src/cmd/6g/ggen.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.


 #undef	EXTERN
 #define	EXTERN
 #include "gg.h"
 #include "opt.h"

 void
 compile(Node *fn)
 {
 	Plist *pl;
 	Node nod1;
 	Prog *ptxt;
 	int32 lno;
 	Type *t;
 	Iter save;

 	if(newproc == N) {
 		newproc = sysfunc("newproc");
 		deferproc = sysfunc("deferproc");
 		deferreturn = sysfunc("deferreturn");
 		throwindex = sysfunc("throwindex");
 		throwreturn = sysfunc("throwreturn");
 	}

 	if(fn->nbody == N)
 		return;

 	// set up domain for labels
 	labellist = L;

 	lno = setlineno(fn);

 	curfn = fn;
 	dowidth(curfn->type);

 	if(curfn->type->outnamed) {
 		// add clearing of the output parameters
 		t = structfirst(&save, getoutarg(curfn->type));
 		while(t != T) {
 			if(t->nname != N)
 				curfn->nbody = list(nod(OAS, t->nname, N), curfn->nbody);
 			t = structnext(&save);
 		}
 	}

 	hasdefer = 0;
 	walk(curfn);
 	if(nerrors != 0)
 		goto ret;

 	allocparams();

 	continpc = P;
 	breakpc = P;

 	pl = newplist();
 	pl->name = curfn->nname;
 	pl->locals = autodcl;

 	nodconst(&nod1, types[TINT32], 0);
 	ptxt = gins(ATEXT, curfn->nname, &nod1);
 	afunclit(&ptxt->from);

 	ginit();
 	gen(curfn->enter);
 	gen(curfn->nbody);
 	gclean();
 	checklabels();

 	if(curfn->type->outtuple != 0)
 		ginscall(throwreturn, 0);

 	if(hasdefer)
 		ginscall(deferreturn, 0);
 	pc->as = ARET;	// overwrite AEND
 	pc->lineno = lineno;

 	if(!debug['N'] || debug['R'] || debug['P'])
 		regopt(ptxt);

 	// fill in argument size
 	ptxt->to.offset = rnd(curfn->type->argwid, maxround);

 	// fill in final stack size
 	ptxt->to.offset <<= 32;
 	ptxt->to.offset |= rnd(stksize+maxarg, maxround);

 	if(debug['f'])
 		frame(0);

 ret:
 	lineno = lno;
 }

 /*
  * generate:
  *	call f
  *	proc=0	normal call
  *	proc=1	goroutine run in new proc
  *	proc=2	defer call save away stack
  */
 void
 ginscall(Node *f, int proc)
 {
 	Prog *p;
 	Node reg, con;

 	switch(proc) {
 	default:
 		fatal("ginscall: bad proc %d", proc);
 		break;

 	case 0:	// normal call
 		p = gins(ACALL, N, f);
 		afunclit(&p->to);
 		break;

 	case 1:	// call in new proc (go)
 	case 2:	// defered call (defer)
 		nodreg(&reg, types[TINT64], D_AX);
 		gins(APUSHQ, f, N);
 		nodconst(&con, types[TINT32], argsize(f->type));
 		gins(APUSHQ, &con, N);
 		if(proc == 1)
 			ginscall(newproc, 0);
 		else {
 			if(!hasdefer)
 				fatal("hasdefer=0 but has defer");
 			ginscall(deferproc, 0);
 		}
 		gins(APOPQ, N, &reg);
 		gins(APOPQ, N, &reg);
 		break;
 	}
 }

 /*
  * n is call to interface method.
  * generate res = n.
  */
 void
 cgen_callinter(Node *n, Node *res, int proc)
 {
 	Node *i, *f;
 	Node tmpi, nodo, nodr, nodsp;

 	i = n->left;
 	if(i->op != ODOTINTER)
 		fatal("cgen_callinter: not ODOTINTER %O", i->op);

 	f = i->right;		// field
 	if(f->op != ONAME)
 		fatal("cgen_callinter: not ONAME %O", f->op);

 	i = i->left;		// interface

 	if(!i->addable) {
 		tempname(&tmpi, i->type);
 		cgen(i, &tmpi);
 		i = &tmpi;
 	}

 	gen(n->right);			// args

 	regalloc(&nodr, types[tptr], res);
 	regalloc(&nodo, types[tptr], &nodr);
 	nodo.op = OINDREG;

 	agen(i, &nodr);		// REG = &inter

 	nodindreg(&nodsp, types[tptr], D_SP);
 	nodo.xoffset += widthptr;
 	cgen(&nodo, &nodsp);	// 0(SP) = 8(REG) -- i.s

 	nodo.xoffset -= widthptr;
 	cgen(&nodo, &nodr);	// REG = 0(REG) -- i.m

 	nodo.xoffset = n->left->xoffset + 3*widthptr + 8;
 	cgen(&nodo, &nodr);	// REG = 32+offset(REG) -- i.m->fun[f]

 	// BOTCH nodr.type = fntype;
 	nodr.type = n->left->type;
 	ginscall(&nodr, proc);

 	regfree(&nodr);
 	regfree(&nodo);

 	setmaxarg(n->left->type);
 }

 /*
  * generate function call;
  *	proc=0	normal call
  *	proc=1	goroutine run in new proc
  *	proc=2	defer call save away stack
  */
 void
 cgen_call(Node *n, int proc)
 {
 	Type *t;
 	Node nod, afun;

 	if(n == N)
 		return;

 	if(n->left->ullman >= UINF) {
 		// if name involves a fn call
 		// precompute the address of the fn
 		tempname(&afun, types[tptr]);
 		cgen(n->left, &afun);
 	}

 	gen(n->right);		// assign the args
 	t = n->left->type;

 	setmaxarg(t);

