examples/thermostat/efr32/src/ThermostatUI.cpp - third_party/github/project-chip/connectedhomeip - Git at Google

 /*
  *
  *    Copyright (c) 2020 Project CHIP Authors
  *    All rights reserved.
  *
  *    Licensed under the Apache License, Version 2.0 (the "License");
  *    you may not use this file except in compliance with the License.
  *    You may obtain a copy of the License at
  *
  *        http://www.apache.org/licenses/LICENSE-2.0
  *
  *    Unless required by applicable law or agreed to in writing, software
  *    distributed under the License is distributed on an "AS IS" BASIS,
  *    WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  *    See the License for the specific language governing permissions and
  *    limitations under the License.
  */

 #include <stdio.h>
 #include <string.h>

 #include "ThermostatUI.h"
 #include "demo-ui-bitmaps.h"
 #include "dmd.h"
 #include "glib.h"
 #include "lcd.h"

 // LCD line define
 constexpr uint8_t kTempLcdInitialX = 30;

 // Bitmap
 static const uint8_t silabsLogo[]       = { SILABS_LOGO_SMALL };
 static const uint8_t matterLogoBitmap[] = { MATTER_LOGO_BITMAP };

 static const uint8_t wifiLogo[]   = { WIFI_BITMAP };
 static const uint8_t threadLogo[] = { THREAD_BITMAP };
 static const uint8_t bleLogo[]    = { BLUETOOTH_ICON_SMALL };

 static const unsigned char monaco_48pt[]          = { MONACO_48PT };
 static const unsigned char heating_bits[]         = { HEATING_BITMAP };
 static const unsigned char cooling_bits[]         = { COOLING_BITMAP };
 static const unsigned char heating_cooling_bits[] = { HEATING_COOLING_BITMAP };

 static int8_t mHeatingCelsiusSetPoint;
 static int8_t mCoolingCelsiusSetPoint;
 static int8_t mCurrentTempCelsius;
 static uint8_t mMode;

 #ifdef SL_WIFI
 #define UI_WIFI 1
 #else
 #define UI_WIFI 0
 #endif

 void ThermostatUI::DrawUI(GLIB_Context_t * glibContext)
 {
     if (glibContext == nullptr)
     {
         SILABS_LOG("Context is null");
         return;
     }

     GLIB_clear(glibContext);
     DrawHeader(glibContext);
     DrawCurrentTemp(glibContext, mCurrentTempCelsius);
     DrawFooter(glibContext, false);

     DMD_updateDisplay();
 }

 void ThermostatUI::SetHeatingSetPoint(int8_t temp)
 {
     mHeatingCelsiusSetPoint = temp;
 }

 void ThermostatUI::SetCoolingSetPoint(int8_t temp)
 {
     mCoolingCelsiusSetPoint = temp;
 }

 void ThermostatUI::SetCurrentTemp(int8_t temp)
 {
     mCurrentTempCelsius = temp;
 }
 void ThermostatUI::SetMode(uint8_t mode)
 {
     mMode = mode;
 }

 void ThermostatUI::DrawHeader(GLIB_Context_t * glibContext)
 {
     // Draw Silabs Corner icon
     GLIB_drawBitmap(glibContext, SILABS_ICON_POSITION_X, STATUS_ICON_LINE, SILABS_LOGO_WIDTH, SILABS_LOGO_HEIGHT, silabsLogo);
     // Draw BLE Icon
     GLIB_drawBitmap(glibContext, BLE_ICON_POSITION_X, STATUS_ICON_LINE, BLUETOOTH_ICON_SIZE, BLUETOOTH_ICON_SIZE, bleLogo);
     // Draw WiFi/OpenThread Icon
     GLIB_drawBitmap(glibContext, NETWORK_ICON_POSITION_X, STATUS_ICON_LINE, (UI_WIFI) ? WIFI_BITMAP_HEIGHT : THREAD_BITMAP_WIDTH,
                     WIFI_BITMAP_HEIGHT, (UI_WIFI) ? wifiLogo : threadLogo);
     // Draw Matter Icon
     GLIB_drawBitmap(glibContext, MATTER_ICON_POSITION_X, STATUS_ICON_LINE, MATTER_LOGO_WIDTH, MATTER_LOGO_HEIGHT, matterLogoBitmap);
     DMD_updateDisplay();
 }

