#include "Converter.h"

HAL_StatusTypeDef spi2can(SPI_HandleTypeDef *hspi, CAN_HandleTypeDef *hcan) {
    // Standard at FaSTTUBe - Sadly. Please fix this with CAN FD for such sensors.
    size_t datalen = 8;

    // ==================
    // INS
    // ==================
    // EXTRACT INS
    auto request_ins_solution_lla = vn::pkg_request_read_t(vn::InsSolutionLla::ID);
    auto response_ins_solution_lla = vn::pkg_response_t<vn::InsSolutionLlaRegister>();

    spi_read(hspi, &request_ins_solution_lla, &response_ins_solution_lla);

    vn::InsSolutionLlaRegister payload = response_ins_solution_lla.payload;
    // SEND INS YPR
    auto data_ins_ypr = canlib::encode::can1::vn200_ins_ypr(canlib::frame::decoded::can1::vn200_ins_ypr_t(
        (double)payload.yawPitchRoll.x, (double)payload.yawPitchRoll.y, (double)payload.yawPitchRoll.z, (double)payload.attUncertainty));
    ftcan_transmit(hcan, CAN1_VN200_INS_YPR_FRAME_ID, (uint8_t *)(&data_ins_ypr), datalen);
    // SEND INS LLA
    auto data_ins_ll = canlib::encode::can1::vn200_ins_ll(canlib::frame::decoded::can1::vn200_ins_ll_t(
        (double)payload.position.x, (double)payload.position.y, (double)payload.posUncertainty, (double)payload.posUncertainty));
    ftcan_transmit(hcan, CAN1_VN200_INS_LL_FRAME_ID, (uint8_t *)(&data_ins_ll), datalen);
    // SEND INS VEL
    auto data_ins_vel = canlib::encode::can1::vn200_ins_vel(canlib::frame::decoded::can1::vn200_ins_vel_t(
        (double)payload.nedVel.x, (double)payload.nedVel.y, (double)payload.velUncertainty, (double)payload.velUncertainty));
    ftcan_transmit(hcan, CAN1_VN200_INS_VEL_FRAME_ID, (uint8_t *)(&data_ins_vel), datalen);

    // ==================
    // IMU
    // ==================
    // EXTRACT IMU
    auto request_imu = vn::pkg_request_read_t(vn::MagneticAccelerationAndAngularRates::ID);
    auto response_imu = vn::pkg_response_t<vn::MagneticAccelerationAndAngularRatesRegister>();

    spi_read(hspi, &request_imu, &response_imu);

    vn::MagneticAccelerationAndAngularRatesRegister payload_imu = response_imu.payload;
    // SEND ACC LIN
    auto data_imu_acc_lin = canlib::encode::can1::vn200_imu_acc_lin(
        canlib::frame::decoded::can1::vn200_imu_acc_lin_t((double)payload_imu.accel.x, (double)payload_imu.accel.y, (double)payload_imu.accel.z));
    ftcan_transmit(hcan, CAN1_VN200_IMU_ACC_LIN_FRAME_ID, (uint8_t *)(&data_imu_acc_lin), datalen);
    // SEND ACC ANG
    auto data_imu_acc_ang = canlib::encode::can1::vn200_imu_acc_ang(
        canlib::frame::decoded::can1::vn200_imu_acc_ang_t((double)payload_imu.gyro.x, (double)payload_imu.gyro.y, (double)payload_imu.gyro.z));
    ftcan_transmit(hcan, CAN1_VN200_IMU_ACC_ANG_FRAME_ID, (uint8_t *)(&data_imu_acc_ang), datalen);

    // ==================
    // GNSS
    // ==================
    // EXTRACT GNSS LLA
    auto request_gnss = vn::pkg_request_read_t(vn::GpsSolutionLla::ID);
    auto response_gnss = vn::pkg_response_t<vn::GpsSolutionLlaRegister>();

    spi_read(hspi, &request_gnss, &response_gnss);

    vn::GpsSolutionLlaRegister payload_gnss = response_gnss.payload;
    // SEND ACC LIN
    auto data_gnss = canlib::encode::can1::vn200_gnss_ll(canlib::frame::decoded::can1::vn200_gnss_ll_t(
        (double)payload_gnss.lla.x, (double)payload_gnss.lla.y, (double)payload_gnss.nedAcc.x, (double)payload_gnss.nedAcc.y));
    ftcan_transmit(hcan, CAN1_VN200_GNSS_LL_FRAME_ID, (uint8_t *)(&data_gnss), datalen);

    return HAL_OK;
}