| // $G $D/$F.go && $L $F.$A && ./$A.out || echo BUG: bug120 |
| |
| // Copyright 2009 The Go Authors. All rights reserved. |
| // Use of this source code is governed by a BSD-style |
| // license that can be found in the LICENSE file. |
| |
| package main |
| |
| import "os" |
| import "strconv"; |
| |
| type Test struct { |
| f float64; |
| in string; |
| out string; |
| } |
| |
| var tests = []Test { |
| Test{ 123.5, "123.5", "123.5" }, |
| Test{ 456.7, "456.7", "456.7" }, |
| Test{ 1e23+8.5e6, "1e23+8.5e6", "1.0000000000000001e+23" }, |
| Test{ 100000000000000008388608, "100000000000000008388608", "1.0000000000000001e+23" }, |
| Test{ 1e23+8388609, "1e23+8388609", "1.0000000000000001e+23" }, |
| |
| // "x" = the floating point value from converting the string x. |
| // These are exactly representable in 64-bit floating point: |
| // 1e23-8388608 |
| // 1e23+8388608 |
| // The former has an even mantissa, so "1e23" rounds to 1e23-8388608. |
| // If "1e23+8388608" is implemented as "1e23" + "8388608", |
| // that ends up computing 1e23-8388608 + 8388608 = 1e23, |
| // which rounds back to 1e23-8388608. |
| // The correct answer, of course, would be "1e23+8388608" = 1e23+8388608. |
| // This is not going to be correct until 6g has multiprecision floating point. |
| // A simpler case is "1e23+1", which should also round to 1e23+8388608. |
| Test{ 1e23+8.388608e6, "1e23+8.388608e6", "1.0000000000000001e+23" }, |
| Test{ 1e23+1, "1e23+1", "1.0000000000000001e+23" }, |
| } |
| |
| func main() { |
| ok := true; |
| for i := 0; i < len(tests); i++ { |
| t := tests[i]; |
| v := strconv.Ftoa64(t.f, 'g', -1); |
| if v != t.out { |
| println("Bad float64 const:", t.in, "want", t.out, "got", v); |
| x, err := strconv.Atof64(t.out); |
| if err != nil { |
| panicln("bug120: strconv.Atof64", t.out); |
| } |
| println("\twant exact:", strconv.Ftoa64(x, 'g', 1000)); |
| println("\tgot exact: ", strconv.Ftoa64(t.f, 'g', 1000)); |
| ok = false; |
| } |
| } |
| if !ok { |
| os.Exit(1); |
| } |
| } |