ref: bfc9204963426bf0e8121b416458550b8f2616ad
dir: /lib/std/test/fltparse.myr/
use std use testr const main = { var si testr.run([ /* 64 bit tests */ [.name="flt64-intzero", .fn={ctx; is64(ctx, "0", 0.0)}], [.name="flt64-floatzero", .fn={ctx; is64(ctx, "0.0", 0.0)}], [.name="flt64-expzero", .fn={ctx; is64(ctx, "0.0e10", 0.0)}], [.name="flt64-negzero", .fn={ctx; is64(ctx, "-0.0e10", -0.0)}], [.name="flt64-smallint", .fn={ctx; is64(ctx, "123", 123.0)}], [.name="flt64-negsmallint", .fn={ctx; is64(ctx, "-123", -123.0)}], [.name="flt64-neednext", .fn={ctx; is64(ctx, "1.2332", 1.2332)}], [.name="flt64-dblmax", .fn={ctx; is64(ctx, "1.7976931348623157e308", 1.7976931348623157e308)}], [.name="flt64-toobig", .fn={ctx; is64(ctx, "17.976931348623157e308", std.flt64inf())}], [.name="flt64-exptoobig", .fn={ctx; is64(ctx, "1.7976931348623157e309", std.flt64inf())}], /* 32 bit tests */ [.name="flt32-intzero", .fn={ctx; is32(ctx, "0", 0.0)}], [.name="flt32-floatzero", .fn={ctx; is32(ctx, "0.0", 0.0)}], [.name="flt32-expzero", .fn={ctx; is32(ctx, "0.0e10", 0.0)}], [.name="flt32-negzero", .fn={ctx; is32(ctx, "-0.0e10", -0.0)}], [.name="flt32-smallint", .fn={ctx; is32(ctx, "123", 123.0)}], [.name="flt32-negsmallint", .fn={ctx; is32(ctx, "-123", -123.0)}], [.name="flt32-neednext", .fn={ctx; is32(ctx, "1.2332", 1.2332)}], [.name="flt32-dblmax", .fn={ctx; is32(ctx, "3.40282346638528860e+38", 3.40282346638528860e+38)}], [.name="flt32-toobig", .fn={ctx; is32(ctx, "34.0282346638528860e+38", std.flt32inf())}], [.name="flt32-exptoobig", .fn={ctx; is32(ctx, "3.40282346638528860e+39", std.flt32inf())}], /* test bad parses */ [.name="badfmt-empty", .fn={ctx; isjunk(ctx, "")}], [.name="badfmt-twodot", .fn={ctx; isjunk(ctx, "1.2.3")}], [.name="badfmt-badexp", .fn={ctx; isjunk(ctx, "1.2ee3")}], ][:]) /* skip the test for denormalized values on 9front; the APE float parser returns denormalized values as 0, which means that we get a spurious failure. */ std.getsysinfo(&si) match si.system | "Plan9": | _: testr.run([ [.name="flt64-denorm", .fn={ctx; is64(ctx, "2.2250738585072014e-311", 2.2250738585072014e-311)}], ][:]) ;; } const is64 = {ctx, str, val match std.flt64parse(str) | `std.Some f: testr.check(ctx, f == val, "mismatch: {} (from {}) != {}\n", f, str, val) | `std.None: testr.fail(ctx, "unable to parse float from {}\n", str) ;; } const is32 = {ctx, str, val match std.flt32parse(str) | `std.Some f: testr.check(ctx, f == val, "mismatch: {} (from {}) != {}\n", f, str, val) | `std.None: testr.fail(ctx, "unable to parse float from {}\n", str) ;; } const isjunk = {ctx, str match std.flt64parse(str) | `std.Some f: testr.fail(ctx, "misparse: should have failed on {}, got {}\n", str, f) | `std.None: /* all ok */ ;; }