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Kirill Smelkov
wendelin.core
Commits
abf4ac63
Commit
abf4ac63
authored
May 15, 2021
by
Kirill Smelkov
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bb76489c
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89 additions
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84 deletions
+89
-84
wcfs/pptreesubset.go
wcfs/pptreesubset.go
+89
-84
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wcfs/pptreesubset.go
View file @
abf4ac63
...
...
@@ -26,6 +26,7 @@ import (
"lab.nexedi.com/kirr/neo/go/zodb"
)
const
debugPPSet
=
false
// PPTreeSubSet repesents PP-connected subset of tree node objects.
//
...
...
@@ -55,66 +56,6 @@ type nodeInTree struct {
// XXX + [lo,hi) range this node is coming under in its parent
}
// ΔPPTreeSubSet represents a change to PPTreeSubSet.
//
// It can be applied via PPTreeSubSet.ApplyΔ .
//
// The result B of applying δ to A is:
//
// B = A.xDifference(δ.Del).xUnion(δ.Add) (*)
//
// (*) NOTE δ.Del and δ.Add might have their leafs starting from non-leaf nodes in A/B.
// This situation arises when δ represents a change in path to particular
// node, but that node itself does not change, for example:
//
// c* c
// / \ /
// 41* 42 41
// | | | \
// 22 43 46 43
// | | |
// 44 22 44
//
// Here nodes {c, 41} are changed, node 42 is unlinked, and node 46 is added.
// Nodes 43 and 44 stay unchanged.
//
// δ.Del = c-42-43 | c-41-22
// δ.Add = c-41-43 | c-41-46-22
//
// The second component with "-22" builds from leaf, but the first
// component with "-43" builds from non-leaf node.
//
// δnchildNonLeafs = {43: +1}
//
// Only complete result of applying all
//
// - xfixup(-1, δnchildNonLeafs)
// - δ.Del,
// - δ.Add, and
// - xfixup(+1, δnchildNonLeafs)
//
// produce correctly PP-connected set.
type
ΔPPTreeSubSet
struct
{
Del
PPTreeSubSet
Add
PPTreeSubSet
δnchildNonLeafs
map
[
zodb
.
Oid
]
int
}
// Update updates δ to be combination of δ+δ2.
func
(
δ
*
ΔPPTreeSubSet
)
Update
(
δ2
*
ΔPPTreeSubSet
)
{
δ
.
Del
.
UnionInplace
(
δ2
.
Del
)
δ
.
Add
.
UnionInplace
(
δ2
.
Add
)
for
oid
,
δnc
:=
range
δ2
.
δnchildNonLeafs
{
δ
.
δnchildNonLeafs
[
oid
]
+=
δnc
}
}
// Reverse changes δ=diff(A->B) to δ'=diff(A<-B).
func
(
δ
*
ΔPPTreeSubSet
)
Reverse
()
{
δ
.
Del
,
δ
.
Add
=
δ
.
Add
,
δ
.
Del
// δnchildNonLeafs stays the same
}
// verify checks internal consistency of S.
func
(
S
PPTreeSubSet
)
verify
()
{
...
...
@@ -316,29 +257,6 @@ func (A PPTreeSubSet) UnionInplace(B PPTreeSubSet) {
A
.
xUnionInplace
(
B
)
}
// ApplyΔ applies δ to S.
//
// See ΔPPTreeSubSet documentation for details.
func
(
S
PPTreeSubSet
)
ApplyΔ
(
δ
*
ΔPPTreeSubSet
)
{
if
debugPPSet
{
fmt
.
Printf
(
"
\n\n
ApplyΔ
\n
"
)
fmt
.
Printf
(
" A: %s
\n
"
,
S
)
fmt
.
Printf
(
" -: %s
\n
"
,
δ
.
Del
)
fmt
.
Printf
(
" +: %s
\n
"
,
δ
.
Add
)
fmt
.
Printf
(
" x: %v
\n
"
,
δ
.
δnchildNonLeafs
)
defer
fmt
.
Printf
(
"
\n
->B: %s
\n
"
,
S
)
}
S
.
verify
()
δ
.
Del
.
verify
()
δ
.
