315 lines
9.7 KiB
C++
315 lines
9.7 KiB
C++
void setup_screen() {
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// Initialise the TFT registers
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tft.init();
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#ifdef ILI9341_DRIVER
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tft.setRotation(3);
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#endif
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#ifdef ST7789_DRIVER
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tft.setRotation(1);
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#endif
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// Optionally set colour depth to 8 or 16 bits, default is 16 if not spedified
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spr.setColorDepth(8);
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// Create a sprite of defined size
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spr.createSprite(DISPLAY_WIDTH, DISPLAY_HEIGHT);
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// Clear the TFT screen to blue
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tft.fillScreen(TFT_BLACK);
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}
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int data[DISPLAY_WIDTH] = {0};
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/*
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float to_scale(float reading) {
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float temp = DISPLAY_HEIGHT -
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(
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(
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(
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(float)((reading - 20480.0) / 4095.0)
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+ (offset / 3.3)
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)
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* 3300 /
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(v_div * 6)
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)
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)
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* (DISPLAY_HEIGHT - 1)
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- 1;
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return temp;
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}
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*/
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float to_scale(float reading) {
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float temp = DISPLAY_HEIGHT - (((reading / 4095.0) + (offset / 3.3)) * 3300 / (v_div * 6)) * (DISPLAY_HEIGHT - 1) - 1;
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return temp;
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}
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/*
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float to_voltage(float reading) {
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return (reading - 20480.0) / 4095.0 * 3.3;
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}
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*/
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float to_voltage(float reading) {
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return reading / 4095.0 * 3.3;
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}
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/*
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uint32_t from_voltage(float voltage) {
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return uint32_t(voltage / 3.3 * 4095 + 20480.0);
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}
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*/
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uint32_t from_voltage(float voltage) {
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return ((uint32_t)(voltage / 3.3 * 4095));
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}
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void update_screen(uint16_t *i2s_buff, float sample_rate) {
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float mean = 0;
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float max_v, min_v;
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peak_mean(i2s_buff, BUFF_SIZE, &max_v, &min_v, &mean);
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float freq = 0;
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float period = 0;
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uint32_t trigger0 = 0;
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uint32_t trigger1 = 0;
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//if analog mode OR auto mode and wave recognized as analog
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bool digital_data = false;
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if (digital_wave_option == 1) {
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trigger_freq_analog(i2s_buff, sample_rate, mean, max_v, min_v, &freq, &period, &trigger0, &trigger1);
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}
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else if (digital_wave_option == 0) {
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digital_data = digital_analog(i2s_buff, max_v, min_v);
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if (!digital_data) {
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trigger_freq_analog(i2s_buff, sample_rate, mean, max_v, min_v, &freq, &period, &trigger0, &trigger1);
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}
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else {
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trigger_freq_digital(i2s_buff, sample_rate, mean, max_v, min_v, &freq, &period, &trigger0);
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}
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}
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else {
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trigger_freq_digital(i2s_buff, sample_rate, mean, max_v, min_v, &freq, &period, &trigger0);
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}
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draw_sprite(freq, period, mean, max_v, min_v, trigger0, sample_rate, digital_data, true);
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}
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void draw_sprite(float freq,
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float period,
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float mean,
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float max_v,
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float min_v,
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uint32_t trigger,
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float sample_rate,
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bool digital_data,
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bool new_data
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) {
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max_v = to_voltage(max_v);
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min_v = to_voltage(min_v);
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String frequency = "";
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if (freq < 1000)
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frequency = String(freq) + "hz";
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else if (freq < 100000)
