//! These tests are adapted from the Rust core library's unittests. #![cfg(not(feature = "compact"))] use minimal_lexical::lemire; use minimal_lexical::num::Float; fn compute_error32(q: i32, w: u64) -> (i32, u64) { let fp = lemire::compute_error::(q, w); (fp.exp, fp.mant) } fn compute_error64(q: i32, w: u64) -> (i32, u64) { let fp = lemire::compute_error::(q, w); (fp.exp, fp.mant) } fn compute_error_scaled32(q: i32, w: u64, lz: i32) -> (i32, u64) { let fp = lemire::compute_error_scaled::(q, w, lz); (fp.exp, fp.mant) } fn compute_error_scaled64(q: i32, w: u64, lz: i32) -> (i32, u64) { let fp = lemire::compute_error_scaled::(q, w, lz); (fp.exp, fp.mant) } fn compute_float32(q: i32, w: u64) -> (i32, u64) { let fp = lemire::compute_float::(q, w); (fp.exp, fp.mant) } fn compute_float64(q: i32, w: u64) -> (i32, u64) { let fp = lemire::compute_float::(q, w); (fp.exp, fp.mant) } #[test] fn compute_error32_test() { // These test near-halfway cases for single-precision floats. assert_eq!(compute_error32(0, 16777216), (111 + f32::INVALID_FP, 9223372036854775808)); assert_eq!(compute_error32(0, 16777217), (111 + f32::INVALID_FP, 9223372586610589696)); assert_eq!(compute_error32(0, 16777218), (111 + f32::INVALID_FP, 9223373136366403584)); assert_eq!(compute_error32(0, 16777219), (111 + f32::INVALID_FP, 9223373686122217472)); assert_eq!(compute_error32(0, 16777220), (111 + f32::INVALID_FP, 9223374235878031360)); // These are examples of the above tests, with // digits from the exponent shifted to the mantissa. assert_eq!( compute_error32(-10, 167772160000000000), (111 + f32::INVALID_FP, 9223372036854775808) ); assert_eq!( compute_error32(-10, 167772170000000000), (111 + f32::INVALID_FP, 9223372586610589696) ); assert_eq!( compute_error32(-10, 167772180000000000), (111 + f32::INVALID_FP, 9223373136366403584) ); // Let's check the lines to see if anything is different in table... assert_eq!( compute_error32(-10, 167772190000000000), (111 + f32::INVALID_FP, 9223373686122217472) ); assert_eq!( compute_error32(-10, 167772200000000000), (111 + f32::INVALID_FP, 9223374235878031360) ); } #[test] fn compute_error64_test() { // These test near-halfway cases for double-precision floats. assert_eq!(compute_error64(0, 9007199254740992), (1065 + f64::INVALID_FP, 9223372036854775808)); assert_eq!(compute_error64(0, 9007199254740993), (1065 + f64::INVALID_FP, 9223372036854776832)); assert_eq!(compute_error64(0, 9007199254740994), (1065 + f64::INVALID_FP, 9223372036854777856)); assert_eq!(compute_error64(0, 9007199254740995), (1065 + f64::INVALID_FP, 9223372036854778880)); assert_eq!(compute_error64(0, 9007199254740996), (1065 + f64::INVALID_FP, 9223372036854779904)); assert_eq!( compute_error64(0, 18014398509481984), (1066 + f64::INVALID_FP, 9223372036854775808) ); assert_eq!( compute_error64(0, 18014398509481986), (1066 + f64::INVALID_FP, 9223372036854776832) ); assert_eq!( compute_error64(0, 18014398509481988), (1066 + f64::INVALID_FP, 9223372036854777856) ); assert_eq!( compute_error64(0, 18014398509481990), (1066 + f64::INVALID_FP, 9223372036854778880) ); assert_eq!( compute_error64(0, 18014398509481992), (1066 + f64::INVALID_FP, 9223372036854779904) ); // Test a much closer set of examples. assert_eq!( compute_error64(0, 9007199254740991), (1064 + f64::INVALID_FP, 18446744073709549568) ); assert_eq!( compute_error64(0, 9223372036854776831), (1075 + f64::INVALID_FP, 9223372036854776830) ); assert_eq!( compute_error64(0, 9223372036854776832), (1075 + f64::INVALID_FP, 9223372036854776832) ); assert_eq!( compute_error64(0, 9223372036854776833), (1075 + f64::INVALID_FP, 9223372036854776832) ); assert_eq!( compute_error64(-42, 9123456727292927), (925 + f64::INVALID_FP, 13021432563531497894) ); assert_eq!( compute_error64(-43, 91234567272929275), (925 + f64::INVALID_FP, 13021432563531498606) ); assert_eq!( compute_error64(-42, 9123456727292928), (925 + f64::INVALID_FP, 13021432563531499320) ); // These are examples of the above tests, with // digits from the exponent shifted to the mantissa. assert_eq!