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package object
import (
"fmt"
"sort"
"gopkg.in/src-d/go-git.v4/plumbing"
"gopkg.in/src-d/go-git.v4/plumbing/cache"
"gopkg.in/src-d/go-git.v4/storage/filesystem"
. "gopkg.in/check.v1"
fixtures "gopkg.in/src-d/go-git-fixtures.v3"
)
func alphabeticSortCommits(commits []*Commit) {
sort.Slice(commits, func(i, j int) bool {
return commits[i].Hash.String() > commits[j].Hash.String()
})
}
/*
The following tests consider this history having two root commits: V and W
V---o---M----AB----A---CD1--P---C--------S-------------------Q < master
\ \ / / /
\ X GQ1---G < feature /
\ / \ / / /
W---o---N----o----B---CD2---o---D----o----GQ2------------o < dev
MergeBase
----------------------------
passed merge-base
M, N Commits with unrelated history, have no merge-base
A, B AB Regular merge-base between two commits
A, A A The merge-commit between equal commits, is the same
Q, N N The merge-commit between a commit an its ancestor, is the ancestor
C, D CD1, CD2 Cross merges causes more than one merge-base
G, Q GQ1, GQ2 Feature branches including merges, causes more than one merge-base
Independents
----------------------------
candidates result
A A Only one commit returns it
A, A, A A Repeated commits are ignored
A, A, M, M, N A, N M is reachable from A, so it is not independent
S, G, P S, G P is reachable from S, so it is not independent
CD1, CD2, M, N CD1, CD2 M and N are reachable from CD2, so they're not
C, G, dev, M, N C, G, dev M and N are reachable from G, so they're not
C, D, M, N C, D M and N are reachable from C, so they're not
A, A^, A, N, N^ A, N A^ and N^ are reachable from A and N
A^^^, A^, A^^, A, N A, N A^^^, A^^ and A^ are reachable from A, so they're not
IsAncestor
----------------------------
passed result
A^^, A true Will be true if first is ancestor of the second
M, G true True because it will also reach G from M crossing merge commits
A, A true True if first and second are the same
M, N false Commits with unrelated history, will return false
*/
var _ = Suite(&mergeBaseSuite{})
type mergeBaseSuite struct {
BaseObjectsSuite
}
func (s *mergeBaseSuite) SetUpSuite(c *C) {
s.Suite.SetUpSuite(c)
s.Fixture = fixtures.ByTag("merge-base").One()
s.Storer = filesystem.NewStorage(s.Fixture.DotGit(), cache.NewObjectLRUDefault())
}
var revisionIndex = map[string]plumbing.Hash{
"master": plumbing.NewHash("dce0e0c20d701c3d260146e443d6b3b079505191"),
"feature": plumbing.NewHash("d1b0093698e398d596ef94d646c4db37e8d1e970"),
"dev": plumbing.NewHash("25ca6c810c08482d61113fbcaaada38bb59093a8"),
"M": plumbing.NewHash("bb355b64e18386dbc3af63dfd09c015c44cbd9b6"),
"N": plumbing.NewHash("d64b894762ab5f09e2b155221b90c18bd0637236"),
"A": plumbing.NewHash("29740cfaf0c2ee4bb532dba9e80040ca738f367c"),
"B": plumbing.NewHash("2c84807970299ba98951c65fe81ebbaac01030f0"),
"AB": plumbing.NewHash("31a7e081a28f149ee98ffd13ba1a6d841a5f46fd"),
"P": plumbing.NewHash("ff84393134864cf9d3a9853a81bde81778bd5805"),
"C": plumbing.NewHash("8b72fabdc4222c3ff965bc310ded788c601c50ed"),
"D": plumbing.NewHash("14777cf3e209334592fbfd0b878f6868394db836"),
"CD1": plumbing.NewHash("4709e13a3cbb300c2b8a917effda776e1b8955c7"),
"CD2": plumbing.NewHash("38468e274e91e50ffb637b88a1954ab6193fe974"),
"S": plumbing.NewHash("628f1a42b70380ed05734bf01b468b46206ef1ea"),
"G": plumbing.NewHash("d1b0093698e398d596ef94d646c4db37e8d1e970"),
"Q": plumbing.NewHash("dce0e0c20d701c3d260146e443d6b3b079505191"),
"GQ1": plumbing.NewHash("ccaaa99c21dad7e9f392c36ae8cb72dc63bed458"),
"GQ2": plumbing.NewHash("806824d4778e94fe7c3244e92a9cd07090c9ab54"),
"A^": plumbing.NewHash("31a7e081a28f149ee98ffd13ba1a6d841a5f46fd"),
"A^^": plumbing.NewHash("bb355b64e18386dbc3af63dfd09c015c44cbd9b6"),
"A^^^": plumbing.NewHash("8d08dd1388b82dd354cb43918d83da86c76b0978"),
"N^": plumbing.NewHash("b6e1fc8dad4f1068fb42774ec5fc65c065b2c312"),
}
