#include "unity.h" #include "../include/BNO08xTestHelper.hpp" static const constexpr uint8_t RX_REPORT_TRIAL_CNT = 5; 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; } imu_report_data_t; void update_report_data(imu_report_data_t* report_data, BNO08x* imu) { 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(imu->get_raw_quat_radian_accuracy()); report_data->quat_accuracy = static_cast(imu->get_quat_accuracy()); } TEST_CASE("Enable/Disable Rotation Vector", "[ReportEnableDisable]") { const constexpr char* TEST_TAG = "Enable/Disable Rotation Vector"; BNO08x* imu = nullptr; imu_report_data_t report_data; bool new_data = false; char msg_buff[200] = {}; BNO08xTestHelper::print_test_start_banner(TEST_TAG); BNO08xTestHelper::print_test_msg(TEST_TAG, "Creating & initializing IMU for Enable/Disable report tests."); BNO08xTestHelper::create_test_imu(); imu = BNO08xTestHelper::get_test_imu(); // ensure IMU initialized successfully TEST_ASSERT_EQUAL(true, imu->initialize()); // reset all data used in report test imu->reset_all_data(); update_report_data(&report_data, imu); BNO08xTestHelper::print_test_msg(TEST_TAG, "Report enabled testing phase started."); /*enable respective report to test and ensure it reports new data */ imu->enable_rotation_vector(100000UL); for (int i = 0; i < RX_REPORT_TRIAL_CNT; i++) { new_data = false; if (imu->data_available()) { update_report_data(&report_data, imu); // check if any default values have been overwritten, implying new data from respective report 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 the accuracy still contains its default value, something has gone wrong, a defined accuracy should be received with every report if (report_data.quat_accuracy == IMUAccuracy::UNDEFINED) new_data = false; if (report_data.raw_quat_radian_accuracy == IMUAccuracy::UNDEFINED) new_data = false; } // assert whether new data was received or not TEST_ASSERT_EQUAL(true, new_data); sprintf(msg_buff, "Enabled Report Rx Data Trial %d Success: I: %.2lf J: %.2lf K: %.2lf real: %.2lf", (i + 1), report_data.quat_I, report_data.quat_J, report_data.quat_K, report_data.quat_real); BNO08xTestHelper::print_test_msg(TEST_TAG, msg_buff); // reset all data used in report test imu->reset_all_data(); update_report_data(&report_data, imu); } BNO08xTestHelper::print_test_msg(TEST_TAG, "Report enabled testing phase completed."); BNO08xTestHelper::print_test_msg(TEST_TAG, "Report disabled testing phase started."); /*disable respective report to test and ensure it stops reporting new data */ imu->disable_rotation_vector(); for (int i = 0; i < RX_REPORT_TRIAL_CNT; i++) { new_data = false; // use "true" argument to force wait for data even if no reports are enabled if (imu->data_available(true)) { update_report_data(&report_data, imu); // check if any default values have been overwritten, implying new data from respective report 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 the accuracy does not contain its default value, something has gone wrong, respective report should be disabled if (report_data.quat_accuracy != IMUAccuracy::UNDEFINED) new_data = true; if (report_data.raw_quat_radian_accuracy != IMUAccuracy::UNDEFINED) new_data = true; } // assert that no new data from this report has been received TEST_ASSERT_NOT_EQUAL(true, new_data); sprintf(msg_buff, "Disabled Report No Rx Data Trial %d Success", (i + 1)); BNO08xTestHelper::print_test_msg(TEST_TAG, msg_buff); // reset all data used in report test imu->reset_all_data(); update_report_data(&report_data, imu); } BNO08xTestHelper::print_test_msg(TEST_TAG, "Report disabled testing phase completed."); BNO08xTestHelper::print_test_end_banner(TEST_TAG); } TEST_CASE("Enable/Disable Game Rotation Vector", "[ReportEnableDisable]") { const constexpr char* TEST_TAG = "Enable/Disable Game Rotation Vector"; BNO08x* imu = nullptr; imu_report_data_t report_data; bool new_data = false; char msg_buff[200] = {}; BNO08xTestHelper::print_test_start_banner(TEST_TAG); imu = BNO08xTestHelper::get_test_imu(); // reset all data used in report test imu->reset_all_data(); update_report_data(&report_data, imu); BNO08xTestHelper::print_test_msg(TEST_TAG, "Report enabled testing phase started."); /*enable respective report to test and ensure it reports new data */ imu->enable_game_rotation_vector(100000UL); for (int i = 0; i < RX_REPORT_TRIAL_CNT; i++) { new_data = false; if (imu->data_available()) { update_report_data(&report_data, imu); // check if any default values have been overwritten, implying new data from respective report 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 the accuracy still contains its default value, something has gone wrong, a defined accuracy should be received with every report if (report_data.quat_accuracy == IMUAccuracy::UNDEFINED) new_data = false; if (report_data.raw_quat_radian_accuracy == IMUAccuracy::UNDEFINED) new_data = false; } // assert whether new data was received or not TEST_ASSERT_EQUAL(true, new_data); sprintf(msg_buff, "Enabled Report Rx Data Trial %d Success: I: %.2lf J: %.2lf K: %.2lf real: %.2lf", (i + 1), report_data.quat_I, report_data.quat_J, report_data.quat_K, report_data.quat_real); BNO08xTestHelper::print_test_msg(TEST_TAG, msg_buff); // reset all data used in report test imu->reset_all_data(); update_report_data(&report_data, imu); } BNO08xTestHelper::print_test_msg(TEST_TAG, "Report enabled testing phase completed."); BNO08xTestHelper::print_test_msg(TEST_TAG, "Report disabled testing phase started."); /*disable respective report to test and ensure it stops reporting new data */ imu->disable_game_rotation_vector(); for (int i = 0; i < RX_REPORT_TRIAL_CNT; i++) { new_data = false; // use "true" argument to force wait for data even if no reports are enabled if (imu->data_available(true)) { update_report_data(&report_data, imu); // check if any default values have been overwritten, implying new data from respective report 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 the accuracy does not contain its default value, something has gone wrong, respective report should be disabled if (report_data.quat_accuracy != IMUAccuracy::UNDEFINED) new_data = true; if (report_data.raw_quat_radian_accuracy != IMUAccuracy::UNDEFINED) new_data = true; } // assert that no new data from this report has been received TEST_ASSERT_NOT_EQUAL(true, new_data); sprintf(msg_buff, "Disabled Report No Rx Data Trial %d Success", (i + 1)); BNO08xTestHelper::print_test_msg(TEST_TAG, msg_buff); // reset all data used in report test imu->reset_all_data(); update_report_data(&report_data, imu); } BNO08xTestHelper::print_test_msg(TEST_TAG, "Report disabled testing phase completed."); BNO08xTestHelper::print_test_end_banner(TEST_TAG); }