mod macros; use core::{cmp::Ordering::*, str::FromStr}; use num_traits::{Inv, Signed, ToPrimitive}; use rust_decimal::{Decimal, Error, RoundingStrategy}; #[test] #[cfg(feature = "c-repr")] fn layout_is_correct() { assert_eq!(std::mem::size_of::(), std::mem::size_of::()); } #[test] fn it_can_extract_the_mantissa() { let tests = [ ("1", 1i128, 0), ("1.123456", 1123456i128, 6), ("-0.123456", -123456i128, 6), ]; for &(input, mantissa, scale) in &tests { let num = Decimal::from_str(input).unwrap(); assert_eq!(num.mantissa(), mantissa, "Mantissa for {input}"); assert_eq!(num.scale(), scale, "Scale for {input}"); } } // Parsing #[test] fn it_creates_a_new_negative_decimal() { let a = Decimal::new(-100, 2); assert!(a.is_sign_negative()); assert_eq!(a.scale(), 2); assert_eq!("-1.00", a.to_string()); } #[test] fn it_creates_a_new_decimal_using_numeric_boundaries() { let a = Decimal::new(i64::MAX, 2); assert!(!a.is_sign_negative()); assert_eq!(a.scale(), 2); assert_eq!("92233720368547758.07", a.to_string()); let b = Decimal::new(i64::MIN, 2); assert!(b.is_sign_negative()); assert_eq!(b.scale(), 2); assert_eq!("-92233720368547758.08", b.to_string()); } #[test] fn it_parses_empty_string() { assert!(Decimal::from_str("").is_err()); assert!(Decimal::from_str(" ").is_err()); } #[test] fn it_parses_positive_int_string() { let a = Decimal::from_str("233").unwrap(); assert!(!a.is_sign_negative()); assert_eq!(a.scale(), 0); assert_eq!("233", a.to_string()); } #[test] fn it_parses_negative_int_string() { let a = Decimal::from_str("-233").unwrap(); assert!(a.is_sign_negative()); assert_eq!(a.scale(), 0); assert_eq!("-233", a.to_string()); } #[test] fn it_parses_positive_float_string() { let a = Decimal::from_str("233.323223").unwrap(); assert!(!a.is_sign_negative()); assert_eq!(a.scale(), 6); assert_eq!("233.323223", a.to_string()); } #[test] fn it_parses_negative_float_string() { let a = Decimal::from_str("-233.43343").unwrap(); assert!(a.is_sign_negative()); assert_eq!(a.scale(), 5); assert_eq!("-233.43343", a.to_string()); } #[test] fn it_parses_positive_tiny_float_string() { let a = Decimal::from_str(".000001").unwrap(); assert!(!a.is_sign_negative()); assert_eq!(a.scale(), 6); assert_eq!("0.000001", a.to_string()); } #[test] fn it_parses_negative_tiny_float_string() { let a = Decimal::from_str("-0.000001").unwrap(); assert!(a.is_sign_negative()); assert_eq!(a.scale(), 6); assert_eq!("-0.000001", a.to_string()); } #[test] fn it_parses_big_integer_string() { let a = Decimal::from_str("79228162514264337593543950330").unwrap(); assert_eq!("79228162514264337593543950330", a.to_string()); } #[test] fn it_parses_big_float_string() { let a = Decimal::from_str("79.228162514264337593543950330").unwrap(); assert_eq!("79.228162514264337593543950330", a.to_string()); } #[test] fn it_can_serialize_deserialize() { let tests = [ "12.3456789", "5233.9008808150288439427720175", "-5233.9008808150288439427720175", ]; for test in &tests { let a = Decimal::from_str(test).unwrap(); let bytes = a.serialize(); let b = Decimal::deserialize(bytes); assert_eq!(test.to_string(), b.to_string()); } } #[cfg(feature = "borsh")] mod borsh_tests { use rust_decimal::Decimal; use std::str::FromStr; #[test] fn it_can_serialize_deserialize_borsh() { let tests = [ "12.3456789", "5233.9008808150288439427720175", "-5233.9008808150288439427720175", ]; for test in &tests { let a = Decimal::from_str(test).unwrap(); let mut bytes: Vec = Vec::new(); borsh::BorshSerialize::serialize(&a, &mut bytes).unwrap(); let b: Decimal = borsh::BorshDeserialize::deserialize(&mut bytes.as_slice()).unwrap(); assert_eq!(test.to_string(), b.to_string()); let bytes = borsh::try_to_vec_with_schema(&a); assert!(bytes.is_ok(), "try_to_vec_with_schema.is_ok()"); let bytes = bytes.unwrap(); let result = borsh::try_from_slice_with_schema(&bytes); assert!(result.is_ok(), "try_from_slice_with_schema.is_ok()"); let b: Decimal = result.unwrap(); assert_eq!(test.to_string(), b.to_string()); } } } #[cfg(feature = "ndarray")] mod ndarray_tests { use rust_decimal::Decimal; #[test] fn it_can_do_scalar_ops_in_ndarray() { use ndarray::Array1; use num_traits::FromPrimitive; let array_a = Array1::from(vec![ Decimal::from_f32(1.0).unwrap(), Decimal::from_f32(2.0).unwrap(), Decimal::from_f32(3.0).unwrap(), ]); // Add let output = array_a.clone() + Decimal::from_f32(5.0).unwrap(); let expectation = Array1::from(vec![ Decimal::from_f32(6.0).unwrap(), Decimal::from_f32(7.0).unwrap(), Decimal::from_f32(8.0).unwrap(), ]); assert_eq!(output, expectation); // Sub let output = array_a.clone() - Decimal::from_f32(5.0).unwrap(); let expectation = Array1::from(vec![ Decimal::from_f32(-4.0).unwrap(), Decimal::from_f32(-3.0).unwrap(), Decimal::from_f32(-2.0).unwrap(), ]); assert_eq!(output, expectation); // Mul let output = array_a.clone() * Decimal::from_f32(5.0).unwrap(); let expectation = Array1::from(vec![ Decimal::from_f32(5.0).unwrap(), Decimal::from_f32(10.0).unwrap(), Decimal::from_f32(15.0).unwrap(), ]); assert_eq!(output, expectation); // Div let output = array_a / Decimal::from_f32(5.0).unwrap(); let expectation = Array1::from(vec![ Decimal::from_f32(0.2).unwrap(), Decimal::from_f32(0.4).unwrap(), Decimal::from_f32(0.6).unwrap(), ]); assert_eq!(output, expectation); } } #[cfg(feature = "rkyv")] mod rkyv_tests { use rust_decimal::Decimal; use std::str::FromStr; #[test] fn it_can_serialize_deserialize_rkyv() { use rkyv::Deserialize; let tests = [ "12.3456789", "5233.9008808150288439427720175", "-5233.9008808150288439427720175", ]; for test in &tests { let a = Decimal::from_str(test).unwrap(); let bytes = rkyv::to_bytes::<_, 256>(&a).unwrap(); #[cfg(feature = "rkyv-safe")] { let archived = rkyv::check_archived_root::(&bytes[..]).unwrap(); assert_eq!(archived, &a); } let archived = unsafe { rkyv::archived_root::(&bytes[..]) }; assert_eq!(archived, &a); let deserialized: Decimal = archived.deserialize(&mut rkyv::Infallible).unwrap(); assert_eq!(deserialized, a); } } } #[test] fn it_can_deserialize_unbounded_values() { // Mantissa for these: 19393111376951473493673267553 let tests = [ ( [1u8, 0, 28, 206, 97, 81, 216, 182, 20, 30, 165, 78, 18, 155, 169, 62], // Scale 28: -1.9393111376951473493673267553 "-1.9393111376951473493673267553", ), ( [1u8, 0, 29, 206, 97, 81, 216, 182, 20, 30, 165, 78, 18, 155, 169, 62], // Scale 29: -0.19393111376951473493673267553 "-0.1939311137695147349367326755", ), ( [1u8, 0, 30, 206, 97, 81, 216, 182, 20, 30, 165, 78, 18, 155, 169, 62], // Scale 30: -0.019393111376951473493673267553 "-0.0193931113769514734936732676", ), ( [1u8, 0, 31, 206, 97, 81, 216, 182, 20, 30, 165, 78, 18, 155, 169, 62], // Scale 31: -0.0019393111376951473493673267553 "-0.0019393111376951473493673268", ), ]; for &(bytes, expected) in &tests { let dec = Decimal::deserialize(bytes); let string = format!("{dec:.9999}"); let dec2 = Decimal::from_str(&string).unwrap(); assert_eq!(dec, dec2); assert_eq!(dec.to_string(), expected, "dec.to_string()"); assert_eq!(dec2.to_string(), expected, "dec2.to_string()"); } } // Formatting #[test] fn it_formats() { let a = Decimal::from_str("233.323223").unwrap(); assert_eq!(format!("{a}"), "233.323223"); assert_eq!(format!("{a:.9}"), "233.323223000"); assert_eq!(format!("{a:.0}"), "233"); assert_eq!(format!("{a:.2}"), "233.32"); assert_eq!(format!("{a:010.2}"), "0000233.32"); assert_eq!(format!("{a:0<10.2}"), "233.320000"); } #[test] fn it_formats_neg() { let a = Decimal::from_str("-233.323223").unwrap(); assert_eq!(format!("{a}"), "-233.323223"); assert_eq!(format!("{a:.9}"), "-233.323223000"); assert_eq!(format!("{a:.0}"), "-233"); assert_eq!(format!("{a:.2}"), "-233.32"); assert_eq!(format!("{a:010.2}"), "-000233.32"); assert_eq!(format!("{a:0<10.2}"), "-233.32000"); } #[test] fn it_formats_small() { let a = Decimal::from_str("0.2223").unwrap(); assert_eq!(format!("{a}"), "0.2223"); assert_eq!(format!("{a:.9}"), "0.222300000"); assert_eq!(format!("{a:.0}"), "0"); assert_eq!(format!("{a:.2}"), "0.22"); assert_eq!(format!("{a:010.2}"), "0000000.22"); assert_eq!(format!("{a:0<10.2}"), "0.22000000"); } #[test] fn it_formats_small_leading_zeros() { let a = Decimal::from_str("0.0023554701772169").unwrap(); assert_eq!(format!("{a}"), "0.0023554701772169"); assert_eq!(format!("{a:.9}"), "0.002355470"); assert_eq!(format!("{a:.0}"), "0"); assert_eq!(format!("{a:.2}"), "0.00"); assert_eq!(format!("{a:010.2}"), "0000000.00"); assert_eq!(format!("{a:0<10.2}"), "0.00000000"); } #[test] fn it_formats_small_neg() { let a = Decimal::from_str("-0.2223").unwrap(); assert_eq!(format!("{a}"), "-0.2223"); assert_eq!(format!("{a:.9}"), "-0.222300000"); assert_eq!(format!("{a:.0}"), "-0"); assert_eq!(format!("{a:.2}"), "-0.22"); assert_eq!(format!("{a:010.2}"), "-000000.22"); assert_eq!(format!("{a:0<10.2}"), "-0.2200000"); } #[test] fn it_formats_zero() { let a = Decimal::from_str("0").unwrap(); assert_eq!(format!("{a}"), "0"); assert_eq!(format!("{a:.9}"), "0.000000000"); assert_eq!(format!("{a:.0}"), "0"); assert_eq!(format!("{a:.2}"), "0.00"); assert_eq!(format!("{a:010.2}"), "0000000.00"); assert_eq!(format!("{a:0<10.2}"), "0.00000000"); } #[test] fn it_formats_int() { let a = Decimal::from_str("5").unwrap(); assert_eq!(format!("{a}"), "5"); assert_eq!(format!("{a:.9}"), "5.000000000"); assert_eq!(format!("{a:.0}"), "5"); assert_eq!(format!("{a:.2}"), "5.00"); assert_eq!(format!("{a:010.2}"), "0000005.00"); assert_eq!(format!("{a:0<10.2}"), "5.00000000"); } #[test] fn it_formats_lower_exp() { let tests = [ ("0.00001", "1e-5"), ("-0.00001", "-1e-5"), ("42.123", "4.2123e1"), ("-42.123", "-4.2123e1"), ("100", "1e2"), ]; for (value, expected) in &tests { let a = Decimal::from_str(value).unwrap(); assert_eq!(&format!("{a:e}"), *expected, "format!(\"{{:e}}\", {a})"); } } #[test] fn it_formats_lower_exp_padding() { let tests = [ ("0.00001", "01e-5"), ("-0.00001", "-1e-5"), ("42.123", "4.2123e1"), ("-42.123", "-4.2123e1"), ("100", "001e2"), ]; for (value, expected) in &tests { let a = Decimal::from_str(value).unwrap(); assert_eq!(&format!("{a:05e}"), *expected, "format!(\"{{:05e}}\", {a})"); } } #[test] fn it_formats_scientific_precision() { for (num, scale, expected_no_precision, expected_precision) in [ ( 123456, 10, "1.23456e-5", [ "1e-5", "1.2e-5", "1.23e-5", "1.234e-5", "1.2345e-5", "1.23456e-5", "1.234560e-5", "1.2345600e-5", ], ), ( 123456, 0, "1.23456e5", [ "1e5", "1.2e5", "1.23e5", "1.234e5", "1.2345e5", "1.23456e5", "1.234560e5", "1.2345600e5", ], ), ( 1, 0, "1e0", [ "1e0", "1.0e0", "1.00e0", "1.000e0", "1.0000e0", "1.00000e0", "1.000000e0", "1.0000000e0", ], ), ( -123456, 10, "-1.23456e-5", [ "-1e-5", "-1.2e-5", "-1.23e-5", "-1.234e-5", "-1.2345e-5", "-1.23456e-5", "-1.234560e-5", "-1.2345600e-5", ], ), ( -100000, 10, "-1e-5", [ "-1e-5", "-1.0e-5", "-1.00e-5", "-1.000e-5", "-1.0000e-5", "-1.00000e-5", "-1.000000e-5", "-1.0000000e-5", ], ), ] { assert_eq!(format!("{:e}", Decimal::new(num, scale)), expected_no_precision); for (i, precision) in expected_precision.iter().enumerate() { assert_eq!(&format!("{:.prec$e}", Decimal::new(num, scale), prec = i), precision); } } } // Negation #[test] fn it_negates_decimals() { fn neg(a: &str, b: &str) { let a = Decimal::from_str(a).unwrap(); let result = -a; assert_eq!(b, result.to_string(), "- {a}"); } let tests = &[ ("1", "-1"), ("2", "-2"), ("2454495034", "-2454495034"), ("0.1", "-0.1"), ("11.815126050420168067226890757", "-11.815126050420168067226890757"), ]; for &(a, b) in tests { neg(a, b); neg(b, a); } } // Addition #[test] fn it_can_add_simple() { // This is the most basic test for addition, intended largely for micro-optimization. let two = Decimal::ONE + Decimal::ONE; assert_eq!(two.to_u32(), Some(2)); } #[test] fn it_adds_decimals() { fn add(a: &str, b: &str, c: &str) { let a = Decimal::from_str(a).unwrap(); let b = Decimal::from_str(b).unwrap(); let result = a + b; assert_eq!(c, result.to_string(), "{a} + {b}"); let result = b + a; assert_eq!(c, result.to_string(), "{b} + {a}"); } let tests = &[ ("0", "0", "0"), ("0", "-0", "0"), ("-0", "0", "0"), ("-0", "-0", "0"), ("2", "3", "5"), ("2454495034", "3451204593", "5905699627"), ("24544.95034", ".3451204593", "24545.2954604593"), (".1", ".1", "0.2"), (".10", ".1", "0.20"), (".1", "-.1", "0.0"), ("0", "1.001", "1.001"), ("2", "-3", "-1"), ("-2", "3", "1"), ("-2", "-3", "-5"), ("3", "-2", "1"), ("-3", "2", "-1"), ("1.234", "2.4567", "3.6907"), ( "11.815126050420168067226890757", "0.6386554621848739495798319328", "12.453781512605042016806722690", ), ( "-11.815126050420168067226890757", "0.6386554621848739495798319328", "-11.176470588235294117647058824", ), ( "11.815126050420168067226890757", "-0.6386554621848739495798319328", "11.176470588235294117647058824", ), ( "-11.815126050420168067226890757", "-0.6386554621848739495798319328", "-12.453781512605042016806722690", ), ( "11815126050420168067226890757", "0.4386554621848739495798319328", "11815126050420168067226890757", ), ( "-11815126050420168067226890757", "0.4386554621848739495798319328", "-11815126050420168067226890757", ), ( "11815126050420168067226890757", "-0.4386554621848739495798319328", "11815126050420168067226890757", ), ( "-11815126050420168067226890757", "-0.4386554621848739495798319328", "-11815126050420168067226890757", ), ( "0.0872727272727272727272727272", "843.65000000", "843.7372727272727272727272727", ), ( "7314.6229858868828353570724702", "1000", // Overflow causes this to round "8314.622985886882835357072470", ), ( "108053.27500000000000000000000", "0.00000000000000000000000", "108053.27500000000000000000000", ), ( "108053.27500000000000000000000", // This zero value has too high precision and will be trimmed "0.000000000000000000000000", "108053.27500000000000000000000", ), ( "108053.27500000000000000000000", // This value has too high precision and will be rounded "0.000000000000000000000001", "108053.27500000000000000000000", ), ( "108053.27500000000000000000000", // This value has too high precision and will be rounded "0.000000000000000000000005", either!("108053.27500000000000000000000", "108053.27500000000000000000001"), ), ( "8097370036018690744.2590371109596744091", "3807285637671831400.15346897797550749555", "11904655673690522144.412506089", ), ]; for &(a, b, c) in tests { add(a, b, c); } } #[test] fn it_can_addassign() { let mut a = Decimal::from_str("1.01").unwrap(); let b = Decimal::from_str("0.99").unwrap(); a += b; assert_eq!("2.00", a.to_string()); a += &b; assert_eq!("2.99", a.to_string()); let mut c = &mut a; c += b; assert_eq!("3.98", a.to_string()); let mut c = &mut a; c += &b; assert_eq!("4.97", a.to_string()); } // Subtraction #[test] fn it_subtracts_decimals() { fn sub(a: &str, b: &str, c: &str) { let a = Decimal::from_str(a).unwrap(); let b = Decimal::from_str(b).unwrap(); let result = a - b; assert_eq!(c, result.to_string(), "{a} - {b}"); } let tests = &[ ("0", "0", "0"), ("0", "-0", "0"), ("-0", "0", "0"), ("-0", "-0", "0"), ("2", "3", "-1"), ("3451204593", "2323322332", "1127882261"), ("24544.95034", ".3451204593", "24544.6052195407"), (".1", ".1", "0.0"), (".1", "-.1", "0.2"), ("1.001", "0", "1.001"), ("2", "-3", "5"), ("-2", "3", "-5"), ("-2", "-3", "1"), ("3", "-2", "5"), ("-3", "2", "-5"), ("1.234", "2.4567", "-1.2227"), ("844.13000000", "843.65000000", "0.48000000"), ("79228162514264337593543950335", "79228162514264337593543950335", "0"), // 0xFFFF_FFFF_FFFF_FFFF_FFF_FFFF - 0xFFFF_FFFF_FFFF_FFFF_FFF_FFFF ("79228162514264337593543950335", "0", "79228162514264337593543950335"), ("79228162514264337593543950335", "79228162514264337593543950333", "2"), ("4951760157141521099596496896", "1", "4951760157141521099596496895"), // 0x1000_0000_0000_0000_0000_0000 - 1 = 0x0FFF_FFFF_FFFF_FFFF_FFF_FFFF ("79228162514264337593543950334", "79228162514264337593543950335", "-1"), ("1", "4951760157141521099596496895", "-4951760157141521099596496894"), ("18446744073709551615", "-18446744073709551615", "36893488147419103230"), // 0xFFFF_FFFF_FFFF_FFFF - -0xFFFF_FFFF_FFFF_FFFF ]; for &(a, b, c) in tests { sub(a, b, c); } } #[test] fn it_can_subassign() { let mut a = Decimal::from_str("1.01").unwrap(); let b = Decimal::from_str("0.51").unwrap(); a -= b; assert_eq!("0.50", a.to_string()); a -= &b; assert_eq!("-0.01", a.to_string()); let mut c = &mut a; c -= b; assert_eq!("-0.52", a.to_string()); let mut c = &mut a; c -= &b; assert_eq!("-1.03", a.to_string()); } // Multiplication #[test] fn it_multiplies_decimals() { fn mul(a: &str, b: &str, c: &str) { let a = Decimal::from_str(a).unwrap(); let b = Decimal::from_str(b).unwrap(); let result = a * b; assert_eq!(c, result.to_string(), "{a} * {b}"); let result = b * a; assert_eq!(c, result.to_string(), "{b} * {a}"); } let tests = &[ ("2", "3", "6"), ("2454495034", "3451204593", "8470964534836491162"), ("24544.95034", ".3451204593", "8470.964534836491162"), (".1", ".1", "0.01"), ("0", "1.001", "0"), ("2", "-3", "-6"), ("-2", "3", "-6"), ("-2", "-3", "6"), ("1", "2.01", "2.01"), ("1.0", "2.01", "2.010"), // Scale is always additive ( "0.00000000000000001", "0.00000000000000001", "0.0000000000000000000000000000", ), ("0.0000000000000000000000000001", "0.0000000000000000000000000001", "0"), ( "0.6386554621848739495798319328", "11.815126050420168067226890757", "7.5457947885036367488171739292", ), ( "2123456789012345678901234567.8", "11.815126050420168067226890757", "25088909624801327937270048761", ), ( "2123456789012345678901234567.8", "-11.815126050420168067226890757", "-25088909624801327937270048761", ), ( "2.1234567890123456789012345678", "2.1234567890123456789012345678", "4.5090687348026215523554336227", ), ( "0.48000000", "0.1818181818181818181818181818", either!("0.0872727272727272727272727273", "0.0872727272727272727272727272"), ), ]; for &(a, b, c) in tests { mul(a, b, c); } } #[test] #[should_panic(expected = "Multiplication overflowed")] fn it_panics_when_multiply_with_overflow() { let a = Decimal::from_str("2000000000000000000001").unwrap(); let b = Decimal::from_str("3000000000000000000001").unwrap(); let _ = a * b; } #[test] fn it_can_mulassign() { let mut a = Decimal::from_str("1.25").unwrap(); let b = Decimal::from_str("0.01").unwrap(); a *= b; assert_eq!