ESP32_ChinaDieselHeater_Con.../Arduino/BTCDieselHeater/Screen1.cpp
2018-12-11 21:19:02 +11:00

358 lines
10 KiB
C++

/*
* 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 "MiniFont.h"
#include "Icons.h"
#include "BluetoothAbstract.h"
#include "Screen1.h"
#include "BTCWifi.h"
#include "KeyPad.h"
#include "helpers.h"
#include "Protocol.h"
#define MINIFONT miniFontInfo
#define X_FAN_ICON 55
#define Y_FAN_ICON 39
#define X_FUEL_ICON 81
#define Y_FUEL_ICON 39
#define X_TARGET_ICON 31
#define Y_TARGET_ICON 39
#define Y_BASELINE 58
#define X_GLOW_ICON 97
#define Y_GLOW_ICON 38
#define X_BODY_BULB 119
#define X_BULB 1 // >= 1
#define Y_BULB 4
#define MINI_TEMPLABEL
#define MINI_TARGETLABEL
#define MINI_FANLABEL
#define MINI_GLOWLABEL
#define MINI_FUELLABEL
#define MINI_BODYLABEL
///////////////////////////////////////////////////////////////////////////
//
// CScreen1
//
// This screen provides a detailed control/status function
//
///////////////////////////////////////////////////////////////////////////
CScreen1::CScreen1(C128x64_OLED& display, CScreenManager& mgr) : CScreenHeader(display, mgr)
{
_animatePump = false;
_animateRPM = false;
_animateGlow = false;
_fanAnimationState = 0;
_dripAnimationState = 0;
_heatAnimationState = 0;
_keyRepeatCount = -1;
_showTarget = 0;
}
void
CScreen1::show()
{
CScreenHeader::show();
const char* c = String(getActualTemperature()).c_str();
int runstate = getHeaterInfo().getRunState();//HtrFrame.getRunState();
int errstate = getHeaterInfo().getErrState(); //HtrFrame.getErrState();
if(errstate) errstate--; // correct for +1 biased return value
long tDelta = millis() - _showTarget;
if(_showTarget && (tDelta > 0)) {
_showTarget = 0;
}
float desiredT = 0;
if((runstate && (runstate <= 5)) || _showTarget) {
if(getHeaterInfo().isThermostat())
desiredT = getHeaterInfo().getTemperature_Desired();
else
desiredT = -getHeaterInfo().getPump_Fixed();
}
showThermometer(desiredT, // read values from most recently sent [BTC] frame
getActualTemperature());
_animateRPM = false;
_animatePump = false;
_animateGlow = false;
if(runstate) {
float power = getHeaterInfo().getGlowPlug_Power();
if(power > 1) {
showGlowPlug(power);
}
showFan(getHeaterInfo().getFan_Actual());
showFuel(getHeaterInfo().getPump_Actual());
showBodyThermometer(getHeaterInfo().getTemperature_HeatExchg());
}
showRunState(runstate, errstate);
}
bool
CScreen1::animate()
{
bool retval = CScreenHeader::animate();
if(_animatePump || _animateRPM || _animateGlow) {
if(_animatePump) {
// erase region of fuel icon
_display.fillRect(X_FUEL_ICON, Y_FUEL_ICON, W_FUEL_ICON, H_FUEL_ICON + 4, BLACK);
_display.drawBitmap(X_FUEL_ICON, Y_FUEL_ICON+(_dripAnimationState/2), FuelIcon, W_FUEL_ICON, H_FUEL_ICON, WHITE);
_dripAnimationState++;
_dripAnimationState &= 0x07;
}
if(_animateRPM) {
// erase region of fuel icon
_display.fillRect(X_FAN_ICON, Y_FAN_ICON, W_FAN_ICON, H_FAN_ICON, BLACK);
