src/cmd/gc/closure.c - go - Git at Google

 // Copyright 2009 The Go Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 /*
  * function literals aka closures
  */

 #include "go.h"

 void
 closurehdr(Node *ntype)
 {
 	Node *n, *name, *a;
 	NodeList *l;

 	n = nod(OCLOSURE, N, N);
 	n->ntype = ntype;
 	n->funcdepth = funcdepth;

 	funchdr(n);

 	// steal ntype's argument names and
 	// leave a fresh copy in their place.
 	// references to these variables need to
 	// refer to the variables in the external
 	// function declared below; see walkclosure.
 	n->list = ntype->list;
 	n->rlist = ntype->rlist;
 	ntype->list = nil;
 	ntype->rlist = nil;
 	for(l=n->list; l; l=l->next) {
 		name = l->n->left;
 		if(name)
 			name = newname(name->sym);
 		a = nod(ODCLFIELD, name, l->n->right);
 		a->isddd = l->n->isddd;
 		if(name)
 			name->isddd = a->isddd;
 		ntype->list = list(ntype->list, a);
 	}
 	for(l=n->rlist; l; l=l->next) {
 		name = l->n->left;
 		if(name)
 			name = newname(name->sym);
 		ntype->rlist = list(ntype->rlist, nod(ODCLFIELD, name, l->n->right));
 	}
 }

 Node*
 closurebody(NodeList *body)
 {
 	Node *func, *v;
 	NodeList *l;

 	if(body == nil)
 		body = list1(nod(OEMPTY, N, N));

 	func = curfn;
 	l = func->dcl;
 	func->nbody = body;
 	funcbody(func);

 	// closure-specific variables are hanging off the
 	// ordinary ones in the symbol table; see oldname.
 	// unhook them.
 	// make the list of pointers for the closure call.
 	for(l=func->cvars; l; l=l->next) {
 		v = l->n;
 		v->closure->closure = v->outer;
 		v->heapaddr = nod(OADDR, oldname(v->sym), N);
 	}

 	return func;
 }

 void
 typecheckclosure(Node *func)
 {
 	Node *oldfn;
 	NodeList *l;
 	Node *v;

 	oldfn = curfn;
 	typecheck(&func->ntype, Etype);
 	func->type = func->ntype->type;
 	if(func->type != T) {
 		curfn = func;
 		typechecklist(func->nbody, Etop);
 		curfn = oldfn;
 	}

 	// type check the & of closed variables outside the closure,
 	// so that the outer frame also grabs them and knows they
 	// escape.
 	func->enter = nil;
 	for(l=func->cvars; l; l=l->next) {
 		v = l->n;
 		if(v->type == T) {
 			// if v->type is nil, it means v looked like it was
 			// going to be used in the closure but wasn't.
 			// this happens because when parsing a, b, c := f()
 			// the a, b, c gets parsed as references to older
 			// a, b, c before the parser figures out this is a
 			// declaration.
 			v->op = 0;
 			continue;
 		}
 		typecheck(&v->heapaddr, Erv);
 		func->enter = list(func->enter, v->heapaddr);
 		v->heapaddr = N;
 	}
 }

 Node*
 walkclosure(Node *func, NodeList **init)
 {
 	int narg;
 	Node *xtype, *v, *addr, *xfunc, *call, *clos;
 	NodeList *l, *in;
 	static int closgen;

 	/*
 	 * wrap body in external function
 	 * with extra closure parameters.
 	 */
 	xtype = nod(OTFUNC, N, N);

 	// each closure variable has a corresponding
 	// address parameter.
 	narg = 0;
 	for(l=func->cvars; l; l=l->next) {
 		v = l->n;
 		if(v->op == 0)
 			continue;
 		addr = nod(ONAME, N, N);
 		snprint(namebuf, sizeof namebuf, "&%s", v->sym->name);
 		addr->sym = lookup(namebuf);
 		addr->ntype = nod(OIND, typenod(v->type), N);
 		addr->class = PPARAM;
 		addr->addable = 1;
 		addr->ullman = 1;
 		narg++;

 		v->heapaddr = addr;

 		xtype->list = list(xtype->list, nod(ODCLFIELD, addr, addr->ntype));
 	}

 	// then a dummy arg where the closure's caller pc sits
 	xtype->list = list(xtype->list, nod(ODCLFIELD, N, typenod(types[TUINTPTR])));

