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import sequtils
import streams
import strutils
import sugar
import unicode
import html/dom
import types/color
import utils/twtstr
type
FormatFlags* = enum
FLAG_BOLD
FLAG_ITALIC
FLAG_UNDERLINE
FLAG_REVERSE
FLAG_STRIKE
FLAG_OVERLINE
Formatting* = object
fgcolor*: CellColor
bgcolor*: CellColor
flags: set[FormatFlags]
Cell* = object of RootObj
formatting*: Formatting
node*: Node
FormattingCell* = object of Cell
pos*: int
FlexibleLine* = object
str*: string
formats*: seq[FormattingCell]
FlexibleGrid* = seq[FlexibleLine]
FixedCell* = object of Cell
runes*: seq[Rune]
FixedGrid* = seq[FixedCell]
const FormatCodes: array[FormatFlags, tuple[s: int, e: int]] = [
FLAG_BOLD: (1, 22),
FLAG_ITALIC: (3, 23),
FLAG_UNDERLINE: (4, 24),
FLAG_REVERSE: (7, 27),
FLAG_STRIKE: (9, 29),
FLAG_OVERLINE: (53, 55),
]
template flag_template(formatting: Formatting, val: bool, flag: FormatFlags) =
if val: formatting.flags.incl(flag)
else: formatting.flags.excl(flag)
template `italic=`*(f: var Formatting, b: bool) = flag_template f, b, FLAG_ITALIC
template `bold=`*(f: var Formatting, b: bool) = flag_template f, b, FLAG_BOLD
template `underline=`*(f: var Formatting, b: bool) = flag_template f, b, FLAG_UNDERLINE
template `reverse=`*(f: var Formatting, b: bool) = flag_template f, b, FLAG_REVERSE
template `strike=`*(f: var Formatting, b: bool) = flag_template f, b, FLAG_STRIKE
template `overline=`*(f: var Formatting, b: bool) = flag_template f, b, FLAG_OVERLINE
#TODO ?????
func `==`*(a: FixedCell, b: FixedCell): bool =
return a.formatting == b.formatting and
a.runes == b.runes and
a.node == b.node
func newFixedGrid*(w: int, h: int = 1): FixedGrid =
return newSeq[FixedCell](w * h)
func width*(line: FlexibleLine): int =
return line.str.width()
func width*(cell: FixedCell): int =
return cell.runes.width()
func newFormatting*(): Formatting =
return Formatting(fgcolor: defaultColor, bgcolor: defaultColor)
func findFormatN*(line: FlexibleLine, pos: int): int =
var i = 0
while i < line.formats.len:
if line.formats[i].pos > pos:
break
inc i
return i
func findFormat*(line: FlexibleLine, pos: int): FormattingCell =
let i = line.findFormatN(pos) - 1
if i != -1:
result = line.formats[i]
else:
result.pos = -1
func findNextFormat*(line: FlexibleLine, pos: int): FormattingCell =
let i = line.findFormatN(pos)
if i < line.formats.len:
result = line.formats[i]
else:
result.pos = -1
func subformats*(formats: seq[FormattingCell], pos: int): seq[FormattingCell] =
var i = 0
while i < formats.len:
if formats[i].pos >= pos:
if result.len == 0 and i > 0:
var f = formats[i - 1]
f.pos = 0
result.add(f)
var f = formats[i]
f.pos -= pos
result.add(f)
inc i
if result.len == 0 and i > 0:
var f = formats[i - 1]
f.pos = 0
result.add(f)
proc setLen*(line: var FlexibleLine, len: int) =
for i in 0 ..< line.formats.len:
if line.formats[i].pos >= len:
line.formats.setLen(i)
break
line.str.setLen(len)
#line.formats = line.formats.filter((x) => x.pos < len)
proc add*(a: var FlexibleLine, b: FlexibleLine) =
let l = a.str.len
a.formats.add(b.formats.map((x) => FormattingCell(formatting: x.formatting, node: x.node, pos: l + x.pos)))
a.str &= b.str
proc addLine*(grid: var FlexibleGrid) =
grid.add(FlexibleLine())
proc addFormat*(line: var FlexibleLine, pos: int, format: Formatting) =
line.formats.add(FormattingCell(formatting: format, pos: line.str.len))
proc addFormat*(grid: var FlexibleGrid, y, pos: int, format: Formatting) =
grid[y].formats.add(FormattingCell(formatting: format, pos: grid[y].str.len))
proc addFormat*(grid: var FlexibleGrid, y, pos: int, format: Formatting, node: Node) =
grid[y].formats.add(FormattingCell(formatting: format, node: node, pos: pos))
