ESP32-PaxCounter/src/display.cpp

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#ifdef HAS_DISPLAY
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/*
Display-Mask (128 x 64 pixel):
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| | |
| 11111111112
|012345678901234567890 Font
----------------------- ---------
0|PAX:aabbccdd STRETCHED
1|PAX:aabbccdd STRETCHED
2|
3|B:a.bcV Sats:ab ch:ab SMALL
4|WIFI:abcde BLTH:abcde SMALL
5|RLIM:abcd Mem:abcdKB SMALL
6|27.Feb 2019 20:27:00* SMALL
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7|yyyyyyyyyyyyy xx SFab SMALL
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* = char {L|G|R|?} indicates time source,
inverse = clock controller is active,
pulsed = pps input signal is active
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y = LMIC event message
xx = payload sendqueue length
ab = LMIC spread factor
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FONT_SMALL: 6x8px = 21 chars / line
FONT_NORMAL: 8x8px = 16 chars / line
FONT_STRETCHED: 16x32px = 8 chars / line
*/
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// Basic Config
#include "globals.h"
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#include <ss_oled.h>
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#include <esp_spi_flash.h> // needed for reading ESP32 chip attributes
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// local Tag for logging
static const char TAG[] = __FILE__;
#define DISPLAY_PAGES (7) // number of paxcounter display pages
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// settings for oled display library
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#define USE_BACKBUFFER
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// settings for qr code generator
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#define QR_VERSION 3 // 29 x 29px
#define QR_SCALEFACTOR 2 // 29 -> 58x < 64px
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// settings for curve plotter
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#define DISPLAY_WIDTH 128 // Width in pixels of OLED-display, must be 32X
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#define DISPLAY_HEIGHT 64 // Height in pixels of OLED-display, must be 64X
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// helper array for converting month values to text
const char *printmonth[] = {"xxx", "Jan", "Feb", "Mar", "Apr", "May", "Jun",
"Jul", "Aug", "Sep", "Oct", "Nov", "Dec"};
uint8_t DisplayIsOn = 0;
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uint8_t displaybuf[DISPLAY_WIDTH * DISPLAY_HEIGHT / 8] = {0};
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static uint8_t plotbuf[DISPLAY_WIDTH * DISPLAY_HEIGHT / 8] = {0};
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QRCode qrcode;
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void init_display(bool verbose) {
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// block i2c bus access
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if (!I2C_MUTEX_LOCK())
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ESP_LOGV(TAG, "[%0.3f] i2c mutex lock failed", millis() / 1000.0);
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else {
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// init display
#ifndef DISPLAY_FLIP
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oledInit(OLED_128x64, false, false, -1, -1, MY_OLED_RST, 400000L);
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#else
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oledInit(OLED_128x64, true, false, -1, -1, MY_OLED_RST, 400000L);
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#endif
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// set display buffer
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oledSetBackBuffer(displaybuf);
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// clear display
oledSetContrast(DISPLAYCONTRAST);
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oledFill(0, 1);
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if (verbose) {
// show startup screen
// to come -> display .bmp file with logo
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// show chip information
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#if (VERBOSE)
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esp_chip_info_t chip_info;
esp_chip_info(&chip_info);
dp_printf(0, 0, 0, 0, "** PAXCOUNTER **");
dp_printf(0, 1, 0, 0, "Software v%s", PROGVERSION);
dp_printf(0, 3, 0, 0, "ESP32 %d cores", chip_info.cores);
dp_printf(0, 4, 0, 0, "Chip Rev.%d", chip_info.revision);
dp_printf(0, 5, 0, 0, "WiFi%s%s",
(chip_info.features & CHIP_FEATURE_BT) ? "/BT" : "",
(chip_info.features & CHIP_FEATURE_BLE) ? "/BLE" : "");
dp_printf(0, 6, 0, 0, "%dMB %s Flash",
spi_flash_get_chip_size() / (1024 * 1024),
(chip_info.features & CHIP_FEATURE_EMB_FLASH) ? "int."
