255 lines
8.2 KiB
C++
255 lines
8.2 KiB
C++
/*
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* Copyright (C) 2003-2008 Dynare Team
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*
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* This file is part of Dynare.
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*
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* Dynare is free software: you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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*
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* Dynare is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with Dynare. If not, see <http://www.gnu.org/licenses/>.
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*/
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#ifndef _DATATREE_HH
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#define _DATATREE_HH
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using namespace std;
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#include <string>
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#include <map>
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#include <list>
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#include <sstream>
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#include <iomanip>
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#include "SymbolTable.hh"
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#include "NumericalConstants.hh"
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#include "VariableTable.hh"
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#include "ExprNode.hh"
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#define CONSTANTS_PRECISION 16
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class DataTree
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{
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friend class ExprNode;
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friend class NumConstNode;
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friend class VariableNode;
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friend class UnaryOpNode;
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friend class BinaryOpNode;
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friend class TrinaryOpNode;
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friend class UnknownFunctionNode;
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protected:
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//! A reference to the symbol table
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SymbolTable &symbol_table;
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//! Reference to numerical constants table
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NumericalConstants &num_constants;
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typedef list<NodeID> node_list_type;
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//! The list of nodes
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node_list_type node_list;
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//! A counter for filling ExprNode's idx field
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int node_counter;
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//! Stores local variables value
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map<int, NodeID> local_variables_table;
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typedef map<int, NodeID> num_const_node_map_type;
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num_const_node_map_type num_const_node_map;
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//! Type (symbol_id, type, lag) used as key
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typedef map<pair<pair<int, Type>, int>, NodeID> variable_node_map_type;
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variable_node_map_type variable_node_map;
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typedef map<pair<NodeID, int>, NodeID> unary_op_node_map_type;
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unary_op_node_map_type unary_op_node_map;
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typedef map<pair<pair<NodeID, NodeID>, int>, NodeID> binary_op_node_map_type;
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binary_op_node_map_type binary_op_node_map;
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typedef map<pair<pair<pair<NodeID, NodeID>,NodeID>, int>, NodeID> trinary_op_node_map_type;
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trinary_op_node_map_type trinary_op_node_map;
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inline NodeID AddPossiblyNegativeConstant(double val);
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inline NodeID AddUnaryOp(UnaryOpcode op_code, NodeID arg);
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inline NodeID AddBinaryOp(NodeID arg1, BinaryOpcode op_code, NodeID arg2);
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inline NodeID AddTrinaryOp(NodeID arg1, TrinaryOpcode op_code, NodeID arg2, NodeID arg3);
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public:
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DataTree(SymbolTable &symbol_table_arg, NumericalConstants &num_constants_arg);
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virtual ~DataTree();
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//! The variable table
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VariableTable variable_table;
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NodeID Zero, One, MinusOne;
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//! Raised when a local parameter is declared twice
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class LocalParameterException
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{
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public:
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string name;
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LocalParameterException(const string &name_arg) : name(name_arg) {}
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};
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NodeID AddNumConstant(const string &value);
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NodeID AddVariable(const string &name, int lag = 0);
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//! Adds "arg1+arg2" to model tree
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NodeID AddPlus(NodeID iArg1, NodeID iArg2);
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//! Adds "arg1-arg2" to model tree
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NodeID AddMinus(NodeID iArg1, NodeID iArg2);
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//! Adds "-arg" to model tree
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NodeID AddUMinus(NodeID iArg1);
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//! Adds "arg1*arg2" to model tree
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NodeID AddTimes(NodeID iArg1, NodeID iArg2);
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//! Adds "arg1/arg2" to model tree
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NodeID AddDivide(NodeID iArg1, NodeID iArg2);
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//! Adds "arg1<arg2" to model tree
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NodeID AddLess(NodeID iArg1, NodeID iArg2);
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//! Adds "arg1>arg2" to model tree
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NodeID AddGreater(NodeID iArg1, NodeID iArg2);
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//! Adds "arg1<=arg2" to model tree
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NodeID AddLessEqual(NodeID iArg1, NodeID iArg2);
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//! Adds "arg1>=arg2" to model tree
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NodeID AddGreaterEqual(NodeID iArg1, NodeID iArg2);
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//! Adds "arg1==arg2" to model tree
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NodeID AddEqualEqual(NodeID iArg1, NodeID iArg2);
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//! Adds "arg1!=arg2" to model tree
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NodeID AddDifferent(NodeID iArg1, NodeID iArg2);
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//! Adds "arg1^arg2" to model tree
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NodeID AddPower(NodeID iArg1, NodeID iArg2);
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//! Adds "exp(arg)" to model tree
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NodeID AddExp(NodeID iArg1);
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//! Adds "log(arg)" to model tree
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NodeID AddLog(NodeID iArg1);
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//! Adds "log10(arg)" to model tree
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NodeID AddLog10(NodeID iArg1);
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//! Adds "cos(arg)" to model tree
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NodeID AddCos(NodeID iArg1);
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//! Adds "sin(arg)" to model tree
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NodeID AddSin(NodeID iArg1);
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//! Adds "tan(arg)" to model tree
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NodeID AddTan(NodeID iArg1);
