Exemplo n.º 1
0
bool isInputSourceAvailable(int source)
{
  if (source>=MIXSRC_FIRST_POT && source<=MIXSRC_LAST_POT) {
    return IS_POT_AVAILABLE(POT1+source-MIXSRC_FIRST_POT);
  }

  if (source>=MIXSRC_Rud && source<=MIXSRC_MAX)
    return true;

  if (source>=MIXSRC_FIRST_TRIM && source<=MIXSRC_LAST_TRIM)
    return true;

  if (source>=MIXSRC_FIRST_SWITCH && source<=MIXSRC_LAST_SWITCH)
     return SWITCH_EXISTS(source-MIXSRC_FIRST_SWITCH);
  
  if (source>=MIXSRC_FIRST_CH && source<=MIXSRC_LAST_CH)
    return true;
    
  if (source>=MIXSRC_FIRST_LOGICAL_SWITCH && source<=MIXSRC_LAST_LOGICAL_SWITCH) {
    LogicalSwitchData * cs = lswAddress(source-MIXSRC_SW1);
    return (cs->func != LS_FUNC_NONE);
  }

  if (source>=MIXSRC_FIRST_TRAINER && source<=MIXSRC_LAST_TRAINER)
    return true;

  if (source>=MIXSRC_FIRST_TELEM && source<=MIXSRC_LAST_TELEM) {
    div_t qr = div(source-MIXSRC_FIRST_TELEM, 3);
    return isTelemetryFieldAvailable(qr.quot) && isTelemetryFieldComparisonAvailable(qr.quot);
  }

  return false;
}
Exemplo n.º 2
0
void setLogicalSwitch(uint8_t idx, uint8_t func, int8_t v1, int8_t v2)
{
  LogicalSwitchData *cs = lswAddress(idx-1);
  cs->func = func;
  cs->v1   = v1;
  cs->v2   = v2;
}
Exemplo n.º 3
0
bool isSourceAvailable(int source)
{
#if defined(PCBTARANIS)
    if (source>=MIXSRC_FIRST_INPUT && source<=MIXSRC_LAST_INPUT) {
        return isInputAvailable(source - MIXSRC_FIRST_INPUT);
    }
#endif

#if defined(LUA_MODEL_SCRIPTS)
    if (source>=MIXSRC_FIRST_LUA && source<=MIXSRC_LAST_LUA) {
        div_t qr = div(source-MIXSRC_FIRST_LUA, MAX_SCRIPT_OUTPUTS);
        return (qr.rem<scriptInputsOutputs[qr.quot].outputsCount);
    }
#elif defined(PCBTARANIS)
    if (source>=MIXSRC_FIRST_LUA && source<=MIXSRC_LAST_LUA)
        return false;
#endif

#if defined(PCBTARANIS)
    if (source>=MIXSRC_FIRST_POT && source<=MIXSRC_LAST_POT) {
        return IS_POT_AVAILABLE(POT1+source-MIXSRC_FIRST_POT);
    }
#endif

#if !defined(HELI)
    if (source>=MIXSRC_CYC1 && source<=MIXSRC_CYC3)
        return false;
#endif

    if (source>=MIXSRC_CH1 && source<=MIXSRC_LAST_CH) {
        uint8_t destCh = source-MIXSRC_CH1;
        for (uint8_t i = 0; i < MAX_MIXERS; i++) {
            MixData *md = mixAddress(i);
            if (md->srcRaw == 0) return false;
            if (md->destCh==destCh) return true;
        }
        return false;
    }

    if (source>=MIXSRC_SW1 && source<=MIXSRC_LAST_LOGICAL_SWITCH) {
        LogicalSwitchData * cs = lswAddress(source-MIXSRC_SW1);
        return (cs->func != LS_FUNC_NONE);
    }

#if !defined(GVARS)
    if (source>=MIXSRC_GVAR1 && source<=MIXSRC_LAST_GVAR)
        return false;
#endif

    if (source>=MIXSRC_FIRST_TELEM && source<=MIXSRC_LAST_TELEM)
        return isTelemetrySourceAvailable(source-MIXSRC_FIRST_TELEM+1);

    return true;
}
Exemplo n.º 4
0
bool isSwitchAvailable(int swtch, SwitchContext context)
{
  if (swtch < 0) {
#if defined(PCBTARANIS)
    if (swtch == -SWSRC_SF0 || swtch == -SWSRC_SF2 || swtch == -SWSRC_SH0 || swtch == -SWSRC_SH2)
      return false;
#endif
    if (swtch == -SWSRC_ON || swtch == -SWSRC_One) {
      return false;
    }
    swtch = -swtch;
  }

