/*luadoc
@function lcd.drawChannel(x, y, source, flags)
Display a telemetry value at (x,y)
@param x,y (positive numbers) starting coordinate
@param source can be a source identifier (number) or a source name (string).
See getValue()
@param flags (unsigned number) drawing flags
@status current Introduced in 2.0.6, changed in 2.1.0 (only telemetry sources are valid)
*/
static int luaLcdDrawChannel(lua_State *L)
{
if (!luaLcdAllowed) return 0;
int x = luaL_checkinteger(L, 1);
int y = luaL_checkinteger(L, 2);
int channel = -1;
if (lua_isnumber(L, 3)) {
channel = luaL_checkinteger(L, 3);
}
else {
const char * what = luaL_checkstring(L, 3);
LuaField field;
bool found = luaFindFieldByName(what, field);
if (found) {
channel = field.id;
}
}
unsigned int att = luaL_optunsigned(L, 4, 0);
getvalue_t value = getValue(channel);
putsTelemetryChannelValue(x, y, (channel-MIXSRC_FIRST_TELEM)/3, value, att);
return 0;
}
void menuModelTelemetry(uint8_t event)
{
MENU(STR_MENUTELEMETRY, menuTabModel, e_Telemetry, ITEM_TELEMETRY_MAX+1, {0, TELEMETRY_TYPE_ROWS CHANNELS_ROWS RSSI_ROWS SENSORS_ROWS USRDATA_ROWS CASE_VARIO(LABEL(Vario)) CASE_VARIO(0) CASE_VARIO(VARIO_RANGE_ROWS) TELEMETRY_SCREEN_ROWS(0), TELEMETRY_SCREEN_ROWS(1), CASE_CPUARM(TELEMETRY_SCREEN_ROWS(2)) CASE_CPUARM(TELEMETRY_SCREEN_ROWS(3))});
uint8_t sub = m_posVert - 1;
switch (event) {
case EVT_KEY_BREAK(KEY_DOWN):
case EVT_KEY_BREAK(KEY_UP):
case EVT_KEY_BREAK(KEY_LEFT):
case EVT_KEY_BREAK(KEY_RIGHT):
if (s_editMode>0 && sub<=ITEM_TELEMETRY_RSSI_ALARM2)
frskySendAlarms(); // update FrSky module when edit mode exited
break;
}
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 defined(CPUARM)
for (int j=0; j<=k; j++) {
if (mstate_tab[j+1] == HIDDEN_ROW)
k++;
}
#endif
uint8_t blink = ((s_editMode>0) ? BLINK|INVERS : INVERS);
uint8_t attr = (sub == k ? blink : 0);
#if !defined(CPUARM)
uint8_t ch = TELEMETRY_CURRENT_EDIT_CHANNEL(k);
FrSkyChannelData & channel = g_model.frsky.channels[ch];
uint8_t dest = TELEM_A1-1+ch;
#endif
#if defined(CPUARM)
if (k>=ITEM_TELEMETRY_SENSOR1 && k<ITEM_TELEMETRY_SENSOR1+MAX_SENSORS) {
int index = k-ITEM_TELEMETRY_SENSOR1;
lcd_outdezAtt(INDENT_WIDTH, y, index+1, LEFT|attr);
lcd_putcAtt(lcdLastPos, y, ':', attr);
lcd_putsnAtt(3*FW, y, g_model.telemetrySensors[index].label, TELEM_LABEL_LEN, ZCHAR);
if (telemetryItems[index].isFresh()) {
lcd_putc(16*FW, y, '*');
}
TelemetryItem & telemetryItem = telemetryItems[index];
if (telemetryItem.isAvailable()) {
bool isOld = telemetryItem.isOld();
lcdNextPos = TELEM_COL2;
if (isOld) lcd_putc(lcdNextPos, y, '[');
putsTelemetryChannelValue(lcdNextPos, y, index, getValue(MIXSRC_FIRST_TELEM+3*index), LEFT);
if (isOld) lcd_putc(lcdLastPos, y, ']');
}
else {
lcd_putsAtt(TELEM_COL2, y, "---", 0); // TODO shortcut
}
if (attr) {
s_editMode = 0;
s_currIdx = index;
if (event == EVT_KEY_LONG(KEY_ENTER)) {
killEvents(event);
MENU_ADD_ITEM(STR_EDIT);
MENU_ADD_ITEM(STR_COPY);
MENU_ADD_ITEM(STR_DELETE);
menuHandler = onSensorMenu;
}
else if (event == EVT_KEY_BREAK(KEY_ENTER)) {
pushMenu(menuModelSensor);
}
}
}
else
#endif
switch (k) {
#if defined(CPUARM)
case ITEM_TELEMETRY_PROTOCOL_TYPE:
g_model.telemetryProtocol = selectMenuItem(TELEM_COL2, y, STR_TELEMETRY_TYPE, "\017FrSky S.PORT\0 FrSky D\0 FrSky D (cable)", g_model.telemetryProtocol, PROTOCOL_TELEMETRY_FIRST, CASE_PCBSKY9X(PROTOCOL_FRSKY_D_SECONDARY) attr, event);
break;
#endif
#if defined(CPUARM)
case ITEM_TELEMETRY_SENSORS_LABEL:
lcd_putsLeft(y, STR_TELEMETRY_SENSORS);
break;
case ITEM_TELEMETRY_NEWSENSOR:
lcd_putsAtt(0, y, STR_TELEMETRY_NEWSENSOR, attr);
if (attr && event==EVT_KEY_BREAK(KEY_ENTER)) {
s_editMode = 0;
int res = availableTelemetryIndex();
if (res >= 0) {
s_currIdx = res;
pushMenu(menuModelSensor);
}
else {
POPUP_WARNING(STR_TELEMETRYFULL);
}
}
break;
case ITEM_TELEMETRY_IGNORE_SENSORID:
ON_OFF_MENU_ITEM(g_model.ignoreSensorIds, TELEM_COL2, y, STR_IGNOREIDS, attr, event);
break;
#endif
#if !defined(CPUARM)
case ITEM_TELEMETRY_A1_LABEL:
case ITEM_TELEMETRY_A2_LABEL:
lcd_putsLeft(y, STR_ACHANNEL);
lcd_outdezAtt(2*FW, y, ch+1, 0);
