cpython/Demo/cwilib/vt100.py

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# VT100 terminal emulator.
# This is incomplete and slow, but will do for now...
# It shouldn't be difficult to extend it to be a more-or-less complete
# VT100 emulator. And little bit of profiling could go a long way...
from array import array
import regex
import string
# Tunable parameters
DEBUGLEVEL = 1
# Symbolic constants
ESC = '\033'
# VT100 emulation class
class VT100:
def __init__(self):
self.debuglevel = DEBUGLEVEL
# Unchangeable parameters (for now)
self.width = 80
self.height = 24
self.blankline = array('c', ' '*self.width)
self.blankattr = array('b', '\0'*self.width)
# Set mutable display state
self.reset()
# Set parser state
self.unfinished = ''
# Set screen recognition state
self.reset_recognizer()
def msg(self, msg, *args):
if self.debuglevel > 0:
print 'VT100:', msg%args
def set_debuglevel(self, debuglevel):
self.debuglevel = debuglevel
def reset(self):
self.lines = []
self.attrs = []
self.fill_bottom()
self.x = 0
self.y = 0
self.curattrs = []
def show(self):
lineno = 0
for line in self.lines:
lineno = lineno + 1
i = len(line)
while i > 0 and line[i-1] == ' ': i = i-1
print line[:i]
print 'CURSOR:', self.x, self.y
def fill_bottom(self):
while len(self.lines) < self.height:
self.lines.append(self.blankline[:])
self.attrs.append(self.blankattr[:])
def fill_top(self):
while len(self.lines) < self.height:
self.lines.insert(0, self.blankline[:])
self.attrs.insert(0, self.blankattr[:])
def clear_all(self):
self.lines = []
self.attrs = []
self.fill_bottom()
def clear_below(self):
del self.lines[self.y:]
del self.attrs[self.y:]
self.fill_bottom()
def clear_above(self):
del self.lines[:self.y]
del self.attrs[:self.y]
self.fill_top()
def send(self, buffer):
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self.msg('send: unfinished=%s, buffer=%s',
`self.unfinished`, `buffer`)
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self.unfinished = self.unfinished + buffer
i = 0
n = len(self.unfinished)
while i < n:
c = self.unfinished[i]
i = i+1
if c != ESC:
self.add_char(c)
continue
if i >= n:
i = i-1
break
c = self.unfinished[i]
i = i+1
if c == 'c':
self.reset()
continue
if c <> '[':
self.msg('unrecognized: ESC %s', `c`)
continue
argstr = ''
while i < n:
c = self.unfinished[i]
i = i+1
if c not in '0123456789;':
break
argstr = argstr + c
else:
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i = i - len(argstr) - 2
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break
## self.msg('found ESC [ %s %s' % (`argstr`, `c`))
args = string.splitfields(argstr, ';')
for j in range(len(args)):
s = args[j]
while s[:1] == '0': s = s[1:]
if s: args[j] = eval(s)
else: args[j] = 0
p1 = p2 = 0
if args: p1 = args[0]
if args[1:]: p2 = args[1]
if c in '@ABCDH':
if not p1: p1 = 1
if c in 'H':
if not p2: p2 = 1
if c == '@':
for j in range(p1):
self.add_char(' ')
elif c == 'A':
self.move_by(0, -p1)
elif c == 'B':
self.move_by(0, p1)
elif c == 'C':
self.move_by(p1, 0)
elif c == 'D':
self.move_by(-p1, 0)
elif c == 'H':
self.move_to(p2-1, p1-1)
elif c == 'J':
if p1 == 0: self.clear_above()
elif p1 == 1: self.clear_below()
elif p1 == 2: self.clear_all()
else: self.msg('weird ESC [ %d J', p1)
elif c == 'K':
if p1 == 0: self.erase_right()
elif p1 == 1: self.erase_left()
elif p1 == 2: self.erase_line()
else: self.msg('weird ESC [ %d K', p1)
elif c == 'm':
if p1 == 0:
self.curattrs = []
else:
if p1 not in self.curattrs:
self.curattrs.append(p1)
self.curattrs.sort()
else:
self.msg('unrecognized: ESC [ %s', `argstr+c`)
self.unfinished = self.unfinished[i:]
def add_char(self, c):
if c == '\r':
self.move_to(0, self.y)
return
if c in '\n\f\v':
self.move_to(self.x, self.y + 1)
if self.y >= self.height:
self.scroll_up(1)
self.move_to(self.x, self.height - 1)
return
if c == '\b':
self.move_by(-1, 0)
return
if c == '\a':
