src/cmd/gc/select.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.

 /*
  * select
  */

 #include <u.h>
 #include <libc.h>
 #include "go.h"

 void
 typecheckselect(Node *sel)
 {
 	Node *ncase, *n, *def;
 	NodeList *l;
 	int lno, count;

 	def = nil;
 	lno = setlineno(sel);
 	count = 0;
 	typechecklist(sel->ninit, Etop);
 	for(l=sel->list; l; l=l->next) {
 		count++;
 		ncase = l->n;
 		setlineno(ncase);
 		if(ncase->op != OXCASE)
 			fatal("typecheckselect %O", ncase->op);

 		if(ncase->list == nil) {
 			// default
 			if(def != N)
 				yyerror("multiple defaults in select (first at %L)", def->lineno);
 			else
 				def = ncase;
 		} else if(ncase->list->next) {
 			yyerror("select cases cannot be lists");
 		} else {
 			n = typecheck(&ncase->list->n, Etop);
 			ncase->left = n;
 			ncase->list = nil;
 			setlineno(n);
 			switch(n->op) {
 			default:
 				yyerror("select case must be receive, send or assign recv");
 				break;

 			case OAS:
 				// convert x = <-c into OSELRECV(x, <-c).
 				// remove implicit conversions; the eventual assignment
 				// will reintroduce them.
 				if((n->right->op == OCONVNOP || n->right->op == OCONVIFACE) && n->right->implicit)
 					n->right = n->right->left;

 				if(n->right->op != ORECV) {
 					yyerror("select assignment must have receive on right hand side");
 					break;
 				}
 				n->op = OSELRECV;
 				break;

 			case OAS2RECV:
 				// convert x, ok = <-c into OSELRECV2(x, <-c) with ntest=ok
 				if(n->right->op != ORECV) {
 					yyerror("select assignment must have receive on right hand side");
 					break;
 				}
 				n->op = OSELRECV2;
 				n->left = n->list->n;
 				n->ntest = n->list->next->n;
 				n->right = n->rlist->n;
 				break;

 			case ORECV:
 				// convert <-c into OSELRECV(N, <-c)
 				n = nod(OSELRECV, N, n);
 				n->typecheck = 1;
 				ncase->left = n;
 				break;

 			case OSEND:
 				break;
 			}
 		}
 		typechecklist(ncase->nbody, Etop);
 	}
 	sel->xoffset = count;
 	lineno = lno;
 }

 void
 walkselect(Node *sel)
 {
 	int lno, i;
 	Node *n, *r, *a, *tmp, *var, *cas, *dflt, *ch;
 	NodeList *l, *init;

 	if(sel->list == nil && sel->xoffset != 0)
 		fatal("double walkselect");	// already rewrote

 	lno = setlineno(sel);
 	i = count(sel->list);

 	// optimization: zero-case select
 	if(i == 0) {
 		sel->nbody = list1(mkcall("block", nil, nil));
 		goto out;
 	}

 	// optimization: one-case select: single op.
 	if(i == 1) {
 		cas = sel->list->n;
 		setlineno(cas);
 		l = cas->ninit;
 		if(cas->left != N) {  // not default:
 			n = cas->left;
 			l = concat(l, n->ninit);
 			n->ninit = nil;
 			switch(n->op) {
 			default:
 				fatal("select %O", n->op);

 			case OSEND:
 				ch = cheapexpr(n->left, &l);
 				n->left = ch;
 				break;

 			case OSELRECV:
 				r = n->right;
 				ch = cheapexpr(r->left, &l);
 				r->left = ch;

 				if(n->left == N)
 					n = r;
 				else {
 					n = nod(OAS, n->left, r);
 					typecheck(&n, Etop);
 				}
 				break;

 			case OSELRECV2:
 				r = n->right;
 				ch = cheapexpr(r->left, &l);
 				r->left = ch;

 				a = nod(OAS2, N, N);
 				a->list = n->list;
 				a->rlist = n->rlist;
 				n = a;
 				typecheck(&n, Etop);
 				break;
 			}

 			// if ch == nil { block() }; n;
 			a = nod(OIF, N, N);
 			a->ntest = nod(OEQ, ch, nodnil());
 			a->nbody = list1(mkcall("block", nil, &l));
 			typecheck(&a, Etop);
 			l = list(l, a);
 			l = list(l, n);
 		}
 		l = concat(l, cas->nbody);
 		sel->nbody = l;
 		goto out;
 	}

