ref: 511baa28dc19e114dc4ddb08c865e68cbfc8a624
dir: /cc1/decl.c/
#include <assert.h> #include <stddef.h> #include <stdint.h> #include <string.h> #include <sizes.h> #include <cc.h> #include "cc1.h" #define ID_EXPECTED 1 #define ID_ACCEPTED 2 #define ID_FORBIDDEN 3 /* TODO: check identifiers in enum declaration */ struct dcldata { uint8_t op; unsigned short nelem; void *data; }; static struct dcldata * queue(struct dcldata *dp, uint8_t op, short nelem, void *data) { if (dp->op == 255) error("too much declarators"); dp->op = op; dp->nelem = nelem; dp->data = data; return dp + 1; } static struct dcldata * arydcl(struct dcldata *dp) { expect('['); expect(']'); return queue(dp, ARY, 0, NULL); } static Type *parameter(void); static struct dcldata * fundcl(struct dcldata *dp) { uint8_t n = 0; size_t siz; Type *pars[NR_FUNPARAM], **tp = &pars[0]; expect('('); do { if (tp == &pars[NR_FUNPARAM]) error("too much parameters in function definition"); if ((*tp++ = parameter()) == voidtype) { if (n == 0) break; else error("incorrect void parameter"); } ++n; } while (accept(',')); expect(')'); siz = sizeof(*tp) * n; tp = (siz > 0) ? memcpy(xmalloc(siz), pars, siz) : NULL; return queue(dp, FTN, n, tp); } static Symbol * newiden(void) { Symbol *sym; extern uint8_t curctx; if (yylval.sym && yylval.sym->ctx == curctx) error("redeclaration of '%s'", yytext); sym = install(yytext, NS_IDEN); next(); return sym; } static struct dcldata *declarator0(struct dcldata *dp); static struct dcldata * directdcl(struct dcldata *dp) { register Symbol *sym; if (accept('(')) { dp = declarator0(dp); expect(')'); } else { if (yytoken == IDEN || yytoken == TYPEIDEN) sym = newiden(); else sym = install("", NS_IDEN); dp = queue(dp, IDEN, 0, sym); } for (;;) { switch (yytoken) { case '(': dp = fundcl(dp); break; case '[': dp = arydcl(dp); break; default: return dp; } } } static struct dcldata* declarator0(struct dcldata *dp) { register uint8_t n; for (n = 0; accept('*'); ++n) { while (accept(TQUALIFIER)) /* nothing */; } dp = directdcl(dp); while (n--) dp = queue(dp, PTR, 0, NULL); return dp; } static Symbol * declarator(Type *tp, int8_t flags) { struct dcldata data[NR_DECLARATORS+2]; register struct dcldata *bp; Symbol *sym; memset(data, 0, sizeof(data)); data[NR_DECLARATORS].op = 255; for (bp = declarator0(data)-1; bp >= data; --bp) { if (bp->op != IDEN) { tp = mktype(tp, bp->op, bp->nelem, bp->data); } else { sym = bp->data; if (flags == ID_EXPECTED && *sym->name == '\0') error("missed identifier in declaration"); if (flags == ID_FORBIDDEN && *sym->name != '\0') error("unexpected identifier in type name"); break; } } /* TODO: deal with external array declarations of [] */ if (!tp->defined && *sym->name) error("declared variable '%s' of incomplete type", sym->name); sym->type = tp; return sym; } static Type *structdcl(void), *enumdcl(void); static Type * specifier(int8_t *sclass) { Type *tp = NULL; int8_t qlf, sign, type, cls, size, t; qlf = sign = type = cls = size = 0; for (;;) { register int8_t *p; Type *(*dcl)(void) = NULL; switch (yytoken) { case SCLASS: p = &cls; break; case TQUALIFIER: if ((qlf |= yylval.token) & RESTRICT) goto invalid_type; next(); continue; case TYPEIDEN: if (type) goto return_type; tp = yylval.sym->type; p = &type; break; case TYPE: switch (yylval.token) { case ENUM: dcl = enumdcl; p = &type; break; case STRUCT: case UNION: dcl = structdcl; p = &type; break; case VOID: case BOOL: case CHAR: case INT: case FLOAT: case DOUBLE: p = &type; break; case SIGNED: case UNSIGNED: p = &sign; break; case LONG: if (size == LONG) { size = LONG+LONG; break; } case SHORT: p = &size; break; } break; default: goto return_type; } if (*p) goto invalid_type; *p = yylval.token; if (dcl) { if (size || sign) goto invalid_type; tp = aggregate(dcl); } else { next(); } } return_type: if (sclass) *sclass = cls; if (!tp) tp = ctype(type, sign, size); return tp; invalid_type: error("invalid type specification"); } /* TODO: check correctness of the initializator */ /* TODO: emit initializer */ static struct node * initializer(Symbol *sym) { register Type *tp = sym->type; if (!sym->s.isdefined) error("'%s' initialized and declared extern", sym->name); if (accept('{')) { initializer(sym); expect('}'); } else { do { expr(); } while (accept(',')); } } /* TODO: bitfields */ static void newfield(Type *tp, Symbol *sym) { register Field *p, *q; register char *s, *t; s = sym->name; for (q = p = tp->pars; p; q = p, p = p->next) { t = p->name; if (*s == *t && !strcmp(s, t)) error("duplicated fields '%s' and '%s'", s, t); if (sym->u.i == p->id) error("duplicated enumeration fields '%s' and '%s'", s, t); } p = xmalloc(sizeof(*p)); p->name = xstrdup(s); p->next = NULL; p->id = sym->id; p->type = sym->type; if (!q) tp->pars= p; else q->next = p; return; } static void fielddcl(Type *base) { Type *tp; Symbol *sym; switch (yytoken) { case SCLASS: error("storage class '%s' in struct/union field", yytext); case IDEN: case TYPE: case TYPEIDEN: case TQUALIFIER: tp = specifier(NULL); case ';': break; default: unexpected(); } if (yytoken != ';') { do { sym = declarator(tp, ID_EXPECTED); newfield(base, sym); } while (accept(',')); } expect(';'); return; } static Type * newtag(uint8_t tag) { register Symbol *sym; register Type *tp; switch (yytoken) { case IDEN: case TYPEIDEN: if ((sym = lookup(yytext, NS_TAG)) == NULL) sym = install(yytext, NS_TAG); next(); break; default: sym = install("", NS_TAG); break; } if (!sym->type) sym->type = mktype(NULL, tag, 0, NULL); tp = sym->type; if (tp->op != tag) error("'%s' defined as wrong kind of tag", yytext); return tp; } static Type * structdcl(void) { Type *tp; uint8_t tag; tag = yylval.token; next(); tp = newtag(tag); if (accept('{')) { if (tp->defined) error("redefinition of struct/union '%s'", yytext); tp->defined = 1; while (!accept('}')) fielddcl(tp); } return tp; } static Type * enumdcl(void) { register Type *tp; Symbol *sym; int val = 0; next(); tp = newtag(ENUM); if (yytoken == ';') return tp; expect('{'); if (tp->defined) error("redefinition of enumeration '%s'", yytext); tp->defined = 1; while (yytoken != '}') { if (yytoken != IDEN) unexpected(); sym = newiden(); sym->type = inttype; if (accept('=')) initializer(sym); sym->u.i = val++; newfield(tp, sym); if (!accept(',')) break; } expect('}'); return tp; } static Type * parameter(void) { Symbol *sym; int8_t sclass; Type *tp; if ((tp = specifier(&sclass)) == voidtype) return tp; sym = declarator(tp, ID_ACCEPTED); sym->s.isdefined = 1; /* TODO: check type of the parameter */ switch (sclass) { case REGISTER: sym->s.isregister = 1; break; case 0: sym->s.isauto = 1; break; default: error("bad storage class in function parameter"); } return sym->type; } void decl(void) { Type *tp; Symbol *sym; int8_t sclass, isfun; tp = specifier(&sclass); if (accept(';')) return; do { sym = declarator(tp, ID_EXPECTED); sym->s.isdefined = 1; isfun = sym->type->op == FTN; switch (sclass) { case TYPEDEF: sym->token = TYPEIDEN; continue; case STATIC: sym->s.isstatic = 1; break; case EXTERN: sym->s.isdefined = 0; break; case REGISTER: sym->s.isregister = 1; if (isfun) goto bad_function; break; case AUTO: if (isfun) goto bad_function; /* passtrough */ default: sym->s.isauto = 1; break; } if (accept('=')) initializer(sym); emitdcl(sym); } while (accept(',')); expect(';'); return; bad_function: error("invalid storage class for function '%s'", sym->name); } Type * typename(void) { int8_t sclass; Type *tp; Symbol *sym; tp = specifier(&sclass); if (sclass) error("class storage in type name"); sym = declarator(tp, ID_FORBIDDEN); return sym->type; } void extdecl(void) { Type *base, *tp; int8_t sclass; Symbol *sym; extern Symbol *curfun; switch (yytoken) { case IDEN: case TYPE: case TYPEIDEN: case SCLASS: case TQUALIFIER: base = specifier(&sclass); if (accept(';')) return; do { sym = declarator(base, ID_EXPECTED); tp = sym->type; sym->s.isstatic = 1; sym->s.isglobal= 1; sym->s.isdefined = 1; switch (sclass) { case REGISTER: case AUTO: error("incorrect storage class for file-scope declaration"); case STATIC: sym->s.isglobal = 0; break; case EXTERN: sym->s.isdefined = 0; break; case TYPEDEF: sym->token = TYPEIDEN; continue; } if (tp->op != FTN) { if (accept('=')) initializer(sym); emitdcl(sym); } else if (yytoken == '{') { curfun = sym; emitfun(sym); context(NULL, NULL, NULL); emitefun(); return; } } while (accept(',')); /* PASSTHROUGH */ case ';': expect(';'); return; default: unexpected(); } }