int8_t switchMenuItem(uint8_t x, uint8_t y, int8_t value, LcdFlags attr, uint8_t event)
{
lcd_putsColumnLeft(x, y, STR_SWITCH);
putsSwitches(x, y, value, attr);
if (attr) CHECK_INCDEC_MODELSWITCH(event, value, SWSRC_FIRST_SHORT_LIST, SWSRC_LAST_SHORT_LIST);
return value;
}
int8_t switchMenuItem(coord_t x, coord_t y, int8_t value, LcdFlags attr, uint8_t event)
{
lcd_putsColumnLeft(x, y, STR_SWITCH);
putsSwitches(x, y, value, attr);
if (attr) CHECK_INCDEC_MODELSWITCH(event, value, SWSRC_FIRST_IN_MIXES, SWSRC_LAST_IN_MIXES, isSwitchAvailableInMixes);
return value;
}
void displayMixInfos(coord_t y, MixData *md)
{
putsCurveRef(MIX_LINE_CURVE_POS, y, md->curve, 0);
if (md->swtch) {
putsSwitches(MIX_LINE_SWITCH_POS, y, md->swtch);
}
}
/*luadoc
@function lcd.drawSwitch(x, y, switch, flags)
Draws a text representation of switch at (x,y)
@param x,y (positive numbers) starting coordinate
@param switch (number) number of switch to display, negative number
displays negated switch
@param flags (unsigned number) drawing flags, only SMLSIZE, BLINK and INVERS.
@status current Introduced in 2.0.0
*/
static int luaLcdDrawSwitch(lua_State *L)
{
if (!luaLcdAllowed) return 0;
int x = luaL_checkinteger(L, 1);
int y = luaL_checkinteger(L, 2);
int s = luaL_checkinteger(L, 3);
unsigned int att = luaL_optunsigned(L, 4, 0);
putsSwitches(x, y, s, att);
return 0;
}
void menuGeneralDiagKeys(uint8_t event)
{
SIMPLE_MENU(STR_MENUDIAG, menuTabDiag, e_Keys, 1);
lcd_puts(14*FW, 3*FH, STR_VTRIM);
for(uint8_t i=0; i<9; i++) {
uint8_t y = i*FH; //+FH;
#if !defined(PCBTARANIS)
if(i>(SW_ID0-SW_BASE)) y-=FH; //overwrite ID0
putsSwitches(8*FW, y, i+1, 0); //ohne off,on
displayKeyState(11*FW+2, y, (EnumKeys)(SW_BASE+i));
#endif
if (i<8) {
y = i/2*FH+FH*4;
lcd_img(14*FW, y, sticks, i/2, 0);
displayKeyState(i&1? 20*FW : 18*FW, y, (EnumKeys)(TRM_BASE+i));
}
if (i<6) {
y = (5-i)*FH+2*FH;
lcd_putsiAtt(0, y, STR_VKEYS, i, 0);
displayKeyState(5*FW+2, y, (EnumKeys)(KEY_MENU+i));
}
}
#if defined(ROTARY_ENCODERS) || defined(ROTARY_ENCODER_NAVIGATION)
for(uint8_t i=0; i<DIM(g_rotenc); i++) {
uint8_t y = i*FH + FH;
lcd_putsiAtt(14*FW, y, STR_VRENCODERS, i, 0);
lcd_outdezNAtt(18*FW, y, g_rotenc[i], LEFT|(switchState((EnumKeys)(BTN_REa+i)) ? INVERS : 0));
}
#endif
}
void menuModelPhaseOne(uint8_t event)
{
FlightModeData *fm = flightModeAddress(s_currIdx);
putsFlightMode(13*FW, 0, s_currIdx+1, (getFlightMode()==s_currIdx ? BOLD : 0));
#if defined(GVARS) && !defined(PCBSTD)
static const pm_uint8_t mstate_tab_fm1[] PROGMEM = {0, 0, 0, (uint8_t)-1, 1, 1, 1, 1, 1};
static const pm_uint8_t mstate_tab_others[] PROGMEM = {0, 0, 3, IF_ROTARY_ENCODERS(NUM_ROTARY_ENCODERS-1) 0, 0, (uint8_t)-1, 2, 2, 2, 2, 2};
check(event, 0, NULL, 0, (s_currIdx == 0) ? mstate_tab_fm1 : mstate_tab_others, DIM(mstate_tab_others)-1, ITEM_MODEL_PHASE_MAX - 1 - (s_currIdx==0 ? (ITEM_MODEL_PHASE_FADE_IN-ITEM_MODEL_PHASE_SWITCH) : 0));
TITLE(STR_MENUFLIGHTPHASE);
#define PHASE_ONE_FIRST_LINE (1+1*FH)
#else
SUBMENU(STR_MENUFLIGHTPHASE, 3 + (s_currIdx==0 ? 0 : 2 + (bool)NUM_ROTARY_ENCODERS), {0, 0, 3, IF_ROTARY_ENCODERS(NUM_ROTARY_ENCODERS-1) 0/*, 0*/});
#define PHASE_ONE_FIRST_LINE (1+1*FH)
#endif
int8_t sub = m_posVert;
int8_t editMode = s_editMode;
#if defined(GVARS) && !defined(PCBSTD)
if (s_currIdx == 0 && sub>=ITEM_MODEL_PHASE_SWITCH) sub += ITEM_MODEL_PHASE_FADE_IN-ITEM_MODEL_PHASE_SWITCH;
for (uint8_t k=0; k<LCD_LINES-1; k++) {
coord_t y = MENU_HEADER_HEIGHT + 1 + k*FH;
int8_t i = k + s_pgOfs;
if (s_currIdx == 0 && i>=ITEM_MODEL_PHASE_SWITCH) i += ITEM_MODEL_PHASE_FADE_IN-ITEM_MODEL_PHASE_SWITCH;
uint8_t attr = (sub==i ? (editMode>0 ? BLINK|INVERS : INVERS) : 0);
#else
for (uint8_t i=0, k=0, y=PHASE_ONE_FIRST_LINE; i<ITEM_MODEL_PHASE_MAX; i++, k++, y+=FH) {
if (s_currIdx == 0 && i==ITEM_MODEL_PHASE_SWITCH) i = ITEM_MODEL_PHASE_FADE_IN;
uint8_t attr = (sub==k ? (editMode>0 ? BLINK|INVERS : INVERS) : 0);
#endif
switch(i) {
case ITEM_MODEL_PHASE_NAME:
editSingleName(MIXES_2ND_COLUMN, y, STR_PHASENAME, fm->name, sizeof(fm->name), event, attr);
break;
case ITEM_MODEL_PHASE_SWITCH:
fm->swtch = switchMenuItem(MIXES_2ND_COLUMN, y, fm->swtch, attr, event);
break;
case ITEM_MODEL_PHASE_TRIMS:
lcd_putsLeft(y, STR_TRIMS);
for (uint8_t t=0; t<NUM_STICKS; t++) {
putsTrimMode(MIXES_2ND_COLUMN+(t*FW), y, s_currIdx, t, m_posHorz==t ? attr : 0);
if (attr && m_posHorz==t && ((editMode>0) || p1valdiff)) {
int16_t v = getRawTrimValue(s_currIdx, t);
if (v < TRIM_EXTENDED_MAX) v = TRIM_EXTENDED_MAX;
v = checkIncDec(event, v, TRIM_EXTENDED_MAX, TRIM_EXTENDED_MAX+MAX_FLIGHT_MODES-1, EE_MODEL);
if (checkIncDec_Ret) {
if (v == TRIM_EXTENDED_MAX) v = 0;
setTrimValue(s_currIdx, t, v);
}
}
}
break;
#if ROTARY_ENCODERS > 0
case ITEM_MODEL_PHASE_ROTARY_ENCODERS:
lcd_putsLeft(y, STR_ROTARY_ENCODER);
for (uint8_t t=0; t<NUM_ROTARY_ENCODERS; t++) {
putsRotaryEncoderMode(MIXES_2ND_COLUMN+(t*FW), y, s_currIdx, t, m_posHorz==t ? attr : 0);
if (attr && m_posHorz==t && ((editMode>0) || p1valdiff)) {
int16_t v = flightModeAddress(s_currIdx)->rotaryEncoders[t];
if (v < ROTARY_ENCODER_MAX) v = ROTARY_ENCODER_MAX;
v = checkIncDec(event, v, ROTARY_ENCODER_MAX, ROTARY_ENCODER_MAX+MAX_FLIGHT_MODES-1, EE_MODEL);
if (checkIncDec_Ret) {
if (v == ROTARY_ENCODER_MAX) v = 0;
flightModeAddress(s_currIdx)->rotaryEncoders[t] = v;
}
}
}
break;
#endif
case ITEM_MODEL_PHASE_FADE_IN:
fm->fadeIn = EDIT_DELAY(0, y, event, attr, STR_FADEIN, fm->fadeIn);
break;
case ITEM_MODEL_PHASE_FADE_OUT:
fm->fadeOut = EDIT_DELAY(0, y, event, attr, STR_FADEOUT, fm->fadeOut);
break;
#if defined(GVARS) && !defined(PCBSTD)
case ITEM_MODEL_PHASE_GVARS_LABEL:
lcd_putsLeft(y, STR_GLOBAL_VARS);
break;
default:
{
uint8_t idx = i-ITEM_MODEL_PHASE_GV1;
uint8_t posHorz = m_posHorz;
if (attr && posHorz > 0 && s_currIdx==0) posHorz++;
putsStrIdx(INDENT_WIDTH, y, STR_GV, idx+1);
editName(4*FW, y, g_model.gvars[idx].name, LEN_GVAR_NAME, event, posHorz==0 ? attr : 0);
int16_t v = fm->gvars[idx];
if (v > GVAR_MAX) {
uint8_t p = v - GVAR_MAX - 1;
if (p >= s_currIdx) p++;
putsFlightMode(11*FW, y, p+1, posHorz==1 ? attr : 0);
}
else {
lcd_putsAtt(11*FW, y, STR_OWN, posHorz==1 ? attr : 0);
}
if (attr && s_currIdx>0 && posHorz==1 && (editMode>0 || p1valdiff)) {
if (v < GVAR_MAX) v = GVAR_MAX;
v = checkIncDec(event, v, GVAR_MAX, GVAR_MAX+MAX_FLIGHT_MODES-1, EE_MODEL);
if (checkIncDec_Ret) {
if (v == GVAR_MAX) v = 0;
fm->gvars[idx] = v;
}
