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 menuModelLimits(uint8_t event)
{
int sub = menuVerticalPosition;
if (sub < NUM_CHNOUT) {
#if defined(PPM_CENTER_ADJUSTABLE) || defined(PPM_UNIT_US)
lcd_outdezAtt(13*FW, 0, PPM_CH_CENTER(sub)+channelOutputs[sub]/2, 0);
lcd_puts(13*FW, 0, STR_US);
#else
lcd_outdezAtt(13*FW, 0, calcRESXto1000(channelOutputs[sub]), PREC1);
#endif
}
MENU(STR_MENULIMITS, menuTabModel, e_Limits, NUM_CHNOUT+1, { NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, 0 });
if (sub<NUM_CHNOUT && menuHorizontalPosition>=0) {
displayColumnHeader(STR_LIMITS_HEADERS, menuHorizontalPosition);
}
if (warningResult) {
warningResult = 0;
LimitData *ld = limitAddress(sub);
ld->revert = !ld->revert;
eeDirty(EE_MODEL);
}
for (int i=0; i<NUM_BODY_LINES; i++) {
coord_t y = MENU_HEADER_HEIGHT + 1 + i*FH;
uint8_t k = i+menuVerticalOffset;
if (k==NUM_CHNOUT) {
// last line available - add the "copy trim menu" line
uint8_t attr = (sub==NUM_CHNOUT) ? INVERS : 0;
lcd_putsAtt(CENTER_OFS, y, STR_TRIMS2OFFSETS, NO_HIGHLIGHT() ? 0 : attr);
if (attr) {
s_editMode = 0;
if (event==EVT_KEY_LONG(KEY_ENTER)) {
START_NO_HIGHLIGHT();
killEvents(event);
moveTrimsToOffsets(); // if highlighted and menu pressed - move trims to offsets
}
}
return;
}
LimitData *ld = limitAddress(k);
int16_t v = (ld->revert) ? -LIMIT_OFS(ld) : LIMIT_OFS(ld);
char swVal = '-'; // '-', '<', '>'
if ((channelOutputs[k] - v) > 50) swVal = (ld->revert ? 127 : 126); // Switch to raw inputs? - remove trim!
if ((channelOutputs[k] - v) < -50) swVal = (ld->revert ? 126 : 127);
lcd_putc(LIMITS_DIRECTION_POS, y, swVal);
int limit = (g_model.extendedLimits ? LIMIT_EXT_MAX : 1000);
putsChn(0, y, k+1, (sub==k && menuHorizontalPosition < 0) ? INVERS : 0);
if (sub==k && menuHorizontalPosition < 0 && event==EVT_KEY_LONG(KEY_ENTER) && !READ_ONLY()) {
killEvents(event);
POPUP_MENU_ADD_ITEM(STR_RESET);
POPUP_MENU_ADD_ITEM(STR_COPY_TRIMS_TO_OFS);
POPUP_MENU_ADD_ITEM(STR_COPY_STICKS_TO_OFS);
popupMenuHandler = onLimitsMenu;
}
for (int j=0; j<ITEM_LIMITS_COUNT; j++) {
LcdFlags attr = ((sub==k && menuHorizontalPosition==j) ? ((s_editMode>0) ? BLINK|INVERS : INVERS) : 0);
uint8_t active = (attr && s_editMode>0) ;
if (active) STICK_SCROLL_DISABLE();
switch(j)
{
case ITEM_LIMITS_CH_NAME:
editName(LIMITS_NAME_POS, y, ld->name, sizeof(ld->name), event, attr);
break;
case ITEM_LIMITS_OFFSET:
if (GV_IS_GV_VALUE(ld->offset, -1000, 1000) || (attr && event == EVT_KEY_LONG(KEY_ENTER))) {
ld->offset = GVAR_MENU_ITEM(LIMITS_OFFSET_POS, y, ld->offset, -1000, 1000, attr|PREC1, 0, event);
break;
}
#if defined(PPM_UNIT_US)
lcd_outdezAtt(LIMITS_OFFSET_POS, y, ((int32_t)ld->offset*128) / 25, attr|PREC1);
#else
lcd_outdezAtt(LIMITS_OFFSET_POS, y, ld->offset, attr|PREC1);
#endif
if (active) {
ld->offset = checkIncDec(event, ld->offset, -1000, 1000, EE_MODEL, NULL, stops1000);
}
else if (attr && event==EVT_KEY_LONG(KEY_MENU)) {
copySticksToOffset(k);
s_editMode = 0;
}
break;
case ITEM_LIMITS_MIN:
