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// Default file prefix used for inline LaTeX mode
string defaultfilename;
file _outpipe;
if(settings.xasy)
_outpipe=output(mode="pipe");
string[] file3;
string outprefix(string prefix=defaultfilename) {
return stripextension(prefix != "" ? prefix : outname());
}
string outformat(string format="")
{
if(format == "") format=settings.outformat;
if(format == "") format=nativeformat();
return format;
}
frame currentpatterns;
frame Portrait(frame f) {return f;};
frame Landscape(frame f) {return rotate(90)*f;};
frame UpsideDown(frame f) {return rotate(180)*f;};
frame Seascape(frame f) {return rotate(-90)*f;};
typedef frame orientation(frame);
orientation orientation=Portrait;
// Forward references to functions defined in module three.
object embed3(string, frame, string, string, string, light, projection);
string Embed(string name, string text="", string options="", real width=0,
real height=0);
bool prconly(string format="")
{
return outformat(format) == "prc";
}
bool prc0(string format="")
{
return settings.prc && (outformat(format) == "pdf" || prconly() || settings.inlineimage );
}
bool prc(string format="") {
return prc0(format) && Embed != null;
}
bool is3D(string format="")
{
return prc(format) || settings.render != 0;
}
frame enclose(string prefix=defaultfilename, object F, string format="")
{
if(prc(format)) {
frame f;
label(f,F.L);
return f;
} return F.f;
}
void deconstruct(picture pic=currentpicture)
{
frame f;
transform t=pic.calculateTransform();
if(currentpicture.fitter == null)
f=pic.fit(t);
else
f=pic.fit();
deconstruct(f,currentpatterns,t);
}
bool implicitshipout=false;
void shipout(string prefix=defaultfilename, frame f,
string format="", bool wait=false, bool view=true,
string options="", string script="",
light light=currentlight, projection P=currentprojection,
transform t=identity)
{
if(is3D(f)) {
f=enclose(prefix,embed3(prefix,f,format,options,script,light,P));
if(settings.render != 0 && !prc(format)) {
return;
}
}
if(settings.xasy || (!implicitshipout && prefix == defaultfilename)) {
if(prefix == defaultfilename) {
currentpicture.clear();
add(f,group=false);
}
return;
}
// Applications like LaTeX cannot handle large PostScript coordinates.
pair m=min(f);
int limit=2000;
if(abs(m.x) > limit || abs(m.y) > limit) f=shift(-m)*f;
_shipout(prefix,f,currentpatterns,format,wait,view,t);
}
void shipout(string prefix=defaultfilename, picture pic=currentpicture,
orientation orientation=orientation,
string format="", bool wait=false, bool view=true,
string options="", string script="",
light light=currentlight, projection P=currentprojection)
{
pic.uptodate=true;
if(!uptodate()) {
bool inlinetex=settings.inlinetex;
bool prc=prc(format);
bool empty3=pic.empty3();
if(prc && !empty3) {
if(settings.render == 0) {
string image=outprefix(prefix)+"+"+(string) file3.length;
if(settings.inlineimage) image += "_0";
settings.inlinetex=false;
settings.prc=false;
shipout(image,pic,orientation,nativeformat(),view=false,light,P);
settings.prc=true;
}
settings.inlinetex=settings.inlineimage;
}
frame f;
transform t=pic.calculateTransform();
if(currentpicture.fitter == null)
f=pic.fit(t);
else
f=pic.fit(prefix,format,view=view,options,script,light,P);
if(!prconly() && (!pic.empty2() || settings.render == 0 || prc || empty3))
shipout(prefix,orientation(f),format,wait,view,t);
settings.inlinetex=inlinetex;
}
}
void newpage(picture pic=currentpicture)
{
pic.add(new void(frame f, transform) {
newpage(f);
},true);
}
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