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use rna_transcription as dna;
#[test]
fn test_valid_dna_input() {
assert!(dna::Dna::new("GCTA").is_ok());
}
#[test]
fn test_valid_rna_input() {
assert!(dna::Rna::new("CGAU").is_ok());
}
#[test]
fn test_invalid_dna_input() {
// Invalid character
assert_eq!(dna::Dna::new("X").err(), Some(0));
// Valid nucleotide, but invalid in context
assert_eq!(dna::Dna::new("U").err(), Some(0));
// Longer string with contained errors
assert_eq!(dna::Dna::new("ACGTUXXCTTAA").err(), Some(4));
}
#[test]
fn test_invalid_rna_input() {
// Invalid character
assert_eq!(dna::Rna::new("X").unwrap_err(), 0);
// Valid nucleotide, but invalid in context
assert_eq!(dna::Rna::new("T").unwrap_err(), 0);
// Longer string with contained errors
assert_eq!(dna::Rna::new("ACGUTTXCUUAA").unwrap_err(), 4);
}
#[test]
fn test_acid_equals_acid() {
assert_eq!(dna::Dna::new("CGA").unwrap(), dna::Dna::new("CGA").unwrap());
assert_ne!(dna::Dna::new("CGA").unwrap(), dna::Dna::new("AGC").unwrap());
assert_eq!(dna::Rna::new("CGA").unwrap(), dna::Rna::new("CGA").unwrap());
assert_ne!(dna::Rna::new("CGA").unwrap(), dna::Rna::new("AGC").unwrap());
}
#[test]
fn test_transcribes_cytosine_guanine() {
assert_eq!(
dna::Rna::new("G").unwrap(),
dna::Dna::new("C").unwrap().into_rna()
);
}
#[test]
fn test_transcribes_guanine_cytosine() {
assert_eq!(
dna::Rna::new("C").unwrap(),
dna::Dna::new("G").unwrap().into_rna()
);
}
#[test]
fn test_transcribes_adenine_uracil() {
assert_eq!(
dna::Rna::new("U").unwrap(),
dna::Dna::new("A").unwrap().into_rna()
);
}
#[test]
fn test_transcribes_thymine_to_adenine() {
assert_eq!(
dna::Rna::new("A").unwrap(),
dna::Dna::new("T").unwrap().into_rna()
);
}
#[test]
fn test_transcribes_all_dna_to_rna() {
assert_eq!(
dna::Rna::new("UGCACCAGAAUU").unwrap(),
dna::Dna::new("ACGTGGTCTTAA").unwrap().into_rna()
)
}
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