("0.0125", a.to_string()); a *= &b; assert_eq!("0.000125", a.to_string()); let mut c = &mut a; c *= b; assert_eq!("0.00000125", a.to_string()); let mut c = &mut a; c *= &b; assert_eq!("0.0000000125", a.to_string()); } // Division #[test] fn it_divides_decimals() { fn div(a: &str, b: &str, c: &str) { let a = Decimal::from_str(a).unwrap(); let b = Decimal::from_str(b).unwrap(); let result = a / b; assert_eq!(c, result.to_string(), "{a} / {b}"); } let tests = &[ ("6", "3", "2"), ("10", "2", "5"), ("2.2", "1.1", "2"), ("-2.2", "-1.1", "2"), ("12.88", "5.6", "2.3"), ( "1023427554493", "43432632", either!("23563.562864276795382789603909", "23563.562864276795382789603908"), ), ("10000", "3", "3333.3333333333333333333333333"), ("2", "3", "0.6666666666666666666666666667"), ("1", "3", "0.3333333333333333333333333333"), ("-2", "3", "-0.6666666666666666666666666667"), ("2", "-3", "-0.6666666666666666666666666667"), ("-2", "-3", "0.6666666666666666666666666667"), ( "1234.5678", "0.1234567890123456", either!("9999.99926999999982999953127", "9999.999269999999829999531269"), ), ("1234.567890123456789012345678", "1.234567890123456789012345678", "1000"), ( "32.91625929004387114334488", "3.27629537", either!("10.046792359274942644546996384", "10.046792359274942644546996383"), ), ("5000", "1000.26957490549", "4.9986524887277738570721416846"), ("6142.6941216127122745222131114", "2", "3071.3470608063561372611065557"), ( "3071.3470608063561372611065557", "1228.87000756", either!("2.4993262443638869285360708423", "2.4993262443638869285360708422"), ), ( "590.3274854004009467754255123", "53.68997202826239", "10.995116277759516850521689988", ), ]; for &(a, b, c) in tests { div(a, b, c); } } #[test] #[should_panic(expected = "Division by zero")] fn it_can_divide_by_zero() { let a = Decimal::from_str("2").unwrap(); let _ = a / Decimal::ZERO; } #[test] fn it_can_divassign() { let mut a = Decimal::from_str("1.25").unwrap(); let b = Decimal::from_str("0.01").unwrap(); a /= b; assert_eq!("125", a.to_string()); a /= &b; assert_eq!("12500", a.to_string()); let mut c = &mut a; c /= b; assert_eq!("1250000", a.to_string()); let mut c = &mut a; c /= &b; assert_eq!("125000000", a.to_string()); } // Modulus and Remainder are not the same thing! // https://math.stackexchange.com/q/801962/82277 #[test] fn it_rems_decimals() { fn rem(a: &str, b: &str, c: &str) { let a = Decimal::from_str(a).unwrap(); let b = Decimal::from_str(b).unwrap(); // a = qb + r let result = a % b; assert_eq!(c, result.to_string(), "{a} % {b}"); } let tests = &[ ("2", "3", "2"), ("-2", "3", "-2"), ("2", "-3", "2"), ("-2", "-3", "-2"), ("6", "3", "0"), ("42.2", "11.9", "6.5"), ("2.1", "3", "2.1"), ("2", "3.1", "2"), ("2.0", "3.1", "2.0"), ("4", "3.1", "0.9"), ("2", "2", "0"), ("2", "-2", "0"), // Legacy keeps sign from lhs operand ("-2", "2", "0"), ("-2", "-2", "0"), ]; for &(a, b, c) in tests { rem(a, b, c); } } #[test] fn it_can_remassign() { let mut a = Decimal::from_str("5").unwrap(); let b = Decimal::from_str("2").unwrap(); a %= b; assert_eq!("1", a.to_string()); a %= &b; assert_eq!("1", a.to_string()); let mut c = &mut a; c %= b; assert_eq!("1", a.to_string()); let mut c = &mut a; c %= &b; assert_eq!("1", a.to_string()); } #[test] fn it_eqs_decimals() { fn eq(a: &str, b: &str, c: bool) { let a = Decimal::from_str(a).unwrap(); let b = Decimal::from_str(b).unwrap(); assert_eq!(c, a.eq(&b), "{a} == {b}"); assert_eq!(c, b.eq(&a), "{b} == {a}"); } let tests = &[ ("1", "1", true), ("1", "-1", false), ("1", "1.00", true), ("1.2345000000000", "1.2345", true), ("1.0000000000000000000000000000", "1.0000000000000000000000000000", true), ( "1.0000000000000000000000000001", "1.0000000000000000000000000000", false, ), ]; for &(a, b, c) in tests { eq(a, b, c); } } #[test] fn it_cmps_decimals() { fn cmp(a: &str, b: &str, c: core::cmp::Ordering) { let a = Decimal::from_str(a).unwrap(); let b = Decimal::from_str(b).unwrap(); assert_eq!( c, a.cmp(&b), "{} {} {}", a, match c { Less => "<", Equal => "==", Greater => ">", }, b ); } let tests = &[ ("1", "1", Equal), ("1", "-1", Greater), ("1", "1.00", Equal), ("1.2345000000000", "1.2345", Equal), ( "1.0000000000000000000000000001", "1.0000000000000000000000000000", Greater, ), ("1.0000000000000000000000000000", "1.0000000000000000000000000001", Less), ("-1", "100", Less), ("-100", "1", Less), ("0", "0.5", Less), ("0.5", "0", Greater), ("100", "0.0098", Greater), ("1000000000000000", "999000000000000.0001", Greater), ("2.0001", "2.0001", Equal), ( "11.815126050420168067226890757", "0.6386554621848739495798319328", Greater, ), ("0.6386554621848739495798319328", "11.815126050420168067226890757", Less), ("-0.5", "-0.01", Less), ("-0.5", "-0.1", Less), ("-0.01", "-0.5", Greater), ("-0.1", "-0.5", Greater), // 000 equality ("0.00000000", "0.00000000", Equal), // 000 000 same scale ("0.00000000", "0.00000000", Equal), ("-0.00000000", "0.00000000", Equal), ("0.00000000", "-0.00000000", Equal), ("-0.00000000", "-0.00000000", Equal), // 000 000 different scale ("0.000000000", "0.00000000000000000000000", Equal), ("-0.000000000", "0.00000000000000000000000", Equal), ("0.000000000", "-0.00000000000000000000000", Equal), ("-0.000000000", "-0.00000000000000000000000", Equal), // 000 100 same scale ("0.00000000", "6.56792910", Less), ("-0.00000000", "6.56792910", Less), ("0.00000000", "-6.56792910", Greater), ("-0.00000000", "-6.56792910", Greater), // 000 100 different scale ("0.0000000000000000000", "0.00000000000000001916236746", Less), ("-0.0000000000000000000", "0.00000000000000001916236746", Less), ("0.0000000000000000000", "-0.00000000000000001916236746", Greater), ("-0.0000000000000000000", "-0.00000000000000001916236746", Greater), // 000 010 same scale ("0.00000000", "49037796231.72571136", Less), ("-0.00000000", "49037796231.72571136", Less), ("0.00000000", "-49037796231.72571136", Greater), ("-0.00000000", "-49037796231.72571136", Greater), // 000 010 different scale ("0", "14459264155.12895488", Less), ("-0", "14459264155.12895488", Less), ("0", "-14459264155.12895488", Greater), ("-0", "-14459264155.12895488", Greater), // 000 110 same scale ("0.00000000", "38675108055.09052783", Less), ("-0.00000000", "38675108055.09052783", Less), ("0.00000000", "-38675108055.09052783", Greater), ("-0.00000000", "-38675108055.09052783", Greater), // 000 110 different scale ("0.00", "1495767034080324868", Less), ("-0.00", "1495767034080324868", Less), ("0.00", "-1495767034080324868", Greater), ("-0.00", "-1495767034080324868", Greater), // 000 001 same scale ("0.00000000", "359299289270893106016.81305600", Less), ("-0.00000000", "359299289270893106016.81305600", Less), ("0.00000000", "-359299289270893106016.81305600", Greater), ("-0.00000000", "-359299289270893106016.81305600", Greater), // 000 001 different scale ("0.00000000000000000000000000", "261631091689.9518486763536384", Less), ("-0.00000000000000000000000000", "261631091689.9518486763536384", Less), ( "0.00000000000000000000000000", "-261631091689.9518486763536384", Greater, ), ( "-0.00000000000000000000000000", "-261631091689.9518486763536384", Greater, ), // 000 101 same scale ("0.00000000", "184137107696737410476.63166815", Less), ("-0.00000000", "184137107696737410476.63166815", Less), ("0.00000000", "-184137107696737410476.63166815", Greater), ("-0.00000000", "-184137107696737410476.63166815", Greater), // 000 101 different scale ("0.000000000", "2286857871088.7514840434334478", Less), ("-0.000000000", "2286857871088.7514840434334478", Less), ("0.000000000", "-2286857871088.7514840434334478", Greater), ("-0.000000000", "-2286857871088.7514840434334478", Greater), // 000 011 same scale ("0.00000000", "169194696640288819908.07715840", Less), ("-0.00000000", "169194696640288819908.07715840", Less), ("0.00000000", "-169194696640288819908.07715840", Greater), ("-0.00000000", "-169194696640288819908.07715840", Greater), // 000 011 different scale ("0.00000000", "2757550691.7650076909569048576", Less), ("-0.00000000", "2757550691.7650076909569048576", Less), ("0.00000000", "-2757550691.7650076909569048576", Greater), ("-0.00000000", "-2757550691.7650076909569048576", Greater), // 000 111 same scale ("0.00000000", "133610725292915899001.10059212", Less), ("-0.00000000", "133610725292915899001.10059212", Less), ("0.00000000", "-133610725292915899001.10059212", Greater), ("-0.00000000", "-133610725292915899001.10059212", Greater), // 000 111 different scale ("0.00000000000000000000", "86.25432767926620368822165265", Less), ("-0.00000000000000000000", "86.25432767926620368822165265", Less), ("0.00000000000000000000", "-86.25432767926620368822165265", Greater), ("-0.00000000000000000000", "-86.25432767926620368822165265", Greater), // 100 equality ("0.0000000000598992228", "0.0000000000598992228", Equal), // 100 000 same scale ("0.0000000000598992228", "0.0000000000000000000", Greater), ("-0.0000000000598992228", "0.0000000000000000000", Less), ("0.0000000000598992228", "-0.0000000000000000000", Greater), ("-0.0000000000598992228", "-0.0000000000000000000", Less), // 100 000 different scale ("0.1797407597", "0.0000000000000000000", Greater), ("-0.1797407597", "0.0000000000000000000", Less), ("0.1797407597", "-0.0000000000000000000", Greater), ("-0.1797407597", "-0.0000000000000000000", Less), // 100 100 same scale ("0.0000000000598992228", "0.0000000000064510789", Greater), ("-0.0000000000598992228", "0.0000000000064510789", Less), ("0.0000000000598992228", "-0.0000000000064510789", Greater), ("-0.0000000000598992228", "-0.0000000000064510789", Less), // 100 100 different scale ("0.000000000000011217354", "0.0000000000217735186", Less), ("-0.000000000000011217354", "0.0000000000217735186", Less), ("0.000000000000011217354", "-0.0000000000217735186", Greater), ("-0.000000000000011217354", "-0.0000000000217735186", Greater), // 100 010 same scale ("0.0000000000598992228", "0.0659116848159129600", Less), ("-0.0000000000598992228", "0.0659116848159129600", Less), ("0.0000000000598992228", "-0.0659116848159129600", Greater), ("-0.0000000000598992228", "-0.0659116848159129600", Greater), // 100 010 different scale ("0.00042035421", "0.004709460588143575040", Less), ("-0.00042035421", "0.004709460588143575040", Less), ("0.00042035421", "-0.004709460588143575040", Greater), ("-0.00042035421", "-0.004709460588143575040", Greater), // 100 110 same scale ("0.0000000000598992228", "0.0755686585127091375", Less), ("-0.0000000000598992228", "0.0755686585127091375", Less), ("0.0000000000598992228", "-0.0755686585127091375", Greater), ("-0.0000000000598992228", "-0.0755686585127091375", Greater), // 100 110 different scale ("14872.94465", "1284707831905.854085", Less), ("-14872.94465", "1284707831905.854085", Less), ("14872.94465", "-1284707831905.854085", Greater), ("-14872.94465", "-1284707831905.854085", Greater), // 100 001 same scale ("0.0000000000598992228", "888767595.6145376468836286464", Less), ("-0.0000000000598992228", "888767595.6145376468836286464", Less), ("0.0000000000598992228", "-888767595.6145376468836286464", Greater), ("-0.0000000000598992228", "-888767595.6145376468836286464", Greater), // 100 001 different scale ("0.0002108155975", "36.07555527243968476014968832", Less), ("-0.0002108155975", "36.07555527243968476014968832", Less), ("0.0002108155975", "-36.07555527243968476014968832", Greater), ("-0.0002108155975", "-36.07555527243968476014968832", Greater), // 100 101 same scale ("0.0000000000598992228", "125730345.7412344676309569911", Less), ("-0.0000000000598992228", "125730345.7412344676309569911", Less), ("0.0000000000598992228", "-125730345.7412344676309569911", Greater), ("-0.0000000000598992228", "-125730345.7412344676309569911", Greater), // 100 101 different scale ("0.0000000000871576741", "1.7283925558865766140690239662", Less), ("-0.0000000000871576741", "1.7283925558865766140690239662", Less), ("0.0000000000871576741", "-1.7283925558865766140690239662", Greater), ("-0.0000000000871576741", "-1.7283925558865766140690239662", Greater), // 100 011 same scale ("0.0000000000598992228", "645513262.9193254090737451008", Less), ("-0.0000000000598992228", "645513262.9193254090737451008", Less), ("0.0000000000598992228", "-645513262.9193254090737451008", Greater), ("-0.0000000000598992228", "-645513262.9193254090737451008", Greater), // 100 011 different scale ("0.000000000000000760885021", "3718370638.2004059326675681280", Less), ("-0.000000000000000760885021", "3718370638.2004059326675681280", Less), ("0.000000000000000760885021", "-3718370638.2004059326675681280", Greater), ( "-0.000000000000000760885021", "-3718370638.2004059326675681280", Greater, ), // 100 111 same scale ("0.0000000000598992228", "422482675.5515775479939306437", Less), ("-0.0000000000598992228", "422482675.5515775479939306437", Less), ("0.0000000000598992228", "-422482675.5515775479939306437", Greater), ("-0.0000000000598992228", "-422482675.5515775479939306437", Greater), // 100 111 different scale ("0.000000044182898", "25.452953262109919998605674045", Less), ("-0.000000044182898", "25.452953262109919998605674045", Less), ("0.000000044182898", "-25.452953262109919998605674045", Greater), ("-0.000000044182898", "-25.452953262109919998605674045", Greater), // 010 equality ("423.1744746042687488", "423.1744746042687488", Equal), // 010 000 same scale ("423.1744746042687488", "0.0000000000000000", Greater), ("-423.1744746042687488", "0.0000000000000000", Less), ("423.1744746042687488", "-0.0000000000000000", Greater), ("-423.1744746042687488", "-0.0000000000000000", Less), // 010 000 different scale ("9002354991.192604672", "0.00000000000000000000000000", Greater), ("-9002354991.192604672", "0.00000000000000000000000000", Less), ("9002354991.192604672", "-0.00000000000000000000000000", Greater), ("-9002354991.192604672", "-0.00000000000000000000000000", Less), // 010 100 same scale ("423.1744746042687488", "0.0000000981820809", Greater), ("-423.1744746042687488", "0.0000000981820809", Less), ("423.1744746042687488", "-0.0000000981820809", Greater), ("-423.1744746042687488", "-0.0000000981820809", Less), // 010 100 different scale ("4327019125101559.808", "0.00484846050", Greater), ("-4327019125101559.808", "0.00484846050", Less), ("4327019125101559.808", "-0.00484846050", Greater), ("-4327019125101559.808", "-0.00484846050", Less), // 010 010 same scale ("423.1744746042687488", "786.9082854590775296", Less), ("-423.1744746042687488", "786.9082854590775296", Less), ("423.1744746042687488", "-786.9082854590775296", Greater), ("-423.1744746042687488", "-786.9082854590775296", Greater), // 010 010 different scale ("793.0067125291450368", "0.0001587297248335626240", Greater), ("-793.0067125291450368", "0.0001587297248335626240", Less), ("793.0067125291450368", "-0.0001587297248335626240", Greater), ("-793.0067125291450368", "-0.0001587297248335626240", Less), // 010 110 same scale ("423.1744746042687488", "300.0541360230572049", Greater), ("-423.1744746042687488", "300.0541360230572049", Less), ("423.1744746042687488", "-300.0541360230572049", Greater), ("-423.1744746042687488", "-300.0541360230572049", Less), // 010 110 different scale ("90627.2042582540288", "4472414566654924.741", Less), ("-90627.2042582540288", "4472414566654924.741", Less), ("90627.2042582540288", "-4472414566654924.741", Greater), ("-90627.2042582540288", "-4472414566654924.741", Greater), // 010 001 same scale ("423.1744746042687488", "3960577151543.5796707636412416", Less), ("-423.1744746042687488", "3960577151543.5796707636412416", Less), ("423.1744746042687488", "-3960577151543.5796707636412416", Greater), ("-423.1744746042687488", "-3960577151543.5796707636412416", Greater), // 010 001 different scale ("0.000008867461591822499840", "185286.04378228713249986052096", Less), ("-0.000008867461591822499840", "185286.04378228713249986052096", Less), ("0.000008867461591822499840", "-185286.04378228713249986052096", Greater), ( "-0.000008867461591822499840", "-185286.04378228713249986052096", Greater, ), // 010 101 same scale ("423.1744746042687488", "2825958416017.6213507229869501", Less), ("-423.1744746042687488", "2825958416017.6213507229869501", Less), ("423.1744746042687488", "-2825958416017.6213507229869501", Greater), ("-423.1744746042687488", "-2825958416017.6213507229869501", Greater), // 010 101 different scale ("0.01901870767742648320", "37662082383021542232.529651212", Less), ("-0.01901870767742648320", "37662082383021542232.529651212", Less), ("0.01901870767742648320", "-37662082383021542232.529651212", Greater), ("-0.01901870767742648320", "-37662082383021542232.529651212", Greater), // 010 011 same scale ("423.1744746042687488", "3628063966991.6759417059016704", Less), ("-423.1744746042687488", "3628063966991.6759417059016704", Less), ("423.1744746042687488", "-3628063966991.6759417059016704", Greater), ("-423.1744746042687488", "-3628063966991.6759417059016704", Greater), // 010 011 different scale ("45359904.32470925312", "2.4203452488052342918570049536", Greater), ("-45359904.32470925312", "2.4203452488052342918570049536", Less), ("45359904.32470925312", "-2.4203452488052342918570049536", Greater), ("-45359904.32470925312", "-2.4203452488052342918570049536", Less), // 010 111 same scale ("423.1744746042687488", "2629665172331.9610693820109120", Less), ("-423.1744746042687488", "2629665172331.9610693820109120", Less), ("423.1744746042687488", "-2629665172331.9610693820109120", Greater), ("-423.1744746042687488", "-2629665172331.9610693820109120", Greater), // 010 111 different scale ("0.0006420803252266205184", "8172.032417576265900588945489", Less), ("-0.0006420803252266205184", "8172.032417576265900588945489", Less), ("0.0006420803252266205184", "-8172.032417576265900588945489", Greater), ("-0.0006420803252266205184", "-8172.032417576265900588945489", Greater), // 110 equality ("844.5530620517286511", "844.5530620517286511", Equal), // 110 000 same scale ("844.5530620517286511", "0.0000000000000000", Greater), ("-844.5530620517286511", "0.0000000000000000", Less), ("844.5530620517286511", "-0.0000000000000000", Greater), ("-844.5530620517286511", "-0.0000000000000000", Less), // 