//=================================================================================
/*virtual*/ Node::ValueStringError BoundedPointListNode::SetValueFromString( const std::string& valueString )
{
VarMap varMap;
if( !ConvertValueStringToVarMap( valueString, varMap ) )
return VSE_SYNTAX;
Bounds trialBounds = bounds;
if( varMap.end() != varMap.find( "xMin" ) )
trialBounds.min.set_e1( varMap[ "xMin" ] );
if( varMap.end() != varMap.find( "xMax" ) )
trialBounds.max.set_e1( varMap[ "xMax" ] );
if( varMap.end() != varMap.find( "yMin" ) )
trialBounds.min.set_e2( varMap[ "yMin" ] );
if( varMap.end() != varMap.find( "yMax" ) )
trialBounds.max.set_e2( varMap[ "yMax" ] );
if( trialBounds == bounds )
return VSE_NO_CHANGE;
if( !trialBounds.IsValid() )
return VSE_INVALID;
if( !SetBounds( trialBounds ) )
return VSE_INVALID;
return VSE_NONE;
}
__pu_value *reg_var(Pu *L, const PuString &varname)
{
__pu_value *got = NULL;
VarMap *varmap = L->varstack.top();
VarMap::Bucket_T *it = varmap->find(varname);
if (it != 0)
{
got = &(it->value);
}
else
{
VarMap *varmap = L->varstack.bottom();
VarMap::Bucket_T *it = varmap->find(varname);
if (it != 0)
{
got = &(it->value);
}
}
if (got == NULL)
{
VarMap *varmap = L->varstack.top();
VarMap::Bucket_T *ret = varmap->insert(varname, __pu_value(L));
got = &(ret->value);
}
return got;
}
//=================================================================================
/*virtual*/ Node::ValueStringError BoundedIntegerNode::SetValueFromString( const std::string& valueString )
{
VarMap varMap;
if( !ConvertValueStringToVarMap( valueString, varMap ) )
return VSE_SYNTAX;
Data trialData = data;
if( varMap.end() != varMap.find( "min" ) )
trialData.min = int( varMap[ "min" ] );
if( varMap.end() != varMap.find( "max" ) )
trialData.max = int( varMap[ "max" ] );
if( varMap.end() != varMap.find( "value" ) )
trialData.value = int( varMap[ "value" ] );
if( varMap.end() != varMap.find( "multiple" ) )
trialData.multiple = int( varMap[ "multiple" ] );
if( !trialData.IsValid() )
return VSE_INVALID;
if( trialData == data )
return VSE_NO_CHANGE;
data = trialData;
return VSE_NONE;
}
void get_var(Pu *L, const PuString &name, __pu_value *&v)
{
VarMap *pvarmap = L->varstack.top();
VarMap::Bucket_T *ik = pvarmap->find(name);
if (ik != 0)
{
v = &ik->value;
return;
}
pvarmap = L->varstack.bottom();
ik = pvarmap->find(name);
if (ik != 0)
{
v = &ik->value;
return;
}
if (L->upvalue && L->upvalue != pvarmap)
{
pvarmap = L->upvalue;
ik = pvarmap->find(name);
if (ik != 0)
{
v = &ik->value;
return;
}
}
MAKE_TEMP_VALUE(v);
error(L,7);
}
bool generateOutTuple(std::vector<std::string> &s, lindaTuple &newTuple,
VarMap &localVars,
FunctSet &userDefinedFuncs, LoopMap &loopSymbols, int threadNum) {
for (std::vector<std::string>::iterator it = s.begin(); it != s.end(); it++) {
if (isExp(*it)) {
int result = evaluateExp(*it, loopSymbols, userDefinedFuncs, localVars, threadNum);
if (result != -1) {
newTuple.push_back(new intObj(result));
} else {
// wait and block
}
} else if (isVarPattern(*it)) {
if (localVars.find(*it) != localVars.end()) {
newTuple.push_back(localVars[*it]);
} else {
std::cout<< "Can not find local var " << *it << std::endl;
return false;
}
}
else if (isString(*it))
newTuple.push_back(new stringObj(*it));
else if (isInt(*it))
newTuple.push_back(new intObj(atoi(it->c_str())));
else if (isDouble(*it))
newTuple.push_back(new doubleObj(atof(it->c_str())));
else {
std::cout << "Parse input error: " << *it << std::endl;
exit(EXIT_FAILURE);
}
}
return true;
}
AstVarScope* createVarSc(AstVarScope* oldvarscp, string name, int width/*0==fromoldvar*/) {
// Because we've already scoped it, we may need to add both the AstVar and the AstVarScope
if (!oldvarscp->scopep()) oldvarscp->v3fatalSrc("Var unscoped");
AstVar* varp;
AstNodeModule* addmodp = oldvarscp->scopep()->modp();
// We need a new AstVar, but only one for all scopes, to match the new AstVarScope
VarMap::iterator iter = m_modVarMap.find(make_pair(addmodp,name));
if (iter != m_modVarMap.end()) {
// Created module's AstVar earlier under some other scope
varp = iter->second;
} else {
if (width==0) {
varp = new AstVar (oldvarscp->fileline(), AstVarType::BLOCKTEMP, name, oldvarscp->varp());
varp->widthSignedFrom(oldvarscp);
} else { // Used for vset and dimensions, so can zero init
varp = new AstVar (oldvarscp->fileline(), AstVarType::BLOCKTEMP, name, AstBitPacked(), width);
}
addmodp->addStmtp(varp);
m_modVarMap.insert(make_pair(make_pair(addmodp, name), varp));
}
AstVarScope* varscp = new AstVarScope (oldvarscp->fileline(), oldvarscp->scopep(), varp);
oldvarscp->scopep()->addVarp(varscp);
return varscp;
}
static __pu_value *get_varref(Pu *L, PuString &name)
{
VarMap *pvarmap = L->varstack.top();
VarMap::Bucket_T *ik = pvarmap->find(name);
if (ik != 0)
{
return &(ik->value);
}
pvarmap = L->varstack.bottom();
ik = pvarmap->find(name);
if (ik != 0)
{
return &(ik->value);
}
return NULL;
}
//=================================================================================
/*virtual*/ Node::ValueStringError BivectorE3GANode::SetValueFromString( const std::string& valueString )
{
VarMap varMap;
if( !ConvertValueStringToVarMap( valueString, varMap ) )
return VSE_SYNTAX;
// Get the new bivector.
