demandimport: disable lazy import of __builtin__
Demandimport uses the "try to import __builtin__, else use builtins" trick to
handle Python 3. External libraries and extensions might do something similar.
On Fedora 25 subversion-python-1.9.4-4.fc25.x86_64 will do just that (except
the opposite) ... and it failed all subversion convert tests because
demandimport was hiding that it didn't have builtins but should use
__builtin__.
The builtin module has already been imported when demandimport is loaded so
there is no point in trying to import it on demand. Just always ignore both
variants in demandimport.
# stuff related specifically to patch manipulation / parsing
#
# Copyright 2008 Mark Edgington <edgimar@gmail.com>
#
# This software may be used and distributed according to the terms of the
# GNU General Public License version 2 or any later version.
#
# This code is based on the Mark Edgington's crecord extension.
# (Itself based on Bryan O'Sullivan's record extension.)
from __future__ import absolute_import
import locale
import os
import re
import signal
import struct
import sys
from .i18n import _
from . import (
encoding,
error,
patch as patchmod,
util,
)
stringio = util.stringio
# This is required for ncurses to display non-ASCII characters in default user
# locale encoding correctly. --immerrr
locale.setlocale(locale.LC_ALL, u'')
# patch comments based on the git one
diffhelptext = _("""# To remove '-' lines, make them ' ' lines (context).
# To remove '+' lines, delete them.
# Lines starting with # will be removed from the patch.
""")
hunkhelptext = _("""#
# If the patch applies cleanly, the edited hunk will immediately be
# added to the record list. If it does not apply cleanly, a rejects file
# will be generated. You can use that when you try again. If all lines
# of the hunk are removed, then the edit is aborted and the hunk is left
# unchanged.
""")
patchhelptext = _("""#
# If the patch applies cleanly, the edited patch will immediately
# be finalised. If it does not apply cleanly, rejects files will be
# generated. You can use those when you try again.
""")
try:
import curses
import fcntl
import termios
curses.error
fcntl.ioctl
termios.TIOCGWINSZ
except ImportError:
# I have no idea if wcurses works with crecord...
try:
import wcurses as curses
curses.error
except ImportError:
# wcurses is not shipped on Windows by default, or python is not
# compiled with curses
curses = False
def checkcurses(ui):
"""Return True if the user wants to use curses
This method returns True if curses is found (and that python is built with
it) and that the user has the correct flag for the ui.
"""
return curses and ui.interface("chunkselector") == "curses"
_origstdout = sys.__stdout__ # used by gethw()
class patchnode(object):
"""abstract class for patch graph nodes
(i.e. patchroot, header, hunk, hunkline)
"""
def firstchild(self):
raise NotImplementedError("method must be implemented by subclass")
def lastchild(self):
raise NotImplementedError("method must be implemented by subclass")
def allchildren(self):
"Return a list of all of the direct children of this node"
raise NotImplementedError("method must be implemented by subclass")
def nextsibling(self):
"""
Return the closest next item of the same type where there are no items
of different types between the current item and this closest item.
If no such item exists, return None.
"""
raise NotImplementedError("method must be implemented by subclass")
def prevsibling(self):
"""
Return the closest previous item of the same type where there are no
items of different types between the current item and this closest item.
If no such item exists, return None.
"""
raise NotImplementedError("method must be implemented by subclass")
def parentitem(self):
raise NotImplementedError("method must be implemented by subclass")
def nextitem(self, skipfolded=True):
"""
Try to return the next item closest to this item, regardless of item's
type (header, hunk, or hunkline).
If skipfolded == True, and the current item is folded, then the child
items that are hidden due to folding will be skipped when determining
the next item.
If it is not possible to get the next item, return None.
"""
try:
itemfolded = self.folded
except AttributeError:
itemfolded = False
if skipfolded and itemfolded:
nextitem = self.nextsibling()
if nextitem is None:
try:
nextitem = self.parentitem().nextsibling()
except AttributeError:
nextitem = None
return nextitem
else:
# try child
item = self.firstchild()
if item is not None:
return item
# else try next sibling
item = self.nextsibling()
if item is not None:
return item
try:
# else try parent's next sibling
item = self.parentitem().nextsibling()
if item is not None:
return item
# else return grandparent's next sibling (or None)
return self.parentitem().parentitem().nextsibling()
except AttributeError: # parent and/or grandparent was None
return None
def previtem(self):
"""
Try to return the previous item closest to this item, regardless of
item's type (header, hunk, or hunkline).
If it is not possible to get the previous item, return None.
"""
# try previous sibling's last child's last child,
# else try previous sibling's last child, else try previous sibling
prevsibling = self.prevsibling()
if prevsibling is not None:
prevsiblinglastchild = prevsibling.lastchild()
if ((prevsiblinglastchild is not None) and
not prevsibling.folded):
prevsiblinglclc = prevsiblinglastchild.lastchild()
if ((prevsiblinglclc is not None) and
not prevsiblinglastchild.folded):
return prevsiblinglclc
else:
return prevsiblinglastchild
else:
return prevsibling
# try parent (or None)
return self.parentitem()
class patch(patchnode, list): # todo: rename patchroot
"""
list of header objects representing the patch.
"""
def __init__(self, headerlist):
self.extend(headerlist)
# add parent patch object reference to each header
for header in self:
header.patch = self
class uiheader(patchnode):
"""patch header
xxx shouldn't we move this to mercurial/patch.py ?
"""
def __init__(self, header):
self.nonuiheader = header
# flag to indicate whether to apply this chunk
self.applied = True
# flag which only affects the status display indicating if a node's
# children are partially applied (i.e. some applied, some not).
self.partial = False
# flag to indicate whether to display as folded/unfolded to user
self.folded = True
# list of all headers in patch
self.patch = None
# flag is False if this header was ever unfolded from initial state
self.neverunfolded = True
self.hunks = [uihunk(h, self) for h in self.hunks]
def prettystr(self):
x = stringio()
self.pretty(x)
return x.getvalue()
def nextsibling(self):
numheadersinpatch = len(self.patch)
indexofthisheader = self.patch.index(self)
if indexofthisheader < numheadersinpatch - 1:
nextheader = self.patch[indexofthisheader + 1]
return nextheader
else:
return None
def prevsibling(self):
indexofthisheader = self.patch.index(self)
if indexofthisheader > 0:
previousheader = self.patch[indexofthisheader - 1]
return previousheader
else:
return None
def parentitem(self):
"""
there is no 'real' parent item of a header that can be selected,
so return None.
