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|
/* -----------------------------------------------------------------------------
*
* (c) The GHC Team 2000
*
* RTS GTK Front Panel
*
* ---------------------------------------------------------------------------*/
#ifdef RTS_GTK_FRONTPANEL
/* Alas, not Posix. */
/* #include "PosixSource.h" */
#include "Rts.h"
#include "RtsUtils.h"
#include "FrontPanel.h"
#include "Stats.h"
#include "Schedule.h"
#include <gtk/gtk.h>
#include <unistd.h>
#include <string.h>
#include "VisSupport.h"
#include "VisWindow.h"
static GtkWidget *window, *map_drawing_area, *gen_drawing_area;
static GtkWidget *res_drawing_area;
static GtkWidget *continue_but, *stop_but, *quit_but;
static GtkWidget *statusbar;
static GtkWidget *live_label, *allocated_label;
static GtkWidget *footprint_label, *alloc_rate_label;
static GtkWidget *map_ruler, *gen_ruler;
static GtkWidget *res_vruler, *res_hruler;
static GtkWidget *running_label, *b_read_label, *b_write_label, *total_label;
static GtkWidget *b_mvar_label, *b_bh_label, *b_throwto_label, *sleeping_label;
static guint status_context_id;
gboolean continue_now = FALSE, stop_now = FALSE, quit = FALSE;
UpdateMode update_mode = Continuous;
static GdkPixmap *map_pixmap = NULL;
static GdkPixmap *gen_pixmap = NULL;
static GdkPixmap *res_pixmap = NULL;
#define N_GENS 10
static GdkColor
bdescr_color = { 0, 0xffff, 0, 0 }, /* red */
free_color = { 0, 0, 0, 0xffff }, /* blue */
gen_colors[N_GENS] = {
{ 0, 0, 0xffff, 0 },
{ 0, 0, 0xf000, 0 },
{ 0, 0, 0xe000, 0 },
{ 0, 0, 0xd000, 0 },
{ 0, 0, 0xc000, 0 },
{ 0, 0, 0xb000, 0 },
{ 0, 0, 0xa000, 0 },
{ 0, 0, 0x9000, 0 },
{ 0, 0, 0x8000, 0 },
{ 0, 0, 0x7000, 0 }
};
GdkGC *my_gc = NULL;
static void *mem_start = (void *) 0x50000000;
static void colorBlock( void *addr, GdkColor *color,
nat block_width, nat block_height,
nat blocks_per_line );
static void residencyCensus( void );
static void updateResidencyGraph( void );
static void updateThreadsPanel( void );
/* Some code pinched from examples/scribble-simple in the GTK+
* distribution.
*/
/* Create a new backing pixmap of the appropriate size */
static gint
configure_event( GtkWidget *widget, GdkEventConfigure *event STG_UNUSED,
GdkPixmap **pixmap )
{
if (*pixmap)
gdk_pixmap_unref(*pixmap);
*pixmap = gdk_pixmap_new(widget->window,
widget->allocation.width,
widget->allocation.height,
-1);
gdk_draw_rectangle (*pixmap,
widget->style->white_gc,
TRUE,
0, 0,
widget->allocation.width,
widget->allocation.height);
debugBelch("configure!\n");
updateFrontPanel();
return TRUE;
}
/* Redraw the screen from the backing pixmap */
static gint
expose_event( GtkWidget *widget, GdkEventExpose *event, GdkPixmap **pixmap )
{
gdk_draw_pixmap(widget->window,
widget->style->fg_gc[GTK_WIDGET_STATE (widget)],
*pixmap,
event->area.x, event->area.y,
event->area.x, event->area.y,
event->area.width, event->area.height);
return FALSE;
}
void
initFrontPanel( void )
{
GdkColormap *colormap;
GtkWidget *gen_hbox;
gtk_init( &prog_argc, &prog_argv );
window = create_GHC_Front_Panel();
map_drawing_area = lookup_widget(window, "memmap");
gen_drawing_area = lookup_widget(window, "generations");