 	// call tempname pointer
 	if(n->left->ullman >= UINF) {
 		regalloc(&nod, types[tptr], N);
 		cgen_as(&nod, &afun);
 		nod.type = t;
 		ginscall(&nod, proc);
 		regfree(&nod);
 		goto ret;
 	}

 	// call pointer
 	if(n->left->op != ONAME || n->left->class != PFUNC) {
 		regalloc(&nod, types[tptr], N);
 		cgen_as(&nod, n->left);
 		nod.type = t;
 		ginscall(&nod, proc);
 		regfree(&nod);
 		goto ret;
 	}

 	// call direct
 	n->left->method = 1;
 	ginscall(n->left, proc);


 ret:
 	;
 }

 /*
  * call to n has already been generated.
  * generate:
  *	res = return value from call.
  */
 void
 cgen_callret(Node *n, Node *res)
 {
 	Node nod;
 	Type *fp, *t;
 	Iter flist;

 	t = n->left->type;
 	if(t->etype == TPTR32 || t->etype == TPTR64)
 		t = t->type;

 	fp = structfirst(&flist, getoutarg(t));
 	if(fp == T)
 		fatal("cgen_callret: nil");

 	memset(&nod, 0, sizeof(nod));
 	nod.op = OINDREG;
 	nod.val.u.reg = D_SP;
 	nod.addable = 1;

 	nod.xoffset = fp->width;
 	nod.type = fp->type;
 	cgen_as(res, &nod);
 }

 /*
  * call to n has already been generated.
  * generate:
  *	res = &return value from call.
  */
 void
 cgen_aret(Node *n, Node *res)
 {
 	Node nod1, nod2;
 	Type *fp, *t;
 	Iter flist;

 	t = n->left->type;
 	if(isptr[t->etype])
 		t = t->type;

 	fp = structfirst(&flist, getoutarg(t));
 	if(fp == T)
 		fatal("cgen_aret: nil");

 	memset(&nod1, 0, sizeof(nod1));
 	nod1.op = OINDREG;
 	nod1.val.u.reg = D_SP;
 	nod1.addable = 1;

 	nod1.xoffset = fp->width;
 	nod1.type = fp->type;

 	if(res->op != OREGISTER) {
 		regalloc(&nod2, types[tptr], res);
 		gins(ALEAQ, &nod1, &nod2);
 		gins(AMOVQ, &nod2, res);
 		regfree(&nod2);
 	} else
 		gins(ALEAQ, &nod1, res);
 }

 /*
  * generate return.
  * n->left is assignments to return values.
  */
 void
 cgen_ret(Node *n)
 {
 	gen(n->left);		// copy out args
 	if(hasdefer)
 		ginscall(deferreturn, 0);
 	gins(ARET, N, N);
 }

 /*
  * generate += *= etc.
  */
 void
 cgen_asop(Node *n)
 {
 	Node n1, n2, n3, n4;
 	Node *nl, *nr;
 	Prog *p1;
 	Addr addr;
 	int a;

 	nl = n->left;
 	nr = n->right;

 	if(nr->ullman >= UINF && nl->ullman >= UINF) {
 		tempname(&n1, nr->type);
 		cgen(nr, &n1);
 		n2 = *n;
 		n2.right = &n1;
 		cgen_asop(&n2);
 		goto ret;
 	}

 	if(!isint[nl->type->etype])
 		goto hard;
 	if(!isint[nr->type->etype])
 		goto hard;

 	switch(n->etype) {
 	case OADD:
 		if(smallintconst(nr))
 		if(mpgetfix(nr->val.u.xval) == 1) {
 			a = optoas(OINC, nl->type);
 			if(nl->addable) {
 				gins(a, N, nl);
 				goto ret;
 			}
 			if(sudoaddable(a, nl, &addr)) {
 				p1 = gins(a, N, N);
 				p1->to = addr;
 				sudoclean();
 				goto ret;
 			}
 		}
 		break;

 	case OSUB:
 		if(smallintconst(nr))
 		if(mpgetfix(nr->val.u.xval) == 1) {
 			a = optoas(ODEC, nl->type);
 			if(nl->addable) {
 				gins(a, N, nl);
 				goto ret;
 			}
 			if(sudoaddable(a, nl, &addr)) {
 				p1 = gins(a, N, N);
 				p1->to = addr;
 				sudoclean();
 				goto ret;
 			}
 		}
 		break;
 	}

 	switch(n->etype) {
 	case OADD:
 	case OSUB:
 	case OXOR:
 	case OAND:
 	case OOR:
 		a = optoas(n->etype, nl->type);
 		if(nl->addable) {
 			if(smallintconst(nr)) {
 				gins(a, nr, nl);
 				goto ret;
 			}
 			regalloc(&n2, nr->type, N);
 			cgen(nr, &n2);
 			gins(a, &n2, nl);
 			regfree(&n2);
 			goto ret;
 		}
 		if(nr->ullman < UINF)
 		if(sudoaddable(a, nl, &addr)) {
 			if(smallintconst(nr)) {
 				p1 = gins(a, nr, N);
 				p1->to = addr;
 				sudoclean();
 				goto ret;
 			}
 			regalloc(&n2, nr->type, N);
 			cgen(nr, &n2);
 			p1 = gins(a, &n2, N);
 			p1->to = addr;
 			regfree(&n2);
 			sudoclean();
 			goto ret;
 		}
 	}

