struct expty transExp_callExp(Tr_level level, S_table venv, S_table tenv, A_exp a, Temp_label breakk) {
E_enventry x = S_look(venv, a->u.call.func);
A_pos pos = a->pos;
// check func type
if (!x || x->kind != E_funEntry) {
EM_error(pos, "undeclared variable '%s'", S_name(a->u.call.func));
return expTy(NULL, Ty_Void());
}
// check every arglist type
A_expList args = a->u.call.args;
Ty_tyList formals = x->u.fun.formals;
Tr_expList h = Tr_ExpList(NULL, NULL), p = h, argsList;
while (args && formals) {
struct expty arg = transExp(level, venv, tenv, args->head, breakk);
pos = args->head->pos;
if (!has_same_ty(formals->head, arg.ty)) {
EM_error(args->head->pos, "formals and actuals have different types");
break;
}
p->tail = Tr_ExpList(arg.exp, NULL);
p = p->tail;
args = args->tail;
formals = formals->tail;
}
argsList = h->tail;
free(h);
if (args || formals) EM_error(pos, "formals and actuals have different types");
return expTy(
Tr_callExp(x->u.fun.label,
argsList,
level, x->u.fun.level),
actual_ty(x->u.fun.result));
}
static struct expty transExp(Tr_level level, S_table v, S_table t, A_exp e){
A_oper oper;
struct expty left, right, final, final2, final3, final4, final5, lo, hi;
A_expList list;
A_decList decs;
E_enventry callinfo;
Ty_ty recty, arrayty;
switch (e->kind) {
case A_varExp:
return transVar(level, v, t, e->u.var);
case A_nilExp:
return expTy(NULL, Ty_Nil());
case A_callExp:
callinfo = S_look(v, e->u.call.func); /*get params and return from tenv*/
if (callinfo && callinfo->kind == E_funEntry){
if (args_match(level, v, t, e->u.call.args, callinfo->u.fun.formals, e)) {/*check params is matched*/
if (callinfo->u.fun.result) {
return expTy(NULL, actual_ty(callinfo->u.fun.result));
} else {
return expTy(NULL, Ty_Void());
}
}
} else {
EM_error(e->pos, "undefined function %s\n", S_name(e->u.call.func));
}
return expTy(NULL, Ty_Void());
case A_recordExp:
recty = actual_ty(S_look(t, e->u.record.typ));
if (!recty) { /*cant find record-type in table tenv*/
EM_error(e->pos, "undefined type %s (debug recordExp)", S_name(e->u.record.typ));
} else {
if (recty->kind != Ty_record){
EM_error(e->pos, "%s is not a record type", S_name(e->u.record.typ));
return expTy(NULL, Ty_Record(NULL));
}
if (efields_match(level, v, t, recty, e)) {/*check record field is matched*/
return expTy(NULL, recty);
}
}
return expTy(NULL, Ty_Record(NULL));
case A_arrayExp:
arrayty = actual_ty(S_look(t, e->u.array.typ));
if (!arrayty) {
EM_error(e->pos, "undeined array type %s", S_name(e->u.array.typ));
return expTy(NULL, Ty_Array(NULL));
}
if (arrayty->kind != Ty_array) {
EM_error(e->pos, "%s is not a array type", S_name(e->u.array.typ));
return expTy(NULL, Ty_Array(NULL));
}
final2 = transExp(level, v, t, e->u.array.size);
final3 = transExp(level, v, t, e->u.array.init);
if (final2.ty->kind != Ty_int) {
EM_error(e->pos, "array size should be int %s", S_name(e->u.array.typ));
} else if (!ty_match(final3.ty, arrayty->u.array)){
EM_error(e->pos, "unmatched array type in %s", S_name(e->u.array.typ));
} else {
return expTy(NULL, arrayty);
}
return expTy(NULL, Ty_Array(NULL));
case A_seqExp:
list = e->u.seq;
if (!list) {
return expTy(NULL, Ty_Void());
}
while (list->tail) {
transExp(level, v, t, list->head);
list = list->tail;
}
return transExp(level, v, t, list->head);
case A_whileExp:
final = transExp(level, v, t, e->u.whilee.test);
if (final.ty->kind != Ty_int) {
EM_error(e->pos, "int required");
}
transExp(level, v, t, e->u.whilee.body);
return expTy(NULL, Ty_Void());
case A_assignExp:
final4 = transVar(level, v, t, e->u.assign.var);
final5 = transExp(level, v, t, e->u.assign.exp);
if (!ty_match(final4.ty, final5.ty)) {
EM_error(e->pos, "unmatched assign exp");
}
return expTy(NULL, Ty_Void());
case A_breakExp:
return expTy(NULL, Ty_Void());
case A_forExp:
{
struct expty lo = transExp(level, v, t, e->u.forr.lo);
struct expty hi = transExp(level, v, t, e->u.forr.hi);
struct expty body;
if (lo.ty != Ty_Int() || hi.ty != Ty_Int()) {
EM_error(e->pos, "low or high range type is not integer");
}
S_beginScope(v);
transDec(level, v, t, A_VarDec(e->pos, e->u.forr.var, S_Symbol("int"), e->u.forr.lo));
body = transExp(level, v, t, e->u.forr.body);
S_endScope(v);
return expTy(NULL, Ty_Void());
}
case A_letExp:
S_beginScope(v);
S_beginScope(t);
for (decs = e->u.let.decs; decs; decs = decs->tail) {
transDec(level, v, t, decs->head);
}
final = transExp(level, v, t, e->u.let.body);
S_endScope(v);
S_endScope(t);
return final;
case A_opExp:
oper = e->u.op.oper;
left = transExp(level, v, t, e->u.op.left);
right = transExp(level, v, t, e->u.op.right);
if (0 <= oper && oper < 4) {/* check +,-,*,/ */
if (left.ty->kind != Ty_int && left.ty->kind != Ty_double){
EM_error(e->u.op.left->pos, "int or double required(op)");
}
if (right.ty->kind != Ty_int && right.ty->kind != Ty_double) {
EM_error(e->u.op.right->pos, "int or double required(op)");
}
if (left.ty->kind == Ty_int && right.ty->kind == Ty_int && oper != 3) {
return expTy(NULL, Ty_Int());
} else {
/*TODO divide when return double when return int*/
/*
return expTy(NULL, Ty_Int());
*/
return expTy(NULL, Ty_Int());
}
} else if (3 < oper && oper < 10) {
if (oper == 4 || oper == 5) {/*check record type can be nil*/
if (left.ty->kind == Ty_record && right.ty->kind == Ty_nil) {
return expTy(NULL, Ty_Int());
}
if (left.ty->kind == Ty_nil && right.ty->kind == Ty_record) {
return expTy(NULL, Ty_Int());
}
}
if(left.ty->kind != Ty_int && left.ty->kind != Ty_double && left.ty->kind != Ty_string){
EM_error(e->u.op.left->pos, "int or double or record-nil required");
}
if (right.ty->kind != Ty_int && right.ty->kind != Ty_double && right.ty->kind !=Ty_string) {
EM_error(e->u.op.right->pos, "int or double or record-nil required");
}
return expTy(NULL, Ty_Int());
} else {
assert(0);
}
case A_ifExp:
final = transExp(level, v, t, e->u.iff.test);
final2 = transExp(level, v, t, e->u.iff.then);
