void drvJAVA2::show_rectangle(const float llx, const float lly, const float urx, const float ury)
{
if (numberOfElements > limitNumberOfElements)
continue_page();
outf << " // Path # " << currentNr() << endl;
outf << " currentPage.add(new PSPathObject(new Color(";
outf << currentR() << "f, " << currentG() << "f, " << currentB() << "f), ";
outf << currentLineWidth() << "f";
if ((currentLineJoin() != 0) || (currentShowType() != 0)) {
outf << ", " << currentLineJoin();
switch (currentShowType()) {
case drvbase::stroke:
outf << ", 0";
break;
case drvbase::fill:
outf << ", 1";
break;
case drvbase::eofill:
outf << ", 2";
break;
default:
errf << "\t\tFatal: unexpected case for currentShowType() in drvjava2" << endl; // cannot happen
abort();
}
}
if (currentLineType() != solid) {
outf << "," << endl;
show_dashPattern(outf, dashPattern());
}
outf << ", new Rectangle2D.Float(" << (llx +
x_offset) << "f, " <<
(currentDeviceHeight - ury + y_offset) << "f";
outf << ", " << (urx - llx) << "f, " << (ury - lly) << "f)));" << endl;
numberOfElements++;
}
void drvJAVA::show_text(const TextInfo & textinfo)
{
unsigned int javaFontNumber = getFontNumber(textinfo.currentFontName.value());
outf << "\tcurrentpage.theObjects.addElement( new PSTextObject(" << endl;
outf << "\t\t" << currentR() << "F," << currentG() << "F," << currentB() << "F," << endl;
outf << "\t\t\"";
// << textinfo.thetext
for (const char *p = textinfo.thetext.value(); (*p) != 0; p++) {
if ((*p) == '"') {
outf << '\\' << *p;
} else if ((*p) == '\\') {
outf << '\\' << *p;
} else if ((*p) == (char) 13) { // ^M
outf << ' ';
} else {
outf << *p;
}
}
outf << "\"," << (int) (textinfo.x +
x_offset) << "," << (int) (currentDeviceHeight
- textinfo.y + y_offset) << ',' << endl;
#ifdef PASSFONTNAME
const char *javaFname = JavaFonts[javaFontNumber].javaname;
const char *javaFstyle = JavaFonts[javaFontNumber].javastyle;
outf << "\t\t\"" << javaFname << "\"," << javaFstyle
#else
outf << "\t\t" << javaFontNumber;
#endif
outf << ',' << (int) (textinfo.currentFontSize + 0.5) << " )\n\t);" << endl;
}
void drvJAVA::show_path()
{
outf << "\t// Path # " << currentNr() << endl;
// if fill then use a polygon
// else use line-segments.
switch (currentShowType()) {
case drvbase::stroke:{
outf << "\tl = new PSLinesObject(" << endl;
outf << "\t\t" << currentR() << "F," << currentG() << "F," <<
currentB() << "F);" << endl;
for (unsigned int t = 0; t < numberOfElementsInPath(); t++) {
const Point & p = pathElement(t).getPoint(0);
outf << "\tl.addPoint(";
outf << (int) (p.x_ + x_offset) << ","
<< (int) (currentDeviceHeight - p.y_ + y_offset) << ");\n ";
}
outf << "\tcurrentpage.theObjects.addElement(l);" << endl;
}
break;
case drvbase::fill:
case drvbase::eofill:{
outf << "\tp = new PSPolygonObject(";
outf << currentR() << "F," << currentG() << "F," << currentB()
<< "F);" << endl;
print_coords();
if (!isPolygon()) {
// make closed polygon anyway
const basedrawingelement & elem = pathElement(0);
const Point & p = elem.getPoint(0);
outf << "\tp.addPoint(";
outf << (int) (p.x_ + x_offset) << ","
<< (int) (currentDeviceHeight - p.y_ + y_offset) << ");\n ";
}
outf << "\tcurrentpage.theObjects.addElement(p);" << endl;
}
break;
default:
// cannot happen
outf << "unexpected ShowType " << (int) currentShowType();
break;
}
// outf << "\tcurrentLineWidth: " << currentLineWidth() << endl;
}
// Set libplot's filling-and-edging style. May set the line width to zero
// to turn off edging. In libplot, a 0-width line is as narrow a line as
// can be drawn.