}
uint8_t p = getGVarFlightPhase(s_currIdx, idx);
lcd_outdezAtt(21*FW, y, GVAR_VALUE(idx, p), posHorz==2 ? attr : 0);
if (attr && posHorz==2 && ((editMode>0) || p1valdiff)) {
GVAR_VALUE(idx, p) = checkIncDec(event, GVAR_VALUE(idx, p), -GVAR_LIMIT, GVAR_LIMIT, EE_MODEL);
}
break;
}
#endif
}
}
}
#if defined(ROTARY_ENCODERS)
#if ROTARY_ENCODERS > 2
#define NAME_OFS (-4-12)
#define SWITCH_OFS (-FW/2-2-13)
#define TRIMS_OFS (-FW/2-4-15)
#define ROTARY_ENC_OFS (0)
#else
#define NAME_OFS (-4)
#define SWITCH_OFS (-FW/2-2)
#define TRIMS_OFS (-FW/2-4)
#define ROTARY_ENC_OFS (2)
#endif
#else
#define NAME_OFS 0
#define SWITCH_OFS (FW/2)
#define TRIMS_OFS (FW/2)
#endif
void menuModelFlightModesAll(uint8_t event)
{
SIMPLE_MENU(STR_MENUFLIGHTPHASES, menuTabModel, e_FlightModesAll, 1+MAX_FLIGHT_MODES+1);
int8_t sub = m_posVert - 1;
switch (event) {
CASE_EVT_ROTARY_BREAK
case EVT_KEY_FIRST(KEY_ENTER):
if (sub == MAX_FLIGHT_MODES) {
s_editMode = 0;
trimsCheckTimer = 200; // 2 seconds
}
// no break
case EVT_KEY_FIRST(KEY_RIGHT):
if (sub >= 0 && sub < MAX_FLIGHT_MODES) {
s_currIdx = sub;
pushMenu(menuModelPhaseOne);
}
break;
}
uint8_t att;
for (uint8_t i=0; i<MAX_FLIGHT_MODES; i++) {
#if defined(CPUARM)
int8_t y = 1 + (1+i-s_pgOfs)*FH;
if (y<1*FH+1 || y>(LCD_LINES-1)*FH+1) continue;
#else
uint8_t y = 1 + (i+1)*FH;
#endif
att = (i==sub ? INVERS : 0);
FlightModeData *p = flightModeAddress(i);
putsFlightMode(0, y, i+1, att|(getFlightMode()==i ? BOLD : 0));
lcd_putsnAtt(4*FW+NAME_OFS, y, p->name, sizeof(p->name), ZCHAR);
if (i == 0) {
lcd_puts((5+LEN_FLIGHT_MODE_NAME)*FW+SWITCH_OFS, y, STR_DEFAULT);
}
else {
putsSwitches((5+LEN_FLIGHT_MODE_NAME)*FW+SWITCH_OFS, y, p->swtch, 0);
for (uint8_t t=0; t<NUM_STICKS; t++) {
putsTrimMode((9+LEN_FLIGHT_MODE_NAME+t)*FW+TRIMS_OFS, y, i, t, 0);
}
#if defined(CPUM2560)
for (uint8_t t=0; t<NUM_ROTARY_ENCODERS; t++) {
putsRotaryEncoderMode((13+LEN_FLIGHT_MODE_NAME+t)*FW+TRIMS_OFS+ROTARY_ENC_OFS, y, i, t, 0);
}
#endif
}
if (p->fadeIn || p->fadeOut) {
lcd_putc(LCD_W-FW-MENUS_SCROLLBAR_WIDTH, y, (p->fadeIn && p->fadeOut) ? '*' : (p->fadeIn ? 'I' : 'O'));
}
}
#if defined(CPUARM)
if (s_pgOfs != MAX_FLIGHT_MODES-(LCD_LINES-2)) return;
#endif
lcd_putsLeft((LCD_LINES-1)*FH+1, STR_CHECKTRIMS);
putsFlightMode(OFS_CHECKTRIMS, (LCD_LINES-1)*FH+1, mixerCurrentFlightMode+1);
if (sub==MAX_FLIGHT_MODES && !trimsCheckTimer) {
lcd_status_line();
}
}
void menuMainView(uint8_t event)
{
STICK_SCROLL_DISABLE();
uint8_t view = g_eeGeneral.view;
uint8_t view_base = view & 0x0f;
switch(event) {
case EVT_ENTRY:
killEvents(KEY_EXIT);
killEvents(KEY_UP);
killEvents(KEY_DOWN);
break;
/* TODO if timer2 is OFF, it's possible to use this timer2 as in er9x...
case EVT_KEY_BREAK(KEY_MENU):
if (view_base == VIEW_TIMER2) {
Timer2_running = !Timer2_running;
AUDIO_KEYPAD_UP();
}
break;
*/
case EVT_KEY_BREAK(KEY_RIGHT):
case EVT_KEY_BREAK(KEY_LEFT):
if (view_base <= VIEW_INPUTS) {
#if defined(PCBSKY9X)
if (view_base == VIEW_INPUTS)
g_eeGeneral.view ^= ALTERNATE_VIEW;
else
g_eeGeneral.view = (g_eeGeneral.view + (4*ALTERNATE_VIEW) + ((event==EVT_KEY_BREAK(KEY_LEFT)) ? -ALTERNATE_VIEW : ALTERNATE_VIEW)) % (4*ALTERNATE_VIEW);
#else
g_eeGeneral.view ^= ALTERNATE_VIEW;
#endif
eeDirty(EE_GENERAL);
AUDIO_KEYPAD_UP();
}
break;
#if defined(NAVIGATION_MENUS)
case EVT_KEY_CONTEXT_MENU:
killEvents(event);
#if defined(CPUARM)
if (modelHasNotes()) {
MENU_ADD_ITEM(STR_VIEW_NOTES);
}
#endif
#if defined(CPUARM)
MENU_ADD_ITEM(STR_RESET_SUBMENU);
#else
MENU_ADD_ITEM(STR_RESET_TIMER1);
MENU_ADD_ITEM(STR_RESET_TIMER2);
#if defined(FRSKY)
MENU_ADD_ITEM(STR_RESET_TELEMETRY);
#endif
MENU_ADD_ITEM(STR_RESET_FLIGHT);
#endif
MENU_ADD_ITEM(STR_STATISTICS);
#if defined(CPUARM)
MENU_ADD_ITEM(STR_ABOUT_US);
#endif
menuHandler = onMainViewMenu;
break;
#endif
#if MENUS_LOCK != 2 /*no menus*/
case EVT_KEY_LONG(KEY_MENU):// go to last menu
pushMenu(lastPopMenu());
killEvents(event);
break;
CASE_EVT_ROTARY_BREAK
case EVT_KEY_MODEL_MENU:
pushMenu(menuModelSelect);
killEvents(event);
break;
CASE_EVT_ROTARY_LONG
case EVT_KEY_GENERAL_MENU:
pushMenu(menuGeneralSetup);
killEvents(event);
break;
#endif
case EVT_KEY_BREAK(KEY_UP):
case EVT_KEY_BREAK(KEY_DOWN):
g_eeGeneral.view = (event == EVT_KEY_BREAK(KEY_UP) ? (view_base == VIEW_COUNT-1 ? 0 : view_base+1) : (view_base == 0 ? VIEW_COUNT-1 : view_base-1));
eeDirty(EE_GENERAL);
AUDIO_KEYPAD_UP();
break;
case EVT_KEY_STATISTICS:
chainMenu(menuStatisticsView);
killEvents(event);
break;
case EVT_KEY_TELEMETRY:
#if defined(FRSKY)
if (!IS_FAI_ENABLED())
chainMenu(menuTelemetryFrsky);
#elif defined(JETI)
JETI_EnableRXD(); // enable JETI-Telemetry reception
chainMenu(menuTelemetryJeti);
#elif defined(ARDUPILOT)
ARDUPILOT_EnableRXD(); // enable ArduPilot-Telemetry reception
chainMenu(menuTelemetryArduPilot);
#elif defined(NMEA)
NMEA_EnableRXD(); // enable NMEA-Telemetry reception
chainMenu(menuTelemetryNMEA);
#elif defined(MAVLINK)
chainMenu(menuTelemetryMavlink);
#else
chainMenu(menuStatisticsDebug);
#endif
killEvents(event);
break;
case EVT_KEY_FIRST(KEY_EXIT):
#if defined(GVARS) && !defined(PCBSTD)
if (s_gvar_timer > 0) {
s_gvar_timer = 0;
}
#endif
if (view == VIEW_TIMER2) {
timerReset(1);
}
AUDIO_KEYPAD_UP();
break;
#if !defined(NAVIGATION_MENUS)
case EVT_KEY_LONG(KEY_EXIT):
flightReset();
AUDIO_KEYPAD_UP();
break;
#endif
}
{
// Flight Mode Name
uint8_t mode = mixerCurrentFlightMode;
lcd_putsnAtt(PHASE_X, PHASE_Y, g_model.flightModeData[mode].name, sizeof(g_model.flightModeData[mode].name), ZCHAR|PHASE_FLAGS);
// Model Name
putsModelName(MODELNAME_X, MODELNAME_Y, g_model.header.name, g_eeGeneral.currModel, BIGSIZE);
// Main Voltage (or alarm if any)
displayVoltageOrAlarm();
// Timers
displayTimers();
// Trims sliders
displayTrims(mode);
}
if (view_base < VIEW_INPUTS) {
// scroll bar
lcd_hlineStip(38, 34, 54, DOTTED);
#if defined(PCBSKY9X)
lcd_hline(38 + (g_eeGeneral.view / ALTERNATE_VIEW) * 13, 34, 13, SOLID);
#else
lcd_hline((g_eeGeneral.view & ALTERNATE_VIEW) ? 64 : 38, 34, 26, SOLID);
#endif
for (uint8_t i=0; i<8; i++) {
uint8_t x0,y0;
#if defined(PCBSKY9X)
uint8_t chan = 8*(g_eeGeneral.view / ALTERNATE_VIEW) + i;
#else
uint8_t chan = (g_eeGeneral.view & ALTERNATE_VIEW) ? 8+i : i;
#endif
int16_t val = channelOutputs[chan];
switch(view_base)
{
case VIEW_OUTPUTS_VALUES:
x0 = (i%4*9+3)*FW/2;
y0 = i/4*FH+40;
#if defined(PPM_UNIT_US)
lcd_outdezAtt(x0+4*FW , y0, PPM_CH_CENTER(chan)+val/2, 0);