"""
return None
def firstchild(self):
"return the first child of this item, if one exists. otherwise None."
if len(self.hunks) > 0:
return self.hunks[0]
else:
return None
def lastchild(self):
"return the last child of this item, if one exists. otherwise None."
if len(self.hunks) > 0:
return self.hunks[-1]
else:
return None
def allchildren(self):
"return a list of all of the direct children of this node"
return self.hunks
def __getattr__(self, name):
return getattr(self.nonuiheader, name)
class uihunkline(patchnode):
"represents a changed line in a hunk"
def __init__(self, linetext, hunk):
self.linetext = linetext
self.applied = True
# the parent hunk to which this line belongs
self.hunk = hunk
# folding lines currently is not used/needed, but this flag is needed
# in the previtem method.
self.folded = False
def prettystr(self):
return self.linetext
def nextsibling(self):
numlinesinhunk = len(self.hunk.changedlines)
indexofthisline = self.hunk.changedlines.index(self)
if (indexofthisline < numlinesinhunk - 1):
nextline = self.hunk.changedlines[indexofthisline + 1]
return nextline
else:
return None
def prevsibling(self):
indexofthisline = self.hunk.changedlines.index(self)
if indexofthisline > 0:
previousline = self.hunk.changedlines[indexofthisline - 1]
return previousline
else:
return None
def parentitem(self):
"return the parent to the current item"
return self.hunk
def firstchild(self):
"return the first child of this item, if one exists. otherwise None."
# hunk-lines don't have children
return None
def lastchild(self):
"return the last child of this item, if one exists. otherwise None."
# hunk-lines don't have children
return None
class uihunk(patchnode):
"""ui patch hunk, wraps a hunk and keep track of ui behavior """
maxcontext = 3
def __init__(self, hunk, header):
self._hunk = hunk
self.changedlines = [uihunkline(line, self) for line in hunk.hunk]
self.header = header
# used at end for detecting how many removed lines were un-applied
self.originalremoved = self.removed
# flag to indicate whether to display as folded/unfolded to user
self.folded = True
# flag to indicate whether to apply this chunk
self.applied = True
# flag which only affects the status display indicating if a node's
# children are partially applied (i.e. some applied, some not).
self.partial = False
def nextsibling(self):
numhunksinheader = len(self.header.hunks)
indexofthishunk = self.header.hunks.index(self)
if (indexofthishunk < numhunksinheader - 1):
nexthunk = self.header.hunks[indexofthishunk + 1]
return nexthunk
else:
return None
def prevsibling(self):
indexofthishunk = self.header.hunks.index(self)
if indexofthishunk > 0:
previoushunk = self.header.hunks[indexofthishunk - 1]
return previoushunk
else:
return None
def parentitem(self):
"return the parent to the current item"
return self.header
def firstchild(self):
"return the first child of this item, if one exists. otherwise None."
if len(self.changedlines) > 0:
return self.changedlines[0]
else:
return None
def lastchild(self):
"return the last child of this item, if one exists. otherwise None."
if len(self.changedlines) > 0:
return self.changedlines[-1]
else:
return None
def allchildren(self):
"return a list of all of the direct children of this node"
return self.changedlines
def countchanges(self):
"""changedlines -> (n+,n-)"""
add = len([l for l in self.changedlines if l.applied
and l.prettystr()[0] == '+'])
rem = len([l for l in self.changedlines if l.applied
and l.prettystr()[0] == '-'])
return add, rem
def getfromtoline(self):
# calculate the number of removed lines converted to context lines
removedconvertedtocontext = self.originalremoved - self.removed
contextlen = (len(self.before) + len(self.after) +
removedconvertedtocontext)
if self.after and self.after[-1] == '\\ No newline at end of file\n':
contextlen -= 1
fromlen = contextlen + self.removed
tolen = contextlen + self.added
# diffutils manual, section "2.2.2.2 detailed description of unified
# format": "an empty hunk is considered to end at the line that
# precedes the hunk."
#
# so, if either of hunks is empty, decrease its line start. --immerrr
# but only do this if fromline > 0, to avoid having, e.g fromline=-1.
fromline, toline = self.fromline, self.toline
if fromline != 0:
if fromlen == 0:
fromline -= 1
if tolen == 0:
toline -= 1
fromtoline = '@@ -%d,%d +%d,%d @@%s\n' % (
fromline, fromlen, toline, tolen,
self.proc and (' ' + self.proc))
return fromtoline
def write(self, fp):
# updated self.added/removed, which are used by getfromtoline()
self.added, self.removed = self.countchanges()
fp.write(self.getfromtoline())
hunklinelist = []
# add the following to the list: (1) all applied lines, and
# (2) all unapplied removal lines (convert these to context lines)
for changedline in self.changedlines:
changedlinestr = changedline.prettystr()
if changedline.applied:
hunklinelist.append(changedlinestr)
elif changedlinestr[0] == "-":
hunklinelist.append(" " + changedlinestr[1:])
fp.write(''.join(self.before + hunklinelist + self.after))
pretty = write
def prettystr(self):
x = stringio()
self.pretty(x)
return x.getvalue()
def __getattr__(self, name):
return getattr(self._hunk, name)
def __repr__(self):
return '<hunk %r@%d>' % (self.filename(), self.fromline)
def filterpatch(ui, chunks, chunkselector):
"""interactively filter patch chunks into applied-only chunks"""
chunks = list(chunks)
# convert chunks list into structure suitable for displaying/modifying
# with curses. create a list of headers only.
headers = [c for c in chunks if isinstance(c, patchmod.header)]
# if there are no changed files
if len(headers) == 0:
return [], {}
uiheaders = [uiheader(h) for h in headers]
# let user choose headers/hunks/lines, and mark their applied flags
# accordingly
ret = chunkselector(ui, uiheaders)
appliedhunklist = []
for hdr in uiheaders:
if (hdr.applied and
(hdr.special() or len([h for h in hdr.hunks if h.applied]) > 0)):
appliedhunklist.append(hdr)
fixoffset = 0
for hnk in hdr.hunks:
if hnk.applied:
appliedhunklist.append(hnk)
# adjust the 'to'-line offset of the hunk to be correct
# after de-activating some of the other hunks for this file
if fixoffset:
#hnk = copy.copy(hnk) # necessary??
hnk.toline += fixoffset
else:
fixoffset += hnk.removed - hnk.added
return (appliedhunklist, ret)
def gethw():
"""
magically get the current height and width of the window (without initscr)
this is a rip-off of a rip-off - taken from the bpython code. it is
useful / necessary because otherwise curses.initscr() must be called,
which can leave the terminal in a nasty state after exiting.
