oop output card display binding

This commit is contained in:
Siwat Sirichai 2023-12-30 22:50:19 +07:00
parent 59b1ade59d
commit 2d0d38ecf3
6 changed files with 355 additions and 124 deletions

View File

@ -5,17 +5,21 @@
* @param process Flag indicating whether to process the received commands.
* @return True if data is received, false otherwise.
*/
bool ESPMegaDisplay::recieveSerialCommand(bool process){
bool ESPMegaDisplay::recieveSerialCommand(bool process)
{
bool dataRecieved = false;
// Read the serial buffer if available
while(displayAdapter->available()) {
while (displayAdapter->available())
{
rx_buffer[rx_buffer_index] = displayAdapter->read();
rx_buffer_index++;
// Check for overflow
if(rx_buffer_index>=256){
if (rx_buffer_index >= 256)
{
rx_buffer_index = 0;
}
if(process) this-> processSerialCommand();
if (process)
this->processSerialCommand();
dataRecieved = true;
}
return dataRecieved;
@ -25,16 +29,19 @@ bool ESPMegaDisplay::recieveSerialCommand(bool process){
* @brief Receives and processes serial commands from the display adapter.
* @return True if data is received, false otherwise.
*/
bool ESPMegaDisplay::recieveSerialCommand(){
bool ESPMegaDisplay::recieveSerialCommand()
{
return recieveSerialCommand(true);
}
/**
* @brief Processes the received serial command.
*/
void ESPMegaDisplay::processSerialCommand(){
void ESPMegaDisplay::processSerialCommand()
{
// Check if the rx buffer ended with stop bytes (0xFF 0xFF 0xFF)
if(!payloadIsValid()) return;
if (!payloadIsValid())
return;
// The rx buffer ended with stop bytes
// Check if the rx buffer is a push payload
// The payload type is the first byte of the payload
@ -42,19 +49,24 @@ void ESPMegaDisplay::processSerialCommand(){
// 0x01 is success
// 0x65 is a touch event
// 0x66 is a page report event
if(rx_buffer[0]==0x65){
if (rx_buffer[0] == 0x65)
{
processTouchPayload();
}
else if(rx_buffer[0]==0x66){
else if (rx_buffer[0] == 0x66)
{
processPageReportPayload();
}
this->rx_buffer_index = 0;
}
/**
* @brief Processes the touch event payload.
*/
void ESPMegaDisplay::processTouchPayload() {
if (rx_buffer_index != 4) return;
void ESPMegaDisplay::processTouchPayload()
{
if (rx_buffer_index != 7)
return;
// The second byte of the payload is the page number
uint8_t page = rx_buffer[1];
// The third byte of the payload is the component id
@ -63,25 +75,33 @@ void ESPMegaDisplay::processTouchPayload() {
uint8_t event = rx_buffer[3];
// 0x01 is press, 0x00 is release
ESP_LOGV("ESPMegaDisplay", "Touch event: page=%d, component=%d, event=%d", page, component, event);
for (auto const &callback : touch_callbacks)
{
callback.second(page, component, event);
}
}
/**
* @brief Processes the page report event payload.
*/
void ESPMegaDisplay::processPageReportPayload() {
void ESPMegaDisplay::processPageReportPayload()
{
if (rx_buffer_index != 5)
return;
// The second byte of the payload is the page number
this->currentPage = rx_buffer[1];
if(pageChangeCallback!=NULL){
pageChangeCallback(this->currentPage);
}
rx_buffer_index = 0;
ESP_LOGV("ESPMegaDisplay", "Page change event: page=%d", this->currentPage);
for (auto const &callback : page_change_callbacks)
{
callback.second(this->currentPage);
}
}
/**
* @brief Sends stop bytes to the display adapter.
*/
void ESPMegaDisplay::sendStopBytes() {
void ESPMegaDisplay::sendStopBytes()
{
displayAdapter->write(0xFF);
displayAdapter->write(0xFF);
displayAdapter->write(0xFF);
@ -91,7 +111,8 @@ void ESPMegaDisplay::sendStopBytes() {
* @brief Sends a command to the display adapter.
