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opentx/radio/src/gui/128x64/model_setup.cpp
Bertrand Songis 8d08e6939d Split RX_ID display name and RX_ID binary
2019-02-06 15:22:17 +01:00

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/*
* Copyright (C) OpenTX
*
* Based on code named
* th9x - http://code.google.com/p/th9x
* er9x - http://code.google.com/p/er9x
* gruvin9x - http://code.google.com/p/gruvin9x
*
* License GPLv2: http://www.gnu.org/licenses/gpl-2.0.html
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*/
#include "opentx.h"
uint8_t g_moduleIdx;
void menuModelFailsafe(event_t event);
#if defined(PCBTARANIS)
uint8_t getSwitchWarningsCount()
{
int count = 0;
for (int i=0; i<NUM_SWITCHES; ++i) {
if (SWITCH_WARNING_ALLOWED(i)) {
++count;
}
}
return count;
}
#endif
enum MenuModelSetupItems {
ITEM_MODEL_NAME,
ITEM_MODEL_TIMER1,
ITEM_MODEL_TIMER1_NAME,
ITEM_MODEL_TIMER1_PERSISTENT,
ITEM_MODEL_TIMER1_MINUTE_BEEP,
ITEM_MODEL_TIMER1_COUNTDOWN_BEEP,
ITEM_MODEL_TIMER2,
ITEM_MODEL_TIMER2_NAME,
ITEM_MODEL_TIMER2_PERSISTENT,
ITEM_MODEL_TIMER2_MINUTE_BEEP,
ITEM_MODEL_TIMER2_COUNTDOWN_BEEP,
ITEM_MODEL_TIMER3,
ITEM_MODEL_TIMER3_NAME,
ITEM_MODEL_TIMER3_PERSISTENT,
ITEM_MODEL_TIMER3_MINUTE_BEEP,
ITEM_MODEL_TIMER3_COUNTDOWN_BEEP,
ITEM_MODEL_EXTENDED_LIMITS,
ITEM_MODEL_EXTENDED_TRIMS,
ITEM_MODEL_DISPLAY_TRIMS,
ITEM_MODEL_TRIM_INC,
ITEM_MODEL_THROTTLE_REVERSED,
ITEM_MODEL_THROTTLE_TRACE,
ITEM_MODEL_THROTTLE_TRIM,
ITEM_MODEL_PREFLIGHT_LABEL,
ITEM_MODEL_CHECKLIST_DISPLAY,
ITEM_MODEL_THROTTLE_WARNING,
ITEM_MODEL_SWITCHES_WARNING,
#if defined(PCBTARANIS)
ITEM_MODEL_SWITCHES_WARNING2,
ITEM_MODEL_POTS_WARNING,
#endif
ITEM_MODEL_BEEP_CENTER,
ITEM_MODEL_USE_GLOBAL_FUNCTIONS,
ITEM_MODEL_REGISTRATION_ID,
#if defined(PCBTARANIS)
ITEM_MODEL_INTERNAL_MODULE_LABEL,
ITEM_MODEL_INTERNAL_MODULE_MODE,
ITEM_MODEL_INTERNAL_MODULE_MODEL_NUM,
ITEM_MODEL_INTERNAL_MODULE_FAILSAFE,
ITEM_MODEL_INTERNAL_MODULE_RANGE_REG,
#if defined(PCBXLITE) || defined(PCBXLITES)
ITEM_MODEL_INTERNAL_MODULE_ANTENNA,
#endif
ITEM_MODEL_INTERNAL_MODULE_RECEIVER_1_NUMBER,
ITEM_MODEL_INTERNAL_MODULE_RECEIVER_1_RANGE,
ITEM_MODEL_INTERNAL_MODULE_RECEIVER_1_TELEM,
ITEM_MODEL_INTERNAL_MODULE_RECEIVER_1_BIND,
ITEM_MODEL_INTERNAL_MODULE_RECEIVER_2_NUMBER,
ITEM_MODEL_INTERNAL_MODULE_RECEIVER_2_RANGE,
ITEM_MODEL_INTERNAL_MODULE_RECEIVER_2_TELEM,
ITEM_MODEL_INTERNAL_MODULE_RECEIVER_2_BIND,
ITEM_MODEL_INTERNAL_MODULE_ADD_RECEIVER,
#endif
ITEM_MODEL_EXTERNAL_MODULE_LABEL,
ITEM_MODEL_EXTERNAL_MODULE_MODE,
#if defined(MULTIMODULE)
ITEM_MODEL_EXTERNAL_MODULE_SUBTYPE,
ITEM_MODEL_EXTERNAL_MODULE_STATUS,
ITEM_MODEL_EXTERNAL_MODULE_SYNCSTATUS,
#endif
ITEM_MODEL_EXTERNAL_MODULE_CHANNELS,
ITEM_MODEL_EXTERNAL_MODULE_BIND,
#if defined(PCBSKY9X) && defined(REVX)
ITEM_MODEL_EXTERNAL_MODULE_OUTPUT_TYPE,
#endif
ITEM_MODEL_EXTERNAL_MODULE_OPTIONS,
#if defined(MULTIMODULE)
ITEM_MODEL_EXTERNAL_MODULE_AUTOBIND,
#endif
ITEM_MODEL_EXTERNAL_MODULE_POWER,
#if !defined(PCBXLITE)
ITEM_MODEL_EXTERNAL_MODULE_FREQ,
#endif
#if defined(PCBSKY9X) && !defined(REVA)
ITEM_MODEL_EXTRA_MODULE_LABEL,
ITEM_MODEL_EXTRA_MODULE_CHANNELS,
ITEM_MODEL_EXTRA_MODULE_BIND,
#endif
ITEM_MODEL_EXTERNAL_MODULE_FAILSAFE,
#if defined(PCBX7)
ITEM_MODEL_TRAINER_LABEL,
ITEM_MODEL_TRAINER_MODE,
#if defined(BLUETOOTH)
ITEM_MODEL_TRAINER_BLUETOOTH,
#endif
ITEM_MODEL_TRAINER_CHANNELS,
ITEM_MODEL_TRAINER_PARAMS,
#elif defined(PCBXLITE) || defined(PCBXLITES)
ITEM_MODEL_TRAINER_LABEL,
ITEM_MODEL_TRAINER_MODE,
ITEM_MODEL_TRAINER_BLUETOOTH,
ITEM_MODEL_TRAINER_CHANNELS,
#endif
ITEM_MODEL_SETUP_MAX
};
#if defined(PCBSKY9X)
#define FIELD_PROTOCOL_MAX 2
#else
#define FIELD_PROTOCOL_MAX 1
#endif
#define MODEL_SETUP_2ND_COLUMN (LCD_W-11*FW)
#define MODEL_SETUP_BIND_OFS 2*FW+1
#define MODEL_SETUP_RANGE_OFS 4*FW+3
#define MODEL_SETUP_SET_FAILSAFE_OFS 7*FW-2
#if defined(PCBTARANIS)
#define CURRENT_MODULE_EDITED(k) (k >= ITEM_MODEL_EXTERNAL_MODULE_LABEL ? EXTERNAL_MODULE : INTERNAL_MODULE)
#define CURRENT_RECEIVER_EDITED(k) (k >= ITEM_MODEL_INTERNAL_MODULE_RECEIVER_2_NUMBER ? 1 : 0)
#define INTERNAL_MODULE_ADD_RECEIVER_ROW (g_model.moduleData[INTERNAL_MODULE].pxx2.receivers[MAX_RECEIVERS_PER_MODULE-1].enabled ? HIDDEN_ROW : (uint8_t)0)
#define IF_INTERNAL_MODULE_RECEIVER_1_ON(x) (g_model.moduleData[INTERNAL_MODULE].pxx2.receivers[0].enabled ? (uint8_t)(x) : HIDDEN_ROW)
#define IF_INTERNAL_MODULE_RECEIVER_2_ON(x) (g_model.moduleData[INTERNAL_MODULE].pxx2.receivers[1].enabled ? (uint8_t)(x) : HIDDEN_ROW)
#elif defined(PCBSKY9X) && !defined(REVA)
#define CURRENT_MODULE_EDITED(k) (k>=ITEM_MODEL_EXTRA_MODULE_LABEL ? EXTRA_MODULE : EXTERNAL_MODULE)
#else
#define CURRENT_MODULE_EDITED(k) (EXTERNAL_MODULE)
#endif
#if defined(PCBXLITE)
#define SW_WARN_ROWS uint8_t(NAVIGATION_LINE_BY_LINE|getSwitchWarningsCount()), uint8_t(getSwitchWarningsCount() > 5 ? TITLE_ROW : HIDDEN_ROW) // X-Lite needs an additional column for full line selection (<])
#else
#define SW_WARN_ROWS uint8_t(NAVIGATION_LINE_BY_LINE|(getSwitchWarningsCount()-1)), uint8_t(getSwitchWarningsCount() > 5 ? TITLE_ROW : HIDDEN_ROW)
#endif
#if !defined(TARANIS_INTERNAL_PPM)
#define INTERNAL_MODULE_MODE_ROWS 0 // (OFF / RF protocols)
#else
#define INTERNAL_MODULE_MODE_ROWS (isModuleXJT(INTERNAL_MODULE) ? (uint8_t)1 : (uint8_t)0) // Module type + RF protocols
#endif
#define IF_INTERNAL_MODULE_ON(x) (IS_INTERNAL_MODULE_ENABLED()? (uint8_t)(x) : HIDDEN_ROW )
#define IF_EXTERNAL_MODULE_ON(x) (IS_EXTERNAL_MODULE_ENABLED()? (uint8_t)(x) : HIDDEN_ROW)
#define EXTERNAL_MODULE_BIND_ROWS() ((isModuleXJT(EXTERNAL_MODULE) && IS_D8_RX(EXTERNAL_MODULE)) || isModuleSBUS(EXTERNAL_MODULE)) ? (uint8_t)1 : (isModulePPM(EXTERNAL_MODULE) || isModulePXX(EXTERNAL_MODULE) || isModuleDSM2(EXTERNAL_MODULE) || isModuleMultimodule(EXTERNAL_MODULE)) ? (uint8_t)2 : HIDDEN_ROW
#if defined(PCBSKY9X) && defined(REVX)
#define OUTPUT_TYPE_ROWS() (isModulePPM(EXTERNAL_MODULE) ? (uint8_t)0 : HIDDEN_ROW) ,
#else
#define OUTPUT_TYPE_ROWS()
#endif
#define PORT_CHANNELS_ROWS(x) (x==EXTERNAL_MODULE ? EXTERNAL_MODULE_CHANNELS_ROWS : 0)
#if defined(PCBXLITE)
#define EXTERNAL_MODULE_MODE_ROWS (isModulePXX(EXTERNAL_MODULE) || isModuleDSM2(EXTERNAL_MODULE) || isModuleMultimodule(EXTERNAL_MODULE)) ? (uint8_t)1 : (uint8_t)0
#else
#define EXTERNAL_MODULE_MODE_ROWS (isModuleXJT(EXTERNAL_MODULE) || isModuleDSM2(EXTERNAL_MODULE) || isModuleMultimodule(EXTERNAL_MODULE)) ? (uint8_t)1 : (uint8_t)0
#endif
#define CURSOR_ON_CELL (true)
#define MODEL_SETUP_MAX_LINES (HEADER_LINE+ITEM_MODEL_SETUP_MAX)
#define POT_WARN_ITEMS() ((g_model.potsWarnMode) ? (uint8_t)(NUM_POTS+NUM_SLIDERS) : (uint8_t)0)
#define TIMER_ROWS 2, 0, 0, 0, 0
#if defined(PCBSKY9X) && !defined(REVA)
#define EXTRA_MODULE_ROWS LABEL(ExtraModule), 1, 2,
#elif defined(PCBXLITE)
#define EXTRA_MODULE_ROWS
#else
#define EXTRA_MODULE_ROWS isR9MMFlex(EXTERNAL_MODULE) ? (uint8_t)1: (uint8_t)HIDDEN_ROW,
#endif
#if defined(PCBX7)
#define ANTENNA_ROW
#if defined(BLUETOOTH)
#define TRAINER_BLUETOOTH_M_ROW ((bluetoothDistantAddr[0] == '\0' || bluetoothState == BLUETOOTH_STATE_CONNECTED) ? (uint8_t)0 : (uint8_t)1)
#define TRAINER_BLUETOOTH_S_ROW (bluetoothDistantAddr[0] == '\0' ? HIDDEN_ROW : LABEL())
#define TRAINER_BLUETOOTH_ROW (g_model.trainerData.mode == TRAINER_MODE_MASTER_BLUETOOTH ? TRAINER_BLUETOOTH_M_ROW : (g_model.trainerData.mode == TRAINER_MODE_SLAVE_BLUETOOTH ? TRAINER_BLUETOOTH_S_ROW : HIDDEN_ROW)),
#else
#define TRAINER_BLUETOOTH_ROW
#endif
#define TRAINER_CHANNELS_ROW (IS_SLAVE_TRAINER() ? (uint8_t)1 : HIDDEN_ROW)
#define TRAINER_PARAMS_ROW (IS_SLAVE_TRAINER() ? (uint8_t)2 : HIDDEN_ROW)