res_drawing_area = lookup_widget(window, "res_drawingarea");
stop_but = lookup_widget(window, "stop_but");
continue_but = lookup_widget(window, "continue_but");
quit_but = lookup_widget(window, "quit_but");
statusbar = lookup_widget(window, "statusbar");
live_label = lookup_widget(window, "live_label");
footprint_label = lookup_widget(window, "footprint_label");
allocated_label = lookup_widget(window, "allocated_label");
alloc_rate_label = lookup_widget(window, "alloc_rate_label");
gen_hbox = lookup_widget(window, "gen_hbox");
gen_ruler = lookup_widget(window, "gen_ruler");
map_ruler = lookup_widget(window, "map_ruler");
res_vruler = lookup_widget(window, "res_vruler");
res_hruler = lookup_widget(window, "res_hruler");
running_label = lookup_widget(window, "running_label");
b_read_label = lookup_widget(window, "blockread_label");
b_write_label = lookup_widget(window, "blockwrite_label");
b_mvar_label = lookup_widget(window, "blockmvar_label");
b_bh_label = lookup_widget(window, "blockbh_label");
b_throwto_label = lookup_widget(window, "blockthrowto_label");
sleeping_label = lookup_widget(window, "sleeping_label");
total_label = lookup_widget(window, "total_label");
status_context_id =
gtk_statusbar_get_context_id( GTK_STATUSBAR(statusbar), "context" );
/* hook up some signals for the mem map drawing area */
gtk_signal_connect (GTK_OBJECT(map_drawing_area), "expose_event",
(GtkSignalFunc)expose_event, &map_pixmap);
gtk_signal_connect (GTK_OBJECT(map_drawing_area), "configure_event",
(GtkSignalFunc)configure_event, &map_pixmap);
gtk_widget_set_events(map_drawing_area, GDK_EXPOSURE_MASK);
/* hook up some signals for the gen drawing area */
gtk_signal_connect (GTK_OBJECT(gen_drawing_area), "expose_event",
(GtkSignalFunc)expose_event, &gen_pixmap);
gtk_signal_connect (GTK_OBJECT(gen_drawing_area), "configure_event",
(GtkSignalFunc)configure_event, &gen_pixmap);
gtk_widget_set_events(gen_drawing_area, GDK_EXPOSURE_MASK);
/* hook up some signals for the res drawing area */
gtk_signal_connect (GTK_OBJECT(res_drawing_area), "expose_event",
(GtkSignalFunc)expose_event, &res_pixmap);
gtk_signal_connect (GTK_OBJECT(res_drawing_area), "configure_event",
(GtkSignalFunc)configure_event, &res_pixmap);
gtk_widget_set_events(res_drawing_area, GDK_EXPOSURE_MASK);
/* allocate our colors */
colormap = gdk_colormap_get_system();
gdk_colormap_alloc_color(colormap, &bdescr_color, TRUE, TRUE);
gdk_colormap_alloc_color(colormap, &free_color, TRUE, TRUE);
{
gboolean success[N_GENS];
gdk_colormap_alloc_colors(colormap, gen_colors, N_GENS, TRUE,
TRUE, success);
if (!success) { barf("can't allocate colors"); }
}
/* set the labels on the generation histogram */
{
char buf[64];
nat g, s;
GtkWidget *label;
for(g = 0; g < RtsFlags.GcFlags.generations; g++) {
for(s = 0; s < generations[g].n_steps; s++) {
g_snprintf( buf, 64, "%d.%d", g, s );
label = gtk_label_new( buf );
gtk_box_pack_start( GTK_BOX(gen_hbox), label,
TRUE, TRUE, 5 );
gtk_widget_show(label);
}
}
}
gtk_widget_show(window);
/* wait for the user to press "Continue" before getting going... */
gtk_statusbar_push( GTK_STATUSBAR(statusbar), status_context_id,
