mirror of
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309 lines
9.3 KiB
Go
309 lines
9.3 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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package build
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import (
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"fmt"
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"io"
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"reflect"
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"sort"
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"strings"
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"golang.org/x/text/internal/colltab"
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)
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// This file contains code for detecting contractions and generating
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// the necessary tables.
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// Any Unicode Collation Algorithm (UCA) table entry that has more than
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// one rune one the left-hand side is called a contraction.
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// See http://www.unicode.org/reports/tr10/#Contractions for more details.
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//
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// We define the following terms:
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// initial: a rune that appears as the first rune in a contraction.
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// suffix: a sequence of runes succeeding the initial rune
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// in a given contraction.
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// non-initial: a rune that appears in a suffix.
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//
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// A rune may be both an initial and a non-initial and may be so in
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// many contractions. An initial may typically also appear by itself.
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// In case of ambiguities, the UCA requires we match the longest
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// contraction.
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//
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// Many contraction rules share the same set of possible suffixes.
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// We store sets of suffixes in a trie that associates an index with
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// each suffix in the set. This index can be used to look up a
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// collation element associated with the (starter rune, suffix) pair.
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//
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// The trie is defined on a UTF-8 byte sequence.
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// The overall trie is represented as an array of ctEntries. Each node of the trie
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// is represented as a subsequence of ctEntries, where each entry corresponds to
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// a possible match of a next character in the search string. An entry
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// also includes the length and offset to the next sequence of entries
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// to check in case of a match.
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const (
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final = 0
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noIndex = 0xFF
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)
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// ctEntry associates to a matching byte an offset and/or next sequence of
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// bytes to check. A ctEntry c is called final if a match means that the
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// longest suffix has been found. An entry c is final if c.N == 0.
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// A single final entry can match a range of characters to an offset.
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// A non-final entry always matches a single byte. Note that a non-final
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// entry might still resemble a completed suffix.
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// Examples:
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// The suffix strings "ab" and "ac" can be represented as:
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// []ctEntry{
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// {'a', 1, 1, noIndex}, // 'a' by itself does not match, so i is 0xFF.
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// {'b', 'c', 0, 1}, // "ab" -> 1, "ac" -> 2
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// }
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//
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// The suffix strings "ab", "abc", "abd", and "abcd" can be represented as:
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// []ctEntry{
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// {'a', 1, 1, noIndex}, // 'a' must be followed by 'b'.
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// {'b', 1, 2, 1}, // "ab" -> 1, may be followed by 'c' or 'd'.
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// {'d', 'd', final, 3}, // "abd" -> 3
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// {'c', 4, 1, 2}, // "abc" -> 2, may be followed by 'd'.
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// {'d', 'd', final, 4}, // "abcd" -> 4
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// }
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// See genStateTests in contract_test.go for more examples.
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type ctEntry struct {
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L uint8 // non-final: byte value to match; final: lowest match in range.
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H uint8 // non-final: relative index to next block; final: highest match in range.
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N uint8 // non-final: length of next block; final: final
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I uint8 // result offset. Will be noIndex if more bytes are needed to complete.
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}
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// contractTrieSet holds a set of contraction tries. The tries are stored
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// consecutively in the entry field.
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type contractTrieSet []struct{ l, h, n, i uint8 }
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// ctHandle is used to identify a trie in the trie set, consisting in an offset
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// in the array and the size of the first node.
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type ctHandle struct {
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index, n int
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}
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// appendTrie adds a new trie for the given suffixes to the trie set and returns
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// a handle to it. The handle will be invalid on error.
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func appendTrie(ct *colltab.ContractTrieSet, suffixes []string) (ctHandle, error) {
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es := make([]stridx, len(suffixes))
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for i, s := range suffixes {
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es[i].str = s
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}
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sort.Sort(offsetSort(es))
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for i := range es {
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es[i].index = i + 1
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}
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sort.Sort(genidxSort(es))
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i := len(*ct)
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n, err := genStates(ct, es)
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if err != nil {
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*ct = (*ct)[:i]
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return ctHandle{}, err
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}
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return ctHandle{i, n}, nil
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}
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// genStates generates ctEntries for a given suffix set and returns
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// the number of entries for the first node.