c3ga::bivectorE3GA trialBivector = *bivector;
if( varMap.end() != varMap.find( "yz" ) )
trialBivector.set_e2_e3( varMap[ "yz" ] );
if( varMap.end() != varMap.find( "zx" ) )
trialBivector.set_e3_e1( varMap[ "zx" ] );
if( varMap.end() != varMap.find( "xy" ) )
trialBivector.set_e1_e2( varMap[ "xy" ] );
// Validate the new bivector.
if( c3ga::norm( trialBivector ) > maxArea )
return VSE_INVALID;
// Get the new max-area.
double trialMaxArea = maxArea;
if( varMap.end() != varMap.find( "maxArea" ) )
trialMaxArea = varMap[ "maxArea" ];
// Validate the new max-area.
if( trialMaxArea <= 0.0 )
return VSE_INVALID;
// Reject if no change occurred.
if( c3ga::equals( trialBivector, *bivector, 0.0 ) && trialMaxArea == maxArea )
return VSE_NO_CHANGE;
// Accept the new values.
*bivector = trialBivector;
maxArea = trialMaxArea;
return VSE_NONE;
}
virtual void visit(AstVarRef* nodep, AstNUser*) {
if (nodep->lvalue() && !nodep->user2()) {
nodep->user2(true); // mark this ref as visited
AstVar* key = nodep->varp();
VarMap::iterator it = m_lhsmapp->find(key);
if (it == m_lhsmapp->end()) {
// this key does not exist yet, so create it
RefVec* refs = new RefVec();
refs->push_back(nodep);
m_lhsmapp->insert(pair<AstVar*, RefVec*>(key, refs));
} else {
(*it).second->push_back(nodep);
}
nodep->user3p(m_sel); // attach the sel to this varref
}
nodep->iterateChildren(*this);
}
int evaluateExp(std::string expr, LoopMap &loopSymbols, FunctSet &userDefinedFuncs, VarMap &localVars, int threadNum) {
int result = -1;
std::string expName = (expr).substr(0, (expr).find("("));
std::string expNameT = expName + std::to_string(static_cast<long long int>(threadNum));
size_t start = (expr).find("(") + 1;
size_t end = (expr).find_last_of(")");
std::string params = (expr).substr(start, end - start);
if (userDefinedFuncs.find(expNameT) != userDefinedFuncs.end()) {
// Case 1: The expression is a user defined function
if (!isInt(params)) {
if (loopSymbols.find(params) != loopSymbols.end()) {
params = std::to_string(static_cast<long long int>(loopSymbols[params]));
} else if (localVars.find(params) != localVars.end()) {
intObj *intO = dynamic_cast<intObj *>(localVars[params]);
params = std::to_string(static_cast<long long int>(intO->get()));
}
}
int status = system(("./" + expNameT + " " + params).c_str());
result = WEXITSTATUS(status);
} else {
// Case 2: The expression is inp or rdp
//std::cout << "condition is " << expr << std::endl;
LINDA_TYPE type = findFunctionType(expr);
//std::cout << "expr type is " << type << std::endl;
std::vector<std::string> elems;
if (type == INP) {
getInOutElems(expr, elems);
return inp(elems, localVars, userDefinedFuncs, loopSymbols, threadNum);
} else if (type == RDP) {
getInOutElems(expr, elems);
return rdp(elems, localVars, userDefinedFuncs, loopSymbols, threadNum);
} else {
std::cout << "Couldn't evaluate expression " << expr << std::endl;
std::cout << "No boolean return type or couldn't find expr name" << std::endl;
exit(EXIT_FAILURE);
}
}
return result;
}
//=================================================================================
/*virtual*/ Node::ValueStringError ConeNode::SetValueFromString( const std::string& valueString )
{
ValueStringError vse = VectorE3GANode::SetValueFromString( valueString );
if( !( vse == VSE_NONE || vse == VSE_NO_CHANGE ) )
return vse;
VarMap varMap;
if( !ConvertValueStringToVarMap( valueString, varMap ) )
return VSE_SYNTAX;
double trialConeAngle = coneAngle;
if( varMap.end() != varMap.find( "coneAngle" ) )
trialConeAngle = varMap[ "coneAngle" ];
if( trialConeAngle < 0.0 || trialConeAngle > M_PI )
return VSE_INVALID;
if( trialConeAngle == coneAngle && vse == VSE_NO_CHANGE )
return VSE_NO_CHANGE;
coneAngle = trialConeAngle;
return VSE_NONE;
}