: "ext.");
// give user some time to read or take picture
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oledDumpBuffer(displaybuf);
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delay(2000);
oledFill(0x00, 1);
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#endif // VERBOSE
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#if (HAS_LORA)
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// generate DEVEUI as QR code and text
uint8_t buf[8];
char deveui[17];
os_getDevEui((u1_t *)buf);
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snprintf(deveui, 17, "%016llX", *((uint64_t *)&buf));
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// display DEVEUI as QR code on the left
oledSetContrast(30);
dp_printqr(3, 3, deveui);
// display DEVEUI as plain text on the right
dp_printf(72, 0, FONT_NORMAL, 0, "LORAWAN");
dp_printf(72, 1, FONT_NORMAL, 0, "DEVEUI:");
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for (uint8_t i = 0; i <= 3; i++)
dp_printf(80, i + 3, FONT_NORMAL, 0, "%4.4s", deveui + i * 4);
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// give user some time to read or take picture
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oledDumpBuffer(displaybuf);
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delay(8000);
oledSetContrast(DISPLAYCONTRAST);
oledFill(0x00, 1);
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#endif // HAS_LORA
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} // verbose
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oledPower(cfg.screenon); // set display off if disabled
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I2C_MUTEX_UNLOCK(); // release i2c bus access
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} // mutex
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} // init_display
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void refreshTheDisplay(bool nextPage) {
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#ifndef HAS_BUTTON
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static uint32_t framecounter = 0;
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#endif
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// update histogram
oledPlotCurve(macs.size(), false);
// if display is switched off we don't refresh it to relax cpu
if (!DisplayIsOn && (DisplayIsOn == cfg.screenon))
return;
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const time_t t =
myTZ.toLocal(now()); // note: call now() here *before* locking mutex!
// block i2c bus access
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if (!I2C_MUTEX_LOCK())
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ESP_LOGV(TAG, "[%0.3f] i2c mutex lock failed", millis() / 1000.0);
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else {
// set display on/off according to current device configuration
if (DisplayIsOn != cfg.screenon) {
DisplayIsOn = cfg.screenon;
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oledPower(cfg.screenon);
}
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#ifndef HAS_BUTTON
// auto flip page if we are in unattended mode
if ((++framecounter) > (DISPLAYCYCLE * 1000 / DISPLAYREFRESH_MS)) {
framecounter = 0;
nextPage = true;
}
#endif
draw_page(t, nextPage);
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oledDumpBuffer(displaybuf);
I2C_MUTEX_UNLOCK(); // release i2c bus access
} // mutex
} // refreshDisplay()
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void shutdown_display(void) {
// block i2c bus access
if (!I2C_MUTEX_LOCK())
ESP_LOGV(TAG, "[%0.3f] i2c mutex lock failed", millis() / 1000.0);
else {
cfg.screenon = 0;
oledShutdown();
delay(DISPLAYREFRESH_MS / 1000 * 1.1);
I2C_MUTEX_UNLOCK(); // release i2c bus access
}
}
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void draw_page(time_t t, bool nextpage) {
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// write display content to display buffer
// nextpage = true -> flip 1 page
static uint8_t DisplayPage = 0;
char timeState;
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#if (HAS_GPS)
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static bool wasnofix = true;
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#endif
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// line 1/2: pax counter
dp_printf(0, 0, FONT_STRETCHED, 0, "PAX:%-4d",
macs.size()); // display number of unique macs total Wifi + BLE
start:
if (nextpage) {
DisplayPage = (DisplayPage >= DISPLAY_PAGES - 1) ? 0 : (DisplayPage + 1);
oledFill(0, 1);
}
switch (DisplayPage) {
// page 0: parameters overview
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// page 1: pax graph
// page 2: GPS
// page 3: BME280/680
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// page 4: time
// page 5: lorawan parameters
// page 6: blank screen
