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rclone/lib/ranges/ranges.go
Josh Soref d0888edc0a Spelling fixes 
Fix spelling of: above, already, anonymous, associated,
authentication, bandwidth, because, between, blocks, calculate,
candidates, cautious, changelog, cleaner, clipboard, command,
completely, concurrently, considered, constructs, corrupt, current,
daemon, dependencies, deprecated, directory, dispatcher, download,
eligible, ellipsis, encrypter, endpoint, entrieslist, essentially,
existing writers, existing, expires, filesystem, flushing, frequently,
hierarchy, however, implementation, implements, inaccurate,
individually, insensitive, longer, maximum, metadata, modified,
multipart, namedirfirst, nextcloud, obscured, opened, optional,
owncloud, pacific, passphrase, password, permanently, persimmon,
positive, potato, protocol, quota, receiving, recommends, referring,
requires, revisited, satisfied, satisfies, satisfy, semver,
serialized, session, storage, strategies, stringlist, successful,
supported, surprise, temporarily, temporary, transactions, unneeded,
update, uploads, wrapped

Signed-off-by: Josh Soref <jsoref@users.noreply.github.com>
2020-10-14 15:21:31 +01:00

298 lines
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// Package ranges provides the Ranges type for keeping track of byte
// ranges which may or may not be present in an object.
package ranges
import (
"sort"
)
// Range describes a single byte range
type Range struct {
Pos int64
Size int64
}
// End returns the end of the Range
func (r Range) End() int64 {
return r.Pos + r.Size
}
// IsEmpty true if the range has no size
func (r Range) IsEmpty() bool {
return r.Size <= 0
}
// Clip ensures r.End() <= offset by modifying r.Size if necessary
//
// if r.Pos > offset then a Range{Pos:0, Size:0} will be returned.
func (r *Range) Clip(offset int64) {
if r.End() <= offset {
return
}
r.Size -= r.End() - offset
if r.Size < 0 {
r.Pos = 0
r.Size = 0
}
}
func min(a, b int64) int64 {
if a < b {
return a
}
return b
}
func max(a, b int64) int64 {
if a > b {
return a
}
return b
}
// Intersection returns the common Range for two Range~s
//
// If there is no intersection then the Range returned will have
// IsEmpty() true
func (r Range) Intersection(b Range) (intersection Range) {
if (r.Pos >= b.Pos && r.Pos < b.End()) || (b.Pos >= r.Pos && b.Pos < r.End()) {
intersection.Pos = max(r.Pos, b.Pos)
intersection.Size = min(r.End(), b.End()) - intersection.Pos
}
return
}
// Ranges describes a number of Range segments. These should only be
// added with the Ranges.Insert function. The Ranges are kept sorted
// and coalesced to the minimum size.
type Ranges []Range
// merge the Range new into dest if possible
//
// dst.Pos must be >= src.Pos
//
// return true if merged
func merge(new, dst *Range) bool {
if new.End() < dst.Pos {
return false
}
if new.End() > dst.End() {
dst.Size = new.Size
} else {
dst.Size += dst.Pos - new.Pos
}
dst.Pos = new.Pos
return true
}
// coalesce ranges assuming an element has been inserted at i
func (rs *Ranges) coalesce(i int) {
ranges := *rs
var j int
startChop := i
endChop := i
// look at previous element too
if i > 0 && merge(&ranges[i-1], &ranges[i]) {
startChop = i - 1
}
for j = i; j < len(ranges)-1; j++ {
if !merge(&ranges[j], &ranges[j+1]) {
break
}
endChop = j + 1
}
if endChop > startChop {
// chop the unneeded ranges out
copy(ranges[startChop:], ranges[endChop:])
*rs = ranges[:len(ranges)-endChop+startChop]
}
}
// search finds the first Range in rs that has Pos >= r.Pos
//
// The return takes on values 0..len(rs) so may point beyond the end
// of the slice.
func (rs Ranges) search(r Range) int {
return sort.Search(len(rs), func(i int) bool {
return rs[i].Pos >= r.Pos
})
}
// Insert the new Range into a sorted and coalesced slice of
// Ranges. The result will be sorted and coalesced.