if (e->u.iff.elsee) { /*no else-part*/
final3 = transExp(level, v, t, e->u.iff.elsee);
if (final.ty->kind != Ty_int){
EM_error(e->u.iff.test->pos, "int required");
} else if(!ty_match(final2.ty, final3.ty)) {
struct expty transExp(S_table venv, S_table tenv, A_exp e) {
if (e == NULL) {
return expTy(NULL, Ty_Void());
}
switch (e->kind) {
case A_varExp: {
return transVar(venv, tenv, e->u.var);
}
case A_nilExp: {
return expTy(NULL, Ty_Nil());
}
case A_intExp: {
return expTy(NULL, Ty_Int());
}
case A_stringExp: {
return expTy(NULL, Ty_String());
}
case A_callExp: {
E_enventry fun = S_look(venv, e->u.call.func);
if (fun == NULL || fun->kind == E_varEntry) {
//EM_error(e->pos, "undefined function %s", S_name(e->u.call.func));
return expTy(NULL, Ty_Int());
}
else {
if (fun->u.fun.formals == NULL && e->u.call.args == NULL) {
return expTy(NULL, actual_ty(fun->u.fun.result));
}
else if (fun->u.fun.formals == NULL && e->u.call.args != NULL) {
EM_error(e->pos, "incorrect function prototype %s", S_name(e->u.call.func) );
return expTy(NULL, actual_ty(fun->u.fun.result));
}
else if (fun->u.fun.formals != NULL && e->u.call.args == NULL) {
EM_error(e->pos, "incorrect function prototype %s", S_name(e->u.call.func) );
return expTy(NULL, actual_ty(fun->u.fun.result));
}
else {
return expTy(NULL, actual_ty(fun->u.fun.result));
}
}
}
case A_opExp: {
A_oper oper = e->u.op.oper;
struct expty left = transExp(venv, tenv, e->u.op.left);
struct expty right = transExp(venv, tenv, e->u.op.right);
if (oper == A_plusOp || oper == A_minusOp || oper == A_timesOp || oper == A_divideOp) {
if (left.ty->kind != Ty_int)
EM_error(e->u.op.left->pos, "integer required");
if (right.ty->kind != Ty_int)
EM_error(e->u.op.right->pos, "integer required");
return expTy(NULL, Ty_Int());
}
else if (oper == A_eqOp || oper == A_neqOp) {
if (left.ty->kind == Ty_int && right.ty->kind == Ty_int) {
return expTy(NULL, Ty_Int());
}
else if (left.ty->kind == Ty_string && right.ty->kind == Ty_string) {
return expTy(NULL, Ty_Int());
}
else if (left.ty->kind == Ty_record && right.ty->kind == Ty_record) {
if (left.ty == right.ty) {
return expTy(NULL, Ty_Int());
}
else {
EM_error(e->pos, "same record type required");
return expTy(NULL, Ty_Int());
}
}
else if (left.ty->kind == Ty_array && right.ty->kind == Ty_array) {
if (left.ty == right.ty) {
return expTy(NULL, Ty_Int());
}
else {
EM_error(e->pos, "same array type required");
return expTy(NULL, Ty_Int());
}
}
else if (left.ty->kind == Ty_record && right.ty->kind == Ty_nil) {
return expTy(NULL, Ty_Int());
}
else if (left.ty->kind == Ty_nil && right.ty->kind == Ty_record) {
return expTy(NULL, Ty_Int());
}
else {
EM_error(e->pos, "type not match");
return expTy(NULL, Ty_Int());
}
}
else if (oper == A_ltOp || oper == A_leOp || oper == A_gtOp || oper == A_geOp) {
if (left.ty->kind == Ty_int && right.ty->kind == Ty_int) {
return expTy(NULL, Ty_Int());
}
else {
EM_error(e->pos, "type not match");
return expTy(NULL, Ty_Int());
}
}
}
case A_recordExp: {
Ty_ty ty = S_look(tenv, e->u.record.typ);
if (ty != NULL) {
ty = actual_ty(ty);
}
if (ty == NULL || ty->kind != Ty_record) {
EM_error(e->pos, "undefined record type %s", S_name(e->u.record.typ));
return expTy(NULL, Ty_Nil());
}
else {
Ty_fieldList fieldList = ty->u.record;
A_efieldList efieldList = e->u.record.fields;
while (fieldList != NULL && efieldList != NULL) {
if (fieldList->head->name != efieldList->head->name) {
EM_error(e->pos, "record field not match");
return expTy(NULL, Ty_Nil());
}
struct expty res = transExp(venv, tenv, efieldList->head->exp);
Ty_ty fieldty = actual_ty(fieldList->head->ty);
if (fieldty->kind == Ty_record && res.ty->kind == Ty_nil) {
}
else if (fieldty->kind == Ty_record && res.ty->kind == Ty_record) {
if (fieldty == res.ty) {
}
else {
EM_error(e->pos, "record field not match");
return expTy(NULL, Ty_Nil());
}
}
else if (fieldty->kind == Ty_array && res.ty->kind == Ty_array) {
if (fieldty == res.ty) {
}
else {
EM_error(e->pos, "record field not match");
return expTy(NULL, Ty_Nil());
}
}
else {
if (fieldty->kind != res.ty->kind) {
EM_error(e->pos, "record field not match");
return expTy(NULL, Ty_Nil());
}
}
fieldList = fieldList->tail;
efieldList = efieldList->tail;
}
if (fieldList != NULL && efieldList != NULL) {
EM_error(e->pos, "record field not match");
return expTy(NULL, Ty_Nil());
}
}
return expTy(NULL, ty);
}
case A_seqExp: {
if (e->u.seq == NULL) {
return expTy(NULL, Ty_Void());
}
else {
return expTy(NULL, transExp(venv, tenv, e->u.seq->head).ty);
}
}
case A_assignExp: {
struct expty left = transVar(venv, tenv, e->u.assign.var);
struct expty right = transExp(venv, tenv, e->u.assign.exp);
if (left.ty->kind == Ty_nil) {
if (right.ty->kind == Ty_nil) {
return expTy(NULL, Ty_Void());
}
else if (right.ty->kind == Ty_record && left.ty == right.ty) {
return expTy(NULL, Ty_Void());
}
else {
EM_error(e->pos, "type not match");
return expTy(NULL, Ty_Void());
}
}
else if (left.ty->kind == Ty_array) {
if (right.ty->kind == Ty_array && left.ty == right.ty) {
return expTy(NULL, Ty_Void());
}
else {
EM_error(e->pos, "type not match");
return expTy(NULL, Ty_Void());
}
}
else if (left.ty->kind == right.ty->kind) {
return expTy(NULL, Ty_Void());
}
else {
EM_error(e->pos, "type not match");
return expTy(NULL, Ty_Void());
}
}
case A_ifExp: {
struct expty test = transExp(venv, tenv, e->u.iff.test);
if (test.ty->kind != Ty_int) {
EM_error(e->pos, "if-else clause integer test required");
return expTy(NULL, Ty_Void());
}
else {
struct expty then = transExp(venv, tenv, e->u.iff.then);
if (e->u.iff.elsee == NULL) {
if (then.ty->kind != Ty_void) {
EM_error(e->pos, "if-then clause void then required");
return expTy(NULL, Ty_Void());
}
else {
return expTy(NULL, Ty_Void());
}
}
else {
struct expty elsee = transExp(venv, tenv, e->u.iff.elsee);
if (then.ty->kind == Ty_record) {
if (elsee.ty->kind == Ty_record && then.ty == elsee.ty) {
