esp32_BNO08x/include/BNO08xTestHelper.hpp

#pragma once

#include "stdio.h"
#include "BNO08x.hpp"

class BNO08xTestHelper
{
    private:
        inline static BNO08x* test_imu = nullptr;
        inline static bno08x_config_t imu_cfg;

        static const constexpr char* TAG = "BNO08xTestHelper";

    public:
        typedef struct imu_report_data_t
        {
                uint32_t time_stamp;

                float quat_I;
                float quat_J;
                float quat_K;
                float quat_real;
                IMUAccuracy raw_quat_radian_accuracy;
                IMUAccuracy quat_accuracy;

                float gyro_vel_x;
                float gyro_vel_y;
                float gyro_vel_z;

                float accel_x;
                float accel_y;
                float accel_z;
                IMUAccuracy accel_accuracy;

        } imu_report_data_t;

        static void print_test_start_banner(const char* TEST_TAG)
        {
            printf("------------------------ BEGIN TEST: %s ------------------------\n\r", TEST_TAG);
        }

        static void print_test_end_banner(const char* TEST_TAG)
        {
            printf("------------------------ END TEST: %s ------------------------\n\r", TEST_TAG);
        }

        static void print_test_msg(const char* TEST_TAG, const char* msg)
        {
            printf("%s: %s: %s\n\r", TAG, TEST_TAG, msg);
        }

        static void set_test_imu_cfg(bno08x_config_t cfg)
        {
            imu_cfg = cfg;
        }

        static void create_test_imu()
        {
            if (test_imu != nullptr)
                destroy_test_imu();

            test_imu = new BNO08x();
        }

        static void destroy_test_imu()
        {
            if (test_imu != nullptr)
            {
                delete test_imu;
                test_imu = nullptr;
            }
        }

        static BNO08x* get_test_imu()
        {
            return test_imu;
        }

        static esp_err_t call_init_config_args()
        {
            if (test_imu == nullptr)
                return ESP_FAIL;

            return test_imu->init_config_args();
        }

        static esp_err_t call_init_gpio()
        {
            if (test_imu == nullptr)
                return ESP_FAIL;

            return test_imu->init_gpio();
        }

        static esp_err_t call_init_hint_isr()
        {
            if (test_imu == nullptr)
                return ESP_FAIL;

            return test_imu->init_hint_isr();
        }

        static esp_err_t call_init_spi()
        {
            if (test_imu == nullptr)
                return ESP_FAIL;

            return test_imu->init_spi();
        }

        static esp_err_t call_launch_tasks()
        {
            if (test_imu == nullptr)
                return ESP_FAIL;

            return test_imu->launch_tasks();
        }

        static bool rotation_vector_data_is_default(imu_report_data_t* report_data)
        {
            bool new_data = false;

            if (report_data->quat_I != 0.0f)
                new_data = true;

            if (report_data->quat_J != 0.0f)
                new_data = true;

            if (report_data->quat_K != 0.0f)
                new_data = true;

            if (report_data->quat_real != 1.0f)
                new_data = true;

            if (report_data->quat_accuracy != IMUAccuracy::UNDEFINED)
                new_data = true;

            if (report_data->raw_quat_radian_accuracy != IMUAccuracy::UNDEFINED)
                new_data = true;

            return new_data;
        }

        static bool gyro_integrated_rotation_vector_data_is_default(imu_report_data_t* report_data)
        {
            bool new_data = false;

            if (report_data->quat_I != 0.0f)
                new_data = true;

            if (report_data->quat_J != 0.0f)
                new_data = true;

            if (report_data->quat_K != 0.0f)
                new_data = true;

            if (report_data->quat_real != 1.0f)
                new_data = true;

            if (report_data->gyro_vel_x != 0.0f)
                new_data = true;

            if (report_data->gyro_vel_y != 0.0f)
                new_data = true;

            if (report_data->gyro_vel_z != 0.0f)
                new_data = true;

            return new_data;
        }

        static bool accelerometer_data_is_default(imu_report_data_t* report_data)
        {
            bool new_data = false;

            if (report_data->accel_x != 0.0f)
                new_data = true;

            if (report_data->accel_y != 0.0f)
                new_data = true;

            if (report_data->accel_z != 0.0f)
                new_data = true;

