/* Copyright (C) 2019, 2020 Leo Tenenbaum. This file is part of toc. toc is distributed under version 3 of the GNU General Public License, without any warranty whatsoever. You should have received a copy of the GNU General Public License along with toc. If not, see . */ static void cgen_sdecls_stmt(CGenerator *g, Statement *s); static void cgen_sdecls_decl(CGenerator *g, Declaration *d); static void cgen_sdecls_expr(CGenerator *g, Expression *e); static void cgen_decls_stmt(CGenerator *g, Statement *s); static void cgen_decls_block(CGenerator *g, Block *b); static void cgen_decls_decl(CGenerator *g, Declaration *d); /* i is the name for this type, NULL if not available */ static void cgen_sdecls_type(CGenerator *g, Type *type) { if (type->kind == TYPE_STRUCT) { StructDef *sdef = type->struc; /* we'll actually define the struct later; here we can just declare it */ if ((sdef->flags & STRUCT_DEF_RESOLVED) && !(sdef->flags & STRUCT_DEF_CGEN_DECLARED)) { cgen_write(g, "struct "); if (!sdef->name) { sdef->c.id = ++g->ident_counter; } cgen_struct_name(g, sdef); cgen_write(g, ";"); cgen_nl(g); sdef->flags |= STRUCT_DEF_CGEN_DECLARED; } } cgen_recurse_subtypes(cgen_sdecls_type, g, type); } static void cgen_sdecls_block(CGenerator *g, Block *b) { Block *prev_block = g->block; g->block = b; b->c.break_lbl = 0; b->c.cont_lbl = 0; arr_foreach(b->stmts, Statement, s) cgen_sdecls_stmt(g, s); if (b->ret_expr) cgen_sdecls_expr(g, b->ret_expr); g->block = prev_block; } static char *cgen_nms_prefix_part(CGenerator *g, Namespace *n) { char *s; while (n->points_to) { n = n->points_to; } if (n->associated_ident) { size_t ident_len = n->associated_ident->len; s = malloc(ident_len + 3); memcpy(s, n->associated_ident->str, ident_len); s[ident_len] = '_'; s[ident_len+1] = '_'; s[ident_len+2] = '\0'; } else { s = calloc(CGEN_IDENT_ID_STR_SIZE + 3, 1); cgen_ident_id_to_str(s, ++g->ident_counter); size_t len = strlen(s); s[len] = '_'; s[len+1] = '_'; s[len+2] = '\0'; } return s; } static void cgen_sdecls_expr(CGenerator *g, Expression *e) { switch (e->kind) { case EXPR_CAST: cgen_sdecls_type(g, &e->cast.type); break; case EXPR_FN: /* needs to go before decls_cgen.c... */ e->fn->c.id = ++g->ident_counter; break; case EXPR_TYPE: cgen_sdecls_type(g, e->typeval); break; case EXPR_NMS: { char *prefix_part = cgen_nms_prefix_part(g, e->nms); size_t prefix_part_len = strlen(prefix_part); char const *prev_prefix = g->nms_prefixes ? arr_last(g->nms_prefixes) : ""; size_t prev_prefix_len = strlen(prev_prefix); char *new_prefix = cgen_malloc(g, prev_prefix_len + prefix_part_len + 1); memcpy(new_prefix, prev_prefix, prev_prefix_len); memcpy(new_prefix + prev_prefix_len, prefix_part, prefix_part_len); free(prefix_part); arr_add(g->nms_prefixes, new_prefix); new_prefix[prev_prefix_len + prefix_part_len] = 0; e->nms->c.prefix = new_prefix; } break; default: break; } if (e->kind != EXPR_IDENT) { cgen_recurse_subexprs(g, e, cgen_sdecls_expr, cgen_sdecls_block, cgen_sdecls_decl); } if (e->kind == EXPR_NMS) { arr_remove_last(g->nms_prefixes); } } static void cgen_sdecls_decl(CGenerator *g, Declaration *d) { cgen_sdecls_type(g, &d->type); if (cgen_fn_is_direct(g, d)) { d->expr.fn->c.name = d->idents[0]; } for (int idx = 0; idx < (int)arr_len(d->idents); ++idx) { Type *type = decl_type_at_index(d, idx); if (type_is_builtin(type, BUILTIN_TYPE) && !