src/cmd/gc/cplx.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.

 #include "gg.h"

 static	void	subnode(Node *nr, Node *ni, Node *nc);
 static	void	minus(Node *nl, Node *res);
 	void	complexminus(Node*, Node*);
 	void	complexadd(int op, Node*, Node*, Node*);
 	void	complexmul(Node*, Node*, Node*);

 #define	CASE(a,b)	(((a)<<16)|((b)<<0))

 /*
  * generate:
  *	res = n;
  * simplifies and calls gmove.
  */
 void
 complexmove(Node *f, Node *t)
 {
 	int ft, tt;
 	Node n1, n2, n3, n4;

 	if(debug['g']) {
 		dump("\ncomplexmove-f", f);
 		dump("complexmove-t", t);
 	}

 	if(!t->addable)
 		fatal("complexmove: to not addable");

 	ft = simsimtype(f->type);
 	tt = simsimtype(t->type);
 	switch(CASE(ft,tt)) {

 	default:
 		fatal("complexmove: unknown conversion: %T -> %T\n",
 			f->type, t->type);

 	case CASE(TCOMPLEX64,TCOMPLEX64):
 	case CASE(TCOMPLEX64,TCOMPLEX128):
 	case CASE(TCOMPLEX128,TCOMPLEX64):
 	case CASE(TCOMPLEX128,TCOMPLEX128):
 		// complex to complex move/convert
 		// make from addable
 		if(!f->addable) {
 			tempname(&n1, f->type);
 			complexmove(f, &n1);
 			f = &n1;
 		}

 		subnode(&n1, &n2, f);
 		subnode(&n3, &n4, t);

 		cgen(&n1, &n3);
 		cgen(&n2, &n4);
 		break;
 	}
 }

 int
 complexop(Node *n, Node *res)
 {
 	if(n != N && n->type != T)
 	if(iscomplex[n->type->etype]) {
 		goto maybe;
 	}
 	if(res != N && res->type != T)
 	if(iscomplex[res->type->etype]) {
 		goto maybe;
 	}

 	if(n->op == OREAL || n->op == OIMAG)
 		goto yes;

 	goto no;

 maybe:
 	switch(n->op) {
 	case OCONV:	// implemented ops
 	case OADD:
 	case OSUB:
 	case OMUL:
 	case OMINUS:
 	case OCMPLX:
 	case OREAL:
 	case OIMAG:
 		goto yes;

 	case ODOT:
 	case ODOTPTR:
 	case OINDEX:
 	case OIND:
 	case ONAME:
 		goto yes;
 	}

 no:
 //dump("\ncomplex-no", n);
 	return 0;
 yes:
 //dump("\ncomplex-yes", n);
 	return 1;
 }

 void
 complexgen(Node *n, Node *res)
 {
 	Node *nl, *nr;
 	Node tnl, tnr;
 	Node n1, n2, tmp;
 	int tl, tr;

 	if(debug['g']) {
 		dump("\ncomplexgen-n", n);
 		dump("complexgen-res", res);
 	}

 	// pick off float/complex opcodes
 	switch(n->op) {
 	case OCMPLX:
 		if(res->addable) {
 			subnode(&n1, &n2, res);
 			tempname(&tmp, n1.type);
 			cgen(n->left, &tmp);
 			cgen(n->right, &n2);
 			cgen(&tmp, &n1);
 			return;
 		}
 		break;

 	case OREAL:
 	case OIMAG:
 		nl = n->left;
 		if(!nl->addable) {
 			tempname(&tmp, nl->type);
 			complexgen(nl, &tmp);
 			nl = &tmp;
 		}
 		subnode(&n1, &n2, nl);
 		if(n->op == OREAL) {
 			cgen(&n1, res);
 			return;
 		}
 		cgen(&n2, res);
 		return;
 	}