 	// introduce temporary variables for OSELRECV where needed.
 	// this rewrite is used by both the general code and the next optimization.
 	for(l=sel->list; l; l=l->next) {
 		cas = l->n;
 		setlineno(cas);
 		n = cas->left;
 		if(n == N)
 			continue;
 		switch(n->op) {
 		case OSELRECV:
 		case OSELRECV2:
 			ch = n->right->left;

 			// If we can use the address of the target without
 			// violating addressability or order of operations, do so.
 			// Otherwise introduce a temporary.
 			// Also introduce a temporary for := variables that escape,
 			// so that we can delay the heap allocation until the case
 			// is selected.
 			if(n->op == OSELRECV2) {
 				if(n->ntest == N || isblank(n->ntest))
 					n->ntest = nodnil();
 				else if(n->ntest->op == ONAME &&
 						(!n->colas || (n->ntest->class&PHEAP) == 0) &&
 						convertop(types[TBOOL], n->ntest->type, nil) == OCONVNOP) {
 					n->ntest = nod(OADDR, n->ntest, N);
 					n->ntest->etype = 1;  // pointer does not escape
 					typecheck(&n->ntest, Erv);
 				} else {
 					tmp = temp(types[TBOOL]);
 					a = nod(OADDR, tmp, N);
 					a->etype = 1;  // pointer does not escape
 					typecheck(&a, Erv);
 					r = nod(OAS, n->ntest, tmp);
 					typecheck(&r, Etop);
 					cas->nbody = concat(list1(r), cas->nbody);
 					n->ntest = a;
 				}
 			}

 			if(n->left == N || isblank(n->left))
 				n->left = nodnil();
 			else if(n->left->op == ONAME &&
 					(!n->colas || (n->left->class&PHEAP) == 0) &&
 					convertop(ch->type->type, n->left->type, nil) == OCONVNOP) {
 				n->left = nod(OADDR, n->left, N);
 				n->left->etype = 1;  // pointer does not escape
 				typecheck(&n->left, Erv);
 			} else {
 				tmp = temp(ch->type->type);
 				a = nod(OADDR, tmp, N);
 				a->etype = 1;  // pointer does not escape
 				typecheck(&a, Erv);
 				r = nod(OAS, n->left, tmp);
 				typecheck(&r, Etop);
 				cas->nbody = concat(list1(r), cas->nbody);
 				n->left = a;
 			}

 			cas->nbody = concat(n->ninit, cas->nbody);
 			n->ninit = nil;
 			break;
 		}
 	}

 	// optimization: two-case select but one is default: single non-blocking op.
 	if(i == 2 && (sel->list->n->left == nil || sel->list->next->n->left == nil)) {
 		if(sel->list->n->left == nil) {
 			cas = sel->list->next->n;
 			dflt = sel->list->n;
 		} else {
 			dflt = sel->list->next->n;
 			cas = sel->list->n;
 		}

 		n = cas->left;
 		setlineno(n);
 		r = nod(OIF, N, N);
 		r->ninit = cas->ninit;
 		switch(n->op) {
 		default:
 			fatal("select %O", n->op);

 		case OSEND:
 			// if c != nil && selectnbsend(c, v) { body } else { default body }
 			ch = cheapexpr(n->left, &r->ninit);
 			r->ntest = mkcall1(chanfn("selectnbsend", 2, ch->type),
 					types[TBOOL], &r->ninit, typename(ch->type), ch, n->right);
 			break;

 		case OSELRECV:
 			// if c != nil && selectnbrecv(&v, c) { body } else { default body }
 			r = nod(OIF, N, N);
 			r->ninit = cas->ninit;
 			ch = cheapexpr(n->right->left, &r->ninit);
 			r->ntest = mkcall1(chanfn("selectnbrecv", 2, ch->type),
 					types[TBOOL], &r->ninit, typename(ch->type), n->left, ch);
 			break;

 		case OSELRECV2:
 			// if c != nil && selectnbrecv2(&v, c) { body } else { default body }
 			r = nod(OIF, N, N);
 			r->ninit = cas->ninit;
 			ch = cheapexpr(n->right->left, &r->ninit);
 			r->ntest = mkcall1(chanfn("selectnbrecv2", 2, ch->type),
 					types[TBOOL], &r->ninit, typename(ch->type), n->left, n->ntest, ch);
 			break;
 		}
 		typecheck(&r->ntest, Erv);
 		r->nbody = cas->nbody;
 		r->nelse = concat(dflt->ninit, dflt->nbody);
 		sel->nbody = list1(r);
 		goto out;
 	}

 	init = sel->ninit;
 	sel->ninit = nil;