switch(_fanAnimationState) {
case 0: _display.drawBitmap(X_FAN_ICON, Y_FAN_ICON, FanIcon1, W_FAN_ICON, H_FAN_ICON, WHITE); break;
case 1: _display.drawBitmap(X_FAN_ICON, Y_FAN_ICON, FanIcon2, W_FAN_ICON, H_FAN_ICON, WHITE); break;
case 2: _display.drawBitmap(X_FAN_ICON, Y_FAN_ICON, FanIcon3, W_FAN_ICON, H_FAN_ICON, WHITE); break;
case 3: _display.drawBitmap(X_FAN_ICON, Y_FAN_ICON, FanIcon4, W_FAN_ICON, H_FAN_ICON, WHITE); break;
}
_fanAnimationState++;
_fanAnimationState &= 0x03;
}
if(_animateGlow) {
_display.fillRect(X_GLOW_ICON, Y_GLOW_ICON, 17, 10, BLACK);
_display.drawBitmap(X_GLOW_ICON, Y_GLOW_ICON, GlowPlugIcon, 16, 9, WHITE);
_display.drawBitmap(X_GLOW_ICON, Y_GLOW_ICON + 2 + _heatAnimationState, GlowHeatIcon, 17, 2, WHITE);
_heatAnimationState -= 2;
_heatAnimationState &= 0x07;
}
return retval |= true;
}
return retval;
}
void
CScreen1::keyHandler(uint8_t event)
{
if(event & keyPressed) {
_keyRepeatCount = 0; // unlock tracking of repeat events
if(event & key_Left) {
_ScreenManager.prevScreen();
}
if(event & key_Right) {
_ScreenManager.nextScreen();
}
if(event & key_Up) {
reqTempDelta(+1);
_showTarget = millis() + 3500;
}
if(event & key_Down) {
reqTempDelta(-1);
_showTarget = millis() + 3500;
}
}
// require hold to turn ON or OFF
if(event & keyRepeat) {
if(_keyRepeatCount >= 0) {
_keyRepeatCount++;
if(event & key_Centre) {
if(getHeaterInfo().getRunState()) {
if(_keyRepeatCount > 5) {
_keyRepeatCount = -1; // prevent double handling
requestOff();
}
}
else {
if(_keyRepeatCount > 3) {
_keyRepeatCount = -1;
requestOn();
}
}
}
}
}
// release event
if(event & keyReleased) {
_keyRepeatCount = -1;
}
}
#define TEMP_YPOS(A) ((((20 - A) * 3) / 2) + 22)
void
CScreen1::showThermometer(float desired, float actual)
{
char msg[16];
// draw bulb design
_display.drawBitmap(X_BULB, Y_BULB, thermometerBitmap, W_BULB_ICON, H_BULB_ICON, WHITE);
// draw mercury
int yPos = Y_BULB + TEMP_YPOS(actual);
_display.drawLine(X_BULB + 3, yPos, X_BULB + 3, Y_BULB + 42, WHITE);
_display.drawLine(X_BULB + 4, yPos, X_BULB + 4, Y_BULB + 42, WHITE);
// print actual temperature
{
#ifdef MINI_TEMPLABEL
CTransientFont AF(_display, &MINIFONT); // temporarily use a mini font
sprintf(msg, "%.1f`C", actual);
#else
sprintf(msg, "%.1f", actual);
#endif
_printMenuText(0, Y_BASELINE, msg);
}
// draw target setting
if(desired) {
_display.drawBitmap(X_TARGET_ICON, Y_TARGET_ICON, TargetIcon, W_TARGET_ICON, H_TARGET_ICON, WHITE); // set indicator against bulb
char msg[16];
if(desired > 0) {
int yPos = Y_BULB + TEMP_YPOS(desired) - 2;
_display.drawBitmap(X_BULB-1, yPos, thermoPtr, 3, 5, WHITE); // set indicator against bulb
sprintf(msg, "%.0f`C", desired);
}
else {
sprintf(msg, "%.1fHz", -desired);
}
#ifdef MINI_TARGETLABEL
CTransientFont AF(_display, &MINIFONT); // temporarily use a mini font
#endif
