/* * This file is part of the "bluetoothheater" distribution * (https://gitlab.com/mrjones.id.au/bluetoothheater) * * Copyright (C) 2019 Ray Jones * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . * */ #include "128x64OLED.h" #include "TempSensorScreen.h" #include "KeyPad.h" #include "fonts/Icons.h" #include "fonts/MiniFont.h" #include "../Utility/TempSense.h" CTempSensorScreen::CTempSensorScreen(C128x64_OLED& display, CScreenManager& mgr) : CPasswordScreen(display, mgr) { _bHasBME280 = false; _nDS18B20 = 0; _bPrimary = false; _Offset = 0; _initUI(); } void CTempSensorScreen::onSelect() { CPasswordScreen::onSelect(); _initUI(); _bHasBME280 = getTempSensor().getBME280().getCount() != 0; _nDS18B20 = getTempSensor().getDS18B20().getNumSensors(); _bPrimary = NVstore.getHeaterTuning().BME280probe.bPrimary; _readNV(); } void CTempSensorScreen::_initUI() { CPasswordScreen::_initUI(); _keyHold = -1; _scrollChar = 0; } bool CTempSensorScreen::show() { char msg[32]; _display.clearDisplay(); if(!CPasswordScreen::show()) { // for showing "saving settings" if(_colSel == 0) _showTitle("Temp Sensor Role"); else _showTitle("Temp Sensor Offset"); // force BME280 as primary if the only sensor if(!_nDS18B20 && _bHasBME280) _bPrimary = true; strcpy(msg, "Nul"); if(_bHasBME280) { if(!_bPrimary && _nDS18B20) { strcpy(msg, "Lst"); } else { strcpy(msg, "Pri"); } } int baseLine = 36; _printMenuText(border, baseLine, msg, _rowSel == 1 && _colSel == 0); _printMenuText(27, baseLine, "BME280"); if(_colSel == 0) { float temperature; getTempSensor().getBME280().getTemperature(temperature, false); sprintf(msg, "%.01f`C", temperature + _Offset); } else { sprintf(msg, "%+.01f", _Offset); } _printMenuText(90, baseLine, msg, _rowSel == 1 && _colSel == 1); if(_nDS18B20) { if(_bPrimary) { strcpy(msg, "Nxt"); // BME280 is primary } else { strcpy(msg, "Pri"); // DS18B20(s) are primary } int baseLine = 24; _printMenuText(border, baseLine, msg, _rowSel == 2 && _colSel == 0); _printMenuText(27, baseLine, "DS18B20"); if(_nDS18B20 == 1) { sprintf(msg, "%+.01f", _OffsetDS18B20); _printMenuText(90, baseLine, msg, _rowSel == 2 && _colSel == 1); } } } return true; } bool CTempSensorScreen::animate() { if(_saveBusy() || isPasswordBusy()) { return false; } const char* pMsg = NULL; switch(_rowSel) { case 0: _printMenuText(_display.xCentre(), 53, " \021 \030Edit Exit \020 ", true, eCentreJustify); break; case 1: if(_colSel == 0) pMsg = " Hold Right to adjust probe offset. "; else pMsg = " Hold Left to select probe's priority. "; break; case 2: if(_nDS18B20 > 1) pMsg = " Press UP to adjust DS18B20 priorities. "; else if(_nDS18B20 == 1) { if(_colSel == 0) pMsg = " Hold Right to adjust probe offset. "; else pMsg = " Hold Left to select probe's priority. "; } break; case 3: break; } if(pMsg != NULL) { _display.drawFastHLine(0, 52, 128, WHITE); _scrollMessage(56, pMsg, _scrollChar); } return true; } bool CTempSensorScreen::keyHandler(uint8_t event) { if(CPasswordScreen::keyHandler(event)) { // manage password collection and NV save confirm if(_isPasswordOK()) { _rowSel = 1; _keyHold = -1; } return true; } if(CUIEditScreen::keyHandler(event)) { return true; } sUserSettings us; if(event & keyPressed) { _keyHold = 0; // DOWN press if(event & key_Down) { _rowSel--; LOWERLIMIT(_rowSel, 0); } } if(event & keyRepeat) { if(_keyHold >= 0) { _keyHold++; if(_keyHold == 2) { if(event & key_Up) { } if(event & key_Left) { _colSel = 0; _scrollChar = 0; } if(event & key_Right) { if(_nDS18B20 == 1 || _rowSel == 1) _colSel = 1; _scrollChar = 0; } if(event & key_Centre) { if(_colSel == 1) _Offset = 0; } _keyHold = -1; } } } if(event & keyReleased) { if(_keyHold == 0) { // UP release if(event & key_Up) { if(_rowSel == 1 && _colSel == 1 && _nDS18B20 != 1) _colSel = 0; if(_rowSel == 0) { _getPassword(); if(_isPasswordOK()) { _rowSel = 1; } } else { _rowSel++; if(_rowSel == 3 && _nDS18B20 > 1) _ScreenManager.selectMenu(CScreenManager::BranchMenu, CScreenManager::DS18B20UI); // force return to main menu UPPERLIMIT(_rowSel, _nDS18B20 ? 2 : 1); } } // LEFT release if(event & key_Left) { if(_rowSel == 0) _ScreenManager.prevMenu(); else adjust(-1); } // RIGHT release if(event & key_Right) { if(_rowSel == 0) _ScreenManager.nextMenu(); else adjust(+1); } // CENTRE release if(event & key_Centre) { if(_rowSel == 0) { _ScreenManager.selectMenu(CScreenManager::RootMenuLoop); // force return to main menu } else { _confirmSave(); // enter save confirm mode _rowSel = 0; } } } _keyHold = -1; } _ScreenManager.reqUpdate(); return true; } void CTempSensorScreen::adjust(int dir) { if(_colSel == 0) { _bPrimary = !_bPrimary; } else { switch(_rowSel) { case 1: _Offset += dir * 0.1; BOUNDSLIMIT(_Offset, -10, +10); break; case 2: _OffsetDS18B20 += dir * 0.1; BOUNDSLIMIT(_OffsetDS18B20, -10, +10); break; } } } void CTempSensorScreen::_readNV() { const sHeaterTuning& tuning = NVstore.getHeaterTuning(); _bPrimary = tuning.BME280probe.bPrimary; _Offset = tuning.BME280probe.offset; _OffsetDS18B20 = tuning.DS18B20probe[0].offset; } void CTempSensorScreen::_saveNV() { sHeaterTuning tuning = NVstore.getHeaterTuning(); tuning.BME280probe.bPrimary = _bPrimary; tuning.BME280probe.offset = _Offset; tuning.DS18B20probe[0].offset = _OffsetDS18B20; NVstore.setHeaterTuning(tuning); NVstore.save(); }