ref: c8a5f3d79cd198facac5491f20249f6945db62b9
dir: /lib/std/test/fltfmt.myr/
use std use testr use math const main = { math.fptrap(false) testr.run([ [.name = "put0", .fn = put0], [.name = "putNaN", .fn = putNaN], [.name = "putInf", .fn = putInf], [.name = "putinteger", .fn = putinteger], [.name = "putlowprec", .fn = putlowprec], [.name = "padding", .fn = padding], [.name = "sigfigs", .fn = sigfigs], [.name = "scientific01", .fn = scientific01], [.name = "scientific02", .fn = scientific02], ][:]) } const put0 = {c var f : flt32 = 0.0 var g : flt64 = 0.0 testr.check(c, std.eq(std.fmt("f is {}", f), "f is 0.0"), "0.0 should format to \"0.0\"") testr.check(c, std.eq(std.fmt("g is {}", g), "g is 0.0"), "0.0 should format to \"0.0\"") } const putNaN = {c var f : flt32 = std.flt32nan() var g : flt64 = std.flt64nan() var f2 : flt32 = std.flt32frombits(0x7fc00ab0) var g2 : flt64 = std.flt64frombits(0x7ff800000000abc0) testr.check(c, std.eq(std.fmt("f is {}", f), "f is NaN"), "NaN should format to \"NaN\"") testr.check(c, std.eq(std.fmt("g is {}", g), "g is NaN"), "NaN should format to \"NaN\"") testr.check(c, std.eq(std.fmt("f2 is {}", f2), "f2 is NaN"), "alt NaN should format to \"NaN\"") testr.check(c, std.eq(std.fmt("g2 is {}", g2), "g2 is NaN"), "alt NaN should format to \"NaN\"") } const putInf = {c var f : flt32 = std.flt32inf() var g : flt64 = std.flt64inf() testr.check(c, std.eq(std.fmt("f is {}", f), "f is Inf"), "Inf should format to \"Inf\"") testr.check(c, std.eq(std.fmt("g is {}", g), "g is Inf"), "Inf should format to \"Inf\"") f *= -1.0 g *= -1.0 testr.check(c, std.eq(std.fmt("f is {}", f), "f is -Inf"), "-Inf should format to \"-Inf\"") testr.check(c, std.eq(std.fmt("g is {}", g), "g is -Inf"), "-Inf should format to \"-Inf\"") } const putinteger = {c var data : (int, byte[:])[:] = [ (1, "1.0"), (2, "2.0"), (184, "184.0"), (-37, "-37.0") ][:] for (f, exp) : data var f32 : flt32 = (f : flt32) var f64 : flt64 = (f : flt64) var act32 : byte[:] = std.fmt("{}", f32) var act64 : byte[:] = std.fmt("{}", f64) testr.check(c, std.eq(act32, exp), "{} should format [flt32] to \"{}\", was \"{}\"", f, exp, act32) testr.check(c, std.eq(act64, exp), "{} should format [flt64] to \"{}\", was \"{}\"", f, exp, act64) ;; } const putlowprec = {c var data : (flt64, byte[:])[:] = [ (1.5, "1.5"), (0.0025, "0.0025"), (4.25, "4.25"), (-229.25, "-229.25") ][:] for (f, exp) : data var f32 : flt32 = (f : flt32) var f64 : flt64 = (f : flt64) var act32 : byte[:] = std.fmt("{}", f32) var act64 : byte[:] = std.fmt("{}", f64) testr.check(c, std.eq(act32, exp), "{} should format [flt32] to \"{}\", was \"{}\"", f, exp, act32) testr.check(c, std.eq(act64, exp), "{} should format [flt64] to \"{}\", was \"{}\"", f, exp, act64) ;; } const padding = {c var exp, act var f32 : flt32 var f64 : flt64 f32 = 1.0 exp = "XXXX1.0" act = std.fmt("{w=7,p=X}", f32) testr.check(c, std.eq(exp, act), "{} should format [flt32] to \"{}\", was \"{}\"", f32, exp, act) f64 = 1.0 exp = "XXXX1.0" act = std.fmt("{w=7,p=X}", f64) testr.check(c, std.eq(exp, act), "{} should format [flt64] to \"{}\", was \"{}\"", f64, exp, act) f32 = -2.5 exp = "YYYYYY-2.5" act = std.fmt("{w=10,p=Y}", f32) testr.check(c, std.eq(exp, act), "{} should format [flt32] to \"{}\", was \"{}\"", f32, exp, act) f64 = -100000.5 exp = "-100000.5" act = std.fmt("{w=9,p=Y}", f64) testr.check(c, std.eq(exp, act), "{} should format [flt64] to \"{}\", was \"{}\"", f64, exp, act) f32 = -13.25 exp = "-013.25" act = std.fmt("{w=7,p=0}", f32) testr.check(c, std.eq(exp, act), "{} should format [flt32] to \"{}\", was \"{}\"", f32, exp, act) f32 = -1.0 * std.flt32inf() exp = "0000000-Inf" act = std.fmt("{w=11,p=0}", f32) testr.check(c, std.eq(exp, act), "{} should format [flt32] to \"{}\", was \"{}\"", f32, exp, act) f64 = std.flt64nan() exp = " NaN" act = std.fmt("{w=18,p= }", f64) testr.check(c, std.eq(exp, act), "{} should format [flt64] to \"{}\", was \"{}\"", f64, exp, act) } const sigfigs = {c var exp, act var f32 : flt32 var f64 : flt64 f32 = 9.1234 exp = "9.12" act = std.fmt("{s=3}", f32) testr.check(c, std.eq(exp, act), "{} should format [flt32] to \"{}\", was \"{}\"", f32, exp, act) f64 = 19.1234 exp = "19.123" act = std.fmt("{s=5}", f64) testr.check(c, std.eq(exp, act), "{} should format [flt64] to \"{}\", was \"{}\"", f64, exp, act) f64 = 104.9 exp = "100.0" act = std.fmt("{s=2}", f64) testr.check(c, std.eq(exp, act), "{} should format [flt64] to \"{}\", was \"{}\"", f64, exp, act) f64 = 105.1 exp = "110.0" act = std.fmt("{s=2}", f64) testr.check(c, std.eq(exp, act), "{} should format [flt64] to \"{}\", was \"{}\"", f64, exp, act) f64 = 12345.6789 exp = "12345.67890000000000000000000000000000000" act = std.fmt("{s=40}", f64) testr.check(c, std.eq(exp, act), "{} should format [flt64] to \"{}\", was \"{}\"", f64, exp, act) f64 = 12345.6789 exp = "12345.679" act = std.fmt("{s=8}", f64) testr.check(c, std.eq(exp, act), "{} should format [flt64] to \"{}\", was \"{}\"", f64, exp, act) f32 = -13.49 exp = "-13.5" act = std.fmt("{s=3}", f32) testr.check(c, std.eq(exp, act), "{} should format [flt32] to \"{}\", was \"{}\"", f32, exp, act) f32 = -13.53 exp = "-13.5" act = std.fmt("{s=3}", f32) testr.check(c, std.eq(exp, act), "{} should format [flt32] to \"{}\", was \"{}\"", f32, exp, act) f32 = -13.53 exp = "-10.0" act = std.fmt("{s=-23}", f32) testr.check(c, std.eq(exp, act), "{} should format [flt32] to \"{}\", was \"{}\"", f32, exp, act) f64 = 99.999 exp = "100.0" act = std.fmt("{s=2}", f64) testr.check(c, std.eq(exp, act), "{} should format [flt64] to \"{}\", was \"{}\"", f64, exp, act) } const scientific01 = {c var exp, act var f32 : flt32 var f64 : flt64 f32 = 9.125 exp = "9.125e0" act = std.fmt("{e}", f32) testr.check(c, std.eq(exp, act), "{} should format [flt32] to \"{}\", was \"{}\"", f32, exp, act) f32 = -9.125 exp = "-9.125e0" act = std.fmt("{e}", f32) testr.check(c, std.eq(exp, act), "{} should format [flt32] to \"{}\", was \"{}\"", f32, exp, act) f32 = 101.25 exp = "1.0125e2" act = std.fmt("{e}", f32) testr.check(c, std.eq(exp, act), "{} should format [flt32] to \"{}\", was \"{}\"", f32, exp, act) f64 = 0.000345 exp = "3.45e-4" act = std.fmt("{e}", f64) testr.check(c, std.eq(exp, act), "{} should format [flt64] to \"{}\", was \"{}\"", f64, exp, act) f64 = 0.0 exp = "0.0e0" act = std.fmt("{e}", f64) testr.check(c, std.eq(exp, act), "{} should format [flt64] to \"{}\", was \"{}\"", f64, exp, act) } const scientific02 = {c var inputs : (uint32, byte[:])[:] = [ (0x00006b2e, "3.845e-41"), (0x0000001a, "3.600e-44"), (0xb806801a, "-3.207e-5"), (0x865c1e25, "-4.140e-35"), (0x8f0e27a7, "-7.009e-30"), (0x1981f861, "1.344e-23"), (0xfc00ebc4, "-2.678e36"), (0xffe3ee67, "NaN"), (0x2beaaea1, "1.668e-12"), (0x2899fbf7, "1.710e-14"), (0x64807020, "1.895e22"), (0x397908de, "2.375e-4"), (0x43cf5761, "4.147e2"), (0xe8dade34, "-8.269e24"), (0xdb42028a, "-5.461e16"), (0xcb0dc6d9, "-9.291e6"), (0xfe788727, "-8.259e37"), (0x204d51af, "1.739e-19"), (0xaceb03c8, "-6.680e-12"), (0x62936772, "1.360e21"), (0x01d04ef3, "7.652e-38"), (0x096f9939, "2.884e-33"), (0x554393e6, "1.344e13"), (0x7d569963, "1.783e37"), (0x7dab27eb, "2.844e37"), (0xa82adb2a, "-9.484e-15"), (0xef3c547e, "-5.829e28"), (0x3f037508, "5.135e-1"), (0x35f91ece, "1.856e-6"), (0x64038c7d, "9.707e21"), (0xa7014df5, "-1.794e-15"), (0x00000001, "1.000e-45"), (0x00000002, "3.000e-45"), (0x142d3a25, "8.746e-27"), (0xf40956cc, "-4.352e31"), (0xcf94a73b, "-4.988e9"), (0x8a5b4e0a, "-1.056e-32"), (0x6099c9f8, "8.865e19"), (0x999901e9, "-1.582e-23"), (0x104d5fdf, "4.050e-29"), (0x53994694, "1.317e12"), (0xba0ffdd6, "-5.493e-4"), (0x566478f7, "6.280e13"), (0xc828393e, "-1.723e5"), (0x35e78756, "1.725e-6"), (0x8a7cc67a, "-1.217e-32"), (0xe5eac57c, "-1.386e23"), (0xba198513, "-5.856e-4"), (0x912dced2, "-1.371e-28"), (0x62ceeff6, "1.909e21"), (0xc319fddf, "-1.540e2"), (0x8d84f7de, "-8.195e-31"), (0xf9789b3a, "-8.068e34"), (0xffe0458a, "NaN"), (0xa447b8cb, "-4.331e-17"), (0xe78db907, "-1.339e24"), (0x5b9ddc70, "8.887e16"), (0x1e1135d1, "7.687e-21"), (0x1092b9bc, "5.787e-29"), (0x1fdaec1e, "9.272e-20"), (0xfd481782, "-1.662e37"), (0x0a6f575b, "1.152e-32"), (0x11f9b948, "3.940e-28"), (0x97a2e4ee, "-1.053e-24"), (0xc427eede, "-6.717e2"), (0x6841cbee, "3.661e24"), (0x0fbe8791, "1.879e-29"), (0x9b1deb6b, "-1.306e-22"), (0x380c6359, "3.347e-5"), (0xddc24e30, "-1.750e18"), (0x306b3607, "8.557e-10"), (0x646de701, "1.755e22"), (0x4b4c8fea, "1.341e7"), (0x12633040, "7.169e-28"), (0xa2e27952, "-6.139e-18"), (0x48daa5a6, "4.478e5"), (0x5c19903e, "1.729e17"), (0x1497718b, "1.529e-26"), (0x888e7d7c, "-8.576