return expTy(NULL, then.ty);
}
else if (elsee.ty->kind == Ty_nil) {
return expTy(NULL, then.ty);
}
}
else if (then.ty->kind == Ty_nil && elsee.ty->kind == Ty_record) {
return expTy(NULL, elsee.ty);
}
else if (then.ty->kind == Ty_array && elsee.ty->kind == Ty_array) {
if (then.ty == elsee.ty) {
return expTy(NULL, then.ty);
}
else {
EM_error(e->pos, "then and else type not match");
return expTy(NULL, Ty_Void());
}
}
else if (then.ty->kind == elsee.ty->kind) {
return expTy(NULL, then.ty);
}
else {
EM_error(e->pos, "then and else type not match");
return expTy(NULL, Ty_Void());
}
}
}
}
case A_whileExp: {
struct expty test = transExp(venv, tenv, e->u.whilee.test);
struct expty body = transExp(venv, tenv, e->u.whilee.body);
if (test.ty->kind != Ty_int) {
EM_error(e->pos, "test clause integer required");
return expTy(NULL, Ty_Void());
}
else {
if (body.ty->kind != Ty_void) {
//EM_error(e->pos, "while clause must produce no value");
return expTy(NULL, Ty_Void());
}
else {
return expTy(NULL, Ty_Void());
}
}
}
case A_forExp: {
struct expty lo = transExp(venv, tenv, e->u.forr.lo);
struct expty hi = transExp(venv, tenv, e->u.forr.hi);
if (lo.ty->kind != Ty_int || hi.ty->kind != Ty_int) {
EM_error(e->pos, "for clause lo and hi integer required");
return expTy(NULL, Ty_Void());
}
else {
struct expty body = transExp(venv, tenv, e->u.forr.body);
if (body.ty->kind != Ty_void) {
EM_error(e->pos, "for clause body no-value required");
return expTy(NULL, Ty_Void());
}
else {
return expTy(NULL, Ty_Void());
}
}
}
case A_breakExp: {
return expTy(NULL, Ty_Void());
}
case A_letExp: {
//S_beginScope(venv);
//S_beginScope(tenv);
struct expty exp = transExp(venv, tenv, e->u.let.body);
//S_endScope(tenv);
//S_endScope(venv);
return expTy(NULL, exp.ty);
}
case A_arrayExp: {
struct expty size = transExp(venv, tenv, e->u.array.size);
struct expty init = transExp(venv, tenv, e->u.array.init);
Ty_ty ty = actual_ty(S_look(tenv, e->u.array.typ));
if (ty == NULL || ty->kind != Ty_array) {
//EM_error(e->pos, "undefined array type %s", S_name(e->u.array.typ));
return expTy(NULL, Ty_Void());
}
Ty_ty ty2 = actual_ty(ty->u.array);
if (size.ty->kind != Ty_int) {
EM_error(e->pos, "size int value required");
return expTy(NULL, actual_ty(ty));
}
else if (ty2->kind == Ty_record) {
if ((init.ty->kind == Ty_nil) || (init.ty->kind == Ty_record && ty2 == init.ty)) {
return expTy(NULL, ty);
}
else {
EM_error(e->pos, "array init fail:type not match");
return expTy(NULL, ty);
}
}
else if(ty2->kind == Ty_array) {
if (init.ty->kind == Ty_array && ty2 == init.ty) {
return expTy(NULL, ty);
}
else {
EM_error(e->pos, "array init fail:type not match");
return expTy(NULL, ty);
}
}
else if (ty2->kind == init.ty->kind) {
return expTy(NULL, ty);
}
else {
EM_error(e->pos, "array init fail:type not match");
return expTy(NULL, ty);
}
}
default: {
assert(0);
}
}
}
static struct expty transExp(Tr_level level, Tr_exp breakk, S_table v, S_table t, A_exp e){
if (!e) { return expTy(Tr_noExp(), Ty_Void()); }
switch (e->kind) {
case A_varExp:
return transVar(level, breakk, v, t, e->u.var);
case A_nilExp:
return expTy(Tr_nilExp(), Ty_Nil());
case A_callExp: {
E_enventry callinfo = S_look(v, e->u.call.func); /*get params and return from tenv*/
A_expList args = NULL;
Tr_expList argList = NULL;
Ty_tyList formals;
Tr_exp trans = Tr_noExp();
if (callinfo && callinfo->kind == E_funEntry){
formals = callinfo->u.fun.formals;
/*
if (args_match(level, breakk, v, t, e->u.call.args, callinfo->u.fun.formals, e)) {//check params is matched
if (callinfo->u.fun.result) {
return expTy(trans, actual_ty(callinfo->u.fun.result));
}
}*/
for (args = e->u.call.args; args && formals; args = args->tail, formals = formals->tail) { /*memory args-info by order*/
struct expty arg = transExp(level, breakk, v, t, args->head);
if (!ty_match(arg.ty, formals->head)) EM_error(args->head->pos, "unmatched type in function %s", S_name(e->u.call.func));
Tr_expList_prepend(arg.exp, &argList);
}
if (!args && formals) EM_error(e->pos, "short few paras");
if (args && !formals) EM_error(e->pos, "too many paras");
trans = Tr_callExp(callinfo->u.fun.label, callinfo->u.fun.level, level, &argList);
return expTy(trans, actual_ty(callinfo->u.fun.result));
} else {
EM_error(e->pos, "undefined function %s\n", S_name(e->u.call.func));
return expTy(trans, Ty_Int());
}
}
case A_recordExp: {/*record create*/
Ty_ty recty = actual_ty(S_look(t, e->u.record.typ));
if (!recty) { /*cant find record-type in table tenv*/
EM_error(e->pos, "undefined type %s (debug recordExp)", S_name(e->u.record.typ));
} else {
if (recty->kind != Ty_record){
EM_error(e->pos, "%s is not a record type", S_name(e->u.record.typ));
return expTy(Tr_noExp(), Ty_Record(NULL));
}
/*
if (efields_match(level, breakk, v, t, recty, e)) {//check record field is matched
Tr_expList l = NULL;
int n = 0;
A_efieldList el;
for (el = e->u.record.fields; el; el = el->tail, n++) {
struct expty val = transExp(level, breakk, v, t, el->head->exp);
Tr_expList_prepend(val.exp, &l);
}
return expTy(Tr_recordExp(n, l), recty);
}*/
Ty_fieldList fieldTys = recty->u.record;
A_efieldList recList;
Tr_expList list = NULL;
int n = 0;
for (recList = e->u.record.fields; recList; recList = recList->tail, fieldTys = fieldTys->tail, n++) {
struct expty et = transExp(level, breakk, v, t, recList->head->exp);
if (recList->head->name != fieldTys->head->name) EM_error(e->pos, "%s not a valid field name", recList->head->name);
if (!ty_match(fieldTys->head->ty, et.ty)) EM_error(recList->head->exp->pos, "type error: given %s but expected %s");
Tr_expList_prepend(et.exp, &list);
}
return expTy(Tr_recordExp(n, list), recty);
}
return expTy(Tr_noExp(), Ty_Record(NULL));
}
case A_arrayExp: {/*array create*/
Ty_ty arrayty = actual_ty(S_look(t, e->u.array.typ));
if (!arrayty) {
EM_error(e->pos, "undeined array type %s", S_name(e->u.array.typ));
return expTy(Tr_noExp(), Ty_Int());