 void ThermostatUI::DrawFooter(GLIB_Context_t * glibContext, bool autoMode)
 {
     switch (static_cast<ThermostatUI::HVACMode>(mMode))
     {
     case HVACMode::HEATING:
         GLIB_drawStringOnLine(glibContext, "Mode : Heating", 11, GLIB_ALIGN_LEFT, 0, 0, true);
         GLIB_drawBitmap(glibContext, HEATING_COOLING_X, HEATING_COOLING_Y, COOLING_WIDTH, COOLING_HEIGHT, heating_bits);
         DrawSetPoint(glibContext, mHeatingCelsiusSetPoint, false);
         break;
     case HVACMode::COOLING:
         GLIB_drawStringOnLine(glibContext, "Mode : Cooling", 11, GLIB_ALIGN_LEFT, 0, 0, true);
         GLIB_drawBitmap(glibContext, HEATING_COOLING_X, HEATING_COOLING_Y, COOLING_WIDTH, COOLING_HEIGHT, cooling_bits);
         DrawSetPoint(glibContext, mCoolingCelsiusSetPoint, false);
         break;
     case HVACMode::HEATING_COOLING:
         GLIB_drawStringOnLine(glibContext, "Mode : Auto", 11, GLIB_ALIGN_LEFT, 0, 0, true);
         GLIB_drawBitmap(glibContext, HEATING_COOLING_X, HEATING_COOLING_Y, COOLING_WIDTH, COOLING_HEIGHT, heating_cooling_bits);
         DrawSetPoint(glibContext, mHeatingCelsiusSetPoint, false);
         DrawSetPoint(glibContext, mCoolingCelsiusSetPoint, true);
         break;
     case HVACMode::MODE_OFF:
         DrawSetPoint(glibContext, 0, false);
         GLIB_drawStringOnLine(glibContext, "Mode : OFF", 11, GLIB_ALIGN_LEFT, 0, 0, true);
         break;
     default:
         break;
     }

     DMD_updateDisplay();
 }

 /**
  * @brief Draw a 2 digit Temp of screen. Because of this Celsius is used by default
  * @param GLIB_Context_t * pointer to the context for the GLIB library
  * @param int8_t current Temperature in Celsius
  * @param int8_t setPoint in Celsius
  * @param bool isCelsius By default set to True. For future development
  */
 void ThermostatUI::DrawCurrentTemp(GLIB_Context_t * glibContext, int8_t temp, bool isCelsius)
 {
     uint8_t tempArray[2];
     uint8_t position_x = 10;
     uint8_t * data;

     if (temp > 99 || temp < -99)
     {
         // Invalid temp for a house thermostat
         return;
     }

     if (temp < 0)
     {
         for (uint8_t y = 60; y < 64; y++)
         {
             for (uint8_t x = 1; x < 10; x++)
             {
                 GLIB_drawPixel(glibContext, x, y);
             }
         }

         temp = temp * -1;
     }

     // Draw Unit
     if (isCelsius)
     {
         data = (uint8_t *) &monaco_48pt[DEGREE_INDEX];
         DrawFont(glibContext, 65, kTempLcdInitialX, 15, data, MONACO_FONT_CH_LENGTH);
         data = (uint8_t *) &monaco_48pt[CELSIUS_INDEX];
         DrawFont(glibContext, 70, kTempLcdInitialX, 15, data, MONACO_FONT_CH_LENGTH);
     }
     else
     {
         data = (uint8_t *) &monaco_48pt[DEGREE_INDEX];
         DrawFont(glibContext, 65, 25, 15, data, MONACO_FONT_CH_LENGTH); // 25 to fit with f of fahrenheint
         data = (uint8_t *) &monaco_48pt[FAHRENHEIT_INDEX];
         DrawFont(glibContext, 70, kTempLcdInitialX, 15, data, MONACO_FONT_CH_LENGTH);
     }

