/* Copyright (C) 1996-1997 Id Software, Inc. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA See file, 'COPYING', for details. */ static const char rcsid[] = "$Id$"; #ifdef HAVE_CONFIG_H # include "config.h" #endif #ifdef HAVE_STRING_H # include #endif #ifdef HAVE_STRINGS_H # include #endif #include #include #include #include #include "qfcc.h" #include "def.h" #include "expr.h" #include "struct.h" #include "type.h" typedef struct locref_s { struct locref_s *next; int ofs; } locref_t; static def_t *free_temps[4]; // indexted by type size static def_t temp_scope; static def_t *free_defs; static locref_t *free_locs[4]; // indexted by type size static locref_t *free_free_locs; static hashtab_t *defs_by_name; static const char * defs_get_key (void *_def, void *_tab) { def_t *def = (def_t *) _def; hashtab_t **tab = (hashtab_t **) _tab; if (tab == &defs_by_name) { return def->name; } return ""; } static def_t * check_for_name (type_t *type, const char *name, def_t *scope, int *allocate) { def_t *def; if (!defs_by_name) { defs_by_name = Hash_NewTable (16381, defs_get_key, 0, &defs_by_name); } if (!name) return 0; if (!scope && (find_struct (name) || get_enum (name))) { error (0, "%s redeclared", name); return 0; } // see if the name is already in use def = (def_t *) Hash_Find (defs_by_name, name); if (def) { if (allocate && scope == def->scope) if (type && def->type != type) error (0, "Type mismatch on redeclaration of %s", name); if (!allocate || def->scope == scope) return def; } return 0; } def_t * PR_GetArray (type_t *etype, const char *name, int size, def_t *scope, int *allocate) { type_t *type = pointer_type (etype); def_t *def = check_for_name (type, name, scope, allocate); if (def || !allocate) return def; def = PR_NewDef (type, name, scope); def->ofs = *allocate; def->initialized = def->constant = 1; *allocate += type_size (type) * size + 1; G_INT (def->ofs) = def->ofs + 1; return def; } /* PR_GetDef If type is NULL, it will match any type If allocate is true, a new def will be allocated if it can't be found */ def_t * PR_GetDef (type_t *type, const char *name, def_t *scope, int *allocate) { def_t *def = check_for_name (type, name, scope, allocate); int size; if (def || !allocate) return def; // allocate a new def def = PR_NewDef (type, name, scope); if (name) Hash_Add (defs_by_name, def); // FIXME: need to sort out location re-use def->ofs = *allocate; /* make automatic defs for the vectors elements .origin can be accessed as .origin_x, .origin_y, and .origin_z */ if (type->type == ev_vector && name) { def_t *d; d = PR_GetDef (&type_float, va ("%s_x", name), scope, allocate); d->used = 1; d->parent = def; d = PR_GetDef (&type_float, va ("%s_y", name), scope, allocate); d->used = 1; d->parent = def; d = PR_GetDef (&type_float, va ("%s_z", name), scope, allocate); d->used = 1; d->parent = def; } else { *allocate += type_size (type); } if (type->type == ev_field) { G_INT (def->ofs) = pr.size_fields; if (type->aux_type->type == ev_vector) { def_t *d; d = PR_GetDef (&type_floatfield, va ("%s_x", name), scope, allocate); d->used = 1; // always `used' d->parent = def; d = PR_GetDef (&type_floatfield, va ("%s_y", name), scope, allocate); d->used = 1; // always `used' d->parent = def; d = PR_GetDef (&type_floatfield, va ("%s_z", name), scope, allocate); d->used = 1; // always `used' d->parent = def; } else if (type->aux_type->type == ev_pointer) { //FIXME I don't think this is right for a field pointer size = type_size (type->aux_type->aux_type); pr.size_fields += type->aux_type->num_parms * size; } else { size = type_size (type->aux_type); pr.size_fields += size; } } else if (type->type == ev_pointer && type->num_parms) { int ofs = *allocate; size = type_size (type->aux_type); *allocate += type->num_parms * size; if (pr_scope) { expr_t *e1 = new_expr (); expr_t *e2 = new_expr (); e1->type = ex_def; e1->e.def = def; e2->type = ex_def; e2->e.def = PR_NewDef (type->aux_type, 0, pr_scope); e2->e.def->ofs = ofs; append_expr (local_expr, new_binary_expr ('=', e1, address_expr (e2, 0, 0))); } else { G_INT (def->ofs) = ofs; def->constant = 1; } def->initialized = 1; } return def; } def_t * PR_NewDef (type_t *type, const char *name, def_t *scope) { def_t *def; ALLOC (16384, def_t, defs, def); if (name) { *pr.def_tail = def; pr.def_tail = &def->def_next; } if (scope) { def->scope_next = scope->scope_next; scope->scope_next = def; } def->name = name ? strdup (name) : 0; def->type = type; def->scope = scope; def->file = s_file; def->line = pr_source_line; return def; } int PR_NewLocation (type_t *type) { int size = type_size (type); locref_t *loc; if (free_locs[size]) { loc = free_locs[size]; free_locs[size] = loc->next; loc->next = free_free_locs; free_free_locs = loc; return loc->ofs; } pr.num_globals += size; return pr.num_globals - size; } void PR_FreeLocation (def_t *def) { int size = type_size (def->type); locref_t *loc; ALLOC (1024, locref_t, free_locs, loc); loc->ofs = def->ofs; loc->next = free_locs[size]; free_locs[size] = loc; } def_t * PR_GetTempDef (type_t *type, def_t *scope) { int size = type_size (type); def_t *def; if (free_temps[size]) { def = free_temps[size]; free_temps[size] = def->next; def->type = type; } else { def = PR_NewDef (type, 0, scope); def->ofs = *scope->alloc; *scope->alloc += size; } def->freed = def->removed = def->users = 0; def->next = temp_scope.next; temp_scope.next = def; return def; } void PR_FreeTempDefs (void) { def_t **def, *d; int size; def = &temp_scope.next; while (*def) { if ((*def)->users <= 0) { d = *def; *def = d->next; if (d->users < 0) printf ("%s:%d: warning: %s %3d %3d %d\n", pr.strings + d->file, d->line, pr_type_name[d->type->type], d->ofs, d->users, d->managed); size = type_size (d->type); if (d->expr) d->expr->e.temp.def = 0; if (!d->freed) { d->next = free_temps[size]; free_temps[size] = d; d->freed = 1; } } else { def = &(*def)->next; } } } void PR_ResetTempDefs (void) { int i; def_t *d; for (i = 0; i < sizeof (free_temps) / sizeof (free_temps[0]); i++) { free_temps[i] = 0; } for (d = temp_scope.next; d; d = d->next) printf ("%s:%d: warning: %s %3d %3d %d\n", pr.strings + d->file, d->line, pr_type_name[d->type->type], d->ofs, d->users, d->managed); temp_scope.next = 0; } void PR_FlushScope (def_t *scope, int force_used) { def_t *def; for (def = scope->scope_next; def; def = def->scope_next) { if (def->name) { if (!force_used && !def->used) { expr_t e; e.line = def->line; e.file = def->file; warning (&e, "unused variable `%s'", def->name); } if (!def->removed) { Hash_Del (defs_by_name, def->name); def->removed = 1; } } } } void PR_DefInitialized (def_t *d) { d->initialized = 1; if (d->type == &type_vector || (d->type->type == ev_field && d->type->aux_type == &type_vector)) { d = d->def_next; d->initialized = 1; d = d->def_next; d->initialized = 1; d = d->def_next; d->initialized = 1; } if (d->parent) { d = d->parent; if (d->type == &type_vector && d->def_next->initialized && d->def_next->def_next->initialized && d->def_next->def_next->def_next->initialized) d->initialized = 1; } }