/* dags.c DAG representation of basic blocks Copyright (C) 2012 Bill Currie Author: Bill Currie Date: 2012/05/08 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 "QF/dstring.h" #include "QF/mathlib.h" #include "dags.h" #include "diagnostic.h" #include "flow.h" #include "qfcc.h" #include "set.h" #include "statements.h" #include "strpool.h" #include "symtab.h" #include "type.h" static daglabel_t *free_labels; static dagnode_t *free_nodes; static dag_t *free_dags; static daglabel_t *daglabel_chain; static void flush_daglabels (void) { while (daglabel_chain) { operand_t *op; if ((op = daglabel_chain->op)) { while (op->op_type == op_alias) op = op->o.alias; if (op->op_type == op_symbol) op->o.symbol->daglabel = 0; else if (op->op_type == op_temp) op->o.tempop.daglabel = 0; else if (op->op_type == op_value || op->op_type == op_pointer) op->o.value->daglabel = 0; else if (op->op_type == op_label) op->o.label->daglabel = 0; else internal_error (0, "unexpected operand type"); } daglabel_chain = daglabel_chain->daglabel_chain; } } static dag_t * new_dag (void) { dag_t *dag; ALLOC (256, dag_t, dags, dag); return dag; } static daglabel_t * new_label (dag_t *dag) { daglabel_t *label; ALLOC (256, daglabel_t, labels, label); label->daglabel_chain = daglabel_chain; daglabel_chain = label; label->number = dag->num_labels; dag->labels[dag->num_labels++] = label; return label; } static dagnode_t * new_node (dag_t *dag) { dagnode_t *node; ALLOC (256, dagnode_t, nodes, node); node->parents = set_new (); node->edges = set_new (); node->identifiers = set_new (); node->number = dag->num_nodes; dag->nodes[dag->num_nodes++] = node; return node; } const char * daglabel_string (daglabel_t *label) { static dstring_t *str; if ((label->opcode && label->op) || (!label->opcode && !label->op)) return "bad label"; if (label->opcode) return label->opcode; if (!str) str = dstring_new (); // operand_string might use quote_string, which returns a pointer to // a static variable. dstring_copystr (str, operand_string (label->op)); return quote_string (str->str); } static daglabel_t * opcode_label (dag_t *dag, const char *opcode, expr_t *expr) { daglabel_t *label; label = new_label (dag); label->opcode = opcode; label->expr = expr; return label; } static daglabel_t * operand_label (dag_t *dag, operand_t *op) { symbol_t *sym = 0; ex_value_t *val = 0; daglabel_t *label; if (!op) return 0; while (op->op_type == op_alias) op = op->o.alias; if (op->op_type == op_temp) { if (op->o.tempop.daglabel) return op->o.tempop.daglabel; label = new_label (dag); label->op = op; op->o.tempop.daglabel = label; } else if (op->op_type == op_symbol) { sym = op->o.symbol; if (sym->daglabel) return sym->daglabel; label = new_label (dag); label->op = op; sym->daglabel = label; } else if (op->op_type == op_value || op->op_type == op_pointer) { val = op->o.value; if (val->daglabel) return val->daglabel; label = new_label (dag); label->op = op; val->daglabel = label; } else if (op->op_type == op_label) { if (op->o.label->daglabel) return op->o.label->daglabel; label = new_label (dag); label->op = op; op->o.label->daglabel = label; } else { internal_error (0, "unexpected operand type: %d", op->op_type); } return label; } static dagnode_t * leaf_node (dag_t *dag, operand_t *op, expr_t *expr) { daglabel_t *label; dagnode_t *node; if (!op) return 0; node = new_node (dag); node->tl = op->type; label = operand_label (dag, op); label->dagnode = node; label->expr = expr; node->label = label; return node; } static dagnode_t * node (operand_t *op) { symbol_t *sym; if (!op) return 0; while (op->op_type == op_alias) op = op->o.alias; if (op->op_type == op_symbol) { sym = op->o.symbol; if (sym->sy_type == sy_const) return 0; if (sym->daglabel) return sym->daglabel->dagnode; } else if (op->op_type == op_temp) { if (op->o.tempop.daglabel) return op->o.tempop.daglabel->dagnode; } return 0; } static int dagnode_match (const dagnode_t *n, const daglabel_t *op, dagnode_t *operands[3]) { int i; if (n->label->opcode != op->opcode) return 0; for (i = 0; i < 3; i++) { if (n->children[i] && operands[i] && n->children[i]->label->op != operands[i]->label->op ) return 0; if ((!n->children[i]) ^ (!operands[i])) return 0; } return 1; } static int op_is_identifer (operand_t *op) { while (op->op_type == op_alias) op = op->o.alias; if (op->op_type == op_pointer) return 