     // Print Current temp
     tempArray[0] = (uint8_t)((temp / 10));
     tempArray[1] = (uint8_t)((temp % 10));

     for (uint8_t ch = 0; ch < 2; ch++)
     {
         data = (uint8_t *) &monaco_48pt[tempArray[ch] * MONACO_FONT_NB_LENGTH];
         DrawFont(glibContext, position_x, kTempLcdInitialX, MONACO_FONT_WIDTH, data, MONACO_FONT_NB_LENGTH);
         position_x += MONACO_FONT_WIDTH;
     }
 }

 void ThermostatUI::DrawFont(GLIB_Context_t * glibContext, uint8_t initial_x, uint8_t initial_y, uint8_t width, uint8_t * data,
                             uint32_t size)
 {
     uint8_t x = initial_x, y = initial_y;
     for (uint16_t i = 0; i < size; i++)
     {
         for (uint8_t mask = 0; mask < 8; mask++)
         {
             if (!(data[i] & (0x01 << mask)))
             {
                 GLIB_drawPixel(glibContext, x, y);
             }
             // Check line changes
             if (((x - initial_x) % width) == 0 && x != initial_x)
             {
                 x = initial_x;
                 y++;
                 // Font is 8 bit align with paddings bits;
                 mask = 8;
             }
             else
             {
                 x++;
             }
         }
     }
 }

 void ThermostatUI::DrawSetPoint(GLIB_Context_t * glibContext, int8_t setPoint, bool secondLine)
 {
     char setPointLine[] = { '-', 'X', 'X', '\0' };

     if (setPoint > 99 || setPoint < -99)
     {
         return;
     }

     // Update SetPoint string
     if (static_cast<ThermostatUI::HVACMode>(mMode) == ThermostatUI::HVACMode::MODE_OFF)
     {
         setPointLine[0] = '-';
         setPointLine[1] = '-';
         setPointLine[2] = '\0';
     }
     else if (setPoint < 0)
     {
         setPointLine[0] = (setPoint < 0) ? '-' : ' ';
         setPoint *= -1;
         setPointLine[1] = ((setPoint / 10) + 0x30);
         setPointLine[2] = ((setPoint % 10) + 0x30);
     }
     else
     {
         setPointLine[0] = ((setPoint / 10) + 0x30);
         setPointLine[1] = ((setPoint % 10) + 0x30);
         setPointLine[2] = '\0';
     }

     // Print SetPoint
     GLIB_drawStringOnLine(glibContext, setPointLine, (secondLine) ? 8 : 7, GLIB_ALIGN_LEFT, 67, 0, true);
 }
	/*
	*
	* Copyright (c) 2020 Project CHIP Authors
	* All rights reserved.
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#include <stdio.h>
	#include <string.h>

	#include "ThermostatUI.h"
	#include "demo-ui-bitmaps.h"
	#include "dmd.h"
	#include "glib.h"
	#include "lcd.h"

	// LCD line define
	constexpr uint8_t kTempLcdInitialX = 30;

	// Bitmap
	static const uint8_t silabsLogo[] = { SILABS_LOGO_SMALL };
	static const uint8_t matterLogoBitmap[] = { MATTER_LOGO_BITMAP };

	static const uint8_t wifiLogo[] = { WIFI_BITMAP };
	static const uint8_t threadLogo[] = { THREAD_BITMAP };
	static const uint8_t bleLogo[] = { BLUETOOTH_ICON_SMALL };

	static const unsigned char monaco_48pt[] = { MONACO_48PT };
	static const unsigned char heating_bits[] = { HEATING_BITMAP };
	static const unsigned char cooling_bits[] = { COOLING_BITMAP };
	static const unsigned char heating_cooling_bits[] = { HEATING_COOLING_BITMAP };

	static int8_t mHeatingCelsiusSetPoint;
	static int8_t mCoolingCelsiusSetPoint;
	static int8_t mCurrentTempCelsius;
	static uint8_t mMode;

	#ifdef SL_WIFI
	#define UI_WIFI 1
	#else
	#define UI_WIFI 0
	#endif

	void ThermostatUI::DrawUI(GLIB_Context_t * glibContext)
	{
	if (glibContext == nullptr)
	{
	SILABS_LOG("Context is null");
	return;
	}

	GLIB_clear(glibContext);
	DrawHeader(glibContext);
	DrawCurrentTemp(glibContext, mCurrentTempCelsius);
	DrawFooter(glibContext, false);