 hard:
 	if(nr->ullman > nl->ullman) {
 		regalloc(&n2, nr->type, N);
 		cgen(nr, &n2);
 		igen(nl, &n1, N);
 	} else {
 		igen(nl, &n1, N);
 		regalloc(&n2, nr->type, N);
 		cgen(nr, &n2);
 	}

 	n3 = *n;
 	n3.left = &n1;
 	n3.right = &n2;
 	n3.op = n->etype;

 	regalloc(&n4, nl->type, N);
 	cgen(&n3, &n4);
 	gmove(&n4, &n1);

 	regfree(&n1);
 	regfree(&n2);
 	regfree(&n4);

 ret:
 	;
 }

 int
 samereg(Node *a, Node *b)
 {
 	if(a->op != OREGISTER)
 		return 0;
 	if(b->op != OREGISTER)
 		return 0;
 	if(a->val.u.reg != b->val.u.reg)
 		return 0;
 	return 1;
 }

 /*
  * generate division.
  * caller must set:
  *	ax = allocated AX register
  *	dx = allocated DX register
  * generates one of:
  *	res = nl / nr
  *	res = nl % nr
  * according to op.
  */
 void
 dodiv(int op, Node *nl, Node *nr, Node *res, Node *ax, Node *dx)
 {
 	int a;
 	Node n3, n4;
 	Type *t;

 	t = nl->type;
 	if(t->width == 1) {
 		if(issigned[t->etype])
 			t = types[TINT32];
 		else
 			t = types[TUINT32];
 	}
 	a = optoas(op, t);
 	ax->type = t;
 	dx->type = t;

 	regalloc(&n3, t, N);
 	if(nl->ullman >= nr->ullman) {
 		cgen(nl, ax);
 		if(!issigned[t->etype]) {
 			nodconst(&n4, t, 0);
 			gmove(&n4, dx);
 		} else
 			gins(optoas(OEXTEND, t), N, N);
 		cgen(nr, &n3);
 	} else {
 		cgen(nr, &n3);
 		cgen(nl, ax);
 		if(!issigned[t->etype]) {
 			nodconst(&n4, t, 0);
 			gmove(&n4, dx);
 		} else
 			gins(optoas(OEXTEND, t), N, N);
 	}
 	gins(a, &n3, N);
 	regfree(&n3);

 	if(op == ODIV)
 		gmove(ax, res);
 	else
 		gmove(dx, res);
 }

 /*
  * generate division according to op, one of:
  *	res = nl / nr
  *	res = nl % nr
  */
 void
 cgen_div(int op, Node *nl, Node *nr, Node *res)
 {
 	Node ax, dx;
 	int rax, rdx;

 	rax = reg[D_AX];
 	rdx = reg[D_DX];

 	nodreg(&ax, types[TINT64], D_AX);
 	nodreg(&dx, types[TINT64], D_DX);
 	regalloc(&ax, nl->type, &ax);
 	regalloc(&dx, nl->type, &dx);

 	dodiv(op, nl, nr, res, &ax, &dx);

 	regfree(&ax);
 	regfree(&dx);
 }

 /*
  * generate shift according to op, one of:
  *	res = nl << nr
  *	res = nl >> nr
  */
 void
 cgen_shift(int op, Node *nl, Node *nr, Node *res)
 {
 	Node n1, n2, n3;
 	int a;
 	Prog *p1;
 	uvlong sc;

 	a = optoas(op, nl->type);

 	if(nr->op == OLITERAL) {
 		regalloc(&n1, nl->type, res);
 		cgen(nl, &n1);
 		sc = mpgetfix(nr->val.u.xval);
 		if(sc >= nl->type->width*8) {
 			// large shift gets 2 shifts by width
 			nodconst(&n3, types[TUINT32], nl->type->width*8-1);
 			gins(a, &n3, &n1);
 			gins(a, &n3, &n1);
 		} else
 			gins(a, nr, &n1);
 		gmove(&n1, res);
 		regfree(&n1);
 		goto ret;
 	}

 	nodreg(&n1, types[TUINT32], D_CX);
 	regalloc(&n1, nr->type, &n1);		// to hold the shift type in CX
 	regalloc(&n3, types[TUINT64], &n1);	// to clear high bits of CX

 	regalloc(&n2, nl->type, res);
 	if(nl->ullman >= nr->ullman) {
 		cgen(nl, &n2);
 		cgen(nr, &n1);
 		gmove(&n1, &n3);
 	} else {
 		cgen(nr, &n1);
 		gmove(&n1, &n3);
 		cgen(nl, &n2);
 	}
 	regfree(&n3);

 	// test and fix up large shifts
 	nodconst(&n3, types[TUINT64], nl->type->width*8);
 	gins(optoas(OCMP, types[TUINT64]), &n1, &n3);
 	p1 = gbranch(optoas(OLT, types[TUINT64]), T);
 	if(op == ORSH && issigned[nl->type->etype]) {
 		nodconst(&n3, types[TUINT32], nl->type->width*8-1);
 		gins(a, &n3, &n2);
 	} else {
 		nodconst(&n3, nl->type, 0);
 		gmove(&n3, &n2);
 	}
 	patch(p1, pc);
 	gins(a, &n1, &n2);

 	gmove(&n2, res);

 	regfree(&n1);
 	regfree(&n2);

 ret:
 	;
 }

 /*
  * generate byte multiply:
  *	res = nl * nr
  * no byte multiply instruction so have to do
  * 16-bit multiply and take bottom half.
  */
 void
 cgen_bmul(int op, Node *nl, Node *nr, Node *res)
 {
 	Node n1b, n2b, n1w, n2w;
 	Type *t;
 	int a;

 	if(nl->ullman >= nr->ullman) {
 		regalloc(&n1b, nl->type, res);
 		cgen(nl, &n1b);
 		regalloc(&n2b, nr->type, N);
 		cgen(nr, &n2b);
 	} else {
 		regalloc(&n2b, nr->type, N);
 		cgen(nr, &n2b);
 		regalloc(&n1b, nl->type, res);
 		cgen(nl, &n1b);
 	}