 	// generate sel-struct
 	setlineno(sel);
 	var = temp(ptrto(types[TUINT8]));
 	r = nod(OAS, var, mkcall("newselect", var->type, nil, nodintconst(sel->xoffset)));
 	typecheck(&r, Etop);
 	init = list(init, r);

 	// register cases
 	for(l=sel->list; l; l=l->next) {
 		cas = l->n;
 		setlineno(cas);
 		n = cas->left;
 		r = nod(OIF, N, N);
 		r->nbody = cas->ninit;
 		cas->ninit = nil;
 		if(n != nil) {
 			r->nbody = concat(r->nbody, n->ninit);
 			n->ninit = nil;
 		}
 		if(n == nil) {
 			// selectdefault(sel *byte);
 			r->ntest = mkcall("selectdefault", types[TBOOL], &init, var);
 		} else {
 			switch(n->op) {
 			default:
 				fatal("select %O", n->op);

 			case OSEND:
 				// selectsend(sel *byte, hchan *chan any, elem *any) (selected bool);
 				n->left = safeexpr(n->left, &r->ninit);
 				n->right = localexpr(n->right, n->left->type->type, &r->ninit);
 				n->right = nod(OADDR, n->right, N);
 				n->right->etype = 1;  // pointer does not escape
 				typecheck(&n->right, Erv);
 				r->ntest = mkcall1(chanfn("selectsend", 2, n->left->type), types[TBOOL],
 					&init, var, n->left, n->right);
 				break;

 			case OSELRECV:
 				// selectrecv(sel *byte, hchan *chan any, elem *any) (selected bool);
 				r->ntest = mkcall1(chanfn("selectrecv", 2, n->right->left->type), types[TBOOL],
 					&init, var, n->right->left, n->left);
 				break;

 			case OSELRECV2:
 				// selectrecv2(sel *byte, hchan *chan any, elem *any, received *bool) (selected bool);
 				r->ntest = mkcall1(chanfn("selectrecv2", 2, n->right->left->type), types[TBOOL],
 					&init, var, n->right->left, n->left, n->ntest);
 				break;
 			}
 		}
 		r->nbody = concat(r->nbody, cas->nbody);
 		r->nbody = list(r->nbody, nod(OBREAK, N, N));
 		init = list(init, r);
 	}

 	// run the select
 	setlineno(sel);
 	init = list(init, mkcall("selectgo", T, nil, var));
 	sel->nbody = init;

 out:
 	sel->list = nil;
 	walkstmtlist(sel->nbody);
 	lineno = lno;
 }
	// 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.

	/*
	* select
	*/

	#include <u.h>
	#include <libc.h>
	#include "go.h"

	void
	typecheckselect(Node *sel)
	{
	Node ncase, n, *def;
	NodeList *l;
	int lno, count;

	def = nil;
	lno = setlineno(sel);
	count = 0;
	typechecklist(sel->ninit, Etop);
	for(l=sel->list; l; l=l->next) {
	count++;
	ncase = l->n;
	setlineno(ncase);
	if(ncase->op != OXCASE)
	fatal("typecheckselect %O", ncase->op);

	if(ncase->list == nil) {
	// default
	if(def != N)
	yyerror("multiple defaults in select (first at %L)", def->lineno);
	else
	def = ncase;
	} else if(ncase->list->next) {
	yyerror("select cases cannot be lists");
	} else {
	n = typecheck(&ncase->list->n, Etop);
	ncase->left = n;
	ncase->list = nil;
	setlineno(n);
	switch(n->op) {
	default:
	yyerror("select case must be receive, send or assign recv");
	break;

	case OAS:
	// convert x = <-c into OSELRECV(x, <-c).
	// remove implicit conversions; the eventual assignment
	// will reintroduce them.
	if((n->right->op == OCONVNOP \|\| n->right->op == OCONVIFACE) && n->right->implicit)
	n->right = n->right->left;

	if(n->right->op != ORECV) {
	yyerror("select assignment must have receive on right hand side");
	break;
	}
	n->op = OSELRECV;
	break;

	case OAS2RECV:
	// convert x, ok = <-c into OSELRECV2(x, <-c) with ntest=ok
	if(n->right->op != ORECV) {
	yyerror("select assignment must have receive on right hand side");
	break;
	}
	n->op = OSELRECV2;
	n->left = n->list->n;
	n->ntest = n->list->next->n;
	n->right = n->rlist->n;
	break;