	DMD_updateDisplay();
	}

	void ThermostatUI::SetHeatingSetPoint(int8_t temp)
	{
	mHeatingCelsiusSetPoint = temp;
	}

	void ThermostatUI::SetCoolingSetPoint(int8_t temp)
	{
	mCoolingCelsiusSetPoint = temp;
	}

	void ThermostatUI::SetCurrentTemp(int8_t temp)
	{
	mCurrentTempCelsius = temp;
	}
	void ThermostatUI::SetMode(uint8_t mode)
	{
	mMode = mode;
	}

	void ThermostatUI::DrawHeader(GLIB_Context_t * glibContext)
	{
	// Draw Silabs Corner icon
	GLIB_drawBitmap(glibContext, SILABS_ICON_POSITION_X, STATUS_ICON_LINE, SILABS_LOGO_WIDTH, SILABS_LOGO_HEIGHT, silabsLogo);
	// Draw BLE Icon
	GLIB_drawBitmap(glibContext, BLE_ICON_POSITION_X, STATUS_ICON_LINE, BLUETOOTH_ICON_SIZE, BLUETOOTH_ICON_SIZE, bleLogo);
	// Draw WiFi/OpenThread Icon
	GLIB_drawBitmap(glibContext, NETWORK_ICON_POSITION_X, STATUS_ICON_LINE, (UI_WIFI) ? WIFI_BITMAP_HEIGHT : THREAD_BITMAP_WIDTH,
	WIFI_BITMAP_HEIGHT, (UI_WIFI) ? wifiLogo : threadLogo);
	// Draw Matter Icon
	GLIB_drawBitmap(glibContext, MATTER_ICON_POSITION_X, STATUS_ICON_LINE, MATTER_LOGO_WIDTH, MATTER_LOGO_HEIGHT, matterLogoBitmap);
	DMD_updateDisplay();
	}

	void ThermostatUI::DrawFooter(GLIB_Context_t * glibContext, bool autoMode)
	{
	switch (static_cast<ThermostatUI::HVACMode>(mMode))
	{
	case HVACMode::HEATING:
	GLIB_drawStringOnLine(glibContext, "Mode : Heating", 11, GLIB_ALIGN_LEFT, 0, 0, true);
	GLIB_drawBitmap(glibContext, HEATING_COOLING_X, HEATING_COOLING_Y, COOLING_WIDTH, COOLING_HEIGHT, heating_bits);
	DrawSetPoint(glibContext, mHeatingCelsiusSetPoint, false);
	break;
	case HVACMode::COOLING:
	GLIB_drawStringOnLine(glibContext, "Mode : Cooling", 11, GLIB_ALIGN_LEFT, 0, 0, true);
	GLIB_drawBitmap(glibContext, HEATING_COOLING_X, HEATING_COOLING_Y, COOLING_WIDTH, COOLING_HEIGHT, cooling_bits);
	DrawSetPoint(glibContext, mCoolingCelsiusSetPoint, false);
	break;
	case HVACMode::HEATING_COOLING:
	GLIB_drawStringOnLine(glibContext, "Mode : Auto", 11, GLIB_ALIGN_LEFT, 0, 0, true);
	GLIB_drawBitmap(glibContext, HEATING_COOLING_X, HEATING_COOLING_Y, COOLING_WIDTH, COOLING_HEIGHT, heating_cooling_bits);
	DrawSetPoint(glibContext, mHeatingCelsiusSetPoint, false);
	DrawSetPoint(glibContext, mCoolingCelsiusSetPoint, true);
	break;
	case HVACMode::MODE_OFF:
	DrawSetPoint(glibContext, 0, false);
	GLIB_drawStringOnLine(glibContext, "Mode : OFF", 11, GLIB_ALIGN_LEFT, 0, 0, true);
	break;
	default:
	break;
	}