 	// copy from byte to short registers
 	t = types[TUINT16];
 	if(issigned[nl->type->etype])
 		t = types[TINT16];

 	regalloc(&n2w, t, &n2b);
 	cgen(&n2b, &n2w);

 	regalloc(&n1w, t, &n1b);
 	cgen(&n1b, &n1w);

 	a = optoas(op, t);
 	gins(a, &n2w, &n1w);
 	cgen(&n1w, &n1b);
 	cgen(&n1b, res);

 	regfree(&n1w);
 	regfree(&n2w);
 	regfree(&n1b);
 	regfree(&n2b);
 }

 void
 clearfat(Node *nl)
 {
 	uint32 w, c, q;
 	Node n1;

 	/* clear a fat object */
 	if(debug['g'])
 		dump("\nclearfat", nl);

 	w = nl->type->width;
 	c = w % 8;	// bytes
 	q = w / 8;	// quads

 	gconreg(AMOVQ, 0, D_AX);
 	nodreg(&n1, types[tptr], D_DI);
 	agen(nl, &n1);

 	if(q >= 4) {
 		gconreg(AMOVQ, q, D_CX);
 		gins(AREP, N, N);	// repeat
 		gins(ASTOSQ, N, N);	// STOQ AL,*(DI)+
 	} else
 	while(q > 0) {
 		gins(ASTOSQ, N, N);	// STOQ AL,*(DI)+
 		q--;
 	}

 	if(c >= 4) {
 		gconreg(AMOVQ, c, D_CX);
 		gins(AREP, N, N);	// repeat
 		gins(ASTOSB, N, N);	// STOB AL,*(DI)+
 	} else
 	while(c > 0) {
 		gins(ASTOSB, N, N);	// STOB AL,*(DI)+
 		c--;
 	}
 }

 int
 getlit(Node *lit)
 {
 	if(smallintconst(lit))
 		return mpgetfix(lit->val.u.xval);
 	return -1;
 }

 int
 stataddr(Node *nam, Node *n)
 {
 	int l;

 	if(n == N)
 		goto no;

 	switch(n->op) {
 	case ONAME:
 		*nam = *n;
 		return n->addable;

 	case ODOT:
 		if(!stataddr(nam, n->left))
 			break;
 		nam->xoffset += n->xoffset;
 		nam->type = n->type;
 		return 1;

 	case OINDEX:
 		if(n->left->type->bound < 0)
 			break;
 		if(!stataddr(nam, n->left))
 			break;
 		l = getlit(n->right);
 		if(l < 0)
 			break;
 		nam->xoffset += l*n->type->width;
 		nam->type = n->type;
 		return 1;
 	}

 no:
 	return 0;
 }

 int
 gen_as_init(Node *nr, Node *nl)
 {
 	Node nam, nod1;
 	Prog *p;

 	if(!initflag)
 		goto no;

 	if(nr == N) {
 		if(!stataddr(&nam, nl))
 			goto no;
 		if(nam.class != PEXTERN)
 			goto no;
 		return 1;
 	}

 	if(nr->op == OCOMPSLICE) {
 		// create a slice pointing to an array
 		if(!stataddr(&nam, nl)) {
 			dump("stataddr", nl);
 			goto no;
 		}

 		p = gins(ADATA, &nam, nr->left);
 		p->from.scale = types[tptr]->width;
 		p->to.index = p->to.type;
 		p->to.type = D_ADDR;
 //print("%P\n", p);

 		nodconst(&nod1, types[TINT32], nr->left->type->bound);
 		p = gins(ADATA, &nam, &nod1);
 		p->from.scale = types[TINT32]->width;
 		p->from.offset += types[tptr]->width;
 //print("%P\n", p);

 		p = gins(ADATA, &nam, &nod1);
 		p->from.scale = types[TINT32]->width;
 		p->from.offset += types[tptr]->width+types[TINT32]->width;

 		goto yes;
 	}

 	if(nr->op == OCOMPMAP) {
 		goto yes;
 	}

 	if(nr->type == T ||
 	   !eqtype(nl->type, nr->type))
 		goto no;

 	if(!stataddr(&nam, nl))
 		goto no;
 	if(nam.class != PEXTERN)
 		goto no;

 	switch(nr->op) {
 	default:
 		goto no;

 	case OLITERAL:
 		goto lit;
 	}

 no:
 	return 0;

 lit:
 	switch(nr->type->etype) {
 	default:
 		goto no;

 	case TBOOL:
 		if(memcmp(nam.sym->name, "initdone·", 9) == 0)
 			goto no;
 	case TINT8:
 	case TUINT8:
 	case TINT16:
 	case TUINT16:
 	case TINT32:
 	case TUINT32:
 	case TINT64:
 	case TUINT64:
 	case TINT:
 	case TUINT:
 	case TFLOAT32:
 	case TFLOAT64:
 	case TFLOAT:
 		p = gins(ADATA, &nam, nr);
 		p->from.scale = nr->type->width;
 		break;

 	case TSTRING:
 		p = gins(ADATA, &nam, N);
 		datastring(nr->val.u.sval->s, nr->val.u.sval->len, &p->to);
 		p->from.scale = types[tptr]->width;
 		p->to.index = p->to.type;
 		p->to.type = D_ADDR;
 //print("%P\n", p);

 		nodconst(&nod1, types[TINT32], nr->val.u.sval->len);
 		p = gins(ADATA, &nam, &nod1);
 		p->from.scale = types[TINT32]->width;
 		p->from.offset += types[tptr]->width;
 //print("%P\n", p);
 		break;
 	}

 yes:
 //dump("\ngen_as_init", nl);
 //dump("", nr);
 //print("%P\n", p);
 	return 1;
 }
	// 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.