 	// then the function arguments
 	xtype->list = concat(xtype->list, func->list);
 	xtype->rlist = concat(xtype->rlist, func->rlist);

 	// create the function
 	xfunc = nod(ODCLFUNC, N, N);
 	snprint(namebuf, sizeof namebuf, "_func_%.3ld", ++closgen);
 	xfunc->nname = newname(lookup(namebuf));
 	xfunc->nname->ntype = xtype;
 	xfunc->nname->defn = xfunc;
 	declare(xfunc->nname, PFUNC);
 	xfunc->nname->funcdepth = func->funcdepth;
 	xfunc->funcdepth = func->funcdepth;
 	xfunc->nbody = func->nbody;
 	xfunc->dcl = func->dcl;
 	if(xfunc->nbody == nil)
 		fatal("empty body - won't generate any code");
 	typecheck(&xfunc, Etop);
 	closures = list(closures, xfunc);

 	// prepare call of sys.closure that turns external func into func literal value.
 	clos = syslook("closure", 1);
 	clos->type = T;
 	clos->ntype = nod(OTFUNC, N, N);
 	in = list1(nod(ODCLFIELD, N, typenod(types[TINT])));	// siz
 	in = list(in, nod(ODCLFIELD, N, xtype));
 	for(l=func->cvars; l; l=l->next) {
 		if(l->n->op == 0)
 			continue;
 		in = list(in, nod(ODCLFIELD, N, l->n->heapaddr->ntype));
 	}
 	clos->ntype->list = in;
 	clos->ntype->rlist = list1(nod(ODCLFIELD, N, typenod(func->type)));
 	typecheck(&clos, Erv);

 	call = nod(OCALL, clos, N);
 	if(narg*widthptr > 100)
 		yyerror("closure needs too many variables; runtime will reject it");
 	in = list1(nodintconst(narg*widthptr));
 	in = list(in, xfunc->nname);
 	in = concat(in, func->enter);
 	call->list = in;

 	typecheck(&call, Erv);
 	walkexpr(&call, init);
 	return call;
 }
	// Copyright 2009 The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	/*
	* function literals aka closures
	*/

	#include "go.h"

	void
	closurehdr(Node *ntype)
	{
	Node n, name, *a;
	NodeList *l;

	n = nod(OCLOSURE, N, N);
	n->ntype = ntype;
	n->funcdepth = funcdepth;

	funchdr(n);

	// steal ntype's argument names and
	// leave a fresh copy in their place.
	// references to these variables need to
	// refer to the variables in the external
	// function declared below; see walkclosure.
	n->list = ntype->list;
	n->rlist = ntype->rlist;
	ntype->list = nil;
	ntype->rlist = nil;
	for(l=n->list; l; l=l->next) {
	name = l->n->left;
	if(name)
	name = newname(name->sym);
	a = nod(ODCLFIELD, name, l->n->right);
	a->isddd = l->n->isddd;
	if(name)
	name->isddd = a->isddd;
	ntype->list = list(ntype->list, a);
	}
	for(l=n->rlist; l; l=l->next) {
	name = l->n->left;
	if(name)
	name = newname(name->sym);
	ntype->rlist = list(ntype->rlist, nod(ODCLFIELD, name, l->n->right));
	}
	}

	Node*
	closurebody(NodeList *body)
	{
	Node func, v;
	NodeList *l;

	if(body == nil)
	body = list1(nod(OEMPTY, N, N));

	func = curfn;
	l = func->dcl;
	func->nbody = body;
	funcbody(func);

