/* ON / OFF version */ lcd_putsiAtt(x, y, STR_OFFON, value, attr ? INVERS:0) ; #endif } void displayScreenIndex(uint8_t index, uint8_t count, uint8_t attr) { lcd_outdezAtt(LCD_W, 0, count, attr); xcoord_t x = 1+LCD_W-FW*(count>9 ? 3 : 2); lcd_putcAtt(x, 0, '/', attr); lcd_outdezAtt(x, 0, index+1, attr); } #if !defined(CPUM64) void displayScrollbar(xcoord_t x, uint8_t y, uint8_t h, uint16_t offset, uint16_t count, uint8_t visible) { lcd_vlineStip(x, y, h, SOLID, ERASE); lcd_vlineStip(x, y, h, DOTTED); uint8_t yofs = (h * offset) / count; uint8_t yhgt = (h * visible) / count; if (yhgt + yofs > h) yhgt = h - yofs; lcd_vlineStip(x, y + yofs, yhgt, SOLID, FORCE); } #endif #if defined(NAVIGATION_POT1) int16_t p1valdiff; #endif #if defined(NAVIGATION_POT2) int8_t p2valdiff; #endif uint8_t switchToMix(uint8_t source) { #if defined(PCBTARANIS) if (source <= 5*3) return MIXSRC_FIRST_SWITCH + (source-1) / 3; else if (source <= 17) return MIXSRC_SF; else if (source <= 20) return MIXSRC_SG; else return MIXSRC_SH; #else if (source <= 3) return MIXSRC_3POS; else return MIXSRC_FIRST_SWITCH - 3 + source; #endif } int8_t checkIncDec_Ret; #if defined(CPUARM) int16_t checkIncDec(uint8_t event, int16_t val, int16_t i_min, int16_t i_max, uint8_t i_flags, IsValueAvailable isValueAvailable) #else int16_t checkIncDec(uint8_t event, int16_t val, int16_t i_min, int16_t i_max, uint8_t i_flags) #endif { int16_t newval = val; #if defined(DBLKEYS) uint8_t in = KEYS_PRESSED(); if (EVT_KEY_MASK(event)) { bool dblkey = true; if (DBLKEYS_PRESSED_RGT_LFT(in)) newval = -val; else if (DBLKEYS_PRESSED_RGT_UP(in)) { newval = (i_max > 100 ? 100 : i_max); #if defined(CPUARM) if (i_flags & DBLKEYS_1000) newval *= 10; #endif } else if (DBLKEYS_PRESSED_LFT_DWN(in)) { newval = (i_min < -100 ? -100 : i_min); #if defined(CPUARM) if (i_flags & DBLKEYS_1000) newval *= 10; #endif } else if (DBLKEYS_PRESSED_UP_DWN(in)) newval = 0; else dblkey = false; #if defined(CPUARM) #endif if (dblkey) { killEvents(KEY_UP); killEvents(KEY_DOWN); killEvents(KEY_RIGHT); killEvents(KEY_LEFT); #if defined(PCBTARANIS) killEvents(KEY_PAGE); killEvents(KEY_MENU); killEvents(KEY_ENTER); killEvents(KEY_EXIT); #endif event = 0; } } #endif #if defined(PCBTARANIS) if (s_editMode>0 && (IS_ROTARY_RIGHT(event) || event==EVT_KEY_FIRST(KEY_UP) || event==EVT_KEY_REPT(KEY_UP))) { #else if (event==EVT_KEY_FIRST(KEY_RIGHT) || event==EVT_KEY_REPT(KEY_RIGHT) || (s_editMode>0 && (IS_ROTARY_RIGHT(event) || event==EVT_KEY_FIRST(KEY_UP) || event==EVT_KEY_REPT(KEY_UP)))) { #endif #if defined(CPUARM) do { if (IS_KEY_REPT(event) && (i_flags & INCDEC_REP10)) { newval += min(10, i_max-val); } else { newval++; } } while (isValueAvailable && !isValueAvailable(newval) && newval<=i_max); if (newval > i_max) { newval = val; killEvents(event); AUDIO_WARNING2(); } else #else newval++; #endif AUDIO_KEYPAD_UP(); } #if defined(PCBTARANIS) else if (s_editMode>0 && (IS_ROTARY_LEFT(event) || event==EVT_KEY_FIRST(KEY_DOWN) || event==EVT_KEY_REPT(KEY_DOWN))) { #else else if (event==EVT_KEY_FIRST(KEY_LEFT) || event==EVT_KEY_REPT(KEY_LEFT) || (s_editMode>0 && (IS_ROTARY_LEFT(event) || event==EVT_KEY_FIRST(KEY_DOWN) || event==EVT_KEY_REPT(KEY_DOWN)))) { #endif #if defined(CPUARM) do { if (IS_KEY_REPT(event) && (i_flags & INCDEC_REP10)) { newval -= min(10, val-i_min); } else { newval--; } } while (isValueAvailable && !isValueAvailable(newval) && newval>=i_min); if (newval < i_min) { newval = val; killEvents(event); AUDIO_WARNING2(); } else #else newval--; #endif AUDIO_KEYPAD_DOWN(); } if (!READ_ONLY() && i_min==0 && i_max==1 && (event==EVT_KEY_BREAK(KEY_ENTER) || IS_ROTARY_BREAK(event))) { s_editMode = 0; newval = !val; } #if defined(NAVIGATION_POT1) // change values based on P1 newval -= p1valdiff; p1valdiff = 0; #endif #if defined(AUTOSWITCH) if (i_flags & INCDEC_SWITCH) { if (s_editMode>0) { int8_t swtch = getMovedSwitch(); if (swtch) { #if defined(PCBTARANIS) if(swtch == SWSRC_SH2) newval = (newval == SWSRC_SH2 ? SWSRC_SH0 : SWSRC_SH2); else if(swtch != SWSRC_SH0) newval = swtch; #else if (IS_MOMENTARY(newval) && IS_MOMENTARY(swtch)) newval = -newval; else newval = swtch; #endif } } } #endif #if defined(AUTOSOURCE) if (i_flags & INCDEC_SOURCE) { if (s_editMode>0) { int8_t source = GET_MOVED_SOURCE(i_min, i_max); if (source) { newval = source; } #if defined(AUTOSWITCH) else { uint8_t swtch = abs(getMovedSwitch()); if (swtch) { newval = switchToMix(swtch); } } #endif } } #endif if (newval > i_max || newval < i_min) { newval = (newval > i_max ? i_max : i_min); killEvents(event); AUDIO_WARNING2(); } if (newval != val) { if (!(i_flags & NO_INCDEC_MARKS) && (newval != i_max) && (newval != i_min) && (newval==0 || newval==-100 || newval==+100) && !IS_ROTARY_EVENT(event)) { pauseEvents(event); // delay before auto-repeat continues if (newval>val) // without AUDIO it's optimized, because the 2 sounds are the same AUDIO_KEYPAD_UP(); else AUDIO_KEYPAD_DOWN(); } eeDirty(i_flags & (EE_GENERAL|EE_MODEL)); checkIncDec_Ret = (newval > val ? 1 : -1); } else { checkIncDec_Ret = 0; } return newval; } #if defined(CPUM64) int8_t checkIncDecModel(uint8_t event, int8_t i_val, int8_t i_min, int8_t i_max) { return checkIncDec(event, i_val, i_min, i_max, EE_MODEL); } int8_t checkIncDecModelZero(uint8_t event, int8_t i_val, int8_t i_max) { return checkIncDecModel(event, i_val, 0, i_max); } int8_t checkIncDecGen(uint8_t event, int8_t i_val, int8_t i_min, int8_t i_max) { return checkIncDec(event, i_val, i_min, i_max, EE_GENERAL); } #endif bool check_simple(check_event_t event, uint8_t curr, const MenuFuncP *menuTab, uint8_t menuTabSize, vertpos_t maxrow) { return check(event, curr, menuTab, menuTabSize, 0, 0, maxrow); } bool check_submenu_simple(check_event_t event, uint8_t maxrow) { return check_simple(event, 0, 0, 0, maxrow); } void title(const pm_char * s) { lcd_putsAtt(0, 0, s, INVERS); } #define SCROLL_TH 64 #define SCROLL_POT1_TH 32 #if defined(CPUARM) #define CURSOR_NOT_ALLOWED_IN_ROW(row) ((int8_t)MAXCOL(row) < 0) #else #define CURSOR_NOT_ALLOWED_IN_ROW(row) (MAXCOL(row) == TITLE_ROW) #endif #if defined(PCBTARANIS) #define MAXCOL_RAW(row) (horTab ? pgm_read_byte(horTab+min(row, (vertpos_t)horTabMax)) : (const uint8_t)0) #define MAXCOL(row) (MAXCOL_RAW(row) >= HIDDEN_ROW ? MAXCOL_RAW(row) : (const uint8_t)(MAXCOL_RAW(row) & (~NAVIGATION_LINE_BY_LINE))) #define COLATTR(row) (MAXCOL_RAW(row) == (uint8_t)-1 ? (const uint8_t)0 : (const uint8_t)(MAXCOL_RAW(row) & NAVIGATION_LINE_BY_LINE)) #else #define MAXCOL(row) (horTab ? pgm_read_byte(horTab+min(row, (vertpos_t)horTabMax)) : (const uint8_t)0) #endif #define INC(val, min, max) if (val<max) {val++;} else {val=min;} #define DEC(val, min, max) if (val>min) {val--;} else {val=max;} #if LCD_W >= 212 uint8_t scrollbar_X = LCD_W-1; #endif #if defined(CPUARM) bool modelHasNotes() { char filename[sizeof(MODELS_PATH)+1+sizeof(g_model.header.name)+sizeof(TEXT_EXT)] = MODELS_PATH "/"; char *buf = strcat_modelname(&filename[sizeof(MODELS_PATH)], g_eeGeneral.currModel); strcpy(buf, TEXT_EXT); return isFileAvailable(filename); } void pushModelNotes() { char filename[sizeof(MODELS_PATH)+1+sizeof(g_model.header.name)+sizeof(TEXT_EXT)] = MODELS_PATH "/"; char *buf = strcat_modelname(&filename[sizeof(MODELS_PATH)], g_eeGeneral.currModel); strcpy(buf, TEXT_EXT); pushMenuTextView(filename); } #endif #if defined(PCBTARANIS) void onLongMenuPress(const char *result) { if (result == STR_VIEW_CHANNELS) { pushMenu(menuChannelsView); } else if (result == STR_VIEW_NOTES) { pushModelNotes(); } } #endif #if defined(CPUARM) tmr10ms_t menuEntryTime; #endif #if defined(PCBTARANIS) bool check(check_event_t event, uint8_t curr, const MenuFuncP *menuTab, uint8_t menuTabSize, const pm_uint8_t *horTab, uint8_t horTabMax, vertpos_t maxrow, uint8_t flags) { vertpos_t l_posVert = m_posVert; horzpos_t l_posHorz = m_posHorz; uint8_t maxcol = MAXCOL(l_posVert); #define scrollUD 0 if (p2valdiff || scrollUD || p1valdiff) backlightOn(); // on keypress turn the light on if (menuTab) { uint8_t attr = 0; int8_t cc = curr; switch (event) { case EVT_KEY_LONG(KEY_MENU): if (menuTab == menuTabModel) { killEvents(event); if (modelHasNotes()) { MENU_ADD_SD_ITEM(STR_VIEW_CHANNELS); MENU_ADD_ITEM(STR_VIEW_NOTES); menuHandler = onLongMenuPress; } else { pushMenu(menuChannelsView); return false; } } break; case EVT_KEY_LONG(KEY_PAGE): if (curr > 0) cc = curr - 1; else cc = menuTabSize-1; killEvents(event); break; case EVT_KEY_BREAK(KEY_PAGE): if (curr < (menuTabSize-1)) cc = curr + 1; else cc = 0; break; } if (!calibrationState && cc != curr) { chainMenu((MenuFuncP)pgm_read_adr(&menuTab[cc])); return false; } if (!