#define TRAINER_ROWS LABEL(Trainer), 0, TRAINER_BLUETOOTH_ROW TRAINER_CHANNELS_ROW, TRAINER_PARAMS_ROW
#elif defined(PCBXLITES)
#define ANTENNA_ROW IF_INTERNAL_MODULE_ON(0),
#define TRAINER_BLUETOOTH_ROW
#define TRAINER_CHANNELS_ROW (IS_SLAVE_TRAINER() ? (uint8_t)1 : HIDDEN_ROW)
#define TRAINER_PARAMS_ROW (IS_SLAVE_TRAINER() ? (uint8_t)2 : HIDDEN_ROW)
#define TRAINER_ROWS LABEL(Trainer), 0, TRAINER_CHANNELS_ROW, TRAINER_PARAMS_ROW
#elif defined(PCBXLITE)
#define ANTENNA_ROW IF_INTERNAL_MODULE_ON(0),
#define IF_BT_TRAINER_ON(x) (g_eeGeneral.bluetoothMode == BLUETOOTH_TRAINER ? (uint8_t)(x) : HIDDEN_ROW)
#define TRAINER_BLUETOOTH_M_ROW ((bluetoothDistantAddr[0] == '\0' || bluetoothState == BLUETOOTH_STATE_CONNECTED) ? (uint8_t)0 : (uint8_t)1)
#define TRAINER_BLUETOOTH_S_ROW (bluetoothDistantAddr[0] == '\0' ? HIDDEN_ROW : LABEL())
#define TRAINER_BLUETOOTH_ROW (g_model.trainerData.mode == TRAINER_MODE_MASTER_BLUETOOTH ? TRAINER_BLUETOOTH_M_ROW : (g_model.trainerData.mode == TRAINER_MODE_SLAVE_BLUETOOTH ? TRAINER_BLUETOOTH_S_ROW : HIDDEN_ROW))
#define TRAINER_CHANNELS_ROW (IS_SLAVE_TRAINER() ? (uint8_t)1 : HIDDEN_ROW)
#define TRAINER_ROWS IF_BT_TRAINER_ON(LABEL(Trainer)), IF_BT_TRAINER_ON(0), IF_BT_TRAINER_ON(TRAINER_BLUETOOTH_ROW), IF_BT_TRAINER_ON(TRAINER_CHANNELS_ROW)
#else
#define TRAINER_ROWS
#endif
void onPXX2BindMenu(const char * result)
{
reusableBuffer.modelsetup.pxx2_bind_receiver_index = (result - reusableBuffer.modelsetup.pxx2_bind_candidate_receivers_names[0]) / sizeof(reusableBuffer.modelsetup.pxx2_bind_candidate_receivers_names[0]);
reusableBuffer.modelsetup.pxx2_register_or_bind_step = BIND_RX_ID_SELECTED;
TRACE("RECEIVER SELECTED : %d", reusableBuffer.modelsetup.pxx2_bind_receiver_index);
}
void onBindMenu(const char * result)
{
uint8_t moduleIdx = CURRENT_MODULE_EDITED(menuVerticalPosition);
if (result == STR_BINDING_1_8_TELEM_ON) {
g_model.moduleData[moduleIdx].pxx.receiver_telem_off = false;
g_model.moduleData[moduleIdx].pxx.receiver_channel_9_16 = false;
}
else if (result == STR_BINDING_1_8_TELEM_OFF) {
g_model.moduleData[moduleIdx].pxx.receiver_telem_off = true;
g_model.moduleData[moduleIdx].pxx.receiver_channel_9_16 = false;
}
else if (result == STR_BINDING_9_16_TELEM_ON) {
g_model.moduleData[moduleIdx].pxx.receiver_telem_off = false;
g_model.moduleData[moduleIdx].pxx.receiver_channel_9_16 = true;
}
else if (result == STR_BINDING_9_16_TELEM_OFF) {
g_model.moduleData[moduleIdx].pxx.receiver_telem_off = true;
g_model.moduleData[moduleIdx].pxx.receiver_channel_9_16 = true;
}
else {
return;
}
moduleSettings[moduleIdx].mode = MODULE_MODE_BIND;
}
void menuModelSetup(event_t event)
{
#if defined(PCBXLITE) || defined(PCBXLITES)
// Switch to external antenna confirmation
if (warningResult) {
warningResult = 0;
g_model.moduleData[INTERNAL_MODULE].pxx.external_antenna = XJT_EXTERNAL_ANTENNA;
}
#endif
int8_t old_editMode = s_editMode;
#if defined(PCBTARANIS)
MENU_TAB({
HEADER_LINE_COLUMNS
0,
TIMER_ROWS, TIMER_ROWS, TIMER_ROWS,
0, // Extended limits
1, // Extended trims
0, // Show trims
0, // Trims step
0, // Throttle reverse
0, // Throttle trace source
0, // Throttle trim
LABEL(PreflightCheck),
0, // Checklist
0, // Throttle warning
SW_WARN_ROWS, // Switch warning
POT_WARN_ITEMS(), // Pot warning
NUM_STICKS + NUM_POTS + NUM_SLIDERS + NUM_ROTARY_ENCODERS - 1, // Center beeps
0, // Global functions
PXX2_LEN_REGISTRATION_ID - 1, // Registration ID
LABEL(InternalModule),
INTERNAL_MODULE_MODE_ROWS,
IF_INTERNAL_MODULE_ON((uint8_t)0), // Model Number
IF_INTERNAL_MODULE_ON(FAILSAFE_ROWS(INTERNAL_MODULE)), // Failsafe
IF_INTERNAL_MODULE_ON((uint8_t)1), // Range check and receiver register
ANTENNA_ROW
IF_INTERNAL_MODULE_RECEIVER_1_ON((uint8_t)0), // Receiver Number
IF_INTERNAL_MODULE_RECEIVER_1_ON((uint8_t)0), // Receiver Range
IF_INTERNAL_MODULE_RECEIVER_1_ON((uint8_t)0), // Receiver Telemetry
IF_INTERNAL_MODULE_RECEIVER_1_ON((uint8_t)1), // Receiver Bind/Delete
IF_INTERNAL_MODULE_RECEIVER_2_ON((uint8_t)0), // Receiver Number
IF_INTERNAL_MODULE_RECEIVER_2_ON((uint8_t)0), // Receiver Range
IF_INTERNAL_MODULE_RECEIVER_2_ON((uint8_t)0), // Receiver Telemetry
IF_INTERNAL_MODULE_RECEIVER_2_ON((uint8_t)1), // Receiver Bind/Delete
IF_INTERNAL_MODULE_ON(INTERNAL_MODULE_ADD_RECEIVER_ROW),
LABEL(ExternalModule),
EXTERNAL_MODULE_MODE_ROWS,
MULTIMODULE_SUBTYPE_ROWS(EXTERNAL_MODULE)
MULTIMODULE_STATUS_ROWS
EXTERNAL_MODULE_CHANNELS_ROWS,
EXTERNAL_MODULE_BIND_ROWS(),
OUTPUT_TYPE_ROWS()
EXTERNAL_MODULE_OPTION_ROW,
MULTIMODULE_MODULE_ROWS
EXTERNAL_MODULE_POWER_ROW,
EXTRA_MODULE_ROWS
FAILSAFE_ROWS(EXTERNAL_MODULE),
TRAINER_ROWS });
#else
MENU_TAB({ HEADER_LINE_COLUMNS 0, TIMER_ROWS, TIMER_ROWS, TIMER_ROWS, 0, 1, 0, 0, 0, 0, 0, LABEL(PreflightCheck), 0, 0, NUM_SWITCHES-1, NUM_STICKS+NUM_POTS+NUM_SLIDERS+NUM_ROTARY_ENCODERS-1, 0,
LABEL(ExternalModule),
EXTERNAL_MODULE_MODE_ROWS,
MULTIMODULE_SUBTYPE_ROWS(EXTERNAL_MODULE)
MULTIMODULE_STATUS_ROWS
EXTERNAL_MODULE_CHANNELS_ROWS,
EXTERNAL_MODULE_BIND_ROWS(),
OUTPUT_TYPE_ROWS()
EXTERNAL_MODULE_OPTION_ROW,
MULTIMODULE_MODULE_ROWS
EXTERNAL_MODULE_POWER_ROW,
EXTRA_MODULE_ROWS
FAILSAFE_ROWS(EXTERNAL_MODULE),
TRAINER_ROWS });
#endif
MENU_CHECK(menuTabModel, MENU_MODEL_SETUP, HEADER_LINE+MODEL_SETUP_MAX_LINES);
#if (defined(DSM2) || defined(PXX))
if (menuEvent) {
moduleSettings[0].mode = 0;
#if NUM_MODULES > 1
moduleSettings[1].mode = 0;
#endif
}
#endif
TITLE(STR_MENUSETUP);
if (event == EVT_ENTRY) {
reusableBuffer.modelsetup.r9mPower = g_model.moduleData[EXTERNAL_MODULE].pxx.power;
}
uint8_t sub = menuVerticalPosition - HEADER_LINE;
int8_t editMode = s_editMode;
for (uint8_t i=0; i<NUM_BODY_LINES; ++i) {
coord_t y = MENU_HEADER_HEIGHT + 1 + i*FH;
uint8_t k = i + menuVerticalOffset;
for (int j=0; j<=k; j++) {
if (mstate_tab[j+HEADER_LINE] == HIDDEN_ROW) {
if (++k >= (int)DIM(mstate_tab)) {
return;
}
}
}
LcdFlags blink = ((editMode>0) ? BLINK|INVERS : INVERS);
LcdFlags attr = (sub == k ? blink : 0);
switch (k) {
case ITEM_MODEL_NAME:
editSingleName(MODEL_SETUP_2ND_COLUMN, y, STR_MODELNAME, g_model.header.name, sizeof(g_model.header.name), event, attr);
memcpy(modelHeaders[g_eeGeneral.currModel].name, g_model.header.name, sizeof(g_model.header.name));
break;
case ITEM_MODEL_TIMER1:
case ITEM_MODEL_TIMER2:
case ITEM_MODEL_TIMER3:
{
unsigned int timerIdx = (k>=ITEM_MODEL_TIMER3 ? 2 : (k>=ITEM_MODEL_TIMER2 ? 1 : 0));
TimerData * timer = &g_model.timers[timerIdx];
drawStringWithIndex(0*FW, y, STR_TIMER, timerIdx+1);
drawTimerMode(MODEL_SETUP_2ND_COLUMN, y, timer->mode, menuHorizontalPosition==0 ? attr : 0);
drawTimer(MODEL_SETUP_2ND_COLUMN+5*FW-2+5*FWNUM+1, y, timer->start, RIGHT | (menuHorizontalPosition==1 ? attr : 0), menuHorizontalPosition==2 ? attr : 0);
if (attr && (editMode>0 || p1valdiff)) {
div_t qr = div(timer->start, 60);
switch (menuHorizontalPosition) {
case 0:
{
int8_t timerMode = timer->mode;
if (timerMode < 0) timerMode -= TMRMODE_COUNT-1;
CHECK_INCDEC_MODELVAR_CHECK(event, timerMode, -TMRMODE_COUNT-SWSRC_LAST+1, TMRMODE_COUNT+SWSRC_LAST-1, isSwitchAvailableInTimers);
if (timerMode < 0) timerMode += TMRMODE_COUNT-1;
timer->mode = timerMode;
#if defined(AUTOSWITCH)
if (s_editMode>0) {
int8_t val = timer->mode - (TMRMODE_COUNT-1);
int8_t switchVal = checkIncDecMovedSwitch(val);
if (val != switchVal) {
timer->mode = switchVal + (TMRMODE_COUNT-1);
storageDirty(EE_MODEL);
}
}
#endif
break;
}
case 1:
CHECK_INCDEC_MODELVAR_ZERO(event, qr.quot, 539); // 8:59
timer->start = qr.rem + qr.quot*60;
break;
case 2:
