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/*****
* dec.h
* Andy Hammerlindl 2002/8/29
*
* Represents the abstract syntax tree for declatations in the language.
* Also included is abstract syntax for types as they are most often
* used with declarations.
*****/
#ifndef DEC_H
#define DEC_H
#include "symbol.h"
#include "absyn.h"
#include "name.h"
#include "varinit.h"
#include "modifier.h"
namespace trans {
class coenv;
class genv;
class protoenv;
class varEntry;
class access;
}
namespace types {
class ty;
class formal;
class signature;
class function;
}
namespace vm {
class lambda;
}
namespace absyntax {
using trans::genv;
using trans::coenv;
using trans::protoenv;
using trans::varEntry;
using trans::access;
using sym::symbol;
class ty : public absyn {
public:
ty(position pos)
: absyn(pos) {}
virtual void prettyprint(ostream &out, Int indent) = 0;
// If we introduced a new type, automatically add corresponding functions for
// that type.
virtual void addOps(coenv &, record *) {}
// Returns the internal representation of the type. This method can
// be called by exp::getType which does not report errors, so tacit is
// needed to silence errors in this case.
virtual types::ty *trans(coenv &e, bool tacit = false) = 0;
virtual trans::tyEntry *transAsTyEntry(coenv &e, record *where);
};
class nameTy : public ty {
name *id;
public:
nameTy(position pos, name *id)
: ty(pos), id(id) {}
nameTy(name *id)
: ty(id->getPos()), id(id) {}
void prettyprint(ostream &out, Int indent);
types::ty *trans(coenv &e, bool tacit = false);
trans::tyEntry *transAsTyEntry(coenv &e, record *where);
};
class dimensions : public absyn {
size_t depth;
public:
dimensions(position pos)
: absyn(pos), depth(1) {}
void prettyprint(ostream &out, Int indent);
void increase()
{ depth++; }
size_t size() {
return depth;
}
types::array *truetype(types::ty *base);
};
class arrayTy : public ty {
ty *cell;
dimensions *dims;
public:
arrayTy(position pos, ty *cell, dimensions *dims)
: ty(pos), cell(cell), dims(dims) {}
arrayTy(name *id, dimensions *dims)
: ty(dims->getPos()), cell(new nameTy(id)), dims(dims) {}
void prettyprint(ostream &out, Int indent);
void addOps(coenv &e, record *r);
types::ty *trans(coenv &e, bool tacit = false);
};
// Similar to varEntryExp, this helper class always translates to the same fixed
// type.
class tyEntryTy : public ty {
trans::tyEntry *ent;
public:
tyEntryTy(position pos, trans::tyEntry *ent)
: ty(pos), ent(ent) {}
tyEntryTy(position pos, types::ty *t);
void prettyprint(ostream &out, Int indent);
types::ty *trans(coenv &e, bool tacit = false);
trans::tyEntry *transAsTyEntry(coenv &, record *) {
return ent;
}
};
// Runnable is anything that can be executed by the program, including
// any declaration or statement.
class runnable : public absyn {
public:
runnable(position pos)
: absyn(pos) {}
virtual void prettyprint(ostream &out, Int indent) = 0;
void markTrans(coenv &e)
{
markPos(e);
trans(e);
}
/* Translates the stm or dec as if it were in a function definition. */
virtual void trans(coenv &e) {
transAsField(e, 0);
}
/* This can be overridden, to specify a special way of translating the code
* when it is run at the top of the interactive prompt.
*/
virtual void interactiveTrans(coenv &e) {
trans(e);
}
void markTransAsField(coenv &e, record *r)
{
markPos(e);
transAsField(e,r);
}
/* Translate the runnable as in the lowest lexical scope of a record
* definition. If it is simply a statement, it will be added to the
* record's initializer. A declaration, however, will also have to
* add a new type or field to the record.
*/
virtual void transAsField(coenv &e, record *) = 0;
virtual vm::lambda *transAsCodelet(coenv &e);
// For functions that return a value, we must guarantee that they end
// with a return statement. This checks for that condition.
virtual bool returns()
{ return false; }
// Returns true if it is syntatically allowable to modify this
// runnable by a PUBLIC or PRIVATE modifier.
virtual bool allowPermissions()
{ return false; }
};
class block : public runnable {
public:
mem::list<runnable *> stms;
// If the runnables should be interpreted in their own scope.
bool scope;
protected:
void prettystms(ostream &out, Int indent);
public:
block(position pos, bool scope=true)
: runnable(pos), scope(scope) {}
// To ensure list deallocates properly.
virtual ~block() {}
void add(runnable *r) {
stms.push_back(r);
}
void prettyprint(ostream &out, Int indent);
void trans(coenv &e);
void transAsField(coenv &e, record *r);
void transAsRecordBody(coenv &e, record *r);
types::record *transAsFile(genv& ge, symbol *id);
// A block is guaranteed to return iff one of the runnables is guaranteed to
// return.