	case ORECV:
	// convert <-c into OSELRECV(N, <-c)
	n = nod(OSELRECV, N, n);
	n->typecheck = 1;
	ncase->left = n;
	break;

	case OSEND:
	break;
	}
	}
	typechecklist(ncase->nbody, Etop);
	}
	sel->xoffset = count;
	lineno = lno;
	}

	void
	walkselect(Node *sel)
	{
	int lno, i;
	Node n, r, a, tmp, var, cas, dflt, ch;
	NodeList l, init;

	if(sel->list == nil && sel->xoffset != 0)
	fatal("double walkselect"); // already rewrote

	lno = setlineno(sel);
	i = count(sel->list);

	// optimization: zero-case select
	if(i == 0) {
	sel->nbody = list1(mkcall("block", nil, nil));
	goto out;
	}

	// optimization: one-case select: single op.
	if(i == 1) {
	cas = sel->list->n;
	setlineno(cas);
	l = cas->ninit;
	if(cas->left != N) { // not default:
	n = cas->left;
	l = concat(l, n->ninit);
	n->ninit = nil;
	switch(n->op) {
	default:
	fatal("select %O", n->op);

	case OSEND:
	ch = cheapexpr(n->left, &l);
	n->left = ch;
	break;

	case OSELRECV:
	r = n->right;
	ch = cheapexpr(r->left, &l);
	r->left = ch;

	if(n->left == N)
	n = r;
	else {
	n = nod(OAS, n->left, r);
	typecheck(&n, Etop);
	}
	break;

	case OSELRECV2:
	r = n->right;
	ch = cheapexpr(r->left, &l);
	r->left = ch;

	a = nod(OAS2, N, N);
	a->list = n->list;
	a->rlist = n->rlist;
	n = a;
	typecheck(&n, Etop);
	break;
	}

	// if ch == nil { block() }; n;
	a = nod(OIF, N, N);
	a->ntest = nod(OEQ, ch, nodnil());
	a->nbody = list1(mkcall("block", nil, &l));
	typecheck(&a, Etop);
	l = list(l, a);
	l = list(l, n);
	}
	l = concat(l, cas->nbody);
	sel->nbody = l;
	goto out;
	}

	// introduce temporary variables for OSELRECV where needed.
	// this rewrite is used by both the general code and the next optimization.
	for(l=sel->list; l; l=l->next) {
	cas = l->n;
	setlineno(cas);
	n = cas->left;
	if(n == N)
	continue;
	switch(n->op) {
	case OSELRECV:
	case OSELRECV2:
	ch = n->right->left;

	// If we can use the address of the target without
	// violating addressability or order of operations, do so.
	// Otherwise introduce a temporary.
	// Also introduce a temporary for := variables that escape,
	// so that we can delay the heap allocation until the case
	// is selected.
	if(n->op == OSELRECV2) {
	if(n->ntest == N \|\| isblank(n->ntest))
	n->ntest = nodnil();
	else if(n->ntest->op == ONAME &&
	(!n->colas \|\| (n->ntest->class&PHEAP) == 0) &&
	convertop(types[TBOOL], n->ntest->type, nil) == OCONVNOP) {
	n->ntest = nod(OADDR, n->ntest, N);
	n->ntest->etype = 1; // pointer does not escape
	typecheck(&n->ntest, Erv);
	} else {
	tmp = temp(types[TBOOL]);
	a = nod(OADDR, tmp, N);
	a->etype = 1; // pointer does not escape
	typecheck(&a, Erv);
	r = nod(OAS, n->ntest, tmp);
	typecheck(&r, Etop);
	cas->nbody = concat(list1(r), cas->nbody);
	n->ntest = a;
	}
	}

	if(n->left == N \|\| isblank(n->left))
	n->left = nodnil();
	else if(n->left->op == ONAME &&
	(!n->colas \|\| (n->left->class&PHEAP) == 0) &&
	convertop(ch->type->type, n->left->type, nil) == OCONVNOP) {
	n->left = nod(OADDR, n->left, N);
	n->left->etype = 1; // pointer does not escape
	typecheck(&n->left, Erv);
	} else {
	tmp = temp(ch->type->type);
	a = nod(OADDR, tmp, N);
	a->etype = 1; // pointer does not escape
	typecheck(&a, Erv);
	r = nod(OAS, n->left, tmp);
	typecheck(&r, Etop);
	cas->nbody = concat(list1(r), cas->nbody);
	n->left = a;
	}