	#undef EXTERN
	#define EXTERN
	#include "gg.h"
	#include "opt.h"

	void
	compile(Node *fn)
	{
	Plist *pl;
	Node nod1;
	Prog *ptxt;
	int32 lno;
	Type *t;
	Iter save;

	if(newproc == N) {
	newproc = sysfunc("newproc");
	deferproc = sysfunc("deferproc");
	deferreturn = sysfunc("deferreturn");
	throwindex = sysfunc("throwindex");
	throwreturn = sysfunc("throwreturn");
	}

	if(fn->nbody == N)
	return;

	// set up domain for labels
	labellist = L;

	lno = setlineno(fn);

	curfn = fn;
	dowidth(curfn->type);

	if(curfn->type->outnamed) {
	// add clearing of the output parameters
	t = structfirst(&save, getoutarg(curfn->type));
	while(t != T) {
	if(t->nname != N)
	curfn->nbody = list(nod(OAS, t->nname, N), curfn->nbody);
	t = structnext(&save);
	}
	}

	hasdefer = 0;
	walk(curfn);
	if(nerrors != 0)
	goto ret;

	allocparams();

	continpc = P;
	breakpc = P;

	pl = newplist();
	pl->name = curfn->nname;
	pl->locals = autodcl;

	nodconst(&nod1, types[TINT32], 0);
	ptxt = gins(ATEXT, curfn->nname, &nod1);
	afunclit(&ptxt->from);

	ginit();
	gen(curfn->enter);
	gen(curfn->nbody);
	gclean();
	checklabels();

	if(curfn->type->outtuple != 0)
	ginscall(throwreturn, 0);

	if(hasdefer)
	ginscall(deferreturn, 0);
	pc->as = ARET; // overwrite AEND
	pc->lineno = lineno;

	if(!debug['N'] \|\| debug['R'] \|\| debug['P'])
	regopt(ptxt);

	// fill in argument size
	ptxt->to.offset = rnd(curfn->type->argwid, maxround);

	// fill in final stack size
	ptxt->to.offset <<= 32;
	ptxt->to.offset \|= rnd(stksize+maxarg, maxround);

	if(debug['f'])
	frame(0);

	ret:
	lineno = lno;
	}

	/*
	* generate:
	* call f
	* proc=0 normal call
	* proc=1 goroutine run in new proc
	* proc=2 defer call save away stack
	*/
	void
	ginscall(Node *f, int proc)
	{
	Prog *p;
	Node reg, con;

	switch(proc) {
	default:
	fatal("ginscall: bad proc %d", proc);
	break;

	case 0: // normal call
	p = gins(ACALL, N, f);
	afunclit(&p->to);
	break;

	case 1: // call in new proc (go)
	case 2: // defered call (defer)
	nodreg(&reg, types[TINT64], D_AX);
	gins(APUSHQ, f, N);
	nodconst(&con, types[TINT32], argsize(f->type));
	gins(APUSHQ, &con, N);
	if(proc == 1)
	ginscall(newproc, 0);
	else {
	if(!hasdefer)
	fatal("hasdefer=0 but has defer");
	ginscall(deferproc, 0);
	}
	gins(APOPQ, N, &reg);
	gins(APOPQ, N, &reg);
	break;
	}
	}

	/*
	* n is call to interface method.
	* generate res = n.
	*/
	void
	cgen_callinter(Node n, Node res, int proc)
	{
	Node i, f;
	Node tmpi, nodo, nodr, nodsp;

	i = n->left;
	if(i->op != ODOTINTER)
	fatal("cgen_callinter: not ODOTINTER %O", i->op);

	f = i->right; // field
	if(f->op != ONAME)
	fatal("cgen_callinter: not ONAME %O", f->op);

	i = i->left; // interface

	if(!i->addable) {
	tempname(&tmpi, i->type);
	cgen(i, &tmpi);
	i = &tmpi;
	}

	gen(n->right); // args

	regalloc(&nodr, types[tptr], res);
	regalloc(&nodo, types[tptr], &nodr);
	nodo.op = OINDREG;

	agen(i, &nodr); // REG = &inter

	nodindreg(&nodsp, types[tptr], D_SP);
	nodo.xoffset += widthptr;
	cgen(&nodo, &nodsp); // 0(SP) = 8(REG) -- i.s

	nodo.xoffset -= widthptr;
	cgen(&nodo, &nodr); // REG = 0(REG) -- i.m

	nodo.xoffset = n->left->xoffset + 3*widthptr + 8;
	cgen(&nodo, &nodr); // REG = 32+offset(REG) -- i.m->fun[f]

