AstNodePtr SymbolicFunction :: CodeGen( AstInterface &_fa) const
{
AstNodeList l;
for (const_iterator i = args.begin(); i != args.end(); ++i) {
SymbolicVal cur = *i;
AstNodePtr curast = cur.CodeGen(_fa);
l.push_back(curast.get_ptr());
}
if (t == AstInterface::OP_NONE) {
return _fa.CreateFunctionCall( op, l.begin(), l.end());
}
else if (t == AstInterface::OP_ARRAY_ACCESS) {
AstNodeList::const_iterator b = l.begin();
AstNodePtr arr = *b;
for (++b; b != l.end(); ++b) {
arr = _fa.CreateArrayAccess(arr, *b);
}
return arr;
}
else if (t == AstInterface::OP_ASSIGN && l.size() == 2) {
return _fa.CreateAssignment(l.front(), l.back());
}
else if (l.size() == 2)
return _fa.CreateBinaryOP( t, l.front(), l.back());
else {
assert(l.size() == 1);
return _fa.CreateUnaryOP( t, l.front());
}
}
std::string PtrAnal::
Get_VarName(AstInterface& fa, const AstNodePtr& rhs)
{
NameMap::const_iterator p = namemap.find(rhs.get_ptr());
if (p != namemap.end()) {
VarRef cur = (*p).second;
return cur.name;
}
std::string readname, res;
AstNodePtr readscope;
AstNodePtr lhs1, rhs1;
bool readlhs;
if (fa.IsVarRef(rhs, 0, &readname, &readscope)) {
assert(readname != "");
res = Local_GetVarName(fa, readscope, readname);
}
else if (fa.IsConstant(rhs,&res,&readname)) {
if (res == "string") {
readname = Local_GetVarName(fa, rhs);
Stmt stmt = allocate_x(readname);
stmts_pushback(stmts,stmt);
res= readname;
}
else
res = Local_GetConstName(fa, readname);
}
else if (fa.IsUnaryOp(rhs) || fa.IsBinaryOp(rhs) || fa.IsFunctionCall(rhs)) {
readname = Local_GetVarName(fa, rhs);
ProcessExpression(fa, readname, rhs);
res = readname;
}
else if (fa.IsAssignment(rhs,&lhs1,&rhs1,&readlhs)) {
ProcessAssign(fa, lhs1, rhs1, readlhs);
VarRef cur = namemap[lhs1.get_ptr()];
if (cur.name == "") {
std::cerr << "does not have map for " << AstToString(lhs1) << " in " << AstToString(rhs) << "\n";
assert(0);
}
namemap[rhs.get_ptr()] = cur;
res = cur.name;
}
else {
std::cerr << "No name found for " << AstToString(rhs) << "\n";
assert(false);
}
if (res == "") {
std::cerr << "No name found for " << AstToString(rhs) << "\n";
assert(false);
}
return res;
}
AstNodePtr SymbolicSelect:: CodeGen( AstInterface &fa ) const
{
int size = 0;
AstInterface::AstNodeList list;
for (OpdIterator iter = GetOpdIterator(); !iter.ReachEnd(); iter.Advance()) {
AstNodePtr p = Term2Val(iter.Current()).CodeGen(fa);
list.push_back(p.get_ptr());
++size;
}
assert( size > 1);
std::string func = (opt< 0)? "min" : "max";
return fa.CreateFunctionCall(func, list.begin(), list.end());
}
AstNodePtr LoopTransformInterface::
CreateArrayAccess(const std::string& arrname,
const std::vector<SymbolicVal>& arrindex)
{
assert(fa != 0);
AstNodePtr res = fa->CreateVarRef(arrname);
AstNodeList args;
for (std::vector<SymbolicVal>::const_iterator indexp = arrindex.begin();
indexp != arrindex.end(); ++indexp) {
AstNodePtr cur = (*indexp).CodeGen(*fa);
args.push_back(cur.get_ptr());
}
return CreateArrayAccess(res,args);
}
void PtrAnal::
ProcessMod(AstInterface& fa, const std::string& readname,
std::list<std::string>& fields, const AstNodePtr& mod)
{
std::string modname;
AstNodePtr p = mod;
if (fa.IsVarRef(mod) || fa.IsArrayAccess(mod, &p)) {
modname = Get_VarName(fa,p);
Stmt stmt_last = fields.size()?