#elif defined(PPM_UNIT_PERCENT_PREC1)
lcd_outdezAtt(x0+4*FW , y0, calcRESXto1000(val), PREC1);
#else
lcd_outdezAtt(x0+4*FW , y0, calcRESXto1000(val)/10, 0); // G: Don't like the decimal part*
#endif
break;
case VIEW_OUTPUTS_BARS:
#define WBAR2 (50/2)
x0 = i<4 ? LCD_W/4+2 : LCD_W*3/4-2;
y0 = 38+(i%4)*5;
uint16_t lim = g_model.extendedLimits ? 640*2 : 512*2;
int8_t len = (abs(val) * WBAR2 + lim/2) / lim;
if(len>WBAR2) len = WBAR2; // prevent bars from going over the end - comment for debugging
lcd_hlineStip(x0-WBAR2, y0, WBAR2*2+1, DOTTED);
lcd_vline(x0,y0-2,5);
if (val>0)
x0+=1;
else
x0-=len;
lcd_hline(x0,y0+1,len);
lcd_hline(x0,y0-1,len);
break;
}
}
}
else if (view_base == VIEW_INPUTS) {
if (view == VIEW_INPUTS) {
// Sticks + Pots
doMainScreenGraphics();
// Switches
for (uint8_t i=SWSRC_THR; i<=SWSRC_TRN; i++) {
int8_t sw = (i == SWSRC_TRN ? (switchState(SW_ID0) ? SWSRC_ID0 : (switchState(SW_ID1) ? SWSRC_ID1 : SWSRC_ID2)) : i);
uint8_t x = 2*FW-2, y = i*FH+1;
if (i>=SWSRC_AIL) {
x = 17*FW-1;
y -= 3*FH;
}
putsSwitches(x, y, sw, getSwitch(i) ? INVERS : 0);
}
}
else {
#if defined(PCBMEGA2560) && defined(ROTARY_ENCODERS)
for (uint8_t i=0; i<NUM_ROTARY_ENCODERS; i++) {
int16_t val = getRotaryEncoder(i);
int8_t len = limit((int16_t)0, (int16_t)(((val+1024) * BAR_HEIGHT) / 2048), (int16_t)BAR_HEIGHT);
#if ROTARY_ENCODERS > 2
#define V_BAR_W 5
V_BAR(LCD_W/2-8+V_BAR_W*i, LCD_H-8, len);
#else
#define V_BAR_W 5
V_BAR(LCD_W/2-3+V_BAR_W*i, LCD_H-8, len);
#endif
}
#endif // PCBGRUVIN9X && ROTARY_ENCODERS
// Logical Switches
#if defined(PCBSKY9X)
for (uint8_t i=0; i<NUM_LOGICAL_SWITCH; i++) {
int8_t len = getSwitch(SWSRC_SW1+i) ? BAR_HEIGHT : 1;
uint8_t x = VSWITCH_X(i);
lcd_vline(x-1, VSWITCH_Y-len, len);
lcd_vline(x, VSWITCH_Y-len, len);
}
#elif defined(CPUM2560)
for (uint8_t i=0; i<NUM_LOGICAL_SWITCH; i++)
putsSwitches(2*FW-3 + (i/3)*(i/3>2 ? 3*FW+2 : (3*FW-1)) + (i/3>2 ? 2*FW : 0), 4*FH+1 + (i%3)*FH, SWSRC_SW1+i, getSwitch(SWSRC_SW1+i) ? INVERS : 0);
#elif !defined(PCBSTD)
for (uint8_t i=0; i<NUM_LOGICAL_SWITCH; i++)
putsSwitches(2*FW-2 + (i/3)*(4*FW-1), 4*FH+1 + (i%3)*FH, SWSRC_SW1+i, getSwitch(SWSRC_SW1+i) ? INVERS : 0);
#else
for (uint8_t i=0; i<NUM_LOGICAL_SWITCH; i++)
putsSwitches(2*FW-3 + (i/3)*(4*FW), 4*FH+1 + (i%3)*FH, SWSRC_SW1+i, getSwitch(SWSRC_SW1+i) ? INVERS : 0);
#endif
}
}
else { // timer2
#if defined(TRANSLATIONS_CZ)
#define TMR2_LBL_COL (20-FW/2+1)
#else
#define TMR2_LBL_COL (20-FW/2+5)
#endif
putsTimer(33+FW+2+10*FWNUM-4, FH*5, timersStates[1].val, DBLSIZE, DBLSIZE);
putsTimerMode(timersStates[1].val >= 0 ? TMR2_LBL_COL : TMR2_LBL_COL-7, FH*6, g_model.timers[1].mode);
// lcd_outdezNAtt(33+11*FW, FH*6, s_timerVal_10ms[1], LEADING0, 2); // 1/100s
}
// And ! in case of unexpected shutdown
if (unexpectedShutdown) {
lcd_putcAtt(REBOOT_X, 0*FH, '!', INVERS);
}
#if defined(GVARS) && !defined(PCBSTD)
if (s_gvar_timer > 0) {
s_gvar_timer--;
s_warning = STR_GLOBAL_VAR;
displayBox();
lcd_putsnAtt(16, 5*FH, g_model.gvars[s_gvar_last].name, LEN_GVAR_NAME, ZCHAR);
lcd_putsAtt(16+7*FW, 5*FH, PSTR("[\010]"), BOLD);
lcd_outdezAtt(16+7*FW+4*FW+FW/2, 5*FH, GVAR_VALUE(s_gvar_last, getGVarFlightPhase(mixerCurrentFlightMode, s_gvar_last)), BOLD);
s_warning = NULL;
}
#endif
#if defined(DSM2)
if (moduleFlag[0] == MODULE_BIND) {
// Issue 98
lcd_putsAtt(15*FW, 0, PSTR("BIND"), 0);
}
#endif
}
void menuCustomFunctions(uint8_t event, CustomFunctionData * functions, CustomFunctionsContext * functionsContext)
{
int sub = menuVerticalPosition;
uint8_t eeFlags = (functions == g_model.customFn) ? EE_MODEL : EE_GENERAL;
if (menuHorizontalPosition<0 && event==EVT_KEY_LONG(KEY_ENTER) && !READ_ONLY()) {
killEvents(event);
CustomFunctionData *cfn = &functions[sub];
if (!CFN_EMPTY(cfn))
POPUP_MENU_ADD_ITEM(STR_COPY);
if (clipboard.type == CLIPBOARD_TYPE_CUSTOM_FUNCTION)
POPUP_MENU_ADD_ITEM(STR_PASTE);
if (!CFN_EMPTY(cfn) && CFN_EMPTY(&functions[NUM_CFN-1]))
POPUP_MENU_ADD_ITEM(STR_INSERT);
if (!CFN_EMPTY(cfn))
POPUP_MENU_ADD_ITEM(STR_CLEAR);
for (int i=sub+1; i<NUM_CFN; i++) {
if (!CFN_EMPTY(&functions[i])) {
POPUP_MENU_ADD_ITEM(STR_DELETE);
break;
}
}
popupMenuHandler = onCustomFunctionsMenu;
}
for (int i=0; i<NUM_BODY_LINES; i++) {
coord_t y = MENU_HEADER_HEIGHT + 1 + i*FH;
int k = i+menuVerticalOffset;
putsStrIdx(0, y, functions == g_model.customFn ? STR_SF : STR_GF, k+1, (sub==k && menuHorizontalPosition<0) ? INVERS : 0);
CustomFunctionData *cfn = &functions[k];
uint8_t func = CFN_FUNC(cfn);
for (uint8_t j=0; j<5; j++) {
uint8_t attr = ((sub==k && menuHorizontalPosition==j) ? ((s_editMode>0) ? BLINK|INVERS : INVERS) : 0);
uint8_t active = (attr && s_editMode>0);
switch (j) {
case 0:
putsSwitches(MODEL_CUSTOM_FUNC_1ST_COLUMN, y, CFN_SWITCH(cfn), attr | ((functionsContext->activeSwitches & ((MASK_CFN_TYPE)1 << k)) ? BOLD : 0));
if (active || AUTOSWITCH_ENTER_LONG()) CHECK_INCDEC_SWITCH(event, CFN_SWITCH(cfn), SWSRC_FIRST, SWSRC_LAST, eeFlags, isSwitchAvailableInCustomFunctions);
if (func == FUNC_OVERRIDE_CHANNEL && functions != g_model.customFn) {
func = CFN_FUNC(cfn) = func+1;
}
break;
case 1:
if (CFN_SWITCH(cfn)) {
lcd_putsiAtt(MODEL_CUSTOM_FUNC_2ND_COLUMN, y, STR_VFSWFUNC, func, attr);
if (active) {
func = CFN_FUNC(cfn) = checkIncDec(event, CFN_FUNC(cfn), 0, FUNC_MAX-1, eeFlags, isAssignableFunctionAvailable);
if (checkIncDec_Ret) CFN_RESET(cfn);
}
}
else {
j = 4; // skip other fields
if (sub==k && menuHorizontalPosition > 0) {
REPEAT_LAST_CURSOR_MOVE();
}
}
break;
case 2:
{
int8_t maxParam = NUM_CHNOUT-1;
#if defined(OVERRIDE_CHANNEL_FUNCTION)
if (func == FUNC_OVERRIDE_CHANNEL) {
putsChn(lcdNextPos, y, CFN_CH_INDEX(cfn)+1, attr);
}
else
#endif
if (func == FUNC_TRAINER) {
maxParam = 4;
putsMixerSource(lcdNextPos, y, CFN_CH_INDEX(cfn)==0 ? 0 : MIXSRC_Rud+CFN_CH_INDEX(cfn)-1, attr);
}
#if defined(GVARS)
else if (func == FUNC_ADJUST_GVAR) {
maxParam = MAX_GVARS-1;
putsStrIdx(lcdNextPos, y, STR_GV, CFN_GVAR_INDEX(cfn)+1, attr);
if (active) CFN_GVAR_INDEX(cfn) = checkIncDec(event, CFN_GVAR_INDEX(cfn), 0, maxParam, eeFlags);
break;
}
#endif
else if (func == FUNC_SET_TIMER) {
maxParam = TIMERS-1;
putsStrIdx(lcdNextPos, y, STR_TIMER, CFN_TIMER_INDEX(cfn)+1, attr);
if (active) CFN_TIMER_INDEX(cfn) = checkIncDec(event, CFN_TIMER_INDEX(cfn), 0, maxParam, eeFlags);
break;
}
else if (attr) {
REPEAT_LAST_CURSOR_MOVE();
}
if (active) CHECK_INCDEC_MODELVAR_ZERO(event, CFN_CH_INDEX(cfn), maxParam);