 	// perform conversion from n to res
 	tl = simsimtype(res->type);
 	tl = cplxsubtype(tl);
 	tr = simsimtype(n->type);
 	tr = cplxsubtype(tr);
 	if(tl != tr) {
 		if(!n->addable) {
 			tempname(&n1, n->type);
 			complexmove(n, &n1);
 			n = &n1;
 		}
 		complexmove(n, res);
 		return;
 	}

 	if(!res->addable) {
 		igen(res, &n1, N);
 		cgen(n, &n1);
 		regfree(&n1);
 		return;
 	}
 	if(n->addable) {
 		complexmove(n, res);
 		return;
 	}

 	switch(n->op) {
 	default:
 		dump("complexgen: unknown op", n);
 		fatal("complexgen: unknown op %O", n->op);

 	case ODOT:
 	case ODOTPTR:
 	case OINDEX:
 	case OIND:
 	case ONAME:	// PHEAP or PPARAMREF var
 	case OCALLFUNC:
 		igen(n, &n1, res);
 		complexmove(&n1, res);
 		regfree(&n1);
 		return;

 	case OCONV:
 	case OADD:
 	case OSUB:
 	case OMUL:
 	case OMINUS:
 	case OCMPLX:
 	case OREAL:
 	case OIMAG:
 		break;
 	}

 	nl = n->left;
 	if(nl == N)
 		return;
 	nr = n->right;

 	// make both sides addable in ullman order
 	if(nr != N) {
 		if(nl->ullman > nr->ullman && !nl->addable) {
 			tempname(&tnl, nl->type);
 			cgen(nl, &tnl);
 			nl = &tnl;
 		}
 		if(!nr->addable) {
 			tempname(&tnr, nr->type);
 			cgen(nr, &tnr);
 			nr = &tnr;
 		}
 	}
 	if(!nl->addable) {
 		tempname(&tnl, nl->type);
 		cgen(nl, &tnl);
 		nl = &tnl;
 	}

 	switch(n->op) {
 	default:
 		fatal("complexgen: unknown op %O", n->op);
 		break;

 	case OCONV:
 		complexmove(nl, res);
 		break;

 	case OMINUS:
 		complexminus(nl, res);
 		break;

 	case OADD:
 	case OSUB:
 		complexadd(n->op, nl, nr, res);
 		break;

 	case OMUL:
 		complexmul(nl, nr, res);
 		break;
 	}
 }

 void
 complexbool(int op, Node *nl, Node *nr, int true, Prog *to)
 {
 	Node tnl, tnr;
 	Node n1, n2, n3, n4;
 	Node na, nb, nc;

 	// make both sides addable in ullman order
 	if(nr != N) {
 		if(nl->ullman > nr->ullman && !nl->addable) {
 			tempname(&tnl, nl->type);
 			cgen(nl, &tnl);
 			nl = &tnl;
 		}
 		if(!nr->addable) {
 			tempname(&tnr, nr->type);
 			cgen(nr, &tnr);
 			nr = &tnr;
 		}
 	}
 	if(!nl->addable) {
 		tempname(&tnl, nl->type);
 		cgen(nl, &tnl);
 		nl = &tnl;
 	}

 	// build tree
 	// real(l) == real(r) && imag(l) == imag(r)

 	subnode(&n1, &n2, nl);
 	subnode(&n3, &n4, nr);

 	memset(&na, 0, sizeof(na));
 	na.op = OANDAND;
 	na.left = &nb;
 	na.right = &nc;
 	na.type = types[TBOOL];

 	memset(&nb, 0, sizeof(na));
 	nb.op = OEQ;
 	nb.left = &n1;
 	nb.right = &n3;
 	nb.type = types[TBOOL];

 	memset(&nc, 0, sizeof(na));
 	nc.op = OEQ;
 	nc.left = &n2;
 	nc.right = &n4;
 	nc.type = types[TBOOL];

 	if(op == ONE)
 		true = !true;