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//! Adds "acos(arg)" to model tree
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NodeID AddACos(NodeID iArg1);
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//! Adds "asin(arg)" to model tree
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NodeID AddASin(NodeID iArg1);
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//! Adds "atan(arg)" to model tree
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NodeID AddATan(NodeID iArg1);
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//! Adds "cosh(arg)" to model tree
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NodeID AddCosH(NodeID iArg1);
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//! Adds "sinh(arg)" to model tree
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NodeID AddSinH(NodeID iArg1);
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//! Adds "tanh(arg)" to model tree
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NodeID AddTanH(NodeID iArg1);
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//! Adds "acosh(arg)" to model tree
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NodeID AddACosH(NodeID iArg1);
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//! Adds "asinh(arg)" to model tree
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NodeID AddASinH(NodeID iArg1);
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//! Adds "atanh(args)" to model tree
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NodeID AddATanH(NodeID iArg1);
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//! Adds "sqrt(arg)" to model tree
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NodeID AddSqRt(NodeID iArg1);
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//! Adds "max(arg1,arg2)" to model tree
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NodeID AddMaX(NodeID iArg1, NodeID iArg2);
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//! Adds "min(arg1,arg2)" to model tree
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NodeID AddMin(NodeID iArg1, NodeID iArg2);
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//! Adds "normcdf(arg1,arg2,arg3)" to model tree
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NodeID AddNormcdf(NodeID iArg1, NodeID iArg2, NodeID iArg3);
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//! Adds "arg1=arg2" to model tree
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NodeID AddEqual(NodeID iArg1, NodeID iArg2);
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void AddLocalParameter(const string &name, NodeID value) throw (LocalParameterException);
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//! Adds an unknown function node
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/*! \todo Use a map to share identical nodes */
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NodeID AddUnknownFunction(const string &function_name, const vector<NodeID> &arguments);
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};
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inline NodeID
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DataTree::AddPossiblyNegativeConstant(double v)
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{
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bool neg = false;
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if (v < 0)
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{
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v = -v;
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neg = true;
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}
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ostringstream ost;
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ost << setprecision(CONSTANTS_PRECISION) << v;
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NodeID cnode = AddNumConstant(ost.str());
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if (neg)
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return AddUMinus(cnode);
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else
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return cnode;
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}
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inline NodeID
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DataTree::AddUnaryOp(UnaryOpcode op_code, NodeID arg)
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{
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// If the node already exists in tree, share it
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unary_op_node_map_type::iterator it = unary_op_node_map.find(make_pair(arg, op_code));
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if (it != unary_op_node_map.end())
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return it->second;
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// Try to reduce to a constant
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// Case where arg is a constant and op_code == oUminus (i.e. we're adding a negative constant) is skipped
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NumConstNode *carg = dynamic_cast<NumConstNode *>(arg);
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if (op_code != oUminus || carg == NULL)
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{
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try
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{
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double argval = arg->eval(eval_context_type());
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double val = UnaryOpNode::eval_opcode(op_code, argval);
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return AddPossiblyNegativeConstant(val);
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}
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catch(ExprNode::EvalException &e)
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{
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}
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}
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return new UnaryOpNode(*this, op_code, arg);
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}
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inline NodeID
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DataTree::AddBinaryOp(NodeID arg1, BinaryOpcode op_code, NodeID arg2)
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{
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binary_op_node_map_type::iterator it = binary_op_node_map.find(make_pair(make_pair(arg1, arg2), op_code));
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if (it != binary_op_node_map.end())
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return it->second;
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// Try to reduce to a constant
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try
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{
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double argval1 = arg1->eval(eval_context_type());
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double argval2 = arg2->eval(eval_context_type());
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double val = BinaryOpNode::eval_opcode(argval1, op_code, argval2);
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return AddPossiblyNegativeConstant(val);
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}
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catch(ExprNode::EvalException &e)
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{
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}
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return new BinaryOpNode(*this, arg1, op_code, arg2);
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}
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inline NodeID
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DataTree::AddTrinaryOp(NodeID arg1, TrinaryOpcode op_code, NodeID arg2, NodeID arg3)
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{
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trinary_op_node_map_type::iterator it = trinary_op_node_map.find(make_pair(make_pair(make_pair(arg1, arg2), arg3), op_code));
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if (it != trinary_op_node_map.end())
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return it->second;
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// Try to reduce to a constant
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try
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{
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double argval1 = arg1->eval(eval_context_type());
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double argval2 = arg2->eval(eval_context_type());
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double argval3 = arg3->eval(eval_context_type());
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double val = TrinaryOpNode::eval_opcode(argval1, op_code, argval2, argval3);
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return AddPossiblyNegativeConstant(val);
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}
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catch(ExprNode::EvalException &e)
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{
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}
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return new TrinaryOpNode(*this, arg1, op_code, arg2, arg3);
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}
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#endif
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