"""
h, w = struct.unpack(
"hhhh", fcntl.ioctl(_origstdout, termios.TIOCGWINSZ, "\000"*8))[0:2]
return h, w
def chunkselector(ui, headerlist):
"""
curses interface to get selection of chunks, and mark the applied flags
of the chosen chunks.
"""
ui.write(_('starting interactive selection\n'))
chunkselector = curseschunkselector(headerlist, ui)
f = signal.getsignal(signal.SIGTSTP)
curses.wrapper(chunkselector.main)
if chunkselector.initerr is not None:
raise error.Abort(chunkselector.initerr)
# ncurses does not restore signal handler for SIGTSTP
signal.signal(signal.SIGTSTP, f)
return chunkselector.opts
def testdecorator(testfn, f):
def u(*args, **kwargs):
return f(testfn, *args, **kwargs)
return u
def testchunkselector(testfn, ui, headerlist):
"""
test interface to get selection of chunks, and mark the applied flags
of the chosen chunks.
"""
chunkselector = curseschunkselector(headerlist, ui)
if testfn and os.path.exists(testfn):
testf = open(testfn)
testcommands = map(lambda x: x.rstrip('\n'), testf.readlines())
testf.close()
while True:
if chunkselector.handlekeypressed(testcommands.pop(0), test=True):
break
return chunkselector.opts
class curseschunkselector(object):
def __init__(self, headerlist, ui):
# put the headers into a patch object
self.headerlist = patch(headerlist)
self.ui = ui
self.opts = {}
self.errorstr = None
# list of all chunks
self.chunklist = []
for h in headerlist:
self.chunklist.append(h)
self.chunklist.extend(h.hunks)
# dictionary mapping (fgcolor, bgcolor) pairs to the
# corresponding curses color-pair value.
self.colorpairs = {}
# maps custom nicknames of color-pairs to curses color-pair values
self.colorpairnames = {}
# the currently selected header, hunk, or hunk-line
self.currentselecteditem = self.headerlist[0]
# updated when printing out patch-display -- the 'lines' here are the
# line positions *in the pad*, not on the screen.
self.selecteditemstartline = 0
self.selecteditemendline = None
# define indentation levels
self.headerindentnumchars = 0
self.hunkindentnumchars = 3
self.hunklineindentnumchars = 6
# the first line of the pad to print to the screen
self.firstlineofpadtoprint = 0
# keeps track of the number of lines in the pad
self.numpadlines = None
self.numstatuslines = 2
# keep a running count of the number of lines printed to the pad
# (used for determining when the selected item begins/ends)
self.linesprintedtopadsofar = 0
# the first line of the pad which is visible on the screen
self.firstlineofpadtoprint = 0
# stores optional text for a commit comment provided by the user
self.commenttext = ""
# if the last 'toggle all' command caused all changes to be applied
self.waslasttoggleallapplied = True
def uparrowevent(self):
"""
try to select the previous item to the current item that has the
most-indented level. for example, if a hunk is selected, try to select
the last hunkline of the hunk prior to the selected hunk. or, if
the first hunkline of a hunk is currently selected, then select the
hunk itself.
"""
currentitem = self.currentselecteditem
nextitem = currentitem.previtem()
if nextitem is None:
# if no parent item (i.e. currentitem is the first header), then
# no change...
nextitem = currentitem
self.currentselecteditem = nextitem
def uparrowshiftevent(self):
"""
select (if possible) the previous item on the same level as the
currently selected item. otherwise, select (if possible) the
parent-item of the currently selected item.
"""
currentitem = self.currentselecteditem
nextitem = currentitem.prevsibling()
# if there's no previous sibling, try choosing the parent
if nextitem is None:
nextitem = currentitem.parentitem()
if nextitem is None:
# if no parent item (i.e. currentitem is the first header), then
# no change...
nextitem = currentitem
self.currentselecteditem = nextitem
def downarrowevent(self):
"""
try to select the next item to the current item that has the
most-indented level. for example, if a hunk is selected, select
the first hunkline of the selected hunk. or, if the last hunkline of
a hunk is currently selected, then select the next hunk, if one exists,
or if not, the next header if one exists.
"""
#self.startprintline += 1 #debug
currentitem = self.currentselecteditem
nextitem = currentitem.nextitem()
# if there's no next item, keep the selection as-is
if nextitem is None:
nextitem = currentitem
self.currentselecteditem = nextitem
def downarrowshiftevent(self):
"""
select (if possible) the next item on the same level as the currently
selected item. otherwise, select (if possible) the next item on the
same level as the parent item of the currently selected item.
"""
currentitem = self.currentselecteditem
nextitem = currentitem.nextsibling()
# if there's no next sibling, try choosing the parent's nextsibling
if nextitem is None:
try:
nextitem = currentitem.parentitem().nextsibling()
except AttributeError:
# parentitem returned None, so nextsibling() can't be called
nextitem = None
if nextitem is None:
# if parent has no next sibling, then no change...
nextitem = currentitem
self.currentselecteditem = nextitem
def rightarrowevent(self):
"""
select (if possible) the first of this item's child-items.
"""
currentitem = self.currentselecteditem
nextitem = currentitem.firstchild()
# turn off folding if we want to show a child-item
if currentitem.folded:
self.togglefolded(currentitem)
if nextitem is None:
# if no next item on parent-level, then no change...
nextitem = currentitem
self.currentselecteditem = nextitem
def leftarrowevent(self):
"""
if the current item can be folded (i.e. it is an unfolded header or
hunk), then fold it. otherwise try select (if possible) the parent
of this item.
