
img[i] = new int[W];
for(int j=0; j<W; j++)
img[i][j] = 255;
}
//Create the structure that stores to which stroke belongs each pixel
pix_stk = new int*[H];
for(int i=0; i<H; i++) {
pix_stk[i] = new int[W];
for(int j=0; j<W; j++)
pix_stk[i][j] = -1;
}
//Render image
Punto pant, aux, *pto;
for(int i=0; i<nStrokes(); i++) {
for(int np=0; np < dataon[ i ]->getNpuntos() ; np++) {
pto = dataon[ i ]->get(np);
aux.x = 5 + (W-10)*(float)(pto->x - xMIN)/(xMAX - xMIN + 1);
aux.y = 5 + (H-10)*(float)(pto->y - yMIN)/(yMAX - yMIN + 1);
img[(int)aux.y][(int)aux.x] = 0;
pix_stk[(int)aux.y][(int)aux.x] = i;
//Draw a line between last point and current point
if( np>=1 )
linea(img, &pant, &aux, i);
//Update last point
pant.x = aux.x;
pant.y = aux.y;
}
}
*pW = W;
*pH = H;
IMGxMIN = xMIN;
IMGyMIN = yMIN;
IMGxMAX = xMAX;
IMGyMAX = yMAX;
return img;
}
void Sample::renderStrokesPBM(list<int> *SL, int ***img, int *rows, int *cols) {
//Parameters used to render images while training the RNN classifier
const int REND_H = 40;
const int REND_W = 200;
const int OFFSET = 1;
int xMin, yMin, xMax, yMax, H, W;
xMin = yMin = INT_MAX;
xMax = yMax = -INT_MAX;
//Calculate bounding box of the region defined by the points
for(list<int>::iterator it=SL->begin(); it!=SL->end(); it++)
for(int i=0; i<dataon[*it]->getNpuntos(); i++) {
Punto *p = dataon[*it]->get(i);
if( p->x < xMin ) xMin = p->x;
if( p->y < yMin ) yMin = p->y;
if( p->x > xMax ) xMax = p->x;
if( p->y > yMax ) yMax = p->y;
}
//Image dimensions
W = xMax - xMin + 1;
H = yMax - yMin + 1;
//Scale image to height REND_H pixels, keeping the aspect ratio
W = REND_H * (float)W/H;
H = REND_H;
//If image is too wide (for example, a fraction bar) truncate width to REND_W
if( W > REND_W )
W = REND_W;
//Enforce a minimum size of 3 in both dimensions: height and width
if( H < 3 ) H = 3;
if( W < 3 ) W = 3;
//Create image
*rows = H+OFFSET*2;
*cols = W+OFFSET*2;
*img = new int*[ *rows ];
for(int i=0; i<*rows; i++) {
(*img)[i] = new int[ *cols ];
for(int j=0; j<*cols; j++)
(*img)[i][j] = 255;
}
Punto pant, aux;
if( SL->size() == 1 && dataon[*(SL->begin())]->getNpuntos() == 1 ) {
//A single point is represented with a full black image
for(int i=OFFSET; i<H-OFFSET; i++)
for(int j=OFFSET; j<W-OFFSET; j++)
(*img)[i][j] = 0;
}
else {
for(list<int>::iterator it=SL->begin(); it!=SL->end(); it++)
for(int i=0; i<dataon[*it]->getNpuntos(); i++) {
Punto *p = dataon[*it]->get(i);
aux.x = OFFSET + (W-1)*(p->x - xMin)/(float)(xMax-xMin+1);
aux.y = OFFSET + (H-1)*(p->y - yMin)/(float)(yMax-yMin+1);
(*img)[(int)aux.y][(int)aux.x] = 0;
//Draw a line between last point and current point
if( i>=1 )
linea_pbm(*img, &pant, &aux, -1);
else if( i==0 && dataon[*it]->getNpuntos()==1 )
linea_pbm(*img, &aux, &aux, -1);
//Update last point
pant = aux;
}
}
//Create smoothed image
int **img_smo = new int*[ *rows ];
for(int i=0; i<*rows; i++) {
img_smo[i] = new int[ *cols ];
for(int j=0; j<*cols; j++)
img_smo[i][j] = 0;
}
//Smooth AVG(3x3)
for(int y=0; y<*rows; y++)
for(int x=0; x<*cols; x++) {
for(int i=y-1; i<=y+1; i++)
for(int j=x-1; j<=x+1; j++)
if( i>=0 && j>=0 && i<*rows && j<*cols )
img_smo[y][x] += (*img)[i][j];
else
img_smo[y][x] += 255; //Background
img_smo[y][x] /= 9; //3x3
}
//Replace IMG with the smoothed image and free memory
for(int y=0; y<*rows; y++)
for(int x=0; x<*cols; x++)
(*img)[y][x] = img_smo[y][x] < 255 ? 1 : 0;
for(int y=0; y<H+2*OFFSET; y++)
delete[] img_smo[y];
delete[] img_smo;
}
void Sample::getCentroids(CellCYK *cd, int *ce, int *as, int *ds) {
int regy = INT_MAX, regt=-INT_MAX, N=0;
*ce = 0;
for(int i=0; i<cd->nc; i++)
if( cd->ccc[i] ) {
for(int j=0; j<dataon[i]->getNpuntos(); j++) {
Punto *p = dataon[i]->get(j);
if( dataon[i]->ry < regy )
regy = dataon[i]->ry;
if( dataon[i]->rt > regt )
regt = dataon[i]->rt;
*ce += p->y;
N++;
}
}
*ce /= N;
*as = (*ce+regt)/2;
*ds = (regy+*ce)/2;
}
void Sample::compute_strokes_distances(int rx, int ry) {
//Create distances matrix NxN (strokes)
stk_dis = new float*[nStrokes()];
for(int i=0; i<nStrokes(); i++)
stk_dis[i] = new float[nStrokes()];
float aux_x = rx;
float aux_y = ry;
NORMF = sqrt(aux_x*aux_x + aux_y*aux_y);
INF_DIST = FLT_MAX/NORMF;
//Compute distance among every stroke.