break;
}
case 3:
{
INCDEC_DECLARE_VARS(eeFlags);
int16_t val_displayed = CFN_PARAM(cfn);
int16_t val_min = 0;
int16_t val_max = 255;
if (func == FUNC_RESET) {
val_max = FUNC_RESET_PARAM_FIRST_TELEM+lastUsedTelemetryIndex();
int param = CFN_PARAM(cfn);
if (param < FUNC_RESET_PARAM_FIRST_TELEM) {
lcd_putsiAtt(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, STR_VFSWRESET, param, attr);
}
else {
TelemetrySensor * sensor = & g_model.telemetrySensors[param-FUNC_RESET_PARAM_FIRST_TELEM];
lcd_putsnAtt(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, sensor->label, TELEM_LABEL_LEN, attr|ZCHAR);
}
if (active) INCDEC_ENABLE_CHECK(functionsContext == &globalFunctionsContext ? isSourceAvailableInGlobalResetSpecialFunction : isSourceAvailableInResetSpecialFunction);
}
#if defined(OVERRIDE_CHANNEL_FUNCTION)
else if (func == FUNC_OVERRIDE_CHANNEL) {
val_min = -LIMIT_EXT_PERCENT; val_max = +LIMIT_EXT_PERCENT;
lcd_outdezAtt(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, val_displayed, attr|LEFT);
}
#endif
else if (func >= FUNC_SET_FAILSAFE && func <= FUNC_BIND) {
val_max = NUM_MODULES-1;
lcd_putsiAtt(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, "\004Int.Ext.", CFN_PARAM(cfn), attr);
}
else if (func == FUNC_SET_TIMER) {
val_max = 59*60+59;
putsTimer(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, val_displayed, attr|LEFT, attr);
}
else if (func == FUNC_PLAY_SOUND) {
val_max = AU_FRSKY_LAST-AU_FRSKY_FIRST-1;
lcd_putsiAtt(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, STR_FUNCSOUNDS, val_displayed, attr);
}
#if defined(HAPTIC)
else if (func == FUNC_HAPTIC) {
val_max = 3;
lcd_outdezAtt(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, val_displayed, attr|LEFT);
}
#endif
#if defined(SDCARD)
else if (func == FUNC_PLAY_TRACK || func == FUNC_BACKGND_MUSIC || func == FUNC_PLAY_SCRIPT) {
coord_t x = MODEL_CUSTOM_FUNC_3RD_COLUMN;
if (ZEXIST(cfn->play.name))
lcd_putsnAtt(x, y, cfn->play.name, sizeof(cfn->play.name), attr);
else
lcd_putsiAtt(x, y, STR_VCSWFUNC, 0, attr);
if (active && event==EVT_KEY_BREAK(KEY_ENTER)) {
s_editMode = 0;
char directory[256];
if (func==FUNC_PLAY_SCRIPT) {
strcpy(directory, SCRIPTS_FUNCS_PATH);
}
else {
strcpy(directory, SOUNDS_PATH);
strncpy(directory+SOUNDS_PATH_LNG_OFS, currentLanguagePack->id, 2);
}
if (listSdFiles(directory, func==FUNC_PLAY_SCRIPT ? SCRIPTS_EXT : SOUNDS_EXT, sizeof(cfn->play.name), cfn->play.name)) {
popupMenuHandler = onCustomFunctionsFileSelectionMenu;
}
else {
POPUP_WARNING(func==FUNC_PLAY_SCRIPT ? STR_NO_SCRIPTS_ON_SD : STR_NO_SOUNDS_ON_SD);
}
}
break;
}
else if (func == FUNC_PLAY_VALUE) {
val_max = MIXSRC_LAST_TELEM;
putsMixerSource(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, val_displayed, attr);
if (active) {
INCDEC_SET_FLAG(eeFlags | INCDEC_SOURCE);
INCDEC_ENABLE_CHECK(functionsContext == &globalFunctionsContext ? isSourceAvailableInGlobalFunctions : isSourceAvailable);
}
}
#endif
else if (func == FUNC_VOLUME) {
val_max = MIXSRC_LAST_CH;
putsMixerSource(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, val_displayed, attr);
if (active) {
INCDEC_SET_FLAG(eeFlags | INCDEC_SOURCE);
INCDEC_ENABLE_CHECK(isSourceAvailable);
}
}
else if (func == FUNC_LOGS) {
if (val_displayed) {
lcd_outdezAtt(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, val_displayed, attr|PREC1|LEFT);
lcd_putc(lcdLastPos, y, 's');
}
else {
lcd_putsiAtt(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, STR_MMMINV, 0, attr);
}
}
#if defined(REVPLUS)
else if (func == FUNC_BACKLIGHT) {
displaySlider(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, CFN_PARAM(cfn), 100, attr);
if (active) INCDEC_SET_FLAG(eeFlags | NO_INCDEC_MARKS);
val_min = 0;
val_max = 100;
}
#endif
#if defined(GVARS)
else if (func == FUNC_ADJUST_GVAR) {
switch (CFN_GVAR_MODE(cfn)) {
case FUNC_ADJUST_GVAR_CONSTANT:
val_displayed = (int16_t)CFN_PARAM(cfn);
val_min = -CFN_GVAR_CST_MAX; val_max = +CFN_GVAR_CST_MAX;
lcd_outdezAtt(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, val_displayed, attr|LEFT);
break;
case FUNC_ADJUST_GVAR_SOURCE:
val_max = MIXSRC_LAST_CH;
putsMixerSource(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, val_displayed, attr);
if (active) {
INCDEC_SET_FLAG(eeFlags | INCDEC_SOURCE);
INCDEC_ENABLE_CHECK(isSourceAvailable);
}
break;
case FUNC_ADJUST_GVAR_GVAR:
val_max = MAX_GVARS-1;
putsStrIdx(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, STR_GV, val_displayed+1, attr);
break;
default: // FUNC_ADJUST_GVAR_INC
#if 0 // TODO 2.2.X
val_min = -100; val_max = +100;
if (val_displayed < 0)
lcd_putsAtt(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, "-=", attr);
else
lcd_putsAtt(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, "+=", attr);
lcd_outdezAtt(lcdNextPos, y, abs(val_displayed), attr|LEFT);
#endif
val_max = 1;
lcd_putsiAtt(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, PSTR("\003-=1+=1"), val_displayed, attr);
break;
}
}
#endif
else if (attr) {
REPEAT_LAST_CURSOR_MOVE();
}
if (active || event==EVT_KEY_LONG(KEY_ENTER)) {
CFN_PARAM(cfn) = CHECK_INCDEC_PARAM(event, val_displayed, val_min, val_max);
if (func == FUNC_ADJUST_GVAR && attr && event==EVT_KEY_LONG(KEY_ENTER)) {
killEvents(event);
if (CFN_GVAR_MODE(cfn) != FUNC_ADJUST_GVAR_CONSTANT)
POPUP_MENU_ADD_ITEM(STR_CONSTANT);
if (CFN_GVAR_MODE(cfn) != FUNC_ADJUST_GVAR_SOURCE)
POPUP_MENU_ADD_ITEM(STR_MIXSOURCE);
if (CFN_GVAR_MODE(cfn) != FUNC_ADJUST_GVAR_GVAR)
POPUP_MENU_ADD_ITEM(STR_GLOBALVAR);
if (CFN_GVAR_MODE(cfn) != FUNC_ADJUST_GVAR_INC)
POPUP_MENU_ADD_ITEM(STR_INCDEC);
popupMenuHandler = onAdjustGvarSourceLongEnterPress;
s_editMode = EDIT_MODIFY_FIELD;
}
}
break;
}
case 4:
if (HAS_ENABLE_PARAM(func)) {
menu_lcd_onoff(MODEL_CUSTOM_FUNC_4TH_COLUMN_ONOFF, y, CFN_ACTIVE(cfn), attr);
if (active) CFN_ACTIVE(cfn) = checkIncDec(event, CFN_ACTIVE(cfn), 0, 1, eeFlags);
}
else if (HAS_REPEAT_PARAM(func)) {
if (CFN_PLAY_REPEAT(cfn) == 0) {
lcd_putsAtt(MODEL_CUSTOM_FUNC_4TH_COLUMN+2, y, "1x", attr);
}
else if (CFN_PLAY_REPEAT(cfn) == CFN_PLAY_REPEAT_NOSTART) {
lcd_putcAtt(MODEL_CUSTOM_FUNC_4TH_COLUMN-1, y, '!', attr);
lcd_putsAtt(MODEL_CUSTOM_FUNC_4TH_COLUMN+2, y, "1x", attr);
}
else {
lcd_outdezAtt(MODEL_CUSTOM_FUNC_4TH_COLUMN+2+FW, y, CFN_PLAY_REPEAT(cfn)*CFN_PLAY_REPEAT_MUL, attr);
lcd_putcAtt(MODEL_CUSTOM_FUNC_4TH_COLUMN+2+FW, y, 's', attr);
}