(flags&CHECK_FLAG_NO_SCREEN_INDEX)) { displayScreenIndex(curr, menuTabSize, attr); } lcd_filled_rect(0, 0, LCD_W, FH, SOLID, FILL_WHITE|GREY_DEFAULT); } DISPLAY_PROGRESS_BAR(menuTab ? lcdLastPos-2*FW-((curr+1)/10*FWNUM)-2 : 20*FW+1); if (s_editMode<=0) { if (scrollUD) { l_posVert = limit((int8_t)0, (int8_t)(l_posVert - scrollUD), (int8_t)maxrow); l_posHorz = min((uint8_t)l_posHorz, MAXCOL(l_posVert)); } if (p2valdiff && l_posVert>0) { l_posHorz = limit((int8_t)0, (int8_t)((uint8_t)l_posHorz - p2valdiff), (int8_t)maxcol); } } switch(event) { case EVT_ENTRY: menuEntryTime = get_tmr10ms(); l_posVert = POS_VERT_INIT; l_posHorz = POS_HORZ_INIT(l_posVert); SET_SCROLLBAR_X(LCD_W-1); #if defined(ROTARY_ENCODER_NAVIGATION) if (menuTab) { s_editMode = EDIT_MODE_INIT; break; } // no break #else s_editMode = EDIT_MODE_INIT; break; #endif case EVT_ENTRY_UP: menuEntryTime = get_tmr10ms(); s_editMode = 0; l_posHorz = POS_HORZ_INIT(l_posVert); SET_SCROLLBAR_X(LCD_W-1); break; case EVT_ROTARY_BREAK: if (s_editMode > 1) break; if (m_posHorz < 0 && maxcol > 0 && READ_ONLY_UNLOCKED()) { l_posHorz = 0; break; } if (!menuTab || l_posVert>0) { if (READ_ONLY_UNLOCKED()) { s_editMode = (s_editMode<=0); } } break; #if defined(ROTARY_ENCODER_NAVIGATION) case EVT_ROTARY_LONG: if (s_editMode > 1) break; killEvents(event); if (l_posVert != POS_VERT_INIT) { l_posVert = POS_VERT_INIT; s_editMode = EDIT_MODE_INIT; break; } // no break #endif case EVT_KEY_LONG(KEY_EXIT): s_editMode = 0; // TODO needed? we call ENTRY_UP after which does the same popMenu(); return false; case EVT_KEY_BREAK(KEY_EXIT): #if defined(ROTARY_ENCODER_NAVIGATION) if (s_editMode == 0) s_editMode = EDIT_MODE_INIT; else #endif if (s_editMode>0) { s_editMode = 0; break; } if (l_posHorz >= 0 && (COLATTR(l_posVert) & NAVIGATION_LINE_BY_LINE)) { l_posHorz = -1; } else { uint8_t posVertInit = POS_VERT_INIT; if (s_pgOfs != 0 || l_posVert != posVertInit) { s_pgOfs = 0; l_posVert = posVertInit; l_posHorz = POS_HORZ_INIT(l_posVert); } else { popMenu(); return false; } } break; CASE_EVT_ROTARY_MOVE_RIGHT if (s_editMode != 0) break; if ((COLATTR(l_posVert) & NAVIGATION_LINE_BY_LINE)) { if (l_posHorz >= 0) { INC(l_posHorz, 0, maxcol); break; } } else { if (l_posHorz < maxcol) { l_posHorz++; break; } else { l_posHorz = 0; if (!IS_ROTARY_MOVE_RIGHT(event)) break; } } do { INC(l_posVert, POS_VERT_INIT, maxrow); } while (CURSOR_NOT_ALLOWED_IN_ROW(l_posVert)); s_editMode = 0; // if we go down, we must be in this mode l_posHorz = POS_HORZ_INIT(l_posVert); break; CASE_EVT_ROTARY_MOVE_LEFT if (s_editMode != 0) break; if ((COLATTR(l_posVert) & NAVIGATION_LINE_BY_LINE)) { if (l_posHorz >= 0) { DEC(l_posHorz, 0, maxcol); break; } } else { if (l_posHorz > 0) { l_posHorz--; break; } else if (IS_ROTARY_MOVE_LEFT(event) && s_editMode == 0) { l_posHorz = 0xff; } else { l_posHorz = maxcol; break; } } do { DEC(l_posVert, POS_VERT_INIT, maxrow); } while (CURSOR_NOT_ALLOWED_IN_ROW(l_posVert)); s_editMode = 0; // if we go up, we must be in this mode if ((COLATTR(l_posVert) & NAVIGATION_LINE_BY_LINE)) l_posHorz = -1; else l_posHorz = min((uint8_t)l_posHorz, MAXCOL(l_posVert)); break; } #if defined(CPUARM) if (l_posVert<1) { s_pgOfs=0; } else if (menuTab && horTab) { if (maxrow > LCD_LINES-1) { while (1) { vertpos_t line = s_pgOfs+1; for (int numLines=0; line<=maxrow && numLines<LCD_LINES-1; line++) { if (MAXCOL(line) != HIDDEN_ROW) { numLines++; } } int max = line - s_pgOfs - 1; if (l_posVert > max+s_pgOfs) { s_pgOfs++; } else if (l_posVert < 1+s_pgOfs) { s_pgOfs--; } else { break; } } } } else { uint8_t max = menuTab ? LCD_LINES-1 : LCD_LINES-2; if (l_posVert>max+s_pgOfs) { s_pgOfs = l_posVert-max; } else if (l_posVert<1+s_pgOfs) { s_pgOfs = l_posVert-1; } } #if LCD_W >= 212 if (maxrow > LCD_LINES-1 && scrollbar_X) displayScrollbar(scrollbar_X, FH, LCD_H-FH, s_pgOfs, menuTab ? maxrow : maxrow+1, LCD_LINES-1); #endif #else uint8_t max = menuTab ? LCD_LINES-1 : LCD_LINES-2; if (l_posVert<1) s_pgOfs=0; else if (l_posVert>max+s_pgOfs) s_pgOfs = l_posVert-max; else if (l_posVert<1+s_pgOfs) s_pgOfs = l_posVert-1; #endif m_posVert = l_posVert; m_posHorz = l_posHorz; if (s_pgOfs > 0) { l_posVert--; if (l_posVert == s_pgOfs && CURSOR_NOT_ALLOWED_IN_ROW(l_posVert)) { s_pgOfs = l_posVert-1; } } return true; } #else // defined(PCBTARANIS) bool check(check_event_t event, uint8_t curr, const MenuFuncP *menuTab, uint8_t menuTabSize, const pm_uint8_t *horTab, uint8_t horTabMax, vertpos_t maxrow) { vertpos_t l_posVert = m_posVert; horzpos_t l_posHorz = m_posHorz; uint8_t maxcol = MAXCOL(l_posVert); #if defined(NAVIGATION_POT1) // check pot 1 - if changed -> scroll values static int16_t p1val; static int16_t p1valprev; p1valdiff = (p1val-calibratedStick[6]) / SCROLL_POT1_TH; if (p1valdiff) { p1valdiff = (p1valprev-calibratedStick[6]) / 2; p1val = calibratedStick[6]; } p1valprev = calibratedStick[6]; #endif #if defined(NAVIGATION_POT2) // check pot 2 - if changed -> scroll menu static int16_t p2valprev; p2valdiff = (p2valprev-calibratedStick[4]) / SCROLL_TH; if (p2valdiff) p2valprev = calibratedStick[4]; #endif #if defined(NAVIGATION_POT3) // check pot 3 if changed -> cursor down/up static int16_t p3valprev; int8_t scrollUD = (p3valprev-calibratedStick[5]) / SCROLL_TH; if (scrollUD) p3valprev = calibratedStick[5]; #else #define scrollUD 0 #endif if (p2valdiff || scrollUD || p1valdiff) backlightOn(); // on keypress turn the light on if (menuTab) { uint8_t attr = 0; if (l_posVert==0 && !calibrationState) { attr = INVERS; int8_t cc = curr; if (p2valdiff) { cc = limit((int8_t)0, (int8_t)(cc - p2valdiff), (int8_t)(menuTabSize-1)); } switch(event) { #if defined(ROTARY_ENCODER_NAVIGATION) case EVT_ROTARY_BREAK: if (s_editMode < 0 && maxrow > 0) { s_editMode = 0; // TODO ? l_posVert = (horTab && horTab[1]==0xff) ? 2 : 1; l_posHorz = 0; } else { s_editMode = -1; } event = 0; break; #endif #if defined(ROTARY_ENCODER_NAVIGATION) case EVT_ROTARY_LEFT: if (s_editMode >= 0) break; #endif case EVT_KEY_FIRST(KEY_LEFT): if (curr > 0) cc = curr - 1; else cc = menuTabSize-1; break; #if defined(ROTARY_ENCODER_NAVIGATION) case EVT_ROTARY_RIGHT: if (s_editMode >= 0) break; #endif case EVT_KEY_FIRST(KEY_RIGHT): if (curr < (menuTabSize-1)) cc = curr + 1; else cc = 0; break; } if (cc != curr) { chainMenu((MenuFuncP)pgm_read_adr(&menuTab[cc])); return false; } #if defined(ROTARY_ENCODER_NAVIGATION) if (IS_RE_NAVIGATION_ENABLE() && s_editMode < 0) attr = INVERS|BLINK; #endif } calibrationState = 0; displayScreenIndex(curr, menuTabSize, attr); } DISPLAY_PROGRESS_BAR(menuTab ? lcdLastPos-2*FW-((curr+1)/10*FWNUM)-2 : 20*FW+1); if (s_editMode<=0) { if (scrollUD) { l_posVert = limit((int8_t)0, (int8_t)(l_posVert - scrollUD), (int8_t)maxrow); l_posHorz = min((uint8_t)l_posHorz, MAXCOL(l_posVert)); } if (p2valdiff && l_posVert>0) { l_posHorz = limit((int8_t)0, (int8_t)((uint8_t)l_posHorz - p2valdiff), (int8_t)maxcol); } } switch(event) { case EVT_ENTRY: #if defined(CPUARM) menuEntryTime = get_tmr10ms(); #endif