"""
currentitem = self.currentselecteditem
# try to fold the item
if not isinstance(currentitem, uihunkline):
if not currentitem.folded:
self.togglefolded(item=currentitem)
return
# if it can't be folded, try to select the parent item
nextitem = currentitem.parentitem()
if nextitem is None:
# if no item on parent-level, then no change...
nextitem = currentitem
if not nextitem.folded:
self.togglefolded(item=nextitem)
self.currentselecteditem = nextitem
def leftarrowshiftevent(self):
"""
select the header of the current item (or fold current item if the
current item is already a header).
"""
currentitem = self.currentselecteditem
if isinstance(currentitem, uiheader):
if not currentitem.folded:
self.togglefolded(item=currentitem)
return
# select the parent item recursively until we're at a header
while True:
nextitem = currentitem.parentitem()
if nextitem is None:
break
else:
currentitem = nextitem
self.currentselecteditem = currentitem
def updatescroll(self):
"scroll the screen to fully show the currently-selected"
selstart = self.selecteditemstartline
selend = self.selecteditemendline
padstart = self.firstlineofpadtoprint
padend = padstart + self.yscreensize - self.numstatuslines - 1
# 'buffered' pad start/end values which scroll with a certain
# top/bottom context margin
padstartbuffered = padstart + 3
padendbuffered = padend - 3
if selend > padendbuffered:
self.scrolllines(selend - padendbuffered)
elif selstart < padstartbuffered:
# negative values scroll in pgup direction
self.scrolllines(selstart - padstartbuffered)
def scrolllines(self, numlines):
"scroll the screen up (down) by numlines when numlines >0 (<0)."
self.firstlineofpadtoprint += numlines
if self.firstlineofpadtoprint < 0:
self.firstlineofpadtoprint = 0
if self.firstlineofpadtoprint > self.numpadlines - 1:
self.firstlineofpadtoprint = self.numpadlines - 1
def toggleapply(self, item=None):
"""
toggle the applied flag of the specified item. if no item is specified,
toggle the flag of the currently selected item.
"""
if item is None:
item = self.currentselecteditem
item.applied = not item.applied
if isinstance(item, uiheader):
item.partial = False
if item.applied:
# apply all its hunks
for hnk in item.hunks:
hnk.applied = True
# apply all their hunklines
for hunkline in hnk.changedlines:
hunkline.applied = True
else:
# un-apply all its hunks
for hnk in item.hunks:
hnk.applied = False
hnk.partial = False
# un-apply all their hunklines
for hunkline in hnk.changedlines:
hunkline.applied = False
elif isinstance(item, uihunk):
item.partial = False
# apply all it's hunklines
for hunkline in item.changedlines:
hunkline.applied = item.applied
siblingappliedstatus = [hnk.applied for hnk in item.header.hunks]
allsiblingsapplied = not (False in siblingappliedstatus)
nosiblingsapplied = not (True in siblingappliedstatus)
siblingspartialstatus = [hnk.partial for hnk in item.header.hunks]
somesiblingspartial = (True in siblingspartialstatus)
#cases where applied or partial should be removed from header
# if no 'sibling' hunks are applied (including this hunk)
if nosiblingsapplied:
if not item.header.special():
item.header.applied = False
item.header.partial = False
else: # some/all parent siblings are applied
item.header.applied = True
item.header.partial = (somesiblingspartial or
not allsiblingsapplied)
elif isinstance(item, uihunkline):
siblingappliedstatus = [ln.applied for ln in item.hunk.changedlines]
allsiblingsapplied = not (False in siblingappliedstatus)
nosiblingsapplied = not (True in siblingappliedstatus)
# if no 'sibling' lines are applied
if nosiblingsapplied:
item.hunk.applied = False
item.hunk.partial = False
elif allsiblingsapplied:
item.hunk.applied = True
item.hunk.partial = False
else: # some siblings applied
item.hunk.applied = True
item.hunk.partial = True
parentsiblingsapplied = [hnk.applied for hnk
in item.hunk.header.hunks]
noparentsiblingsapplied = not (True in parentsiblingsapplied)
allparentsiblingsapplied = not (False in parentsiblingsapplied)
parentsiblingspartial = [hnk.partial for hnk
in item.hunk.header.hunks]
someparentsiblingspartial = (True in parentsiblingspartial)
# if all parent hunks are not applied, un-apply header
if noparentsiblingsapplied:
if not item.hunk.header.special():
item.hunk.header.applied = False
item.hunk.header.partial = False
# set the applied and partial status of the header if needed
else: # some/all parent siblings are applied
item.hunk.header.applied = True
item.hunk.header.partial = (someparentsiblingspartial or
not allparentsiblingsapplied)
def toggleall(self):
"toggle the applied flag of all items."
if self.waslasttoggleallapplied: # then unapply them this time
for item in self.headerlist:
if item.applied:
self.toggleapply(item)
else:
for item in self.headerlist:
if not item.applied:
self.toggleapply(item)
self.waslasttoggleallapplied = not self.waslasttoggleallapplied
def togglefolded(self, item=None, foldparent=False):
"toggle folded flag of specified item (defaults to currently selected)"
if item is None:
item = self.currentselecteditem
if foldparent or (isinstance(item, uiheader) and item.neverunfolded):
if not isinstance(item, uiheader):
# we need to select the parent item in this case
self.currentselecteditem = item = item.parentitem()
elif item.neverunfolded:
item.neverunfolded = False
# also fold any foldable children of the parent/current item
if isinstance(item, uiheader): # the original or 'new' item
for child in item.allchildren():
child.folded = not item.folded
if isinstance(item, (uiheader, uihunk)):
item.folded = not item.folded
def alignstring(self, instr, window):
"""
add whitespace to the end of a string in order to make it fill
the screen in the x direction. the current cursor position is
taken into account when making this calculation. the string can span
multiple lines.
