#include <glib.h>
#include <string.h>
-#include "mono/metadata/class.h"
+#include "mono/metadata/class-internals.h"
#include "mono/metadata/assembly.h"
#include "mono/metadata/tokentype.h"
#include "mono/metadata/opcodes.h"
if (depth++ > max_depth)
return;
- t = &image->tables [MONO_TABLE_TYPEDEF];
+ t = mono_image_get_table_info (image, MONO_TABLE_TYPEDEF);
token = mono_metadata_token_index (class->type_token);
- token <<= TYPEDEFORREF_BITS;
- token |= TYPEDEFORREF_TYPEDEF;
+ token <<= MONO_TYPEDEFORREF_BITS;
+ token |= MONO_TYPEDEFORREF_TYPEDEF;
/* use a subgraph? */
- for (i = 0; i < t->rows; ++i) {
+ for (i = 0; i < mono_table_info_get_rows (t); ++i) {
if (token == mono_metadata_decode_row_col (t, i, MONO_TYPEDEF_EXTENDS)) {
child = mono_class_get (image, MONO_TOKEN_TYPE_DEF | (i + 1));
output_type_edge (class, child);
char *p;
guint32 cols [MONO_INTERFACEIMPL_SIZE];
guint32 token, i, count = 0;
- MonoTableInfo *intf = &image->tables [MONO_TABLE_INTERFACEIMPL];
+ MonoTableInfo *intf = mono_image_get_table_info (image, MONO_TABLE_INTERFACEIMPL);
cname = g_strdup (cname);
p = strrchr (cname, '.');
fprintf (output, "%s", graph_properties);
/* TODO: handle inetrface defined in one image and class defined in another. */
token = mono_metadata_token_index (class->type_token);
- token <<= TYPEDEFORREF_BITS;
- token |= TYPEDEFORREF_TYPEDEF;
- for (i = 0; i < intf->rows; ++i) {
+ token <<= MONO_TYPEDEFORREF_BITS;
+ token |= MONO_TYPEDEFORREF_TYPEDEF;
+ for (i = 0; i < mono_table_info_get_rows (intf); ++i) {
mono_metadata_decode_row (intf, i, cols, MONO_INTERFACEIMPL_SIZE);
/*g_print ("index: %d [%d implements %d]\n", index, cols [MONO_INTERFACEIMPL_CLASS], cols [MONO_INTERFACEIMPL_INTERFACE]);*/
if (token == cols [MONO_INTERFACEIMPL_INTERFACE]) {
if (method->flags & (METHOD_ATTRIBUTE_PINVOKE_IMPL | METHOD_ATTRIBUTE_ABSTRACT))
return;
- header = ((MonoMethodNormal *)method)->header;
+ header = mono_method_get_header (method);
if (header->num_clauses)
has_exceptions++;
num_exceptions += header->num_clauses;
n = read32 (ip + 1);
if (n >= -1 && n <= 8) {
int_waste += 4;
- g_print ("%s %d\n", mono_opcode_names [i], n);
+ g_print ("%s %d\n", mono_opcode_name (i), n);
} else if (n < 128 && n >= -128) {
int_waste += 3;
- g_print ("%s %d\n", mono_opcode_names [i], n);
+ g_print ("%s %d\n", mono_opcode_name (i), n);
}
ip += 5;
break;
case MONO_CEE_LDLOC:
case MONO_CEE_STLOC:
var_waste += 3;
- g_print ("%s %d\n", mono_opcode_names [i], n);
+ g_print ("%s %d\n", mono_opcode_name (i), n);
break;
default:
var_waste += 2;
- g_print ("%s %d\n", mono_opcode_names [i], n);
+ g_print ("%s %d\n", mono_opcode_name (i), n);
break;
}
} else {
var_waste += 2;
- g_print ("%s %d\n", mono_opcode_names [i], n);
+ g_print ("%s %d\n", mono_opcode_name (i), n);
}
}
ip += 3;
case MONO_CEE_LDLOC_S:
case MONO_CEE_STLOC_S:
var_waste++;
- g_print ("%s %d\n", mono_opcode_names [i], (signed char)ip [1]);
+ g_print ("%s %d\n", mono_opcode_name (i), (signed char)ip [1]);
break;
default:
break;
break;
case MonoShortInlineI:
if ((signed char)ip [1] <= 8 && (signed char)ip [1] >= -1) {
- g_print ("%s %d\n", mono_opcode_names [i], (signed char)ip [1]);
+ g_print ("%s %d\n", mono_opcode_name (i), (signed char)ip [1]);
int_waste ++;
}
ip += 2;
MonoMethod *method;
MonoClass *klass;
- for (i = 0; i < image->tables [MONO_TABLE_METHOD].rows; ++i) {
+ num_methods = mono_image_get_table_rows (image, MONO_TABLE_METHOD);
+ for (i = 0; i < num_methods; ++i) {
method = mono_get_method (image, MONO_TOKEN_METHOD_DEF | (i + 1), NULL);
method_stats (method);
}
- num_methods = image->tables [MONO_TABLE_METHOD].rows;
- for (i = 0; i < image->tables [MONO_TABLE_TYPEDEF].rows; ++i) {
+ num_types = mono_image_get_table_rows (image, MONO_TABLE_TYPEDEF);
+ for (i = 0; i < num_types; ++i) {
klass = mono_class_get (image, MONO_TOKEN_TYPE_DEF | (i + 1));
type_stats (klass);
}
- num_types = image->tables [MONO_TABLE_TYPEDEF].rows;
g_print ("Methods and code stats:\n");