"Program start");
gtk_widget_set_sensitive( stop_but, FALSE );
continue_now = FALSE;
while (continue_now == FALSE) {
gtk_main_iteration();
}
gtk_statusbar_pop( GTK_STATUSBAR(statusbar), status_context_id );
gtk_statusbar_push( GTK_STATUSBAR(statusbar), status_context_id,
"Running");
gtk_widget_set_sensitive( continue_but, FALSE );
gtk_widget_set_sensitive( stop_but, TRUE );
gtk_widget_set_sensitive( quit_but, FALSE );
while (gtk_events_pending()) {
gtk_main_iteration();
}
}
void
stopFrontPanel( void )
{
gtk_widget_set_sensitive( quit_but, TRUE );
gtk_widget_set_sensitive( continue_but, FALSE );
gtk_widget_set_sensitive( stop_but, FALSE );
updateFrontPanel();
gtk_statusbar_push( GTK_STATUSBAR(statusbar), status_context_id,
"Program finished");
quit = FALSE;
while (quit == FALSE) {
gtk_main_iteration();
}
}
static void
waitForContinue( void )
{
gtk_widget_set_sensitive( continue_but, TRUE );
gtk_widget_set_sensitive( stop_but, FALSE );
stop_now = FALSE;
continue_now = FALSE;
while (continue_now == FALSE) {
gtk_main_iteration();
}
gtk_widget_set_sensitive( continue_but, FALSE );
gtk_widget_set_sensitive( stop_but, TRUE );
}
void
updateFrontPanelBeforeGC( nat N )
{
char buf[1000];
updateFrontPanel();
if (update_mode == BeforeGC
|| update_mode == BeforeAfterGC
|| stop_now == TRUE) {
g_snprintf( buf, 1000, "Stopped (before GC, generation %d)", N );
gtk_statusbar_push( GTK_STATUSBAR(statusbar), status_context_id, buf );
waitForContinue();
gtk_statusbar_pop( GTK_STATUSBAR(statusbar), status_context_id );
}
g_snprintf( buf, 1000, "Garbage collecting (generation %d)", N );
gtk_statusbar_push( GTK_STATUSBAR(statusbar), status_context_id, buf);
while (gtk_events_pending()) {
gtk_main_iteration();
}
}
static void
numLabel( GtkWidget *lbl, nat n )
{
char buf[64];
g_snprintf(buf, 64, "%d", n);
gtk_label_set_text( GTK_LABEL(lbl), buf );
}
void
updateFrontPanelAfterGC( nat N, lnat live )
{
char buf[1000];
gtk_statusbar_pop( GTK_STATUSBAR(statusbar), status_context_id );
/* is a major GC? */
if (N == RtsFlags.GcFlags.generations-1) {
residencyCensus();
}
updateFrontPanel();
if (update_mode == AfterGC
|| update_mode == BeforeAfterGC
|| stop_now == TRUE) {
snprintf( buf, 1000, "Stopped (after GC, generation %d)", N );
gtk_statusbar_push( GTK_STATUSBAR(statusbar), status_context_id, buf );
waitForContinue();
gtk_statusbar_pop( GTK_STATUSBAR(statusbar), status_context_id );
}
{
double words_to_megs = (1024 * 1024) / sizeof(W_);
double time = mut_user_time();
snprintf( buf, 1000, "%.2f", (double)live / words_to_megs );
gtk_label_set_text( GTK_LABEL(live_label), buf );
snprintf( buf, 1000, "%.2f", (double)total_allocated / words_to_megs );
gtk_label_set_text( GTK_LABEL(allocated_label), buf );
snprintf( buf, 1000, "%.2f",
(double)(mblocks_allocated * MBLOCK_SIZE_W) / words_to_megs );
gtk_label_set_text( GTK_LABEL(footprint_label), buf );
if ( time == 0.0 )
snprintf( buf, 1000, "%.2f", time );
else
snprintf( buf, 1000, "%.2f",
(double)(total_allocated / words_to_megs) / time );
gtk_label_set_text( GTK_LABEL(alloc_rate_label), buf );
}
while (gtk_events_pending()) {
gtk_main_iteration();
}
}
void