if (GV_IS_GV_VALUE(ld->min, -GV_RANGELARGE, GV_RANGELARGE) || (attr && event == EVT_KEY_LONG(KEY_ENTER))) {
ld->min = GVAR_MENU_ITEM(LIMITS_MIN_POS, y, ld->min, -LIMIT_EXT_MAX, LIMIT_EXT_MAX, MIN_MAX_ATTR, 0, event);
break;
}
lcd_outdezAtt(LIMITS_MIN_POS, y, MIN_MAX_DISPLAY(ld->min-LIMITS_MIN_MAX_OFFSET), MIN_MAX_ATTR);
if (active) ld->min = LIMITS_MIN_MAX_OFFSET + checkIncDec(event, ld->min-LIMITS_MIN_MAX_OFFSET, -limit, 0, EE_MODEL, NULL, stops1000);
break;
case ITEM_LIMITS_MAX:
if (GV_IS_GV_VALUE(ld->max, -GV_RANGELARGE, GV_RANGELARGE) || (attr && event == EVT_KEY_LONG(KEY_ENTER))) {
ld->max = GVAR_MENU_ITEM(LIMITS_MAX_POS, y, ld->max, -LIMIT_EXT_MAX, LIMIT_EXT_MAX, MIN_MAX_ATTR, 0, event);
break;
}
lcd_outdezAtt(LIMITS_MAX_POS, y, MIN_MAX_DISPLAY(ld->max+LIMITS_MIN_MAX_OFFSET), MIN_MAX_ATTR);
if (active) ld->max = -LIMITS_MIN_MAX_OFFSET + checkIncDec(event, ld->max+LIMITS_MIN_MAX_OFFSET, 0, +limit, EE_MODEL, NULL, stops1000);
break;
case ITEM_LIMITS_DIRECTION:
{
uint8_t revert = ld->revert;
#if defined(PPM_CENTER_ADJUSTABLE)
lcd_putcAtt(LIMITS_REVERT_POS, y, revert ? 127 : 126, attr);
#else
lcd_putsiAtt(LIMITS_REVERT_POS, y, STR_MMMINV, revert, attr);
#endif
if (active) {
uint8_t revert_new = checkIncDecModel(event, revert, 0, 1);
if (checkIncDec_Ret && isThrottleOutput(k)) {
POPUP_CONFIRMATION(STR_INVERT_THR);
}
else {
ld->revert = revert_new;
}
}
break;
}
#if defined(CURVES)
case ITEM_LIMITS_CURVE:
putsCurve(LIMITS_CURVE_POS, y, ld->curve, attr);
if (attr && event==EVT_KEY_LONG(KEY_ENTER) && ld->curve>0) {
s_curveChan = (ld->curve<0 ? -ld->curve-1 : ld->curve-1);
pushMenu(menuModelCurveOne);
}
if (active) {
CHECK_INCDEC_MODELVAR(event, ld->curve, -MAX_CURVES, +MAX_CURVES);
}
break;
#endif
#if defined(PPM_CENTER_ADJUSTABLE)
case ITEM_LIMITS_PPM_CENTER:
lcd_outdezAtt(LIMITS_PPM_CENTER_POS, y, PPM_CENTER+ld->ppmCenter, attr);
if (active) {
CHECK_INCDEC_MODELVAR(event, ld->ppmCenter, -PPM_CENTER_MAX, +PPM_CENTER_MAX);
}
break;
#endif
#if defined(PPM_LIMITS_SYMETRICAL)
case ITEM_LIMITS_SYMETRICAL:
lcd_putcAtt(LCD_W-FW-MENUS_SCROLLBAR_WIDTH, y, ld->symetrical ? '=' : '\306', attr);
if (active) {
CHECK_INCDEC_MODELVAR_ZERO(event, ld->symetrical, 1);
}
break;
#endif
}
}
}
}
void menuModelFailsafe(uint8_t event)
{
static bool longNames = false;
bool newLongNames = false;
uint8_t ch = 0;
uint8_t channelStart = g_model.moduleData[g_moduleIdx].channelsStart;
if (event == EVT_KEY_LONG(KEY_ENTER)) {
killEvents(event);
event = 0;
if (s_editMode) {
g_model.moduleData[g_moduleIdx].failsafeChannels[menuVerticalPosition] = channelOutputs[menuVerticalPosition+channelStart];
eeDirty(EE_MODEL);
AUDIO_WARNING1();
s_editMode = 0;
SEND_FAILSAFE_NOW(g_moduleIdx);
}
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;
eeDirty(EE_MODEL);
AUDIO_WARNING1();
SEND_FAILSAFE_NOW(g_moduleIdx);
}
}
SIMPLE_SUBMENU_NOTITLE(NUM_CHANNELS(g_moduleIdx));
SET_SCROLLBAR_X(0);
#define COL_W (LCD_W/2)
const uint8_t SLIDER_W = 64;
// Column separator
lcd_vline(LCD_W/2, FH, LCD_H-FH);