110 000 different scale ("3285.530033386074797", "0.00000000000000000000", Greater), ("-3285.530033386074797", "0.00000000000000000000", Less), ("3285.530033386074797", "-0.00000000000000000000", Greater), ("-3285.530033386074797", "-0.00000000000000000000", Less), // 110 100 same scale ("844.5530620517286511", "0.0000001953470063", Greater), ("-844.5530620517286511", "0.0000001953470063", Less), ("844.5530620517286511", "-0.0000001953470063", Greater), ("-844.5530620517286511", "-0.0000001953470063", Less), // 110 100 different scale ("371284.0210972493371", "0.000000000000001307794657", Greater), ("-371284.0210972493371", "0.000000000000001307794657", Less), ("371284.0210972493371", "-0.000000000000001307794657", Greater), ("-371284.0210972493371", "-0.000000000000001307794657", Less), // 110 010 same scale ("844.5530620517286511", "612.1542773033140224", Greater), ("-844.5530620517286511", "612.1542773033140224", Less), ("844.5530620517286511", "-612.1542773033140224", Greater), ("-844.5530620517286511", "-612.1542773033140224", Less), // 110 010 different scale ("0.00004869219159821525572", "23341676485159.15776", Less), ("-0.00004869219159821525572", "23341676485159.15776", Less), ("0.00004869219159821525572", "-23341676485159.15776", Greater), ("-0.00004869219159821525572", "-23341676485159.15776", Greater), // 110 110 same scale ("844.5530620517286511", "326.6132818317622015", Greater), ("-844.5530620517286511", "326.6132818317622015", Less), ("844.5530620517286511", "-326.6132818317622015", Greater), ("-844.5530620517286511", "-326.6132818317622015", Less), // 110 110 different scale ("4752139369958.820619", "1330851022882027.972", Less), ("-4752139369958.820619", "1330851022882027.972", Less), ("4752139369958.820619", "-1330851022882027.972", Greater), ("-4752139369958.820619", "-1330851022882027.972", Greater), // 110 001 same scale ("844.5530620517286511", "3585610241942.1922435648192512", Less), ("-844.5530620517286511", "3585610241942.1922435648192512", Less), ("844.5530620517286511", "-3585610241942.1922435648192512", Greater), ("-844.5530620517286511", "-3585610241942.1922435648192512", Greater), // 110 001 different scale ("539313715923.4424678", "12410950080603997079634706432", Less), ("-539313715923.4424678", "12410950080603997079634706432", Less), ("539313715923.4424678", "-12410950080603997079634706432", Greater), ("-539313715923.4424678", "-12410950080603997079634706432", Greater), // 110 101 same scale ("844.5530620517286511", "1947825396031.6933708908343230", Less), ("-844.5530620517286511", "1947825396031.6933708908343230", Less), ("844.5530620517286511", "-1947825396031.6933708908343230", Greater), ("-844.5530620517286511", "-1947825396031.6933708908343230", Greater), // 110 101 different scale ("0.2301405445512525317", "245433629587.71206426704897154", Less), ("-0.2301405445512525317", "245433629587.71206426704897154", Less), ("0.2301405445512525317", "-245433629587.71206426704897154", Greater), ("-0.2301405445512525317", "-245433629587.71206426704897154", Greater), // 110 011 same scale ("844.5530620517286511", "3637850451015.0843464291450880", Less), ("-844.5530620517286511", "3637850451015.0843464291450880", Less), ("844.5530620517286511", "-3637850451015.0843464291450880", Greater), ("-844.5530620517286511", "-3637850451015.0843464291450880", Greater), // 110 011 different scale ("0.00000000717944802566514691", "18143443615.480512395717115904", Less), ("-0.00000000717944802566514691", "18143443615.480512395717115904", Less), ( "0.00000000717944802566514691", "-18143443615.480512395717115904", Greater, ), ( "-0.00000000717944802566514691", "-18143443615.480512395717115904", Greater, ), // 110 111 same scale ("844.5530620517286511", "2738424264600.4917875777303163", Less), ("-844.5530620517286511", "2738424264600.4917875777303163", Less), ("844.5530620517286511", "-2738424264600.4917875777303163", Greater), ("-844.5530620517286511", "-2738424264600.4917875777303163", Greater), // 110 111 different scale ("0.0000000007762706076409491335", "2489879185787497651.6458518595", Less), ( "-0.0000000007762706076409491335", "2489879185787497651.6458518595", Less, ), ( "0.0000000007762706076409491335", "-2489879185787497651.6458518595", Greater, ), ( "-0.0000000007762706076409491335", "-2489879185787497651.6458518595", Greater, ), // 001 equality ("316007568232.9263258873102336", "316007568232.9263258873102336", Equal), // 001 000 same scale ("316007568232.9263258873102336", "0.0000000000000000", Greater), ("-316007568232.9263258873102336", "0.0000000000000000", Less), ("316007568232.9263258873102336", "-0.0000000000000000", Greater), ("-316007568232.9263258873102336", "-0.0000000000000000", Less), // 001 000 different scale ("3522055990024364385815547084.8", "0.000000000000", Greater), ("-3522055990024364385815547084.8", "0.000000000000", Less), ("3522055990024364385815547084.8", "-0.000000000000", Greater), ("-3522055990024364385815547084.8", "-0.000000000000", Less), // 001 100 same scale ("316007568232.9263258873102336", "0.0000001073412971", Greater), ("-316007568232.9263258873102336", "0.0000001073412971", Less), ("316007568232.9263258873102336", "-0.0000001073412971", Greater), ("-316007568232.9263258873102336", "-0.0000001073412971", Less), // 001 100 different scale ("1319006.0491408208640440532992", "0.00000000000000611866432", Greater), ("-1319006.0491408208640440532992", "0.00000000000000611866432", Less), ("1319006.0491408208640440532992", "-0.00000000000000611866432", Greater), ("-1319006.0491408208640440532992", "-0.00000000000000611866432", Less), // 001 010 same scale ("316007568232.9263258873102336", "159.1054215143227392", Greater), ("-316007568232.9263258873102336", "159.1054215143227392", Less), ("316007568232.9263258873102336", "-159.1054215143227392", Greater), ("-316007568232.9263258873102336", "-159.1054215143227392", Less), // 001 010 different scale ("2470144.7146711063666704252928", "211.0186916505714688", Greater), ("-2470144.7146711063666704252928", "211.0186916505714688", Less), ("2470144.7146711063666704252928", "-211.0186916505714688", Greater), ("-2470144.7146711063666704252928", "-211.0186916505714688", Less), // 001 110 same scale ("316007568232.9263258873102336", "15.1186658969096112", Greater), ("-316007568232.9263258873102336", "15.1186658969096112", Less), ("316007568232.9263258873102336", "-15.1186658969096112", Greater), ("-316007568232.9263258873102336", "-15.1186658969096112", Less), // 001 110 different scale ("3840504199004148630832.3360768", "7581138850996748864", Greater), ("-3840504199004148630832.3360768", "7581138850996748864", Less), ("3840504199004148630832.3360768", "-7581138850996748864", Greater), ("-3840504199004148630832.3360768", "-7581138850996748864", Less), // 001 001 same scale ("316007568232.9263258873102336", "810157633226.6053390856880128", Less), ("-316007568232.9263258873102336", "810157633226.6053390856880128", Less), ( "316007568232.9263258873102336", "-810157633226.6053390856880128", Greater, ), ( "-316007568232.9263258873102336", "-810157633226.6053390856880128", Greater, ), // 001 001 different scale ("1951046382014.4037956952260608", "3626102772868740412010083.1232", Less), ( "-1951046382014.4037956952260608", "3626102772868740412010083.1232", Less, ), ( "1951046382014.4037956952260608", "-3626102772868740412010083.1232", Greater, ), ( "-1951046382014.4037956952260608", "-3626102772868740412010083.1232", Greater, ), // 001 101 same scale ("316007568232.9263258873102336", "3258394380359.1965879291312453", Less), ("-316007568232.9263258873102336", "3258394380359.1965879291312453", Less), ( "316007568232.9263258873102336", "-3258394380359.1965879291312453", Greater, ), ( "-316007568232.9263258873102336", "-3258394380359.1965879291312453", Greater, ), // 001 101 different scale ( "17580513970289834.943527780352", "3.7977957031395371036126086595", Greater, ), ( "-17580513970289834.943527780352", "3.7977957031395371036126086595", Less, ), ( "17580513970289834.943527780352", "-3.7977957031395371036126086595", Greater, ), ( "-17580513970289834.943527780352", "-3.7977957031395371036126086595", Less, ), // 001 011 same scale ("316007568232.9263258873102336", "1154574080460.9867510617997312", Less), ("-316007568232.9263258873102336", "1154574080460.9867510617997312", Less), ( "316007568232.9263258873102336", "-1154574080460.9867510617997312", Greater, ), ( "-316007568232.9263258873102336", "-1154574080460.9867510617997312", Greater, ), // 001 011 different scale ("2008379587.5525351789031325696", "32824109460554.341800487157760", Less), ( "-2008379587.5525351789031325696", "32824109460554.341800487157760", Less, ), ( "2008379587.5525351789031325696", "-32824109460554.341800487157760", Greater, ), ( "-2008379587.5525351789031325696", "-32824109460554.341800487157760", Greater, ), // 001 111 same scale ("316007568232.9263258873102336", "2816795479724.6069787794805311", Less), ("-316007568232.9263258873102336", "2816795479724.6069787794805311", Less), ( "316007568232.9263258873102336", "-2816795479724.6069787794805311", Greater, ), ( "-316007568232.9263258873102336", "-2816795479724.6069787794805311", Greater, ), // 001 111 different scale ( "3536806574745420013541890.4576", "9793146.81730411145833529126", Greater, ), ("-3536806574745420013541890.4576", "9793146.81730411145833529126", Less), ( "3536806574745420013541890.4576", "-9793146.81730411145833529126", Greater, ), ("-3536806574745420013541890.4576", "-9793146.81730411145833529126", Less), // 101 equality ( "254208186622762823842.71629992", "254208186622762823842.71629992", Equal, ), // 101 000 same scale ("254208186622762823842.71629992", "0.00000000", Greater), ("-254208186622762823842.71629992", "0.00000000", Less), ("254208186622762823842.71629992", "-0.00000000", Greater), ("-254208186622762823842.71629992", "-0.00000000", Less), // 101 000 different scale ("975421950664039.3614304091804", "0.0000000000000000", Greater), ("-975421950664039.3614304091804", "0.0000000000000000", Less), ("975421950664039.3614304091804", "-0.0000000000000000", Greater), ("-975421950664039.3614304091804", "-0.0000000000000000", Less), // 101 100 same scale ("254208186622762823842.71629992", "10.74141379", Greater), ("-254208186622762823842.71629992", "10.74141379", Less), ("254208186622762823842.71629992", "-10.74141379", Greater), ("-254208186622762823842.71629992", "-10.74141379", Less), // 101 100 different scale ("2552221405032275.8358630506229", "0.000000000000000592656995", Greater), ("-2552221405032275.8358630506229", "0.000000000000000592656995", Less), ("2552221405032275.8358630506229", "-0.000000000000000592656995", Greater), ("-2552221405032275.8358630506229", "-0.000000000000000592656995", Less), // 101 010 same scale ("254208186622762823842.71629992", "62767493748.48499712", Greater), ("-254208186622762823842.71629992", "62767493748.48499712", Less), ("254208186622762823842.71629992", "-62767493748.48499712", Greater), ("-254208186622762823842.71629992", "-62767493748.48499712", Less), // 101 010 different scale ("197346074219.25327589999174264", "0.7623493575178715136", Greater), ("-197346074219.25327589999174264", "0.7623493575178715136", Less), ("197346074219.25327589999174264", "-0.7623493575178715136", Greater), ("-197346074219.25327589999174264", "-0.7623493575178715136", Less), // 101 110 same scale ("254208186622762823842.71629992", "76597126194.51389094", Greater), ("-254208186622762823842.71629992", "76597126194.51389094", Less), ("254208186622762823842.71629992", "-76597126194.51389094", Greater), ("-254208186622762823842.71629992", "-76597126194.51389094", Less), // 101 110 different scale ("25899773651648.380071130043467", "61306258142804903.38", Less), ("-25899773651648.380071130043467", "61306258142804903.38", Less), ("25899773651648.380071130043467", "-61306258142804903.38", Greater), ("-25899773651648.380071130043467", "-61306258142804903.38", Greater), // 101 001 same scale ( "254208186622762823842.71629992", "83547191565151621967.28086528", Greater, ), ("-254208186622762823842.71629992", "83547191565151621967.28086528", Less), ( "254208186622762823842.71629992", "-83547191565151621967.28086528", Greater, ), ( "-254208186622762823842.71629992", "-83547191565151621967.28086528", Less, ), // 101 001 different scale ("244762.90302171293318719286219", "9964072.600255221193011888128", Less), ("-244762.90302171293318719286219", "9964072.600255221193011888128", Less), ( "244762.90302171293318719286219", "-9964072.600255221193011888128", Greater, ), ( "-244762.90302171293318719286219", "-9964072.600255221193011888128", Greater, ), // 101 101 same scale ( "254208186622762823842.71629992", "106541875981662806348.63716235", Greater, ), ( "-254208186622762823842.71629992", "106541875981662806348.63716235", Less, ), ( "254208186622762823842.71629992", "-106541875981662806348.63716235", Greater, ), ( "-254208186622762823842.71629992", "-106541875981662806348.63716235", Less, ), // 101 101 different scale ("362319.18250030256385507568342", "3619454249020577423546109236", Less), ("-362319.18250030256385507568342", "3619454249020577423546109236", Less), ( "362319.18250030256385507568342", "-3619454249020577423546109236", Greater, ), ( "-362319.18250030256385507568342", "-3619454249020577423546109236", Greater, ), // 101 011 same scale ( "254208186622762823842.71629992", "156781478378762688050.06557184", Greater, ), ( "-254208186622762823842.71629992", "156781478378762688050.06557184", Less, ), ( "254208186622762823842.71629992", "-156781478378762688050.06557184", Greater, ), ( "-254208186622762823842.71629992", "-156781478378762688050.06557184", Less, ), // 101 011 different scale ("2486073465266.0337130589931876", "153874906950888902858.19691008", Less), ( "-2486073465266.0337130589931876", "153874906950888902858.19691008", Less, ), ( "2486073465266.0337130589931876", "-153874906950888902858.19691008", Greater, ), ( "-2486073465266.0337130589931876", "-153874906950888902858.19691008", Greater, ), // 101 111 same scale ( "254208186622762823842.71629992", "10101645723744656462.08148676", Greater, ), ("-254208186622762823842.71629992", "10101645723744656462.08148676", Less), ( "254208186622762823842.71629992", "-10101645723744656462.08148676", Greater, ), ( "-254208186622762823842.71629992", "-10101645723744656462.08148676", Less, ), // 101 111 different scale ("14107601965.909635434653634526", "111238758546502973973477.99454", Less), ( "-14107601965.909635434653634526", "111238758546502973973477.99454", Less, ), ( "14107601965.909635434653634526", "-111238758546502973973477.99454", Greater, ), ( "-14107601965.909635434653634526", "-111238758546502973973477.99454", Greater, ), // 011 equality ( "272322.48219624218537039495168", "272322.48219624218537039495168", Equal, ), // 011 000 same scale ("272322.48219624218537039495168", "0.00000000000000000000000", Greater), ("-272322.48219624218537039495168", "0.00000000000000000000000", Less), ("272322.48219624218537039495168", "-0.00000000000000000000000", Greater), ("-272322.48219624218537039495168", "-0.00000000000000000000000", Less), // 011 000 different scale ("3214885516.0787854158246969344", "0.00000000000000000", Greater), ("-3214885516.0787854158246969344", "0.00000000000000000", Less), ("3214885516.0787854158246969344", "-0.00000000000000000", Greater), ("-3214885516.0787854158246969344", "-0.00000000000000000", Less), // 011 100 same scale ("272322.48219624218537039495168", "0.00000000000000379487994", Greater), ("-272322.48219624218537039495168", "0.00000000000000379487994", Less), ("272322.48219624218537039495168", "-0.00000000000000379487994", Greater), ("-272322.48219624218537039495168", "-0.00000000000000379487994", Less), // 011 100 different scale ("388166715906.19371912596291584", "0.000000000000001996700736", Greater), ("-388166715906.19371912596291584", "0.000000000000001996700736", Less), ("388166715906.19371912596291584", "-0.000000000000001996700736", Greater), ("-388166715906.19371912596291584", "-0.000000000000001996700736", Less), // 011 010 same scale ("272322.48219624218537039495168", "0.00000175873997328613376", Greater), ("-272322.48219624218537039495168", "0.00000175873997328613376", Less), ("272322.48219624218537039495168", "-0.00000175873997328613376", Greater), ("-272322.48219624218537039495168", "-0.00000175873997328613376", Less), // 011 010 different scale ( "17963864.0946434527121637376", "0.0000000001112699367808040960", Greater, ), ("-17963864.0946434527121637376", "0.0000000001112699367808040960", Less), ( "17963864.0946434527121637376", "-0.0000000001112699367808040960", Greater, ), ("-17963864.0946434527121637376", "-0.0000000001112699367808040960", Less), // 011 110 same scale ("272322.48219624218537039495168", "0.00009168252278596474115", Greater), ("-272322.48219624218537039495168", "0.00009168252278596474115", Less), ("272322.48219624218537039495168", "-0.00009168252278596474115", Greater), ("-272322.48219624218537039495168", "-0.00009168252278596474115", Less), // 011 110 different scale ("3.1530040332824324172729548800", "0.05636139104712652784", Greater), ("-3.1530040332824324172729548800", "0.05636139104712652784", Less), ("3.1530040332824324172729548800", "-0.05636139104712652784", Greater), ("-3.1530040332824324172729548800", "-0.05636139104712652784", Less), // 011 001 same scale ( "272322.48219624218537039495168", "78956.15667671475190631497728", Greater, ), ("-272322.48219624218537039495168", "78956.15667671475190631497728", Less), ( "272322.48219624218537039495168", "-78956.15667671475190631497728", Greater, ), ( "-272322.48219624218537039495168", "-78956.15667671475190631497728", Less, ), // 011 001 different scale ( "247159638929.90774677497446400", "18573048.37697991870462820352", Greater, ), ("-247159638929.90774677497446400", "18573048.37697991870462820352", Less), ( "247159638929.90774677497446400", "-18573048.37697991870462820352", Greater, ), ( "-247159638929.90774677497446400", "-18573048.37697991870462820352", Less, ), // 011 101 same scale ("272322.48219624218537039495168", "311953.28803357654172947915942", Less), ( "-272322.48219624218537039495168", "311953.28803357654172947915942", Less, ), ( "272322.48219624218537039495168", "-311953.28803357654172947915942", Greater, ), ( "-272322.48219624218537039495168", "-311953.28803357654172947915942", Greater, ), // 011 101 different scale ("2922696937234119470.0273745920", "22441101906503785827606686629", Less), ("-2922696937234119470.0273745920", "22441101906503785827606686629", Less), ( "2922696937234119470.0273745920", "-22441101906503785827606686629", Greater, ), ( "-2922696937234119470.0273745920", "-22441101906503785827606686629", Greater, ), // 011 011 same scale ("272322.48219624218537039495168", "348316.28306497394164006649856", Less), ( "-272322.48219624218537039495168", "348316.28306497394164006649856", Less, ), ( "272322.48219624218537039495168", "-348316.28306497394164006649856", Greater, ), ( "-272322.48219624218537039495168", "-348316.28306497394164006649856", Greater, ), // 011 011 different scale ("178190346.76624086261395619840", "62208030746.22038852927225856", Less), ("-178190346.76624086261395619840", "62208030746.22038852927225856", Less), ( "178190346.76624086261395619840", "-62208030746.22038852927225856", Greater, ), ( "-178190346.76624086261395619840", "-62208030746.22038852927225856", Greater, ), // 011 111 same scale ( "272322.48219624218537039495168", "41534.52021391898039335355927", Greater, ), ("-272322.48219624218537039495168", "41534.52021391898039335355927", Less), ( "272322.48219624218537039495168", "-41534.52021391898039335355927", Greater, ), ( "-272322.48219624218537039495168", "-41534.52021391898039335355927", Less, ), // 011 111 different scale ("11.959910518519677083499626496", "2844684364802261541879551.2259", Less), ( "-11.959910518519677083499626496", "2844684364802261541879551.2259", Less, ), ( "11.959910518519677083499626496", "-2844684364802261541879551.2259", Greater, ), ( "-11.959910518519677083499626496", "-2844684364802261541879551.2259", Greater, ), // 111 equality ( "3836286746260530032892706.6174", "3836286746260530032892706.6174", Equal, ), // 111 000 same scale ("3836286746260530032892706.6174", "0.0000", Greater), ("-3836286746260530032892706.6174", "0.0000", Less), ("3836286746260530032892706.6174", "-0.0000", Greater), ("-3836286746260530032892706.6174", "-0.0000", Less), // 111 000 different scale ("4401861854803552.033657814547", "0.0000000", Greater), ("-4401861854803552.033657814547", "0.0000000", Less), ("4401861854803552.033657814547", "-0.0000000", Greater), ("-4401861854803552.033657814547", "-0.0000000", Less), // 111 100 same scale ("3836286746260530032892706.6174", "68758.6561", Greater), ("-3836286746260530032892706.6174", "68758.6561", Less), ("3836286746260530032892706.6174", "-68758.6561", Greater), ("-3836286746260530032892706.6174", "-68758.6561", Less), // 111 100 different scale ( "18794337354296131695536777.153", "0.000000000000000001563875977", Greater, ), ("-18794337354296131695536777.153", "0.000000000000000001563875977", Less), ( "18794337354296131695536777.153", "-0.000000000000000001563875977", Greater, ), ( "-18794337354296131695536777.153", "-0.000000000000000001563875977", Less, ), // 111 010 same scale ("3836286746260530032892706.6174", "439097665563236.7616", Greater), ("-3836286746260530032892706.6174", "439097665563236.7616", Less), ("3836286746260530032892706.6174", "-439097665563236.7616", Greater), ("-3836286746260530032892706.6174", "-439097665563236.7616", Less), // 111 010 different scale ("219364497389.57405761662363679", "0.6569644274462228480", Greater), ("-219364497389.57405761662363679", "0.6569644274462228480", Less), ("219364497389.57405761662363679", "-0.6569644274462228480", Greater), ("-219364497389.57405761662363679", "-0.6569644274462228480", Less), // 111 110 same scale ("3836286746260530032892706.6174", "100013274294974.8269", Greater), ("-3836286746260530032892706.6174", "100013274294974.8269", Less), ("3836286746260530032892706.6174", "-100013274294974.8269", Greater), ("-3836286746260530032892706.6174", "-100013274294974.8269", Less), // 111 110 different scale ("76072704083682.85472479207171", "50.52437989651117182", Greater), ("-76072704083682.85472479207171", "50.52437989651117182", Less), ("76072704083682.85472479207171", "-50.52437989651117182", Greater), ("-76072704083682.85472479207171", "-50.52437989651117182", Less), // 111 001 same scale ( "3836286746260530032892706.6174", "2766133872545894272402142.0032", Greater, ), ( "-3836286746260530032892706.6174", "2766133872545894272402142.0032", Less, ), ( "3836286746260530032892706.6174", "-2766133872545894272402142.0032", Greater, ), ( "-3836286746260530032892706.6174", "-2766133872545894272402142.0032", Less, ), // 111 001 different scale ( "38199979438250010.80610984395", "31104752430710.408848162684928", Greater, ), ("-38199979438250010.80610984395", "31104752430710.408848162684928", Less), ( "38199979438250010.80610984395", "-31104752430710.408848162684928", Greater, ), ( "-38199979438250010.80610984395", "-31104752430710.408848162684928", Less, ), // 111 101 same scale ( "3836286746260530032892706.6174", "441847458119168110406908.6115", Greater, ), ("-3836286746260530032892706.6174", "441847458119168110406908.6115", Less), ( "3836286746260530032892706.6174", "-441847458119168110406908.6115", Greater, ), ( "-3836286746260530032892706.6174", "-441847458119168110406908.6115", Less, ), // 111 101 different scale ("255945012905633524.15746865235", "1005021647855597114428453997.8", Less), ( "-255945012905633524.15746865235", "1005021647855597114428453997.8", Less, ), ( "255945012905633524.15746865235", "-1005021647855597114428453997.8", Greater, ), ( "-255945012905633524.15746865235", "-1005021647855597114428453997.8", Greater, ), // 111 011 same scale ( "3836286746260530032892706.6174", "1111481055212557787730018.3040", Greater, ), ( "-3836286746260530032892706.6174", "1111481055212557787730018.3040", Less, ), ( "3836286746260530032892706.6174", "-1111481055212557787730018.3040", Greater, ), ( "-3836286746260530032892706.6174", "-1111481055212557787730018.3040", Less, ), // 111 011 different scale ( "79710135995301690627798250.27", "4613684285077.479267304996864", Greater, ), ("-79710135995301690627798250.27", "4613684285077.479267304996864", Less), ( "79710135995301690627798250.27", "-4613684285077.479267304996864", Greater, ), ("-79710135995301690627798250.27", "-4613684285077.479267304996864", Less), // 111 111 same scale ( "3836286746260530032892706.6174", "1881105048659612897896770.8539", Greater, ), ( "-3836286746260530032892706.6174", "1881105048659612897896770.8539", Less, ), ( "3836286746260530032892706.6174", "-1881105048659612897896770.8539", Greater, ), ( "-3836286746260530032892706.6174", "-1881105048659612897896770.8539", Less, ), // 111 111 different scale ( "3879592276836332218003.2886500", "35612499407667292.686490959658", Greater, ), ( "-3879592276836332218003.2886500", "35612499407667292.686490959658", Less, ), ( "3879592276836332218003.2886500", "-35612499407667292.686490959658", Greater, ), ( "-3879592276836332218003.2886500", "-35612499407667292.686490959658", Less, ), ]; for &(a, b, c) in tests { cmp(a, b, c); } } #[test] fn it_floors_decimals() { let tests = &[ ("1", "1"), ("1.00", "1"), ("1.2345", "1"), ("-1", "-1"), ("-1.00", "-1"), ("-1.2345", "-2"), ]; for &(a, expected) in tests { let a = Decimal::from_str(a).unwrap(); assert_eq!(expected, a.floor().to_string(), "Failed flooring {a}"); } } #[test] fn it_ceils_decimals() { let tests = &[ ("1", "1"), ("1.00", "1"), ("1.2345", "2"), ("-1", "-1"), ("-1.00", "-1"), ("-1.2345", "-1"), ]; for &(a, expected) in tests { let a = Decimal::from_str(a).unwrap(); assert_eq!(expected, a.ceil().to_string(), "Failed ceiling {a}"); } } #[test] fn it_finds_max_of_two() { let tests = &[("1", "1", "1"), ("2", "1", "2"), ("1", "2", "2")]; for &(a, b, expected) in tests { let a = Decimal::from_str(a).unwrap(); let b = Decimal::from_str(b).unwrap(); assert_eq!(expected, a.max(b).to_string()); } } #[test] fn it_finds_min_of_two() { let tests = &[("1", "1", "1"), ("2", "1", "1"), ("1", "2", "1")]; for &(a, b, expected) in tests { let a = Decimal::from_str(a).unwrap(); let b = Decimal::from_str(b).unwrap(); assert_eq!(expected, a.min(b).to_string()); } } #[test] fn test_max_compares() { let x = "225.33543601344182".parse::().unwrap(); let y = Decimal::MAX; assert!(x < y); assert!(y > x); assert_ne!(y, x); } #[test] fn test_min_compares() { let x = "225.33543601344182".parse::().unwrap(); let y = Decimal::MIN; assert!(x > y); assert!(y < x); assert_ne!(y, x); } #[test] fn it_can_parse_from_i32() { use num_traits::FromPrimitive; let tests = &[ (0i32, "0"), (1i32, "1"), (-1i32, "-1"), (i32::MAX, "2147483647"), (i32::MIN, "-2147483648"), ]; for &(input, expected) in tests { let parsed = Decimal::from_i32(input).unwrap(); assert_eq!( expected, parsed.to_string(), "expected {expected} does not match parsed {parsed}" ); assert_eq!( input.to_string(), parsed.to_string(), "i32 to_string {input} does not match parsed {parsed}" ); } } #[test] fn it_can_parse_from_i64() { use num_traits::FromPrimitive; let tests = &[ (0i64, "0"), (1i64, "1"), (-1i64, "-1"), (i64::MAX, "9223372036854775807"), (i64::MIN, "-9223372036854775808"), ]; for &(input, expected) in tests { let parsed = Decimal::from_i64(input).unwrap(); assert_eq!( expected, parsed.to_string(), "expected {expected} does not match parsed {parsed}" ); assert_eq!( input.to_string(), parsed.to_string(), "i64 to_string {input} does not match parsed {parsed}" ); } } #[test] fn it_can_round_to_2dp() { let a = Decimal::from_str("6.12345").unwrap(); let b = (Decimal::from_str("100").unwrap() * a).round() / Decimal::from_str("100").unwrap(); assert_eq!("6.12", b.to_string()); } #[test] fn it_can_round_using_basic_midpoint_rules() { let tests = &[ ("3.5", RoundingStrategy::MidpointAwayFromZero, "4"), ("2.8", RoundingStrategy::MidpointAwayFromZero, "3"), ("2.5", RoundingStrategy::MidpointAwayFromZero, "3"), ("2.1", RoundingStrategy::MidpointAwayFromZero, "2"), ("-2.1", RoundingStrategy::MidpointAwayFromZero, "-2"), ("-2.5", RoundingStrategy::MidpointAwayFromZero, "-3"), ("-2.8", RoundingStrategy::MidpointAwayFromZero, "-3"), ("-3.5", RoundingStrategy::MidpointAwayFromZero, "-4"), ("3.5", RoundingStrategy::MidpointNearestEven, "4"), ("2.8", RoundingStrategy::MidpointNearestEven, "3"), ("2.5", RoundingStrategy::MidpointNearestEven, "2"), ("2.1", RoundingStrategy::MidpointNearestEven, "2"), ("-2.1", RoundingStrategy::MidpointNearestEven, "-2"), ("-2.5", RoundingStrategy::MidpointNearestEven, "-2"), ("-2.8", RoundingStrategy::MidpointNearestEven, "-3"), ("-3.5", RoundingStrategy::MidpointNearestEven, "-4"), ("3.5", RoundingStrategy::MidpointTowardZero, "3"), ("2.8", RoundingStrategy::MidpointTowardZero, "3"), ("2.5", RoundingStrategy::MidpointTowardZero, "2"), ("2.1", RoundingStrategy::MidpointTowardZero, "2"), ("-2.1", RoundingStrategy::MidpointTowardZero, "-2"), ("-2.5", RoundingStrategy::MidpointTowardZero, "-2"), ("-2.8", RoundingStrategy::MidpointTowardZero, "-3"), ("-3.5", RoundingStrategy::MidpointTowardZero, "-3"), ("2.8", RoundingStrategy::ToNegativeInfinity, "2"), ("2.5", RoundingStrategy::ToNegativeInfinity, "2"), ("2.1", RoundingStrategy::ToNegativeInfinity, "2"), ("-2.1", RoundingStrategy::ToNegativeInfinity, "-3"), ("-2.5", RoundingStrategy::ToNegativeInfinity, "-3"), ("-2.8", RoundingStrategy::ToNegativeInfinity, "-3"), ("2.8", RoundingStrategy::ToPositiveInfinity, "3"), ("2.5", RoundingStrategy::ToPositiveInfinity, "3"), ("2.1", RoundingStrategy::ToPositiveInfinity, "3"), ("-2.1", RoundingStrategy::ToPositiveInfinity, "-2"), ("-2.5", RoundingStrategy::ToPositiveInfinity, "-2"), ("-2.8", RoundingStrategy::ToPositiveInfinity, "-2"), ("2.8", RoundingStrategy::ToZero, "2"), ("2.5", RoundingStrategy::ToZero, "2"), ("2.1", RoundingStrategy::ToZero, "2"), ("-2.1", RoundingStrategy::ToZero, "-2"), ("-2.5", RoundingStrategy::ToZero, "-2"), ("-2.8", RoundingStrategy::ToZero, "-2"), ("2.8", RoundingStrategy::AwayFromZero, "3"), ("2.5", RoundingStrategy::AwayFromZero, "3"), ("2.1", RoundingStrategy::AwayFromZero, "3"), ("-2.1", RoundingStrategy::AwayFromZero, "-3"), ("-2.5", RoundingStrategy::AwayFromZero, "-3"), ("-2.8", RoundingStrategy::AwayFromZero, "-3"), ]; for &(input, strategy, expected) in tests { let a = Decimal::from_str(input).unwrap(); let b = a.round_dp_with_strategy(0, strategy); assert_eq!(expected, b.to_string(), "{input} > {expected} for {strategy:?}"); } } #[test] fn it_can_round_using_bankers_rounding() { let tests = &[ ("6.12345", 2, "6.12"), ("6.126", 2, "6.13"), ("-6.126", 2, "-6.13"), ("6.5", 0, "6"), ("7.5", 0, "8"), ("1.2250", 2, "1.22"), ("1.2252", 2, "1.23"), ("1.2249", 2, "1.22"), ("6.1", 2, "6.1"), ("0.0000", 2, "0.00"), ("0.6666666666666666666666666666", 2, "0.67"), ("1.40", 0, "1"), ("2.60", 0, "3"), ("2.1234567890123456789012345678", 27, "2.123456789012345678901234568"), ]; for &(input, dp, expected) in tests { let a = Decimal::from_str(input).unwrap(); #[allow(deprecated)] let b = a.round_dp_with_strategy(dp, RoundingStrategy::BankersRounding); assert_eq!(expected, b.to_string(), "BankersRounding"); // Recommended replacement let b = a.round_dp_with_strategy(dp, RoundingStrategy::MidpointNearestEven); assert_eq!(expected, b.to_string(), "MidpointNearestEven"); } } #[test] fn it_can_round_complex_numbers_using_bankers_rounding() { // Issue #71 let rate = Decimal::new(19, 2); // 0.19 let one = Decimal::new(1, 0); // 1 let part = rate / (rate + one); // 0.19 / (0.19 + 1) = 0.1596638655462184873949579832 #[allow(deprecated)] let part = part.round_dp_with_strategy(2, RoundingStrategy::BankersRounding); // 0.16 assert_eq!("0.16", part.to_string(), "BankersRounding"); // Recommended replacement let part = part.round_dp_with_strategy(2, RoundingStrategy::MidpointNearestEven); // 0.16 assert_eq!("0.16", part.to_string(), "MidpointNearestEven"); } #[test] fn it_can_round_using_round_half_up() { let tests = &[ ("0", 0, "0"), ("1.234", 3, "1.234"), ("1.12", 5, "1.12"), ("6.34567", 2, "6.35"), ("6.5", 0, "7"), ("12.49", 0, "12"), ("0.6666666666666666666666666666", 2, "0.67"), ("1.40", 0, "1"), ("2.60", 0, "3"), ("2.1234567890123456789012345678", 27, "2.123456789012345678901234568"), ]; for &(input, dp, expected) in tests { let a = Decimal::from_str(input).unwrap(); #[allow(deprecated)] let b = a.round_dp_with_strategy(dp, RoundingStrategy::RoundHalfUp); assert_eq!(expected, b.to_string(), "RoundHalfUp"); // Recommended replacement let b = a.round_dp_with_strategy(dp, RoundingStrategy::MidpointAwayFromZero); assert_eq!(expected, b.to_string(), "MidpointAwayFromZero"); } } #[test] fn it_can_round_complex_numbers_using_round_half_up() { // Issue #71 let rate = Decimal::new(19, 2); // 0.19 let one = Decimal::new(1, 0); // 1 let part = rate / (rate + one); // 0.19 / (0.19 + 1) = 0.1596638655462184873949579832 #[allow(deprecated)] let part = part.round_dp_with_strategy(2, RoundingStrategy::RoundHalfUp); // 0.16 assert_eq!("0.16", part.to_string(), "RoundHalfUp"); // Recommended replacement let part = part.round_dp_with_strategy(2, RoundingStrategy::MidpointAwayFromZero); // 0.16 assert_eq!("0.16", part.to_string(), "MidpointAwayFromZero"); } #[test] fn it_can_round_using_round_half_down() { let tests = &[ ("0", 0, "0"), ("1.234", 3, "1.234"), ("1.12", 5, "1.12"), ("6.34567", 2, "6.35"), ("6.51", 0, "7"), ("12.5", 0, "12"), ("0.6666666666666666666666666666", 2, "0.67"), ("1.40", 0, "1"), ("2.60", 0, "3"), ("2.1234567890123456789012345678", 27, "2.123456789012345678901234568"), ]; for &(input, dp, expected) in tests { let a = Decimal::from_str(input).unwrap(); #[allow(deprecated)] let b = a.round_dp_with_strategy(dp, RoundingStrategy::RoundHalfDown); assert_eq!(expected, b.to_string(), "RoundHalfDown"); // Recommended replacement let b = a.round_dp_with_strategy(dp, RoundingStrategy::MidpointTowardZero); assert_eq!(expected, b.to_string(), "MidpointTowardZero"); } } #[test] fn it_can_round_complex_numbers_using_round_half_down() { // Issue #71 let rate = Decimal::new(19, 2); // 0.19 let one = Decimal::new(1, 0); // 1 let part = rate / (rate + one); // 0.19 / (0.19 + 1) = 0.1596638655462184873949579832 #[allow(deprecated)] let part = part.round_dp_with_strategy(2, RoundingStrategy::RoundHalfDown); // 0.16 assert_eq!("0.16", part.to_string(), "RoundHalfDown"); // Recommended replacement let part = part.round_dp_with_strategy(2, RoundingStrategy::MidpointTowardZero); // 0.16 assert_eq!("0.16", part.to_string(), "RoundHalfDown"); } #[test] fn it_can_round_to_2dp_using_explicit_function() { let a = Decimal::from_str("6.12345").unwrap(); let b = a.round_dp(2u32); assert_eq!("6.12", b.to_string()); } #[test] fn it_can_round_up_to_2dp_using_explicit_function() { let a = Decimal::from_str("6.126").unwrap(); let b = a.round_dp(2u32); assert_eq!("6.13", b.to_string()); } #[test] fn it_can_round_down_to_2dp_using_explicit_function() { let a = Decimal::from_str("-6.126").unwrap(); let b = a.round_dp(2u32); assert_eq!("-6.13", b.to_string()); } #[test] fn it_can_round_down_using_bankers_rounding() { let a = Decimal::from_str("6.5").unwrap(); let b = a.round_dp(0u32); assert_eq!("6", b.to_string()); } #[test] fn it_can_round_up_using_bankers_rounding() { let a = Decimal::from_str("7.5").unwrap(); let b = a.round_dp(0u32); assert_eq!("8", b.to_string()); } #[test] fn it_can_round_correctly_using_bankers_rounding_1() { let a = Decimal::from_str("1.2250").unwrap(); let b = a.round_dp(2u32); assert_eq!("1.22", b.to_string()); } #[test] fn it_can_round_correctly_using_bankers_rounding_2() { let a = Decimal::from_str("1.2251").unwrap(); let b = a.round_dp(2u32); assert_eq!("1.23", b.to_string()); } #[test] fn it_can_round_down_when_required() { let a = Decimal::from_str("1.2249").unwrap(); let b = a.round_dp(2u32); assert_eq!("1.22", b.to_string()); } #[test] fn it_can_round_to_2dp_using_explicit_function_without_changing_value() { let a = Decimal::from_str("6.1").unwrap(); let b = a.round_dp(2u32); assert_eq!("6.1", b.to_string()); } #[test] fn it_can_round_zero() { let a = Decimal::from_str("0.0000").unwrap(); let b = a.round_dp(2u32); assert_eq!