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rockbox/apps/plugins/test_gfx.c
Thomas Martitz 20b662a946 rbpaths: Add new special dir HOME_DIR for RaaA. 
HOME_DIR is intended for not-so-advanced files which shall be user
visible, and thus not in /.rockbox. Therefore HOME_DIR is translated
to $HOME on RaaA, /sdcard on android, the internal memory on ypr0
and "/" on native targets.

ROCKBOX_DIR ("/.rockbox") already existed as special and is translated
to whatever the real rockbox dir is on the target (e.g. /sdcard/rockbox
on android), but it's not suitable for some files we generate
(e.g. battery-bench.txt).

git-svn-id: svn://svn.rockbox.org/rockbox/trunk@31430 a1c6a512-1295-4272-9138-f99709370657
2011-12-25 20:11:18 +00:00

475 lines
15 KiB
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/***************************************************************************
* __________ __ ___.
* Open \______ \ ____ ____ | | _\_ |__ _______ ___
* Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
* Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
* Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
* \/ \/ \/ \/ \/
* $Id$
*
* Copyright (C) 2009 by Jens Arnold
*
* All files in this archive are subject to the GNU General Public License.
* See the file COPYING in the source tree root for full license agreement.
*
* This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
* KIND, either express or implied.
*
****************************************************************************/
//#define TEST_GREYLIB /* Uncomment for testing greylib instead of core gfx */
#include "plugin.h"
#ifdef TEST_GREYLIB /* otherwise, mylcd defaults to core gfx */
#include "lib/grey.h"
#endif
#include "lib/helper.h"
#include "lib/mylcd.h"
#ifdef TEST_GREYLIB
GREY_INFO_STRUCT
static unsigned char *gbuf;
static size_t gbuf_size = 0;
#endif
#define DURATION (HZ) /* longer duration gives more precise results */
#define RND_SEED 0x43A678C3 /* arbirary */
static uint16_t rand_table[0x400];
static int log_fd;
static int log_init(void)
{
char logfilename[MAX_PATH];
int fd;
rb->create_numbered_filename(logfilename, HOME_DIR, "test_gfx_log_", ".txt",
2 IF_CNFN_NUM_(, NULL));
fd = rb->open(logfilename, O_RDWR|O_CREAT|O_TRUNC, 0666);
return fd;
}
static void init_rand_table(void)
{
int i;
rb->srand(RND_SEED); /* make it reproducable */
for (i = 0; i < 0x400; i++)
rand_table[i] = rb->rand();
}
static void time_drawpixel(void)
{
long time_start; /* start tickcount */
long time_end; /* end tickcount */
int count1, count2, count3, count4;
/* Test 1: DRMODE_SOLID */
mylcd_set_drawmode(DRMODE_SOLID);
count1 = 0;
rb->sleep(0); /* sync to tick */
time_start = *rb->current_tick;
while((time_end = *rb->current_tick) - time_start < DURATION)
{
