// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: t -*- /// @file AP_IMU_Shim.h /// @brief IMU shim driver, used when the IMU data is coming from somewhere else. #ifndef AP_IMU_Shim_h #define AP_IMU_Shim_h #include "IMU.h" class AP_IMU_Shim : public IMU { public: AP_IMU_Shim(void) {} /// @name IMU protocol //@{ virtual void init(Start_style style = COLD_START, void (*callback)(unsigned long t) = delay, void (*flash_leds_cb)(bool on) = NULL, AP_PeriodicProcess *scheduler = NULL) {}; virtual void init_accel(void (*callback)(unsigned long t) = delay, void (*flash_leds_cb)(bool on) = NULL) {}; virtual void init_gyro(void (*callback)(unsigned long t) = delay, void (*flash_leds_cb)(bool on) = NULL) {}; virtual bool update(void) { bool updated = _updated; _updated = false; // return number of microseconds since last call uint32_t us = micros(); uint32_t ret = us - last_ch6_micros; last_ch6_micros = us; _sample_time = ret; return updated; } //@} float gx() { return 0; } float gy() { return 0; } float gz() { return 0; } float ax() { return 0; } float ay() { return 0; } float az() { return 0; } void ax(const int v) { } void ay(const int v) { } void az(const int v) { } /// Set the gyro vector. ::update will return /// true once after this call. /// /// @param v The new gyro vector. /// void set_gyro(Vector3f v) { _gyro = v; _updated = true; } /// Set the accelerometer vector. ::update will return /// true once after this call. /// /// @param v The new accelerometer vector. /// void set_accel(Vector3f v) { _accel = v; _updated = true; } // dummy save method void save(void) { } private: /// set true when new data is delivered bool _updated; uint32_t last_ch6_micros; }; #endif