void drvplot::set_filling_and_edging_style()
{
switch (currentShowType()) {
case drvbase::stroke:
(void)plotter->flinewidth(currentLineWidth());
(void)plotter->pencolor(plotcolor(currentR()), plotcolor(currentG()), plotcolor(currentB()));
(void)plotter->filltype(0); // no filling
break;
case drvbase::fill:
if (pathWasMerged()) {
(void)plotter->flinewidth(currentLineWidth());
(void)plotter->pencolor(plotcolor(edgeR()), plotcolor(edgeG()), plotcolor(edgeB()));
(void)plotter->fillcolor(plotcolor(fillR()), plotcolor(fillG()), plotcolor(fillB()));
} else {
(void)plotter->flinewidth(0.0); // little or no edging
(void)plotter->pencolor(plotcolor(currentR()), plotcolor(currentG()), plotcolor(currentB()));
(void)plotter->fillcolor(plotcolor(currentR()), plotcolor(currentG()), plotcolor(currentB()));
}
(void)plotter->filltype(1);
(void)plotter->fillmod("winding");
break;
case drvbase::eofill:
if (pathWasMerged()) {
(void)plotter->flinewidth(currentLineWidth());
(void)plotter->pencolor(plotcolor(edgeR()), plotcolor(edgeG()), plotcolor(edgeB()));
(void)plotter->fillcolor(plotcolor(fillR()), plotcolor(fillG()), plotcolor(fillB()));
} else {
(void)plotter->flinewidth(0.0); // little or no edging
(void)plotter->pencolor(plotcolor(currentR()), plotcolor(currentG()), plotcolor(currentB()));
(void)plotter->fillcolor(plotcolor(currentR()), plotcolor(currentG()), plotcolor(currentB()));
}
(void)plotter->filltype(1);
(void)plotter->fillmod("even-odd");
break;
default:
// cannot happen
errf << "unexpected ShowType " << (int) currentShowType();
break;
}
}
void drvTK::show_text(const TextInfo & textinfo)
{
int condensedfont = (strstr(textinfo.currentFontName.value(), "Condensed") != NIL);
int narrowfont = (strstr(textinfo.currentFontName.value(), "Narrow") != NIL);
int boldfont = (strstr(textinfo.currentFontName.value(), "Bold") != NIL);
int italicfont = ((strstr(textinfo.currentFontName.value(), "Italic") != NIL)
|| (strstr(textinfo.currentFontName.value(), "Oblique") != NIL));
char* tempfontname = cppstrdup(textinfo.currentFontName.value()) ; // char tempfontname[1024];
char fonttype = 'r';
char *i;
int actualFontSize;
i = strchr(tempfontname, '-');
if (i != NIL) {
*i = '\0';
}
if (italicfont)
fonttype = 'i';
actualFontSize = int ((textinfo.currentFontSize / .95) * 10);
buffer << "set i [$Global(CurrentCanvas) create text "
<< textinfo.x + x_offset
<< " " << (currentDeviceHeight - textinfo.y + y_offset + actualFontSize / 7.2);
buffer << " -text \"";
outputEscapedText(textinfo.thetext.value());
buffer << endl << "\"";
buffer << " -font {-*-" << tempfontname << "-";
if (boldfont)
buffer << "bold";
else
buffer << "medium";
buffer << "-" << fonttype;
if (narrowfont)
buffer << "-narrow--*-";
else if (condensedfont)
buffer << "-condensed--*-";
else
buffer << "-*--*-";
buffer << actualFontSize
<< "-72-72-*-*-*-*"
<< "}" << " -anchor sw" << " -fill " << colorstring(currentR(), currentG(), currentB())
<< " -tags \"" << options->tagNames << "\" ]" << endl;
if (strcmp(options->tagNames.value.value(), "") && !(options->noImPress)) {
buffer << "set Group($Global(CurrentCanvas),$i) \"" << options->tagNames << "\"" << endl;
}
