diff --git a/apps/debug_menu.c b/apps/debug_menu.c index 97db40ee7d..4dd98e0498 100644 --- a/apps/debug_menu.c +++ b/apps/debug_menu.c @@ -40,6 +40,7 @@ #include "mpeg.h" #ifdef HAVE_LCD_BITMAP #include "widgets.h" +#include "peakmeter.h" #endif /*---------------------------------------------------*/ @@ -1031,7 +1032,10 @@ bool debug_menu(void) { "View partitions", dbg_partitions }, #ifdef HAVE_LCD_BITMAP { "View mpeg thread", dbg_mpeg_thread }, -#endif +#ifdef PM_DEBUG + { "pm histogram", peak_meter_histogram}, +#endif /* PM_DEBUG */ +#endif /* HAVE_LCD_BITMAP */ }; m=menu_init( items, sizeof items / sizeof(struct menu_items) ); @@ -1042,4 +1046,3 @@ bool debug_menu(void) } #endif /* SIMULATOR */ - diff --git a/apps/lang/english.lang b/apps/lang/english.lang index 3f1eb6efb8..373e072395 100644 --- a/apps/lang/english.lang +++ b/apps/lang/english.lang @@ -866,6 +866,46 @@ desc: in the peak meter menu eng: "Units Per Read" new: +id: LANG_PM_PERFORMANCE +desc: in the peak meter menu +eng: "Performance" +new: + +id: LANG_PM_HIGH_PERFORMANCE +desc: in the peak meter menu +eng: "High performance" +new: + +id: LANG_PM_ENERGY_SAVER +desc: in the peak meter menu +eng: "Save energy" +new: + +id: LANG_PM_SCALE +desc: in the peak meter menu +eng: "dBfs <-> linear" +new: + +id: LANG_PM_DBFS +desc: in the peak meter menu +eng: "dBfs" +new: + +id: LANG_PM_LINEAR +desc: in the peak meter menu +eng: "linear" +new: + +id: LANG_PM_MIN +desc: in the peak meter menu +eng: "Minimum of range" +new: + +id: LANG_PM_MAX +desc: in the peak meter menu +eng: "Maximum of range" +new: + id: LANG_BACKLIGHT_ON_WHEN_CHARGING desc: in display_settings_menu eng: "Backlight On When Plugged" diff --git a/apps/recorder/peakmeter.c b/apps/recorder/peakmeter.c index df7c672617..e1850a4bb0 100644 --- a/apps/recorder/peakmeter.c +++ b/apps/recorder/peakmeter.c @@ -46,24 +46,52 @@ static bool peak_meter_r_clip = false; static long peak_meter_clip_timeout_l; static long peak_meter_clip_timeout_r; +static int peak_meter_clip_hold; + +/* specifies the value range in peak volume values */ +unsigned short peak_meter_range_min; +unsigned short peak_meter_range_max; + /* if set to true clip timeout is disabled */ static bool peak_meter_clip_eternal = false; +static bool peak_meter_use_dbfs = true; + + #ifndef SIMULATOR static int peak_meter_src_l = MAS_REG_DQPEAK_L; static int peak_meter_src_r = MAS_REG_DQPEAK_R; #endif /* temporarily en- / disables peak meter. This is - especially for external applications to detect - if the peak_meter is in use and needs drawing at all */ bool peak_meter_enabled = true; +/* +bool peak_meter_use_thread = false; +static char peak_meter_stack[DEFAULT_STACK_SIZE]; +*/ +/* used in wps.c to set the display frame rate of the peak meter */ +int peak_meter_fps = 20; + static int peak_meter_l; static int peak_meter_r; +static int peak_meter_hold = 1; +static int peak_meter_release = 8; + +/* debug only */ +#ifdef PM_DEBUG +static int peek_calls = 0; + +#define PEEKS_PER_DRAW_SIZE 40 +static unsigned int peeks_per_redraw[PEEKS_PER_DRAW_SIZE]; + +#define TICKS_PER_DRAW_SIZE 20 +static unsigned int ticks_per_redraw[TICKS_PER_DRAW_SIZE]; +#endif + /* time out values for max */ static long max_time_out[] = { 0 * HZ, HZ / 5, 30, HZ / 2, HZ, 2 * HZ, @@ -80,6 +108,353 @@ static long clip_time_out[] = { 2700 * HZ, 5400 * HZ }; +/* precalculated peak values that represent magical + dBfs values. Used to draw the scale */ +#if 0 +static int db_scale_src_values[] = { + 32767, /* 0 db */ + 23197, /* - 3 db */ + 16422, /* - 6 db */ + 11626, /* - 9 db */ + 8231, /* -12 db */ + 4125, /* -18 db */ + 2067, /* -24 db */ + 1036, /* -30 db */ + 328, /* -40 db */ + 104, /* -50 db */ + 33, /* -60 db */ +}; +#else +static int db_scale_src_values[] = { + 32752, /* 0 db */ + 22784, /* - 3 db */ + 14256, /* - 6 db */ + 