if (active) CFN_PLAY_REPEAT(cfn) = checkIncDec(event, CFN_PLAY_REPEAT(cfn)==CFN_PLAY_REPEAT_NOSTART?-1:CFN_PLAY_REPEAT(cfn), -1, 60/CFN_PLAY_REPEAT_MUL, eeFlags);
}
else if (attr) {
REPEAT_LAST_CURSOR_MOVE();
}
break;
}
}
}
}
void menuCustomFunctions(uint8_t event, CustomFunctionData * functions, CustomFunctionsContext * functionsContext)
{
int8_t sub = menuVerticalPosition - 1;
#if defined(CPUARM)
uint8_t eeFlags = (functions == g_model.customFn) ? EE_MODEL : EE_GENERAL;
#elif !defined(CPUM64) || defined(AUTOSWITCH)
uint8_t eeFlags = EE_MODEL;
#endif
for (uint8_t i=0; i<LCD_LINES-1; i++) {
coord_t y = MENU_HEADER_HEIGHT + 1 + i*FH;
uint8_t k = i+menuVerticalOffset;
CustomFunctionData *cfn = &functions[k];
uint8_t func = CFN_FUNC(cfn);
for (uint8_t j=0; j<5; j++) {
uint8_t attr = ((sub==k && menuHorizontalPosition==j) ? ((s_editMode>0) ? BLINK|INVERS : INVERS) : 0);
uint8_t active = (attr && (s_editMode>0 || p1valdiff));
switch (j) {
case 0:
putsSwitches(MODEL_CUSTOM_FUNC_1ST_COLUMN, y, CFN_SWITCH(cfn), attr | ((functionsContext->activeSwitches & ((MASK_CFN_TYPE)1 << k)) ? BOLD : 0));
if (active || AUTOSWITCH_ENTER_LONG()) CHECK_INCDEC_SWITCH(event, CFN_SWITCH(cfn), SWSRC_FIRST, SWSRC_LAST, eeFlags, isSwitchAvailableInCustomFunctions);
#if defined(CPUARM)
if (func == FUNC_OVERRIDE_CHANNEL && functions != g_model.customFn) {
func = CFN_FUNC(cfn) = func+1;
}
#endif
break;
case 1:
if (CFN_SWITCH(cfn)) {
lcd_putsiAtt(MODEL_CUSTOM_FUNC_2ND_COLUMN, y, STR_VFSWFUNC, func, attr);
if (active) {
#if defined(CPUARM)
CFN_FUNC(cfn) = checkIncDec(event, CFN_FUNC(cfn), 0, FUNC_MAX-1, eeFlags, isAssignableFunctionAvailable);
#else
CHECK_INCDEC_MODELVAR_ZERO(event, CFN_FUNC(cfn), FUNC_MAX-1);
#endif
if (checkIncDec_Ret) CFN_RESET(cfn);
}
}
else {
j = 4; // skip other fields
if (sub==k && menuHorizontalPosition > 0) {
REPEAT_LAST_CURSOR_MOVE();
}
}
break;
case 2:
{
int8_t maxParam = NUM_CHNOUT-1;
#if defined(OVERRIDE_CHANNEL_FUNCTION)
if (func == FUNC_OVERRIDE_CHANNEL) {
putsChn(lcdNextPos, y, CFN_CH_INDEX(cfn)+1, attr);
}
else
#endif
if (func == FUNC_TRAINER) {
maxParam = 4;
#if defined(CPUARM)
putsMixerSource(lcdNextPos, y, CFN_CH_INDEX(cfn)==0 ? 0 : MIXSRC_Rud+CFN_CH_INDEX(cfn)-1, attr);
#else
putsMixerSource(lcdNextPos, y, MIXSRC_Rud+CFN_CH_INDEX(cfn)-1, attr);
#endif
}
#if defined(GVARS)
else if (func == FUNC_ADJUST_GVAR) {
maxParam = MAX_GVARS-1;
putsStrIdx(lcdNextPos, y, STR_GV, CFN_GVAR_INDEX(cfn)+1, attr);
#if defined(CPUARM)
if (active) CFN_GVAR_INDEX(cfn) = checkIncDec(event, CFN_GVAR_INDEX(cfn), 0, maxParam, eeFlags);
#else
if (active) CHECK_INCDEC_MODELVAR_ZERO(event, CFN_GVAR_INDEX(cfn), maxParam);
#endif
break;
}
#endif
#if defined(CPUARM)
else if (func == FUNC_SET_TIMER) {
maxParam = MAX_TIMERS-1;
lcd_putsiAtt(lcdNextPos, y, STR_VFSWRESET, CFN_TIMER_INDEX(cfn), attr);
if (active) CFN_TIMER_INDEX(cfn) = checkIncDec(event, CFN_TIMER_INDEX(cfn), 0, maxParam, eeFlags);
break;
}
#endif
else if (attr) {
REPEAT_LAST_CURSOR_MOVE();
}
if (active) CHECK_INCDEC_MODELVAR_ZERO(event, CFN_CH_INDEX(cfn), maxParam);
break;
}
case 3:
{
INCDEC_DECLARE_VARS(eeFlags);
int16_t val_displayed = CFN_PARAM(cfn);
#if defined(CPUARM)
int16_t val_min = 0;
int16_t val_max = 255;
#else
int8_t val_min = 0;
uint8_t val_max = 255;
#endif
if (func == FUNC_RESET) {
val_max = FUNC_RESET_PARAM_LAST;
lcd_putsiAtt(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, STR_VFSWRESET, CFN_PARAM(cfn), attr);
}
#if defined(OVERRIDE_CHANNEL_FUNCTION)
else if (func == FUNC_OVERRIDE_CHANNEL) {
#if !defined(CPUARM)
val_displayed = (int8_t)CFN_PARAM(cfn);
#endif
val_min = -LIMIT_EXT_PERCENT; val_max = +LIMIT_EXT_PERCENT;
lcd_outdezAtt(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, val_displayed, attr|LEFT);
}
#endif
#if defined(CPUARM)
else if (func >= FUNC_SET_FAILSAFE && func <= FUNC_BIND) {
val_max = NUM_MODULES-1;
lcd_putsiAtt(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, "\004Int.Ext.", CFN_PARAM(cfn), attr);
}
#endif
#if defined(CPUARM)
else if (func == FUNC_SET_TIMER) {
val_max = 539*60+59;
putsTimer(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, val_displayed, attr|LEFT, attr);
}
#endif
#if defined(AUDIO)
else if (func == FUNC_PLAY_SOUND) {
val_max = AU_FRSKY_LAST-AU_FRSKY_FIRST-1;
lcd_putsiAtt(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, STR_FUNCSOUNDS, val_displayed, attr);
}
#endif
#if defined(HAPTIC)
else if (func == FUNC_HAPTIC) {
val_max = 3;
lcd_outdezAtt(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, val_displayed, attr|LEFT);
}
#endif
#if defined(CPUARM) && defined(SDCARD)
else if (func == FUNC_PLAY_TRACK || func == FUNC_BACKGND_MUSIC || func == FUNC_PLAY_SCRIPT) {
coord_t x = (func == FUNC_PLAY_TRACK ? MODEL_CUSTOM_FUNC_2ND_COLUMN + FW + FW*strlen(TR_PLAY_TRACK) : MODEL_CUSTOM_FUNC_3RD_COLUMN);
if (ZEXIST(cfn->play.name))
lcd_putsnAtt(x, y, cfn->play.name, sizeof(cfn->play.name), attr);
else
lcd_putsiAtt(x, y, STR_VCSWFUNC, 0, attr);
if (active && event==EVT_KEY_BREAK(KEY_ENTER)) {
s_editMode = 0;
char directory[256];
if (func==FUNC_PLAY_SCRIPT) {
strcpy(directory, SCRIPTS_FUNCS_PATH);
}
else {
strcpy(directory, SOUNDS_PATH);
strncpy(directory+SOUNDS_PATH_LNG_OFS, currentLanguagePack->id, 2);
}
if (listSdFiles(directory, func==FUNC_PLAY_SCRIPT ? SCRIPTS_EXT : SOUNDS_EXT, sizeof(cfn->play.name), cfn->play.name)) {
popupMenuHandler = onCustomFunctionsFileSelectionMenu;
}
else {
POPUP_WARNING(func==FUNC_PLAY_SCRIPT ? STR_NO_SCRIPTS_ON_SD : STR_NO_SOUNDS_ON_SD);
popupMenuFlags = 0;
}
}
break;
}
else if (func == FUNC_PLAY_VALUE) {
val_max = MIXSRC_LAST_TELEM;
putsMixerSource(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, val_displayed, attr);
INCDEC_ENABLE_CHECK(isSourceAvailable);
}
#endif
#if defined(CPUARM)
else if (func == FUNC_VOLUME) {
val_max = MIXSRC_LAST_CH;
putsMixerSource(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, val_displayed, attr);
INCDEC_SET_FLAG(eeFlags | INCDEC_SOURCE);
INCDEC_ENABLE_CHECK(isSourceAvailable);
}
#elif defined(VOICE)
else if (func == FUNC_PLAY_TRACK) {
#if defined(GVARS)
if (attr && event==EVT_KEY_LONG(KEY_ENTER)) {
killEvents(event);
s_editMode = !s_editMode;
active = true;
val_displayed = (val_displayed > 250 ? 0 : 251);
}
if (val_displayed > 250) {
putsStrIdx(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, STR_GV, val_displayed-250, attr);
}
else {
lcd_outdezAtt(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, val_displayed+PROMPT_CUSTOM_BASE, attr|LEFT);