qr.rem -= checkIncDecModel(event, qr.rem+2, 1, 62)-2;
timer->start -= qr.rem ;
if ((int16_t)timer->start < 0) timer->start=0;
if ((int16_t)timer->start > 5999) timer->start=32399; // 8:59:59
break;
}
}
break;
}
case ITEM_MODEL_TIMER1_NAME:
case ITEM_MODEL_TIMER2_NAME:
case ITEM_MODEL_TIMER3_NAME:
{
TimerData * timer = &g_model.timers[k>=ITEM_MODEL_TIMER3 ? 2 : (k>=ITEM_MODEL_TIMER2 ? 1 : 0)];
editSingleName(MODEL_SETUP_2ND_COLUMN, y, STR_TIMER_NAME, timer->name, sizeof(timer->name), event, attr);
break;
}
case ITEM_MODEL_TIMER1_MINUTE_BEEP:
case ITEM_MODEL_TIMER2_MINUTE_BEEP:
case ITEM_MODEL_TIMER3_MINUTE_BEEP:
{
TimerData * timer = &g_model.timers[k>=ITEM_MODEL_TIMER3 ? 2 : (k>=ITEM_MODEL_TIMER2 ? 1 : 0)];
timer->minuteBeep = editCheckBox(timer->minuteBeep, MODEL_SETUP_2ND_COLUMN, y, STR_MINUTEBEEP, attr, event);
break;
}
case ITEM_MODEL_TIMER1_COUNTDOWN_BEEP:
case ITEM_MODEL_TIMER2_COUNTDOWN_BEEP:
case ITEM_MODEL_TIMER3_COUNTDOWN_BEEP:
{
TimerData * timer = &g_model.timers[k>=ITEM_MODEL_TIMER3 ? 2 : (k>=ITEM_MODEL_TIMER2 ? 1 : 0)];
timer->countdownBeep = editChoice(MODEL_SETUP_2ND_COLUMN, y, STR_BEEPCOUNTDOWN, STR_VBEEPCOUNTDOWN, timer->countdownBeep, COUNTDOWN_SILENT, COUNTDOWN_COUNT-1, attr, event);
break;
}
case ITEM_MODEL_TIMER1_PERSISTENT:
case ITEM_MODEL_TIMER2_PERSISTENT:
case ITEM_MODEL_TIMER3_PERSISTENT:
{
TimerData * timer = &g_model.timers[k>=ITEM_MODEL_TIMER3 ? 2 : (k>=ITEM_MODEL_TIMER2 ? 1 : 0)];
timer->persistent = editChoice(MODEL_SETUP_2ND_COLUMN, y, STR_PERSISTENT, STR_VPERSISTENT, timer->persistent, 0, 2, attr, event);
break;
}
case ITEM_MODEL_EXTENDED_LIMITS:
ON_OFF_MENU_ITEM(g_model.extendedLimits, MODEL_SETUP_2ND_COLUMN, y, STR_ELIMITS, attr, event);
break;
case ITEM_MODEL_EXTENDED_TRIMS:
ON_OFF_MENU_ITEM(g_model.extendedTrims, MODEL_SETUP_2ND_COLUMN, y, STR_ETRIMS, menuHorizontalPosition<=0 ? attr : 0, event==EVT_KEY_BREAK(KEY_ENTER) ? event : 0);
lcdDrawText(MODEL_SETUP_2ND_COLUMN+4*FW, y, STR_RESET_BTN, (menuHorizontalPosition>0 && !NO_HIGHLIGHT()) ? attr : 0);
if (attr && menuHorizontalPosition>0) {
s_editMode = 0;
if (event==EVT_KEY_LONG(KEY_ENTER)) {
START_NO_HIGHLIGHT();
for (uint8_t i=0; i<MAX_FLIGHT_MODES; i++) {
memclear(&g_model.flightModeData[i], TRIMS_ARRAY_SIZE);
}
storageDirty(EE_MODEL);
AUDIO_WARNING1();
}
}
break;
case ITEM_MODEL_DISPLAY_TRIMS:
g_model.displayTrims = editChoice(MODEL_SETUP_2ND_COLUMN, y, STR_DISPLAY_TRIMS, STR_VDISPLAYTRIMS, g_model.displayTrims, 0, 2, attr, event);
break;
case ITEM_MODEL_TRIM_INC:
g_model.trimInc = editChoice(MODEL_SETUP_2ND_COLUMN, y, STR_TRIMINC, STR_VTRIMINC, g_model.trimInc, -2, 2, attr, event);
break;
case ITEM_MODEL_THROTTLE_REVERSED:
ON_OFF_MENU_ITEM(g_model.throttleReversed, MODEL_SETUP_2ND_COLUMN, y, STR_THROTTLEREVERSE, attr, event ) ;
break;
case ITEM_MODEL_THROTTLE_TRACE:
{
lcdDrawTextAlignedLeft(y, STR_TTRACE);
if (attr) CHECK_INCDEC_MODELVAR_ZERO(event, g_model.thrTraceSrc, NUM_POTS+NUM_SLIDERS+MAX_OUTPUT_CHANNELS);
uint8_t idx = g_model.thrTraceSrc + MIXSRC_Thr;
if (idx > MIXSRC_Thr)
idx += 1;
if (idx >= MIXSRC_FIRST_POT+NUM_POTS+NUM_SLIDERS)
idx += MIXSRC_CH1 - MIXSRC_FIRST_POT - NUM_POTS - NUM_SLIDERS;
drawSource(MODEL_SETUP_2ND_COLUMN, y, idx, attr);
break;
}
case ITEM_MODEL_THROTTLE_TRIM:
ON_OFF_MENU_ITEM(g_model.thrTrim, MODEL_SETUP_2ND_COLUMN, y, STR_TTRIM, attr, event);
break;
case ITEM_MODEL_PREFLIGHT_LABEL:
lcdDrawTextAlignedLeft(y, STR_PREFLIGHT);
break;
case ITEM_MODEL_CHECKLIST_DISPLAY:
ON_OFF_MENU_ITEM(g_model.displayChecklist, MODEL_SETUP_2ND_COLUMN, y, STR_CHECKLIST, attr, event);
break;
case ITEM_MODEL_THROTTLE_WARNING:
g_model.disableThrottleWarning = !editCheckBox(!g_model.disableThrottleWarning, MODEL_SETUP_2ND_COLUMN, y, STR_THROTTLEWARNING, attr, event);
break;
#if defined(PCBTARANIS)
case ITEM_MODEL_SWITCHES_WARNING2:
if (i==0) {
if (CURSOR_MOVED_LEFT(event))
menuVerticalOffset--;
else
menuVerticalOffset++;
}
break;
#endif
case ITEM_MODEL_SWITCHES_WARNING:
#if defined(PCBTARANIS)
{
#define FIRSTSW_STR STR_VSRCRAW+(MIXSRC_FIRST_SWITCH-MIXSRC_Rud+1)*length
uint8_t length = STR_VSRCRAW[0];
horzpos_t l_posHorz = menuHorizontalPosition;
if (i>=NUM_BODY_LINES-2 && getSwitchWarningsCount() > 5*(NUM_BODY_LINES-i)) {
if (CURSOR_MOVED_LEFT(event))
menuVerticalOffset--;
else
menuVerticalOffset++;
break;
}
swarnstate_t states = g_model.switchWarningState;
char c;
lcdDrawTextAlignedLeft(y, STR_SWITCHWARNING);
#if defined(PCBXLITE)
lcdDrawText(LCD_W, y, "<]", RIGHT);
if (attr) {
if (menuHorizontalPosition > NUM_SWITCHES)
menuHorizontalPosition = NUM_SWITCHES;
}
if (attr && menuHorizontalPosition == NUM_SWITCHES) {
#else
if (attr) {
#endif
s_editMode = 0;
if (!READ_ONLY()) {
switch (event) {
case EVT_KEY_BREAK(KEY_ENTER):
break;
case EVT_KEY_LONG(KEY_ENTER):
if (menuHorizontalPosition < 0 || menuHorizontalPosition >= NUM_SWITCHES) {
START_NO_HIGHLIGHT();
getMovedSwitch();
g_model.switchWarningState = switches_states;
AUDIO_WARNING1();
storageDirty(EE_MODEL);
}
killEvents(event);
break;
}
}
}
LcdFlags line = attr;
int current = 0;
for (int i=0; i<NUM_SWITCHES; i++) {
if (SWITCH_WARNING_ALLOWED(i)) {
div_t qr = div(current, 5);
if (!READ_ONLY() && event==EVT_KEY_BREAK(KEY_ENTER) && line && l_posHorz==current) {
g_model.switchWarningEnable ^= (1 << i);
storageDirty(EE_MODEL);
#if defined(PCBXLITE)
s_editMode = 0;
#endif
}
uint8_t swactive = !(g_model.switchWarningEnable & (1<<i));
c = "\300-\301"[states & 0x03];
//lcdDrawChar(MODEL_SETUP_2ND_COLUMN+qr.rem*(2*FW+1), y+FH*qr.quot, 'A'+i, line && (menuHorizontalPosition==current) ? INVERS : 0);
lcdDrawSizedText(MODEL_SETUP_2ND_COLUMN + qr.rem*((2*FW)+1), y+FH*qr.quot, FIRSTSW_STR+(i*length)+3, 1, line && (menuHorizontalPosition==current) ? INVERS : 0);
if (swactive) lcdDrawChar(lcdNextPos, y+FH*qr.quot, c);
++current;
}
states >>= 2;
}
if (attr && ((menuHorizontalPosition < 0) || menuHorizontalPosition >= NUM_SWITCHES)) {
lcdDrawFilledRect(MODEL_SETUP_2ND_COLUMN-1, y-1, 8*(2*FW+1), 1+FH*((current+4)/5));
}
#else //PCBTARANIS
{
lcdDrawTextAlignedLeft(y, STR_SWITCHWARNING);
swarnstate_t states = g_model.switchWarningState;
char c;
if (attr) {
s_editMode = 0;
if (!READ_ONLY()) {
switch (event) {
CASE_EVT_ROTARY_BREAK
case EVT_KEY_BREAK(KEY_ENTER):
if (menuHorizontalPosition < NUM_SWITCHES-1) {
g_model.switchWarningEnable ^= (1 << menuHorizontalPosition);
storageDirty(EE_MODEL);
}
break;
case EVT_KEY_LONG(KEY_ENTER):
if (menuHorizontalPosition == NUM_SWITCHES-1) {
START_NO_HIGHLIGHT();
getMovedSwitch();
g_model.switchWarningState = switches_states;
AUDIO_WARNING1();
storageDirty(EE_MODEL);
}
killEvents(event);
break;
}
}
}
LcdFlags line = attr;
for (uint8_t i=0; i<NUM_SWITCHES-1/*not on TRN switch*/; i++) {
uint8_t swactive = !(g_model.switchWarningEnable & 1 << i);
attr = 0;
if (IS_3POS(i)) {
c = '0'+(states & 0x03);
states >>= 2;
}
else {
if ((states & 0x01) && swactive)
attr = INVERS;
c = *(STR_VSWITCHES - 2 + 9 + (3*(i+1)));
states >>= 1;
}
if (line && (menuHorizontalPosition == i)) {
attr = BLINK | INVERS;
}
lcdDrawChar(MODEL_SETUP_2ND_COLUMN+i*FW, y, (swactive) ? c : '-', attr);
lcdDrawText(MODEL_SETUP_2ND_COLUMN+(NUM_SWITCHES*FW), y, "<]", (menuHorizontalPosition == NUM_SWITCHES-1 && !NO_HIGHLIGHT()) ? line : 0);
}
#endif
break;
}
#if defined(PCBTARANIS)
case ITEM_MODEL_POTS_WARNING:
lcdDrawTextAlignedLeft(y, STR_POTWARNING);
lcdDrawTextAtIndex(MODEL_SETUP_2ND_COLUMN, y, "\004""OFF\0""Man\0""Auto", g_model.potsWarnMode, (menuHorizontalPosition == 0) ? attr : 0);
if (attr && (menuHorizontalPosition == 0)) {
CHECK_INCDEC_MODELVAR(event, g_model.potsWarnMode, POTS_WARN_OFF, POTS_WARN_AUTO);