11752, /* - 9 db */ + 9256, /* -12 db */ + 4256, /* -18 db */ + 2186, /* -24 db */ + 1186, /* -30 db */ + 373, /* -40 db */ + 102, /* -50 db */ + 33, /* -60 db */ +}; +#endif + +int db_scale_count = sizeof db_scale_src_values / sizeof (int); + +/* if db_scale_valid is false the content of + db_scale_lcd_coord needs recalculation */ +static bool db_scale_valid = false; + +/* contains the lcd x coordinates of the magical + scale values in db_scale_src_values */ +static int db_scale_lcd_coord[sizeof db_scale_src_values / sizeof (int)]; + + +/** + * Calculates dB Value for the peak meter, uses peak value as input + * @param int sample - The input value + * Make sure that 0 <= value < SAMPLE_RANGE + * + * @return int - The 2 digit fixed comma result of the euation + * 20 * log (sample / SAMPLE_RANGE) + 90 + * Output range is 0-8961 (that is 0,0 - 89,6 dB). + * Normally 0dB is full scale, here it is shifted +90dB. + * The calculation is based on the results of a linear + * approximation tool written specifically for this problem + * by Andreas Zwirtes (radhard@gmx.de). The result hat an + * accurracy of better than 2%. It is highly runtime optimized, + * the cascading if-clauses do an successive approximation on + * the input value. This avoids big lookup-tables and + * for-loops. + */ + +int calc_db (int isample) { + /* return n+m*(isample-istart)/100 */ + int n; + long m; + int istart; + + /* Range 1-4 */ + if (isample < 119) { + + /* Range 1-2 */ + if (isample < 5) { + + /* Range 1 */ + if (isample < 1) { + istart = 0; + n = 0; + m = 5900; + } + + /* Range 2 */ + else { + istart = 1; + n = 59; + m = 34950; + } + } + + /* Range 3-4 */ + else { + + /* Range 3 */ + if (isample < 24) { + istart = 5; + n = 1457; + m = 7168; + } + + /* Range 4 */ + else { + istart = 24; + n = 2819; + m = 1464; + } + } + } + + /* Range 5-8 */ + else { + + /* Range 5-6 */ + if (isample < 2918) { + + /* Range 5 */ + if (isample < 592) { + istart = 119; + n = 4210; + m = 295; + } + + /* Range 6 */ + else { + istart = 592; + n = 5605; + m = 60; + } + } + + /* Range 7-8 */ + else { + + /* Range 7 */ + if (isample < 15352) { + istart = 2918; + n = 7001; + m = 12; + } + + /* Range 8 */ + else { + istart = 15352; + n = 8439; + m = 3; + } + } + } + + return n + (m * (long)(isample - istart)) / 100L; +} + + +/** + * A helper function for db_to_sample. Don't call it separately but + * use db_to_sample. If one or both of min and max are outside the + * range 0 <= min (or max) < 8961 the behaviour of this function is + * undefined. It may not return. + * @param int min - The minimum of the value range that is searched. + * @param int max - The maximum of the value range that is searched. + * @param int db - The value in dBfs * (-100) for which the according + * minimal peak sample is searched. + * @return int - A linear volume value with 0 <= value < MAX_PEAK + */ +static int db_to_sample_bin_search(int min, int max, int db){ + int test = min + (max - min) / 2; + + if (min < max) { + if (calc_db(test) < db) { + test = db_to_sample_bin_search(test, max, db); + } else { + if (calc_db(test-1) > db) { + test = db_to_sample_bin_search(min, test, db); + } + } + } + return test; +} + +/** + * Converts a value representing dBfs to a linear + * scaled volume info as it is used by the MAS. + * An incredibly inefficiant function which is + * the vague inverse of calc_db. This really + * should be replaced by something better soon. + * + * @param int db - A dBfs * 100 value with + * -9000 < value <= 0 + * @return int - The return value is in the range of + * 0 <= return value < MAX_PEAK + */ +static int db_to_sample(int db) { + int retval = 0; + + /* what is the maximum pseudo db value */ + int max_peak_db = calc_db(MAX_PEAK - 1); + + /* range check: db value to big */ + if (max_peak_db + db < 0) { + retval = 0; + } + + /* range