l_posVert = POS_VERT_INIT; l_posHorz = POS_HORZ_INIT(l_posVert); SET_SCROLLBAR_X(LCD_W-1); #if defined(ROTARY_ENCODER_NAVIGATION) if (menuTab) { s_editMode = EDIT_MODE_INIT; break; } // no break #else s_editMode = EDIT_MODE_INIT; break; #endif #if defined(ROTARY_ENCODER_NAVIGATION) case EVT_ENTRY_UP: s_editMode = 0; SET_SCROLLBAR_X(LCD_W-1); break; case EVT_ROTARY_BREAK: if (s_editMode > 1) break; #endif case EVT_KEY_FIRST(KEY_ENTER): if (!menuTab || l_posVert>0) { if (READ_ONLY_UNLOCKED()) { s_editMode = (s_editMode<=0); } } break; #if defined(ROTARY_ENCODER_NAVIGATION) case EVT_ROTARY_LONG: if (s_editMode > 1) break; killEvents(event); if (l_posVert != POS_VERT_INIT) { l_posVert = POS_VERT_INIT; s_editMode = EDIT_MODE_INIT; break; } // no break #endif case EVT_KEY_LONG(KEY_EXIT): s_editMode = 0; // TODO needed? we call ENTRY_UP after which does the same popMenu(); return false; case EVT_KEY_BREAK(KEY_EXIT): #if defined(ROTARY_ENCODER_NAVIGATION) if (s_editMode == 0) s_editMode = EDIT_MODE_INIT; else #endif if (s_editMode>0) { s_editMode = 0; break; } if (l_posVert==0 || !menuTab) { popMenu(); // beeps itself return false; } else { AUDIO_MENUS(); l_posVert = 0; l_posHorz = 0; } break; case EVT_KEY_REPT(KEY_RIGHT): //inc if (l_posHorz==maxcol) break; // no break case EVT_KEY_FIRST(KEY_RIGHT)://inc if (!horTab || s_editMode>0) break; #if defined(ROTARY_ENCODER_NAVIGATION) CASE_EVT_ROTARY_MOVE_RIGHT if (s_editMode != 0) break; if (l_posHorz < maxcol) { l_posHorz++; break; } else { l_posHorz = 0; if (!IS_ROTARY_MOVE_RIGHT(event)) break; } #else INC(l_posHorz, 0, maxcol); break; #endif case EVT_KEY_REPT(KEY_DOWN): //inc if (!IS_ROTARY_RIGHT(event) && l_posVert==maxrow) break; // no break case EVT_KEY_FIRST(KEY_DOWN): //inc if (s_editMode>0) break; do { INC(l_posVert, POS_VERT_INIT, maxrow); } while (CURSOR_NOT_ALLOWED_IN_ROW(l_posVert)); #if defined(ROTARY_ENCODER_NAVIGATION) s_editMode = 0; // if we go down, we must be in this mode #endif l_posHorz = min(l_posHorz, MAXCOL(l_posVert)); break; case EVT_KEY_REPT(KEY_LEFT): //dec if (l_posHorz==0) break; // no break case EVT_KEY_FIRST(KEY_LEFT)://dec if (!horTab || s_editMode>0) break; #if defined(ROTARY_ENCODER_NAVIGATION) CASE_EVT_ROTARY_MOVE_LEFT if (s_editMode != 0) break; if (l_posHorz > 0) { l_posHorz--; break; } else if (IS_ROTARY_MOVE_LEFT(event) && s_editMode == 0) { l_posHorz = 0xff; } else { l_posHorz = maxcol; break; } #else DEC(l_posHorz, 0, maxcol); break; #endif case EVT_KEY_REPT(KEY_UP): //dec if (!IS_ROTARY_LEFT(event) && l_posVert==0) break; // no break case EVT_KEY_FIRST(KEY_UP): //dec if (s_editMode>0) break; do { DEC(l_posVert, POS_VERT_INIT, maxrow); } while (CURSOR_NOT_ALLOWED_IN_ROW(l_posVert)); #if defined(ROTARY_ENCODER_NAVIGATION) || defined(PCBTARANIS) s_editMode = 0; // if we go up, we must be in this mode #endif l_posHorz = min((uint8_t)l_posHorz, MAXCOL(l_posVert)); break; } #if defined(CPUARM) if (l_posVert<1) s_pgOfs=0; else if (menuTab && horTab) { vertpos_t realPosVert = l_posVert; vertpos_t realPgOfs = s_pgOfs; vertpos_t realMaxrow = maxrow; for (vertpos_t i=1; i<=maxrow; i++) { if (MAXCOL(i) == HIDDEN_ROW) { realMaxrow--; if (i < l_posVert) realPosVert--; if (i < s_pgOfs) realPgOfs--; } } if (realPosVert>(LCD_LINES-1)+realPgOfs) realPgOfs = realPosVert-(LCD_LINES-1); else if (realPosVert<1+realPgOfs) realPgOfs = realPosVert-1; s_pgOfs = realPgOfs; for (vertpos_t i=1; i<=realPgOfs; i++) { if (MAXCOL(i) == HIDDEN_ROW) { s_pgOfs++; } } maxrow = realMaxrow; } else { uint8_t max = menuTab ? LCD_LINES-1 : LCD_LINES-2; if (l_posVert>max+s_pgOfs) s_pgOfs = l_posVert-max; else if (l_posVert<1+s_pgOfs) s_pgOfs = l_posVert-1; } #if LCD_W >= 212 if (maxrow > LCD_LINES-1 && scrollbar_X) displayScrollbar(scrollbar_X, FH, LCD_H-FH, s_pgOfs, menuTab ? maxrow : maxrow+1, LCD_LINES-1); #endif #else uint8_t max = menuTab ? LCD_LINES-1 : LCD_LINES-2; if (l_posVert<1) s_pgOfs=0; else if (l_posVert>max+s_pgOfs) s_pgOfs = l_posVert-max; else if (l_posVert<1+s_pgOfs) s_pgOfs = l_posVert-1; #endif m_posVert = l_posVert; m_posHorz = l_posHorz; #if !defined(CPUM64) // cosmetics on 9x if (s_pgOfs > 0) { l_posVert--; if (l_posVert == s_pgOfs && CURSOR_NOT_ALLOWED_IN_ROW(l_posVert)) s_pgOfs = l_posVert-1; } #endif return true; } #endif MenuFuncP g_menuStack[5]; uint8_t g_menuPos[4]; uint8_t g_menuStackPtr = 0; vertpos_t m_posVert; horzpos_t m_posHorz; void popMenu() { assert(g_menuStackPtr>0); g_menuStackPtr = g_menuStackPtr-1; AUDIO_KEYPAD_UP(); m_posHorz = 0; m_posVert = g_menuPos[g_menuStackPtr]; (*g_menuStack[g_menuStackPtr])(EVT_ENTRY_UP); } void chainMenu(MenuFuncP newMenu) { g_menuStack[g_menuStackPtr] = newMenu; (*newMenu)(EVT_ENTRY); AUDIO_MENUS(); } void pushMenu(MenuFuncP newMenu) { killEvents(KEY_ENTER); if (g_menuStackPtr == 0) { if (newMenu == menuGeneralSetup) g_menuPos[0] = 1; if (newMenu == menuModelSelect) g_menuPos[0] = 0; } else { g_menuPos[g_menuStackPtr] = m_posVert; } g_menuStackPtr++; assert(g_menuStackPtr < DIM(g_menuStack)); AUDIO_MENUS(); g_menuStack[g_menuStackPtr] = newMenu; (*newMenu)(EVT_ENTRY); } const pm_char * s_warning = NULL; const pm_char * s_warning_info; uint8_t s_warning_info_len; uint8_t s_warning_type; uint8_t s_warning_result = 0; #if defined(CPUARM) uint8_t s_warning_info_flags = ZCHAR; int16_t s_warning_input_value; int16_t s_warning_input_min; int16_t s_warning_input_max; #endif void displayBox() { lcd_filled_rect(10, 16, LCD_W-20, 40, SOLID, ERASE); lcd_rect(10, 16, LCD_W-20, 40); #if defined(CPUARM) lcd_putsn(WARNING_LINE_X, WARNING_LINE_Y, s_warning, WARNING_LINE_LEN); #else lcd_puts(WARNING_LINE_X, WARNING_LINE_Y, s_warning); #endif // could be a place for a s_warning_info } void displayPopup(const pm_char * pstr) { s_warning = pstr; displayBox(); s_warning = NULL; lcdRefresh(); } void displayWarning(uint8_t event) { s_warning_result = false; displayBox(); if (s_warning_info) lcd_putsnAtt(16, WARNING_LINE_Y+FH, s_warning_info, s_warning_info_len, WARNING_INFO_FLAGS); lcd_puts(16, WARNING_LINE_Y+2*FH, s_warning_type == WARNING_TYPE_ASTERISK ? STR_EXIT : STR_POPUPS); switch (event) { #if defined(ROTARY_ENCODER_NAVIGATION) case EVT_ROTARY_BREAK: #endif case EVT_KEY_BREAK(KEY_ENTER): if (s_warning_type == WARNING_TYPE_ASTERISK) break; s_warning_result = true; // no break #if defined(ROTARY_ENCODER_NAVIGATION) case EVT_ROTARY_LONG: killEvents(event); #endif case EVT_KEY_BREAK(KEY_EXIT): s_warning = NULL; s_warning_type = WARNING_TYPE_ASTERISK; break; #if defined(CPUARM) default: if (s_warning_type != WARNING_TYPE_INPUT) break; s_editMode = EDIT_MODIFY_FIELD; s_warning_input_value = checkIncDec(event, s_warning_input_value, s_warning_input_min, s_warning_input_max); s_editMode = EDIT_SELECT_FIELD; break; #endif } } select_menu_value_t selectMenuItem(uint8_t x, uint8_t y, const pm_char *label, const pm_char *values, select_menu_value_t value, select_menu_value_t min, select_menu_value_t max, LcdFlags attr, uint8_t event) { lcd_putsColumnLeft(x, y, label); if (values) lcd_putsiAtt(x, y, values, value-min, attr); if (attr) value = checkIncDec(event, value, min, max, (g_menuPos[0] == 0) ? EE_MODEL : EE_GENERAL); return value; } uint8_t onoffMenuItem(uint8_t value, uint8_t x, uint8_t y, const pm_char *label, LcdFlags attr, uint8_t event ) { #if defined(GRAPHICS) menu_lcd_onoff(x, y, value, attr); return selectMenuItem(x, y, label, NULL, value, 0, 1, attr, event); #else return selectMenuItem(x, y, label, STR_OFFON, value, 0, 1, attr, event); #endif } int8_t switchMenuItem(uint8_t x, uint8_t y, int8_t value, LcdFlags attr, uint8_t event) { lcd_putsColumnLeft(x, y, STR_SWITCH); putsSwitches(x, y, value, attr); if (attr) CHECK_INCDEC_MODELSWITCH(event, value, SWSRC_FIRST_SHORT_LIST, SWSRC_LAST_SHORT_LIST); return value; } #if !defined(CPUM64) void displaySlider(uint8_t x, uint8_t y, uint8_t value, uint8_t max, uint8_t attr) { lcd_putc(x+(value*4*FW)/max, y, '$'); lcd_hline(x, y+3, 5*FW-1, SOLID); if (attr && (!