/* $OpenBSD: code.c,v 1.3 2007/11/22 15:06:43 stefan Exp $ */ /* * Copyright (c) 2003 Anders Magnusson (ragge@ludd.luth.se). * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ # include "pass1.h" /* * cause the alignment to become a multiple of n */ void defalign(int n) { #if 0 char *s; n /= SZCHAR; if (lastloc == PROG || n == 1) return; s = (isinlining ? permalloc(40) : tmpalloc(40)); sprintf(s, ".align %d", n); send_passt(IP_ASM, s); #endif } /* * define the current location as the name p->sname */ void defnam(struct symtab *p) { char *c = p->sname; #ifdef GCC_COMPAT c = gcc_findname(p); #endif if (p->sclass == EXTDEF) printf(" PUBLIC %s\n", c); printf("%s:\n", c); } /* * code for the end of a function * deals with struct return here */ void efcode() { NODE *p, *q; int sz; if (cftnsp->stype != STRTY+FTN && cftnsp->stype != UNIONTY+FTN) return; /* address of return struct is in eax */ /* create a call to memcpy() */ /* will get the result in eax */ p = block(REG, NIL, NIL, CHAR+PTR, 0, MKSUE(CHAR+PTR)); p->n_rval = R0; q = block(OREG, NIL, NIL, CHAR+PTR, 0, MKSUE(CHAR+PTR)); q->n_rval = FB; q->n_lval = 8; /* return buffer offset */ p = block(CM, q, p, INT, 0, MKSUE(INT)); sz = (tsize(STRTY, cftnsp->sdf, cftnsp->ssue)+SZCHAR-1)/SZCHAR; p = block(CM, p, bcon(sz), INT, 0, MKSUE(INT)); p->n_right->n_name = ""; p = block(CALL, bcon(0), p, CHAR+PTR, 0, MKSUE(CHAR+PTR)); p->n_left->n_name = "memcpy"; send_passt(IP_NODE, p); } /* * helper for bfcode() to put register arguments on stack. */ static void argmove(struct symtab *s, int regno) { NODE *p, *r; s->sclass = AUTO; s->soffset = NOOFFSET; oalloc(s, &autooff); spname = s; p = buildtree(NAME, NIL, NIL); r = bcon(0); r->n_op = REG; r->n_rval = regno; r->n_type = p->n_type; r->n_sue = p->n_sue; r->n_df = p->n_df; ecode(buildtree(ASSIGN, p, r)); } /* * code for the beginning of a function; a is an array of * indices in symtab for the arguments; n is the number * On m16k, space is allocated on stack for register arguments, * arguments are moved to the stack and symtab is updated accordingly. */ void bfcode(struct symtab **a, int n) { struct symtab *s; int i, r0l, r0h, a0, r2, sz, hasch, stk; int argoff = ARGINIT; if (cftnsp->stype == STRTY+FTN || cftnsp->stype == UNIONTY+FTN) { /* Function returns struct, adjust arg offset */ for (i = 0; i < n; i++) a[i]->soffset += SZPOINT(INT); } /* first check if there are 1-byte parameters */ for (hasch = i = 0; i < n && i < 6; i++) if (DEUNSIGN(a[i]->stype) == CHAR) hasch = 1; stk = r0l = r0h = a0 = r2 = 0; for (i = 0; i < n; i++) { s = a[i]; sz = tsize(s->stype, s->sdf, s->ssue); if (ISPTR(s->stype) && ISFTN(DECREF(s->stype))) sz = SZLONG; /* function pointers are always 32 */ if (stk == 0) switch (sz) { case SZCHAR: if (r0l) { if (r0h) break; argmove(s, 1); r0h = 1; } else { argmove(s, 0); r0l = 1; } continue; case SZINT: if (s->stype > BTMASK) { /* is a pointer */ if (a0) { if (r0l || hasch) { if (r2) break; argmove(s, R2); r2 = 1; } else { argmove(s, R0); r0l = r0h = 1; } } else { argmove(s, A0); a0 = 1; } } else if (r0l || hasch) { if (r2) { if (a0) break; argmove(s, A0); a0 = 1; } else { argmove(s, R2); r2 = 1; } } else { argmove(s, R0); r0l = r0h = 1; } continue; case SZLONG: if (r0l||r0h||r2) break; argmove(s, R0); r0l = r0h = r2 = 1; continue; default: break; } stk = 1; s->soffset = argoff; argoff += sz; } } /* * Add a symbol to an internal list printed out at the end. */ void addsym(struct symtab *); static struct symlst { struct symlst *next; struct symtab *sp; } *sympole; void addsym(struct symtab *q) { struct symlst *w = sympole; if (q == NULL) return; while (w) { if (q == w->sp) return; /* exists */ w = w->next; } w = permalloc(sizeof(struct symlst)); w->sp = q; w->next = sympole; sympole = w; } /* * by now, the automatics and register variables are allocated */ void bccode() { } struct caps { char *cap, *stat; } caps[] = { { "__64bit_doubles", "Disabled" }, { "__calling_convention", "Normal" }, { "__constant_data", "near" }, { "__data_alignment", "2" }, { "__data_model", "near" }, { "__processor", "M16C" }, { "__rt_version", "1" }, { "__variable_data", "near" }, { NULL, NULL }, }; /* * Called before parsing begins. */ void bjobcode() { struct caps *c; printf(" NAME gurka.c\n"); /* Don't have the name */ for (c = caps; c->cap; c++) printf(" RTMODEL \"%s\", \"%s\"\n", c->cap, c->stat); //printf(" RSEG CODE:CODE:REORDER:NOROOT(0)\n"); } /* called just before final exit */ /* flag is 1 if errors, 0 if none */ void ejobcode(int flag ) { struct symlst *w = sympole; for (w = sympole; w; w = w->next) { if (w->sp->sclass != EXTERN) continue; printf(" EXTERN %s\n", w->sp->sname); } printf(" END\n"); } /* * Print character t at position i in one string, until t == -1. * Locctr & label is already defined. */ void bycode(int t, int i) { static int lastoctal = 0; /* put byte i+1 in a string */ if (t < 0) { if (i != 0) puts("\""); } else { if (i == 0) printf("\t.ascii \""); if (t == '\\' || t == '"') { lastoctal = 0; putchar('\\'); putchar(t); } else if (t < 040 || t >= 0177) { lastoctal++; printf("\\%o",t); } else if (lastoctal && '0' <= t && t <= '9') { lastoctal = 0; printf("\"\n\t.ascii \"%c", t); } else { lastoctal = 0; putchar(t); } } } /* * n integer words of zeros */ void zecode(int n) { printf(" .zero %d\n", n * (SZINT/SZCHAR)); inoff += n * SZINT; } /* * return the alignment of field of type t */ int fldal(unsigned int t) { uerror("illegal field type"); return(ALINT); } /* fix up type of field p */ void fldty(struct symtab *p) { } /* * XXX - fix genswitch. */ int mygenswitch(int num, TWORD type, struct swents **p, int n) { return 0; } /* * Called with a function call with arguments as argument. * This is done early in buildtree() and only done once. */ NODE * funcode(NODE *p) { return p; }