/* dot_flow.c "emit" flow graphs to dot (graphvis). Copyright (C) 2012 Bill Currie Author: Bill Currie Date: 2012/11/01 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/quakeio.h" #include "QF/set.h" #include "QF/va.h" #include "dags.h" #include "flow.h" #include "function.h" #include "expr.h" #include "statements.h" #include "strpool.h" typedef struct { const char *type; void (*print_node) (dstring_t *, flowgraph_t *, flownode_t *, int); void (*print_edge) (dstring_t *, flowgraph_t *, flowedge_t *, int); void (*print_extra) (dstring_t *, flowgraph_t *, int); } flow_dot_t; static void print_flow_node (dstring_t *dstr, flowgraph_t *graph, flownode_t *node, int level) { int indent = level * 2 + 2; dasprintf (dstr, "%*s\"fn_%p\" [label=\"%d (%d)\"];\n", indent, "", node, node->id, node->dfn); } static void print_flow_edge (dstring_t *dstr, flowgraph_t *graph, flowedge_t *edge, int level) { int indent = level * 2 + 2; int edge_num = edge - graph->edges; flownode_t *t, *h; const char *style; const char *dir; int weight; t = graph->nodes[edge->tail]; h = graph->nodes[edge->head]; if (t->dfn >= h->dfn) { flownode_t *temp; temp = h; h = t; t = temp; dir = "dir=back,"; style = "dashed"; weight = 0; } else if (set_is_member (graph->dfst, edge_num)) { dir = ""; style = "bold"; weight = 10; } else { dir = ""; style = "solid"; weight = 0; } dasprintf (dstr, "%*s", indent, ""); dasprintf (dstr, "fn_%p -> ", t); dasprintf (dstr, "fn_%p [%sstyle=%s,weight=%d", h, dir, style, weight); dasprintf (dstr, "];\n"); } static void print_flow_node_dag (dstring_t *dstr, flowgraph_t *graph, flownode_t *node, int level) { if (node->dag) print_dag (dstr, node->dag, va ("%d (%d)", node->id, node->dfn)); else print_flow_node (dstr, graph, node, level); } static void print_flow_edge_dag (dstring_t *dstr, flowgraph_t *graph, flowedge_t *edge, int level) { int indent = level * 2 + 2; int edge_num = edge - graph->edges; flownode_t *t, *h; const char *tpref; const char *hpref; const char *style; const char *dir; int weight; t = graph->nodes[edge->tail]; h = graph->nodes[edge->head]; if (t->dfn >= h->dfn) { flownode_t *temp; temp = h; h = t; t = temp; tpref = "enter"; hpref = "leave"; dir = "dir=back,"; style = "dashed"; weight = 0; } else if (set_is_member (graph->dfst, edge_num)) { tpref = "leave"; hpref = "enter"; dir = ""; style = "bold"; weight = 10; } else { tpref = "leave"; hpref = "enter"; dir = ""; style = "solid"; weight = 0; } dasprintf (dstr, "%*s", indent, ""); if (t->dag) dasprintf (dstr, "dag_%s_%p -> ", tpref, t->dag); else dasprintf (dstr, "fn_%p -> ", t); if (h->dag) dasprintf (dstr, "dag_%s_%p [%sstyle=%s,weight=%d", hpref, h->dag, dir, style, weight); else dasprintf (dstr, "fn_%p [%sstyle=%s,weight=%d", h, dir, style, weight); if (t->dag) dasprintf (dstr, ",ltail=cluster_dag_%p", t->dag); if (h->dag) dasprintf (dstr, ",lhead=cluster_dag_%p", h->dag); dasprintf (dstr, "];\n"); } static void print_flow_node_live (dstring_t *dstr, flowgraph_t *graph, flownode_t *node, int level) { int indent = level * 2 + 2; int live; set_t *use = node->live_vars.use; set_t *def = node->live_vars.def; set_t *in = node->live_vars.in; set_t *out = node->live_vars.out; live = node->live_vars.out && !set_is_empty (node->live_vars.out); if (live) { dasprintf (dstr, "%*sfn_%p [label=\"", indent, "", node); dasprintf (dstr, "use: %s\\n", set_as_string (use)); dasprintf (dstr, "def: %s\\n", set_as_string (def)); dasprintf (dstr, "in: %s\\n", set_as_string (in)); dasprintf (dstr, "out: %s\"];\n", set_as_string (out)); } else { print_flow_node (dstr, graph, node, level); } } static void print_extra_live (dstring_t *dstr, flowgraph_t *graph, int level) { int indent = level * 2 + 2; int i; flowvar_t *var; dasprintf (dstr, "%*sfv_%p [shape=none,label=<\n", indent, "", graph); dasprintf (dstr, "%*s\n", indent + 2, ""); for (i = 0; i < graph->func->num_vars; i++) { var = graph->func->vars[i]; dasprintf (dstr, "%*s\n", indent + 4, "", var->number, html_string(operand_string (var->op))); } dasprintf (dstr, "%*s