(attr & BLINK) || !BLINK_ON_PHASE)) lcd_filled_rect(x, y, 5*FW-1, FH-1); } #elif defined(GRAPHICS) void display5posSlider(uint8_t x, uint8_t y, uint8_t value, uint8_t attr) { lcd_putc(x+2*FW+(value*FW), y, '$'); lcd_hline(x, y+3, 5*FW-1, SOLID); if (attr && (!(attr & BLINK) || !BLINK_ON_PHASE)) lcd_filled_rect(x, y, 5*FW-1, FH-1); } #endif #if defined(GVARS) #if defined(CPUARM) int16_t gvarMenuItem(uint8_t x, uint8_t y, int16_t value, int16_t min, int16_t max, LcdFlags attr, uint8_t editflags, uint8_t event) #else int16_t gvarMenuItem(uint8_t x, uint8_t y, int16_t value, int16_t min, int16_t max, LcdFlags attr, uint8_t event) #endif { uint16_t delta = GV_GET_GV1_VALUE(max); bool invers = (attr & INVERS); // TRACE("gvarMenuItem(val=%d min=%d max=%d)", value, min, max); if (invers && event == EVT_KEY_LONG(KEY_ENTER)) { s_editMode = !s_editMode; #if defined(CPUARM) if (attr & PREC1) value = (GV_IS_GV_VALUE(value, min, max) ? GET_GVAR(value, min, max, mixerCurrentFlightMode)*10 : delta); else value = (GV_IS_GV_VALUE(value, min, max) ? GET_GVAR(value, min, max, mixerCurrentFlightMode) : delta); #else value = (GV_IS_GV_VALUE(value, min, max) ? GET_GVAR(value, min, max, mixerCurrentFlightMode) : delta); #endif eeDirty(EE_MODEL); } if (GV_IS_GV_VALUE(value, min, max)) { if (attr & LEFT) attr -= LEFT; /* because of ZCHAR */ else x -= 2*FW+FWNUM; #if defined(CPUARM) attr &= ~PREC1; #endif int8_t idx = (int16_t) GV_INDEX_CALC_DELTA(value, delta); if (invers) { CHECK_INCDEC_MODELVAR(event, idx, -MAX_GVARS, MAX_GVARS-1); } if (idx < 0) { value = (int16_t) GV_CALC_VALUE_IDX_NEG(idx, delta); idx = -idx; lcd_putcAtt(x-6, y, '-', attr); } else { value = (int16_t) GV_CALC_VALUE_IDX_POS(idx, delta); idx++; } putsStrIdx(x, y, STR_GV, idx, attr); } else { lcd_outdezAtt(x, y, value, attr); #if defined(CPUARM) if (invers) value = checkIncDec(event, value, min, max, EE_MODEL | editflags); #else if (invers) value = checkIncDec(event, value, min, max, EE_MODEL); #endif } return value; } #else int16_t gvarMenuItem(uint8_t x, uint8_t y, int16_t value, int16_t min, int16_t max, LcdFlags attr, uint8_t event) { lcd_outdezAtt(x, y, value, attr); if (attr&INVERS) value = checkIncDec(event, value, min, max, EE_MODEL); return value; } #endif void repeatLastCursorMove(uint8_t event) { if (CURSOR_MOVED_LEFT(event) || CURSOR_MOVED_RIGHT(event)) { putEvent(event); } else { m_posHorz = 0; } } #if LCD_W >= 212 #define MENU_X 30 #define MENU_Y 16 #define MENU_W LCD_W-60 #else #define MENU_X 10 #define MENU_Y 16 #define MENU_W LCD_W-20 #endif #if defined(CPUARM) void (*popupFunc)(uint8_t event) = NULL; #endif #if defined(NAVIGATION_MENUS) const char *s_menu[MENU_MAX_LINES]; uint8_t s_menu_item = 0; uint16_t s_menu_count = 0; uint8_t s_menu_flags = 0; uint16_t s_menu_offset = 0; void (*menuHandler)(const char *result); const char * displayMenu(uint8_t event) { const char * result = NULL; uint8_t display_count = min(s_menu_count, (uint16_t)MENU_MAX_LINES); uint8_t y = (display_count >= 5 ? MENU_Y - FH - 1 : MENU_Y); lcd_filled_rect(MENU_X, y, MENU_W, display_count * (FH+1) + 2, SOLID, ERASE); lcd_rect(MENU_X, y, MENU_W, display_count * (FH+1) + 2); for (uint8_t i=0; i<display_count; i++) { lcd_putsAtt(MENU_X+6, i*(FH+1) + y + 2, s_menu[i], s_menu_flags); if (i == s_menu_item) lcd_filled_rect(MENU_X+1, i*(FH+1) + y + 1, MENU_W-2, 9); } if (s_menu_count > display_count) { displayScrollbar(MENU_X+MENU_W-1, y+1, MENU_MAX_LINES * (FH+1), s_menu_offset, s_menu_count, MENU_MAX_LINES); } switch(event) { #if defined(ROTARY_ENCODER_NAVIGATION) CASE_EVT_ROTARY_LEFT #endif case EVT_KEY_FIRST(KEY_MOVE_UP): case EVT_KEY_REPT(KEY_MOVE_UP): if (s_menu_item > 0) { s_menu_item--; } #if defined(SDCARD) else if (s_menu_offset > 0) { s_menu_offset--; result = STR_UPDATE_LIST; } #endif else { s_menu_item = display_count - 1; #if defined(SDCARD) if (s_menu_count > MENU_MAX_LINES) { s_menu_offset = s_menu_count - display_count; result = STR_UPDATE_LIST; } #endif } break; #if defined(ROTARY_ENCODER_NAVIGATION) CASE_EVT_ROTARY_RIGHT #endif case EVT_KEY_FIRST(KEY_MOVE_DOWN): case EVT_KEY_REPT(KEY_MOVE_DOWN): if (s_menu_item < display_count - 1 && s_menu_offset + s_menu_item + 1 < s_menu_count) { s_menu_item++; } #if defined(SDCARD) else if (s_menu_count > s_menu_offset + display_count) { s_menu_offset++; result = STR_UPDATE_LIST; } #endif else { s_menu_item = 0; #if defined(SDCARD) if (s_menu_offset) { s_menu_offset = 0; result = STR_UPDATE_LIST; } #endif } break; CASE_EVT_ROTARY_BREAK case EVT_KEY_BREAK(KEY_ENTER): result = s_menu[s_menu_item]; // no break #if defined(ROTARY_ENCODER_NAVIGATION) CASE_EVT_ROTARY_LONG killEvents(event); #endif case EVT_KEY_BREAK(KEY_EXIT): s_menu_count = 0; s_menu_item = 0; s_menu_flags = 0; s_menu_offset = 0; break; } return result; } #endif #if defined(SDCARD) char statusLineMsg[STATUS_LINE_LENGTH]; tmr10ms_t statusLineTime = 0; uint8_t statusLineHeight = 0; void showStatusLine() { statusLineTime = get_tmr10ms(); } #define STATUS_LINE_DELAY (3 * 100) /* 3s */ void drawStatusLine() { if (statusLineTime) { if ((tmr10ms_t)(get_tmr10ms() - statusLineTime) <= (tmr10ms_t)STATUS_LINE_DELAY) { if (statusLineHeight < FH) statusLineHeight++; } else if (statusLineHeight) { statusLineHeight--; } else { statusLineTime = 0; } lcd_filled_rect(0, LCD_H-statusLineHeight, LCD_W, FH, SOLID, ERASE); lcd_putsAtt(5, LCD_H+1-statusLineHeight, statusLineMsg, BSS); lcd_filled_rect(0, LCD_H-statusLineHeight, LCD_W, FH, SOLID); } }
void displayRssiLine() { if (TELEMETRY_STREAMING()) { lcd_hline(0, 55, 128, 0); // separator uint8_t rssi = min((uint8_t)99, frskyData.rssi[1].value); lcd_putsLeft(STATUS_BAR_Y, STR_TX); lcd_outdezNAtt(4*FW+1, STATUS_BAR_Y, rssi, LEADING0, 2); lcd_rect(25, 57, 38, 7); lcd_filled_rect(26, 58, 4*rssi/11, 5, (rssi < getRssiAlarmValue(0)) ? DOTTED : SOLID); rssi = min((uint8_t)99, frskyData.rssi[0].value); lcd_puts(104, STATUS_BAR_Y, STR_RX); lcd_outdezNAtt(105+4*FW, STATUS_BAR_Y, rssi, LEADING0, 2); lcd_rect(65, 57, 38, 7); uint8_t v = 4*rssi/11; lcd_filled_rect(66+36-v, 58, v, 5, (rssi < getRssiAlarmValue(0)) ? DOTTED : SOLID); } else { lcd_putsAtt(7*FW, STATUS_BAR_Y, STR_NODATA, BLINK); lcd_status_line(); } }
void displayBox() { lcd_filled_rect(10, 16, LCD_W-20, 40, SOLID, ERASE); lcd_rect(10, 16, LCD_W-20, 40); #if defined(CPUARM) lcd_putsn(WARNING_LINE_X, WARNING_LINE_Y, s_warning, WARNING_LINE_LEN); #else lcd_puts(WARNING_LINE_X, WARNING_LINE_Y, s_warning); #endif // could be a place for a s_warning_info }
void displayRssiLine() { if (TELEMETRY_STREAMING()) { lcd_hline(0, 55, 212, 0); // separator uint8_t rssi = min((uint8_t)99, frskyData.rssi[0].value); lcd_putsn(0, STATUS_BAR_Y, STR_RX, 2); lcd_outdezNAtt(4*FW, STATUS_BAR_Y, rssi, LEADING0, 2); lcd_rect(25, 57, 78, 7); lcd_filled_rect(26, 58, 19*rssi/25, 5, (rssi < getRssiAlarmValue(0)) ? DOTTED : SOLID); } else { lcd_putsAtt(7*FW, STATUS_BAR_Y, STR_NODATA, BLINK); lcd_status_line(); } }
void menu_lcd_onoff(uint8_t x, uint8_t y, uint8_t value, LcdFlags attr) { #if defined(GRAPHICS) if (value) lcd_putc(x+1, y, '#'); if (attr) lcd_filled_rect(x, y, 7, 7); else lcd_square(x, y, 7); #else /* ON / OFF version */ lcd_putsiAtt(x, y, STR_OFFON, value, attr ? INVERS:0) ; #endif }