( compute_error64(-3, 9007199254740992000), (1065 + f64::INVALID_FP, 9223372036854775808) ); assert_eq!( compute_error64(-3, 9007199254740993000), (1065 + f64::INVALID_FP, 9223372036854776832) ); assert_eq!( compute_error64(-3, 9007199254740994000), (1065 + f64::INVALID_FP, 9223372036854777856) ); assert_eq!( compute_error64(-3, 9007199254740995000), (1065 + f64::INVALID_FP, 9223372036854778880) ); assert_eq!( compute_error64(-3, 9007199254740996000), (1065 + f64::INVALID_FP, 9223372036854779904) ); // Test from errors in atof. assert_eq!( compute_error64(-18, 1000000178813934326), (1012 + f64::INVALID_FP, 9223373686122217470) ); // Check edge-cases from previous errors. assert_eq!( compute_error64(-342, 2470328229206232720), (-64 + f64::INVALID_FP, 18446744073709551608) ); } #[test] fn compute_error_scaled32_test() { // These are the same examples above, just using pre-computed scaled values. // These test near-halfway cases for single-precision floats. assert_eq!( compute_error_scaled32(0, 4611686018427387904, 39), (111 + f32::INVALID_FP, 9223372036854775808) ); assert_eq!( compute_error_scaled32(0, 4611686293305294848, 39), (111 + f32::INVALID_FP, 9223372586610589696) ); assert_eq!( compute_error_scaled32(0, 4611686568183201792, 39), (111 + f32::INVALID_FP, 9223373136366403584) ); assert_eq!( compute_error_scaled32(0, 4611686843061108736, 39), (111 + f32::INVALID_FP, 9223373686122217472) ); assert_eq!( compute_error_scaled32(0, 4611687117939015680, 39), (111 + f32::INVALID_FP, 9223374235878031360) ); assert_eq!( compute_error_scaled32(-10, 9223372036854775808, 6), (111 + f32::INVALID_FP, 9223372036854775808) ); assert_eq!( compute_error_scaled32(-10, 9223372586610589696, 6), (111 + f32::INVALID_FP, 9223372586610589696) ); assert_eq!( compute_error_scaled32(-10, 9223373136366403584, 6), (111 + f32::INVALID_FP, 9223373136366403584) ); assert_eq!( compute_error_scaled32(-10, 9223373686122217472, 6), (111 + f32::INVALID_FP, 9223373686122217472) ); assert_eq!( compute_error_scaled32(-10, 9223374235878031360, 6), (111 + f32::INVALID_FP, 9223374235878031360) ); } #[test] fn compute_error_scaled64_test() { // These are the same examples above, just using pre-computed scaled values. // These test near-halfway cases for double-precision floats. assert_eq!( compute_error_scaled64(0, 4611686018427387904, 10), (1065 + f64::INVALID_FP, 9223372036854775808) ); assert_eq!( compute_error_scaled64(0, 4611686018427388416, 10), (1065 + f64::INVALID_FP, 9223372036854776832) ); assert_eq!( compute_error_scaled64(0, 4611686018427388928, 10), (1065 + f64::INVALID_FP, 9223372036854777856) ); assert_eq!( compute_error_scaled64(0, 4611686018427389440, 10), (1065 + f64::INVALID_FP, 9223372036854778880) ); assert_eq!( compute_error_scaled64(0, 4611686018427389952, 10), (1065 + f64::INVALID_FP, 9223372036854779904) ); assert_eq!( compute_error_scaled64(0, 4611686018427387904, 9), (1066 + f64::INVALID_FP, 9223372036854775808) ); assert_eq!( compute_error_scaled64(0, 4611686018427388416, 9), (1066 + f64::INVALID_FP, 9223372036854776832) ); assert_eq!( compute_error_scaled64(0, 4611686018427388928, 9), (1066 + f64::INVALID_FP, 9223372036854777856) ); assert_eq!( compute_error_scaled64(0, 4611686018427389440, 9), (1066 + f64::INVALID_FP, 9223372036854778880) ); assert_eq!( compute_error_scaled64(0, 4611686018427389952, 9), (1066 + f64::INVALID_FP, 9223372036854779904) ); // Test a much closer set of examples. assert_eq!( compute_error_scaled64(0, 9223372036854774784, 11), (1064 + f64::INVALID_FP, 18446744073709549568) ); assert_eq!( compute_error_scaled64(0, 4611686018427388415, 0), (1075 + f64::INVALID_FP, 9223372036854776830) ); assert_eq!( compute_error_scaled64(0, 4611686018427388416, 0), (1075 + f64::INVALID_FP, 9223372036854776832) ); assert_eq!( compute_error_scaled64(0, 4611686018427388416, 0), (1075 + f64::INVALID_FP, 9223372036854776832) ); assert_eq!