| // 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 <u.h> |
| #include <libc.h> |
| #include "gg.h" |
| |
| /* |
| * generate: |
| * res = n; |
| * simplifies and calls gmove. |
| */ |
| void |
| cgen(Node *n, Node *res) |
| { |
| Node *nl, *nr, *r; |
| Node n1, n2; |
| int a, f; |
| Prog *p1, *p2, *p3; |
| Addr addr; |
| |
| if(debug['g']) { |
| dump("\ncgen-n", n); |
| dump("cgen-res", res); |
| } |
| if(n == N || n->type == T) |
| goto ret; |
| |
| if(res == N || res->type == T) |
| fatal("cgen: res nil"); |
| |
| while(n->op == OCONVNOP) |
| n = n->left; |
| |
| // inline slices |
| if(cgen_inline(n, res)) |
| goto ret; |
| |
| if(n->ullman >= UINF) { |
| if(n->op == OINDREG) |
| fatal("cgen: this is going to misscompile"); |
| if(res->ullman >= UINF) { |
| tempname(&n1, n->type); |
| cgen(n, &n1); |
| cgen(&n1, res); |
| goto ret; |
| } |
| } |
| |
| if(isfat(n->type)) { |
| if(n->type->width < 0) |
| fatal("forgot to compute width for %T", n->type); |
| sgen(n, res, n->type->width); |
| goto ret; |
| } |
| |
| if(!res->addable) { |
| if(n->ullman > res->ullman) { |
| regalloc(&n1, n->type, res); |
| cgen(n, &n1); |
| if(n1.ullman > res->ullman) { |
| dump("n1", &n1); |
| dump("res", res); |
| fatal("loop in cgen"); |
| } |
| cgen(&n1, res); |
| regfree(&n1); |
| goto ret; |
| } |
| |
| if(res->ullman >= UINF) |
| goto gen; |
| |
| if(complexop(n, res)) { |
| complexgen(n, res); |
| goto ret; |
| } |
| |
| f = 1; // gen thru register |
| switch(n->op) { |
| case OLITERAL: |
| if(smallintconst(n)) |
| f = 0; |
| break; |
| case OREGISTER: |
| f = 0; |
| break; |
| } |
| |
| if(!iscomplex[n->type->etype]) { |
| a = optoas(OAS, res->type); |
| if(sudoaddable(a, res, &addr)) { |
| if(f) { |
| regalloc(&n2, res->type, N); |
| cgen(n, &n2); |
| p1 = gins(a, &n2, N); |
| regfree(&n2); |
| } else |
| p1 = gins(a, n, N); |
| p1->to = addr; |
| if(debug['g']) |
| print("%P [ignore previous line]\n", p1); |
| sudoclean(); |
| goto ret; |
| } |
| } |
| |
| gen: |
| igen(res, &n1, N); |
| cgen(n, &n1); |
| regfree(&n1); |
| goto ret; |
| } |
| |
| // update addressability for string, slice |
| // can't do in walk because n->left->addable |
| // changes if n->left is an escaping local variable. |
| switch(n->op) { |
| case OLEN: |
| if(isslice(n->left->type) || istype(n->left->type, TSTRING)) |
| n->addable = n->left->addable; |
| break; |
| case OCAP: |
| if(isslice(n->left->type)) |
| n->addable = n->left->addable; |
| break; |
| } |
| |
| if(complexop(n, res)) { |
| complexgen(n, res); |
| goto ret; |
| } |
| |
| if(n->addable) { |
| gmove(n, res); |
| goto ret; |
| } |
| |
| nl = n->left; |
| nr = n->right; |
| |
| if(nl != N && nl->ullman >= UINF) |
| if(nr != N && nr->ullman >= UINF) { |
| tempname(&n1, nl->type); |
| cgen(nl, &n1); |
| n2 = *n; |
| n2.left = &n1; |
| cgen(&n2, res); |
| goto ret; |
| } |
| |
| if(!iscomplex[n->type->etype]) { |
| a = optoas(OAS, n->type); |
| if(sudoaddable(a, n, &addr)) { |
| if(res->op == OREGISTER) { |
| p1 = gins(a, N, res); |
| p1->from = addr; |
| } else { |
| regalloc(&n2, n->type, N); |
| p1 = gins(a, N, &n2); |
| p1->from = addr; |
| gins(a, &n2, res); |
| regfree(&n2); |
| } |
| sudoclean(); |
| goto ret; |
| } |
| } |
| |
| switch(n->op) { |
| default: |
| dump("cgen", n); |
| fatal("cgen: unknown op %N", n); |
| break; |