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// page 0: parameters overview
case 0:
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// line 3: wifi + bluetooth counters
#if ((WIFICOUNTER) && (BLECOUNTER))
if (cfg.wifiscan)
dp_printf(0, 3, FONT_SMALL, 0, "WIFI:%-5d", macs_wifi);
else
dp_printf(0, 3, FONT_SMALL, 0, "%s", "WIFI:off");
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if (cfg.blescan)
dp_printf(66, 3, FONT_SMALL, 0, "BLTH:%-5d", macs_ble);
else
dp_printf(66, 3, FONT_SMALL, 0, "%s", "BLTH:off");
#elif ((WIFICOUNTER) && (!BLECOUNTER))
if (cfg.wifiscan)
dp_printf(0, 3, FONT_SMALL, 0, "WIFI:%-5d", macs_wifi);
else
dp_printf(0, 3, FONT_SMALL, 0, "%s", "WIFI:off");
#elif ((!WIFICOUNTER) && (BLECOUNTER))
if (cfg.blescan)
dp_printf(0, 3, FONT_SMALL, 0, "BLTH:%-5d", macs_ble);
else
dp_printf(0, 3, FONT_SMALL, 0, "%s", "BLTH:off");
#else
dp_printf(0, 3, FONT_SMALL, 0, "%s", "Sniffer disabled");
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#endif
// line 4: Battery + GPS status + Wifi channel
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#if (defined BAT_MEASURE_ADC || defined HAS_PMU)
if (batt_voltage == 0xffff)
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dp_printf(0, 4, FONT_SMALL, 0, "%s", "USB ");
else if (batt_voltage == 0)
dp_printf(0, 4, FONT_SMALL, 0, "%s", "No batt");
else
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dp_printf(0, 4, FONT_SMALL, 0, "B:%.2fV", batt_voltage / 1000.0);
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#endif
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#if (HAS_GPS)
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if (gps_hasfix())
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dp_printf(48, 4, FONT_SMALL, 0, "Sats:%.2d", gps.satellites.value());
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else // if no fix then display Sats value inverse
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dp_printf(48, 4, FONT_SMALL, 1, "Sats:%.2d", gps.satellites.value());
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#endif
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dp_printf(96, 4, FONT_SMALL, 0, "ch:%02d", channel);
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// line 5: RSSI limiter + free memory
dp_printf(0, 5, FONT_SMALL, 0, !cfg.rssilimit ? "RLIM:off " : "RLIM:%-4d",
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cfg.rssilimit);
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dp_printf(66, 5, FONT_SMALL, 0, "Mem:%4dKB", getFreeRAM() / 1024);
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// line 6: time + date
#if (TIME_SYNC_INTERVAL)
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timeState = TimePulseTick ? ' ' : timeSetSymbols[timeSource];
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TimePulseTick = false;
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dp_printf(0, 6, FONT_SMALL, 0, "%02d.%3s %4d", day(t), printmonth[month(t)],
year(t));
dp_printf(72, 6, FONT_SMALL, 0, "%02d:%02d:%02d", hour(t), minute(t),
second(t));
// display inverse timeState if clock controller is enabled
#if (defined HAS_DCF77) || (defined HAS_IF482)
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dp_printf(120, 6, FONT_SMALL, 1, "%c", timeState);
#else
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dp_printf(120, 6, FONT_SMALL, 0, "%c", timeState);
#endif
#endif // TIME_SYNC_INTERVAL
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// line 7: LORA network status
#if (HAS_LORA)
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// LMiC event display
dp_printf(0, 7, FONT_SMALL, 0, "%-16s", lmic_event_msg);
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// LORA datarate, display inverse if ADR disabled
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dp_printf(102, 7, FONT_SMALL, !cfg.adrmode, "%-4s",
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getSfName(updr2rps(LMIC.datarate)));
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#endif // HAS_LORA
break; // page0
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// page 1: pax graph
case 1:
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oledDumpBuffer(plotbuf);
break; // page1
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// page 2: GPS
case 2:
#if (HAS_GPS)
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if (gps_hasfix()) {
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// line 5: clear "No fix"
if (wasnofix) {
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dp_printf(16, 5, FONT_STRETCHED, 0, " ");
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wasnofix = false;
}
// line 3-4: GPS latitude
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dp_printf(0, 3, FONT_STRETCHED, 0, "%c%07.4f",
gps.location.rawLat().negative ? 'S' : 'N', gps.location.lat());
