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|
/***************************************************************************
* __________ __ ___.
* Open \______ \ ____ ____ | | _\_ |__ _______ ___
* Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
* Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
* Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
* \/ \/ \/ \/ \/
*
* Copyright (C) 2003 Lee Pilgrim
*
* 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.
*
**************************************************************************/
#include "plugin.h"
#ifdef HAVE_LCD_BITMAP
const struct plugin_api* rb;
#ifdef SIMULATOR
#define mas_codec_readreg(x) rand()%MAX_PEAK
#endif
/* Defines x positions on a logarithmic (dBfs) scale. */
const unsigned char analog_db_scale[] =
{0,0,10,15,19,22,25,27,29,31,32,33,35,36,37,38,39,39,40,41,42,42,43,44,44,45,45,46,
46,47,47,48,48,49,49,50,50,50,51,51,51,52,52,52,53,53,53,54,54,54,55,55,55,55,56,56};
const unsigned char digital_db_scale[] =
{0,2,3,5,5,6,6,6,7,7,7,7,8,8,8,8,8,9,9,9,9,9,9,9,9,10,10,
10,10,10,10,10,10,10,10,10,11,11,11,11,11,11,11,11};
/* Define's y positions, to make the needle arch, like a real needle would. */
const unsigned char y_values[] =
{34,34,33,33,32,32,31,31,30,30,29,29,28,28,28,27,27,27,26,26,26,26,25,25,25,25,25,25,
25,25,25,25,25,25,26,26,26,26,27,27,27,28,28,28,29,29,30,30,31,31,32,32,33,33,34,34};
const unsigned char led[] = {0x0e, 0x1f, 0x1f, 0x1f, 0x1f, 0x1f, 0x1f, 0x1f, 0x0e};
const unsigned char needle_cover[] =
{0x18, 0x1c, 0x1c, 0x1e, 0x1e, 0x1f, 0x1f, 0x1f, 0x1e, 0x1e, 0x1c, 0x1c, 0x18};
const unsigned char sound_speaker[] = {0x18,0x24,0x42,0xFF};
const unsigned char sound_low_level[] = {0x24,0x18};
const unsigned char sound_med_level[] = {0x42,0x3C};
const unsigned char sound_high_level[] = {0x81,0x7E};
const unsigned char sound_max_level[] = {0x0E,0xDF,0x0E};
#define ANALOG 1 /* The two meter types */
#define DIGITAL 2
int left_needle_top_y;
int left_needle_top_x;
int last_left_needle_top_x;
int right_needle_top_y;
int right_needle_top_x;
int last_right_needle_top_x = 56;
int num_left_leds;
int num_right_leds;
int last_num_left_leds;
int last_num_right_leds;
int i;
#define MAX_PEAK 0x7FFF
struct saved_settings {
int meter_type;
bool analog_use_db_scale;
bool digital_use_db_scale;
bool analog_minimeters;
bool digital_minimeters;
int analog_decay;
int digital_decay;
} settings;
void reset_settings(void) {
settings.meter_type=ANALOG;
settings.analog_use_db_scale=true;
settings.digital_use_db_scale=true;
settings.analog_minimeters=true;
settings.digital_minimeters=false;
settings.analog_decay=3;
settings.digital_decay=0;
}
void load_settings(void) {
int fp = rb->open("/.rockbox/rocks/.vu_meter", O_RDONLY);
if(fp>=0) {
rb->read(fp, &settings, sizeof(struct saved_settings));
rb->close(fp);
}
else {
reset_settings();
rb->splash(HZ, true, "Press ON for help");
}
}
void save_settings(void) {
int fp = rb->creat("/.rockbox/rocks/.vu_meter", O_WRONLY);
if(fp >= 0) {
rb->write (fp, &settings, sizeof(struct saved_settings));
