filemerge: drop extra white space
There should be no white space around the brace.
simplemerge: support three labels when merging
If a third label is provided it will be used for the "base" content:
<<<<<<< local
content
from
local
||||||| base
former
common
=======
other
conflicting
>>>>>>> other
simplemerge: burn "minimal" feature to the ground
Matt Mackall said:
The goal of simplemerge should have always been to be a drop-in
replacement for RCS merge. Please nuke this minimization thing entirely.
This whole things is now dead.
merge: use no-minimal for premerge too
ecc1387138ba disabled minimal for `internal:merge` but forgot to also disabled
it for premerge. This is now done.
This gives me an occasion to shamelessly includes my explanation of why this
minimisation feature must disappear:
[this is why it's pointless to reject patches with misspellings in the
description - mpm]
Detailled explanation
=====================
The ``simplemerge`` code use in ``internal:merge`` has a feature called
"minimization". It reprocess conflicting chunks to find common changes
inside them and excludes such common sections from the marker.
This approach seems a significant win at first glance but produces very
confusing results in some other cases.
Simple example
--------------
A simple example is enough to show the benefit of this feature. In this merge,
both sides change all numbers from letters to digits, but one side is also
changing some values.
$ cat << EOF > base
> Small Mathematical Series.
> One
> Two
> Three
> Four
> Five
> Hop we are done.
> EOF
$ cat << EOF > local
> Small Mathematical Series.
> 1
> 2
> 3
> 4
> 5
> Hop we are done.
> EOF
$ cat << EOF > other
> Small Mathematical Series.
> 1
> 2
> 3
> 6
> 8
> Hop we are done.
> EOF
In the minimalists case, the markers focus on the disagreement between the two
sides.
$ $TESTDIR/../contrib/simplemerge --print local base other
Small Mathematical Series.
1
2
3
<<<<<<< local
4
5
=======
6
8
>>>>>>> other
Hop we are done.
warning: conflicts during merge.
[1]
In the non minimalist case, the whole chunk is included in the conflict marker.
Making it harder spot actual differences.
$ $TESTDIR/../contrib/simplemerge --print --no-minimal local base other
Small Mathematical Series.
<<<<<<< local
1
2
3
4
5
=======
1
2
3
6
8
>>>>>>> other
Hop we are done.
warning: conflicts during merge.
[1]
Practical Advantages of minimalisation: merge of grafted change
---------------------------------------------------------------
This feature can be very useful when a change have been grafted in another
branch and then some change have been made to the grafted code.
$ cat << EOF > base
> # empty file
> EOF
$ cat << EOF > local
> def somefunction(one, two):
> some = one
> stuff = two
> are(happening)
> here()
> EOF
$ cat << EOF > other
> def somefunction(one, two):
> some = one
> change = two
> are(happening)
> here()
> EOF
The minimalist case recognises the grafted content as similar and highlight the
actual change.
$ $TESTDIR/../contrib/simplemerge --print local base other
def somefunction(one, two):
some = one
<<<<<<< local
stuff = two
=======
change = two
>>>>>>> other
are(happening)
here()
warning: conflicts during merge.
[1]
Again, the non-minimalist case produces a larger conflict. Making it harder to
spot the actual conflict.
$ $TESTDIR/../contrib/simplemerge --print --no-minimal local base other
<<<<<<< local
def somefunction(one, two):
some = one
stuff = two
are(happening)
here()
=======
def somefunction(one, two):
some = one
change = two
are(happening)
here()
>>>>>>> other
warning: conflicts during merge.
[1]
Practical disadvantage: multiple functions on each side
---------------------------------------------------------------
So, if this "minimalist" help so much, why introduce a setting to disable it?
The issue is that this minimisation will grab any common lines for breaking
chunks. This may result in partial context when solving a merge. The most
simple example is a merge where both side added some (different) functions
separated by blank lines. The "minimalist" approach will recognise the blank
line as "common" and over slice the chunks, turning a simple conflict case into
multiple pairs of conflicting functions.
$ cat << EOF > base
> # empty file
> EOF
$ cat << EOF > local
> def function1():
> bla()
> bla()
> bla()
>
> def function2():
> ble()
> ble()
> ble()
> EOF
$ cat << EOF > other
> def function3():
> bli()
> bli()
> bli()
>
> def function4():
> blo()
> blo()
> blo()
> EOF
The minimal case presents each function as a separated context.