putsTelemetryChannelValue(TELEM_COL2+6*FW, y, dest, frskyData.analog[ch].value, LEFT);
break;
case ITEM_TELEMETRY_A1_RANGE:
case ITEM_TELEMETRY_A2_RANGE:
lcd_putsLeft(y, STR_RANGE);
putsTelemetryChannelValue(TELEM_COL2, y, dest, 255-channel.offset, (m_posHorz<=0 ? attr : 0)|NO_UNIT|LEFT);
lcd_putsiAtt(lcdLastPos, y, STR_VTELEMUNIT, channel.type, m_posHorz!=0 ? attr : 0);
if (attr && (s_editMode>0 || p1valdiff)) {
if (m_posHorz == 0) {
uint16_t ratio = checkIncDec(event, channel.ratio, 0, 256, EE_MODEL);
if (checkIncDec_Ret) {
if (ratio == 127 && channel.multiplier > 0) {
channel.multiplier--; channel.ratio = 255;
}
else if (ratio == 256) {
if (channel.multiplier < FRSKY_MULTIPLIER_MAX) { channel.multiplier++; channel.ratio = 128; }
}
else {
channel.ratio = ratio;
}
}
}
else {
CHECK_INCDEC_MODELVAR_ZERO(event, channel.type, UNIT_A1A2_MAX);
}
}
break;
case ITEM_TELEMETRY_A1_OFFSET:
case ITEM_TELEMETRY_A2_OFFSET:
lcd_putsLeft(y, STR_OFFSET);
putsTelemetryChannelValue(TELEM_COL2, y, dest, 0, LEFT|attr);
if (attr) channel.offset = checkIncDec(event, channel.offset, -256, 256, EE_MODEL);
break;
case ITEM_TELEMETRY_A1_ALARM1:
case ITEM_TELEMETRY_A1_ALARM2:
case ITEM_TELEMETRY_A2_ALARM1:
case ITEM_TELEMETRY_A2_ALARM2:
{
uint8_t alarm = ((k==ITEM_TELEMETRY_A1_ALARM1 || k==ITEM_TELEMETRY_A2_ALARM1) ? 0 : 1);
lcd_putsLeft(y, STR_ALARM);
lcd_putsiAtt(TELEM_COL2, y, STR_VALARM, ALARM_LEVEL(ch, alarm), m_posHorz<=0 ? attr : 0);
lcd_putsiAtt(TELEM_COL2+4*FW, y, STR_VALARMFN, ALARM_GREATER(ch, alarm), (CURSOR_ON_LINE() || m_posHorz==1) ? attr : 0);
putsTelemetryChannelValue(TELEM_COL2+6*FW, y, dest, channel.alarms_value[alarm], ((CURSOR_ON_LINE() || m_posHorz==2) ? attr : 0) | LEFT);
if (attr && (s_editMode>0 || p1valdiff)) {
uint8_t t;
switch (m_posHorz) {
case 0:
t = ALARM_LEVEL(ch, alarm);
channel.alarms_level = (channel.alarms_level & ~(3<<(2*alarm))) + (checkIncDecModel(event, t, 0, 3) << (2*alarm));
break;
case 1:
t = ALARM_GREATER(ch, alarm);
if (t != checkIncDecModel(event, t, 0, 1)) {
channel.alarms_greater ^= (1 << alarm);
frskySendAlarms();
}
break;
case 2:
channel.alarms_value[alarm] = checkIncDec(event, channel.alarms_value[alarm], 0, 255, EE_MODEL);
break;
}
}
break;
}
#endif
case ITEM_TELEMETRY_RSSI_LABEL:
lcd_putsLeft(y, PSTR("RSSI"));
break;
case ITEM_TELEMETRY_RSSI_ALARM1:
case ITEM_TELEMETRY_RSSI_ALARM2: {
uint8_t alarm = k-ITEM_TELEMETRY_RSSI_ALARM1;
lcd_putsLeft(y, STR_ALARM);
lcd_putsiAtt(TELEM_COL2, y, STR_VALARM, ((2+alarm+g_model.frsky.rssiAlarms[alarm].level)%4), m_posHorz<=0 ? attr : 0);
lcd_putc(TELEM_COL2+4*FW, y, '<');
lcd_outdezNAtt(TELEM_COL2+6*FW, y, getRssiAlarmValue(alarm), LEFT|(m_posHorz!=0 ? attr : 0), 3);
if (attr && (s_editMode>0 || p1valdiff)) {
switch (m_posHorz) {
case 0:
CHECK_INCDEC_MODELVAR(event, g_model.frsky.rssiAlarms[alarm].level, -3, 2); // circular (saves flash)
break;
case 1:
CHECK_INCDEC_MODELVAR(event, g_model.frsky.rssiAlarms[alarm].value, -30, 30);
break;
}
}
break;
}
#if !defined(CPUARM)
#if defined(FRSKY_HUB) || defined(WS_HOW_HIGH)
case ITEM_TELEMETRY_USR_LABEL:
lcd_putsLeft(y, STR_USRDATA);
break;
case ITEM_TELEMETRY_USR_PROTO:
lcd_putsLeft(y, STR_PROTO);
lcd_putsiAtt(TELEM_COL2, y, STR_VTELPROTO, g_model.frsky.usrProto, attr);
if (attr) CHECK_INCDEC_MODELVAR_ZERO(event, g_model.frsky.usrProto, USR_PROTO_LAST);
break;
case ITEM_TELEMETRY_USR_BLADES:
lcd_putsLeft(y, STR_BLADES);
lcd_outdezAtt(TELEM_COL2+FWNUM, y, 2+g_model.frsky.blades, attr);
if (attr) CHECK_INCDEC_MODELVAR_ZERO(event, g_model.frsky.blades, MAX_BLADES);
break;
#endif
case ITEM_TELEMETRY_USR_VOLTAGE_SOURCE:
lcd_putsLeft(y, STR_VOLTAGE);
lcd_putsiAtt(TELEM_COL2, y, STR_AMPSRC, g_model.frsky.voltsSource+1, attr);
if (attr) CHECK_INCDEC_MODELVAR_ZERO(event, g_model.frsky.voltsSource, FRSKY_VOLTS_SOURCE_LAST);
break;
case ITEM_TELEMETRY_USR_CURRENT_SOURCE:
lcd_putsLeft(y, STR_CURRENT);
lcd_putsiAtt(TELEM_COL2, y, STR_AMPSRC, g_model.frsky.currentSource, attr);
if (attr) CHECK_INCDEC_MODELVAR_ZERO(event, g_model.frsky.currentSource, FRSKY_CURRENT_SOURCE_LAST);
break;
#if defined(FAS_OFFSET) || !defined(CPUM64)
case ITEM_TELEMETRY_FAS_OFFSET:
lcd_putsLeft(y, STR_FAS_OFFSET);
lcd_outdezAtt(TELEM_COL2, y, g_model.frsky.fasOffset, attr|LEFT|PREC1);
lcd_outdezAtt(TELEM_COL2+6*FW, y, frskyData.hub.current, LEFT|PREC1);
lcd_putc(TELEM_COL2+8*FW, y, 'A');
if (attr) g_model.frsky.fasOffset = checkIncDec(event, g_model.frsky.fasOffset, -120, 120, EE_MODEL);
break;
#endif
#endif
#if defined(VARIO)
case ITEM_TELEMETRY_VARIO_LABEL:
lcd_putsLeft(y, STR_VARIO);
break;
case ITEM_TELEMETRY_VARIO_SOURCE:
lcd_putsLeft(y, STR_SOURCE);
#if defined(CPUARM)
putsMixerSource(TELEM_COL2, y, g_model.frsky.varioSource ? MIXSRC_FIRST_TELEM+3*(g_model.frsky.varioSource-1) : 0, attr);
if (attr) {
g_model.frsky.varioSource = checkIncDec(event, g_model.frsky.varioSource, 0, MAX_SENSORS, EE_MODEL|NO_INCDEC_MARKS, isSensorAvailable);
}
#else
lcd_putsiAtt(TELEM_COL2, y, STR_VARIOSRC, g_model.frsky.varioSource, attr);
if (attr) CHECK_INCDEC_MODELVAR(event, g_model.frsky.varioSource, 0, VARIO_SOURCE_LAST);
#endif
break;
case ITEM_TELEMETRY_VARIO_RANGE:
lcd_putsLeft(y, STR_LIMIT);
#if defined(PCBSTD)
lcd_outdezAtt(TELEM_COL2, y, 5+g_model.frsky.varioCenterMax, (m_posHorz==0 ? attr : 0)|PREC1|LEFT);
lcd_outdezAtt(TELEM_COL2+8*FW, y, 10+g_model.frsky.varioMax, (m_posHorz==1 ? attr : 0));
if (attr && (s_editMode>0 || p1valdiff)) {
switch (m_posHorz) {
case 0:
CHECK_INCDEC_MODELVAR(event, g_model.frsky.varioCenterMax, -15, +15);
break;
case 1:
CHECK_INCDEC_MODELVAR(event, g_model.frsky.varioMax, -7, 7);
break;
}
}
#else
lcd_outdezAtt(TELEM_COL2, y, -10+g_model.frsky.varioMin, (m_posHorz<=0 ? attr : 0)|LEFT);
lcd_outdezAtt(TELEM_COL2+7*FW-2, y, -5+g_model.frsky.varioCenterMin, ((CURSOR_ON_LINE() || m_posHorz==1) ? attr : 0)|PREC1);
lcd_outdezAtt(TELEM_COL2+10*FW, y, 5+g_model.frsky.varioCenterMax, ((CURSOR_ON_LINE() || m_posHorz==2) ? attr : 0)|PREC1);
lcd_outdezAtt(TELEM_COL2+13*FW+2, y, 10+g_model.frsky.varioMax, ((CURSOR_ON_LINE() || m_posHorz==3) ? attr : 0));
if (attr && (s_editMode>0 || p1valdiff)) {
switch (m_posHorz) {
case 0:
CHECK_INCDEC_MODELVAR(event, g_model.frsky.varioMin, -7, 7);
break;
case 1:
CHECK_INCDEC_MODELVAR(event, g_model.frsky.varioCenterMin, -16, 5+min<int8_t>(10, g_model.frsky.varioCenterMax+5));
break;
case 2:
CHECK_INCDEC_MODELVAR(event, g_model.frsky.varioCenterMax, -5+max<int8_t>(-10, g_model.frsky.varioCenterMin-5), +15);
break;
case 3:
CHECK_INCDEC_MODELVAR(event, g_model.frsky.varioMax, -7, 7);
break;
}
}
#endif
break;
#endif
case ITEM_TELEMETRY_SCREEN_LABEL1:
case ITEM_TELEMETRY_SCREEN_LABEL2:
#if defined(CPUARM)
case ITEM_TELEMETRY_SCREEN_LABEL3:
case ITEM_TELEMETRY_SCREEN_LABEL4:
{
uint8_t screenIndex = TELEMETRY_CURRENT_EDIT_SCREEN(k);
putsStrIdx(0*FW, y, STR_SCREEN, screenIndex+1);
TelemetryScreenType oldScreenType = TELEMETRY_SCREEN_TYPE(screenIndex);
TelemetryScreenType newScreenType = (TelemetryScreenType)selectMenuItem(TELEM_SCRTYPE_COL, y, PSTR(""), STR_VTELEMSCREENTYPE, oldScreenType, 0, TELEMETRY_SCREEN_TYPE_MAX, (m_posHorz==0 ? attr : 0), event);
if (newScreenType != oldScreenType) {
g_model.frsky.screensType = (g_model.frsky.screensType & (~(0x03 << (2*screenIndex)))) | (newScreenType << (2*screenIndex));
memset(&g_model.frsky.screens[screenIndex], 0, sizeof(g_model.frsky.screens[screenIndex]));
}
break;
}
#else
{
uint8_t screenIndex = (k < ITEM_TELEMETRY_SCREEN_LABEL2 ? 1 : 2);
putsStrIdx(0*FW, y, STR_SCREEN, screenIndex);
#if defined(GAUGES)
bool screenType = g_model.frsky.screensType & screenIndex;
if (screenType != (bool)selectMenuItem(TELEM_SCRTYPE_COL, y, PSTR(""), STR_VTELEMSCREENTYPE, screenType, 0, 1, attr, event))
g_model.frsky.screensType ^= screenIndex;
#endif
break;
}
#endif
case ITEM_TELEMETRY_SCREEN_LINE1:
case ITEM_TELEMETRY_SCREEN_LINE2:
case ITEM_TELEMETRY_SCREEN_LINE3:
case ITEM_TELEMETRY_SCREEN_LINE4:
case ITEM_TELEMETRY_SCREEN_LINE5:
case ITEM_TELEMETRY_SCREEN_LINE6:
case ITEM_TELEMETRY_SCREEN_LINE7:
case ITEM_TELEMETRY_SCREEN_LINE8:
#if defined(CPUARM)
case ITEM_TELEMETRY_SCREEN_LINE9:
case ITEM_TELEMETRY_SCREEN_LINE10:
case ITEM_TELEMETRY_SCREEN_LINE11:
case ITEM_TELEMETRY_SCREEN_LINE12:
case ITEM_TELEMETRY_SCREEN_LINE13:
case ITEM_TELEMETRY_SCREEN_LINE14:
case ITEM_TELEMETRY_SCREEN_LINE15:
case ITEM_TELEMETRY_SCREEN_LINE16:
#endif
{
uint8_t screenIndex, lineIndex;
if (k < ITEM_TELEMETRY_SCREEN_LABEL2) {
screenIndex = 0;
lineIndex = k-ITEM_TELEMETRY_SCREEN_LINE1;
}
#if defined(CPUARM)
else if (k >= ITEM_TELEMETRY_SCREEN_LABEL4) {
screenIndex = 3;
lineIndex = k-ITEM_TELEMETRY_SCREEN_LINE13;
}
else if (k >= ITEM_TELEMETRY_SCREEN_LABEL3) {
screenIndex = 2;
lineIndex = k-ITEM_TELEMETRY_SCREEN_LINE9;
}
#endif
else {
screenIndex = 1;
lineIndex = k-ITEM_TELEMETRY_SCREEN_LINE5;
}
#if defined(GAUGES)
if (IS_BARS_SCREEN(screenIndex)) {
FrSkyBarData & bar = g_model.frsky.screens[screenIndex].bars[lineIndex];
source_t barSource = bar.source;
#if defined(CPUARM)
putsMixerSource(TELEM_COL1, y, barSource, m_posHorz==0 ? attr : 0);
if (barSource) {
putsChannelValue(TELEM_BARS_COLMIN, y, barSource, bar.barMin, (m_posHorz==1 ? attr : 0) | LEFT);
putsChannelValue(TELEM_BARS_COLMAX, y, barSource, bar.barMax, (m_posHorz==2 ? attr : 0) | LEFT);
}
#else
lcd_putsiAtt(TELEM_COL1, y, STR_VTELEMCHNS, barSource, m_posHorz==0 ? attr : 0);
if (barSource) {
putsTelemetryChannelValue(TELEM_BARS_COLMIN, y, barSource-1, convertBarTelemValue(barSource, bar.barMin), (m_posHorz==1 ? attr : 0) | LEFT);
putsTelemetryChannelValue(TELEM_BARS_COLMAX, y, barSource-1, convertBarTelemValue(barSource, 255-bar.barMax), (m_posHorz==2 ? attr : 0) | LEFT);
}
#endif
else if (attr) {
MOVE_CURSOR_FROM_HERE();
}
if (attr && (s_editMode>0 || p1valdiff)) {
switch (m_posHorz) {
case 0:
#if defined(CPUARM)
bar.source = CHECK_INCDEC_MODELVAR_ZERO_CHECK(event, barSource, MIXSRC_LAST_TELEM, isSourceAvailable);
#else
bar.source = CHECK_INCDEC_MODELVAR_ZERO(event, barSource, TELEM_DISPLAY_MAX);
#endif
if (checkIncDec_Ret) {
bar.barMin = 0;
#if defined(CPUARM)
bar.barMax = 0;
#else
bar.barMax = 255 - maxBarTelemValue(bar.source);
#endif
}
break;
case 1:
#if defined(CPUARM)
bar.barMin = checkIncDec(event, bar.barMin, -30000, bar.barMax, EE_MODEL|NO_INCDEC_MARKS);
#else
bar.barMin = checkIncDec(event, bar.barMin, 0, 254-bar.barMax, EE_MODEL|NO_INCDEC_MARKS);
#endif
break;
case 2:
#if defined(CPUARM)
bar.barMax = checkIncDec(event, bar.barMax, bar.barMin, 30000, EE_MODEL|NO_INCDEC_MARKS);
#else
bar.barMax = 255 - checkIncDec(event, 255-bar.barMax, bar.barMin+1, maxBarTelemValue(barSource), EE_MODEL|NO_INCDEC_MARKS);
#endif
break;
}
}
}
else
#endif
{
for (uint8_t c=0; c<NUM_LINE_ITEMS; c++) {
uint8_t cellAttr = (m_posHorz==c ? attr : 0);
source_t & value = g_model.frsky.screens[screenIndex].lines[lineIndex].sources[c];
uint8_t pos[] = {INDENT_WIDTH, TELEM_COL2};
#if defined(CPUARM)
putsMixerSource(pos[c], y, value, cellAttr);
if (cellAttr && (s_editMode>0 || p1valdiff)) {
CHECK_INCDEC_MODELVAR_ZERO_CHECK(event, value, MIXSRC_LAST_TELEM, isSourceAvailable);
}
#else
lcd_putsiAtt(pos[c], y, STR_VTELEMCHNS, value, cellAttr);
if (cellAttr && (s_editMode>0 || p1valdiff)) {
CHECK_INCDEC_MODELVAR_ZERO_CHECK(event, value, (lineIndex==3 && c==0) ? TELEM_STATUS_MAX : TELEM_DISPLAY_MAX, isTelemetrySourceAvailable);
}
#endif
}
if (attr && m_posHorz == NUM_LINE_ITEMS) {
REPEAT_LAST_CURSOR_MOVE();
}
}
break;
}
}
}
}
void menuModelSensor(uint8_t event)
{
TelemetrySensor * sensor = & g_model.telemetrySensors[s_currIdx];
SUBMENU(STR_MENUSENSOR, SENSOR_FIELD_MAX, {0, 0, sensor->type == TELEM_TYPE_CALCULATED ? (uint8_t)0 : (uint8_t)1, SENSOR_UNIT_ROWS, SENSOR_PREC_ROWS, SENSOR_PARAM1_ROWS, SENSOR_PARAM2_ROWS, SENSOR_PARAM3_ROWS, SENSOR_PARAM4_ROWS, SENSOR_AUTOOFFSET_ROWS, SENSOR_FILTER_ROWS, SENSOR_PERSISTENT_ROWS, 0 });
lcd_outdezAtt(PSIZE(TR_MENUSENSOR)*FW+1, 0, s_currIdx+1, INVERS|LEFT);
putsTelemetryChannelValue(SENSOR_2ND_COLUMN, 0, s_currIdx, getValue(MIXSRC_FIRST_TELEM+3*s_currIdx), LEFT);
int8_t sub = m_posVert;
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;
for (int j=0; j<k; j++) {
if (mstate_tab[j+1] == HIDDEN_ROW)
k++;
}
uint8_t attr = (sub==k ? (s_editMode>0 ? BLINK|INVERS : INVERS) : 0);
switch (k) {
case SENSOR_FIELD_NAME:
editSingleName(SENSOR_2ND_COLUMN, y, STR_NAME, sensor->label, TELEM_LABEL_LEN, event, attr);
break;
