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zyedidia.micro/cmd/micro/lineArray.go
Zachary Yedidia 9094c174cc Initial support for terminal within micro 
This commit adds beta support for running a shell or other program
within a micro view.

Use the `> term` command. With no arguments, `term` will open your
shell in interactive mode. You can also run an arbitrary command
with `> term cmd` and the command with be executed and output
shown. One issue at the moment is the terminal window will close
immediately after the process dies.

No mouse events are sent to programs running within micro.

Ref #243
2018-01-04 17:03:08 -05:00

269 lines
6.7 KiB
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package main
import (
"bufio"
"io"
"unicode/utf8"
"github.com/zyedidia/micro/cmd/micro/highlight"
)
func runeToByteIndex(n int, txt []byte) int {
if n == 0 {
return 0
}
count := 0
i := 0
for len(txt) > 0 {
_, size := utf8.DecodeRune(txt)
txt = txt[size:]
count += size
i++
if i == n {
break
}
}
return count
}
// A Line contains the data in bytes as well as a highlight state, match
// and a flag for whether the highlighting needs to be updated
type Line struct {
data []byte
state highlight.State
match highlight.LineMatch
rehighlight bool
}
// A LineArray simply stores and array of lines and makes it easy to insert
// and delete in it
type LineArray struct {
lines []Line
}
// Append efficiently appends lines together
// It allocates an additional 10000 lines if the original estimate
// is incorrect
func Append(slice []Line, data ...Line) []Line {
l := len(slice)
if l+len(data) > cap(slice) { // reallocate
newSlice := make([]Line, (l+len(data))+10000)
// The copy function is predeclared and works for any slice type.
copy(newSlice, slice)
slice = newSlice
}
slice = slice[0 : l+len(data)]
for i, c := range data {
slice[l+i] = c
}
return slice
}
// NewLineArray returns a new line array from an array of bytes
func NewLineArray(size int64, reader io.Reader) *LineArray {
la := new(LineArray)
la.lines = make([]Line, 0, 1000)
br := bufio.NewReader(reader)
var loaded int
n := 0
for {
data, err := br.ReadBytes('\n')
if len(data) > 1 && data[len(data)-2] == '\r' {
data = append(data[:len(data)-2], '\n')
if fileformat == 0 {
fileformat = 2
}
} else if len(data) > 0 {
if fileformat == 0 {
fileformat = 1
}
}
if n >= 1000 && loaded >= 0 {
totalLinesNum := int(float64(size) * (float64(n) / float64(loaded)))
newSlice := make([]Line, len(la.lines), totalLinesNum+10000)
// The copy function is predeclared and works for any slice type.
copy(newSlice, la.lines)
la.lines = newSlice
loaded = -1
}
if loaded >= 0 {
loaded += len(data)
}
if err != nil {
if err == io.EOF {
la.lines = Append(la.lines, Line{data[:], nil, nil, false})
// la.lines = Append(la.lines, Line{data[:len(data)]})
}
// Last line was read
break
} else {
// la.lines = Append(la.lines, Line{data[:len(data)-1]})
la.lines = Append(la.lines, Line{data[:len(data)-1], nil, nil, false})
}
n++
}
return la
}
// Returns the String representation of the LineArray
func (la *LineArray) String() string {
str := ""
for i, l := range la.lines {
str += string(l.data)
if i != len(la.lines)-1 {
str += "\n"
}
}
return str
}
// SaveString returns the string that should be written to disk when
// the line array is saved
// It is the same as string but uses crlf or lf line endings depending
func (la *LineArray) SaveString(useCrlf bool) string {
str := ""
for i, l := range la.lines {
str += string(l.data)
if i != len(la.lines)-1 {
if useCrlf {
str += "\r"
}
str += "\n"
}
}
return str
}
// NewlineBelow adds a newline below the given line number
func (la *LineArray) NewlineBelow(y int) {
