// Sample mySetup.cpp file. // // To use this file, copy it to mySetup.cpp and uncomment the directives and/or // edit them to satisfy your requirements. // Note that if the file has a .cpp extension it WILL be compiled into the build // and the mySetup() function WILL be invoked. // // To prevent this, temporarily rename it to mySetup.txt or similar. // #include "IODevice.h" #include "Turnouts.h" #include "Sensors.h" #include "IO_HCSR04.h" // The #if directive prevent compile errors for Uno and Nano by excluding the // HAL directives from the build. #if !defined(IO_NO_HAL) // Examples of statically defined HAL directives (alternative to the create() call). // These have to be outside of the mySetup() function. // The following directive defines a PCA9685 PWM Servo driver module. // The parameters are: // First Vpin=100 // Number of VPINs=16 (numbered 100-115) // I2C address of module=0x40 //PCA9685 pwmModule1(100, 16, 0x40); // The following directive defines an MCP23017 16-port I2C GPIO Extender module. // The parameters are: // First Vpin=164 // Number of VPINs=16 (numbered 164-179) // I2C address of module=0x20 //MCP23017 gpioModule2(164, 16, 0x20); // Alternative form, which allows the INT pin of the module to request a scan // by pulling Arduino pin 40 to ground. Means that the I2C isn't being polled // all the time, only when a change takes place. Multiple modules' INT pins // may be connected to the same Arduino pin. //MCP23017 gpioModule2(164, 16, 0x20, 40); // The following directive defines an MCP23008 8-port I2C GPIO Extender module. // The parameters are: // First Vpin=300 // Number of VPINs=8 (numbered 300-307) // I2C address of module=0x22 //MCP23017 gpioModule3(300, 8, 0x22); // The following directive defines a PCF8574 8-port I2C GPIO Extender module. // The parameters are: // First Vpin=200 // Number of VPINs=8 (numbered 200-207) // I2C address of module=0x23 //PCF8574 gpioModule4(200, 8, 0x23); // Alternative form using INT pin (see above) //PCF8574 gpioModule4(200, 8, 0x23, 40); // The following directive defines an HCSR04 ultrasonic module. // The parameters are: // Vpin=2000 (only one VPIN per directive) // Number of VPINs=1 // Arduino pin connected to TRIG=30 // Arduino pin connected to ECHO=31 // Minimum trigger range=20cm (VPIN goes to 1 when <20cm) // Maximum trigger range=25cm (VPIN goes to 0 when >25cm) // Note: Multiple devices can be configured by using a different ECHO pin // for each one. The TRIG pin can be shared between multiple devices. // Be aware that the 'ping' of one device may be received by another // device and position them accordingly! //HCSR04 sonarModule1(2000, 30, 31, 20, 25); //HCSR04 sonarModule2(2001, 30, 32, 20, 25); // The function mySetup() is invoked from CS if it exists within the build. // It is called just before mysetup.h is executed, so things set up within here can be // referenced by commands in mySetup.h. void mySetup() { // Alternative way of creating MCP23017, which has to be within the mySetup() function // The other devices can also be created in this way. The parameter lists for the // create() function are identical to the parameter lists for the declarations. //MCP23017::create(180, 16, 0x21); // Creating a Turnout // Parameters: same as command for Servo turnouts // ID and VPIN are 100, sonar moves between positions 102 and 490 with slow profile. // Profile may be Instant, Fast, Medium, Slow or Bounce. //ServoTurnout::create(100, 100, 490, 102, PCA9685::Slow); // DCC Accessory turnout // Parameters: same as command for DCC Accessory turnouts // ID=3000 // Decoder address=23 // Decoder subaddress = 1 //DCCTurnout::create(3000, 23, 1); // Creating a Sensor // Parameters: As for the command, // id = 164, // Vpin = 164 (configured above as pin 0 of an MCP23017) // Pullup enable = 1 (enabled) //Sensor::create(164, 164, 1); // Way of creating lots of identical sensors in a range //for (int i=165; i<180; i++) // Sensor::create(i, i, 1); } #endif