// This is conservative in that
//
// int f(int x)
// {
// if (x==1) return 0;
// if (x!=1) return 1;
// }
//
// is not guaranteed to return.
bool returns();
};
class modifierList : public absyn {
mem::list<trans::permission> perms;
mem::list<trans::modifier> mods;
public:
modifierList(position pos)
: absyn(pos) {}
virtual ~modifierList()
{}
void prettyprint(ostream &out, Int indent);
void add(trans::permission p)
{
perms.push_back(p);
}
void add(trans::modifier m)
{
mods.push_back(m);
}
/* True if a static or dynamic modifier is present.
*/
bool staticSet();
/* Says if the modifiers indicate static or dynamic. Prints error if
* there are duplicates.
*/
trans::modifier getModifier();
/* Says if it is declared public, private, or read-only (default).
* Prints error if there are duplicates.
*/
trans::permission getPermission();
};
// Modifiers of static or dynamic can change the way declarations and
// statements are encoded.
class modifiedRunnable : public runnable {
modifierList *mods;
runnable *body;
public:
modifiedRunnable(position pos, modifierList *mods, runnable *body)
: runnable(pos), mods(mods), body(body) {}
modifiedRunnable(position pos, trans::permission perm, runnable *body)
: runnable(pos), mods(new modifierList(pos)), body(body) {
mods->add(perm);
}
void prettyprint(ostream &out, Int indent);
void transAsField(coenv &e, record *r);
bool returns()
{ return body->returns(); }
};
class decidstart : public absyn {
protected:
symbol *id;
dimensions *dims;
public:
decidstart(position pos, symbol *id, dimensions *dims = 0)
: absyn(pos), id(id), dims(dims) {}
virtual void prettyprint(ostream &out, Int indent);
virtual types::ty *getType(types::ty *base, coenv &, bool = false);
virtual trans::tyEntry *getTyEntry(trans::tyEntry *base, coenv &e,
record *where);
// If a new type is formed by adding dimensions (or a function signature)
// after the id, this will add the standard functions for that new type.
virtual void addOps(types::ty *base, coenv &e, record *r);
virtual symbol *getName()
{ return id; }
};
// Forward declaration.
class formals;
class fundecidstart : public decidstart {
formals *params;
public:
fundecidstart(position pos,
symbol *id,
dimensions *dims = 0,
formals *params = 0)
: decidstart(pos, id, dims), params(params) {}
void prettyprint(ostream &out, Int indent);
types::ty *getType(types::ty *base, coenv &e, bool tacit = false);
trans::tyEntry *getTyEntry(trans::tyEntry *base, coenv &e, record *where);
void addOps(types::ty *base, coenv &e, record *r);
};
class decid : public absyn {
decidstart *start;
varinit *init;
// Returns the default initializer for the type.
access *defaultInit(coenv &e, types::ty *t);
public:
decid(position pos, decidstart *start, varinit *init = 0)
: absyn(pos), start(start), init(init) {}
virtual void prettyprint(ostream &out, Int indent);
virtual void transAsField(coenv &e, record *r, types::ty *base);
// Translate, but add the names in as types rather than variables.
virtual void transAsTypedefField(coenv &e, trans::tyEntry *base, record *r);
};
class decidlist : public absyn {
mem::list<decid *> decs;
public:
decidlist(position pos)
: absyn(pos) {}
virtual ~decidlist() {}
void add(decid *p) {
decs.push_back(p);
}
virtual void prettyprint(ostream &out, Int indent);
virtual void transAsField(coenv &e, record *r, types::ty *base);
// Translate, but add the names in as types rather than variables.
virtual void transAsTypedefField(coenv &e, trans::tyEntry *base, record *r);
};
class dec : public runnable {
public:
dec(position pos)
: runnable(pos) {}
void prettyprint(ostream &out, Int indent);
// Declarations can be public or private.
bool allowPermissions()
{ return true; }
};
void createVar(position pos, coenv &e, record *r,
symbol *id, types::ty *t, varinit *init);
class vardec : public dec {
ty *base;
decidlist *decs;
public:
vardec(position pos, ty *base, decidlist *decs)
: dec(pos), base(base), decs(decs) {}
vardec(position pos, ty *base, decid *di)
: dec(pos), base(base), decs(new decidlist(pos))
{
decs->add(di);
}
void prettyprint(ostream &out, Int indent);
void transAsField(coenv &e, record *r)
{
base->addOps(e, r);
decs->transAsField(e, r, base->trans(e));
}
// Translate, but add the names in as types rather than variables.
virtual void transAsTypedefField(coenv &e, record *r);
};
struct idpair : public absyn {
symbol *src; // The name of the module to access.
symbol *dest; // What to call it in the local environment.
bool valid; // If it parsed properly.