	// BOTCH nodr.type = fntype;
	nodr.type = n->left->type;
	ginscall(&nodr, proc);

	regfree(&nodr);
	regfree(&nodo);

	setmaxarg(n->left->type);
	}

	/*
	* generate function call;
	* proc=0 normal call
	* proc=1 goroutine run in new proc
	* proc=2 defer call save away stack
	*/
	void
	cgen_call(Node *n, int proc)
	{
	Type *t;
	Node nod, afun;

	if(n == N)
	return;

	if(n->left->ullman >= UINF) {
	// if name involves a fn call
	// precompute the address of the fn
	tempname(&afun, types[tptr]);
	cgen(n->left, &afun);
	}

	gen(n->right); // assign the args
	t = n->left->type;

	setmaxarg(t);

	// call tempname pointer
	if(n->left->ullman >= UINF) {
	regalloc(&nod, types[tptr], N);
	cgen_as(&nod, &afun);
	nod.type = t;
	ginscall(&nod, proc);
	regfree(&nod);
	goto ret;
	}

	// call pointer
	if(n->left->op != ONAME \|\| n->left->class != PFUNC) {
	regalloc(&nod, types[tptr], N);
	cgen_as(&nod, n->left);
	nod.type = t;
	ginscall(&nod, proc);
	regfree(&nod);
	goto ret;
	}

	// call direct
	n->left->method = 1;
	ginscall(n->left, proc);


	ret:
	;
	}

	/*
	* call to n has already been generated.
	* generate:
	* res = return value from call.
	*/
	void
	cgen_callret(Node n, Node res)
	{
	Node nod;
	Type fp, t;
	Iter flist;

	t = n->left->type;
	if(t->etype == TPTR32 \|\| t->etype == TPTR64)
	t = t->type;

	fp = structfirst(&flist, getoutarg(t));
	if(fp == T)
	fatal("cgen_callret: nil");

	memset(&nod, 0, sizeof(nod));
	nod.op = OINDREG;
	nod.val.u.reg = D_SP;
	nod.addable = 1;

	nod.xoffset = fp->width;
	nod.type = fp->type;
	cgen_as(res, &nod);
	}

	/*
	* call to n has already been generated.
	* generate:
	* res = &return value from call.
	*/
	void
	cgen_aret(Node n, Node res)
	{
	Node nod1, nod2;
	Type fp, t;
	Iter flist;

	t = n->left->type;
	if(isptr[t->etype])
	t = t->type;

	fp = structfirst(&flist, getoutarg(t));
	if(fp == T)
	fatal("cgen_aret: nil");

	memset(&nod1, 0, sizeof(nod1));
	nod1.op = OINDREG;
	nod1.val.u.reg = D_SP;
	nod1.addable = 1;

	nod1.xoffset = fp->width;
	nod1.type = fp->type;

	if(res->op != OREGISTER) {
	regalloc(&nod2, types[tptr], res);
	gins(ALEAQ, &nod1, &nod2);
	gins(AMOVQ, &nod2, res);
	regfree(&nod2);
	} else
	gins(ALEAQ, &nod1, res);
	}

	/*
	* generate return.
	* n->left is assignments to return values.
	*/
	void
	cgen_ret(Node *n)
	{
	gen(n->left); // copy out args
	if(hasdefer)
	ginscall(deferreturn, 0);
	gins(ARET, N, N);
	}

	/*
	* generate += *= etc.
	*/
	void
	cgen_asop(Node *n)
	{
	Node n1, n2, n3, n4;
	Node nl, nr;
	Prog *p1;
	Addr addr;
	int a;

	nl = n->left;
	nr = n->right;

	if(nr->ullman >= UINF && nl->ullman >= UINF) {
	tempname(&n1, nr->type);
	cgen(nr, &n1);
	n2 = *n;
	n2.right = &n1;
	cgen_asop(&n2);
	goto ret;
	}

	if(!isint[nl->type->etype])
	goto hard;
	if(!isint[nr->type->etype])
	goto hard;

	switch(n->etype) {
	case OADD:
	if(smallintconst(nr))
	if(mpgetfix(nr->val.u.xval) == 1) {
	a = optoas(OINC, nl->type);
	if(nl->addable) {
	gins(a, N, nl);
	goto ret;
	}
	if(sudoaddable(a, nl, &addr)) {
	p1 = gins(a, N, N);
	p1->to = addr;
	sudoclean();
	goto ret;
	}
	}
	break;

	case OSUB:
	if(smallintconst(nr))
	if(mpgetfix(nr->val.u.xval) == 1) {
	a = optoas(ODEC, nl->type);
	if(nl->addable) {
	gins(a, N, nl);
	goto ret;
	}
	if(sudoaddable(a, nl, &addr)) {
	p1 = gins(a, N, N);
	p1->to = addr;
	sudoclean();
	goto ret;
	}
	}
	break;
	}

	switch(n->etype) {
	case OADD:
	case OSUB:
	case OXOR:
	case OAND:
	case OOR:
	a = optoas(n->etype, nl->type);
	if(nl->addable) {
	if(smallintconst(nr)) {
	gins(a, nr, nl);
	goto ret;
	}
	regalloc(&n2, nr->type, N);
	cgen(nr, &n2);
	gins(a, &n2, nl);
	regfree(&n2);
	goto ret;
	}
	if(nr->ullman < UINF)
	if(sudoaddable(a, nl, &addr)) {
	if(smallintconst(nr)) {
	p1 = gins(a, nr, N);
	p1->to = addr;
	sudoclean();
	goto ret;
	}
	regalloc(&n2, nr->type, N);
	cgen(nr, &n2);
	p1 = gins(a, &n2, N);
	p1->to = addr;
	regfree(&n2);
	sudoclean();
	goto ret;
	}
	}