for(int i=0; i<nStrokes(); i++) {
stk_dis[i][i] = 0.0;
for(int j=i+1; j<nStrokes(); j++) {
stk_dis[i][j] = stroke_distance( i, j )/NORMF;
stk_dis[j][i] = stk_dis[i][j];
}
}
#ifdef VERBOSE
fprintf(stderr, "===INI Strokes Dist LIST===\n");
for(int i=0; i<nStrokes(); i++) {
for(int j=0; j<nStrokes(); j++) {
if( i!=j && stk_dis[i][j] < INF_DIST )
fprintf(stderr, "%d -> %d: d=%.2f\n", i, j, stk_dis[i][j]);
}
fprintf(stderr, "\n");
}
fprintf(stderr, "===END Strokes Dist LIST===\n\n");
fprintf(stderr, "===INI DISTANCE MATRIX===\n");
for(int i=0; i<nStrokes(); i++) {
for(int j=0; j<nStrokes(); j++) {
if( stk_dis[i][j] >= INF_DIST ) fprintf(stderr, " * ");
else fprintf(stderr, " %5.2f", stk_dis[i][j]);
}
fprintf(stderr, "\n");
}
fprintf(stderr, "===END DISTANCE MATRIX===\n");
#endif
}
float Sample::stroke_distance(int si, int sj) {
Punto *pi, *pj, *min_i, *min_j;
float dmin = FLT_MAX;
for(int npi=0; npi < dataon[ si ]->getNpuntos() ; npi++) {
pi = dataon[ si ]->get(npi);
for(int npj=0; npj < dataon[ sj ]->getNpuntos() ; npj++) {
pj = dataon[ sj ]->get(npj);
float dis = (pi->x - pj->x)*(pi->x - pj->x) + (pi->y - pj->y)*(pi->y - pj->y);
if( dis < dmin ) {
dmin = dis;
min_i = pi;
min_j = pj;
}
}
}
if( not_visible( si, sj, min_i, min_j ) )
dmin = FLT_MAX;
return dmin < FLT_MAX ? sqrt(dmin) : FLT_MAX;
}
float Sample::getDist(int si, int sj) {
if( si<0 || sj<0 || si>=nStrokes() || sj>=nStrokes() ) {
fprintf(stderr, "ERROR: stroke id out of range in getDist(%d,%d)\n", si, sj);
exit(-1);
}
return stk_dis[si][sj];
}
//Go through the pixels from pi to pj checking that there is not a pixel that belongs
//to a stroke that is not si or sj. If so, then sj is not visible from si
bool Sample::not_visible(int si, int sj, Punto *pi, Punto *pj) {
Punto pa, pb;
//Coordinates in pixels of the rendered image
pa.x = 5 + (X-10)*(float)(pi->x - IMGxMIN)/(IMGxMAX - IMGxMIN + 1);
pa.y = 5 + (Y-10)*(float)(pi->y - IMGyMIN)/(IMGyMAX - IMGyMIN + 1);
pb.x = 5 + (X-10)*(float)(pj->x - IMGxMIN)/(IMGxMAX - IMGxMIN + 1);
pb.y = 5 + (Y-10)*(float)(pj->y - IMGyMIN)/(IMGyMAX - IMGyMIN + 1);
const float dl = 3.125e-4;
int dx = (int)pb.x - (int)pa.x;
int dy = (int)pb.y - (int)pa.y;
for(float l=0.0; l < 1.0; l += dl) {
int x = (int)pa.x + (int)(dx*l+0.5);
int y = (int)pa.y + (int)(dy*l+0.5);
if( dataoff[y][x] == 0 && pix_stk[y][x] != si && pix_stk[y][x] != sj )
return true;
}
return false;
}
bool Sample::visibility(list<int> *strokes_list) {
map<int,bool> visited;
for(list<int>::iterator it=strokes_list->begin(); it!=strokes_list->end(); it++)
visited[*it] = false;
queue<int> Q;
Q.push( *(strokes_list->begin()) );
visited[ *(strokes_list->begin()) ] = true;
while( !Q.empty() ) {
int id = Q.front(); Q.pop();
for(list<int>::iterator it=strokes_list->begin(); it!=strokes_list->end(); it++)
if( id != *it && !visited[*it] && getDist(id, *it) < INF_DIST ) {
visited[*it] = true;
Q.push(*it);
}