Add
.
verify
()
defer
S
.
verify
()
S
.
xfixup
(
-
1
,
δ
.
δnchildNonLeafs
)
S
.
xDifferenceInplace
(
δ
.
Del
)
S
.
xUnionInplace
(
δ
.
Add
)
S
.
xfixup
(
+
1
,
δ
.
δnchildNonLeafs
)
}
// Path returns path leading to node specified by oid.
//
...
...
@@ -461,4 +379,91 @@ func (t nodeInTree) String() string {
return
fmt
.
Sprintf
(
"{p%s c%d}"
,
t
.
parent
,
t
.
nchild
)
}
const
debugPPSet
=
false
// ---- diff/patch ----
// ΔPPTreeSubSet represents a change to PPTreeSubSet.
//
// It can be applied via PPTreeSubSet.ApplyΔ .
//
// The result B of applying δ to A is:
//
// B = A.xDifference(δ.Del).xUnion(δ.Add) (*)
//
// (*) NOTE δ.Del and δ.Add might have their leafs starting from non-leaf nodes in A/B.
// This situation arises when δ represents a change in path to particular
// node, but that node itself does not change, for example:
//
// c* c
// / \ /
// 41* 42 41
// | | | \
// 22 43 46 43
// | | |
// 44 22 44
//
// Here nodes {c, 41} are changed, node 42 is unlinked, and node 46 is added.
// Nodes 43 and 44 stay unchanged.
//
// δ.Del = c-42-43 | c-41-22
// δ.Add = c-41-43 | c-41-46-22
//
// The second component with "-22" builds from leaf, but the first
// component with "-43" builds from non-leaf node.
//
// δnchildNonLeafs = {43: +1}
//
// Only complete result of applying all
//
// - xfixup(-1, δnchildNonLeafs)
// - δ.Del,
// - δ.Add, and
// - xfixup(+1, δnchildNonLeafs)
//
// produce correctly PP-connected set.
type
ΔPPTreeSubSet
struct
{
Del
PPTreeSubSet
Add
PPTreeSubSet
δnchildNonLeafs
map
[
zodb
.
Oid
]
int
}
// Update updates δ to be combination of δ+δ2.
func
(
δ
*
ΔPPTreeSubSet
)
Update
(
δ2
*
ΔPPTreeSubSet
)
{
δ
.
Del
.
UnionInplace
(
δ2
.
Del
)
δ
.
Add
.
UnionInplace
(
δ2
.
Add
)
for
oid
,
δnc
:=
range
δ2
.
δnchildNonLeafs
{
δ
.
δnchildNonLeafs
[
oid
]
+=
δnc
}
}
// Reverse changes δ=diff(A->B) to δ'=diff(A<-B).
func
(
δ
*
ΔPPTreeSubSet
)
Reverse
()
{
δ
.
Del
,
δ
.
Add
=
δ
.
Add
,
δ
.
Del
// δnchildNonLeafs stays the same
}
// ApplyΔ applies δ to S.
//
// See ΔPPTreeSubSet documentation for details.
func
(
S
PPTreeSubSet
)
ApplyΔ
(
δ
*
ΔPPTreeSubSet
)
{
if
debugPPSet
{
fmt
.
Printf
(
"
\n\n
ApplyΔ
\n
"
)
fmt
.
Printf
(
" A: %s
\n
"
,
S
)
fmt
.
Printf
(
" -: %s
\n
"
,
δ
.
Del
)
fmt
.
Printf
(
" +: %s
\n
"
,
δ
.
Add
)
fmt
.
Printf
(
" x: %v
\n
"
,
δ
.
δnchildNonLeafs
)
defer
fmt
.
Printf
(
"
\n
->B: %s
\n
"
,
S
)
}
S
.
verify
()
δ
.
Del
.
verify
()
δ
.
Add
.
verify
()
defer
S
.
verify
()
S
.
xfixup
(
-
1
,
δ
.
δnchildNonLeafs
)
S
.
xDifferenceInplace
(
δ
.
Del
)
S
.
xUnionInplace
(
δ
.
Add
)
S
.
xfixup
(
+
1
,
δ
.
δnchildNonLeafs
)
}
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