updateFrontPanel( void )
{
void *m, *a;
bdescr *bd;
updateThreadsPanel();
if (my_gc == NULL) {
my_gc = gdk_gc_new( window->window );
}
if (map_pixmap != NULL) {
nat height, width, blocks_per_line,
block_height, block_width, mblock_height;
height = map_drawing_area->allocation.height;
width = map_drawing_area->allocation.width;
mblock_height = height / mblocks_allocated;
blocks_per_line = 16;
block_height = mblock_height /
((MBLOCK_SIZE/BLOCK_SIZE) / blocks_per_line);
while (block_height == 0) {
blocks_per_line *= 2;
block_height = mblock_height /
((MBLOCK_SIZE/BLOCK_SIZE) / blocks_per_line);
}
block_width = width / blocks_per_line;
gdk_draw_rectangle (map_pixmap,
map_drawing_area->style->bg_gc[GTK_STATE_NORMAL],
TRUE,
0, 0,
map_drawing_area->allocation.width,
map_drawing_area->allocation.height);
for ( m = mem_start;
(char *)m < (char *)mem_start +
(mblocks_allocated * MBLOCK_SIZE);
(char *)m += MBLOCK_SIZE ) {
/* color the bdescr area first */
for (a = m; a < FIRST_BLOCK(m); (char *)a += BLOCK_SIZE) {
colorBlock( a, &bdescr_color,
block_width, block_height, blocks_per_line );
}
#if 0 /* Segfaults because bd appears to be bogus but != NULL. stolz, 2003-06-24 */
/* color each block */
for (; a <= LAST_BLOCK(m); (char *)a += BLOCK_SIZE) {
bd = Bdescr((P_)a);
ASSERT(bd->start == a);
if (bd->flags & BF_FREE) {
colorBlock( a, &free_color,
block_width, block_height, blocks_per_line );
} else {
colorBlock( a, &gen_colors[bd->gen_no],
block_width, block_height, blocks_per_line );
}
}
#endif
}
{
nat height = map_drawing_area->allocation.height,
block_height, mblock_height;
block_height = (height / mblocks_allocated) /
((MBLOCK_SIZE/BLOCK_SIZE) / blocks_per_line);
if (block_height < 1) block_height = 1;
mblock_height = block_height *
((MBLOCK_SIZE/BLOCK_SIZE) / blocks_per_line);
gtk_ruler_set_range( GTK_RULER(map_ruler), 0,
(double)(height * mblocks_allocated) /
(double)((mblock_height * mblocks_allocated)),
0,
(double)(height * mblocks_allocated) /
(double)((mblock_height * mblocks_allocated))
);
}
gtk_widget_draw( map_drawing_area, NULL );
}
if (gen_pixmap != NULL) {
GdkRectangle rect;
nat g, s, columns, column, max_blocks, height_blocks,
width, height;
gdk_draw_rectangle (gen_pixmap,
gen_drawing_area->style->white_gc,
TRUE,
0, 0,
gen_drawing_area->allocation.width,
gen_drawing_area->allocation.height);
height = gen_drawing_area->allocation.height;
width = gen_drawing_area->allocation.width;
columns = 0; max_blocks = 0;
for(g = 0; g < RtsFlags.GcFlags.generations; g++) {
columns += generations[g].n_steps;
for(s = 0; s < generations[g].n_steps; s++) {
if (generations[g].steps[s].n_blocks > max_blocks) {
max_blocks = generations[g].steps[s].n_blocks;
}
}
}
/* find a reasonable height value larger than max_blocks */
{
nat n = 0;
while (max_blocks != 0) {
max_blocks >>= 1; n++;
}
height_blocks = 1 << n;
}
column = 0;
for(g = 0; g < RtsFlags.GcFlags.generations; g++) {
for(s = 0; s < generations[g].n_steps; s++, column++) {
gdk_gc_set_foreground(my_gc, &gen_colors[g]);
rect.x = column * (width / columns);
if (generations[g].steps[s].n_blocks == 0)
rect.y = height;
else
rect.y = height -