}
#else
lcd_outdezAtt(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, val_displayed+PROMPT_CUSTOM_BASE, attr|LEFT);
#endif
}
else if (func == FUNC_PLAY_BOTH) {
lcd_putcAtt(MODEL_CUSTOM_FUNC_3RD_COLUMN+3*FWNUM, y, '|', attr);
lcd_outdezAtt(MODEL_CUSTOM_FUNC_3RD_COLUMN+3*FWNUM, y, val_displayed+PROMPT_CUSTOM_BASE, attr);
lcd_outdezAtt(MODEL_CUSTOM_FUNC_3RD_COLUMN+2+3*FWNUM, y, (val_displayed+PROMPT_CUSTOM_BASE+1)%10, attr|LEFT);
}
else if (func == FUNC_PLAY_VALUE) {
val_max = MIXSRC_FIRST_TELEM + TELEM_DISPLAY_MAX - 1;
putsMixerSource(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, val_displayed, attr);
INCDEC_ENABLE_CHECK(functionsContext == &globalFunctionsContext ? isSourceAvailableInGlobalFunctions : isSourceAvailable);
}
#endif
#if defined(SDCARD)
else if (func == FUNC_LOGS) {
if (val_displayed) {
lcd_outdezAtt(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, val_displayed, attr|PREC1|LEFT);
lcd_putc(lcdLastPos, y, 's');
}
else {
lcd_putsiAtt(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, STR_MMMINV, 0, attr);
}
}
#endif
#if defined(GVARS)
else if (func == FUNC_ADJUST_GVAR) {
switch (CFN_GVAR_MODE(cfn)) {
case FUNC_ADJUST_GVAR_CONSTANT:
val_displayed = (int16_t)CFN_PARAM(cfn);
val_min = -CFN_GVAR_CST_MAX; val_max = +CFN_GVAR_CST_MAX;
lcd_outdezAtt(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, val_displayed, attr|LEFT);
break;
case FUNC_ADJUST_GVAR_SOURCE:
val_max = MIXSRC_LAST_CH;
putsMixerSource(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, val_displayed, attr);
INCDEC_SET_FLAG(eeFlags | INCDEC_SOURCE);
INCDEC_ENABLE_CHECK(isSourceAvailable);
break;
case FUNC_ADJUST_GVAR_GVAR:
val_max = MAX_GVARS-1;
putsStrIdx(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, STR_GV, val_displayed+1, attr);
break;
default: // FUNC_ADJUST_GVAR_INC
val_max = 1;
lcd_putsiAtt(MODEL_CUSTOM_FUNC_3RD_COLUMN, y, PSTR("\003-=1+=1"), val_displayed, attr);
break;
}
if (attr && event==EVT_KEY_LONG(KEY_ENTER)) {
killEvents(event);
s_editMode = !s_editMode;
active = true;
CFN_GVAR_MODE(cfn) += 1;
#if defined(CPUARM)
CFN_GVAR_MODE(cfn) &= 0x03;
#endif
val_displayed = 0;
}
}
#endif
else if (attr) {
REPEAT_LAST_CURSOR_MOVE();
}
if (active) {
CFN_PARAM(cfn) = CHECK_INCDEC_PARAM(event, val_displayed, val_min, val_max);
}
break;
}
case 4:
if (HAS_ENABLE_PARAM(func)) {
menu_lcd_onoff(MODEL_CUSTOM_FUNC_4TH_COLUMN_ONOFF, y, CFN_ACTIVE(cfn), attr);
#if defined(CPUARM)
if (active) CFN_ACTIVE(cfn) = checkIncDec(event, CFN_ACTIVE(cfn), 0, 1, eeFlags);
#else
if (active) CHECK_INCDEC_MODELVAR_ZERO(event, CFN_ACTIVE(cfn), 1);
#endif
}
else if (HAS_REPEAT_PARAM(func)) {
if (CFN_PLAY_REPEAT(cfn) == 0) {
lcd_putcAtt(MODEL_CUSTOM_FUNC_4TH_COLUMN_ONOFF+3, y, '-', attr);
}
#if defined(CPUARM)
else if (CFN_PLAY_REPEAT(cfn) == CFN_PLAY_REPEAT_NOSTART) {
lcd_putsAtt(MODEL_CUSTOM_FUNC_4TH_COLUMN_ONOFF, y, "!-", attr);
}
#endif
else {
lcd_outdezAtt(MODEL_CUSTOM_FUNC_4TH_COLUMN+2+FW, y, CFN_PLAY_REPEAT(cfn)*CFN_PLAY_REPEAT_MUL, attr);
}
#if defined(CPUARM)
if (active) CFN_PLAY_REPEAT(cfn) = checkIncDec(event, CFN_PLAY_REPEAT(cfn)==CFN_PLAY_REPEAT_NOSTART?-1:CFN_PLAY_REPEAT(cfn), -1, 60/CFN_PLAY_REPEAT_MUL, eeFlags);
#else
if (active) CHECK_INCDEC_MODELVAR_ZERO(event, CFN_PLAY_REPEAT(cfn), 60/CFN_PLAY_REPEAT_MUL);
#endif
}
else if (attr) {
REPEAT_LAST_CURSOR_MOVE();
}
break;
}
}
}
}
void menuModelFlightModesAll(uint8_t event)
{
MENU(STR_MENUFLIGHTPHASES, menuTabModel, e_FlightModesAll, MAX_FLIGHT_MODES+1, { NAVIGATION_LINE_BY_LINE|(ITEM_FLIGHT_MODES_LAST-1), NAVIGATION_LINE_BY_LINE|ITEM_FLIGHT_MODES_LAST, NAVIGATION_LINE_BY_LINE|ITEM_FLIGHT_MODES_LAST, NAVIGATION_LINE_BY_LINE|NAVIGATION_LINE_BY_LINE|ITEM_FLIGHT_MODES_LAST, NAVIGATION_LINE_BY_LINE|ITEM_FLIGHT_MODES_LAST, NAVIGATION_LINE_BY_LINE|ITEM_FLIGHT_MODES_LAST, NAVIGATION_LINE_BY_LINE|ITEM_FLIGHT_MODES_LAST, NAVIGATION_LINE_BY_LINE|ITEM_FLIGHT_MODES_LAST, NAVIGATION_LINE_BY_LINE|ITEM_FLIGHT_MODES_LAST, 0 });
int8_t sub = menuVerticalPosition;
horzpos_t posHorz = menuHorizontalPosition;
if (sub==0 && posHorz > 0) { posHorz += 1; }
if (sub<MAX_FLIGHT_MODES && posHorz>=0) {
displayColumnHeader(STR_PHASES_HEADERS, posHorz);
}
for (uint8_t i=0; i<LCD_LINES-1; i++) {
coord_t y = MENU_HEADER_HEIGHT + 1 + i*FH;
uint8_t k = i+menuVerticalOffset;
if (k==MAX_FLIGHT_MODES) {
// last line available - add the "check trims" line
lcd_putsLeft((LCD_LINES-1)*FH+1, STR_CHECKTRIMS);
putsFlightMode(OFS_CHECKTRIMS, (LCD_LINES-1)*FH+1, mixerCurrentFlightMode+1);
if (sub==MAX_FLIGHT_MODES) {
if (!trimsCheckTimer) {
if (event == EVT_KEY_FIRST(KEY_ENTER)) {
trimsCheckTimer = 200; // 2 seconds trims cancelled
s_editMode = 1;
killEvents(event);
}
else {
lcd_status_line();
s_editMode = 0;
}
}
else {
if (event == EVT_KEY_FIRST(KEY_EXIT)) {
trimsCheckTimer = 0;
s_editMode = 0;
killEvents(event);
}
}
}
return;
}
FlightModeData *p = flightModeAddress(k);
putsFlightMode(0, y, k+1, (getFlightMode()==k ? BOLD : 0) | ((sub==k && menuHorizontalPosition<0) ? INVERS : 0));
for (uint8_t j=0; j<ITEM_FLIGHT_MODES_COUNT; j++) {
uint8_t attr = ((sub==k && posHorz==j) ? ((s_editMode>0) ? BLINK|INVERS : INVERS) : 0);
uint8_t active = (attr && s_editMode>0) ;
switch (j) {
case ITEM_FLIGHT_MODES_NAME:
editName(4*FW-1, y, p->name, sizeof(p->name), event, attr);
break;
case ITEM_FLIGHT_MODES_SWITCH:
if (k>0) {
putsSwitches((4+LEN_FLIGHT_MODE_NAME)*FW+FW/2, y, p->swtch, attr);
if (active) CHECK_INCDEC_MODELSWITCH(event, p->swtch, SWSRC_FIRST_IN_MIXES, SWSRC_LAST_IN_MIXES, isSwitchAvailableInMixes);
}
break;
case ITEM_FLIGHT_MODES_TRIM_RUD:
case ITEM_FLIGHT_MODES_TRIM_ELE:
case ITEM_FLIGHT_MODES_TRIM_THR:
case ITEM_FLIGHT_MODES_TRIM_AIL:
{
uint8_t t = j-ITEM_FLIGHT_MODES_TRIM_RUD;
putsTrimMode((4+LEN_FLIGHT_MODE_NAME)*FW+j*(5*FW/2), y, k, t, attr);
if (active) {
trim_t & v = p->trim[t];
v.mode = checkIncDec(event, v.mode==TRIM_MODE_NONE ? -1 : v.mode, -1, k==0 ? 0 : 2*MAX_FLIGHT_MODES-1, EE_MODEL, isTrimModeAvailable);
}
break;
}
case ITEM_FLIGHT_MODES_FADE_IN:
lcd_outdezAtt(32*FW-2, y, (10/DELAY_STEP)*p->fadeIn, attr|PREC1);
if (active) p->fadeIn = checkIncDec(event, p->fadeIn, 0, DELAY_MAX, EE_MODEL|NO_INCDEC_MARKS);
break;
case ITEM_FLIGHT_MODES_FADE_OUT:
lcd_outdezAtt(35*FW, y, (10/DELAY_STEP)*p->fadeOut, attr|PREC1);
if (active) p->fadeOut = checkIncDec(event, p->fadeOut, 0, DELAY_MAX, EE_MODEL|NO_INCDEC_MARKS);
break;
}
}
}
}
