コード例 #1
0
ファイル: example_test.go プロジェクト: andradeandrey/go-ipfs
func ExampleTemplate() {

	const letter = `
Dear {{.Name}},
{{if .Attended}}
It was a pleasure to see you at the wedding.{{else}}
It is a shame you couldn't make it to the wedding.{{end}}
{{with .Gift}}Thank you for the lovely {{.}}.
{{end}}
Best wishes,
Josie
`

	// Prepare some data to insert into the template.
	type Recipient struct {
		Name, Gift string
		Attended   bool
	}
	var recipients = []Recipient{
		{"Aunt Mildred", "bone china tea set", true},
		{"Uncle John", "moleskin pants", false},
		{"Cousin Rodney", "", false},
	}

	// Create a new template and parse the letter into it.
	t := template.Must(template.New("letter").Parse(letter))

	// Execute the template for each recipient.
	for _, r := range recipients {
		err := t.Execute(os.Stdout, r)
		if err != nil {
			log.Println("executing template:", err)
		}
	}

	// Output:
	// Dear Aunt Mildred,
	//
	// It was a pleasure to see you at the wedding.
	// Thank you for the lovely bone china tea set.
	//
	// Best wishes,
	// Josie
	//
	// Dear Uncle John,
	//
	// It is a shame you couldn't make it to the wedding.
	// Thank you for the lovely moleskin pants.
	//
	// Best wishes,
	// Josie
	//
	// Dear Cousin Rodney,
	//
	// It is a shame you couldn't make it to the wedding.
	//
	// Best wishes,
	// Josie
}
コード例 #2
0
// This example demonstrates a custom function to process template text.
// It installs the strings.Title function and uses it to
// Make Title Text Look Good In Our Template's Output.
func ExampleTemplate_func() {
	// First we create a FuncMap with which to register the function.
	funcMap := template.FuncMap{
		// The name "title" is what the function will be called in the template text.
		"title": strings.Title,
	}

	// A simple template definition to test our function.
	// We print the input text several ways:
	// - the original
	// - title-cased
	// - title-cased and then printed with %q
	// - printed with %q and then title-cased.
	const templateText = `
Input: {{printf "%q" .}}
Output 0: {{title .}}
Output 1: {{title . | printf "%q"}}
Output 2: {{printf "%q" . | title}}
`

	// Create a template, add the function map, and parse the text.
	tmpl, err := template.New("titleTest").Funcs(funcMap).Parse(templateText)
	if err != nil {
		log.Fatalf("parsing: %s", err)
	}

	// Run the template to verify the output.
	err = tmpl.Execute(os.Stdout, "the go programming language")
	if err != nil {
		log.Fatalf("execution: %s", err)
	}

	// Output:
	// Input: "the go programming language"
	// Output 0: The Go Programming Language
	// Output 1: "The Go Programming Language"
	// Output 2: "The Go Programming Language"
}
コード例 #3
0
ファイル: usage.go プロジェクト: andradeandrey/go-ipfs
// UsageForContextWithTemplate is the base usage function. You generally don't need to use this.
func (a *Application) UsageForContextWithTemplate(context *ParseContext, indent int, tmpl string) error {
	width := guessWidth(a.writer)
	funcs := template.FuncMap{
		"Indent": func(level int) string {
			return strings.Repeat(" ", level*indent)
		},
		"Wrap": func(indent int, s string) string {
			buf := bytes.NewBuffer(nil)
			indentText := strings.Repeat(" ", indent)
			doc.ToText(buf, s, indentText, indentText, width)
			return buf.String()
		},
		"FormatFlag": formatFlag,
		"FlagsToTwoColumns": func(f []*FlagModel) [][2]string {
			rows := [][2]string{}
			haveShort := false
			for _, flag := range f {
				if flag.Short != 0 {
					haveShort = true
					break
				}
			}
			for _, flag := range f {
				if !flag.Hidden {
					rows = append(rows, [2]string{formatFlag(haveShort, flag), flag.Help})
				}
			}
			return rows
		},
		"RequiredFlags": func(f []*FlagModel) []*FlagModel {
			requiredFlags := []*FlagModel{}
			for _, flag := range f {
				if flag.Required == true {
					requiredFlags = append(requiredFlags, flag)
				}
			}
			return requiredFlags
		},
		"OptionalFlags": func(f []*FlagModel) []*FlagModel {
			optionalFlags := []*FlagModel{}
			for _, flag := range f {
				if flag.Required == false {
					optionalFlags = append(optionalFlags, flag)
				}
			}
			return optionalFlags
		},
		"ArgsToTwoColumns": func(a []*ArgModel) [][2]string {
			rows := [][2]string{}
			for _, arg := range a {
				s := "<" + arg.Name + ">"
				if !arg.Required {
					s = "[" + s + "]"
				}
				rows = append(rows, [2]string{s, arg.Help})
			}
			return rows
		},
		"FormatTwoColumns": func(rows [][2]string) string {
			buf := bytes.NewBuffer(nil)
			formatTwoColumns(buf, indent, indent, width, rows)
			return buf.String()
		},
		"FormatTwoColumnsWithIndent": func(rows [][2]string, indent, padding int) string {
			buf := bytes.NewBuffer(nil)
			formatTwoColumns(buf, indent, padding, width, rows)
			return buf.String()
		},
		"FormatAppUsage":     formatAppUsage,
		"FormatCommandUsage": formatCmdUsage,
		"IsCumulative": func(value Value) bool {
			_, ok := value.(remainderArg)
			return ok
		},
		"Char": func(c rune) string {
			return string(c)
		},
	}
	t, err := template.New("usage").Funcs(funcs).Parse(tmpl)
	if err != nil {
		return err
	}
	var selectedCommand *CmdModel
	if context.SelectedCommand != nil {
		selectedCommand = context.SelectedCommand.Model()
	}
	ctx := templateContext{
		App:   a.Model(),
		Width: width,
		Context: &templateParseContext{
			SelectedCommand: selectedCommand,
			FlagGroupModel:  context.flags.Model(),
			ArgGroupModel:   context.arguments.Model(),
		},
	}
	return t.Execute(a.writer, ctx)
}