tile38/vendor/github.com/streadway/amqp/allocator.go

package amqp

import (
	"bytes"
	"fmt"
	"math/big"
)

const (
	free      = 0
	allocated = 1
)

// allocator maintains a bitset of allocated numbers.
type allocator struct {
	pool *big.Int
	last int
	low  int
	high int
}

// NewAllocator reserves and frees integers out of a range between low and
// high.
//
// O(N) worst case space used, where N is maximum allocated, divided by
// sizeof(big.Word)
func newAllocator(low, high int) *allocator {
	return &allocator{
		pool: big.NewInt(0),
		last: low,
		low:  low,
		high: high,
	}
}

// String returns a string describing the contents of the allocator like
// "allocator[low..high] reserved..until"
//
// O(N) where N is high-low
func (a allocator) String() string {
	b := &bytes.Buffer{}
	fmt.Fprintf(b, "allocator[%d..%d]", a.low, a.high)

	for low := a.low; low <= a.high; low++ {
		high := low
		for a.reserved(high) && high <= a.high {
			high++
		}

		if high > low+1 {
			fmt.Fprintf(b, " %d..%d", low, high-1)
		} else if high > low {
			fmt.Fprintf(b, " %d", high-1)
		}

		low = high
	}
	return b.String()
}

// Next reserves and returns the next available number out of the range between
// low and high.  If no number is available, false is returned.
//
// O(N) worst case runtime where N is allocated, but usually O(1) due to a
// rolling index into the oldest allocation.
func (a *allocator) next() (int, bool) {
	wrapped := a.last

	// Find trailing bit
	for ; a.last <= a.high; a.last++ {
		if a.reserve(a.last) {
			return a.last, true
		}
	}

	// Find preceding free'd pool
	a.last = a.low

	for ; a.last < wrapped; a.last++ {
		if a.reserve(a.last) {
			return a.last, true
		}
	}

	return 0, false
}

// reserve claims the bit if it is not already claimed, returning true if
// successfully claimed.
func (a *allocator) reserve(n int) bool {
	if a.reserved(n) {
		return false
	}
	a.pool.SetBit(a.pool, n-a.low, allocated)
	return true
}

// reserved returns true if the integer has been allocated
func (a *allocator) reserved(n int) bool {
	return a.pool.Bit(n-a.low) == allocated
}

// release frees the use of the number for another allocation
func (a *allocator) release(n int) {
	a.pool.SetBit(a.pool, n-a.low, free)
}
AMQP webhook support (#159) 2017-03-15 20:45:35 +03:00			`package amqp`

			`import (`
			`"bytes"`
			`"fmt"`
			`"math/big"`
			`)`

			`const (`
			`free = 0`
			`allocated = 1`
			`)`

			`// allocator maintains a bitset of allocated numbers.`
			`type allocator struct {`
			`pool *big.Int`
			`last int`
			`low int`
			`high int`
			`}`

			`// NewAllocator reserves and frees integers out of a range between low and`
			`// high.`
			`//`
			`// O(N) worst case space used, where N is maximum allocated, divided by`
			`// sizeof(big.Word)`
			`func newAllocator(low, high int) *allocator {`
			`return &allocator{`
			`pool: big.NewInt(0),`
			`last: low,`
			`low: low,`
			`high: high,`
			`}`
			`}`

			`// String returns a string describing the contents of the allocator like`
			`// "allocator[low..high] reserved..until"`
			`//`
			`// O(N) where N is high-low`
			`func (a allocator) String() string {`
			`b := &bytes.Buffer{}`
			`fmt.Fprintf(b, "allocator[%d..%d]", a.low, a.high)`

			`for low := a.low; low <= a.high; low++ {`
			`high := low`
			`for a.reserved(high) && high <= a.high {`
			`high++`
			`}`

			`if high > low+1 {`
			`fmt.Fprintf(b, " %d..%d", low, high-1)`
			`} else if high > low {`
			`fmt.Fprintf(b, " %d", high-1)`
			`}`

			`low = high`
			`}`
			`return b.String()`
			`}`

			`// Next reserves and returns the next available number out of the range between`
			`// low and high. If no number is available, false is returned.`
			`//`
			`// O(N) worst case runtime where N is allocated, but usually O(1) due to a`
			`// rolling index into the oldest allocation.`
			`func (a *allocator) next() (int, bool) {`
			`wrapped := a.last`

			`// Find trailing bit`
			`for ; a.last <= a.high; a.last++ {`
			`if a.reserve(a.last) {`
			`return a.last, true`
			`}`
			`}`

			`// Find preceding free'd pool`
			`a.last = a.low`

			`for ; a.last < wrapped; a.last++ {`
			`if a.reserve(a.last) {`
			`return a.last, true`
			`}`
			`}`

			`return 0, false`
			`}`

			`// reserve claims the bit if it is not already claimed, returning true if`
			`// successfully claimed.`
			`func (a *allocator) reserve(n int) bool {`
			`if a.reserved(n) {`
			`return false`
			`}`
			`a.pool.SetBit(a.pool, n-a.low, allocated)`
			`return true`
			`}`

			`// reserved returns true if the integer has been allocated`
			`func (a *allocator) reserved(n int) bool {`
			`return a.pool.Bit(n-a.low) == allocated`
			`}`

			`// release frees the use of the number for another allocation`
			`func (a *allocator) release(n int) {`
			`a.pool.SetBit(a.pool, n-a.low, free)`
			`}`