la.lines = append(la.lines, Line{[]byte(" "), nil, nil, false})
copy(la.lines[y+2:], la.lines[y+1:])
la.lines[y+1] = Line{[]byte(""), la.lines[y].state, nil, false}
}
// inserts a byte array at a given location
func (la *LineArray) insert(pos Loc, value []byte) {
x, y := runeToByteIndex(pos.X, la.lines[pos.Y].data), pos.Y
// x, y := pos.x, pos.y
for i := 0; i < len(value); i++ {
if value[i] == '\n' {
la.Split(Loc{x, y})
x = 0
y++
continue
}
la.insertByte(Loc{x, y}, value[i])
x++
}
}
// inserts a byte at a given location
func (la *LineArray) insertByte(pos Loc, value byte) {
la.lines[pos.Y].data = append(la.lines[pos.Y].data, 0)
copy(la.lines[pos.Y].data[pos.X+1:], la.lines[pos.Y].data[pos.X:])
la.lines[pos.Y].data[pos.X] = value
}
// JoinLines joins the two lines a and b
func (la *LineArray) JoinLines(a, b int) {
la.insert(Loc{len(la.lines[a].data), a}, la.lines[b].data)
la.DeleteLine(b)
}
// Split splits a line at a given position
func (la *LineArray) Split(pos Loc) {
la.NewlineBelow(pos.Y)
la.insert(Loc{0, pos.Y + 1}, la.lines[pos.Y].data[pos.X:])
la.lines[pos.Y+1].state = la.lines[pos.Y].state
la.lines[pos.Y].state = nil
la.lines[pos.Y].match = nil
la.lines[pos.Y+1].match = nil
la.lines[pos.Y].rehighlight = true
la.DeleteToEnd(Loc{pos.X, pos.Y})
}
// removes from start to end
func (la *LineArray) remove(start, end Loc) string {
sub := la.Substr(start, end)
startX := runeToByteIndex(start.X, la.lines[start.Y].data)
endX := runeToByteIndex(end.X, la.lines[end.Y].data)
if start.Y == end.Y {
la.lines[start.Y].data = append(la.lines[start.Y].data[:startX], la.lines[start.Y].data[endX:]...)
} else {
for i := start.Y + 1; i <= end.Y-1; i++ {
la.DeleteLine(start.Y + 1)
}
la.DeleteToEnd(Loc{startX, start.Y})
la.DeleteFromStart(Loc{endX - 1, start.Y + 1})
la.JoinLines(start.Y, start.Y+1)
}
return sub
}
// DeleteToEnd deletes from the end of a line to the position
func (la *LineArray) DeleteToEnd(pos Loc) {
la.lines[pos.Y].data = la.lines[pos.Y].data[:pos.X]
}
// DeleteFromStart deletes from the start of a line to the position
func (la *LineArray) DeleteFromStart(pos Loc) {
la.lines[pos.Y].data = la.lines[pos.Y].data[pos.X+1:]
}
// DeleteLine deletes the line number
func (la *LineArray) DeleteLine(y int) {
la.lines = la.lines[:y+copy(la.lines[y:], la.lines[y+1:])]
}
// DeleteByte deletes the byte at a position
func (la *LineArray) DeleteByte(pos Loc) {
la.lines[pos.Y].data = la.lines[pos.Y].data[:pos.X+copy(la.lines[pos.Y].data[pos.X:], la.lines[pos.Y].data[pos.X+1:])]
}
// Substr returns the string representation between two locations
func (la *LineArray) Substr(start, end Loc) string {
startX := runeToByteIndex(start.X, la.lines[start.Y].data)
endX := runeToByteIndex(end.X, la.lines[end.Y].data)
if start.Y == end.Y {
return string(la.lines[start.Y].data[startX:endX])
}
var str string
str += string(la.lines[start.Y].data[startX:]) + "\n"
for i := start.Y + 1; i <= end.Y-1; i++ {
str += string(la.lines[i].data) + "\n"
}
str += string(la.lines[end.Y].data[:endX])
return str
}
// State gets the highlight state for the given line number
func (la *LineArray) State(lineN int) highlight.State {
return la.lines[lineN].state
}
// SetState sets the highlight state at the given line number
func (la *LineArray) SetState(lineN int, s highlight.State) {
la.lines[lineN].state = s
}
// SetMatch sets the match at the given line number
func (la *LineArray) SetMatch(lineN int, m highlight.LineMatch) {
la.lines[lineN].match = m
}
// Match retrieves the match for the given line number
func (la *LineArray) Match(lineN int) highlight.LineMatch {
return la.lines[lineN].match
}
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