("0.00", b.to_string()); } #[test] fn it_can_round_large_decimals() { let a = Decimal::from_str("0.6666666666666666666666666666").unwrap(); let b = a.round_dp(2u32); assert_eq!("0.67", b.to_string()); } #[test] fn it_can_round_simple_numbers_down() { let a = Decimal::from_str("1.40").unwrap(); let b = a.round_dp(0u32); assert_eq!("1", b.to_string()); } #[test] fn it_can_round_simple_numbers_up() { let a = Decimal::from_str("2.60").unwrap(); let b = a.round_dp(0u32); assert_eq!("3", b.to_string()); } #[test] fn it_can_round_simple_numbers_with_high_precision() { let a = Decimal::from_str("2.1234567890123456789012345678").unwrap(); let b = a.round_dp(27u32); assert_eq!("2.123456789012345678901234568", b.to_string()); } #[test] fn it_can_round_complex_numbers() { // Issue #71 let rate = Decimal::new(19, 2); // 0.19 let one = Decimal::new(1, 0); // 1 let part = rate / (rate + one); // 0.19 / (0.19 + 1) = 0.1596638655462184873949579832 let part = part.round_dp(2); // 0.16 assert_eq!("0.16", part.to_string()); } #[test] fn it_does_not_round_decimals_to_too_many_dp() { // Issue 574 let zero = Decimal::new(0, 28); let rounded = zero.round_dp(32); assert_eq!(rounded.scale(), 28); // If dp > old_scale, we retain the old scale. rounded.to_string(); } #[test] fn it_can_round_down() { let tests = &[ ("0.470", 1, "0.4"), ("-0.470", 1, "-0.4"), // Toward zero ("0.400", 1, "0.4"), ("-0.400", 1, "-0.4"), ]; for &(input, dp, expected) in tests { let a = Decimal::from_str(input).unwrap(); #[allow(deprecated)] let b = a.round_dp_with_strategy(dp, RoundingStrategy::RoundDown); assert_eq!(expected, b.to_string(), "RoundDown"); // Recommended replacement let b = a.round_dp_with_strategy(dp, RoundingStrategy::ToZero); assert_eq!(expected, b.to_string(), "ToZero"); } } #[test] fn it_can_round_up() { let tests = &[ ("2.8", 0, "3"), ("2.5", 0, "3"), ("2.1", 0, "3"), ("-2.1", 0, "-3"), ("-2.5", 0, "-3"), ("-2.8", 0, "-3"), ("0.320", 1, "0.4"), ("-0.320", 1, "-0.4"), ("0.300", 1, "0.3"), ("-0.300", 1, "-0.3"), ]; for &(input, dp, expected) in tests { let a = Decimal::from_str(input).unwrap(); #[allow(deprecated)] let b = a.round_dp_with_strategy(dp, RoundingStrategy::RoundUp); assert_eq!(expected, b.to_string(), "RoundUp"); // Recommended replacement let b = a.round_dp_with_strategy(dp, RoundingStrategy::AwayFromZero); assert_eq!(expected, b.to_string(), "AwayFromZero"); } } #[test] fn it_can_round_significant_figures() { let tests = &[ ("305.459", 0u32, Some("0")), ("305.459", 1, Some("300")), ("305.459", 2, Some("310")), ("305.459", 3, Some("305")), ("305.459", 4, Some("305.5")), ("305.459", 5, Some("305.46")), ("305.459", 6, Some("305.459")), ("305.459", 7, Some("305.4590")), ("305.459", 10, Some("305.4590000")), ("-305.459", 3, Some("-305")), ("-305.459", 2, Some("-310")), // We ignore the negative ("-305.459", 5, Some("-305.46")), ( "79228162514264337593543950335", 29, Some("79228162514264337593543950335"), ), ("79228162514264337593543950335", 1, None), ( "79228162514264337593543950335", 2, Some("79000000000000000000000000000"), ), ( "79228162514264337593543950335", 30, Some("79228162514264337593543950335"), ), ( "79228162514264337593543950335", u32::MAX, Some("79228162514264337593543950335"), ), ]; for &(input, sf, expected) in tests { let input = Decimal::from_str(input).unwrap(); let result = input.round_sf(sf); if let Some(expected) = expected { assert!(result.is_some(), "Expected result for {input}.round_sf({sf})"); assert_eq!(expected, result.unwrap().to_string(), "{input}.round_sf({sf})"); } else { assert!(result.is_none(), "Unexpected result for {input}.round_sf({sf})"); } } } #[test] fn it_can_round_significant_figures_with_strategy() { let tests = &[ ("12301", 3u32, RoundingStrategy::AwayFromZero, Some("12400")), ("123.01", 3u32, RoundingStrategy::AwayFromZero, Some("124")), ("1.2301", 3u32, RoundingStrategy::AwayFromZero, Some("1.24")), ("0.12301", 3u32, RoundingStrategy::AwayFromZero, Some("0.124")), ("0.012301", 3u32, RoundingStrategy::AwayFromZero, Some("0.0124")), ("0.0000012301", 3u32, RoundingStrategy::AwayFromZero, Some("0.00000124")), ("1.012301", 3u32, RoundingStrategy::AwayFromZero, Some("1.02")), ]; for &(input, sf, strategy, expected) in tests { let input = Decimal::from_str(input).unwrap(); let result = input.round_sf_with_strategy(sf, strategy); if let Some(expected) = expected { assert!( result.is_some(), "Expected result for {input}.round_sf_with_strategy({sf}, {strategy:?})" ); assert_eq!( expected, result.unwrap().to_string(), "{input}.round_sf_with_strategy({sf}, {strategy:?})" ); } else { assert!( result.is_none(), "Unexpected result for {input}.round_sf_with_strategy({sf}, {strategy:?})" ); } } } #[test] fn it_can_trunc() { let tests = &[ ("1.00000000000000000000", "1"), ("1.000000000000000000000001", "1"), ("1.123456789", "1"), ("1.9", "1"), ("1", "1"), // Also the inflection ("-1.00000000000000000000", "-1"), ("-1.000000000000000000000001", "-1"), ("-1.123456789", "-1"), ("-1.9", "-1"), ("-1", "-1"), ]; for &(value, expected) in tests { let value = Decimal::from_str(value).unwrap(); let expected = Decimal::from_str(expected).unwrap(); let trunc = value.trunc(); assert_eq!(expected.to_string(), trunc.to_string()); } } #[test] fn it_can_trunc_with_scale() { let cmp = Decimal::from_str("1.2345").unwrap(); let tests = [ "1.23450", "1.234500001", "1.23451", "1.23454", "1.23455", "1.23456", "1.23459", "1.234599999", ]; for test in tests { assert_eq!( Decimal::from_str(test).unwrap().trunc_with_scale(4), cmp, "Original: {}", test ); } let cmp = Decimal::from_str("-1.2345").unwrap(); let tests = [ "-1.23450", "-1.234500001", "-1.23451", "-1.23454", "-1.23455", "-1.23456", "-1.23459", "-1.234599999", ]; for test in tests { assert_eq!( Decimal::from_str(test).unwrap().trunc_with_scale(4), cmp, "Original: {}", test ); } // Complex cases let cmp = Decimal::from_str("0.5156").unwrap(); let tests = [ "0.51560089", "0.515600893", "0.5156008936", "0.51560089369", "0.515600893691", "0.5156008936910", "0.51560089369101", "0.515600893691016", "0.5156008936910161", "0.51560089369101613", "0.515600893691016134", "0.5156008936910161349", "0.51560089369101613494", "0.515600893691016134941", "0.5156008936910161349411", "0.51560089369101613494115", "0.515600893691016134941151", "0.5156008936910161349411515", "0.51560089369101613494115158", "0.515600893691016134941151581", "0.5156008936910161349411515818", ]; for test in tests { assert_eq!( Decimal::from_str(test).unwrap().trunc_with_scale(4), cmp, "Original: {}", test ); } } #[test] fn it_can_fract() { let tests = &[ ("1.00000000000000000000", "0.00000000000000000000"), ("1.000000000000000000000001", "0.000000000000000000000001"), ]; for &(value, expected) in tests { let value = Decimal::from_str(value).unwrap(); let expected = Decimal::from_str(expected).unwrap(); let fract = value.fract(); assert_eq!(expected.to_string(), fract.to_string()); } } #[test] fn it_can_normalize() { let tests = &[ ("1.00000000000000000000", "1"), ("1.10000000000000000000000", "1.1"), ("1.00010000000000000000000", "1.0001"), ("1", "1"), ("1.1", "1.1"), ("1.0001", "1.0001"), ("-0", "0"), ("-0.0", "0"), ("-0.010", "-0.01"), ("0.0", "0"), ]; for &(value, expected) in tests { let value = Decimal::from_str(value).unwrap(); let expected = Decimal::from_str(expected).unwrap(); let normalized = value.normalize(); assert_eq!(expected.to_string(), normalized.to_string()); } } #[test] fn it_can_return_the_max_value() { assert_eq!("79228162514264337593543950335", Decimal::MAX.to_string()); } #[test] fn it_can_return_the_min_value() { assert_eq!("-79228162514264337593543950335", Decimal::MIN.to_string()); } #[test] fn it_can_go_from_and_into() { let d = Decimal::from_str("5").unwrap(); let di8: Decimal = 5u8.into(); let di32: Decimal = 5i32.into(); let disize: Decimal = 5isize.into(); let di64: Decimal = 5i64.into(); let du8: Decimal = 5u8.into(); let du32: Decimal = 5u32.into(); let dusize: Decimal = 5usize.into(); let du64: Decimal = 5u64.into(); assert_eq!(d, di8); assert_eq!(di8, di32); assert_eq!(di32, disize); assert_eq!(disize, di64); assert_eq!(di64, du8); assert_eq!(du8, du32); assert_eq!(du32, dusize); assert_eq!(dusize, du64); } #[test] fn it_converts_to_f64() { let tests = &[ ("5", Some(5f64)), ("-5", Some(-5f64)), ("0.1", Some(0.1f64)), ("0.0", Some(0f64)), ("-0.0", Some(0f64)), ("0.0000000000025", Some(0.25e-11f64)), ("1000000.0000000000025", Some(1e6f64)), ("0.000000000000000000000000025", Some(0.25e-25_f64)), ( "2.1234567890123456789012345678", Some(2.1234567890123456789012345678_f64), ), ("21234567890123456789012345678", Some(21234567890123458000000000000_f64)), ( "-21234567890123456789012345678", Some(-21234567890123458000000000000_f64), ), ("1.59283191", Some(1.59283191_f64)), ("2.2238", Some(2.2238_f64)), ("2.2238123", Some(2.2238123_f64)), ("22238", Some(22238_f64)), ("1000000", Some(1000000_f64)), ("1000000.000000000000000000", Some(1000000_f64)), ("10000", Some(10000_f64)), ("10000.000000000000000000", Some(10000_f64)), ("100000", Some(100000_f64)), ("100000.000000000000000000", Some(100000_f64)), ]; for &(value, expected) in tests { let value = Decimal::from_str(value).unwrap().to_f64(); assert_eq!(expected, value); } } #[test] fn it_converts_to_f64_try() { let tests = &[ ("5", Some(5f64)), ("-5", Some(-5f64)), ("0.1", Some(0.1f64)), ("0.0", Some(0f64)), ("-0.0", Some(0f64)), ("0.0000000000025", Some(0.25e-11f64)), ("1000000.0000000000025", Some(1e6f64)), ("0.000000000000000000000000025", Some(0.25e-25_f64)), ( "2.1234567890123456789012345678", Some(2.1234567890123456789012345678_f64), ), ("21234567890123456789012345678", Some(21234567890123458000000000000_f64)), ( "-21234567890123456789012345678", Some(-21234567890123458000000000000_f64), ), ("1.59283191", Some(1.59283191_f64)), ]; for &(value, expected) in tests { let value = Decimal::from_str(value).unwrap().try_into().ok(); assert_eq!(expected, value); } } #[test] fn it_converts_to_i64() { let tests = [ ("5", Some(5_i64)), ("-5", Some(-5_i64)), ("5.12345", Some(5_i64)), ("-5.12345", Some(-5_i64)), ("-9223372036854775808", Some(-9223372036854775808_i64)), ("-9223372036854775808", Some(i64::MIN)), ("9223372036854775807", Some(9223372036854775807_i64)), ("9223372036854775807", Some(i64::MAX)), ("-9223372036854775809", None), // i64::MIN - 1 ("9223372036854775808", None), // i64::MAX + 1 // Clear overflows in hi bit ("-92233720368547758089", None), ("92233720368547758088", None), ]; for (input, expected) in tests { let input = Decimal::from_str(input).unwrap(); let actual = input.to_i64(); assert_eq!(expected, actual, "Input: {input}"); } } #[test] fn it_converts_to_u64() { assert_eq!(5u64, Decimal::from_str("5").unwrap().to_u64().unwrap()); assert_eq!(None, Decimal::from_str("-5").unwrap().to_u64()); assert_eq!(5u64, Decimal::from_str("5.12345").unwrap().to_u64().unwrap()); assert_eq!( 0xFFFF_FFFF_FFFF_FFFF, Decimal::from_str("18446744073709551615").unwrap().to_u64().unwrap() ); assert_eq!(None, Decimal::from_str("18446744073709551616").unwrap().to_u64()); } #[test] fn it_converts_to_i128() { let tests = &[ ("5", Some(5i128)), ("-5", Some(-5i128)), ("5.12345", Some(5i128)), ("-5.12345", Some(-5i128)), ("9223372036854775807", Some(0x7FFF_FFFF_FFFF_FFFF)), ("92233720368547758089", Some(92233720368547758089i128)), ]; for (dec, expected) in tests { assert_eq!(Decimal::from_str(dec).unwrap().to_i128(), *expected); } assert_eq!( 79_228_162_514_264_337_593_543_950_335_i128, Decimal::MAX.to_i128().unwrap() ); } #[test] fn it_converts_to_u128() { let tests = &[ ("5", Some(5u128)), ("-5", None), ("5.12345", Some(5u128)), ("-5.12345", None), ("18446744073709551615", Some(0xFFFF_FFFF_FFFF_FFFF)), ("18446744073709551616", Some(18446744073709551616u128)), ]; for (dec, expected) in tests { assert_eq!(Decimal::from_str(dec).unwrap().to_u128(), *expected); } assert_eq!( 79_228_162_514_264_337_593_543_950_335_u128, Decimal::MAX.to_u128().unwrap() ); } #[test] fn it_converts_from_i128() { let tests: &[(i128, Option<&str>)] = &[ (5, Some("5")), (-5, Some("-5")), (0x7FFF_FFFF_FFFF_FFFF, Some("9223372036854775807")), (92233720368547758089, Some("92233720368547758089")), (0xFFFF_FFFF_FFFF_FFFF_FFFF_FFFF, Some("79228162514264337593543950335")), (0x7FFF_FFFF_FFFF_FFFF_FFFF_FFFF_FFFF_FFFF, None), (i128::MIN, None), (i128::MAX, None), ]; for (value, expected) in tests { let from_i128 = num_traits::FromPrimitive::from_i128(*value); match expected { Some(expected_value) => { let decimal = Decimal::from_str(expected_value).unwrap(); assert_eq!(from_i128, Some(decimal)); } None => assert!(from_i128.is_none()), } } } #[test] fn it_converts_from_u128() { let tests: &[(u128, Option<&str>)] = &[ (5, Some("5")), (0xFFFF_FFFF_FFFF_FFFF, Some("18446744073709551615")), (0xFFFF_FFFF_FFFF_FFFF_FFFF_FFFF, Some("79228162514264337593543950335")), (0x7FFF_FFFF_FFFF_FFFF_FFFF_FFFF_FFFF_FFFF, None), (u128::MAX, None), ]; for (value, expected) in tests { let from_u128 = num_traits::FromPrimitive::from_u128(*value); match expected { Some(expected_value) => { let decimal = Decimal::from_str(expected_value).unwrap(); assert_eq!(from_u128, Some(decimal)); } None => assert!(from_u128.is_none()), } } } #[test] fn it_converts_from_str() { assert_eq!(Decimal::try_from("1").unwrap(), Decimal::ONE); assert_eq!(Decimal::try_from("10").unwrap(), Decimal::TEN); } #[test] fn it_converts_from_f32() { use num_traits::FromPrimitive; let tests = [ (0.1_f32, "0.1"), (1_f32, "1"), (0_f32, "0"), (0.12345_f32, "0.12345"), (0.1234567800123456789012345678_f32, "0.12345678"), (0.12345678901234567890123456789_f32, "0.12345679"), (0.00000000000000000000000000001_f32, "0"), (5.1_f32, "5.1"), ]; for &(input, expected) in &tests { assert_eq!( expected, Decimal::from_f32(input).unwrap().to_string(), "from_f32({input})" ); assert_eq!( expected, Decimal::try_from(input).unwrap().to_string(), "try_from({input})" ); } } #[test] fn it_converts_from_f32_limits() { use num_traits::FromPrimitive; assert!(Decimal::from_f32(f32::NAN).is_none(), "from_f32(f32::NAN)"); assert!(Decimal::from_f32(f32::INFINITY).is_none(), "from_f32(f32::INFINITY)"); assert!(Decimal::try_from(f32::NAN).is_err(), "try_from(f32::NAN)"); assert!(Decimal::try_from(f32::INFINITY).is_err(), "try_from(f32::INFINITY)"); // These overflow assert!(Decimal::from_f32(f32::MAX).is_none(), "from_f32(f32::MAX)"); assert!(Decimal::from_f32(f32::MIN).is_none(), "from_f32(f32::MIN)"); assert!(Decimal::try_from(f32::MAX).is_err(), "try_from(f32::MAX)"); assert!(Decimal::try_from(f32::MIN).is_err(), "try_from(f32::MIN)"); } #[test] fn it_converts_from_f32_retaining_bits() { let tests = [ (0.1_f32, "0.100000001490116119384765625"), (2_f32, "2"), (4.000_f32, "4"), (5.1_f32, "5.099999904632568359375"), ]; for &(input, expected) in &tests { assert_eq!( expected, Decimal::from_f32_retain(input).unwrap().to_string(), "from_f32_retain({input})" ); } } #[test] fn it_converts_from_f64() { use num_traits::FromPrimitive; let tests = [ (0.1_f64, "0.1"), (1_f64, "1"), (0_f64, "0"), (0.12345_f64, "0.12345"), (0.1234567890123456089012345678_f64, "0.1234567890123456"), (0.12345678901234567890123456789_f64, "0.1234567890123457"), (0.00000000000000000000000000001_f64, "0"), (0.6927_f64, "0.6927"), (0.00006927_f64, "0.00006927"), (0.000000006927_f64, "0.000000006927"), (5.1_f64, "5.1"), ]; for &(input, expected) in &tests { assert_eq!( expected, Decimal::from_f64(input).unwrap().to_string(), "from_f64({input})" ); assert_eq!( expected, Decimal::try_from(input).unwrap().to_string(), "try_from({input})" ); } } #[test] fn it_converts_from_f64_limits() { use num_traits::FromPrimitive; assert!(Decimal::from_f64(f64::NAN).is_none(), "from_f64(f64::NAN)"); assert!(Decimal::from_f64(f64::INFINITY).is_none(), "from_f64(f64::INFINITY)"); assert!(Decimal::try_from(f64::NAN).is_err(), "try_from(f64::NAN)"); assert!(Decimal::try_from(f64::INFINITY).is_err(), "try_from(f64::INFINITY)"); // These overflow assert!(Decimal::from_f64(f64::MAX).is_none(), "from_f64(f64::MAX)"); assert!(Decimal::from_f64(f64::MIN).is_none(), "from_f64(f64::MIN)"); assert!(Decimal::try_from(f64::MAX).is_err(), "try_from(f64::MIN)"); assert!(Decimal::try_from(f64::MIN).is_err(), "try_from(f64::MAX)"); } #[test] fn it_converts_from_f64_retaining_bits() { let tests = [ (0.1_f64, "0.1000000000000000055511151231"), (2_f64, "2"), (4.000_f64, "4"), (5.1_f64, "5.0999999999999996447286321175"), ]; for &(input, expected) in &tests { assert_eq!( expected, Decimal::from_f64_retain(input).unwrap().to_string(), "from_f64_retain({input})" ); } } #[test] fn it_converts_to_integers() { assert_eq!(i64::try_from(Decimal::ONE), Ok(1)); assert_eq!(i64::try_from(Decimal::MAX), Err(Error::ConversionTo("i64".to_string()))); assert_eq!(u128::try_from(Decimal::ONE_HUNDRED), Ok(100)); } #[test] fn it_handles_simple_underflow() { // Issue #71 let rate = Decimal::new(19, 2); // 0.19 let one = Decimal::new(1, 0); // 1 let part = rate / (rate + one); // 0.19 / (0.19 + 1) = 0.1596638655462184873949579832 let result = one * part; assert_eq!("0.1596638655462184873949579832", result.to_string()); // 169 * 0.1596638655462184873949579832 = 26.983193277310924 let result = part * Decimal::new(169, 0); assert_eq!("26.983193277310924369747899161", result.to_string()); let result = Decimal::new(169, 0) * part; assert_eq!("26.983193277310924369747899161", result.to_string()); } #[test] fn it_can_parse_highly_significant_numbers() { let tests = &[ ("11.111111111111111111111111111", "11.111111111111111111111111111"), ("11.11111111111111111111111111111", "11.111111111111111111111111111"), ("11.1111111111111111111111111115", "11.111111111111111111111111112"), ("115.111111111111111111111111111", "115.11111111111111111111111111"), ("1115.11111111111111111111111111", "1115.1111111111111111111111111"), ("11.1111111111111111111111111195", "11.111111111111111111111111120"), ("99.9999999999999999999999999995", "100.00000000000000000000000000"), ("-11.1111111111111111111111111195", "-11.111111111111111111111111120"), ("-99.9999999999999999999999999995", "-100.00000000000000000000000000"), ("3.1415926535897932384626433832", "3.1415926535897932384626433832"), ( "8808257419827262908.5944405087133154018", "8808257419827262908.594440509", ), ( "8097370036018690744.2590371109596744091", "8097370036018690744.259037111", ), ( "8097370036018690744.2590371149596744091", "8097370036018690744.259037115", ), ( "8097370036018690744.2590371159596744091", "8097370036018690744.259037116", ), ("1.234567890123456789012345678949999", "1.2345678901234567890123456789"), (".00000000000000000000000000001", "0.0000000000000000000000000000"), (".10000000000000000000000000000", "0.1000000000000000000000000000"), ]; for &(value, expected) in tests { assert_eq!