Documentation ¶
Index ¶
- Constants
- Variables
- func DisableColors()
- func EnableColors()
- func Escape(str string, escapeSeq string) string
- func Filter(s []string, f func(string) bool) []string
- func InsertEveryN(str string, runeToInsert rune, n int) string
- func LongestLineLen(str string) int
- func Pad(str string, maxLen int, paddingChar rune) string
- func RepeatAndTrim(str string, maxRunes int) string
- func RuneCount(str string) int
- func RuneWidth(r rune) int
- func Snip(str string, length int, snipIndicator string) string
- func StripEscape(str string) string
- func Trim(str string, maxLen int) string
- func WrapHard(str string, wrapLen int) string
- func WrapSoft(str string, wrapLen int) string
- func WrapText(str string, wrapLen int) string
- type Align
- type Color
- type Colors
- type Cursor
- type Format
- type Transformer
- func NewJSONTransformer(prefix string, indent string) Transformer
- func NewNumberTransformer(format string) Transformer
- func NewTimeTransformer(layout string, location *time.Location) Transformer
- func NewURLTransformer() Transformer
- func NewUnixTimeTransformer(layout string, location *time.Location) Transformer
- type VAlign
Examples ¶
- Align.Apply
- Align.HTMLProperty
- Align.MarkdownProperty
- Color.EscapeSeq
- Color.HTMLProperty
- Color.Sprint
- Color.Sprintf
- Colors.EscapeSeq
- Colors.HTMLProperty
- Colors.Sprint
- Colors.Sprintf
- Cursor.Sprint
- Cursor.Sprintn
- Escape
- Filter
- Format.Apply
- InsertEveryN
- LongestLineLen
- Pad
- RepeatAndTrim
- RuneCount
- RuneWidth
- Snip
- StripEscape
- Trim
- VAlign.Apply
- VAlign.ApplyStr
- VAlign.HTMLProperty
- WrapHard
- WrapSoft
- WrapText
Constants ¶
const ( EscapeReset = EscapeStart + "0" + EscapeStop EscapeStart = "\x1b[" EscapeStartRune = rune(27) // \x1b EscapeStop = "m" EscapeStopRune = 'm' )
Constants
Variables ¶
var ANSICodesSupported = areANSICodesSupported()
ANSICodesSupported will be true on consoles where ANSI Escape Codes/Sequences are supported.
Functions ¶
func DisableColors ¶
func DisableColors()
DisableColors (forcefully) disables color coding globally.
func Escape ¶
Escape encodes the string with the ANSI Escape Sequence. For ex.:
Escape("Ghost", "") == "Ghost" Escape("Ghost", "\x1b[91m") == "\x1b[91mGhost\x1b[0m" Escape("\x1b[94mGhost\x1b[0mLady", "\x1b[91m") == "\x1b[94mGhost\x1b[0m\x1b[91mLady\x1b[0m" Escape("Nymeria\x1b[94mGhost\x1b[0mLady", "\x1b[91m") == "\x1b[91mNymeria\x1b[94mGhost\x1b[0m\x1b[91mLady\x1b[0m" Escape("Nymeria \x1b[94mGhost\x1b[0m Lady", "\x1b[91m") == "\x1b[91mNymeria \x1b[94mGhost\x1b[0m\x1b[91m Lady\x1b[0m"
Example ¶
fmt.Printf("Escape(%#v, %#v) == %#v\n", "Ghost", "", Escape("Ghost", "")) fmt.Printf("Escape(%#v, %#v) == %#v\n", "Ghost", FgHiRed.EscapeSeq(), Escape("Ghost", FgHiRed.EscapeSeq())) fmt.Printf("Escape(%#v, %#v) == %#v\n", FgHiBlue.Sprint("Ghost")+"Lady", FgHiRed.EscapeSeq(), Escape(FgHiBlue.Sprint("Ghost")+"Lady", FgHiRed.EscapeSeq())) fmt.Printf("Escape(%#v, %#v) == %#v\n", "Nymeria"+FgHiBlue.Sprint("Ghost")+"Lady", FgHiRed.EscapeSeq(), Escape("Nymeria"+FgHiBlue.Sprint("Ghost")+"Lady", FgHiRed.EscapeSeq())) fmt.Printf("Escape(%#v, %#v) == %#v\n", "Nymeria "+FgHiBlue.Sprint("Ghost")+" Lady", FgHiRed.EscapeSeq(), Escape("Nymeria "+FgHiBlue.Sprint("Ghost")+" Lady", FgHiRed.EscapeSeq()))
Output: Escape("Ghost", "") == "Ghost" Escape("Ghost", "\x1b[91m") == "\x1b[91mGhost\x1b[0m" Escape("\x1b[94mGhost\x1b[0mLady", "\x1b[91m") == "\x1b[94mGhost\x1b[0m\x1b[91mLady\x1b[0m" Escape("Nymeria\x1b[94mGhost\x1b[0mLady", "\x1b[91m") == "\x1b[91mNymeria\x1b[94mGhost\x1b[0m\x1b[91mLady\x1b[0m" Escape("Nymeria \x1b[94mGhost\x1b[0m Lady", "\x1b[91m") == "\x1b[91mNymeria \x1b[94mGhost\x1b[0m\x1b[91m Lady\x1b[0m"
func Filter ¶
Filter filters the slice 's' to items which return truth when passed to 'f'.