}
if (arrayty->kind != Ty_array) {
EM_error(e->pos, "%s is not a array type", S_name(e->u.array.typ));
return expTy(Tr_noExp(), Ty_Int());
}
struct expty final2 = transExp(level, breakk, v, t, e->u.array.size);
struct expty final3 = transExp(level, breakk, v, t, e->u.array.init);
if (final2.ty->kind != Ty_int) {
EM_error(e->pos, "array size should be int %s", S_name(e->u.array.typ));
} else if (!ty_match(final3.ty, arrayty->u.array)){
EM_error(e->pos, "unmatched array type in %s", S_name(e->u.array.typ));
} else {
return expTy(Tr_arrayExp(final2.exp, final3.exp), arrayty);
}
return expTy(Tr_noExp(), Ty_Int());
}
case A_seqExp: {
Tr_expList l = NULL;
A_expList list = e->u.seq;
struct expty seqone;
if (!list) {
return expTy(Tr_noExp(), Ty_Void());
}
for (; list; list = list->tail) {
seqone = transExp(level, breakk, v, t, list->head);
Tr_expList_prepend(seqone.exp, &l);
}
return expTy(Tr_seqExp(l), seqone.ty);
}
case A_whileExp: {
struct expty final = transExp(level, breakk, v, t, e->u.whilee.test);
if (final.ty->kind != Ty_int) {
EM_error(e->pos, "int required");
}
Tr_exp done = Tr_doneExp();
struct expty body = transExp(level, done, v, t, e->u.whilee.body);
return expTy(Tr_whileExp(final.exp, body.exp, done), Ty_Void());
}
case A_assignExp: {
struct expty final4 = transVar(level, breakk, v, t, e->u.assign.var);
struct expty final5 = transExp(level, breakk, v, t, e->u.assign.exp);
if (!ty_match(final4.ty, final5.ty)) {
EM_error(e->pos, "unmatched assign exp");
}
return expTy(Tr_assignExp(final4.exp, final5.exp), Ty_Void());
}
case A_breakExp:
if (!breakk) return expTy(Tr_noExp(), Ty_Void());
return expTy(Tr_breakExp(breakk), Ty_Void());
case A_forExp: {
EM_error(e->pos, "\nsome one said for is better than while\nmake them unhappy \nahahaha");
return expTy(Tr_noExp(), Ty_Int());
}
case A_letExp: {
A_decList decs;
Tr_expList l = NULL;
S_beginScope(v);
S_beginScope(t);
for (decs = e->u.let.decs; decs; decs = decs->tail) {
Tr_expList_prepend(transDec(level, breakk, v, t, decs->head), &l);
}
struct expty final = transExp(level, breakk, v, t, e->u.let.body);
Tr_expList_prepend(final.exp, &l);
S_endScope(v);
S_endScope(t);
return expTy(Tr_seqExp(l), final.ty);
}
case A_opExp: {
A_oper oper = e->u.op.oper;
struct expty left = transExp(level, breakk, v, t, e->u.op.left);
struct expty right = transExp(level, breakk, v, t, e->u.op.right);
if (0 <= oper && oper < 4) {/* check +,-,*,/ */
if (left.ty->kind != Ty_int && left.ty->kind != Ty_double){
EM_error(e->u.op.left->pos, "int or double required(op)");
} else if (right.ty->kind != Ty_int && right.ty->kind != Ty_double) {
EM_error(e->u.op.right->pos, "int or double required(op)");
} else if (left.ty->kind == Ty_int && right.ty->kind == Ty_int) {
return expTy(Tr_arithExp(oper, left.exp, right.exp), Ty_Int());
} else {
return expTy(Tr_arithExp(oper, left.exp, right.exp), Ty_Double());
}
return expTy(Tr_noExp(), Ty_Int());
} else if (3 < oper && oper < 10) {
Tr_exp translation = Tr_noExp();
if (oper == 4 || oper == 5) {/*check record type can be nil(=, <>)*/
switch(left.ty->kind) {
case Ty_int:
case Ty_double:/*see is double query like int TODO*/
if (right.ty->kind == Ty_int || right.ty->kind == Ty_double) translation = Tr_eqExp(oper, left.exp, right.exp);
else {EM_error(e->u.op.right->pos, "unexpected type in comparsion");}
break;
case Ty_string:
if (ty_match(right.ty, left.ty)) translation = Tr_eqStringExp(oper, left.exp, right.exp);
else {EM_error(e->u.op.right->pos, "unexpected type in comparsion");}
break;
case Ty_array:
if (ty_match(right.ty, left.ty)) translation = Tr_eqRef(oper, left.exp, right.exp);
else {EM_error(e->u.op.right->pos, "unexpected type in comparsion");}
break;
case Ty_record:
if (ty_match(right.ty, left.ty) || right.ty->kind == Ty_nil) translation = Tr_eqRef(oper, left.exp, right.exp);
else {EM_error(e->u.op.right->pos, "unexpected type in comparsion");}
break;
default:
EM_error(e->u.op.right->pos, "unexpected expression in comparsion");
}
return expTy(translation, Ty_Int());
} else {
switch(left.ty->kind) {
case Ty_double:
case Ty_int:
if (right.ty->kind == Ty_double || right.ty->kind == Ty_int) translation = Tr_relExp(oper, left.exp, right.exp);
else {EM_error(e->u.op.right->pos, "unexpected type in comparsion");}
break;
case Ty_string:
if (right.ty->kind == Ty_string) translation = Tr_eqStringExp(oper, left.exp, right.exp);
else {EM_error(e->u.op.right->pos, "unexpected type in comparsion");}
break;
default:
EM_error(e->u.op.right->pos, "unexpected type in comparsion");
}
return expTy(translation, Ty_Int());
}
} else {
assert(0);
}
}
case A_ifExp: {
struct expty final = transExp(level, breakk, v, t, e->u.iff.test);
struct expty final2 = transExp(level, breakk, v, t, e->u.iff.then);
struct expty final3 = {NULL, NULL};
if (e->u.iff.elsee) { /*no else-part*/
final3 = transExp(level, breakk, v, t, e->u.iff.elsee);
if (final.ty->kind != Ty_int){
EM_error(e->u.iff.test->pos, "int required");
}
if(!ty_match(final2.ty, final3.ty)) {
EM_error(e->pos, "if-else sentence must return same type");
}
}
return expTy(Tr_ifExp(final.exp, final2.exp, final3.exp), final2.ty);
}
case A_stringExp:
return expTy(Tr_stringExp(e->u.stringg), Ty_String());
case A_intExp:
return expTy(Tr_intExp(e->u.intt), Ty_Int());
case A_doubleExp:
return expTy(Tr_doubleExp(e->u.doublee), Ty_Double());
default:
assert(0);
}
static struct expty transVar(Tr_level level,Tr_exp breakk, S_table venv,S_table tenv,A_var v){
if (!v) {
return expTy(Tr_noExp(), Ty_Void());
}
E_enventry x;
struct expty et,et2;
Ty_fieldList fl;
Tr_exp trans;
switch(v->kind){
case A_simpleVar: /*var id*/
x=S_look(venv,v->u.simple);
trans = Tr_noExp();
if (x&&x->kind==E_varEntry){
trans= Tr_simpleVar(x->u.var.access, level);
return expTy(trans,actual_ty(x->u.var.ty));
}else{
//变量未定义
EM_error(v->pos, "undefined var %s", S_name(v->u.simple));
return expTy(trans, Ty_Int());
}