| |
| // these call bgen to get a bool value |
| case OOROR: |
| case OANDAND: |
| case OEQ: |
| case ONE: |
| case OLT: |
| case OLE: |
| case OGE: |
| case OGT: |
| case ONOT: |
| p1 = gbranch(AJMP, T); |
| p2 = pc; |
| gmove(nodbool(1), res); |
| p3 = gbranch(AJMP, T); |
| patch(p1, pc); |
| bgen(n, 1, p2); |
| gmove(nodbool(0), res); |
| patch(p3, pc); |
| goto ret; |
| |
| case OPLUS: |
| cgen(nl, res); |
| goto ret; |
| |
| // unary |
| case OCOM: |
| a = optoas(OXOR, nl->type); |
| regalloc(&n1, nl->type, N); |
| cgen(nl, &n1); |
| nodconst(&n2, nl->type, -1); |
| gins(a, &n2, &n1); |
| gmove(&n1, res); |
| regfree(&n1); |
| goto ret; |
| |
| case OMINUS: |
| if(isfloat[nl->type->etype]) { |
| nr = nodintconst(-1); |
| convlit(&nr, n->type); |
| a = optoas(OMUL, nl->type); |
| goto sbop; |
| } |
| a = optoas(n->op, nl->type); |
| goto uop; |
| |
| // symmetric binary |
| case OAND: |
| case OOR: |
| case OXOR: |
| case OADD: |
| case OMUL: |
| a = optoas(n->op, nl->type); |
| if(a != AIMULB) |
| goto sbop; |
| cgen_bmul(n->op, nl, nr, res); |
| break; |
| |
| // asymmetric binary |
| case OSUB: |
| a = optoas(n->op, nl->type); |
| goto abop; |
| |
| case OCONV: |
| regalloc(&n1, nl->type, res); |
| regalloc(&n2, n->type, &n1); |
| cgen(nl, &n1); |
| |
| // if we do the conversion n1 -> n2 here |
| // reusing the register, then gmove won't |
| // have to allocate its own register. |
| gmove(&n1, &n2); |
| gmove(&n2, res); |
| regfree(&n2); |
| regfree(&n1); |
| break; |
| |
| case ODOT: |
| case ODOTPTR: |
| case OINDEX: |
| case OIND: |
| case ONAME: // PHEAP or PPARAMREF var |
| igen(n, &n1, res); |
| gmove(&n1, res); |
| regfree(&n1); |
| break; |
| |
| case OLEN: |
| if(istype(nl->type, TMAP) || istype(nl->type, TCHAN)) { |
| // map and chan have len in the first 32-bit word. |
| // a zero pointer means zero length |
| regalloc(&n1, types[tptr], res); |
| cgen(nl, &n1); |
| |
| nodconst(&n2, types[tptr], 0); |
| gins(optoas(OCMP, types[tptr]), &n1, &n2); |
| p1 = gbranch(optoas(OEQ, types[tptr]), T); |
| |
| n2 = n1; |
| n2.op = OINDREG; |
| n2.type = types[TINT32]; |
| gmove(&n2, &n1); |
| |
| patch(p1, pc); |
| |
| gmove(&n1, res); |
| regfree(&n1); |
| break; |
| } |
| if(istype(nl->type, TSTRING) || isslice(nl->type)) { |
| // both slice and string have len one pointer into the struct. |
| // a zero pointer means zero length |
| igen(nl, &n1, res); |
| n1.type = types[TUINT32]; |
| n1.xoffset += Array_nel; |
| gmove(&n1, res); |
| regfree(&n1); |
| break; |
| } |
| fatal("cgen: OLEN: unknown type %lT", nl->type); |
| break; |
| |
| case OCAP: |
| if(istype(nl->type, TCHAN)) { |
| // chan has cap in the second 32-bit word. |
| // a zero pointer means zero length |
| regalloc(&n1, types[tptr], res); |
| cgen(nl, &n1); |
| |
| nodconst(&n2, types[tptr], 0); |
| gins(optoas(OCMP, types[tptr]), &n1, &n2); |
| p1 = gbranch(optoas(OEQ, types[tptr]), T); |
| |
| n2 = n1; |
| n2.op = OINDREG; |
| n2.xoffset = 4; |
| n2.type = types[TINT32]; |
| gmove(&n2, &n1); |
| |
| patch(p1, pc); |
| |
| gmove(&n1, res); |
| regfree(&n1); |
| break; |
| } |
| if(isslice(nl->type)) { |
| igen(nl, &n1, res); |
| n1.type = types[TUINT32]; |
| n1.xoffset += Array_cap; |
| gmove(&n1, res); |
| regfree(&n1); |
| break; |
| } |
| fatal("cgen: OCAP: unknown type %lT", nl->type); |
| break; |
