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Weather_ESP/components/display/display.c

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/*
* display.c
*
* Created on: 19 Apr 2020
* Author: Chris
*/
#include "display.h"
#include "tftspi.h"
#include "tft.h"
#define SPI_BUS TFT_VSPI_HOST
typedef struct {
int datetimeW;
int datetimeA;
int dateTimeLeft;
int datetimeBaseline;
int innenW;
int aussenW;
int locA;
int tempW;
int degCW;
int tempA;
int humW;
int percentW;
int humA;
int pressW;
int pressA;
int hpaW;
int datetimebarH;
int margin;
int borderVMargin;
int innenBaseline;
int aussenBaseline;
int pressBaseline;
int humBaseline;
int tempBaseline;
int unitMaxW;
int unitW;
int ioW;
int unitLeft;
int innenLeft;
int aussenLeft;
} layout_t;
static layout_t layout;
layout_t create_layout()
{
layout_t layout;
int screenW = tft_width;
int screenH = tft_height;
layout.datetimebarH = 20; // Can be calculated too
layout.margin = 5;
layout.borderVMargin = 10;
TFT_setFont(SMALL_FONT, NULL);
layout.datetimebarH = 20;
layout.datetimeW = TFT_getStringWidth("25.12.2031 08:31:11");
layout.datetimeA = TFT_getfontheight();
layout.dateTimeLeft = (screenW - layout.datetimeW) / 2;
layout.datetimeBaseline = (layout.datetimebarH - layout.datetimeA) / 2;
TFT_setFont(UBUNTU16_FONT, NULL);
layout.innenW = TFT_getStringWidth("Innen");
layout.aussenW = TFT_getStringWidth("Aussen");
layout.locA = TFT_getfontheight();
TFT_setFont(DEJAVU18_FONT, NULL);
layout.tempW = TFT_getStringWidth("-35.2");
layout.degCW = TFT_getStringWidth(" C");
layout.tempA = TFT_getfontheight();
TFT_setFont(UBUNTU16_FONT, NULL);
layout.humW = TFT_getStringWidth("25.2");
layout.percentW = TFT_getStringWidth("%");
layout.humA = TFT_getfontheight();
layout.pressW = TFT_getStringWidth("1281");
layout.pressA = TFT_getfontheight();
layout.hpaW = TFT_getStringWidth("hPa");
layout.innenBaseline = layout.datetimebarH + layout.borderVMargin;
layout.aussenBaseline = layout.innenBaseline;
layout.pressBaseline = screenH - layout.borderVMargin - layout.pressA;
layout.humBaseline = layout.pressBaseline - layout.pressA - layout.margin;
layout.tempBaseline = (layout.humBaseline - layout.humA + layout.innenBaseline) / 2
+ 0.5*layout.tempA - 1;
int unitMaxW = layout.degCW;
if (layout.percentW > unitMaxW) unitMaxW = layout.percentW;
if (layout.hpaW > unitMaxW) unitMaxW = layout.hpaW;
layout.unitW = 2*layout.margin + unitMaxW;
layout.ioW = (screenW - layout.unitW) / 2;
layout.unitLeft = screenW - layout.unitW + layout.margin;
layout.innenLeft = layout.margin;
layout.aussenLeft = layout.innenLeft + layout.ioW;
ESP_LOGI("main", "innen: %d x %d, aussen: %d x %d", layout.innenW,
layout.locA, layout.aussenW, layout.locA);
ESP_LOGI("main", "temps: %d x %d, unit: %d x %d", layout.tempW,
layout.tempA, layout.degCW, layout.tempA);
ESP_LOGI("main", "hum: %d x %d, unit: %d x %d", layout.humW, layout.humA,
layout.percentW, layout.humA);
ESP_LOGI("main", "press: %d x %d, unit: %d x %d", layout.pressW, layout.pressA,
layout.hpaW, layout.pressA);
ESP_LOGI("main", "Baselines - innen: %d, aussen: %d, press: %d, hum: %d, temp: %d",
layout.innenBaseline, layout.aussenBaseline,
layout.pressBaseline, layout.humBaseline, layout.tempBaseline);
ESP_LOGI("main", "Width - units: %d, i/o: %d", layout.unitW, layout.ioW);
