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#!/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 <http://www.gnu.org/licenses/>.
'''
from pytagomacs.common import *
class Line():
'''
A line in the text area
'''
def __init__(self, area, name, text, y):
'''
Constructor
@param area:TextArea The text area
@param name:str The name of the, displayed at the left side
@param text:str The text in the line
@param y:int The y position of the line
'''
self.area, self.name, self.text, self.y = area, name, text, y
self.killring = self.area.killring
self.jump = lambda x : Jump(self.area.top + self.y - self.area.offy, self.area.left + self.area.innerleft + x)
def is_active(self):
'''
Checks if the line is the focused line
@return :bool Whether the line is the focused line
'''
return self.area.y == self.y
def has_selection(self):
'''
Checks if there is any text selected, assuming the line is focused
@param :bool Whether there is any text selected
'''
return atleast(self.area.mark, 0) and (self.area.mark != self.area.x)
def draw(self):
'''
Redraw the line
'''
if 0 <= self.y - self.area.offy < self.area.height - 2:
leftside = ACTIVE_COLOUR if self.is_active() else INACTIVE_COLOUR
if leftside is not None:
leftside = '%s\033[%sm%s:\033[00m' % (self.jump(-(self.area.innerleft)), leftside, self.name)
else:
leftside = '%s%s:' % (self.jump(-(self.area.innerleft)), self.name)
text = (self.text[self.area.offx if self.is_active() else 0:] + ' ' * self.area.areawidth)[:self.area.areawidth]
if self.is_active() and atleast(self.area.mark, 0):
(a, b) = self.area.get_selection(True)
if a != b:
if SELECTED_COLOUR is not None:
text = text[:a] + ('\033[%sm%s\033[00m' % (SELECTED_COLOUR, text[a : b])) + text[b:]
print('%s%s%s' % (leftside, self.jump(0), text), end='')
if self.is_active():
self.jump(self.area.x - self.area.offx)()
def copy(self):
'''
Copy the selected text
@return :bool Whether any text select, and therefore copied
'''
if self.has_selection():
(a, b) = self.area.get_selection()
self.killring.add(self.text[a : b])
self.killring.reset()
(a, b) = self.area.get_selection(True)
text = self.text[self.area.offx:][:self.area.areawidth][a : b]
print('%s%s' % (self.jump(a), text), end='')
self.area.mark = None
return True
return False
def cut(self):
'''
Cut the selected text
@return :bool Whether any text select, and therefore cut
'''
mark, x = self.area.mark, self.area.x
if self.copy():
self.area.mark, self.area.x = mark, x
self.delete()
return True
return False
def kill(self):
'''
Cut all text on the same line after the position of the point
@return :bool Whether the point was not at the end of the line, and therefore a cut was made
'''
if self.area.x < len(self.text):
self.area.mark = len(self.text)
self.cut()
return True
return False
def delete(self):
'''
Delete the selected text or, if none, the character at the position of the point
@return :bool The point was not at the end of the line or something was selected, and therefore a deletion was made
'''
removed = 0
if self.has_selection():
(a, b) = self.area.get_selection()
self.text = self.text[:a] + self.text[b:]
self.area.x = a
if self.area.offx > len(self.text):
self.area.offx = max(len(self.text) - self.area.areawidth, 0)
self.area.mark = None
print('%s%s' % (self.jump(0), ' ' * self.area.areawidth), end='')
self.draw()
return True
removed = b - a
self.area.mark = None
if removed == 0:
if self.area.x == len(self.text):
return False
removed = 1
self.text = self.text[:self.area.x] + self.text[self.area.x + 1:]
text = self.text[self.area.offx:][:self.area.areawidth]
a = limit(0, self.area.x - self.area.offx, self.area.areawidth)
print('%s%s%s' % (self.jump(a), text[a:] + ' ' * removed, self.jump(a)), end='')
return True
def erase(self):
'''
Select the selected text or the character directly before the position of the point
@return :bool Whether point as at the beginning of the line or any text was selected, and therefore an erasure was made
'''
if not self.has_selection():
self.area.mark = None
if self.area.x == 0:
return False
self.area.x -= 1
if self.area.x < self.area.offx:
self.area.offx = max(self.area.offx - self.area.areawidth, 0)
self.draw()
self.jump(self.area.x - self.area.offx)()
self.delete()
return True
def yank(self):
'''
Yank the text from the top of the killring
@return :bool Whether the killring was not empty, and therefor a yank was made
'''
if self.killring.is_empty():
return False
self.area.mark = None
yanked = self.killring.get()
self.text = self.text[:self.area.x] + yanked + self.text[self.area.x:]
self.area.x += len(yanked)
if self.area.x > self.area.offx + self.area.areawidth:
self.area.offx = len(self.text) - self.area.areawidth
print('%s%s' % (self.jump(0), ' ' * self.area.areawidth), end='')
self.draw()
self.jump(self.area.x - self.area.offx)()
return True
def yank_cycle(self):
'''
Replace the recently yank text with the next in the killring
@return :bool False on failure, which happens if the killring is empty or if the text before the point is not the yanked text
'''
if self.killring.is_empty():
return False
yanked = self.killring.get()
if self.text[max(self.area.x - len(yanked), 0) : self.area.x] != yanked:
return False
self.area.mark = self.area.x - len(yanked)
self.delete()
self.killring.next()
self.yank()
return True
def move_point(self, delta):
'''
Move the the point
@param delta:int The number of steps to move the point to the right
@return :bool Whether the point has been moved
'''
x = self.area.x + delta
if 0 <= x <= len(self.text):
self.area.x = x
if delta < 0:
if self.area.offx > self.area.x:
self.area.offx = max(self.area.x - 3 * self.area.areawidth // 4, 0)
self.draw()
else:
print('\033[%iD' % -delta, end='')
elif delta > 0:
if self.area.x - self.area.offx > self.area.areawidth:
self.area.offx = self.area.x - self.area.areawidth // 4
self.draw()
else:
print('\033[%iC' % delta, end='')
return delta != 0
return False
def swap_mark(self):
'''
Swap the position of the mark and the position of the point
@return :bool Whether the mark was set, and therefore as swap was made
'''
if atleast(self.area.mark, 0):
self.area.mark, self.area.x = self.area.x, self.area.mark
return True
return False
def override(self, insert, override = True):
'''
Insert a text (by default) by overriding the existing text at the position of the point
@param insert:str The text to insert
@param override:bool Whether to override
'''
if atleast(self.area.mark, 0):
self.area.mark = ~(self.area.mark)
if len(insert) == 0:
return
a, b = self.area.x, self.area.x
if override:
b = min(self.area.x + len(insert), len(self.text))
self.text = self.text[:a] + insert + self.text[b:]
oldx = self.area.x
self.area.x += len(insert)
if self.area.x - self.area.offx < self.area.areawidth:
if not override:
print('%s\033[%iP' % (self.jump(self.area.areawidth - len(insert)), len(insert)), end='')
print('%s\033[%i@' % (self.jump(oldx - self.area.offx), len(insert)), end='')
print(insert, end='')
else:
self.area.offx = self.area.x - self.area.areawidth // 4
self.jump(0)()
print(' ' * self.area.areawidth, end='')
self.draw()
def insert(self, insert):
'''
Insert a text at the position of the point
@param insert:str The text to insert
'''
self.override(insert, False)
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