func (s *mergeBaseSuite) commitsFromRevs(c *C, revs []string) ([]*Commit, error) {
var commits []*Commit
for _, rev := range revs {
hash, ok := revisionIndex[rev]
if !ok {
return nil, fmt.Errorf("Revision not found '%s'", rev)
}
commits = append(commits, s.commit(c, hash))
}
return commits, nil
}
// AssertMergeBase validates that the merge-base of the passed revs,
// matches the expected result
func (s *mergeBaseSuite) AssertMergeBase(c *C, revs, expectedRevs []string) {
c.Assert(revs, HasLen, 2)
commits, err := s.commitsFromRevs(c, revs)
c.Assert(err, IsNil)
results, err := commits[0].MergeBase(commits[1])
c.Assert(err, IsNil)
expected, err := s.commitsFromRevs(c, expectedRevs)
c.Assert(err, IsNil)
c.Assert(results, HasLen, len(expected))
alphabeticSortCommits(results)
alphabeticSortCommits(expected)
for i, commit := range results {
c.Assert(commit.Hash.String(), Equals, expected[i].Hash.String())
}
}
// AssertIndependents validates the independent commits of the passed list
func (s *mergeBaseSuite) AssertIndependents(c *C, revs, expectedRevs []string) {
commits, err := s.commitsFromRevs(c, revs)
c.Assert(err, IsNil)
results, err := Independents(commits)
c.Assert(err, IsNil)
expected, err := s.commitsFromRevs(c, expectedRevs)
c.Assert(err, IsNil)
c.Assert(results, HasLen, len(expected))
alphabeticSortCommits(results)
alphabeticSortCommits(expected)
for i, commit := range results {
c.Assert(commit.Hash.String(), Equals, expected[i].Hash.String())
}
}
// AssertAncestor validates if the first rev is ancestor of the second one
func (s *mergeBaseSuite) AssertAncestor(c *C, revs []string, shouldBeAncestor bool) {
c.Assert(revs, HasLen, 2)
commits, err := s.commitsFromRevs(c, revs)
c.Assert(err, IsNil)
isAncestor, err := commits[0].IsAncestor(commits[1])
c.Assert(err, IsNil)
c.Assert(isAncestor, Equals, shouldBeAncestor)
}
// TestNoAncestorsWhenNoCommonHistory validates that merge-base returns no commits
// when there is no common history (M, N -> none)
func (s *mergeBaseSuite) TestNoAncestorsWhenNoCommonHistory(c *C) {
revs := []string{"M", "N"}
nothing := []string{}
s.AssertMergeBase(c, revs, nothing)
}
// TestCommonAncestorInMergedOrphans validates that merge-base returns a common
// ancestor in orphan branches when they where merged (A, B -> AB)
func (s *mergeBaseSuite) TestCommonAncestorInMergedOrphans(c *C) {
revs := []string{"A", "B"}
expectedRevs := []string{"AB"}
s.AssertMergeBase(c, revs, expectedRevs)
}
// TestMergeBaseWithSelf validates that merge-base between equal commits, returns
// the same commit (A, A -> A)
func (s *mergeBaseSuite) TestMergeBaseWithSelf(c *C) {
revs := []string{"A", "A"}
expectedRevs := []string{"A"}
s.AssertMergeBase(c, revs, expectedRevs)
}
// TestMergeBaseWithAncestor validates that merge-base between a commit an its
// ancestor returns the ancestor (Q, N -> N)
func (s *mergeBaseSuite) TestMergeBaseWithAncestor(c *C) {
revs := []string{"Q", "N"}
expectedRevs := []string{"N"}
s.AssertMergeBase(c, revs, expectedRevs)
}
// TestDoubleCommonAncestorInCrossMerge validates that merge-base returns two
// common ancestors when there are cross merges (C, D -> CD1, CD2)
func (s *mergeBaseSuite) TestDoubleCommonAncestorInCrossMerge(c *C) {
revs := []string{"C", "D"}
expectedRevs := []string{"CD1", "CD2"}
s.AssertMergeBase(c, revs, expectedRevs)
}
// TestDoubleCommonInSubFeatureBranches validates that merge-base returns two
// common ancestors when two branches where partially merged (G, Q -> GQ1, GQ2)
func (s *mergeBaseSuite) TestDoubleCommonInSubFeatureBranches(c *C) {
revs := []string{"G", "Q"}
expectedRevs := []string{"GQ1", "GQ2"}
s.AssertMergeBase(c, revs, expectedRevs)
}
// TestIndependentOnlyOne validates that Independents for one commit returns
// that same commit (A -> A)
func (s *mergeBaseSuite) TestIndependentOnlyOne(c *C) {
revs := []string{"A"}
expectedRevs := []string{"A"}