* @param command The command to send.
*/
void ESPMegaDisplay::sendCommand(char* command) {
void ESPMegaDisplay::sendCommand(char *command)
{
displayAdapter->print(command);
sendStopBytes();
}
@ -100,7 +121,8 @@ void ESPMegaDisplay::sendCommand(char* command) {
* @brief Jumps to the specified page on the display.
* @param page The page number to jump to.
*/
void ESPMegaDisplay::jumpToPage(int page) {
void ESPMegaDisplay::jumpToPage(int page)
{
this->displayAdapter->print("page ");
this->displayAdapter->print(page);
sendStopBytes();
@ -111,7 +133,8 @@ void ESPMegaDisplay::jumpToPage(int page) {
* @param component The component name.
* @param value The value to set.
*/
void ESPMegaDisplay::setNumber(const char* component, int value) {
void ESPMegaDisplay::setNumber(const char *component, int value)
{
this->displayAdapter->print(component);
this->displayAdapter->print("=");
this->displayAdapter->print(value);
@ -123,7 +146,8 @@ void ESPMegaDisplay::setNumber(const char* component, int value) {
* @param component The component name.
* @param value The value to set.
*/
void ESPMegaDisplay::setString(const char* component, const char* value) {
void ESPMegaDisplay::setString(const char *component, const char *value)
{
this->displayAdapter->print(component);
this->displayAdapter->print("=\"");
this->displayAdapter->print(value);
@ -136,25 +160,53 @@ void ESPMegaDisplay::setString(const char* component, const char* value) {
* @param component The component name.
* @return The value of the number component.
*/
uint32_t ESPMegaDisplay::getNumber(const char* component) {
uint32_t ESPMegaDisplay::getNumber(const char *component)
{
// We might be in the middle of a serial command
// We reset the rx buffer index to 0 to ensure that we don't read the wrong data
this->rx_buffer_index = 0;
uint32_t start = millis();
// Send the get command
this->displayAdapter->print("get ");
this->displayAdapter->print(component);
sendStopBytes();
// Try to get a valid payload DISPLAY_FETCH_RETRY_COUNT times
// Wait for the response
if(!waitForValidPayload(DISPLAY_FETCH_TIMEOUT)) return 0;
bool validPayload = false;
for (int i = 0; i < DISPLAY_FETCH_RETRY_COUNT; i++)
{
if (!waitForValidPayload(DISPLAY_FETCH_TIMEOUT))
{
ESP_LOGE("ESPMegaDisplay", "Timeout while waiting for display response");
return 0;
}
if (rx_buffer[0] != 0x71)
{
ESP_LOGI("ESPMegaDisplay", "Invalid payload type: %d, retrying.", rx_buffer[0]);
// The rx buffer is invalid, reset the rx buffer index
rx_buffer_index = 0;
continue;
} else {
validPayload = true;
break;
}
}
if (!validPayload) {
ESP_LOGE("ESPMegaDisplay", "Invalid payload type: %d, max retry excceded.", rx_buffer[0]);
return 0;
}
// The rx buffer is valid
// The expected payload is type 0x71
if(rx_buffer[0]!=0x71) return 0;
// The 2nd to 5th byte of the payload is the value
// It's a 4 byte 32-bit value in little endian order.
// Convert the 4 bytes to a 32-bit value
uint32_t value = 0;
value |= rx_buffer[1];
value |= rx_buffer[2]<<8;
value |= rx_buffer[3]<<16;
value |= rx_buffer[4]<<24;
value |= rx_buffer[2] << 8;
value |= rx_buffer[3] << 16;
value |= rx_buffer[4] << 24;
return value;
}
@ -164,48 +216,77 @@ uint32_t ESPMegaDisplay::getNumber(const char* component) {
* @return The value of the string component.
* @note The returned char array must be freed after use.
