Documentation/git-rev-list.txt - git - Git at Google

 git-rev-list(1)
 ===============
 v0.1, May 2005

 NAME
 ----
 git-rev-list - Lists commit objects in reverse chronological order


 SYNOPSIS
 --------
 'git-rev-list' [ *--max-count*=number ] [ *--max-age*=timestamp ] [ *--min-age*=timestamp ] [ *--bisect* ] [ *--pretty* ] [ *--objects* ] [ *--merge-order* [ *--show-breaks* ] ] <commit> [ <commit> ...] [ ^<commit> ...]

 DESCRIPTION
 -----------
 Lists commit objects in reverse chronological order starting at the
 given commit(s), taking ancestry relationship into account.  This is
 useful to produce human-readable log output.

 Commits which are stated with a preceding '^' cause listing to stop at
 that point. Their parents are implied. "git-rev-list foo bar ^baz" thus
 means "list all the commits which are included in 'foo' and 'bar', but
 not in 'baz'".

 If *--pretty* is specified, print the contents of the commit changesets
 in human-readable form.

 The *--objects* flag causes 'git-rev-list' to print the object IDs of
 any object referenced by the listed commits. 'git-rev-list --objects foo
 ^bar' thus means "send me all object IDs which I need to download if
 I have the commit object 'bar', but not 'foo'".

 The *--bisect* flag limits output to the one commit object which is
 roughly halfway between the included and excluded commits. Thus,
 if "git-rev-list --bisect foo ^bar ^baz" outputs 'midpoint', the output
 of "git-rev-list foo ^midpoint" and "git-rev-list midpoint ^bar ^baz"
 would be of roughly the same length. Finding the change which introduces
 a regression is thus reduced to a binary search: repeatedly generate and
 test new 'midpoint's until the commit chain is of length one.

 If *--merge-order* is specified, the commit history is decomposed into a
 unique sequence of minimal, non-linear epochs and maximal, linear epochs.
 Non-linear epochs are then linearised by sorting them into merge order, which
 is described below.

 Maximal, linear epochs correspond to periods of sequential development.
 Minimal, non-linear epochs correspond to periods of divergent development
 followed by a converging merge. The theory of epochs is described in more
 detail at
 link:http://blackcubes.dyndns.org/epoch/[http://blackcubes.dyndns.org/epoch/].

 The merge order for a non-linear epoch is defined as a linearisation for which
 the following invariants are true:

     1. if a commit P is reachable from commit N, commit P sorts after commit N
        in the linearised list.
     2. if Pi and Pj are any two parents of a merge M (with i < j), then any
        commit N, such that N is reachable from Pj but not reachable from Pi,
        sorts before all commits reachable from Pi.

 Invariant 1 states that later commits appear before earlier commits they are
 derived from.

 Invariant 2 states that commits unique to "later" parents in a merge, appear
 before all commits from "earlier" parents of a merge.

 If *--show-breaks* is specified, each item of the list is output with a
 2-character prefix consisting of one of: (|), (^), (=) followed by a space.

 Commits marked with (=) represent the boundaries of minimal, non-linear epochs
 and correspond either to the start of a period of divergent development or to
 the end of such a period.

 Commits marked with (|) are direct parents of commits immediately preceding
 the marked commit in the list.

 Commits marked with (^) are not parents of the immediately preceding commit.
 These "breaks" represent necessary discontinuities implied by trying to
 represent an arbtirary DAG in a linear form.

 *--show-breaks* is only valid if *--merge-order* is also specified.

 Author
 ------
 Written by Linus Torvalds <torvalds@osdl.org>

 Original *--merge-order* logic by Jon Seymour <jon.seymour@gmail.com>

 Documentation
 --------------
 Documentation by David Greaves, Junio C Hamano and the git-list <git@vger.kernel.org>.

 GIT
 ---
 Part of the link:git.html[git] suite
	git-rev-list(1)
	===============
	v0.1, May 2005

	NAME
	----
	git-rev-list - Lists commit objects in reverse chronological order


	SYNOPSIS
	--------
	'git-rev-list' [ --max-count=number ] [ --max-age=timestamp ] [ --min-age=timestamp ] [ --bisect ] [ --pretty ] [ --objects ] [ --merge-order [ --show-breaks ] ] <commit> [ <commit> ...] [ ^<commit> ...]

	DESCRIPTION
	-----------
	Lists commit objects in reverse chronological order starting at the
	given commit(s), taking ancestry relationship into account. This is
	useful to produce human-readable log output.

	Commits which are stated with a preceding '^' cause listing to stop at
	that point. Their parents are implied. "git-rev-list foo bar ^baz" thus
	means "list all the commits which are included in 'foo' and 'bar', but
	not in 'baz'".

	If --pretty is specified, print the contents of the commit changesets
	in human-readable form.

	The --objects flag causes 'git-rev-list' to print the object IDs of
	any object referenced by the listed commits. 'git-rev-list --objects foo
	^bar' thus means "send me all object IDs which I need to download if
	I have the commit object 'bar', but not 'foo'".

	The --bisect flag limits output to the one commit object which is
	roughly halfway between the included and excluded commits. Thus,
	if "git-rev-list --bisect foo ^bar ^baz" outputs 'midpoint', the output
	of "git-rev-list foo ^midpoint" and "git-rev-list midpoint ^bar ^baz"
	would be of roughly the same length. Finding the change which introduces
	a regression is thus reduced to a binary search: repeatedly generate and
	test new 'midpoint's until the commit chain is of length one.

	If --merge-order is specified, the commit history is decomposed into a
	unique sequence of minimal, non-linear epochs and maximal, linear epochs.
	Non-linear epochs are then linearised by sorting them into merge order, which
	is described below.

	Maximal, linear epochs correspond to periods of sequential development.
	Minimal, non-linear epochs correspond to periods of divergent development
	followed by a converging merge. The theory of epochs is described in more
	detail at
	link:http://blackcubes.dyndns.org/epoch/[http://blackcubes.dyndns.org/epoch/].

	The merge order for a non-linear epoch is defined as a linearisation for which
	the following invariants are true:

	1. if a commit P is reachable from commit N, commit P sorts after commit N
	in the linearised list.
	2. if Pi and Pj are any two parents of a merge M (with i < j), then any
	commit N, such that N is reachable from Pj but not reachable from Pi,
	sorts before all commits reachable from Pi.

	Invariant 1 states that later commits appear before earlier commits they are
	derived from.

	Invariant 2 states that commits unique to "later" parents in a merge, appear
	before all commits from "earlier" parents of a merge.

	If --show-breaks is specified, each item of the list is output with a
	2-character prefix consisting of one of: (\|), (^), (=) followed by a space.

	Commits marked with (=) represent the boundaries of minimal, non-linear epochs
	and correspond either to the start of a period of divergent development or to
	the end of such a period.

	Commits marked with (\|) are direct parents of commits immediately preceding
	the marked commit in the list.

	Commits marked with (^) are not parents of the immediately preceding commit.
	These "breaks" represent necessary discontinuities implied by trying to
	represent an arbtirary DAG in a linear form.

	--show-breaks is only valid if --merge-order is also specified.

	Author
	------
	Written by Linus Torvalds <torvalds@osdl.org>

	Original --merge-order logic by Jon Seymour <jon.seymour@gmail.com>

	Documentation
	--------------
	Documentation by David Greaves, Junio C Hamano and the git-list <git@vger.kernel.org>.

	GIT
	---
	Part of the link:git.html[git] suite