s.AssertIndependents(c, revs, expectedRevs)
}
// TestIndependentOnlyRepeated validates that Independents for one repeated commit
// returns that same commit (A, A, A -> A)
func (s *mergeBaseSuite) TestIndependentOnlyRepeated(c *C) {
revs := []string{"A", "A", "A"}
expectedRevs := []string{"A"}
s.AssertIndependents(c, revs, expectedRevs)
}
// TestIndependentWithRepeatedAncestors validates that Independents works well
// when there are repeated ancestors (A, A, M, M, N -> A, N)
func (s *mergeBaseSuite) TestIndependentWithRepeatedAncestors(c *C) {
revs := []string{"A", "A", "M", "M", "N"}
expectedRevs := []string{"A", "N"}
s.AssertIndependents(c, revs, expectedRevs)
}
// TestIndependentBeyondShortcut validates that Independents does not stop walking
// in all paths when one of them is known (S, G, P -> S, G)
func (s *mergeBaseSuite) TestIndependentBeyondShortcut(c *C) {
revs := []string{"S", "G", "P"}
expectedRevs := []string{"S", "G"}
s.AssertIndependents(c, revs, expectedRevs)
}
// TestIndependentBeyondShortcutBis validates that Independents does not stop walking
// in all paths when one of them is known (CD1, CD2, M, N -> CD1, CD2)
func (s *mergeBaseSuite) TestIndependentBeyondShortcutBis(c *C) {
revs := []string{"CD1", "CD2", "M", "N"}
expectedRevs := []string{"CD1", "CD2"}
s.AssertIndependents(c, revs, expectedRevs)
}
// TestIndependentWithPairOfAncestors validates that Independents excluded all
// the ancestors (C, D, M, N -> C, D)
func (s *mergeBaseSuite) TestIndependentWithPairOfAncestors(c *C) {
revs := []string{"C", "D", "M", "N"}
expectedRevs := []string{"C", "D"}
s.AssertIndependents(c, revs, expectedRevs)
}
// TestIndependentAcrossCrossMerges validates that Independents works well
// along cross merges (C, G, dev, M -> C, G, dev)
func (s *mergeBaseSuite) TestIndependentAcrossCrossMerges(c *C) {
revs := []string{"C", "G", "dev", "M", "N"}
expectedRevs := []string{"C", "G", "dev"}
s.AssertIndependents(c, revs, expectedRevs)
}
// TestIndependentChangingOrderRepetition validates that Independents works well
// when the order and repetition is tricky (A, A^, A, N, N^ -> A, N)
func (s *mergeBaseSuite) TestIndependentChangingOrderRepetition(c *C) {
revs := []string{"A", "A^", "A", "N", "N^"}
expectedRevs := []string{"A", "N"}
s.AssertIndependents(c, revs, expectedRevs)
}
// TestIndependentChangingOrder validates that Independents works well
// when the order is tricky (A^^^, A^, A^^, A, N -> A, N)
func (s *mergeBaseSuite) TestIndependentChangingOrder(c *C) {
revs := []string{"A^^^", "A^", "A^^", "A", "N"}
expectedRevs := []string{"A", "N"}
s.AssertIndependents(c, revs, expectedRevs)
}
// TestAncestor validates that IsAncestor returns true if walking from first
// commit, through its parents, it can be reached the second ( A^^, A -> true )
func (s *mergeBaseSuite) TestAncestor(c *C) {
revs := []string{"A^^", "A"}
s.AssertAncestor(c, revs, true)
revs = []string{"A", "A^^"}
s.AssertAncestor(c, revs, false)
}
// TestAncestorBeyondMerges validates that IsAncestor returns true also if first can be
// be reached from first one even crossing merge commits in between ( M, G -> true )
func (s *mergeBaseSuite) TestAncestorBeyondMerges(c *C) {
revs := []string{"M", "G"}
s.AssertAncestor(c, revs, true)
revs = []string{"G", "M"}
s.AssertAncestor(c, revs, false)
}
// TestAncestorSame validates that IsAncestor returns both are the same ( A, A -> true )
func (s *mergeBaseSuite) TestAncestorSame(c *C) {
revs := []string{"A", "A"}
s.AssertAncestor(c, revs, true)
}
// TestAncestorUnrelated validates that IsAncestor returns false when the passed commits
// does not share any history, no matter the order used ( M, N -> false )
func (s *mergeBaseSuite) TestAncestorUnrelated(c *C) {
revs := []string{"M", "N"}
s.AssertAncestor(c, revs, false)
revs = []string{"N", "M"}
s.AssertAncestor(c, revs, false)
}
|