            if (report_data->accel_accuracy != IMUAccuracy::UNDEFINED)
                new_data = true;

            return new_data;
        }

        static void update_report_data(imu_report_data_t* report_data, BNO08x* imu)
        {
            uint8_t accel_accuracy = 0;

            report_data->quat_I = imu->get_quat_I();
            report_data->quat_J = imu->get_quat_J();
            report_data->quat_K = imu->get_quat_K();
            report_data->quat_real = imu->get_quat_real();
            report_data->raw_quat_radian_accuracy = static_cast<IMUAccuracy>(imu->get_raw_quat_radian_accuracy());
            report_data->quat_accuracy = static_cast<IMUAccuracy>(imu->get_quat_accuracy());

            imu->get_gyro_velocity(report_data->gyro_vel_x, report_data->gyro_vel_y, report_data->gyro_vel_z);

            imu->get_accel(report_data->accel_x, report_data->accel_y, report_data->accel_z, accel_accuracy);
            report_data->accel_accuracy = static_cast<IMUAccuracy>(accel_accuracy);
        }
};
test suite + test helper + refactoring 2024-11-14 21:29:46 +00:00			`#pragma once`

			`#include "stdio.h"`
			`#include "BNO08x.hpp"`

			`class BNO08xTestHelper`
			`{`
			`private:`
			`inline static BNO08x* test_imu = nullptr;`
			`inline static bno08x_config_t imu_cfg;`

InitDeinit tests 2024-11-14 22:04:01 +00:00			`static const constexpr char* TAG = "BNO08xTestHelper";`
test suite + test helper + refactoring 2024-11-14 21:29:46 +00:00
			`public:`
test refactoring 2024-11-16 17:21:44 +00:00			`typedef struct imu_report_data_t`
			`{`
			`uint32_t time_stamp;`

			`float quat_I;`
			`float quat_J;`
			`float quat_K;`
			`float quat_real;`
			`IMUAccuracy raw_quat_radian_accuracy;`
			`IMUAccuracy quat_accuracy;`

			`float gyro_vel_x;`
			`float gyro_vel_y;`
			`float gyro_vel_z;`

			`float accel_x;`
			`float accel_y;`
			`float accel_z;`
			`IMUAccuracy accel_accuracy;`

			`} imu_report_data_t;`

InitDeinit tests 2024-11-14 22:04:01 +00:00			`static void print_test_start_banner(const char* TEST_TAG)`
test suite + test helper + refactoring 2024-11-14 21:29:46 +00:00			`{`
refactoring, test suite source file elimination 2024-11-14 22:25:18 +00:00			`printf("------------------------ BEGIN TEST: %s ------------------------\n\r", TEST_TAG);`
test suite + test helper + refactoring 2024-11-14 21:29:46 +00:00			`}`

InitDeinit tests 2024-11-14 22:04:01 +00:00			`static void print_test_end_banner(const char* TEST_TAG)`
test suite + test helper + refactoring 2024-11-14 21:29:46 +00:00			`{`
refactoring, test suite source file elimination 2024-11-14 22:25:18 +00:00			`printf("------------------------ END TEST: %s ------------------------\n\r", TEST_TAG);`
test suite + test helper + refactoring 2024-11-14 21:29:46 +00:00			`}`

InitDeinit tests 2024-11-14 22:04:01 +00:00			`static void print_test_msg(const char* TEST_TAG, const char* msg)`
test suite + test helper + refactoring 2024-11-14 21:29:46 +00:00			`{`
			`printf("%s: %s: %s\n\r", TAG, TEST_TAG, msg);`
			`}`

			`static void set_test_imu_cfg(bno08x_config_t cfg)`
			`{`
			`imu_cfg = cfg;`
			`}`

			`static void create_test_imu()`
			`{`
InitDeinit tests 2024-11-14 22:04:01 +00:00			`if (test_imu != nullptr)`
test suite + test helper + refactoring 2024-11-14 21:29:46 +00:00			`destroy_test_imu();`
InitDeinit tests 2024-11-14 22:04:01 +00:00
test suite + test helper + refactoring 2024-11-14 21:29:46 +00:00			`test_imu = new BNO08x();`
			`}`

			`static void destroy_test_imu()`
			`{`
			`if (test_imu != nullptr)`
			`{`
			`delete test_imu;`
			`test_imu = nullptr;`
			`}`
			`}`