storageDirty(EE_MODEL);
}
if (attr) {
if (menuHorizontalPosition > 0) s_editMode = 0;
if (!READ_ONLY() && menuHorizontalPosition > 0) {
switch (event) {
case EVT_KEY_LONG(KEY_ENTER):
killEvents(event);
if (g_model.potsWarnMode == POTS_WARN_MANUAL) {
SAVE_POT_POSITION(menuHorizontalPosition-1);
AUDIO_WARNING1();
storageDirty(EE_MODEL);
}
break;
case EVT_KEY_BREAK(KEY_ENTER):
g_model.potsWarnEnabled ^= (1 << (menuHorizontalPosition-1));
storageDirty(EE_MODEL);
break;
}
}
}
if (g_model.potsWarnMode) {
coord_t x = MODEL_SETUP_2ND_COLUMN+28;
for (int i=0; i<NUM_POTS+NUM_SLIDERS; ++i) {
if (i<NUM_XPOTS && !IS_POT_SLIDER_AVAILABLE(POT1+i)) {
if (attr && (menuHorizontalPosition==i+1)) REPEAT_LAST_CURSOR_MOVE();
}
else {
LcdFlags flags = ((menuHorizontalPosition==i+1) && attr) ? BLINK : 0;
if ((!attr || menuHorizontalPosition >= 0) && !(g_model.potsWarnEnabled & (1 << i))) {
flags |= INVERS;
}
// TODO add a new function
lcdDrawSizedText(x, y, STR_VSRCRAW+2+STR_VSRCRAW[0]*(NUM_STICKS+1+i), STR_VSRCRAW[0]-1, flags & ~ZCHAR);
x = lcdNextPos+3;
}
}
}
break;
#endif
case ITEM_MODEL_BEEP_CENTER:
lcdDrawTextAlignedLeft(y, STR_BEEPCTR);
for (uint8_t i=0; i<NUM_STICKS+NUM_POTS+NUM_SLIDERS+NUM_ROTARY_ENCODERS; i++) {
// TODO flash saving, \001 not needed in STR_RETA123
coord_t x = MODEL_SETUP_2ND_COLUMN+i*FW;
lcdDrawTextAtIndex(x, y, STR_RETA123, i, ((menuHorizontalPosition==i) && attr) ? BLINK|INVERS : (((g_model.beepANACenter & ((BeepANACenter)1<<i)) || (attr && CURSOR_ON_LINE())) ? INVERS : 0 ) );
}
if (attr && CURSOR_ON_CELL) {
if (event==EVT_KEY_BREAK(KEY_ENTER) || p1valdiff) {
if (READ_ONLY_UNLOCKED()) {
s_editMode = 0;
g_model.beepANACenter ^= ((BeepANACenter)1<<menuHorizontalPosition);
storageDirty(EE_MODEL);
}
}
}
break;
case ITEM_MODEL_USE_GLOBAL_FUNCTIONS:
lcdDrawTextAlignedLeft(y, STR_USE_GLOBAL_FUNCS);
drawCheckBox(MODEL_SETUP_2ND_COLUMN, y, !g_model.noGlobalFunctions, attr);
if (attr) g_model.noGlobalFunctions = !checkIncDecModel(event, !g_model.noGlobalFunctions, 0, 1);
break;
#if defined(PCBTARANIS)
case ITEM_MODEL_INTERNAL_MODULE_LABEL:
lcdDrawTextAlignedLeft(y, TR_INTERNALRF);
break;
case ITEM_MODEL_INTERNAL_MODULE_MODE:
lcdDrawTextAlignedLeft(y, STR_MODE);
lcdDrawTextAtIndex(MODEL_SETUP_2ND_COLUMN, y, STR_TARANIS_PROTOCOLS, g_model.moduleData[INTERNAL_MODULE].type, attr);
if (attr) {
g_model.moduleData[INTERNAL_MODULE].type = checkIncDec(event, g_model.moduleData[INTERNAL_MODULE].type, MODULE_TYPE_NONE, MODULE_TYPE_XJT, EE_MODEL, isInternalModuleAvailable);
if (checkIncDec_Ret) {
/* ToDo : what needs to happen on module enable/disable */
}
}
break;
#endif
#if defined(PCBSKY9X)
case ITEM_MODEL_EXTRA_MODULE_LABEL:
lcdDrawTextAlignedLeft(y, "RF Port 2 (PPM)");
break;
#endif
case ITEM_MODEL_EXTERNAL_MODULE_LABEL:
lcdDrawTextAlignedLeft(y, TR_EXTERNALRF);
break;
case ITEM_MODEL_EXTERNAL_MODULE_MODE:
lcdDrawTextAlignedLeft(y, STR_MODE);
lcdDrawTextAtIndex(MODEL_SETUP_2ND_COLUMN, y, STR_TARANIS_PROTOCOLS, g_model.moduleData[EXTERNAL_MODULE].type, menuHorizontalPosition==0 ? attr : 0);
if (isModuleXJT(EXTERNAL_MODULE))
lcdDrawTextAtIndex(MODEL_SETUP_2ND_COLUMN+5*FW, y, STR_XJT_PROTOCOLS, 1+g_model.moduleData[EXTERNAL_MODULE].rfProtocol, menuHorizontalPosition==1 ? attr : 0);
else if (isModuleDSM2(EXTERNAL_MODULE))
lcdDrawTextAtIndex(MODEL_SETUP_2ND_COLUMN+5*FW, y, STR_DSM_PROTOCOLS, g_model.moduleData[EXTERNAL_MODULE].rfProtocol, menuHorizontalPosition==1 ? attr : 0);
#if defined(PCBXLITE)
else if (isModuleR9M(EXTERNAL_MODULE))
lcdDrawTextAtIndex(MODEL_SETUP_2ND_COLUMN+5*FW, y, STR_R9M_REGION, g_model.moduleData[EXTERNAL_MODULE].subType, (menuHorizontalPosition==1 ? attr : 0));
#else
else if (isR9ModuleRunning(EXTERNAL_MODULE))
lcdDrawTextAtIndex(MODEL_SETUP_2ND_COLUMN+5*FW, y, STR_R9M_REGION, g_model.moduleData[EXTERNAL_MODULE].r9m.region, (menuHorizontalPosition==1 ? attr : 0));
#endif
#if defined(MULTIMODULE)
else if (isModuleMultimodule(EXTERNAL_MODULE)) {
int multi_rfProto = g_model.moduleData[EXTERNAL_MODULE].getMultiProtocol(false);
if (g_model.moduleData[EXTERNAL_MODULE].multi.customProto)
lcdDrawText(MODEL_SETUP_2ND_COLUMN+5*FW, y, STR_MULTI_CUSTOM, menuHorizontalPosition==1 ? attr : 0);
else
lcdDrawTextAtIndex(MODEL_SETUP_2ND_COLUMN+5*FW, y, STR_MULTI_PROTOCOLS, multi_rfProto, menuHorizontalPosition==1 ? attr : 0);
}
#endif
if (attr && (editMode>0 || p1valdiff)) {
switch (menuHorizontalPosition) {
case 0:
g_model.moduleData[EXTERNAL_MODULE].type = checkIncDec(event, g_model.moduleData[EXTERNAL_MODULE].type, MODULE_TYPE_NONE, IS_TRAINER_EXTERNAL_MODULE() ? MODULE_TYPE_NONE : MODULE_TYPE_COUNT-1, EE_MODEL, isModuleAvailable);
if (checkIncDec_Ret) {
g_model.moduleData[EXTERNAL_MODULE].rfProtocol = 0;
g_model.moduleData[EXTERNAL_MODULE].channelsStart = 0;
g_model.moduleData[EXTERNAL_MODULE].channelsCount = defaultModuleChannels_M8(EXTERNAL_MODULE);
if (isModuleSBUS(EXTERNAL_MODULE))
g_model.moduleData[EXTERNAL_MODULE].sbus.refreshRate = -31;
if(isModulePPM(EXTERNAL_MODULE))
SET_DEFAULT_PPM_FRAME_LENGTH(EXTERNAL_MODULE);
}
break;
case 1:
if (isModuleDSM2(EXTERNAL_MODULE))
CHECK_INCDEC_MODELVAR(event, g_model.moduleData[EXTERNAL_MODULE].rfProtocol, DSM2_PROTO_LP45, DSM2_PROTO_DSMX);
#if defined(PCBXLITE)
else if (isModuleR9M(EXTERNAL_MODULE)) {
uint8_t newR9MType = checkIncDec(event, g_model.moduleData[EXTERNAL_MODULE].subType, MODULE_SUBTYPE_R9M_FCC, MODULE_SUBTYPE_R9M_LAST, EE_MODEL, isR9MModeAvailable);
if (newR9MType != g_model.moduleData[EXTERNAL_MODULE].subType && newR9MType > MODULE_SUBTYPE_R9M_EU) {
POPUP_WARNING(STR_R9MFLEXWARN1);
const char * w = STR_R9MFLEXWARN2;
SET_WARNING_INFO(w, strlen(w), 0);
}
g_model.moduleData[EXTERNAL_MODULE].subType = newR9MType;
}
#endif
#if defined(MULTIMODULE)
else if (isModuleMultimodule(EXTERNAL_MODULE)) {
int multiRfProto = g_model.moduleData[EXTERNAL_MODULE].multi.customProto == 1 ? MM_RF_PROTO_CUSTOM : g_model.moduleData[EXTERNAL_MODULE].getMultiProtocol(false);
CHECK_INCDEC_MODELVAR(event, multiRfProto, MM_RF_PROTO_FIRST, MM_RF_PROTO_LAST);
if (checkIncDec_Ret) {
g_model.moduleData[EXTERNAL_MODULE].multi.customProto = (multiRfProto == MM_RF_PROTO_CUSTOM);
if (!g_model.moduleData[EXTERNAL_MODULE].multi.customProto)
g_model.moduleData[EXTERNAL_MODULE].setMultiProtocol(multiRfProto);
g_model.moduleData[EXTERNAL_MODULE].subType = 0;
// Sensible default for DSM2 (same as for ppm): 7ch@22ms + Autodetect settings enabled
if (g_model.moduleData[EXTERNAL_MODULE].getMultiProtocol(true) == MM_RF_PROTO_DSM2) {
g_model.moduleData[EXTERNAL_MODULE].multi.autoBindMode = 1;
}
else {
g_model.moduleData[EXTERNAL_MODULE].multi.autoBindMode = 0;
}
g_model.moduleData[EXTERNAL_MODULE].multi.optionValue = 0;
}
}
#endif
else {
CHECK_INCDEC_MODELVAR(event, g_model.moduleData[EXTERNAL_MODULE].rfProtocol, RF_PROTO_X16, RF_PROTO_LAST);
}
if (checkIncDec_Ret) {
g_model.moduleData[EXTERNAL_MODULE].channelsStart = 0;
g_model.moduleData[EXTERNAL_MODULE].channelsCount = defaultModuleChannels_M8(EXTERNAL_MODULE);
}
}
}
break;
#if defined(MULTIMODULE)
case ITEM_MODEL_EXTERNAL_MODULE_SUBTYPE:
{
lcdDrawTextAlignedLeft(y, STR_SUBTYPE);
uint8_t multi_rfProto = g_model.moduleData[EXTERNAL_MODULE].getMultiProtocol(true);
const mm_protocol_definition * pdef = getMultiProtocolDefinition(multi_rfProto);
if (multi_rfProto == MM_RF_CUSTOM_SELECTED) {
lcdDrawNumber(MODEL_SETUP_2ND_COLUMN + 3 * FW, y, g_model.moduleData[EXTERNAL_MODULE].getMultiProtocol(false), RIGHT | (menuHorizontalPosition == 0 ? attr : 0), 2);