	DMD_updateDisplay();
	}

	/**
	* @brief Draw a 2 digit Temp of screen. Because of this Celsius is used by default
	* @param GLIB_Context_t * pointer to the context for the GLIB library
	* @param int8_t current Temperature in Celsius
	* @param int8_t setPoint in Celsius
	* @param bool isCelsius By default set to True. For future development
	*/
	void ThermostatUI::DrawCurrentTemp(GLIB_Context_t * glibContext, int8_t temp, bool isCelsius)
	{
	uint8_t tempArray[2];
	uint8_t position_x = 10;
	uint8_t * data;

	if (temp > 99 \|\| temp < -99)
	{
	// Invalid temp for a house thermostat
	return;
	}

	if (temp < 0)
	{
	for (uint8_t y = 60; y < 64; y++)
	{
	for (uint8_t x = 1; x < 10; x++)
	{
	GLIB_drawPixel(glibContext, x, y);
	}
	}

	temp = temp * -1;
	}

	// Draw Unit
	if (isCelsius)
	{
	data = (uint8_t *) &monaco_48pt[DEGREE_INDEX];
	DrawFont(glibContext, 65, kTempLcdInitialX, 15, data, MONACO_FONT_CH_LENGTH);
	data = (uint8_t *) &monaco_48pt[CELSIUS_INDEX];
	DrawFont(glibContext, 70, kTempLcdInitialX, 15, data, MONACO_FONT_CH_LENGTH);
	}
	else
	{
	data = (uint8_t *) &monaco_48pt[DEGREE_INDEX];
	DrawFont(glibContext, 65, 25, 15, data, MONACO_FONT_CH_LENGTH); // 25 to fit with f of fahrenheint
	data = (uint8_t *) &monaco_48pt[FAHRENHEIT_INDEX];
	DrawFont(glibContext, 70, kTempLcdInitialX, 15, data, MONACO_FONT_CH_LENGTH);
	}

	// Print Current temp
	tempArray[0] = (uint8_t)((temp / 10));
	tempArray[1] = (uint8_t)((temp % 10));

	for (uint8_t ch = 0; ch < 2; ch++)
	{
	data = (uint8_t ) &monaco_48pt[tempArray[ch] MONACO_FONT_NB_LENGTH];
	DrawFont(glibContext, position_x, kTempLcdInitialX, MONACO_FONT_WIDTH, data, MONACO_FONT_NB_LENGTH);
	position_x += MONACO_FONT_WIDTH;
	}
	}

	void ThermostatUI::DrawFont(GLIB_Context_t * glibContext, uint8_t initial_x, uint8_t initial_y, uint8_t width, uint8_t * data,
	uint32_t size)
	{
	uint8_t x = initial_x, y = initial_y;
	for (uint16_t i = 0; i < size; i++)
	{
	for (uint8_t mask = 0; mask < 8; mask++)
	{
	if (!(data[i] & (0x01 << mask)))
	{
	GLIB_drawPixel(glibContext, x, y);
	}
	// Check line changes
	if (((x - initial_x) % width) == 0 && x != initial_x)
	{
	x = initial_x;
	y++;
	// Font is 8 bit align with paddings bits;
	mask = 8;
	}
	else
	{
	x++;
	}
	}
	}
	}

	void ThermostatUI::DrawSetPoint(GLIB_Context_t * glibContext, int8_t setPoint, bool secondLine)
	{
	char setPointLine[] = { '-', 'X', 'X', '\0' };

	if (setPoint > 99 \|\| setPoint < -99)
	{
	return;
	}

	// Update SetPoint string
	if (static_cast<ThermostatUI::HVACMode>(mMode) == ThermostatUI::HVACMode::MODE_OFF)
	{
	setPointLine[0] = '-';
	setPointLine[1] = '-';
	setPointLine[2] = '\0';
	}
	else if (setPoint < 0)
	{
	setPointLine[0] = (setPoint < 0) ? '-' : ' ';
	setPoint *= -1;
	setPointLine[1] = ((setPoint / 10) + 0x30);
	setPointLine[2] = ((setPoint % 10) + 0x30);
	}
	else
	{
	setPointLine[0] = ((setPoint / 10) + 0x30);
	setPointLine[1] = ((setPoint % 10) + 0x30);
	setPointLine[2] = '\0';
	}

	// Print SetPoint
	GLIB_drawStringOnLine(glibContext, setPointLine, (secondLine) ? 8 : 7, GLIB_ALIGN_LEFT, 67, 0, true);
	}