mirror of https://github.com/docker/cli.git
436 lines
10 KiB
Go
436 lines
10 KiB
Go
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// package vt100 implements a quick-and-dirty programmable ANSI terminal emulator.
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//
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// You could, for example, use it to run a program like nethack that expects
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// a terminal as a subprocess. It tracks the position of the cursor,
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// colors, and various other aspects of the terminal's state, and
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// allows you to inspect them.
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//
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// We do very much mean the dirty part. It's not that we think it might have
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// bugs. It's that we're SURE it does. Currently, we only handle raw mode, with no
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// cooked mode features like scrolling. We also misinterpret some of the control
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// codes, which may or may not matter for your purpose.
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package vt100
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import (
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"bytes"
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"fmt"
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"image/color"
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"sort"
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"strings"
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)
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type Intensity int
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const (
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Normal Intensity = 0
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Bright = 1
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Dim = 2
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// TODO(jaguilar): Should this be in a subpackage, since the names are pretty collide-y?
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)
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var (
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// Technically RGBAs are supposed to be premultiplied. But CSS doesn't expect them
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// that way, so we won't do it in this file.
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DefaultColor = color.RGBA{0, 0, 0, 0}
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// Our black has 255 alpha, so it will compare negatively with DefaultColor.
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Black = color.RGBA{0, 0, 0, 255}
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Red = color.RGBA{255, 0, 0, 255}
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Green = color.RGBA{0, 255, 0, 255}
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Yellow = color.RGBA{255, 255, 0, 255}
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Blue = color.RGBA{0, 0, 255, 255}
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Magenta = color.RGBA{255, 0, 255, 255}
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Cyan = color.RGBA{0, 255, 255, 255}
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White = color.RGBA{255, 255, 255, 255}
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)
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func (i Intensity) alpha() uint8 {
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switch i {
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case Bright:
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return 255
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case Normal:
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return 170
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case Dim:
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return 85
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default:
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return 170
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}
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}
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// Format represents the display format of text on a terminal.
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type Format struct {
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// Fg is the foreground color.
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Fg color.RGBA
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// Bg is the background color.
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Bg color.RGBA
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// Intensity is the text intensity (bright, normal, dim).
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Intensity Intensity
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// Various text properties.
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Underscore, Conceal, Negative, Blink, Inverse bool
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}
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func toCss(c color.RGBA) string {
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return fmt.Sprintf("rgba(%d, %d, %d, %f)", c.R, c.G, c.B, float32(c.A)/255)
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}
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func (f Format) css() string {
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parts := make([]string, 0)
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fg, bg := f.Fg, f.Bg
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if f.Inverse {
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bg, fg = fg, bg
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}
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if f.Intensity != Normal {
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// Intensity only applies to the text -- i.e., the foreground.
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fg.A = f.Intensity.alpha()
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}
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if fg != DefaultColor {
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parts = append(parts, "color:"+toCss(fg))
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}
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if bg != DefaultColor {
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parts = append(parts, "background-color:"+toCss(bg))
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}
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if f.Underscore {
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parts = append(parts, "text-decoration:underline")
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}
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if f.Conceal {
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parts = append(parts, "display:none")
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}
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if f.Blink {
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parts = append(parts, "text-decoration:blink")
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}
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// We're not in performance sensitive code. Although this sort
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// isn't strictly necessary, it gives us the nice property that
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// the style of a particular set of attributes will always be
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// generated the same way. As a result, we can use the html
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// output in tests.
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sort.StringSlice(parts).Sort()
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return strings.Join(parts, ";")
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}
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// Cursor represents both the position and text type of the cursor.
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type Cursor struct {
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// Y and X are the coordinates.
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Y, X int
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// F is the format that will be displayed.
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F Format
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}
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// VT100 represents a simplified, raw VT100 terminal.
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type VT100 struct {
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// Height and Width are the dimensions of the terminal.
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Height, Width int
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// Content is the text in the terminal.
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Content [][]rune
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// Format is the display properties of each cell.
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Format [][]Format
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// Cursor is the current state of the cursor.
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Cursor Cursor
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// savedCursor is the state of the cursor last time save() was called.
