use base_sequence_compression::compress_sequence;
#[cfg(test)]
mod tests {
use super::*;
fn calculate_compression_rate(original: &str, compressed: &[u8]) -> f64 {
let original_size = original.len();
let compressed_size = compressed.len();
if original_size == 0 {
return 0.0;
}
100.0 - ((compressed_size as f64 / original_size as f64) * 100.0)
}
#[test]
fn test_compression_rate_with_small_data() {
let dna_sequence = "ACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTACGTAC";
let compressed = compress_sequence(dna_sequence);
let compression_rate = calculate_compression_rate(dna_sequence, &compressed);
println!("Compression rate: {:.2}%", compression_rate);
assert!(compression_rate < 100.0);
}
#[test]
fn test_compression_rate_with_real_data() {
let dna_sequence = "GATCCTCCATATACAACGGTATCTCCACCTCAGGTTTAGATCTCAACAACGGAACCATTGCCGACATGAGACAGTTAGGTATCGTCGAGAGTTACAAGCTAAAACGAGCAGTAGTCAGCTCTGCATCTGAAGCCGCTGAAGTTCTACTAAGGGTGGATAACATCATCCGTGCAAGACCAAGAACCGCCAATAGACAACATATGTAACATATTTAGGATATACCTCGAAAATAATAAACCGCCACACTGTCATTATTATAATTAGAAACAGAACGCAAAAATTATCCACTATATAATTCAAAGACGCGAAAAAAAAAGAACAACGCGTCATAGAACTTTTGGCAATTCGCGTCACAAATAAATTTTGGCAACTTATGTTTCCTCTTCGAGCAGTACTCGAGCCCTGTCTCAAGAATGTAATAATACCCATCGTAGGTATGGTTAAAGATAGCATCTCCACAACCTCAAAGCTCCTTGCCGAGAGTCGCCCTCCTTTGTCGAGTAATTTTCACTTTTCATATGAGAACTTATTTTCTTATTCTTTACTCTCACATCCTGTAGTGATTGACACTGCAACAGCCACCATCACTAGAAGAACAGAACAATTACTTAATAGAAAAATTATATCTTCCTCGAAACGATTTCCTGCTTCCAACATCTACGTATATCAAGAAGCATTCACTTACCATGACACAGCTTCAGATTTCATTATTGCTGACAGCTACTATATCACTACTCCATCTAGTAGTGGCCACGCCCTATGAGGCATATCCTATCGGAAAACAATACCCCCCAGTGGCAAGAGTCAATGAATCGTTTACATTTCAAATTTCCAATGATACCTATAAATCGTCTGTAGACAAGACAGCTCAAATAACATACAATTGCTTCGACTTACCGAGCTGGCTTTCGTTTGACTCTAGTTCTAGAACGTTCTCAGGTGAACCTTCTTCTGACTTACTATCTGATGCGAACACCACGTTGTATTTCAATGTAATACTCGAGGGTACGGACTCTGCCGACAGCACGTCTTTGAACAATACATACCAATTTGTTGTTACAAACCGTCCATCCATCTCGCTATCGTCAGATTTCAATCTATTGGCGTTGTTAAAAAACTATGGTTATACTAACGGCAAAAACGCTCTGAAACTAGATCCTAATGAAGTCTTCAACGTGACTTTTGACCGTTCAATGTTCACTAACGAAGAATCCATTGTGTCGTATTACGGACGTTCTCAGTTGTATAATGCGCCGTTACCCAATTGGCTGTTCTTCGATTCTGGCGAGTTGAAGTTTACTGGGACGGCACCGGTGATAAACTCGGCGATTGCTCCAGAAACAAGCTACAGTTTTGTCATCATCGCTACAGACATTGAAGGATTTTCTGCCGTTGAGGTAGAATTCGAATTAGTCATCGGGGCTCACCAGTTAACTACCTCTATTCAAAATAGTTTGATAATCAACGTTACTGACACAGGTAACGTTTCATATGACTTACCTCTAAACTATGTTTATCTCGATGACGATCCTATTTCTTCTGATAAATTGGGTTCTATAAACTTATTGGATGCTCCAGACTGGGTGGCATTAGATAATGCTACCATTTCCGGGTCTGTCCCAGATGAATTACTCGGTAAGAACTCCAATCCTGCCAATTTTTCTGTGTCCATTTATGATACTTATGGTGATGTGATTTATTTCAACTTCGAAGTTGTCTCCACAACGGATTTGTTTGCCATTAGTTCTCTTCCCAATATTAACGCTACAAGGGGTGAATGGTTCTCCTACTATTTTTTGCCTTCTCAGTTTACAGACTACGTGAATACAAACGTTTCATTAGAGTTTACTAATTCAAGCCAAGACCATGACTGGGTGAAATTCCAATCATCTAATTTAACATTAGCTGGAGAAGTGCCCAAGAATTTCGACAAGCTTTCATTAGGTTTGAAAGCGAACCAAGGTTCACAATCTCAAGAGCTATATTTTAACATCATTGGCATGGATTCAAAGATAACTCACTCAAACCACAGTGCGAATGCAACGTCCACAAGAAGTTCTCACCACTCCACCTCAACAAGTTCTTACACATCTTCTACTTACACTGCAAAAATTTCTTCTACCTCCGCTGCTGCTACTTCTTCTGCTCCAGCAGCGCTGCCAGCAGCCAATAAAACTTCATCTCACAATAAAAAAGCAGTAGCAATTGCGTGCGGTGTTGCTATCCCATTAGGCGTTATCCTAGTAGCTCTCATTTGCTTCCTAATATTCTGGAGACGCAGAAGGGAAAATCCAGACGATGAAAACTTACCGCATGCTATTAGTGGACCTGATTTGAATAATCCTGCAAATAAACCAAATCAAGAAAACGCTACACCTTTGAACAACCCCTTTGATGATGATGCTTCCTCGTACGATGATACTTCAATAGCAAGAAGATTGGCTGCTTTGAACACTTTGAAATTGGATAACCACTCTGCCACTGAATCTGATATTTCCAGCGTGGATGAAAAGAGAGATTCTCTATCAGGTATGAATACATACAATGATCAGTTCCAATCCCAAAGTAAAGAAGAATTATTAGCAAAACCCCCAGTACAGCCTCCAGAGAGCCCGTTCTTTGACCCACAGAATAGGTCTTCTTCTGTGTATATGGATAGTGAACCAGCAGTAAATAAATCCTGGCGATATACTGGCAACCTGTCACCAGTCTCTGATATTGTCAGAGACAGTTACGGATCACAAAAAACTGTTGATACAGAAAAACTTTTCGATTTAGAAGCACCAGAGAAGGAAAAACGTACGTCAAGGGATGTCACTATGTCTTCACTGGACCCTTGGAACAGCAATATTAGCCCTTCTCCCGTAAGAAAATCAGTAACACCATCACCATATAACGTAACGAAGCATCGTAACCGCCACTTACAAAATATTCAAGACTCTCAAAGCGGTAAAAACGGAATCACTCCCACAACAATGTCAACTTCATCTTCTGACGATTTTGTTCCGGTTAAAGATGGTGAAAATTTTTGCTGGGTCCATAGCATGGAACCAGACAGAAGACCAAGTAAGAAAAGGTTAGTAGATTTTTCAAATAAGAGTAATGTCAATGTTGGTCAAGTTAAGGACATTCACGGACGCATCCCAGAAATGCTGTGATTATACGCAACGATATTTTGCTTAATTTTATTTTCCTGTTTTATTTTTTATTAGTGGTTTACAGATACCCTATATTTTATTTAGTTTTTATACTTAGAGACATTTAATTTTAATTCCATTCTTCAAATTTCATTTTTGCACTTAAAACAAAGATCCAAAAATGCTCTCGCCCTCTTCATATTGAGAATACACTCCATTCAAAATTTTGTCGTCACCGCTGATTAATTTTTCACTAAACTGATGAATAATCAAAGGCCCCACGTCAGAACCGACTAAAGAAGTGAGTTTTATTTTAGGAGGTTGAAAACCATTATTGTCTGGTAAATTTTCATCTTCTTGACATTTAACCCAGTTTGAATCCCTTTCAATTTCTGCTTTTTCCTCCAAACTATCGACCCTCCTGTTTCTGTCCAACTTATGTCCTAGTTCCAATTCGATCGCATTAATAACTGCTTCAAATGTTATTGTGTCATCGTTGACTTTAGGTAATTTCTCCAAATGCATAATCAAACTATTTAAGGAAGATCGGAATTCGTCGAACACTTCAGTTTCCGTAATGATCTGATCGTCTTTATCCACATGTTGTAATTCACTAAAATCTAAAACGTATTTTTCAATGCATAAATCGTTCTTTTTATTAATAATGCAGATGGAAAATCTGTAAACGTGCGTTAATTTAGAAAGAACATCCAGTATAAGTTCTTCTATATAGTCAATTAAAGCAGGATGCCTATTAATGGGAACGAACTGCGGCAAGTTGAATGACTGGTAAGTAGTGTAGTCGAATGACTGAGGTGGGTATACATTTCTATAAAATAAAATCAAATTAATGTAGCATTTTAAGTATACCCTCAGCCACTTCTCTACCCATCTATTCATAAAGCTGACGCAACGATTACTATTTTTTTTTTCTTCTTGGATCTCAGTCGTCGCAAAAACGTATACCTTCTTTTTCCGACCTTTTTTTTAGCTTTCTGGAAAAGTTTATATTAGTTAAACAGGGTCTAGTCTTAGTGTGAAAGCTAGTGGTTTCGATTGACTGATATTAAGAAAGTGGAAATTAAATTAGTAGTGTAGACGTATATGCATATGTATTTCTCGCCTGTTTATGTTTCTACGTACTTTTGATTTATAGCAAGGGGAAAAGAAATACATACTATTTTTTGGTAAAGGTGAAAGCATAATGTAAAAGCTAGAATAAAATGGACGAAATAAAGAGAGGCTTAGTTCATCTTTTTTCCAAAAAGCACCCAATGATAATAACTAAAATGAAAAGGATTTGCCATCTGTCAGCAACATCAGTTGTGTGAGCAATAATAAAATCATCACCTCCGTTGCCTTTAGCGCGTTTGTCGTTTGTATCTTCCGTAATTTTAGTCTTATCAATGGGAATCATAAATTTTCCAATGAATTAGCAATTTCGTCCAATTCTTTTTGAGCTTCTTCATATTTGCTTTGGAATTCTTCGCACTTCTTTTCCCATTCATCTCTTTCTTCTTCCAAAGCAACGATCCTTCTACCCATTTGCTCAGAGTTCAAATCGGCCTCTTTCAGTTTATCCATTGCTTCCTTCAGTTTGGCTTCACTGTCTTCTAGCTGTTGTTCTAGATCCTGGTTTTTCTTGGTGTAGTTCTCATTATTAGATCTCAAGTTATTGGAGTCTTCAGCCAATTGCTTTGTATCAGACAATTGACTCTCTAACTTCTCCACTTCACTGTCGAGTTGCTCGTTTTTAGCGGACAAAGATTTAATCTCGTTTTCTTTTTCAGTGTTAGATTGCTCTAATTCTTTGAGCTGTTCTCTCAGCTCCTCATATTTTTCTTGCCATGACTCAGATTCTAATTTTAAGCTATTCAATTTCTCTTTGATC";
let compressed = compress_sequence(dna_sequence);
let compression_rate = calculate_compression_rate(dna_sequence, &compressed);
println!("Compression rate: {:.2}%", compression_rate);
assert!(compression_rate < 100.0);
}
#[test]
fn test_compression_rate_empty_sequence() {
let dna_sequence = "";
let compressed = compress_sequence(dna_sequence);
let compression_rate = calculate_compression_rate(dna_sequence, &compressed);
println!("Compression rate: {:.2}%", compression_rate);
assert_eq!(compression_rate, 0.0);
}
}