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#include <iostream>
#include <vector>
#include <map>
#include <string>
#include <sstream>
#include <math.h>
#include "Operator.hpp"
#include "Expression.hpp"
#include "MaxStrategy.hpp"
#include "EquationSystem.hpp"
#include "Complete.hpp"
extern "C" {
#include "EquationSystemParser.h"
#include "EquationSystemLexer.h"
}
using namespace std;
template<typename T>
std::pair<Expression<T>*, Expression<T>*> treeToExpression(pANTLR3_BASE_TREE node, EquationSystem<T>& system, bool negative=false) {
ANTLR3_UINT32 num = node->getChildCount(node);
string name = (char*) node->getText(node)->chars;
// leaf node - variable
if (num == 0) {
if (negative) {
vector<Expression<T>*> firstArgs;
firstArgs.push_back(system.newExpression(system.newVariable(name + "_u")));
vector<Expression<T>*> secondArgs;
secondArgs.push_back(system.newExpression(system.newVariable(name + "_l")));
return std::pair<Expression<T>*, Expression<T>*>(
system.newExpression(new Negate<T>(),
firstArgs),
system.newExpression(new Negate<T>(),
secondArgs));
} else {
return std::pair<Expression<T>*, Expression<T>*>(
system.newExpression(system.newVariable(name + "_l")),
system.newExpression(system.newVariable(name + "_u")));
}
}
// a range itself
if (name == "RANGE") {
pANTLR3_BASE_TREE childNode;
string childName;
T firstValue, secondValue;
childNode = (pANTLR3_BASE_TREE) node->getChild(node, 0);
childName = (char*) childNode->getText(childNode)->chars;
stringstream firstStream(childName);
if (!(firstStream >> firstValue)) {
throw "Invalid number.";
}
string firstChildName = childName;
childNode = (pANTLR3_BASE_TREE) node->getChild(node, 1);
childName = (char*) childNode->getText(childNode)->chars;
stringstream secondStream(childName);
if (!(secondStream >> secondValue)) {
throw "Invalid number.";
}
string secondChildName = childName;
if (negative) {
T temp = firstValue;
string tempname = firstChildName;
firstValue = -secondValue;
firstChildName = "-" + secondChildName;
secondValue = -temp;
secondChildName = "-" + tempname;
}
return std::pair<Expression<T>*, Expression<T>*>(
system.newExpression(new Constant<T>(firstChildName, firstValue)),
system.newExpression(new Constant<T>(secondChildName, secondValue)));
}
if (name == "-") {
negative = true;
}
// subexpressions
std::vector<Expression<T>*> firstArgs;
std::vector<Expression<T>*> secondArgs;
pANTLR3_BASE_TREE childNode;
for (unsigned int i = 0; i < num; ++i) {
childNode = (pANTLR3_BASE_TREE) node->getChild(node, i);
std::pair<Expression<T>*, Expression<T>*> expr = treeToExpression(childNode, system, negative);
firstArgs.push_back(expr.first);
secondArgs.push_back(expr.second);
}
// other operators
if (name == "-") {
//if (firstArgs.size() == 1) { // secondArgs.size() == firstArgs.size()
return std::pair<Expression<T>*, Expression<T>*>(
firstArgs[0],
secondArgs[0]);
}
if (name == "max") {
return std::pair<Expression<T>*, Expression<T>*>(
system.newMaxExpression(firstArgs),
system.newMaxExpression(secondArgs));
} else {
// we need two because expressions delete their operator
// bit of a silly design by me
Operator<T>* firstOp = NULL;
Operator<T>* secondOp = NULL;
if (name == "min") {
firstOp = new Minimum<T>();
secondOp = new Minimum<T>();
} else if (name == "+") {
firstOp = new Addition<T>();
secondOp = new Addition<T>();
} else if (name == ";") {
firstOp = new Comma<T>();
secondOp = new Comma<T>();
} else if (name == "GUARD") {
firstOp = new Guard<T>();
secondOp = new Guard<T>();
} else {
std::cerr << "Unknown leaf node type: " << name << std::endl;
throw "Unknown leaf node type";
}
return std::pair<Expression<T>*, Expression<T>*>(
system.newExpression(firstOp, firstArgs),
system.newExpression(secondOp, secondArgs));
}
}
template<typename T>
void treeToSystem(pANTLR3_BASE_TREE node, EquationSystem<T>& system) {
ANTLR3_UINT32 num = node->getChildCount(node);
if (num % 2 == 1)
throw "Big problem here.";
pANTLR3_BASE_TREE varNode;
pANTLR3_BASE_TREE exprNode;
for (unsigned int i = 0; i < num; i += 2) {
varNode = (pANTLR3_BASE_TREE) node->getChild(node, i);
exprNode = (pANTLR3_BASE_TREE) node->getChild(node, i+1);
Variable<T>* var;
vector<Expression<T>*> args;
string varName = (char*) varNode->getText(varNode)->chars;
std::pair<Expression<T>*, Expression<T>*> exprs = treeToExpression(exprNode, system);
var = system.newVariable(varName + "_l");
args.push_back(system.newExpression(new Constant<T>("-inf", -infinity<T>())));
args.push_back(exprs.first);
system[*var] = system.newMaxExpression(args);
std::cout << var->op_name << " = " << *system[*var] << std::endl;
args.clear();
var = system.newVariable(varName + "_u");
args.push_back(system.newExpression(new Constant<T>("-inf", -infinity<T>())));
args.push_back(exprs.second);
system[*var] = system.newMaxExpression(args);
std::cout << var->op_name << " = " << *system[*var] << std::endl;
}
}
typedef Complete<int> ZBar;
int main (int argc, char* argv[]) {
FixpointAlgorithm<ZBar>* algorithm = NULL;
if (argc > 2 && !strcmp(argv[2], "naive")) {
algorithm = new NaiveFixpoint<ZBar>();
cout << "Naive fixpoint" << endl;
} else {
algorithm = new RecursiveFixpoint<ZBar>();
cout << "Recursive fixpoint" << endl;
}
pANTLR3_INPUT_STREAM input;
pEquationSystemLexer lex;
pANTLR3_COMMON_TOKEN_STREAM tokens;
pEquationSystemParser parser;
input = antlr3FileStreamNew((pANTLR3_UINT8)argv[1], ANTLR3_ENC_8BIT);
lex = EquationSystemLexerNew(input);
tokens = antlr3CommonTokenStreamSourceNew(ANTLR3_SIZE_HINT, TOKENSOURCE(lex));
parser = EquationSystemParserNew(tokens);
EquationSystemParser_equation_system_return ret = parser -> equation_system(parser);
EquationSystem<ZBar> system;
treeToSystem<ZBar>(ret.tree, system);
// DO MORE HERE
VariableAssignment<ZBar> rho = system.minFixpoint(*algorithm);
std::cout << rho << std::endl;
const std::vector<Variable<ZBar>*> vars = system.vars();
for (unsigned int i = 0, size = vars.size(); i < size; ++i) {
cout << vars[i]->name() << " = " << rho[*vars[i]] << endl;
}
parser -> free(parser);
tokens -> free(tokens);
lex -> free(lex);
input -> close(input);
return 0;
}
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