+/************************************************************************
+ ************************************************************************
+ FAUST compiler
+ Copyright (C) 2003-2004 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 General Public License as published by
+ the Free Software Foundation; either version 2 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 General Public License for more details.
+
+ You should have received a copy of the GNU General Public License
+ along with this program; if not, write to the Free Software
+ Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
+ ************************************************************************
+ ************************************************************************/
+
+
+
+#include "list.hh"
+#include "boxes.hh"
+#include "ppbox.hh"
+#include "signals.hh"
+#include "prim2.hh"
+#include "xtended.hh"
+
+
+const char * prim0name(CTree *(*ptr) ())
+{
+ return "prim0???";
+}
+
+const char * prim1name(CTree *(*ptr) (CTree *))
+{
+ if (ptr == sigDelay1) return "mem";
+ if (ptr == sigIntCast) return "int";
+ if (ptr == sigFloatCast) return "float";
+ if (ptr == sigSerialize) return "serialize";
+
+ return "prim1???";
+}
+
+const char * prim2name(CTree *(*ptr) (CTree *, CTree *))
+{
+ if (ptr == sigAdd) return "+";
+ if (ptr == sigSub) return "-";
+ if (ptr == sigMul) return "*";
+ if (ptr == sigDiv) return "/";
+ if (ptr == sigRem) return "%";
+
+ if (ptr == sigAND) return "&";
+ if (ptr == sigOR ) return "|";
+ if (ptr == sigXOR) return "^";
+
+ if (ptr == sigLeftShift ) return "<<";
+ if (ptr == sigRightShift) return ">>";
+
+ if (ptr == sigLT) return "< ";
+ if (ptr == sigLE) return "<=";
+ if (ptr == sigGT) return " >";
+ if (ptr == sigGE) return ">=";
+ if (ptr == sigEQ) return "==";
+ if (ptr == sigNE) return "!=";
+
+ if (ptr == sigFixDelay) return "@";
+ if (ptr == sigPrefix) return "prefix";
+ if (ptr == sigAttach) return "attach";
+
+ if (ptr == sigVectorize) return "vectorize";
+ if (ptr == sigVectorAt) return "[]";
+ if (ptr == sigConcat) return "#";
+
+
+
+
+ return "prim2???";
+}
+
+const char * prim3name(CTree *(*ptr) (CTree *, CTree *, CTree *))
+{
+ if (ptr == sigReadOnlyTable) return "rdtable";
+ if (ptr == sigSelect2) return "selecttwo";
+ return "prim3???";
+}
+
+const char * prim4name(CTree *(*ptr) (CTree *, CTree *, CTree *, CTree *))
+{
+ if (ptr == sigSelect3) return "selectthree";
+ return "prim4???";
+}
+
+const char * prim5name(CTree *(*ptr) (CTree *, CTree *, CTree *, CTree *, CTree *))
+{
+ if (ptr == sigWriteReadTable) return "wrtable";
+ return "prim5???";
+}
+
+
+static void streambinop(ostream& fout, Tree t1, const char* op, Tree t2, int curPriority, int upPriority)
+{
+ if (upPriority > curPriority) fout << '(';
+ fout << boxpp(t1,curPriority) << op << boxpp(t2,curPriority);
+ if (upPriority > curPriority) fout << ')';
+}
+
+static void printRule(ostream& fout, Tree rule)
+{
+ Tree lhs = left(rule);
+ Tree rhs = right(rule);
+ char sep = '('; while (!isNil(lhs)) { fout << sep << boxpp(hd(lhs)); sep=','; lhs=tl(lhs); }
+ fout << ") => " << boxpp(rhs) << "; ";
+}
+
+/*****************************************************************************