lcd_putsCenter(0*FH, FAILSAFESET);
lcd_invert_line(0);
unsigned int lim = g_model.extendedLimits ? 640*2 : 512*2;
for (uint8_t col=0; col<2; col++) {
coord_t x = col*COL_W+1;
// Channels
for (uint8_t line=0; line<8; line++) {
coord_t y = 9+line*7;
int32_t channelValue = channelOutputs[ch+channelStart];
int32_t failsafeValue = 0;
bool failsafeEditable = false;
uint8_t ofs = (col ? 0 : 1);
if (ch < NUM_CHANNELS(g_moduleIdx)) {
failsafeValue = g_model.moduleData[g_moduleIdx].failsafeChannels[8*col+line];
failsafeEditable = true;
}
if (failsafeEditable) {
// Channel name if present, number if not
uint8_t lenLabel = ZLEN(g_model.limitData[ch+channelStart].name);
if (lenLabel > 4) {
newLongNames = longNames = true;
}
if (lenLabel > 0)
lcd_putsnAtt(x+1-ofs, y, g_model.limitData[ch+channelStart].name, sizeof(g_model.limitData[ch+channelStart].name), ZCHAR | SMLSIZE);
else
putsChn(x+1-ofs, 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[8*col+line], -lim, +lim);
}
}
}
#if defined(PPM_UNIT_PERCENT_PREC1)
uint8_t wbar = (longNames ? SLIDER_W-16 : SLIDER_W-6);
#else
uint8_t wbar = (longNames ? SLIDER_W-10 : SLIDER_W);
#endif
if (failsafeValue == FAILSAFE_CHANNEL_HOLD) {
lcd_putsAtt(x+COL_W-4-wbar-ofs-16, y, "HOLD", flags);
failsafeValue = 0;
}
else if (failsafeValue == FAILSAFE_CHANNEL_NOPULSE) {
lcd_putsAtt(x+COL_W-4-wbar-ofs-16, y, "NONE", flags);
failsafeValue = 0;
}
else {
#if defined(PPM_UNIT_US)
lcd_outdezAtt(x+COL_W-4-wbar-ofs, y, PPM_CH_CENTER(ch)+failsafeValue/2, flags);
#elif defined(PPM_UNIT_PERCENT_PREC1)
lcd_outdezAtt(x+COL_W-4-wbar-ofs, y, calcRESXto1000(failsafeValue), PREC1|flags);
#else
lcd_outdezAtt(x+COL_W-4-wbar-ofs, y, calcRESXto1000(failsafeValue)/10, flags);
#endif
}
// Gauge
lcd_rect(x+COL_W-3-wbar-ofs, y, wbar+1, 6);
unsigned int lenChannel = limit((uint8_t)1, uint8_t((abs(channelValue) * wbar/2 + lim/2) / lim), uint8_t(wbar/2));
unsigned int lenFailsafe = limit((uint8_t)1, uint8_t((abs(failsafeValue) * wbar/2 + lim/2) / lim), uint8_t(wbar/2));
coord_t xChannel = (channelValue>0) ? x+COL_W-ofs-3-wbar/2 : x+COL_W-ofs-2-wbar/2-lenChannel;
coord_t xFailsafe = (failsafeValue>0) ? x+COL_W-ofs-3-wbar/2 : x+COL_W-ofs-2-wbar/2-lenFailsafe;
lcd_hlineStip(xChannel, y+1, lenChannel, DOTTED, 0);
lcd_hlineStip(xChannel, y+2, lenChannel, DOTTED, 0);
lcd_hline(xFailsafe, y+3, lenFailsafe);
lcd_hline(xFailsafe, y+4, lenFailsafe);
}
ch++;
}
}
longNames = newLongNames;
}
void menuModelExpoMix(uint8_t expo, uint8_t event)
{
uint8_t sub = m_posVert;
if (s_editMode > 0)
s_editMode = 0;
uint8_t chn = (expo ? expoAddress(s_currIdx)->chn+1 : mixAddress(s_currIdx)->destCh+1);
switch (event)
{
case EVT_ENTRY:
case EVT_ENTRY_UP:
s_copyMode = 0;
s_copyTgtOfs = 0;
break;
case EVT_KEY_LONG(KEY_EXIT):
if (s_copyMode && s_copyTgtOfs == 0) {
deleteExpoMix(expo, s_currIdx);
killEvents(event);
event = 0;
}
// no break
case EVT_KEY_BREAK(KEY_EXIT):
if (s_copyMode) {
if (s_copyTgtOfs) {
// cancel the current copy / move operation