			`static BNO08x* get_test_imu()`
			`{`
			`return test_imu;`
			`}`
InitDeinit tests 2024-11-14 22:04:01 +00:00
			`static esp_err_t call_init_config_args()`
			`{`
			`if (test_imu == nullptr)`
			`return ESP_FAIL;`

			`return test_imu->init_config_args();`
			`}`

			`static esp_err_t call_init_gpio()`
			`{`
			`if (test_imu == nullptr)`
			`return ESP_FAIL;`

			`return test_imu->init_gpio();`
			`}`

			`static esp_err_t call_init_hint_isr()`
			`{`
			`if (test_imu == nullptr)`
			`return ESP_FAIL;`

			`return test_imu->init_hint_isr();`
			`}`

			`static esp_err_t call_init_spi()`
			`{`
			`if (test_imu == nullptr)`
			`return ESP_FAIL;`

			`return test_imu->init_spi();`
			`}`

			`static esp_err_t call_launch_tasks()`
			`{`
			`if (test_imu == nullptr)`
			`return ESP_FAIL;`

			`return test_imu->launch_tasks();`
			`}`
test refactoring 2024-11-16 17:21:44 +00:00
			`static bool rotation_vector_data_is_default(imu_report_data_t* report_data)`
			`{`
			`bool new_data = false;`

			`if (report_data->quat_I != 0.0f)`
			`new_data = true;`

			`if (report_data->quat_J != 0.0f)`
			`new_data = true;`

			`if (report_data->quat_K != 0.0f)`
			`new_data = true;`

			`if (report_data->quat_real != 1.0f)`
			`new_data = true;`

			`if (report_data->quat_accuracy != IMUAccuracy::UNDEFINED)`
			`new_data = true;`

			`if (report_data->raw_quat_radian_accuracy != IMUAccuracy::UNDEFINED)`
			`new_data = true;`

			`return new_data;`
			`}`

			`static bool gyro_integrated_rotation_vector_data_is_default(imu_report_data_t* report_data)`
			`{`
			`bool new_data = false;`

			`if (report_data->quat_I != 0.0f)`
			`new_data = true;`

			`if (report_data->quat_J != 0.0f)`
			`new_data = true;`

			`if (report_data->quat_K != 0.0f)`
			`new_data = true;`

			`if (report_data->quat_real != 1.0f)`
			`new_data = true;`

			`if (report_data->gyro_vel_x != 0.0f)`
			`new_data = true;`

			`if (report_data->gyro_vel_y != 0.0f)`
			`new_data = true;`

			`if (report_data->gyro_vel_z != 0.0f)`
			`new_data = true;`

			`return new_data;`
			`}`

			`static bool accelerometer_data_is_default(imu_report_data_t* report_data)`
			`{`
			`bool new_data = false;`

			`if (report_data->accel_x != 0.0f)`
			`new_data = true;`

			`if (report_data->accel_y != 0.0f)`
			`new_data = true;`

			`if (report_data->accel_z != 0.0f)`
			`new_data = true;`

			`if (report_data->accel_accuracy != IMUAccuracy::UNDEFINED)`
			`new_data = true;`

			`return new_data;`
			`}`

			`static void update_report_data(imu_report_data_t* report_data, BNO08x* imu)`
			`{`
			`uint8_t accel_accuracy = 0;`

			`report_data->quat_I = imu->get_quat_I();`
			`report_data->quat_J = imu->get_quat_J();`
			`report_data->quat_K = imu->get_quat_K();`
			`report_data->quat_real = imu->get_quat_real();`
			`report_data->raw_quat_radian_accuracy = static_cast<IMUAccuracy>(imu->get_raw_quat_radian_accuracy());`
			`report_data->quat_accuracy = static_cast<IMUAccuracy>(imu->get_quat_accuracy());`

			`imu->get_gyro_velocity(report_data->gyro_vel_x, report_data->gyro_vel_y, report_data->gyro_vel_z);`

			`imu->get_accel(report_data->accel_x, report_data->accel_y, report_data->accel_z, accel_accuracy);`
			`report_data->accel_accuracy = static_cast<IMUAccuracy>(accel_accuracy);`
			`}`
test suite + test helper + refactoring 2024-11-14 21:29:46 +00:00			`};`