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ESPUI/examples/tabbedGui/tabbedGui.ino
2023-09-11 13:29:32 +02:00

320 lines
8.5 KiB
C++

#include <DNSServer.h>
#include <ESPUI.h>
const byte DNS_PORT = 53;
IPAddress apIP(192, 168, 4, 1);
DNSServer dnsServer;
#if defined(ESP32)
#include <WiFi.h>
#else
// esp8266
#include <ESP8266WiFi.h>
#include <umm_malloc/umm_heap_select.h>
#ifndef CORE_MOCK
#ifndef MMU_IRAM_HEAP
#warning Try MMU option '2nd heap shared' in 'tools' IDE menu (cf. https://arduino-esp8266.readthedocs.io/en/latest/mmu.html#option-summary)
#warning use decorators: { HeapSelectIram doAllocationsInIRAM; ESPUI.addControl(...) ... } (cf. https://arduino-esp8266.readthedocs.io/en/latest/mmu.html#how-to-select-heap)
#warning then check http://<ip>/heap
#endif // MMU_IRAM_HEAP
#ifndef DEBUG_ESP_OOM
#error on ESP8266 and ESPUI, you must define OOM debug option when developping
#endif
#endif
#endif
const char* ssid = "ESPUI";
const char* password = "espui";
const char* hostname = "espui";
uint16_t button1;
uint16_t switchOne;
uint16_t status;
void numberCall(Control* sender, int type)
{
Serial.println(sender->value);
}
void textCall(Control* sender, int type)
{
Serial.print("Text: ID: ");
Serial.print(sender->id);
Serial.print(", Value: ");
Serial.println(sender->value);
}
void slider(Control* sender, int type)
{
Serial.print("Slider: ID: ");
Serial.print(sender->id);
Serial.print(", Value: ");
Serial.println(sender->value);
}
void buttonCallback(Control* sender, int type)
{
switch (type)
{
case B_DOWN:
Serial.println("Button DOWN");
break;
case B_UP:
Serial.println("Button UP");
break;
}
}
void buttonExample(Control* sender, int type, void* param)
{
Serial.print("param: ");
Serial.println((long)param);
switch (type)
{
case B_DOWN:
Serial.println("Status: Start");
ESPUI.updateControlValue(status, "Start");
ESPUI.getControl(button1)->color = ControlColor::Carrot;
ESPUI.updateControl(button1);
break;
case B_UP:
Serial.println("Status: Stop");
ESPUI.updateControlValue(status, "Stop");
ESPUI.getControl(button1)->color = ControlColor::Peterriver;
ESPUI.updateControl(button1);
break;
}
}
void padExample(Control* sender, int value)
{
switch (value)
{
case P_LEFT_DOWN:
Serial.print("left down");
break;
case P_LEFT_UP:
Serial.print("left up");
break;
case P_RIGHT_DOWN:
Serial.print("right down");
break;
case P_RIGHT_UP:
Serial.print("right up");
break;
case P_FOR_DOWN:
Serial.print("for down");
break;
case P_FOR_UP:
Serial.print("for up");
break;
case P_BACK_DOWN:
Serial.print("back down");
break;
case P_BACK_UP:
Serial.print("back up");
break;
case P_CENTER_DOWN:
Serial.print("center down");
break;
case P_CENTER_UP:
Serial.print("center up");
break;
}
Serial.print(" ");
Serial.println(sender->id);
}
void switchExample(Control* sender, int value)
{
switch (value)
{
case S_ACTIVE:
Serial.print("Active:");
break;
case S_INACTIVE:
Serial.print("Inactive");
break;
}
Serial.print(" ");
Serial.println(sender->id);
}
void selectExample(Control* sender, int value)
{
Serial.print("Select: ID: ");
Serial.print(sender->id);
Serial.print(", Value: ");
Serial.println(sender->value);
}
void otherSwitchExample(Control* sender, int value)
{
switch (value)
{
case S_ACTIVE:
Serial.print("Active:");
break;
case S_INACTIVE:
Serial.print("Inactive");
break;
}
Serial.print(" ");
Serial.println(sender->id);
}
void setup(void)
{
Serial.begin(115200);
#if defined(ESP32)
WiFi.setHostname(hostname);
#else
WiFi.hostname(hostname);
#endif
// try to connect to existing network
WiFi.begin(ssid, password);
Serial.print("\n\nTry to connect to existing network");
{
uint8_t timeout = 10;
// Wait for connection, 5s timeout
do
{
delay(500);
Serial.print(".");
timeout--;
} while (timeout && WiFi.status() != WL_CONNECTED);
// not connected -> create hotspot