delete [] tempfontname;
}
void drvLWO::print_coords()
{
LWO_POLY *p = new LWO_POLY;
p->r = (unsigned char) (255.0 * currentR());
p->g = (unsigned char) (255.0 * currentG());
p->b = (unsigned char) (255.0 * currentB());
p->num = 0; // intial value;
// p->num = numberOfElementsInPath();
p->x = new float[numberOfElementsInPath()]; // allocate a conservative amount
p->y = new float[numberOfElementsInPath()]; // allocate a conservative amount
p->next = polys;
polys = p;
total_polys++;
for (unsigned int n = 0; n < numberOfElementsInPath(); n++) {
const basedrawingelement & elem = pathElement(n);
switch (elem.getType()) {
case moveto:{
const Point & pe = elem.getPoint(0);
// outf << "\t\tmoveto ";
p->x[p->num] = pe.x_ + x_offset;
p->y[p->num] = pe.y_ + y_offset;
p->num++;
}
break;
case lineto:{
const Point & pe = elem.getPoint(0);
// outf << "\t\tlineto ";
p->x[p->num] = pe.x_ + x_offset;
p->y[p->num] = pe.y_ + y_offset;
p->num++;
}
break;
case closepath: // Not supported
// outf << "\t\tclosepath ";
break;
case curveto:{ // Not supported
}
break;
default:
errf << "\t\tFatal: unexpected case in drvpdf " << endl;
abort();
break;
}
// outf << endl;
}
total_vertices += p->num;
// outf << "]" << endl;
}
void drvTK::show_path()
{
const int fillpat = (currentShowType() == drvbase::stroke) ? noFill : Fill;
if (isPolygon()) {
buffer << "set i [$Global(CurrentCanvas) create polygon ";
print_coords();
if (fillpat == 1) {
buffer << " -fill \"" << colorstring(currentR(), currentG(), currentB())
<< "\"";
} else {
buffer << " -fill \"\"";
}
buffer << " -outline \"" << colorstring(currentR(), currentG(), currentB())
<< "\"" << " -width " << (currentLineWidth()? currentLineWidth() : 1)
<< "p" << " -tags \"" << options->tagNames << "\" ]" << endl;
} else {
if (fillpat == 1) {
buffer << "set i [$Global(CurrentCanvas) create polygon ";
print_coords();
buffer << " -fill \"" << colorstring(currentR(), currentG(), currentB())
<< "\"";
buffer << " -outline \"" << colorstring(currentR(), currentG(), currentB())
<< "\"" << " -width " << (currentLineWidth()? currentLineWidth() : 1)
<< "p" << " -tags \"" << options->tagNames << "\" ]" << endl;
} else {
buffer << "set i [$Global(CurrentCanvas) create line ";
print_coords();
buffer << " -fill \"" << colorstring(currentR(), currentG(), currentB())
<< "\"" << " -width " << (currentLineWidth()? currentLineWidth() : 1)
<< "p" << " -tags \"" << options->tagNames << "\" ]" << endl;
}
}
if (strcmp(options->tagNames.value.value(), "") && !(options->noImPress)) {
buffer << "set Group($Global(CurrentCanvas),$i) \"" << options->tagNames << "\"" << endl;
}
}
void drvJAVA2::show_text(const TextInfo & textinfo)
{
if (numberOfElements > limitNumberOfElements)
continue_page();
unsigned int javaFontNumber = getFontNumber(textinfo.currentFontName.value());
outf << " currentPage.add(new PSTextObject(new Color(";
outf << currentR() << "f, " << currentG() << "f, " << currentB() << "f)," << endl;
outf << " \"";
for (const char *p = textinfo.thetext.value(); (*p) != 0; p++) {
if ((*p) == '"') {
outf << '\\' << *p;
} else if ((*p) == '\\') {
outf << '\\' << *p;
} else if ((*p) == (char) 13) { // ^M