lcdDrawNumber(MODEL_SETUP_2ND_COLUMN + 5 * FW, y, g_model.moduleData[EXTERNAL_MODULE].subType, RIGHT | (menuHorizontalPosition == 1 ? attr : 0), 2);
}
else {
if (pdef->subTypeString != nullptr)
lcdDrawTextAtIndex(MODEL_SETUP_2ND_COLUMN, y, pdef->subTypeString, g_model.moduleData[EXTERNAL_MODULE].subType, attr);
}
if (attr && (editMode > 0 || p1valdiff)) {
switch (menuHorizontalPosition) {
case 0:
if (multi_rfProto == MM_RF_CUSTOM_SELECTED)
g_model.moduleData[EXTERNAL_MODULE].setMultiProtocol(checkIncDec(event, g_model.moduleData[EXTERNAL_MODULE].getMultiProtocol(false), 0, 63, EE_MODEL));
else if (pdef->maxSubtype > 0)
CHECK_INCDEC_MODELVAR(event, g_model.moduleData[EXTERNAL_MODULE].subType, 0, pdef->maxSubtype);
break;
case 1:
// Custom protocol, third column is subtype
CHECK_INCDEC_MODELVAR(event, g_model.moduleData[EXTERNAL_MODULE].subType, 0, 7);
break;
}
}
}
break;
#endif
#if defined(PCBTARANIS)
case ITEM_MODEL_TRAINER_LABEL:
lcdDrawTextAlignedLeft(y, STR_TRAINER);
break;
case ITEM_MODEL_TRAINER_MODE:
lcdDrawTextAlignedLeft(y, STR_MODE);
lcdDrawTextAtIndex(MODEL_SETUP_2ND_COLUMN, y, STR_VTRAINERMODES, g_model.trainerData.mode, attr);
if (attr) {
g_model.trainerData.mode = checkIncDec(event, g_model.trainerData.mode, 0, TRAINER_MODE_MAX(), EE_MODEL, isTrainerModeAvailable);
#if defined(BLUETOOTH)
if (checkIncDec_Ret) {
bluetoothState = BLUETOOTH_STATE_OFF;
bluetoothDistantAddr[0] = 0;
}
#endif
}
break;
#endif
#if defined(PCBTARANIS) && defined(BLUETOOTH)
case ITEM_MODEL_TRAINER_BLUETOOTH:
if (g_model.trainerData.mode == TRAINER_MODE_MASTER_BLUETOOTH) {
if (attr) {
s_editMode = 0;
}
if (bluetoothDistantAddr[0]) {
lcdDrawText(INDENT_WIDTH, y+1, bluetoothDistantAddr, TINSIZE);
if (bluetoothState != BLUETOOTH_STATE_CONNECTED) {
lcdDrawText(MODEL_SETUP_2ND_COLUMN, y, BUTTON("Bind"), menuHorizontalPosition == 0 ? attr : 0);
lcdDrawText(MODEL_SETUP_2ND_COLUMN+5*FW, y, BUTTON("Clear"), menuHorizontalPosition == 1 ? attr : 0);
}
else {
lcdDrawText(MODEL_SETUP_2ND_COLUMN, y, BUTTON("Clear"), attr);
}
if (attr && event == EVT_KEY_FIRST(KEY_ENTER)) {
if (bluetoothState == BLUETOOTH_STATE_CONNECTED || menuHorizontalPosition == 1) {
bluetoothState = BLUETOOTH_STATE_OFF;
bluetoothDistantAddr[0] = 0;
}
else {
bluetoothState = BLUETOOTH_STATE_BIND_REQUESTED;
}
}
}
else {
lcdDrawText(INDENT_WIDTH, y, "---");
if (bluetoothState < BLUETOOTH_STATE_IDLE)
lcdDrawText(MODEL_SETUP_2ND_COLUMN, y, BUTTON("Init"), attr);
else
lcdDrawText(MODEL_SETUP_2ND_COLUMN, y, BUTTON("Discover"), attr);
if (attr && event == EVT_KEY_FIRST(KEY_ENTER)) {
if (bluetoothState < BLUETOOTH_STATE_IDLE)
bluetoothState = BLUETOOTH_STATE_OFF;
else
bluetoothState = BLUETOOTH_STATE_DISCOVER_REQUESTED;
}
}
}
else {
if (bluetoothDistantAddr[0])
lcdDrawText(INDENT_WIDTH, y+1, bluetoothDistantAddr, TINSIZE);
else
lcdDrawText(INDENT_WIDTH, y, "---");
lcdDrawText(MODEL_SETUP_2ND_COLUMN, y, bluetoothState == BLUETOOTH_STATE_CONNECTED ? "Connected" : "!Connected");
}
break;
#endif
#if defined(PCBTARANIS)
case ITEM_MODEL_TRAINER_CHANNELS:
lcdDrawTextAlignedLeft(y, STR_CHANNELRANGE);
lcdDrawText(MODEL_SETUP_2ND_COLUMN, y, STR_CH, menuHorizontalPosition==0 ? attr : 0);
lcdDrawNumber(lcdLastRightPos, y, g_model.trainerData.channelsStart+1, LEFT | (menuHorizontalPosition==0 ? attr : 0));
lcdDrawChar(lcdLastRightPos, y, '-');
lcdDrawNumber(lcdLastRightPos + FW+1, y, g_model.trainerData.channelsStart + 8 + g_model.trainerData.channelsCount, LEFT | (menuHorizontalPosition==1 ? attr : 0));
if (attr && (editMode>0 || p1valdiff)) {
switch (menuHorizontalPosition) {
case 0:
CHECK_INCDEC_MODELVAR_ZERO(event, g_model.trainerData.channelsStart, 32-8-g_model.trainerData.channelsCount);
break;
case 1:
CHECK_INCDEC_MODELVAR(event, g_model.trainerData.channelsCount, -4, min<int8_t>(MAX_TRAINER_CHANNELS_M8, 32-8-g_model.trainerData.channelsStart));
break;
}
}
break;
#endif
#if defined(PCBSKY9X)
case ITEM_MODEL_EXTRA_MODULE_CHANNELS:
#endif
case ITEM_MODEL_EXTERNAL_MODULE_CHANNELS:
{
uint8_t moduleIdx = CURRENT_MODULE_EDITED(k);
ModuleData & moduleData = g_model.moduleData[moduleIdx];
lcdDrawTextAlignedLeft(y, STR_CHANNELRANGE);
if ((int8_t)PORT_CHANNELS_ROWS(moduleIdx) >= 0) {
lcdDrawText(MODEL_SETUP_2ND_COLUMN, y, STR_CH, menuHorizontalPosition==0 ? attr : 0);
lcdDrawNumber(lcdLastRightPos, y, moduleData.channelsStart+1, LEFT | (menuHorizontalPosition==0 ? attr : 0));
lcdDrawChar(lcdLastRightPos, y, '-');
lcdDrawNumber(lcdLastRightPos + FW+1, y, moduleData.channelsStart+sentModuleChannels(moduleIdx), LEFT | (menuHorizontalPosition==1 ? attr : 0));
if (attr && (editMode>0 || p1valdiff)) {
switch (menuHorizontalPosition) {
case 0:
CHECK_INCDEC_MODELVAR_ZERO(event, moduleData.channelsStart, 32-8-moduleData.channelsCount);
break;
case 1:
CHECK_INCDEC_MODELVAR(event, moduleData.channelsCount, -4, min<int8_t>(maxModuleChannels_M8(moduleIdx), 32-8-moduleData.channelsStart));
if ((k == ITEM_MODEL_EXTERNAL_MODULE_CHANNELS && g_model.moduleData[EXTERNAL_MODULE].type == MODULE_TYPE_PPM)) {
SET_DEFAULT_PPM_FRAME_LENGTH(moduleIdx);
}
break;
}
}
}
break;
}
#if defined(PCBX7)
case ITEM_MODEL_TRAINER_PARAMS:
lcdDrawTextAlignedLeft(y, STR_PPMFRAME);
lcdDrawText(MODEL_SETUP_2ND_COLUMN+3*FW, y, STR_MS);
lcdDrawNumber(MODEL_SETUP_2ND_COLUMN, y, (int16_t)g_model.trainerData.frameLength*5 + 225, (menuHorizontalPosition<=0 ? attr : 0) | PREC1|LEFT);
lcdDrawChar(MODEL_SETUP_2ND_COLUMN+8*FW+2, y, 'u');
lcdDrawNumber(MODEL_SETUP_2ND_COLUMN+8*FW+2, y, (g_model.trainerData.delay*50)+300, RIGHT | ((CURSOR_ON_LINE() || menuHorizontalPosition==1) ? attr : 0));
lcdDrawChar(MODEL_SETUP_2ND_COLUMN+10*FW, y, g_model.trainerData.pulsePol ? '+' : '-', (CURSOR_ON_LINE() || menuHorizontalPosition==2) ? attr : 0);
if (attr && (editMode>0 || p1valdiff)) {
switch (menuHorizontalPosition) {
case 0:
CHECK_INCDEC_MODELVAR(event, g_model.trainerData.frameLength, -20, 35);
break;
case 1:
CHECK_INCDEC_MODELVAR(event, g_model.trainerData.delay, -4, 10);
break;
case 2:
CHECK_INCDEC_MODELVAR_ZERO(event, g_model.trainerData.pulsePol, 1);
break;
}
}
break;
#endif
#if defined(PCBTARANIS)
case ITEM_MODEL_REGISTRATION_ID:
{
lcdDrawTextAlignedLeft(y, "Reg. ID");
for (uint8_t pos=0; pos<PXX2_LEN_REGISTRATION_ID; pos++) {
lcdDrawHexChar(MODEL_SETUP_2ND_COLUMN + pos*FW*2,y, g_model.modelRegistrationID[pos], menuHorizontalPosition==pos ? attr : 0);
lcdDrawChar(lcdLastRightPos, y, ':');
if (attr && menuHorizontalPosition == pos) {
CHECK_INCDEC_MODELVAR_ZERO(event, g_model.modelRegistrationID[pos], 0xff);
}
}
}
break;
case ITEM_MODEL_INTERNAL_MODULE_MODEL_NUM:
lcdDrawTextAlignedLeft(y, STR_RECEIVER_NUM);
lcdDrawNumber(MODEL_SETUP_2ND_COLUMN, y, g_model.header.modelId[INTERNAL_MODULE], attr | LEADING0|LEFT, 2);
if (attr) {
CHECK_INCDEC_MODELVAR_ZERO(event, g_model.header.modelId[INTERNAL_MODULE], MAX_RX_NUM(INTERNAL_MODULE));
if (checkIncDec_Ret) {
modelHeaders[g_eeGeneral.currModel].modelId[INTERNAL_MODULE] = g_model.header.modelId[INTERNAL_MODULE];
}
}
break;
case ITEM_MODEL_INTERNAL_MODULE_RANGE_REG:
lcdDrawTextAlignedLeft(y, INDENT "Module");
lcdDrawText(MODEL_SETUP_2ND_COLUMN, y, STR_MODULE_RANGE, (menuHorizontalPosition==0 ? attr : 0) );
lcdDrawText(lcdLastRightPos, y, "[Reg]", (menuHorizontalPosition==1 ? attr : 0) );
if (attr && s_editMode>0 && menuHorizontalPosition == 0 ) {
moduleSettings[INTERNAL_MODULE].mode = MODULE_MODE_RANGECHECK;
}
if(attr && menuHorizontalPosition == 1) {
if (event == EVT_KEY_BREAK(KEY_ENTER)) {
moduleSettings[INTERNAL_MODULE].mode ^= MODULE_MODE_REGISTER;
}
if (moduleSettings[INTERNAL_MODULE].mode == MODULE_MODE_REGISTER) {
s_editMode = 1;
}
}