1; if (op->op_type == op_temp) return 1; if (op->op_type != op_symbol) return 0; if (op->o.symbol->sy_type != sy_var) return 0; return 1; } static void dagnode_attach_label (dagnode_t *n, daglabel_t *l) { if (!l->op) internal_error (0, "attempt to attach operator label to dagnode " "identifers"); if (!op_is_identifer (l->op)) internal_error (0, "attempt to attach non-identifer label to dagnode " "identifers"); if (l->dagnode) { dagnode_t *node = l->dagnode; set_union (n->edges, node->parents); set_remove (n->edges, n->number); set_remove (node->identifiers, l->number); } l->dagnode = n; set_add (n->identifiers, l->number); } static void dag_remove_dead_vars (dag_t *dag, set_t *live_vars) { int i; for (i = 0; i < dag->num_labels; i++) { daglabel_t *l = dag->labels[i]; flowvar_t *var; if (!l->op || !l->dagnode) continue; var = flow_get_var (l->op); if (!var) continue; if (!set_is_member (live_vars, var->number)) set_remove (l->dagnode->identifiers, l->number); } } static void dag_sort_visit (dag_t *dag, set_t *visited, int node_index, int *topo) { set_iter_t *node_iter; dagnode_t *node; if (set_is_member (visited, node_index)) return; set_add (visited, node_index); node = dag->nodes[node_index]; for (node_iter = set_first (node->edges); node_iter; node_iter = set_next (node_iter)) dag_sort_visit (dag, visited, node_iter->member, topo); node->topo = *topo; dag->topo[(*topo)++] = node_index; } static void dag_sort_nodes (dag_t *dag) { set_iter_t *root_iter; set_t *visited = set_new (); int topo = 0; dag->topo = malloc (dag->num_nodes * sizeof (int)); for (root_iter = set_first (dag->roots); root_iter; root_iter = set_next (root_iter)) dag_sort_visit (dag, visited, root_iter->member, &topo); set_delete (visited); } dag_t * dag_create (flownode_t *flownode) { dag_t *dag; sblock_t *block = flownode->sblock; statement_t *s; dagnode_t **nodes; daglabel_t **labels; int num_statements = 0; set_t *live_vars = set_new (); flush_daglabels (); for (s = block->statements; s; s = s->next) num_statements++; set_assign (live_vars, flownode->live_vars.out); dag = new_dag (); dag->flownode = flownode; // at most 4 per statement dag->nodes = alloca (num_statements * 4 * sizeof (dagnode_t)); // at most 3 per statement dag->labels = alloca (num_statements * 3 * sizeof (daglabel_t)); dag->roots = set_new (); for (s = block->statements; s; s = s->next) { operand_t *operands[4]; dagnode_t *n = 0, *children[3] = {0, 0, 0}; daglabel_t *op, *lx; int i; flow_analyze_statement (s, 0, 0, 0, operands); for (i = 0; i < 3; i++) { if (!(children[i] = node (operands[i + 1]))) { children[i] = leaf_node (dag, operands[i + 1], s->expr); if (children[i]) set_add (dag->roots, children[i]->number); } } op = opcode_label (dag, s->opcode, s->expr); if (s->type == st_assign) { n = children[0]; } else { n = 0; for (i = 0; i < dag->num_nodes; i++) { if (dagnode_match (dag->nodes[i], op, children)) { n = dag->nodes[i]; break; } } } if (!n) { n = new_node (dag); n->type = s->type; n->label = op; set_add (dag->roots, n->number); for (i = 0; i < 3; i++) { dagnode_t *child = children[i]; n->children[i] = child; if (child) { if (child->label->op) { dagnode_t *node = child->label->dagnode; if (node != child && node != n) set_add (node->edges, n->number); } set_remove (dag->roots, child->number); if (n != child) set_add (n->edges, child->number); set_add (child->parents, n->number); n->types[i] = operands[i + 1]->type; } } } lx = operand_label (dag, operands[0]); if (lx) { lx->expr = s->expr; dagnode_attach_label (n, lx); } if (n->type == st_func) { if (!strncmp (n->label->opcode, "label->opcode, "label->opcode, "label->opcode[5] != '>') end = n->label->opcode[5] - '0'; } else { start = 2; end = n->label->opcode[6] - '0'; } while (start < end) { set_add (live_vars, start + 1); start++; } } else if (!strncmp (n->label->opcode, "global_vars); } } } nodes = malloc (dag->num_nodes * sizeof (dagnode_t *)); memcpy (nodes, dag->nodes, dag->num_nodes * sizeof (dagnode_t *)); dag->nodes = nodes; labels = malloc (dag->num_labels * sizeof (daglabel_t *)); memcpy (labels, dag->labels, dag->num_labels * sizeof (daglabel_t *)); dag->labels = labels; dag_remove_dead_vars (dag, live_vars); dag_sort_nodes (dag); set_delete (live_vars); return dag; } static statement_t * build_statement (const char *opcode, operand_t **operands, expr_t *expr) { int i; operand_t *op; statement_t *st = new_statement (st_none, opcode, expr); for (i = 0; i < 3; i++) { if ((op = operands[i])) { while (op->op_type == op_alias) op = op->o.alias; if (op->op_type == op_temp) op->o.tempop.users++; } } st->opa = operands[0]; st->opb = operands[1]; st->opc = operands[2]; return st; } #if 0 static void dag_calc_node_costs (dagnode_t *dagnode) { int i; for (i = 0; i < 3; i++) if (dagnode->children[i]) dag_calc_node_costs (dagnode->children[i]); // if dagnode->a is null, then this is a leaf (as b and c are guaranted to // be null) if (!dagnode->children[0]) { // Because qc vm statements don't mix source and destination operands, // leaves never need temporary variables. dagnode->cost = 0; } else { int different = 0; // a non-leaf is guaranteed to have a valid first child dagnode->cost = dagnode->children[0]->cost; for (i = 1; i < 3; i++) { if (dagnode->children[i] && dagnode->children[i]->cost != dagnode->cost) { dagnode->cost = max (dagnode->cost, dagnode->children[i]->cost); different = 1; } } if (!different) dagnode->cost += 1; } } #endif static operand_t * fix_op_type (operand_t *op, etype_t type) { if (op && op->op_type != op_label && op->type != type) op = alias_operand (op, type); return op; } static operand_t * generate_assignments (dag_t *dag, sblock_t *block, operand_t *src, set_iter_t *var_iter, etype_t type) { statement_t *st; operand_t *dst = 0; operand_t *operands[3] = {0, 0, 0}; daglabel_t *var; operands[0] = fix_op_type (src, type); for ( ; var_iter; var_iter = set_next (var_iter)) { var = dag->labels[var_iter->member]; operands[1] = fix_op_type (var->op, type); if (!dst) { dst = operands[1]; while (dst->op_type == op_alias) dst = dst->o.alias; } st = build_statement ("=", operands, var->expr); sblock_add_statement (block, st); } return dst; } static operand_t * make_operand (dag_t *dag, sblock_t *block, const dagnode_t *dagnode, int index) { operand_t *op; op = dagnode->children[index]->value; while (op->op_type == op_alias) op = op->o.alias; op = fix_op_type (op, dagnode->types[index]); return op; } static void dag_gencode (dag_t *dag, sblock_t *block, dagnode_t *dagnode) { operand_t *operands[3] = {0, 0, 0}; operand_t *dst = 0; statement_t *st; set_iter_t *var_iter; int i; etype_t type; switch (dagnode->type) { case st_none: if (!dagnode->label->op) internal_error (0, "non-leaf label in leaf node"); dst = dagnode->label->op; if ((var_iter = set_first (dagnode->identifiers))) { type = low_level_type (get_type (dagnode->label->expr)); dst = generate_assignments (dag, block, dst, var_iter, type); } break; case st_expr: operands[0] = make_operand (dag, block, dagnode, 0); if (dagnode->children[1]) operands[1] = make_operand (dag, block, dagnode, 1); type = low_level_type (get_type (dagnode->label->expr)); if (!(var_iter = set_first (dagnode->identifiers))) { operands[2] = temp_operand (get_type (dagnode->label->expr)); } else { daglabel_t *var = dag->labels[var_iter->member]; operands[2] = fix_op_type (var->op, type); var_iter = set_next (var_iter); } dst = operands[2]; st = build_statement (dagnode->label->opcode, operands, dagnode->label->expr); sblock_add_statement (block, st); generate_assignments (dag, block, operands[2], var_iter, type); break; case st_assign: internal_error (0, "unexpected assignment node"); case st_ptrassign: operands[0] = make_operand (dag, block, dagnode, 0); operands[1] = make_operand (dag, block, dagnode, 1); if (dagnode->children[2]) operands[2] = make_operand (dag, block, dagnode, 2); st = build_statement (dagnode->label->opcode, operands, dagnode->label->expr); sblock_add_statement (block, st); break; case st_move: case st_state: case st_func: for (i = 0; i < 3; i++) if (dagnode->children[i]) operands[i] = make_operand (dag, block, dagnode, i); st = build_statement (dagnode->label->opcode, operands, dagnode->label->expr); sblock_add_statement (block, st); break; case st_flow: operands[0] = make_operand (dag, block, dagnode, 0); if (dagnode->children[1]) operands[1] = make_operand (dag, block, dagnode, 1); st = build_statement (dagnode->label->opcode, operands, dagnode->label->expr); sblock_add_statement (block, st); break; } dagnode->value = dst; } void dag_generate (dag_t *dag, sblock_t *block) { int i; for (i = 0; i < dag->num_nodes; i++) dag_gencode (dag, block, dag->nodes[dag->topo[i]]); }