Example ¶
slice := []string{"Arya Stark", "Bran Stark", "Jon Snow", "Sansa Stark"} filter := func(item string) bool { return strings.HasSuffix(item, "Stark") } fmt.Printf("%#v\n", Filter(slice, filter))
Output: []string{"Arya Stark", "Bran Stark", "Sansa Stark"}
func InsertEveryN ¶
InsertEveryN inserts the rune every N characters in the string. For ex.:
InsertEveryN("Ghost", '-', 1) == "G-h-o-s-t" InsertEveryN("Ghost", '-', 2) == "Gh-os-t" InsertEveryN("Ghost", '-', 3) == "Gho-st" InsertEveryN("Ghost", '-', 4) == "Ghos-t" InsertEveryN("Ghost", '-', 5) == "Ghost"
Example ¶
fmt.Printf("InsertEveryN(\"Ghost\", '-', 0): %#v\n", InsertEveryN("Ghost", '-', 0)) fmt.Printf("InsertEveryN(\"Ghost\", '-', 1): %#v\n", InsertEveryN("Ghost", '-', 1)) fmt.Printf("InsertEveryN(\"Ghost\", '-', 2): %#v\n", InsertEveryN("Ghost", '-', 2)) fmt.Printf("InsertEveryN(\"Ghost\", '-', 3): %#v\n", InsertEveryN("Ghost", '-', 3)) fmt.Printf("InsertEveryN(\"Ghost\", '-', 4): %#v\n", InsertEveryN("Ghost", '-', 4)) fmt.Printf("InsertEveryN(\"Ghost\", '-', 5): %#v\n", InsertEveryN("Ghost", '-', 5)) fmt.Printf("InsertEveryN(\"\\x1b[33mGhost\\x1b[0m\", '-', 0): %#v\n", InsertEveryN("\x1b[33mGhost\x1b[0m", '-', 0)) fmt.Printf("InsertEveryN(\"\\x1b[33mGhost\\x1b[0m\", '-', 1): %#v\n", InsertEveryN("\x1b[33mGhost\x1b[0m", '-', 1)) fmt.Printf("InsertEveryN(\"\\x1b[33mGhost\\x1b[0m\", '-', 2): %#v\n", InsertEveryN("\x1b[33mGhost\x1b[0m", '-', 2)) fmt.Printf("InsertEveryN(\"\\x1b[33mGhost\\x1b[0m\", '-', 3): %#v\n", InsertEveryN("\x1b[33mGhost\x1b[0m", '-', 3)) fmt.Printf("InsertEveryN(\"\\x1b[33mGhost\\x1b[0m\", '-', 4): %#v\n", InsertEveryN("\x1b[33mGhost\x1b[0m", '-', 4)) fmt.Printf("InsertEveryN(\"\\x1b[33mGhost\\x1b[0m\", '-', 5): %#v\n", InsertEveryN("\x1b[33mGhost\x1b[0m", '-', 5))
Output: InsertEveryN("Ghost", '-', 0): "Ghost" InsertEveryN("Ghost", '-', 1): "G-h-o-s-t" InsertEveryN("Ghost", '-', 2): "Gh-os-t" InsertEveryN("Ghost", '-', 3): "Gho-st" InsertEveryN("Ghost", '-', 4): "Ghos-t" InsertEveryN("Ghost", '-', 5): "Ghost" InsertEveryN("\x1b[33mGhost\x1b[0m", '-', 0): "\x1b[33mGhost\x1b[0m" InsertEveryN("\x1b[33mGhost\x1b[0m", '-', 1): "\x1b[33mG-h-o-s-t\x1b[0m" InsertEveryN("\x1b[33mGhost\x1b[0m", '-', 2): "\x1b[33mGh-os-t\x1b[0m" InsertEveryN("\x1b[33mGhost\x1b[0m", '-', 3): "\x1b[33mGho-st\x1b[0m" InsertEveryN("\x1b[33mGhost\x1b[0m", '-', 4): "\x1b[33mGhos-t\x1b[0m" InsertEveryN("\x1b[33mGhost\x1b[0m", '-', 5): "\x1b[33mGhost\x1b[0m"
func LongestLineLen ¶
LongestLineLen returns the length of the longest "line" within the argument string. For ex.:
LongestLineLen("Ghost!\nCome back here!\nRight now!") == 15
Example ¶
fmt.Printf("LongestLineLen(\"\"): %d\n", LongestLineLen("")) fmt.Printf("LongestLineLen(\"\\n\\n\"): %d\n", LongestLineLen("\n\n")) fmt.Printf("LongestLineLen(\"Ghost\"): %d\n", LongestLineLen("Ghost")) fmt.Printf("LongestLineLen(\"Ghostツ\"): %d\n", LongestLineLen("Ghostツ")) fmt.Printf("LongestLineLen(\"Winter\\nIs\\nComing\"): %d\n", LongestLineLen("Winter\nIs\nComing")) fmt.Printf("LongestLineLen(\"Mother\\nOf\\nDragons\"): %d\n", LongestLineLen("Mother\nOf\nDragons")) fmt.Printf("LongestLineLen(\"\\x1b[33mMother\\x1b[0m\\nOf\\nDragons\"): %d\n", LongestLineLen("\x1b[33mMother\x1b[0m\nOf\nDragons"))
Output: LongestLineLen(""): 0 LongestLineLen("\n\n"): 0 LongestLineLen("Ghost"): 5 LongestLineLen("Ghostツ"): 7 LongestLineLen("Winter\nIs\nComing"): 6 LongestLineLen("Mother\nOf\nDragons"): 7 LongestLineLen("\x1b[33mMother\x1b[0m\nOf\nDragons"): 7
func Pad ¶
Pad pads the given string with as many characters as needed to make it as long as specified (maxLen). This function does not count escape sequences while calculating length of the string. Ex.:
Pad("Ghost", 0, ' ') == "Ghost" Pad("Ghost", 3, ' ') == "Ghost" Pad("Ghost", 5, ' ') == "Ghost" Pad("Ghost", 7, ' ') == "Ghost " Pad("Ghost", 10, '.') == "Ghost....."