unsigned rnd = rand_table[count1++ & 0x3ff];
mylcd_drawpixel((rnd >> 8) & 0x3f, rnd & 0x3f);
}
/* Test 2: DRMODE_FG */
mylcd_set_drawmode(DRMODE_FG);
count2 = 0;
rb->sleep(0); /* sync to tick */
time_start = *rb->current_tick;
while((time_end = *rb->current_tick) - time_start < DURATION)
{
unsigned rnd = rand_table[count2++ & 0x3ff];
mylcd_drawpixel((rnd >> 8) & 0x3f, rnd & 0x3f);
}
/* Test 3: DRMODE_BG */
mylcd_set_drawmode(DRMODE_BG);
count3 = 0;
rb->sleep(0); /* sync to tick */
time_start = *rb->current_tick;
while((time_end = *rb->current_tick) - time_start < DURATION)
{
unsigned rnd = rand_table[count3++ & 0x3ff];
mylcd_drawpixel((rnd >> 8) & 0x3f, rnd & 0x3f);
}
/* Test 4: DRMODE_COMPLEMENT */
mylcd_set_drawmode(DRMODE_COMPLEMENT);
count4 = 0;
rb->sleep(0); /* sync to tick */
time_start = *rb->current_tick;
while((time_end = *rb->current_tick) - time_start < DURATION)
{
unsigned rnd = rand_table[count4++ & 0x3ff];
mylcd_drawpixel((rnd >> 8) & 0x3f, rnd & 0x3f);
}
rb->fdprintf(log_fd, "lcd_drawpixel (pixels/s): %d/%d/%d/%d\n",
count1, count2, count3, count4);
}
static void time_drawline(void)
{
long time_start; /* start tickcount */
long time_end; /* end tickcount */
int count1, count2, count3, count4;
/* Test 1: DRMODE_SOLID */
mylcd_set_drawmode(DRMODE_SOLID);
count1 = 0;
rb->sleep(0); /* sync to tick */
time_start = *rb->current_tick;
while((time_end = *rb->current_tick) - time_start < DURATION)
{
unsigned rnd1 = rand_table[count1++ & 0x3ff];
unsigned rnd2 = rand_table[count1++ & 0x3ff];
mylcd_drawline((rnd1 >> 8) & 0x3f, rnd1 & 0x3f,
(rnd2 >> 8) & 0x3f, rnd2 & 0x3f);
}
/* Test 2: DRMODE_FG */
mylcd_set_drawmode(DRMODE_FG);
count2 = 0;
rb->sleep(0); /* sync to tick */
time_start = *rb->current_tick;
while((time_end = *rb->current_tick) - time_start < DURATION)
{
unsigned rnd1 = rand_table[count2++ & 0x3ff];
unsigned rnd2 = rand_table[count2++ & 0x3ff];
mylcd_drawline((rnd1 >> 8) & 0x3f, rnd1 & 0x3f,
(rnd2 >> 8) & 0x3f, rnd2 & 0x3f);
}
/* Test 3: DRMODE_BG */
mylcd_set_drawmode(DRMODE_BG);
count3 = 0;
rb->sleep(0); /* sync to tick */
time_start = *rb->current_tick;
while((time_end = *rb->current_tick) - time_start < DURATION)
{
unsigned rnd1 = rand_table[count3++ & 0x3ff];
unsigned rnd2 = rand_table[count3++ & 0x3ff];
mylcd_drawline((rnd1 >> 8) & 0x3f, rnd1 & 0x3f,
(rnd2 >> 8) & 0x3f, rnd2 & 0x3f);
}
/* Test 4: DRMODE_COMPLEMENT */
mylcd_set_drawmode(DRMODE_COMPLEMENT);
count4 = 0;
rb->sleep(0); /* sync to tick */
time_start = *rb->current_tick;
while((time_end = *rb->current_tick) - time_start < DURATION)
{
unsigned rnd1 = rand_table[count4++ & 0x3ff];
unsigned rnd2 = rand_table[count4++ & 0x3ff];
mylcd_drawline((rnd1 >> 8) & 0x3f, rnd1 & 0x3f,
(rnd2 >> 8) & 0x3f, rnd2 & 0x3f);
}
rb->fdprintf(log_fd, "lcd_drawline (lines/s): %d/%d/%d/%d\n",