func (rs *Ranges) Insert(r Range) {
if r.IsEmpty() {
return
}
ranges := *rs
if len(ranges) == 0 {
ranges = append(ranges, r)
*rs = ranges
return
}
i := ranges.search(r)
if i == len(ranges) || !merge(&r, &ranges[i]) {
// insert into the range
ranges = append(ranges, Range{})
copy(ranges[i+1:], ranges[i:])
ranges[i] = r
*rs = ranges
}
rs.coalesce(i)
}
// Find searches for r in rs and returns the next present or absent
// Range. It returns:
//
// curr which is the Range found
// next is the Range which should be presented to Find next
// present shows whether curr is present or absent
//
// if !next.IsEmpty() then Find should be called again with r = next
// to retrieve the next Range.
//
// Note that r.Pos == curr.Pos always
func (rs Ranges) Find(r Range) (curr, next Range, present bool) {
if r.IsEmpty() {
return r, next, false
}
var intersection Range
i := rs.search(r)
if i > 0 {
prev := rs[i-1]
// we know prev.Pos < r.Pos so intersection.Pos == r.Pos
intersection = prev.Intersection(r)
if !intersection.IsEmpty() {
r.Pos = intersection.End()
r.Size -= intersection.Size
return intersection, r, true
}
}
if i >= len(rs) {
return r, Range{}, false
}
found := rs[i]
intersection = found.Intersection(r)
if intersection.IsEmpty() {
return r, Range{}, false
}
if r.Pos < intersection.Pos {
curr = Range{
Pos: r.Pos,
Size: intersection.Pos - r.Pos,
}
r.Pos = curr.End()
r.Size -= curr.Size
return curr, r, false
}
r.Pos = intersection.End()
r.Size -= intersection.Size
return intersection, r, true
}
// FoundRange is returned from FindAll
//
// It contains a Range and a boolean as to whether the range was
// Present or not.
type FoundRange struct {
R Range
Present bool
}
// FindAll repeatedly calls Find searching for r in rs and returning
// present or absent ranges.
//
// It returns a slice of FoundRange. Each element has a range and an
// indication of whether it was present or not.
func (rs Ranges) FindAll(r Range) (frs []FoundRange) {
for !r.IsEmpty() {
var fr FoundRange
fr.R, r, fr.Present = rs.Find(r)
frs = append(frs, fr)
}
return frs
}
// Present returns whether r can be satisfied by rs
func (rs Ranges) Present(r Range) (present bool) {
if r.IsEmpty() {
return true
}
_, next, present := rs.Find(r)
if !present {
return false
}
if next.IsEmpty() {
return true
}
return false
}
// Intersection works out which ranges out of rs are entirely
// contained within r and returns a new Ranges
func (rs Ranges) Intersection(r Range) (newRs Ranges) {
if len(rs) == 0 {
return rs
}
for !r.IsEmpty() {
var curr Range
var found bool
curr, r, found = rs.Find(r)
if found {
newRs.Insert(curr)
}
}
return newRs
}
// Equal returns true if rs == bs
func (rs Ranges) Equal(bs Ranges) bool {
if len(rs) != len(bs) {
return false
}
if rs == nil || bs == nil {
return true
}
for i := range rs {
if rs[i] != bs[i] {
return false
}
}
return true
}
// Size returns the total size of all the segments
func (rs Ranges) Size() (size int64) {
for _, r := range rs {
size += r.Size
}
return size
}
// FindMissing finds the initial part of r that is not in rs
//
// If r is entirely present in rs then r an empty block will be returned.
//
// If r is not present in rs then the block returned will have IsEmpty
// return true.
//
// If r is partially present in rs then a new block will be returned
// which starts with the first part of rs that isn't present in r. The
// End() for this block will be the same as originally passed in.
//
// For all returns rout.End() == r.End()
func (rs Ranges) FindMissing(r Range) (rout Range) {
rout = r
if r.IsEmpty() {
return rout
}
curr, _, present := rs.Find(r)
if !present {
// Initial block is not present
return rout
}
rout.Size -= curr.End() - rout.Pos
rout.Pos = curr.End()
return rout
}
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