mirror of
https://github.com/AlexandreRouma/SDRPlusPlus.git
synced 2024-11-14 22:42:52 +01:00
123 lines
4.7 KiB
C
123 lines
4.7 KiB
C
#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include <time.h>
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#include "correct.h"
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#include "fec_shim.h"
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#include "correct/util/error-sim-shim.h"
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size_t max_block_len = 4096;
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size_t test_conv(correct_convolutional *conv, void *fec,
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ssize_t (*decode)(void *, uint8_t *, size_t, uint8_t *),
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conv_testbench **testbench_ptr, size_t msg_len, double eb_n0,
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double bpsk_bit_energy, double bpsk_voltage) {
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uint8_t *msg = malloc(max_block_len);
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size_t num_errors = 0;
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while (msg_len) {
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size_t block_len = (max_block_len < msg_len) ? max_block_len : msg_len;
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msg_len -= block_len;
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for (unsigned int j = 0; j < block_len; j++) {
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msg[j] = rand() % 256;
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}
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*testbench_ptr =
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resize_conv_testbench(*testbench_ptr, conv_correct_enclen, conv, block_len);
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conv_testbench *testbench = *testbench_ptr;
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testbench->encoder = conv;
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testbench->encode = conv_correct_encode;
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testbench->decoder = fec;
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testbench->decode = decode;
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build_white_noise(testbench->noise, testbench->enclen, eb_n0, bpsk_bit_energy);
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num_errors += test_conv_noise(testbench, msg, block_len, bpsk_voltage);
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}
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free(msg);
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return num_errors;
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}
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void assert_test_result(correct_convolutional *conv, void *fec,
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ssize_t (*decode)(void *, uint8_t *, size_t, uint8_t *),
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conv_testbench **testbench, size_t test_length, size_t rate, size_t order,
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double eb_n0, double error_rate) {
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double bpsk_voltage = 1.0 / sqrt(2.0);
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double bpsk_sym_energy = 2 * pow(bpsk_voltage, 2.0);
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double bpsk_bit_energy = bpsk_sym_energy * rate;
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size_t error_count =
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test_conv(conv, fec, decode, testbench, test_length, eb_n0, bpsk_bit_energy, bpsk_voltage);
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double observed_error_rate = error_count / ((double)test_length * 8);
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if (observed_error_rate > error_rate) {
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printf(
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"test failed, expected error rate=%.2e, observed error rate=%.2e @%.1fdB for rate %zu "
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"order %zu\n",
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error_rate, observed_error_rate, eb_n0, rate, order);
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exit(1);
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} else {
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printf(
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"test passed, expected error rate=%.2e, observed error rate=%.2e @%.1fdB for rate %zu "
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"order %zu\n",
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error_rate, observed_error_rate, eb_n0, rate, order);
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}
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}
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int main() {
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srand(time(NULL));
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conv_testbench *testbench = NULL;
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correct_convolutional *conv;
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void *fec;
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uint16_t *poly;
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poly = (uint16_t[]){V27POLYA, V27POLYB};
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conv = correct_convolutional_create(2, 7, poly);
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fec = create_viterbi27(8 * max_block_len);
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assert_test_result(conv, fec, conv_shim27_decode, &testbench, 1000000, 2, 6, INFINITY, 0);
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assert_test_result(conv, fec, conv_shim27_decode, &testbench, 1000000, 2, 6, 4.5, 8e-06);
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assert_test_result(conv, fec, conv_shim27_decode, &testbench, 1000000, 2, 6, 4.0, 5e-05);
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delete_viterbi27(fec);
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correct_convolutional_destroy(conv);
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printf("\n");
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poly = (uint16_t[]){V29POLYA, V29POLYB};
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conv = correct_convolutional_create(2, 9, poly);
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fec = create_viterbi29(8 * max_block_len);
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assert_test_result(conv, fec, conv_shim29_decode, &testbench, 1000000, 2, 9, INFINITY, 0);
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assert_test_result(conv, fec, conv_shim29_decode, &testbench, 1000000, 2, 9, 4.5, 3e-06);
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assert_test_result(conv, fec, conv_shim29_decode, &testbench, 1000000, 2, 9, 4.0, 8e-06);
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delete_viterbi29(fec);
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correct_convolutional_destroy(conv);
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printf("\n");
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poly = (uint16_t[]){V39POLYA, V39POLYB, V39POLYC};
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conv = correct_convolutional_create(3, 9, poly);
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fec = create_viterbi39(8 * max_block_len);
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assert_test_result(conv, fec, conv_shim39_decode, &testbench, 1000000, 3, 9, INFINITY, 0);
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assert_test_result(conv, fec, conv_shim39_decode, &testbench, 1000000, 3, 9, 4.5, 3e-06);
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assert_test_result(conv, fec, conv_shim39_decode, &testbench, 1000000, 3, 9, 4.0, 9e-06);
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delete_viterbi39(fec);
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correct_convolutional_destroy(conv);
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printf("\n");
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poly = (uint16_t[]){V615POLYA, V615POLYB, V615POLYC, V615POLYD, V615POLYE, V615POLYF};
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conv = correct_convolutional_create(6, 15, poly);
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fec = create_viterbi615(8 * max_block_len);
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assert_test_result(conv, fec, conv_shim615_decode, &testbench, 100000, 6, 15, INFINITY, 0);
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assert_test_result(conv, fec, conv_shim615_decode, &testbench, 100000, 6, 15, 3.0, 2e-05);
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assert_test_result(conv, fec, conv_shim615_decode, &testbench, 100000, 6, 15, 2.5, 4e-05);
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delete_viterbi615(fec);
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correct_convolutional_destroy(conv);
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printf("\n");
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free_scratch(testbench);
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return 0;
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}
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