mirrors/uv-k5-firmware-custom
0
Fork 0
mirror of https://github.com/OneOfEleven/uv-k5-firmware-custom.git synced 2025-04-27 22:01:26 +03:00
Code Issues Releases Activity

increase side-key long-press time to 1 second (was 300ms)

Browse Source
This commit is contained in:
OneOfEleven 2023-11-20 10:26:24 +00:00
parent af3cfac687
commit e0d3a36b96
8 changed files with 45 additions and 70 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

1
app/aircopy.c
View File

@ -840,6 +840,7 @@ void AIRCOPY_process_key(key_code_t Key, bool key_pressed, bool key_held)
case KEY_EXIT:
AIRCOPY_Key_EXIT(key_pressed, key_held);
break;
// case KEY_PTT:
default:
break;
}

77
app/app.c
View File

@ -1374,22 +1374,12 @@ void APP_check_keys(void)
{
if (g_key_prev != KEY_INVALID)
{ // key now fully released
#ifdef ENABLE_AIRCOPY
if (g_current_display_screen != DISPLAY_AIRCOPY)
APP_process_key(g_key_prev, false, g_key_held);
else
AIRCOPY_process_key(g_key_prev, false, g_key_held);
#else
APP_process_key(g_key_prev, false, g_key_held);
#endif
APP_process_key(g_key_prev, false, g_key_held);
g_key_debounce_press = 0;
g_key_debounce_repeat = 0;
g_key_prev = KEY_INVALID;
g_key_held = false;
g_boot_tick_10ms = 0; // cancel the boot-up screen
g_update_status = true;
// g_update_display = true;
}
@ -1401,6 +1391,10 @@ void APP_check_keys(void)
}
else
{ // key pressed
// long press time can be different for different keys
const uint8_t long_press_ticks = (key == KEY_SIDE1 || key == KEY_SIDE2) ? key_side_long_press_10ms : key_long_press_10ms;
if (g_key_debounce_press < key_debounce_10ms)
{
if (++g_key_debounce_press >= key_debounce_10ms)
@ -1410,38 +1404,20 @@ void APP_check_keys(void)
g_key_debounce_repeat = key_debounce_10ms;
g_key_held = false;
g_key_prev = key;
#ifdef ENABLE_AIRCOPY
if (g_current_display_screen != DISPLAY_AIRCOPY)
APP_process_key(g_key_prev, true, g_key_held);
else
AIRCOPY_process_key(g_key_prev, true, g_key_held);
#else
APP_process_key(g_key_prev, true, g_key_held);
#endif
g_update_status = true;
// g_update_display = true;
APP_process_key(g_key_prev, true, g_key_held);
g_update_status = true;
// g_update_display = true;
}
}
}
else
if (g_key_debounce_repeat < key_long_press_10ms)
if (g_key_debounce_repeat < long_press_ticks)
{
if (++g_key_debounce_repeat >= key_long_press_10ms)
if (++g_key_debounce_repeat >= long_press_ticks)
{ // key long press
g_key_held = true;
#ifdef ENABLE_AIRCOPY
if (g_current_display_screen != DISPLAY_AIRCOPY)
APP_process_key(g_key_prev, true, g_key_held);
else
AIRCOPY_process_key(g_key_prev, true, g_key_held);
#else
APP_process_key(g_key_prev, true, g_key_held);
#endif
g_update_status = true;
g_key_held = true;
APP_process_key(g_key_prev, true, g_key_held);
g_update_status = true;
}
}
else
@ -1449,22 +1425,13 @@ void APP_check_keys(void)
{ // only the up and down keys are made repeatable
// key repeat max 10ms speed if user is moving up/down in freq/channel
const bool freq_chan = IS_FREQ_CHANNEL(g_eeprom.config.setting.indices.vfo[g_eeprom.config.setting.tx_vfo_num].screen);
const uint8_t repeat_10ms = (g_manual_scanning && g_monitor_enabled && freq_chan && g_current_display_screen == DISPLAY_MAIN) ? 2 : key_repeat_10ms;
const bool freq_chan = IS_FREQ_CHANNEL(g_eeprom.config.setting.indices.vfo[g_eeprom.config.setting.tx_vfo_num].screen);
const uint8_t repeat_ticks = (g_manual_scanning && g_monitor_enabled && freq_chan && g_current_display_screen == DISPLAY_MAIN) ? 2 : key_repeat_10ms;
if (++g_key_debounce_repeat >= (key_long_press_10ms + repeat_10ms))
if (++g_key_debounce_repeat >= (long_press_ticks + repeat_ticks))
{ // key repeat
g_key_debounce_repeat = key_long_press_10ms;
#ifdef ENABLE_AIRCOPY
if (g_current_display_screen != DISPLAY_AIRCOPY)
APP_process_key(g_key_prev, true, g_key_held);
else
AIRCOPY_process_key(g_key_prev, true, g_key_held);
#else
APP_process_key(g_key_prev, true, g_key_held);
#endif
g_key_debounce_repeat = long_press_ticks;
APP_process_key(g_key_prev, true, g_key_held);
}
}
}
@ -2568,6 +2535,14 @@ static void APP_process_key(const key_code_t Key, const bool key_pressed, const
{
bool flag = false;
#ifdef ENABLE_AIRCOPY
if (g_current_display_screen == DISPLAY_AIRCOPY)
{
AIRCOPY_process_key(key, key_pressed, key_held);
return;
}
#endif
if (Key == KEY_INVALID && !key_pressed && !key_held)
return;

BIN
firmware.bin
View File

Binary file not shown.