proc addCell*(grid: var FlexibleGrid, y: int, r: Rune) =
grid[y].str &= $r
proc addCell*(grid: var FlexibleGrid, r: Rune) =
grid.addCell(grid.len - 1, r)
template inc_check(i: int) =
inc i
if i >= buf.len:
return i
proc handleAnsiCode(formatting: var Formatting, final: char, params: string) =
case final
of 'm':
if params.len == 0:
formatting = newFormatting()
else:
let sparams = params.split(';')
try:
let ip = sparams.map((x) => parseInt(x))
var pi = 0
while pi < ip.len:
case ip[pi]
of 0:
formatting = newFormatting()
of 1: formatting.bold = true
of 3: formatting.italic = true
of 4: formatting.underline = true
of 7: formatting.reverse = true
of 9: formatting.strike = true
of 22: formatting.bold = false
of 23: formatting.italic = false
of 27: formatting.reverse = false
of 29: formatting.strike = false
of 30..37: formatting.fgcolor = CellColor(rgb: false, color: uint8(ip[pi]))
of 38:
inc pi
if pi < ip.len:
if ip[pi] == 2:
inc pi
if pi + 2 < ip.len:
let r = ip[pi]
inc pi
let g = ip[pi]
inc pi
let b = ip[pi]
formatting.fgcolor = CellColor(rgb: true, rgbcolor: rgb(r, g, b))
else:
#TODO
inc pi
continue
else:
break
of 39:
formatting.fgcolor = defaultColor
of 40..47:
formatting.bgcolor = CellColor(rgb: false, color: uint8(ip[0]))
of 48:
inc pi
if pi < ip.len:
if ip[pi] == 2:
inc pi
if pi + 2 < ip.len:
let r = ip[pi]
inc pi
let g = ip[pi]
inc pi
let b = ip[pi]
formatting.bgcolor = CellColor(rgb: true, rgbcolor: rgb(r, g, b))
else:
#TODO
inc pi
continue
else:
break
of 49: formatting.bgcolor = defaultColor
of 53: formatting.overline = true
of 55: formatting.overline = false
else: discard
inc pi
except ValueError: discard
else: discard
proc parseAnsiCode*(formatting: var Formatting, buf: string, fi: int): int =
var i = fi
if buf[i] != '\e':
return i
inc_check i
if 0x40 <= int(buf[i]) and int(buf[i]) <= 0x5F:
if buf[i] != '[':
#C1, TODO?
return
inc_check i
let sp = i
#parameter bytes
while 0x30 <= int(buf[i]) and int(buf[i]) <= 0x3F:
inc_check i
let params = buf.substr(sp, i - 1)
#let si = i
#intermediate bytes
while 0x20 <= int(buf[i]) and int(buf[i]) <= 0x2F:
inc_check i
#let interm = buf.substr(si, i)
let final = buf[i]
#final byte
if 0x40 <= int(buf[i]) and int(buf[i]) <= 0x7E:
formatting.handleAnsiCode(final, params)
return i
proc parseAnsiCode*(formatting: var Formatting, stream: Stream) =
if stream.atEnd(): return
var c = stream.readChar()
if 0x40 <= int(c) and int(c) <= 0x5F:
if c != '[':
#C1, TODO?
return
if stream.atEnd(): return
c = stream.readChar()
var params = $c
#parameter bytes
while 0x30 <= int(c) and int(c) <= 0x3F:
params &= c
if stream.atEnd(): return
c = stream.readChar()
#intermediate bytes
#var interm = $c
while 0x20 <= int(c) and int(c) <= 0x2F:
#interm &= c
if stream.atEnd(): return
c = stream.readChar()
#final byte
if 0x40 <= int(c) and int(c) <= 0x7E:
let final = c
formatting.handleAnsiCode(final, params)
proc processFormatting*(formatting: var Formatting, cellf: Formatting): string =
for flag in FormatFlags:
if flag in formatting.flags and flag notin cellf.flags:
result &= SGR(FormatCodes[flag].e)
if cellf.fgcolor != formatting.fgcolor:
var color = cellf.fgcolor
if color.rgb:
let rgb = color.rgbcolor
result &= SGR(38, 2, rgb.r, rgb.g, rgb.b)
elif color == defaultColor:
result &= SGR()
formatting = newFormatting()
else:
result &= SGR(color.color)
if cellf.bgcolor != formatting.bgcolor:
var color = cellf.bgcolor
if color.rgb:
let rgb = color.rgbcolor
result &= SGR(48, 2, rgb.r, rgb.g, rgb.b)
elif color == defaultColor:
result &= SGR()
formatting = newFormatting()
else:
result &= SGR(color.color)
for flag in FormatFlags:
if flag notin formatting.flags and flag in cellf.flags:
result &= SGR(FormatCodes[flag].s)
formatting = cellf
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