// 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 datafmt import ( "fmt"; "strings"; "testing"; ) func parse(t *testing.T, form string, fmap FormatterMap) Format { f, err := Parse("", strings.Bytes(form), fmap); if err != nil { t.Errorf("Parse(%s): %v", form, err); return nil; } return f; } func verify(t *testing.T, f Format, expected string, args ...) { if f == nil { return // allow other tests to run } result := f.Sprint(args); if result != expected { t.Errorf( "result : `%s`\nexpected: `%s`\n\n", result, expected) } } func formatter(s *State, value interface{}, rule_name string) bool { switch rule_name { case "/": fmt.Fprintf(s, "%d %d %d", s.Pos().Line, s.LinePos().Column, s.Pos().Column); return true; case "blank": s.Write([]byte{' '}); return true; case "int": if value.(int)&1 == 0 { fmt.Fprint(s, "even ") } else { fmt.Fprint(s, "odd ") } return true; case "nil": return false case "testing.T": s.Write(strings.Bytes("testing.T")); return true; } panic("unreachable"); return false; } func TestCustomFormatters(t *testing.T) { fmap0 := FormatterMap{"/": formatter}; fmap1 := FormatterMap{"int": formatter, "blank": formatter, "nil": formatter}; fmap2 := FormatterMap{"testing.T": formatter}; f := parse(t, `int=`, fmap0); verify(t, f, ``, 1, 2, 3); f = parse(t, `int="#"`, nil); verify(t, f, `###`, 1, 2, 3); f = parse(t, `int="#";string="%s"`, fmap0); verify(t, f, "#1 0 1#1 0 7#1 0 13\n2 0 0foo2 0 8\n", 1, 2, 3, "\n", "foo", "\n"); f = parse(t, ``, fmap1); verify(t, f, `even odd even odd `, 0, 1, 2, 3); f = parse(t, `/ =@:blank; float="#"`, fmap1); verify(t, f, `# # #`, 0.0, 1.0, 2.0); f = parse(t, `float=@:nil`, fmap1); verify(t, f, ``, 0.0, 1.0, 2.0); f = parse(t, `testing "testing"; ptr=*`, fmap2); verify(t, f, `testing.T`, t); // TODO needs more tests } // ---------------------------------------------------------------------------- // Formatting of basic and simple composite types func check(t *testing.T, form, expected string, args ...) { f := parse(t, form, nil); if f == nil { return // allow other tests to run } result := f.Sprint(args); if result != expected { t.Errorf( "format : %s\nresult : `%s`\nexpected: `%s`\n\n", form, result, expected) } } func TestBasicTypes(t *testing.T) { check(t, ``, ``); check(t, `bool=":%v"`, `:true:false`, true, false); check(t, `int="%b %d %o 0x%x"`, `101010 42 52 0x2a`, 42); check(t, `int="%"`, `%`, 42); check(t, `int="%%"`, `%`, 42); check(t, `int="**%%**"`, `**%**`, 42); check(t, `int="%%%%%%"`, `%%%`, 42); check(t, `int="%%%d%%"`, `%42%`, 42); const i = -42; const is = `-42`; check(t, `int ="%d"`, is, i); check(t, `int8 ="%d"`, is, int8(i)); check(t, `int16="%d"`, is, int16(i)); check(t, `int32="%d"`, is, int32(i)); check(t, `int64="%d"`, is, int64(i)); const u = 42; const us = `42`; check(t, `uint ="%d"`, us, uint(u)); check(t, `uint8 ="%d"`, us, uint8(u)); check(t, `uint16="%d"`, us, uint16(u)); check(t, `uint32="%d"`, us, uint32(u)); check(t, `uint64="%d"`, us, uint64(u)); const f = 3.141592; const fs = `3.141592`; check(t, `float ="%g"`, fs, f); check(t, `float32="%g"`, fs, float32(f)); check(t, `float64="%g"`, fs, float64(f)); } func TestArrayTypes(t *testing.T) { var a0 [10]int; check(t, `array="array";`, `array`, a0); a1 := [...]int{1, 2, 3}; check(t, `array="array";`, `array`, a1); check(t, `array={*}; int="%d";`, `123`, a1); check(t, `array={* / ", "}; int="%d";`, `1, 2, 3`, a1); check(t, `array={* / *}; int="%d";`, `12233`, a1); a2 := []interface{}{42, "foo", 3.14}; check(t, `array={* / ", "}; interface=*; string="bar"; default="%v";`, `42, bar, 3.14`, a2); } func TestChanTypes(t *testing.T) { var c0 chan int; check(t, `chan="chan"`, `chan`, c0); c1 := make(chan int); go func() { c1 <- 42 }(); check(t, `chan="chan"`, `chan`, c1); // check(t, `chan=*`, `42`, c1); // reflection support for chans incomplete } func TestFuncTypes(t *testing.T) { var f0 func() int; check(t, `func="func"`, `func`, f0); f1 := func() int { return 42 }; check(t, `func="func"`, `func`, f1); // check(t, `func=*`, `42`, f1); // reflection