break;
case A_fieldVar:/* a.b a.b.c*/
//得到 a 的type 是 record还是 array还是 simplevar
et=transVar(level,breakk,venv,tenv,v->u.field.var);
trans = Tr_noExp();
if (et.ty->kind!=Ty_record)
{
EM_error(v->pos, "not a record type");
return expTy(NULL, Ty_Record(NULL));
}else{
int i=0;
for (fl = et.ty->u.record;fl;fl=fl->tail,i++)
{
//地址比较
if (fl->head->name==v->u.field.sym)
{
trans = Tr_fieldVar(et.exp,i);
return expTy(trans, actual_ty(fl->head->ty));
}
}
EM_error(v->pos, "no such field in record %s", S_name(v->u.field.sym));
}
return expTy(trans, Ty_Int());
break;
case A_subscriptVar:/*a[i]*/
et = transVar(level,breakk,venv, tenv, v->u.subscript.var);
trans = Tr_noExp();
if (et.ty->kind!=Ty_array){
EM_error(v->pos, "not a array type");
}else{
et2=transExp(level,breakk,venv,tenv,v->u.subscript.exp);
if (et2.ty->kind != Ty_int) {
EM_error(v->pos, "int required");
}else{
trans = Tr_subscriptVar(et.exp, et2.exp);
return expTy(trans, actual_ty(et.ty->u.array));
}
}
return expTy(trans, Ty_Int());
break;
}
}
//here
static struct expty transExp(Tr_level level,Tr_exp breakk,S_table v, S_table t, A_exp e){
A_oper oper;
struct expty left,right,final,final2,final3,final4,final5,lo,hi;
A_expList list;
A_decList decs;
E_enventry callinfo;
Ty_ty recty,arrayty;
if (!e) {
return expTy(Tr_noExp(), Ty_Void());
}
switch(e->kind){
case A_varExp:
return transVar(level,breakk,v,t,e->u.var);
break;
case A_nilExp:
return expTy(Tr_nilExp(),Ty_Nil());
break;
case A_callExp:
callinfo =S_look(v,e->u.call.func);
A_expList args=NULL;
Tr_expList argList=NULL;
for (args=e->u.call.args;args;args=args->tail){
struct expty arg = transExp(level, breakk, v, t, args->head);
Tr_expList_prepend(arg.exp, &argList);
}
Tr_exp trans = Tr_noExp();
if (callinfo&&callinfo->kind==E_funEntry)
{
trans = Tr_callExp(callinfo->u.fun.label, callinfo->u.fun.level, level, &argList);
//检查参数个数、类型匹配
if (args_match(level, breakk, v, t, e->u.call.args, callinfo->u.fun.formals, e)) {/*check params is matched*/
if (callinfo->u.fun.result) {
return expTy(trans, actual_ty(callinfo->u.fun.result));
}
}
/*
if (args_match(level,v,t,e->u.call.args,callinfo->u.fun.formals,e)){
return expTy(NULL, actual_ty(callinfo->u.fun.result));
}else{
return expTy(NULL, Ty_Void());
}
*/
}else {
EM_error(e->pos, "undefined function %s\n", S_name(e->u.call.func));
}
return expTy(trans, Ty_Void());
break;
case A_recordExp:
recty = actual_ty(S_look(t, e->u.record.typ));
if (!recty) { /*cant find record-type in table tenv*/
EM_error(e->pos, "undefined type %s (debug recordExp)", S_name(e->u.record.typ));
}else{
if (recty->kind != Ty_record){
EM_error(e->pos, "%s is not a record type", S_name(e->u.record.typ));
return expTy(Tr_noExp(), Ty_Record(NULL));
}
if (efields_match(level,breakk,v, t, recty, e)) {/*check record field is matched*/
Tr_expList l=NULL;
int n=0;
A_efieldList el;
for (el=e->u.record.fields;el;el=el->tail,n++){
struct expty val = transExp(level, breakk, v, t, el->head->exp);
Tr_expList_prepend(val.exp,&l);
}
return expTy(Tr_recordExp(n, l), recty);
}
}
return expTy(Tr_noExp(), Ty_Record(NULL));
break;
case A_arrayExp:
arrayty=actual_ty(S_look(t,e->u.array.typ));
if (!arrayty) {
EM_error(e->pos, "undeined array type %s", S_name(e->u.array.typ));
return expTy(Tr_noExp(), Ty_Array(NULL));
}
if (arrayty->kind != Ty_array) {
EM_error(e->pos, "%s is not a array type", S_name(e->u.array.typ));
return expTy(Tr_noExp(), Ty_Array(NULL));
}
final2 = transExp(level,breakk,v, t, e->u.array.size);//数组大小 表达式
final3 = transExp(level,breakk,v, t, e->u.array.init);//数组初始化 表达式
if (final2.ty->kind != Ty_int) {
EM_error(e->pos, "array size should be int %s", S_name(e->u.array.typ));
}else if (!ty_match(final3.ty, arrayty->u.array)){
EM_error(e->pos, "unmatched array type in %s", S_name(e->u.array.typ));
} else {
return expTy(Tr_arrayExp(final2.exp, final3.exp), arrayty);
}
return expTy(Tr_noExp(), Ty_Int());
break;
case A_seqExp:{
Tr_expList l = NULL;
list = e->u.seq;
struct expty seqone;
if (!list) {
return expTy(Tr_noExp(), Ty_Void());
}
/*while (list->tail) {
seqone= transExp(level,breakk,v, t, list->head);
Tr_expList_prepend(seqone.exp, &l);
list = list->tail;
}
*/
for (; list; list = list->tail) {
seqone = transExp(level, breakk, v, t, list->head);
Tr_expList_prepend(seqone.exp, &l);
}
printf("A_seqExp\n");
return expTy(Tr_seqExp(l), seqone.ty);
}
break;
case A_whileExp:
final = transExp(level,breakk,v, t, e->u.whilee.test);
if (final.ty->kind != Ty_int) {
EM_error(e->pos, "int required");
}
Tr_exp done = Tr_doneExp();
struct expty body=transExp(level,done,v, t, e->u.whilee.body);
return expTy(Tr_whileExp(final.exp, body.exp, done), Ty_Void());
break;
case A_assignExp:
final4 = transVar(level,breakk,v, t, e->u.assign.var);
final5 = transExp(level,breakk,v, t, e->u.assign.exp);
if (!ty_match(final4.ty, final5.ty)) {
EM_error(e->pos, "unmatched assign exp");
}
return expTy(Tr_assignExp(final4.exp, final5.exp), Ty_Void());
case A_breakExp:
if (!breakk) return expTy(Tr_noExp(), Ty_Void());
return expTy(Tr_breakExp(breakk), Ty_Void());
case A_forExp:{
/*
struct expty lo = transExp(level,v, t, e->u.forr.lo);
struct expty hi = transExp(level,v, t, e->u.forr.hi);
struct expty body;
if (lo.ty != Ty_Int() || hi.ty != Ty_Int()) {
EM_error(e->pos, "low or high range type is not integer");
}
S_beginScope(v);
transDec(level,v, t, A_VarDec(e->pos, e->u.forr.var, S_Symbol("int"), e->u.forr.lo));
body = transExp(level,v, t, e->u.forr.body);
S_endScope(v);
return expTy(NULL, Ty_Void());
*/
EM_error(e->pos, "\nsome one said for is better than while\nmake them unhappy \nahahaha");
return expTy(Tr_noExp(), Ty_Int());
}
break;
case A_letExp:{
Tr_expList l = NULL;
S_beginScope(v);
S_beginScope(t);
for (decs=e->u.let.decs;decs;decs=decs->tail){
//transDec(level,v,t,decs->head);
;
Tr_expList_prepend(transDec(level, breakk, v, t, decs->head), &l);
}
final=transExp(level,breakk,v,t,e->u.let.body);
