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go/ssa/interp/map.go
Alan Donovan 5db6491e90 go.tools/ssa/interp: fixes to equivalence relations.
- This change implements the correct type-based equivalence
  relation for aggregate types. e.g. comparison of struct
  types no longer compares the anonymous fields.  We do
  analogous things for hash().

- equals() and eqnil() have been separated: the former panics
  for uncomparable types, the latter permits comparisons of
  slice/map/func types against a literal nil and is intended
  for use only by "static" ssa.BinOp(EQL), not "dynamic" slice
  comparisons encountered during (e.g.) interface comparisons,
  which should panic regardless of operand nilness.

- we use a (global) typemap.Hasher to compute type hashes;
  hashing the Type.String() value was not sound.

+ tests.

NB, this change unearthed a bug in defer/recover within
init(); it will be fixed in a followup change.

R=gri, crawshaw
CC=golang-dev
https://golang.org/cl/13719043
2013-09-16 15:22:19 -04:00

114 lines
2.6 KiB
Go

// Copyright 2013 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 interp
// Custom hashtable atop map.
// For use when the key's equivalence relation is not consistent with ==.
// The Go specification doesn't address the atomicity of map operations.
// The FAQ states that an implementation is permitted to crash on
// concurrent map access.
import (
"code.google.com/p/go.tools/go/types"
)
type hashable interface {
hash(t types.Type) int
eq(t types.Type, x interface{}) bool
}
type entry struct {
key hashable
value value
next *entry
}
// A hashtable atop the built-in map. Since each bucket contains
// exactly one hash value, there's no need to perform hash-equality
// tests when walking the linked list. Rehashing is done by the
// underlying map.
type hashmap struct {
keyType types.Type
table map[int]*entry
length int // number of entries in map
}
// makeMap returns an empty initialized map of key type kt,
// preallocating space for reserve elements.
func makeMap(kt types.Type, reserve int) value {
if usesBuiltinMap(kt) {
return make(map[value]value, reserve)
}
return &hashmap{keyType: kt, table: make(map[int]*entry, reserve)}
}
// delete removes the association for key k, if any.
func (m *hashmap) delete(k hashable) {
if m != nil {
hash := k.hash(m.keyType)
head := m.table[hash]
if head != nil {
if k.eq(m.keyType, head.key) {
m.table[hash] = head.next
m.length--
return
}
prev := head
for e := head.next; e != nil; e = e.next {
if k.eq(m.keyType, e.key) {
prev.next = e.next
m.length--
return
}
prev = e
}
}
}
}
// lookup returns the value associated with key k, if present, or
// value(nil) otherwise.
func (m *hashmap) lookup(k hashable) value {
if m != nil {
hash := k.hash(m.keyType)
for e := m.table[hash]; e != nil; e = e.next {
if k.eq(m.keyType, e.key) {
return e.value
}
}
}
return nil
}
// insert updates the map to associate key k with value v. If there
// was already an association for an eq() (though not necessarily ==)
// k, the previous key remains in the map and its associated value is
// updated.
func (m *hashmap) insert(k hashable, v value) {
hash := k.hash(m.keyType)
head := m.table[hash]
for e := head; e != nil; e = e.next {
if k.eq(m.keyType, e.key) {
e.value = v
return
}
}
m.table[hash] = &entry{
key: k,
value: v,
next: head,
}
m.length++
}
// len returns the number of key/value associations in the map.
func (m *hashmap) len() int {
if m != nil {
return m.length
}
return 0
}