| |
| case OADDR: |
| agen(nl, res); |
| break; |
| |
| case OCALLMETH: |
| cgen_callmeth(n, 0); |
| cgen_callret(n, res); |
| break; |
| |
| case OCALLINTER: |
| cgen_callinter(n, res, 0); |
| cgen_callret(n, res); |
| break; |
| |
| case OCALLFUNC: |
| cgen_call(n, 0); |
| cgen_callret(n, res); |
| break; |
| |
| case OMOD: |
| case ODIV: |
| if(isfloat[n->type->etype]) { |
| a = optoas(n->op, nl->type); |
| goto abop; |
| } |
| cgen_div(n->op, nl, nr, res); |
| break; |
| |
| case OLSH: |
| case ORSH: |
| cgen_shift(n->op, nl, nr, res); |
| break; |
| } |
| goto ret; |
| |
| sbop: // symmetric binary |
| if(nl->ullman < nr->ullman) { |
| r = nl; |
| nl = nr; |
| nr = r; |
| } |
| |
| abop: // asymmetric binary |
| if(nl->ullman >= nr->ullman) { |
| regalloc(&n1, nl->type, res); |
| cgen(nl, &n1); |
| |
| if(sudoaddable(a, nr, &addr)) { |
| p1 = gins(a, N, &n1); |
| p1->from = addr; |
| gmove(&n1, res); |
| sudoclean(); |
| regfree(&n1); |
| goto ret; |
| } |
| regalloc(&n2, nr->type, N); |
| cgen(nr, &n2); |
| } else { |
| regalloc(&n2, nr->type, N); |
| cgen(nr, &n2); |
| regalloc(&n1, nl->type, res); |
| cgen(nl, &n1); |
| } |
| gins(a, &n2, &n1); |
| gmove(&n1, res); |
| regfree(&n1); |
| regfree(&n2); |
| goto ret; |
| |
| uop: // unary |
| regalloc(&n1, nl->type, res); |
| cgen(nl, &n1); |
| gins(a, N, &n1); |
| gmove(&n1, res); |
| regfree(&n1); |
| goto ret; |
| |
| ret: |
| ; |
| } |
| |
| /* |
| * generate: |
| * res = &n; |
| */ |
| void |
| agen(Node *n, Node *res) |
| { |
| Node *nl, *nr; |
| Node n1, n2, n3, tmp, n4, n5; |
| Prog *p1; |
| uint32 w; |
| uint64 v; |
| Type *t; |
| |
| if(debug['g']) { |
| dump("\nagen-res", res); |
| dump("agen-r", n); |
| } |
| if(n == N || n->type == T) |
| return; |
| |
| while(n->op == OCONVNOP) |
| n = n->left; |
| |
| if(n->addable) { |
| regalloc(&n1, types[tptr], res); |
| gins(ALEAQ, n, &n1); |
| gmove(&n1, res); |
| regfree(&n1); |
| goto ret; |
| } |
| |
| nl = n->left; |
| nr = n->right; |
| |
| switch(n->op) { |
| default: |
| fatal("agen: unknown op %N", n); |
| break; |
| |
| case OCALLMETH: |
| cgen_callmeth(n, 0); |
| cgen_aret(n, res); |
| break; |
| |
| case OCALLINTER: |
| cgen_callinter(n, res, 0); |
| cgen_aret(n, res); |
| break; |
| |
| case OCALLFUNC: |
| cgen_call(n, 0); |
| cgen_aret(n, res); |
| break; |
| |
| case OINDEX: |
| w = n->type->width; |
| if(nr->addable) |
| goto irad; |
| if(nl->addable) { |
| if(!isconst(nr, CTINT)) { |
| regalloc(&n1, nr->type, N); |
| cgen(nr, &n1); |
| } |
| if(!isconst(nl, CTSTR)) { |
| regalloc(&n3, types[tptr], res); |
| agen(nl, &n3); |
| } |
| goto index; |
| } |
| tempname(&tmp, nr->type); |
| cgen(nr, &tmp); |
| nr = &tmp; |
| |
| irad: |
| if(!isconst(nl, CTSTR)) { |
| regalloc(&n3, types[tptr], res); |
| agen(nl, &n3); |
| } |
| if(!isconst(nr, CTINT)) { |
| regalloc(&n1, nr->type, N); |
| cgen(nr, &n1); |
| } |
| goto index; |
| |
| index: |
| // &a is in &n3 (allocated in res) |
| // i is in &n1 (if not constant) |
| // w is width |
| |
| // explicit check for nil if array is large enough |
| // that we might derive too big a pointer. |
| if(isfixedarray(nl->type) && nl->type->width >= unmappedzero) { |
| regalloc(&n4, types[tptr], &n3); |
| gmove(&n3, &n4); |
| n4.op = OINDREG; |
| n4.type = types[TUINT8]; |
| n4.xoffset = 0; |
| gins(ATESTB, nodintconst(0), &n4); |
