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/*****
* name.cc
* Andy Hammerlindl2002/07/14
*
* Qualified names (such as x, f, builtin.sin, a.b.c.d, etc.) can be used
* either as variables or a type names. This class stores qualified
* names used in nameExp and nameTy in the abstract syntax, and
* implements the exp and type functions.
*****/
#include "name.h"
#include "frame.h"
#include "record.h"
#include "coenv.h"
#include "inst.h"
namespace absyntax {
using namespace types;
using trans::access;
using trans::qualifiedAccess;
using trans::action;
using trans::READ;
using trans::WRITE;
using trans::CALL;
using vm::inst;
types::ty *signatureless(types::ty *t) {
if (overloaded *o=dynamic_cast<overloaded *>(t))
return o->signatureless();
else
return (t && !t->getSignature()) ? t : 0;
}
void name::forceEquivalency(action act, coenv &e,
types::ty *target, types::ty *source)
{
if (act == READ)
e.implicitCast(getPos(), target, source);
else if (!equivalent(target, source)) {
em.compiler(getPos());
em << "type mismatch in variable: "
<< *target
<< " vs " << *source;
}
}
frame *name::frameTrans(coenv &e)
{
if (types::ty *t=signatureless(varGetType(e))) {
if (t->kind == types::ty_record) {
varTrans(READ, e, t);
return ((record *)t)->getLevel();
}
else
return 0;
}
else
return tyFrameTrans(e);
}
types::ty *name::getType(coenv &e, bool tacit)
{
types::ty *t=signatureless(varGetType(e));
if (!tacit && t && t->kind == ty_error)
// Report errors associated with regarding the name as a variable.
varTrans(trans::READ, e, t);
return t ? t : typeTrans(e, tacit);
}
varEntry *simpleName::getVarEntry(coenv &e)
{
types::ty *t=signatureless(varGetType(e));
return t ? e.e.lookupVarByType(id, t) : 0;
}
void simpleName::varTrans(action act, coenv &e, types::ty *target)
{
varEntry *v = e.e.lookupVarByType(id, target);
if (v) {
v->encode(act, getPos(), e.c);
forceEquivalency(act, e, target, v->getType());
}
else {
em.error(getPos());
em << "no matching variable of name \'" << *id << "\'";
}
}
types::ty *simpleName::varGetType(coenv &e)
{
return e.e.varGetType(id);
}
types::ty *simpleName::typeTrans(coenv &e, bool tacit)
{
types::ty *t = e.e.lookupType(id);
if (t) {
return t;
}
else {
if (!tacit) {
em.error(getPos());
em << "no type of name \'" << *id << "\'";
}
return primError();
}
}
tyEntry *simpleName::tyEntryTrans(coenv &e)
{
tyEntry *ent = e.e.lookupTyEntry(id);
if (!ent) {
em.error(getPos());
em << "no type of name \'" << *id << "\'";
return new tyEntry(primError(), 0, 0, position());
}
return ent;
}
frame *simpleName::tyFrameTrans(coenv &e)
{
tyEntry *ent = e.e.lookupTyEntry(id);
if (ent && ent->t->kind==types::ty_record && ent->v) {
ent->v->encode(READ, getPos(), e.c);
return ent->v->getLevel();
}
else
return 0;
}
void simpleName::prettyprint(ostream &out, Int indent)
{
prettyindent(out, indent);
out << "simpleName '" << *id << "'\n";
}
record *qualifiedName::castToRecord(types::ty *t, bool tacit)
{
switch (t->kind) {
case ty_overloaded:
if (!tacit) {
em.compiler(qualifier->getPos());
em << "name::getType returned overloaded";
}
return 0;
case ty_record:
return (record *)t;
case ty_error:
return 0;
default:
if (!tacit) {
em.error(qualifier->getPos());
em << "type \'" << *t << "\' is not a structure";
}
return 0;
}
}
bool qualifiedName::varTransVirtual(action act, coenv &e,
types::ty *target, types::ty *qt)
{
varEntry *v = qt->virtualField(id, target->getSignature());
if (v) {
// Push qualifier onto stack.
qualifier->varTrans(READ, e, qt);
v->encode(act, getPos(), e.c);
// A virtual field was used.
return true;
}
// No virtual field.
return false;
}
void qualifiedName::varTransField(action act, coenv &e,
types::ty *target, record *r)
{
varEntry *v = r->e.lookupVarByType(id, target);
if (v) {
frame *f = qualifier->frameTrans(e);
if (f)
v->encode(act, getPos(), e.c, f);
else
v->encode(act, getPos(), e.c);
forceEquivalency(act, e, target, v->getType());
}
else {
em.error(getPos());
em << "no matching field of name \'" << *id << "\' in \'" << *r << "\'";
}
}
void qualifiedName::varTrans(action act, coenv &e, types::ty *target)
{
types::ty *qt = qualifier->getType(e);
// Use virtual fields if applicable.
if (varTransVirtual(act, e, target, qt))
return;
record *r = castToRecord(qt);
if (r)
varTransField(act, e, target, r);
}
types::ty *qualifiedName::varGetType(coenv &e)
{
types::ty *qt = qualifier->getType(e, true);
// Look for virtual fields.
types::ty *t = qt->virtualFieldGetType(id);
if (t)
return t;
record *r = castToRecord(qt, true);
return r ? r->e.varGetType(id) : 0;
}
trans::varEntry *qualifiedName::getVarEntry(coenv &e)
{
varEntry *qv = qualifier->getVarEntry(e);
types::ty *qt = qualifier->getType(e, true);
record *r = castToRecord(qt, true);
if (r) {
types::ty *t = signatureless(r->e.varGetType(id));
varEntry *v = t ? r->e.lookupVarByType(id, t) : 0;
return trans::qualifyVarEntry(qv,v);
}
else
return qv;
}
types::ty *qualifiedName::typeTrans(coenv &e, bool tacit)
{
types::ty *rt = qualifier->getType(e, tacit);
record *r = castToRecord(rt, tacit);
if (!r)
return primError();
tyEntry *ent = r->e.lookupTyEntry(id);
if (ent) {
if (!tacit)
ent->reportPerm(READ, getPos(), e.c);
return ent->t;
}
else {
if (!tacit) {
em.error(getPos());
em << "no matching field or type of name \'" << *id << "\' in \'"
<< *r << "\'";
}
return primError();
}
}
tyEntry *qualifiedName::tyEntryTrans(coenv &e)
{
types::ty *rt = qualifier->getType(e, false);
record *r = castToRecord(rt, false);
if (!r)
return new tyEntry(primError(), 0, 0, position());
tyEntry *ent = r->e.lookupTyEntry(id);
if (!ent) {
em.error(getPos());
em << "no matching type of name \'" << *id << "\' in \'"
<< *r << "\'";
return new tyEntry(primError(), 0, 0, position());
}
ent->reportPerm(READ, getPos(), e.c);
return trans::qualifyTyEntry(qualifier->getVarEntry(e), ent);
}
frame *qualifiedName::tyFrameTrans(coenv &e)
{
frame *f=qualifier->frameTrans(e);
tyEntry *ent = e.e.lookupTyEntry(id);
if (ent && ent->t->kind==types::ty_record && ent->v) {
if (f)
ent->v->encode(READ, getPos(), e.c, f);
else
ent->v->encode(READ, getPos(), e.c);
return ent->v->getLevel();
}
else
return f;
}
void qualifiedName::prettyprint(ostream &out, Int indent)
{
prettyindent(out, indent);
out << "qualifiedName '" << *id << "'\n";
qualifier->prettyprint(out, indent+1);
}
} // namespace absyntax
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