	hard:
	if(nr->ullman > nl->ullman) {
	regalloc(&n2, nr->type, N);
	cgen(nr, &n2);
	igen(nl, &n1, N);
	} else {
	igen(nl, &n1, N);
	regalloc(&n2, nr->type, N);
	cgen(nr, &n2);
	}

	n3 = *n;
	n3.left = &n1;
	n3.right = &n2;
	n3.op = n->etype;

	regalloc(&n4, nl->type, N);
	cgen(&n3, &n4);
	gmove(&n4, &n1);

	regfree(&n1);
	regfree(&n2);
	regfree(&n4);

	ret:
	;
	}

	int
	samereg(Node a, Node b)
	{
	if(a->op != OREGISTER)
	return 0;
	if(b->op != OREGISTER)
	return 0;
	if(a->val.u.reg != b->val.u.reg)
	return 0;
	return 1;
	}

	/*
	* generate division.
	* caller must set:
	* ax = allocated AX register
	* dx = allocated DX register
	* generates one of:
	* res = nl / nr
	* res = nl % nr
	* according to op.
	*/
	void
	dodiv(int op, Node nl, Node nr, Node res, Node ax, Node *dx)
	{
	int a;
	Node n3, n4;
	Type *t;

	t = nl->type;
	if(t->width == 1) {
	if(issigned[t->etype])
	t = types[TINT32];
	else
	t = types[TUINT32];
	}
	a = optoas(op, t);
	ax->type = t;
	dx->type = t;

	regalloc(&n3, t, N);
	if(nl->ullman >= nr->ullman) {
	cgen(nl, ax);
	if(!issigned[t->etype]) {
	nodconst(&n4, t, 0);
	gmove(&n4, dx);
	} else
	gins(optoas(OEXTEND, t), N, N);
	cgen(nr, &n3);
	} else {
	cgen(nr, &n3);
	cgen(nl, ax);
	if(!issigned[t->etype]) {
	nodconst(&n4, t, 0);
	gmove(&n4, dx);
	} else
	gins(optoas(OEXTEND, t), N, N);
	}
	gins(a, &n3, N);
	regfree(&n3);

	if(op == ODIV)
	gmove(ax, res);
	else
	gmove(dx, res);
	}

	/*
	* generate division according to op, one of:
	* res = nl / nr
	* res = nl % nr
	*/
	void
	cgen_div(int op, Node nl, Node nr, Node *res)
	{
	Node ax, dx;
	int rax, rdx;

	rax = reg[D_AX];
	rdx = reg[D_DX];

	nodreg(&ax, types[TINT64], D_AX);
	nodreg(&dx, types[TINT64], D_DX);
	regalloc(&ax, nl->type, &ax);
	regalloc(&dx, nl->type, &dx);

	dodiv(op, nl, nr, res, &ax, &dx);

	regfree(&ax);
	regfree(&dx);
	}

	/*
	* generate shift according to op, one of:
	* res = nl << nr
	* res = nl >> nr
	*/
	void
	cgen_shift(int op, Node nl, Node nr, Node *res)
	{
	Node n1, n2, n3;
	int a;
	Prog *p1;
	uvlong sc;

	a = optoas(op, nl->type);

	if(nr->op == OLITERAL) {
	regalloc(&n1, nl->type, res);
	cgen(nl, &n1);
	sc = mpgetfix(nr->val.u.xval);
	if(sc >= nl->type->width*8) {
	// large shift gets 2 shifts by width
	nodconst(&n3, types[TUINT32], nl->type->width*8-1);
	gins(a, &n3, &n1);
	gins(a, &n3, &n1);
	} else
	gins(a, nr, &n1);
	gmove(&n1, res);
	regfree(&n1);
	goto ret;
	}

	nodreg(&n1, types[TUINT32], D_CX);
	regalloc(&n1, nr->type, &n1); // to hold the shift type in CX
	regalloc(&n3, types[TUINT64], &n1); // to clear high bits of CX

	regalloc(&n2, nl->type, res);
	if(nl->ullman >= nr->ullman) {
	cgen(nl, &n2);
	cgen(nr, &n1);
	gmove(&n1, &n3);
	} else {
	cgen(nr, &n1);
	gmove(&n1, &n3);
	cgen(nl, &n2);
	}
	regfree(&n3);

	// test and fix up large shifts
	nodconst(&n3, types[TUINT64], nl->type->width*8);
	gins(optoas(OCMP, types[TUINT64]), &n1, &n3);
	p1 = gbranch(optoas(OLT, types[TUINT64]), T);
	if(op == ORSH && issigned[nl->type->etype]) {
	nodconst(&n3, types[TUINT32], nl->type->width*8-1);
	gins(a, &n3, &n2);
	} else {
	nodconst(&n3, nl->type, 0);
	gmove(&n3, &n2);
	}
	patch(p1, pc);
	gins(a, &n1, &n2);

	gmove(&n2, res);

	regfree(&n1);
	regfree(&n2);

	ret:
	;
	}

	/*
	* generate byte multiply:
	* res = nl * nr
	* no byte multiply instruction so have to do
	* 16-bit multiply and take bottom half.
	*/
	void
	cgen_bmul(int op, Node nl, Node nr, Node *res)
	{
	Node n1b, n2b, n1w, n2w;
	Type *t;
	int a;

	if(nl->ullman >= nr->ullman) {
	regalloc(&n1b, nl->type, res);
	cgen(nl, &n1b);
	regalloc(&n2b, nr->type, N);
	cgen(nr, &n2b);
	} else {
	regalloc(&n2b, nr->type, N);
	cgen(nr, &n2b);
	regalloc(&n1b, nl->type, res);
	cgen(nl, &n1b);
	}

