/* value.c value handling Copyright (C) 2002 Bill Currie Author: Bill Currie Date: 2002/06/04 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: Free Software Foundation, Inc. 59 Temple Place - Suite 330 Boston, MA 02111-1307, USA */ #ifdef HAVE_CONFIG_H # include "config.h" #endif static __attribute__ ((used)) const char rcsid[] = "$Id$"; #ifdef HAVE_STRING_H # include #endif #ifdef HAVE_STRINGS_H # include #endif #include #include "QF/dstring.h" #include "QF/hash.h" #include "QF/mathlib.h" #include "QF/va.h" #include "qfcc.h" #include "def.h" #include "defspace.h" #include "diagnostic.h" #include "emit.h" #include "expr.h" #include "reloc.h" #include "strpool.h" #include "symtab.h" #include "type.h" #include "value.h" typedef struct { def_t *def; union { string_t string_val; float float_val; float vector_val[3]; int entity_val; int field_val; int func_val; ex_pointer_t pointer; float quaternion_val[4]; int integer_val; } i; } immediate_t; static hashtab_t *string_imm_defs; static hashtab_t *float_imm_defs; static hashtab_t *vector_imm_defs; static hashtab_t *entity_imm_defs; static hashtab_t *field_imm_defs; static hashtab_t *func_imm_defs; static hashtab_t *pointer_imm_defs; static hashtab_t *quaternion_imm_defs; static hashtab_t *integer_imm_defs; static uintptr_t imm_get_hash (void *_imm, void *_tab) { immediate_t *imm = (immediate_t *) _imm; hashtab_t **tab = (hashtab_t **) _tab; if (tab == &string_imm_defs) { const char *str = pr.strings->strings + imm->i.string_val; return str ? Hash_String (str) : 0; } else if (tab == &float_imm_defs) { return imm->i.integer_val; } else if (tab == &vector_imm_defs) { return Hash_Buffer (&imm->i.vector_val, sizeof (&imm->i.vector_val)); } else if (tab == &entity_imm_defs) { return imm->i.integer_val; } else if (tab == &field_imm_defs) { return Hash_Buffer (&imm->i.pointer, sizeof (&imm->i.pointer)); } else if (tab == &func_imm_defs) { return imm->i.integer_val; } else if (tab == &pointer_imm_defs) { return Hash_Buffer (&imm->i.pointer, sizeof (&imm->i.pointer)); } else if (tab == &quaternion_imm_defs) { return Hash_Buffer (&imm->i.quaternion_val, sizeof (&imm->i.quaternion_val)); } else if (tab == &integer_imm_defs) { return imm->i.integer_val; } else { abort (); } } static int imm_compare (void *_imm1, void *_imm2, void *_tab) { immediate_t *imm1 = (immediate_t *) _imm1; immediate_t *imm2 = (immediate_t *) _imm2; hashtab_t **tab = (hashtab_t **) _tab; if (tab == &string_imm_defs) { const char *str1 = pr.strings->strings + imm1->i.string_val; const char *str2 = pr.strings->strings + imm2->i.string_val; return (str1 == str2 || (str1 && str2 && !strcmp (str1, str2))); } else if (tab == &float_imm_defs) { return imm1->i.float_val == imm2->i.float_val; } else if (tab == &vector_imm_defs) { return VectorCompare (imm1->i.vector_val, imm2->i.vector_val); } else if (tab == &entity_imm_defs) { return imm1->i.entity_val == imm2->i.entity_val; } else if (tab == &field_imm_defs) { return !memcmp (&imm1->i.pointer, &imm2->i.pointer, sizeof (imm1->i.pointer)); } else if (tab == &func_imm_defs) { return imm1->i.func_val == imm2->i.func_val; } else if (tab == &pointer_imm_defs) { return !memcmp (&imm1->i.pointer, &imm2->i.pointer, sizeof (imm1->i.pointer)); } else if (tab == &quaternion_imm_defs) { return (VectorCompare (imm1->i.quaternion_val, imm2->i.quaternion_val) && imm1->i.quaternion_val[3] == imm2->i.quaternion_val[3]); } else if (tab == &integer_imm_defs) { return imm1->i.integer_val == imm2->i.integer_val; } else { abort (); } } int ReuseString (const char *str) { return strpool_addstr (pr.strings, str); } static float value_as_float (ex_value_t *value) { if (value->type == ev_integer) return value->v.integer_val; if (value->type == ev_short) return value->v.short_val; if (value->type == ev_float) return value->v.float_val; return 0; } static float value_as_int (ex_value_t *value) { if (value->type == ev_integer) return value->v.integer_val; if (value->type == ev_short) return value->v.short_val; if (value->type == ev_float) return value->v.float_val; return 0; } void convert_value (ex_value_t *value, type_t *type) { if (!is_scalar (type) || !is_scalar (ev_types[value->type])) { error (0, "unable to convert non-scalar value"); return; } if (is_float (type)) { float val = value_as_float (value); value->type = ev_float; value->v.float_val = val; } else if (type->type == ev_short) { int val = value_as_int (value); value->type = ev_short; value->v.short_val = val; } else { //FIXME handle enums separately? int val = value_as_int (value); value->type = ev_integer; value->v.integer_val = val; } } def_t * emit_value (ex_value_t *value, def_t *def) { def_t *cn; hashtab_t *tab = 0; type_t *type; ex_value_t val = *value; immediate_t *imm, search; if (!string_imm_defs) { clear_immediates (); } cn = 0; if (val.type == ev_void) val.type = type_nil->type; switch (val.type) { case ev_entity: tab = entity_imm_defs; type = &type_entity; break; case ev_field: tab = field_imm_defs; type = &type_field; break; case ev_func: tab = func_imm_defs; type = &type_function; break; case ev_pointer: tab = pointer_imm_defs; type = &type_pointer; break; case ev_integer: if (!def || def->type != &type_float) { tab = integer_imm_defs; type = &type_integer; break; } val.v.float_val = val.v.integer_val; val.type = ev_float; case ev_float: tab = float_imm_defs; type = &type_float; break; case ev_string: val.v.integer_val = ReuseString (val.v.string_val); tab = string_imm_defs; type = &type_string; break; case ev_vector: tab = vector_imm_defs; type = &type_vector; break; case ev_quat: tab = quaternion_imm_defs; type = &type_quaternion; break; default: abort (); } memcpy (&search.i, &val.v, sizeof (search.i)); imm = (immediate_t *) Hash_FindElement (tab, &search); if (imm && strcmp (imm->def->name, ".zero") == 0) { if (def) { imm = 0; //FIXME do full def aliasing } else { symbol_t *sym; sym = make_symbol (".zero", &type_zero, 0, st_extern); return sym->s.def; } } if (imm) { cn = imm->def; if (def) { defspace_free_loc (def->space, def->offset, type_size (def->type)); def->offset = cn->offset; def->initialized = def->constant = 1; def->nosave = 1; def->local = 0; cn = def; } else { if (cn->type != type) { def = new_def (".imm", type, pr.near_data, st_static); def->offset = cn->offset; cn = def; } } return cn; } // allocate a new one // always share immediates if (def) { if (def->type != type) { cn = new_def (".imm", type, pr.near_data, st_static); cn->offset = def->offset; } else { cn = def; } } else { cn = new_def (".imm", type, pr.near_data, st_static); cn->offset = defspace_alloc_loc (pr.near_data, type_size (type)); } cn->initialized = cn->constant = 1; cn->nosave = 1; // copy the immediate to the global area switch (val.type) { case ev_string: reloc_def_string (cn); break; case ev_func: if (val.v.func_val) { reloc_t *reloc; reloc = new_reloc (cn->space, cn->offset, rel_def_func); reloc->next = pr.relocs; pr.relocs = reloc; } break; case ev_field: if (val.v.pointer.def) reloc_def_field_ofs (val.v.pointer.def, cn); break; case ev_pointer: if (val.v.pointer.def) { EMIT_DEF_OFS (pr.near_data, D_INT (cn), val.v.pointer.def); } break; default: break; } memcpy (D_POINTER (void, cn), &val.v, 4 * type_size (type)); imm = malloc (sizeof (immediate_t)); imm->def = cn; memcpy (&imm->i, &val.v, sizeof (imm->i)); Hash_AddElement (tab, imm); return cn; } void clear_immediates (void) { immediate_t *imm; if (string_imm_defs) { Hash_FlushTable (string_imm_defs); Hash_FlushTable (float_imm_defs); Hash_FlushTable (vector_imm_defs); Hash_FlushTable (entity_imm_defs); Hash_FlushTable (field_imm_defs); Hash_FlushTable (func_imm_defs); Hash_FlushTable (pointer_imm_defs); Hash_FlushTable (quaternion_imm_defs); Hash_FlushTable (integer_imm_defs); } else { string_imm_defs = Hash_NewTable (16381, 0, 0, &string_imm_defs); Hash_SetHashCompare (string_imm_defs, imm_get_hash, imm_compare); float_imm_defs = Hash_NewTable (16381, 0, 0, &float_imm_defs); Hash_SetHashCompare (float_imm_defs, imm_get_hash, imm_compare); vector_imm_defs = Hash_NewTable (16381, 0, 0, &vector_imm_defs); Hash_SetHashCompare (vector_imm_defs, imm_get_hash, imm_compare); entity_imm_defs = Hash_NewTable (16381, 0, 0, &entity_imm_defs); Hash_SetHashCompare (entity_imm_defs, imm_get_hash, imm_compare); field_imm_defs = Hash_NewTable (16381, 0, 0, &field_imm_defs); Hash_SetHashCompare (field_imm_defs, imm_get_hash, imm_compare); func_imm_defs = Hash_NewTable (16381, 0, 0, &func_imm_defs); Hash_SetHashCompare (func_imm_defs, imm_get_hash, imm_compare); pointer_imm_defs = Hash_NewTable (16381, 0, 0, &pointer_imm_defs); Hash_SetHashCompare (pointer_imm_defs, imm_get_hash, imm_compare); quaternion_imm_defs = Hash_NewTable (16381, 0, 0, &quaternion_imm_defs); Hash_SetHashCompare (quaternion_imm_defs, imm_get_hash, imm_compare); integer_imm_defs = Hash_NewTable (16381, 0, 0, &integer_imm_defs); Hash_SetHashCompare (integer_imm_defs, imm_get_hash, imm_compare); } imm = calloc (1, sizeof (immediate_t)); imm->def = make_symbol (".zero", &type_zero, 0, st_extern)->s.def; imm->def->initialized = imm->def->constant = 1; imm->def->nosave = 1; Hash_AddElement (string_imm_defs, imm); Hash_AddElement (float_imm_defs, imm); Hash_AddElement (entity_imm_defs, imm); Hash_AddElement (pointer_imm_defs, imm); Hash_AddElement (integer_imm_defs, imm); }