ref: 505a92789652dbfa4cf19dc088eb29a47eb6e81f
dir: /cc1/types.c/
/* See LICENSE file for copyright and license details. */ static char sccsid[] = "@(#) ./cc1/types.c"; #include <assert.h> #include <inttypes.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <cstd.h> #include "../inc/cc.h" #include "cc1.h" #define NR_TYPE_HASH 16 #define HASH(t) (((t)->op ^ (uintptr_t) (t)->type>>3) & NR_TYPE_HASH-1) static Type *typetab[NR_TYPE_HASH], *localtypes; /* FIXME: * Compiler can generate warnings here if the ranges of TINT, * TUINT and TFLOAT are smaller than any of the constants in this * array. Ignore them if you know that the target types are correct */ static struct limits limits[][4] = { { { /* 0 = unsigned 1 byte */ .min.i = 0, .max.i = 0xff }, { /* 1 = unsigned 2 bytes */ .min.i = 0, .max.i = 0xffff }, { /* 2 = unsigned 4 bytes */ .min.i = 0, .max.i = 0xffffffff }, { /* 3 = unsigned 8 bytes */ .min.i = 0, .max.i = 0xffffffffffffffff } }, { { /* 0 = signed 1 byte */ .min.i = -0x7f-1, .max.i = 0x7f }, { /* 1 = signed 2 byte */ .min.i = -0x7fff-1, .max.i = 0x7fff }, { /* 2 = signed 4 byte */ .min.i = -0x7fffffff-1, .max.i = 0x7fffffff }, { /* 3 = signed 8 byte */ .min.i = -0x7fffffffffffffff-1, .max.i = 0x7fffffffffffffff, } }, { { /* 0 = float 4 bytes */ .min.f = -1, .max.f = 2 }, { /* 1 = float 8 bytes */ .min.f = -1, .max.f = 2, }, { /* 2 = float 16 bytes */ .min.f = -1, .max.f = 2, } } }; struct limits * getlimits(Type *tp) { int ntable, ntype; switch (tp->op) { case ENUM: case INT: ntable = ((tp->prop & TSIGNED) != 0); switch (tp->size) { case 1: ntype = 0; break; case 2: ntype = 1; break; case 4: ntype = 2; break; case 8: ntype = 3; break; } break; case FLOAT: ntable = 2; switch (tp->size) { case 4: ntype = 0; break; case 8: ntype = 1; break; case 16: ntype = 2; break; } break; default: abort(); } return &limits[ntable][ntype]; } Type * ctype(unsigned type, unsigned sign, unsigned size) { switch (type) { case CHAR: if (size) goto invalid_type; switch (sign) { case 0: return chartype; case SIGNED: return schartype; case UNSIGNED: return uchartype; } break; case VA_LIST: if (size || sign) goto invalid_type; return va_list_type; case VOID: if (size || sign) goto invalid_type; return voidtype; case BOOL: if (size || sign) goto invalid_type; return booltype; case 0: /* fallthrough */ case INT: switch (size) { case 0: return (sign == UNSIGNED) ? uinttype : inttype; case SHORT: return (sign == UNSIGNED) ? ushortype : shortype; case LONG: return (sign == UNSIGNED) ? ulongtype : longtype; case LLONG: return (sign == UNSIGNED) ? ullongtype : llongtype; } break; case DOUBLE: if (size == LLONG) goto invalid_type; if (size == LONG) size = LLONG; else size = LONG; goto floating; case FLOAT: if (size == LLONG) goto invalid_type; floating: if (sign) goto invalid_type; switch (size) { case 0: return floattype; case LONG: return doubletype; case LLONG: return ldoubletype; } break; } invalid_type: error("invalid type specification"); } void typesize(Type *tp) { Symbol **sp; Type *type; unsigned long size, offset; int align, a; TINT n; switch (tp->op) { case ARY: /* FIXME: Control overflow */ tp->size = tp->n.elem * tp->type->size; tp->align = tp->type->align; return; case PTR: tp->size = pvoidtype->size; tp->align = pvoidtype->align; return; case STRUCT: case UNION: /* FIXME: Control overflow */ /* * The alignment of the struct/union is * he alignment of the largest included type. * The size of an union is the size of the largest * field, and the size of a struct is the sum * of the size of every field plus padding bits. */ offset = align = size = 0; n = tp->n.elem; for (sp = tp->p.fields; n--; ++sp) { (*sp)->u.i = offset; type = (*sp)->type; a = type->align; if (a > align) align = a; if (tp->op == STRUCT) { if (--a != 0) size = (size + a) & ~a; size += type->size; offset = size; } else { if (type->size > size) size = type->size; } } tp->align = align; /* * We have to add the padding bits to * ensure next struct in an array is well * alignment. */ if (tp->op == STRUCT && align-- > 1) size += size+align & ~align; tp->size = size; return; case ENUM: tp->size = inttype->size; tp->align = inttype->align; return; case FTN: return; default: abort(); } } Type * deftype(Type *tp) { tp->prop |= TDEFINED; typesize(tp); emit(OTYP, tp); return tp; } static Type * newtype(Type *base) { Type *tp; size_t siz; tp = xmalloc(sizeof(*tp)); *tp = *base; tp->id = newid(); if (tp->op == FTN) { siz = tp->n.elem * sizeof(Type *); tp->p.pars = memcpy(xmalloc(siz), tp->p.pars, siz); } if (curfun) { /* it is a type defined in the body of a function */ tp->next = localtypes; localtypes = tp; } if (tp->prop & TDEFINED) deftype(tp); return tp; } Type * mktype(Type *tp, int op, TINT nelem, Type *pars[]) { Type **tbl, type; Type *bp; if (op == PTR && tp == voidtype) return pvoidtype; memset(&type, 0, sizeof(type)); type.type = tp; type.op = op; type.p.pars = pars; type.n.elem = nelem; switch (op) { case ARY: type.letter = L_ARRAY; if (nelem != 0) type.prop |= TDEFINED; break; case KRFTN: type.prop |= TDEFINED | TK_R; type.op = FTN; type.letter = L_FUNCTION; break; case FTN: if (nelem > 0 && pars[nelem-1] == ellipsistype) type.prop |= TELLIPSIS; type.letter = L_FUNCTION; type.prop |= TDEFINED; break; case PTR: type.letter = L_POINTER; type.prop |= TDEFINED; break; case ENUM: type.letter = inttype->letter; type.prop |= TINTEGER | TARITH; type.n.rank = inttype->n.rank; goto create_type; case STRUCT: type.letter = L_STRUCT; type.prop |= TAGGREG; goto create_type; case UNION: type.letter = L_UNION; type.prop |= TAGGREG; create_type: return newtype(&type); default: abort(); } tbl = &typetab[HASH(&type)]; for (bp = *tbl; bp; bp = bp->h_next) { if (eqtype(bp, &type, 0)) return bp; } bp = newtype(&type); bp->h_next = *tbl; *tbl = bp; return bp; } int eqtype(Type *tp1, Type *tp2, int equiv) { TINT n; Type **p1, **p2; Symbol **s1, **s2; if (tp1 == tp2) return 1; if (!tp1 || !tp2) return 0; if (tp1->op != tp2->op) return 0; switch (tp1->op) { case UNION: case STRUCT: if (tp1->letter != tp2->letter) return 0; if (tp1->tag->name || tp2->tag->name) return tp1->tag == tp2->tag; if (tp1->n.elem != tp2->n.elem) return 0; s1 = tp1->p.fields, s2 = tp2->p.fields; for (n = tp1->n.elem; n > 0; --n, ++s1, ++s2) { if (strcmp((*s1)->name, (*s2)->name)) return 0; if (!eqtype((*s1)->type, (*s2)->type, equiv)) return 0; } return 1; case FTN: if (tp1->n.elem != tp2->n.elem) return 0; p1 = tp1->p.pars, p2 = tp2->p.pars; for (n = tp1->n.elem; n > 0; --n) { if (!eqtype(*p1++, *p2++, equiv)) return 0; } goto check_base; case ARY: if (equiv && (tp1->n.elem == 0 || tp2->n.elem == 0)) goto check_base; if (tp1->n.elem != tp2->n.elem) return 0; case PTR: check_base: return eqtype(tp1->type, tp2->type, equiv); case VOID: case ENUM: return 0; case INT: case FLOAT: return tp1->letter == tp2->letter; default: abort(); } } void flushtypes(void) { Type *tp, *next, **h; for (tp = localtypes; tp; tp = next) { next = tp->next; switch (tp->op) { default: /* * All the local types are linked after * global types, and since we are * unlinking them in the inverse order * we do know that tp is always the head * of the collision list */ h = &typetab[HASH(tp)]; assert(*h == tp); *h = tp->h_next; case STRUCT: case UNION: case ENUM: free(tp); break; } } localtypes = NULL; }