#!/usr/bin/env python3 # -*- coding: utf-8 -*- ''' pytagomacs – An Emacs like key–value editor library for Python Copyright © 2013, 2014 Mattias Andrée (maandree@member.fsf.org) This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . ''' import sys import string from subprocess import Popen, PIPE import gettext gettext.bindtextdomain('@PKGNAME@', '@LOCALEDIR@') gettext.textdomain('@PKGNAME@') _ = gettext.gettext from killring import * from editring import * from common import * from line import * ## TODO widthless characters should be ignored when calculating the size a text ## TODO implement undo history ## ## Until the user has halted for 1 second (configurably) or has navigated using arrow keys or alternative key combinations, ## edits should be accumulated and then stored in the editring. The edits is stored when the next keystroke is made, there ## should not be a timer waits for the user to idle. ## _copy, _cut, _kill, _delete, _erase = Line.copy, Line.cut, Line.kill, Line.delete, Line.erase _yank, _yank_cycle, _move_point = Line.yank, Line.yank_cycle, Line.move_point _swap_mark, _override = Line.swap_mark, Line.override ## Editing methods to wrap for undo history def full_edit(self, func): # TODO commit changes, if any rc = func(self) # TODO commit changes, if any # TODO reset return rc def partial_edit(self, func): # TODO commit changes, if any, if one second has elapsed, and then reset return func(self) break_edit = lambda self, func : full_edit(self, func) Line.copy = lambda self : break_edit(self, _copy) Line.cut = lambda self : full_edit(self, _cut) Line.kill = lambda self : full_edit(self, _kill) Line.yank = lambda self : partial_edit(self, _yank) Line.yank_cycle = lambda self : partial_edit(self, _yank_cycle) Line.swap_mark = lambda self : break_edit(self, _swap_mark) def __move_point(self, delta): return break_edit(self, lambda s : _move_point(s, delta)) Line.move_point = __move_point def __override(self, insert, override = True): partial_edit(self, lambda s : _override(s, insert, override)); Line.override = __override class TextArea(): ''' GNU Emacs alike text area ''' def __init__(self, fields, datamap, left = 1, top = 1, width = None, height = None): ''' Constructor @param fields:list Field names @param datamap:dist Data map @param left:int Left position of the component, 1 based @param top:int Top position of the component, 1 based @param width:int? Width of the component, `None` for screen width − left offset, negative for `None` plus that value @param height:int? Height of the component, `None` for screen height − top offset, negative for `None` plus that value ''' if width is None: width = 0 if height is None: height = 0 if (width <= 0) or (height <= 0): screen_size = Popen('stty size'.split(' '), stdout = PIPE).communicate()[0].decode('utf-8', 'error')[:-1].split(' ') if width <= 0: width += int(screen_size[1]) - left + 1 if height <= 0: height += int(screen_size[0]) - top + 1 self.fields, self.datamap, self.left, self.top, self.width, self.height = fields, datamap, left, top, width - 1, height self.innerleft = len(max(self.fields, key = len)) + 3 self.killring, self.editring = Killring(limit = KILLRING_LIMIT), Editring(limit = EDITRING_LIMIT) data = lambda field : datamap[field] if field in datamap else '' self.lines = [Line(self, self.fields[y], data(self.fields[y]), y) for y in range(len(self.fields))] self.areawidth = self.width - self.innerleft self.y, self.offy, self.x, self.offx, self.mark = 0, 0, 0, 0, None self.last_alert, self.last_status, self.alerted = None, None, False def initialise(self, initalise_terminal): ''' Initialise terminal and TTY settings @param initalise_terminal:bool Whether to initialise the terminal, should only be down if it is not already ''' self.initalise_terminal = initalise_terminal if initalise_terminal: print('\033[?1049h', end='', flush=True) print('\033[H\033[2J', end='', flush=True) self.old_stty = Popen('stty --save'.split(' '), stdout = PIPE).communicate()[0] self.old_stty = self.old_stty.decode('utf-8', 'error')[:-1] Popen('stty -icanon -echo -isig -ixon -ixoff'.split(' '), stdout = PIPE).communicate() def close(self): ''' Restore the terminal to the state before `initialise` as invoked ''' sys.stdout.flush() Popen(['stty', self.old_stty], stdout = PIPE).communicate() print('\033[H\033[2J', end='', flush=True) if self.initalise_terminal: print('\033[?1049l', end='', flush=True) def get_selection(self, for_display = False): ''' Get the selected texts start and end on the X-axis @param for_display:bool Whether to translate to screen position rather than, excluding the left inset @param (start, end):(int, int) The start and end ''' a = min(self.mark, self.x) b = max(self.mark, self.x) if for_display: a = limit(0, a - self.offx, self.areawidth) b = limit(0, b - self.offx, self.areawidth) return (a, b) def limit_text(self, text): ''' Limit a text to fit the width of the screen @param text:str The text @return :str The text truncated ''' max_len = self.width if len(text) > max_len: text = text[:max_len - 1] + '…' return text def status(self, text): ''' Print a message to the status bar @param text:str The message ''' txt = ' (' + text + ') ' y = self.top + self.y - self.offy x = self.left + self.innerleft + self.x - self.offx dashes = max(self.width - len(txt), 0) Jump(self.top + self.height - 2, self.left)() if STATUS_COLOUR is not None: print('\033[%sm%s-\033[00m%s' % (STATUS_COLOUR, self.limit_text(txt + '-' * dashes), Jump(y, x)), end='') else: print('%s-%s' % (self.limit_text(txt + '-' * dashes), Jump(y, x)), end='') self.last_status = text def alert(self, text): ''' Print a message to the alert bar @param text:str The message ''' if text is None: self.alert('') self.alerted = False else: y = self.top + self.y - self.offy x = self.left + self.innerleft + self.x - self.offx Jump(self.top + self.height - 1, self.left)() if ALERT_COLOUR is not None: print('\033[2K\033[%sm%s\033[00m%s' % (ALERT_COLOUR, self.limit_text(text), Jump(y, x)), end='') else: print('\033[2K%s%s' % (self.limit_text(text), Jump(y, x)), end='') self.alerted = True self.last_alert = text def restatus(self): ''' Reprint the status bar ''' self.status(self.last_status) def realert(self): ''' Reprint the alert bar ''' self.alert(self.last_alert) def run(self, saver, preredrawer = None, postredrawer = None): ''' Execute text reading @param saver:()→bool Save method @param preredrawer:()?→void Method to call before redrawing screen @param postredrawer:()?→void Method to call after redrawing screen ''' modified = False override = False oldy, oldx, oldmark = self.y, self.x, self.mark stored = ctrl('L') edited = False def redraw(): print('\033[H\033[2J', end='') if preredrawer is not None: preredrawer() for line in self.lines: line.draw() if postredrawer is not None: postredrawer() self.realert() self.restatus() def store(key, value_map, required_next = None): nonlocal stored if key in value_map: if required_next is not None: if sys.stdin.read(1) != required_next: return False stored = value_map[key] return True return False def edit(method, error_message): nonlocal edited if not method(self.lines[self.y]): self.alert(error_message) else: edited = True def move_point(delta_x, error_message): if not self.lines[self.y].move_point(delta_x): self.alert(error_message) def update_status(): below = len(self.lines) - (self.offy + self.height - 2) mode_text = _('modified' if modified else 'unmodified') ins_text = (' ' + _('override')) if override else '' above = ' +%i↑' % self.offy if self.offy > 0 else '' below = ' +%i↓' % below if below > 0 else '' self.status(mode_text + ins_text + above + below) def ensure_y(): nonlocal stored updates = False if self.y < self.offy: self.offy = self.y updates = True if self.y - self.offy > self.height - 3: self.offy = self.y - self.height + 3 updates = True if updates: update_status() redraw() def letter_type(char): ## XXX how do we do this with unicode support return (char in string.whitespace) or (char in string.punctuation) update_status() while True: if atleast(oldmark, 0) or atleast(self.mark, 0): self.lines[self.y].draw() if self.y != oldy: self.lines[oldy].draw() self.lines[self.y].draw() oldy, oldx, oldmark = self.y, self.x, self.mark if edited: edited = False if not modified: modified = True update_status() sys.stdout.flush() d = sys.stdin.read(1) if stored is None else stored stored = None if self.alerted: self.alert(None) if d == -1: # page up if self.y == 0: self.alert(_('At first line')) elif self.y == self.offy: self.offy -= self.height - 2 self.offy = max(0, self.offy) self.y = self.offy update_status() redraw() self.mark, self.x, self.offx = None, 0, 0 else: self.y = self.offy self.mark, self.x, self.offx = None, 0, 0 elif d == -2: # page down if self.y == len(self.lines) - 1: self.alert(_('At last line')) elif self.y == self.offy + self.height - 3: self.y += self.height - 2 self.y = min(self.y, len(self.lines) - 1) self.offy = max(0, self.y - self.height + 3) update_status() redraw() self.mark, self.x, self.offx = None, 0, 0 else: self.y = self.offy + self.height - 3 self.y = min(self.y, len(self.lines) - 1) self.mark, self.x, self.offx = None, 0, 0 elif d == -3: if self.x == 0: self.alert(_('At beginning')) else: x = self.x text = self.lines[self.y].text t = letter_type(text[x - 1]) while (x > 0) and (letter_type(text[x - 