*/
const char* ESPMegaDisplay::getString(const char* component) {
const char *ESPMegaDisplay::getString(const char *component)
{
// We might be in the middle of a serial command
// We reset the rx buffer index to 0 to ensure that we don't read the wrong data
this->rx_buffer_index = 0;
uint32_t start = millis();
// Send the get command
this->displayAdapter->print("get ");
this->displayAdapter->print(component);
sendStopBytes();
// Wait for the response
if(!waitForValidPayload(DISPLAY_FETCH_TIMEOUT)) return "";
// The rx buffer is valid
// The expected payload is type 0x70
if(rx_buffer[0]!=0x70) return "";
// Try to get a valid payload DISPLAY_FETCH_RETRY_COUNT times
// Wait for the response
bool validPayload = false;
for (int i = 0; i < DISPLAY_FETCH_RETRY_COUNT; i++)
{
if (!waitForValidPayload(DISPLAY_FETCH_TIMEOUT))
{
ESP_LOGE("ESPMegaDisplay", "Timeout while waiting for display response");
return 0;
}
if (rx_buffer[0] != 0x70)
{
ESP_LOGI("ESPMegaDisplay", "Invalid payload type: %d, retrying.", rx_buffer[0]);
// The rx buffer is invalid, reset the rx buffer index
rx_buffer_index = 0;
continue;
} else {
validPayload = true;
break;
}
}
if (!validPayload) {
ESP_LOGE("ESPMegaDisplay", "Invalid payload type: %d, max retry excceded.", rx_buffer[0]);
return 0;
}
// The 2nd bytes onwards before the stop bytes is the string
// The length of the string is the length of the payload minus 4
uint8_t length = rx_buffer_index-4;
uint8_t length = rx_buffer_index - 4;
// First we malloc a char array with the length of the string
char* value = (char*)malloc(length+1);
char *value = (char *)malloc(length + 1);
// Copy the string from the rx buffer to the char array
memcpy(value, rx_buffer+1, length);
memcpy(value, rx_buffer + 1, length);
// Add the null terminator
value[length] = '\0';
// Return the char array
return value;
}
bool ESPMegaDisplay::getStringToBuffer(const char* component, char* buffer, uint8_t buffer_size) {
bool ESPMegaDisplay::getStringToBuffer(const char *component, char *buffer, uint8_t buffer_size)
{
uint32_t start = millis();
// Send the get command
this->displayAdapter->print("get ");
this->displayAdapter->print(component);
sendStopBytes();
// Wait for the response
if(!waitForValidPayload(DISPLAY_FETCH_TIMEOUT)) return false;
if (!waitForValidPayload(DISPLAY_FETCH_TIMEOUT))
return false;
// The rx buffer is valid
// The expected payload is type 0x70
if(rx_buffer[0]!=0x70) return false;
if (rx_buffer[0] != 0x70)
return false;
// The 2nd bytes onwards before the stop bytes is the string
// The length of the string is the length of the payload minus 4
uint8_t length = rx_buffer_index-4;
uint8_t length = rx_buffer_index - 4;
// Check if the buffer is large enough to hold the string
if(length>buffer_size) return false;
if (length > buffer_size)
return false;
// Copy the string from the rx buffer to the char array
memcpy(buffer, rx_buffer+1, length);
memcpy(buffer, rx_buffer + 1, length);
// Add the null terminator
buffer[length] = '\0';
return true;
@ -216,11 +297,14 @@ bool ESPMegaDisplay::getStringToBuffer(const char* component, char* buffer, uint
* @param timeout The timeout value in milliseconds.
* @return True if a valid payload is received, false otherwise.
*/
bool ESPMegaDisplay::waitForValidPayload(uint32_t timeout) {
bool ESPMegaDisplay::waitForValidPayload(uint32_t timeout)
{
uint32_t start = millis();
// If the payload is not valid, keep reading the serial buffer until timeout
while(!this->payloadIsValid()){
if(millis()-start>timeout){
while (!this->payloadIsValid())
{
if (millis() - start > timeout)
{
return false;
}
recieveSerialCommand(false);
@ -232,12 +316,17 @@ bool ESPMegaDisplay::waitForValidPayload(uint32_t timeout) {
* @brief Checks if the received payload is valid.
