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vendor: github.com/willf/bitset v1.1.11

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The changes needed by opencontainers/selinux are now in a tagged
release. This will make our dependency slightly ahead of what's
used by opencontainers/selinux until a v1.6.1 is tagged.

full diff: https://github.com/willf/bitset/compare/d5bec3311243...v1.1.11

Signed-off-by: Sebastiaan van Stijn <github@gone.nl>
This commit is contained in:
Sebastiaan van Stijn
2020-09-15 15:14:04 +02:00
parent 5b3ac0c86f
commit a6fc9ca490
4 changed files with 75 additions and 22 deletions
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72
vendor/github.com/willf/bitset/bitset.go generated vendored
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@@ -138,6 +138,9 @@ func (b *BitSet) Len() uint {
// extendSetMaybe adds additional words to incorporate new bits if needed
func (b *BitSet) extendSetMaybe(i uint) {
if i >= b.length { // if we need more bits, make 'em
if i >= Cap() {
panic("You are exceeding the capacity")
}
nsize := wordsNeeded(i + 1)
if b.set == nil {
b.set = make([]uint64, nsize)
@@ -160,7 +163,12 @@ func (b *BitSet) Test(i uint) bool {
return b.set[i>>log2WordSize]&(1<<(i&(wordSize-1))) != 0
}
// Set bit i to 1
// Set bit i to 1, the capacity of the bitset is automatically
// increased accordingly.
// If i>= Cap(), this function will panic.
// Warning: using a very large value for 'i'
// may lead to a memory shortage and a panic: the caller is responsible
// for providing sensible parameters in line with their memory capacity.
func (b *BitSet) Set(i uint) *BitSet {
b.extendSetMaybe(i)
b.set[i>>log2WordSize] |= 1 << (i & (wordSize - 1))
@@ -176,7 +184,11 @@ func (b *BitSet) Clear(i uint) *BitSet {
return b
}
// SetTo sets bit i to value
// SetTo sets bit i to value.
// If i>= Cap(), this function will panic.
// Warning: using a very large value for 'i'
// may lead to a memory shortage and a panic: the caller is responsible
// for providing sensible parameters in line with their memory capacity.
func (b *BitSet) SetTo(i uint, value bool) *BitSet {
if value {
return b.Set(i)
@@ -184,7 +196,11 @@ func (b *BitSet) SetTo(i uint, value bool) *BitSet {
return b.Clear(i)
}
// Flip bit at i
// Flip bit at i.
// If i>= Cap(), this function will panic.
// Warning: using a very large value for 'i'
// may lead to a memory shortage and a panic: the caller is responsible
// for providing sensible parameters in line with their memory capacity.
func (b *BitSet) Flip(i uint) *BitSet {
if i >= b.length {
return b.Set(i)
@@ -193,26 +209,51 @@ func (b *BitSet) Flip(i uint) *BitSet {
return b
}
// Shrink shrinks BitSet to desired length in bits. It clears all bits > length
// and reduces the size and length of the set.
// Shrink shrinks BitSet so that the provided value is the last possible
// set value. It clears all bits > the provided index and reduces the size
// and length of the set.
//
// Note that the parameter value is not the new length in bits: it is the
// maximal value that can be stored in the bitset after the function call.
// The new length in bits is the parameter value + 1. Thus it is not possible
// to use this function to set the length to 0, the minimal value of the length
// after this function call is 1.
//
// A new slice is allocated to store the new bits, so you may see an increase in
// memory usage until the GC runs. Normally this should not be a problem, but if you
// have an extremely large BitSet its important to understand that the old BitSet will
// remain in memory until the GC frees it.
func (b *BitSet) Shrink(length uint) *BitSet {
idx := wordsNeeded(length + 1)
func (b *BitSet) Shrink(lastbitindex uint) *BitSet {
length := lastbitindex + 1
idx := wordsNeeded(length)
if idx > len(b.set) {
return b
}
shrunk := make([]uint64, idx)
copy(shrunk, b.set[:idx])
b.set = shrunk
b.length = length + 1
b.set[idx-1] &= (allBits >> (uint64(64) - uint64(length&(wordSize-1)) - 1))
b.length = length
b.set[idx-1] &= (allBits >> (uint64(64) - uint64(length&(wordSize-1))))
return b
}
// Compact shrinks BitSet to so that we preserve all set bits, while minimizing
// memory usage. Compact calls Shrink.
func (b *BitSet) Compact() *BitSet {
idx := len(b.set) - 1
for ; idx >= 0 && b.set[idx] == 0; idx-- {
}
newlength := uint((idx + 1) << log2WordSize)
if newlength >= b.length {
return b // nothing to do
}
if newlength > 0 {
return b.Shrink(newlength - 1)
}
// We preserve one word
return b.Shrink(63)
}
// InsertAt takes an index which indicates where a bit should be
// inserted. Then it shifts all the bits in the set to the left by 1, starting
// from the given index position, and sets the index position to 0.
@@ -323,6 +364,9 @@ func (b *BitSet) DeleteAt(i uint) *BitSet {
// including possibly the current index
// along with an error code (true = valid, false = no set bit found)
// for i,e := v.NextSet(0); e; i,e = v.NextSet(i + 1) {...}
//
// Users concerned with performance may want to use NextSetMany to
// retrieve several values at once.
func (b *BitSet) NextSet(i uint) (uint, bool) {
x := int(i >> log2WordSize)
if x >= len(b.set) {
@@ -358,6 +402,14 @@ func (b *BitSet) NextSet(i uint) (uint, bool) {
// j += 1
// }
//
//
// It is possible to retrieve all set bits as follow:
//
// indices := make([]uint, bitmap.Count())
// bitmap.NextSetMany(0, indices)
//
// However if bitmap.Count() is large, it might be preferable to
// use several calls to NextSetMany, for performance reasons.
func (b *BitSet) NextSetMany(i uint, buffer []uint) (uint, []uint) {
myanswer := buffer
capacity := cap(buffer)
@@ -809,7 +861,7 @@ func (b *BitSet) ReadFrom(stream io.Reader) (int64, error) {
newset := New(uint(length))
if uint64(newset.length) != length {
return 0, errors.New("Unmarshalling error: type mismatch")
return 0, errors.New("unmarshalling error: type mismatch")
}
// Read remaining bytes as set