rb->close(fp);
}
}
void change_volume(int delta) {
char curr_vol[4];
int vol = rb->global_settings->volume + delta;
if (vol>100) vol = 100;
else if (vol < 0) vol = 0;
if (vol != rb->global_settings->volume) {
rb->mpeg_sound_set(SOUND_VOLUME, vol);
rb->global_settings->volume = vol;
rb->snprintf(curr_vol, sizeof(curr_vol), "%d", vol);
rb->lcd_putsxy(0,0, curr_vol);
rb->lcd_update();
rb->sleep(HZ/12);
}
}
void change_settings(void)
{
int selected_setting=0;
bool quit=false;
while(!quit)
{
rb->lcd_clear_display();
rb->lcd_putsxy(33, 0, "Settings");
rb->lcd_putsxy(0, 8, "Meter type:");
if(settings.meter_type==ANALOG)
rb->lcd_putsxy(67, 8, "Analog");
else
rb->lcd_putsxy(67, 8, "Digital");
if(settings.meter_type==ANALOG) {
rb->lcd_putsxy(0, 16, "Scale:");
if(settings.analog_use_db_scale)
rb->lcd_putsxy(36, 16, "dBfs");
else
rb->lcd_putsxy(36, 16, "Linear");
rb->lcd_putsxy(0, 24, "Minimeters:");
if(settings.analog_minimeters)
rb->lcd_putsxy(65, 24, "On");
else
rb->lcd_putsxy(65, 24, "Off");
rb->lcd_putsxy(0, 32, "Decay Speed:");
switch(settings.analog_decay) {
case 0: rb->lcd_putsxy(10, 40, "No Decay"); break;
case 1: rb->lcd_putsxy(10, 40, "Very Fast"); break;
case 2: rb->lcd_putsxy(10, 40, "Fast"); break;
case 3: rb->lcd_putsxy(10, 40, "Medium"); break;
case 4: rb->lcd_putsxy(10, 40, "Medium-Slow"); break;
case 5: rb->lcd_putsxy(10, 40, "Slow"); break;
case 6: rb->lcd_putsxy(10, 40, "Very Slow"); break;
}
}
else {
rb->lcd_putsxy(0, 16, "Scale:");
if(settings.digital_use_db_scale)
rb->lcd_putsxy(36, 16, "dBfs");
else
rb->lcd_putsxy(36, 16, "Linear");
rb->lcd_putsxy(0, 24, "Minimeters:");
if(settings.digital_minimeters)
rb->lcd_putsxy(65, 24, "On");
else
rb->lcd_putsxy(65, 24, "Off");
rb->lcd_putsxy(0, 32, "Decay Speed:");
switch(settings.digital_decay) {
case 0: rb->lcd_putsxy(10, 40, "No Decay"); break;
case 1: rb->lcd_putsxy(10, 40, "Very Fast"); break;
case 2: rb->lcd_putsxy(10, 40, "Fast"); break;
case 3: rb->lcd_putsxy(10, 40, "Medium"); break;
case 4: rb->lcd_putsxy(10, 40, "Medium-Slow"); break;
case 5: rb->lcd_putsxy(10, 40, "Slow"); break;
case 6: rb->lcd_putsxy(10, 40, "Very Slow"); break;
}
}
rb->lcd_invertrect(0, selected_setting*8+8,111,8);
rb->lcd_update();
switch(rb->button_get_w_tmo(1))
{
case BUTTON_F1:
case BUTTON_OFF:
quit = true;
break;
case BUTTON_LEFT:
if(selected_setting==0)
settings.meter_type == DIGITAL ? settings.meter_type = ANALOG : settings.meter_type++;
if(settings.meter_type==ANALOG) {
if(selected_setting==1)
settings.analog_use_db_scale = !settings.analog_use_db_scale;
if(selected_setting==2)
settings.analog_minimeters = !settings.analog_minimeters;
if(selected_setting==3)
settings.analog_decay == 0 ? settings.analog_decay = 6 : settings.analog_decay--;
}
else {
if(selected_setting==1)
settings.digital_use_db_scale = !settings.digital_use_db_scale;
if(selected_setting==2)
settings.digital_minimeters = !settings.digital_minimeters;
if(selected_setting==3)
settings.digital_decay == 0 ? settings.digital_decay = 6 : settings.digital_decay--;
}
break;