outf << ' ';
} else {
outf << *p;
}
}
outf << "\"," << endl;
outf << " " << (textinfo.x +
x_offset) << "f, " << (currentDeviceHeight - textinfo.y + y_offset) << "f";
#ifdef PASSFONTNAME
const char *javaFname = JavaFonts[javaFontNumber].javaname;
const char *javaFstyle = JavaFonts[javaFontNumber].javastyle;
outf << ", \"" << javaFname << "\", " << javaFstyle;
#else
outf << ", " << javaFontNumber;
#endif
const float *CTM = getCurrentFontMatrix();
if ((fabs(pythagoras(CTM[0], CTM[1] ) - textinfo.currentFontSize) < 1e-5)
&& (fabs(pythagoras(CTM[2] ,CTM[3] ) - textinfo.currentFontSize) < 1e-5)
&& (CTM[0] * CTM[3] - CTM[1] * CTM[2] >= 0)) {
outf << ", " << textinfo.currentFontSize << "f";
if (textinfo.currentFontAngle) {
outf << ", " << textinfo.currentFontAngle << "f";
}
} else {
outf << ", new AffineTransform(" << CTM[0] << "f, " << (-CTM[1]) << "f, ";
outf << (-CTM[2]) << "f, " << CTM[3] << "f, 0f, 0f)";
}
outf << "));" << endl;
numberOfElements++;
}
void drvPDF::show_path()
{
// add_to_page(); // is done in drvbase !!
endtext(); // close text if open
const char *setrgbcolor = 0;
const char *drawingop = 0;
switch (currentShowType()) {
case drvbase::stroke:
// it's a stroke
drawingop = "S";
setrgbcolor = "RG";
break;
case drvbase::fill:
drawingop = "f";
setrgbcolor = "rg";
break;
case drvbase::eofill:
drawingop = "f*";
setrgbcolor = "rg";
break;
default:
// cannot happen
errf << "unexpected ShowType " << (int) currentShowType() << endl;
exit(1);
break;
}
// buffer.precision(3);
// buffer.setf(ios::fixed);
// buffer.width(0); // to force minimal width
// buffer.unsetf(ios::showpoint);
if (Verbose()) {
buffer << "% path " << currentNr() << endl;
}
buffer << RND3(currentR()) << " " << RND3(currentG()) << " " <<
RND3(currentB()) << " " << setrgbcolor << endl;
buffer << currentLineWidth() << " w" << endl;
buffer << currentLineCap() << " J" << endl;
buffer << currentLineJoin() << " j" << endl;
buffer << dashPattern() << " d" << endl;
print_coords();
buffer << drawingop << endl;
}
void drvSAMPL::show_path()
{
outf << "Path # " << currentNr();
if (isPolygon())
outf << " (polygon): " << endl;
else
outf << " (polyline): " << endl;
outf << "\tcurrentShowType: ";
switch (currentShowType()) {
case drvbase::stroke:
outf << "stroked";
break;
case drvbase::fill:
outf << "filled";
break;
case drvbase::eofill:
outf << "eofilled";
break;
default:
// cannot happen
outf << "unexpected ShowType " << (int) currentShowType();
break;
}
outf << endl;
outf << "\tcurrentLineWidth: " << currentLineWidth() << endl;
outf << "\tcurrentR: " << currentR() << endl;
outf << "\tcurrentG: " << currentG() << endl;
outf << "\tcurrentB: " << currentB() << endl;
outf << "\tedgeR: " << edgeR() << endl;
outf << "\tedgeG: " << edgeG() << endl;
outf << "\tedgeB: " << edgeB() << endl;
outf << "\tfillR: " << fillR() << endl;
outf << "\tfillG: " << fillG() << endl;
outf << "\tfillB: " << fillB() << endl;
outf << "\tcurrentLineCap: " << currentLineCap() << endl;
outf << "\tdashPattern: " << dashPattern() << endl;
outf << "\tPath Elements 0 to " << numberOfElementsInPath() - 1 << endl;
print_coords();
}
void WaveStripe::update(){
mutex.lock();
