/**
* @brief Main code generator dispatch.
*
* According to the type of the input signal, generateCode calls
* the appropriate generator with appropriate arguments.
*
* @param sig The signal expression to compile.
* @param priority The environment priority of the expression.
* @return <string> The LaTeX code translation of the signal.
*/
string DocCompiler::generateCode (Tree sig, int priority)
{
int i;
double r;
Tree c, sel, x, y, z, u, label, ff, largs, type, name, file;
if ( getUserData(sig) ) { printGCCall(sig,"generateXtended"); return generateXtended (sig, priority); }
else if ( isSigInt(sig, &i) ) { printGCCall(sig,"generateNumber"); return generateNumber (sig, docT(i)); }
else if ( isSigReal(sig, &r) ) { printGCCall(sig,"generateNumber"); return generateNumber (sig, docT(r)); }
else if ( isSigInput(sig, &i) ) { printGCCall(sig,"generateInput"); return generateInput (sig, docT(i+1)); }
else if ( isSigOutput(sig, &i, x) ) { printGCCall(sig,"generateOutput"); return generateOutput (sig, docT(i+1), CS(x, priority)); }
else if ( isSigFixDelay(sig, x, y) ) { printGCCall(sig,"generateFixDelay"); return generateFixDelay (sig, x, y, priority); }
else if ( isSigPrefix(sig, x, y) ) { printGCCall(sig,"generatePrefix"); return generatePrefix (sig, x, y, priority); }
else if ( isSigIota(sig, x) ) { printGCCall(sig,"generateIota"); return generateIota (sig, x); }
else if ( isSigBinOp(sig, &i, x, y) ) { printGCCall(sig,"generateBinOp"); return generateBinOp (sig, i, x, y, priority); }
else if ( isSigFFun(sig, ff, largs) ) { printGCCall(sig,"generateFFun"); return generateFFun (sig, ff, largs, priority); }
else if ( isSigFConst(sig, type, name, file) ) { printGCCall(sig,"generateFConst"); return generateFConst (sig, tree2str(file), tree2str(name)); }
else if ( isSigFVar(sig, type, name, file) ) { printGCCall(sig,"generateFVar"); return generateFVar (sig, tree2str(file), tree2str(name)); }
// new special tables for documentation purposes
else if ( isSigDocConstantTbl(sig, x, y) ) { printGCCall(sig,"generateDocConstantTbl"); return generateDocConstantTbl (sig, x, y); }
else if ( isSigDocWriteTbl(sig,x,y,z,u) ) { printGCCall(sig,"generateDocWriteTbl"); return generateDocWriteTbl (sig, x, y, z, u); }
else if ( isSigDocAccessTbl(sig, x, y) ) { printGCCall(sig, "generateDocAccessTbl"); return generateDocAccessTbl(sig, x, y); }
else if ( isSigSelect2(sig, sel, x, y) ) { printGCCall(sig,"generateSelect2"); return generateSelect2 (sig, sel, x, y, priority); }
else if ( isSigSelect3(sig, sel, x, y, z) ) { printGCCall(sig,"generateSelect3"); return generateSelect3 (sig, sel, x, y, z, priority); }
else if ( isProj(sig, &i, x) ) { printGCCall(sig,"generateRecProj"); return generateRecProj (sig, x, i, priority); }
else if ( isSigIntCast(sig, x) ) { printGCCall(sig,"generateIntCast"); return generateIntCast (sig, x, priority); }
else if ( isSigFloatCast(sig, x) ) { printGCCall(sig,"generateFloatCast"); return generateFloatCast(sig, x, priority); }
else if ( isSigButton(sig, label) ) { printGCCall(sig,"generateButton"); return generateButton (sig, label); }
else if ( isSigCheckbox(sig, label) ) { printGCCall(sig,"generateCheckbox"); return generateCheckbox (sig, label); }
else if ( isSigVSlider(sig, label,c,x,y,z) ) { printGCCall(sig,"generateVSlider"); return generateVSlider (sig, label, c,x,y,z); }
else if ( isSigHSlider(sig, label,c,x,y,z) ) { printGCCall(sig,"generateHSlider"); return generateHSlider (sig, label, c,x,y,z); }
else if ( isSigNumEntry(sig, label,c,x,y,z) ) { printGCCall(sig,"generateNumEntry"); return generateNumEntry (sig, label, c,x,y,z); }
else if ( isSigVBargraph(sig, label,x,y,z) ) { printGCCall(sig,"generateVBargraph"); return CS(z, priority);}//generateVBargraph (sig, label, x, y, CS(z, priority)); }
else if ( isSigHBargraph(sig, label,x,y,z) ) { printGCCall(sig,"generateHBargraph"); return CS(z, priority);}//generateHBargraph (sig, label, x, y, CS(z, priority)); }
else if ( isSigAttach(sig, x, y) ) { printGCCall(sig,"generateAttach"); return generateAttach (sig, x, y, priority); }
else if ( isSigEnable(sig, x, y) ) { printGCCall(sig,"generateEnable"); return generateEnable (sig, x, y, priority); }
else {
stringstream error;
error << "ERROR in d signal, unrecognized signal : " << *sig << endl;
throw faustexception(error.str());
}
faustassert(0);
return "error in generate code";
}
char *convert (char* originalFilename, user_agent UserAgent, int Quality, char* Extensions)
{
char* imageSpecs= (char*) malloc (200);
char* targetFilename= (char*) malloc (200);
char* midFilename= (char*) malloc (200);
char* command = (char*) malloc (1000);
imageSpecs = generatePrefix( originalFilename, UserAgent, Quality);
midFilename = createNewFilename( originalFilename, UserAgent.format, Extensions);
targetFilename = strcat(imageSpecs,midFilename);
command = generateCommand(originalFilename, targetFilename, UserAgent, Quality);
return convertImage(targetFilename, command);
}