(%d) %s
>];\n", indent + 2, ""); } static void print_flow_node_reaching (dstring_t *dstr, flowgraph_t *graph, flownode_t *node, int level) { int indent = level * 2 + 2; int reach; set_t *gen = node->reaching_defs.gen; set_t *kill = node->reaching_defs.kill; set_t *in = node->reaching_defs.in; set_t *out = node->reaching_defs.out; reach = gen && kill && in && out; if (reach) { dasprintf (dstr, "%*sfn_%p [label=\"", indent, "", node); dasprintf (dstr, "gen: %s\\n", set_as_string (gen)); dasprintf (dstr, "kill: %s\\n", set_as_string (kill)); dasprintf (dstr, "in: %s\\n", set_as_string (in)); dasprintf (dstr, "out: %s\"];\n", set_as_string (out)); } else { print_flow_node (dstr, graph, node, level); } } static void print_flow_node_statements (dstring_t *dstr, flowgraph_t *graph, flownode_t *node, int level) { if (node->sblock) { dot_sblock (dstr, node->sblock, node->id); } else { print_flow_node (dstr, graph, node, level); } } static void print_flow_edge_statements (dstring_t *dstr, flowgraph_t *graph, flowedge_t *edge, int level) { int indent = level * 2 + 2; int edge_num = edge - graph->edges; flownode_t *h, *t; const char *hpre = "fn_", *tpre = "fn_"; const char *style; const char *dir; int weight; t = graph->nodes[edge->tail]; h = graph->nodes[edge->head]; if (t->dfn >= h->dfn) { flownode_t *temp; temp = h; h = t; t = temp; dir = "dir=back,"; style = "dashed"; weight = 0; } else if (set_is_member (graph->dfst, edge_num)) { dir = ""; style = "bold"; weight = 10; } else { dir = ""; style = "solid"; weight = 0; } if (t->sblock) { tpre = "sb_"; t = (flownode_t *) t->sblock; } if (h->sblock) { hpre = "sb_"; h = (flownode_t *) h->sblock; } dasprintf (dstr, "%*s", indent, ""); dasprintf (dstr, "%s%p -> ", tpre, t); dasprintf (dstr, "%s%p [%sstyle=%s,weight=%d", hpre, h, dir, style, weight); dasprintf (dstr, "];\n"); } static flow_dot_t flow_dot_methods[] = { {"", print_flow_node, print_flow_edge}, {"dag", print_flow_node_dag, print_flow_edge_dag}, {"live", print_flow_node_live, print_flow_edge, print_extra_live}, {"reaching", print_flow_node_reaching, print_flow_edge}, {"statements", print_flow_node_statements, print_flow_edge_statements}, }; static void print_flowgraph (flow_dot_t *method, flowgraph_t *graph, const char *filename) { int i; dstring_t *dstr = dstring_newstr(); dasprintf (dstr, "digraph flowgraph_%s_%p {\n", method->type, graph); dasprintf (dstr, " layout=dot;\n"); dasprintf (dstr, " clusterrank=local;\n"); dasprintf (dstr, " rankdir=TB;\n"); dasprintf (dstr, " compound=true;\n"); for (i = 0; i < graph->num_nodes; i++) { method->print_node (dstr, graph, graph->nodes[i], 0); } for (i = 0; i < graph->num_edges; i++) { if ((int) graph->edges[i].head >= graph->num_nodes || (int) graph->edges[i].tail >= graph->num_nodes) continue; // dummy node method->print_edge (dstr, graph, &graph->edges[i], 0); } if (method->print_extra) method->print_extra (dstr, graph, 0); dasprintf (dstr, "}\n"); if (filename) { QFile *file; file = Qopen (filename, "wt"); Qwrite (file, dstr->str, dstr->size - 1); Qclose (file); } else { fputs (dstr->str, stdout); } dstring_delete (dstr); } void dump_dot_flow (void *g, const char *filename) { print_flowgraph (&flow_dot_methods[0], (flowgraph_t *) g, filename); } void dump_dot_flow_dags (void *g, const char *filename) { print_flowgraph (&flow_dot_methods[1], (flowgraph_t *) g, filename); } void dump_dot_flow_live (void *g, const char *filename) { print_flowgraph (&flow_dot_methods[2], (flowgraph_t *) g, filename); } void dump_dot_flow_reaching (void *g, const char *filename) { print_flowgraph (&flow_dot_methods[3], (flowgraph_t *) g, filename); } void dump_dot_flow_statements (void *g, const char *filename) { print_flowgraph (&flow_dot_methods[4], (flowgraph_t *) g, filename); }