 	bgen(&na, true, to);
 }

 void
 nodfconst(Node *n, Type *t, Mpflt* fval)
 {
 	memset(n, 0, sizeof(*n));
 	n->op = OLITERAL;
 	n->addable = 1;
 	ullmancalc(n);
 	n->val.u.fval = fval;
 	n->val.ctype = CTFLT;
 	n->type = t;

 	if(!isfloat[t->etype])
 		fatal("nodfconst: bad type %T", t);
 }

 // break addable nc-complex into nr-real and ni-imaginary
 static void
 subnode(Node *nr, Node *ni, Node *nc)
 {
 	int tc;
 	Type *t;

 	if(!nc->addable)
 		fatal("subnode not addable");

 	tc = simsimtype(nc->type);
 	tc = cplxsubtype(tc);
 	t = types[tc];

 	if(nc->op == OLITERAL) {
 		nodfconst(nr, t, &nc->val.u.cval->real);
 		nodfconst(ni, t, &nc->val.u.cval->imag);
 		return;
 	}

 	*nr = *nc;
 	nr->type = t;

 	*ni = *nc;
 	ni->type = t;
 	ni->xoffset += t->width;
 }

 // generate code res = -nl
 static void
 minus(Node *nl, Node *res)
 {
 	Node ra;

 	memset(&ra, 0, sizeof(ra));
 	ra.op = OMINUS;
 	ra.left = nl;
 	ra.type = nl->type;
 	cgen(&ra, res);
 }

 // build and execute tree
 //	real(res) = -real(nl)
 //	imag(res) = -imag(nl)
 void
 complexminus(Node *nl, Node *res)
 {
 	Node n1, n2, n5, n6;

 	subnode(&n1, &n2, nl);
 	subnode(&n5, &n6, res);

 	minus(&n1, &n5);
 	minus(&n2, &n6);
 }


 // build and execute tree
 //	real(res) = real(nl) op real(nr)
 //	imag(res) = imag(nl) op imag(nr)
 void
 complexadd(int op, Node *nl, Node *nr, Node *res)
 {
 	Node n1, n2, n3, n4, n5, n6;
 	Node ra;

 	subnode(&n1, &n2, nl);
 	subnode(&n3, &n4, nr);
 	subnode(&n5, &n6, res);

 	memset(&ra, 0, sizeof(ra));
 	ra.op = op;
 	ra.left = &n1;
 	ra.right = &n3;
 	ra.type = n1.type;
 	cgen(&ra, &n5);

 	memset(&ra, 0, sizeof(ra));
 	ra.op = op;
 	ra.left = &n2;
 	ra.right = &n4;
 	ra.type = n2.type;
 	cgen(&ra, &n6);
 }

 // build and execute tree
 //	tmp       = real(nl)*real(nr) - imag(nl)*imag(nr)
 //	imag(res) = real(nl)*imag(nr) + imag(nl)*real(nr)
 //	real(res) = tmp
 void
 complexmul(Node *nl, Node *nr, Node *res)
 {
 	Node n1, n2, n3, n4, n5, n6;
 	Node rm1, rm2, ra, tmp;

 	subnode(&n1, &n2, nl);
 	subnode(&n3, &n4, nr);
 	subnode(&n5, &n6, res);
 	tempname(&tmp, n5.type);

 	// real part -> tmp
 	memset(&rm1, 0, sizeof(ra));
 	rm1.op = OMUL;
 	rm1.left = &n1;
 	rm1.right = &n3;
 	rm1.type = n1.type;

 	memset(&rm2, 0, sizeof(ra));
 	rm2.op = OMUL;
 	rm2.left = &n2;
 	rm2.right = &n4;
 	rm2.type = n2.type;

 	memset(&ra, 0, sizeof(ra));
 	ra.op = OSUB;
 	ra.left = &rm1;
 	ra.right = &rm2;
 	ra.type = rm1.type;
 	cgen(&ra, &tmp);

 	// imag part
 	memset(&rm1, 0, sizeof(ra));
 	rm1.op = OMUL;
 	rm1.left = &n1;
 	rm1.right = &n4;
 	rm1.type = n1.type;

 	memset(&rm2, 0, sizeof(ra));
 	rm2.op = OMUL;
 	rm2.left = &n2;
 	rm2.right = &n3;
 	rm2.type = n2.type;

 	memset(&ra, 0, sizeof(ra));
 	ra.op = OADD;
 	ra.left = &rm1;
 	ra.right = &rm2;
 	ra.type = rm1.type;
 	cgen(&ra, &n6);

 	// tmp ->real part
 	cgen(&tmp, &n5);
 }
	// 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.