uint32_t fileList(uint8_t event, struct fileControl *fc ) { uint32_t limit ; uint32_t result = 0 ; uint8_t maxhsize ; uint32_t i ; limit = 6 ; if ( fc->nameCount < limit ) { limit = fc->nameCount ; } maxhsize = 0 ; for ( i = 0 ; i < limit ; i += 1 ) { uint32_t x ; uint32_t len ; len = x = strlen( Filenames[i] ) ; if ( x > maxhsize ) { maxhsize = x ; } if ( x > DISPLAY_CHAR_WIDTH ) { if ( ( fc->hpos + DISPLAY_CHAR_WIDTH ) > x ) { x = x - DISPLAY_CHAR_WIDTH ; } else { x = fc->hpos ; } len = DISPLAY_CHAR_WIDTH ; } else { x = 0 ; } lcd_putsn_P( 0, 16+FH*i, &Filenames[i][x], len ) ; } #if !defined(PCBTARANIS) if ( event == 0 ) { extern int32_t Rotary_diff ; if ( Rotary_diff > 0 ) { event = EVT_KEY_FIRST(KEY_DOWN) ; } else if ( Rotary_diff < 0 ) { event = EVT_KEY_FIRST(KEY_UP) ; } Rotary_diff = 0 ; } #endif if ( ( event == EVT_KEY_REPT(KEY_DOWN) ) || event == EVT_KEY_FIRST(KEY_DOWN) ) { if ( fc->vpos < limit-1 ) { fc->vpos += 1 ; } else { if ( fc->nameCount > limit ) { fc->index += 1 ; fc->nameCount = fillNames( fc->index, fc ) ; } } } if ( ( event == EVT_KEY_REPT(KEY_UP)) || ( event == EVT_KEY_FIRST(KEY_UP) ) ) { if ( fc->vpos > 0 ) { fc->vpos -= 1 ; } else { if ( fc->index ) { fc->index -= 1 ; fc->nameCount = fillNames( fc->index, fc ) ; } } } if ( ( event == EVT_KEY_REPT(MKEY_RIGHT)) || ( event == EVT_KEY_FIRST(MKEY_RIGHT) ) ) { if ( fc->hpos + DISPLAY_CHAR_WIDTH < maxhsize ) fc->hpos += 1 ; } if ( ( event == EVT_KEY_REPT(MKEY_LEFT)) || ( event == EVT_KEY_FIRST(MKEY_LEFT) ) ) { if ( fc->hpos ) fc->hpos -= 1 ; } if ( ( event == EVT_KEY_LONG(KEY_MENU) ) || ( event == EVT_KEY_BREAK(BTN_RE) ) ) { // Select file to flash killEvents(event); result = 1 ; } if ( ( event == EVT_KEY_FIRST(KEY_EXIT) ) || ( event == EVT_KEY_LONG(BTN_RE) ) ) { // Select file to flash result = 2 ; } if ( event == EVT_KEY_BREAK(KEY_MENU) ) { // Tag file result = 3 ; } #if defined(PCBTARANIS) lcd_filled_rect( 0, 2*FH+FH*fc->vpos, DISPLAY_CHAR_WIDTH*FW, 8, 0xFF, 0 ) ; #else lcd_char_inverse( 0, 2*FH+FH*fc->vpos, DISPLAY_CHAR_WIDTH*FW, 0 ) ; #endif return result ; }
void menuTelemetryFrsky(uint8_t event) { if (event == EVT_KEY_FIRST(KEY_EXIT)) { killEvents(event); chainMenu(menuMainView); return; } switch (event) { case EVT_KEY_BREAK(KEY_UP): if (s_frsky_view-- == 0) s_frsky_view = FRSKY_VIEW_MAX; break; #if defined(PCBTARANIS) case EVT_KEY_BREAK(KEY_PAGE): #endif case EVT_KEY_BREAK(KEY_DOWN): if (s_frsky_view++ == FRSKY_VIEW_MAX) s_frsky_view = 0; break; #if defined(PCBTARANIS) case EVT_KEY_LONG(KEY_ENTER): killEvents(event); MENU_ADD_ITEM(STR_RESET_TELEMETRY); MENU_ADD_ITEM(STR_RESET_FLIGHT); menuHandler = onMainViewMenu; break; #else case EVT_KEY_FIRST(KEY_ENTER): telemetryReset(); break; #endif } lcdDrawTelemetryTopBar(); if (s_frsky_view < MAX_FRSKY_SCREENS) { FrSkyScreenData & screen = g_model.frsky.screens[s_frsky_view]; #if defined(GAUGES) if (g_model.frsky.screensType & (1<<s_frsky_view)) { // Custom Screen with gauges uint8_t barHeight = 5; for (int8_t i=3; i>=0; i--) { FrSkyBarData & bar = screen.bars[i]; uint8_t source = bar.source; getvalue_t barMin = convertBarTelemValue(source, bar.barMin); getvalue_t barMax = convertBarTelemValue(source, 255-bar.barMax); if (source && barMax > barMin) { uint8_t y = barHeight+6+i*(barHeight+6); lcd_putsiAtt(0, y+barHeight-5, STR_VTELEMCHNS, source, 0); lcd_rect(25, y, BAR_WIDTH+1, barHeight+2); getvalue_t value = getValue(MIXSRC_FIRST_TELEM+source-1); #if LCD_W >= 212 putsTelemetryChannel(27+BAR_WIDTH, y+barHeight-6, source-1, value, LEFT); #endif getvalue_t threshold = 0; uint8_t thresholdX = 0; if (source <= TELEM_TM2) threshold = 0; else if (source <= TELEM_RSSI_RX) threshold = getRssiAlarmValue(source-TELEM_RSSI_TX); else if (source <= TELEM_A2) threshold = g_model.frsky.channels[source-TELEM_A1].alarms_value[0]; #if defined(FRSKY_HUB) else threshold = convertBarTelemValue(source, barsThresholds[source-TELEM_ALT]); #endif if (threshold) { thresholdX = barCoord(threshold, barMin, barMax); if (thresholdX == 100) thresholdX = 0; } uint8_t width = barCoord(value, barMin, barMax); // reversed barshade for T1/T2 uint8_t barShade = ((threshold > value) ? DOTTED : SOLID); if (source == TELEM_T1 || source == TELEM_T2) barShade = -barShade; lcd_filled_rect(26, y+1, width, barHeight, barShade); for (uint8_t j=24; j<99; j+=25) if (j>thresholdX || j>width) lcd_vline(j*BAR_WIDTH/100+26, y+1, barHeight); if (thresholdX) { lcd_vlineStip(26+thresholdX, y-2, barHeight+3, DOTTED); lcd_hline(25+thresholdX, y-2, 3); } } else { barHeight += 2; } } displayRssiLine(); } else #endif { // Custom Screen with numbers uint8_t fields_count = 0; for (uint8_t i=0; i<4; i++) { for (uint8_t j=0; j<NUM_LINE_ITEMS; j++) { uint8_t field = screen.lines[i].sources[j]; if (i==3 && j==0) { #if LCD_W >= 212 lcd_vline(69, 8, 48); lcd_vline(141, 8, 48); #else lcd_vline(63, 8, 48); #endif if (TELEMETRY_STREAMING()) { #if defined(FRSKY_HUB) if (field == TELEM_ACC) { lcd_putsLeft(STATUS_BAR_Y, STR_ACCEL); lcd_outdezNAtt(4*FW, STATUS_BAR_Y, frskyData.hub.accelX, LEFT|PREC2); lcd_outdezNAtt(10*FW, STATUS_BAR_Y, frskyData.hub.accelY, LEFT|PREC2); lcd_outdezNAtt(16*FW, STATUS_BAR_Y, frskyData.hub.accelZ, LEFT|PREC2); break; } #if defined(GPS) else if (field == TELEM_GPS_TIME) { displayGpsTime(); return; } #endif #endif } else { displayRssiLine(); return; } } if (field) { fields_count++; getvalue_t value = getValue(MIXSRC_FIRST_TELEM+field-1); uint8_t att = (i==3 ? NO_UNIT : DBLSIZE|NO_UNIT); #if LCD_W >= 212 xcoord_t pos[] = {0, 71, 143, 214}; #else xcoord_t pos[] = {0, 65, 130}; #endif putsTelemetryChannel(pos[j+1]-2, 1+FH+2*FH*i, field-1, value, att); if (field >= TELEM_TM1 && field <= TELEM_TM2 && i!=3) { // there is not enough space on LCD for displaying "Tmr1" or "Tmr2" and still see the - sign, we write "T1" or "T2" instead field = field-TELEM_TM1+TELEM_T1; } lcd_putsiAtt(pos[j], 1+FH+2*FH*i, STR_VTELEMCHNS, field, 0); } } } lcd_status_line(); if (fields_count == 0) putEvent(event == EVT_KEY_BREAK(KEY_UP) ? event : EVT_KEY_BREAK(KEY_DOWN)); } } else if (s_frsky_view == e_frsky_voltages) { // Volts / Amps / Watts / mAh uint8_t analog = 0; #if defined(CPUARM) lcd_putsiAtt(0, 2*FH, STR_VOLTSRC, g_model.frsky.voltsSource, 0); #else lcd_putsiAtt(0, 2*FH, STR_AMPSRC, g_model.frsky.voltsSource+1, 0); #endif switch (g_model.frsky.voltsSource) { #if defined(CPUARM) case FRSKY_VOLTS_SOURCE_RXBATT: putsTelemetryChannel(3*FW+6*FW+4, FH+1, TELEM_RXBATT-1, frskyData.analog[TELEM_ANA_RXBATT].value, DBLSIZE); break; #endif case FRSKY_VOLTS_SOURCE_A1: case FRSKY_VOLTS_SOURCE_A2: #if defined(CPUARM) case FRSKY_VOLTS_SOURCE_A3: case FRSKY_VOLTS_SOURCE_A4: #endif displayVoltageScreenLine(2*FH, g_model.frsky.voltsSource); analog = 1+g_model.frsky.voltsSource; break; #if defined(FRSKY_HUB) case FRSKY_VOLTS_SOURCE_FAS: putsTelemetryChannel(3*FW+6*FW+4, FH+1, TELEM_VFAS-1, frskyData.hub.vfas, DBLSIZE); break; case FRSKY_VOLTS_SOURCE_CELLS: putsTelemetryChannel(3*FW+6*FW+4, FH+1, TELEM_CELLS_SUM-1, frskyData.hub.cellsSum, DBLSIZE); break; #endif } if (g_model.frsky.currentSource) { lcd_putsiAtt(0, 4*FH, STR_AMPSRC, g_model.frsky.currentSource, 0); switch(g_model.frsky.currentSource) { case FRSKY_CURRENT_SOURCE_A1: case FRSKY_CURRENT_SOURCE_A2: #if defined(CPUARM) case FRSKY_CURRENT_SOURCE_A3: case FRSKY_CURRENT_SOURCE_A4: #endif displayVoltageScreenLine(4*FH, g_model.frsky.currentSource-1); break; #if defined(FRSKY_HUB) case FRSKY_CURRENT_SOURCE_FAS: putsTelemetryChannel(3*FW+6*FW+4, 3*FH+1, TELEM_CURRENT-1, frskyData.hub.current, DBLSIZE); break; #endif } putsTelemetryChannel(4, 5*FH+1, TELEM_POWER-1, frskyData.hub.power, LEFT|DBLSIZE); putsTelemetryChannel(3*FW+4+4*FW+6*FW+FW, 5*FH+1, TELEM_CONSUMPTION-1, frskyData.hub.currentConsumption, DBLSIZE); } else { displayVoltageScreenLine(analog > 0 ? 5*FH : 4*FH, analog ? 