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diff --git a/interpretor/preprocessor/faust-0.9.47mr3/compiler/tlib/node.hh b/interpretor/preprocessor/faust-0.9.47mr3/compiler/tlib/node.hh
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-/************************************************************************
- ************************************************************************
- 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.
- ************************************************************************
- ************************************************************************/
-
-
-
-/*****************************************************************************
-******************************************************************************/
-
-/** \file node.hh
- * A Node is a tagged unions of int, double, symbol and void* used in the implementation of CTrees.
- * Nodes are completly described by the node.h file, there is no node.cpp file.
- *
- * API:
- *
- * Node(symbol("abcd")); : node with symbol content
- * Node(10); : node with int content
- * Node(3.14159); : node with double content
- *
- * n->type(); : kIntNode or kDoubleNode or kSymNode
- *
- * n->getInt(); : int content of n
- * n->getDouble(); : double content of n
- * n->getSym(); : symbol content of n
- *
- * if (isInt(n, &i)) ... : int i = int content of n
- * if (isDouble(n, &f)) ... : double f = double content of n
- * if (isSym(n, &s)) ... : Sym s = Sym content of n
- *
- */
-
-/******************************************************************************
-*****************************************************************************/
-
-
-#ifndef __NODE__
-#define __NODE__
-
-#include
-#include "symbol.hh"
-
-using namespace std;
-
-/**
- * Tags used to define the type of a Node
- */
-enum { kIntNode, kDoubleNode, kSymNode, kPointerNode };
-
-
-/**
- * Class Node = (type x (int + double + Sym + void*))
- */
-class Node
-{
- int fType;
- union {
- int i;
- double f;
- Sym s;
- void* p;
- } fData;
-
- public:
- // constructeurs (assume size of field f is the biggest)
- Node (int x) : fType(kIntNode) { fData.f = 0; fData.i = x; }
- Node (double x) : fType(kDoubleNode) { fData.f = x; }
- Node (const char* name) : fType(kSymNode) { fData.f = 0; fData.s = symbol(name); }
- Node (const string& name) : fType(kSymNode) { fData.f = 0; fData.s = symbol(name); }
- Node (Sym x) : fType(kSymNode) { fData.f = 0; fData.s = x; }
- Node (void* x) : fType(kPointerNode) { fData.f = 0; fData.p = x; }
-
- Node (const Node& n) : fType(n.fType) { fData = n.fData; }
-
- // predicats
- bool operator == (const Node& n) const { return fType == n.fType && fData.f == n.fData.f; }
- bool operator != (const Node& n) const { return fType != n.fType || fData.f != n.fData.f; }
-
- // accessors
- int type() const { return fType; }
-
- int getInt() const { return fData.i; }
- double getDouble() const { return fData.f; }
- Sym getSym() const { return fData.s; }
- void* getPointer() const { return fData.p; }
-
- // conversions and promotion for numbers
- operator int() const { return (fType == kIntNode) ? fData.i : (fType == kDoubleNode) ? int(fData.f) : 0 ; }
- operator double() const { return (fType == kIntNode) ? double(fData.i) : (fType == kDoubleNode) ? fData.f : 0.0 ; }
-
- ostream& print (ostream& fout) const; ///< print a node on a stream
-};
-
-//printing
-inline ostream& operator << (ostream& s, const Node& n) { return n.print(s); }
-
-
-
-//-------------------------------------------------------------------------
-// Perdicates and pattern matching
-//-------------------------------------------------------------------------
-
-// integers
-inline bool isInt (const Node& n)
-{
- return (n.type() == kIntNode);
-}
-
-inline bool isInt (const Node& n, int* x)
-{
- if (n.type() == kIntNode) {
- *x = n.getInt();
- return true;
- } else {
- return false;
- }
-}
-
-
-// floats
-inline bool isDouble (const Node& n)
-{
- return (n.type() == kDoubleNode);
-}
-
-inline bool isDouble (const Node& n, double* x)
-{
- if (n.type() == kDoubleNode) {