#if defined(PCBTARANIS)
  if (swtch >= SWSRC_FIRST_MULTIPOS_SWITCH && swtch <= SWSRC_LAST_MULTIPOS_SWITCH) {
    int index = (swtch - SWSRC_FIRST_MULTIPOS_SWITCH) / XPOTS_MULTIPOS_COUNT;
    if (IS_POT_MULTIPOS(POT1+index)) {
      StepsCalibData * calib = (StepsCalibData *) &g_eeGeneral.calib[POT1+index];
      return (calib->count >= ((swtch - SWSRC_FIRST_MULTIPOS_SWITCH) % XPOTS_MULTIPOS_COUNT));
    }
    else {
      return false;
    }
  }
#endif

  if (context != LogicalSwitchesContext && swtch >= SWSRC_FIRST_LOGICAL_SWITCH && swtch <= SWSRC_LAST_LOGICAL_SWITCH) {
    LogicalSwitchData * cs = lswAddress(swtch-SWSRC_FIRST_LOGICAL_SWITCH);
    return (cs->func != LS_FUNC_NONE);
  }

  if (context != CustomFunctionsContext && (swtch == SWSRC_ON || swtch == SWSRC_One)) {
    return false;
  }

  if (swtch >= SWSRC_FIRST_FLIGHT_MODE && swtch <= SWSRC_LAST_FLIGHT_MODE) {
    if (context == MixesContext) {
      return false;
    }
    else {
      swtch -= SWSRC_FIRST_FLIGHT_MODE;
      if (swtch == 0) {
        return true;
      }
      FlightModeData * fm = flightModeAddress(swtch);
      return (fm->swtch != SWSRC_NONE);
    }
  }
  
  return true;
}
Exemplo n.º 5
0
bool isSwitchAvailable(int swtch)
{
    if (!isSwitchAvailableInLogicalSwitches(swtch)) {
        return false;
    }

    if (swtch < 0) {
        swtch = -swtch;
    }

    if (swtch >= SWSRC_FIRST_LOGICAL_SWITCH && swtch <= SWSRC_LAST_LOGICAL_SWITCH) {
        LogicalSwitchData * cs = lswAddress(swtch-SWSRC_FIRST_LOGICAL_SWITCH);
        return (cs->func != LS_FUNC_NONE);
    }

    return true;
}
Exemplo n.º 6
0
static int luaModelGetLogicalSwitch(lua_State *L)
{
  unsigned int idx = luaL_checkunsigned(L, 1);
  if (idx < NUM_LOGICAL_SWITCH) {
    LogicalSwitchData * sw = lswAddress(idx);
    lua_newtable(L);
    lua_pushtableinteger(L, "func", sw->func);
    lua_pushtableinteger(L, "v1", sw->v1);
    lua_pushtableinteger(L, "v2", sw->v2);
    lua_pushtableinteger(L, "v3", sw->v3);
    lua_pushtableinteger(L, "and", sw->andsw);
    lua_pushtableinteger(L, "delay", sw->delay);
    lua_pushtableinteger(L, "duration", sw->duration);
  }
  else {
    lua_pushnil(L);
  }
  return 1;
}
Exemplo n.º 7
0
static int luaModelSetLogicalSwitch(lua_State *L)
{
  unsigned int idx = luaL_checkunsigned(L, 1);
  if (idx < NUM_LOGICAL_SWITCH) {
    LogicalSwitchData * sw = lswAddress(idx);
    memclear(sw, sizeof(LogicalSwitchData));
    luaL_checktype(L, -1, LUA_TTABLE);
    for (lua_pushnil(L); lua_next(L, -2); lua_pop(L, 1)) {
      luaL_checktype(L, -2, LUA_TSTRING); // key is string
      const char * key = luaL_checkstring(L, -2);
      if (!strcmp(key, "func")) {
        sw->func = luaL_checkinteger(L, -1);
      }
      else if (!strcmp(key, "v1")) {
        sw->v1 = luaL_checkinteger(L, -1);
      }
      else if (!strcmp(key, "v2")) {
        sw->v2 = luaL_checkinteger(L, -1);
      }
      else if (!strcmp(key, "v3")) {
        sw->v3 = luaL_checkinteger(L, -1);
      }
      else if (!strcmp(key, "and")) {
        sw->andsw = luaL_checkinteger(L, -1);
      }
      else if (!strcmp(key, "delay")) {
        sw->delay = luaL_checkinteger(L, -1);
      }
      else if (!strcmp(key, "duration")) {
        sw->duration = luaL_checkinteger(L, -1);
      }
    }
    eeDirty(EE_MODEL);
  }