if (s_copyMode == COPY_MODE) {
deleteExpoMix(expo, s_currIdx);
}
else {
do {
swapExpoMix(expo, s_currIdx, s_copyTgtOfs > 0);
s_copyTgtOfs += (s_copyTgtOfs < 0 ? +1 : -1);
} while (s_copyTgtOfs != 0);
eeDirty(EE_MODEL);
}
m_posVert = s_copySrcRow;
s_copyTgtOfs = 0;
}
s_copyMode = 0;
event = 0;
}
break;
case EVT_KEY_BREAK(KEY_ENTER):
if ((!s_currCh || (s_copyMode && !s_copyTgtOfs)) && !READ_ONLY()) {
s_copyMode = (s_copyMode == COPY_MODE ? MOVE_MODE : COPY_MODE);
s_copySrcIdx = s_currIdx;
s_copySrcCh = chn;
s_copySrcRow = sub;
break;
}
// no break
case EVT_KEY_LONG(KEY_ENTER):
killEvents(event);
if (s_copyTgtOfs) {
s_copyMode = 0;
s_copyTgtOfs = 0;
}
else {
if (READ_ONLY()) {
if (!s_currCh) {
pushMenu(expo ? menuModelExpoOne : menuModelMixOne);
}
}
else {
if (s_copyMode) s_currCh = 0;
if (s_currCh) {
if (reachExpoMixCountLimit(expo)) break;
insertExpoMix(expo, s_currIdx);
pushMenu(expo ? menuModelExpoOne : menuModelMixOne);
s_copyMode = 0;
}
else {
event = 0;
s_copyMode = 0;
MENU_ADD_ITEM(STR_EDIT);
MENU_ADD_ITEM(STR_INSERT_BEFORE);
MENU_ADD_ITEM(STR_INSERT_AFTER);
MENU_ADD_ITEM(STR_COPY);
MENU_ADD_ITEM(STR_MOVE);
MENU_ADD_ITEM(STR_DELETE);
menuHandler = onExpoMixMenu;
}
}
}
break;
case EVT_KEY_LONG(KEY_LEFT):
case EVT_KEY_LONG(KEY_RIGHT):
if (s_copyMode && !s_copyTgtOfs) {
if (reachExpoMixCountLimit(expo)) break;
s_currCh = chn;
if (event == EVT_KEY_LONG(KEY_RIGHT)) { s_currIdx++; m_posVert++; }
insertExpoMix(expo, s_currIdx);
pushMenu(expo ? menuModelExpoOne : menuModelMixOne);
s_copyMode = 0;
killEvents(event);
}
break;
case EVT_KEY_FIRST(KEY_MOVE_UP):
case EVT_KEY_REPT(KEY_MOVE_UP):
case EVT_KEY_FIRST(KEY_MOVE_DOWN):
case EVT_KEY_REPT(KEY_MOVE_DOWN):
if (s_copyMode) {
uint8_t key = (event & 0x1f);
uint8_t next_ofs = (key==KEY_MOVE_UP ? s_copyTgtOfs - 1 : s_copyTgtOfs + 1);
if (s_copyTgtOfs==0 && s_copyMode==COPY_MODE) {
// insert a mix on the same channel (just above / just below)
if (reachExpoMixCountLimit(expo)) break;
copyExpoMix(expo, s_currIdx);
if (key==KEY_MOVE_DOWN) s_currIdx++;
else if (sub-s_pgOfs >= 6) s_pgOfs++;
}
else if (next_ofs==0 && s_copyMode==COPY_MODE) {
// delete the mix
deleteExpoMix(expo, s_currIdx);
if (key==KEY_MOVE_UP) s_currIdx--;
}
else {
// only swap the mix with its neighbor
if (!swapExpoMix(expo, s_currIdx, key==KEY_MOVE_UP)) break;
eeDirty(EE_MODEL);
}
s_copyTgtOfs = next_ofs;
}
break;
}
if (expo) {
lcd_outdezAtt(FW*sizeof(TR_MENUINPUTS)+FW+FW/2, 0, getExpoMixCount(true));
lcd_puts(FW*sizeof(TR_MENUINPUTS)+FW+FW/2, 0, STR_MAX(MAX_EXPOS));
// Value
uint8_t index = expoAddress(s_currIdx)->chn;
if (!s_currCh) {
lcd_outdezAtt(127, 2, calcRESXto1000(anas[index]), PREC1|TINSIZE);
}
SIMPLE_MENU(STR_MENUINPUTS, menuTabModel, e_InputsAll, s_maxLines);
// Gauge
if (!s_currCh) {
drawGauge(127, 1, 58, 6, anas[index], 1024);
}
}
else {
lcd_outdezAtt(FW*sizeof(TR_MIXER)+FW+FW/2, 0, getExpoMixCount(false));
lcd_puts(FW*sizeof(TR_MIXER)+FW+FW/2, 0, STR_MAX(MAX_MIXERS));
// Value
uint8_t index = mixAddress(s_currIdx)->destCh;