	// copy from byte to short registers
	t = types[TUINT16];
	if(issigned[nl->type->etype])
	t = types[TINT16];

	regalloc(&n2w, t, &n2b);
	cgen(&n2b, &n2w);

	regalloc(&n1w, t, &n1b);
	cgen(&n1b, &n1w);

	a = optoas(op, t);
	gins(a, &n2w, &n1w);
	cgen(&n1w, &n1b);
	cgen(&n1b, res);

	regfree(&n1w);
	regfree(&n2w);
	regfree(&n1b);
	regfree(&n2b);
	}

	void
	clearfat(Node *nl)
	{
	uint32 w, c, q;
	Node n1;

	/* clear a fat object */
	if(debug['g'])
	dump("\nclearfat", nl);

	w = nl->type->width;
	c = w % 8; // bytes
	q = w / 8; // quads

	gconreg(AMOVQ, 0, D_AX);
	nodreg(&n1, types[tptr], D_DI);
	agen(nl, &n1);

	if(q >= 4) {
	gconreg(AMOVQ, q, D_CX);
	gins(AREP, N, N); // repeat
	gins(ASTOSQ, N, N); // STOQ AL,*(DI)+
	} else
	while(q > 0) {
	gins(ASTOSQ, N, N); // STOQ AL,*(DI)+
	q--;
	}

	if(c >= 4) {
	gconreg(AMOVQ, c, D_CX);
	gins(AREP, N, N); // repeat
	gins(ASTOSB, N, N); // STOB AL,*(DI)+
	} else
	while(c > 0) {
	gins(ASTOSB, N, N); // STOB AL,*(DI)+
	c--;
	}
	}

	int
	getlit(Node *lit)
	{
	if(smallintconst(lit))
	return mpgetfix(lit->val.u.xval);
	return -1;
	}

	int
	stataddr(Node nam, Node n)
	{
	int l;

	if(n == N)
	goto no;

	switch(n->op) {
	case ONAME:
	nam = n;
	return n->addable;

	case ODOT:
	if(!stataddr(nam, n->left))
	break;
	nam->xoffset += n->xoffset;
	nam->type = n->type;
	return 1;

	case OINDEX:
	if(n->left->type->bound < 0)
	break;
	if(!stataddr(nam, n->left))
	break;
	l = getlit(n->right);
	if(l < 0)
	break;
	nam->xoffset += l*n->type->width;
	nam->type = n->type;
	return 1;
	}

	no:
	return 0;
	}

	int
	gen_as_init(Node nr, Node nl)
	{
	Node nam, nod1;
	Prog *p;

	if(!initflag)
	goto no;

	if(nr == N) {
	if(!stataddr(&nam, nl))
	goto no;
	if(nam.class != PEXTERN)
	goto no;
	return 1;
	}

	if(nr->op == OCOMPSLICE) {
	// create a slice pointing to an array
	if(!stataddr(&nam, nl)) {
	dump("stataddr", nl);
	goto no;
	}

	p = gins(ADATA, &nam, nr->left);
	p->from.scale = types[tptr]->width;
	p->to.index = p->to.type;
	p->to.type = D_ADDR;
	//print("%P\n", p);

	nodconst(&nod1, types[TINT32], nr->left->type->bound);
	p = gins(ADATA, &nam, &nod1);
	p->from.scale = types[TINT32]->width;
	p->from.offset += types[tptr]->width;
	//print("%P\n", p);

	p = gins(ADATA, &nam, &nod1);
	p->from.scale = types[TINT32]->width;
	p->from.offset += types[tptr]->width+types[TINT32]->width;

	goto yes;
	}

	if(nr->op == OCOMPMAP) {
	goto yes;
	}

	if(nr->type == T \|\|
	!eqtype(nl->type, nr->type))
	goto no;

	if(!stataddr(&nam, nl))
	goto no;
	if(nam.class != PEXTERN)
	goto no;

	switch(nr->op) {
	default:
	goto no;

	case OLITERAL:
	goto lit;
	}

	no:
	return 0;

	lit:
	switch(nr->type->etype) {
	default:
	goto no;

	case TBOOL:
	if(memcmp(nam.sym->name, "initdone·", 9) == 0)
	goto no;
	case TINT8:
	case TUINT8:
	case TINT16:
	case TUINT16:
	case TINT32:
	case TUINT32:
	case TINT64:
	case TUINT64:
	case TINT:
	case TUINT:
	case TFLOAT32:
	case TFLOAT64:
	case TFLOAT:
	p = gins(ADATA, &nam, nr);
	p->from.scale = nr->type->width;
	break;

	case TSTRING:
	p = gins(ADATA, &nam, N);
	datastring(nr->val.u.sval->s, nr->val.u.sval->len, &p->to);
	p->from.scale = types[tptr]->width;
	p->to.index = p->to.type;
	p->to.type = D_ADDR;
	//print("%P\n", p);

	nodconst(&nod1, types[TINT32], nr->val.u.sval->len);
	p = gins(ADATA, &nam, &nod1);
	p->from.scale = types[TINT32]->width;
	p->from.offset += types[tptr]->width;
	//print("%P\n", p);
	break;
	}

	yes:
	//dump("\ngen_as_init", nl);
	//dump("", nr);
	//print("%P\n", p);
	return 1;
	}