* @return True if the payload is valid, false otherwise.
*/
bool ESPMegaDisplay::payloadIsValid() {
bool ESPMegaDisplay::payloadIsValid()
{
// Check if the rx buffer ended with stop bytes (0xFF 0xFF 0xFF)
if(rx_buffer_index<3) return false;
if(rx_buffer[rx_buffer_index-1]!=0xFF) return false;
if(rx_buffer[rx_buffer_index-2]!=0xFF) return false;
if(rx_buffer[rx_buffer_index-3]!=0xFF) return false;
if (rx_buffer_index < 3)
return false;
if (rx_buffer[rx_buffer_index - 1] != 0xFF)
return false;
if (rx_buffer[rx_buffer_index - 2] != 0xFF)
return false;
if (rx_buffer[rx_buffer_index - 3] != 0xFF)
return false;
return true;
}
@ -245,7 +334,8 @@ bool ESPMegaDisplay::payloadIsValid() {
* @brief Sets the brightness of the display.
* @param value The brightness value.
*/
void ESPMegaDisplay::setBrightness(int value) {
void ESPMegaDisplay::setBrightness(int value)
{
this->displayAdapter->print("dim=");
this->displayAdapter->print(value);
sendStopBytes();
@ -255,7 +345,8 @@ void ESPMegaDisplay::setBrightness(int value) {
* @brief Sets the volume of the display.
* @param value The volume value.
*/
void ESPMegaDisplay::setVolume(int value) {
void ESPMegaDisplay::setVolume(int value)
{
this->displayAdapter->print("vol=");
this->displayAdapter->print(value);
sendStopBytes();
@ -264,7 +355,8 @@ void ESPMegaDisplay::setVolume(int value) {
/**
* @brief Restarts the display.
*/
void ESPMegaDisplay::reset() {
void ESPMegaDisplay::reset()
{
// First we send a stop bytes to clear the serial buffer
// This ensures that the display is ready to receive the reset command
sendStopBytes();
@ -272,68 +364,22 @@ void ESPMegaDisplay::reset() {
sendStopBytes();
}
/**
* @brief Registers a callback function that will be called when a push event is received.
* @param callback The callback function.
*/
void ESPMegaDisplay::registerPushCallback(std::function<void(uint8_t, uint8_t)> callback) {
this->pushCallback = callback;
}
/**
* @brief Registers a callback function that will be called when a pop event is received.
* @param callback The callback function.
*/
void ESPMegaDisplay::registerPopCallback(std::function<void(uint8_t, uint8_t)> callback) {
this->popCallback = callback;
}
/**
* @brief Registers a callback function that will be called when a page change event is received.
* @param callback The callback function.
*/
void ESPMegaDisplay::registerPageChangeCallback(std::function<void(uint8_t)> callback) {
this->pageChangeCallback = callback;
}
/**
* @brief Unregisters the push callback function.
*/
void ESPMegaDisplay::unregisterPushCallback() {
this->pushCallback = NULL;
}
/**
* @brief Unregisters the pop callback function.
*/
void ESPMegaDisplay::unregisterPopCallback() {
this->popCallback = NULL;
}
/**
* @brief Unregisters the page change callback function.
*/
void ESPMegaDisplay::unregisterPageChangeCallback() {
this->pageChangeCallback = NULL;
}
/**
* @brief Constructor for the ESPMegaDisplay class.
* @param displayAdapter The serial adapter connected to the display.
*/
ESPMegaDisplay::ESPMegaDisplay(HardwareSerial *displayAdapter) {
ESPMegaDisplay::ESPMegaDisplay(HardwareSerial *displayAdapter)
{
this->displayAdapter = displayAdapter;
this->currentPage = 0;
this->rx_buffer_index = 0;
this->pushCallback = NULL;
this->popCallback = NULL;
this->pageChangeCallback = NULL;
}
/**
* @brief Initializes the display.