	cas->nbody = concat(n->ninit, cas->nbody);
	n->ninit = nil;
	break;
	}
	}

	// optimization: two-case select but one is default: single non-blocking op.
	if(i == 2 && (sel->list->n->left == nil \|\| sel->list->next->n->left == nil)) {
	if(sel->list->n->left == nil) {
	cas = sel->list->next->n;
	dflt = sel->list->n;
	} else {
	dflt = sel->list->next->n;
	cas = sel->list->n;
	}

	n = cas->left;
	setlineno(n);
	r = nod(OIF, N, N);
	r->ninit = cas->ninit;
	switch(n->op) {
	default:
	fatal("select %O", n->op);

	case OSEND:
	// if c != nil && selectnbsend(c, v) { body } else { default body }
	ch = cheapexpr(n->left, &r->ninit);
	r->ntest = mkcall1(chanfn("selectnbsend", 2, ch->type),
	types[TBOOL], &r->ninit, typename(ch->type), ch, n->right);
	break;

	case OSELRECV:
	// if c != nil && selectnbrecv(&v, c) { body } else { default body }
	r = nod(OIF, N, N);
	r->ninit = cas->ninit;
	ch = cheapexpr(n->right->left, &r->ninit);
	r->ntest = mkcall1(chanfn("selectnbrecv", 2, ch->type),
	types[TBOOL], &r->ninit, typename(ch->type), n->left, ch);
	break;

	case OSELRECV2:
	// if c != nil && selectnbrecv2(&v, c) { body } else { default body }
	r = nod(OIF, N, N);
	r->ninit = cas->ninit;
	ch = cheapexpr(n->right->left, &r->ninit);
	r->ntest = mkcall1(chanfn("selectnbrecv2", 2, ch->type),
	types[TBOOL], &r->ninit, typename(ch->type), n->left, n->ntest, ch);
	break;
	}
	typecheck(&r->ntest, Erv);
	r->nbody = cas->nbody;
	r->nelse = concat(dflt->ninit, dflt->nbody);
	sel->nbody = list1(r);
	goto out;
	}

	init = sel->ninit;
	sel->ninit = nil;

	// generate sel-struct
	setlineno(sel);
	var = temp(ptrto(types[TUINT8]));
	r = nod(OAS, var, mkcall("newselect", var->type, nil, nodintconst(sel->xoffset)));
	typecheck(&r, Etop);
	init = list(init, r);

	// register cases
	for(l=sel->list; l; l=l->next) {
	cas = l->n;
	setlineno(cas);
	n = cas->left;
	r = nod(OIF, N, N);
	r->nbody = cas->ninit;
	cas->ninit = nil;
	if(n != nil) {
	r->nbody = concat(r->nbody, n->ninit);
	n->ninit = nil;
	}
	if(n == nil) {
	// selectdefault(sel *byte);
	r->ntest = mkcall("selectdefault", types[TBOOL], &init, var);
	} else {
	switch(n->op) {
	default:
	fatal("select %O", n->op);

	case OSEND:
	// selectsend(sel byte, hchan chan any, elem *any) (selected bool);
	n->left = safeexpr(n->left, &r->ninit);
	n->right = localexpr(n->right, n->left->type->type, &r->ninit);
	n->right = nod(OADDR, n->right, N);
	n->right->etype = 1; // pointer does not escape
	typecheck(&n->right, Erv);
	r->ntest = mkcall1(chanfn("selectsend", 2, n->left->type), types[TBOOL],
	&init, var, n->left, n->right);
	break;

	case OSELRECV:
	// selectrecv(sel byte, hchan chan any, elem *any) (selected bool);
	r->ntest = mkcall1(chanfn("selectrecv", 2, n->right->left->type), types[TBOOL],
	&init, var, n->right->left, n->left);
	break;

	case OSELRECV2:
	// selectrecv2(sel byte, hchan chan any, elem any, received bool) (selected bool);
	r->ntest = mkcall1(chanfn("selectrecv2", 2, n->right->left->type), types[TBOOL],
	&init, var, n->right->left, n->left, n->ntest);
	break;
	}
	}
	r->nbody = concat(r->nbody, cas->nbody);
	r->nbody = list(r->nbody, nod(OBREAK, N, N));
	init = list(init, r);
	}

	// run the select
	setlineno(sel);
	init = list(init, mkcall("selectgo", T, nil, var));
	sel->nbody = init;

	out:
	sel->list = nil;
	walkstmtlist(sel->nbody);
	lineno = lno;
	}