(height * generations[g].steps[s].n_blocks
/ height_blocks);
rect.width = (width / columns);
rect.height = height - rect.y;
gdk_draw_rectangle( gen_pixmap, my_gc, TRUE/*filled*/,
rect.x, rect.y, rect.width,
rect.height );
}
}
gtk_ruler_set_range( GTK_RULER(gen_ruler),
height_blocks * BLOCK_SIZE / (1024 * 1024),
0, 0,
height_blocks * BLOCK_SIZE / (1024 * 1024)
);
gtk_widget_draw( gen_drawing_area, NULL );
}
if (res_pixmap != NULL) {
updateResidencyGraph();
}
while (gtk_events_pending()) {
gtk_main_iteration_do(FALSE/*don't block*/);
}
}
static void
colorBlock( void *addr, GdkColor *color,
nat block_width, nat block_height, nat blocks_per_line )
{
GdkRectangle rect;
nat block_no;
gdk_gc_set_foreground(my_gc, color);
block_no = ((char *)addr - (char *)mem_start) / BLOCK_SIZE;
rect.x = (block_no % blocks_per_line) * block_width;
rect.y = block_no / blocks_per_line * block_height;
rect.width = block_width;
rect.height = block_height;
gdk_draw_rectangle( map_pixmap, my_gc, TRUE/*filled*/,
rect.x, rect.y, rect.width, rect.height );
}
static void
updateThreadsPanel( void )
{
nat running = 0,
b_read = 0,
b_write = 0,
b_mvar = 0,
b_throwto = 0,
b_bh = 0,
sleeping = 0,
total = 0;
StgTSO *t;
for (t = all_threads; t != END_TSO_QUEUE; t = t->global_link) {
switch (t->what_next) {
case ThreadKilled: break;
case ThreadComplete: break;
default:
switch (t->why_blocked) {
case BlockedOnRead: b_read++; break;
case BlockedOnWrite: b_write++; break;
case BlockedOnDelay: sleeping++; break;
case BlockedOnMVar: b_mvar++; break;
case BlockedOnException: b_throwto++; break;
case BlockedOnBlackHole: b_bh++; break;
case NotBlocked: running++; break;
}
}
}
total = running + b_read + b_write + b_mvar + b_throwto + b_bh + sleeping;
numLabel(running_label, running);
numLabel(b_read_label, b_read);
numLabel(b_write_label, b_write);
numLabel(b_mvar_label, b_mvar);
numLabel(b_bh_label, b_bh);
numLabel(b_throwto_label, b_throwto);
numLabel(sleeping_label, sleeping);
numLabel(total_label, total);
}
typedef enum { Thunk, Fun, Constr, BlackHole,
Array, Thread, Other, N_Cats } ClosureCategory;
#define N_SLICES 100
static nat *res_prof[N_SLICES];
static double res_time[N_SLICES];
static nat next_slice = 0;
static void
residencyCensus( void )
{
nat slice = next_slice++, *prof;
bdescr *bd;
nat g, s, size, type;
StgPtr p;
StgInfoTable *info;
if (slice >= N_SLICES) {
barf("too many slices");
}
res_prof[slice] = stgMallocBytes(N_Cats * sizeof(nat), "residencyCensus");
prof = res_prof[slice];
memset(prof, 0, N_Cats * sizeof(nat));
res_time[slice] = mut_user_time();
for(g = 0; g < RtsFlags.GcFlags.generations; g++) {
for(s = 0; s < generations[g].n_steps; s++) {
/* skip over g0s0 if multi-generational */
if (RtsFlags.GcFlags.generations > 1 &&
g == 0 && s == 0) continue;
if (RtsFlags.GcFlags.generations == 1) {
/* bd = generations[g].steps[s].to_blocks; FIXME to_blocks does not exist */
} else {
bd = generations[g].steps[s].blocks;
}
for (; bd != NULL; bd = bd->link) {
p = bd->start;
while (p < bd->free) {
info = get_itbl((StgClosure *)p);
type = Other;
switch (info->type) {
case CONSTR:
case BCO:
if (((StgClosure *)p)->header.info == &stg_DEAD_WEAK_info) {