$ $TESTDIR/../contrib/simplemerge --print local base other
<<<<<<< local
def function1():
bla()
bla()
bla()
=======
def function3():
bli()
bli()
bli()
>>>>>>> other
<<<<<<< local
def function2():
ble()
ble()
ble()
=======
def function4():
blo()
blo()
blo()
>>>>>>> other
warning: conflicts during merge.
[1]
The non-minimalist approach produces a simpler version with more context in
each block. Solving such conflicts is usually as simple as dropping the 3 lines
dedicated to markers.
$ $TESTDIR/../contrib/simplemerge --prin --no-minimal local base other
<<<<<<< local
def function1():
bla()
bla()
bla()
def function2():
ble()
ble()
ble()
=======
def function3():
bli()
bli()
bli()
def function4():
blo()
blo()
blo()
>>>>>>> other
warning: conflicts during merge.
[1]
Practical disaster: programing language have a lot of common line
=================================================================
If only blank lines between function where the only frequent content of a code
file. But programming language tend to repeat them self much more often. In that
case, the minimalist approach turns a simple conflict into a massive mess.
Consider this example where two unrelated functions are added on each side.
Those function shares common programming constructs by chance.
$ cat << EOF > base
> # empty file
> EOF
$ cat << EOF > local
> def longfunction():
> if bla:
> foo
> else:
> bar
> try:
> ret = some stuff
> except Exception:
> ret = None
> if ret is not None:
> return ret
> return 0
>
> def shortfunction(foo):
> goo()
> ret = foo + 5
> return ret
> EOF
$ cat << EOF > other
> def otherlongfunction():
> for x in xxx:
> if coin:
> break
> tutu
> else:
> bar()
> baz()
> ret = week()
> try:
> groumpf = tutu
> fool()
> except Exception:
> zoo()
> pool()
> if cond:
> return ret
>
> # some big block
> ret ** 6
> koin()
> return ret
> EOF
The minimalist approach will hash the whole conflict into small chunks that
does not match any meaningful semantic and are impossible to solve.
$ $TESTDIR/../contrib/simplemerge --print local base other
<<<<<<< local
def longfunction():
if bla:
foo
=======
def otherlongfunction():
for x in xxx:
if coin:
break
tutu
>>>>>>> other
else:
<<<<<<< local
bar
=======
bar()
baz()
ret = week()
>>>>>>> other
try:
<<<<<<< local
ret = some stuff
=======
groumpf = tutu
fool()
>>>>>>> other
except Exception:
<<<<<<< local
ret = None
if ret is not None:
=======
zoo()
pool()
if cond:
>>>>>>> other
return ret
<<<<<<< local
return 0
=======
>>>>>>> other
<<<<<<< local
def shortfunction(foo):
goo()
ret = foo + 5
=======
# some big block
ret ** 6
koin()
>>>>>>> other
return ret
warning: conflicts during merge.
[1]
The non minimalist approach will properly produce a single set of conflict
markers. Highlighting that the two chunk are unrelated. Such conflict from
unrelated content added at the same place is usually solved by dropping the
marker an keeping both content. Something impossible with minimised markers.
$ $TESTDIR/../contrib/simplemerge --prin --no-minimal local base other
<<<<<<< local
def longfunction():
if bla:
foo
else:
bar
try:
ret = some stuff
except Exception:
ret = None
if ret is not None:
return ret
return 0
def shortfunction(foo):
goo()
ret = foo + 5
return ret
=======
def otherlongfunction():
for x in xxx:
if coin:
break
tutu
else:
bar()
baz()
ret = week()
try:
groumpf = tutu
fool()
except Exception:
zoo()
pool()
if cond:
return ret
# some big block
ret ** 6
koin()
return ret
>>>>>>> other
warning: conflicts during merge.
[1]
merge: refactor labels selection code
The code is simplified to prepare the future introduction of a third labels for
the merge base.
push: include phase push in the unified bundle2 push
Phase push is now included in the same bundle2 push as changesets. We use
multiple pushkey parts to transmit the information. Note that phase moves are
still not part of the repository "transaction".
push: perform phases discovery before the push
This will allow including phase information in the same bundle2 as the
changesets.
push: make discovery extensible
We need to gather all discovery before the unified bundle2 push. We
use the same pattern as bundle2 parts generation.
push: rework the bundle2partsgenerators logic
Instead of a single list of functions, we now have a list of names and
a mapping of names to functions. This simplifies wrapping of steps
from extensions. In the same move, declaration becomes decorator-based
(syntax sugar, nom nom nom!).
push: move common heads computation into pushop
Now that both options (push succeed or fall back) live in pushop, we
can move the common heads computation there too. It is a very commonly
accessed attribute so it makes a lot of sense to have it in pushop.