count1, count2, count3, count4);
}
static void time_hline(void)
{
long time_start; /* start tickcount */
long time_end; /* end tickcount */
int count1, count2, count3, count4;
/* Test 1: DRMODE_SOLID */
mylcd_set_drawmode(DRMODE_SOLID);
count1 = 0;
rb->sleep(0); /* sync to tick */
time_start = *rb->current_tick;
while((time_end = *rb->current_tick) - time_start < DURATION)
{
unsigned rnd1 = rand_table[count1++ & 0x3ff];
unsigned rnd2 = rand_table[count1++ & 0x3ff];
mylcd_hline((rnd1 >> 8) & 0x3f, rnd1 & 0x3f, rnd2 & 0x3f);
}
/* Test 2: DRMODE_FG */
mylcd_set_drawmode(DRMODE_FG);
count2 = 0;
rb->sleep(0); /* sync to tick */
time_start = *rb->current_tick;
while((time_end = *rb->current_tick) - time_start < DURATION)
{
unsigned rnd1 = rand_table[count2++ & 0x3ff];
unsigned rnd2 = rand_table[count2++ & 0x3ff];
mylcd_hline((rnd1 >> 8) & 0x3f, rnd1 & 0x3f, rnd2 & 0x3f);
}
/* Test 3: DRMODE_BG */
mylcd_set_drawmode(DRMODE_BG);
count3 = 0;
rb->sleep(0); /* sync to tick */
time_start = *rb->current_tick;
while((time_end = *rb->current_tick) - time_start < DURATION)
{
unsigned rnd1 = rand_table[count3++ & 0x3ff];
unsigned rnd2 = rand_table[count3++ & 0x3ff];
mylcd_hline((rnd1 >> 8) & 0x3f, rnd1 & 0x3f, rnd2 & 0x3f);
}
/* Test 4: DRMODE_COMPLEMENT */
mylcd_set_drawmode(DRMODE_COMPLEMENT);
count4 = 0;
rb->sleep(0); /* sync to tick */
time_start = *rb->current_tick;
while((time_end = *rb->current_tick) - time_start < DURATION)
{
unsigned rnd1 = rand_table[count4++ & 0x3ff];
unsigned rnd2 = rand_table[count4++ & 0x3ff];
mylcd_hline((rnd1 >> 8) & 0x3f, rnd1 & 0x3f, rnd2 & 0x3f);
}
rb->fdprintf(log_fd, "lcd_hline (lines/s): %d/%d/%d/%d\n",
count1, count2, count3, count4);
}
static void time_vline(void)
{
long time_start; /* start tickcount */
long time_end; /* end tickcount */
int count1, count2, count3, count4;
/* Test 1: DRMODE_SOLID */
mylcd_set_drawmode(DRMODE_SOLID);
count1 = 0;
rb->sleep(0); /* sync to tick */
time_start = *rb->current_tick;
while((time_end = *rb->current_tick) - time_start < DURATION)
{
unsigned rnd1 = rand_table[count1++ & 0x3ff];
unsigned rnd2 = rand_table[count1++ & 0x3ff];
mylcd_vline((rnd1 >> 8) & 0x3f, rnd1 & 0x3f, rnd2 & 0x3f);
}
/* Test 2: DRMODE_FG */
mylcd_set_drawmode(DRMODE_FG);
count2 = 0;
rb->sleep(0); /* sync to tick */
time_start = *rb->current_tick;
while((time_end = *rb->current_tick) - time_start < DURATION)
{
unsigned rnd1 = rand_table[count2++ & 0x3ff];
unsigned rnd2 = rand_table[count2++ & 0x3ff];
mylcd_vline((rnd1 >> 8) & 0x3f, rnd1 & 0x3f, rnd2 & 0x3f);
}
/* Test 3: DRMODE_BG */
mylcd_set_drawmode(DRMODE_BG);
count3 = 0;
rb->sleep(0); /* sync to tick */
time_start = *rb->current_tick;
while((time_end = *rb->current_tick) - time_start < DURATION)
{