g_print ("back branch waste: %d\n", back_branch_waste);
if (method->flags & (METHOD_ATTRIBUTE_PINVOKE_IMPL | METHOD_ATTRIBUTE_ABSTRACT))
return;
- header = ((MonoMethodNormal *)method)->header;
+ header = mono_method_get_header (method);
ip = header->code;
hash = g_hash_table_new (g_direct_hash, g_direct_equal);
if (!name) {
guint32 token = mono_image_get_entry_point (image);
if (!token || !(method = mono_get_method (image, token, NULL))) {
- g_print ("Cannot find entry point in %s: specify an explict method name.\n", image->name);
+ g_print ("Cannot find entry point in %s: specify an explict method name.\n", mono_image_get_filename (image));
exit (1);
}
} else {
int i, dfn;
char *code;
- header = ((MonoMethodNormal*)method)->header;
+ header = mono_method_get_header (method);
bblocks = mono_method_find_bblocks (header);
for (i = 0; i < bblocks->len; ++i) {
bb = (MonoBasicBlock*)g_ptr_array_index (bblocks, i);
if (!name) {
guint32 token = mono_image_get_entry_point (image);
if (!token || !(method = mono_get_method (image, token, NULL))) {
- g_print ("Cannot find entry point in %s: specify an explict method name.\n", image->name);
+ g_print ("Cannot find entry point in %s: specify an explict method name.\n", mono_image_get_filename (image));
exit (1);
}
} else {
usage (void) {
printf ("monograph 0.2 Copyright (c) 2002 Ximian, Inc\n");
printf ("Create call graph or type hierarchy information from CIL assemblies.\n");
- printf ("Usage: monograph [options] [assembly [typename|methodname]]\n");
+ printf ("Usage: monograph [options] [assembly [typename|methodname]]\n\n");
printf ("Valid options are:\n");
printf ("\t-c|--call output call graph instead of type hierarchy\n");
printf ("\t-C|--control-flow output control flow of methodname\n");
printf ("\t-o|--output filename write graph to file filename (default: stdout)\n");
printf ("\t-f|--fullname include namespace in type and method names\n");
printf ("\t-n|--neato invoke neato directly\n");
- printf ("\t-v|--verbose verbose operation\n");
+ printf ("\t-v|--verbose verbose operation\n\n");
printf ("The default assembly is mscorlib.dll. The default method for\n");
- printf ("the --call and --control-flow options is the entrypoint.\n");
+ printf ("the --call and --control-flow options is the entrypoint.\n\n");
printf ("When the --neato option is used the output type info is taken\n");
- printf ("from the output filename extension. You need the graphviz package installed\n");
- printf ("to be able to use this option.\n");
+ printf ("from the output filename extension. You need the graphviz package\n");
+ printf ("installed to be able to use this option and build bitmap files.\n");
+ printf ("Without --neato, monograph will create .dot files, a description\n");
+ printf ("file for a graph.\n\n");
printf ("Sample runs:\n");
printf ("\tmonograph -n -o vt.png mscorlib.dll System.ValueType\n");
printf ("\tmonograph -n -o expr.png mcs.exe Mono.CSharp.Expression\n");
int
main (int argc, char *argv[]) {
MonoAssembly *assembly;
+ MonoImage *image;
const char *cname = NULL;
const char *aname = NULL;
char *outputfile = NULL;
if (argc > i + 1)
cname = argv [i + 1];
if (!aname)
- aname = "mscorlib.dll";
+ aname = "mscorlib";
if (!cname && (graphtype == GRAPH_TYPES))
cname = "System.Object";
if (cname && strchr (cname, ':') && graphtype == GRAPH_TYPES)
graphtype = GRAPH_CALL;
+ image = mono_assembly_get_image (assembly);
switch (graphtype) {
case GRAPH_TYPES:
- type_graph (assembly->image, cname);
+ type_graph (image, cname);
break;
case GRAPH_CALL:
- method_graph (assembly->image, cname);
+ method_graph (image, cname);
break;
case GRAPH_INTERFACE:
- interface_graph (assembly->image, cname);
+ interface_graph (image, cname);
break;
case GRAPH_CONTROL_FLOW:
- method_cfg (assembly->image, cname);
+ method_cfg (image, cname);
break;
case GRAPH_STATS:
- stats (assembly->image, cname);
+ stats (image, cname);
break;
default:
g_error ("wrong graph type");