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frequency = String(freq / 1000) + "khz";
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else
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frequency = "----";
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String s_mean = "";
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if (mean > 1.0)
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s_mean = "Avg: " + String(mean) + "V";
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else
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s_mean = "Avg: " + String(mean * 1000.0) + "mV";
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String str_filter = "";
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if (current_filter == 0)
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str_filter = "None";
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else if (current_filter == 1)
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str_filter = "Pixel";
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else if (current_filter == 2)
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str_filter = "Mean-5";
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else if (current_filter == 3)
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str_filter = "Lpass9";
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String str_stop = "";
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if (!stop)
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str_stop = "RUNNING";
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else
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str_stop = "STOPPED";
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String wave_option = "";
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if (digital_wave_option == 0)
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if (digital_data )
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wave_option = "AUTO:Dig./data";
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else
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wave_option = "AUTO:Analog";
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else if (digital_wave_option == 1)
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wave_option = "MODE:Analog";
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else
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wave_option = "MODE:Dig./data";
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if (new_data) {
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// Fill the whole sprite with black (Sprite is in memory so not visible yet)
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spr.fillSprite(TFT_BLACK);
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draw_grid();
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if (auto_scale) {
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auto_scale = false;
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v_div = 1000.0 * max_v / 6.0;
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s_div = period / 3.5;
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if (s_div > 7000 || s_div <= 0)
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s_div = 7000;
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if (v_div <= 0)
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v_div = 550;
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}
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//only draw digital data if a trigger was in the data
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if (!(digital_wave_option == 2 && trigger == 0))
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draw_channel1(trigger, 0, i2s_buff, sample_rate);
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}
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#ifdef ILI9341_DRIVER
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int shift = DISPLAY_WIDTH - 130;
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#endif
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#ifdef ST7789_DRIVER
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int shift = DISPLAY_WIDTH - 110;
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#endif
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if (menu) {
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spr.drawLine( 0, DISPLAY_HEIGHT/2, DISPLAY_WIDTH, DISPLAY_HEIGHT/2, TFT_WHITE); //center line
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spr.fillRect(shift, 0, (DISPLAY_HEIGHT/2)-18, (DISPLAY_HEIGHT/2)+15, TFT_BLACK);
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spr.drawRect(shift, 0, (DISPLAY_HEIGHT/2)-18, (DISPLAY_HEIGHT/2)+15, TFT_WHITE);
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spr.fillRect(shift + 1, 3 + 10 * (opt - 1), 100, 11, TFT_RED);
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spr.drawString("AUTOSCALE", shift + 5, 5);
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spr.drawString(String(int(v_div)) + "mV/div", shift + 5, 15);
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spr.drawString(String(int(s_div)) + "uS/div", shift + 5, 25);
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spr.drawString("Offset: " + String(offset) + "V", shift + 5, 35);
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spr.drawString("T-Off: " + String((uint32_t)toffset) + "uS", shift + 5, 45);
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spr.drawString("Filter: " + str_filter, shift + 5, 55);
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spr.drawString(str_stop, shift + 5, 65);
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spr.drawString(wave_option, shift + 5, 75);
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spr.drawString("Single " + String(single_trigger ? "ON" : "OFF"), shift + 5, 85);
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spr.drawLine(shift, 103, shift + 100, 103, TFT_WHITE);
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spr.drawString("Vmax: " + String(max_v) + "V", shift + 5, 105);
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spr.drawString("Vmin: " + String(min_v) + "V", shift + 5, 115);
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spr.drawString(s_mean, shift + 5, 125);
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shift -= 70;
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//spr.fillRect(shift, 0, 70, 30, TFT_BLACK);
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spr.drawRect(shift, 0, 70, 30, TFT_WHITE);
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spr.drawString("P-P: " + String(max_v - min_v) + "V", shift + 5, 5);
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spr.drawString(frequency, shift + 5, 15);
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//String offset_line = String((2.0 * v_div) / 1000.0 - offset) + "V";
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String offset_line = String((3.0 * v_div) / 1000.0 - offset) + "V";
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spr.drawString(offset_line, shift + 25, (DISPLAY_HEIGHT/2)-8);
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if (set_value) {
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#ifdef ILI9341_DRIVER
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uint16_t t_left = shift+161;
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#endif
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#ifdef ST7789_DRIVER
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uint16_t t_left = shift+149; // previously hard coeded value 229
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#endif