if (attr && s_editMode==0) {
moduleSettings[INTERNAL_MODULE].mode = MODULE_MODE_NORMAL;
}
if (attr && moduleSettings[INTERNAL_MODULE].mode == MODULE_MODE_NORMAL) {
s_editMode = 0;
}
break;
case ITEM_MODEL_INTERNAL_MODULE_ADD_RECEIVER:
lcdDrawTextAlignedLeft(y, "Receiver");
lcdDrawText(MODEL_SETUP_2ND_COLUMN, y, "[Add]", attr);
if (attr && s_editMode>0) {
if (g_model.moduleData[INTERNAL_MODULE].pxx2.receivers[0].enabled) {
g_model.moduleData[INTERNAL_MODULE].pxx2.receivers[1].enabled = 0x01;
memcpy(&g_model.moduleData[INTERNAL_MODULE].pxx2.receivers[1].channelMapping, DEFAULT_CHANNEL_MAPPING, sizeof(uint64_t));
}
else {
g_model.moduleData[INTERNAL_MODULE].pxx2.receivers[0].enabled = 0x01;
memcpy(&g_model.moduleData[INTERNAL_MODULE].pxx2.receivers[0].channelMapping, DEFAULT_CHANNEL_MAPPING, sizeof(uint64_t));
}
s_editMode = 0;
}
break;
case ITEM_MODEL_INTERNAL_MODULE_RECEIVER_1_NUMBER:
case ITEM_MODEL_INTERNAL_MODULE_RECEIVER_2_NUMBER:
{
uint8_t receiverIdx = CURRENT_RECEIVER_EDITED(k);
lcdDrawTextAlignedLeft(y, "Receiver");
lcdDrawNumber(MODEL_SETUP_2ND_COLUMN, y, receiverIdx+1);
}
break;
case ITEM_MODEL_INTERNAL_MODULE_RECEIVER_1_RANGE:
case ITEM_MODEL_INTERNAL_MODULE_RECEIVER_2_RANGE:
{
// TODO have a proper channel assignement screen, section bellow is just for tests
uint8_t useUpperChannels;
uint8_t receiverIdx = CURRENT_RECEIVER_EDITED(k);
if (memcmp(&g_model.moduleData[INTERNAL_MODULE].pxx2.receivers[receiverIdx].channelMapping, DEFAULT_CHANNEL_MAPPING, sizeof(uint64_t)) == 0)
useUpperChannels = 0;
else
useUpperChannels = 1;
useUpperChannels = editCheckBox(useUpperChannels, MODEL_SETUP_2ND_COLUMN, y, INDENT "Use CH9-16", attr, event);
if (useUpperChannels)
memcpy(&g_model.moduleData[INTERNAL_MODULE].pxx2.receivers[receiverIdx].channelMapping, CH9TO16_CHANNEL_MAPPING, sizeof(uint64_t));
else
memcpy(&g_model.moduleData[INTERNAL_MODULE].pxx2.receivers[receiverIdx].channelMapping, DEFAULT_CHANNEL_MAPPING, sizeof(uint64_t));
}
break;
case ITEM_MODEL_INTERNAL_MODULE_RECEIVER_1_TELEM:
case ITEM_MODEL_INTERNAL_MODULE_RECEIVER_2_TELEM:
{
uint8_t receiverIdx = CURRENT_RECEIVER_EDITED(k);
g_model.moduleData[INTERNAL_MODULE].pxx2.receivers[receiverIdx].telemetry = editCheckBox(g_model.moduleData[INTERNAL_MODULE].pxx2.receivers[receiverIdx].telemetry, MODEL_SETUP_2ND_COLUMN, y, INDENT "Telemetry", attr, event);
}
break;
case ITEM_MODEL_INTERNAL_MODULE_RECEIVER_1_BIND:
case ITEM_MODEL_INTERNAL_MODULE_RECEIVER_2_BIND:
{
uint8_t receiverIdx = CURRENT_RECEIVER_EDITED(k);
lcdDrawTextAlignedLeft(y, INDENT "Receiver");
lcdDrawText(MODEL_SETUP_2ND_COLUMN, y, STR_MODULE_BIND, menuHorizontalPosition==0 ? attr : 0);
lcdDrawText(MODEL_SETUP_2ND_COLUMN+MODEL_SETUP_RANGE_OFS, y, STR_DEL_BUTTON, menuHorizontalPosition==1 ? attr : 0);
if (attr) {
if (menuHorizontalPosition == 0) {
if (event == EVT_KEY_BREAK(KEY_ENTER)) {
reusableBuffer.modelsetup.pxx2_register_or_bind_step = BIND_START;
reusableBuffer.modelsetup.pxx2_bind_receiver_index = receiverIdx;
reusableBuffer.modelsetup.pxx2_bind_candidate_receivers_count = 0;
moduleSettings[INTERNAL_MODULE].mode ^= MODULE_MODE_BIND;
}
if (moduleSettings[INTERNAL_MODULE].mode == MODULE_MODE_BIND) {
s_editMode = 1;
if (reusableBuffer.modelsetup.pxx2_register_or_bind_step == BIND_RX_ID_RECEIVED) {
popupMenuItemsCount = min<uint8_t>(reusableBuffer.modelsetup.pxx2_bind_candidate_receivers_count, PXX2_MAX_RECEIVERS_PER_MODULE);
for (uint8_t i=0; i<popupMenuItemsCount; i++) {
popupMenuItems[i] = reusableBuffer.modelsetup.pxx2_bind_candidate_receivers_names[i];
}
POPUP_MENU_START(onPXX2BindMenu);
}
}
else {
s_editMode = 0;
}
}
else if (menuHorizontalPosition == 1 && s_editMode > 0) {
if (receiverIdx == 0) {
memcpy(&g_model.moduleData[INTERNAL_MODULE].pxx2.receivers[0],
&g_model.moduleData[INTERNAL_MODULE].pxx2.receivers[1], sizeof(ReceiverData));
memclear(&g_model.moduleData[INTERNAL_MODULE].pxx2.receivers[1], sizeof(ReceiverData));
s_editMode = 0;
} else {
memclear(&g_model.moduleData[INTERNAL_MODULE].pxx2.receivers[receiverIdx], sizeof(ReceiverData));
s_editMode = 0;
}
}
}
}
break;
#endif
#if defined(PCBSKY9X)
case ITEM_MODEL_EXTRA_MODULE_BIND:
#endif
case ITEM_MODEL_EXTERNAL_MODULE_BIND:
{
uint8_t moduleIdx = CURRENT_MODULE_EDITED(k);
ModuleData & moduleData = g_model.moduleData[moduleIdx];
if (isModulePPM(moduleIdx)) {
lcdDrawTextAlignedLeft(y, STR_PPMFRAME);
lcdDrawText(MODEL_SETUP_2ND_COLUMN+3*FW, y, STR_MS);
lcdDrawNumber(MODEL_SETUP_2ND_COLUMN, y, (int16_t)moduleData.ppm.frameLength*5 + 225, (menuHorizontalPosition<=0 ? attr : 0) | PREC1|LEFT);
lcdDrawChar(MODEL_SETUP_2ND_COLUMN+8*FW+2, y, 'u');
lcdDrawNumber(MODEL_SETUP_2ND_COLUMN+8*FW+2, y, (moduleData.ppm.delay*50)+300, RIGHT | ((CURSOR_ON_LINE() || menuHorizontalPosition==1) ? attr : 0));
lcdDrawChar(MODEL_SETUP_2ND_COLUMN+10*FW, y, moduleData.ppm.pulsePol ? '+' : '-', (CURSOR_ON_LINE() || menuHorizontalPosition==2) ? attr : 0);
if (attr && (editMode>0 || p1valdiff)) {
switch (menuHorizontalPosition) {
case 0:
CHECK_INCDEC_MODELVAR(event, moduleData.ppm.frameLength, -20, 35);
break;
case 1:
CHECK_INCDEC_MODELVAR(event, moduleData.ppm.delay, -4, 10);
break;
case 2:
CHECK_INCDEC_MODELVAR_ZERO(event, moduleData.ppm.pulsePol, 1);
break;
}
}
}
else if (isModuleSBUS(moduleIdx)) {
lcdDrawTextAlignedLeft(y, STR_REFRESHRATE);
lcdDrawNumber(MODEL_SETUP_2ND_COLUMN, y, (int16_t)moduleData.ppm.frameLength*5 + 225, (menuHorizontalPosition<=0 ? attr : 0) | PREC1|LEFT);
lcdDrawText(lcdLastRightPos, y, STR_MS);
lcdDrawText(MODEL_SETUP_2ND_COLUMN+5*FW+2, y, moduleData.sbus.noninverted ? "no inv" : "normal", (CURSOR_ON_LINE() || menuHorizontalPosition==1) ? attr : 0);
if (attr && s_editMode>0) {
switch (menuHorizontalPosition) {
case 0:
CHECK_INCDEC_MODELVAR(event, moduleData.ppm.frameLength, -33, 35);
break;
case 1:
CHECK_INCDEC_MODELVAR_ZERO(event, moduleData.sbus.noninverted, 1);
break;
}
}
}
else {
horzpos_t l_posHorz = menuHorizontalPosition;
coord_t xOffsetBind = MODEL_SETUP_BIND_OFS;
if (isModuleXJT(moduleIdx) && IS_D8_RX(moduleIdx)) {
xOffsetBind = 0;
lcdDrawTextAlignedLeft(y, STR_RECEIVER);
if (attr) l_posHorz += 1;
}
else {
lcdDrawTextAlignedLeft(y, STR_RECEIVER_NUM);
}
if (isModulePXX(moduleIdx) || isModuleDSM2(moduleIdx) || isModuleMultimodule(moduleIdx)) {
if (xOffsetBind)
lcdDrawNumber(MODEL_SETUP_2ND_COLUMN, y, g_model.header.modelId[moduleIdx], (l_posHorz==0 ? attr : 0) | LEADING0|LEFT, 2);
if (attr && l_posHorz == 0) {
if (editMode>0 || p1valdiff) {
CHECK_INCDEC_MODELVAR_ZERO(event, g_model.header.modelId[moduleIdx], MAX_RX_NUM(moduleIdx));
if (checkIncDec_Ret) {
modelHeaders[g_eeGeneral.currModel].modelId[moduleIdx] = g_model.header.modelId[moduleIdx];
}
else if (event == EVT_KEY_LONG(KEY_ENTER)) {
killEvents(event);
uint8_t newVal = findNextUnusedModelId(g_eeGeneral.currModel, moduleIdx);
if (newVal != g_model.header.modelId[moduleIdx]) {
modelHeaders[g_eeGeneral.currModel].modelId[moduleIdx] = g_model.header.modelId[moduleIdx] = newVal;
storageDirty(EE_MODEL);
}
}
}
}
lcdDrawText(MODEL_SETUP_2ND_COLUMN+xOffsetBind, y, STR_MODULE_BIND, l_posHorz==1 ? attr : 0);
lcdDrawText(MODEL_SETUP_2ND_COLUMN+MODEL_SETUP_RANGE_OFS+xOffsetBind, y, STR_MODULE_RANGE, l_posHorz==2 ? attr : 0);
uint8_t newFlag = 0;
#if defined(MULTIMODULE)
if (multiBindStatus == MULTI_BIND_FINISHED) {
multiBindStatus = MULTI_NORMAL_OPERATION;
s_editMode = 0;
}
#endif
#if defined(PCBTARANIS)
if (attr && l_posHorz > 0) {
if (s_editMode > 0) {
if (l_posHorz == 1) {
if (isModuleR9M(moduleIdx) || (isModuleXJT(moduleIdx) && g_model.moduleData[moduleIdx].rfProtocol== RF_PROTO_X16)) {