if (!s_currCh) {
displayHeaderChannelName(index);
lcd_outdezAtt(127, 2, calcRESXto1000(ex_chans[index]), PREC1|TINSIZE);
}
SIMPLE_MENU(STR_MIXER, menuTabModel, e_MixAll, s_maxLines);
// Gauge
if (!s_currCh) {
drawGauge(127, 1, 58, 6, ex_chans[index], 1024);
}
}
sub = m_posVert;
s_currCh = 0;
int cur = 0;
int i = 0;
for (int ch=1; ch<=(expo ? NUM_INPUTS : NUM_CHNOUT); ch++) {
void *pointer = NULL; MixData * &md = (MixData * &)pointer; ExpoData * &ed = (ExpoData * &)pointer;
coord_t y = MENU_HEADER_HEIGHT+1+(cur-s_pgOfs)*FH;
if (expo ? (i<MAX_EXPOS && (ed=expoAddress(i))->chn+1 == ch && EXPO_VALID(ed)) : (i<MAX_MIXERS && (md=mixAddress(i))->srcRaw && md->destCh+1 == ch)) {
if (cur-s_pgOfs >= 0 && cur-s_pgOfs < NUM_BODY_LINES) {
if (expo) {
putsMixerSource(0, y, ch, 0);
}
else {
putsChn(0, y, ch, 0); // show CHx
}
}
uint8_t mixCnt = 0;
do {
if (s_copyMode) {
if (s_copyMode == MOVE_MODE && cur-s_pgOfs >= 0 && cur-s_pgOfs < NUM_BODY_LINES && s_copySrcCh == ch && s_copyTgtOfs != 0 && i == (s_copySrcIdx + (s_copyTgtOfs<0))) {
lcd_rect(expo ? 18 : 22, y-1, expo ? LCD_W-18 : LCD_W-22, 9, DOTTED);
cur++; y+=FH;
}
if (s_currIdx == i) {
sub = m_posVert = cur;
s_currCh = ch;
}
}
else if (sub == cur) {
s_currIdx = i;
}
if (cur-s_pgOfs >= 0 && cur-s_pgOfs < NUM_BODY_LINES) {
uint8_t attr = ((s_copyMode || sub != cur) ? 0 : INVERS);
if (expo) {
GVAR_MENU_ITEM(EXPO_LINE_WEIGHT_POS, y, ed->weight, MIN_EXPO_WEIGHT, 100, attr | (isExpoActive(i) ? BOLD : 0), 0, 0);
displayExpoLine(y, ed);
if (ed->mode!=3) {
lcd_putc(EXPO_LINE_SIDE_POS, y, ed->mode == 2 ? 126 : 127);
}
}
else {
if (mixCnt > 0) lcd_putsiAtt(FW, y, STR_VMLTPX2, md->mltpx, 0);
putsMixerSource(MIX_LINE_SRC_POS, y, md->srcRaw, 0);
gvarWeightItem(MIX_LINE_WEIGHT_POS, y, md, attr | (isMixActive(i) ? BOLD : 0), 0);
displayMixLine(y, md);
char cs = ' ';
if (md->speedDown || md->speedUp)
cs = 'S';
if (md->delayUp || md->delayDown)
cs = (cs =='S' ? '*' : 'D');
lcd_putc(MIX_LINE_DELAY_POS, y, cs);
}
if (s_copyMode) {
if ((s_copyMode==COPY_MODE || s_copyTgtOfs == 0) && s_copySrcCh == ch && i == (s_copySrcIdx + (s_copyTgtOfs<0))) {
/* draw a border around the raw on selection mode (copy/move) */
lcd_rect(expo ? EXPO_LINE_SELECT_POS : 22, y-1, expo ? (LCD_W-EXPO_LINE_SELECT_POS) : (LCD_W-22), 9, s_copyMode == COPY_MODE ? SOLID : DOTTED);
}
if (cur == sub) {
/* invert the raw when it's the current one */
drawFilledRect(expo ? EXPO_LINE_SELECT_POS+1 : 23, y, expo ? (LCD_W-EXPO_LINE_SELECT_POS-2) : (LCD_W-24), 7);
}
}
}
cur++; y+=FH; mixCnt++; i++; if (expo) ed++; else md++;
} while (expo ? (i<MAX_EXPOS && ed->chn+1 == ch && EXPO_VALID(ed)) : (i<MAX_MIXERS && md->srcRaw && md->destCh+1 == ch));
if (s_copyMode == MOVE_MODE && cur-s_pgOfs >= 0 && cur-s_pgOfs < NUM_BODY_LINES && s_copySrcCh == ch && i == (s_copySrcIdx + (s_copyTgtOfs<0))) {
lcd_rect(expo ? EXPO_LINE_SELECT_POS : 22, y-1, expo ? LCD_W-EXPO_LINE_SELECT_POS : LCD_W-22, 9, DOTTED);
cur++; y+=FH;
}
}
else {
uint8_t attr = 0;
if (sub == cur) {