Example ¶
fmt.Printf("%#v\n", Pad("Ghost", 0, ' ')) fmt.Printf("%#v\n", Pad("Ghost", 3, ' ')) fmt.Printf("%#v\n", Pad("Ghost", 5, ' ')) fmt.Printf("%#v\n", Pad("\x1b[33mGhost\x1b[0m", 7, '-')) fmt.Printf("%#v\n", Pad("\x1b[33mGhost\x1b[0m", 10, '.'))
Output: "Ghost" "Ghost" "Ghost" "\x1b[33mGhost\x1b[0m--" "\x1b[33mGhost\x1b[0m....."
func RepeatAndTrim ¶
RepeatAndTrim repeats the given string until it is as long as maxRunes. For ex.:
RepeatAndTrim("Ghost", 0) == "" RepeatAndTrim("Ghost", 5) == "Ghost" RepeatAndTrim("Ghost", 7) == "GhostGh" RepeatAndTrim("Ghost", 10) == "GhostGhost"
Example ¶
fmt.Printf("RepeatAndTrim(\"Ghost\", 0): %#v\n", RepeatAndTrim("Ghost", 0)) fmt.Printf("RepeatAndTrim(\"Ghost\", 3): %#v\n", RepeatAndTrim("Ghost", 3)) fmt.Printf("RepeatAndTrim(\"Ghost\", 5): %#v\n", RepeatAndTrim("Ghost", 5)) fmt.Printf("RepeatAndTrim(\"Ghost\", 7): %#v\n", RepeatAndTrim("Ghost", 7)) fmt.Printf("RepeatAndTrim(\"Ghost\", 10): %#v\n", RepeatAndTrim("Ghost", 10))
Output: RepeatAndTrim("Ghost", 0): "" RepeatAndTrim("Ghost", 3): "Gho" RepeatAndTrim("Ghost", 5): "Ghost" RepeatAndTrim("Ghost", 7): "GhostGh" RepeatAndTrim("Ghost", 10): "GhostGhost"
func RuneCount ¶
RuneCount is similar to utf8.RuneCountInString, except for the fact that it ignores escape sequences while counting. For ex.:
RuneCount("") == 0 RuneCount("Ghost") == 5 RuneCount("\x1b[33mGhost\x1b[0m") == 5 RuneCount("\x1b[33mGhost\x1b[0") == 5
Example ¶
fmt.Printf("RuneCount(\"\"): %d\n", RuneCount("")) fmt.Printf("RuneCount(\"Ghost\"): %d\n", RuneCount("Ghost")) fmt.Printf("RuneCount(\"Ghostツ\"): %d\n", RuneCount("Ghostツ")) fmt.Printf("RuneCount(\"\\x1b[33mGhost\\x1b[0m\"): %d\n", RuneCount("\x1b[33mGhost\x1b[0m")) fmt.Printf("RuneCount(\"\\x1b[33mGhost\\x1b[0\"): %d\n", RuneCount("\x1b[33mGhost\x1b[0"))
Output: RuneCount(""): 0 RuneCount("Ghost"): 5 RuneCount("Ghostツ"): 7 RuneCount("\x1b[33mGhost\x1b[0m"): 5 RuneCount("\x1b[33mGhost\x1b[0"): 5
func RuneWidth ¶
RuneWidth returns the mostly accurate character-width of the rune. This is not 100% accurate as the character width is usually dependant on the typeface (font) used in the console/terminal. For ex.:
RuneWidth('A') == 1 RuneWidth('ツ') == 2 RuneWidth('⊙') == 1 RuneWidth('︿') == 2 RuneWidth(0x27) == 0
Example ¶
fmt.Printf("RuneWidth('A'): %d\n", RuneWidth('A')) fmt.Printf("RuneWidth('ツ'): %d\n", RuneWidth('ツ')) fmt.Printf("RuneWidth('⊙'): %d\n", RuneWidth('⊙')) fmt.Printf("RuneWidth('︿'): %d\n", RuneWidth('︿')) fmt.Printf("RuneWidth(rune(27)): %d\n", RuneWidth(rune(27))) // ANSI escape sequence
Output: RuneWidth('A'): 1 RuneWidth('ツ'): 2 RuneWidth('⊙'): 1 RuneWidth('︿'): 2 RuneWidth(rune(27)): 0
func Snip ¶
Snip returns the given string with a fixed length. For ex.:
Snip("Ghost", 0, "~") == "Ghost" Snip("Ghost", 1, "~") == "~" Snip("Ghost", 3, "~") == "Gh~" Snip("Ghost", 5, "~") == "Ghost" Snip("Ghost", 7, "~") == "Ghost " Snip("\x1b[33mGhost\x1b[0m", 7, "~") == "\x1b[33mGhost\x1b[0m "
Example ¶