if (WiFi.status() != WL_CONNECTED)
{
Serial.print("\n\nCreating hotspot");
WiFi.mode(WIFI_AP);
delay(100);
WiFi.softAPConfig(apIP, apIP, IPAddress(255, 255, 255, 0));
#if defined(ESP32)
uint32_t chipid = 0;
for (int i = 0; i < 17; i = i + 8)
{
chipid |= ((ESP.getEfuseMac() >> (40 - i)) & 0xff) << i;
}
#else
uint32_t chipid = ESP.getChipId();
#endif
char ap_ssid[25];
snprintf(ap_ssid, 26, "ESPUI-%08X", chipid);
WiFi.softAP(ap_ssid);
timeout = 5;
do
{
delay(500);
Serial.print(".");
timeout--;
} while (timeout);
}
}
dnsServer.start(DNS_PORT, "*", apIP);
Serial.println("\n\nWiFi parameters:");
Serial.print("Mode: ");
Serial.println(WiFi.getMode() == WIFI_AP ? "Station" : "Client");
Serial.print("IP address: ");
Serial.println(WiFi.getMode() == WIFI_AP ? WiFi.softAPIP() : WiFi.localIP());
#ifdef ESP8266
{ HeapSelectIram doAllocationsInIRAM;
#endif
uint16_t tab1 = ESPUI.addControl(ControlType::Tab, "Settings 1", "Settings 1");
uint16_t tab2 = ESPUI.addControl(ControlType::Tab, "Settings 2", "Settings 2");
uint16_t tab3 = ESPUI.addControl(ControlType::Tab, "Settings 3", "Settings 3");
// shown above all tabs
status = ESPUI.addControl(ControlType::Label, "Status:", "Stop", ControlColor::Turquoise);
uint16_t select1
= ESPUI.addControl(ControlType::Select, "Select:", "", ControlColor::Alizarin, tab1, &selectExample);
ESPUI.addControl(ControlType::Option, "Option1", "Opt1", ControlColor::Alizarin, select1);
ESPUI.addControl(ControlType::Option, "Option2", "Opt2", ControlColor::Alizarin, select1);
ESPUI.addControl(ControlType::Option, "Option3", "Opt3", ControlColor::Alizarin, select1);
ESPUI.addControl(ControlType::Text, "Text Test:", "a Text Field", ControlColor::Alizarin, tab1, &textCall);
// tabbed controls
ESPUI.addControl(ControlType::Label, "Millis:", "0", ControlColor::Emerald, tab1);
button1 = ESPUI.addControl(
ControlType::Button, "Push Button", "Press", ControlColor::Peterriver, tab1, &buttonCallback);
ESPUI.addControl(ControlType::Button, "Other Button", "Press", ControlColor::Wetasphalt, tab1, &buttonExample, (void*)19);
ESPUI.addControl(ControlType::PadWithCenter, "Pad with center", "", ControlColor::Sunflower, tab2, &padExample);
ESPUI.addControl(ControlType::Pad, "Pad without center", "", ControlColor::Carrot, tab3, &padExample);
switchOne = ESPUI.addControl(ControlType::Switcher, "Switch one", "", ControlColor::Alizarin, tab3, &switchExample);
ESPUI.addControl(ControlType::Switcher, "Switch two", "", ControlColor::None, tab3, &otherSwitchExample);
ESPUI.addControl(ControlType::Slider, "Slider one", "30", ControlColor::Alizarin, tab1, &slider);
ESPUI.addControl(ControlType::Slider, "Slider two", "100", ControlColor::Alizarin, tab3, &slider);
ESPUI.addControl(ControlType::Number, "Number:", "50", ControlColor::Alizarin, tab3, &numberCall);
/*
* .begin loads and serves all files from PROGMEM directly.
* If you want to serve the files from LITTLEFS use ESPUI.beginLITTLEFS
* (.prepareFileSystem has to be run in an empty sketch before)
*/
// Enable this option if you want sliders to be continuous (update during move) and not discrete (update on stop)
// ESPUI.sliderContinuous = true;
/*
* Optionally you can use HTTP BasicAuth. Keep in mind that this is NOT a
* SECURE way of limiting access.
* Anyone who is able to sniff traffic will be able to intercept your password
* since it is transmitted in cleartext. Just add a string as username and
* password, for example begin("ESPUI Control", "username", "password")
*/
ESPUI.begin("ESPUI Control");
#ifdef ESP8266
} // HeapSelectIram
#endif
}
void loop(void)
{
dnsServer.processNextRequest();
static long oldTime = 0;
static bool switchi = false;
if (millis() - oldTime > 5000)
{
switchi = !switchi;
ESPUI.updateControlValue(switchOne, switchi ? "1" : "0");
oldTime = millis();
}
}