mirror of
https://github.com/octoleo/restic.git
synced 2024-12-04 02:48:21 +00:00
2b39f9f4b2
Among others, this updates minio-go, so that the new "eu-west-3" zone for AWS is supported.
291 lines
7.1 KiB
Go
291 lines
7.1 KiB
Go
// Copyright 2012 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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// The trie in this file is used to associate the first full character
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// in a UTF-8 string to a collation element.
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// All but the last byte in a UTF-8 byte sequence are
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// used to look up offsets in the index table to be used for the next byte.
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// The last byte is used to index into a table of collation elements.
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// This file contains the code for the generation of the trie.
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package build
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import (
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"fmt"
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"hash/fnv"
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"io"
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"reflect"
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)
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const (
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blockSize = 64
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blockOffset = 2 // Subtract 2 blocks to compensate for the 0x80 added to continuation bytes.
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)
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type trieHandle struct {
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lookupStart uint16 // offset in table for first byte
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valueStart uint16 // offset in table for first byte
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}
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type trie struct {
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index []uint16
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values []uint32
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}
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// trieNode is the intermediate trie structure used for generating a trie.
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type trieNode struct {
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index []*trieNode
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value []uint32
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b byte
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refValue uint16
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refIndex uint16
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}
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func newNode() *trieNode {
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return &trieNode{
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index: make([]*trieNode, 64),
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value: make([]uint32, 128), // root node size is 128 instead of 64
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}
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}
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func (n *trieNode) isInternal() bool {
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return n.value != nil
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}
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func (n *trieNode) insert(r rune, value uint32) {
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const maskx = 0x3F // mask out two most-significant bits
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str := string(r)
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if len(str) == 1 {
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n.value[str[0]] = value
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return
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}
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for i := 0; i < len(str)-1; i++ {
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b := str[i] & maskx
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if n.index == nil {
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n.index = make([]*trieNode, blockSize)
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}
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nn := n.index[b]
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if nn == nil {
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nn = &trieNode{}
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nn.b = b
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n.index[b] = nn
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}
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n = nn
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}
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if n.value == nil {
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n.value = make([]uint32, blockSize)
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}
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b := str[len(str)-1] & maskx
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n.value[b] = value
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}
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type trieBuilder struct {
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t *trie
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roots []*trieHandle
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lookupBlocks []*trieNode
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valueBlocks []*trieNode
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lookupBlockIdx map[uint32]*trieNode
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valueBlockIdx map[uint32]*trieNode
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}
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func newTrieBuilder() *trieBuilder {
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index := &trieBuilder{}
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index.lookupBlocks = make([]*trieNode, 0)
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index.valueBlocks = make([]*trieNode, 0)
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index.lookupBlockIdx = make(map[uint32]*trieNode)
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index.valueBlockIdx = make(map[uint32]*trieNode)
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// The third nil is the default null block. The other two blocks
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// are used to guarantee an offset of at least 3 for each block.
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index.lookupBlocks = append(index.lookupBlocks, nil, nil, nil)
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index.t = &trie{}
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return index
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}
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func (b *trieBuilder) computeOffsets(n *trieNode) *trieNode {
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hasher := fnv.New32()
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if n.index != nil {
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for i, nn := range n.index {
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var vi, vv uint16
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if nn != nil {
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nn = b.computeOffsets(nn)
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n.index[i] = nn
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vi = nn.refIndex
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vv = nn.refValue
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}
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hasher.Write([]byte{byte(vi >> 8), byte(vi)})
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hasher.Write([]byte{byte(vv >> 8), byte(vv)})
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}
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h := hasher.Sum32()
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nn, ok := b.lookupBlockIdx[h]
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if !ok {
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n.refIndex = uint16(len(b.lookupBlocks)) - blockOffset
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b.lookupBlocks = append(b.lookupBlocks, n)
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b.lookupBlockIdx[h] = n
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} else {
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n = nn
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}
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} else {
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for _, v := range n.value {
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hasher.Write([]byte{byte(v >> 24), byte(v >> 16), byte(v >> 8), byte(v)})
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}
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h := hasher.Sum32()
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nn, ok := b.valueBlockIdx[h]
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if !ok {
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n.refValue = uint16(len(b.valueBlocks)) - blockOffset
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n.refIndex = n.refValue
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b.valueBlocks = append(b.valueBlocks, n)
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b.valueBlockIdx[h] = n
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} else {
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n = nn
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}
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}
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return n
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}
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func (b *trieBuilder) addStartValueBlock(n *trieNode) uint16 {
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hasher := fnv.New32()
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for _, v := range n.value[:2*blockSize] {
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hasher.Write([]byte{byte(v >> 24), byte(v >> 16), byte(v >> 8), byte(v)})
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}
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h := hasher.Sum32()
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nn, ok := b.valueBlockIdx[h]
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if !ok {
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n.refValue = uint16(len(b.valueBlocks))
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n.refIndex = n.refValue
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b.valueBlocks = append(b.valueBlocks, n)
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// Add a dummy block to accommodate the double block size.