ESP_LOGI("main", "Left - units: %d", layout.unitLeft);
return layout;
}
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uint8_t interpolation(int32_t arg) {
int32_t i32_val = arg * 256 / 1000;
uint8_t u8_val = (uint8_t)i32_val;
return u8_val;
}
color_t temp_color(int32_t temp_raw) {
color_t col = { 0 };
if (temp_raw >= 3500)
col.r = 255;
else if (temp_raw < 3500 && temp_raw > 2500) {
int32_t diff = 3500 - temp_raw;
col.r = 255;
col.g = interpolation(diff);
}
else if (temp_raw == 2500) {
col.r = 255;
col.g = 255;
}
else if (temp_raw < 2500 && temp_raw > 1500) {
int32_t diff = temp_raw - 1500;
col.r = interpolation(diff);
col.g = 255;
}
else if (temp_raw == 1500)
col.g = 255;
else if (temp_raw < 1500 && temp_raw > 500) {
int32_t diff = 1500 - temp_raw;
col.g = 255;
col.b = interpolation(diff);
}
else if (temp_raw == 500) {
col.g = 255;
col.b = 255;
}
else if (temp_raw < 500 && temp_raw > -500) {
int32_t diff = temp_raw + 500;
col.g = interpolation(diff);
col.b = 255;
}
else if (temp_raw == -500)
col.b = 255;
else if (temp_raw < -500 && temp_raw > -1500) {
int32_t diff = -500 - temp_raw;
col.r = interpolation(diff);
col.b = 255;
}
else if (temp_raw <= -1500) {
col.r = 255;
col.b = 255;
}
return col;
}
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void print_temp1(int32_t temp_raw)
{
// Calc temperature pre and post comma values
int32_t temp_pre = temp_raw / 100;
int32_t temp_post = (abs(temp_raw) % 100) / 10;
char temp_str[12];
sprintf(temp_str, "% 2.2d,%.1d", temp_pre, temp_post);
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TFT_setFont(DEJAVU18_FONT, NULL);
tft_fg = temp_color(temp_raw);
TFT_print(temp_str, layout.innenLeft, layout.tempBaseline);
}
void print_temp2(int32_t temp_raw)
{
// Calc temperature pre and post comma values
int32_t temp_pre = temp_raw / 100;
int32_t temp_post = (abs(temp_raw) % 100) / 10;
char temp_str[12];
sprintf(temp_str, "% 2.2d,%.1d", temp_pre, temp_post);
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TFT_setFont(DEJAVU18_FONT, NULL);
tft_fg = temp_color(temp_raw);
TFT_print(temp_str, layout.aussenLeft, layout.tempBaseline);
}
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void print_press1(uint32_t pressure_raw)
{
// Calc pressure values
uint32_t press = pressure_raw / 100;
char press_str[12];
sprintf(press_str, "%d", press);
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TFT_setFont(UBUNTU16_FONT, NULL);
tft_fg = TFT_WHITE;
TFT_print(press_str, layout.innenLeft, layout.pressBaseline);
}
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void print_press2(uint32_t pressure_raw)
{
// Calc pressure values
uint32_t press = pressure_raw / 100;
char press_str[12];
sprintf(press_str, "%d", press);
TFT_setFont(UBUNTU16_FONT, NULL);
tft_fg = TFT_WHITE;
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TFT_print(press_str, layout.aussenLeft, layout.pressBaseline);
}
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void print_humid1(uint32_t humidity_raw)
{
// Calc humidity pre and post comma values
uint32_t humid_pre = humidity_raw / 1024;
uint32_t humid_post = (humidity_raw - humid_pre*1024) * 10 / 1024;
char humid_str[12];
sprintf(humid_str, "%2.2d,%.1d", humid_pre, humid_post);