size = sizeofW(StgWeak);
type = Other;
break;
}
/* else, fall through... */
case CONSTR_1_0:
case CONSTR_0_1:
case CONSTR_1_1:
case CONSTR_0_2:
case CONSTR_2_0:
size = sizeW_fromITBL(info);
type = Constr;
break;
case FUN_1_0:
case FUN_0_1:
size = sizeofW(StgHeader) + 1;
goto fun;
case FUN_1_1:
case FUN_0_2:
case FUN_2_0:
case FUN:
size = sizeW_fromITBL(info);
fun:
type = Fun;
break;
case THUNK_1_0:
case THUNK_0_1:
case THUNK_SELECTOR:
size = sizeofW(StgHeader) + 2;
goto thunk;
case THUNK_1_1:
case THUNK_0_2:
case THUNK_2_0:
case THUNK:
size = sizeW_fromITBL(info);
thunk:
type = Thunk;
break;
case BLACKHOLE:
/* case BLACKHOLE_BQ: FIXME: case does not exist */
size = sizeW_fromITBL(info);
type = BlackHole;
break;
case AP:
size = pap_sizeW((StgPAP *)p);
type = Thunk;
break;
case PAP:
size = pap_sizeW((StgPAP *)p);
type = Fun;
break;
case ARR_WORDS:
size = arr_words_sizeW(stgCast(StgArrWords*,p));
type = Array;
break;
case MUT_ARR_PTRS:
case MUT_ARR_PTRS_FROZEN:
size = mut_arr_ptrs_sizeW((StgMutArrPtrs *)p);
type = Array;
break;
case TSO:
size = tso_sizeW((StgTSO *)p);
type = Thread;
break;
case WEAK:
case PRIM:
case MVAR:
case MUT_VAR:
/* case MUT_CONS: FIXME: case does not exist */
case IND_PERM:
size = sizeW_fromITBL(info);
type = Other;
break;
default:
barf("updateResidencyGraph: strange closure "
"%d", info->type );
}
prof[type] += size;
p += size;
}
}
}
}
}
static void
updateResidencyGraph( void )
{
nat total, prev_total, i, max_res;
double time;
double time_scale = 1;
nat last_slice = next_slice-1;
double res_scale = 1; /* in megabytes, doubles */
nat *prof;
nat width, height;
GdkPoint points[4];
gdk_draw_rectangle (res_pixmap,
res_drawing_area->style->bg_gc[GTK_STATE_NORMAL],
TRUE,
0, 0,
res_drawing_area->allocation.width,
res_drawing_area->allocation.height);
if (next_slice == 0) return;
time = res_time[last_slice];
while (time > time_scale) {
time_scale *= 2;
}
max_res = 0;
for (i = 0; i < next_slice; i++) {
prof = res_prof[i];
total = prof[Thunk] + prof[Fun] + prof[Constr] +
prof[BlackHole] + prof[Array] + prof[Other];
if (total > max_res) {
max_res = total;
}
}
while (max_res > res_scale) {
res_scale *= 2;
}
height = res_drawing_area->allocation.height;
width = res_drawing_area->allocation.width;
points[0].x = 0;
points[0].y = height;
points[1].y = height;
points[3].x = 0;
points[3].y = height;
gdk_gc_set_foreground(my_gc, &free_color);
prev_total = 0;
for (i = 0; i < next_slice; i++) {
prof = res_prof[i];
total = prof[Thunk] + prof[Fun] + prof[Constr] +
prof[BlackHole] + prof[Array] + prof[Other];
points[1].x = width * res_time[i] / time_scale;
points[2].x = points[1].x;
points[2].y = height - ((height * total) / res_scale);
gdk_draw_polygon(res_pixmap, my_gc, TRUE/*filled*/, points, 4);
points[3] = points[2];
points[0] = points[1];
}
gtk_ruler_set_range( GTK_RULER(res_vruler),
res_scale / ((1024*1024)/sizeof(W_)),
0, 0,
res_scale / ((1024*1024)/sizeof(W_)) );
gtk_ruler_set_range( GTK_RULER(res_hruler),
0, time_scale, 0, time_scale );
gtk_widget_draw( res_drawing_area, NULL );
}
#endif /* RTS_GTK_FRONTPANEL */
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