| regfree(&n4); |
| } |
| |
| // constant index |
| if(isconst(nr, CTINT)) { |
| if(isconst(nl, CTSTR)) |
| fatal("constant string constant index"); // front end should handle |
| v = mpgetfix(nr->val.u.xval); |
| if(isslice(nl->type) || nl->type->etype == TSTRING) { |
| if(!debug['B'] && !n->etype) { |
| n1 = n3; |
| n1.op = OINDREG; |
| n1.type = types[tptr]; |
| n1.xoffset = Array_nel; |
| nodconst(&n2, types[TUINT32], v); |
| gins(optoas(OCMP, types[TUINT32]), &n1, &n2); |
| p1 = gbranch(optoas(OGT, types[TUINT32]), T); |
| ginscall(panicindex, 0); |
| patch(p1, pc); |
| } |
| |
| n1 = n3; |
| n1.op = OINDREG; |
| n1.type = types[tptr]; |
| n1.xoffset = Array_array; |
| gmove(&n1, &n3); |
| } |
| |
| if (v*w != 0) |
| ginscon(optoas(OADD, types[tptr]), v*w, &n3); |
| gmove(&n3, res); |
| regfree(&n3); |
| break; |
| } |
| |
| // type of the index |
| t = types[TUINT64]; |
| if(issigned[n1.type->etype]) |
| t = types[TINT64]; |
| |
| regalloc(&n2, t, &n1); // i |
| gmove(&n1, &n2); |
| regfree(&n1); |
| |
| if(!debug['B'] && !n->etype) { |
| // check bounds |
| n5.op = OXXX; |
| t = types[TUINT32]; |
| if(is64(nr->type)) |
| t = types[TUINT64]; |
| if(isconst(nl, CTSTR)) { |
| nodconst(&n1, t, nl->val.u.sval->len); |
| } else if(isslice(nl->type) || nl->type->etype == TSTRING) { |
| n1 = n3; |
| n1.op = OINDREG; |
| n1.type = types[TUINT32]; |
| n1.xoffset = Array_nel; |
| if(is64(nr->type)) { |
| regalloc(&n5, t, N); |
| gmove(&n1, &n5); |
| n1 = n5; |
| } |
| } else { |
| nodconst(&n1, t, nl->type->bound); |
| } |
| gins(optoas(OCMP, t), &n2, &n1); |
| p1 = gbranch(optoas(OLT, t), T); |
| if(n5.op != OXXX) |
| regfree(&n5); |
| ginscall(panicindex, 0); |
| patch(p1, pc); |
| } |
| |
| if(isconst(nl, CTSTR)) { |
| regalloc(&n3, types[tptr], res); |
| p1 = gins(ALEAQ, N, &n3); |
| datastring(nl->val.u.sval->s, nl->val.u.sval->len, &p1->from); |
| p1->from.scale = 1; |
| p1->from.index = n2.val.u.reg; |
| goto indexdone; |
| } |
| |
| if(isslice(nl->type) || nl->type->etype == TSTRING) { |
| n1 = n3; |
| n1.op = OINDREG; |
| n1.type = types[tptr]; |
| n1.xoffset = Array_array; |
| gmove(&n1, &n3); |
| } |
| |
| if(w == 0) { |
| // nothing to do |
| } else if(w == 1 || w == 2 || w == 4 || w == 8) { |
| p1 = gins(ALEAQ, &n2, &n3); |
| p1->from.scale = w; |
| p1->from.index = p1->from.type; |
| p1->from.type = p1->to.type + D_INDIR; |
| } else { |
| ginscon(optoas(OMUL, t), w, &n2); |
| gins(optoas(OADD, types[tptr]), &n2, &n3); |
| } |
| |
| indexdone: |
| gmove(&n3, res); |
| regfree(&n2); |
| regfree(&n3); |
| break; |
| |
| case ONAME: |
| // should only get here with names in this func. |
| if(n->funcdepth > 0 && n->funcdepth != funcdepth) { |
| dump("bad agen", n); |
| fatal("agen: bad ONAME funcdepth %d != %d", |
| n->funcdepth, funcdepth); |
| } |
| |
| // should only get here for heap vars or paramref |
| if(!(n->class & PHEAP) && n->class != PPARAMREF) { |
| dump("bad agen", n); |
| fatal("agen: bad ONAME class %#x", n->class); |
| } |
| cgen(n->heapaddr, res); |
| if(n->xoffset != 0) |
| ginscon(optoas(OADD, types[tptr]), n->xoffset, res); |
| break; |
| |
| case OIND: |
| cgen(nl, res); |
| break; |
| |
| case ODOT: |
| agen(nl, res); |
| if(n->xoffset != 0) |
| ginscon(optoas(OADD, types[tptr]), n->xoffset, res); |
| break; |
| |
| case ODOTPTR: |