*/
void ESPMegaDisplay::begin() {
void ESPMegaDisplay::begin()
{
this->displayAdapter->begin(115200);
this->displayAdapter->setTimeout(100);
this->displayAdapter->flush();
@ -343,8 +389,51 @@ void ESPMegaDisplay::begin() {
/**
* @brief The main loop function of the display.
*/
void ESPMegaDisplay::loop() {
void ESPMegaDisplay::loop()
{
// Check if there is data in the serial buffer
// If there is data, process the data
recieveSerialCommand();
}
/**
* @brief Registers a callback function for touch events.
* @param callback The callback function.
* @return The handle of the callback function.
*/
uint16_t ESPMegaDisplay::registerTouchCallback(std::function<void(uint8_t, uint8_t, uint8_t)> callback)
{
uint16_t handle = touch_callbacks.size();
touch_callbacks[handle] = callback;
return handle;
}
/**
* @brief Deregisters a callback function for touch events.
* @param handle The handle of the callback function.
*/
void ESPMegaDisplay::deregisterTouchCallback(uint16_t handle)
{
touch_callbacks.erase(handle);
}
/**
* @brief Registers a callback function for page change events.
* @param callback The callback function.
* @return The handle of the callback function.
*/
uint16_t ESPMegaDisplay::registerPageChangeCallback(std::function<void(uint8_t)> callback)
{
uint16_t handle = page_change_callbacks.size();
page_change_callbacks[handle] = callback;
return handle;
}
/**
* @brief Deregisters a callback function for page change events.
* @param handle The handle of the callback function.
*/
void ESPMegaDisplay::deregisterPageChangeCallback(uint16_t handle)
{
page_change_callbacks.erase(handle);
}

View File

@ -1,7 +1,9 @@
#pragma once
#include <Arduino.h>
#include <map>
#define DISPLAY_FETCH_TIMEOUT 100 // ms
#define DISPLAY_FETCH_RETRY_COUNT 5
class ESPMegaDisplay
{
@ -18,14 +20,11 @@ class ESPMegaDisplay
const char* getString(const char* component);
bool getStringToBuffer(const char* component, char* buffer, uint8_t buffer_size);
uint32_t getNumber(const char* component);
void handlePwmStateChange(uint8_t pin, uint16_t value);
void handleInputStateChange(uint8_t pin, bool state);
void registerPushCallback(std::function<void(uint8_t, uint8_t)> callback);
void registerPopCallback(std::function<void(uint8_t, uint8_t)> callback);
void registerPageChangeCallback(std::function<void(uint8_t)> callback);
void unregisterPushCallback();
void unregisterPopCallback();
void unregisterPageChangeCallback();
uint16_t registerTouchCallback(std::function<void(uint8_t, uint8_t, uint8_t)> callback);
void deregisterTouchCallback(uint16_t handle);
uint16_t registerPageChangeCallback(std::function<void(uint8_t)> callback);
void deregisterPageChangeCallback(uint16_t handle);
protected:
uint8_t currentPage;
uint8_t rx_buffer_index;
@ -41,7 +40,6 @@ class ESPMegaDisplay
bool payloadIsValid();
bool waitForValidPayload(uint32_t timeout);
HardwareSerial *displayAdapter;
std::function<void(uint8_t, uint8_t)> pushCallback;
std::function<void(uint8_t, uint8_t)> popCallback;
std::function<void(uint8_t)> pageChangeCallback;
std::map<uint16_t, std::function<void(uint8_t, uint8_t, uint8_t)>> touch_callbacks;