1]) == t): x -= 1 self.lines[self.y].move_point(x - self.x) elif d == -4: if self.x == len(self.lines[self.y].text): self.alert(_('At end')) else: x = self.x text = self.lines[self.y].text t = letter_type(text[x]) while (x < len(text)) and (letter_type(text[x]) == t): x += 1 self.lines[self.y].move_point(x - self.x) elif d == ctrl('@'): if self.mark is None: self.mark = self.x ; self.alert(_('Mark set')) elif self.mark == ~(self.x): self.mark = self.x ; self.alert(_('Mark activated')) elif self.mark == self.x: self.mark = ~(self.x) ; self.alert(_('Mark deactivated')) else: self.mark = self.x ; self.alert(_('Mark set')) elif backspace(d): edit(lambda L : L.erase(), _('At beginning')) elif d == ctrl('K'): edit(lambda L : L.kill(), _('At end')) elif d == ctrl('W'): edit(lambda L : L.cut(), _('No text is selected')) elif d == ctrl('Y'): edit(lambda L : L.yank(), _('Killring is empty')) elif d == ctrl('R'): self.editring.change_direction() elif d in (ctrl('_'), ctrl('U')): ## TODO history break if self.editring.is_empty(): self.alert(_('Nothing to undo')) else: (edit, undo) = self.editring.pop() self.alert(_('Undo!' if undo else 'Redo!')) fix_offx = not (self.offx <= edit.x < self.offx + self.areawidth) text = self.lines[edit.y] if edit.deleted is not None: a, b = max(edit.old_x, edit.new_x), min(edit.old_x, edit.new_x) text = text[:a] + text[b:] if edit.inserted is not None: text = text[:edit.old_x] + edit.inserted + text[edit.old_x:] self.lines[edit.x] = text self.x = edit.new_x if self.y != edit.y: self.mark = None fix_offx = True self.y = edit.y if fix_offx: self.offx = max(edit.x - self.areawidth + 1, 0) self.lines[self.y].draw() if not (self.offy <= edit.y < self.offy + self.height - 2): ensure_y() elif d == ctrl('X'): self.alert('C-x') sys.stdout.flush() d = sys.stdin.read(1) self.alert(str(ord(d))) sys.stdout.flush() if d == ctrl('X'): self.alert(_('Mark swapped' if self.lines[self.y].swap_mark() else 'No mark is activated')) elif d == ctrl('S'): last = '' for row in range(0, len(self.lines)): self.datamap[self.lines[row].name] = self.lines[row].text if saver(): modified = False update_status() self.alert(_('Saved')) else: self.alert(_('Failed to save!')) elif d == ctrl('C'): break else: stored = d self.alert(None) elif ord(d) < ord(' '): if d == ctrl('P'): if self.y == 0: self.alert(_('At first line')) else: self.y -= 1 ensure_y() self.mark, self.x, self.offx = None, 0, 0 update_status() elif d == ctrl('N'): if self.y == len(self.lines) - 1: self.alert(_('At last line')) else: self.y += 1 ensure_y() self.mark, self.x, self.offx = None, 0, 0 update_status() elif d == ctrl('D'): edit(lambda L : L.delete(), _('At end')) elif d == ctrl('F'): move_point(1, _('At end')) elif d == ctrl('E'): move_point(len(self.lines[self.y].text) - self.x, _('At end')) elif d == ctrl('B'): move_point(-1, _('At beginning')) elif d == ctrl('A'): move_point(-(self.x), _('At beginning')) elif d == ctrl('L'): redraw() elif d == '\033': d = sys.stdin.read(1) if d == '[': d = sys.stdin.read(1) if store(d, {'C':ctrl('F'), 'D':ctrl('B'), 'A':ctrl('P'), 'B':ctrl('N')}): pass elif store(d, {'3':ctrl('D'), '4':ctrl('E'), '5':-1, '6':-2}, '~'): pass elif d == '1': d = sys.stdin.read(1) if d == '~': stored = ctrl('A') elif d == ';': d = sys.stdin.read(1) if d == '5': store(sys.stdin.read(1), {'C':-4, 'D':-3, 'A':-1, 'B':-2}) # ctrl elif d == '2': # shift store(sys.stdin.read(1), {'C':ctrl('F'), 'D':ctrl('B')}) if stored is not None: if not atleast(self.mark, 0): self.alert(_('Mark set')) self.mark = self.x if stored == ctrl('F'): move_point(1, _('At end')) else: move_point(-1, _('At beginning')) stored = None elif d == '2': if sys.stdin.read(1) == '~': override = not override update_status() else: while True: d = sys.stdin.read(1) if ord('a') <= ord(d.lower()) <= ord('z'): break if d == '~': break elif d == 'O': store(sys.stdin.read(1), {'H':ctrl('A'), 'F':ctrl('E')}) elif store(d, {'P':-1, 'p':-1, 'N':-2, 'n':-2, 'B':-3, 'b':-3, 'F':-4, 'f':-4}): pass elif d.lower() == 'w': if not self.lines[self.y].copy(): self.alert(_('No text is selected')) elif d.lower() == 'y': if not self.lines[self.y].yank_cycle(): stored = ctrl('Y') else: edited = True elif d == '\n': stored = ctrl('N') else: insert = d if len(insert) == 0: continue if override: self.lines[self.y].override(insert) else: self.lines[self.y].insert(insert) edited = True if __name__ == '__main__': # For testing def phonysaver(): return True area = None try: area = TextArea(('a be se de e eff ge hå i ji kå ell emm enn o pe ku ärr ess te u ve dubbel-ve eks y säta å ä ö').split(' '), {}, 6, 4, -6, -4) area.initialise(True) area.run(phonysaver) finally: if area is not None: area.close()