"""
y, xstart = window.getyx()
width = self.xscreensize
# turn tabs into spaces
instr = instr.expandtabs(4)
strwidth = encoding.colwidth(instr)
numspaces = (width - ((strwidth + xstart) % width) - 1)
return instr + " " * numspaces + "\n"
def printstring(self, window, text, fgcolor=None, bgcolor=None, pair=None,
pairname=None, attrlist=None, towin=True, align=True, showwhtspc=False):
"""
print the string, text, with the specified colors and attributes, to
the specified curses window object.
the foreground and background colors are of the form
curses.color_xxxx, where xxxx is one of: [black, blue, cyan, green,
magenta, red, white, yellow]. if pairname is provided, a color
pair will be looked up in the self.colorpairnames dictionary.
attrlist is a list containing text attributes in the form of
curses.a_xxxx, where xxxx can be: [bold, dim, normal, standout,
underline].
if align == True, whitespace is added to the printed string such that
the string stretches to the right border of the window.
if showwhtspc == True, trailing whitespace of a string is highlighted.
"""
# preprocess the text, converting tabs to spaces
text = text.expandtabs(4)
# strip \n, and convert control characters to ^[char] representation
text = re.sub(r'[\x00-\x08\x0a-\x1f]',
lambda m:'^' + chr(ord(m.group()) + 64), text.strip('\n'))
if pair is not None:
colorpair = pair
elif pairname is not None:
colorpair = self.colorpairnames[pairname]
else:
if fgcolor is None:
fgcolor = -1
if bgcolor is None:
bgcolor = -1
if (fgcolor, bgcolor) in self.colorpairs:
colorpair = self.colorpairs[(fgcolor, bgcolor)]
else:
colorpair = self.getcolorpair(fgcolor, bgcolor)
# add attributes if possible
if attrlist is None:
attrlist = []
if colorpair < 256:
# then it is safe to apply all attributes
for textattr in attrlist:
colorpair |= textattr
else:
# just apply a select few (safe?) attributes
for textattr in (curses.A_UNDERLINE, curses.A_BOLD):
if textattr in attrlist:
colorpair |= textattr
y, xstart = self.chunkpad.getyx()
t = "" # variable for counting lines printed
# if requested, show trailing whitespace
if showwhtspc:
origlen = len(text)
text = text.rstrip(' \n') # tabs have already been expanded
strippedlen = len(text)
numtrailingspaces = origlen - strippedlen
if towin:
window.addstr(text, colorpair)
t += text
if showwhtspc:
wscolorpair = colorpair | curses.A_REVERSE
if towin:
for i in range(numtrailingspaces):
window.addch(curses.ACS_CKBOARD, wscolorpair)
t += " " * numtrailingspaces
if align:
if towin:
extrawhitespace = self.alignstring("", window)
window.addstr(extrawhitespace, colorpair)
else:
# need to use t, since the x position hasn't incremented
extrawhitespace = self.alignstring(t, window)
t += extrawhitespace
# is reset to 0 at the beginning of printitem()
linesprinted = (xstart + len(t)) / self.xscreensize
self.linesprintedtopadsofar += linesprinted
return t
def updatescreen(self):
self.statuswin.erase()
self.chunkpad.erase()
printstring = self.printstring
# print out the status lines at the top
try:
if self.errorstr is not None:
printstring(self.statuswin, self.errorstr, pairname='legend')
printstring(self.statuswin, 'Press any key to continue',
pairname='legend')
self.statuswin.refresh()
return
line1 = ("SELECT CHUNKS: (j/k/up/dn/pgup/pgdn) move cursor; "
"(space/A) toggle hunk/all; (e)dit hunk;")
line2 = (" (f)old/unfold; (c)onfirm applied; (q)uit; (?) help "
"| [X]=hunk applied **=folded, toggle [a]mend mode")
printstring(self.statuswin,
util.ellipsis(line1, self.xscreensize - 1),
pairname="legend")
printstring(self.statuswin,
util.ellipsis(line2, self.xscreensize - 1),
pairname="legend")
except curses.error:
pass
# print out the patch in the remaining part of the window
try:
self.printitem()
self.updatescroll()
self.chunkpad.refresh(self.firstlineofpadtoprint, 0,
self.numstatuslines, 0,
self.yscreensize + 1 - self.numstatuslines,
self.xscreensize)
except curses.error:
pass
# refresh([pminrow, pmincol, sminrow, smincol, smaxrow, smaxcol])
self.statuswin.refresh()
def getstatusprefixstring(self, item):
"""
create a string to prefix a line with which indicates whether 'item'
is applied and/or folded.
"""
# create checkbox string
if item.applied:
if not isinstance(item, uihunkline) and item.partial:
checkbox = "[~]"
else:
checkbox = "[x]"
else:
checkbox = "[ ]"
try:
if item.folded:
checkbox += "**"
if isinstance(item, uiheader):
# one of "m", "a", or "d" (modified, added, deleted)
filestatus = item.changetype
checkbox += filestatus + " "
else:
checkbox += " "
if isinstance(item, uiheader):
# add two more spaces for headers
checkbox += " "
except AttributeError: # not foldable
checkbox += " "
return checkbox
def printheader(self, header, selected=False, towin=True,
ignorefolding=False):
"""
print the header to the pad. if countlines is True, don't print
anything, but just count the number of lines which would be printed.
