src/cmd/compile/internal/ssa/biasedsparsemap.go - go - Git at Google

 // Copyright 2018 The Go Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 package ssa

 import (
 	"cmd/internal/src"
 	"math"
 )

 // A biasedSparseMap is a sparseMap for integers between J and K inclusive,
 // where J might be somewhat larger than zero (and K-J is probably much smaller than J).
 // (The motivating use case is the line numbers of statements for a single function.)
 // Not all features of a SparseMap are exported, and it is also easy to treat a
 // biasedSparseMap like a SparseSet.
 type biasedSparseMap struct {
 	s     *sparseMap
 	first int
 }

 // newBiasedSparseMap returns a new biasedSparseMap for values between first and last, inclusive.
 func newBiasedSparseMap(first, last int) *biasedSparseMap {
 	if first > last {
 		return &biasedSparseMap{first: math.MaxInt32, s: nil}
 	}
 	return &biasedSparseMap{first: first, s: newSparseMap(1 + last - first)}
 }

 // cap returns one more than the largest key valid for s
 func (s *biasedSparseMap) cap() int {
 	if s == nil || s.s == nil {
 		return 0
 	}
 	return s.s.cap() + int(s.first)
 }

 // size returns the number of entries stored in s
 func (s *biasedSparseMap) size() int {
 	if s == nil || s.s == nil {
 		return 0
 	}
 	return s.s.size()
 }

 // contains reports whether x is a key in s
 func (s *biasedSparseMap) contains(x uint) bool {
 	if s == nil || s.s == nil {
 		return false
 	}
 	if int(x) < s.first {
 		return false
 	}
 	if int(x) >= s.cap() {
 		return false
 	}
 	return s.s.contains(ID(int(x) - s.first))
 }

 // get returns the value s maps for key x, or -1 if
 // x is not mapped or is out of range for s.
 func (s *biasedSparseMap) get(x uint) int32 {
 	if s == nil || s.s == nil {
 		return -1
 	}
 	if int(x) < s.first {
 		return -1
 	}
 	if int(x) >= s.cap() {
 		return -1
 	}
 	return s.s.get(ID(int(x) - s.first))
 }

 // getEntry returns the i'th key and value stored in s,
 // where 0 <= i < s.size()
 func (s *biasedSparseMap) getEntry(i int) (x uint, v int32) {
 	e := s.s.contents()[i]
 	x = uint(int(e.key) + s.first)
 	v = e.val
 	return
 }

 // add inserts x->0 into s, provided that x is in the range of keys stored in s.
 func (s *biasedSparseMap) add(x uint) {
 	if int(x) < s.first || int(x) >= s.cap() {
 		return
 	}
 	s.s.set(ID(int(x)-s.first), 0, src.NoXPos)
 }

 // add inserts x->v into s, provided that x is in the range of keys stored in s.
 func (s *biasedSparseMap) set(x uint, v int32) {
 	if int(x) < s.first || int(x) >= s.cap() {
 		return
 	}
 	s.s.set(ID(int(x)-s.first), v, src.NoXPos)
 }

 // remove removes key x from s.
 func (s *biasedSparseMap) remove(x uint) {
 	if int(x) < s.first || int(x) >= s.cap() {
 		return
 	}
 	s.s.remove(ID(int(x) - s.first))
 }

 func (s *biasedSparseMap) clear() {
 	if s.s != nil {
 		s.s.clear()
 	}
 }
	// Copyright 2018 The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	package ssa

	import (
	"cmd/internal/src"
	"math"
	)

	// A biasedSparseMap is a sparseMap for integers between J and K inclusive,
	// where J might be somewhat larger than zero (and K-J is probably much smaller than J).
	// (The motivating use case is the line numbers of statements for a single function.)
	// Not all features of a SparseMap are exported, and it is also easy to treat a
	// biasedSparseMap like a SparseSet.
	type biasedSparseMap struct {
	s *sparseMap
	first int
	}

	// newBiasedSparseMap returns a new biasedSparseMap for values between first and last, inclusive.
	func newBiasedSparseMap(first, last int) *biasedSparseMap {
	if first > last {
	return &biasedSparseMap{first: math.MaxInt32, s: nil}
	}
	return &biasedSparseMap{first: first, s: newSparseMap(1 + last - first)}
	}

	// cap returns one more than the largest key valid for s
	func (s *biasedSparseMap) cap() int {
	if s == nil \|\| s.s == nil {
	return 0
	}
	return s.s.cap() + int(s.first)
	}

	// size returns the number of entries stored in s
	func (s *biasedSparseMap) size() int {
	if s == nil \|\| s.s == nil {
	return 0
	}
	return s.s.size()
	}

	// contains reports whether x is a key in s
	func (s *biasedSparseMap) contains(x uint) bool {
	if s == nil \|\| s.s == nil {
	return false
	}
	if int(x) < s.first {
	return false
	}
	if int(x) >= s.cap() {
	return false
	}
	return s.s.contains(ID(int(x) - s.first))
	}

	// get returns the value s maps for key x, or -1 if
	// x is not mapped or is out of range for s.
	func (s *biasedSparseMap) get(x uint) int32 {
	if s == nil \|\| s.s == nil {
	return -1
	}
	if int(x) < s.first {
	return -1
	}
	if int(x) >= s.cap() {
	return -1
	}
	return s.s.get(ID(int(x) - s.first))
	}

	// getEntry returns the i'th key and value stored in s,
	// where 0 <= i < s.size()
	func (s *biasedSparseMap) getEntry(i int) (x uint, v int32) {
	e := s.s.contents()[i]
	x = uint(int(e.key) + s.first)
	v = e.val
	return
	}

	// add inserts x->0 into s, provided that x is in the range of keys stored in s.
	func (s *biasedSparseMap) add(x uint) {
	if int(x) < s.first \|\| int(x) >= s.cap() {
	return
	}
	s.s.set(ID(int(x)-s.first), 0, src.NoXPos)
	}

	// add inserts x->v into s, provided that x is in the range of keys stored in s.
	func (s *biasedSparseMap) set(x uint, v int32) {
	if int(x) < s.first \|\| int(x) >= s.cap() {
	return
	}
	s.s.set(ID(int(x)-s.first), v, src.NoXPos)
	}

	// remove removes key x from s.
	func (s *biasedSparseMap) remove(x uint) {
	if int(x) < s.first \|\| int(x) >= s.cap() {
	return
	}
	s.s.remove(ID(int(x) - s.first))
	}

	func (s *biasedSparseMap) clear() {
	if s.s != nil {
	s.s.clear()
	}
	}