| cgen(nl, res); |
| if(n->xoffset != 0) { |
| // explicit check for nil if struct is large enough |
| // that we might derive too big a pointer. |
| if(nl->type->type->width >= unmappedzero) { |
| regalloc(&n1, types[tptr], res); |
| gmove(res, &n1); |
| n1.op = OINDREG; |
| n1.type = types[TUINT8]; |
| n1.xoffset = 0; |
| gins(ATESTB, nodintconst(0), &n1); |
| regfree(&n1); |
| } |
| ginscon(optoas(OADD, types[tptr]), n->xoffset, res); |
| } |
| break; |
| } |
| |
| ret: |
| ; |
| } |
| |
| /* |
| * generate: |
| * newreg = &n; |
| * res = newreg |
| * |
| * on exit, a has been changed to be *newreg. |
| * caller must regfree(a). |
| */ |
| void |
| igen(Node *n, Node *a, Node *res) |
| { |
| Type *fp; |
| Iter flist; |
| |
| switch(n->op) { |
| case ONAME: |
| if((n->class&PHEAP) || n->class == PPARAMREF) |
| break; |
| *a = *n; |
| return; |
| |
| case OCALLFUNC: |
| fp = structfirst(&flist, getoutarg(n->left->type)); |
| cgen_call(n, 0); |
| memset(a, 0, sizeof *a); |
| a->op = OINDREG; |
| a->val.u.reg = D_SP; |
| a->addable = 1; |
| a->xoffset = fp->width; |
| a->type = n->type; |
| return; |
| } |
| |
| regalloc(a, types[tptr], res); |
| agen(n, a); |
| a->op = OINDREG; |
| a->type = n->type; |
| } |
| |
| /* |
| * generate: |
| * if(n == true) goto to; |
| */ |
| void |
| bgen(Node *n, int true, Prog *to) |
| { |
| int et, a; |
| Node *nl, *nr, *l, *r; |
| Node n1, n2, tmp; |
| Prog *p1, *p2; |
| |
| if(debug['g']) { |
| dump("\nbgen", n); |
| } |
| |
| if(n == N) |
| n = nodbool(1); |
| |
| if(n->ninit != nil) |
| genlist(n->ninit); |
| |
| if(n->type == T) { |
| convlit(&n, types[TBOOL]); |
| if(n->type == T) |
| goto ret; |
| } |
| |
| et = n->type->etype; |
| if(et != TBOOL) { |
| yyerror("cgen: bad type %T for %O", n->type, n->op); |
| patch(gins(AEND, N, N), to); |
| goto ret; |
| } |
| nr = N; |
| |
| switch(n->op) { |
| default: |
| def: |
| regalloc(&n1, n->type, N); |
| cgen(n, &n1); |
| nodconst(&n2, n->type, 0); |
| gins(optoas(OCMP, n->type), &n1, &n2); |
| a = AJNE; |
| if(!true) |
| a = AJEQ; |
| patch(gbranch(a, n->type), to); |
| regfree(&n1); |
| goto ret; |
| |
| case OLITERAL: |
| // need to ask if it is bool? |
| if(!true == !n->val.u.bval) |
| patch(gbranch(AJMP, T), to); |
| goto ret; |
| |
| case ONAME: |
| if(n->addable == 0) |
| goto def; |
| nodconst(&n1, n->type, 0); |
| gins(optoas(OCMP, n->type), n, &n1); |
| a = AJNE; |
| if(!true) |
| a = AJEQ; |
| patch(gbranch(a, n->type), to); |
| goto ret; |
| |
| case OANDAND: |
| if(!true) |
| goto caseor; |
| |
| caseand: |
| p1 = gbranch(AJMP, T); |
| p2 = gbranch(AJMP, T); |
| patch(p1, pc); |
| bgen(n->left, !true, p2); |
| bgen(n->right, !true, p2); |
| p1 = gbranch(AJMP, T); |
| patch(p1, to); |
| patch(p2, pc); |
| goto ret; |
| |
| case OOROR: |
| if(!true) |
| goto caseand; |
| |
| caseor: |
| bgen(n->left, true, to); |
| bgen(n->right, true, to); |
| goto ret; |
| |
| case OEQ: |
| case ONE: |
| case OLT: |
| case OGT: |
| case OLE: |
| case OGE: |
| nr = n->right; |
| if(nr == N || nr->type == T) |
| goto ret; |
| |
| case ONOT: // unary |
| nl = n->left; |
| if(nl == N || nl->type == T) |
| goto ret; |
| break; |
| } |
| |
| switch(n->op) { |
| |
| case ONOT: |
| bgen(nl, !true, to); |
| goto ret; |
| |
| case OEQ: |
| case ONE: |
| case OLT: |
| case OGT: |
| case OLE: |
