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 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();
}
}
{ ShowListInfo, NULLMENU, 2, {
{"show", "Display information about a list"},
{"list name", "Name of list: "}
} },
{ UpdateList, NULLMENU, 2, {
{"update", "Update characteristics of a list"},
{"list name", "Name of list: "}
} },
SIMPLEFUNC("query_remove",
"Interactively remove a member from all lists",
InterRemoveItemFromLists),
{ NULLFUNC, &list_member_menu, 2, {
{"members", "Member Menu - Change/Show Members of a List."},
{"list name", "Name of list: "}
} },
SUBMENU("lists", "Find Mailing Lists Menu",
&list_info_menu),
SIMPLEFUNC("help", "Print Help", NewListHelp)
}
};
/*
* Post Office Box Menu
*/
Menu pobox_menu = {
NULLFUNC,
NULLFUNC,
"Mail Forwarding Menu",
3,
{
{GetUserPOBox, NULLMENU, 2, {
*/
Menu list_member_menu = {
ListmaintMemberMenuEntry,
ListmaintMemberMenuExit,
NULL,
8,
{
SIMPLEFUNC("add", "Add a member to this list", AddMember),
SIMPLEFUNC("remove", "Remove a member from this list", DeleteMember),
SIMPLEFUNC("all", "Show the members of this list", ListAllMembers),
SIMPLEFUNC("user", "Show the members of type USER", ListUserMembers),
SIMPLEFUNC("list", "Show the members of type LIST", ListListMembers),
SIMPLEFUNC("string", "Show the members of type STRING",
ListStringMembers),
SUBMENU("tags", "List Member Tags Menu", &list_tags_menu),
SIMPLEFUNC("verbose", "Toggle Verbosity of Delete", ToggleVerboseMode)
}
};
/*
* Machine To Cluster Mappings Menu
*/
Menu mappings_menu = {
NULLFUNC,
NULLFUNC,
"Machine To Cluster Mappings Menu",
4,
{
{ MachineToClusterMap, NULLMENU, 3, {
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);
}