TFT_setFont(UBUNTU16_FONT, NULL);
tft_fg = TFT_WHITE;
TFT_print(humid_str, layout.innenLeft, layout.humBaseline);
}
void print_humid2(uint32_t humidity_raw)
{
// Calc humidity pre and post comma values
uint32_t humid_pre = humidity_raw / 1024;
uint32_t humid_post = (humidity_raw - humid_pre*1024) * 10 / 1024;
char humid_str[12];
sprintf(humid_str, "%2.2d,%.1d", humid_pre, humid_post);
TFT_setFont(UBUNTU16_FONT, NULL);
tft_fg = TFT_WHITE;
TFT_print(humid_str, layout.aussenLeft, layout.humBaseline);
}
void print_time(time_str_t time)
{
TFT_setFont(SMALL_FONT, NULL);
char datetime_str[129];
sprintf(datetime_str, "%s %s", time.date_str, time.time_str);
TFT_print(datetime_str, layout.dateTimeLeft, layout.datetimeBaseline);
}
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void display_data(int32_t temp_raw, uint32_t pressure_raw, uint32_t humidity_raw,
int32_t temp2_raw, uint32_t pressure2_raw, uint32_t humidity2_raw,
time_str_t time)
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{
// HEADER
tft_fg = TFT_WHITE;
TFT_drawFastHLine(0, 20, 160, TFT_WHITE);
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// IN OUT LABEL
TFT_setFont(UBUNTU16_FONT, NULL);
TFT_print("Innen", layout.innenLeft, layout.innenBaseline);
TFT_print("Aussen", layout.aussenLeft, layout.aussenBaseline);
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// VALUES
print_temp1(temp_raw);
print_temp2(temp2_raw);
print_humid1(humidity_raw);
print_humid2(humidity2_raw);
print_press1(pressure_raw);
print_press2(pressure2_raw);
print_time(time);
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// UNIT LABELS
TFT_setFont(DEJAVU18_FONT, NULL);
tft_fg = TFT_WHITE;
TFT_print(" C", layout.unitLeft, layout.tempBaseline);
TFT_drawCircle(layout.unitLeft+3, layout.tempBaseline+3, 3, TFT_WHITE);
TFT_setFont(UBUNTU16_FONT, NULL);
TFT_print("%", layout.unitLeft, layout.humBaseline);
TFT_print("hPa", layout.unitLeft, layout.pressBaseline);
}
void update_data(int32_t temp_raw, uint32_t pressure_raw, uint32_t humidity_raw,
int32_t temp2_raw, uint32_t pressure2_raw, uint32_t humidity2_raw,
time_str_t time)
{
// VALUES
print_temp1(temp_raw);
print_temp2(temp2_raw);
print_humid1(humidity_raw);
print_humid2(humidity2_raw);
print_press1(pressure_raw);
print_press2(pressure2_raw);
print_time(time);
}
esp_err_t init_display()
{
tft_max_rdclock = 4000000;
TFT_PinsInit();
spi_lobo_device_handle_t spi;
spi_lobo_bus_config_t buscfg={
.miso_io_num=PIN_NUM_MISO,
.mosi_io_num=PIN_NUM_MOSI,
.sclk_io_num=PIN_NUM_CLK,
.quadwp_io_num=-1,
.quadhd_io_num=-1,
.max_transfer_sz = 6*1024,
};
spi_lobo_device_interface_config_t devcfg={
.clock_speed_hz=8000000,
.mode=0,
.spics_io_num=-1,
.spics_ext_io_num=PIN_NUM_CS,
.flags=LB_SPI_DEVICE_HALFDUPLEX,
};
esp_err_t ret;
ret=spi_lobo_bus_add_device(SPI_BUS, &buscfg, &devcfg, &spi);
if (ret != ESP_OK)
{
return ret;
}
tft_disp_spi = spi;
TFT_display_init();
tft_max_rdclock = find_rd_speed();
spi_lobo_set_speed(spi, DEFAULT_SPI_CLOCK);
tft_font_rotate = 0;
tft_text_wrap = 0;
tft_font_transparent = 0;
tft_font_forceFixed = 0;
tft_gray_scale = 0;
TFT_setGammaCurve(DEFAULT_GAMMA_CURVE);
TFT_setRotation(LANDSCAPE_FLIP);
TFT_setFont(DEFAULT_FONT, NULL);
TFT_resetclipwin();
tft_image_debug = 0;
layout = create_layout();
return ESP_OK;
}