std::map<uint16_t, std::function<void(uint8_t)>> page_change_callbacks;
};

View File

@ -9,6 +9,7 @@ bool ESPMegaPRO::begin() {
this->installCard(1, &outputs);
outputs.bindFRAM(&fram,0);
outputs.loadFromFRAM();
outputs.setAutoSaveToFRAM(true);
if(!this->installCard(0, &inputs)) {
ESP_LOGE("ESPMegaPRO", "Failed to initialize inputs");
ESP_LOGE("ESPMegaPRO", "Is this an ESPMegaPRO device?");
@ -26,7 +27,12 @@ void ESPMegaPRO::loop() {
cards[i]->loop();
}
}
if(iotEnabled) {
iot->loop();
}
if(internalDisplayEnabled) {
display->loop();
}
}
bool ESPMegaPRO::installCard(uint8_t slot, ExpansionCard* card) {
if (slot > 255) return false;

View File

@ -10,6 +10,10 @@ void InternalDisplay::begin(ESPMegaIoT *iot, std::function<rtctime_t()> getRtcTi
this->networkConfig = this->iot->getNetworkConfig();
// Register callbacks
ESP_LOGD("InternalDisplay", "Registering Callbacks");
auto bindedPageChangeCallback = std::bind(&InternalDisplay::handlePageChange, this, std::placeholders::_1);
this->registerPageChangeCallback(bindedPageChangeCallback);
auto bindedTouchCallback = std::bind(&InternalDisplay::handleTouch, this, std::placeholders::_1, std::placeholders::_2, std::placeholders::_3);
this->registerTouchCallback(bindedTouchCallback);
ESP_LOGD("InternalDisplay", "Binding Page Change Callback");
auto bindedInputStateChangeCallback = std::bind(&InternalDisplay::handleInputStateChange, this, std::placeholders::_1, std::placeholders::_2);
ESP_LOGD("InternalDisplay", "Binding Input State Change Callback");
@ -37,6 +41,7 @@ void InternalDisplay::begin(ESPMegaIoT *iot, std::function<rtctime_t()> getRtcTi
void InternalDisplay::loop() {
// Keep reading the Serial Adapter
this->recieveSerialCommand();
// Refresh the top bar every 5 seconds
static uint32_t lastTopBarRefresh;
if (millis() - lastTopBarRefresh > INTERNAL_DISPLAY_TOP_BAR_REFRESH_INTERVAL) {
@ -118,6 +123,11 @@ void InternalDisplay::refreshPage(uint8_t page) {
case INTERNAL_DISPLAY_AC_PAGE:
this->refreshAC();
break;
case INTERNAL_DISPLAY_PWM_ADJUSTMENT_PAGE:
this->refreshPWMAdjustment();
break;
default:
break;
}
}
@ -133,10 +143,11 @@ void InternalDisplay::refreshDashboard() {
sprintf(ip_address, "%d.%d.%d.%d", this->networkConfig->ip[0], this->networkConfig->ip[1], this->networkConfig->ip[2], this->networkConfig->ip[3]);
this->setString("ip_address.txt", ip_address);
// Send the MQTT server and port
this->displayAdapter->print("server_address.txt=");
this->displayAdapter->print("server_address.txt=\"");
this->displayAdapter->print(this->mqttConfig->mqtt_server);
this->displayAdapter->print(":");
this->displayAdapter->print(this->mqttConfig->mqtt_port);
this->displayAdapter->print("\"");
this->sendStopBytes();
// Send the MQTT connection status
this->setString("status_txt.txt", this->iot->mqttConnected() ? MSG_MQTT_CONNECTED : MSG_MQTT_DISCONNECTED);
@ -144,7 +155,7 @@ void InternalDisplay::refreshDashboard() {
void InternalDisplay::refreshInput() {
for (uint8_t i=0; i<16; i++) {
this->setInputMarker(i, this->inputCard->digitalRead(i));
this->setInputMarker(i, this->inputCard->digitalRead(i, false));
}
}
@ -159,7 +170,6 @@ void InternalDisplay::refreshAC() {