(expected, Decimal::from_str(value).unwrap().to_string()); } } #[test] fn it_can_parse_exact_highly_significant_numbers() { use rust_decimal::Error; let tests = &[ ( "11.111111111111111111111111111", Ok("11.111111111111111111111111111".to_string()), ), ("11.11111111111111111111111111111", Err(Error::Underflow)), ("11.1111111111111111111111111115", Err(Error::Underflow)), ("115.111111111111111111111111111", Err(Error::Underflow)), ("1115.11111111111111111111111111", Err(Error::Underflow)), ("11.1111111111111111111111111195", Err(Error::Underflow)), ("99.9999999999999999999999999995", Err(Error::Underflow)), ("-11.1111111111111111111111111195", Err(Error::Underflow)), ("-99.9999999999999999999999999995", Err(Error::Underflow)), ( "3.1415926535897932384626433832", Ok("3.1415926535897932384626433832".to_string()), ), ("8808257419827262908.5944405087133154018", Err(Error::Underflow)), ("8097370036018690744.2590371109596744091", Err(Error::Underflow)), ("8097370036018690744.2590371149596744091", Err(Error::Underflow)), ("8097370036018690744.2590371159596744091", Err(Error::Underflow)), ("1.234567890123456789012345678949999", Err(Error::Underflow)), (".00000000000000000000000000001", Err(Error::Underflow)), (".10000000000000000000000000000", Err(Error::Underflow)), ]; for &(value, ref expected) in tests.iter() { let actual = Decimal::from_str_exact(value).map(|d| d.to_string()); assert_eq!(*expected, actual); } } #[test] fn it_can_parse_alternative_formats() { let tests = &[ ("1_000", "1000"), ("1_000_000", "1000000"), ("10_000_000", "10000000"), ("100_000", "100000"), // At the moment, we'll accept this ("1_____________0", "10"), ]; for &(value, expected) in tests { assert_eq!(expected, Decimal::from_str(value).unwrap().to_string()); } } #[test] fn it_can_parse_fractional_numbers_with_underscore_separators() { let a = Decimal::from_str("0.1_23_456").unwrap(); assert!(!a.is_sign_negative()); assert_eq!(a.scale(), 6); assert_eq!("0.123456", a.to_string()); } #[test] fn it_can_parse_numbers_with_underscore_separators_before_decimal_point() { let a = Decimal::from_str("1_234.56").unwrap(); assert!(!a.is_sign_negative()); assert_eq!(a.scale(), 2); assert_eq!("1234.56", a.to_string()); } #[test] fn it_can_parse_numbers_and_round_correctly_with_underscore_separators_before_decimal_point() { let tests = &[ ( "8_097_370_036_018_690_744.2590371159596744091", "8097370036018690744.259037116", ), ( "8097370036018690744.259_037_115_959_674_409_1", "8097370036018690744.259037116", ), ( "8_097_370_036_018_690_744.259_037_115_959_674_409_1", "8097370036018690744.259037116", ), ]; for &(value, expected) in tests { assert_eq!(expected, Decimal::from_str(value).unwrap().to_string()); } } #[test] fn it_can_reject_invalid_formats() { let tests = &["_1", "1.0.0", "10_00.0_00.0"]; for &value in tests { assert!( Decimal::from_str(value).is_err(), "This succeeded unexpectedly: {value}" ); } } #[test] fn it_can_reject_large_numbers_with_panic() { let tests = &[ // The maximum number supported is 79,228,162,514,264,337,593,543,950,335 "79228162514264337593543950336", "79228162514264337593543950337", "79228162514264337593543950338", "79228162514264337593543950339", "79228162514264337593543950340", ]; for &value in tests { if let Ok(out) = Decimal::from_str(value) { panic!("Unexpectedly parsed {value} into {out}") } } } #[test] fn it_can_parse_individual_parts() { let pi = Decimal::from_parts(1102470952, 185874565, 1703060790, false, 28); assert_eq!(pi.to_string(), "3.1415926535897932384626433832"); } #[test] fn it_can_parse_scientific_notation() { let tests = &[ ("9.7e-7", "0.00000097"), ("9e-7", "0.0000009"), ("1.2e10", "12000000000"), ("1.2e+10", "12000000000"), ("12e10", "120000000000"), ("9.7E-7", "0.00000097"), ("1.2345E-24", "0.0000000000000000000000012345"), ("12345E-28", "0.0000000000000000000000012345"), ("1.2345E0", "1.2345"), ("1E28", "10000000000000000000000000000"), ]; for &(value, expected) in tests { assert_eq!(expected, Decimal::from_scientific(value).unwrap().to_string()); } } #[test] fn it_errors_parsing_large_scientific_notation() { let result = Decimal::from_scientific("1.2345E-28"); assert!(result.is_err()); assert_eq!( result.err(), Some(Error::ScaleExceedsMaximumPrecision(32)) // 4 + 28 ); let result = Decimal::from_scientific("12345E29"); assert!(result.is_err()); assert_eq!(result.err(), Some(Error::ScaleExceedsMaximumPrecision(29))); let result = Decimal::from_scientific("12345E28"); assert!(result.is_err()); assert_eq!(result.err(), Some(Error::ExceedsMaximumPossibleValue)); } #[test] fn it_can_parse_different_radix() { let tests = &[ // Input, Radix, Success, to_string() ("123", 10, true, "123"), ("123", 8, true, "83"), ("123", 16, true, "291"), ("abc", 10, false, ""), ("abc", 16, true, "2748"), ("78", 10, true, "78"), ("78", 8, false, ""), ("101", 2, true, "5"), // Parse base 2 ("1111_1111_1111_1111_1111_1111_1111_1111", 2, true, "4294967295"), // Max supported value ( "1111_1111_1111_1111_1111_1111_1111_1111_1111_1111_1111_\ 1111_1111_1111_1111_1111_1111_1111_1111_1111_1111_1111_1111_1111", 2, true, &Decimal::MAX.to_string(), ), // We limit to 28 dp ( "843.6500000000000000000000000000", 10, true, "843.6500000000000000000000000", ), ]; for &(input, radix, success, expected) in tests { let result = Decimal::from_str_radix(input, radix); assert_eq!( success, result.is_ok(), "Failed to parse: {} radix {}: {:?}", input, radix, result.err() ); if result.is_ok() { assert_eq!( expected, result.unwrap().to_string(), "Original input: {input} radix {radix}" ); } } } #[test] fn it_can_calculate_signum() { let tests = &[("123", 1), ("-123", -1), ("0", 0)]; for &(input, expected) in tests { let input = Decimal::from_str(input).unwrap(); assert_eq!(expected, input.signum().to_i32().unwrap(), "Input: {input}"); } } #[test] fn it_can_calculate_abs_sub() { let tests = &[ ("123", "124", 0), ("123", "123", 0), ("123", "122", 1), ("-123", "-124", 1), ("-123", "-123", 0), ("-123", "-122", 0), ]; for &(input1, input2, expected) in tests { let input1 = Decimal::from_str(input1).unwrap(); let input2 = Decimal::from_str(input2).unwrap(); assert_eq!( expected, input1.abs_sub(&input2).to_i32().unwrap(), "Input: {input1} {input2}" ); } } #[test] #[should_panic(expected = "Scale exceeds the maximum precision allowed: 29 > 28")] fn it_panics_when_scale_too_large() { let _ = Decimal::new(1, 29); } #[test] fn test_zero_eq_negative_zero() { let zero: Decimal = 0.into(); assert_eq!(zero, zero); assert_eq!(-zero, zero); assert_eq!(zero, -zero); } #[test] fn declarative_dec_product() { let vs = (1..5).map(|i| i.into()).collect::>(); let product: Decimal = vs.into_iter().product(); assert_eq!(product, Decimal::from(24)) } #[test] fn declarative_ref_dec_product() { let vs = (1..5).map(|i| i.into()).collect::>(); let product: Decimal = vs.iter().product(); assert_eq!(product, Decimal::from(24)) } #[test] fn declarative_dec_sum() { let vs = (0..10).map(|i| i.into()).collect::>(); let sum: Decimal = vs.into_iter().sum(); assert_eq!(sum, Decimal::from(45)) } #[test] fn declarative_ref_dec_sum() { let vs = (0..10).map(|i| i.into()).collect::>(); let sum: Decimal = vs.iter().sum(); assert_eq!(sum, Decimal::from(45)) } #[cfg(feature = "db-postgres")] #[test] fn postgres_to_from_sql() { use bytes::BytesMut; use postgres::types::{FromSql, Kind, ToSql, Type}; let tests = &[ "3950.123456", "3950", "0.1", "0.01", "0.001", "0.0001", "0.00001", "0.000001", "1", "-100", "-123.456", "119996.25", "1000000", "9999999.99999", "12340.56789", "79228162514264337593543950335", // 0xFFFF_FFFF_FFFF_FFFF_FFFF_FFFF (96 bit) "4951760157141521099596496895", // 0x0FFF_FFFF_FFFF_FFFF_FFFF_FFFF (95 bit) "4951760157141521099596496896", // 0x1000_0000_0000_0000_0000_0000 "18446744073709551615", "-18446744073709551615", ]; let t = Type::new("".into(), 0, Kind::Simple, "".into()); for test in tests { let input = Decimal::from_str(test).unwrap(); let mut bytes = BytesMut::new(); input.to_sql(&t, &mut bytes).unwrap(); let output = Decimal::from_sql(&t, &bytes).unwrap(); assert_eq!(input, output); } } #[cfg(feature = "db-postgres")] #[test] fn postgres_from_sql_special_numeric() { use postgres::types::{FromSql, Kind, Type}; // The numbers below are the big-endian equivalent of the NUMERIC_* masks for NAN, PINF, NINF let tests = &[ ("NaN", &[0, 0, 0, 0, 192, 0, 0, 0]), ("Infinity", &[0, 0, 0, 0, 208, 0, 0, 0]), ("-Infinity", &[0, 0, 0, 0, 240, 0, 0, 0]), ]; let t = Type::new("".into(), 0, Kind::Simple, "".into()); for (name, bytes) in tests { let res = Decimal::from_sql(&t, *bytes); match &res { Ok(_) => panic!("Expected error, got Ok"), Err(e) => { let error_message = e.to_string(); assert!( error_message.contains(name), "Error message does not contain the expected value: {}", name ); } } } } fn hash_it(d: Decimal) -> u64 { use core::hash::{Hash, Hasher}; use std::collections::hash_map::DefaultHasher; let mut h = DefaultHasher::new(); d.hash(&mut h); h.finish() } #[test] fn it_computes_equal_hashes_for_equal_values() { // From the Rust Hash docs: // // "When implementing both Hash and Eq, it is important that the following property holds: // // k1 == k2 -> hash(k1) == hash(k2)" let k1 = Decimal::from_str("1").unwrap(); let k2 = Decimal::from_str("1.0").unwrap(); let k3 = Decimal::from_str("1.00").unwrap(); let k4 = Decimal::from_str("1.01").unwrap(); assert_eq!(k1, k2); assert_eq!(k1, k3); assert_ne!(k1, k4); let h1 = hash_it(k1); let h2 = hash_it(k2); let h3 = hash_it(k3); let h4 = hash_it(k4); assert_eq!(h1, h2); assert_eq!(h1, h3); assert_ne!(h1, h4); // Test the application of Hash calculation to a HashMap. let mut map = std::collections::HashMap::new(); map.insert(k1, k1.to_string()); // map[k2] should overwrite map[k1] because k1 == k2. map.insert(k2, k2.to_string()); assert_eq!("1.0", map.get(&k3).expect("could not get k3")); assert_eq!(1, map.len()); // map[k3] should overwrite map[k2] because k3 == k2. map.insert(k3, k3.to_string()); // map[k4] should not overwrite map[k3] because k4 != k3. map.insert(k4, k4.to_string()); assert_eq!(2, map.len()); assert_eq!("1.00", map.get(&k1).expect("could not get k1")); } #[test] fn it_computes_equal_hashes_for_positive_and_negative_zero() { // Verify 0 and -0 have the same hash let k1 = Decimal::from_str("0").unwrap(); let k2 = Decimal::from_str("-0").unwrap(); assert_eq!(k1, k2); let h1 = hash_it(k1); let h2 = hash_it(k2); assert_eq!(h1, h2); // Verify 0 and -0.0 have the same hash let k1 = Decimal::from_str("0").unwrap(); let k2 = Decimal::from_str("-0.0").unwrap(); assert_eq!(k1, k2); let h1 = hash_it(k1); let h2 = hash_it(k2); assert_eq!(h1, h2); } #[test] #[should_panic(expected = "Number less than minimum value that can be represented.")] fn it_handles_i128_min() { let _ = Decimal::from_i128_with_scale(i128::MIN, 0); } #[test] fn it_handles_i128_min_safely() { let result = Decimal::try_from_i128_with_scale(i128::MIN, 0); assert!(result.is_err()); assert_eq!(result.err().unwrap(), Error::LessThanMinimumPossibleValue); } #[test] fn it_can_rescale() { let tests = &[ ("0", 6, "0.000000", 6), ("0.000000", 2, "0.00", 2), ("0.12345600000", 6, "0.123456", 6), ("0.123456", 12, "0.123456000000", 12), ("0.123456", 0, "0", 0), ("0.000001", 4, "0.0000", 4), ("1233456", 4, "1233456.0000", 4), // Cap to 28 ("1.2", 30, "1.2000000000000000000000000000", 28), ("79228162514264337593543950335", 0, "79228162514264337593543950335", 0), ("4951760157141521099596496895", 1, "4951760157141521099596496895.0", 1), ("4951760157141521099596496896", 1, "4951760157141521099596496896.0", 1), ("18446744073709551615", 6, "18446744073709551615.000000", 6), ("-18446744073709551615", 6, "-18446744073709551615.000000", 6), // 27 since we can't fit a scale of 28 for this number ("11.76470588235294", 28, "11.764705882352940000000000000", 27), ]; for &(value_raw, new_scale, expected_value, expected_scale) in tests { let mut value = Decimal::from_str(value_raw).unwrap(); value.rescale(new_scale); assert_eq!(expected_value, value.to_string()); assert_eq!(expected_scale, value.scale()); } } #[test] fn test_constants() { assert_eq!("0", Decimal::ZERO.to_string()); assert_eq!("1", Decimal::ONE.to_string()); assert_eq!("-1", Decimal::NEGATIVE_ONE.to_string()); assert_eq!("10", Decimal::TEN.to_string()); assert_eq!("100", Decimal::ONE_HUNDRED.to_string()); assert_eq!("1000", Decimal::ONE_THOUSAND.to_string()); assert_eq!("2", Decimal::TWO.to_string()); } #[test] fn test_inv() { assert_eq!("0.01", Decimal::ONE_HUNDRED.inv().to_string()); } #[test] fn test_is_integer() { let tests = &[ ("0", true), ("1", true), ("79_228_162_514_264_337_593_543_950_335", true), ("1.0", true), ("1.1", false), ("3.1415926535897932384626433833", false), ("3.0000000000000000000000000000", true), ("0.400000000", false), ("0.4000000000", false), ("0.4000000000000000000", false), ("0.4000000000000000001", false), ]; for &(raw, integer) in tests { let value = Decimal::from_str(raw).unwrap(); assert_eq!(value.is_integer(), integer, "value: {raw}") } } // Mathematical features #[cfg(feature = "maths")] mod maths { use super::*; use rust_decimal::MathematicalOps; use num_traits::One; #[test] fn test_constants() { assert_eq!("3.1415926535897932384626433833", Decimal::PI.to_string()); assert_eq!("6.2831853071795864769252867666", Decimal::TWO_PI.to_string()); assert_eq!("1.5707963267948966192313216916", Decimal::HALF_PI.to_string()); assert_eq!("2.7182818284590452353602874714", Decimal::E.to_string()); assert_eq!("0.3678794411714423215955237702", Decimal::E_INVERSE.to_string()); } #[test] fn test_powu() { let test_cases = &[ // x, y, expected x ^ y ("4", 3_u64, "64"), ("3.222", 5_u64, "347.238347228449632"), ("0.1", 0_u64, "1"), ("342.4", 1_u64, "342.4"), ("2.0", 16_u64, "65536"), ("0.99999999999999", 1477289400_u64, "0.9999852272151186611602884841"), ("0.99999999999999", 0x8000_8000_0000_0000, "0"), ]; for &(x, y, expected) in test_cases { let x = Decimal::from_str(x).unwrap(); let pow = x.powu(y); assert_eq!(pow.to_string(), expected, "{} ^ {}", x, y); } } #[test] #[should_panic(expected = "Pow overflowed")] fn test_powu_panic() { let two = Decimal::new(2, 0); let _ = two.powu(128); } #[test] fn test_checked_powu() { let test_cases = &[ (Decimal::new(4, 0), 3_u64, Some(Decimal::new(64, 0))), ( Decimal::from_str("3.222").unwrap(), 5_u64, Some(Decimal::from_str("347.238347228449632").unwrap()), ), ( Decimal::from_str("0.1").unwrap(), 0_u64, Some(Decimal::from_str("1").unwrap()), ), ( Decimal::from_str("342.4").unwrap(), 1_u64, Some(Decimal::from_str("342.4").unwrap()), ), ( Decimal::from_str("2.0").unwrap(), 16_u64, Some(Decimal::from_str("65536").unwrap()), ), (Decimal::from_str("2.0").unwrap(), 128_u64, None), ]; for case in test_cases { assert_eq!(case.2, case.0.checked_powu(case.1)); } } #[test] fn test_powi() { let test_cases = &[ // x, y, expected x ^ y ("0", 0, "1"), ("1", 0, "1"), ("0", 1, "0"), ("2", 3, "8"), ("-2", 3, "-8"), ("2", -3, "0.125"), ("-2", -3, "-0.125"), ( "3", -3, either!("0.037037037037037037037037037", "0.0370370370370370370370370370"), ), ("6", 3, "216"), ("0.5", 2, "0.25"), ]; for &(x, y, expected) in test_cases { let x = Decimal::from_str(x).unwrap(); let pow = x.powi(y); assert_eq!(pow.to_string(), expected, "{} ^ {}", x, y); } } #[test] fn test_powd() { let test_cases = &[ // x, y, expected x ^ y ("0", "0", "1"), ("1", "0", "1"), ("0", "1", "0"), ("2", "3", "8"), ("-2", "3", "-8"), ("2", "-3", "0.125"), ("-2", "-3", "-0.125"), ("2.0", "3.0", "8"), ("-2.0", "3.0", "-8"), ("2.0", "-3.0", "0.125"), ("-2.0", "-3.0", "-0.125"), ("2.00", "3.00", "8"), ("-2.00", "3.00", "-8"), ("2.00", "-3.00", "0.125"), ("-2.00", "-3.00", "-0.125"), ( "3", "-3", either!("0.037037037037037037037037037", "0.0370370370370370370370370370"), ), ("6", "3", "216"), ("0.5", "2", "0.25"), ("6", "13", "13060694016"), // Exact result: 1 / 6^7 ("6", "-7", "0.0000035722450845907636031093"), // ~= 0.8408964152537145 ( "0.5", "0.25", either!("0.8408964159265360661551317741", "0.8408964159265360661551317742"), ), // ~= 0.999999999999999999999999999790814 ( "0.1234567890123456789012345678", "0.0000000000000000000000000001", "0.9999999999999999999999999998", ), // ~= 611.0451043224257 ( "1234.5678", "0.9012", either!("611.04510415448740041442807964", "611.04510415448740041442807964"), ), ( "-2", "0.5", either!("-1.4142135570048917090885260834", "-1.4142135570048917090885260835"), ), // ~= -1.1193003023312942 ( "-2.5", "0.123", either!("-1.1193002994383985239135362086", "-1.1193002994383985239135362086"), ), // ~= 0.0003493091 ( "0.0000000000000000000000000001", "0.1234567890123456789012345678", either!("0.0003533642875741443321850682", "0.0003305188683169079961720764"), ), ("0.99999999999999", "1477289400", "0.9999852272151186611602884841"), ]; for &(x, y, expected) in test_cases { let x = Decimal::from_str(x).unwrap(); let y = Decimal::from_str(y).unwrap(); let pow = x.powd(y); assert_eq!(pow.to_string(), expected, "{} ^ {}", x, y); } } #[test] fn test_sqrt() { let test_cases = &[ ("4", "2"), ("3.222", "1.7949930361981909371487724124"), ("199.45", "14.122676800097069416754994263"), ("342.4", "18.504053609952604112132102540"), ("2", "1.414213562373095048801688724209698078569671875376948073176"), ("0.0000000000000000000000000001", "0.0000000000000100000000000000"), ]; for case in test_cases { let a = Decimal::from_str(case.0).unwrap(); let expected = Decimal::from_str(case.1).unwrap(); assert_eq!