// line 6-7: GPS longitude
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dp_printf(0, 6, FONT_STRETCHED, 0, "%c%07.4f",
gps.location.rawLat().negative ? 'W' : 'E', gps.location.lng());
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} else {
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dp_printf(16, 5, FONT_STRETCHED, 1, "No fix");
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wasnofix = true;
}
break; // page2
#else
DisplayPage++; // next page
#endif
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// page 3: BME280/680
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case 3:
#if (HAS_BME)
// line 2-3: Temp
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dp_printf(0, 2, FONT_STRETCHED, 0, "TMP:%-2.1f", bme_status.temperature);
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// line 4-5: Hum
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dp_printf(0, 4, FONT_STRETCHED, 0, "HUM:%-2.1f", bme_status.humidity);
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#ifdef HAS_BME680
// line 6-7: IAQ
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dp_printf(0, 6, FONT_STRETCHED, 0, "IAQ:%-3.0f", bme_status.iaq);
#else // is BME280 or BMP180
// line 6-7: Pre
dp_printf(0, 6, FONT_STRETCHED, 0, "PRE:%-2.1f", bme_status.pressure);
#endif // HAS_BME680
break; // page 3
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#else
DisplayPage++; // next page
#endif // HAS_BME
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// page 4: time
case 4:
dp_printf(0, 4, FONT_LARGE, 0, "%02d:%02d:%02d", hour(t), minute(t),
second(t));
break;
// page 5: lorawan parameters
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case 5:
#if (HAS_LORA)
// 3|NtwkID:000000 TXpw:aa
// 4|DevAdd:00000000 DR:0
// 5|CHMsk:0000 Nonce:0000
// 6|CUp:000000 CDn:000000
// 7|SNR:-0000 RSSI:-0000
dp_printf(0, 3, FONT_SMALL, 0, "NetwID:%06X TXpw:%-2d",
LMIC.netid & 0x001FFFFF, LMIC.radio_txpow);
dp_printf(0, 4, FONT_SMALL, 0, "DevAdd:%08X DR:%1d", LMIC.devaddr,
LMIC.datarate);
dp_printf(0, 5, FONT_SMALL, 0, "ChMsk:%04X Nonce:%04X", LMIC.channelMap,
LMIC.devNonce);
dp_printf(0, 6, FONT_SMALL, 0, "CUp:%-6d CDn:%-6d", LMIC.seqnoUp,
LMIC.seqnoDn);
dp_printf(0, 7, FONT_SMALL, 0, "SNR:%-5d RSSI:%-5d", LMIC.snr / 4,
LMIC.rssi);
break; // page5
#else // don't show blank page if we are unattended
DisplayPage++; // next page
#endif // HAS_LORA
// page 6: blank screen
case 6:
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#ifdef HAS_BUTTON
oledFill(0, 1);
break;
#else // don't show blank page if we are unattended
DisplayPage++; // next page
#endif
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default:
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goto start; // start over
} // switch
} // draw_page
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// display helper functions
void dp_printf(uint16_t x, uint16_t y, uint8_t font, uint8_t inv,
const char *format, ...) {
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char loc_buf[64];
char *temp = loc_buf;
va_list arg;
va_list copy;
va_start(arg, format);
va_copy(copy, arg);
int len = vsnprintf(temp, sizeof(loc_buf), format, copy);
va_end(copy);
if (len < 0) {
va_end(arg);
return;
};
if (len >= sizeof(loc_buf)) {
temp = (char *)malloc(len + 1);
if (temp == NULL) {
va_end(arg);
return;
}
len = vsnprintf(temp, len + 1, format, arg);
}
va_end(arg);
oledWriteString(0, x, y, temp, font, inv, false);
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if (temp != loc_buf) {
free(temp);
}
}
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void dp_printqr(uint16_t offset_x, uint16_t offset_y, const char *Message) {
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uint8_t qrcodeData[qrcode_getBufferSize(QR_VERSION)];
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qrcode_initText(&qrcode, qrcodeData, QR_VERSION, ECC_HIGH, Message);
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// draw QR code
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for (uint16_t y = 0; y < qrcode.size; y++)
for (uint16_t x = 0; x < qrcode.size; x++)
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if (!qrcode_getModule(&qrcode, x, y)) // "black"
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oledfillRect(x * QR_SCALEFACTOR + offset_x,
y * QR_SCALEFACTOR + offset_y, QR_SCALEFACTOR,
QR_SCALEFACTOR, false);
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// draw horizontal frame lines
oledfillRect(0, 0, qrcode.size * QR_SCALEFACTOR + 2 * offset_x, offset_y,
false);
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oledfillRect(0, qrcode.size * QR_SCALEFACTOR + offset_y,
qrcode.size * QR_SCALEFACTOR + 2 * offset_x, offset_y, false);
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// draw vertical frame lines