2-analog : 0); if (analog == 0) displayVoltageScreenLine(6*FH, 1); } #if defined(FRSKY_HUB) // Cells voltage if (frskyData.hub.cellsCount > 0) { uint8_t y = 1*FH; for (uint8_t k=0; k<frskyData.hub.cellsCount && k<6; k++) { #if defined(GAUGES) uint8_t attr = (barsThresholds[THLD_CELL] && frskyData.hub.cellVolts[k] < barsThresholds[THLD_CELL]) ? BLINK|PREC2 : PREC2; #else uint8_t attr = PREC2; #endif lcd_outdezNAtt(LCD_W, y, TELEMETRY_CELL_VOLTAGE(k), attr, 4); y += 1*FH; } #if defined(PCBTARANIS) if (frskyData.hub.cellsCount > 6) { y = 1*FH; for (uint8_t k=6; k<frskyData.hub.cellsCount && k<12; k++) { #if defined(GAUGES) uint8_t attr = (barsThresholds[THLD_CELL] && frskyData.hub.cellVolts[k] < barsThresholds[THLD_CELL]) ? BLINK|PREC2 : PREC2; #else uint8_t attr = PREC2; #endif lcd_outdezNAtt(LCD_W-3*FW-2, y, TELEMETRY_CELL_VOLTAGE(k), attr, 4); y += 1*FH; } lcd_vline(LCD_W-6*FW-4, 8, 47); } else #endif lcd_vline(LCD_W-3*FW-2, 8, 47); } #endif displayRssiLine(); } #if defined(FRSKY_HUB) else if (s_frsky_view == e_frsky_after_flight) { uint8_t line=1*FH+1; if (IS_GPS_AVAILABLE()) { // Latitude lcd_putsLeft(line, STR_LATITUDE); displayGpsCoord(line, frskyData.hub.gpsLatitudeNS, frskyData.hub.gpsLatitude_bp, frskyData.hub.gpsLatitude_ap); // Longitude line+=1*FH+1; lcd_putsLeft(line, STR_LONGITUDE); displayGpsCoord(line, frskyData.hub.gpsLongitudeEW, frskyData.hub.gpsLongitude_bp, frskyData.hub.gpsLongitude_ap); displayGpsTime(); line+=1*FH+1; } // Rssi lcd_putsLeft(line, STR_MINRSSI); #if defined(PCBTARANIS) lcd_outdezNAtt(TELEM_2ND_COLUMN, line, frskyData.rssi[0].min, LEFT|LEADING0, 2); #else lcd_puts(TELEM_2ND_COLUMN, line, STR_TX); lcd_outdezNAtt(TELEM_2ND_COLUMN+3*FW, line, frskyData.rssi[1].min, LEFT|LEADING0, 2); lcd_puts(TELEM_2ND_COLUMN+6*FW, line, STR_RX); lcd_outdezNAtt(TELEM_2ND_COLUMN+9*FW, line, frskyData.rssi[0].min, LEFT|LEADING0, 2); #endif } #endif }
bool check(check_event_t event, uint8_t curr, const MenuFuncP *menuTab, uint8_t menuTabSize, const pm_uint8_t *horTab, uint8_t horTabMax, vertpos_t maxrow, uint8_t flags) { vertpos_t l_posVert = m_posVert; horzpos_t l_posHorz = m_posHorz; uint8_t maxcol = MAXCOL(l_posVert); #define scrollUD 0 if (p2valdiff || scrollUD || p1valdiff) backlightOn(); // on keypress turn the light on if (menuTab) { uint8_t attr = 0; int8_t cc = curr; switch (event) { case EVT_KEY_LONG(KEY_MENU): if (menuTab == menuTabModel) { killEvents(event); if (modelHasNotes()) { MENU_ADD_SD_ITEM(STR_VIEW_CHANNELS); MENU_ADD_ITEM(STR_VIEW_NOTES); menuHandler = onLongMenuPress; } else { pushMenu(menuChannelsView); return false; } } break; case EVT_KEY_LONG(KEY_PAGE): if (curr > 0) cc = curr - 1; else cc = menuTabSize-1; killEvents(event); break; case EVT_KEY_BREAK(KEY_PAGE): if (curr < (menuTabSize-1)) cc = curr + 1; else cc = 0; break; } if (!calibrationState && cc != curr) { chainMenu((MenuFuncP)pgm_read_adr(&menuTab[cc])); return false; } if (!(flags&CHECK_FLAG_NO_SCREEN_INDEX)) { displayScreenIndex(curr, menuTabSize, attr); } lcd_filled_rect(0, 0, LCD_W, FH, SOLID, FILL_WHITE|GREY_DEFAULT); } DISPLAY_PROGRESS_BAR(menuTab ? lcdLastPos-2*FW-((curr+1)/10*FWNUM)-2 : 20*FW+1); if (s_editMode<=0) { if (scrollUD) { l_posVert = limit((int8_t)0, (int8_t)(l_posVert - scrollUD), (int8_t)maxrow); l_posHorz = min((uint8_t)l_posHorz, MAXCOL(l_posVert)); } if (p2valdiff && l_posVert>0) { l_posHorz = limit((int8_t)0, (int8_t)((uint8_t)l_posHorz - p2valdiff), (int8_t)maxcol); } } switch(event) { case EVT_ENTRY: menuEntryTime = get_tmr10ms(); l_posVert = POS_VERT_INIT; l_posHorz = POS_HORZ_INIT(l_posVert); SET_SCROLLBAR_X(LCD_W-1); #if defined(ROTARY_ENCODER_NAVIGATION) if (menuTab) { s_editMode = EDIT_MODE_INIT; break; } // no break #else s_editMode = EDIT_MODE_INIT; break; #endif case EVT_ENTRY_UP: menuEntryTime = get_tmr10ms(); s_editMode = 0; l_posHorz = POS_HORZ_INIT(l_posVert); SET_SCROLLBAR_X(LCD_W-1); break; case EVT_ROTARY_BREAK: if (s_editMode > 1) break; if (m_posHorz < 0 && maxcol > 0 && READ_ONLY_UNLOCKED()) { l_posHorz = 0; break; } if (!menuTab || l_posVert>0) { if (READ_ONLY_UNLOCKED()) { s_editMode = (s_editMode<=0); } } break; #if defined(ROTARY_ENCODER_NAVIGATION) case EVT_ROTARY_LONG: if (s_editMode > 1) break; killEvents(event); if (l_posVert != POS_VERT_INIT) { l_posVert = POS_VERT_INIT; s_editMode = EDIT_MODE_INIT; break; } // no break #endif case EVT_KEY_LONG(KEY_EXIT): s_editMode = 0; // TODO needed? we call ENTRY_UP after which does the same popMenu(); return false; case EVT_KEY_BREAK(KEY_EXIT): #if defined(ROTARY_ENCODER_NAVIGATION) if (s_editMode == 0) s_editMode = EDIT_MODE_INIT; else #endif if (s_editMode>0) { s_editMode = 0; break; } if (l_posHorz >= 0 && (COLATTR(l_posVert) & NAVIGATION_LINE_BY_LINE)) { l_posHorz = -1; } else { uint8_t posVertInit = POS_VERT_INIT; if (s_pgOfs != 0 || l_posVert != posVertInit) { s_pgOfs = 0; l_posVert = posVertInit; l_posHorz = POS_HORZ_INIT(l_posVert); } else { popMenu(); return false; } } break; CASE_EVT_ROTARY_MOVE_RIGHT if (s_editMode != 0) break; if ((COLATTR(l_posVert) & NAVIGATION_LINE_BY_LINE)) { if (l_posHorz >= 0) { INC(l_posHorz, 0, maxcol); break; } } else { if (l_posHorz < maxcol) { l_posHorz++; break; } else { l_posHorz = 0; if (!IS_ROTARY_MOVE_RIGHT(event)) break; } } do { INC(l_posVert, POS_VERT_INIT, maxrow); } while (CURSOR_NOT_ALLOWED_IN_ROW(l_posVert)); s_editMode = 0; // if we go down, we must be in this mode l_posHorz = POS_HORZ_INIT(l_posVert); break; CASE_EVT_ROTARY_MOVE_LEFT if (s_editMode != 0) break; if ((COLATTR(l_posVert) & NAVIGATION_LINE_BY_LINE)) { if (l_posHorz >= 0) { DEC(l_posHorz, 0, maxcol); break; } } else { if (l_posHorz > 0) { l_posHorz--; break; } else if (IS_ROTARY_MOVE_LEFT(event) && s_editMode == 0) { l_posHorz = 0xff; } else { l_posHorz = maxcol; break; } } do { DEC(l_posVert, POS_VERT_INIT, maxrow); } while (CURSOR_NOT_ALLOWED_IN_ROW(l_posVert)); s_editMode = 0; // if we go up, we must be in this mode if ((COLATTR(l_posVert) & NAVIGATION_LINE_BY_LINE)) l_posHorz = -1; else l_posHorz = min((uint8_t)l_posHorz, MAXCOL(l_posVert)); break; } #if defined(CPUARM) if (l_posVert<1) { s_pgOfs=0; } else if (menuTab && horTab) { if (maxrow > LCD_LINES-1) { while (1) { vertpos_t line = s_pgOfs+1; for (int numLines=0; line<=maxrow && numLines<LCD_LINES-1; line++) { if (MAXCOL(line) != HIDDEN_ROW) { numLines++; } } int max = line - s_pgOfs - 1; if (l_posVert > max+s_pgOfs) { s_pgOfs++; } else if (l_posVert < 1+s_pgOfs) { s_pgOfs--; } else { break; } } } } else { uint8_t max = menuTab ? LCD_LINES-1 : LCD_LINES-2; if (l_posVert>max+s_pgOfs) { s_pgOfs = l_posVert-max; } else if (l_posVert<1+s_pgOfs) { s_pgOfs = l_posVert-1; } } #if LCD_W >= 212 if (maxrow > LCD_LINES-1 && scrollbar_X) displayScrollbar(scrollbar_X, FH, LCD_H-FH, s_pgOfs, menuTab ? maxrow : maxrow+1, LCD_LINES-1); #endif #else uint8_t max = menuTab ? LCD_LINES-1 : LCD_LINES-2; if (l_posVert<1) s_pgOfs=0; else if (l_posVert>max+s_pgOfs) s_pgOfs = l_posVert-max; else if (l_posVert<1+s_pgOfs) s_pgOfs = l_posVert-1; #endif m_posVert = l_posVert; m_posHorz = l_posHorz; if (s_pgOfs > 0) { l_posVert--; if (l_posVert == s_pgOfs && CURSOR_NOT_ALLOWED_IN_ROW(l_posVert)) { s_pgOfs = l_posVert-1; } } return true; }
const char * displayMenu(uint8_t event) { const char * result = NULL; uint8_t display_count = min(s_menu_count, (uint16_t)MENU_MAX_LINES); uint8_t y = (display_count >= 5 ? MENU_Y - FH - 1 : MENU_Y); lcd_filled_rect(MENU_X, y, MENU_W, display_count * (FH+1) + 2, SOLID, ERASE); lcd_rect(MENU_X, y, MENU_W, display_count * (FH+1) + 2); for (uint8_t i=0; i<display_count; i++) { lcd_putsAtt(MENU_X+6, i*(FH+1) + y + 2, s_menu[i], s_menu_flags); if (i == s_menu_item) lcd_filled_rect(MENU_X+1, i*(FH+1) + y + 1, MENU_W-2, 9); } if (s_menu_count > display_count) { displayScrollbar(MENU_X+MENU_W-1, y+1, MENU_MAX_LINES * (FH+1), s_menu_offset, s_menu_count, MENU_MAX_LINES); } switch(event) { #if defined(ROTARY_ENCODER_NAVIGATION) CASE_EVT_ROTARY_LEFT #endif case EVT_KEY_FIRST(KEY_MOVE_UP): case EVT_KEY_REPT(KEY_MOVE_UP): if (s_menu_item > 0) { s_menu_item--; } #if defined(SDCARD) else if (s_menu_offset > 0) { s_menu_offset--; result = STR_UPDATE_LIST; } #endif else { s_menu_item = display_count - 1; #if defined(SDCARD) if (s_menu_count > MENU_MAX_LINES) { s_menu_offset = s_menu_count - display_count; result = STR_UPDATE_LIST; } #endif } break; #if defined(ROTARY_ENCODER_NAVIGATION) CASE_EVT_ROTARY_RIGHT #endif case EVT_KEY_FIRST(KEY_MOVE_DOWN): case EVT_KEY_REPT(KEY_MOVE_DOWN): if (s_menu_item < display_count - 1 && s_menu_offset + s_menu_item + 1 < s_menu_count) { s_menu_item++; } #if defined(SDCARD) else if (s_menu_count > s_menu_offset + display_count) { s_menu_offset++; result = STR_UPDATE_LIST; } #endif else { s_menu_item = 0; #if defined(SDCARD) if (s_menu_offset) { s_menu_offset = 0; result = STR_UPDATE_LIST; } #endif } break; CASE_EVT_ROTARY_BREAK case EVT_KEY_BREAK(KEY_ENTER): result = s_menu[s_menu_item]; // no break #if defined(ROTARY_ENCODER_NAVIGATION) CASE_EVT_ROTARY_LONG killEvents(event); #endif case EVT_KEY_BREAK(KEY_EXIT): s_menu_count = 0; s_menu_item = 0; s_menu_flags = 0; s_menu_offset = 0; break; } return result; }