	#include "gg.h"

	static void subnode(Node nr, Node ni, Node *nc);
	static void minus(Node nl, Node res);
	void complexminus(Node, Node);
	void complexadd(int op, Node, Node, Node*);
	void complexmul(Node, Node, Node*);

	#define CASE(a,b) (((a)<<16)\|((b)<<0))

	/*
	* generate:
	* res = n;
	* simplifies and calls gmove.
	*/
	void
	complexmove(Node f, Node t)
	{
	int ft, tt;
	Node n1, n2, n3, n4;

	if(debug['g']) {
	dump("\ncomplexmove-f", f);
	dump("complexmove-t", t);
	}

	if(!t->addable)
	fatal("complexmove: to not addable");

	ft = simsimtype(f->type);
	tt = simsimtype(t->type);
	switch(CASE(ft,tt)) {

	default:
	fatal("complexmove: unknown conversion: %T -> %T\n",
	f->type, t->type);

	case CASE(TCOMPLEX64,TCOMPLEX64):
	case CASE(TCOMPLEX64,TCOMPLEX128):
	case CASE(TCOMPLEX128,TCOMPLEX64):
	case CASE(TCOMPLEX128,TCOMPLEX128):
	// complex to complex move/convert
	// make from addable
	if(!f->addable) {
	tempname(&n1, f->type);
	complexmove(f, &n1);
	f = &n1;
	}

	subnode(&n1, &n2, f);
	subnode(&n3, &n4, t);

	cgen(&n1, &n3);
	cgen(&n2, &n4);
	break;
	}
	}

	int
	complexop(Node n, Node res)
	{
	if(n != N && n->type != T)
	if(iscomplex[n->type->etype]) {
	goto maybe;
	}
	if(res != N && res->type != T)
	if(iscomplex[res->type->etype]) {
	goto maybe;
	}

	if(n->op == OREAL \|\| n->op == OIMAG)
	goto yes;

	goto no;

	maybe:
	switch(n->op) {
	case OCONV: // implemented ops
	case OADD:
	case OSUB:
	case OMUL:
	case OMINUS:
	case OCMPLX:
	case OREAL:
	case OIMAG:
	goto yes;

	case ODOT:
	case ODOTPTR:
	case OINDEX:
	case OIND:
	case ONAME:
	goto yes;
	}

	no:
	//dump("\ncomplex-no", n);
	return 0;
	yes:
	//dump("\ncomplex-yes", n);
	return 1;
	}

	void
	complexgen(Node n, Node res)
	{
	Node nl, nr;
	Node tnl, tnr;
	Node n1, n2, tmp;
	int tl, tr;

	if(debug['g']) {
	dump("\ncomplexgen-n", n);
	dump("complexgen-res", res);
	}

	// pick off float/complex opcodes
	switch(n->op) {
	case OCMPLX:
	if(res->addable) {
	subnode(&n1, &n2, res);
	tempname(&tmp, n1.type);
	cgen(n->left, &tmp);
	cgen(n->right, &n2);
	cgen(&tmp, &n1);
	return;
	}
	break;

	case OREAL:
	case OIMAG:
	nl = n->left;
	if(!nl->addable) {
	tempname(&tmp, nl->type);
	complexgen(nl, &tmp);
	nl = &tmp;
	}
	subnode(&n1, &n2, nl);
	if(n->op == OREAL) {
	cgen(&n1, res);
	return;
	}
	cgen(&n2, res);
	return;
	}

