bool isMethodCall(SgFunctionCallExp *functionCall, bool &isDotExp)
{
ROSE_ASSERT(functionCall != NULL);
SgExpression *expression = functionCall->get_function();
ROSE_ASSERT(expression != NULL);
bool isMethod = false;
isDotExp = false;
switch(expression->variantT()) {
case V_SgDotExp:
{
isMethod = true;
SgDotExp *dotExp = isSgDotExp(expression);
ROSE_ASSERT(dotExp != NULL);
SgExpression *lhs = dotExp->get_lhs_operand();
ROSE_ASSERT(lhs != NULL);
SgPointerDerefExp *pointerDerefExp =
isSgPointerDerefExp(lhs);
if ( pointerDerefExp != NULL ) {
;
} else {
isDotExp = true;
}
break;
}
case V_SgMemberFunctionRefExp:
case V_SgArrowExp:
{
isMethod = true;
break;
}
case V_SgFunctionRefExp:
case V_SgPointerDerefExp:
{
isMethod = false;
break;
}
default:
{
std::cerr << "Was not expecting an " << expression->sage_class_name() << std::endl;
std::cerr << "in a function call." << std::endl;
ROSE_ABORT();
}
}
return isMethod;
}
// Do finite differencing on one expression within one context. The expression
// must be defined and valid within the entire body of root. The rewrite rules
// are used to simplify expressions. When a variable var is updated from
// old_value to new_value, an expression of the form (var, (old_value,
// new_value)) is created and rewritten. The rewrite rules may either produce
// an arbitrary expression (which will be used as-is) or one of the form (var,
// (something, value)) (which will be changed to (var = value)).
void doFiniteDifferencingOne(SgExpression* e,
SgBasicBlock* root,
RewriteRule* rules)
{
SgStatementPtrList& root_stmts = root->get_statements();
SgStatementPtrList::iterator i;
for (i = root_stmts.begin(); i != root_stmts.end(); ++i)
{
if (expressionComputedIn(e, *i))
break;
}
if (i == root_stmts.end())
return; // Expression is not used within root, so quit
vector<SgVariableSymbol*> used_symbols = SageInterface::getSymbolsUsedInExpression(e);
SgName cachename = "cache_fd__"; cachename << ++SageInterface::gensym_counter;
SgVariableDeclaration* cachedecl = new SgVariableDeclaration(SgNULL_FILE, cachename, e->get_type(),0 /* new SgAssignInitializer(SgNULL_FILE, e) */);
SgInitializedName* cachevar = cachedecl->get_variables().back();
ROSE_ASSERT (cachevar);
root->get_statements().insert(i, cachedecl);
cachedecl->set_parent(root);
cachedecl->set_definingDeclaration(cachedecl);
cachevar->set_scope(root);
SgVariableSymbol* sym = new SgVariableSymbol(cachevar);
root->insert_symbol(cachename, sym);
SgVarRefExp* vr = new SgVarRefExp(SgNULL_FILE, sym);
vr->set_endOfConstruct(SgNULL_FILE);
replaceCopiesOfExpression(e, vr, root);
vector<SgExpression*> modifications_to_used_symbols;
FdFindModifyingStatementsVisitor(used_symbols, modifications_to_used_symbols).go(root);
cachedecl->addToAttachedPreprocessingInfo(
new PreprocessingInfo(PreprocessingInfo::CplusplusStyleComment,(string("// Finite differencing: ") +
cachename.str() + " is a cache of " +
e->unparseToString()).c_str(),"Compiler-Generated in Finite Differencing",0, 0, 0, PreprocessingInfo::before));
if (modifications_to_used_symbols.size() == 0)
{
SgInitializer* cacheinit = new SgAssignInitializer(SgNULL_FILE, e);
e->set_parent(cacheinit);
cachevar->set_initializer(cacheinit);
cacheinit->set_parent(cachevar);
}
else
{
for (unsigned int i = 0; i < modifications_to_used_symbols.size(); ++i)
{
SgExpression* modstmt = modifications_to_used_symbols[i];
#ifdef FD_DEBUG
cout << "Updating cache after " << modstmt->unparseToString() << endl;
#endif
SgExpression* updateCache = 0;
SgVarRefExp* varref = new SgVarRefExp(SgNULL_FILE, sym);
varref->set_endOfConstruct(SgNULL_FILE);
SgTreeCopy tc;
SgExpression* eCopy = isSgExpression(e->copy(tc));
switch (modstmt->variantT())
{
case V_SgAssignOp:
{
SgAssignOp* assignment = isSgAssignOp(modstmt);
assert (assignment);
SgExpression* lhs = assignment->get_lhs_operand();
SgExpression* rhs = assignment->get_rhs_operand();
replaceCopiesOfExpression(lhs, rhs, eCopy);
}
break;
case V_SgPlusAssignOp:
case V_SgMinusAssignOp:
case V_SgAndAssignOp:
case V_SgIorAssignOp:
case V_SgMultAssignOp:
case V_SgDivAssignOp:
case V_SgModAssignOp:
case V_SgXorAssignOp:
case V_SgLshiftAssignOp:
case V_SgRshiftAssignOp:
{
SgBinaryOp* assignment = isSgBinaryOp(modstmt);
assert (assignment);
SgExpression* lhs = assignment->get_lhs_operand();
SgExpression* rhs = assignment->get_rhs_operand();
SgTreeCopy tc;
SgExpression* rhsCopy = isSgExpression(rhs->copy(tc));
SgExpression* newval = 0;
switch (modstmt->variantT())
{
#define DO_OP(op, nonassignment) \
case V_##op: { \
newval = new nonassignment(SgNULL_FILE, lhs, rhsCopy); \
newval->set_endOfConstruct(SgNULL_FILE); \
} \
break
DO_OP(SgPlusAssignOp, SgAddOp);
DO_OP(SgMinusAssignOp, SgSubtractOp);
DO_OP(SgAndAssignOp, SgBitAndOp);
DO_OP(SgIorAssignOp, SgBitOrOp);
DO_OP(SgMultAssignOp, SgMultiplyOp);
DO_OP(SgDivAssignOp, SgDivideOp);
DO_OP(SgModAssignOp, SgModOp);
DO_OP(SgXorAssignOp, SgBitXorOp);
DO_OP(SgLshiftAssignOp, SgLshiftOp);
DO_OP(SgRshiftAssignOp, SgRshiftOp);
#undef DO_OP
default: break;
}
assert (newval);
replaceCopiesOfExpression(lhs, newval, eCopy);
}
break;
case V_SgPlusPlusOp:
{
SgExpression* lhs = isSgPlusPlusOp(modstmt)->get_operand();
SgIntVal* one = new SgIntVal(SgNULL_FILE, 1);
one->set_endOfConstruct(SgNULL_FILE);
SgAddOp* add = new SgAddOp(SgNULL_FILE, lhs, one);
add->set_endOfConstruct(SgNULL_FILE);
lhs->set_parent(add);
one->set_parent(add);
replaceCopiesOfExpression(lhs,add,eCopy);
}
break;
case V_SgMinusMinusOp:
{
SgExpression* lhs = isSgMinusMinusOp(modstmt)->get_operand();
SgIntVal* one = new SgIntVal(SgNULL_FILE, 1);
one->set_endOfConstruct(SgNULL_FILE);
SgSubtractOp* sub = new SgSubtractOp(SgNULL_FILE, lhs, one);
sub->set_endOfConstruct(SgNULL_FILE);
lhs->set_parent(sub);
one->set_parent(sub);
replaceCopiesOfExpression(lhs,sub,eCopy);
}
break;
default:
cerr << modstmt->sage_class_name() << endl;
assert (false);
break;
}
#ifdef FD_DEBUG
cout << "e is " << e->unparseToString() << endl;
cout << "eCopy is " << eCopy->unparseToString() << endl;
#endif
updateCache = doFdVariableUpdate(rules, varref, e, eCopy);
#ifdef FD_DEBUG
cout << "updateCache is " << updateCache->unparseToString() << endl;
#endif
if (updateCache)
{
ROSE_ASSERT(modstmt != NULL);
SgNode* ifp = modstmt->get_parent();
SgCommaOpExp* comma = new SgCommaOpExp(SgNULL_FILE, updateCache, modstmt);
modstmt->set_parent(comma);
updateCache->set_parent(comma);
if (ifp == NULL)
{
printf ("modstmt->get_parent() == NULL modstmt = %p = %s \n",modstmt,modstmt->class_name().c_str());
modstmt->get_startOfConstruct()->display("modstmt->get_parent() == NULL: debug");
}
ROSE_ASSERT(ifp != NULL);
#ifdef FD_DEBUG
cout << "New expression is " << comma->unparseToString() << endl;
cout << "IFP is " << ifp->sage_class_name() << ": " << ifp->unparseToString() << endl;
#endif
if (isSgExpression(ifp))
{
isSgExpression(ifp)->replace_expression(modstmt, comma);
comma->set_parent(ifp);
}
else
{
// DQ (12/16/2006): Need to handle cases that are not SgExpression (now that SgExpressionRoot is not used!)
// cerr << ifp->sage_class_name() << endl;
// assert (!"Bad parent type for inserting comma expression");
SgStatement* statement = isSgStatement(ifp);
if (statement != NULL)
{
#ifdef FD_DEBUG
printf ("Before statement->replace_expression(): statement = %p = %s modstmt = %p = %s \n",statement,statement->class_name().c_str(),modstmt,modstmt->class_name().c_str());
SgExprStatement* expresionStatement = isSgExprStatement(statement);
if (expresionStatement != NULL)
{
SgExpression* expression = expresionStatement->get_expression();
printf ("expressionStatement expression = %p = %s \n",expression,expression->class_name().c_str());
}
#endif
statement->replace_expression(modstmt, comma);
comma->set_parent(statement);
}
else
{
ROSE_ASSERT(ifp != NULL);
printf ("Error: parent is neither a SgExpression nor a SgStatement ifp = %p = %s \n",ifp,ifp->class_name().c_str());
ROSE_ASSERT(false);
}
}
#ifdef FD_DEBUG
cout << "IFP is now " << ifp->unparseToString() << endl;
#endif
}
}
}
}