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b.valueBlocks = append(b.valueBlocks, nil)
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b.valueBlockIdx[h] = n
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} else {
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n = nn
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}
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return n.refValue
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}
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func genValueBlock(t *trie, n *trieNode) {
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if n != nil {
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for _, v := range n.value {
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t.values = append(t.values, v)
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}
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}
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}
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func genLookupBlock(t *trie, n *trieNode) {
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for _, nn := range n.index {
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v := uint16(0)
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if nn != nil {
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if n.index != nil {
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v = nn.refIndex
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} else {
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v = nn.refValue
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}
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}
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t.index = append(t.index, v)
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}
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}
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func (b *trieBuilder) addTrie(n *trieNode) *trieHandle {
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h := &trieHandle{}
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b.roots = append(b.roots, h)
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h.valueStart = b.addStartValueBlock(n)
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if len(b.roots) == 1 {
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// We insert a null block after the first start value block.
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// This ensures that continuation bytes UTF-8 sequences of length
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// greater than 2 will automatically hit a null block if there
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// was an undefined entry.
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b.valueBlocks = append(b.valueBlocks, nil)
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}
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n = b.computeOffsets(n)
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// Offset by one extra block as the first byte starts at 0xC0 instead of 0x80.
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h.lookupStart = n.refIndex - 1
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return h
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}
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// generate generates and returns the trie for n.
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func (b *trieBuilder) generate() (t *trie, err error) {
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t = b.t
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if len(b.valueBlocks) >= 1<<16 {
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return nil, fmt.Errorf("maximum number of value blocks exceeded (%d > %d)", len(b.valueBlocks), 1<<16)
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}
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if len(b.lookupBlocks) >= 1<<16 {
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return nil, fmt.Errorf("maximum number of lookup blocks exceeded (%d > %d)", len(b.lookupBlocks), 1<<16)
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}
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genValueBlock(t, b.valueBlocks[0])
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genValueBlock(t, &trieNode{value: make([]uint32, 64)})
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for i := 2; i < len(b.valueBlocks); i++ {
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genValueBlock(t, b.valueBlocks[i])
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}
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n := &trieNode{index: make([]*trieNode, 64)}
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genLookupBlock(t, n)
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genLookupBlock(t, n)
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genLookupBlock(t, n)
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for i := 3; i < len(b.lookupBlocks); i++ {
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genLookupBlock(t, b.lookupBlocks[i])
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}
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return b.t, nil
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}
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func (t *trie) printArrays(w io.Writer, name string) (n, size int, err error) {
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p := func(f string, a ...interface{}) {
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nn, e := fmt.Fprintf(w, f, a...)
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n += nn
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if err == nil {
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err = e
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}
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}
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nv := len(t.values)
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p("// %sValues: %d entries, %d bytes\n", name, nv, nv*4)
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p("// Block 2 is the null block.\n")
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p("var %sValues = [%d]uint32 {", name, nv)
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var printnewline bool
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for i, v := range t.values {
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if i%blockSize == 0 {
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p("\n\t// Block %#x, offset %#x", i/blockSize, i)
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}
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if i%4 == 0 {
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printnewline = true
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}
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if v != 0 {
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if printnewline {
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p("\n\t")
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printnewline = false
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}
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p("%#04x:%#08x, ", i, v)
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}
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}
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p("\n}\n\n")
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ni := len(t.index)
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p("// %sLookup: %d entries, %d bytes\n", name, ni, ni*2)
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p("// Block 0 is the null block.\n")
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p("var %sLookup = [%d]uint16 {", name, ni)
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printnewline = false
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for i, v := range t.index {
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if i%blockSize == 0 {
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p("\n\t// Block %#x, offset %#x", i/blockSize, i)
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}
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if i%8 == 0 {
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printnewline = true
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}
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if v != 0 {
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if printnewline {
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p("\n\t")
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printnewline = false
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}
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p("%#03x:%#02x, ", i, v)
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}
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}
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p("\n}\n\n")
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return n, nv*4 + ni*2, err
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}
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func (t *trie) printStruct(w io.Writer, handle *trieHandle, name string) (n, sz int, err error) {
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const msg = "trie{ %sLookup[%d:], %sValues[%d:], %sLookup[:], %sValues[:]}"
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n, err = fmt.Fprintf(w, msg, name, handle.lookupStart*blockSize, name, handle.valueStart*blockSize, name, name)
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sz += int(reflect.TypeOf(trie{}).Size())
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return
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}
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