  return 0;
}
Exemplo n.º 8
0
bool isLogicalSwitchAvailable(int index)
{
  LogicalSwitchData * lsw = lswAddress(index);
  return (lsw->func != LS_FUNC_NONE);
}
Exemplo n.º 9
0
void menuModelLogicalSwitchOne(uint8_t event)
{
  TITLE(STR_MENULOGICALSWITCH);

  LogicalSwitchData * cs = lswAddress(s_currIdx);
  uint8_t sw = SWSRC_SW1+s_currIdx;
  putsSwitches(14*FW, 0, sw, (getSwitch(sw) ? BOLD : 0));

  SUBMENU_NOTITLE(LS_FIELD_COUNT, {0, 0, 1, 0 /*, 0...*/});

  int8_t sub = m_posVert;

  INCDEC_DECLARE_VARS(EE_MODEL);

  int v1_val = cs->v1;

  for (uint8_t k=0; k<LCD_LINES-1; k++) {
    coord_t y = MENU_HEADER_HEIGHT + 1 + k*FH;
    uint8_t i = k + s_pgOfs;
    uint8_t attr = (sub==i ? (s_editMode>0 ? BLINK|INVERS : INVERS) : 0);
    uint8_t cstate = lswFamily(cs->func);
    switch(i) {
      case LS_FIELD_FUNCTION:
        lcd_putsLeft(y, STR_FUNC);
        lcd_putsiAtt(CSWONE_2ND_COLUMN, y, STR_VCSWFUNC, cs->func, attr);
        if (attr) {
          cs->func = checkIncDec(event, cs->func, 0, LS_FUNC_MAX, EE_MODEL, isLogicalSwitchFunctionAvailable);
          uint8_t new_cstate = lswFamily(cs->func);
          if (cstate != new_cstate) {
            if (new_cstate == LS_FAMILY_TIMER) {
              cs->v1 = cs->v2 = 0;
            }
            else if (new_cstate == LS_FAMILY_EDGE) {
              cs->v1 = 0; cs->v2 = -129; cs->v3 = 0;
            }
            else {
              cs->v1 = cs->v2 = 0;
            }
          }
        }
        break;
      case LS_FIELD_V1:
      {
        lcd_putsLeft(y, STR_V1);
        int v1_min=0, v1_max=MIXSRC_LAST_TELEM;
        if (cstate == LS_FAMILY_BOOL || cstate == LS_FAMILY_STICKY || cstate == LS_FAMILY_EDGE) {
          putsSwitches(CSWONE_2ND_COLUMN, y, v1_val, attr);
          v1_min = SWSRC_OFF+1; v1_max = SWSRC_ON-1;
        }
        else if (cstate == LS_FAMILY_TIMER) {
          lcd_outdezAtt(CSWONE_2ND_COLUMN, y, v1_val+1, LEFT|attr);
          v1_max = 99;
        }
        else {
          v1_val = (uint8_t)cs->v1;
          putsMixerSource(CSWONE_2ND_COLUMN, y, v1_val, attr);
          INCDEC_SET_FLAG(EE_MODEL | INCDEC_SOURCE);
          INCDEC_ENABLE_CHECK(isSourceAvailable);
        }
        if (attr) {
          cs->v1 = CHECK_INCDEC_PARAM(event, v1_val, v1_min, v1_max);
        }
        break;
      }
      case LS_FIELD_V2:
      {
        lcd_putsLeft(y, STR_V2);
        int v2_min=0, v2_max=MIXSRC_LAST_TELEM;
        if (cstate == LS_FAMILY_BOOL || cstate == LS_FAMILY_STICKY) {
          putsSwitches(CSWONE_2ND_COLUMN, y, cs->v2, attr);
          v2_min = SWSRC_OFF+1; v2_max = SWSRC_ON-1;
        }
        else if (cstate == LS_FAMILY_TIMER) {
          lcd_outdezAtt(CSWONE_2ND_COLUMN, y, cs->v2+1, LEFT|attr);
          v2_max = 99;
        }
        else if (cstate == LS_FAMILY_EDGE) {
          putsEdgeDelayParam(CSWONE_2ND_COLUMN, y, cs, m_posHorz==0 ? attr : 0, m_posHorz==1 ? attr : 0);
          if (s_editMode <= 0) continue;
          if (attr && m_posHorz==1) {
            CHECK_INCDEC_MODELVAR(event, cs->v3, -1, 222 - cs->v2);
            break;
          }
          v2_min = -129; v2_max = 122;
        }
        else if (cstate == LS_FAMILY_COMP) {
          putsMixerSource(CSWONE_2ND_COLUMN, y, cs->v2, attr);
          INCDEC_SET_FLAG(EE_MODEL | INCDEC_SOURCE);
          INCDEC_ENABLE_CHECK(isSourceAvailable);
        }
        else {
#if defined(FRSKY)
          if (v1_val >= MIXSRC_FIRST_TELEM) {
            putsTelemetryChannelValue(CSWONE_2ND_COLUMN, y, v1_val - MIXSRC_FIRST_TELEM, convertLswTelemValue(cs), attr|LEFT);
            v2_max = maxTelemValue(v1_val - MIXSRC_FIRST_TELEM + 1);
            if (cs->func == LS_FUNC_DIFFEGREATER)
              v2_min = -v2_max;
            else if (cs->func == LS_FUNC_ADIFFEGREATER)
              v2_min = 0;
            else
              v2_min = minTelemValue(v1_val - MIXSRC_FIRST_TELEM + 1);
            INCDEC_SET_FLAG(EE_MODEL | INCDEC_REP10 | NO_INCDEC_MARKS);
            if (cs->v2 < v2_min || cs->v2 > v2_max) {
              cs->v2 = 0;
              eeDirty(EE_MODEL);
            }
          }
          else
#endif
          {
            v2_min = -LIMIT_EXT_PERCENT; v2_max = +LIMIT_EXT_PERCENT;
            lcd_outdezAtt(CSWONE_2ND_COLUMN, y, cs->v2, LEFT|attr);
          }
        }