check: db value too small */ + else if (max_peak_db + db >= max_peak_db) { + retval = MAX_PEAK -1; + } + + /* value in range: find the matching linear value */ + else { + retval = db_to_sample_bin_search(0, MAX_PEAK, max_peak_db + db); + + /* as this is a dirty function anyway, we want to adjust the + full scale hit manually to avoid users complaining that when + they adjust maximum for 0 dBfs and display it in percent it + shows 99%. That is due to precision loss and this is the + optical fix */ + } + + return retval; +} + +/** + * Set the min value for restriction of the value range. + * @param int newmin - depending wether dBfs is used + * newmin is a value in dBfs * 100 or in linear percent values. + * for dBfs: -9000 < newmin <= 0 + * for linear: 0 <= newmin <= 100 + */ +void peak_meter_set_min(int newmin) { + if (peak_meter_use_dbfs) { + peak_meter_range_min = db_to_sample(newmin); + + } else { + if (newmin < peak_meter_range_max) { + peak_meter_range_min = newmin * MAX_PEAK / 100; + } + } + db_scale_valid = false; +} + +/** + * Returns the minimum value of the range the meter + * displays. If the scale is set to dBfs it returns + * dBfs values * 100 or linear percent values. + * @return: using dBfs : -9000 < value <= 0 + * using linear scale: 0 <= value <= 100 + */ +int peak_meter_get_min(void) { + int retval = 0; + if (peak_meter_use_dbfs) { + retval = calc_db(peak_meter_range_min) - calc_db(MAX_PEAK - 1); + } else { + retval = peak_meter_range_min * 100 / MAX_PEAK; + } + return retval; +} + +/** + * Set the max value for restriction of the value range. + * @param int newmax - depending wether dBfs is used + * newmax is a value in dBfs * 100 or in linear percent values. + * for dBfs: -9000 < newmax <= 0 + * for linear: 0 <= newmax <= 100 + */ +void peak_meter_set_max(int newmax) { + if (peak_meter_use_dbfs) { + peak_meter_range_max = db_to_sample(newmax); + } else { + if (newmax > peak_meter_range_min) { + peak_meter_range_max = newmax * MAX_PEAK / 100; + } + } + db_scale_valid = false; +} + +/** + * Returns the minimum value of the range the meter + * displays. If the scale is set to dBfs it returns + * dBfs values * 100 or linear percent values + * @return: using dBfs : -9000 < value <= 0 + * using linear scale: 0 <= value <= 100 + */ +int peak_meter_get_max(void) { + int retval = 0; + if (peak_meter_use_dbfs) { + retval = calc_db(peak_meter_range_max) - calc_db(MAX_PEAK - 1); + } else { + retval = peak_meter_range_max * 100 / MAX_PEAK; + } + return retval; +} + +/** + * Returns 1 if the meter currently is + * displaying dBfs values, 0 if the meter + * displays percent values. + * @return int - returns 0 or 1. + */ +int peak_meter_get_use_dbfs(void) { + return peak_meter_use_dbfs ? 1 : 0; +} + +/** + * Specifies wether the values displayed are scaled + * as dBfs or as linear percent values. + * @param int - Set to 0 for linear percent scale. Any other value + * switches on dBfs. + */ +void peak_meter_set_use_dbfs(int use){ + peak_meter_use_dbfs = ((use & 1) == 1); + db_scale_valid = false; +} + +/** + * Initialize the range of the meter. Only values + * that are in the range of [range_min ... range_max] + * are displayed. + * @param bool dbfs - set to true for dBfs, + * set to false for linear scaling in percent + * @param int range_min - Specifies the lower value of the range. + * Pass a value dBfs * 100 when dbfs is set to true. + * Pass a percent value when dbfs is set to false. + * @param int range_max - Specifies the upper value of the range. + * Pass a value dBfs * 100 when dbfs is set to true. + * Pass a percent value when dbfs is set to false. + */ +void peak_meter_init_range( bool dbfs, int range_min, int range_max) { + peak_meter_use_dbfs = dbfs; + peak_meter_set_min(range_min); + peak_meter_set_max(range_max); +} + +/** + * Initialize the peak