case SENSOR_FIELD_TYPE:
sensor->type = selectMenuItem(SENSOR_2ND_COLUMN, y, NO_INDENT(STR_TYPE), STR_VSENSORTYPES, sensor->type, 0, 1, attr, event);
if (attr && checkIncDec_Ret) {
sensor->instance = 0;
if (sensor->type == TELEM_TYPE_CALCULATED) {
sensor->param = 0;
sensor->autoOffset = 0;
sensor->filter = 0;
}
}
break;
case SENSOR_FIELD_ID:
if (sensor->type == TELEM_TYPE_CUSTOM) {
lcd_putsLeft(y, STR_ID);
lcd_outhex4(SENSOR_2ND_COLUMN, y, sensor->id, LEFT|(m_posHorz==0 ? attr : 0));
lcd_outdezAtt(SENSOR_3RD_COLUMN, y, sensor->instance, LEFT|(m_posHorz==1 ? attr : 0));
if (attr) {
switch (m_posHorz) {
case 0:
CHECK_INCDEC_MODELVAR_ZERO(event, sensor->id, 0xffff);
break;
case 1:
CHECK_INCDEC_MODELVAR_ZERO(event, sensor->instance, 0xff);
break;
}
}
}
else {
sensor->formula = selectMenuItem(SENSOR_2ND_COLUMN, y, STR_FORMULA, STR_VFORMULAS, sensor->formula, 0, TELEM_FORMULA_LAST, attr, event);
if (attr && checkIncDec_Ret) {
sensor->param = 0;
if (sensor->formula == TELEM_FORMULA_CELL) {
sensor->unit = UNIT_VOLTS;
sensor->prec = 2;
}
else if (sensor->formula == TELEM_FORMULA_DIST) {
sensor->unit = UNIT_DIST;
sensor->prec = 0;
}
else if (sensor->formula == TELEM_FORMULA_CONSUMPTION) {
sensor->unit = UNIT_MAH;
sensor->prec = 0;
}
}
}
break;
case SENSOR_FIELD_UNIT:
lcd_putsLeft(y, "Unit");
// TODO flash saving with selectMenuItem where I copied those 2 lines?
lcd_putsiAtt(SENSOR_2ND_COLUMN, y, STR_VTELEMUNIT, sensor->unit, attr);
if (attr) {
CHECK_INCDEC_MODELVAR_ZERO(event, sensor->unit, UNIT_MAX);
if (checkIncDec_Ret) {
telemetryItems[s_currIdx].clear();
}
}
break;
case SENSOR_FIELD_PRECISION:
sensor->prec = selectMenuItem(SENSOR_2ND_COLUMN, y, STR_PRECISION, STR_VPREC, sensor->prec, 0, 2, attr, event);
if (attr && checkIncDec_Ret) {
telemetryItems[s_currIdx].clear();
}
break;
case SENSOR_FIELD_PARAM1:
if (sensor->type == TELEM_TYPE_CALCULATED) {
if (sensor->formula == TELEM_FORMULA_CELL) {
lcd_putsLeft(y, STR_CELLSENSOR);
putsMixerSource(SENSOR_2ND_COLUMN, y, sensor->cell.source ? MIXSRC_FIRST_TELEM+3*(sensor->cell.source-1) : 0, attr);
if (attr) {
sensor->cell.source = checkIncDec(event, sensor->cell.source, 0, MAX_SENSORS, EE_MODEL|NO_INCDEC_MARKS, isCellsSensor);
}
break;
}
else if (sensor->formula == TELEM_FORMULA_DIST) {
lcd_putsLeft(y, STR_GPSSENSOR);
putsMixerSource(SENSOR_2ND_COLUMN, y, sensor->dist.gps ? MIXSRC_FIRST_TELEM+3*(sensor->dist.gps-1) : 0, attr);
if (attr) {
sensor->dist.gps = checkIncDec(event, sensor->dist.gps, 0, MAX_SENSORS, EE_MODEL|NO_INCDEC_MARKS, isGPSSensor);
}
break;
}
else if (sensor->formula == TELEM_FORMULA_CONSUMPTION) {
lcd_putsLeft(y, STR_CURRENTSENSOR);
putsMixerSource(SENSOR_2ND_COLUMN, y, sensor->consumption.source ? MIXSRC_FIRST_TELEM+3*(sensor->consumption.source-1) : 0, attr);
if (attr) {
sensor->consumption.source = checkIncDec(event, sensor->consumption.source, 0, MAX_SENSORS, EE_MODEL|NO_INCDEC_MARKS, isCurrentSensor);
}
break;
}
}
else {
if (sensor->unit == UNIT_RPMS) {
lcd_putsLeft(y, NO_INDENT(STR_BLADES));
if (attr) CHECK_INCDEC_MODELVAR(event, sensor->custom.ratio, 1, 30000);
lcd_outdezAtt(SENSOR_2ND_COLUMN, y, sensor->custom.ratio, LEFT|attr);
break;
}
else {
lcd_putsLeft(y, STR_RATIO);
if (attr) CHECK_INCDEC_MODELVAR(event, sensor->custom.ratio, 0, 30000);
if (sensor->custom.ratio == 0)
lcd_putcAtt(SENSOR_2ND_COLUMN, y, '-', attr);
else
lcd_outdezAtt(SENSOR_2ND_COLUMN, y, sensor->custom.ratio, LEFT|attr|PREC1);
break;
}
}
// no break
case SENSOR_FIELD_PARAM2:
if (sensor->type == TELEM_TYPE_CALCULATED) {
if (sensor->formula == TELEM_FORMULA_CELL) {
sensor->cell.index = selectMenuItem(SENSOR_2ND_COLUMN, y, STR_CELLINDEX, STR_VCELLINDEX, sensor->cell.index, 0, 8, attr, event);
break;
}
else if (sensor->formula == TELEM_FORMULA_DIST) {
lcd_putsLeft(y, STR_ALTSENSOR);
putsMixerSource(SENSOR_2ND_COLUMN, y, sensor->dist.alt ? MIXSRC_FIRST_TELEM+3*(sensor->dist.alt-1) : 0, attr);
if (attr) {
sensor->dist.alt = checkIncDec(event, sensor->dist.alt, 0, MAX_SENSORS, EE_MODEL|NO_INCDEC_MARKS, isAltSensor);
}
break;
}
}
else {
lcd_putsLeft(y, NO_INDENT(STR_OFFSET));