"""
outstr = ""
text = header.prettystr()
chunkindex = self.chunklist.index(header)
if chunkindex != 0 and not header.folded:
# add separating line before headers
outstr += self.printstring(self.chunkpad, '_' * self.xscreensize,
towin=towin, align=False)
# select color-pair based on if the header is selected
colorpair = self.getcolorpair(name=selected and "selected" or "normal",
attrlist=[curses.A_BOLD])
# print out each line of the chunk, expanding it to screen width
# number of characters to indent lines on this level by
indentnumchars = 0
checkbox = self.getstatusprefixstring(header)
if not header.folded or ignorefolding:
textlist = text.split("\n")
linestr = checkbox + textlist[0]
else:
linestr = checkbox + header.filename()
outstr += self.printstring(self.chunkpad, linestr, pair=colorpair,
towin=towin)
if not header.folded or ignorefolding:
if len(textlist) > 1:
for line in textlist[1:]:
linestr = " "*(indentnumchars + len(checkbox)) + line
outstr += self.printstring(self.chunkpad, linestr,
pair=colorpair, towin=towin)
return outstr
def printhunklinesbefore(self, hunk, selected=False, towin=True,
ignorefolding=False):
"includes start/end line indicator"
outstr = ""
# where hunk is in list of siblings
hunkindex = hunk.header.hunks.index(hunk)
if hunkindex != 0:
# add separating line before headers
outstr += self.printstring(self.chunkpad, ' '*self.xscreensize,
towin=towin, align=False)
colorpair = self.getcolorpair(name=selected and "selected" or "normal",
attrlist=[curses.A_BOLD])
# print out from-to line with checkbox
checkbox = self.getstatusprefixstring(hunk)
lineprefix = " "*self.hunkindentnumchars + checkbox
frtoline = " " + hunk.getfromtoline().strip("\n")
outstr += self.printstring(self.chunkpad, lineprefix, towin=towin,
align=False) # add uncolored checkbox/indent
outstr += self.printstring(self.chunkpad, frtoline, pair=colorpair,
towin=towin)
if hunk.folded and not ignorefolding:
# skip remainder of output
return outstr
# print out lines of the chunk preceeding changed-lines
for line in hunk.before:
linestr = " "*(self.hunklineindentnumchars + len(checkbox)) + line
outstr += self.printstring(self.chunkpad, linestr, towin=towin)
return outstr
def printhunklinesafter(self, hunk, towin=True, ignorefolding=False):
outstr = ""
if hunk.folded and not ignorefolding:
return outstr
# a bit superfluous, but to avoid hard-coding indent amount
checkbox = self.getstatusprefixstring(hunk)
for line in hunk.after:
linestr = " "*(self.hunklineindentnumchars + len(checkbox)) + line
outstr += self.printstring(self.chunkpad, linestr, towin=towin)
return outstr
def printhunkchangedline(self, hunkline, selected=False, towin=True):
outstr = ""
checkbox = self.getstatusprefixstring(hunkline)
linestr = hunkline.prettystr().strip("\n")
# select color-pair based on whether line is an addition/removal
if selected:
colorpair = self.getcolorpair(name="selected")
elif linestr.startswith("+"):
colorpair = self.getcolorpair(name="addition")
elif linestr.startswith("-"):
colorpair = self.getcolorpair(name="deletion")
elif linestr.startswith("\\"):
colorpair = self.getcolorpair(name="normal")
lineprefix = " "*self.hunklineindentnumchars + checkbox
outstr += self.printstring(self.chunkpad, lineprefix, towin=towin,
align=False) # add uncolored checkbox/indent
outstr += self.printstring(self.chunkpad, linestr, pair=colorpair,
towin=towin, showwhtspc=True)
return outstr
def printitem(self, item=None, ignorefolding=False, recursechildren=True,
towin=True):
"""
use __printitem() to print the the specified item.applied.
if item is not specified, then print the entire patch.
(hiding folded elements, etc. -- see __printitem() docstring)
"""
if item is None:
item = self.headerlist
if recursechildren:
self.linesprintedtopadsofar = 0
outstr = []
self.__printitem(item, ignorefolding, recursechildren, outstr,
towin=towin)
return ''.join(outstr)
def outofdisplayedarea(self):
y, _ = self.chunkpad.getyx() # cursor location
# * 2 here works but an optimization would be the max number of
# consecutive non selectable lines
# i.e the max number of context line for any hunk in the patch
miny = min(0, self.firstlineofpadtoprint - self.yscreensize)
maxy = self.firstlineofpadtoprint + self.yscreensize * 2
return y < miny or y > maxy
def handleselection(self, item, recursechildren):
selected = (item is self.currentselecteditem)
if selected and recursechildren:
# assumes line numbering starting from line 0
self.selecteditemstartline = self.linesprintedtopadsofar
selecteditemlines = self.getnumlinesdisplayed(item,
recursechildren=False)
self.selecteditemendline = (self.selecteditemstartline +
selecteditemlines - 1)
return selected
def __printitem(self, item, ignorefolding, recursechildren, outstr,
towin=True):
"""
recursive method for printing out patch/header/hunk/hunk-line data to
screen. also returns a string with all of the content of the displayed
patch (not including coloring, etc.).
if ignorefolding is True, then folded items are printed out.
if recursechildren is False, then only print the item without its
child items.
"""
if towin and self.outofdisplayedarea():
return
selected = self.handleselection(item, recursechildren)
# patch object is a list of headers
if isinstance(item, patch):
if recursechildren:
for hdr in item:
self.__printitem(hdr, ignorefolding,
recursechildren, outstr, towin)
# todo: eliminate all isinstance() calls
if isinstance(item, uiheader):
outstr.append(self.printheader(item, selected, towin=towin,
ignorefolding=ignorefolding))
if recursechildren:
for hnk in item.hunks:
self.__printitem(hnk, ignorefolding,
recursechildren, outstr, towin)
elif (isinstance(item, uihunk) and
((not item.header.folded) or ignorefolding)):
# print the hunk data which comes before the changed-lines
outstr.append(self.printhunklinesbefore(item, selected, towin=towin,
ignorefolding=ignorefolding))
if recursechildren:
for l in item.changedlines:
self.__printitem(l, ignorefolding,
recursechildren, outstr, towin)
outstr.append(self.printhunklinesafter(item, towin=towin,
ignorefolding=ignorefolding))
elif (isinstance(item, uihunkline) and
((not item.hunk.folded) or ignorefolding)):
outstr.append(self.printhunkchangedline(item, selected,
towin=towin))
return outstr
def getnumlinesdisplayed(self, item=None, ignorefolding=False,
recursechildren=True):
"""
return the number of lines which would be displayed if the item were
to be printed to the display. the item will not be printed to the
display (pad).
if no item is given, assume the entire patch.
if ignorefolding is True, folded items will be unfolded when counting
the number of lines.