- *x = n.getDouble();
- return true;
- } else {
- return false;
- }
-}
-
-
-
-inline bool isZero (const Node& n)
-{
- return (n.type() == kDoubleNode) && (n.getDouble() == 0.0)
- || (n.type() == kIntNode) && (n.getInt() == 0);
-}
-
-inline bool isGEZero (const Node& n)
-{
- return (n.type() == kDoubleNode) && (n.getDouble() >= 0.0)
- || (n.type() == kIntNode) && (n.getInt() >= 0);
-}
-
-inline bool isGTZero (const Node& n)
-{
- return (n.type() == kDoubleNode) && (n.getDouble() > 0.0)
- || (n.type() == kIntNode) && (n.getInt() > 0);
-}
-
-inline bool isOne (const Node& n)
-{
- return (n.type() == kDoubleNode) && (n.getDouble() == 1.0)
- || (n.type() == kIntNode) && (n.getInt() == 1);
-}
-
-inline bool isMinusOne (const Node& n)
-{
- return (n.type() == kDoubleNode) && (n.getDouble() == -1.0)
- || (n.type() == kIntNode) && (n.getInt() == -1);
-}
-
-
-// numbers in general
-inline bool isNum (const Node& n)
-{
- return isInt(n)||isDouble(n);
-}
-
-
-// symbols
-inline bool isSym (const Node& n)
-{
- return (n.type() == kSymNode);
-}
-
-inline bool isSym (const Node& n, Sym* x)
-{
- if (n.type() == kSymNode) {
- *x = n.getSym();
- return true;
- } else {
- return false;
- }
-}
-
-
-// void pointer
-inline bool isPointer (const Node& n)
-{
- return (n.type() == kPointerNode);
-}
-
-inline bool isPointer (const Node& n, void** x)
-{
- if (n.type() == kPointerNode) {
- *x = n.getPointer();
- return true;
- } else {
- return false;
- }
-}
-
-
-
-
-//-------------------------------------------------------------------------
-// Mathematical operations on nodes
-//-------------------------------------------------------------------------
-
-
-// arithmetic operations
-
-inline const Node addNode (const Node& x, const Node& y)
- { return (isDouble(x)||isDouble(y)) ? Node(double(x)+double(y)) : Node(int(x)+int(y)); }
-
-inline const Node subNode (const Node& x, const Node& y)
- { return (isDouble(x)||isDouble(y)) ? Node(double(x)-double(y)) : Node(int(x)-int(y)); }
-
-inline const Node mulNode (const Node& x, const Node& y)
- { return (isDouble(x)||isDouble(y)) ? Node(double(x)*double(y)) : Node(int(x)*int(y)); }
-
-inline const Node divNode (const Node& x, const Node& y)
- { return (isDouble(x)||isDouble(y)) ? Node(double(x)/double(y)) : Node(int(x)/int(y)); }
-
-inline const Node divExtendedNode (const Node& x, const Node& y)
- { return (isDouble(x)||isDouble(y)) ? Node(double(x)/double(y))
- : (double(int(x)/int(y))==double(x)/double(y)) ? Node(int(x)/int(y))
- : Node(double(x)/double(y)); }
-
-inline const Node remNode (const Node& x, const Node& y)
- { return Node(int(x)%int(y)); }
-
-// inverse functions
-
-inline const Node minusNode (const Node& x)
- { return subNode(0, x); }
-
-inline const Node inverseNode (const Node& x)
- { return divNode(1.0f, x); }
-
-
-// bit shifting operations
-
-inline const Node lshNode (const Node& x, const Node& y)
- { return Node(int(x)<>int(y)); }
-
-
-// boolean operations on bits
-
-inline const Node andNode (const Node& x, const Node& y)
- { return Node(int(x)&int(y)); }
-
-inline const Node orNode (const Node& x, const Node& y)
- { return Node(int(x)|int(y)); }
-
-inline const Node xorNode (const Node& x, const Node& y)
- { return Node(int(x)^int(y)); }
-
-
-// compare operations
-
-inline const Node gtNode (const Node& x, const Node& y)
- { return (isDouble(x)||isDouble(y)) ? Node(double(x)>double(y)) : Node(int(x)>int(y)); }
-
-inline const Node ltNode (const Node& x, const Node& y)
- { return (isDouble(x)||isDouble(y)) ? Node(double(x)=double(y)) : Node(int(x)>=int(y)); }
-
-inline const Node leNode (const Node& x, const Node& y)
- { return (isDouble(x)||isDouble(y)) ? Node(double(x)<=double(y)) : Node(int(x)<=int(y)); }
-#if 1
-inline const Node eqNode (const Node& x, const Node& y)
- { return (isDouble(x)||isDouble(y)) ? Node(double(x)==double(y)) : Node(int(x)==int(y)); }
-
-inline const Node neNode (const Node& x, const Node& y)
- { return (isDouble(x)||isDouble(y)) ? Node(double(x)!=double(y)) : Node(int(x)!=int(y)); }
-#endif
-
-
-
-#endif