if (attr) CHECK_INCDEC_MODELVAR(event, sensor->custom.offset, -30000, +30000);
if (sensor->prec > 0) attr |= (sensor->prec == 2 ? PREC2 : PREC1);
lcd_outdezAtt(SENSOR_2ND_COLUMN, y, sensor->custom.offset, LEFT|attr);
break;
}
// no break
case SENSOR_FIELD_PARAM3:
// no break
case SENSOR_FIELD_PARAM4:
{
putsStrIdx(0, y, NO_INDENT(STR_SOURCE), k-SENSOR_FIELD_PARAM1+1);
int8_t & source = sensor->calc.sources[k-SENSOR_FIELD_PARAM1];
if (attr) {
source = checkIncDec(event, source, -MAX_SENSORS, MAX_SENSORS, EE_MODEL|NO_INCDEC_MARKS, isSensorAvailable);
}
if (source < 0) {
lcd_putcAtt(SENSOR_2ND_COLUMN, y, '-', attr);
putsMixerSource(lcdNextPos, y, MIXSRC_FIRST_TELEM+3*(-1-source), attr);
}
else {
putsMixerSource(SENSOR_2ND_COLUMN, y, source ? MIXSRC_FIRST_TELEM+3*(source-1) : 0, attr);
}
break;
}
case SENSOR_FIELD_AUTOOFFSET:
ON_OFF_MENU_ITEM(sensor->autoOffset, SENSOR_2ND_COLUMN, y, STR_AUTOOFFSET, attr, event);
break;
case SENSOR_FIELD_ONLYPOSITIVE:
ON_OFF_MENU_ITEM(sensor->onlyPositive, SENSOR_2ND_COLUMN, y, STR_ONLYPOSITIVE, attr, event);
break;
case SENSOR_FIELD_FILTER:
ON_OFF_MENU_ITEM(sensor->filter, SENSOR_2ND_COLUMN, y, STR_FILTER, attr, event);
break;
case SENSOR_FIELD_PERSISTENT:
ON_OFF_MENU_ITEM(sensor->persistent, SENSOR_2ND_COLUMN, y, NO_INDENT(STR_PERSISTENT), attr, event);
break;
case SENSOR_FIELD_LOGS:
ON_OFF_MENU_ITEM(sensor->logs, SENSOR_2ND_COLUMN, y, STR_LOGS, attr, event);
break;
}
}
}
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 menuModelTelemetry(uint8_t event)
{
if (s_warning_result) {
s_warning_result = 0;
for (int i=0; i<MAX_SENSORS; i++) {
delTelemetryIndex(i);
}
}
MENU(STR_MENUTELEMETRY, menuTabModel, e_Telemetry, ITEM_TELEMETRY_MAX, { TELEMETRY_TYPE_ROWS RSSI_ROWS SENSORS_ROWS VARIO_ROWS LABEL(TopBar), 0, 0, TELEMETRY_SCREEN_ROWS(0), TELEMETRY_SCREEN_ROWS(1), CASE_CPUARM(TELEMETRY_SCREEN_ROWS(2)) CASE_CPUARM(TELEMETRY_SCREEN_ROWS(3)) });
int sub = m_posVert;
for (int i=0; i<NUM_BODY_LINES; i++) {
coord_t y = MENU_HEADER_HEIGHT + 1 + i*FH;
int k = i + s_pgOfs;
for (int j=0; j<=k; j++) {
if (mstate_tab[j] == HIDDEN_ROW)
k++;
}
LcdFlags blink = ((s_editMode>0) ? BLINK|INVERS : INVERS);
LcdFlags attr = (sub == k ? blink : 0);
if (k>=ITEM_TELEMETRY_SENSOR1 && k<ITEM_TELEMETRY_SENSOR1+MAX_SENSORS) {
int index = k-ITEM_TELEMETRY_SENSOR1;
lcd_outdezAtt(INDENT_WIDTH, y, index+1, LEFT|attr);
lcd_putcAtt(lcdLastPos, y, ':', attr);
lcd_putsnAtt(3*FW, y, g_model.telemetrySensors[index].label, TELEM_LABEL_LEN, ZCHAR);
if (telemetryItems[index].isFresh()) {
lcd_putc(10*FW, y, '*');
}
TelemetryItem & telemetryItem = telemetryItems[index];
if (telemetryItem.isAvailable()) {
bool isOld = telemetryItem.isOld();
lcdNextPos = TELEM_COL2;
if (isOld) lcd_putc(lcdNextPos, y, '[');
putsTelemetryChannelValue(lcdNextPos, y, index, getValue(MIXSRC_FIRST_TELEM+3*index), LEFT);
if (isOld) lcd_putc(lcdLastPos, y, ']');
}
else {
lcd_putsAtt(TELEM_COL2, y, "---", 0); // TODO shortcut
}
TelemetrySensor * sensor = & g_model.telemetrySensors[index];
if (sensor->type == TELEM_TYPE_CUSTOM && !g_model.ignoreSensorIds) {
lcd_outdezAtt(TELEM_COL3, y, sensor->instance, LEFT);
}
if (attr) {
s_editMode = 0;
s_currIdx = index;
if (event == EVT_KEY_LONG(KEY_ENTER)) {
killEvents(event);
MENU_ADD_ITEM(STR_EDIT);
MENU_ADD_ITEM(STR_COPY);
MENU_ADD_ITEM(STR_DELETE);
menuHandler = onSensorMenu;
}
else if (event == EVT_KEY_BREAK(KEY_ENTER)) {
pushMenu(menuModelSensor);
}
}
}
else
switch (k) {
case ITEM_TELEMETRY_PROTOCOL_TYPE:
g_model.telemetryProtocol = selectMenuItem(TELEM_COL2, y, STR_TELEMETRY_TYPE, "\017FrSky S.PORT\0 FrSky D\0 FrSky D (cable)", g_model.telemetryProtocol, PROTOCOL_TELEMETRY_FIRST, g_eeGeneral.serial2Mode==UART_MODE_TELEMETRY ? PROTOCOL_FRSKY_D_SECONDARY : PROTOCOL_FRSKY_D, attr, event);
break;
case ITEM_TELEMETRY_SENSORS_LABEL:
lcd_putsLeft(y, STR_TELEMETRY_SENSORS);
lcd_putsAtt(TELEM_COL2, y, STR_VALUE, 0);
if (!g_model.ignoreSensorIds) {
lcd_putsAtt(TELEM_COL3, y, STR_ID, 0);
}
break;
case ITEM_TELEMETRY_DISCOVER_SENSORS:
lcd_putsAtt(0, y, allowNewSensors ? STR_STOP_DISCOVER_SENSORS : STR_DISCOVER_SENSORS, attr);
if (attr && event==EVT_KEY_BREAK(KEY_ENTER)) {