"""
# temporarily disable printing to windows by printstring
patchdisplaystring = self.printitem(item, ignorefolding,
recursechildren, towin=False)
numlines = len(patchdisplaystring) / self.xscreensize
return numlines
def sigwinchhandler(self, n, frame):
"handle window resizing"
try:
curses.endwin()
self.yscreensize, self.xscreensize = gethw()
self.statuswin.resize(self.numstatuslines, self.xscreensize)
self.numpadlines = self.getnumlinesdisplayed(ignorefolding=True) + 1
self.chunkpad = curses.newpad(self.numpadlines, self.xscreensize)
except curses.error:
pass
def getcolorpair(self, fgcolor=None, bgcolor=None, name=None,
attrlist=None):
"""
get a curses color pair, adding it to self.colorpairs if it is not
already defined. an optional string, name, can be passed as a shortcut
for referring to the color-pair. by default, if no arguments are
specified, the white foreground / black background color-pair is
returned.
it is expected that this function will be used exclusively for
initializing color pairs, and not curses.init_pair().
attrlist is used to 'flavor' the returned color-pair. this information
is not stored in self.colorpairs. it contains attribute values like
curses.A_BOLD.
"""
if (name is not None) and name in self.colorpairnames:
# then get the associated color pair and return it
colorpair = self.colorpairnames[name]
else:
if fgcolor is None:
fgcolor = -1
if bgcolor is None:
bgcolor = -1
if (fgcolor, bgcolor) in self.colorpairs:
colorpair = self.colorpairs[(fgcolor, bgcolor)]
else:
pairindex = len(self.colorpairs) + 1
curses.init_pair(pairindex, fgcolor, bgcolor)
colorpair = self.colorpairs[(fgcolor, bgcolor)] = (
curses.color_pair(pairindex))
if name is not None:
self.colorpairnames[name] = curses.color_pair(pairindex)
# add attributes if possible
if attrlist is None:
attrlist = []
if colorpair < 256:
# then it is safe to apply all attributes
for textattr in attrlist:
colorpair |= textattr
else:
# just apply a select few (safe?) attributes
for textattrib in (curses.A_UNDERLINE, curses.A_BOLD):
if textattrib in attrlist:
colorpair |= textattrib
return colorpair
def initcolorpair(self, *args, **kwargs):
"same as getcolorpair."
self.getcolorpair(*args, **kwargs)
def helpwindow(self):
"print a help window to the screen. exit after any keypress."
helptext = """ [press any key to return to the patch-display]
crecord allows you to interactively choose among the changes you have made,
and confirm only those changes you select for further processing by the command
you are running (commit/shelve/revert), after confirming the selected
changes, the unselected changes are still present in your working copy, so you
can use crecord multiple times to split large changes into smaller changesets.
the following are valid keystrokes:
[space] : (un-)select item ([~]/[x] = partly/fully applied)
A : (un-)select all items
up/down-arrow [k/j] : go to previous/next unfolded item
pgup/pgdn [K/J] : go to previous/next item of same type
right/left-arrow [l/h] : go to child item / parent item
shift-left-arrow [H] : go to parent header / fold selected header
f : fold / unfold item, hiding/revealing its children
F : fold / unfold parent item and all of its ancestors
ctrl-l : scroll the selected line to the top of the screen
m : edit / resume editing the commit message
e : edit the currently selected hunk
a : toggle amend mode, only with commit -i
c : confirm selected changes
r : review/edit and confirm selected changes
q : quit without confirming (no changes will be made)
? : help (what you're currently reading)"""
helpwin = curses.newwin(self.yscreensize, 0, 0, 0)
helplines = helptext.split("\n")
helplines = helplines + [" "]*(
self.yscreensize - self.numstatuslines - len(helplines) - 1)
try:
for line in helplines:
self.printstring(helpwin, line, pairname="legend")
except curses.error:
pass
helpwin.refresh()
try:
helpwin.getkey()
except curses.error:
pass
def confirmationwindow(self, windowtext):
"display an informational window, then wait for and return a keypress."
confirmwin = curses.newwin(self.yscreensize, 0, 0, 0)
try:
lines = windowtext.split("\n")
for line in lines:
self.printstring(confirmwin, line, pairname="selected")
except curses.error:
pass
self.stdscr.refresh()
confirmwin.refresh()
try:
response = chr(self.stdscr.getch())
except ValueError:
response = None
return response
def reviewcommit(self):
"""ask for 'y' to be pressed to confirm selected. return True if
confirmed."""
confirmtext = (
"""if you answer yes to the following, the your currently chosen patch chunks
will be loaded into an editor. you may modify the patch from the editor, and
save the changes if you wish to change the patch. otherwise, you can just
close the editor without saving to accept the current patch as-is.
note: don't add/remove lines unless you also modify the range information.
failing to follow this rule will result in the commit aborting.
are you sure you want to review/edit and confirm the selected changes [yn]?
""")
response = self.confirmationwindow(confirmtext)
if response is None:
response = "n"
if response.lower().startswith("y"):
return True
else:
return False
def toggleamend(self, opts, test):
"""Toggle the amend flag.
When the amend flag is set, a commit will modify the most recently
committed changeset, instead of creating a new changeset. Otherwise, a
new changeset will be created (the normal commit behavior).
"""
try:
ver = float(util.version()[:3])
except ValueError:
ver = 1
if ver < 2.19:
msg = ("The amend option is unavailable with hg versions < 2.2\n\n"
"Press any key to continue.")
elif opts.get('amend') is None:
opts['amend'] = True
msg = ("Amend option is turned on -- commiting the currently "
"selected changes will not create a new changeset, but "
"instead update the most recently committed changeset.\n\n"
"Press any key to continue.")
elif opts.get('amend') is True:
opts['amend'] = None
msg = ("Amend option is turned off -- commiting the currently "
"selected changes will create a new changeset.\n\n"
"Press any key to continue.")
if not test:
self.confirmationwindow(msg)
def recenterdisplayedarea(self):
"""
once we scrolled with pg up pg down we can be pointing outside of the
display zone. we print the patch with towin=False to compute the
location of the selected item even though it is outside of the displayed
zone and then update the scroll.