+ affichage d'une expression box comme en entree
+*****************************************************************************/
+
+ostream& boxpp::print (ostream& fout) const
+{
+ int i, id;
+ double r;
+ prim0 p0;
+ prim1 p1;
+ prim2 p2;
+ prim3 p3;
+ prim4 p4;
+ prim5 p5;
+
+ Tree t1, t2, t3, ff, label, cur, min, max, step, type, name, file, arg,
+ body, fun, args, abstr, genv, vis, lenv, ldef, slot,
+ ident, rules;
+
+ const char* str;
+
+ xtended* xt = (xtended*) getUserData(box);
+
+
+ // primitive elements
+ if (xt) fout << xt->name();
+ else if (isBoxInt(box, &i)) fout << i;
+ else if (isBoxReal(box, &r))
+ {
+ fout.setf( ios_base::fixed );
+ fout.precision(16);
+ fout << r;
+ //fout.setf( ios_base::fixed);
+ }
+
+ else if (isBoxCut(box)) fout << '!';
+ else if (isBoxWire(box)) fout << '_';
+ else if (isBoxIdent(box, &str)) fout << str;
+ else if (isBoxPrim0(box, &p0)) fout << prim0name(p0);
+ else if (isBoxPrim1(box, &p1)) fout << prim1name(p1);
+ else if (isBoxPrim2(box, &p2)) fout << prim2name(p2);
+ else if (isBoxPrim3(box, &p3)) fout << prim3name(p3);
+ else if (isBoxPrim4(box, &p4)) fout << prim4name(p4);
+ else if (isBoxPrim5(box, &p5)) fout << prim5name(p5);
+
+ else if (isBoxAbstr(box,arg,body)) fout << "\\" << boxpp(arg) << ".(" << boxpp(body) << ")";
+ else if (isBoxAppl(box, fun, args)) fout << boxpp(fun) << boxpp(args) ;
+
+ else if (isBoxWithLocalDef(box, body, ldef)) fout << boxpp(body) << " with { " << envpp(ldef) << " }";
+
+ // foreign elements
+ else if (isBoxFFun(box, ff)) fout << "ffunction(" << ffname(ff) << ')';
+ else if (isBoxFConst(box, type, name, file))
+ fout << "fconstant(" /*<< tree2str(type) */<< tree2str(name) << ')';
+ else if (isBoxFVar(box, type, name, file))
+ fout << "fvariable(" << tree2str(name) << ')';
+
+ // block diagram binary operator
+ else if (isBoxSeq(box, t1, t2)) streambinop(fout, t1, ":", t2, 1, priority);
+ else if (isBoxSplit(box, t1, t2)) streambinop(fout, t1, "<:", t2, 1, priority);
+ else if (isBoxMerge(box, t1, t2)) streambinop(fout, t1, ":>", t2, 1, priority);
+ else if (isBoxPar(box, t1, t2)) streambinop(fout, t1,",",t2, 2, priority);
+ else if (isBoxRec(box, t1, t2)) streambinop(fout, t1,"~",t2, 4, priority);
+
+ // iterative block diagram construction
+ else if (isBoxIPar(box, t1, t2, t3)) fout << "par(" << boxpp(t1) << ", " << boxpp(t2) << ") {" << boxpp(t3) << "}";
+ else if (isBoxISeq(box, t1, t2, t3)) fout << "seq(" << boxpp(t1) << ", " << boxpp(t2) << ") {" << boxpp(t3) << "}";
+ else if (isBoxISum(box, t1, t2, t3)) fout << "sum(" << boxpp(t1) << ", " << boxpp(t2) << ") {" << boxpp(t3) << "}";
+ else if (isBoxIProd(box, t1, t2, t3)) fout << "prod(" << boxpp(t1) << ", " << boxpp(t2) << ") {" << boxpp(t3) << "}";
+
+ // user interface
+ else if (isBoxButton(box, label)) fout << "button(" << tree2str(label) << ')';
+ else if (isBoxCheckbox(box, label)) fout << "checkbox(" << tree2str(label) << ')';
+ else if (isBoxVSlider(box, label, cur, min, max, step)) {
+ fout << "vslider("
+ << tree2str(label) << ", "
+ << boxpp(cur) << ", "
+ << boxpp(min) << ", "
+ << boxpp(max) << ", "
+ << boxpp(step)<< ')';
+ }