fmt.Printf("Snip(\"Ghost\", 0, \"~\"): %#v\n", Snip("Ghost", 0, "~")) fmt.Printf("Snip(\"Ghost\", 1, \"~\"): %#v\n", Snip("Ghost", 1, "~")) fmt.Printf("Snip(\"Ghost\", 3, \"~\"): %#v\n", Snip("Ghost", 3, "~")) fmt.Printf("Snip(\"Ghost\", 5, \"~\"): %#v\n", Snip("Ghost", 5, "~")) fmt.Printf("Snip(\"Ghost\", 7, \"~\"): %#v\n", Snip("Ghost", 7, "~")) fmt.Printf("Snip(\"\\x1b[33mGhost\\x1b[0m\", 7, \"~\"): %#v\n", Snip("\x1b[33mGhost\x1b[0m", 7, "~"))
Output: Snip("Ghost", 0, "~"): "Ghost" Snip("Ghost", 1, "~"): "~" Snip("Ghost", 3, "~"): "Gh~" Snip("Ghost", 5, "~"): "Ghost" Snip("Ghost", 7, "~"): "Ghost" Snip("\x1b[33mGhost\x1b[0m", 7, "~"): "\x1b[33mGhost\x1b[0m"
func StripEscape ¶
StripEscape strips all ANSI Escape Sequence from the string. For ex.:
StripEscape("Ghost") == "Ghost" StripEscape("\x1b[91mGhost\x1b[0m") == "Ghost" StripEscape("\x1b[94mGhost\x1b[0m\x1b[91mLady\x1b[0m") == "GhostLady" StripEscape("\x1b[91mNymeria\x1b[94mGhost\x1b[0m\x1b[91mLady\x1b[0m") == "NymeriaGhostLady" StripEscape("\x1b[91mNymeria \x1b[94mGhost\x1b[0m\x1b[91m Lady\x1b[0m") == "Nymeria Ghost Lady"
Example ¶
fmt.Printf("StripEscape(%#v) == %#v\n", "Ghost", StripEscape("Ghost")) fmt.Printf("StripEscape(%#v) == %#v\n", "\x1b[91mGhost\x1b[0m", StripEscape("\x1b[91mGhost\x1b[0m")) fmt.Printf("StripEscape(%#v) == %#v\n", "\x1b[94mGhost\x1b[0m\x1b[91mLady\x1b[0m", StripEscape("\x1b[94mGhost\x1b[0m\x1b[91mLady\x1b[0m")) fmt.Printf("StripEscape(%#v) == %#v\n", "\x1b[91mNymeria\x1b[94mGhost\x1b[0m\x1b[91mLady\x1b[0m", StripEscape("\x1b[91mNymeria\x1b[94mGhost\x1b[0m\x1b[91mLady\x1b[0m")) fmt.Printf("StripEscape(%#v) == %#v\n", "\x1b[91mNymeria \x1b[94mGhost\x1b[0m\x1b[91m Lady\x1b[0m", StripEscape("\x1b[91mNymeria \x1b[94mGhost\x1b[0m\x1b[91m Lady\x1b[0m"))
Output: StripEscape("Ghost") == "Ghost" StripEscape("\x1b[91mGhost\x1b[0m") == "Ghost" StripEscape("\x1b[94mGhost\x1b[0m\x1b[91mLady\x1b[0m") == "GhostLady" StripEscape("\x1b[91mNymeria\x1b[94mGhost\x1b[0m\x1b[91mLady\x1b[0m") == "NymeriaGhostLady" StripEscape("\x1b[91mNymeria \x1b[94mGhost\x1b[0m\x1b[91m Lady\x1b[0m") == "Nymeria Ghost Lady"
func Trim ¶
Trim trims a string to the given length while ignoring escape sequences. For ex.:
Trim("Ghost", 3) == "Gho" Trim("Ghost", 6) == "Ghost" Trim("\x1b[33mGhost\x1b[0m", 3) == "\x1b[33mGho\x1b[0m" Trim("\x1b[33mGhost\x1b[0m", 6) == "\x1b[33mGhost\x1b[0m"
Example ¶
fmt.Printf("Trim(\"Ghost\", 0): %#v\n", Trim("Ghost", 0)) fmt.Printf("Trim(\"Ghost\", 3): %#v\n", Trim("Ghost", 3)) fmt.Printf("Trim(\"Ghost\", 6): %#v\n", Trim("Ghost", 6)) fmt.Printf("Trim(\"\\x1b[33mGhost\\x1b[0m\", 0): %#v\n", Trim("\x1b[33mGhost\x1b[0m", 0)) fmt.Printf("Trim(\"\\x1b[33mGhost\\x1b[0m\", 3): %#v\n", Trim("\x1b[33mGhost\x1b[0m", 3)) fmt.Printf("Trim(\"\\x1b[33mGhost\\x1b[0m\", 6): %#v\n", Trim("\x1b[33mGhost\x1b[0m", 6))
Output: Trim("Ghost", 0): "" Trim("Ghost", 3): "Gho" Trim("Ghost", 6): "Ghost" Trim("\x1b[33mGhost\x1b[0m", 0): "" Trim("\x1b[33mGhost\x1b[0m", 3): "\x1b[33mGho\x1b[0m" Trim("\x1b[33mGhost\x1b[0m", 6): "\x1b[33mGhost\x1b[0m"
func WrapHard ¶
WrapHard wraps a string to the given length using a newline. Handles strings with ANSI escape sequences (such as text color) without breaking the text formatting. Breaks all words that go beyond the line boundary.