oledfillRect(0, 0, offset_x, qrcode.size * QR_SCALEFACTOR + 2 * offset_y,
false);
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oledfillRect(qrcode.size * QR_SCALEFACTOR + offset_x, 0, offset_x,
qrcode.size * QR_SCALEFACTOR + 2 * offset_y, false);
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}
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void oledfillRect(uint16_t x, uint16_t y, uint16_t width, uint16_t height,
uint8_t bRender) {
for (uint16_t xi = x; xi < x + width; xi++)
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oledDrawLine(xi, y, xi, y + height - 1, bRender);
}
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int oledDrawPixel(uint8_t *buf, const uint16_t x, const uint16_t y,
const uint8_t dot) {
if (x > DISPLAY_WIDTH || y > DISPLAY_HEIGHT)
return -1;
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uint8_t bit = y & 7;
uint16_t idx = y / 8 * DISPLAY_WIDTH + x;
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buf[idx] &= ~(1 << bit); // clear pixel
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if (dot)
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buf[idx] |= (1 << bit); // set pixel
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return 0;
}
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void oledScrollBufferHorizontal(uint8_t *buf, const uint16_t width,
const uint16_t height, bool left) {
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uint16_t col, page, idx = 0;
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for (page = 0; page < height / 8; page++) {
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if (left) { // scroll left
for (col = 0; col < width - 1; col++) {
idx = page * width + col;
buf[idx] = buf[idx + 1];
}
buf[idx + 1] = 0;
} else // scroll right
{
for (col = width - 1; col > 0; col--) {
idx = page * width + col;
buf[idx] = buf[idx - 1];
}
buf[idx - 1] = 0;
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}
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}
}
void oledScrollBufferVertical(uint8_t *buf, const uint16_t width,
const uint16_t height, int offset) {
uint64_t buf_col;
if (!offset)
return; // nothing to do
for (uint16_t col = 0; col < DISPLAY_WIDTH; col++) {
// convert column bytes from display buffer to uint64_t
buf_col = *(uint64_t *)&buf[col * DISPLAY_HEIGHT / 8];
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if (offset > 0) // scroll down
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buf_col <<= offset;
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else // scroll up
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buf_col >>= abs(offset);
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// write back uint64_t to uint8_t display buffer
*(uint64_t *)&buf[col * DISPLAY_HEIGHT / 8] = buf_col;
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}
}
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void oledPlotCurve(uint16_t count, bool reset) {
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static uint16_t last_count = 0, col = 0, row = 0;
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uint16_t v_scroll = 0;
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if ((last_count == count) && !reset)
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return;
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if (reset) { // next count cycle?
if (col < DISPLAY_WIDTH - 1) // matrix not full -> increment column
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col++;
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else // matrix full -> scroll left 1 dot
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oledScrollBufferHorizontal(plotbuf, DISPLAY_WIDTH, DISPLAY_HEIGHT, true);
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} else // clear current dot
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oledDrawPixel(plotbuf, col, row, 0);
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// scroll down, if necessary
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while ((count - v_scroll) > DISPLAY_HEIGHT - 1)
v_scroll++;
if (v_scroll)
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oledScrollBufferVertical(plotbuf, DISPLAY_WIDTH, DISPLAY_HEIGHT, v_scroll);
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// set new dot
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// row = DISPLAY_HEIGHT - 1 - (count - v_scroll) % DISPLAY_HEIGHT;
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row = DISPLAY_HEIGHT - 1 - count - v_scroll;
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last_count = count;
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oledDrawPixel(plotbuf, col, row, 1);
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}
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#endif // HAS_DISPLAY