s_currIdx = i;
s_currCh = ch;
if (!s_copyMode) {
attr = INVERS;
}
}
if (cur-s_pgOfs >= 0 && cur-s_pgOfs < NUM_BODY_LINES) {
if (expo) {
putsMixerSource(0, y, ch, attr);
}
else {
putsChn(0, y, ch, attr); // show CHx
}
if (s_copyMode == MOVE_MODE && s_copySrcCh == ch) {
lcd_rect(expo ? EXPO_LINE_SELECT_POS : 22, y-1, expo ? (LCD_W-EXPO_LINE_SELECT_POS) : (LCD_W-22), 9, DOTTED);
}
}
cur++; y+=FH;
}
}
s_maxLines = cur;
if (sub >= s_maxLines-1) m_posVert = s_maxLines-1;
}
void menuModelExpoOne(uint8_t event)
{
if (event == EVT_KEY_LONG(KEY_MENU)) {
pushMenu(menuChannelsView);
killEvents(event);
}
ExpoData *ed = expoAddress(s_currIdx);
putsMixerSource(7*FW+FW/2, 0, MIXSRC_FIRST_INPUT+ed->chn, 0);
SUBMENU(STR_MENUINPUTS, EXPO_FIELD_MAX, {0, 0, 0, ed->srcRaw >= MIXSRC_FIRST_TELEM ? (uint8_t)0 : (uint8_t)HIDDEN_ROW, 0, 0, CASE_CURVES(CURVE_ROWS) CASE_FLIGHT_MODES((MAX_FLIGHT_MODES-1) | NAVIGATION_LINE_BY_LINE) 0 /*, ...*/});
SET_SCROLLBAR_X(EXPO_ONE_2ND_COLUMN+10*FW);
int8_t sub = m_posVert;
coord_t y = MENU_HEADER_HEIGHT + 1;
for (unsigned int k=0; k<NUM_BODY_LINES; k++) {
int i = k + s_pgOfs;
for (int j=0; j<=i; ++j) {
if (j<(int)DIM(mstate_tab) && mstate_tab[j] == HIDDEN_ROW) {
++i;
}
}
LcdFlags attr = (sub==i ? (s_editMode>0 ? BLINK|INVERS : INVERS) : 0);
switch(i)
{
case EXPO_FIELD_INPUT_NAME:
editSingleName(EXPO_ONE_2ND_COLUMN, y, STR_INPUTNAME, g_model.inputNames[ed->chn], sizeof(g_model.inputNames[ed->chn]), event, attr);
break;
case EXPO_FIELD_NAME:
editSingleName(EXPO_ONE_2ND_COLUMN, y, STR_EXPONAME, ed->name, sizeof(ed->name), event, attr);
break;
case EXPO_FIELD_SOURCE:
lcd_putsLeft(y, NO_INDENT(STR_SOURCE));
putsMixerSource(EXPO_ONE_2ND_COLUMN, y, ed->srcRaw, STREXPANDED|attr);
if (attr) ed->srcRaw = checkIncDec(event, ed->srcRaw, INPUTSRC_FIRST, INPUTSRC_LAST, EE_MODEL|INCDEC_SOURCE|NO_INCDEC_MARKS, isInputSourceAvailable);
break;
case EXPO_FIELD_SCALE:
lcd_putsLeft(y, STR_SCALE);
putsTelemetryChannelValue(EXPO_ONE_2ND_COLUMN, y, (ed->srcRaw - MIXSRC_FIRST_TELEM)/3, convertTelemValue(ed->srcRaw - MIXSRC_FIRST_TELEM + 1, ed->scale), LEFT|attr);
if (attr) ed->scale = checkIncDec(event, ed->scale, 0, maxTelemValue(ed->srcRaw - MIXSRC_FIRST_TELEM + 1), EE_MODEL);
break;
case EXPO_FIELD_WEIGHT:
lcd_putsLeft(y, STR_WEIGHT);
ed->weight = GVAR_MENU_ITEM(EXPO_ONE_2ND_COLUMN, y, ed->weight, MIN_EXPO_WEIGHT, 100, LEFT|attr, 0, event);
break;
case EXPO_FIELD_OFFSET:
lcd_putsLeft(y, NO_INDENT(STR_OFFSET));
ed->offset = GVAR_MENU_ITEM(EXPO_ONE_2ND_COLUMN, y, ed->offset, -100, 100, LEFT|attr, 0, event);
break;
#if defined(CURVES)
case EXPO_FIELD_CURVE:
lcd_putsLeft(y, STR_CURVE);
editCurveRef(EXPO_ONE_2ND_COLUMN, y, ed->curve, event, attr);
break;
#endif
#if defined(FLIGHT_MODES)
case EXPO_FIELD_FLIGHT_MODES:
ed->flightModes = editFlightModes(EXPO_ONE_2ND_COLUMN, y, event, ed->flightModes, attr);
break;
#endif
case EXPO_FIELD_SWITCH:
ed->swtch = switchMenuItem(EXPO_ONE_2ND_COLUMN, y, ed->swtch, attr, event);
break;
case EXPO_FIELD_SIDE:
ed->mode = 4 - selectMenuItem(EXPO_ONE_2ND_COLUMN, y, STR_SIDE, STR_VSIDE, 4-ed->mode, 1, 3, attr, event);
break;
case EXPO_FIELD_TRIM:
uint8_t not_stick = (ed->srcRaw > MIXSRC_Ail);
int8_t carryTrim = -ed->carryTrim;
lcd_putsLeft(y, STR_TRIM);
lcd_putsiAtt(EXPO_ONE_2ND_COLUMN, y, STR_VMIXTRIMS, (not_stick && carryTrim == 0) ? 0 : carryTrim+1, m_posHorz==0 ? attr : 0);
if (attr) ed->carryTrim = -checkIncDecModel(event, carryTrim, not_stick ? TRIM_ON : -TRIM_OFF, -TRIM_AIL);
break;
}
y += FH;
}
DrawFunction(expoFn);
int x512 = getValue(ed->srcRaw);
if (ed->srcRaw >= MIXSRC_FIRST_TELEM) {
putsTelemetryChannelValue(LCD_W-8, 6*FH, (ed->srcRaw - MIXSRC_FIRST_TELEM) / 3, x512, 0);
if (ed->scale > 0) x512 = (x512 * 1024) / convertTelemValue(ed->srcRaw - MIXSRC_FIRST_TELEM + 1, ed->scale);
}
else {
lcd_outdezAtt(LCD_W-8, 6*FH, calcRESXto1000(x512), PREC1);
}
x512 = limit(-1024, x512, 1024);
int y512 = expoFn(x512);
y512 = limit(-1024, y512, 1024);
lcd_outdezAtt(LCD_W-8-6*FW, 1*FH, calcRESXto1000(y512), PREC1);
x512 = X0+x512/(RESX/WCHART);
y512 = (LCD_H-1) - ((y512+RESX)/2) * (LCD_H-1) / RESX;
lcd_vline(x512, y512-3, 3*2+1);
lcd_hline(x512-3, y512, 3*2+1);
}
void menuModelLimits(uint8_t event)
{
uint8_t sub = m_posVert - 1;
if (sub < NUM_CHNOUT) {
#if defined(PPM_CENTER_ADJUSTABLE) || defined(PPM_UNIT_US)
lcd_outdezAtt(13*FW, 0, PPM_CH_CENTER(sub)+channelOutputs[sub]/2, 0);
lcd_puts(13*FW, 0, STR_US);
#else
lcd_outdezAtt(13*FW, 0, calcRESXto1000(channelOutputs[sub]), PREC1);
#endif
}
#if defined(CPUARM)
MENU(STR_MENULIMITS, menuTabModel, e_Limits, 1+NUM_CHNOUT+1, {0, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, NAVIGATION_LINE_BY_LINE|ITEM_LIMITS_MAXROW, 0});
#else
MENU(STR_MENULIMITS, menuTabModel, e_Limits, 1+NUM_CHNOUT+1, {0, ITEM_LIMITS_MAXROW, ITEM_LIMITS_MAXROW, ITEM_LIMITS_MAXROW, ITEM_LIMITS_MAXROW, ITEM_LIMITS_MAXROW, ITEM_LIMITS_MAXROW, ITEM_LIMITS_MAXROW, ITEM_LIMITS_MAXROW, ITEM_LIMITS_MAXROW, ITEM_LIMITS_MAXROW, ITEM_LIMITS_MAXROW, ITEM_LIMITS_MAXROW, ITEM_LIMITS_MAXROW, ITEM_LIMITS_MAXROW, ITEM_LIMITS_MAXROW, ITEM_LIMITS_MAXROW, 0});
#endif
if (s_warning_result) {
s_warning_result = 0;
LimitData *ld = limitAddress(sub);
ld->revert = !ld->revert;
eeDirty(EE_MODEL);
}
for (uint8_t i=0; i<LCD_LINES-1; i++) {
coord_t y = MENU_HEADER_HEIGHT + 1 + i*FH;
uint8_t k = i+s_pgOfs;
if (k==NUM_CHNOUT) {
// last line available - add the "copy trim menu" line
uint8_t attr = (sub==NUM_CHNOUT) ? INVERS : 0;
lcd_putsAtt(CENTER_OFS, y, STR_TRIMS2OFFSETS, s_noHi ? 0 : attr);
if (attr) {
s_editMode = 0;
if (event==EVT_KEY_LONG(KEY_ENTER)) {
s_noHi = NO_HI_LEN;
killEvents(event);
moveTrimsToOffsets(); // if highlighted and menu pressed - move trims to offsets
}
}
return;
}
LimitData *ld = limitAddress(k);
#if !defined(PPM_CENTER_ADJUSTABLE)
int16_t v = (ld->revert) ? -LIMIT_OFS(ld) : LIMIT_OFS(ld);
char swVal = '-'; // '-', '<', '>'
if ((channelOutputs[k] - v) > 50) swVal = (ld->revert ? 127 : 126); // Switch to raw inputs? - remove trim!