For examples, refer to the unit-tests or GoDoc examples.
Example ¶
str := `The quick brown fox jumped over the lazy dog. A big crocodile died empty-fanged, gulping horribly in jerking kicking little motions. Nonchalant old Peter Quinn ruthlessly shot the under-water vermin with Xavier yelling Zap!` strWrapped := WrapHard(str, 30) for idx, line := range strings.Split(strWrapped, "\n") { fmt.Printf("Line #%02d: '%s'\n", idx+1, line) }
Output: Line #01: 'The quick brown fox jumped ove' Line #02: 'r the lazy dog.' Line #03: '' Line #04: 'A big crocodile died empty-fan' Line #05: 'ged, gulping horribly in jerki' Line #06: 'ng kicking little motions. Non' Line #07: 'chalant old Peter Quinn ruthle' Line #08: 'ssly shot the under-water verm' Line #09: 'in with Xavier yelling Zap!'
func WrapSoft ¶
WrapSoft wraps a string to the given length using a newline. Handles strings with ANSI escape sequences (such as text color) without breaking the text formatting. Tries to move words that go beyond the line boundary to the next line.
For examples, refer to the unit-tests or GoDoc examples.
Example ¶
str := `The quick brown fox jumped over the lazy dog. A big crocodile died empty-fanged, gulping horribly in jerking kicking little motions. Nonchalant old Peter Quinn ruthlessly shot the under-water vermin with Xavier yelling Zap!` strWrapped := WrapSoft(str, 30) for idx, line := range strings.Split(strWrapped, "\n") { fmt.Printf("Line #%02d: '%s'\n", idx+1, line) }
Output: Line #01: 'The quick brown fox jumped ' Line #02: 'over the lazy dog.' Line #03: '' Line #04: 'A big crocodile died ' Line #05: 'empty-fanged, gulping horribly' Line #06: 'in jerking kicking little ' Line #07: 'motions. Nonchalant old Peter ' Line #08: 'Quinn ruthlessly shot the ' Line #09: 'under-water vermin with Xavier' Line #10: 'yelling Zap!'
func WrapText ¶
WrapText is very similar to WrapHard except for one minor difference. Unlike WrapHard which discards line-breaks and respects only paragraph-breaks, this function respects line-breaks too.
For examples, refer to the unit-tests or GoDoc examples.
Example ¶
str := `The quick brown fox jumped over the lazy dog. A big crocodile died empty-fanged, gulping horribly in jerking kicking little motions. Nonchalant old Peter Quinn ruthlessly shot the under-water vermin with Xavier yelling Zap!` strWrapped := WrapText(str, 30) for idx, line := range strings.Split(strWrapped, "\n") { fmt.Printf("Line #%02d: '%s'\n", idx+1, line) }
Output: Line #01: 'The quick brown fox jumped ove' Line #02: 'r the lazy dog.' Line #03: '' Line #04: 'A big crocodile died empty-fan' Line #05: 'ged, gulping horribly in jerki' Line #06: 'ng kicking little' Line #07: 'motions. Nonchalant old Peter ' Line #08: 'Quinn ruthlessly shot the unde' Line #09: 'r-water vermin with' Line #10: 'Xavier yelling Zap!'
Types ¶
type Align ¶
type Align int
Align denotes how text is to be aligned horizontally.
const ( AlignDefault Align = iota // same as AlignLeft AlignLeft // "left " AlignCenter // " center " AlignJustify // "justify it" AlignRight // " right" )
Align enumerations
func (Align) Apply ¶
Apply aligns the text as directed. For ex.:
- AlignDefault.Apply("Jon Snow", 12) returns "Jon Snow "
- AlignLeft.Apply("Jon Snow", 12) returns "Jon Snow "
- AlignCenter.Apply("Jon Snow", 12) returns " Jon Snow "
- AlignJustify.Apply("Jon Snow", 12) returns "Jon Snow"
- AlignRight.Apply("Jon Snow", 12) returns " Jon Snow"
Example ¶
fmt.Printf("AlignDefault: '%s'\n", AlignDefault.Apply("Jon Snow", 12)) fmt.Printf("AlignLeft : '%s'\n", AlignLeft.Apply("Jon Snow", 12)) fmt.Printf("AlignCenter : '%s'\n", AlignCenter.Apply("Jon Snow", 12)) fmt.Printf("AlignJustify: '%s'\n", AlignJustify.Apply("Jon Snow", 12)) fmt.Printf("AlignRight : '%s'\n", AlignRight.Apply("Jon Snow", 12))
Output: AlignDefault: 'Jon Snow ' AlignLeft : 'Jon Snow ' AlignCenter : ' Jon Snow ' AlignJustify: 'Jon Snow' AlignRight : ' Jon Snow'
func (Align) HTMLProperty ¶
HTMLProperty returns the equivalent HTML horizontal-align tag property.