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savedCursor Cursor
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unparsed []byte
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}
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// NewVT100 creates a new VT100 object with the specified dimensions. y and x
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// must both be greater than zero.
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//
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// Each cell is set to contain a ' ' rune, and all formats are left as the
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// default.
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func NewVT100(y, x int) *VT100 {
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if y == 0 || x == 0 {
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panic(fmt.Errorf("invalid dim (%d, %d)", y, x))
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}
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v := &VT100{
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Height: y,
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Width: x,
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Content: make([][]rune, y),
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Format: make([][]Format, y),
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}
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for row := 0; row < y; row++ {
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v.Content[row] = make([]rune, x)
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v.Format[row] = make([]Format, x)
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for col := 0; col < x; col++ {
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v.clear(row, col)
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}
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}
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return v
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}
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func (v *VT100) UsedHeight() int {
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count := 0
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for _, l := range v.Content {
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for _, r := range l {
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if r != ' ' {
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count++
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break
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}
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}
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}
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return count
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}
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func (v *VT100) Resize(y, x int) {
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if y > v.Height {
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n := y - v.Height
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for row := 0; row < n; row++ {
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v.Content = append(v.Content, make([]rune, v.Width))
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v.Format = append(v.Format, make([]Format, v.Width))
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for col := 0; col < v.Width; col++ {
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v.clear(v.Height+row, col)
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}
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}
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v.Height = y
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} else if y < v.Height {
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v.Content = v.Content[:y]
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v.Height = y
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}
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if x > v.Width {
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for i := range v.Content {
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row := make([]rune, x)
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copy(row, v.Content[i])
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v.Content[i] = row
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format := make([]Format, x)
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copy(format, v.Format[i])
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v.Format[i] = format
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for j := v.Width; j < x; j++ {
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v.clear(i, j)
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}
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}
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v.Width = x
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} else if x < v.Width {
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for i := range v.Content {
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v.Content[i] = v.Content[i][:x]
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v.Format[i] = v.Format[i][:x]
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}
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v.Width = x
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}
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}
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func (v *VT100) Write(dt []byte) (int, error) {
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n := len(dt)
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if len(v.unparsed) > 0 {
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dt = append(v.unparsed, dt...) // this almost never happens
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v.unparsed = nil
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}
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buf := bytes.NewBuffer(dt)
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for {
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if buf.Len() == 0 {
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return n, nil
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}
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cmd, err := Decode(buf)
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if err != nil {
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if l := buf.Len(); l > 0 && l < 12 { // on small leftover handle unparsed, otherwise skip
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v.unparsed = buf.Bytes()
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}
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return n, nil
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}
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v.Process(cmd) // ignore error
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}
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}
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// Process handles a single ANSI terminal command, updating the terminal
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// appropriately.
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//
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// One special kind of error that this can return is an UnsupportedError. It's
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// probably best to check for these and skip, because they are likely recoverable.
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// Support errors are exported as expvars, so it is possibly not necessary to log
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// them. If you want to check what's failed, start a debug http server and examine
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// the vt100-unsupported-commands field in /debug/vars.
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func (v *VT100) Process(c Command) error {
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return c.display(v)
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}
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// HTML renders v as an HTML fragment. One idea for how to use this is to debug
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// the current state of the screen reader.
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func (v *VT100) HTML() string {
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var buf bytes.Buffer
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buf.WriteString(`<pre style="color:white;background-color:black;">`)
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// Iterate each row. When the css changes, close the previous span, and open
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// a new one. No need to close a span when the css is empty, we won't have
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// opened one in the past.
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var lastFormat Format
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for y, row := range v.Content {
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for x, r := range row {
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f := v.Format[y][x]
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if f != lastFormat {
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if lastFormat != (Format{}) {
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buf.WriteString("</span>")
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}
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if f != (Format{}) {
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buf.WriteString(`<span style="` + f.css() + `">`)
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}
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lastFormat = f
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}
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if s := maybeEscapeRune(r); s != "" {
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buf.WriteString(s)
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} else {
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buf.WriteRune(r)
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}
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}
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buf.WriteRune('\n')
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}
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buf.WriteString("</pre>")
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return buf.String()
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}
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// maybeEscapeRune potentially escapes a rune for display in an html document.