        if (attr) {
          CHECK_INCDEC_MODELVAR(event, cs->v2, v2_min, v2_max);
        }
        break;
      }
      case LS_FIELD_ANDSW:
        lcd_putsLeft(y, STR_AND_SWITCH);
        putsSwitches(CSWONE_2ND_COLUMN, y, cs->andsw, attr);
        if (attr) CHECK_INCDEC_MODELVAR(event, cs->andsw, -MAX_LS_ANDSW, MAX_LS_ANDSW);
        break;
      case LS_FIELD_DURATION:
        lcd_putsLeft(y, STR_DURATION);
        if (cs->duration > 0)
          lcd_outdezAtt(CSWONE_2ND_COLUMN, y, cs->duration, attr|PREC1|LEFT);
        else
          lcd_putsiAtt(CSWONE_2ND_COLUMN, y, STR_MMMINV, 0, attr);
        if (attr) CHECK_INCDEC_MODELVAR_ZERO(event, cs->duration, MAX_LS_DURATION);
        break;
      case LS_FIELD_DELAY:
        lcd_putsLeft(y, STR_DELAY);
        if (cs->delay > 0)
          lcd_outdezAtt(CSWONE_2ND_COLUMN, y, cs->delay, attr|PREC1|LEFT);
        else
          lcd_putsiAtt(CSWONE_2ND_COLUMN, y, STR_MMMINV, 0, attr);
        if (attr) CHECK_INCDEC_MODELVAR_ZERO(event, cs->delay, MAX_LS_DELAY);
        break;
    }
  }
}
Exemplo n.º 10
0
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
      }
    }
  }
}
Exemplo n.º 11
0
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);
    }
  }
}