field_x_eq_y(modname, fields, readname)
: x_eq_y(modname, readname);
stmts_pushback(stmts,stmt_last);
namemap[mod.get_ptr()] = VarRef(stmt_last,modname);
}
else {
AstInterface::OperatorEnum op;
AstNodePtr p2;
if (fa.IsUnaryOp(mod,&op, &p) && op == AstInterface::UOP_DEREF) {
std::string lhs = Get_VarName(fa,p);
Stmt stmt_last = deref_x_eq_y(lhs, fields, readname);
stmts_pushback(stmts,stmt_last);
namemap[p.get_ptr()] = VarRef(stmt_last,lhs);
namemap[mod.get_ptr()] = VarRef(stmt_last, readname);
}
else if (fa.IsBinaryOp(mod,&op,&p,&p2)) {
if (op==AstInterface::BOP_DOT_ACCESS) {
std::string field = Local_GetFieldName(fa, p2);
fields.push_front(field);
ProcessMod(fa, readname, fields, p);
Stmt stmt_last = stmts_back(stmts);
namemap[mod.get_ptr()] = VarRef(stmt_last, readname);
}
else if (op==AstInterface::BOP_ARROW_ACCESS) {
std::string lhs = Get_VarName(fa, p), field = Local_GetFieldName(fa, p2);
fields.push_front(field);
Stmt stmt_last = deref_x_eq_y(lhs,fields,readname);
stmts_pushback(stmts,stmt_last);
namemap[p.get_ptr()] = VarRef(stmt_last,lhs);
namemap[mod.get_ptr()] = VarRef(stmt_last, readname);
}
else {
std::cerr << "can't handle " << AstToString(mod) << "\n";
assert(false); // other operations? to be handled later
}
}
else if (fa.IsFunctionCall(mod)) {
std::string lhs = Get_VarName(fa, mod);
Stmt stmt_last = deref_x_eq_y(lhs, fields, readname);
stmts_pushback(stmts,stmt_last);
namemap[mod.get_ptr()] = VarRef(stmt_last,lhs);
}
else {
std::cerr << "cannot process " << AstToString(mod) << "\n";
assert(false); // other operations? to be handled later
}
}
}
PtrAnal::VarRef PtrAnal::translate_exp(const AstNodePtr& exp) const
{
VarRef cur;
NameMap::const_iterator p = namemap.find(exp.get_ptr());
if (p != namemap.end()) {
cur = (*p).second;
}
return cur;
}
void HasValueMap::
copy_value( AstInterfaceImpl& fa, const AstNodePtr& orig, const AstNodePtr& copy)
{
HasValueDescriptor desc;
if (has_value( orig, &desc)) {
set_val(copy, desc);
if (DebugValuePropogate()) {
std::cerr << "copying ast: " << AstInterface::AstToString(copy) << copy.get_ptr()
<< " to have value " << desc.toString() << std::endl;
}
}
}
PtrAnal::StmtRef PtrAnal::translate_stmt(const AstNodePtr& s) const
{
StmtRef cur;
StmtMap::const_iterator p = stmtmap.find(s.get_ptr());
if (p != stmtmap.end()) {
std::pair<size_t,size_t> i = (*p).second;
for (size_t j = i.first; j <= i.second; ++j) {
cur.push_back(stmts[j]);
}
}
return cur;
}
void HasValueMap:: set_val( const AstNodePtr& ast, const HasValueDescriptor& val)
{
std::map<AstNodePtr,HasValueDescriptor>::iterator p = valmap.find(ast);
if (p == valmap.end())
valmap[ast] = val;
else
(*p).second.merge(val);
if (DebugValuePropogate()) {
std::cerr << "set value for " << ast.get_ptr() << ":" << AstInterface::AstToString(ast) << " : ";
valmap[ast].Dump();
std::cerr << std::endl;
}
}
void PtrAnal::
ProcessAssign( AstInterface& fa, const AstNodePtr& mod, const AstNodePtr& rhs, bool readlhs)
{
std::string modname, readname;
AstNodePtr modscope, readscope;
readname = Get_VarName(fa, rhs);
if (!fa.IsVarRef(mod, 0, &modname, &modscope) ) {
if (readlhs) {
modname = Get_VarName(fa,mod);
std::list<std::string> opds;
opds.push_back(modname);
opds.push_back(readname);
Stmt stmt_last = x_eq_op_y(OTHER, readname, opds);