	// perform conversion from n to res
	tl = simsimtype(res->type);
	tl = cplxsubtype(tl);
	tr = simsimtype(n->type);
	tr = cplxsubtype(tr);
	if(tl != tr) {
	if(!n->addable) {
	tempname(&n1, n->type);
	complexmove(n, &n1);
	n = &n1;
	}
	complexmove(n, res);
	return;
	}

	if(!res->addable) {
	igen(res, &n1, N);
	cgen(n, &n1);
	regfree(&n1);
	return;
	}
	if(n->addable) {
	complexmove(n, res);
	return;
	}

	switch(n->op) {
	default:
	dump("complexgen: unknown op", n);
	fatal("complexgen: unknown op %O", n->op);

	case ODOT:
	case ODOTPTR:
	case OINDEX:
	case OIND:
	case ONAME: // PHEAP or PPARAMREF var
	case OCALLFUNC:
	igen(n, &n1, res);
	complexmove(&n1, res);
	regfree(&n1);
	return;

	case OCONV:
	case OADD:
	case OSUB:
	case OMUL:
	case OMINUS:
	case OCMPLX:
	case OREAL:
	case OIMAG:
	break;
	}

	nl = n->left;
	if(nl == N)
	return;
	nr = n->right;

	// make both sides addable in ullman order
	if(nr != N) {
	if(nl->ullman > nr->ullman && !nl->addable) {
	tempname(&tnl, nl->type);
	cgen(nl, &tnl);
	nl = &tnl;
	}
	if(!nr->addable) {
	tempname(&tnr, nr->type);
	cgen(nr, &tnr);
	nr = &tnr;
	}
	}
	if(!nl->addable) {
	tempname(&tnl, nl->type);
	cgen(nl, &tnl);
	nl = &tnl;
	}

	switch(n->op) {
	default:
	fatal("complexgen: unknown op %O", n->op);
	break;

	case OCONV:
	complexmove(nl, res);
	break;

	case OMINUS:
	complexminus(nl, res);
	break;

	case OADD:
	case OSUB:
	complexadd(n->op, nl, nr, res);
	break;

	case OMUL:
	complexmul(nl, nr, res);
	break;
	}
	}

	void
	complexbool(int op, Node nl, Node nr, int true, Prog *to)
	{
	Node tnl, tnr;
	Node n1, n2, n3, n4;
	Node na, nb, nc;

	// make both sides addable in ullman order
	if(nr != N) {
	if(nl->ullman > nr->ullman && !nl->addable) {
	tempname(&tnl, nl->type);
	cgen(nl, &tnl);
	nl = &tnl;
	}
	if(!nr->addable) {
	tempname(&tnr, nr->type);
	cgen(nr, &tnr);
	nr = &tnr;
	}
	}
	if(!nl->addable) {
	tempname(&tnl, nl->type);
	cgen(nl, &tnl);
	nl = &tnl;
	}

	// build tree
	// real(l) == real(r) && imag(l) == imag(r)

	subnode(&n1, &n2, nl);
	subnode(&n3, &n4, nr);

	memset(&na, 0, sizeof(na));
	na.op = OANDAND;
	na.left = &nb;
	na.right = &nc;
	na.type = types[TBOOL];

	memset(&nb, 0, sizeof(na));
	nb.op = OEQ;
	nb.left = &n1;
	nb.right = &n3;
	nb.type = types[TBOOL];

	memset(&nc, 0, sizeof(na));
	nc.op = OEQ;
	nc.left = &n2;
	nc.right = &n4;
	nc.type = types[TBOOL];

	if(op == ONE)
	true = !true;

	bgen(&na, true, to);
	}

	void
	nodfconst(Node n, Type t, Mpflt* fval)
	{
	memset(n, 0, sizeof(*n));
	n->op = OLITERAL;
	n->addable = 1;
	ullmancalc(n);
	n->val.u.fval = fval;
	n->val.ctype = CTFLT;
	n->type = t;