(d->flags & DECL_IS_PARAM)) { Value *val = decl_val_at_index(d, idx); cgen_sdecls_type(g, val->type); } } if (d->flags & DECL_HAS_EXPR) { cgen_sdecls_expr(g, &d->expr); if (d->flags & DECL_EXPORT) { if (d->expr.kind == EXPR_FN) d->expr.fn->flags |= FN_EXPR_EXPORT; } } } static void cgen_sdecls_stmt(CGenerator *g, Statement *s) { switch (s->kind) { case STMT_DECL: cgen_sdecls_decl(g, s->decl); break; case STMT_EXPR: cgen_sdecls_expr(g, s->expr); break; case STMT_RET: { Return *r = s->ret; if (r->flags & RET_HAS_EXPR) cgen_sdecls_expr(g, &r->expr); } break; case STMT_INCLUDE: { Include *i = s->inc; if (i->inc_file && (i->inc_file->flags & INC_FILE_CGEND_SDECLS)) { /* already generated */ } else { if (i->inc_file) i->inc_file->flags |= INC_FILE_CGEND_SDECLS; arr_foreach(i->stmts, Statement, sub) cgen_sdecls_stmt(g, sub); } } break; case STMT_BREAK: if (!s->referring_to->c.break_lbl) { s->referring_to->c.break_lbl = ++g->lbl_counter; } break; case STMT_CONT: if (!s->referring_to->c.cont_lbl) { s->referring_to->c.cont_lbl = ++g->lbl_counter; } break; case STMT_MESSAGE: break; case STMT_DEFER: cgen_sdecls_stmt(g, s->defer); break; case STMT_USE: cgen_sdecls_expr(g, &s->use->expr); break; } } static void cgen_sdecls_file(CGenerator *g, ParsedFile *f) { arr_foreach(f->stmts, Statement, s) { cgen_sdecls_stmt(g, s); } } static void cgen_decls_type(CGenerator *g, Type *type) { if (type->kind == TYPE_STRUCT) { StructDef *sdef = type->struc; if ((sdef->flags & STRUCT_DEF_RESOLVED) && !(sdef->flags & STRUCT_DEF_CGEN_DEFINED)) { /* generate struct definition */ cgen_write(g, "struct "); cgen_struct_name(g, sdef); cgen_write(g, "{"); cgen_nl(g); ++g->indent_lvl; arr_foreach(sdef->fields, Field, f) { cgen_type_pre(g, f->type); cgen_write(g, " "); cgen_ident_simple(g, f->name); cgen_type_post(g, f->type); cgen_write(g, ";"); cgen_nl(g); } --g->indent_lvl; cgen_write(g, "};"); cgen_nl(g); sdef->flags |= STRUCT_DEF_CGEN_DEFINED; } } cgen_recurse_subtypes(cgen_decls_type, g, type); } static void cgen_single_fn_decl(CGenerator *g, FnExpr *f, U64 which_are_const) { if (cgen_should_gen_fn(f)) { cgen_fn_header(g, f, which_are_const); cgen_write(g, ";"); cgen_nl(g); } } static void cgen_decls_fn_instances(CGenerator *g, FnExpr *f) { Instance **data = f->instances->data; for (U64 i = 0; i < f->instances->cap; ++i) { if (f->instances->occupied[i]) { if (cgen_should_gen_fn((*data)->fn)) { (*data)->fn->c.name = f->c.name; (*data)->fn->c.id = f->c.id; cgen_single_fn_decl(g, (*data)->fn, (*data)->val.tuple[0].u64); cgen_write(g, ";"); cgen_nl(g); } } ++data; } } static void cgen_fn_decl(CGenerator *g, FnExpr *f, Type *t) { if (f->flags & FN_EXPR_FOREIGN) { /* foreign function declaration */ cgen_write(g, "extern "); Type *fn_types = t->fn.types; const char *foreign_name = f->foreign.name; CType *ctypes = f->foreign.ctypes; if (ctypes[0].kind == CTYPE_NONE) { cgen_type_pre(g, &fn_types[0]); } else { cgen_ctype(g, &ctypes[0]); } cgen_write(g, " %s", foreign_name); cgen_write(g, "("); for (size_t i = 1; i < arr_len(fn_types); ++i) { if (i > 1) cgen_write(g, ", "); CType *csub = &ctypes[i]; if (csub->kind == CTYPE_NONE) { Type *sub = &fn_types[i]; cgen_type_pre(g, sub); cgen_type_post(g, sub); } else { cgen_ctype(g, csub); } } cgen_write(g, ")"); if (ctypes[0].kind == CTYPE_NONE) cgen_type_post(g, &fn_types[0]); cgen_write(g, ";"); if (!f->c.name || !ident_eq_str(f->c.name, foreign_name) || g->nms != NULL) { cgen_write(g, "static "); if (ctypes[0].kind == CTYPE_NONE) { cgen_type_pre(g, &fn_types[0]); } else { cgen_ctype(g, &ctypes[0]); } cgen_write(g, " (* const "); cgen_fn_name(g, f); cgen_write(g, ")("); for (size_t i = 1; i < arr_len(fn_types); ++i) { if (i > 1) cgen_write(g, ", "); CType *csub = &ctypes[i]; if (csub->kind == CTYPE_NONE) { Type *sub = &fn_types[i]; cgen_type_pre(g, sub); cgen_type_post(g, sub); } else { cgen_ctype(g, csub); } } cgen_write(g, ") = %s;", foreign_name); } cgen_nl(g); return; } if (fn_has_instances(f)) { cgen_decls_fn_instances(g, f); } else { cgen_single_fn_decl(g, f, 0); } } static void cgen_decls_expr(CGenerator *g, Expression *e) { assert(e->flags & EXPR_FOUND_TYPE); cgen_recurse_subexprs(g, e, cgen_decls_expr, cgen_decls_block, cgen_decls_decl); switch (e->kind) { case EXPR_FN: { FnExpr *f = e->fn; f->c.name = NULL; if (!f->c.id) f->c.id = ++g->ident_counter; cgen_fn_decl(g, e->fn, &e->type); } break; case EXPR_TYPE: { Type *type = e->typeval; cgen_decls_type(g, type); } break; case EXPR_CAST: cgen_decls_type(g, &e->cast.type); break; case EXPR_BINARY_OP: { Type *lhs_type = &e->binary.lhs->type; if (lhs_type->kind == TYPE_PTR) lhs_type = lhs_type->ptr; } break; default: break; } } static void cgen_decls_block(CGenerator *g, Block *b) { Block *prev_block = g->block; g->block = b; arr_foreach(b->stmts, Statement, s) cgen_decls_stmt(g, s); if (b->ret_expr) cgen_decls_expr(g, b->ret_expr); g->block = prev_block; } static void cgen_decls_decl(CGenerator *g, Declaration *d) { cgen_decls_type(g, &d->type); if (cgen_fn_is_direct(g, d)) { cgen_fn_decl(g, d->expr.fn, &d->expr.type); cgen_recurse_subexprs(g, (&d->expr), cgen_decls_expr, cgen_decls_block, cgen_decls_decl); } else { if (d->flags & DECL_HAS_EXPR) { cgen_decls_expr(g, &d->expr); } if (!g->block || g->block->kind == BLOCK_NMS) { /* global variables */ for (int i = 0, n_idents = (int)arr_len(d->idents); i < n_idents; ++i) { Identifier ident = d->idents[i]; Type *type = decl_type_at_index(d, i); Value *val = NULL; if (d->flags & DECL_HAS_EXPR) assert(d->flags & DECL_FOUND_VAL); if (d->flags & DECL_FOUND_VAL) val = decl_val_at_index(d, i); if (!type_is_compileonly(type)) { if (val) cgen_val_pre(g, val, type); if (!(d->flags & DECL_EXPORT)) cgen_write(g, "static "); cgen_type_pre(g, type); cgen_write(g, " "); cgen_ident(g, ident); cgen_type_post(g, type); if (val) { cgen_write(g, " = "); cgen_val(g, val, type); } else { cgen_write(g, " = "); cgen_zero_value(g, type); } cgen_write(g, ";"); cgen_nl(g); } } } } } static void cgen_decls_stmt(CGenerator *g, Statement *s) { switch (s->kind) { case STMT_DECL: cgen_decls_decl(g, s->decl); break; case STMT_EXPR: cgen_decls_expr(g, s->expr); break; case STMT_RET: { Return *r = s->ret; if (r->flags & RET_HAS_EXPR) cgen_decls_expr(g, &r->expr); } break; case STMT_INCLUDE: { Include *i = s->inc; if (i->inc_file && (i->inc_file->flags & INC_FILE_CGEND_DECLS)) { /* already generated */ } else { if (i->inc_file) i->inc_file->flags |= INC_FILE_CGEND_DECLS; arr_foreach(i->stmts, Statement, sub) cgen_decls_stmt(g, sub); } } break; case STMT_BREAK: case STMT_CONT: case STMT_MESSAGE: break; case STMT_DEFER: cgen_decls_stmt(g, s->defer); break; case STMT_USE: cgen_sdecls_expr(g, &s->use->expr); break; } } static void cgen_decls_file(CGenerator *g, ParsedFile *f) { cgen_write(g, "/* declarations */\n"); arr_foreach(f->stmts, Statement, s) { cgen_decls_stmt(g, s); } }