e-34"), (0x0f6b694a, "1.161e-29"), (0xf6e7ac5f, "-2.349e33"), (0x9686921a, "-2.174e-25"), (0xcfbec790, "-6.401e9"), (0x1e8da64f, "1.500e-20"), (0xd903e53a, "-2.320e15"), (0x15d49a09, "8.587e-26"), (0x203eedc3, "1.617e-19"), (0xdba9f019, "-9.567e16"), (0x8bc93716, "-7.751e-32"), (0x5bbcf273, "1.064e17"), (0xa449bd7a, "-4.375e-17"), (0x2c75c7ac, "3.493e-12"), (0x85f83a6b, "-2.334e-35"), (0x4cdf6322, "1.171e8"), (0x490b5e87, "5.709e5"), (0xb49a38f4, "-2.873e-7"), (0x14eecf83, "2.411e-26"), (0xaddd8c33, "-2.519e-11"), (0x0b4ca7de, "3.942e-32"), (0x8cba7b11, "-2.873e-31"), (0x3a4c41c4, "7.792e-4"), (0x0d13e993, "4.558e-31"), (0xd84bbda9, "-8.961e14"), (0x5aa23a32, "2.283e16"), (0xf20deb5d, "-2.811e30"), (0x62cccc86, "1.889e21"), (0x20ba0821, "3.152e-19"), (0x23c40663, "2.125e-17"), (0x8ef7d8b1, "-6.110e-30"), (0x253c173c, "1.631e-16"), (0xe2d8fe86, "-2.001e21"), (0x2e31df38, "4.044e-11"), (0x563dcd40, "5.217e13"), (0x78c75eff, "3.235e34"), (0x9480ba67, "-1.300e-26"), (0xd4900806, "-4.949e12"), (0x8fb3cb79, "-1.773e-29"), (0xf76ea58f, "-4.840e33"), (0x18ce7442, "5.337e-24"), (0x925f1cd6, "-7.040e-28"), (0x1fcbbe53, "8.629e-20"), (0x723be188, "3.721e30"), (0xa01bf8c6, "-1.321e-19"), (0xc034d668, "-2.826e0"), (0xa983e3c2, "-5.857e-14"), (0xf3d52e40, "-3.378e31"), (0x64435bc6, "1.441e22"), (0xb9b06c80, "-3.365e-4"), (0x90ba67c2, "-7.352e-29"), (0x17620ab6, "7.304e-25"), (0x93e2bd8a, "-5.724e-27"), (0xfe53a8b1, "-7.034e37"), (0x856df9d0, "-1.119e-35"), (0x773f393f, "3.878e33"), (0x10231748, "3.216e-29"), (0x68a2b99a, "6.148e24"), (0x57e0d3bc, "4.944e14"), (0x5eb4cd0d, "6.514e18"), (0xf7593e1d, "-4.406e33"), (0x9a200d02, "-3.310e-23"), (0x8f50d4f1, "-1.030e-29"), (0x6a39a779, "5.611e25"), (0x57b438d9, "3.963e14"), (0x8adc8f39, "-2.124e-32"), (0xa5ce9605, "-3.584e-16"), (0xa64fbd28, "-7.207e-16"), (0x07d505a4, "3.205e-34"), (0x88e15708, "-1.356e-33"), (0x871a5d45, "-1.161e-34"), (0x3bb2c09c, "5.455e-3"), (0xda05263b, "-9.370e15"), (0x6e637d4a, "1.760e28"), (0xf001136a, "-1.598e29"), (0x89399e5a, "-2.234e-33"), (0x57d88a36, "4.762e14"), (0x48625a24, "2.318e5"), (0x469861fc, "1.950e4"), (0xe2dfa9ef, "-2.063e21"), (0xb30edce0, "-3.326e-8"), (0x4cf5612c, "1.286e8"), (0xdb41cead, "-5.455e16"), (0xe9eaf854, "-3.551e25"), (0x507b8568, "1.688e10"), (0x6785fae6, "1.265e24"), (0x0a36ba3c, "8.798e-33"), (0x3dbc3e38, "9.192e-2"), (0x4a3d3834, "3.100e6"), (0x09ebc2d8, "5.676e-33"), (0x2cf0fcdd, "6.849e-12"), (0xb2452cfb, "-1.148e-8"), (0xa25e17b3, "-3.010e-18"), (0x2d9bd504, "1.772e-11"), (0x8afb1ff3, "-2.418e-32"), (0xccb86e05, "-9.669e7"), (0xa2bbd81e, "-5.092e-18"), (0xd99a0fda, "-5.421e15"), (0x026f37f5, "1.758e-37"), ][:] for (u, exp) : inputs var act : byte[:] = std.fmt("{e,s=4}", std.flt32frombits(u)) testr.check(c, std.eq(exp, act), "0x{x,w=8,p=0} = {} should format to \"{}\", was \"{}\"", u, std.flt32frombits(u), exp, act) ;; }