Example ¶
fmt.Printf("AlignDefault: '%s'\n", AlignDefault.HTMLProperty()) fmt.Printf("AlignLeft : '%s'\n", AlignLeft.HTMLProperty()) fmt.Printf("AlignCenter : '%s'\n", AlignCenter.HTMLProperty()) fmt.Printf("AlignJustify: '%s'\n", AlignJustify.HTMLProperty()) fmt.Printf("AlignRight : '%s'\n", AlignRight.HTMLProperty())
Output: AlignDefault: '' AlignLeft : 'align="left"' AlignCenter : 'align="center"' AlignJustify: 'align="justify"' AlignRight : 'align="right"'
func (Align) MarkdownProperty ¶
MarkdownProperty returns the equivalent Markdown horizontal-align separator.
Example ¶
fmt.Printf("AlignDefault: '%s'\n", AlignDefault.MarkdownProperty()) fmt.Printf("AlignLeft : '%s'\n", AlignLeft.MarkdownProperty()) fmt.Printf("AlignCenter : '%s'\n", AlignCenter.MarkdownProperty()) fmt.Printf("AlignJustify: '%s'\n", AlignJustify.MarkdownProperty()) fmt.Printf("AlignRight : '%s'\n", AlignRight.MarkdownProperty())
Output: AlignDefault: ' --- ' AlignLeft : ':--- ' AlignCenter : ':---:' AlignJustify: ' --- ' AlignRight : ' ---:'
type Color ¶
type Color int
Color represents a single color to render with.
const ( Reset Color = iota Bold Faint Italic Underline BlinkSlow BlinkRapid ReverseVideo Concealed CrossedOut )
Base colors -- attributes in reality
Foreground colors
const ( FgHiBlack Color = iota + 90 FgHiRed FgHiGreen FgHiYellow FgHiBlue FgHiMagenta FgHiCyan FgHiWhite )
Foreground Hi-Intensity colors
Background colors
const ( BgHiBlack Color = iota + 100 BgHiRed BgHiGreen BgHiYellow BgHiBlue BgHiMagenta BgHiCyan BgHiWhite )
Background Hi-Intensity colors
func (Color) EscapeSeq ¶
EscapeSeq returns the ANSI escape sequence for the color.
Example ¶
fmt.Printf("Black Background: %#v\n", BgBlack.EscapeSeq()) fmt.Printf("Black Foreground: %#v\n", FgBlack.EscapeSeq())
Output: Black Background: "\x1b[40m" Black Foreground: "\x1b[30m"
func (Color) HTMLProperty ¶
HTMLProperty returns the "class" attribute for the color.
Example ¶
fmt.Printf("Bold: %#v\n", Bold.HTMLProperty()) fmt.Printf("Black Background: %#v\n", BgBlack.HTMLProperty()) fmt.Printf("Black Foreground: %#v\n", FgBlack.HTMLProperty())
Output: Bold: "class=\"bold\"" Black Background: "class=\"bg-black\"" Black Foreground: "class=\"fg-black\""
func (Color) Sprint ¶
Sprint colorizes and prints the given string(s).
Example ¶
fmt.Printf("%#v\n", BgBlack.Sprint("Black Background")) fmt.Printf("%#v\n", FgBlack.Sprint("Black Foreground"))
Output: "\x1b[40mBlack Background\x1b[0m" "\x1b[30mBlack Foreground\x1b[0m"
func (Color) Sprintf ¶
Sprintf formats and colorizes and prints the given string(s).
Example ¶
fmt.Printf("%#v\n", BgBlack.Sprintf("%s %s", "Black", "Background")) fmt.Printf("%#v\n", FgBlack.Sprintf("%s %s", "Black", "Foreground"))
Output: "\x1b[40mBlack Background\x1b[0m" "\x1b[30mBlack Foreground\x1b[0m"
type Colors ¶
type Colors []Color
Colors represents an array of Color objects to render with. Example: Colors{FgCyan, BgBlack}
func (Colors) EscapeSeq ¶
EscapeSeq returns the ANSI escape sequence for the colors set.
Example ¶
fmt.Printf("Black Background: %#v\n", Colors{BgBlack}.EscapeSeq()) fmt.Printf("Black Foreground: %#v\n", Colors{FgBlack}.EscapeSeq()) fmt.Printf("Black Background, White Foreground: %#v\n", Colors{BgBlack, FgWhite}.EscapeSeq()) fmt.Printf("Black Foreground, White Background: %#v\n", Colors{FgBlack, BgWhite}.EscapeSeq())
Output: Black Background: "\x1b[40m" Black Foreground: "\x1b[30m" Black Background, White Foreground: "\x1b[40;37m" Black Foreground, White Background: "\x1b[30;47m"
func (Colors) HTMLProperty ¶
HTMLProperty returns the "class" attribute for the colors.