self.msg('BELL')
return
if c == '\t':
self.move_to((self.x+8)/8*8, self.y)
return
if c == '\0':
return
if c < ' ' or c > '~':
self.msg('ignored control char: %s', `c`)
return
if self.x >= self.width:
self.move_to(0, self.y + 1)
if self.y >= self.height:
self.scroll_up(1)
self.move_to(self.x, self.height - 1)
self.lines[self.y][self.x] = c
if self.curattrs:
self.attrs[self.y][self.x] = max(self.curattrs)
else:
self.attrs[self.y][self.x] = 0
self.move_by(1, 0)
def move_to(self, x, y):
self.x = min(max(0, x), self.width)
self.y = min(max(0, y), self.height)
def move_by(self, dx, dy):
self.move_to(self.x + dx, self.y + dy)
def scroll_up(self, nlines):
del self.lines[:max(0, nlines)]
del self.attrs[:max(0, nlines)]
self.fill_bottom()
def scroll_down(self, nlines):
del self.lines[-max(0, nlines):]
del self.attrs[-max(0, nlines):]
self.fill_top()
def erase_left(self):
x = min(self.width-1, x)
y = min(self.height-1, y)
self.lines[y][:x] = self.blankline[:x]
self.attrs[y][:x] = self.blankattr[:x]
def erase_right(self):
x = min(self.width-1, x)
y = min(self.height-1, y)
self.lines[y][x:] = self.blankline[x:]
self.attrs[y][x:] = self.blankattr[x:]
def erase_line(self):
self.lines[y][:] = self.blankline
self.attrs[y][:] = self.blankattr
# The following routines help automating the recognition of
# standard screens. A standard screen is characterized by
# a number of fields. A field is part of a line,
# characterized by a (lineno, begin, end) tuple;
# e.g. the first 10 characters of the second line are
# specified by the tuple (1, 0, 10). Fields can be:
# - regex: desired contents given by a regular expression,
# - extract: can be extracted,
# - cursor: screen is only valid if cursor in field,
# - copy: identical to another screen (position is ignored).
# A screen is defined as a dictionary full of fields. Screens
# also have names and are placed in a dictionary.
def reset_recognizer(self):
self.screens = {}
def define_screen(self, screenname, fields):
fieldscopy = {}
# Check if the fields make sense
for fieldname in fields.keys():
field = fields[fieldname]
ftype, lineno, begin, end, extra = field
if ftype in ('match', 'search'):
extra = regex.compile(extra)
elif ftype == 'extract':
extra = None
elif ftype == 'cursor':
extra = None
elif ftype == 'copy':
if not self.screens.has_key(extra):
raise ValueError, 'bad copy ref'
else:
raise ValueError, 'bad ftype: %s' % `ftype`
fieldscopy[fieldname] = (
ftype, lineno, begin, end, extra)
self.screens[screenname] = fieldscopy
def which_screens(self):
self.busy = []
self.okay = []
self.fail = []
for name in self.screens.keys():
ok = self.match_screen(name)
return self.okay[:]
def match_screen(self, name):
if name in self.busy: raise RuntimeError, 'recursive match'
if name in self.okay: return 1
if name in self.fail: return 0
self.busy.append(name)
fields = self.screens[name]
ok = 0
for key in fields.keys():
field = fields[key]
ftype, lineno, begin, end, extra = field
if ftype == 'copy':
if not self.match_screen(extra): break
elif ftype == 'search':
text = self.lines[lineno][begin:end].tostring()
if extra.search(text) < 0:
break
elif ftype == 'match':
text = self.lines[lineno][begin:end].tostring()
if extra.match(text) < 0:
break
elif ftype == 'cursor':
if self.x != lineno or not \
begin <= self.y < end:
break
else:
ok = 1
if ok:
self.okay.append(name)
else:
self.fail.append(name)
self.busy.remove(name)
return ok
def extract_field(self, screenname, fieldname):
ftype, lineno, begin, end, extra = \
self.screens[screenname][fieldname]
return stripright(self.lines[lineno][begin:end].tostring())
def extract_rect(self, left, top, right, bottom):
lines = []
for i in range(top, bottom):
lines.append(stripright(self.lines[i][left:right])
.tostring())
return lines
def stripright(line):
i = len(line)
while i > 0 and line[i-1] in string.whitespace: i = i-1
return line[:i]