stmts_pushback(stmts,stmt_last);
}
std::list<std::string> fields;
ProcessMod(fa, readname, fields, mod);
Stmt stmt_last = stmts_back(stmts);
namemap[rhs.get_ptr()] = VarRef(stmt_last,readname);
}
else if (!readlhs) {
assert (rhs != 0) ;
modname = Local_GetVarName(fa, modscope, modname);
ProcessExpression(fa, modname, rhs);
Stmt stmt_last = stmts_back(stmts);
namemap[mod.get_ptr()] = VarRef(stmt_last,modname);
}
else {
modname = Local_GetVarName(fa, modscope, modname);
std::list<std::string> opds;
opds.push_back(modname);
opds.push_back(readname);
Stmt stmt_last = x_eq_op_y(OTHER, modname, opds);
stmts_pushback(stmts,stmt_last);
namemap[mod.get_ptr()] = VarRef(stmt_last, modname);
}
}
AstNodePtr ArrayUseAccessFunction::
CreateArrayAccess( AstInterface& fa, const AstNodePtr& arr,
const AstNodeList& index)
{
AstNodePtr r;
if (prev != 0)
r = prev->CreateArrayAccess(fa, arr, index);
if (r == AST_NULL) {
AstNodeList nindex;
nindex.push_back(arr.get_ptr());
for (AstNodeList::const_iterator p = index.begin(); p != index.end(); ++p)
nindex.push_back(*p);
r = fa.CreateFunctionCall(funcname,nindex.begin(), nindex.end()) ;
}
return r;
}
bool PtrAnal::
ProcessTree( AstInterface &fa, const AstNodePtr& s, AstInterface::TraversalVisitType t)
{
if (t == AstInterface::PreVisit) {
AstNodePtr lhs, rhs;
AstInterface::AstNodeList vars, args;
if (fa.IsStatement(s)) {
if (DebugAliasAnal())
std::cerr << "pre visiting " << AstToString(s) << "\n";
stmt_active.push_back(stmts.size());
}
if (fa.IsReturn(s,&rhs)) {
// size_t stmt_firstIndex = stmts.size();
std::string fname = fdefined.back();
if (rhs != AST_NULL) {
std::string rhsname = Get_VarName(fa, rhs);
Stmt stmt_last = x_eq_y(func_return_name(fname), rhsname);
stmts_pushback(stmts,stmt_last);
namemap[rhs.get_ptr()] = VarRef(stmt_last, rhsname);
}
Stmt stmt_last = funcexit_x(fname);
stmts_pushback(stmts,stmt_last);
Skip(s);
}
else if (fa.IsVariableDecl( s, &vars, &args)) {
// size_t stmt_firstIndex = stmts.size();
AstInterface::AstNodeList::const_iterator pv = vars.begin();
AstInterface::AstNodeList::const_iterator pa = args.begin();
while (pv != vars.end()) {
AstNodePtr v = *pv;
AstNodePtr a = *pa;
if (a != AST_NULL) {
ProcessAssign(fa, v, a);
}
++pv;
++pa;
}
Skip(s);
}
else if ( (lhs = fa.IsExpression(s)) != AST_NULL) {
ProcessExpression(fa, "", lhs);
Skip(s);
}
}
else {
if (DebugAliasAnal())
std::cerr << "post visiting " << AstToString(s) << "\n";
if (fa.IsStatement(s)) {
size_t stmt_firstIndex = stmt_active.back();
stmt_active.pop_back();
if (stmt_firstIndex < stmts.size()) {
if (DebugAliasAnal())
std::cerr << "setting stmt mapping \n";
stmtmap[s.get_ptr()] = pair<size_t,size_t>(stmt_firstIndex, stmts.size()-1);
}
else
if (DebugAliasAnal())
std::cerr << "no translation: " << AstToString(s) << "\n";
}
}
return true;
}
void PtrAnal::
ProcessExpression( AstInterface& fa, const std::string& _modname, const AstNodePtr& rhs)
{
AstInterface::OperatorEnum op;
std::string modname = _modname;
AstNodePtr p,p1,p2;
AstInterface::AstNodeList args, out;
if (fa.IsFunctionCall(rhs, &p, &args, &out)) {
typedef std::pair<AstNodePtr,std::string> RefRec;
std::list<RefRec> refs;
std::string fname = Get_VarName(fa,p);
refs.push_back(RefRec(p,fname));
