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/************************************************************************
************************************************************************
FAUST compiler
Copyright (C) 2003-2018 GRAME, Centre National de Creation Musicale
---------------------------------------------------------------------
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU Lesser General Public License as published by
the Free Software Foundation; either version 2.1 of the License, or
(at your option) any later version.
This program 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 Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
************************************************************************
************************************************************************/
#include <stdio.h>
#include <map>
#include "global.hh"
#include "tree.hh"
#include "ppsig.hh"
#include "ppbox.hh"
#include "simplify.hh"
#include "sigPromotion.hh"
#include "sigtyperules.hh"
#include "timing.hh"
// Implementation
static Tree simplifyToNormalFormAux(Tree LS)
{
// Convert deBruijn recursion into symbolic recursion
startTiming("deBruijn2Sym");
Tree L1 = deBruijn2Sym(LS);
endTiming("deBruijn2Sym");
// Annotate L1 with type information
startTiming("L1 typeAnnotation");
typeAnnotation(L1, gGlobal->gLocalCausalityCheck);
endTiming("L1 typeAnnotation");
if (gGlobal->gCheckTable) {
// Generate safe access to rdtable/rwtable
startTiming("Safe access to rdtable/rwtable");
L1 = signalTablePromote(L1);
endTiming("Safe access to rdtable/rwtable");
// Annotate L1 with type information
startTiming("L1 typeAnnotation");
typeAnnotation(L1, gGlobal->gLocalCausalityCheck);
endTiming("L1 typeAnnotation");
}
if (gGlobal->gRangeUI) {
// Generate safe values for range UI items (sliders and nentry)
startTiming("Safe access to rdtable/rwtable");
L1 = signalUIPromote(L1);
endTiming("Safe access to rdtable/rwtable");
// Annotate L1 with type information
startTiming("L1 typeAnnotation");
typeAnnotation(L1, gGlobal->gLocalCausalityCheck);
endTiming("L1 typeAnnotation");
}
// Needed before 'simplify' (see sigPromotion.hh)
startTiming("Cast and Promotion");
Tree L2 = sigPromote(L1);
endTiming("Cast and Promotion");
// Simplify by executing every computable operation
startTiming("L2 simplification");
Tree L3 = simplify(L2);
endTiming("L2 simplification");
// Annotate L3 with type information
startTiming("L3 typeAnnotation");
typeAnnotation(L3, gGlobal->gLocalCausalityCheck);
endTiming("L3 typeAnnotation");
startTiming("Cast and Promotion");
Tree L4 = sigPromote(L3);
endTiming("Cast and Promotion");
startTiming("L4 typeAnnotation");
typeAnnotation(L4, gGlobal->gLocalCausalityCheck);
endTiming("L4 typeAnnotation");
// Check signal tree
SignalTreeChecker checker(L4);
return L4;
}
// Public API
LIBFAUST_API Tree simplifyToNormalForm(Tree t)
{
if (isList(t)) {
Tree t2 = t->getProperty(gGlobal->NORMALFORM);
if (!t2) {
t2 = simplifyToNormalFormAux(t);
t->setProperty(gGlobal->NORMALFORM, t2);
}
return t2;
} else {
return simplifyToNormalForm(cons(t, gGlobal->nil));
}
}
LIBFAUST_API tvec simplifyToNormalForm2(tvec siglist)
{
return treeConvert(simplifyToNormalForm(listConvert(siglist)));
}
LIBFAUST_API string printSignal(Tree sig, bool shared)
{
// Clear print state
gGlobal->clear();
stringstream str;
if (shared) {
ppsigShared(sig, str);
} else {
str << ppsig(sig) << endl;
}
return str.str();
}
LIBFAUST_API string printBox(Tree box, bool shared)
{
// Clear print state
gGlobal->clear();
stringstream str;
if (shared) {
boxppShared(box, str);
} else {
str << boxpp(box) << endl;
}
return str.str();
}
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