Example ¶
fmt.Printf("Black Background: %#v\n", Colors{BgBlack}.HTMLProperty()) fmt.Printf("Black Foreground: %#v\n", Colors{FgBlack}.HTMLProperty()) fmt.Printf("Black Background, White Foreground: %#v\n", Colors{BgBlack, FgWhite}.HTMLProperty()) fmt.Printf("Black Foreground, White Background: %#v\n", Colors{FgBlack, BgWhite}.HTMLProperty()) fmt.Printf("Bold Italic Underline Red Text: %#v\n", Colors{Bold, Italic, Underline, FgRed}.HTMLProperty())
Output: Black Background: "class=\"bg-black\"" Black Foreground: "class=\"fg-black\"" Black Background, White Foreground: "class=\"bg-black fg-white\"" Black Foreground, White Background: "class=\"bg-white fg-black\"" Bold Italic Underline Red Text: "class=\"bold fg-red italic underline\""
func (Colors) Sprint ¶
Sprint colorizes and prints the given string(s).
Example ¶
fmt.Printf("%#v\n", Colors{BgBlack}.Sprint("Black Background")) fmt.Printf("%#v\n", Colors{BgBlack, FgWhite}.Sprint("Black Background, White Foreground")) fmt.Printf("%#v\n", Colors{FgBlack}.Sprint("Black Foreground")) fmt.Printf("%#v\n", Colors{FgBlack, BgWhite}.Sprint("Black Foreground, White Background"))
Output: "\x1b[40mBlack Background\x1b[0m" "\x1b[40;37mBlack Background, White Foreground\x1b[0m" "\x1b[30mBlack Foreground\x1b[0m" "\x1b[30;47mBlack Foreground, White Background\x1b[0m"
func (Colors) Sprintf ¶
Sprintf formats and colorizes and prints the given string(s).
Example ¶
fmt.Printf("%#v\n", Colors{BgBlack}.Sprintf("%s %s", "Black", "Background")) fmt.Printf("%#v\n", Colors{BgBlack, FgWhite}.Sprintf("%s, %s", "Black Background", "White Foreground")) fmt.Printf("%#v\n", Colors{FgBlack}.Sprintf("%s %s", "Black", "Foreground")) fmt.Printf("%#v\n", Colors{FgBlack, BgWhite}.Sprintf("%s, %s", "Black Foreground", "White Background"))
Output: "\x1b[40mBlack Background\x1b[0m" "\x1b[40;37mBlack Background, White Foreground\x1b[0m" "\x1b[30mBlack Foreground\x1b[0m" "\x1b[30;47mBlack Foreground, White Background\x1b[0m"
type Cursor ¶
type Cursor rune
Cursor helps move the cursor on the console in multiple directions.
const ( // CursorDown helps move the Cursor Down X lines CursorDown Cursor = 'B' // CursorLeft helps move the Cursor Left X characters CursorLeft Cursor = 'D' // CursorRight helps move the Cursor Right X characters CursorRight Cursor = 'C' // CursorUp helps move the Cursor Up X lines CursorUp Cursor = 'A' // EraseLine helps erase all characters to the Right of the Cursor in the // current line EraseLine Cursor = 'K' )
func (Cursor) Sprint ¶
Sprint prints the Escape Sequence to move the Cursor once.
Example ¶
fmt.Printf("CursorDown : %#v\n", CursorDown.Sprint()) fmt.Printf("CursorLeft : %#v\n", CursorLeft.Sprint()) fmt.Printf("CursorRight: %#v\n", CursorRight.Sprint()) fmt.Printf("CursorUp : %#v\n", CursorUp.Sprint()) fmt.Printf("EraseLine : %#v\n", EraseLine.Sprint())
Output: CursorDown : "\x1b[B" CursorLeft : "\x1b[D" CursorRight: "\x1b[C" CursorUp : "\x1b[A" EraseLine : "\x1b[K"
func (Cursor) Sprintn ¶
Sprintn prints the Escape Sequence to move the Cursor "n" times.
Example ¶
fmt.Printf("CursorDown : %#v\n", CursorDown.Sprintn(5)) fmt.Printf("CursorLeft : %#v\n", CursorLeft.Sprintn(5)) fmt.Printf("CursorRight: %#v\n", CursorRight.Sprintn(5)) fmt.Printf("CursorUp : %#v\n", CursorUp.Sprintn(5)) fmt.Printf("EraseLine : %#v\n", EraseLine.Sprintn(5))
Output: CursorDown : "\x1b[5B" CursorLeft : "\x1b[5D" CursorRight: "\x1b[5C" CursorUp : "\x1b[5A" EraseLine : "\x1b[K"
type Format ¶
type Format int
Format denotes the "case" to use for text.
const ( FormatDefault Format = iota // default_Case FormatLower // lower FormatTitle // Title FormatUpper // UPPER )
Format enumerations
func (Format) Apply ¶
Apply converts the text as directed.
