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ESP32_ChinaDieselHeater_Con.../src/Afterburner/src/OLED/GPIOScreen.cpp

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/*
* This file is part of the "bluetoothheater" distribution
* (https://gitlab.com/mrjones.id.au/bluetoothheater)
*
* Copyright (C) 2018 Ray Jones <ray@mrjones.id.au>
*
* 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 <https://www.gnu.org/licenses/>.
*
*/
#include "128x64OLED.h"
#include "GPIOScreen.h"
#include "KeyPad.h"
#include "../Utility/NVStorage.h"
#include "../Utility/BTC_GPIO.h"
#include "fonts/Icons.h"
extern CGPIOout GPIOout;
extern CGPIOin GPIOin;
extern CGPIOalg GPIOalg;
///////////////////////////////////////////////////////////////////////////
//
// CGPIOScreen
//
// This screen provides control over GPIO features
//
///////////////////////////////////////////////////////////////////////////
static const int Line3 = 14;
static const int Line2 = 27;
static const int Line1 = 40;
//static const int Column = 58;
static const int Column = 38;
CGPIOScreen::CGPIOScreen(C128x64_OLED& display, CScreenManager& mgr) : CPasswordScreen(display, mgr)
{
_initUI();
_GPIOparams.inMode = GPIOinNone;
_GPIOparams.outMode = GPIOoutNone;
_GPIOparams.algMode = GPIOalgNone;
}
void
CGPIOScreen::onSelect()
{
CPasswordScreen::onSelect();
_initUI();
_GPIOparams = NVstore.getUserSettings().GPIO;
}
void
CGPIOScreen::_initUI()
{
_rowSel = 0;
_animateCount = 0;
}
bool
CGPIOScreen::show()
{
_display.clearDisplay();
if(!CPasswordScreen::show()) { // for showing "saving settings"
if(_rowSel == 4) {
_printInverted(_display.xCentre(), 0, " Saving Settings ", true, eCentreJustify);
_printMenuText(_display.xCentre(), 35, "Press UP to", false, eCentreJustify);
_printMenuText(_display.xCentre(), 43, "confirm save", false, eCentreJustify);
}
else {
_printInverted(_display.xCentre(), 0, " GPIO Settings ", true, eCentreJustify);
_drawBitmap(10, 14, GPIOIconInfo);
{
const char* msgText = NULL;
switch(_GPIOparams.inMode) {
case GPIOinNone: msgText = "Disabled"; break;
case GPIOinOn1Off2: msgText = "1-On 2-Off"; break;
case GPIOinOnHold1: msgText = "1-On 2-\352T"; break;
case GPIOinOn1Off1: msgText = "1-On/Off"; break;
}
if(msgText)
_printMenuText(Column, Line3, msgText, _rowSel == 3);
}
{
const char* msgText = NULL;
switch(_GPIOparams.outMode) {
case GPIOoutNone: msgText = "Disabled"; break;
case GPIOoutStatus: msgText = "1: Status LED"; break;
case GPIOoutUser: msgText = "1&2 User"; break;
}
if(msgText)
_printMenuText(Column, Line2, msgText, _rowSel == 2);
}
{
const char* msgText = NULL;
switch(_GPIOparams.algMode) {
case GPIOalgNone: msgText = "Disabled"; break;
case GPIOalgHeatDemand: msgText = "Ip1 allows"; break;
}
if(msgText)
_printMenuText(Column, Line1, msgText, _rowSel == 1);
}
}
}
return true;
}
bool
CGPIOScreen::animate()
{
CPasswordScreen::animate();
if(_rowSel != 4) {
int yPos = 53;
int xPos = _display.xCentre();
const char* pMsg = NULL;
switch(_rowSel) {
case 0:
_printMenuText(xPos, yPos, " \021 \030Edit Exit \020 ", true, eCentreJustify);
break;
case 1:
_display.drawFastHLine(0, 52, 128, WHITE);
switch(_GPIOparams.algMode) {
case GPIOalgNone: pMsg = " Analogue input is ignored. "; break;
case GPIOalgHeatDemand: pMsg = " Input 1 enables reading of analogue input to set temperature. "; break;
}
if(pMsg)
_scrollMessage(56, pMsg, _scrollChar);
break;
case 2:
_display.drawFastHLine(0, 52, 128, WHITE);
switch(_GPIOparams.outMode) {
case GPIOoutNone: pMsg = " Digital outputs are disabled. "; break;
case GPIOoutStatus: pMsg = " Output1: LED status indicator. "; break;
case GPIOoutUser: pMsg = " Output 1&2: User controlled. "; break;
}
if(pMsg)
_scrollMessage(56, pMsg, _scrollChar);
break;
case 3:
_display.drawFastHLine(0, 52, 128, WHITE);
switch(_GPIOparams.inMode) {
case GPIOinNone: pMsg = " Digital inputs are disabled. "; break;
case GPIOinOn1Off2: pMsg = " Input 1: Starts upon closure. Input 2: Stops upon closure. "; break;
case GPIOinOnHold1: pMsg = " Input 1: Starts when held closed, stops when opened. Input2: Max fuel when closed, min fuel when open. "; break;
case GPIOinOn1Off1: pMsg = " Input 1: Starts or Stops upon closure. "; break;
}
if(pMsg)
_scrollMessage(56, pMsg, _scrollChar);
break;
}
return true;
}
return false;
}
bool
CGPIOScreen::keyHandler(uint8_t event)
{
sUserSettings us;
if(event & keyPressed) {
// press LEFT to select previous screen
if(event & key_Left) {
switch(_rowSel) {
case 0:
_ScreenManager.prevMenu();
break;
case 1:
case 2:
case 3:
_scrollChar = 0;
_adjust(-1);
break;
case 4:
_rowSel = 0; // abort save
break;
}
}
// press RIGHT to select next screen
if(event & key_Right) {
switch(_rowSel) {
case 0:
_ScreenManager.nextMenu();
break;
case 1:
case 2:
case 3:
_scrollChar = 0;
_adjust(+1);
break;
case 4:
_rowSel = 0; // abort save
break;
}
}
if(event & key_Down) {
_scrollChar = 0;
_rowSel--;
LOWERLIMIT(_rowSel, 0);
}
// UP press
if(event & key_Up) {
switch(_rowSel) {
case 0:
case 1:
case 2:
case 3:
_scrollChar = 0;
_rowSel++;
UPPERLIMIT(_rowSel, 3);
break;
case 4: // confirmed save
_showStoringMessage();
us = NVstore.getUserSettings();
us.GPIO = _GPIOparams;
NVstore.setUserSettings(us);
saveNV();
setupGPIO();
_rowSel = 0;
break;
}
}
// CENTRE press
if(event & key_Centre) {
switch(_rowSel) {
case 0:
_ScreenManager.selectMenu(CScreenManager::RootMenuLoop, CScreenManager::GPIOInfoUI); // force return to main menu GPIO view
break;
case 1:
case 2:
case 3:
_rowSel = 4;
break;
}
}
_ScreenManager.reqUpdate();
}
return true;
}
void
CGPIOScreen::_adjust(int dir)
{
int tVal;
switch(_rowSel) {
case 1: // analogue mode
tVal = _GPIOparams.algMode;
tVal += dir;
WRAPLIMITS(tVal, 0, 1);
_GPIOparams.algMode = (GPIOalgModes)tVal;
break;
case 2: // outputs mode
tVal = _GPIOparams.outMode;
tVal += dir;
WRAPLIMITS(tVal, 0, 2);
_GPIOparams.outMode = (GPIOoutModes)tVal;
break;
case 3:
tVal = _GPIOparams.inMode;
tVal += dir;
WRAPLIMITS(tVal, 0, 3);
_GPIOparams.inMode = (GPIOinModes)tVal;
break;