if ((channelOutputs[k] - v) < -50) swVal = (ld->revert ? 126 : 127);
putsChn(0, y, k+1, 0);
lcd_putc(LIMITS_DIRECTION_POS, y, swVal);
#endif
int8_t limit = (g_model.extendedLimits ? LIMIT_EXT_MAX : 100);
putsChn(0, y, k+1, 0);
for (uint8_t j=0; j<ITEM_LIMITS_COUNT; j++) {
uint8_t attr = ((sub==k && m_posHorz==j) ? ((s_editMode>0) ? BLINK|INVERS : INVERS) : 0);
uint8_t active = (attr && (s_editMode>0 || p1valdiff)) ;
if (active) STICK_SCROLL_DISABLE();
switch(j)
{
case ITEM_LIMITS_OFFSET:
#if defined(PPM_UNIT_US)
lcd_outdezAtt(LIMITS_OFFSET_POS, y, ((int32_t)ld->offset*128) / 25, attr|PREC1);
#else
lcd_outdezAtt(LIMITS_OFFSET_POS, y, ld->offset, attr|PREC1);
#endif
if (active) {
#if defined(CPUARM)
ld->offset = checkIncDec(event, ld->offset, -1000, 1000, EE_MODEL, NULL, stops1000);
#else
ld->offset = checkIncDec(event, ld->offset, -1000, 1000, EE_MODEL|NO_INCDEC_MARKS);
#endif
}
else if (attr && event==EVT_KEY_LONG(KEY_MENU)) {
copySticksToOffset(k);
s_editMode = 0;
}
break;
case ITEM_LIMITS_MIN:
lcd_outdezAtt(LIMITS_MIN_POS, y, MIN_MAX_DISPLAY(ld->min-LIMITS_MIN_MAX_OFFSET), MIN_MAX_ATTR);
#if defined(CPUARM)
if (active) ld->min = LIMITS_MIN_MAX_OFFSET + checkIncDec(event, ld->min-LIMITS_MIN_MAX_OFFSET, -limit, 0, EE_MODEL, NULL, stops1000);
#else
if (active) ld->min = LIMITS_MIN_MAX_OFFSET + checkIncDec(event, ld->min-LIMITS_MIN_MAX_OFFSET, -limit, 0, EE_MODEL);
#endif
break;
case ITEM_LIMITS_MAX:
lcd_outdezAtt(LIMITS_MAX_POS, y, MIN_MAX_DISPLAY(ld->max+LIMITS_MIN_MAX_OFFSET), MIN_MAX_ATTR);
#if defined(CPUARM)
if (active) ld->max = -LIMITS_MIN_MAX_OFFSET + checkIncDec(event, ld->max+LIMITS_MIN_MAX_OFFSET, 0, +limit, EE_MODEL, NULL, stops1000);
#else
if (active) ld->max = -LIMITS_MIN_MAX_OFFSET + checkIncDec(event, ld->max+LIMITS_MIN_MAX_OFFSET, 0, +limit, EE_MODEL);
#endif
break;
case ITEM_LIMITS_DIRECTION:
{
uint8_t revert = ld->revert;
#if defined(PPM_CENTER_ADJUSTABLE)
lcd_putcAtt(LIMITS_REVERT_POS, y, revert ? 127 : 126, attr);
#else
lcd_putsiAtt(LIMITS_REVERT_POS, y, STR_MMMINV, revert, attr);
#endif
if (active) {
uint8_t revert_new = checkIncDecModel(event, revert, 0, 1);
if (checkIncDec_Ret && isThrottleOutput(k)) {
POPUP_CONFIRMATION(STR_INVERT_THR);
}
else {
ld->revert = revert_new;
}
}
break;
}
#if defined(PPM_CENTER_ADJUSTABLE)
case ITEM_LIMITS_PPM_CENTER:
lcd_outdezAtt(LIMITS_PPM_CENTER_POS, y, PPM_CENTER+ld->ppmCenter, attr);
if (active) {
CHECK_INCDEC_MODELVAR(event, ld->ppmCenter, -PPM_CENTER_MAX, +PPM_CENTER_MAX);
}
break;
#endif
#if defined(PPM_LIMITS_SYMETRICAL)
case ITEM_LIMITS_SYMETRICAL:
#if defined(CPUARM)
lcd_putcAtt(LCD_W-FW-MENUS_SCROLLBAR_WIDTH, y, ld->symetrical ? '=' : '\306', attr);
#else
lcd_putcAtt(LCD_W-FW-MENUS_SCROLLBAR_WIDTH, y, ld->symetrical ? '=' : '^', attr);
#endif
if (active) {
CHECK_INCDEC_MODELVAR_ZERO(event, ld->symetrical, 1);
}
break;
#endif
}
}
}
}