idpair(position pos, symbol *id)
: absyn(pos), src(id), dest(id), valid(true) {}
idpair(position pos, symbol *src, symbol *as, symbol *dest)
: absyn(pos), src(src), dest(dest), valid(as==symbol::trans("as")) {}
void checkValidity() {
if (!valid) {
em.error(getPos());
em << "expected 'as'";
}
}
void prettyprint(ostream &out, Int indent);
// Translates as: access src as dest;
void transAsAccess(coenv &e, record *r);
// Translates as: from _ unravel src as dest;
// where _ is the qualifier record with source as its fields and types.
void transAsUnravel(coenv &e, record *r,
protoenv &source, varEntry *qualifier);
};
struct idpairlist : public gc {
mem::list<idpair *> base;
void add(idpair *x) {
base.push_back(x);
}
void prettyprint(ostream &out, Int indent);
void transAsAccess(coenv &e, record *r);
void transAsUnravel(coenv &e, record *r,
protoenv &source, varEntry *qualifier);
};
extern idpairlist * const WILDCARD;
class accessdec : public dec {
idpairlist *base;
public:
accessdec(position pos, idpairlist *base)
: dec(pos), base(base) {}
void prettyprint(ostream &out, Int indent);
void transAsField(coenv &e, record *r) {
base->transAsAccess(e,r);
}
};
// Abstract base class for
// from _ access _; (fromaccessdec)
// and
// from _ unravel _; (unraveldec)
class fromdec : public dec {
protected:
struct qualifier {
// The varEntry holds the location and the type of the highest framed
// structure that can be put on the stack. The record holds the actual type
// of the qualifier.
// For example:
// struct A {
// struct B {
// static int x;
// }
// }
// A a=new A;
// from a.B unravel x;
//
// Here, v->getType() will yield A and v->getLocation() will yield the
// location of the the variable a, but the record type t will be B.
record *t;
varEntry *v;
qualifier(record *t, varEntry *v)
: t(t), v(v) {}
};
// Return the qualifier from which the fields are taken. If t==0, it is
// assumed that an error occurred and was reported.
virtual qualifier getQualifier(coenv &e, record *r) = 0;
idpairlist *fields;
public:
fromdec(position pos, idpairlist *fields)
: dec(pos), fields(fields) {}
void prettyprint(ostream &out, Int indent);
void transAsField(coenv &e, record *r);
};
// An unravel declaration dumps fields and types of a record into the local
// scope.
class unraveldec : public fromdec {
name *id;
qualifier getQualifier(coenv &e, record *);
public:
unraveldec(position pos, name *id, idpairlist *fields)
: fromdec(pos, fields), id(id) {}
void prettyprint(ostream &out, Int indent);
};
// A fromaccess declaration dumps fields and types of a module into the local
// scope. It does not add the module as a variable in the local scope.
class fromaccessdec : public fromdec {
symbol *id;
qualifier getQualifier(coenv &e, record *r);
public:
fromaccessdec(position pos, symbol *id, idpairlist *fields)
: fromdec(pos, fields), id(id) {}
void prettyprint(ostream &out, Int indent);
};
// An import declaration dumps fields and types of a module into the local
// scope. It also adds the module as a variable in the local scope.
class importdec : public dec {
block base;
public:
importdec(position pos, idpair *id)
: dec(pos), base(pos, false) {
idpairlist *i=new idpairlist;
i->add(id);
base.add(new accessdec(pos, i));
base.add(new unraveldec(pos, new simpleName(pos, id->dest), WILDCARD));
}
void trans(coenv &e) {
base.trans(e);
}
void transAsField(coenv &e, record *r) {
base.transAsField(e, r);
}
void prettyprint(ostream &out, Int indent);
};
// Parses the file given, and translates the resulting runnables as if they
// occurred at this place in the code.
class includedec : public dec {
string filename;
public:
includedec(position pos, string filename)
: dec(pos), filename(filename) {}
includedec(position pos, symbol *id)
: dec(pos), filename(*id) {}
void prettyprint(ostream &out, Int indent);
void loadFailed(coenv &e);
void transAsField(coenv &e, record *r);
};
// Types defined from others in typedef.
class typedec : public dec {
vardec *body;
public:
typedec(position pos, vardec *body)
: dec(pos), body(body) {}
void prettyprint(ostream &out, Int indent);
void transAsField(coenv &e, record *r) {
body->transAsTypedefField(e,r);
}
};
// A struct declaration.
class recorddec : public dec {
symbol *id;
block *body;
void transRecordInitializer(coenv &e, record *parent);
void addPostRecordEnvironment(coenv &e, record *r, record *parent);
public:
recorddec(position pos, symbol *id, block *body)
: dec(pos), id(id), body(body) {}
virtual ~recorddec()
{}
void prettyprint(ostream &out, Int indent);
void transAsField(coenv &e, record *parent);
};
// Returns a runnable that facilitates the autoplain feature.
runnable *autoplainRunnable();
void addVar(coenv &e, record *r, varEntry *v, symbol *id);
} // namespace absyntax
#endif
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