| case OGE: |
| a = n->op; |
| if(!true) { |
| if(isfloat[nr->type->etype]) { |
| // brcom is not valid on floats when NaN is involved. |
| p1 = gbranch(AJMP, T); |
| p2 = gbranch(AJMP, T); |
| patch(p1, pc); |
| bgen(n, 1, p2); |
| patch(gbranch(AJMP, T), to); |
| patch(p2, pc); |
| goto ret; |
| } |
| a = brcom(a); |
| true = !true; |
| } |
| |
| // make simplest on right |
| if(nl->op == OLITERAL || (nl->ullman < nr->ullman && nl->ullman < UINF)) { |
| a = brrev(a); |
| r = nl; |
| nl = nr; |
| nr = r; |
| } |
| |
| if(isslice(nl->type)) { |
| // only valid to cmp darray to literal nil |
| if((a != OEQ && a != ONE) || nr->op != OLITERAL) { |
| yyerror("illegal array comparison"); |
| break; |
| } |
| a = optoas(a, types[tptr]); |
| regalloc(&n1, types[tptr], N); |
| agen(nl, &n1); |
| n2 = n1; |
| n2.op = OINDREG; |
| n2.xoffset = Array_array; |
| n2.type = types[tptr]; |
| nodconst(&tmp, types[tptr], 0); |
| gins(optoas(OCMP, types[tptr]), &n2, &tmp); |
| patch(gbranch(a, types[tptr]), to); |
| regfree(&n1); |
| break; |
| } |
| |
| if(isinter(nl->type)) { |
| // front end shold only leave cmp to literal nil |
| if((a != OEQ && a != ONE) || nr->op != OLITERAL) { |
| yyerror("illegal interface comparison"); |
| break; |
| } |
| a = optoas(a, types[tptr]); |
| regalloc(&n1, types[tptr], N); |
| agen(nl, &n1); |
| n2 = n1; |
| n2.op = OINDREG; |
| n2.xoffset = 0; |
| nodconst(&tmp, types[tptr], 0); |
| gins(optoas(OCMP, types[tptr]), &n2, &tmp); |
| patch(gbranch(a, types[tptr]), to); |
| regfree(&n1); |
| break; |
| } |
| if(iscomplex[nl->type->etype]) { |
| complexbool(a, nl, nr, true, to); |
| break; |
| } |
| |
| if(nr->ullman >= UINF) { |
| regalloc(&n1, nl->type, N); |
| cgen(nl, &n1); |
| |
| tempname(&tmp, nl->type); |
| gmove(&n1, &tmp); |
| regfree(&n1); |
| |
| regalloc(&n2, nr->type, N); |
| cgen(nr, &n2); |
| |
| regalloc(&n1, nl->type, N); |
| cgen(&tmp, &n1); |
| |
| goto cmp; |
| } |
| |
| regalloc(&n1, nl->type, N); |
| cgen(nl, &n1); |
| |
| if(smallintconst(nr)) { |
| gins(optoas(OCMP, nr->type), &n1, nr); |
| patch(gbranch(optoas(a, nr->type), nr->type), to); |
| regfree(&n1); |
| break; |
| } |
| |
| regalloc(&n2, nr->type, N); |
| cgen(nr, &n2); |
| cmp: |
| // only < and <= work right with NaN; reverse if needed |
| l = &n1; |
| r = &n2; |
| if(isfloat[nl->type->etype] && (a == OGT || a == OGE)) { |
| l = &n2; |
| r = &n1; |
| a = brrev(a); |
| } |
| |
| gins(optoas(OCMP, nr->type), l, r); |
| |
| if(isfloat[nr->type->etype] && (n->op == OEQ || n->op == ONE)) { |
| if(n->op == OEQ) { |
| // neither NE nor P |
| p1 = gbranch(AJNE, T); |
| p2 = gbranch(AJPS, T); |
| patch(gbranch(AJMP, T), to); |
| patch(p1, pc); |
| patch(p2, pc); |
| } else { |
| // either NE or P |
| patch(gbranch(AJNE, T), to); |
| patch(gbranch(AJPS, T), to); |
| } |
| } else |
| patch(gbranch(optoas(a, nr->type), nr->type), to); |
| regfree(&n1); |
| regfree(&n2); |
| break; |
| } |
| goto ret; |
| |
| ret: |
| ; |
| } |
| |
| /* |
| * n is on stack, either local variable |
| * or return value from function call. |
| * return n's offset from SP. |
| */ |
| int32 |
| stkof(Node *n) |
| { |
| Type *t; |
| Iter flist; |
| int32 off; |
| |
| switch(n->op) { |
| case OINDREG: |
| return n->xoffset; |
| |
| case ODOT: |
| t = n->left->type; |
| if(isptr[t->etype]) |
| break; |
| off = stkof(n->left); |