(expected, a.sqrt().unwrap()); } assert_eq!(Decimal::new(-2, 0).sqrt(), None); } #[cfg(not(feature = "legacy-ops"))] #[test] fn test_exp() { // These are approximations let test_cases = &[ // e^10 ~= 22026.465794806703 ("10", "22026.416157416030662013737698"), // e^11 ~= 59874.14171519778 ("11", "59873.388231055804982198781924"), // e^3 ~= 20.085536923187664 ("3", "20.085536911963143539758560764"), // e^8 ~= 2980.957987041727 ("8", "2980.9578998304103856663509017"), // e^0.1 ~= 1.1051709180756477 ("0.1", "1.1051709166666666666666666667"), // e^2.0 ~= 7.3890560989306495 ("2.0", "7.3890560703259115957528655940"), // e^-2 ~= 0.1353352832366127 ("-2", "0.1353352837605267572029589224"), // e^-1 ~= 0.36787944117144233 ("-1", "0.3678794414773748171422559335"), // e^0.123456789 ~= 1.131401115 ("0.123456789", "1.1314011144241455834073838005"), // e^0.123456789123456789123456789 ~= 1.131401114651912752617990081 ("0.123456789123456789123456789", "1.1314011145638247316063947842"), ]; for &(x, expected) in test_cases { let x = Decimal::from_str(x).unwrap(); let expected = Decimal::from_str(expected).unwrap(); assert_eq!(expected, x.exp()); assert_eq!(Some(expected), x.checked_exp()); } } #[cfg(not(feature = "legacy-ops"))] #[test] fn test_exp_with_tolerance() { let test_cases = &[ // e^0 = 1 ("0", "0.0002", "1"), // e^1 ~= 2.7182539682539682539682539683 ("1", "0.0002", "2.7182539682539682539682539683"), // e^10 ~= 22026.465794806703 ( "10", "0.02", either!("22026.416157416030662013737698", "22026.416157416030662013737699"), ), // e^11 ~= 59874.14171519778 ("11", "0.0002", "59873.388231055804982198781924"), // e^11.7578 ~= 127741.03548949540892948423052 ("11.7578", "0.0002", "127741.03548949540892948423052"), // e^3 ~= 20.085536923187664 ("3", "0.00002", "20.085534430970814899386327955"), // e^8 ~= 2980.957987041727 ("8", "0.0002", "2980.9578998304103856663509017"), // e^0.1 ~= 1.1051709180756477 ("0.1", "0.0002", "1.1051666666666666666666666667"), // e^2.0 ~= 7.3890560989306495 ("2.0", "0.0002", "7.3890460157126823793490460156"), // e^11.7578+ starts to overflow ("11.7579", "0.0002", ""), // e^11.7578+ starts to overflow ("123", "0.0002", ""), // e^-8+ starts to underflow ("-8", "0.0002", "0.0003354626377168530220952633"), // e^-9 continues to converge towards zero ("-9", "0.0002", "0.0001234098417553083895710102"), // e^-11 continues to converge towards zero ("-11", "0.0002", "0.0000167019109748879838728391"), // e^11.7579 has underflowed (by overflowing) ("-11.7579", "0.0002", ""), // e^-1024 has fully underflowed (by overflowing) ("-1024", "0.0002", ""), ]; for &(x, tolerance, expected) in test_cases { let x = Decimal::from_str(x).unwrap(); let tolerance = Decimal::from_str(tolerance).unwrap(); let expected = if expected.is_empty() { None } else { Some(Decimal::from_str(expected).unwrap()) }; if let Some(expected) = expected { assert_eq!(expected, x.exp_with_tolerance(tolerance)); assert_eq!(Some(expected), x.checked_exp_with_tolerance(tolerance)); } else { assert_eq!(None, x.checked_exp_with_tolerance(tolerance)); } } } #[test] #[should_panic(expected = "Exp overflowed")] fn test_exp_expected_panic_from_overflow() { let d = Decimal::from_str("1024").unwrap(); let _ = d.exp(); } #[test] #[should_panic(expected = "Exp underflowed")] fn test_exp_expected_panic_from_underflow() { let d = Decimal::from_str("-1024").unwrap(); let _ = d.exp(); } #[test] #[cfg(not(feature = "legacy-ops"))] fn test_norm_cdf() { let test_cases = &[ ( Decimal::from_str("-0.4").unwrap(), Decimal::from_str("0.3445781286821245037094401704").unwrap(), ), ( Decimal::from_str("-0.1").unwrap(), Decimal::from_str("0.4601722899186706579921922696").unwrap(), ), ( Decimal::from_str("0.1").unwrap(), Decimal::from_str("0.5398277100813293420078077304").unwrap(), ), ( Decimal::from_str("0.4").unwrap(), Decimal::from_str("0.6554218713178754962905598296").unwrap(), ), ( Decimal::from_str("2.0").unwrap(), Decimal::from_str("0.9772497381095865280953380673").unwrap(), ), ]; for case in test_cases { assert_eq!(case.1, case.0.norm_cdf()); } } #[test] fn test_norm_pdf() { let test_cases = &[ ( Decimal::from_str("-2.0").unwrap(), Decimal::from_str("0.0539909667221995238993056051").unwrap(), ), ( Decimal::from_str("-0.4").unwrap(), Decimal::from_str("0.3682701404285264134348468378").unwrap(), ), ( Decimal::from_str("-0.1").unwrap(), Decimal::from_str("0.3969525474873078082322691394").unwrap(), ), ( Decimal::from_str("0.1").unwrap(), Decimal::from_str("0.3969525474873078082322691394").unwrap(), ), ( Decimal::from_str("0.4").unwrap(), Decimal::from_str("0.3682701404285264134348468378").unwrap(), ), ( Decimal::from_str("2.0").unwrap(), Decimal::from_str("0.0539909667221995238993056051").unwrap(), ), ]; for case in test_cases { assert_eq!(case.1, case.0.norm_pdf()); } } #[test] fn test_ln() { let test_cases = [ ("1", "0"), // Wolfram Alpha gives -1.46968 ( "0.23", either!("-1.4696759700589416772292300779", "-1.4696759700589416772292300777"), ), // Wolfram Alpha gives 0.693147180559945309417232121458176568075500134360255254120 ("2", "0.6931471805599453094172321218"), // Wolfram Alpha gives 3.218875824868200749201518666452375279051202708537035443825 ( "25", either!("3.2188758248682007492015186670", "3.2188758248682007492015186674"), ), // Wolfram Alpha gives 0.210721022 ( "1.234567890", either!("0.2107210222156525610500017104", "0.2107210222156525610500017106"), ), ]; for (input, expected) in test_cases { let input = Decimal::from_str(input).unwrap(); let expected = Decimal::from_str(expected).unwrap(); assert_eq!(expected, input.ln(), "Failed to calculate ln({})", input); } } #[test] #[cfg(feature = "maths-nopanic")] fn test_invalid_ln_nopanic() { let test_cases = ["0", "-2.0"]; for input in test_cases { let input = Decimal::from_str(input).unwrap(); assert_eq!("0", input.ln().to_string(), "Failed to calculate ln({})", input); } } #[test] #[should_panic(expected = "Unable to calculate ln for zero")] #[cfg(not(feature = "maths-nopanic"))] fn test_invalid_ln_zero_panic() { let _ = Decimal::ZERO.ln(); } #[test] #[should_panic(expected = "Unable to calculate ln for negative numbers")] #[cfg(not(feature = "maths-nopanic"))] fn test_invalid_ln_negative_panic() { let _ = Decimal::NEGATIVE_ONE.ln(); } #[test] fn test_log10() { let test_cases = [ ("1", "0"), // Wolfram Alpha: 0.3010299956639811952137388947 ( "2", either!("0.3010299956639811952137388949", "0.3010299956639811952137388948"), ), // Wolfram Alpha: 0.0915149772 ( "1.234567890", either!("0.0915149771692704475183336230", "0.0915149771692704475183336231"), ), ("10", "1"), ("100", "2"), ("1000", "3"), ("1000.00000000", "3"), ("1000.000000000000000000000", "3"), ("10.000000000000000000000000000", "1"), ("100000000000000.0000000000", "14"), ("0.10", "-1"), ("0.1", "-1"), ("0.01", "-2"), ("0.010", "-2"), ("0.0100000000000000000", "-2"), ("0.000001", "-6"), ("0.000001000000000", "-6"), ]; for (input, expected) in test_cases { let input = Decimal::from_str(input).unwrap(); let expected = Decimal::from_str(expected).unwrap(); assert_eq!(expected, input.log10(), "Failed to calculate log10({})", input); } } #[test] #[cfg(feature = "maths-nopanic")] fn test_invalid_log10_nopanic() { let test_cases = ["0", "-2.0"]; for input in test_cases { let input = Decimal::from_str(input).unwrap(); assert_eq!("0", input.log10().to_string(), "Failed to calculate ln({})", input); } } #[test] #[should_panic(expected = "Unable to calculate log10 for zero")] #[cfg(not(feature = "maths-nopanic"))] fn test_invalid_log10_zero_panic() { let _ = Decimal::ZERO.log10(); } #[test] #[should_panic(expected = "Unable to calculate log10 for negative numbers")] #[cfg(not(feature = "maths-nopanic"))] fn test_invalid_log10_negative_panic() { let _ = Decimal::NEGATIVE_ONE.log10(); } #[test] fn test_erf() { let test_cases = &[ ( Decimal::from_str("-2.0").unwrap(), // Wolfram give -0.9953222650189527 Decimal::from_str("-0.9953225170750043399400930073").unwrap(), ), ( Decimal::from_str("-0.4").unwrap(), Decimal::from_str("-0.4283924127205154977961931420").unwrap(), ), ( Decimal::from_str("0.4").unwrap(), Decimal::from_str("0.4283924127205154977961931420").unwrap(), ), ( Decimal::one(), Decimal::from_str("0.8427010463338918630217928957").unwrap(), ), ( Decimal::from_str("2").unwrap(), Decimal::from_str("0.9953225170750043399400930073").unwrap(), ), ]; for case in test_cases { assert_eq!(case.1, case.0.erf()); } } #[test] fn test_checked_sin() { const ACCEPTED_PRECISION: u32 = 10; let test_cases = &[ // Sin(0) ("0", Some("0")), // Sin(PI/2) ("1.5707963267948966192313216916", Some("1")), // Sin(PI) ("3.1415926535897932384626433833", Some("0")), // Sin(3PI/2) ("4.7123889803846898576939650749", Some("-1")), // Sin(2PI) ("6.2831853071795864769252867666", Some("0")), // Sin(1) ~= 0.8414709848078965066525023216302989996225630607983710656727517099 ("1", Some("0.8414709848078965066525023216")), // Sin(2) ~= 0.9092974268256816953960198659117448427022549714478902683789730115 ("2", Some("0.9092974268256816953960198659")), // Sin(4) ~= -0.756802495307928251372639094511829094135912887336472571485416773 ("4", Some("-0.7568024953079282513726390945")), // Sin(6) ~= -0.279415498198925872811555446611894759627994864318204318483351369 ("6", Some("-0.2794154981989258728115554466")), // WA estimate: -0.893653245236708. Legacy ops is closer to f64 accuracy. ( "-79228162514264.337593543950335", Some(either!("-0.893653245236708", "-0.8963358176")), ), ("0.7853981633974483096156608458", Some("0.7071067811865475244008443621")), ]; for (input, result) in test_cases { let radians = Decimal::from_str(input).unwrap(); let sin = radians.checked_sin(); if let Some(result) = result { assert!(sin.is_some(), "Expected result for sin({})", input); let result = Decimal::from_str(result).unwrap(); assert_approx_eq!(sin.unwrap(), result, ACCEPTED_PRECISION, "sin({})", input); } else { assert!(sin.is_none(), "Unexpected result for sin({})", input); } } } #[test] fn test_checked_cos() { const ACCEPTED_PRECISION: u32 = 10; let test_cases = &[ // Cos(0) ("0", Some("1")), // Cos(PI/2) ("1.5707963267948966192313216916", Some("0")), // Cos(PI) ("3.1415926535897932384626433833", Some("-1")), // Cos(3PI/2) ("4.7123889803846898576939650749", Some("0")), // Cos(2PI) ("6.2831853071795864769252867666", Some("1")), // Cos(1) ~= 0.5403023058681397174009366074429766037323104206179222276700972553 ("1", Some("0.5403023058681397174009366074")), // Cos(2) ~= -0.416146836547142386997568229500762189766000771075544890755149973 ("2", Some("-0.4161468365471423869975682295")), // Cos(4) ~= -0.653643620863611914639168183097750381424133596646218247007010283 ("4", Some("-0.6536436208636119146391681831")), // Cos(6) ~= 0.9601702866503660205456522979229244054519376792110126981292864260 ("6", Some("0.9601702866503660205456522979")), // WA estimate: 0.448758150096352. Legacy ops is closer to f64 accuracy. ( "-79228162514264.337593543950335", Some(either!("0.448758150096352", "0.443375802326")), ), ("0.7853981633974483096156608458", Some("0.7071067810719247405681474639")), ("8.639379797371931405772269304", Some("-0.7071067811796194351866715184")), ]; for (input, result) in test_cases { let radians = Decimal::from_str(input).unwrap(); let cos = radians.checked_cos(); if let Some(result) = result { assert!(cos.is_some(), "Expected result for cos({})", input); let result = Decimal::from_str(result).unwrap(); assert_approx_eq!(cos.unwrap(), result, ACCEPTED_PRECISION, "cos({})", input); } else { assert!(cos.is_none(), "Unexpected result for cos({})", input); } } } #[test] fn test_checked_tan() { const ACCEPTED_PRECISION: u32 = 8; let test_cases = &[ // Tan(0) ("0", Some("0")), // Tan(PI/2) ("1.5707963267948966192313216916", None), // Tan(PI) ("3.1415926535897932384626433833", Some("0")), // Tan(3PI/2) ("4.7123889803846898576939650749", None), // Tan(2PI) ("6.2831853071795864769252867666", Some("0")), // Tan(1) ~= 1.5574077246549022305069748074583601730872507723815200383839466056 ("1", Some("1.5574077246549022305069748075")), // Tan(2) ~= -2.185039863261518991643306102313682543432017746227663164562955869 ("2", Some("-2.1850398632615189916433061023")), // Tan(4) ~= 1.1578212823495775831373424182673239231197627673671421300848571893 ("4", Some("1.1578212823495775831373424183")), // Tan(6) ~= -0.291006191384749157053699588868175542831155570912339131608827193 ("6", Some("-0.2910061913847491570536995889")), // WA estimate: -1.99139167733184. Legacy ops is closer to f64 accuracy. ( "-79228162514264.337593543950335", Some(either!("-1.99139167733184", "-2.021616454709")), ), ]; for (input, result) in test_cases { let radians = Decimal::from_str(input).unwrap(); let tan = radians.checked_tan(); if let Some(result) = result { assert!(tan.is_some(), "Expected result for tan({})", input); let result = Decimal::from_str(result).unwrap(); assert_approx_eq!(tan.unwrap(), result, ACCEPTED_PRECISION, "tan({})", input); } else { assert!(tan.is_none(), "Unexpected result for tan({})", input); } } } } // Generated tests #[cfg(not(feature = "legacy-ops"))] mod generated { use rust_decimal::prelude::*; macro_rules! gen_test { ($name:ident, $csv:expr, $method:tt) => { #[test] fn $name() { let path = std::env::current_dir().unwrap(); let mut rdr = csv::Reader::from_reader( std::fs::File::open(format!("{}/tests/generated/{}", path.display(), $csv)).unwrap(), ); let mut row = 0; for result in rdr.records() { let record = result.unwrap(); row += 1; // Extract the data let d1 = record.get(0).unwrap(); let d2 = record.get(1).unwrap(); let result = record.get(2).unwrap(); let error = record.get(3).unwrap(); // Do the calc let d1 = Decimal::from_str(&d1).unwrap(); let d2 = Decimal::from_str(&d2).unwrap(); let expected = Decimal::from_str(&result).unwrap(); match d1.$method(d2) { Some(v) => assert_eq!(expected, v, "Row {}", row), None => assert!(!error.is_empty()), } } } }; } gen_test!(test_add_000_001, "Add_000_001.csv", checked_add); gen_test!(test_add_000_010, "Add_000_010.csv", checked_add); gen_test!(test_add_000_011, "Add_000_011.csv", checked_add); gen_test!(test_add_000_100, "Add_000_100.csv", checked_add); gen_test!(test_add_000_101, "Add_000_101.csv", checked_add); gen_test!(test_add_000_110, "Add_000_110.csv", checked_add); gen_test!(test_add_000_111, "Add_000_111.csv", checked_add); gen_test!(test_add_001_000, "Add_001_000.csv", checked_add); gen_test!(test_add_001_001, "Add_001_001.csv", checked_add); gen_test!(test_add_001_010, "Add_001_010.csv", checked_add); gen_test!(test_add_001_011, "Add_001_011.csv", checked_add); gen_test!(test_add_001_100, "Add_001_100.csv", checked_add); gen_test!(test_add_001_101, "Add_001_101.csv", checked_add); gen_test!(test_add_001_110, "Add_001_110.csv", checked_add); gen_test!(test_add_001_111, "Add_001_111.csv", checked_add); gen_test!(test_add_010_000, "Add_010_000.csv", checked_add); gen_test!(test_add_010_001, "Add_010_001.csv", checked_add); gen_test!(test_add_010_010, "Add_010_010.csv", checked_add); gen_test!(test_add_010_011, "Add_010_011.csv", checked_add); gen_test!(test_add_010_100, "Add_010_100.csv", checked_add); gen_test!(test_add_010_101, "Add_010_101.csv", checked_add); gen_test!(test_add_010_110, "Add_010_110.csv", checked_add); gen_test!(test_add_010_111, "Add_010_111.csv", checked_add); gen_test!(test_add_011_000, "Add_011_000.csv", checked_add); gen_test!(test_add_011_001, "Add_011_001.csv", checked_add); gen_test!(test_add_011_010, "Add_011_010.csv", checked_add); gen_test!(test_add_011_011, "Add_011_011.csv", checked_add); gen_test!(test_add_011_100, "Add_011_100.csv", checked_add); gen_test!(test_add_011_101, "Add_011_101.csv", checked_add); gen_test!(test_add_011_110, "Add_011_110.csv", checked_add); gen_test!(test_add_011_111, "Add_011_111.csv", checked_add); gen_test!(test_add_100_000, "Add_100_000.csv", checked_add); gen_test!(test_add_100_001, "Add_100_001.csv", checked_add); gen_test!(test_add_100_010, "Add_100_010.csv", checked_add); gen_test!(test_add_100_011, "Add_100_011.csv", checked_add); gen_test!(test_add_100_100, "Add_100_100.csv", checked_add); gen_test!(test_add_100_101, "Add_100_101.csv", checked_add); gen_test!(test_add_100_110, "Add_100_110.csv", checked_add); gen_test!(test_add_100_111, "Add_100_111.csv", checked_add); gen_test!(test_add_101_000, "Add_101_000.csv", checked_add); gen_test!(test_add_101_001, "Add_101_001.csv", checked_add); gen_test!(test_add_101_010, "Add_101_010.csv", checked_add); gen_test!(test_add_101_011, "Add_101_011.csv", checked_add); gen_test!(test_add_101_100, "Add_101_100.csv", checked_add); gen_test!(test_add_101_101, "Add_101_101.csv", checked_add); gen_test!(test_add_101_110, "Add_101_110.csv", checked_add); gen_test!(test_add_101_111, "Add_101_111.csv", checked_add); gen_test!(test_add_110_000, "Add_110_000.csv", checked_add); gen_test!(test_add_110_001, "Add_110_001.csv", checked_add); gen_test!(test_add_110_010, "Add_110_010.csv", checked_add); gen_test!(test_add_110_011, "Add_110_011.csv", checked_add); gen_test!(test_add_110_100, "Add_110_100.csv", checked_add); gen_test!(test_add_110_101, "Add_110_101.csv", checked_add); gen_test!(test_add_110_110, "Add_110_110.csv", checked_add); gen_test!(test_add_110_111, "Add_110_111.csv", checked_add); gen_test!(test_add_111_000, "Add_111_000.csv", checked_add); gen_test!(test_add_111_001, "Add_111_001.csv", checked_add); gen_test!(test_add_111_010, "Add_111_010.csv", checked_add); gen_test!(test_add_111_011, "Add_111_011.csv", checked_add); gen_test!(test_add_111_100, "Add_111_100.csv", checked_add); gen_test!(test_add_111_101, "Add_111_101.csv", checked_add); gen_test!(test_add_111_110, "Add_111_110.csv", checked_add); gen_test!(test_add_111_111, "Add_111_111.csv", checked_add); gen_test!(test_div_000_001, "Div_000_001.csv", checked_div); gen_test!(test_div_000_010, "Div_000_010.csv", checked_div); gen_test!(test_div_000_011, "Div_000_011.csv", checked_div); gen_test!(test_div_000_100, "Div_000_100.csv", checked_div); gen_test!(test_div_000_101, "Div_000_101.csv", checked_div); gen_test!(test_div_000_110, "Div_000_110.csv", checked_div); gen_test!(test_div_000_111, "Div_000_111.csv", checked_div); gen_test!