/* switch.c qc switch statement support Copyright (C) 2001 Bill Currie Author: Bill Currie Date: 2001/10/24 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 #ifdef HAVE_STRING_H # include #endif #ifdef HAVE_STRINGS_H # include #endif #include #include #include #include "tools/qfcc/include/def.h" #include "tools/qfcc/include/diagnostic.h" #include "tools/qfcc/include/expr.h" #include "tools/qfcc/include/opcodes.h" #include "tools/qfcc/include/options.h" #include "tools/qfcc/include/qfcc.h" #include "tools/qfcc/include/reloc.h" #include "tools/qfcc/include/switch.h" #include "tools/qfcc/include/symtab.h" #include "tools/qfcc/include/type.h" #include "tools/qfcc/source/qc-parse.h" typedef struct case_node_s { expr_t *low; expr_t *high; expr_t **labels; expr_t *_label; struct case_node_s *left, *right; } case_node_t; static __attribute__((pure)) ex_value_t * get_value (expr_t *e) { if (e->type == ex_symbol) return e->e.symbol->s.value; if (e->type != ex_value) internal_error (e, "bogus case label"); return e->e.value; } static __attribute__((pure)) uintptr_t get_hash (const void *_cl, void *unused) { case_label_t *cl = (case_label_t *) _cl; ex_value_t *val; if (!cl->value) return 0; val = get_value (cl->value); return Hash_Buffer (&val->v, sizeof (val->v)) + val->lltype; } static int compare (const void *_cla, const void *_clb, void *unused) { case_label_t *cla = (case_label_t *) _cla; case_label_t *clb = (case_label_t *) _clb; expr_t *v1 = cla->value; expr_t *v2 = clb->value; ex_value_t *val1, *val2; if (v1 == v2) return 1; if ((v1 && !v2) || (!v1 && v2)) return 0; if (extract_type (v1) != extract_type (v2)) return 0; val1 = get_value (v1); val2 = get_value (v2); if (val1->type != val2->type) return 0; return memcmp (&val1->v, &val2->v, sizeof (val1->v)) == 0; } struct expr_s * case_label_expr (switch_block_t *switch_block, expr_t *value) { case_label_t *cl = malloc (sizeof (case_label_t)); SYS_CHECKMEM (cl); if (value) convert_name (value); if (value && !is_constant (value)) { error (value, "non-constant case value"); free (cl); return 0; } if (!switch_block) { error (value, "%s outside of switch", value ? "case" : "default"); free (cl); return 0; } if (!switch_block->test) internal_error (value, "broken switch block"); if (value) { type_t *type = get_type (switch_block->test); type_t *val_type = get_type (value); if (!type) return 0; if (!type_assignable (type, get_type (value))) return error (value, "type mismatch in case label"); if (is_integral (type) && is_integral (val_type)) { value = new_integer_expr (expr_integer (value)); debug (value, "integeral label used in integral switch"); } else if (is_integral (type) && is_float (val_type)) { warning (value, "float label used in integral switch"); value = new_integer_expr (expr_float (value)); } else if (is_float (type) && is_integral (val_type)) { debug (value, "integeral label used in float switch"); value = new_float_expr (expr_integer (value)); } else if (is_float (type) && is_float (val_type)) { value = new_float_expr (expr_float (value)); debug (value, "float label used in float switch"); } } cl->value = value; if (Hash_FindElement (switch_block->labels, cl)) { error (value, "duplicate %s", value ? "case" : "default"); free (cl); return 0; } cl->label = new_label_expr (); Hash_AddElement (switch_block->labels, cl); return cl->label; } switch_block_t * new_switch_block (void) { switch_block_t *switch_block = malloc (sizeof (switch_block_t)); SYS_CHECKMEM (switch_block); switch_block->labels = Hash_NewTable (127, 0, 0, 0, 0); Hash_SetHashCompare (switch_block->labels, get_hash, compare); switch_block->test = 0; return switch_block; } static __attribute__((pure)) int label_compare (const void *_a, const void *_b) { const case_label_t **a = (const case_label_t **) _a; const case_label_t **b = (const case_label_t **) _b; const char *s1, *s2; if (is_string_val ((*a)->value)) { s1 = expr_string ((*a)->value); if (!s1) s1 = ""; s2 = expr_string ((*b)->value); if (!s2) s2 = ""; return strcmp (s1, s2); } else if (is_float_val ((*a)->value)) { return expr_float ((*a)->value) - expr_float ((*b)->value); } else if (is_integer_val ((*a)->value)) { return expr_integer ((*a)->value) - expr_integer ((*b)->value); } internal_error (0, "in switch"); } static case_node_t * new_case_node (expr_t *low, expr_t *high) { case_node_t *node = malloc (sizeof (case_node_t)); if (!node) Sys_Error ("out of memory"); node->low = low; node->high = high; if (low == high) { node->labels = &node->_label; node->_label = 0; } else { int size; if (!is_integer_val (low)) internal_error (low, "switch"); size = expr_integer (high) - expr_integer (low) + 1; node->labels = calloc (size, sizeof (expr_t *)); } node->left = node->right = 0; return node; } static case_node_t * balance_case_tree (case_node_t **nodes, int base, int count) { case_node_t *node; int index = count / 2; if (!count) return 0; node = nodes[base + index]; node->left = balance_case_tree (nodes, base, index); base += index + 1; count -= index + 1; node->right = balance_case_tree (nodes, base, count); return node; } static case_node_t * build_case_tree (case_label_t **labels, int count, int range) { case_node_t **nodes; int i, j, k; int num_nodes = 0; qsort (labels, count, sizeof (*labels), label_compare); nodes = (case_node_t **) malloc (count * sizeof (case_node_t *)); if (!nodes) Sys_Error ("out of memory"); if (range && is_integer_val (labels[0]->value)) { for (i = 0; i < count - 1; i = j, num_nodes++) { for (j = i + 1; j < count; j++) { if (expr_integer (labels[j]->value) - expr_integer (labels[j - 1]->value) > 1) break; } nodes[num_nodes] = new_case_node (labels[i]->value, labels[j - 1]->value); for (k = i; k < j; k++) nodes[num_nodes]->labels[expr_integer (labels[k]->value) - expr_integer (labels[i]->value)] = labels[k]->label; } if (i < count) { nodes[num_nodes] = new_case_node (labels[i]->value, labels[i]->value); nodes[num_nodes]->labels[0] = labels[i]->label; num_nodes++; } } else { for (i = 0; i < count; i++, num_nodes++) { nodes[num_nodes] = new_case_node (labels[i]->value, labels[i]->value); nodes[num_nodes]->labels[0] = labels[i]->label; } } return balance_case_tree (nodes, 0, num_nodes); } static void build_switch (expr_t *sw, case_node_t *tree, int op, expr_t *sw_val, expr_t *temp, expr_t *default_label) { expr_t *test; expr_t *branch; expr_t *high_label = default_label; expr_t *low_label = default_label; if (!tree) { branch = goto_expr (default_label); append_expr (sw, branch); return; } if (tree->right) { high_label = new_label_expr (); } if (tree->left) { low_label = new_label_expr (); } test = binary_expr (op, sw_val, tree->low); test = assign_expr (temp, test); append_expr (sw, test); if (tree->low == tree->high) { branch = branch_expr ('n', new_alias_expr (&type_integer, temp), tree->labels[0]); append_expr (sw, branch); if (tree->left) { branch = branch_expr (IFA, new_alias_expr (&type_integer, temp), high_label); append_expr (sw, branch); build_switch (sw, tree->left, op, sw_val, temp, default_label); if (tree->right) append_expr (sw, high_label); } if (tree->right || !tree->left) { build_switch (sw, tree->right, op, sw_val, temp, default_label); } } else { int low = expr_integer (tree->low); int high = expr_integer (tree->high); symbol_t *table_sym; expr_t *table_expr; expr_t *table_init; const char *table_name = new_label_name (); int i; expr_t *range = binary_expr ('-', tree->high, tree->low); expr_t *label; table_init = new_compound_init (); for (i = 0; i <= high - low; i++) { tree->labels[i]->e.label.used++; label = address_expr (tree->labels[i], 0, 0); append_element (table_init, new_element (label, 0)); } table_sym = new_symbol_type (table_name, array_type (&type_integer, high - low + 1)); initialize_def (table_sym, table_init, pr.near_data, sc_static); table_expr = new_symbol_expr (table_sym); if (tree->left) { branch = branch_expr (IFB, temp, low_label); append_expr (sw, branch); } test = binary_expr (GT, cast_expr (&type_uinteger, temp), cast_expr (&type_uinteger, range)); branch = branch_expr ('i', test, high_label); append_expr (sw, branch); branch = new_binary_expr ('g', table_expr, temp); append_expr (sw, branch); debug (sw, "switch using jump table"); if (tree->left) { append_expr (sw, low_label); build_switch (sw, tree->left, op, sw_val, temp, default_label); } if (tree->right) { append_expr (sw, high_label); build_switch (sw, tree->right, op, sw_val, temp, default_label); } } } static void check_enum_switch (switch_block_t *switch_block) { case_label_t cl; symbol_t *enum_val; type_t *type = get_type (switch_block->test); for (enum_val = type->t.symtab->symbols; enum_val; enum_val = enum_val->next) { cl.value = new_integer_expr (enum_val->s.value->v.integer_val); if (!Hash_FindElement (switch_block->labels, &cl)) { warning (switch_block->test, "enumeration value `%s' not handled in switch", enum_val->name); } } } struct expr_s * switch_expr (switch_block_t *switch_block, expr_t *break_label, expr_t *statements) { case_label_t **labels, **l; case_label_t _default_label; case_label_t *default_label = &_default_label; expr_t *sw = new_block_expr (); type_t *type = get_type (switch_block->test); expr_t *sw_val = new_temp_def_expr (type); expr_t *default_expr; int num_labels = 0; int saved_line = pr.source_line; string_t saved_file = pr.source_file; if (switch_block->test->type == ex_error) { return switch_block->test; } pr.source_line = sw_val->line = switch_block->test->line; pr.source_file = sw_val->file = switch_block->test->file; default_label->value = 0; default_label = Hash_DelElement (switch_block->labels, default_label); labels = (case_label_t **) Hash_GetList (switch_block->labels); if (!default_label) { default_label = &_default_label; default_label->label = break_label; if (options.warnings.enum_switch && is_enum (type)) check_enum_switch (switch_block); } append_expr (sw, assign_expr (sw_val, switch_block->test)); for (l = labels; *l; l++) num_labels++; if (options.code.progsversion == PROG_ID_VERSION || (!is_string(type) && !is_float(type) && !is_integral (type)) || num_labels < 8) { for (l = labels; *l; l++) { expr_t *cmp = binary_expr (EQ, sw_val, (*l)->value); expr_t *test = branch_expr ('i', test_expr (cmp), (*l)->label); append_expr (sw, test); } default_expr = goto_expr (default_label->label); append_expr (sw, default_expr); } else { expr_t *temp; int op; case_node_t *case_tree; if (is_string(type)) temp = new_temp_def_expr (&type_integer); else temp = new_temp_def_expr (type); case_tree = build_case_tree (labels, num_labels, is_integral (type)); op = '-'; if (type->type == ev_string) op = NE; build_switch (sw, case_tree, op, sw_val, temp, default_label->label); } pr.source_line = saved_line; pr.source_file = saved_file; append_expr (sw, statements); append_expr (sw, break_label); return sw; }