s_editMode = 0;
allowNewSensors = !allowNewSensors;
}
break;
case ITEM_TELEMETRY_NEW_SENSOR:
lcd_putsAtt(0, y, STR_TELEMETRY_NEWSENSOR, attr);
if (attr && event==EVT_KEY_BREAK(KEY_ENTER)) {
s_editMode = 0;
int res = availableTelemetryIndex();
if (res >= 0) {
s_currIdx = res;
pushMenu(menuModelSensor);
}
else {
POPUP_WARNING(STR_TELEMETRYFULL);
}
}
break;
case ITEM_TELEMETRY_DELETE_ALL_SENSORS:
lcd_putsAtt(0, y, STR_DELETE_ALL_SENSORS, attr);
s_editMode = 0;
if (attr && event==EVT_KEY_LONG(KEY_ENTER)) {
killEvents(KEY_ENTER);
POPUP_CONFIRMATION(STR_CONFIRMDELETE);
}
break;
case ITEM_TELEMETRY_IGNORE_SENSOR_INSTANCE:
ON_OFF_MENU_ITEM(g_model.ignoreSensorIds, TELEM_COL2, y, STR_IGNORE_INSTANCE, attr, event);
break;
case ITEM_TELEMETRY_RSSI_LABEL:
lcd_putsLeft(y, PSTR("RSSI"));
break;
case ITEM_TELEMETRY_RSSI_ALARM1:
case ITEM_TELEMETRY_RSSI_ALARM2: {
uint8_t alarm = k-ITEM_TELEMETRY_RSSI_ALARM1;
lcd_putsLeft(y, (alarm==0 ? STR_LOWALARM : STR_CRITICALALARM));
lcd_outdezNAtt(TELEM_COL2, y, getRssiAlarmValue(alarm), LEFT|attr, 3);
if (attr && s_editMode>0) {
CHECK_INCDEC_MODELVAR(event, g_model.frsky.rssiAlarms[alarm].value, -30, 30);
}
break;
}
#if defined(VARIO)
case ITEM_TELEMETRY_VARIO_LABEL:
lcd_putsLeft(y, STR_VARIO);
break;
case ITEM_TELEMETRY_VARIO_SOURCE:
lcd_putsLeft(y, STR_SOURCE);
putsMixerSource(TELEM_COL2, y, g_model.frsky.varioSource ? MIXSRC_FIRST_TELEM+3*(g_model.frsky.varioSource-1) : 0, attr);
if (attr) {
g_model.frsky.varioSource = checkIncDec(event, g_model.frsky.varioSource, 0, MAX_SENSORS, EE_MODEL|NO_INCDEC_MARKS, isSensorAvailable);
}
break;
case ITEM_TELEMETRY_VARIO_RANGE:
lcd_putsLeft(y, STR_RANGE);
lcd_outdezAtt(TELEM_COL2, y, -10+g_model.frsky.varioMin, (m_posHorz==0 ? attr : 0)|LEFT);
lcd_outdezAtt(TELEM_COL2+7*FW, y, 10+g_model.frsky.varioMax, (m_posHorz==1 ? attr : 0)|LEFT);
if (attr && s_editMode>0) {
switch (m_posHorz) {
case 0:
CHECK_INCDEC_MODELVAR(event, g_model.frsky.varioMin, -7, 7);
break;
case 1:
CHECK_INCDEC_MODELVAR(event, g_model.frsky.varioMax, -7, 7);
break;
}
}
break;
case ITEM_TELEMETRY_VARIO_CENTER:
lcd_putsLeft(y, STR_CENTER);
lcd_outdezAtt(TELEM_COL2, y, -5+g_model.frsky.varioCenterMin, (m_posHorz==0 ? attr : 0)|PREC1|LEFT);
lcd_outdezAtt(TELEM_COL2+7*FW, y, 5+g_model.frsky.varioCenterMax, (m_posHorz==1 ? attr : 0)|PREC1|LEFT);
lcd_putsiAtt(TELEM_COL3, y, STR_VVARIOCENTER, g_model.frsky.varioCenterSilent, (m_posHorz==2 ? attr : 0));
if (attr && s_editMode>0) {
switch (m_posHorz) {
case 0:
CHECK_INCDEC_MODELVAR(event, g_model.frsky.varioCenterMin, -16, 5+min<int8_t>(10, g_model.frsky.varioCenterMax+5));
break;
case 1:
CHECK_INCDEC_MODELVAR(event, g_model.frsky.varioCenterMax, -5+max<int8_t>(-10, g_model.frsky.varioCenterMin-5), +15);
break;
case 2:
CHECK_INCDEC_MODELVAR_ZERO(event, g_model.frsky.varioCenterSilent, 1);
break;
}
}
break;
#endif
case ITEM_TELEMETRY_TOP_BAR_LABEL:
lcd_putsLeft(y, STR_TOP_BAR);
break;
case ITEM_TELEMETRY_TOP_BAR_VOLTAGE:
lcd_putsLeft(y, STR_VOLTAGE);
putsMixerSource(TELEM_COL2, y, g_model.frsky.voltsSource ? MIXSRC_FIRST_TELEM+3*(g_model.frsky.voltsSource-1) : 0, attr);
if (attr) {
g_model.frsky.voltsSource = checkIncDec(event, g_model.frsky.voltsSource, 0, MAX_SENSORS, EE_MODEL|NO_INCDEC_MARKS, isVoltsSensor);
}
break;
case ITEM_TELEMETRY_TOP_BAR_ALTITUDE:
lcd_putsLeft(y, STR_ALTITUDE);
putsMixerSource(TELEM_COL2, y, g_model.frsky.altitudeSource ? MIXSRC_FIRST_TELEM+3*(g_model.frsky.altitudeSource-1) : 0, attr);
if (attr) {
g_model.frsky.altitudeSource = checkIncDec(event, g_model.frsky.altitudeSource, 0, MAX_SENSORS, EE_MODEL|NO_INCDEC_MARKS, isAltSensor);
}
break;
case ITEM_TELEMETRY_SCREEN_LABEL1:
case ITEM_TELEMETRY_SCREEN_LABEL2:
case ITEM_TELEMETRY_SCREEN_LABEL3:
case ITEM_TELEMETRY_SCREEN_LABEL4:
{
uint8_t screenIndex = TELEMETRY_CURRENT_SCREEN(k);
putsStrIdx(0*FW, y, STR_SCREEN, screenIndex+1);
TelemetryScreenType oldScreenType = TELEMETRY_SCREEN_TYPE(screenIndex);
TelemetryScreenType newScreenType = (TelemetryScreenType)selectMenuItem(TELEM_SCRTYPE_COL, y, PSTR(""), STR_VTELEMSCREENTYPE, oldScreenType, 0, TELEMETRY_SCREEN_TYPE_MAX, (m_posHorz==0 ? attr : 0), event);
