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#include <Zumo32U4Motors.h>
#include "protocol.h"
#define DUI_CMD_NULL 0x00
#define DUI_CMD_SIGN_START 0x01
#define DUI_CMD_SIGN_END 0x0f
#define DUI_CMD_STEER_START 0x10
#define DUI_CMD_STEER_END 0x1f
#define DUI_CMD_SPEED_START 0x20
#define DUI_CMD_SPEED_END 0xff
void handle_cmd(unsigned char cmd, dui_state_t *state) {
if (cmd == DUI_CMD_NULL) return;
else if (DUI_CMD_SIGN_START <= cmd && cmd <= DUI_CMD_SIGN_END) {
state->current_sign = (dui_e_sign) (cmd - DUI_CMD_SIGN_START);
} else if (DUI_CMD_STEER_START <= cmd && cmd <= DUI_CMD_STEER_END) {
state->steer = (float) (cmd - DUI_CMD_STEER_START) / (float) (DUI_CMD_STEER_END - DUI_CMD_STEER_START);
} else if (DUI_CMD_SPEED_START <= cmd && cmd <= DUI_CMD_SPEED_END) {
state->speed = ((float) (cmd - DUI_CMD_SPEED_START) / (float) (DUI_CMD_SPEED_START - DUI_CMD_SPEED_END) * (float) 2 - (float) 1);
}
}
void apply_state(dui_state_t *state) {
const float MAX_MOTOR_DIFF = 0.6f; // 0 to 1
float motor_l = 0.5f * state->speed * (+1.f * state->steer * MAX_MOTOR_DIFF - MAX_MOTOR_DIFF + 2) * state->speed_mod;
float motor_r = 0.5f * state->speed * (-1.f * state->steer * MAX_MOTOR_DIFF - MAX_MOTOR_DIFF + 2) * state->speed_mod;
Zumo32U4Motors::setLeftSpeed((int16_t) motor_l);
Zumo32U4Motors::setRightSpeed((int16_t) motor_r);
// TODO: print sign on OLED screen
}
unsigned char uart_read() {
return 0x00;
}
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