"""
self.printitem(towin=False)
self.updatescroll()
def toggleedit(self, item=None, test=False):
"""
edit the currently selected chunk
"""
def updateui(self):
self.numpadlines = self.getnumlinesdisplayed(ignorefolding=True) + 1
self.chunkpad = curses.newpad(self.numpadlines, self.xscreensize)
self.updatescroll()
self.stdscr.refresh()
self.statuswin.refresh()
self.stdscr.keypad(1)
def editpatchwitheditor(self, chunk):
if chunk is None:
self.ui.write(_('cannot edit patch for whole file'))
self.ui.write("\n")
return None
if chunk.header.binary():
self.ui.write(_('cannot edit patch for binary file'))
self.ui.write("\n")
return None
# write the initial patch
patch = stringio()
patch.write(diffhelptext + hunkhelptext)
chunk.header.write(patch)
chunk.write(patch)
# start the editor and wait for it to complete
try:
patch = self.ui.edit(patch.getvalue(), "",
extra={"suffix": ".diff"})
except error.Abort as exc:
self.errorstr = str(exc)
return None
# remove comment lines
patch = [line + '\n' for line in patch.splitlines()
if not line.startswith('#')]
return patchmod.parsepatch(patch)
if item is None:
item = self.currentselecteditem
if isinstance(item, uiheader):
return
if isinstance(item, uihunkline):
item = item.parentitem()
if not isinstance(item, uihunk):
return
# To go back to that hunk or its replacement at the end of the edit
itemindex = item.parentitem().hunks.index(item)
beforeadded, beforeremoved = item.added, item.removed
newpatches = editpatchwitheditor(self, item)
if newpatches is None:
if not test:
updateui(self)
return
header = item.header
editedhunkindex = header.hunks.index(item)
hunksbefore = header.hunks[:editedhunkindex]
hunksafter = header.hunks[editedhunkindex + 1:]
newpatchheader = newpatches[0]
newhunks = [uihunk(h, header) for h in newpatchheader.hunks]
newadded = sum([h.added for h in newhunks])
newremoved = sum([h.removed for h in newhunks])
offset = (newadded - beforeadded) - (newremoved - beforeremoved)
for h in hunksafter:
h.toline += offset
for h in newhunks:
h.folded = False
header.hunks = hunksbefore + newhunks + hunksafter
if self.emptypatch():
header.hunks = hunksbefore + [item] + hunksafter
self.currentselecteditem = header
if len(header.hunks) > itemindex:
self.currentselecteditem = header.hunks[itemindex]
if not test:
updateui(self)
def emptypatch(self):
item = self.headerlist
if not item:
return True
for header in item:
if header.hunks:
return False
return True
def handlekeypressed(self, keypressed, test=False):
"""
Perform actions based on pressed keys.
Return true to exit the main loop.
"""
if keypressed in ["k", "KEY_UP"]:
self.uparrowevent()
if keypressed in ["K", "KEY_PPAGE"]:
self.uparrowshiftevent()
elif keypressed in ["j", "KEY_DOWN"]:
self.downarrowevent()
elif keypressed in ["J", "KEY_NPAGE"]:
self.downarrowshiftevent()
elif keypressed in ["l", "KEY_RIGHT"]:
self.rightarrowevent()
elif keypressed in ["h", "KEY_LEFT"]:
self.leftarrowevent()
elif keypressed in ["H", "KEY_SLEFT"]:
self.leftarrowshiftevent()
elif keypressed in ["q"]:
raise error.Abort(_('user quit'))
elif keypressed in ['a']:
self.toggleamend(self.opts, test)
elif keypressed in ["c"]:
return True
elif test and keypressed in ['X']:
return True
elif keypressed in ["r"]:
if self.reviewcommit():
self.opts['review'] = True
return True
elif test and keypressed in ['R']:
self.opts['review'] = True
return True
elif keypressed in [' '] or (test and keypressed in ["TOGGLE"]):
self.toggleapply()
elif keypressed in ['A']:
self.toggleall()
elif keypressed in ['e']:
self.toggleedit(test=test)
elif keypressed in ["f"]:
self.togglefolded()
elif keypressed in ["F"]:
self.togglefolded(foldparent=True)
elif keypressed in ["?"]:
self.helpwindow()
self.stdscr.clear()
self.stdscr.refresh()
elif curses.unctrl(keypressed) in ["^L"]:
# scroll the current line to the top of the screen
self.scrolllines(self.selecteditemstartline)
def main(self, stdscr):
"""
method to be wrapped by curses.wrapper() for selecting chunks.
"""
origsigwinchhandler = signal.signal(signal.SIGWINCH,
self.sigwinchhandler)
self.stdscr = stdscr
# error during initialization, cannot be printed in the curses
# interface, it should be printed by the calling code
self.initerr = None
self.yscreensize, self.xscreensize = self.stdscr.getmaxyx()
curses.start_color()
curses.use_default_colors()
# available colors: black, blue, cyan, green, magenta, white, yellow
# init_pair(color_id, foreground_color, background_color)
self.initcolorpair(None, None, name="normal")
self.initcolorpair(curses.COLOR_WHITE, curses.COLOR_MAGENTA,
name="selected")
self.initcolorpair(curses.COLOR_RED, None, name="deletion")
self.initcolorpair(curses.COLOR_GREEN, None, name="addition")
self.initcolorpair(curses.COLOR_WHITE, curses.COLOR_BLUE, name="legend")
# newwin([height, width,] begin_y, begin_x)
self.statuswin = curses.newwin(self.numstatuslines, 0, 0, 0)
self.statuswin.keypad(1) # interpret arrow-key, etc. esc sequences
# figure out how much space to allocate for the chunk-pad which is
# used for displaying the patch
# stupid hack to prevent getnumlinesdisplayed from failing
self.chunkpad = curses.newpad(1, self.xscreensize)
# add 1 so to account for last line text reaching end of line
self.numpadlines = self.getnumlinesdisplayed(ignorefolding=True) + 1
try:
self.chunkpad = curses.newpad(self.numpadlines, self.xscreensize)
except curses.error:
self.initerr = _('this diff is too large to be displayed')
return
# initialize selecteitemendline (initial start-line is 0)
self.selecteditemendline = self.getnumlinesdisplayed(
self.currentselecteditem, recursechildren=False)
while True:
self.updatescreen()
try:
keypressed = self.statuswin.getkey()
if self.errorstr is not None:
self.errorstr = None
continue
except curses.error:
keypressed = "foobar"
if self.handlekeypressed(keypressed):
break
signal.signal(signal.SIGWINCH, origsigwinchhandler)