amplitudesLeftFront.insert(amplitudesLeftFront.end(),amplitudesLeftBack.begin(),amplitudesLeftBack.end());
amplitudesRightFront.insert(amplitudesRightFront.end(),amplitudesRightBack.begin(),amplitudesRightBack.end());
amplitudesLeftBack.clear();
amplitudesRightBack.clear();
mutex.unlock();
if(amplitudesLeftFront.size()>1024){
amplitudesLeftFront.erase(amplitudesLeftFront.begin(),amplitudesLeftFront.begin()+(amplitudesLeftFront.size()-1024));
amplitudesRightFront.erase(amplitudesRightFront.begin(),amplitudesRightFront.begin()+(amplitudesRightFront.size()-1024));
}
for(u_int i = 0; i<amplitudesLeftFront.size();i++){
amplitudesLeftFront[i]*=.95;
amplitudesRightFront[i]*=.95;
}
for(int i=0; i<((int)amplitudesLeftFront.size())-1;i++){
ofVec3f current(i*thickness,amplitudesLeftFront[amplitudesLeftFront.size()-i]*ampFactor,0);
ofVec3f currentR(i*thickness,amplitudesRightFront[amplitudesRightFront.size()-i]*ampFactor,0);
ofVec3f next((i+1)*thickness,amplitudesLeftFront[amplitudesLeftFront.size()-(i+1)]*ampFactor,0);
ofVec3f nextR((i+1)*thickness,amplitudesRightFront[amplitudesRightFront.size()-(i+1)]*ampFactor,0);
ofVec3f up(0, 1, 0);
ofVec3f dir = (next - current).normalize(); // normalized direction vector from p0 to p1
ofVec3f right = dir.cross(up).normalize(); // right vector
right *= thickness;//thisThickness;
dir = (nextR - currentR).normalize();
ofVec3f rightR = dir.cross(up).normalize(); // right vector
rightR *= thickness;//thisThickness;
mesh.getVertices()[i*2] = mesh.getVertices()[i*2]*.8 + (current - right)*.2;
mesh.getVertices()[i*2+1] = mesh.getVertices()[i*2+1]*.8 + (currentR + rightR)*.2;
}
if(mesh.getVertices().size()>2){
*(mesh.getVertices().end()-2) = *(mesh.getVertices().end()-4);
*(mesh.getVertices().end()-1) = *(mesh.getVertices().end()-3);
}
}
void drvJAVA2::show_path()
{
outf << " // Path # " << currentNr() << endl;
outf << " currentPath = new PSPathObject(new Color(";
outf << currentR() << "f, " << currentG() << "f, " << currentB() << "f), ";
outf << currentLineWidth() << "f";
if ((currentLineCap() != 0) || (currentLineJoin() != 0)
|| (currentShowType() != 0) || (currentLineType() != solid)) {
outf << ", " << currentLineCap() << ", " << currentLineJoin() <<
", " << currentMiterLimit() << "f, ";
switch (currentShowType()) {
case drvbase::stroke:
outf << "0";
break;
case drvbase::fill:
outf << "1";
break;
case drvbase::eofill:
outf << "2";
break;
default:
errf << "\t\tFatal: unexpected case for currentShowType() in drvjava2" << endl; // cannot happen
abort();
}
if (currentLineType() != solid) {
outf << "," << endl;
show_dashPattern(outf, dashPattern());
}
}
if (isPolygon()) {
outf << ", true";
}
outf << ");" << endl;
numberOfElements++;
print_coords();
outf << " currentPage.add(currentPath);" << endl;
numberOfElements++;
}
void drvRIB::show_path()
{
outf << "Color " << currentR() << " " << currentG() << " " << currentB() << endl;
print_coords();
}
void drvFIG::show_path()
{
float localLineWidth = currentLineWidth();
localLineWidth *= 80.0f/72.0f; // xfig scales width differently - added in 3.50 - wogl
// dont know whether this should be synchronized with -usecorrectfontsize option.