case BUTTON_RIGHT:
if(selected_setting==0)
settings.meter_type == DIGITAL ? settings.meter_type = ANALOG : settings.meter_type++;
if(settings.meter_type==ANALOG) {
if(selected_setting==1)
settings.analog_use_db_scale = !settings.analog_use_db_scale;
if(selected_setting==2)
settings.analog_minimeters = !settings.analog_minimeters;
if(selected_setting==3)
settings.analog_decay == 6 ? settings.analog_decay = 0 : settings.analog_decay++;
}
else {
if(selected_setting==1)
settings.digital_use_db_scale = !settings.digital_use_db_scale;
if(selected_setting==2)
settings.digital_minimeters = !settings.digital_minimeters;
if(selected_setting==3)
settings.digital_decay == 6 ? settings.digital_decay = 0 : settings.digital_decay++;
}
break;
case BUTTON_DOWN:
selected_setting == 3 ? selected_setting=0 : selected_setting++;
break;
case BUTTON_UP:
selected_setting == 0 ? selected_setting=3 : selected_setting--;
}
}
}
void draw_analog_minimeters(void) {
rb->lcd_bitmap(sound_speaker, 0, 12, 4, 8, true);
if(5<left_needle_top_x)
rb->lcd_bitmap(sound_low_level, 5, 12, 2, 8, false);
if(12<left_needle_top_x)
rb->lcd_bitmap(sound_med_level, 7, 12, 2, 8, false);
if(24<left_needle_top_x)
rb->lcd_bitmap(sound_high_level, 9, 12, 2, 8, false);
if(40<left_needle_top_x)
rb->lcd_bitmap(sound_max_level, 12, 12, 3, 8, false);
rb->lcd_bitmap(sound_speaker, 54, 12, 4, 8, true);
if(5<(right_needle_top_x-56))
rb->lcd_bitmap(sound_low_level, 59, 12, 2, 8, false);
if(12<(right_needle_top_x-56))
rb->lcd_bitmap(sound_med_level, 61, 12, 2, 8, false);
if(24<(right_needle_top_x-56))
rb->lcd_bitmap(sound_high_level, 63, 12, 2, 8, false);
if(40<(right_needle_top_x-56))
rb->lcd_bitmap(sound_max_level, 66, 12, 3, 8, false);
}
void draw_digital_minimeters(void) {
rb->lcd_bitmap(sound_speaker, 34, 24, 4, 8, true);
if(1<num_left_leds)
rb->lcd_bitmap(sound_low_level, 39, 24, 2, 8, false);
if(2<num_left_leds)
rb->lcd_bitmap(sound_med_level, 41, 24, 2, 8, false);
if(5<num_left_leds)
rb->lcd_bitmap(sound_high_level, 43, 24, 2, 8, false);
if(8<num_left_leds)
rb->lcd_bitmap(sound_max_level, 46, 24, 3, 8, false);
rb->lcd_bitmap(sound_speaker, 34, 40, 4, 8, true);
if(1<(num_right_leds))
rb->lcd_bitmap(sound_low_level, 39, 40, 2, 8, false);
if(2<(num_right_leds))
rb->lcd_bitmap(sound_med_level, 41, 40, 2, 8, false);
if(5<(num_right_leds))
rb->lcd_bitmap(sound_high_level, 43, 40, 2, 8, false);
if(8<(num_right_leds))
rb->lcd_bitmap(sound_max_level, 46, 40, 3, 8, false);
}
void analog_meter(void) {
if(settings.analog_use_db_scale) {
left_needle_top_x = analog_db_scale[rb->mas_codec_readreg(0xC)*56/MAX_PEAK];
right_needle_top_x = analog_db_scale[rb->mas_codec_readreg(0xD)*56/MAX_PEAK]+56;
}
else {
left_needle_top_x = rb->mas_codec_readreg(0xC) * 56 / MAX_PEAK;
right_needle_top_x = (rb->mas_codec_readreg(0xD) * 56 / MAX_PEAK)+56;
}
/* Makes a decay on the needle */
left_needle_top_x = (left_needle_top_x+last_left_needle_top_x*settings.analog_decay)/(settings.analog_decay+1);
right_needle_top_x = (right_needle_top_x+last_right_needle_top_x*settings.analog_decay)/(settings.analog_decay+1);