	if(!isfloat[t->etype])
	fatal("nodfconst: bad type %T", t);
	}

	// break addable nc-complex into nr-real and ni-imaginary
	static void
	subnode(Node nr, Node ni, Node *nc)
	{
	int tc;
	Type *t;

	if(!nc->addable)
	fatal("subnode not addable");

	tc = simsimtype(nc->type);
	tc = cplxsubtype(tc);
	t = types[tc];

	if(nc->op == OLITERAL) {
	nodfconst(nr, t, &nc->val.u.cval->real);
	nodfconst(ni, t, &nc->val.u.cval->imag);
	return;
	}

	nr = nc;
	nr->type = t;

	ni = nc;
	ni->type = t;
	ni->xoffset += t->width;
	}

	// generate code res = -nl
	static void
	minus(Node nl, Node res)
	{
	Node ra;

	memset(&ra, 0, sizeof(ra));
	ra.op = OMINUS;
	ra.left = nl;
	ra.type = nl->type;
	cgen(&ra, res);
	}

	// build and execute tree
	// real(res) = -real(nl)
	// imag(res) = -imag(nl)
	void
	complexminus(Node nl, Node res)
	{
	Node n1, n2, n5, n6;

	subnode(&n1, &n2, nl);
	subnode(&n5, &n6, res);

	minus(&n1, &n5);
	minus(&n2, &n6);
	}


	// build and execute tree
	// real(res) = real(nl) op real(nr)
	// imag(res) = imag(nl) op imag(nr)
	void
	complexadd(int op, Node nl, Node nr, Node *res)
	{
	Node n1, n2, n3, n4, n5, n6;
	Node ra;

	subnode(&n1, &n2, nl);
	subnode(&n3, &n4, nr);
	subnode(&n5, &n6, res);

	memset(&ra, 0, sizeof(ra));
	ra.op = op;
	ra.left = &n1;
	ra.right = &n3;
	ra.type = n1.type;
	cgen(&ra, &n5);

	memset(&ra, 0, sizeof(ra));
	ra.op = op;
	ra.left = &n2;
	ra.right = &n4;
	ra.type = n2.type;
	cgen(&ra, &n6);
	}

	// build and execute tree
	// tmp = real(nl)real(nr) - imag(nl)imag(nr)
	// imag(res) = real(nl)imag(nr) + imag(nl)real(nr)
	// real(res) = tmp
	void
	complexmul(Node nl, Node nr, Node *res)
	{
	Node n1, n2, n3, n4, n5, n6;
	Node rm1, rm2, ra, tmp;

	subnode(&n1, &n2, nl);
	subnode(&n3, &n4, nr);
	subnode(&n5, &n6, res);
	tempname(&tmp, n5.type);

	// real part -> tmp
	memset(&rm1, 0, sizeof(ra));
	rm1.op = OMUL;
	rm1.left = &n1;
	rm1.right = &n3;
	rm1.type = n1.type;

	memset(&rm2, 0, sizeof(ra));
	rm2.op = OMUL;
	rm2.left = &n2;
	rm2.right = &n4;
	rm2.type = n2.type;

	memset(&ra, 0, sizeof(ra));
	ra.op = OSUB;
	ra.left = &rm1;
	ra.right = &rm2;
	ra.type = rm1.type;
	cgen(&ra, &tmp);

	// imag part
	memset(&rm1, 0, sizeof(ra));
	rm1.op = OMUL;
	rm1.left = &n1;
	rm1.right = &n4;
	rm1.type = n1.type;

	memset(&rm2, 0, sizeof(ra));
	rm2.op = OMUL;
	rm2.left = &n2;
	rm2.right = &n3;
	rm2.type = n2.type;

	memset(&ra, 0, sizeof(ra));
	ra.op = OADD;
	ra.left = &rm1;
	ra.right = &rm2;
	ra.type = rm1.type;
	cgen(&ra, &n6);

	// tmp ->real part
	cgen(&tmp, &n5);
	}