/*
3.50:
Originally, the resolution of Fig lines was 1/80 inch, and it was thought that the line width of "1" looked too thick, so it was reduced.
Therefore, the final width of lines in PostScript/EPS is:
Figwidth == 1: 7.5
Figwidth > 1: (Figwidth-1)*15
Regards,
Brian Smith
in reverse:
l < (15+7.5)/2 : f = 1
f = (l /15) + 1
*/
const float boundaryforOneCase = (((15.0f + 7.5f)/2.0f) / 15.0f); // 0.75
// if calculated linewidth is (without "+1 correction") > 0.75
// then apply correction by 1
// for the 0.75 case itself it means - map it to 1.75 and from there to 2
// if it is < 0.75, then leave it so and create in fig a 1 ( (int) 0.75+0.5 )
if (Verbose() ) {
cerr << "localLineWidth " << localLineWidth << " b " << boundaryforOneCase << endl;
}
if (localLineWidth > boundaryforOneCase) {
localLineWidth += 1.0f; // see above
} else {
// line width of 0 remain 0 - everything else is at least 1
if ((localLineWidth < 0.0) || ((localLineWidth > 0.0) && (localLineWidth <= 1.0))) {
localLineWidth = 1.0;
}
}
unsigned int linestyle = 0;
switch (currentLineType()) {
case solid:
linestyle = 0;
break;
case dashed:
linestyle = 1;
break;
case dotted:
linestyle = 2;
break;
case dashdot:
linestyle = 3;
break;
case dashdotdot:
linestyle = 4;
break;
}
const unsigned int linecap = currentLineCap();
const unsigned int linejoin = currentLineJoin();
// Calculate BBox
bbox_path();
const unsigned int curvetos = nrOfCurvetos();
if (curvetos == 0) // polyline
{
buffer << "# polyline\n";
buffer << "2 1 " << linestyle << " " << (int) (localLineWidth + 0.5f) << " ";
const unsigned int color = registercolor(currentR(), currentG(), currentB());
const int fill_or_nofill = (currentShowType() == drvbase::stroke) ? -1 : 20;
if (objectId)
objectId--; // don't let it get < 0
buffer << color << " " << color << " " << objectId << " 0 " <<
fill_or_nofill << " " << "4.0" <<
" " << linejoin << " " << linecap
//" 0 0"
<< " 0 0 0 ";
// 4.0 is the gap spec. we could also derive this from the input
buffer << (int) (numberOfElementsInPath()) << "\n";
print_polyline_coords();
} else // contains at least one curveto
{
buffer << "# spline\n";
// 3 2 means "open interpolated spline"
buffer << "3 4 " << linestyle << " " << (int) (localLineWidth + 0.5f) << " ";
const unsigned int color = registercolor(currentR(), currentG(), currentB());
const int fill_or_nofill = (currentShowType() == drvbase::stroke) ? -1 : 20;
if (objectId)
objectId--; // don't let it get < 0
buffer << color << " " << color << " " << objectId << " 0 " <<
fill_or_nofill << " " << "4.0" << //" 0"
" " << linecap
<< " 0 0 ";
// 4.0 is the gap spec. we could also derive this from the input
// IJMP - change to quintic spline - 5 pnts per spline, not 3
buffer << numberOfElementsInPath() + 5 * curvetos - curvetos << "\n";
print_spline_coords1();
print_spline_coords2();
}
}