Tr_expList_prepend(final.exp, &l);
S_endScope(t);
S_endScope(v);
printf("A_letExp\n");
return expTy(Tr_seqExp(l), final.ty);;
}
break;
case A_opExp:{
A_oper oper = e->u.op.oper;
struct expty left = transExp(level, breakk, v, t, e->u.op.left);
struct expty right = transExp(level, breakk, v, t, e->u.op.right);
if (0 <= oper && oper < 4) {/* check +,-,*,/ */
if (left.ty->kind != Ty_int ){
EM_error(e->u.op.left->pos, "int or double required(op)");
} else if (left.ty->kind == Ty_int && right.ty->kind == Ty_int) {
return expTy(Tr_arithExp(oper, left.exp, right.exp), Ty_Int());
}
return expTy(Tr_noExp(), Ty_Int());
} else if (3 < oper && oper < 10) {
Tr_exp translation = Tr_noExp();
if (oper == 4 || oper == 5) {/*check record type can be nil(=, <>)*/
switch(left.ty->kind) {
case Ty_int:
//case Ty_double:/*see is double query like int TODO*/
if (right.ty->kind == Ty_int ) translation = Tr_eqExp(oper, left.exp, right.exp);
else {EM_error(e->u.op.right->pos, "unexpected type in comparsion");}
break;
case Ty_string:
if (ty_match(right.ty, left.ty)) translation = Tr_eqStringExp(oper, left.exp, right.exp);
else {EM_error(e->u.op.right->pos, "unexpected type in comparsion");}
break;
case Ty_array:
if (ty_match(right.ty, left.ty)) translation = Tr_eqRef(oper, left.exp, right.exp);
else {EM_error(e->u.op.right->pos, "unexpected type in comparsion");}
break;
case Ty_record:
if (ty_match(right.ty, left.ty) || right.ty->kind == Ty_nil) translation = Tr_eqRef(oper, left.exp, right.exp);
else {EM_error(e->u.op.right->pos, "unexpected type in comparsion");}
break;
default:
EM_error(e->u.op.right->pos, "unexpected expression in comparsion");
}
return expTy(translation, Ty_Int());
} else {
switch(left.ty->kind) {
//case Ty_double:
case Ty_int:
if ( right.ty->kind == Ty_int) translation = Tr_relExp(oper, left.exp, right.exp);
else {EM_error(e->u.op.right->pos, "unexpected type in comparsion");}
break;
case Ty_string:
if (right.ty->kind == Ty_string) translation = Tr_eqStringExp(oper, left.exp, right.exp);
else {EM_error(e->u.op.right->pos, "unexpected type in comparsion");}
break;
default:
EM_error(e->u.op.right->pos, "unexpected type in comparsion");
}
return expTy(translation, Ty_Int());
}
} else {
assert(0);
}
}
break;
case A_ifExp:
final = transExp(level,breakk,v, t, e->u.iff.test);
final2 = transExp(level,breakk,v, t, e->u.iff.then);
//final3 = {NULL, NULL};
if (e->u.iff.elsee) { /*no else-part*/
final3 = transExp(level,breakk,v, t, e->u.iff.elsee);
if (final.ty->kind != Ty_int){
EM_error(e->u.iff.test->pos, "int required");
} else if(!ty_match(final2.ty, final3.ty)) {
struct expty transExp (S_table venv, S_table tenv, A_exp a)
{
switch (a->kind) {
case A_opExp: {
A_oper oper = a->u.op.oper;
struct expty left = transExp (venv, tenv, a->u.op.left);
struct expty right = transExp (venv, tenv, a->u.op.right);
if (oper == A_plusOp || oper == A_minusOp || oper == A_timesOp || oper == A_divideOp) {
if (left.ty->kind != Ty_int) {
EM_error (a->u.op.left->pos, "integer required");
}
if (right.ty->kind != Ty_int) {
EM_error (a->u.op.right->pos, "integer required");
}
} else {
if (left.ty->kind != right.ty->kind) {
EM_error (a->u.op.right->pos, "left type should be same as right");
}
}
return expTy (NULL, Ty_Int());
}
case A_varExp: {
return transVar (venv, tenv, a->u.var);
}
case A_nilExp: {
return expTy (NULL, Ty_Nil());
}
case A_intExp: {
return expTy (NULL, Ty_Int());
}
case A_stringExp: {
return expTy (NULL, Ty_String());
}
case A_callExp: {
E_enventry x = S_look (venv, a->u.call.func);
if (x && x->kind == E_funEntry) {
Ty_tyList tList;
A_expList eList;
for (tList = x->u.fun.formals, eList = a->u.call.args; tList && eList; tList = tList->tail, eList = eList->tail) {
Ty_ty expTyName = transExp (venv, tenv, eList->head).ty;
if (tList->head->kind != expTyName->kind) {
if (tList->head->kind == Ty_record && expTyName->kind == Ty_nil) {
continue;
}
EM_error (eList->head->pos, "field type is wrong");
return expTy (NULL, Ty_Int());
}
}
if (tList || eList) {
EM_error (a->u.call.args->head->pos, "field type number is wrong");
return expTy (NULL, Ty_Int());
}
return expTy (NULL, x->u.fun.result);
}
EM_error (a->pos, "undefined function name %s", S_name (a->u.call.func));
return expTy (NULL, Ty_Int());
}
case A_recordExp: {
Ty_ty record = S_look (tenv, a->u.record.typ);
if (!record) {
EM_error (a->pos, "undefined record type %s", S_name (a->u.record.typ));
return expTy (NULL, record);
}
if (record->kind != Ty_record) {
EM_error (a->pos, "type should be an record");
return expTy (NULL, Ty_Int());
} else {
A_efieldList efieldList = NULL;
Ty_fieldList fieldList = record->u.record;
for (efieldList = a->u.record.fields; efieldList && fieldList; efieldList = efieldList->tail, fieldList = fieldList->tail) {
Ty_ty field = actual_ty(fieldList->head->ty);
Ty_ty expTyName = transExp (venv, tenv, efieldList->head->exp).ty;
if (field->kind != expTyName->kind) {
if (field->kind == Ty_record && expTyName->kind == Ty_nil) {
continue;
}
EM_error (a->pos, "field type wrong");
}
}
if (efieldList || fieldList) {
EM_error (a->pos, "field number wrong");
}
return expTy (NULL, record);
}
}
case A_arrayExp: {
Ty_ty array = S_look (tenv, a->u.array.typ);
if (!array) {
EM_error (a->pos, "undefined array type %s", S_name (a->u.array.typ));
return expTy (NULL, array);
}
if (array->kind != Ty_array) {
EM_error (a->pos, "type should be an array");
return expTy (NULL, Ty_Int());
} else {
if (transExp (venv, tenv, a->u.array.size).ty->kind != Ty_int) {
EM_error (a->pos, "array size should be int");
}
if (transExp (venv, tenv, a->u.array.init).ty->kind != array->u.array->kind) {
EM_error (a->pos, "array type should be same as init");
}
return expTy (NULL, array);
}
}
case A_seqExp: {
A_expList d;
for (d = a->u.seq; d && d->tail; d = d->tail) {
transExp (venv, tenv, d->head);
}
if (d) {
return transExp (venv, tenv, d->head);