_printMenuText(X_TARGET_ICON + (W_TARGET_ICON/2), Y_BASELINE, msg, false, eCentreJustify);
}
}
#define BODY_YPOS(A) ((((100 - A) * 3) / 16) + 22) // 100degC centre - ticks +- 80C
void
CScreen1::showBodyThermometer(int actual)
{
// draw bulb design
_display.drawBitmap(X_BODY_BULB, Y_BULB, thermometerBitmap, 8, 50, WHITE);
// draw mercury
int yPos = Y_BULB + BODY_YPOS(actual);
_display.drawLine(X_BODY_BULB + 3, yPos, X_BODY_BULB + 3, Y_BULB + 42, WHITE);
_display.drawLine(X_BODY_BULB + 4, yPos, X_BODY_BULB + 4, Y_BULB + 42, WHITE);
// print actual temperature
_display.setTextColor(WHITE);
char label[16];
// determine width and position right justified
#ifdef MINI_BODYLABEL
CTransientFont AF(_display, &MINIFONT); // temporarily use a mini font
sprintf(label, "%d`C", actual);
#else
sprintf(label, "%d", actual);
#endif
_printMenuText(_display.width(), Y_BASELINE, label, false, eRightJustify);
}
void
CScreen1::showGlowPlug(float power)
{
_display.drawBitmap(X_GLOW_ICON, Y_GLOW_ICON, GlowPlugIcon, W_GLOW_ICON, H_GLOW_ICON, WHITE);
// _animateGlow = true;
char msg[16];
sprintf(msg, "%.0fW", power);
#ifdef MINI_GLOWLABEL
CTransientFont AF(_display, &MINIFONT); // temporarily use a mini font
#endif
_printMenuText(X_GLOW_ICON + (W_GLOW_ICON/2),
Y_GLOW_ICON + H_GLOW_ICON + 3,
msg, false, eCentreJustify);
}
void
CScreen1::showFan(int RPM)
{
// NOTE: fan rotation animation performed in animateOLED
_animateRPM = RPM != 0; // used by animation routine
_display.setTextColor(WHITE);
char msg[16];
sprintf(msg, "%d", RPM);
#ifdef MINI_FANLABEL
CTransientFont AF(_display, &MINIFONT); // temporarily use a mini font
#endif
_printMenuText(X_FAN_ICON + (W_FAN_ICON/2), Y_BASELINE, msg, false, eCentreJustify);
}
void
CScreen1::showFuel(float rate)
{
// NOTE: fuel drop animation performed in animateOLED
_animatePump = rate != 0; // used by animation routine
if(rate) {
char msg[16];
sprintf(msg, "%.1f", rate);
#ifdef MINI_FUELLABEL
CTransientFont AF(_display, &MINIFONT); // temporarily use a mini font
#endif
_printMenuText(X_FUEL_ICON + (W_FUEL_ICON/2), Y_BASELINE, msg, false, eCentreJustify);
}
}
void
CScreen1::showRunState(int runstate, int errstate)
{
static bool toggle = false;
const char* toPrint = NULL;
int yPos = 25;
_display.setTextColor(WHITE, BLACK);
if(runstate >= 0 && runstate <= 8) {
if(((runstate == 0) || (runstate > 5)) && errstate) {
// create an "E-XX" message to display
char msg[16];
sprintf(msg, "E-%02d", errstate);
if(runstate > 5)
yPos -= _display.textHeight();
_display.setCursor(_display.xCentre(), yPos);
// flash error code
toggle = !toggle;
if(toggle)
_display.printCentreJustified(msg);
else {
_display.printCentreJustified(" ");
}
yPos += _display.textHeight();
toPrint = getHeaterInfo().getErrStateStr();
}
else {
toPrint = getHeaterInfo().getRunStateStr();
}
}
if(toPrint) {
_printMenuText(_display.xCentre(), yPos, toPrint, false, eCentreJustify);
}
}