(test_div_001_000, "Div_001_000.csv", checked_div); gen_test!(test_div_001_001, "Div_001_001.csv", checked_div); gen_test!(test_div_001_010, "Div_001_010.csv", checked_div); gen_test!(test_div_001_011, "Div_001_011.csv", checked_div); gen_test!(test_div_001_100, "Div_001_100.csv", checked_div); gen_test!(test_div_001_101, "Div_001_101.csv", checked_div); gen_test!(test_div_001_110, "Div_001_110.csv", checked_div); gen_test!(test_div_001_111, "Div_001_111.csv", checked_div); gen_test!(test_div_010_000, "Div_010_000.csv", checked_div); gen_test!(test_div_010_001, "Div_010_001.csv", checked_div); gen_test!(test_div_010_010, "Div_010_010.csv", checked_div); gen_test!(test_div_010_011, "Div_010_011.csv", checked_div); gen_test!(test_div_010_100, "Div_010_100.csv", checked_div); gen_test!(test_div_010_101, "Div_010_101.csv", checked_div); gen_test!(test_div_010_110, "Div_010_110.csv", checked_div); gen_test!(test_div_010_111, "Div_010_111.csv", checked_div); gen_test!(test_div_011_000, "Div_011_000.csv", checked_div); gen_test!(test_div_011_001, "Div_011_001.csv", checked_div); gen_test!(test_div_011_010, "Div_011_010.csv", checked_div); gen_test!(test_div_011_011, "Div_011_011.csv", checked_div); gen_test!(test_div_011_100, "Div_011_100.csv", checked_div); gen_test!(test_div_011_101, "Div_011_101.csv", checked_div); gen_test!(test_div_011_110, "Div_011_110.csv", checked_div); gen_test!(test_div_011_111, "Div_011_111.csv", checked_div); gen_test!(test_div_100_000, "Div_100_000.csv", checked_div); gen_test!(test_div_100_001, "Div_100_001.csv", checked_div); gen_test!(test_div_100_010, "Div_100_010.csv", checked_div); gen_test!(test_div_100_011, "Div_100_011.csv", checked_div); gen_test!(test_div_100_100, "Div_100_100.csv", checked_div); gen_test!(test_div_100_101, "Div_100_101.csv", checked_div); gen_test!(test_div_100_110, "Div_100_110.csv", checked_div); gen_test!(test_div_100_111, "Div_100_111.csv", checked_div); gen_test!(test_div_101_000, "Div_101_000.csv", checked_div); gen_test!(test_div_101_001, "Div_101_001.csv", checked_div); gen_test!(test_div_101_010, "Div_101_010.csv", checked_div); gen_test!(test_div_101_011, "Div_101_011.csv", checked_div); gen_test!(test_div_101_100, "Div_101_100.csv", checked_div); gen_test!(test_div_101_101, "Div_101_101.csv", checked_div); gen_test!(test_div_101_110, "Div_101_110.csv", checked_div); gen_test!(test_div_101_111, "Div_101_111.csv", checked_div); gen_test!(test_div_110_000, "Div_110_000.csv", checked_div); gen_test!(test_div_110_001, "Div_110_001.csv", checked_div); gen_test!(test_div_110_010, "Div_110_010.csv", checked_div); gen_test!(test_div_110_011, "Div_110_011.csv", checked_div); gen_test!(test_div_110_100, "Div_110_100.csv", checked_div); gen_test!(test_div_110_101, "Div_110_101.csv", checked_div); gen_test!(test_div_110_110, "Div_110_110.csv", checked_div); gen_test!(test_div_110_111, "Div_110_111.csv", checked_div); gen_test!(test_div_111_000, "Div_111_000.csv", checked_div); gen_test!(test_div_111_001, "Div_111_001.csv", checked_div); gen_test!(test_div_111_010, "Div_111_010.csv", checked_div); gen_test!(test_div_111_011, "Div_111_011.csv", checked_div); gen_test!(test_div_111_100, "Div_111_100.csv", checked_div); gen_test!(test_div_111_101, "Div_111_101.csv", checked_div); gen_test!(test_div_111_110, "Div_111_110.csv", checked_div); gen_test!(test_div_111_111, "Div_111_111.csv", checked_div); gen_test!(test_mul_000_001, "Mul_000_001.csv", checked_mul); gen_test!(test_mul_000_010, "Mul_000_010.csv", checked_mul); gen_test!(test_mul_000_011, "Mul_000_011.csv", checked_mul); gen_test!(test_mul_000_100, "Mul_000_100.csv", checked_mul); gen_test!(test_mul_000_101, "Mul_000_101.csv", checked_mul); gen_test!(test_mul_000_110, "Mul_000_110.csv", checked_mul); gen_test!(test_mul_000_111, "Mul_000_111.csv", checked_mul); gen_test!(test_mul_001_000, "Mul_001_000.csv", checked_mul); gen_test!(test_mul_001_001, "Mul_001_001.csv", checked_mul); gen_test!(test_mul_001_010, "Mul_001_010.csv", checked_mul); gen_test!(test_mul_001_011, "Mul_001_011.csv", checked_mul); gen_test!(test_mul_001_100, "Mul_001_100.csv", checked_mul); gen_test!(test_mul_001_101, "Mul_001_101.csv", checked_mul); gen_test!(test_mul_001_110, "Mul_001_110.csv", checked_mul); gen_test!(test_mul_001_111, "Mul_001_111.csv", checked_mul); gen_test!(test_mul_010_000, "Mul_010_000.csv", checked_mul); gen_test!(test_mul_010_001, "Mul_010_001.csv", checked_mul); gen_test!(test_mul_010_010, "Mul_010_010.csv", checked_mul); gen_test!(test_mul_010_011, "Mul_010_011.csv", checked_mul); gen_test!(test_mul_010_100, "Mul_010_100.csv", checked_mul); gen_test!(test_mul_010_101, "Mul_010_101.csv", checked_mul); gen_test!(test_mul_010_110, "Mul_010_110.csv", checked_mul); gen_test!(test_mul_010_111, "Mul_010_111.csv", checked_mul); gen_test!(test_mul_011_000, "Mul_011_000.csv", checked_mul); gen_test!(test_mul_011_001, "Mul_011_001.csv", checked_mul); gen_test!(test_mul_011_010, "Mul_011_010.csv", checked_mul); gen_test!(test_mul_011_011, "Mul_011_011.csv", checked_mul); gen_test!(test_mul_011_100, "Mul_011_100.csv", checked_mul); gen_test!(test_mul_011_101, "Mul_011_101.csv", checked_mul); gen_test!(test_mul_011_110, "Mul_011_110.csv", checked_mul); gen_test!(test_mul_011_111, "Mul_011_111.csv", checked_mul); gen_test!(test_mul_100_000, "Mul_100_000.csv", checked_mul); gen_test!(test_mul_100_001, "Mul_100_001.csv", checked_mul); gen_test!(test_mul_100_010, "Mul_100_010.csv", checked_mul); gen_test!(test_mul_100_011, "Mul_100_011.csv", checked_mul); gen_test!(test_mul_100_100, "Mul_100_100.csv", checked_mul); gen_test!(test_mul_100_101, "Mul_100_101.csv", checked_mul); gen_test!(test_mul_100_110, "Mul_100_110.csv", checked_mul); gen_test!(test_mul_100_111, "Mul_100_111.csv", checked_mul); gen_test!(test_mul_101_000, "Mul_101_000.csv", checked_mul); gen_test!(test_mul_101_001, "Mul_101_001.csv", checked_mul); gen_test!(test_mul_101_010, "Mul_101_010.csv", checked_mul); gen_test!(test_mul_101_011, "Mul_101_011.csv", checked_mul); gen_test!(test_mul_101_100, "Mul_101_100.csv", checked_mul); gen_test!(test_mul_101_101, "Mul_101_101.csv", checked_mul); gen_test!(test_mul_101_110, "Mul_101_110.csv", checked_mul); gen_test!(test_mul_101_111, "Mul_101_111.csv", checked_mul); gen_test!(test_mul_110_000, "Mul_110_000.csv", checked_mul); gen_test!(test_mul_110_001, "Mul_110_001.csv", checked_mul); gen_test!(test_mul_110_010, "Mul_110_010.csv", checked_mul); gen_test!(test_mul_110_011, "Mul_110_011.csv", checked_mul); gen_test!(test_mul_110_100, "Mul_110_100.csv", checked_mul); gen_test!(test_mul_110_101, "Mul_110_101.csv", checked_mul); gen_test!(test_mul_110_110, "Mul_110_110.csv", checked_mul); gen_test!(test_mul_110_111, "Mul_110_111.csv", checked_mul); gen_test!(test_mul_111_000, "Mul_111_000.csv", checked_mul); gen_test!(test_mul_111_001, "Mul_111_001.csv", checked_mul); gen_test!(test_mul_111_010, "Mul_111_010.csv", checked_mul); gen_test!(test_mul_111_011, "Mul_111_011.csv", checked_mul); gen_test!(test_mul_111_100, "Mul_111_100.csv", checked_mul); gen_test!(test_mul_111_101, "Mul_111_101.csv", checked_mul); gen_test!(test_mul_111_110, "Mul_111_110.csv", checked_mul); gen_test!(test_mul_111_111, "Mul_111_111.csv", checked_mul); gen_test!(test_rem_000_001, "Rem_000_001.csv", checked_rem); gen_test!(test_rem_000_010, "Rem_000_010.csv", checked_rem); gen_test!(test_rem_000_011, "Rem_000_011.csv", checked_rem); gen_test!(test_rem_000_100, "Rem_000_100.csv", checked_rem); gen_test!(test_rem_000_101, "Rem_000_101.csv", checked_rem); gen_test!(test_rem_000_110, "Rem_000_110.csv", checked_rem); gen_test!(test_rem_000_111, "Rem_000_111.csv", checked_rem); gen_test!(test_rem_001_000, "Rem_001_000.csv", checked_rem); gen_test!(test_rem_001_001, "Rem_001_001.csv", checked_rem); gen_test!(test_rem_001_010, "Rem_001_010.csv", checked_rem); gen_test!(test_rem_001_011, "Rem_001_011.csv", checked_rem); gen_test!(test_rem_001_100, "Rem_001_100.csv", checked_rem); gen_test!(test_rem_001_101, "Rem_001_101.csv", checked_rem); gen_test!(test_rem_001_110, "Rem_001_110.csv", checked_rem); gen_test!(test_rem_001_111, "Rem_001_111.csv", checked_rem); gen_test!(test_rem_010_000, "Rem_010_000.csv", checked_rem); gen_test!(test_rem_010_001, "Rem_010_001.csv", checked_rem); gen_test!(test_rem_010_010, "Rem_010_010.csv", checked_rem); gen_test!(test_rem_010_011, "Rem_010_011.csv", checked_rem); gen_test!(test_rem_010_100, "Rem_010_100.csv", checked_rem); gen_test!(test_rem_010_101, "Rem_010_101.csv", checked_rem); gen_test!(test_rem_010_110, "Rem_010_110.csv", checked_rem); gen_test!(test_rem_010_111, "Rem_010_111.csv", checked_rem); gen_test!(test_rem_011_000, "Rem_011_000.csv", checked_rem); gen_test!(test_rem_011_001, "Rem_011_001.csv", checked_rem); gen_test!(test_rem_011_010, "Rem_011_010.csv", checked_rem); gen_test!(test_rem_011_011, "Rem_011_011.csv", checked_rem); gen_test!(test_rem_011_100, "Rem_011_100.csv", checked_rem); gen_test!(test_rem_011_101, "Rem_011_101.csv", checked_rem); gen_test!(test_rem_011_110, "Rem_011_110.csv", checked_rem); gen_test!(test_rem_011_111, "Rem_011_111.csv", checked_rem); gen_test!(test_rem_100_000, "Rem_100_000.csv", checked_rem); gen_test!(test_rem_100_001, "Rem_100_001.csv", checked_rem); gen_test!(test_rem_100_010, "Rem_100_010.csv", checked_rem); gen_test!(test_rem_100_011, "Rem_100_011.csv", checked_rem); gen_test!(test_rem_100_100, "Rem_100_100.csv", checked_rem); gen_test!(test_rem_100_101, "Rem_100_101.csv", checked_rem); gen_test!(test_rem_100_110, "Rem_100_110.csv", checked_rem); gen_test!(test_rem_100_111, "Rem_100_111.csv", checked_rem); gen_test!(test_rem_101_000, "Rem_101_000.csv", checked_rem); gen_test!(test_rem_101_001, "Rem_101_001.csv", checked_rem); gen_test!(test_rem_101_010, "Rem_101_010.csv", checked_rem); gen_test!(test_rem_101_011, "Rem_101_011.csv", checked_rem); gen_test!(test_rem_101_100, "Rem_101_100.csv", checked_rem); gen_test!(test_rem_101_101, "Rem_101_101.csv", checked_rem); gen_test!(test_rem_101_110, "Rem_101_110.csv", checked_rem); gen_test!(test_rem_101_111, "Rem_101_111.csv", checked_rem); gen_test!(test_rem_110_000, "Rem_110_000.csv", checked_rem); gen_test!(test_rem_110_001, "Rem_110_001.csv", checked_rem); gen_test!(test_rem_110_010, "Rem_110_010.csv", checked_rem); gen_test!(test_rem_110_011, "Rem_110_011.csv", checked_rem); gen_test!(test_rem_110_100, "Rem_110_100.csv", checked_rem); gen_test!(test_rem_110_101, "Rem_110_101.csv", checked_rem); gen_test!(test_rem_110_110, "Rem_110_110.csv", checked_rem); gen_test!(test_rem_110_111, "Rem_110_111.csv", checked_rem); gen_test!(test_rem_111_000, "Rem_111_000.csv", checked_rem); gen_test!(test_rem_111_001, "Rem_111_001.csv", checked_rem); gen_test!(test_rem_111_010, "Rem_111_010.csv", checked_rem); gen_test!(test_rem_111_011, "Rem_111_011.csv", checked_rem); gen_test!(test_rem_111_100, "Rem_111_100.csv", checked_rem); gen_test!(test_rem_111_101, "Rem_111_101.csv", checked_rem); gen_test!(test_rem_111_110, "Rem_111_110.csv", checked_rem); gen_test!(test_rem_111_111, "Rem_111_111.csv", checked_rem); gen_test!(test_sub_000_001, "Sub_000_001.csv", checked_sub); gen_test!(test_sub_000_010, "Sub_000_010.csv", checked_sub); gen_test!(test_sub_000_011, "Sub_000_011.csv", checked_sub); gen_test!(test_sub_000_100, "Sub_000_100.csv", checked_sub); gen_test!(test_sub_000_101, "Sub_000_101.csv", checked_sub); gen_test!(test_sub_000_110, "Sub_000_110.csv", checked_sub); gen_test!(test_sub_000_111, "Sub_000_111.csv", checked_sub); gen_test!(test_sub_001_000, "Sub_001_000.csv", checked_sub); gen_test!(test_sub_001_001, "Sub_001_001.csv", checked_sub); gen_test!(test_sub_001_010, "Sub_001_010.csv", checked_sub); gen_test!(test_sub_001_011, "Sub_001_011.csv", checked_sub); gen_test!(test_sub_001_100, "Sub_001_100.csv", checked_sub); gen_test!(test_sub_001_101, "Sub_001_101.csv", checked_sub); gen_test!(test_sub_001_110, "Sub_001_110.csv", checked_sub); gen_test!(test_sub_001_111, "Sub_001_111.csv", checked_sub); gen_test!(test_sub_010_000, "Sub_010_000.csv", checked_sub); gen_test!(test_sub_010_001, "Sub_010_001.csv", checked_sub); gen_test!(test_sub_010_010, "Sub_010_010.csv", checked_sub); gen_test!(test_sub_010_011, "Sub_010_011.csv", checked_sub); gen_test!(test_sub_010_100, "Sub_010_100.csv", checked_sub); gen_test!(test_sub_010_101, "Sub_010_101.csv", checked_sub); gen_test!(test_sub_010_110, "Sub_010_110.csv", checked_sub); gen_test!(test_sub_010_111, "Sub_010_111.csv", checked_sub); gen_test!(test_sub_011_000, "Sub_011_000.csv", checked_sub); gen_test!(test_sub_011_001, "Sub_011_001.csv", checked_sub); gen_test!(test_sub_011_010, "Sub_011_010.csv", checked_sub); gen_test!(test_sub_011_011, "Sub_011_011.csv", checked_sub); gen_test!(test_sub_011_100, "Sub_011_100.csv", checked_sub); gen_test!(test_sub_011_101, "Sub_011_101.csv", checked_sub); gen_test!(test_sub_011_110, "Sub_011_110.csv", checked_sub); gen_test!(test_sub_011_111, "Sub_011_111.csv", checked_sub); gen_test!(test_sub_100_000, "Sub_100_000.csv", checked_sub); gen_test!(test_sub_100_001, "Sub_100_001.csv", checked_sub); gen_test!(test_sub_100_010, "Sub_100_010.csv", checked_sub); gen_test!(test_sub_100_011, "Sub_100_011.csv", checked_sub); gen_test!(test_sub_100_100, "Sub_100_100.csv", checked_sub); gen_test!(test_sub_100_101, "Sub_100_101.csv", checked_sub); gen_test!(test_sub_100_110, "Sub_100_110.csv", checked_sub); gen_test!(test_sub_100_111, "Sub_100_111.csv", checked_sub); gen_test!(test_sub_101_000, "Sub_101_000.csv", checked_sub); gen_test!(test_sub_101_001, "Sub_101_001.csv", checked_sub); gen_test!(test_sub_101_010, "Sub_101_010.csv", checked_sub); gen_test!(test_sub_101_011, "Sub_101_011.csv", checked_sub); gen_test!(test_sub_101_100, "Sub_101_100.csv", checked_sub); gen_test!(test_sub_101_101, "Sub_101_101.csv", checked_sub); gen_test!(test_sub_101_110, "Sub_101_110.csv", checked_sub); gen_test!(test_sub_101_111, "Sub_101_111.csv", checked_sub); gen_test!(test_sub_110_000, "Sub_110_000.csv", checked_sub); gen_test!(test_sub_110_001, "Sub_110_001.csv", checked_sub); gen_test!(test_sub_110_010, "Sub_110_010.csv", checked_sub); gen_test!(test_sub_110_011, "Sub_110_011.csv", checked_sub); gen_test!(test_sub_110_100, "Sub_110_100.csv", checked_sub); gen_test!(test_sub_110_101, "Sub_110_101.csv", checked_sub); gen_test!(test_sub_110_110, "Sub_110_110.csv", checked_sub); gen_test!(test_sub_110_111, "Sub_110_111.csv", checked_sub); gen_test!(test_sub_111_000, "Sub_111_000.csv", checked_sub); gen_test!(test_sub_111_001, "Sub_111_001.csv", checked_sub); gen_test!(test_sub_111_010, "Sub_111_010.csv", checked_sub); gen_test!(test_sub_111_011, "Sub_111_011.csv", checked_sub); gen_test!(test_sub_111_100, "Sub_111_100.csv", checked_sub); gen_test!(test_sub_111_101, "Sub_111_101.csv", checked_sub); gen_test!(test_sub_111_110, "Sub_111_110.csv", checked_sub); gen_test!(test_sub_111_111, "Sub_111_111.csv", checked_sub); } #[cfg(feature = "proptest")] mod proptest_tests { use super::Decimal; use proptest::prelude::*; proptest! { #[test] fn test_proptest_validate_arbitrary_decimals(num in any::()) { assert!(num.is_zero() || !num.is_zero()); } } } #[cfg(feature = "rocket-traits")] #[allow(clippy::disallowed_names)] mod rocket_tests { use crate::Decimal; use rocket::form::{Form, FromForm}; use std::str::FromStr; #[derive(FromForm)] struct Example { foo: Decimal, bar: Decimal, } #[test] fn it_can_parse_form() { let parsed: Example = Form::parse("bar=0.12345678901234567890123456789&foo=-123456.78").unwrap(); assert_eq!(parsed.foo, Decimal::from_str("-123456.78").unwrap()); assert_eq!( parsed.bar, Decimal::from_str("0.12345678901234567890123456789").unwrap() ); } } #[cfg(feature = "rust-fuzz")] mod rust_fuzz_tests { use arbitrary::{Arbitrary, Unstructured}; use super::*; #[test] fn it_can_generate_arbitrary_decimals() { let mut u = Unstructured::new(b"it_can_generate_arbitrary_decimals"); let d = Decimal::arbitrary(&mut u); assert!(d.is_ok()); } } mod issues { use rust_decimal::prelude::*; #[test] fn issue_384_neg_overflow_during_subtract_carry() { // 288230376151711744 let a = Decimal::from_parts(0, 67108864, 0, false, 0); // 714606955844629274884780.85120 let b = Decimal::from_parts(0, 0, 3873892070, false, 3873892070); let c = a.checked_sub(b); assert!(c.is_some()); // 288230376151711744. // - 714606955844629274884780.85120 // = // - 714606667614253123173036.85120 assert_eq!("-714606667614253123173036.85120", c.unwrap().to_string()); } #[test] fn issue_392_overflow_during_remainder() { let a = Decimal::from_str("-79228157791897.854723898738431").unwrap(); let b = Decimal::from_str("184512476.73336922111").unwrap(); let c = a.checked_div(b); assert!(c.is_some()); assert_eq!("-429391.87200000000002327170816", c.unwrap().to_string()) } #[test] fn issue_624_to_f64_precision() { let tests = [ ("1000000.000000000000000000", 1000000.0f64), ("10000.000000000000000000", 10000.0f64), ("100000.000000000000000000", 100000.0f64), // Problematic value ]; for (index, (test, expected)) in tests.iter().enumerate() { let decimal = Decimal::from_str_exact(test).unwrap(); assert_eq!( f64::try_from(decimal).unwrap(), *expected, "Test index {} failed", index ); } } #[test] #[cfg(not(feature = "legacy-ops"))] // I will deprecate this feature/behavior in an upcoming release fn issue_618_rescaling_overflow() { fn assert_result(scale: u32, v1: Decimal, v2: Decimal) { assert_eq!(scale, v1.scale(), "initial scale: {scale}"); let result1 = v1 + -v2; assert_eq!( result1.to_string(), "-0.0999999999999999999999999999", "a + -b : {scale}" ); assert_eq!(28, result1.scale(), "a + -b : {scale}"); let result2 = v1 - v2; assert_eq!( result2.to_string(), "-0.0999999999999999999999999999", "a - b : {scale}" ); assert_eq!(28, result2.scale(), "a - b : {scale}"); } let mut a = Decimal::from_str("0.0000000000000000000000000001").unwrap(); let b = Decimal::from_str("0.1").unwrap(); assert_result(28, a, b); // Try at a new scale (this works) a.rescale(30); assert_result(30, a, b); // And finally the scale causing an issue a.rescale(29); assert_result(29, a, b); } }