#if defined(PCBXLITE)
if (EVT_KEY_MASK(event) == KEY_ENTER) {
#elif defined(PCBSKY9X) || defined(AR9X)
if (event == EVT_KEY_FIRST(KEY_ENTER)) {
#else
if (event == EVT_KEY_BREAK(KEY_ENTER)) {
#endif
killEvents(event);
uint8_t default_selection = 0; // R9M_LBT should default to 0 as available options are variables
if (isModuleR9M_LBT(moduleIdx)) {
if (BIND_TELEM_ALLOWED(moduleIdx))
POPUP_MENU_ADD_ITEM(STR_BINDING_1_8_TELEM_ON);
POPUP_MENU_ADD_ITEM(STR_BINDING_1_8_TELEM_OFF);
if (BIND_TELEM_ALLOWED(moduleIdx) && BIND_CH9TO16_ALLOWED(moduleIdx))
POPUP_MENU_ADD_ITEM(STR_BINDING_9_16_TELEM_ON);
if (BIND_CH9TO16_ALLOWED(moduleIdx))
POPUP_MENU_ADD_ITEM(STR_BINDING_9_16_TELEM_OFF);
}
else {
if (BIND_TELEM_ALLOWED(moduleIdx))
POPUP_MENU_ADD_ITEM(STR_BINDING_1_8_TELEM_ON);
POPUP_MENU_ADD_ITEM(STR_BINDING_1_8_TELEM_OFF);
if (BIND_TELEM_ALLOWED(moduleIdx))
POPUP_MENU_ADD_ITEM(STR_BINDING_9_16_TELEM_ON);
POPUP_MENU_ADD_ITEM(STR_BINDING_9_16_TELEM_OFF);
default_selection = g_model.moduleData[moduleIdx].pxx.receiver_telem_off + (g_model.moduleData[moduleIdx].pxx.receiver_channel_9_16 << 1);
}
POPUP_MENU_SELECT_ITEM(default_selection);
POPUP_MENU_START(onBindMenu);
continue;
}
if (moduleSettings[moduleIdx].mode == MODULE_MODE_BIND) {
newFlag = MODULE_MODE_BIND;
}
else {
if (!popupMenuItemsCount) {
s_editMode = 0; // this is when popup is exited before a choice is made
}
}
}
else {
newFlag = MODULE_MODE_BIND;
}
}
else if (l_posHorz == 2) {
newFlag = MODULE_MODE_RANGECHECK;
}
}
}
#else
if (attr && l_posHorz>0 && s_editMode>0) {
if (l_posHorz == 1)
newFlag = MODULE_MODE_BIND;
else if (l_posHorz == 2)
newFlag = MODULE_MODE_RANGECHECK;
}
#endif
moduleSettings[moduleIdx].mode = newFlag;
#if defined(MULTIMODULE)
if (newFlag == MODULE_MODE_BIND) {
multiBindStatus = MULTI_BIND_INITIATED;
}
#endif
}
}
break;
}
#if defined(PCBSKY9X) && defined(REVX)
case ITEM_MODEL_EXTERNAL_MODULE_OUTPUT_TYPE:
{
uint8_t moduleIdx = CURRENT_MODULE_EDITED(k);
ModuleData & moduleData = g_model.moduleData[moduleIdx];
moduleData.ppm.outputType = editChoice(MODEL_SETUP_2ND_COLUMN, y, STR_OUTPUT_TYPE, STR_VOUTPUT_TYPE, moduleData.ppm.outputType, 0, 1, attr, event);
break;
}
#endif
#if defined(PCBTARANIS)
case ITEM_MODEL_INTERNAL_MODULE_FAILSAFE:
#endif
case ITEM_MODEL_EXTERNAL_MODULE_FAILSAFE: {
uint8_t moduleIdx = CURRENT_MODULE_EDITED(k);
ModuleData &moduleData = g_model.moduleData[moduleIdx];
lcdDrawTextAlignedLeft(y, STR_FAILSAFE);
lcdDrawTextAtIndex(MODEL_SETUP_2ND_COLUMN, y, STR_VFAILSAFE, moduleData.failsafeMode, menuHorizontalPosition == 0 ? attr : 0);
if (moduleData.failsafeMode == FAILSAFE_CUSTOM)
lcdDrawText(MODEL_SETUP_2ND_COLUMN + MODEL_SETUP_SET_FAILSAFE_OFS, y, STR_SET, menuHorizontalPosition == 1 ? attr : 0);
if (attr) {
if (moduleData.failsafeMode != FAILSAFE_CUSTOM)
menuHorizontalPosition = 0;
if (menuHorizontalPosition == 0) {
if (editMode > 0 || p1valdiff) {
CHECK_INCDEC_MODELVAR_ZERO(event, moduleData.failsafeMode, FAILSAFE_LAST);
if (checkIncDec_Ret) SEND_FAILSAFE_NOW(moduleIdx);
}
} else if (menuHorizontalPosition == 1) {
s_editMode = 0;
if (moduleData.failsafeMode == FAILSAFE_CUSTOM) {
if (event == EVT_KEY_LONG(KEY_ENTER)) {
killEvents(event);
setCustomFailsafe(moduleIdx);
storageDirty(EE_MODEL);
AUDIO_WARNING1();
SEND_FAILSAFE_NOW(moduleIdx);
}
else if (event == EVT_KEY_BREAK(KEY_ENTER)) {
g_moduleIdx = moduleIdx;
pushMenu(menuModelFailsafe);
}
}
} else {
lcdDrawSolidFilledRect(MODEL_SETUP_2ND_COLUMN, y, LCD_W - MODEL_SETUP_2ND_COLUMN, 8);
}
}
}
break;
#if defined(PCBXLITE)
case ITEM_MODEL_INTERNAL_MODULE_ANTENNA:
{
uint8_t newAntennaSel = editChoice(MODEL_SETUP_2ND_COLUMN, y, STR_ANTENNASELECTION, STR_VANTENNATYPES, g_model.moduleData[INTERNAL_MODULE].pxx.external_antenna, 0, 1, attr, event);
if (newAntennaSel != g_model.moduleData[INTERNAL_MODULE].pxx.external_antenna && newAntennaSel == XJT_EXTERNAL_ANTENNA) {
POPUP_CONFIRMATION(STR_ANTENNACONFIRM1);
const char * w = STR_ANTENNACONFIRM2;
SET_WARNING_INFO(w, strlen(w), 0);
}
else {
g_model.moduleData[INTERNAL_MODULE].pxx.external_antenna = newAntennaSel;
}
break;
}
#endif
case ITEM_MODEL_EXTERNAL_MODULE_OPTIONS:
{
uint8_t moduleIdx = CURRENT_MODULE_EDITED(k);
#if defined(MULTIMODULE)
if (isModuleMultimodule(moduleIdx)) {
int optionValue = g_model.moduleData[moduleIdx].multi.optionValue;
const uint8_t multi_proto = g_model.moduleData[EXTERNAL_MODULE].getMultiProtocol(true);
const mm_protocol_definition * pdef = getMultiProtocolDefinition(multi_proto);
if (pdef->optionsstr)
lcdDrawTextAlignedLeft(y, pdef->optionsstr);
if (multi_proto == MM_RF_PROTO_FS_AFHDS2A)
optionValue = 50 + 5 * optionValue;
lcdDrawNumber(MODEL_SETUP_2ND_COLUMN, y, optionValue, LEFT | attr);
if (attr) {
if (multi_proto == MM_RF_PROTO_FS_AFHDS2A) {
CHECK_INCDEC_MODELVAR(event, g_model.moduleData[moduleIdx].multi.optionValue, 0, 70);
}
else if (multi_proto == MM_RF_PROTO_OLRS) {
CHECK_INCDEC_MODELVAR(event, g_model.moduleData[moduleIdx].multi.optionValue, -1, 7);
}
else {
CHECK_INCDEC_MODELVAR(event, g_model.moduleData[moduleIdx].multi.optionValue, -128, 127);
}
}
}
#endif
#if defined(PCBXLITE)
if (isModuleR9M(moduleIdx)) {
lcdDrawTextAlignedLeft(y, STR_MODULE_TELEMETRY);
if (IS_TELEMETRY_INTERNAL_MODULE()) {
lcdDrawText(MODEL_SETUP_2ND_COLUMN, y, STR_DISABLE_INTERNAL);
}
else {
lcdDrawText(MODEL_SETUP_2ND_COLUMN, y, STR_MODULE_TELEM_ON);
}
}
else if (isModuleSBUS(moduleIdx)) {
#else
if (isModuleSBUS(moduleIdx)) {
#endif
lcdDrawTextAlignedLeft(y, STR_WARN_BATTVOLTAGE);
putsVolts(lcdLastRightPos, y, getBatteryVoltage(), attr | PREC2 | LEFT);
}
break;
}
case ITEM_MODEL_EXTERNAL_MODULE_POWER:
{
uint8_t moduleIdx = CURRENT_MODULE_EDITED(k);
if (isModuleR9M(moduleIdx)) {
lcdDrawTextAlignedLeft(y, TR_MULTI_RFPOWER);
if (isModuleR9M_FCC_VARIANT(moduleIdx)) {
g_model.moduleData[moduleIdx].pxx.power = min((uint8_t)g_model.moduleData[moduleIdx].pxx.power, (uint8_t)R9M_FCC_POWER_MAX); // Lite FCC has only one setting
#if defined(PCBXLITE) && !defined(MODULE_R9M_FULLSIZE) // R9M lite FCC has only one power value, so displayed for info only
lcdDrawTextAtIndex(MODEL_SETUP_2ND_COLUMN, y, STR_R9M_FCC_POWER_VALUES, g_model.moduleData[moduleIdx].pxx.power, LEFT);
if (attr)
REPEAT_LAST_CURSOR_MOVE();
#else
lcdDrawTextAtIndex(MODEL_SETUP_2ND_COLUMN, y, STR_R9M_FCC_POWER_VALUES, g_model.moduleData[moduleIdx].pxx.power, LEFT | attr);
if (attr)
CHECK_INCDEC_MODELVAR_ZERO(event, g_model.moduleData[moduleIdx].pxx.power, R9M_FCC_POWER_MAX);
#endif
}
else {
g_model.moduleData[moduleIdx].pxx.power = min((uint8_t)g_model.moduleData[moduleIdx].pxx.power, (uint8_t)R9M_LBT_POWER_MAX);
lcdDrawTextAtIndex(MODEL_SETUP_2ND_COLUMN, y, STR_R9M_LBT_POWER_VALUES, g_model.moduleData[moduleIdx].pxx.power, LEFT | attr);
if (attr) {
CHECK_INCDEC_MODELVAR_ZERO(event, g_model.moduleData[moduleIdx].pxx.power, R9M_LBT_POWER_MAX);
}
if (attr && editMode == 0 && reusableBuffer.modelsetup.r9mPower != g_model.moduleData[moduleIdx].pxx.power) {
if((reusableBuffer.modelsetup.r9mPower + g_model.moduleData[moduleIdx].pxx.power) < 5) { //switching between mode 2 and 3 does not require rebind
POPUP_WARNING(STR_REBIND);
}
reusableBuffer.modelsetup.r9mPower = g_model.moduleData[moduleIdx].pxx.power;
}
}
}
#if defined(MULTIMODULE)
else if (isModuleMultimodule(moduleIdx)) {
g_model.moduleData[EXTERNAL_MODULE].multi.lowPowerMode = editCheckBox(g_model.moduleData[EXTERNAL_MODULE].multi.lowPowerMode, MODEL_SETUP_2ND_COLUMN, y, STR_MULTI_LOWPOWER, attr, event);
}
#endif
}
break;
#if !defined(PCBXLITE)
case ITEM_MODEL_EXTERNAL_MODULE_FREQ:
{
uint8_t moduleIdx = CURRENT_MODULE_EDITED(k);
lcdDrawTextAlignedLeft(y, STR_FREQUENCY);
lcdDrawTextAtIndex(MODEL_SETUP_2ND_COLUMN, y, STR_R9MFLEX_FREQ, g_model.moduleData[moduleIdx].r9m.freq, LEFT | attr);
if (attr)
{
CHECK_INCDEC_MODELVAR_ZERO(event, g_model.moduleData[moduleIdx].r9m.freq, 1);
}
}
break;
#endif
#if defined(MULTIMODULE)
case ITEM_MODEL_EXTERNAL_MODULE_AUTOBIND:
if (g_model.moduleData[EXTERNAL_MODULE].getMultiProtocol(true) == MM_RF_PROTO_DSM2)
g_model.moduleData[EXTERNAL_MODULE].multi.autoBindMode = editCheckBox(g_model.moduleData[EXTERNAL_MODULE].multi.autoBindMode, MODEL_SETUP_2ND_COLUMN, y, STR_MULTI_DSM_AUTODTECT, attr, event);
else
g_model.moduleData[EXTERNAL_MODULE].multi.autoBindMode = editCheckBox(g_model.moduleData[EXTERNAL_MODULE].multi.autoBindMode, MODEL_SETUP_2ND_COLUMN, y, STR_MULTI_AUTOBIND, attr, event);
break;
case ITEM_MODEL_EXTERNAL_MODULE_STATUS: {
lcdDrawTextAlignedLeft(y, STR_MODULE_STATUS);
char statusText[64];
multiModuleStatus.getStatusString(statusText);
lcdDrawText(MODEL_SETUP_2ND_COLUMN, y, statusText);
break;
}
case ITEM_MODEL_EXTERNAL_MODULE_SYNCSTATUS: {
lcdDrawTextAlignedLeft(y, STR_MODULE_SYNC);
char statusText[64];
multiSyncStatus.getRefreshString(statusText);
lcdDrawText(MODEL_SETUP_2ND_COLUMN, y, statusText);
break;
}
#endif
#if 0
case ITEM_MODEL_PPM2_PROTOCOL:
lcdDrawTextAlignedLeft(y, "Port2");
lcdDrawTextAtIndex(MODEL_SETUP_2ND_COLUMN, y, STR_VPROTOS, 0, 0);
lcdDrawText(MODEL_SETUP_2ND_COLUMN+4*FW+3, y, STR_CH, menuHorizontalPosition<=0 ? attr : 0);
lcdDrawNumber(lcdLastRightPos, y, g_model.moduleData[1].channelsStart+1, LEFT | (menuHorizontalPosition<=0 ? attr : 0));
lcdDrawChar(lcdLastRightPos, y, '-');
lcdDrawNumber(lcdLastRightPos + FW+1, y, g_model.moduleData[1].channelsStart+8+g_model.moduleData[1].channelsCount, LEFT | (menuHorizontalPosition!=0 ? attr : 0));
if (attr && (editMode>0 || p1valdiff)) {
switch (menuHorizontalPosition) {
case 0:
CHECK_INCDEC_MODELVAR_ZERO(event, g_model.moduleData[1].channelsStart, 32-8-g_model.moduleData[1].channelsCount);
SET_DEFAULT_PPM_FRAME_LENGTH(1);
break;
case 1:
CHECK_INCDEC_MODELVAR(event, g_model.moduleData[1].channelsCount, -4, min<int8_t>(8, 32-8-g_model.moduleData[1].channelsStart));
SET_DEFAULT_PPM_FRAME_LENGTH(1);
break;
}
}
break;
case ITEM_MODEL_PPM2_PARAMS:
lcdDrawTextAlignedLeft(y, STR_PPMFRAME);
lcdDrawText(MODEL_SETUP_2ND_COLUMN+3*FW, y, STR_MS);
lcdDrawNumber(MODEL_SETUP_2ND_COLUMN, y, (int16_t)g_model.moduleData[1].ppmFrameLength*5 + 225, (menuHorizontalPosition<=0 ? attr : 0) | PREC1 | LEFT);
lcdDrawChar(MODEL_SETUP_2ND_COLUMN+8*FW+2, y, 'u');
lcdDrawNumber(MODEL_SETUP_2ND_COLUMN+8*FW+2, y, (g_model.moduleData[1].ppmDelay*50)+300, RIGHT | ((menuHorizontalPosition < 0 || menuHorizontalPosition==1) ? attr : 0));
lcdDrawChar(MODEL_SETUP_2ND_COLUMN+10*FW, y, g_model.moduleData[1].ppmPulsePol ? '+' : '-', (menuHorizontalPosition < 0 || menuHorizontalPosition==2) ? attr : 0);
if (attr && (editMode>0 || p1valdiff)) {
switch (menuHorizontalPosition) {
case 0:
CHECK_INCDEC_MODELVAR(event, g_model.moduleData[1].ppmFrameLength, -20, 35);
break;
case 1:
CHECK_INCDEC_MODELVAR(event, g_model.moduleData[1].ppmDelay, -4, 10);
break;
case 2:
CHECK_INCDEC_MODELVAR_ZERO(event, g_model.moduleData[1].ppmPulsePol, 1);
break;
}
}
break;
#endif
}
}
#if defined(PXX)
if (IS_RANGECHECK_ENABLE()) {
showMessageBox("RSSI: ");
lcdDrawNumber(16+4*FW, 5*FH, TELEMETRY_RSSI(), BOLD);
}
#endif
// some field just finished being edited
if (old_editMode > 0 && s_editMode == 0) {
switch(menuVerticalPosition) {
#if defined(PCBTARANIS)
case ITEM_MODEL_INTERNAL_MODULE_MODEL_NUM:
if (menuHorizontalPosition == 0)
checkModelIdUnique(g_eeGeneral.currModel, INTERNAL_MODULE);
break;
#endif
#if defined(PCBSKY9X)
case ITEM_MODEL_EXTRA_MODULE_BIND:
if (menuHorizontalPosition == 0)
checkModelIdUnique(g_eeGeneral.currModel, EXTRA_MODULE);
break;
#endif
case ITEM_MODEL_EXTERNAL_MODULE_BIND:
if (menuHorizontalPosition == 0)
checkModelIdUnique(g_eeGeneral.currModel, EXTERNAL_MODULE);
break;
}
}
}
void menuModelFailsafe(event_t event)
{
const uint8_t channelStart = g_model.moduleData[g_moduleIdx].channelsStart;
const int lim = (g_model.extendedLimits ? (512 * LIMIT_EXT_PERCENT / 100) : 512) * 2;
uint8_t wbar = LCD_W - FW * 4 - FWNUM * 4;
#if defined(PPM_UNIT_PERCENT_PREC1)
wbar -= 6;
#endif
if (event == EVT_KEY_LONG(KEY_ENTER)) {
killEvents(event);
event = 0;
if (menuVerticalPosition < sentModuleChannels(g_moduleIdx)) {
if (s_editMode) {
g_model.moduleData[g_moduleIdx].failsafeChannels[menuVerticalPosition] = channelOutputs[menuVerticalPosition+channelStart];
s_editMode = 0;
}
else {
int16_t & failsafe = g_model.moduleData[g_moduleIdx].failsafeChannels[menuVerticalPosition];
if (failsafe < FAILSAFE_CHANNEL_HOLD)
failsafe = FAILSAFE_CHANNEL_HOLD;
else if (failsafe == FAILSAFE_CHANNEL_HOLD)
failsafe = FAILSAFE_CHANNEL_NOPULSE;
else
failsafe = 0;
}
}
else {
// "Outputs => Failsafe" menu item
setCustomFailsafe(g_moduleIdx);
}
storageDirty(EE_MODEL);
AUDIO_WARNING1();
SEND_FAILSAFE_NOW(g_moduleIdx);
}
SIMPLE_SUBMENU_NOTITLE(sentModuleChannels(g_moduleIdx) + 1);
lcdDrawTextAlignedCenter(0, FAILSAFESET);
lcdInvertLine(0);
const coord_t x = 1;
coord_t y = FH + 1;
uint8_t line = (menuVerticalPosition >= sentModuleChannels(g_moduleIdx) ? 2 : 0);
uint8_t ch = (menuVerticalPosition >= 8 ? 8 : 0) + line;
// Channels
for (; line < 8; line++) {
const int32_t channelValue = channelOutputs[ch+channelStart];
int32_t failsafeValue = g_model.moduleData[g_moduleIdx].failsafeChannels[ch];
//Channel
putsChn(x+1, y, ch+1, SMLSIZE);
// Value
LcdFlags flags = TINSIZE;
if (menuVerticalPosition == ch) {
flags |= INVERS;
if (s_editMode) {
if (failsafeValue == FAILSAFE_CHANNEL_HOLD || failsafeValue == FAILSAFE_CHANNEL_NOPULSE) {
s_editMode = 0;
}
else {
flags |= BLINK;
CHECK_INCDEC_MODELVAR(event, g_model.moduleData[g_moduleIdx].failsafeChannels[ch], -lim, +lim);
}
}
}
uint8_t xValue = x+LCD_W-4-wbar;
if (failsafeValue == FAILSAFE_CHANNEL_HOLD) {
lcdDrawText(xValue, y, STR_HOLD, RIGHT|flags);
failsafeValue = 0;
}
else if (failsafeValue == FAILSAFE_CHANNEL_NOPULSE) {
lcdDrawText(xValue, y, STR_NONE, RIGHT|flags);
failsafeValue = 0;
}
else {
#if defined(PPM_UNIT_US)
lcdDrawNumber(xValue, y, PPM_CH_CENTER(ch)+failsafeValue/2, RIGHT|flags);
#elif defined(PPM_UNIT_PERCENT_PREC1)
lcdDrawNumber(xValue, y, calcRESXto1000(failsafeValue), RIGHT|PREC1|flags);
#else
lcdDrawNumber(xValue, y, calcRESXto1000(failsafeValue)/10, RIGHT|flags);
#endif
}
// Gauge
#if !defined(PCBX7) // X7 LCD doesn't like too many horizontal lines
lcdDrawRect(x+LCD_W-3-wbar, y, wbar+1, 6);
#endif
const uint8_t lenChannel = limit<uint8_t>(1, (abs(channelValue) * wbar/2 + lim/2) / lim, wbar/2);
const uint8_t lenFailsafe = limit<uint8_t>(1, (abs(failsafeValue) * wbar/2 + lim/2) / lim, wbar/2);
const coord_t xChannel = (channelValue>0) ? x+LCD_W-3-wbar/2 : x+LCD_W-2-wbar/2-lenChannel;
const coord_t xFailsafe = (failsafeValue>0) ? x+LCD_W-3-wbar/2 : x+LCD_W-2-wbar/2-lenFailsafe;
lcdDrawHorizontalLine(xChannel, y+1, lenChannel, DOTTED, 0);
lcdDrawHorizontalLine(xChannel, y+2, lenChannel, DOTTED, 0);
lcdDrawSolidHorizontalLine(xFailsafe, y+3, lenFailsafe);
lcdDrawSolidHorizontalLine(xFailsafe, y+4, lenFailsafe);
y += FH - 1;
if (++ch >= sentModuleChannels(g_moduleIdx))
break;
}
if (menuVerticalPosition >= sentModuleChannels(g_moduleIdx)) {
// Outputs => Failsafe
lcdDrawText(CENTER_OFS, LCD_H - (FH + 1), STR_OUTPUTS2FAILSAFE, INVERS);
}
}
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