void display5posSlider(uint8_t x, uint8_t y, uint8_t value, uint8_t attr) { lcd_putc(x+2*FW+(value*FW), y, '$'); lcd_hline(x, y+3, 5*FW-1, SOLID); if (attr && (!(attr & BLINK) || !BLINK_ON_PHASE)) lcd_filled_rect(x, y, 5*FW-1, FH-1); }
void menuGeneralSetup(uint8_t event) { #if defined(RTCLOCK) struct gtm t; gettime(&t); if ((m_posVert==ITEM_SETUP_DATE+1 || m_posVert==ITEM_SETUP_TIME+1) && (s_editMode>0) && (event==EVT_KEY_FIRST(KEY_ENTER) || event==EVT_KEY_FIRST(KEY_EXIT) || IS_ROTARY_BREAK(event) || IS_ROTARY_LONG(event))) { // set the date and time into RTC chip rtcSetTime(&t); } #endif #if defined(FAI_CHOICE) if (s_warning_result) { s_warning_result = 0; g_eeGeneral.fai = true; eeDirty(EE_GENERAL); } #endif MENU(STR_MENURADIOSETUP, menuTabDiag, e_Setup, ITEM_SETUP_MAX+1, {0, IF_RTCLOCK(2) IF_RTCLOCK(2) IF_BATTGRAPH(1) LABEL(SOUND), IF_AUDIO(0) IF_BUZZER(0) IF_VOICE(0) IF_CPUARM(0) IF_CPUARM(0) IF_CPUARM(0) IF_CPUARM(0) 0, IF_AUDIO(0) IF_HAPTIC(LABEL(HAPTIC)) IF_HAPTIC(0) IF_HAPTIC(0) IF_HAPTIC(0) 0, LABEL(ALARMS), 0, IF_PCBSKY9X(0) IF_PCBSKY9X(0) 0, 0, 0, IF_ROTARY_ENCODERS(0) LABEL(BACKLIGHT), 0, 0, IF_CPUARM(0) CASE_PWM_BACKLIGHT(0) CASE_PWM_BACKLIGHT(0) 0, IF_SPLASH(0) IF_GPS(0) IF_GPS(0) IF_PXX(0) IF_CPUARM(0) IF_CPUARM(0) IF_FAI_CHOICE(0) 0, LABEL(TX_MODE), CASE_PCBTARANIS(0) 1/*to force edit mode*/}); uint8_t sub = m_posVert - 1; for (uint8_t i=0; i<LCD_LINES-1; i++) { uint8_t y = 1 + 1*FH + i*FH; uint8_t k = i+s_pgOfs; uint8_t blink = ((s_editMode>0) ? BLINK|INVERS : INVERS); uint8_t attr = (sub == k ? blink : 0); switch(k) { #if defined(RTCLOCK) case ITEM_SETUP_DATE: lcd_putsLeft(y, STR_DATE); lcd_putc(RADIO_SETUP_DATE_COLUMN, y, '-'); lcd_putc(RADIO_SETUP_DATE_COLUMN+3*FW-1, y, '-'); for (uint8_t j=0; j<3; j++) { uint8_t rowattr = (m_posHorz==j ? attr : 0); switch (j) { case 0: lcd_outdezAtt(RADIO_SETUP_DATE_COLUMN, y, t.tm_year+1900, rowattr); if (rowattr && (s_editMode>0 || p1valdiff)) t.tm_year = checkIncDec(event, t.tm_year, 112, 200, 0); break; case 1: lcd_outdezNAtt(RADIO_SETUP_DATE_COLUMN+3*FW-1, y, t.tm_mon+1, rowattr|LEADING0, 2); if (rowattr && (s_editMode>0 || p1valdiff)) t.tm_mon = checkIncDec(event, t.tm_mon, 0, 11, 0); break; case 2: { int16_t year = 1900 + t.tm_year; int8_t dlim = (((((year%4==0) && (year%100!=0)) || (year%400==0)) && (t.tm_mon==1)) ? 1 : 0); static const pm_uint8_t dmon[] PROGMEM = { 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 }; dlim += pgm_read_byte(&dmon[t.tm_mon]); lcd_outdezNAtt(RADIO_SETUP_DATE_COLUMN+6*FW-2, y, t.tm_mday, rowattr|LEADING0, 2); if (rowattr && (s_editMode>0 || p1valdiff)) t.tm_mday = checkIncDec(event, t.tm_mday, 1, dlim, 0); break; } } } #if defined(PCBTARANIS) if (attr && m_posHorz < 0) lcd_filled_rect(RADIO_SETUP_2ND_COLUMN, y, LCD_W-RADIO_SETUP_2ND_COLUMN-MENUS_SCROLLBAR_WIDTH, 8); #endif if (attr && checkIncDec_Ret) g_rtcTime = gmktime(&t); // update local timestamp and get wday calculated break; case ITEM_SETUP_TIME: lcd_putsLeft(y, STR_TIME); lcd_putc(RADIO_SETUP_TIME_COLUMN-1, y, ':'); lcd_putc(RADIO_SETUP_TIME_COLUMN+3*FW-4, y, ':'); for (uint8_t j=0; j<3; j++) { uint8_t rowattr = (m_posHorz==j ? attr : 0); switch (j) { case 0: lcd_outdezNAtt(RADIO_SETUP_TIME_COLUMN, y, t.tm_hour, rowattr|LEADING0, 2); if (rowattr && (s_editMode>0 || p1valdiff)) t.tm_hour = checkIncDec(event, t.tm_hour, 0, 23, 0); break; case 1: lcd_outdezNAtt(RADIO_SETUP_TIME_COLUMN+3*FWNUM, y, t.tm_min, rowattr|LEADING0, 2); if (rowattr && (s_editMode>0 || p1valdiff)) t.tm_min = checkIncDec(event, t.tm_min, 0, 59, 0); break; case 2: lcd_outdezNAtt(RADIO_SETUP_TIME_COLUMN+6*FWNUM, y, t.tm_sec, rowattr|LEADING0, 2); if (rowattr && (s_editMode>0 || p1valdiff)) t.tm_sec = checkIncDec(event, t.tm_sec, 0, 59, 0); break; } } #if defined(PCBTARANIS) if (attr && m_posHorz < 0) lcd_filled_rect(RADIO_SETUP_2ND_COLUMN, y, LCD_W-RADIO_SETUP_2ND_COLUMN-MENUS_SCROLLBAR_WIDTH, 8); #endif if (attr && checkIncDec_Ret) g_rtcTime = gmktime(&t); // update local timestamp and get wday calculated break; #endif #if defined(BATTGRAPH) || defined(PCBTARANIS) case ITEM_SETUP_BATT_RANGE: lcd_putsLeft(y, STR_BATTERY_RANGE); lcd_putc(g_eeGeneral.vBatMin >= 10 ? RADIO_SETUP_2ND_COLUMN+2*FW+FWNUM-1 : RADIO_SETUP_2ND_COLUMN+2*FW+FWNUM-FW/2, y, '-'); putsVolts(RADIO_SETUP_2ND_COLUMN, y, 90+g_eeGeneral.vBatMin, (m_posHorz==0 ? attr : 0)|LEFT|NO_UNIT); putsVolts(RADIO_SETUP_2ND_COLUMN+4*FW-2, y, 120+g_eeGeneral.vBatMax, (m_posHorz>0 ? attr : 0)|LEFT|NO_UNIT); #if defined(PCBTARANIS) if (attr && m_posHorz < 0) lcd_filled_rect(RADIO_SETUP_2ND_COLUMN, y, LCD_W-RADIO_SETUP_2ND_COLUMN-MENUS_SCROLLBAR_WIDTH, 8); #endif if (attr && s_editMode>0) { if (m_posHorz==0) CHECK_INCDEC_GENVAR(event, g_eeGeneral.vBatMin, -50, g_eeGeneral.vBatMax+29); // min=4.0V else CHECK_INCDEC_GENVAR(event, g_eeGeneral.vBatMax, g_eeGeneral.vBatMin-29, +40); // max=16.0V } break; #endif case ITEM_SETUP_SOUND_LABEL: lcd_putsLeft(y, STR_SOUND_LABEL); break; #if defined(AUDIO) case ITEM_SETUP_BEEP_MODE: g_eeGeneral.beepMode = selectMenuItem(RADIO_SETUP_2ND_COLUMN, y, STR_SPEAKER, STR_VBEEPMODE, g_eeGeneral.beepMode, -2, 1, attr, event); #if defined(FRSKY) if (attr && checkIncDec_Ret) frskySendAlarms(); #endif break; #if defined(BUZZER) case ITEM_SETUP_BUZZER_MODE: g_eeGeneral.buzzerMode = selectMenuItem(RADIO_SETUP_2ND_COLUMN, y, STR_BUZZER, STR_VBEEPMODE, g_eeGeneral.buzzerMode, -2, 1, attr, event); #if defined(FRSKY) if (attr && checkIncDec_Ret) frskySendAlarms(); #endif break; #endif #else case ITEM_SETUP_BUZZER_MODE: g_eeGeneral.beepMode = selectMenuItem(RADIO_SETUP_2ND_COLUMN, y, STR_SPEAKER, STR_VBEEPMODE, g_eeGeneral.beepMode, -2, 1, attr, event); #if defined(FRSKY) if (attr && checkIncDec_Ret) frskySendAlarms(); #endif break; #endif #if defined(VOICE) case ITEM_SETUP_SPEAKER_VOLUME: { lcd_putsLeft(y, STR_SPEAKER_VOLUME); uint8_t b = g_eeGeneral.speakerVolume+VOLUME_LEVEL_DEF; displaySlider(RADIO_SETUP_2ND_COLUMN, y, b, VOLUME_LEVEL_MAX, attr); if (attr) { CHECK_INCDEC_GENVAR(event, b, 0, VOLUME_LEVEL_MAX); if (checkIncDec_Ret) { g_eeGeneral.speakerVolume = (int8_t)b-VOLUME_LEVEL_DEF; #if !defined(CPUARM) setVolume(b); #endif } } break; } #endif #if defined(CPUARM) case ITEM_SETUP_BEEP_VOLUME: SLIDER_5POS(y, g_eeGeneral.beepVolume, STR_BEEP_VOLUME, event, attr); break; case ITEM_SETUP_WAV_VOLUME: SLIDER_5POS(y, g_eeGeneral.wavVolume, STR_WAV_VOLUME, event, attr); break; case ITEM_SETUP_VARIO_VOLUME: SLIDER_5POS(y, g_eeGeneral.varioVolume, STR_VARIO_VOLUME, event, attr); break; case ITEM_SETUP_BACKGROUND_VOLUME: SLIDER_5POS(y, g_eeGeneral.backgroundVolume, STR_BG_VOLUME, event, attr); break; #endif case ITEM_SETUP_BEEP_LENGTH: SLIDER_5POS(y, g_eeGeneral.beepLength, STR_LENGTH, event, attr); break; #if defined(AUDIO) case ITEM_SETUP_SPEAKER_PITCH: lcd_putsLeft( y, STR_SPKRPITCH); lcd_outdezAtt(RADIO_SETUP_2ND_COLUMN, y, g_eeGeneral.speakerPitch, attr|LEFT); if (attr) { CHECK_INCDEC_GENVAR(event, g_eeGeneral.speakerPitch, 0, 20); } break; #endif #if defined(HAPTIC) case ITEM_SETUP_HAPTIC_LABEL: lcd_putsLeft(y, STR_HAPTIC_LABEL); break; case ITEM_SETUP_HAPTIC_MODE: g_eeGeneral.hapticMode = selectMenuItem(RADIO_SETUP_2ND_COLUMN, y, STR_MODE, STR_VBEEPMODE, g_eeGeneral.hapticMode, -2, 1, attr, event); break; case ITEM_SETUP_HAPTIC_LENGTH: SLIDER_5POS(y, g_eeGeneral.hapticLength, STR_LENGTH, event, attr); break; case ITEM_SETUP_HAPTIC_STRENGTH: lcd_putsLeft( y, STR_HAPTICSTRENGTH); lcd_outdezAtt(RADIO_SETUP_2ND_COLUMN, y, g_eeGeneral.hapticStrength, attr|LEFT); if (attr) { CHECK_INCDEC_GENVAR(event, g_eeGeneral.hapticStrength, 0, 5); } break; #endif case ITEM_SETUP_CONTRAST: lcd_putsLeft(y, STR_CONTRAST); lcd_outdezAtt(RADIO_SETUP_2ND_COLUMN, y, g_eeGeneral.contrast, attr|LEFT); if(attr) { #if defined(PCBTARANIS) CHECK_INCDEC_GENVAR(event, g_eeGeneral.contrast, 0, 45); #else CHECK_INCDEC_GENVAR(event, g_eeGeneral.contrast, 10, 45); #endif lcdSetContrast(); } break; case ITEM_SETUP_ALARMS_LABEL: lcd_putsLeft(y, STR_ALARMS_LABEL); break; case ITEM_SETUP_BATTERY_WARNING: lcd_putsLeft(y, STR_BATTERYWARNING); putsVolts(RADIO_SETUP_2ND_COLUMN, y, g_eeGeneral.vBatWarn, attr|LEFT); if(attr) CHECK_INCDEC_GENVAR(event, g_eeGeneral.vBatWarn, 40, 120); //4-12V break; case ITEM_SETUP_MEMORY_WARNING: { uint8_t b = 1-g_eeGeneral.disableMemoryWarning; g_eeGeneral.disableMemoryWarning = 1 - onoffMenuItem(b, RADIO_SETUP_2ND_COLUMN, y, STR_MEMORYWARNING, attr, event); break; } case ITEM_SETUP_ALARM_WARNING: { uint8_t b = 1-g_eeGeneral.disableAlarmWarning; g_eeGeneral.disableAlarmWarning = 1 - onoffMenuItem(b, RADIO_SETUP_2ND_COLUMN, y, STR_ALARMWARNING, attr, event); break; } #if defined(PCBSKY9X) case ITEM_SETUP_CAPACITY_WARNING: lcd_putsLeft(y, STR_CAPAWARNING); putsTelemetryValue(RADIO_SETUP_2ND_COLUMN, y, g_eeGeneral.mAhWarn*50, UNIT_MAH, attr|LEFT) ; if(attr) CHECK_INCDEC_GENVAR(event, g_eeGeneral.mAhWarn, 0, 100); break; #endif #if defined(PCBSKY9X) case ITEM_SETUP_TEMPERATURE_WARNING: lcd_putsLeft(y, STR_TEMPWARNING); putsTelemetryValue(RADIO_SETUP_2ND_COLUMN, y, g_eeGeneral.temperatureWarn, UNIT_DEGREES, attr|LEFT) ; if(attr) CHECK_INCDEC_GENVAR(event, g_eeGeneral.temperatureWarn, 0, 120); // 0 means no alarm break; #endif case ITEM_SETUP_INACTIVITY_ALARM: lcd_putsLeft( y,STR_INACTIVITYALARM); lcd_outdezAtt(RADIO_SETUP_2ND_COLUMN, y, g_eeGeneral.inactivityTimer, attr|LEFT); lcd_putc(lcdLastPos, y, 'm'); if(attr) g_eeGeneral.inactivityTimer = checkIncDec(event, g_eeGeneral.inactivityTimer, 0, 250, EE_GENERAL); //0..250minutes break; #if ROTARY_ENCODERS > 0 case ITEM_SETUP_RE_NAVIGATION: g_eeGeneral.reNavigation = selectMenuItem(RADIO_SETUP_2ND_COLUMN, y, STR_RENAVIG, STR_VRENAVIG, g_eeGeneral.reNavigation, 0, NUM_ROTARY_ENCODERS, attr, event); if (attr && checkIncDec_Ret) { g_rotenc[NAVIGATION_RE_IDX()] = 0; } break; #endif case ITEM_SETUP_BACKLIGHT_LABEL: lcd_putsLeft(y, STR_BACKLIGHT_LABEL); break; case ITEM_SETUP_BACKLIGHT_MODE: g_eeGeneral.backlightMode = selectMenuItem(RADIO_SETUP_2ND_COLUMN, y, STR_MODE, STR_VBLMODE, g_eeGeneral.backlightMode, e_backlight_mode_off, e_backlight_mode_on, attr, event); break; case ITEM_SETUP_FLASH_BEEP: g_eeGeneral.alarmsFlash = onoffMenuItem(g_eeGeneral.alarmsFlash, RADIO_SETUP_2ND_COLUMN, y, STR_ALARM, attr, event ) ; break; case ITEM_SETUP_BACKLIGHT_DELAY: lcd_putsLeft(y, STR_BLDELAY); lcd_outdezAtt(RADIO_SETUP_2ND_COLUMN, y, g_eeGeneral.lightAutoOff*5, attr|LEFT); lcd_putc(lcdLastPos, y, 's'); if (attr) CHECK_INCDEC_GENVAR(event, g_eeGeneral.lightAutoOff, 0, 600/5); break; #if defined(CPUARM) case ITEM_SETUP_BRIGHTNESS: lcd_putsLeft(y, STR_BRIGHTNESS); lcd_outdezAtt(RADIO_SETUP_2ND_COLUMN, y, 100-g_eeGeneral.backlightBright, attr|LEFT) ; if(attr) { uint8_t b = 100 - g_eeGeneral.backlightBright; CHECK_INCDEC_GENVAR(event, b, 0, 100); g_eeGeneral.backlightBright = 100 - b; } break; #endif #if defined(PWM_BACKLIGHT) case ITEM_SETUP_BACKLIGHT_BRIGHTNESS_OFF: lcd_putsLeft(y, STR_BLOFFBRIGHTNESS); lcd_outdezAtt(RADIO_SETUP_2ND_COLUMN, y, g_eeGeneral.blOffBright, attr|LEFT); if (attr) CHECK_INCDEC_GENVAR(event, g_eeGeneral.blOffBright, 0, 15); break; case ITEM_SETUP_BACKLIGHT_BRIGHTNESS_ON: lcd_putsLeft(y, STR_BLONBRIGHTNESS); lcd_outdezAtt(RADIO_SETUP_2ND_COLUMN, y, 15-g_eeGeneral.blOnBright, attr|LEFT); if (attr) g_eeGeneral.blOnBright = 15 - checkIncDecGen(event, 15-g_eeGeneral.blOnBright, 0, 15); break; #endif #if defined(SPLASH) && !defined(FSPLASH) case ITEM_SETUP_DISABLE_SPLASH: { uint8_t b = 1-g_eeGeneral.splashMode; g_eeGeneral.splashMode = 1 - onoffMenuItem(b, RADIO_SETUP_2ND_COLUMN, y, STR_SPLASHSCREEN, attr, event); break; } #endif #if defined(FRSKY) && defined(FRSKY_HUB) && defined(GPS) case ITEM_SETUP_TIMEZONE: lcd_putsLeft(y, STR_TIMEZONE); lcd_outdezAtt(RADIO_SETUP_2ND_COLUMN, y, g_eeGeneral.timezone, attr|LEFT); if (attr) CHECK_INCDEC_GENVAR(event, g_eeGeneral.timezone, -12, 12); break; case ITEM_SETUP_GPSFORMAT: g_eeGeneral.gpsFormat = selectMenuItem(RADIO_SETUP_2ND_COLUMN, y, STR_GPSCOORD, STR_GPSFORMAT, g_eeGeneral.gpsFormat, 0, 1, attr, event); break; #endif #if defined(PXX) case ITEM_SETUP_COUNTRYCODE: g_eeGeneral.countryCode = selectMenuItem(RADIO_SETUP_2ND_COLUMN, y, STR_COUNTRYCODE, STR_COUNTRYCODES, g_eeGeneral.countryCode, 0, 2, attr, event); break; #endif #if defined(CPUARM) case ITEM_SETUP_LANGUAGE: lcd_putsLeft(y, STR_VOICELANG); lcd_putsAtt(RADIO_SETUP_2ND_COLUMN, y, currentLanguagePack->name, attr); if (attr) { currentLanguagePackIdx = checkIncDec(event, currentLanguagePackIdx, 0, DIM(languagePacks)-2, EE_GENERAL); if (checkIncDec_Ret) { currentLanguagePack = languagePacks[currentLanguagePackIdx]; strncpy(g_eeGeneral.ttsLanguage, currentLanguagePack->id, 2); } } break; case ITEM_SETUP_IMPERIAL: g_eeGeneral.imperial = selectMenuItem(RADIO_SETUP_2ND_COLUMN, y, STR_UNITSSYSTEM, STR_VUNITSSYSTEM, g_eeGeneral.imperial, 0, 1, attr, event); break; #endif #if defined(FAI_CHOICE) case ITEM_SETUP_FAI: onoffMenuItem(g_eeGeneral.fai, RADIO_SETUP_2ND_COLUMN, y, PSTR("FAI Mode"), attr, event); if (attr && checkIncDec_Ret) { if (g_eeGeneral.fai) POPUP_WARNING(PSTR("FAI\001mode blocked!")); else POPUP_CONFIRMATION(PSTR("FAI mode?")); } break; #endif #if defined(MAVLINK) case ITEM_MAVLINK_BAUD: g_eeGeneral.mavbaud = selectMenuItem(RADIO_SETUP_2ND_COLUMN, //Y y, // Y STR_MAVLINK_BAUD_LABEL, // pm_char *label STR_MAVLINK_BAUDS, // pm_char *values // PSTR("4800""9600""14400""19200""38400""57600""76800""115200"), g_eeGeneral.mavbaud, // value 0, // min 7, // max attr, // attr event); // event break; #endif case ITEM_SETUP_RX_CHANNEL_ORD: lcd_putsLeft(y, STR_RXCHANNELORD); // RAET->AETR for (uint8_t i=1; i<=4; i++) putsChnLetter(RADIO_SETUP_2ND_COLUMN - FW + i*FW, y, channel_order(i), attr); if (attr) CHECK_INCDEC_GENVAR(event, g_eeGeneral.templateSetup, 0, 23); break; case ITEM_SETUP_STICK_MODE_LABELS: lcd_putsLeft(y, NO_INDENT(STR_MODE)); for (uint8_t i=0; i<4; i++) lcd_img((6+4*i)*FW, y, sticks, i, 0); break; case ITEM_SETUP_STICK_MODE: lcd_putcAtt(2*FW, y, '1'+g_eeGeneral.stickMode, attr); for (uint8_t i=0; i<4; i++) putsMixerSource((6+4*i)*FW, y, pgm_read_byte(modn12x3 + 4*g_eeGeneral.stickMode + i), 0); if (attr && s_editMode>0) { CHECK_INCDEC_GENVAR(event, g_eeGeneral.stickMode, 0, 3); } else if (stickMode != g_eeGeneral.stickMode) { pausePulses(); stickMode = g_eeGeneral.stickMode; checkTHR(); resumePulses(); clearKeyEvents(); } #if defined(ROTARY_ENCODER_NAVIGATION) MOVE_CURSOR_FROM_HERE(); #endif break; } } }
void displaySlider(uint8_t x, uint8_t y, uint8_t value, uint8_t max, uint8_t attr) { lcd_putc(RADIO_SETUP_2ND_COLUMN+(value*4*FW)/max, y, '$'); lcd_hline(RADIO_SETUP_2ND_COLUMN, y+3, 5*FW-1, SOLID); if (attr && (!(attr & BLINK) || !BLINK_ON_PHASE)) lcd_filled_rect(RADIO_SETUP_2ND_COLUMN, y, 5*FW-1, FH-1); }