last_left_needle_top_x = left_needle_top_x;
last_right_needle_top_x = right_needle_top_x;
left_needle_top_y = y_values[left_needle_top_x];
right_needle_top_y = y_values[right_needle_top_x-56];
/* Needles */
rb->lcd_drawline(28, 63, left_needle_top_x, left_needle_top_y);
rb->lcd_drawline(84, 63, right_needle_top_x, right_needle_top_y);
if(settings.analog_minimeters)
draw_analog_minimeters();
/* Needle covers */
rb->lcd_bitmap(needle_cover, 22, 59, 13, 5, false);
rb->lcd_bitmap(needle_cover, 78, 59, 13, 5, false);
/* Show Left/Right */
rb->lcd_putsxy(16, 12, "Left");
rb->lcd_putsxy(70, 12, "Right");
/* Line above/below the Left/Right text */
rb->lcd_drawline(0,9,111,9);
rb->lcd_drawline(0,21,111,21);
for(i=0; i<56; i++) {
rb->lcd_drawpixel(i, (y_values[i])-2);
rb->lcd_drawpixel(i+56, (y_values[i])-2);
}
}
void digital_meter(void) {
if(settings.digital_use_db_scale) {
num_left_leds = digital_db_scale[rb->mas_codec_readreg(0xC) * 44 / MAX_PEAK];
num_right_leds = digital_db_scale[rb->mas_codec_readreg(0xD) * 44 / MAX_PEAK];
}
else {
num_left_leds = rb->mas_codec_readreg(0xC) * 11 / MAX_PEAK;
num_right_leds = rb->mas_codec_readreg(0xD) * 11 / MAX_PEAK;
}
num_left_leds = (num_left_leds+last_num_left_leds*settings.digital_decay)/(settings.digital_decay+1);
num_right_leds = (num_right_leds+last_num_right_leds*settings.digital_decay)/(settings.digital_decay+1);
last_num_left_leds = num_left_leds;
last_num_right_leds = num_right_leds;
/* LEDS */
for(i=0; i<num_left_leds; i++)
rb->lcd_bitmap(led, i*9+2+i, 14, 9, 5, false);
for(i=0; i<num_right_leds; i++)
rb->lcd_bitmap(led, i*9+2+i, 52, 9, 5, false);
if(settings.digital_minimeters)
draw_digital_minimeters();
/* Lines above/below where the LEDS are */
rb->lcd_drawline(0,12,111,12);
rb->lcd_drawline(0,20,111,20);
rb->lcd_drawline(0,50,111,50);
rb->lcd_drawline(0,58,111,58);
/* Show Left/Right */
rb->lcd_putsxy(2, 24, "Left");
rb->lcd_putsxy(2, 40, "Right");
/* Line in the middle */
rb->lcd_drawline(0,35,111,35);
}
enum plugin_status plugin_start(struct plugin_api* api, void* parameter) {
int button;
TEST_PLUGIN_API(api);
(void) parameter;
rb = api;
load_settings();
rb->lcd_setfont(FONT_SYSFIXED);
while (1)
{
rb->lcd_clear_display();
rb->lcd_putsxy(33, 0, "VU Meter");
if(settings.meter_type==ANALOG)
analog_meter();
else
digital_meter();
rb->lcd_update();
button = rb->button_get_w_tmo(1);
switch (button)
{
case BUTTON_OFF:
save_settings();
return PLUGIN_OK;
break;
case BUTTON_ON:
rb->lcd_clear_display();
rb->lcd_puts(0, 0, "OFF: Exit");
rb->lcd_puts(0, 1, "F1: Settings");
rb->lcd_puts(0, 2, "UP/DOWN: Volume");
rb->lcd_update();
rb->sleep(HZ*3);
break;
case BUTTON_F1:
change_settings();
break;
case BUTTON_UP:
case BUTTON_UP | BUTTON_REPEAT:
change_volume(1);
break;
case BUTTON_DOWN:
case BUTTON_DOWN | BUTTON_REPEAT:
change_volume(-1);
break;
default:
if(rb->default_event_handler(button) == SYS_USB_CONNECTED)
return PLUGIN_USB_CONNECTED;
break;
}
}
}
#endif /* #ifdef HAVE_LCD_BITMAP */
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