unsigned rnd1 = rand_table[count3++ & 0x3ff];
unsigned rnd2 = rand_table[count3++ & 0x3ff];
mylcd_vline((rnd1 >> 8) & 0x3f, rnd1 & 0x3f, rnd2 & 0x3f);
}
/* Test 4: DRMODE_COMPLEMENT */
mylcd_set_drawmode(DRMODE_COMPLEMENT);
count4 = 0;
rb->sleep(0); /* sync to tick */
time_start = *rb->current_tick;
while((time_end = *rb->current_tick) - time_start < DURATION)
{
unsigned rnd1 = rand_table[count4++ & 0x3ff];
unsigned rnd2 = rand_table[count4++ & 0x3ff];
mylcd_vline((rnd1 >> 8) & 0x3f, rnd1 & 0x3f, rnd2 & 0x3f);
}
rb->fdprintf(log_fd, "lcd_vline (lines/s): %d/%d/%d/%d\n",
count1, count2, count3, count4);
}
static void time_fillrect(void)
{
long time_start; /* start tickcount */
long time_end; /* end tickcount */
int count1, count2, count3, count4;
/* Test 1: DRMODE_SOLID */
mylcd_set_drawmode(DRMODE_SOLID);
count1 = 0;
rb->sleep(0); /* sync to tick */
time_start = *rb->current_tick;
while((time_end = *rb->current_tick) - time_start < DURATION)
{
unsigned rnd1 = rand_table[count1++ & 0x3ff];
unsigned rnd2 = rand_table[count1++ & 0x3ff];
mylcd_fillrect((rnd1 >> 8) & 0x3f, rnd1 & 0x3f,
(rnd2 >> 8) & 0x3f, rnd2 & 0x3f);
}
/* Test 2: DRMODE_FG */
mylcd_set_drawmode(DRMODE_FG);
count2 = 0;
rb->sleep(0); /* sync to tick */
time_start = *rb->current_tick;
while((time_end = *rb->current_tick) - time_start < DURATION)
{
unsigned rnd1 = rand_table[count2++ & 0x3ff];
unsigned rnd2 = rand_table[count2++ & 0x3ff];
mylcd_fillrect((rnd1 >> 8) & 0x3f, rnd1 & 0x3f,
(rnd2 >> 8) & 0x3f, rnd2 & 0x3f);
}
/* Test 3: DRMODE_BG */
mylcd_set_drawmode(DRMODE_BG);
count3 = 0;
rb->sleep(0); /* sync to tick */
time_start = *rb->current_tick;
while((time_end = *rb->current_tick) - time_start < DURATION)
{
unsigned rnd1 = rand_table[count3++ & 0x3ff];
unsigned rnd2 = rand_table[count3++ & 0x3ff];
mylcd_fillrect((rnd1 >> 8) & 0x3f, rnd1 & 0x3f,
(rnd2 >> 8) & 0x3f, rnd2 & 0x3f);
}
/* Test 4: DRMODE_COMPLEMENT */
mylcd_set_drawmode(DRMODE_COMPLEMENT);
count4 = 0;
rb->sleep(0); /* sync to tick */
time_start = *rb->current_tick;
while((time_end = *rb->current_tick) - time_start < DURATION)
{
unsigned rnd1 = rand_table[count4++ & 0x3ff];
unsigned rnd2 = rand_table[count4++ & 0x3ff];
mylcd_fillrect((rnd1 >> 8) & 0x3f, rnd1 & 0x3f,
(rnd2 >> 8) & 0x3f, rnd2 & 0x3f);
}
rb->fdprintf(log_fd, "lcd_fillrect (rects/s): %d/%d/%d/%d\n",
count1, count2, count3, count4);
}
static void time_text(void) /* tests mono_bitmap performance */
{
long time_start; /* start tickcount */
long time_end; /* end tickcount */
int count1, count2, count3, count4;
rb->lcd_setfont(FONT_SYSFIXED);
/* Test 1: DRMODE_SOLID */
mylcd_set_drawmode(DRMODE_SOLID);
count1 = 0;
rb->sleep(0); /* sync to tick */
time_start = *rb->current_tick;
while((time_end = *rb->current_tick) - time_start < DURATION)
{