support for funcs incomplete } func TestInterfaceTypes(t *testing.T) { var i0 interface{} check(t, `interface="interface"`, `interface`, i0); i0 = "foo"; check(t, `interface="interface"`, `interface`, i0); check(t, `interface=*; string="%s"`, `foo`, i0); } func TestMapTypes(t *testing.T) { var m0 map[string]int; check(t, `map="map"`, `map`, m0); m1 := map[string]int{}; check(t, `map="map"`, `map`, m1); // check(t, `map=*`, ``, m1); // reflection support for maps incomplete } func TestPointerTypes(t *testing.T) { var p0 *int; check(t, `ptr="ptr"`, `ptr`, p0); check(t, `ptr=*`, ``, p0); check(t, `ptr=*|"nil"`, `nil`, p0); x := 99991; p1 := &x; check(t, `ptr="ptr"`, `ptr`, p1); check(t, `ptr=*; int="%d"`, `99991`, p1); } func TestDefaultRule(t *testing.T) { check(t, `default="%v"`, `42foo3.14`, 42, "foo", 3.14); check(t, `default="%v"; int="%x"`, `abcdef`, 10, 11, 12, 13, 14, 15); check(t, `default="%v"; int="%x"`, `ab**ef`, 10, 11, "**", 14, 15); check(t, `default="%x"; int=@:default`, `abcdef`, 10, 11, 12, 13, 14, 15); } func TestGlobalSeparatorRule(t *testing.T) { check(t, `int="%d"; / ="-"`, `1-2-3-4`, 1, 2, 3, 4); check(t, `int="%x%x"; / ="*"`, `aa*aa`, 10, 10); } // ---------------------------------------------------------------------------- // Formatting of a struct type T1 struct { a int; } const F1 = `datafmt "datafmt";` `int = "%d";` `datafmt.T1 = "<" a ">";` func TestStruct1(t *testing.T) { check(t, F1, "<42>", T1{42}) } // ---------------------------------------------------------------------------- // Formatting of a struct with an optional field (ptr) type T2 struct { s string; p *T1; } const F2a = F1 + `string = "%s";` `ptr = *;` `datafmt.T2 = s ["-" p "-"];` const F2b = F1 + `string = "%s";` `ptr = *;` `datafmt.T2 = s ("-" p "-" | "empty");` func TestStruct2(t *testing.T) { check(t, F2a, "foo", T2{"foo", nil}); check(t, F2a, "bar-<17>-", T2{"bar", &T1{17}}); check(t, F2b, "fooempty", T2{"foo", nil}); } // ---------------------------------------------------------------------------- // Formatting of a struct with a repetitive field (slice) type T3 struct { s string; a []int; } const F3a = `datafmt "datafmt";` `default = "%v";` `array = *;` `datafmt.T3 = s {" " a a / ","};` const F3b = `datafmt "datafmt";` `int = "%d";` `string = "%s";` `array = *;` `nil = ;` `empty = *:nil;` `datafmt.T3 = s [a:empty ": " {a / "-"}]` func TestStruct3(t *testing.T) { check(t, F3a, "foo", T3{"foo", nil}); check(t, F3a, "foo 00, 11, 22", T3{"foo", []int{0, 1, 2}}); check(t, F3b, "bar", T3{"bar", nil}); check(t, F3b, "bal: 2-3-5", T3{"bal", []int{2, 3, 5}}); } // ---------------------------------------------------------------------------- // Formatting of a struct with alternative field type T4 struct { x *int; a []int; } const F4a = `datafmt "datafmt";` `int = "%d";` `ptr = *;` `array = *;` `nil = ;` `empty = *:nil;` `datafmt.T4 = "<" (x:empty x | "-") ">" ` const F4b = `datafmt "datafmt";` `int = "%d";` `ptr = *;` `array = *;` `nil = ;` `empty = *:nil;` `datafmt.T4 = "<" (a:empty {a / ", "} | "-") ">" ` func TestStruct4(t *testing.T) { x := 7; check(t, F4a, "<->", T4{nil, nil}); check(t, F4a, "<7>", T4{&x, nil}); check(t, F4b, "<->", T4{nil, nil}); check(t, F4b, "<2, 3, 7>", T4{nil, []int{2, 3, 7}}); } // ---------------------------------------------------------------------------- // Formatting a struct (documentation example) type Point struct { name string; x, y int; } const FPoint = `datafmt "datafmt";` `int = "%d";` `hexInt = "0x%x";` `string = "---%s---";` `datafmt.Point = name "{" x ", " y:hexInt "}";` func TestStructPoint(t *testing.T) { p := Point{"foo", 3, 15}; check(t, FPoint, "---foo---{3, 0xf}", p); } // ---------------------------------------------------------------------------- // Formatting a slice (documentation example) const FSlice = `int = "%b";` `array = { * / ", " }` func TestSlice(t *testing.T) { check(t, FSlice, "10, 11, 101, 111", []int{2, 3, 5, 7}) } // TODO add more tests