if (newScreenType != oldScreenType) {
g_model.frsky.screensType = (g_model.frsky.screensType & (~(0x03 << (2*screenIndex)))) | (newScreenType << (2*screenIndex));
memset(&g_model.frsky.screens[screenIndex], 0, sizeof(g_model.frsky.screens[screenIndex]));
}
#if defined(LUA)
if (newScreenType == TELEMETRY_SCREEN_TYPE_SCRIPT) {
TelemetryScriptData & scriptData = g_model.frsky.screens[screenIndex].script;
// TODO better function name for ---
// TODO function for these lines
if (ZEXIST(scriptData.file))
lcd_putsnAtt(TELEM_SCRTYPE_COL+7*FW, y, scriptData.file, sizeof(scriptData.file), (m_posHorz==1 ? attr : 0));
else
lcd_putsiAtt(TELEM_SCRTYPE_COL+7*FW, y, STR_VCSWFUNC, 0, (m_posHorz==1 ? attr : 0));
if (m_posHorz==1 && attr && event==EVT_KEY_BREAK(KEY_ENTER) && READ_ONLY_UNLOCKED()) {
s_editMode = 0;
if (listSdFiles(SCRIPTS_TELEM_PATH, SCRIPTS_EXT, sizeof(g_model.frsky.screens[screenIndex].script.file), g_model.frsky.screens[screenIndex].script.file)) {
menuHandler = onTelemetryScriptFileSelectionMenu;
}
else {
POPUP_WARNING(STR_NO_SCRIPTS_ON_SD);
s_menu_flags = 0;
}
}
}
else if (attr) {
MOVE_CURSOR_FROM_HERE();
}
#endif
break;
}
case ITEM_TELEMETRY_SCREEN_LINE1:
case ITEM_TELEMETRY_SCREEN_LINE2:
case ITEM_TELEMETRY_SCREEN_LINE3:
case ITEM_TELEMETRY_SCREEN_LINE4:
case ITEM_TELEMETRY_SCREEN_LINE5:
case ITEM_TELEMETRY_SCREEN_LINE6:
case ITEM_TELEMETRY_SCREEN_LINE7:
case ITEM_TELEMETRY_SCREEN_LINE8:
case ITEM_TELEMETRY_SCREEN_LINE9:
case ITEM_TELEMETRY_SCREEN_LINE10:
case ITEM_TELEMETRY_SCREEN_LINE11:
case ITEM_TELEMETRY_SCREEN_LINE12:
case ITEM_TELEMETRY_SCREEN_LINE13:
case ITEM_TELEMETRY_SCREEN_LINE14:
case ITEM_TELEMETRY_SCREEN_LINE15:
case ITEM_TELEMETRY_SCREEN_LINE16:
{
uint8_t screenIndex, lineIndex;
if (k < ITEM_TELEMETRY_SCREEN_LABEL2) {
screenIndex = 0;
lineIndex = k-ITEM_TELEMETRY_SCREEN_LINE1;
}
else if (k >= ITEM_TELEMETRY_SCREEN_LABEL4) {
screenIndex = 3;
lineIndex = k-ITEM_TELEMETRY_SCREEN_LINE13;
}
else if (k >= ITEM_TELEMETRY_SCREEN_LABEL3) {
screenIndex = 2;
lineIndex = k-ITEM_TELEMETRY_SCREEN_LINE9;
}
else {
screenIndex = 1;
lineIndex = k-ITEM_TELEMETRY_SCREEN_LINE5;
}
#if defined(GAUGES)
if (IS_BARS_SCREEN(screenIndex)) {
FrSkyBarData & bar = g_model.frsky.screens[screenIndex].bars[lineIndex];
source_t barSource = bar.source;
putsMixerSource(TELEM_COL1, y, barSource, m_posHorz==0 ? attr : 0);
int barMax = getMaximumValue(barSource);
int barMin = -barMax;
if (barSource) {
if (barSource <= MIXSRC_LAST_CH) {
putsChannelValue(TELEM_BARS_COLMIN, y, barSource, calc100toRESX(bar.barMin), (m_posHorz==1 ? attr : 0) | LEFT);
putsChannelValue(TELEM_BARS_COLMAX, y, barSource, calc100toRESX(bar.barMax), (m_posHorz==2 ? attr : 0) | LEFT);
}
else {
putsChannelValue(TELEM_BARS_COLMIN, y, barSource, bar.barMin, (m_posHorz==1 ? attr : 0) | LEFT);
putsChannelValue(TELEM_BARS_COLMAX, y, barSource, bar.barMax, (m_posHorz==2 ? attr : 0) | LEFT);
}
}
else if (attr) {
MOVE_CURSOR_FROM_HERE();
}
if (attr && s_editMode>0) {
switch (m_posHorz) {
case 0:
bar.source = checkIncDec(event, barSource, 0, MIXSRC_LAST_TELEM, EE_MODEL|INCDEC_SOURCE|NO_INCDEC_MARKS, isSourceAvailable);
if (checkIncDec_Ret) {
if (barSource <= MIXSRC_LAST_CH) {
bar.barMin = -100;
bar.barMax = 100;
}
else {
bar.barMin = 0;
bar.barMax = 0;
}
}
break;
case 1:
bar.barMin = checkIncDec(event, bar.barMin, barMin, bar.barMax, EE_MODEL|NO_INCDEC_MARKS);
break;
case 2:
bar.barMax = checkIncDec(event, bar.barMax, bar.barMin, barMax, EE_MODEL|NO_INCDEC_MARKS);
break;
}
}
}
else
#endif
{
for (int c=0; c<NUM_LINE_ITEMS; c++) {
LcdFlags cellAttr = (m_posHorz==c ? attr : 0);
source_t & value = g_model.frsky.screens[screenIndex].lines[lineIndex].sources[c];
const coord_t pos[] = {TELEM_COL1, TELEM_COL2, TELEM_COL3};
putsMixerSource(pos[c], y, value, cellAttr);
if (cellAttr && s_editMode>0) {
value = checkIncDec(event, value, 0, MIXSRC_LAST_TELEM, EE_MODEL|INCDEC_SOURCE|NO_INCDEC_MARKS, isSourceAvailable);
}
}
if (attr && m_posHorz == NUM_LINE_ITEMS) {
REPEAT_LAST_CURSOR_MOVE();
}
}
break;
}
}
}
}
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);
}
}
}