void displayExpoInfos(coord_t y, ExpoData *ed)
{
putsCurveRef(EXPO_LINE_CURVE_POS, y, ed->curve, 0);
putsSwitches(EXPO_LINE_SWITCH_POS, y, ed->swtch, 0);
}
void menuModelLogicalSwitchOne(uint8_t event)
{
TITLE(STR_MENULOGICALSWITCH);
LogicalSwitchData * cs = lswAddress(s_currIdx);
uint8_t sw = SWSRC_SW1+s_currIdx;
putsSwitches(14*FW, 0, sw, (getSwitch(sw) ? BOLD : 0));
SUBMENU_NOTITLE(LS_FIELD_COUNT, {0, 0, 1, 0 /*, 0...*/});
int8_t sub = m_posVert;
INCDEC_DECLARE_VARS(EE_MODEL);
int v1_val = cs->v1;
for (uint8_t k=0; k<LCD_LINES-1; k++) {
coord_t y = MENU_HEADER_HEIGHT + 1 + k*FH;
uint8_t i = k + s_pgOfs;
uint8_t attr = (sub==i ? (s_editMode>0 ? BLINK|INVERS : INVERS) : 0);
uint8_t cstate = lswFamily(cs->func);
switch(i) {
case LS_FIELD_FUNCTION:
lcd_putsLeft(y, STR_FUNC);
lcd_putsiAtt(CSWONE_2ND_COLUMN, y, STR_VCSWFUNC, cs->func, attr);
if (attr) {
cs->func = checkIncDec(event, cs->func, 0, LS_FUNC_MAX, EE_MODEL, isLogicalSwitchFunctionAvailable);
uint8_t new_cstate = lswFamily(cs->func);
if (cstate != new_cstate) {
if (new_cstate == LS_FAMILY_TIMER) {
cs->v1 = cs->v2 = 0;
}
else if (new_cstate == LS_FAMILY_EDGE) {
cs->v1 = 0; cs->v2 = -129; cs->v3 = 0;
}
else {
cs->v1 = cs->v2 = 0;
}
}
}
break;
case LS_FIELD_V1:
{
lcd_putsLeft(y, STR_V1);
int v1_min=0, v1_max=MIXSRC_LAST_TELEM;
if (cstate == LS_FAMILY_BOOL || cstate == LS_FAMILY_STICKY || cstate == LS_FAMILY_EDGE) {
putsSwitches(CSWONE_2ND_COLUMN, y, v1_val, attr);
v1_min = SWSRC_OFF+1; v1_max = SWSRC_ON-1;
}
else if (cstate == LS_FAMILY_TIMER) {
lcd_outdezAtt(CSWONE_2ND_COLUMN, y, v1_val+1, LEFT|attr);
v1_max = 99;
}
else {
v1_val = (uint8_t)cs->v1;
putsMixerSource(CSWONE_2ND_COLUMN, y, v1_val, attr);
INCDEC_SET_FLAG(EE_MODEL | INCDEC_SOURCE);
INCDEC_ENABLE_CHECK(isSourceAvailable);
}
if (attr) {
cs->v1 = CHECK_INCDEC_PARAM(event, v1_val, v1_min, v1_max);
}
break;
}
case LS_FIELD_V2:
{
lcd_putsLeft(y, STR_V2);
int v2_min=0, v2_max=MIXSRC_LAST_TELEM;
if (cstate == LS_FAMILY_BOOL || cstate == LS_FAMILY_STICKY) {
putsSwitches(CSWONE_2ND_COLUMN, y, cs->v2, attr);
v2_min = SWSRC_OFF+1; v2_max = SWSRC_ON-1;
}
else if (cstate == LS_FAMILY_TIMER) {
lcd_outdezAtt(CSWONE_2ND_COLUMN, y, cs->v2+1, LEFT|attr);
v2_max = 99;
}
else if (cstate == LS_FAMILY_EDGE) {
putsEdgeDelayParam(CSWONE_2ND_COLUMN, y, cs, m_posHorz==0 ? attr : 0, m_posHorz==1 ? attr : 0);
if (s_editMode <= 0) continue;
if (attr && m_posHorz==1) {
CHECK_INCDEC_MODELVAR(event, cs->v3, -1, 222 - cs->v2);
break;
}
v2_min = -129; v2_max = 122;
}
else if (cstate == LS_FAMILY_COMP) {
putsMixerSource(CSWONE_2ND_COLUMN, y, cs->v2, attr);
INCDEC_SET_FLAG(EE_MODEL | INCDEC_SOURCE);
INCDEC_ENABLE_CHECK(isSourceAvailable);
}
else {
#if defined(FRSKY)
if (v1_val >= MIXSRC_FIRST_TELEM) {
putsTelemetryChannelValue(CSWONE_2ND_COLUMN, y, v1_val - MIXSRC_FIRST_TELEM, convertLswTelemValue(cs), attr|LEFT);
v2_max = maxTelemValue(v1_val - MIXSRC_FIRST_TELEM + 1);
if (cs->func == LS_FUNC_DIFFEGREATER)
v2_min = -v2_max;
else if (cs->func == LS_FUNC_ADIFFEGREATER)
v2_min = 0;
else
v2_min = minTelemValue(v1_val - MIXSRC_FIRST_TELEM + 1);
INCDEC_SET_FLAG(EE_MODEL | INCDEC_REP10 | NO_INCDEC_MARKS);
if (cs->v2 < v2_min || cs->v2 > v2_max) {
cs->v2 = 0;
eeDirty(EE_MODEL);
}
}
else
#endif
{
v2_min = -LIMIT_EXT_PERCENT; v2_max = +LIMIT_EXT_PERCENT;
lcd_outdezAtt(CSWONE_2ND_COLUMN, y, cs->v2, LEFT|attr);
}
}
if (attr) {
CHECK_INCDEC_MODELVAR(event, cs->v2, v2_min, v2_max);
}
break;
}
case LS_FIELD_ANDSW:
lcd_putsLeft(y, STR_AND_SWITCH);
putsSwitches(CSWONE_2ND_COLUMN, y, cs->andsw, attr);
if (attr) CHECK_INCDEC_MODELVAR(event, cs->andsw, -MAX_LS_ANDSW, MAX_LS_ANDSW);
break;
case LS_FIELD_DURATION:
lcd_putsLeft(y, STR_DURATION);
if (cs->duration > 0)
lcd_outdezAtt(CSWONE_2ND_COLUMN, y, cs->duration, attr|PREC1|LEFT);
else
lcd_putsiAtt(CSWONE_2ND_COLUMN, y, STR_MMMINV, 0, attr);
if (attr) CHECK_INCDEC_MODELVAR_ZERO(event, cs->duration, MAX_LS_DURATION);
break;
case LS_FIELD_DELAY:
lcd_putsLeft(y, STR_DELAY);
if (cs->delay > 0)
lcd_outdezAtt(CSWONE_2ND_COLUMN, y, cs->delay, attr|PREC1|LEFT);
else
lcd_putsiAtt(CSWONE_2ND_COLUMN, y, STR_MMMINV, 0, attr);
if (attr) CHECK_INCDEC_MODELVAR_ZERO(event, cs->delay, MAX_LS_DELAY);
break;
}
}
}
void menuModelLogicalSwitches(uint8_t event)
{
INCDEC_DECLARE_VARS(EE_MODEL);
MENU(STR_MENULOGICALSWITCHES, menuTabModel, e_LogicalSwitches, NUM_LOGICAL_SWITCH+1, {0, NAVIGATION_LINE_BY_LINE|LS_FIELD_LAST/*repeated...*/});
uint8_t k = 0;
int8_t sub = m_posVert - 1;
horzpos_t horz = m_posHorz;
for (uint8_t i=0; i<LCD_LINES-1; i++) {
coord_t y = MENU_HEADER_HEIGHT + 1 + i*FH;
k = i+s_pgOfs;
uint8_t attr = (sub==k ? ((s_editMode>0) ? BLINK|INVERS : INVERS) : 0);
uint8_t attr1 = (horz==1 ? attr : 0);
uint8_t attr2 = (horz==2 ? attr : 0);
LogicalSwitchData * cs = lswAddress(k);
// CSW name
uint8_t sw = SWSRC_SW1+k;
putsSwitches(0, y, sw, (getSwitch(sw) ? BOLD : 0) | ((sub==k && CURSOR_ON_LINE()) ? INVERS : 0));
// CSW func
lcd_putsiAtt(CSW_1ST_COLUMN, y, STR_VCSWFUNC, cs->func, horz==0 ? attr : 0);
// CSW params
uint8_t cstate = lswFamily(cs->func);
#if defined(CPUARM)
int16_t v1_val=cs->v1, v1_min=0, v1_max=MIXSRC_LAST_TELEM, v2_min=0, v2_max=MIXSRC_LAST_TELEM;
int16_t v3_min=-1, v3_max=100;
#else
int8_t v1_min=0, v1_max=MIXSRC_LAST_TELEM, v2_min=0, v2_max=MIXSRC_LAST_TELEM;
#define v1_val cs->v1
#endif
if (cstate == LS_FAMILY_BOOL || cstate == LS_FAMILY_STICKY) {
putsSwitches(CSW_2ND_COLUMN, y, cs->v1, attr1);
putsSwitches(CSW_3RD_COLUMN, y, cs->v2, attr2);
v1_min = SWSRC_FIRST_IN_LOGICAL_SWITCHES; v1_max = SWSRC_LAST_IN_LOGICAL_SWITCHES;
v2_min = SWSRC_FIRST_IN_LOGICAL_SWITCHES; v2_max = SWSRC_LAST_IN_LOGICAL_SWITCHES;
INCDEC_SET_FLAG(EE_MODEL | INCDEC_SWITCH);
INCDEC_ENABLE_CHECK(isSwitchAvailableInLogicalSwitches);
}
#if defined(CPUARM)
else if (cstate == LS_FAMILY_EDGE) {
putsSwitches(CSW_2ND_COLUMN, y, cs->v1, attr1);
putsEdgeDelayParam(CSW_3RD_COLUMN, y, cs, attr2, horz==LS_FIELD_V3 ? attr : 0);
v1_min = SWSRC_FIRST_IN_LOGICAL_SWITCHES; v1_max = SWSRC_LAST_IN_LOGICAL_SWITCHES;
v2_min=-129; v2_max = 122;
v3_max = 222 - cs->v2;
if (horz == 1) {
INCDEC_SET_FLAG(EE_MODEL | INCDEC_SWITCH);
INCDEC_ENABLE_CHECK(isSwitchAvailableInLogicalSwitches);
}
else {
INCDEC_SET_FLAG(EE_MODEL);
INCDEC_ENABLE_CHECK(NULL);
}
}
#endif
else if (cstate == LS_FAMILY_COMP) {
#if defined(CPUARM)
v1_val = (uint8_t)cs->v1;
#endif
putsMixerSource(CSW_2ND_COLUMN, y, v1_val, attr1);