BIN
firmware.packed.bin
View File

Binary file not shown.

1
misc.c
View File

@ -46,6 +46,7 @@ const uint8_t key_input_timeout_500ms = 6000 / 500; // 6 sec
#endif
const uint8_t key_debounce_10ms = 30 / 10; // 30ms
const uint8_t key_side_long_press_10ms = 1000 / 10; // 1 second
const uint8_t key_long_press_10ms = 300 / 10; // 300ms
const uint8_t key_repeat_10ms = 50 / 10; // 50ms

1
misc.h
View File

@ -142,6 +142,7 @@ extern const uint8_t key_input_timeout_500ms;
#endif
extern const uint8_t key_debounce_10ms;
extern const uint8_t key_side_long_press_10ms;
extern const uint8_t key_long_press_10ms;
extern const uint8_t key_repeat_10ms;

21
panadapter.c
View File

@ -19,15 +19,17 @@
#include "ui/main.h"
#include "ui/ui.h"
bool g_panadapter_enabled;
bool g_panadapter_enabled;
#ifdef ENABLE_PANADAPTER_PEAK_FREQ
uint32_t g_panadapter_peak_freq;
uint32_t g_panadapter_peak_freq;
#endif
int g_panadapter_vfo_mode; // > 0 if we're currently sampling the VFO
uint8_t g_panadapter_rssi[PANADAPTER_BINS + 1 + PANADAPTER_BINS];
uint8_t g_panadapter_max_rssi;
uint8_t g_panadapter_min_rssi;
unsigned int panadapter_rssi_index;
int g_panadapter_vfo_mode; // > 0 if we're currently sampling the VFO
uint8_t g_panadapter_rssi[PANADAPTER_BINS + 1 + PANADAPTER_BINS];
uint8_t g_panadapter_max_rssi;
uint8_t g_panadapter_min_rssi;
unsigned int panadapter_rssi_index;
const uint8_t panadapter_min_rssi = (-147 + 160) * 2; // min of -147dBm (S0)
bool PAN_scanning(void)
{
@ -75,7 +77,6 @@ void PAN_process_10ms(void)
g_dtmf_call_state != DTMF_CALL_STATE_NONE ||
g_dtmf_is_tx ||
g_dtmf_input_mode)
// g_input_box_index > 0)
{
if (g_panadapter_enabled)
{ // disable the panadapter
@ -119,7 +120,7 @@ void PAN_process_10ms(void)
// save the current RSSI value .. center bin is the VFO frequency
const int16_t rssi = g_current_rssi[g_eeprom.config.setting.tx_vfo_num];
g_panadapter_rssi[PANADAPTER_BINS] = (rssi > 255) ? 255 : (rssi < 0) ? 0 : rssi;
g_panadapter_rssi[PANADAPTER_BINS] = (rssi > 255) ? 255 : (rssi < panadapter_min_rssi) ? panadapter_min_rssi : rssi;
g_panadapter_vfo_mode = 40; // pause scanning for at least another 400ms
return;
@ -130,7 +131,7 @@ void PAN_process_10ms(void)
// save the current RSSI value
const uint16_t rssi = BK4819_GetRSSI();
g_panadapter_rssi[panadapter_rssi_index] = (rssi <= 255) ? rssi : 255;
g_panadapter_rssi[panadapter_rssi_index] = (rssi > 255) ? 255 : (rssi < panadapter_min_rssi) ? panadapter_min_rssi : rssi;
// next frequency
if (++panadapter_rssi_index >= ARRAY_SIZE(g_panadapter_rssi))

14
ui/main.c
View File

@ -421,19 +421,15 @@ void big_freq(const uint32_t frequency, const unsigned int x, const unsigned int
!g_panadapter_enabled ||
single_vfo < 0 ||
g_current_display_screen != DISPLAY_MAIN ||
// g_current_function == FUNCTION_TRANSMIT ||
g_current_function == FUNCTION_POWER_SAVE ||
g_monitor_enabled)
g_monitor_enabled ||
g_dtmf_call_state != DTMF_CALL_STATE_NONE ||
g_dtmf_is_tx ||
g_dtmf_input_mode)
{ // don't draw the panadapter
return;
}
if (g_dtmf_call_state != DTMF_CALL_STATE_NONE || g_dtmf_is_tx || g_dtmf_input_mode)
return; // DTMF call
// if (g_input_box_index > 0)
// return; // user is entering a frequency
// auto vertical scale
max_rssi = g_panadapter_max_rssi;
min_rssi = g_panadapter_min_rssi;
@ -462,7 +458,7 @@ void big_freq(const uint32_t frequency, const unsigned int x, const unsigned int
#endif
// draw top center vertical marker (the VFO frequency)
base_line[PANADAPTER_BINS - (LCD_WIDTH * 2)] = 0x0F;
base_line[PANADAPTER_BINS - (LCD_WIDTH * 2)] = 0x1F;
// draw top horizontal dotted line
for (i = 0; i < PANADAPTER_BINS; i += 4)