+ else if (isBoxHSlider(box, label, cur, min, max, step)) {
+ fout << "hslider("
+ << tree2str(label) << ", "
+ << boxpp(cur) << ", "
+ << boxpp(min) << ", "
+ << boxpp(max) << ", "
+ << boxpp(step)<< ')';
+ }
+ else if (isBoxVGroup(box, label, t1)) {
+ fout << "vgroup(" << tree2str(label) << ", " << boxpp(t1, 0) << ')';
+ }
+ else if (isBoxHGroup(box, label, t1)) {
+ fout << "hgroup(" << tree2str(label) << ", " << boxpp(t1, 0) << ')';
+ }
+ else if (isBoxTGroup(box, label, t1)) {
+ fout << "tgroup(" << tree2str(label) << ", " << boxpp(t1, 0) << ')';
+ }
+ else if (isBoxHBargraph(box, label, min, max)) {
+ fout << "hbargraph("
+ << tree2str(label) << ", "
+ << boxpp(min) << ", "
+ << boxpp(max) << ')';
+ }
+ else if (isBoxVBargraph(box, label, min, max)) {
+ fout << "vbargraph("
+ << tree2str(label) << ", "
+ << boxpp(min) << ", "
+ << boxpp(max) << ')';
+ }
+ else if (isBoxNumEntry(box, label, cur, min, max, step)) {
+ fout << "nentry("
+ << tree2str(label) << ", "
+ << boxpp(cur) << ", "
+ << boxpp(min) << ", "
+ << boxpp(max) << ", "
+ << boxpp(step)<< ')';
+ }
+ else if (isNil(box)) {
+ fout << "()" ;
+ }
+ else if (isList(box)) {
+
+ Tree l = box;
+ char sep = '(';
+
+ do {
+ fout << sep << boxpp(hd(l));
+ sep = ',';
+ l = tl(l);
+ } while (isList(l));
+
+ fout << ')';
+
+ }
+ else if (isBoxEnvironment(box)) {
+ fout << "environment";
+ }
+ else if (isClosure(box, abstr, genv, vis, lenv)) {
+ fout << "closure[" << boxpp(abstr)
+ << ", genv = " << envpp(genv)
+ << ", lenv = " << envpp(lenv)
+ << "]";
+ }
+ else if (isBoxComponent(box, label)) {
+ fout << "component("
+ << tree2str(label) << ')';
+ }
+ else if (isBoxAccess(box, t1, t2)) {
+ fout << boxpp(t1) << '.' << boxpp(t2);
+ }
+ else if (isImportFile(box, label)) {
+ fout << "import("
+ << tree2str(label) << ')';
+ }
+ else if (isBoxSlot(box, &id)) {
+ fout << "#" << id;
+ }
+ else if (isBoxSymbolic(box, slot, body)) {
+ fout << "[" << boxpp(slot) << ">" << boxpp(body) << "]";
+ }
+
+ // Pattern Matching Extensions
+ else if (isBoxCase(box, rules)) {
+ fout << "case {";
+ while (!isNil(rules)) { printRule(fout, hd(rules)); rules = tl(rules); }
+ fout << "}";
+ }
+#if 1
+ // more useful for debugging output
+ else if (isBoxPatternVar(box, ident)) {
+ fout << "<" << boxpp(ident) << ">";
+ }
+#else
+ // beautify messages involving lhs patterns
+ else if (isBoxPatternVar(box, ident)) {
+ fout << boxpp(ident);
+ }
+#endif
+
+ else if (isBoxPatternMatcher(box)) {
+ fout << "PM[" << box << "]";
+ }
+
+ else if (isBoxError(box)) {
+ fout << "ERROR";
+ }
+
+
+ // None of the previous tests succeded, then it is not a valid box
+ else {
+ cerr << "Error in box::print() : " << *box << " is not a valid box" << endl;
+ exit(1);
+ }
+
+ return fout;
+}
+
+
+/*****************************************************************************
+ affichage d'un environnement
+*****************************************************************************/
+
+ostream& envpp::print (ostream& fout) const
+{
+ const char* sep = "";
+ Tree l = fEnv;
+
+ fout << '{';
+ while (isList(l)) {
+ fout << sep << boxpp(hd(hd(l))) << "=" << boxpp(tl(hd(l)));
+ sep = ", ";
+ l = tl(l);
+ }
+ fout << '}';
+ return fout;
+}
+