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// Plus symbols while setting a value
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spr.fillRect(t_left, 0, 11, 11, TFT_BLUE);
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spr.drawRect(t_left, 0, 11, 11, TFT_WHITE);
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spr.drawLine(t_left+2, 5, t_left+9, 5, TFT_WHITE);
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spr.drawLine(t_left+5, 2, t_left+5, 8, TFT_WHITE);
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// Minus symbols while setting a value
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spr.fillRect(t_left, 124, 11, 11, TFT_BLUE);
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spr.drawRect(t_left, 124, 11, 11, TFT_WHITE);
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spr.drawLine(t_left+2, 129, t_left+9, 129, TFT_WHITE);
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}
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}
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else if (info) {
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spr.drawLine( 0, 120, DISPLAY_WIDTH, 120, TFT_WHITE); //center line
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//spr.drawRect(shift + 10, 0, DISPLAY_WIDTH - shift - 20, 30, TFT_WHITE);
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spr.drawString("P-P: " + String(max_v - min_v) + "V", shift + 15, 5);
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spr.drawString(frequency, shift + 15, 15);
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spr.drawString(String(int(v_div)) + "mV/div", shift - 100, 5);
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spr.drawString(String(int(s_div)) + "uS/div", shift - 100, 15);
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//String offset_line = String((2.0 * v_div) / 1000.0 - offset) + "V";
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String offset_line = String((3.0 * v_div) / 1000.0 - offset) + "V";
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spr.drawString(offset_line, shift + 75, (DISPLAY_HEIGHT/2)-8);
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}
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//push the drawed sprite to the screen
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spr.pushSprite(0, 0);
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yield(); // Stop watchdog reset
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}
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void draw_grid() {
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for (int i = 0; i < (DISPLAY_WIDTH/10); i++) {
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spr.drawPixel(i * 10, 40, TFT_WHITE);
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spr.drawPixel(i * 10, 80, TFT_WHITE);
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spr.drawPixel(i * 10, 120, TFT_WHITE);
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spr.drawPixel(i * 10, 160, TFT_WHITE);
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spr.drawPixel(i * 10, 200, TFT_WHITE);
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}
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for (int i = 0; i < DISPLAY_HEIGHT; i += 10) {
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for (int j = 0; j < DISPLAY_WIDTH; j += 40) {
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spr.drawPixel(j, i, TFT_WHITE);
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}
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}
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}
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void draw_channel1(uint32_t trigger0, uint32_t trigger1, uint16_t *i2s_buff, float sample_rate) {
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//screen wave drawing
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data[0] = to_scale(i2s_buff[trigger0]);
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low_pass filter(0.99);
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mean_filter mfilter(5);
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mfilter.init(i2s_buff[trigger0]);
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filter._value = i2s_buff[trigger0];
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float data_per_pixel = (s_div / 40.0) / (sample_rate / 1000);
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// uint32_t cursor = (trigger1-trigger0)/data_per_pixel;
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// spr.drawLine(cursor, 0, cursor, 135, TFT_RED);
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uint32_t index_offset = (uint32_t)(toffset / data_per_pixel);
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trigger0 += index_offset;
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uint32_t old_index = trigger0;
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float n_data = 0, o_data = to_scale(i2s_buff[trigger0]);
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for (uint32_t i = 1; i < DISPLAY_WIDTH; i++) {
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uint32_t index = trigger0 + (uint32_t)((i + 1) * data_per_pixel);
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if (index < BUFF_SIZE) {
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if (full_pix && s_div > 40 && current_filter == 0) {
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uint32_t max_val = i2s_buff[old_index];
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uint32_t min_val = i2s_buff[old_index];
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for (int j = old_index; j < index; j++) {
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//draw lines for all this data points on pixel i
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if (i2s_buff[j] > max_val)
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max_val = i2s_buff[j];
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else if (i2s_buff[j] < min_val)
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min_val = i2s_buff[j];
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}
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spr.drawLine(i, to_scale(min_val), i, to_scale(max_val), TFT_BLUE);
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}
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else {
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if (current_filter == 2)
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n_data = to_scale(mfilter.filter((float)i2s_buff[index]));
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else if (current_filter == 3)
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n_data = to_scale(filter.filter((float)i2s_buff[index]));
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else
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n_data = to_scale(i2s_buff[index]);
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spr.drawLine(i - 1, o_data, i, n_data, TFT_BLUE);
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o_data = n_data;
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}
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}
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else {
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break;
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}
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old_index = index;
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}
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}
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