/* Example sketch for the Switch Pro Bluetooth library - developed by Kristian Sloth Lauszus For more information visit the Github repository: github.com/felis/USB_Host_Shield_2.0 or send me an e-mail: lauszus@gmail.com */ #include #include // Satisfy the IDE, which needs to see the include statement in the ino too. #ifdef dobogusinclude #include #endif #include USB Usb; //USBHub Hub1(&Usb); // Some dongles have a hub inside BTD Btd(&Usb); // You have to create the Bluetooth Dongle instance like so /* You can create the instance of the SwitchProBT class in two ways */ // This will start an inquiry and then pair with the Switch Pro controller - you only have to do this once // You will need to press the Sync button next to the USB connector to put the controller into pairing mode. SwitchProBT SwitchPro(&Btd, PAIR); // After that you can simply create the instance like so and then press a button on the device //SwitchProBT SwitchPro(&Btd); uint16_t lastMessageCounter = -1; uint32_t capture_timer; void setup() { Serial.begin(115200); #if !defined(__MIPSEL__) while (!Serial); // Wait for serial port to connect - used on Leonardo, Teensy and other boards with built-in USB CDC serial connection #endif if (Usb.Init() == -1) { Serial.print(F("\r\nOSC did not start")); while (1); // Halt } Serial.print(F("\r\nSwitch Pro Bluetooth Library Started")); } void loop() { Usb.Task(); if (SwitchPro.connected() && lastMessageCounter != SwitchPro.getMessageCounter()) { lastMessageCounter = SwitchPro.getMessageCounter(); if (SwitchPro.getAnalogHat(LeftHatX) > 5000 || SwitchPro.getAnalogHat(LeftHatX) < -5000 || SwitchPro.getAnalogHat(LeftHatY) > 5000 || SwitchPro.getAnalogHat(LeftHatY) < -5000 || SwitchPro.getAnalogHat(RightHatX) > 5000 || SwitchPro.getAnalogHat(RightHatX) < -5000 || SwitchPro.getAnalogHat(RightHatY) > 5000 || SwitchPro.getAnalogHat(RightHatY) < -5000) { Serial.print(F("\r\nLeftHatX: ")); Serial.print(SwitchPro.getAnalogHat(LeftHatX)); Serial.print(F("\tLeftHatY: ")); Serial.print(SwitchPro.getAnalogHat(LeftHatY)); Serial.print(F("\tRightHatX: ")); Serial.print(SwitchPro.getAnalogHat(RightHatX)); Serial.print(F("\tRightHatY: ")); Serial.print(SwitchPro.getAnalogHat(RightHatY)); } // Hold the CAPTURE button for 1 second to disconnect the controller // This prevents the controller from disconnecting when it is reconnected, // as the CAPTURE button is sent when it reconnects if (SwitchPro.getButtonPress(CAPTURE)) { if (millis() - capture_timer > 1000) SwitchPro.disconnect(); } else capture_timer = millis(); if (SwitchPro.getButtonClick(CAPTURE)) Serial.print(F("\r\nCapture")); if (SwitchPro.getButtonClick(HOME)) { Serial.print(F("\r\nHome")); SwitchPro.setLedHomeToggle(); // Toggle the home LED } if (SwitchPro.getButtonClick(LEFT)) { SwitchPro.setLedOff(); SwitchPro.setLedOn(LED1); Serial.print(F("\r\nLeft")); } if (SwitchPro.getButtonClick(UP)) { SwitchPro.setLedOff(); SwitchPro.setLedOn(LED2); Serial.print(F("\r\nUp")); } if (SwitchPro.getButtonClick(RIGHT)) { SwitchPro.setLedOff(); SwitchPro.setLedOn(LED3); Serial.print(F("\r\nRight")); } if (SwitchPro.getButtonClick(DOWN)) { SwitchPro.setLedOff(); SwitchPro.setLedOn(LED4); Serial.print(F("\r\nDown")); } if (SwitchPro.getButtonClick(PLUS)) Serial.print(F("\r\nPlus")); if (SwitchPro.getButtonClick(MINUS)) Serial.print(F("\r\nMinus")); if (SwitchPro.getButtonClick(A)) { SwitchPro.setRumbleOn(false, true); // Turn on the right rumble motor Serial.print(F("\r\nA")); } if (SwitchPro.getButtonClick(B)) { SwitchPro.setRumbleOn(true, false); // Turn on the left rumble motor Serial.print(F("\r\nB")); } if (SwitchPro.getButtonClick(X)) Serial.print(F("\r\nX")); if (SwitchPro.getButtonClick(Y)) { SwitchPro.setRumbleOn(false, false); Serial.print(F("\r\nY")); } if (SwitchPro.getButtonClick(L)) Serial.print(F("\r\nL")); if (SwitchPro.getButtonClick(R)) Serial.print(F("\r\nR")); if (SwitchPro.getButtonClick(ZL)) Serial.print(F("\r\nZL")); if (SwitchPro.getButtonClick(ZR)) Serial.print(F("\r\nZR")); if (SwitchPro.getButtonClick(L3)) Serial.print(F("\r\nL3")); if (SwitchPro.getButtonClick(R3)) Serial.print(F("\r\nR3")); } }