#include "config.hpp"
//-----------------------------------
//------- motor configuration -------
//-----------------------------------
//--- configure left motor ---
single100a_config_t configDriverLeft = {
.gpio_pwm = GPIO_NUM_26,
.gpio_a = GPIO_NUM_16,
.gpio_b = GPIO_NUM_4,
.ledc_timer = LEDC_TIMER_0,
.ledc_channel = LEDC_CHANNEL_0,
.abInverted = true,
.resolution = LEDC_TIMER_11_BIT,
.pwmFreq = 10000
};
//--- configure right motor ---
single100a_config_t configDriverRight = {
.gpio_pwm = GPIO_NUM_27,
.gpio_a = GPIO_NUM_18,
.gpio_b = GPIO_NUM_14,
.ledc_timer = LEDC_TIMER_1,
.ledc_channel = LEDC_CHANNEL_1,
.abInverted = false,
.resolution = LEDC_TIMER_11_BIT,
.pwmFreq = 10000
};
//--- configure motor contol ---
motorctl_config_t configMotorControl = {
.msFade = 900,
.currentMax = 10
};
//create controlled motor instances
controlledMotor motorLeft(configDriverLeft, configMotorControl);
controlledMotor motorRight(configDriverRight, configMotorControl);
//------------------------------
//------- control config -------
//------------------------------
control_config_t configControl = {
.defaultMode = controlMode_t::JOYSTICK, //default mode after startup and toggling IDLE
//--- timeout ---
.timeoutMs = 5*60*1000, //time of inactivity after which the mode gets switched to IDLE
.timeoutTolerancePer = 5, //percentage the duty can vary between timeout checks considered still inactive
//--- http mode ---
};
//-------------------------------
//----- httpJoystick config -----
//-------------------------------
httpJoystick_config_t configHttpJoystickMain{
.toleranceZeroX_Per = 3, //percentage around joystick axis the coordinate snaps to 0
.toleranceZeroY_Per = 10,
.toleranceEndPer = 2, //percentage before joystick end the coordinate snaps to 1/-1
.timeoutMs = 3000 //time no new data was received before the motors get turned off
};
//--------------------------------------
//------- joystick configuration -------
//--------------------------------------
joystick_config_t configJoystick = {
.adc_x = ADC1_CHANNEL_3, //GPIO39
.adc_y = ADC1_CHANNEL_0, //GPIO36
//percentage of joystick range the coordinate of the axis snaps to 0 (0-100)
.tolerance_zeroX_per = 7,
.tolerance_zeroY_per = 3,
//percentage of joystick range the coordinate snaps to -1 or 1 before configured "_max" or "_min" threshold (mechanical end) is reached (0-100)
.tolerance_end_per = 5,
//threshold the radius jumps to 1 before the stick is at max radius (range 0-1)
.tolerance_radius = 0.05,
//min and max adc values of each axis
.x_min = 975,
.x_max = 2520,
.y_min = 1005,
.y_max = 2550,
//invert adc measurement
.x_inverted = true,
.y_inverted = true
};
//----------------------------
//--- configure fan contol ---
//----------------------------
fan_config_t configFanLeft = {
.gpio_fan = GPIO_NUM_2,
.msRun = 5000,
.dutyThreshold = 35
};
fan_config_t configFanRight = {
.gpio_fan = GPIO_NUM_15,
.msRun = 5000,
.dutyThreshold = 35
};
//=================================
//===== create global objects =====
//=================================
//create global joystic instance
evaluatedJoystick joystick(configJoystick);
//create global evaluated switch instance for button next to joystick
gpio_evaluatedSwitch buttonJoystick(GPIO_NUM_33, true, false); //pullup true, not inverted (switch to GND use pullup of controller)
//create buzzer object on pin 12 with gap between queued events of 100ms
buzzer_t buzzer(GPIO_NUM_12, 100);
//create global httpJoystick object
httpJoystick httpJoystickMain(configHttpJoystickMain);
//create global control object
controlledArmchair control(configControl, &buzzer, &motorLeft, &motorRight, &httpJoystickMain);