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// It only escapes the things that html.EscapeString does, but it works without allocating
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// a string to hold r. Returns an empty string if there is no need to escape.
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func maybeEscapeRune(r rune) string {
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switch r {
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case '&':
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return "&"
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case '\'':
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return "'"
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case '<':
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return "<"
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case '>':
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return ">"
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case '"':
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return """
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}
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return ""
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}
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// put puts r onto the current cursor's position, then advances the cursor.
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func (v *VT100) put(r rune) {
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v.scrollIfNeeded()
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v.Content[v.Cursor.Y][v.Cursor.X] = r
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v.Format[v.Cursor.Y][v.Cursor.X] = v.Cursor.F
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v.advance()
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}
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// advance advances the cursor, wrapping to the next line if need be.
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func (v *VT100) advance() {
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v.Cursor.X++
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if v.Cursor.X >= v.Width {
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v.Cursor.X = 0
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v.Cursor.Y++
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}
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// if v.Cursor.Y >= v.Height {
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// // TODO(jaguilar): if we implement scroll, this should probably scroll.
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// // v.Cursor.Y = 0
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// v.scroll()
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// }
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}
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func (v *VT100) scrollIfNeeded() {
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if v.Cursor.Y >= v.Height {
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first := v.Content[0]
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copy(v.Content, v.Content[1:])
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for i := range first {
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first[i] = ' '
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}
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v.Content[v.Height-1] = first
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v.Cursor.Y = v.Height - 1
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}
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}
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// home moves the cursor to the coordinates y x. If y x are out of bounds, v.Err
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// is set.
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func (v *VT100) home(y, x int) {
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v.Cursor.Y, v.Cursor.X = y, x
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}
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// eraseDirection is the logical direction in which an erase command happens,
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// from the cursor. For both erase commands, forward is 0, backward is 1,
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// and everything is 2.
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type eraseDirection int
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const (
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// From the cursor to the end, inclusive.
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eraseForward eraseDirection = iota
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// From the beginning to the cursor, inclusive.
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eraseBack
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// Everything.
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eraseAll
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)
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// eraseColumns erases columns from the current line.
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func (v *VT100) eraseColumns(d eraseDirection) {
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y, x := v.Cursor.Y, v.Cursor.X // Aliases for simplicity.
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switch d {
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case eraseBack:
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v.eraseRegion(y, 0, y, x)
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case eraseForward:
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v.eraseRegion(y, x, y, v.Width-1)
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case eraseAll:
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v.eraseRegion(y, 0, y, v.Width-1)
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}
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}
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// eraseLines erases lines from the current terminal. Note that
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// no matter what is selected, the entire current line is erased.
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func (v *VT100) eraseLines(d eraseDirection) {
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y := v.Cursor.Y // Alias for simplicity.
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switch d {
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case eraseBack:
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v.eraseRegion(0, 0, y, v.Width-1)
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case eraseForward:
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v.eraseRegion(y, 0, v.Height-1, v.Width-1)
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case eraseAll:
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v.eraseRegion(0, 0, v.Height-1, v.Width-1)
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}
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}
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func (v *VT100) eraseRegion(y1, x1, y2, x2 int) {
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// Do not sanitize or bounds-check these coordinates, since they come from the
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// programmer (me). We should panic if any of them are out of bounds.
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if y1 > y2 {
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y1, y2 = y2, y1
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}
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if x1 > x2 {
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x1, x2 = x2, x1
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}
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for y := y1; y <= y2; y++ {
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for x := x1; x <= x2; x++ {
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v.clear(y, x)
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}
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}
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}
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func (v *VT100) clear(y, x int) {
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if y >= len(v.Content) || x >= len(v.Content[0]) {
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return
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}
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v.Content[y][x] = ' '
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v.Format[y][x] = Format{}
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}
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func (v *VT100) backspace() {
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v.Cursor.X--
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if v.Cursor.X < 0 {
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if v.Cursor.Y == 0 {
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v.Cursor.X = 0
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} else {
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v.Cursor.Y--
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v.Cursor.X = v.Width - 1
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}
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}
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}
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func (v *VT100) save() {
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v.savedCursor = v.Cursor
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}
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func (v *VT100) unsave() {
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v.Cursor = v.savedCursor
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}
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