	// closure-specific variables are hanging off the
	// ordinary ones in the symbol table; see oldname.
	// unhook them.
	// make the list of pointers for the closure call.
	for(l=func->cvars; l; l=l->next) {
	v = l->n;
	v->closure->closure = v->outer;
	v->heapaddr = nod(OADDR, oldname(v->sym), N);
	}

	return func;
	}

	void
	typecheckclosure(Node *func)
	{
	Node *oldfn;
	NodeList *l;
	Node *v;

	oldfn = curfn;
	typecheck(&func->ntype, Etype);
	func->type = func->ntype->type;
	if(func->type != T) {
	curfn = func;
	typechecklist(func->nbody, Etop);
	curfn = oldfn;
	}

	// type check the & of closed variables outside the closure,
	// so that the outer frame also grabs them and knows they
	// escape.
	func->enter = nil;
	for(l=func->cvars; l; l=l->next) {
	v = l->n;
	if(v->type == T) {
	// if v->type is nil, it means v looked like it was
	// going to be used in the closure but wasn't.
	// this happens because when parsing a, b, c := f()
	// the a, b, c gets parsed as references to older
	// a, b, c before the parser figures out this is a
	// declaration.
	v->op = 0;
	continue;
	}
	typecheck(&v->heapaddr, Erv);
	func->enter = list(func->enter, v->heapaddr);
	v->heapaddr = N;
	}
	}

	Node*
	walkclosure(Node func, NodeList *init)
	{
	int narg;
	Node xtype, v, addr, xfunc, call, clos;
	NodeList l, in;
	static int closgen;

	/*
	* wrap body in external function
	* with extra closure parameters.
	*/
	xtype = nod(OTFUNC, N, N);

	// each closure variable has a corresponding
	// address parameter.
	narg = 0;
	for(l=func->cvars; l; l=l->next) {
	v = l->n;
	if(v->op == 0)
	continue;
	addr = nod(ONAME, N, N);
	snprint(namebuf, sizeof namebuf, "&%s", v->sym->name);
	addr->sym = lookup(namebuf);
	addr->ntype = nod(OIND, typenod(v->type), N);
	addr->class = PPARAM;
	addr->addable = 1;
	addr->ullman = 1;
	narg++;

	v->heapaddr = addr;

	xtype->list = list(xtype->list, nod(ODCLFIELD, addr, addr->ntype));
	}

	// then a dummy arg where the closure's caller pc sits
	xtype->list = list(xtype->list, nod(ODCLFIELD, N, typenod(types[TUINTPTR])));

	// then the function arguments
	xtype->list = concat(xtype->list, func->list);
	xtype->rlist = concat(xtype->rlist, func->rlist);

	// create the function
	xfunc = nod(ODCLFUNC, N, N);
	snprint(namebuf, sizeof namebuf, "_func_%.3ld", ++closgen);
	xfunc->nname = newname(lookup(namebuf));
	xfunc->nname->ntype = xtype;
	xfunc->nname->defn = xfunc;
	declare(xfunc->nname, PFUNC);
	xfunc->nname->funcdepth = func->funcdepth;
	xfunc->funcdepth = func->funcdepth;
	xfunc->nbody = func->nbody;
	xfunc->dcl = func->dcl;
	if(xfunc->nbody == nil)
	fatal("empty body - won't generate any code");
	typecheck(&xfunc, Etop);
	closures = list(closures, xfunc);

	// prepare call of sys.closure that turns external func into func literal value.
	clos = syslook("closure", 1);
	clos->type = T;
	clos->ntype = nod(OTFUNC, N, N);
	in = list1(nod(ODCLFIELD, N, typenod(types[TINT]))); // siz
	in = list(in, nod(ODCLFIELD, N, xtype));
	for(l=func->cvars; l; l=l->next) {
	if(l->n->op == 0)
	continue;
	in = list(in, nod(ODCLFIELD, N, l->n->heapaddr->ntype));
	}
	clos->ntype->list = in;
	clos->ntype->rlist = list1(nod(ODCLFIELD, N, typenod(func->type)));
	typecheck(&clos, Erv);

	call = nod(OCALL, clos, N);
	if(narg*widthptr > 100)
	yyerror("closure needs too many variables; runtime will reject it");
	in = list1(nodintconst(narg*widthptr));
	in = list(in, xfunc->nname);
	in = concat(in, func->enter);
	call->list = in;

	typecheck(&call, Erv);
	walkexpr(&call, init);
	return call;
	}