}
}
CGPIOInfoScreen::CGPIOInfoScreen(C128x64_OLED& display, CScreenManager& mgr) : CScreenHeader(display, mgr)
{
_keyRepeatCount = -1;
}
void
CGPIOInfoScreen::_initUI()
{
}
bool
CGPIOInfoScreen::show()
{
CScreenHeader::show(false);
char msg[16];
_display.writeFillRect(49, 18, 30, 12, WHITE);
_printInverted(64, 20, "GPIO", true, eCentreJustify);
_printMenuText(22, 18, "In", false, eCentreJustify);
_printMenuText(104, 18, "Out", false, eCentreJustify);
_printMenuText(11, 20, "1", false, eCentreJustify);
_printMenuText(34, 20, "2", false, eCentreJustify);
_printMenuText(91, 20, "1", false, eCentreJustify);
_printMenuText(118, 20, "2", false, eCentreJustify);
_printMenuText(55, Line1, "Analogue:", false, eRightJustify);
if(NVstore.getUserSettings().GPIO.inMode == GPIOinNone) {
_drawBitmap(7, 28, CrossLgIconInfo);
_drawBitmap(30, 28, CrossLgIconInfo);
}
else {
_drawBitmap(4, 29, GPIOin.getState(0) ? CloseIconInfo : OpenIconInfo);
if(NVstore.getUserSettings().GPIO.inMode == GPIOinOn1Off1)
_drawBitmap(30, 28, CrossLgIconInfo);
else
_drawBitmap(27, 29, GPIOin.getState(1) ? CloseIconInfo : OpenIconInfo);
}
if(NVstore.getUserSettings().GPIO.outMode == GPIOoutNone) {
_drawBitmap(87, 28, CrossLgIconInfo);
_drawBitmap(114, 28, CrossLgIconInfo);
}
else {
_drawBitmap(86, 29, GPIOout.getState(0) ? BulbOnIconInfo : BulbOffIconInfo);
if(NVstore.getUserSettings().GPIO.outMode == GPIOoutStatus)
_drawBitmap(114, 28, CrossLgIconInfo);
else
_drawBitmap(113, 29, GPIOout.getState(1) ? BulbOnIconInfo : BulbOffIconInfo);
}
if(NVstore.getUserSettings().GPIO.algMode == GPIOalgNone) {
_drawBitmap(58, Line1, CrossLgIconInfo);
}
else {
sprintf(msg, "%d%%", GPIOalg.getValue() * 100 / 4096);
_printMenuText(58, Line1, msg);
}
_printMenuText(_display.xCentre(), 53, " \021 \020 ", true, eCentreJustify);
return true;
}
bool
CGPIOInfoScreen::keyHandler(uint8_t event)
{
if(event & keyPressed) {
_keyRepeatCount = 0; // unlock tracking of repeat events
// UP press
if(event & key_Up) {
}
// CENTRE press
if(event & key_Centre) {
}
if(event & key_Down) {
_ScreenManager.selectMenu(CScreenManager::UserSettingsLoop, CScreenManager::GPIOUI);
}
}
if(event & keyRepeat) {
if(_keyRepeatCount >= 0) {
_keyRepeatCount++;
// hold LEFT to toggle GPIO output #1
if(event & key_Left) {
if(_keyRepeatCount > 2) {
_keyRepeatCount = -1; // prevent double handling
toggleGPIOout(0); // toggle GPIO output #1
}
}
// hold RIGHT to toggle GPIO output #2
if(event & key_Right) {
if(_keyRepeatCount > 2) {
_keyRepeatCount = -1; // prevent double handling
toggleGPIOout(1); // toggle GPIO output #2
}
}
}
}
// release event
if(event & keyReleased) {
if(_keyRepeatCount == 0) { // short Up press - lower target
// press LEFT to select previous screen
if(event & key_Left) {
_ScreenManager.prevMenu();
}
// press RIGHT to select next screen
if(event & key_Right) {
_ScreenManager.nextMenu();
}
}
_keyRepeatCount = -1;
}
_ScreenManager.reqUpdate();
return true;
}
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