| if(off == -1000 || off == 1000) |
| return off; |
| return off + n->xoffset; |
| |
| case OINDEX: |
| t = n->left->type; |
| if(!isfixedarray(t)) |
| break; |
| off = stkof(n->left); |
| if(off == -1000 || off == 1000) |
| return off; |
| if(isconst(n->right, CTINT)) |
| return off + t->type->width * mpgetfix(n->right->val.u.xval); |
| return 1000; |
| |
| case OCALLMETH: |
| case OCALLINTER: |
| case OCALLFUNC: |
| t = n->left->type; |
| if(isptr[t->etype]) |
| t = t->type; |
| |
| t = structfirst(&flist, getoutarg(t)); |
| if(t != T) |
| return t->width; |
| break; |
| } |
| |
| // botch - probably failing to recognize address |
| // arithmetic on the above. eg INDEX and DOT |
| return -1000; |
| } |
| |
| /* |
| * block copy: |
| * memmove(&ns, &n, w); |
| */ |
| void |
| sgen(Node *n, Node *ns, int32 w) |
| { |
| Node nodl, nodr, oldl, oldr, cx, oldcx, tmp; |
| int32 c, q, odst, osrc; |
| |
| if(debug['g']) { |
| print("\nsgen w=%d\n", w); |
| dump("r", n); |
| dump("res", ns); |
| } |
| |
| if(n->ullman >= UINF && ns->ullman >= UINF) |
| fatal("sgen UINF"); |
| |
| if(w < 0) |
| fatal("sgen copy %d", w); |
| |
| if(w == 16) |
| if(componentgen(n, ns)) |
| return; |
| |
| if(w == 0) { |
| // evaluate side effects only |
| regalloc(&nodr, types[tptr], N); |
| agen(ns, &nodr); |
| agen(n, &nodr); |
| regfree(&nodr); |
| return; |
| } |
| |
| // offset on the stack |
| osrc = stkof(n); |
| odst = stkof(ns); |
| |
| if(osrc != -1000 && odst != -1000 && (osrc == 1000 || odst == 1000)) { |
| // osrc and odst both on stack, and at least one is in |
| // an unknown position. Could generate code to test |
| // for forward/backward copy, but instead just copy |
| // to a temporary location first. |
| tempname(&tmp, n->type); |
| sgen(n, &tmp, w); |
| sgen(&tmp, ns, w); |
| return; |
| } |
| |
| if(n->ullman >= ns->ullman) { |
| savex(D_SI, &nodr, &oldr, N, types[tptr]); |
| agen(n, &nodr); |
| |
| regalloc(&nodr, types[tptr], &nodr); // mark nodr as live |
| savex(D_DI, &nodl, &oldl, N, types[tptr]); |
| agen(ns, &nodl); |
| regfree(&nodr); |
| } else { |
| savex(D_DI, &nodl, &oldl, N, types[tptr]); |
| agen(ns, &nodl); |
| |
| regalloc(&nodl, types[tptr], &nodl); // mark nodl as live |
| savex(D_SI, &nodr, &oldr, N, types[tptr]); |
| agen(n, &nodr); |
| regfree(&nodl); |
| } |
| |
| c = w % 8; // bytes |
| q = w / 8; // quads |
| |
| savex(D_CX, &cx, &oldcx, N, types[TINT64]); |
| |
| // if we are copying forward on the stack and |
| // the src and dst overlap, then reverse direction |
| if(osrc < odst && odst < osrc+w) { |
| // reverse direction |
| gins(ASTD, N, N); // set direction flag |
| if(c > 0) { |
| gconreg(AADDQ, w-1, D_SI); |
| gconreg(AADDQ, w-1, D_DI); |
| |
| gconreg(AMOVQ, c, D_CX); |
| gins(AREP, N, N); // repeat |
| gins(AMOVSB, N, N); // MOVB *(SI)-,*(DI)- |
| } |
| |
| if(q > 0) { |
| if(c > 0) { |
| gconreg(AADDQ, -7, D_SI); |
| gconreg(AADDQ, -7, D_DI); |
| } else { |
| gconreg(AADDQ, w-8, D_SI); |
| gconreg(AADDQ, w-8, D_DI); |
| } |
| gconreg(AMOVQ, q, D_CX); |
| gins(AREP, N, N); // repeat |
| gins(AMOVSQ, N, N); // MOVQ *(SI)-,*(DI)- |
| } |
| // we leave with the flag clear |
| gins(ACLD, N, N); |
| } else { |
| // normal direction |
| if(q >= 4) { |
| gconreg(AMOVQ, q, D_CX); |
| gins(AREP, N, N); // repeat |
| gins(AMOVSQ, N, N); // MOVQ *(SI)+,*(DI)+ |