} else {
return expTy (NULL, Ty_Void());
}
}
case A_assignExp: {
transVar (venv, tenv, a->u.assign.var);
transExp (venv, tenv, a->u.assign.exp);
return expTy (NULL, Ty_Void());
}
case A_ifExp: {
transExp (venv, tenv, a->u.iff.test);
if (a->u.iff.elsee) {
struct expty then = transExp (venv, tenv, a->u.iff.then);
struct expty elsee = transExp (venv, tenv, a->u.iff.elsee);
if (then.ty->kind != elsee.ty->kind) {
EM_error (a->u.iff.elsee->pos, "then should be same as else");
}
return then;
} else {
struct expty then = transExp (venv, tenv, a->u.iff.then);
if (then.ty->kind != Ty_void) {
EM_error (a->u.iff.then->pos, "then should be void");
}
return expTy (NULL, Ty_Void());
}
}
case A_whileExp: {
transExp (venv, tenv, a->u.whilee.test);
struct expty body = transExp (venv, tenv, a->u.whilee.body);
if (body.ty->kind != Ty_void) {
EM_error (a->u.whilee.body->pos, "body of while error, it should return void");
}
return expTy (NULL, Ty_Void());
}
case A_forExp: {
S_enter (venv, a->u.forr.var, E_VarEntry (Ty_Int()));
struct expty lo = transExp (venv, tenv, a->u.forr.lo);
struct expty hi = transExp (venv, tenv, a->u.forr.hi);
if (lo.ty->kind != Ty_int) {
EM_error (a->u.forr.lo->pos, "lo exp of for should be int");
}
if (hi.ty->kind != Ty_int) {
EM_error(a->u.forr.hi->pos, "hi exp of for should be int");
}
S_beginScope (venv);
//if (a->u.forr.body->kind == A_seqExp) {
// A_expList test = a->u.forr.body->u.seq;
// while (test) {
// if (test->head->kind == A_assignExp) {
// }
// }
//}
struct expty body = transExp (venv, tenv, a->u.forr.body);
if (body.ty->kind != Ty_void) {
EM_error (a->u.forr.body->pos, "body of for error, it should return void");
}
S_endScope(venv);
return expTy (NULL, Ty_Void());
}
case A_breakExp: {
return expTy (NULL, Ty_Void());
}
case A_letExp: {
struct expty exp;
A_decList d;
S_beginScope (venv);
S_beginScope (tenv);
for (d = a->u.let.decs; d; d = d->tail) {
transDec (venv, tenv, d->head);
}
exp = transExp (venv, tenv, a->u.let.body);
S_endScope (tenv);
S_endScope (venv);
return exp;
}
}
assert (0);
}
struct expty transExp(S_table venv, S_table tenv, A_exp e) {
if (e == NULL) {
return expTy(NULL, Ty_Void());
}
switch (e->kind) {
case A_varExp: {
return transVar(venv, tenv, e->u.var);
}
case A_nilExp: {
return expTy(NULL, Ty_Nil());
}
case A_intExp: {
return expTy(NULL, Ty_Int());
}
case A_stringExp: {
return expTy(NULL, Ty_String());
}
case A_callExp: {
E_enventry fun = (E_enventry)S_look(venv, e->u.call.func);
if (!fun || fun->kind == E_varEntry) {
EM_error(e->pos, (string)"undefined function '%s'", S_name(e->u.call.func));
return expTy(NULL, Ty_Int());
}
if ((!fun->u.fun.formals && e->u.call.args) || (fun->u.fun.formals && !e->u.call.args)) {
EM_error(e->pos, (string)"incorrect function prototype '%s'", S_name(e->u.call.func));
return expTy(NULL, Ty_Int());
}
Ty_tyList ttl;
A_expList el;
for (ttl = fun->u.fun.formals, el = e->u.call.args; ttl || el; ttl = ttl->tail, el = el->tail) {
if (ttl && !el) {
EM_error(e->pos, (string)"formals are more than actuals");
return expTy(NULL, Ty_Int());
}
if (!ttl && el) {
EM_error(e->pos, (string)"formals are less than actuals");
return expTy(NULL, Ty_Int());
}
struct expty arg = transExp(venv, tenv, el->head);
if (actual_ty(ttl->head)->kind != actual_ty(arg.ty)->kind) {
EM_error(e->pos, (string)"formals and actuals have different types");
return expTy(NULL, Ty_Int());
}
}
if (!fun->u.fun.result) {
return expTy(NULL, Ty_Void());
}
return expTy(NULL, actual_ty(fun->u.fun.result));
}
case A_opExp: {
A_oper oper = e->u.op.oper;
struct expty left = transExp(venv, tenv, e->u.op.left);
struct expty right = transExp(venv, tenv, e->u.op.right);
if (oper == A_plusOp || oper == A_minusOp || oper == A_timesOp || oper == A_divideOp) {
if (left.ty->kind != Ty_int || right.ty->kind != Ty_int) {
EM_error(e->u.op.left->pos, (string)"integer required");
return expTy(NULL, Ty_Int());
}
return expTy(NULL, Ty_Int());
}
if (oper == A_eqOp || oper == A_neqOp) {
if (isSameTy(left.ty, right.ty)) {
return expTy(NULL, Ty_Int());
}
EM_error(e->pos, (string)"same type required");
return expTy(NULL, Ty_Int());
}
if (oper == A_ltOp || oper == A_leOp || oper == A_gtOp || oper == A_geOp) {
if (left.ty->kind == Ty_int && right.ty->kind == Ty_int) {
return expTy(NULL, Ty_Int());
}
if (left.ty->kind == Ty_string && right.ty->kind == Ty_string) {
return expTy(NULL, Ty_Int());
}
EM_error(e->pos, "comparison of incompatible type");
return expTy(NULL, Ty_Int());
}
assert(0);
}
case A_recordExp: {
Ty_ty ty = (Ty_ty)S_look(tenv, e->u.record.typ);
if (!ty) {
EM_error(e->pos, "undefined record type '%s'", S_name(e->u.record.typ));
return expTy(NULL, Ty_Nil());
}
ty = actual_ty(ty);
if (ty->kind != Ty_record) {
EM_error(e->pos, "'%s' is not a record", S_name(e->u.record.typ));
}
else {
Ty_fieldList tfl;
A_efieldList efl;
for (tfl = ty->u.record, efl = e->u.record.fields; tfl || efl; tfl = tfl->tail, efl = efl->tail) {
if (tfl && !efl) {
EM_error(e->pos, "record field is less than need");
return expTy(NULL, Ty_Nil());
}
if (!tfl && efl) {
EM_error(e->pos, "record field is more than need");
return expTy(NULL, Ty_Nil());
}
if (tfl->head->name != efl->head->name) {
EM_error(e->pos, "record field mismatch");
return expTy(NULL, Ty_Nil());
}
struct expty res = transExp(venv, tenv, efl->head->exp);
Ty_ty fieldty = actual_ty(tfl->head->ty);
if (!isSameTy(fieldty, res.ty)) {
EM_error(e->pos, (string)"record field mismatch");
return expTy(NULL, Ty_Nil());
}
}
}
return expTy(NULL, ty);
}
case A_seqExp: {
A_expList el = e->u.seq;
if (el) {
while (el->tail) {
transExp(venv, tenv, el->head);
el = el->tail;
}
return expTy(NULL, transExp(venv, tenv, el->head).ty);
}
return expTy(NULL, Ty_Void());
}
case A_assignExp: {
struct expty left = transVar(venv, tenv, e->u.assign.var);
struct expty right = transExp(venv, tenv, e->u.assign.exp);
if (isSameTy(left.ty, right.ty)) {