// TODO: implementation
}
void InternalDisplay::setPWMAdjustmentSlider(uint16_t value) {
// TODO: implementation
}
@ -200,6 +210,11 @@ void InternalDisplay::setInputMarker(uint8_t pin, bool state) {
InternalDisplay::InternalDisplay(HardwareSerial *displayAdapter) : ESPMegaDisplay(displayAdapter) {
this->currentPage = INTERNAL_DISPLAY_DASHBOARD_PAGE;
this->iot = nullptr;
this->inputCard = nullptr;
this->outputCard = nullptr;
this->climateCard = nullptr;
this->pmwAdjustmentPin = 0;
}
void InternalDisplay::bindInputCard(DigitalInputCard *inputCard) {
@ -209,3 +224,100 @@ void InternalDisplay::bindInputCard(DigitalInputCard *inputCard) {
void InternalDisplay::bindOutputCard(DigitalOutputCard *outputCard) {
this->outputCard = outputCard;
}
void InternalDisplay::bindClimateCard(ClimateCard *climateCard) {
this->climateCard = climateCard;
}
void InternalDisplay::refreshPWMAdjustment() {
// The PWM Adjustment page have the following components:
// pwm_value -> a slider to adjust the PWM value
// pwm_state -> a button to toggle the PWM state
// pwm_id -> a text to show the PWM pin
// Refresh the PWM pin
this->refreshPWMAdjustmentId();
// Refresh the PWM value
this->refreshPWMAdjustmentSlider();
// Refresh the PWM state
this->refreshPWMAdjustmentState();
}
void InternalDisplay::refreshPWMAdjustmentId() {
// Send the PWM pin
this->displayAdapter->print("pwm_id.txt=\"P");
this->displayAdapter->print(pmwAdjustmentPin);
this->displayAdapter->print("\"");
this->sendStopBytes();
}
void InternalDisplay::refreshPWMAdjustmentSlider() {
// Send the PWM value
this->displayAdapter->print("pwm_value.val=");
this->displayAdapter->print(this->outputCard->getValue(this->pmwAdjustmentPin));
this->sendStopBytes();
}
void InternalDisplay::refreshPWMAdjustmentState() {
// Send the PWM state
this->displayAdapter->print("pwm_state.txt=\"");
this->displayAdapter->print(this->outputCard->getState(this->pmwAdjustmentPin) ? MSG_PWM_ADJUSTMENT_STATE_ON : MSG_PWM_ADJUSTMENT_STATE_OFF);
this->displayAdapter->print("\"");
this->sendStopBytes();
}
void InternalDisplay::handleTouch(uint8_t page, uint8_t component, uint8_t type) {
// Switch based on the page
switch (page) {
case INTERNAL_DISPLAY_AC_PAGE:
this->handleACTouch(type, component);
break;
case INTERNAL_DISPLAY_PWM_ADJUSTMENT_PAGE:
this->handlePWMAdjustmentTouch(type, component);
break;
default:
break;
}
}
void InternalDisplay::handleACTouch(uint8_t type, uint8_t component) {
}
void InternalDisplay::handlePWMAdjustmentTouch(uint8_t type, uint8_t component) {
// b0 [component 5] -> decrement the PWM id if its greater than 0, else set it to 15
// b1 [component 6] -> increment the PWM id if its less than 15, else set it to 0
// pwm_state [component 4] -> toggle the PWM state
// pwm_value [component 1] -> set the PWM value based on the slider value
// If the type is not release then return
if (type != TOUCH_TYPE_RELEASE) return;
uint16_t val = 0;
// switch based on the component
switch (component) {
case 5:
// Decrement the PWM id
this->pmwAdjustmentPin = this->pmwAdjustmentPin > 0 ? this->pmwAdjustmentPin - 1 : 15;
this->refreshPWMAdjustment();
break;
case 6:
// Increment the PWM id
this->pmwAdjustmentPin = this->pmwAdjustmentPin < 15 ? this->pmwAdjustmentPin + 1 : 0;
this->refreshPWMAdjustment();
break;
case 4:
// Toggle the PWM state
this->outputCard->setState(this->pmwAdjustmentPin, !this->outputCard->getState(this->pmwAdjustmentPin));
this->refreshPWMAdjustmentState();
break;
case 1:
// Set the PWM value
val = (uint16_t)this -> getNumber("pwm_value.val");
this->outputCard->setValue(this->pmwAdjustmentPin, val);
break;
default:
break;
}
}

View File

@ -4,12 +4,21 @@
#include <ESPMegaIoT.hpp>
#include <DigitalInputCard.hpp>
#include <DigitalOutputCard.hpp>
#include <ClimateCard.hpp>
// Page IDs
#define INTERNAL_DISPLAY_DASHBOARD_PAGE 0
#define INTERNAL_DISPLAY_INPUT_PAGE 1
#define INTERNAL_DISPLAY_OUTPUT_PAGE 2
#define INTERNAL_DISPLAY_AC_PAGE 3
#define INTERNAL_DISPLAY_BOOT_PAGE 0
#define INTERNAL_DISPLAY_DASHBOARD_PAGE 1
#define INTERNAL_DISPLAY_INPUT_PAGE 2
#define INTERNAL_DISPLAY_OUTPUT_PAGE 3
#define INTERNAL_DISPLAY_AC_PAGE 4
#define INTERNAL_DISPLAY_PWM_ADJUSTMENT_PAGE 5
#define INTERNAL_DISPLAY_NETWORK_CONFIG_PAGE 6
#define INTERNAL_DISPLAY_OTA_PAGE 9
#define INTERNAL_DISPLAY_CLIMATE_NULL_PTR_PAGE 10
#define INTERNAL_DISPLAY_MQTT_CONFIG_PAGE 11
#define INTERNAL_DISPLAY_INPUT_NULL_PTR_PAGE 12
#define INTERNAL_DISPLAY_OUTPUT_NULL_PTR_PAGE 13
// Picture IDs
#define PIC_LAN_DISCONNECTED 2
@ -22,11 +31,17 @@
// Messages
#define MSG_MQTT_CONNECTED "BMS Managed"
#define MSG_MQTT_DISCONNECTED "Standalone"
#define MSG_PWM_ADJUSTMENT_STATE_ON "ON"
#define MSG_PWM_ADJUSTMENT_STATE_OFF "OFF"
// Refresh Interval
#define INTERNAL_DISPLAY_CLOCK_REFRESH_INTERVAL 15000
#define INTERNAL_DISPLAY_TOP_BAR_REFRESH_INTERVAL 5000
// Touch Types
#define TOUCH_TYPE_PRESS 0x01
#define TOUCH_TYPE_RELEASE 0x0
class InternalDisplay : public ESPMegaDisplay {
public:
InternalDisplay(HardwareSerial *displayAdapter);
@ -34,10 +49,12 @@ class InternalDisplay : public ESPMegaDisplay {
void loop();
void bindInputCard(DigitalInputCard *inputCard);
void bindOutputCard(DigitalOutputCard *outputCard);
void bindClimateCard(ClimateCard *climateCard);
private:
DigitalInputCard *inputCard;
DigitalOutputCard *outputCard;
ClimateCard *climateCard;
void handleInputStateChange(uint8_t pin, bool state);
void handlePwmStateChange(uint8_t pin, bool state, uint16_t value);
void handlePageChange(uint8_t page);
@ -57,6 +74,15 @@ class InternalDisplay : public ESPMegaDisplay {
void refreshInput();
void refreshOutput();
void refreshAC();
void refreshPWMAdjustment();
void refreshPWMAdjustmentSlider();
void refreshPWMAdjustmentState();
void refreshPWMAdjustmentId();
uint8_t pmwAdjustmentPin;
// Touch handlers
void handleTouch(uint8_t page, uint8_t component, uint8_t type);
void handlePWMAdjustmentTouch(uint8_t component, uint8_t type);
void handleACTouch(uint8_t component, uint8_t type);
MqttConfig *mqttConfig;
NetworkConfig *networkConfig;
// Pointers to various data

View File

@ -30,4 +30,4 @@ lib_deps = adafruit/Adafruit PWM Servo Driver Library@^2.4.1
robtillaart/DHTNEW@^0.4.18
#esphome/ESPAsyncWebServer-esphome@^3.1.0
monitor_speed = 115200
build_flags = -DCORE_DEBUG_LEVEL=1