| } else |
| while(q > 0) { |
| gins(AMOVSQ, N, N); // MOVQ *(SI)+,*(DI)+ |
| q--; |
| } |
| |
| if(c >= 4) { |
| gins(AMOVSL, N, N); // MOVL *(SI)+,*(DI)+ |
| c -= 4; |
| } |
| while(c > 0) { |
| gins(AMOVSB, N, N); // MOVB *(SI)+,*(DI)+ |
| c--; |
| } |
| } |
| |
| |
| restx(&nodl, &oldl); |
| restx(&nodr, &oldr); |
| restx(&cx, &oldcx); |
| } |
| |
| static int |
| cadable(Node *n) |
| { |
| if(!n->addable) { |
| // dont know how it happens, |
| // but it does |
| return 0; |
| } |
| |
| switch(n->op) { |
| case ONAME: |
| return 1; |
| } |
| return 0; |
| } |
| |
| /* |
| * copy a structure component by component |
| * return 1 if can do, 0 if cant. |
| * nr is N for copy zero |
| */ |
| int |
| componentgen(Node *nr, Node *nl) |
| { |
| Node nodl, nodr; |
| int freel, freer; |
| |
| freel = 0; |
| freer = 0; |
| |
| switch(nl->type->etype) { |
| default: |
| goto no; |
| |
| case TARRAY: |
| if(!isslice(nl->type)) |
| goto no; |
| case TSTRING: |
| case TINTER: |
| break; |
| } |
| |
| nodl = *nl; |
| if(!cadable(nl)) { |
| if(nr == N || !cadable(nr)) |
| goto no; |
| igen(nl, &nodl, N); |
| freel = 1; |
| } |
| |
| if(nr != N) { |
| nodr = *nr; |
| if(!cadable(nr)) { |
| igen(nr, &nodr, N); |
| freer = 1; |
| } |
| } |
| |
| switch(nl->type->etype) { |
| case TARRAY: |
| if(!isslice(nl->type)) |
| goto no; |
| |
| nodl.xoffset += Array_array; |
| nodl.type = ptrto(nl->type->type); |
| |
| if(nr != N) { |
| nodr.xoffset += Array_array; |
| nodr.type = nodl.type; |
| } else |
| nodconst(&nodr, nodl.type, 0); |
| gmove(&nodr, &nodl); |
| |
| nodl.xoffset += Array_nel-Array_array; |
| nodl.type = types[TUINT32]; |
| |
| if(nr != N) { |
| nodr.xoffset += Array_nel-Array_array; |
| nodr.type = nodl.type; |
| } else |
| nodconst(&nodr, nodl.type, 0); |
| gmove(&nodr, &nodl); |
| |
| nodl.xoffset += Array_cap-Array_nel; |
| nodl.type = types[TUINT32]; |
| |
| if(nr != N) { |
| nodr.xoffset += Array_cap-Array_nel; |
| nodr.type = nodl.type; |
| } else |
| nodconst(&nodr, nodl.type, 0); |
| gmove(&nodr, &nodl); |
| |
| goto yes; |
| |
| case TSTRING: |
| nodl.xoffset += Array_array; |
| nodl.type = ptrto(types[TUINT8]); |
| |
| if(nr != N) { |
| nodr.xoffset += Array_array; |
| nodr.type = nodl.type; |
| } else |
| nodconst(&nodr, nodl.type, 0); |
| gmove(&nodr, &nodl); |
| |
| nodl.xoffset += Array_nel-Array_array; |
| nodl.type = types[TUINT32]; |
| |
| if(nr != N) { |
| nodr.xoffset += Array_nel-Array_array; |
| nodr.type = nodl.type; |
| } else |
| nodconst(&nodr, nodl.type, 0); |
| gmove(&nodr, &nodl); |
| |
| goto yes; |
| |
| case TINTER: |
| nodl.xoffset += Array_array; |
| nodl.type = ptrto(types[TUINT8]); |
| |
| if(nr != N) { |
| nodr.xoffset += Array_array; |
| nodr.type = nodl.type; |
| } else |
| nodconst(&nodr, nodl.type, 0); |
| gmove(&nodr, &nodl); |
| |
| nodl.xoffset += Array_nel-Array_array; |
| nodl.type = ptrto(types[TUINT8]); |
| |
| if(nr != N) { |
| nodr.xoffset += Array_nel-Array_array; |
| nodr.type = nodl.type; |
| } else |
| nodconst(&nodr, nodl.type, 0); |
| gmove(&nodr, &nodl); |
| |
| goto yes; |
| |
| case TSTRUCT: |
| goto no; |
| } |
| |
| no: |
| if(freer) |
| regfree(&nodr); |
| if(freel) |
| regfree(&nodl); |
| return 0; |
| |
| yes: |
| if(freer) |
| regfree(&nodr); |
| if(freel) |
| regfree(&nodl); |
| return 1; |
| } |