( compute_error_scaled64(-42, 6510716281765748947, 10), (925 + f64::INVALID_FP, 13021432563531497894) ); assert_eq!( compute_error_scaled64(-43, 6510716281765749303, 7), (925 + f64::INVALID_FP, 13021432563531498606) ); assert_eq!( compute_error_scaled64(-42, 6510716281765749660, 10), (925 + f64::INVALID_FP, 13021432563531499320) ); // These are examples of the above tests, with // digits from the exponent shifted to the mantissa. assert_eq!( compute_error_scaled64(-3, 9223372036854775808, 1), (1065 + f64::INVALID_FP, 9223372036854775808) ); assert_eq!( compute_error_scaled64(-3, 9223372036854776832, 1), (1065 + f64::INVALID_FP, 9223372036854776832) ); assert_eq!( compute_error_scaled64(-3, 9223372036854777856, 1), (1065 + f64::INVALID_FP, 9223372036854777856) ); assert_eq!( compute_error_scaled64(-3, 9223372036854778880, 1), (1065 + f64::INVALID_FP, 9223372036854778880) ); assert_eq!( compute_error_scaled64(-3, 9223372036854779904, 1), (1065 + f64::INVALID_FP, 9223372036854779904) ); // Test from errors in atof. assert_eq!( compute_error_scaled64(-18, 9223373686122217470, 4), (1012 + f64::INVALID_FP, 9223373686122217470) ); // Check edge-cases from previous errors. assert_eq!( compute_error_scaled64(-342, 9223372036854775804, 2), (-64 + f64::INVALID_FP, 18446744073709551608) ); } #[test] fn compute_float_f32_rounding() { // These test near-halfway cases for single-precision floats. assert_eq!(compute_float32(0, 16777216), (151, 0)); assert_eq!(compute_float32(0, 16777217), (151, 0)); assert_eq!(compute_float32(0, 16777218), (151, 1)); assert_eq!(compute_float32(0, 16777219), (151, 2)); assert_eq!(compute_float32(0, 16777220), (151, 2)); // These are examples of the above tests, with // digits from the exponent shifted to the mantissa. assert_eq!(compute_float32(-10, 167772160000000000), (151, 0)); assert_eq!(compute_float32(-10, 167772170000000000), (151, 0)); assert_eq!(compute_float32(-10, 167772180000000000), (151, 1)); // Let's check the lines to see if anything is different in table... assert_eq!(compute_float32(-10, 167772190000000000), (151, 2)); assert_eq!(compute_float32(-10, 167772200000000000), (151, 2)); } #[test] fn compute_float_f64_rounding() { // Also need to check halfway cases **inside** that exponent range. // These test near-halfway cases for double-precision floats. assert_eq!(compute_float64(0, 9007199254740992), (1076, 0)); assert_eq!(compute_float64(0, 9007199254740993), (1076, 0)); assert_eq!(compute_float64(0, 9007199254740994), (1076, 1)); assert_eq!(compute_float64(0, 9007199254740995), (1076, 2)); assert_eq!(compute_float64(0, 9007199254740996), (1076, 2)); assert_eq!(compute_float64(0, 18014398509481984), (1077, 0)); assert_eq!(compute_float64(0, 18014398509481986), (1077, 0)); assert_eq!(compute_float64(0, 18014398509481988), (1077, 1)); assert_eq!(compute_float64(0, 18014398509481990), (1077, 2)); assert_eq!(compute_float64(0, 18014398509481992), (1077, 2)); // Test a much closer set of examples. assert_eq!(compute_float64(0, 9007199254740991), (1075, 4503599627370495)); assert_eq!(compute_float64(0, 9223372036854776831), (1086, 0)); assert_eq!(compute_float64(0, 9223372036854776832), (1086, 0)); assert_eq!(compute_float64(0, 9223372036854776833), (1086, 1)); assert_eq!(compute_float64(-42, 9123456727292927), (936, 1854521741541368)); assert_eq!(compute_float64(-43, 91234567272929275), (936, 1854521741541369)); assert_eq!(compute_float64(-42, 9123456727292928), (936, 1854521741541369)); // These are examples of the above tests, with // digits from the exponent shifted to the mantissa. assert_eq!(compute_float64(-3, 9007199254740992000), (1076, 0)); assert_eq!(compute_float64(-3, 9007199254740993000), (1076, 0)); assert_eq!(compute_float64(-3, 9007199254740994000), (1076, 1)); assert_eq!(compute_float64(-3, 9007199254740995000), (1076, 2)); assert_eq!(compute_float64(-3, 9007199254740996000), (1076, 2)); }