putsMixerSource(CSW_3RD_COLUMN, y, cs->v2, attr2);
INCDEC_SET_FLAG(EE_MODEL | INCDEC_SOURCE);
INCDEC_ENABLE_CHECK(isSourceAvailable);
}
else if (cstate == LS_FAMILY_TIMER) {
lcd_outdezAtt(CSW_2ND_COLUMN, y, lswTimerValue(cs->v1), LEFT|PREC1|attr1);
lcd_outdezAtt(CSW_3RD_COLUMN, y, lswTimerValue(cs->v2), LEFT|PREC1|attr2);
v1_min = v2_min = -128;
v1_max = v2_max = 122;
INCDEC_SET_FLAG(EE_MODEL);
INCDEC_ENABLE_CHECK(NULL);
}
else {
#if defined(CPUARM)
v1_val = (uint8_t)cs->v1;
#endif
putsMixerSource(CSW_2ND_COLUMN, y, v1_val, attr1);
if (horz == 1) {
INCDEC_SET_FLAG(EE_MODEL | INCDEC_SOURCE);
INCDEC_ENABLE_CHECK(isSourceAvailableInCustomSwitches);
}
else {
INCDEC_SET_FLAG(EE_MODEL);
INCDEC_ENABLE_CHECK(NULL);
}
#if defined(CPUARM)
putsChannelValue(CSW_3RD_COLUMN, y, v1_val, calc100toRESX(cs->v2), LEFT|attr2);
v2_min = -30000;
v2_max = 30000;
#elif defined(FRSKY)
if (v1_val >= MIXSRC_FIRST_TELEM) {
putsTelemetryChannelValue(CSW_3RD_COLUMN, y, v1_val - MIXSRC_FIRST_TELEM, convertLswTelemValue(cs), LEFT|attr2);
v2_max = maxTelemValue(v1_val - MIXSRC_FIRST_TELEM + 1);
#if defined(CPUARM)
if (cs->func == LS_FUNC_DIFFEGREATER)
v2_min = -v2_max;
else if (cs->func == LS_FUNC_ADIFFEGREATER)
v2_min = 0;
else
v2_min = minTelemValue(v1_val - MIXSRC_FIRST_TELEM + 1);
if (horz == 2 && v2_max-v2_min > 1000)
INCDEC_SET_FLAG(EE_MODEL | INCDEC_REP10 | NO_INCDEC_MARKS);
if (cs->v2 < v2_min || cs->v2 > v2_max) {
cs->v2 = 0;
eeDirty(EE_MODEL);
}
#else
if (cstate == LS_FAMILY_OFS) {
v2_min = -128;
v2_max -= 128;
}
else {
v2_max = min((uint8_t)127, (uint8_t)v2_max);
v2_min = -v2_max;
}
if (cs->v2 > v2_max) {
cs->v2 = v2_max;
eeDirty(EE_MODEL);
}
#endif
}
else {
lcd_outdezAtt(CSW_3RD_COLUMN, y, cs->v2, LEFT|attr2);
#if defined(CPUARM) && defined(GVARS)
if (v1_val >= MIXSRC_GVAR1) {
v2_min = -1024; v2_max = +1024;
}
else
#endif
{
v2_min = -LIMIT_EXT_PERCENT; v2_max = +LIMIT_EXT_PERCENT;
}
}
#else
if (v1_val >= MIXSRC_FIRST_TELEM) {
putsTelemetryChannelValue(CSW_3RD_COLUMN, y, v1_val - MIXSRC_FIRST_TELEM, convertLswTelemValue(cs), LEFT|attr2);
v2_min = -128; v2_max = 127;
}
else {
lcd_outdezAtt(CSW_3RD_COLUMN, y, cs->v2, LEFT|attr2);
v2_min = -LIMIT_EXT_PERCENT; v2_max = +LIMIT_EXT_PERCENT;
}
#endif
}
// CSW AND switch
#if defined(CPUARM)
putsSwitches(CSW_4TH_COLUMN, y, cs->andsw, horz==LS_FIELD_ANDSW ? attr : 0);
#else
uint8_t andsw = cs->andsw;
if (andsw > SWSRC_LAST_SWITCH) {
andsw += SWSRC_SW1-SWSRC_LAST_SWITCH-1;
}
putsSwitches(CSW_4TH_COLUMN, y, andsw, horz==LS_FIELD_ANDSW ? attr : 0);
#endif
#if defined(CPUARM)
// CSW duration
if (cs->duration > 0)
lcd_outdezAtt(CSW_5TH_COLUMN, y, cs->duration, (horz==LS_FIELD_DURATION ? attr : 0)|PREC1|LEFT);
else
lcd_putsiAtt(CSW_5TH_COLUMN, y, STR_MMMINV, 0, horz==LS_FIELD_DURATION ? attr : 0);
// CSW delay
if (cstate == LS_FAMILY_EDGE) {
lcd_puts(CSW_6TH_COLUMN, y, STR_NA);
if (attr && horz == LS_FIELD_DELAY) {
REPEAT_LAST_CURSOR_MOVE();
}
}
else if (cs->delay > 0) {
lcd_outdezAtt(CSW_6TH_COLUMN, y, cs->delay, (horz==LS_FIELD_DELAY ? attr : 0)|PREC1|LEFT);
}
else {
lcd_putsiAtt(CSW_6TH_COLUMN, y, STR_MMMINV, 0, horz==LS_FIELD_DELAY ? attr : 0);
}
if (attr && horz == LS_FIELD_V3 && cstate != LS_FAMILY_EDGE) {
REPEAT_LAST_CURSOR_MOVE();
}
#endif
if ((s_editMode>0 || p1valdiff) && attr) {
switch (horz) {
case LS_FIELD_FUNCTION:
{
#if defined(CPUARM)
cs->func = checkIncDec(event, cs->func, 0, LS_FUNC_MAX, EE_MODEL, isLogicalSwitchFunctionAvailable);
#else
CHECK_INCDEC_MODELVAR_ZERO(event, cs->func, LS_FUNC_MAX);
#endif
uint8_t new_cstate = lswFamily(cs->func);
if (cstate != new_cstate) {
#if defined(CPUARM)
if (new_cstate == LS_FAMILY_TIMER) {
cs->v1 = cs->v2 = -119;
}
else if (new_cstate == LS_FAMILY_EDGE) {
cs->v1 = 0; cs->v2 = -129; cs->v3 = 0;
}
else {
cs->v1 = cs->v2 = 0;
}
#else
cs->v1 = cs->v2 = (new_cstate==LS_FAMILY_TIMER ? -119/*1.0*/ : 0);
#endif
}
break;
}
case LS_FIELD_V1:
cs->v1 = CHECK_INCDEC_PARAM(event, v1_val, v1_min, v1_max);
break;
case LS_FIELD_V2:
cs->v2 = CHECK_INCDEC_PARAM(event, cs->v2, v2_min, v2_max);
if (checkIncDec_Ret) TRACE("v2=%d", cs->v2);
break;
#if defined(CPUARM)
case LS_FIELD_V3:
cs->v3 = CHECK_INCDEC_PARAM(event, cs->v3, v3_min, v3_max);
break;
#endif
case LS_FIELD_ANDSW:
#if defined(CPUARM)
INCDEC_SET_FLAG(EE_MODEL | INCDEC_SWITCH);
INCDEC_ENABLE_CHECK(isSwitchAvailableInLogicalSwitches);
cs->andsw = CHECK_INCDEC_PARAM(event, cs->andsw, -MAX_LS_ANDSW, MAX_LS_ANDSW);
#else
CHECK_INCDEC_MODELVAR_ZERO(event, cs->andsw, MAX_LS_ANDSW);
#endif
break;
#if defined(CPUARM)
case LS_FIELD_DURATION:
CHECK_INCDEC_MODELVAR_ZERO(event, cs->duration, MAX_LS_DURATION);
break;
case LS_FIELD_DELAY:
CHECK_INCDEC_MODELVAR_ZERO(event, cs->delay, MAX_LS_DELAY);
break;
#endif
}
}
}
}
void menuModelLogicalSwitches(uint8_t event)
{
SIMPLE_MENU(STR_MENULOGICALSWITCHES, menuTabModel, e_LogicalSwitches, NUM_LOGICAL_SWITCH+1);
coord_t y = 0;
uint8_t k = 0;
int8_t sub = m_posVert - 1;
switch (event) {
#if defined(ROTARY_ENCODER_NAVIGATION)
case EVT_ROTARY_BREAK:
#endif
case EVT_KEY_FIRST(KEY_RIGHT):
case EVT_KEY_FIRST(KEY_ENTER):
if (sub >= 0) {
s_currIdx = sub;
pushMenu(menuModelLogicalSwitchOne);
}
break;
}
for (uint8_t i=0; i<LCD_LINES-1; i++) {
y = 1 + (i+1)*FH;
k = i+s_pgOfs;
LogicalSwitchData * cs = lswAddress(k);
// CSW name
uint8_t sw = SWSRC_SW1+k;
putsSwitches(0, y, sw, (sub==k ? INVERS : 0) | (getSwitch(sw) ? BOLD : 0));
if (cs->func > 0) {
// CSW func
lcd_putsiAtt(CSW_1ST_COLUMN, y, STR_VCSWFUNC, cs->func, 0);
// CSW params
uint8_t cstate = lswFamily(cs->func);
if (cstate == LS_FAMILY_BOOL || cstate == LS_FAMILY_STICKY) {
putsSwitches(CSW_2ND_COLUMN, y, cs->v1, 0);
putsSwitches(CSW_3RD_COLUMN, y, cs->v2, 0);
}
else if (cstate == LS_FAMILY_COMP) {
putsMixerSource(CSW_2ND_COLUMN, y, cs->v1, 0);
putsMixerSource(CSW_3RD_COLUMN, y, cs->v2, 0);
}
else if (cstate == LS_FAMILY_EDGE) {
putsSwitches(CSW_2ND_COLUMN, y, cs->v1, 0);
putsEdgeDelayParam(CSW_3RD_COLUMN, y, cs, 0, 0);
}
else if (cstate == LS_FAMILY_TIMER) {
lcd_outdezAtt(CSW_2ND_COLUMN, y, cs->v1+1, LEFT);
lcd_outdezAtt(CSW_3RD_COLUMN, y, cs->v2+1, LEFT);
}
else {
uint8_t v1 = cs->v1;
putsMixerSource(CSW_2ND_COLUMN, y, v1, 0);
if (v1 >= MIXSRC_FIRST_TELEM) {
putsTelemetryChannelValue(CSW_3RD_COLUMN, y, v1 - MIXSRC_FIRST_TELEM, convertLswTelemValue(cs), LEFT);
}
else {
lcd_outdezAtt(CSW_3RD_COLUMN, y, cs->v2, LEFT);
}
}
// CSW and switch
putsSwitches(CSW_4TH_COLUMN, y, cs->andsw, 0);
}
}
}