Example ¶
fmt.Printf("FormatDefault: '%s'\n", FormatDefault.Apply("jon Snow")) fmt.Printf("FormatLower : '%s'\n", FormatLower.Apply("jon Snow")) fmt.Printf("FormatTitle : '%s'\n", FormatTitle.Apply("jon Snow")) fmt.Printf("FormatUpper : '%s'\n", FormatUpper.Apply("jon Snow"))
Output: FormatDefault: 'jon Snow' FormatLower : 'jon snow' FormatTitle : 'Jon Snow' FormatUpper : 'JON SNOW'
type Transformer ¶
type Transformer func(val interface{}) string
Transformer helps format the contents of an object to the user's liking.
func NewJSONTransformer ¶
func NewJSONTransformer(prefix string, indent string) Transformer
NewJSONTransformer returns a Transformer that can format a JSON string or an object into pretty-indented JSON-strings.
func NewNumberTransformer ¶
func NewNumberTransformer(format string) Transformer
NewNumberTransformer returns a number Transformer that:
- transforms the number as directed by 'format' (ex.: %.2f)
- colors negative values Red
- colors positive values Green
func NewTimeTransformer ¶
func NewTimeTransformer(layout string, location *time.Location) Transformer
NewTimeTransformer returns a Transformer that can format a timestamp (a time.Time or strfmt.DateTime object) into a well-defined time format defined using the provided layout (ex.: time.RFC3339).
If a non-nil location value is provided, the time will be localized to that location (use time.Local to get localized timestamps).
func NewURLTransformer ¶
func NewURLTransformer() Transformer
NewURLTransformer returns a Transformer that can format and pretty print a string that contains an URL (the text is underlined and colored Blue).
func NewUnixTimeTransformer ¶
func NewUnixTimeTransformer(layout string, location *time.Location) Transformer
NewUnixTimeTransformer returns a Transformer that can format a unix-timestamp into a well-defined time format as defined by 'layout'. This can handle unix-time in Seconds, MilliSeconds, Microseconds and Nanoseconds.
If a non-nil location value is provided, the time will be localized to that location (use time.Local to get localized timestamps).
type VAlign ¶
type VAlign int
VAlign denotes how text is to be aligned vertically.
const ( VAlignDefault VAlign = iota // same as VAlignTop VAlignTop // "top\n\n" VAlignMiddle // "\nmiddle\n" VAlignBottom // "\n\nbottom" )
VAlign enumerations
func (VAlign) Apply ¶
Apply aligns the lines vertically. For ex.:
- VAlignTop.Apply({"Game", "Of", "Thrones"}, 5) returns {"Game", "Of", "Thrones", "", ""}
- VAlignMiddle.Apply({"Game", "Of", "Thrones"}, 5) returns {"", "Game", "Of", "Thrones", ""}
- VAlignBottom.Apply({"Game", "Of", "Thrones"}, 5) returns {"", "", "Game", "Of", "Thrones"}
Example ¶
lines := []string{"Game", "Of", "Thrones"} maxLines := 5 fmt.Printf("VAlignDefault: %#v\n", VAlignDefault.Apply(lines, maxLines)) fmt.Printf("VAlignTop : %#v\n", VAlignTop.Apply(lines, maxLines)) fmt.Printf("VAlignMiddle : %#v\n", VAlignMiddle.Apply(lines, maxLines)) fmt.Printf("VAlignBottom : %#v\n", VAlignBottom.Apply(lines, maxLines))
Output: VAlignDefault: []string{"Game", "Of", "Thrones", "", ""} VAlignTop : []string{"Game", "Of", "Thrones", "", ""} VAlignMiddle : []string{"", "Game", "Of", "Thrones", ""} VAlignBottom : []string{"", "", "Game", "Of", "Thrones"}
func (VAlign) ApplyStr ¶
ApplyStr aligns the string (of 1 or more lines) vertically. For ex.:
- VAlignTop.ApplyStr("Game\nOf\nThrones", 5) returns {"Game", "Of", "Thrones", "", ""}
- VAlignMiddle.ApplyStr("Game\nOf\nThrones", 5) returns {"", "Game", "Of", "Thrones", ""}
- VAlignBottom.ApplyStr("Game\nOf\nThrones", 5) returns {"", "", "Game", "Of", "Thrones"}
Example ¶
str := "Game\nOf\nThrones" maxLines := 5 fmt.Printf("VAlignDefault: %#v\n", VAlignDefault.ApplyStr(str, maxLines)) fmt.Printf("VAlignTop : %#v\n", VAlignTop.ApplyStr(str, maxLines)) fmt.Printf("VAlignMiddle : %#v\n", VAlignMiddle.ApplyStr(str, maxLines)) fmt.Printf("VAlignBottom : %#v\n", VAlignBottom.ApplyStr(str, maxLines))
Output: VAlignDefault: []string{"Game", "Of", "Thrones", "", ""} VAlignTop : []string{"Game", "Of", "Thrones", "", ""} VAlignMiddle : []string{"", "Game", "Of", "Thrones", ""} VAlignBottom : []string{"", "", "Game", "Of", "Thrones"}
func (VAlign) HTMLProperty ¶
HTMLProperty returns the equivalent HTML vertical-align tag property.
Example ¶
fmt.Printf("VAlignDefault: '%s'\n", VAlignDefault.HTMLProperty()) fmt.Printf("VAlignTop : '%s'\n", VAlignTop.HTMLProperty()) fmt.Printf("VAlignMiddle : '%s'\n", VAlignMiddle.HTMLProperty()) fmt.Printf("VAlignBottom : '%s'\n", VAlignBottom.HTMLProperty())
Output: VAlignDefault: '' VAlignTop : 'valign="top"' VAlignMiddle : 'valign="middle"' VAlignBottom : 'valign="bottom"'