return expTy(NULL, Ty_Void());
}
EM_error(e->pos, "type mismatch");
return expTy(NULL, Ty_Void());
}
case A_ifExp: {
struct expty test = transExp(venv, tenv, e->u.iff.test);
if (test.ty->kind != Ty_int) {
EM_error(e->pos, "if-else clause integer test required");
return expTy(NULL, Ty_Void());
}
struct expty then = transExp(venv, tenv, e->u.iff.then);
if (e->u.iff.elsee == NULL) {
if (then.ty->kind != Ty_void) {
EM_error(e->pos, "if-then returns non unit");
return expTy(NULL, Ty_Void());
}
return expTy(NULL, Ty_Void());
}
struct expty elsee = transExp(venv, tenv, e->u.iff.elsee);
if (isSameTy(then.ty, elsee.ty)) {
return expTy(NULL, then.ty);
}
EM_error(e->pos, "types of then - else differ");
return expTy(NULL, Ty_Void());
}
case A_whileExp: {
struct expty test = transExp(venv, tenv, e->u.whilee.test);
struct expty body = transExp(venv, tenv, e->u.whilee.body);
if (test.ty->kind != Ty_int) {
EM_error(e->pos, "test clause integer required");
return expTy(NULL, Ty_Void());
}
if (body.ty->kind != Ty_void) {
EM_error(e->pos, "body of while not void");
return expTy(NULL, Ty_Void());
}
return expTy(NULL, Ty_Void());
}
case A_forExp: {
struct expty lo = transExp(venv, tenv, e->u.forr.lo);
struct expty hi = transExp(venv, tenv, e->u.forr.hi);
if (lo.ty->kind != Ty_int || hi.ty->kind != Ty_int) {
EM_error(e->pos, "for clause lo and hi integer required");
return expTy(NULL, Ty_Void());
}
S_beginScope(venv);
if (!S_look(venv, e->u.forr.var)) {
S_enter(venv, e->u.forr.var, E_VarEntry(Ty_Int()));
}
struct expty body = transExp(venv, tenv, e->u.forr.body);
S_endScope(venv);
if (body.ty->kind != Ty_void) {
EM_error(e->pos, "for clause body no-value required");
return expTy(NULL, Ty_Void());
}
return expTy(NULL, Ty_Void());
}
case A_breakExp: {
return expTy(NULL, Ty_Void());
}
case A_letExp: {
A_decList d;
S_beginScope(venv);
S_beginScope(tenv);
for (d = e->u.let.decs; d; d = d->tail) {
transDec(venv, tenv, d->head);
}
struct expty exp = transExp(venv, tenv, e->u.let.body);
S_endScope(venv);
S_endScope(tenv);
return exp;
}
case A_arrayExp: {
struct expty size = transExp(venv, tenv, e->u.array.size);
struct expty init = transExp(venv, tenv, e->u.array.init);
Ty_ty ty = (Ty_ty)S_look(tenv, e->u.array.typ);
if (!ty) {
EM_error(e->pos, "undefined array type '%s'", S_name(e->u.array.typ));
return expTy(NULL, Ty_Void());
}
ty = actual_ty(ty);
if (ty->kind != Ty_array) {
EM_error(e->pos, "'%s' is not a array", S_name(e->u.array.typ));
return expTy(NULL, Ty_Void());
}
if (size.ty->kind != Ty_int) {
EM_error(e->pos, "size int value required");
return expTy(NULL, actual_ty(ty));
}
Ty_ty ty2 = actual_ty(ty->u.array);
if (!isSameTy(ty2, init.ty)) {
EM_error(e->pos, "initializing exp and array type differ");
return expTy(NULL, Ty_Void());
}
return expTy(NULL, ty);
}
default: {
assert(0);
}
}
}
struct expty transDec(S_table venv, S_table tenv, A_dec d)
{
switch( d->kind )
{
case A_functionDec:
{
//whether already in funcdeclar
if(InFunc())
EM_error( d->pos , "already in func declare");
A_fundecList funcs = d->u.function;
// for every fun declare in fundecList
for( ; funcs != NULL ; funcs = funcs->tail )
{
A_fundec func = funcs->head;
// get ty of params and result
Ty_tyList funentry = makeFormalTyList( tenv , func->params );
Ty_ty res;
if( func->result == NULL )
res = Ty_Nil();
else
res = S_look( tenv , func->result );
if( res == NULL )
EM_error( func->pos , "no " , S_name( func->result ) , "type ");
//whether already defined
if( S_look( venv , func->name ) != NULL )
EM_error( func->pos , S_name( func->result ) ,
"already defined" );
S_enter( venv , func->name , E_FunEntry( funentry , res ) );
}
funcs = d->u.function;
// for every fun in fundecList, call tranexp on its body
for( ; funcs != NULL ; funcs = funcs->tail )
{
A_fundec func = funcs->head;
S_beginScope( venv );
A_fieldList args = func->params;
Ty_tyList funentries = ((E_entry)S_look( venv , func->name ))
->fun.formalTys ;
for( ; args != NULL ; args = args->tail ,
funentries = funentries->tail)
{
A_field arg = args->head;
Ty_ty type = funentries->head;
S_enter( venv , arg->name , type );
}
SetInFunc();
transExp( venv , tenv , func->body );
UsetInFunc();
S_endScope( venv );
}
return _expTy( NULL , Ty_Void() );
}
case A_varDec:
{
Ty_ty type = S_look( tenv , d->u.var.typ );
if( type == NULL )
EM_error( d->pos , S_name( d->u.var.typ ) , " not defined " );
struct expty init = transExp( venv , tenv , d->u.var.init );
if( init.ty->kind != Ty_nil && init.ty->kind != type->kind )
EM_error( d->pos , "Expect " , tyKindName( type->kind ) , " but " ,
tyKindName( init.ty->kind ) );
if( S_look( venv , d->u.var.var ) != NULL )
EM_error( d->pos , S_name( d->u.var.var ) , " already defined " );
S_enter( venv , d->u.var.var , type );
return _expTy( NULL , Ty_Void() );
}
case A_typeDec:
{
A_nametyList tylist = d->u.type;
for( ; tylist != NULL ; tylist = tylist->tail )
{
A_namety tydec = tylist->head;
if( S_look( tenv , tydec->name ) != NULL )
EM_error( tydec->ty->pos , S_name( tydec->name ) ,
" already declared " );
A_ty ty = tydec->ty;
switch( ty->kind )
{
case A_nameTy:
{
Ty_ty tyy = S_look( tenv , ty->u.name ) ;
if( tyy == NULL )
S_enter( tenv , tydec->name ,
Ty_Name( ty->u.name , NULL ) );
else
S_enter( tenv , tydec->name , tyy );
}
case A_recordTy:
{
A_fieldList records = ty->u.record;
Ty_fieldList types = dfsRecordTy( tenv , records );
S_enter( tenv , tydec->name , Ty_Record( types ) );
}
case A_arrayTy:
default:
assert(0);
}
S_enter( tenv , tydec->name , E_VarEntry( NULL ) );
}
tylist = d->u.type;
for( ; tylist != NULL ; tylist = tylist->tail )
{
A_namety tydec = tylist->head;
A_ty ty = tydec->ty;
switch( ty->kind )
{
case A_nameTy:
{
Ty_ty tyy = S_look( tenv , ty->u.name );
if( tyy->u.name.ty == NULL )
tyy->u.name.ty = dfsTypeDec( ty->pos , tenv ,
tyy->u.name.sym ,
tydec->name );
}
case A_recordTy:
case A_arrayTy:
default:
assert(0);
}
}
}
default:
assert(0);
}
}
