// // Copyright 2015 Ettus Research LLC // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, either version 3 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // // You should have received a copy of the GNU General Public License // along with this program. If not, see . // #include #include #include #include #define UHD_TEST_EXECUTE_OR_GOTO(label, ...) \ if(__VA_ARGS__){ \ fprintf(stderr, "Error occurred at %s:%d\n", __FILE__, (__LINE__-1)); \ return_code = EXIT_FAILURE; \ goto label; \ } #define UHD_TEST_CHECK_CLOSE(lhs, rhs) (fabs(lhs-rhs) < 0.001) #define BUFFER_SIZE 1024 static UHD_INLINE int test_range_values( const uhd_range_t *range, double start_input, double stop_input, double step_input ){ if(!UHD_TEST_CHECK_CLOSE(range->start, start_input)){ fprintf(stderr, "%s:%d: Starts did not match: %f vs. %f\n", __FILE__, __LINE__, range->start, start_input); return 1; } if(!UHD_TEST_CHECK_CLOSE(range->stop, stop_input)){ fprintf(stderr, "%s:%d: Stops did not match: %f vs. %f\n", __FILE__, __LINE__, range->stop, stop_input); return 1; } if(!UHD_TEST_CHECK_CLOSE(range->step, step_input)){ fprintf(stderr, "%s:%d: Steps did not match: %f vs. %f\n", __FILE__, __LINE__, range->step, step_input); return 1; } return 0; } static UHD_INLINE int test_meta_range_values( uhd_meta_range_handle meta_range, double start_input, double stop_input, double step_input, double start_test, double stop_test, double step_test ){ // Add range uhd_range_t range; range.start = start_input; range.stop = stop_input; range.step = step_input; if(uhd_meta_range_push_back(meta_range, &range)){ fprintf(stderr, "%s:%d: Failed to push back range.\n", __FILE__, __LINE__); return 1; } // Test bounds uhd_meta_range_start(meta_range, &range.start); if(!UHD_TEST_CHECK_CLOSE(range.start, start_test)){ fprintf(stderr, "%s:%d: Starts did not match: %f vs. %f\n", __FILE__, __LINE__, range.start, start_test); return 1; } uhd_meta_range_stop(meta_range, &range.stop); if(!UHD_TEST_CHECK_CLOSE(range.stop, stop_test)){ fprintf(stderr, "%s:%d: Stops did not match: %f vs. %f\n", __FILE__, __LINE__, range.stop, stop_test); return 1; } uhd_meta_range_step(meta_range, &range.step); if(!UHD_TEST_CHECK_CLOSE(range.step, step_test)){ fprintf(stderr, "%s:%d: Steps did not match: %f vs. %f\n", __FILE__, __LINE__, range.step, step_test); return 1; } return 0; } static UHD_INLINE int test_meta_range_clip( uhd_meta_range_handle meta_range, double clip_value, double test_value, bool clip_step ){ double clip_result; uhd_meta_range_clip(meta_range, clip_value, clip_step, &clip_result); if(!UHD_TEST_CHECK_CLOSE(test_value, clip_result)){ fprintf(stderr, "%s:%d: Values did not match: %f vs. %f\n", __FILE__, __LINE__, test_value, clip_result); return 1; } return 0; } int main(){ // Variables int return_code; uhd_range_t range; uhd_meta_range_handle meta_range1, meta_range2; char str_buffer[BUFFER_SIZE]; size_t size; return_code = EXIT_SUCCESS; // Create meta range 1 UHD_TEST_EXECUTE_OR_GOTO(end_of_test, uhd_meta_range_make(&meta_range1) ) // Test bounds UHD_TEST_EXECUTE_OR_GOTO(free_meta_range1, test_meta_range_values(meta_range1, -1.0, +1.0, 0.1, -1.0, +1.0, 0.1) ) UHD_TEST_EXECUTE_OR_GOTO(free_meta_range1, test_meta_range_values(meta_range1, 40.0, 60.0, 1.0, -1.0, 60.0, 0.1) ) uhd_meta_range_at(meta_range1, 0, &range); UHD_TEST_EXECUTE_OR_GOTO(free_meta_range1, test_range_values(&range, -1.0, +1.0, 0.1) ) // Check meta range size UHD_TEST_EXECUTE_OR_GOTO(free_meta_range1, uhd_meta_range_size(meta_range1, &size) ) if(size != 2){ fprintf(stderr, "%s:%d: Invalid size: %lu vs. 2", __FILE__, __LINE__, size); goto free_meta_range1; } // Test clipping (with steps) UHD_TEST_EXECUTE_OR_GOTO(free_meta_range1, test_meta_range_clip(meta_range1, -30.0, -1.0, false) ) UHD_TEST_EXECUTE_OR_GOTO(free_meta_range1, test_meta_range_clip(meta_range1, 70.0, 60.0, false) ) UHD_TEST_EXECUTE_OR_GOTO(free_meta_range1, test_meta_range_clip(meta_range1, 20.0, 1.0, false) ) UHD_TEST_EXECUTE_OR_GOTO(free_meta_range1, test_meta_range_clip(meta_range1, 50.0, 50.0, false) ) UHD_TEST_EXECUTE_OR_GOTO(free_meta_range1, test_meta_range_clip(meta_range1, 50.9, 50.9, false) ) UHD_TEST_EXECUTE_OR_GOTO(free_meta_range1, test_meta_range_clip(meta_range1, 50.9, 51.0, true) ) // Create meta range 2 UHD_TEST_EXECUTE_OR_GOTO(free_meta_range1, uhd_meta_range_make(&meta_range2) ) range.step = 0.0; range.start = range.stop = 1.; UHD_TEST_EXECUTE_OR_GOTO(free_meta_range2, uhd_meta_range_push_back(meta_range2, &range) ) range.start = range.stop = 2.; UHD_TEST_EXECUTE_OR_GOTO(free_meta_range2, uhd_meta_range_push_back(meta_range2, &range) ) range.start = range.stop = 3.; UHD_TEST_EXECUTE_OR_GOTO(free_meta_range2, uhd_meta_range_push_back(meta_range2, &range) ) // Test clipping (without steps) UHD_TEST_EXECUTE_OR_GOTO(free_meta_range2, test_meta_range_clip(meta_range2, 2., 2., true) ) UHD_TEST_EXECUTE_OR_GOTO(free_meta_range2, test_meta_range_clip(meta_range2, 0., 1., true) ) UHD_TEST_EXECUTE_OR_GOTO(free_meta_range2, test_meta_range_clip(meta_range2, 1.2, 1., true) ) UHD_TEST_EXECUTE_OR_GOTO(free_meta_range2, test_meta_range_clip(meta_range2, 3.1, 3., true) ) UHD_TEST_EXECUTE_OR_GOTO(free_meta_range2, test_meta_range_clip(meta_range2, 4., 3., true) ) free_meta_range2: if(return_code){ uhd_meta_range_last_error(meta_range2, str_buffer, BUFFER_SIZE); fprintf(stderr, "meta_range2 error: %s\n", str_buffer); } uhd_meta_range_free(&meta_range1); free_meta_range1: if(return_code){ uhd_meta_range_last_error(meta_range1, str_buffer, BUFFER_SIZE); fprintf(stderr, "meta_range1 error: %s\n", str_buffer); } uhd_meta_range_free(&meta_range1); end_of_test: if(!return_code){ printf("\nNo errors detected.\n"); } return return_code; }