meter with all relevant values concerning times. + * @param int release - Set the maximum amount of pixels the meter is allowed + * to decrease with each redraw + * @param int hold - Select the time preset for the time the peak indicator + * is reset after a peak occurred. The preset values are + * stored in max_time_out. + * @param int clip_hold - Select the time preset for the time the peak + * indicator is reset after a peak occurred. The preset + * values are stored in clip_time_out. + */ +void peak_meter_init_times(int release, int hold, int clip_hold) { + peak_meter_hold = hold; + peak_meter_release = release; + peak_meter_clip_hold = clip_hold; +} + /** * Set the source of the peak meter to playback or to * record. @@ -127,21 +502,59 @@ void peak_meter_peek(void) { (left == MAX_PEAK - 1)) { peak_meter_l_clip = true; peak_meter_clip_timeout_l = - current_tick + clip_time_out[global_settings.peak_meter_clip_hold]; + current_tick + clip_time_out[peak_meter_clip_hold]; } if ((right == peak_meter_r) && (right == MAX_PEAK - 1)) { peak_meter_r_clip = true; peak_meter_clip_timeout_r = - current_tick + clip_time_out[global_settings.peak_meter_clip_hold]; + current_tick + clip_time_out[peak_meter_clip_hold]; } - /* peaks are searched -> we have to find the maximum */ + /* peaks are searched -> we have to find the maximum. When + many calls of peak_meter_peek the maximum value will be + stored in peak_meter_x. This maximum is reset by the + functions peak_meter_read_x. */ peak_meter_l = MAX(peak_meter_l, left); peak_meter_r = MAX(peak_meter_r, right); + +#ifdef PM_DEBUG + peek_calls++; +#endif } + +/** + * The thread function for the peak meter calls peak_meter_peek + * to reas out the mas and find maxima, clips, etc. No display + * is performed. + */ +/* +void peak_meter_thread(void) { + sleep(5000); + while (1) { + if (peak_meter_enabled && peak_meter_use_thread){ + peak_meter_peek(); + } + yield(); + } +} +*/ + +/** + * Creates the peak meter thread + */ +/* +void peak_meter_init(void) { + create_thread( + peak_meter_thread, + peak_meter_stack, + sizeof peak_meter_stack, + "peakmeter"); +} +*/ + /** * Reads out the peak volume of the left channel. * @return int - The maximum value that has been detected @@ -149,10 +562,20 @@ void peak_meter_peek(void) { * is in the range 0 <= value < MAX_PEAK. */ static int peak_meter_read_l (void) { + /* peak_meter_l contains the maximum of + all peak values that were read by peak_meter_peek + since the last call of peak_meter_read_r */ int retval = peak_meter_l; +#ifdef PM_DEBUG + peek_calls = 0; +#endif + #ifdef SIMULATOR peak_meter_l = 8000; #else + /* reset peak_meter_l so that subsequent calls of + peak_meter_peek doesn't get fooled by an old + maximum value */ peak_meter_l = mas_codec_readreg(peak_meter_src_l); #endif return retval; @@ -165,10 +588,20 @@ static int peak_meter_read_l (void) { * is in the range 0 <= value < MAX_PEAK. */ static int peak_meter_read_r (void) { + /* peak_meter_r contains the maximum of + all peak values that were read by peak_meter_peek + since the last call of peak_meter_read_r */ int retval = peak_meter_r; +#ifdef PM_DEBUG + peek_calls = 0; +#endif + #ifdef SIMULATOR peak_meter_l = 8000; #else + /* reset peak_meter_r so that subsequent calls of + peak_meter_peek doesn't get fooled by an old + maximum value */ peak_meter_r = mas_codec_readreg(peak_meter_src_r); #endif return retval; @@ -190,6 +623,51 @@ void peak_meter_set_clip_hold(int time) { } } +/** + * Scales a peak value as read from the MAS to the range of meterwidth. + * The scaling is performed according to the scaling method (dBfs / linear) + * and the range (peak_meter_range_min .. peak_meter_range_max). + * @param unsigned short val - The volume value. Range: 0 <= val < MAX_PEAK + * @param int meterwidht - The widht of the meter in pixel + * @return unsigned short - A value 0 <= return value <= meterwidth + */ +unsigned short peak_meter_scale_value(unsigned short val, int meterwidth){ + int range; + int retval; + + if (val <= peak_meter_range_min) { + return 0; + } + + if (val >= peak_meter_range_max) { + return meterwidth; + } + + retval = val; + + /* different scaling is used for dBfs and linear percent */ + if (peak_meter_use_dbfs) { + + /* needed the offset in 'zoomed' meters */ + int dbmin = calc_db(peak_meter_range_min); + + range = calc_db(peak_meter_range_max) - dbmin; + + /* scale the samples dBfs */ + retval = (calc_db(retval) - dbmin) * meterwidth / range; + } + + /* Scale for linear percent display */ + else + { + range =(peak_meter_range_max - peak_meter_range_min); + + /* scale the samples */ + retval = ((retval - peak_meter_range_min) * meterwidth) / range; + } + return retval; +} + /** * Draws a peak meter in the specified size at the specified position. @@ -208,22 +686,66 @@ void peak_meter_draw(int x, int y, int width, int height) { int meterwidth = width - 3; int i; +#ifdef PM_DEBUG + static long pm_tick = 0; + int tmp = peek_calls; +#endif + /* if disabled only draw the peak meter */ if (peak_meter_enabled) { + /* read the volume info from MAS */ left = peak_meter_read_l(); right = peak_meter_read_r(); - peak_meter_peek(); + /* restrict the range to avoid drawing outside the lcd */ + left = MAX(peak_meter_range_min, left); + left = MIN(peak_meter_range_max, left); - /* scale the samples */ - left /= (MAX_PEAK / meterwidth); - right /= (MAX_PEAK / meterwidth); + right = MAX(peak_meter_range_min, right); + right = MIN(peak_meter_range_max, right); + + /* scale the samples dBfs */ + left = peak_meter_scale_value(left, meterwidth); + right = peak_meter_scale_value(right, meterwidth); + + /* if the scale has changed -> recalculate the scale + (The scale becomes invalid when the range changed.) */ + if (!db_scale_valid){ + + if (peak_meter_use_dbfs) { + db_scale_count = sizeof db_scale_src_values / sizeof (int); + for (i = 0; i < db_scale_count; i++){ + /* find the real x-coords for predefined interesting + dBfs values. These only are recalculated when the + scaling of the meter changed. */ + db_scale_lcd_coord[i] = + peak_meter_scale_value( + db_scale_src_values[i], + meterwidth - 1); + } + } + + /* when scaling linear we simly make 10% steps */ + else { + int range = peak_meter_range_max - peak_meter_range_min; + db_scale_count = 10; + for (i = 0; i < db_scale_count; i++) { + db_scale_lcd_coord[i] = + (i * (MAX_PEAK / 10) - peak_meter_range_min) * + meterwidth / range; + } + } + + /* mark scale valid to avoid recalculating dBfs values + of the scale. */ + db_scale_valid = true; + } /* apply release */ - left = MAX(left , last_left - global_settings.peak_meter_release); - right = MAX(right, last_right - global_settings.peak_meter_release); + left = MAX(left , last_left - peak_meter_release); + right = MAX(right, last_right - peak_meter_release); /* reset max values after timeout */ if (TIME_AFTER(current_tick, peak_meter_timeout_l)){ @@ -250,13 +772,13 @@ void peak_meter_draw(int x, int y, int width, int height) { if (left > peak_meter_max_l) { peak_meter_max_l = left - 1; peak_meter_timeout_l = - current_tick + max_time_out[global_settings.peak_meter_hold]; + current_tick + max_time_out[peak_meter_hold]; } if (right > peak_meter_max_r) { peak_meter_max_r = right - 1; peak_meter_timeout_r = - current_tick + max_time_out[global_settings.peak_meter_hold]; + current_tick + max_time_out[peak_meter_hold]; } } @@ -283,13 +805,90 @@ void peak_meter_draw(int x, int y, int width, int height) { lcd_fillrect(x + meterwidth, y + height / 2, 3, height / 2 - 1); } - /* draw scale */ + /* draw scale end */ lcd_drawline(x + meterwidth, y, x + meterwidth, y + height - 2); - for (i = 0; i < 10; i++) { - lcd_invertpixel(x + meterwidth * i / 10, y + height / 2 - 1); + + /* draw dots for scale marks */ + for (i = 0; i < db_scale_count; i++) { + /* The x-coordinates of interesting scale mark points + have been calculated before */ + lcd_invertpixel(db_scale_lcd_coord[i], y + height / 2 - 1); } +#ifdef PM_DEBUG + /* display a bar to show how many calls to peak_meter_peek + have ocurred since the last display */ + lcd_invertrect(x, y, tmp, 3); + + if (tmp < PEEKS_PER_DRAW_SIZE) { + peeks_per_redraw[tmp]++; + } + + tmp = current_tick - pm_tick; + if (tmp < TICKS_PER_DRAW_SIZE ){ + ticks_per_redraw[tmp] ++; + } + + /* display a bar to show how many ticks have passed since + the last redraw */ + lcd_invertrect(x, y + height / 2, current_tick - pm_tick, 2); + pm_tick = current_tick; +#endif + last_left = left; last_right = right; } + +#ifdef PM_DEBUG +static void peak_meter_clear_histogram(void) { + int i = 0; + for (i = 0; i < TICKS_PER_DRAW_SIZE; i++) { + ticks_per_redraw[i] = (unsigned int)0; + } + + for (i = 0; i < PEEKS_PER_DRAW_SIZE; i++) { + peeks_per_redraw[i] = (unsigned int)0; + } +} + +bool peak_meter_histogram(void) { + int i; + int btn = BUTTON_NONE; + while ((btn & BUTTON_OFF) != BUTTON_OFF ) + { + unsigned int max = 0; + int y = 0; + int x = 0; + lcd_clear_display(); + + for (i = 0; i < PEEKS_PER_DRAW_SIZE; i++) { + max = MAX(max, peeks_per_redraw[i]); + } + + for (i = 0; i < PEEKS_PER_DRAW_SIZE; i++) { + x = peeks_per_redraw[i] * (LCD_WIDTH - 1)/ max; + lcd_drawline(0, y + i, x, y + i); + } + + y = PEEKS_PER_DRAW_SIZE + 1; + max = 0; + + for (i = 0; i < TICKS_PER_DRAW_SIZE; i++) { + max = MAX(max, ticks_per_redraw[i]); + } + + for (i = 0; i < TICKS_PER_DRAW_SIZE; i++) { + x = ticks_per_redraw[i] * (LCD_WIDTH - 1)/ max; + lcd_drawline(0, y + i, x, y + i); + } + lcd_update(); + + btn = button_get(true); + if (btn == BUTTON_PLAY) { + peak_meter_clear_histogram(); + } + } + return false; +} +#endif diff --git a/apps/recorder/peakmeter.h b/apps/recorder/peakmeter.h index a5f25808e6..356926f9de 100644 --- a/apps/recorder/peakmeter.h +++ b/apps/recorder/peakmeter.h @@ -19,12 +19,32 @@ #ifndef __PEAKMETER_H__ #define __PEAKMETER_H__ -extern bool peak_meter_enabled; +/*#define PM_DEBUG */ +#ifdef PM_DEBUG +extern bool peak_meter_histogramm(void); +#endif + + +extern bool peak_meter_enabled; +extern int peak_meter_fps; -extern void peak_meter_init(void); extern void peak_meter_playback(bool playback); extern void peak_meter_draw(int x, int y, int width, int height); extern void peak_meter_set_clip_hold(int time); extern void peak_meter_peek(void); +extern void peak_meter_init_range( bool dbfs, int range_min, int range_max); +extern void peak_meter_init_times(int release, int hold, int clip_hold); + +extern void peak_meter_set_min(int newmin); +extern int peak_meter_get_min(void); +extern void peak_meter_set_max(int newmax); +extern int peak_meter_get_max(void); +extern void peak_meter_set_use_dbfs(int use); +extern int peak_meter_get_use_dbfs(void); +extern int calc_db (int isample); +extern unsigned short peak_meter_scale_value(unsigned short val, int meterwidth); + +extern unsigned short peak_meter_range_min; +extern unsigned short peak_meter_range_max; #endif /* __PEAKMETER_H__ */ diff --git a/apps/settings.c b/apps/settings.c index cee7a286f6..c17f42fd52 100644 --- a/apps/settings.c +++ b/apps/settings.c @@ -44,6 +44,7 @@ #ifdef HAVE_LCD_BITMAP #include "icons.h" #include "font.h" +#include "peakmeter.h" #endif #include "lang.h" #include "language.h" @@ -52,7 +53,7 @@ struct user_settings global_settings; char rockboxdir[] = ROCKBOX_DIR; /* config/font/data file directory */ -#define CONFIG_BLOCK_VERSION 2 +#define CONFIG_BLOCK_VERSION 3 #define CONFIG_BLOCK_SIZE 512 #define RTC_BLOCK_SIZE 44 @@ -89,10 +90,14 @@ offset abs 0x16 0x2a <(int) Byte offset into resume file> 0x1a 0x2e