std::list<std::string> pargs, pres;
for (AstInterface::AstNodeList::const_iterator p = args.begin();
p != args.end(); ++p) {
AstNodePtr cur = *p;
std::string curname = Get_VarName(fa, cur);
pargs.push_back(curname);
refs.push_back(RefRec(cur,curname));
}
pres.push_back(modname);
for (AstInterface::AstNodeList::const_iterator p2 = out.begin();
p2 != out.end(); ++p2) {
AstNodePtr cur = *p2;
std::string curname = Get_VarName(fa, cur);
pres.push_back(curname);
refs.push_back(RefRec(cur,curname));
}
Stmt stmt = funccall_x(fname, pargs, pres);
stmts_pushback(stmts,stmt);
for (std::list<RefRec>::const_iterator p3 = refs.begin();
p3 != refs.end(); ++p3) {
RefRec cur = *p3;
namemap[cur.first.get_ptr()] = PtrAnal::VarRef(stmt,cur.second);
}
}
else if (fa.IsUnaryOp(rhs,&op, &p) ) {
std::string readname;
if (modname == "") {
modname = Local_GetVarName(fa, rhs);
}
switch (op) {
case AstInterface::UOP_ADDR: {
readname= Get_VarName(fa, p);
Stmt stmt = x_eq_addr_y(modname, readname);
stmts_pushback(stmts,stmt);
namemap[p.get_ptr()] = VarRef(stmt,readname);
namemap[rhs.get_ptr()] = VarRef(stmt,modname);
break;
}
case AstInterface::UOP_DEREF: {
readname= Get_VarName(fa, p);
Stmt stmt = x_eq_deref_y(modname, "", readname);
stmts_pushback(stmts,stmt);
namemap[p.get_ptr()] = VarRef(stmt,readname);
namemap[rhs.get_ptr()] = VarRef(stmt,modname);
break;
}
case AstInterface::UOP_ALLOCATE: {
Stmt stmt = allocate_x(modname) ;
stmts_pushback(stmts,stmt);
break;
}
default: {
readname = Get_VarName(fa,p);
std::list<std::string> opds;
opds.push_back(readname);
Stmt stmt_last = x_eq_op_y(OTHER,modname, opds);
stmts_pushback(stmts,stmt_last);
namemap[p.get_ptr()] = VarRef(stmt_last,readname);
namemap[rhs.get_ptr()] = VarRef(stmt_last,modname);
break;
}
}
}
else if (fa.IsBinaryOp(rhs, &op, &p1, &p2)) {
std::list<std::string> opds;
std::string readname , refname;
if (modname == "") {
modname = Local_GetVarName(fa, rhs);
}
Stmt stmt_last=0;
switch (op) {
case AstInterface::BOP_DOT_ACCESS: {
readname = Get_VarName(fa, p1);
refname = Local_GetFieldName(fa, p2);
stmt_last = x_eq_field_y( modname, refname, readname);
stmts_pushback(stmts,stmt_last);
break;
}
case AstInterface::BOP_ARROW_ACCESS: {
readname = Get_VarName(fa, p1);
refname = Local_GetFieldName(fa, p2);
stmt_last = x_eq_deref_y(modname, refname, readname);
stmts_pushback(stmts,stmt_last);
break;
}
default: {
readname = Get_VarName(fa,p1);
refname = Get_VarName(fa,p2);
opds.push_back(readname);
opds.push_back(refname);
OpType opt = OTHER;
switch (op) {
case AstInterface::BOP_EQ: opt = EQ; break;
case AstInterface::BOP_LT: opt = LT; break;
case AstInterface::BOP_GT: opt = GT; break;
case AstInterface::BOP_LE: opt = LE; break;
case AstInterface::BOP_GE: opt = GE; break;
case AstInterface::BOP_NE: opt = NE; break;
default: break;
}
stmt_last = x_eq_op_y( opt, modname, opds);
stmts_pushback(stmts,stmt_last);
}
}
namemap[p1.get_ptr()] = VarRef(stmt_last,readname);
namemap[p2.get_ptr()] = VarRef(stmt_last,refname);
namemap[rhs.get_ptr()] = VarRef(stmt_last,modname);
}
else {
std::string cur = Get_VarName(fa, rhs);
assert (cur != "");
if (modname != "") {
Stmt stmt_last = x_eq_y(modname, cur);
stmts_pushback(stmts,stmt_last);
namemap[rhs.get_ptr()] = VarRef(stmt_last,cur);
}
}
}