unsigned rnd = rand_table[count1++ & 0x3ff];
mylcd_putsxy((rnd >> 8) & 0x3f, rnd & 0x3f, "Rockbox!");
}
/* Test 2: DRMODE_FG */
mylcd_set_drawmode(DRMODE_FG);
count2 = 0;
rb->sleep(0); /* sync to tick */
time_start = *rb->current_tick;
while((time_end = *rb->current_tick) - time_start < DURATION)
{
unsigned rnd = rand_table[count2++ & 0x3ff];
mylcd_putsxy((rnd >> 8) & 0x3f, rnd & 0x3f, "Rockbox!");
}
/* Test 3: DRMODE_BG */
mylcd_set_drawmode(DRMODE_BG);
count3 = 0;
rb->sleep(0); /* sync to tick */
time_start = *rb->current_tick;
while((time_end = *rb->current_tick) - time_start < DURATION)
{
unsigned rnd = rand_table[count3++ & 0x3ff];
mylcd_putsxy((rnd >> 8) & 0x3f, rnd & 0x3f, "Rockbox!");
}
/* Test 4: DRMODE_COMPLEMENT */
mylcd_set_drawmode(DRMODE_COMPLEMENT);
count4 = 0;
rb->sleep(0); /* sync to tick */
time_start = *rb->current_tick;
while((time_end = *rb->current_tick) - time_start < DURATION)
{
unsigned rnd = rand_table[count4++ & 0x3ff];
mylcd_putsxy((rnd >> 8) & 0x3f, rnd & 0x3f, "Rockbox!");
}
rb->fdprintf(log_fd, "lcd_putsxy (strings/s): %d/%d/%d/%d\n",
count1, count2, count3, count4);
}
/* plugin entry point */
enum plugin_status plugin_start(const void* parameter)
{
#ifdef HAVE_ADJUSTABLE_CPU_FREQ
int cpu_freq;
#endif
/* standard stuff */
(void)parameter;
log_fd = log_init();
if (log_fd < 0)
{
rb->splash(HZ, "Could not create logfile");
return PLUGIN_ERROR;
}
rb->fdprintf(log_fd, "%s",
#ifdef TEST_GREYLIB
"Greylib performance test.\n"
#else
"LCD driver performance test.\n"
#endif
"----------------------------\n\n"
"Results are printed in the following drawmode order:\n"
"solid/foreground/background/complement\n\n");
#ifdef TEST_GREYLIB
/* get the remainder of the plugin buffer */
gbuf = (unsigned char *) rb->plugin_get_buffer(&gbuf_size);
/* initialize the greyscale buffer.*/
if (!grey_init(gbuf, gbuf_size, GREY_BUFFERED|GREY_ON_COP,
LCD_WIDTH, LCD_HEIGHT, NULL))
{
rb->close(log_fd);
rb->splash(HZ, "Couldn't init greyscale library");
return PLUGIN_ERROR;
}
#elif LCD_DEPTH > 1
rb->lcd_set_backdrop(NULL);
rb->lcd_clear_display();
#endif
backlight_ignore_timeout();
rb->splashf(0, "LCD driver performance test, please wait %d sec",
6*4*DURATION/HZ);
init_rand_table();
#ifdef HAVE_ADJUSTABLE_CPU_FREQ
cpu_freq = *rb->cpu_frequency; /* remember CPU frequency */
#endif
time_drawpixel();
time_drawline();
time_hline();
time_vline();
time_fillrect();
time_text();
#ifdef HAVE_ADJUSTABLE_CPU_FREQ
if (*rb->cpu_frequency != cpu_freq)
rb->fdprintf(log_fd, "\nCPU: %s\n", "clock changed!");
else
rb->fdprintf(log_fd, "\nCPU: %d MHz\n",
(cpu_freq + 500000) / 1000000);
#endif
rb->close(log_fd);
backlight_use_settings();
#ifdef TEST_GREYLIB
grey_release();
#endif
return PLUGIN_OK;
}
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