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func genStates(ct *colltab.ContractTrieSet, sis []stridx) (int, error) {
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if len(sis) == 0 {
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return 0, fmt.Errorf("genStates: list of suffices must be non-empty")
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}
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start := len(*ct)
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// create entries for differing first bytes.
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for _, si := range sis {
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s := si.str
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if len(s) == 0 {
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continue
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}
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added := false
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c := s[0]
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if len(s) > 1 {
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for j := len(*ct) - 1; j >= start; j-- {
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if (*ct)[j].L == c {
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added = true
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break
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}
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}
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if !added {
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*ct = append(*ct, ctEntry{L: c, I: noIndex})
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}
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} else {
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for j := len(*ct) - 1; j >= start; j-- {
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// Update the offset for longer suffixes with the same byte.
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if (*ct)[j].L == c {
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(*ct)[j].I = uint8(si.index)
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added = true
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}
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// Extend range of final ctEntry, if possible.
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if (*ct)[j].H+1 == c {
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(*ct)[j].H = c
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added = true
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}
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}
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if !added {
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*ct = append(*ct, ctEntry{L: c, H: c, N: final, I: uint8(si.index)})
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}
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}
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}
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n := len(*ct) - start
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// Append nodes for the remainder of the suffixes for each ctEntry.
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sp := 0
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for i, end := start, len(*ct); i < end; i++ {
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fe := (*ct)[i]
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if fe.H == 0 { // uninitialized non-final
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ln := len(*ct) - start - n
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if ln > 0xFF {
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return 0, fmt.Errorf("genStates: relative block offset too large: %d > 255", ln)
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}
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fe.H = uint8(ln)
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// Find first non-final strings with same byte as current entry.
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for ; sis[sp].str[0] != fe.L; sp++ {
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}
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se := sp + 1
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for ; se < len(sis) && len(sis[se].str) > 1 && sis[se].str[0] == fe.L; se++ {
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}
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sl := sis[sp:se]
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sp = se
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for i, si := range sl {
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sl[i].str = si.str[1:]
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}
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nn, err := genStates(ct, sl)
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if err != nil {
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return 0, err
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}
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fe.N = uint8(nn)
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(*ct)[i] = fe
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}
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}
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sort.Sort(entrySort((*ct)[start : start+n]))
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return n, nil
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}
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// There may be both a final and non-final entry for a byte if the byte
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// is implied in a range of matches in the final entry.
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// We need to ensure that the non-final entry comes first in that case.
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type entrySort colltab.ContractTrieSet
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func (fe entrySort) Len() int { return len(fe) }
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func (fe entrySort) Swap(i, j int) { fe[i], fe[j] = fe[j], fe[i] }
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func (fe entrySort) Less(i, j int) bool {
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return fe[i].L > fe[j].L
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}
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// stridx is used for sorting suffixes and their associated offsets.
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type stridx struct {
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str string
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index int
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}
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// For computing the offsets, we first sort by size, and then by string.
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// This ensures that strings that only differ in the last byte by 1
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// are sorted consecutively in increasing order such that they can
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// be packed as a range in a final ctEntry.
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type offsetSort []stridx
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func (si offsetSort) Len() int { return len(si) }
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func (si offsetSort) Swap(i, j int) { si[i], si[j] = si[j], si[i] }
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func (si offsetSort) Less(i, j int) bool {
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if len(si[i].str) != len(si[j].str) {
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return len(si[i].str) > len(si[j].str)
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}
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return si[i].str < si[j].str
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}
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// For indexing, we want to ensure that strings are sorted in string order, where
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// for strings with the same prefix, we put longer strings before shorter ones.
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type genidxSort []stridx
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func (si genidxSort) Len() int { return len(si) }
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func (si genidxSort) Swap(i, j int) { si[i], si[j] = si[j], si[i] }
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func (si genidxSort) Less(i, j int) bool {
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if strings.HasPrefix(si[j].str, si[i].str) {
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return false
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}
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if strings.HasPrefix(si[i].str, si[j].str) {
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return true
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}
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return si[i].str < si[j].str
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}
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// lookup matches the longest suffix in str and returns the associated offset
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// and the number of bytes consumed.
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func lookup(ct *colltab.ContractTrieSet, h ctHandle, str []byte) (index, ns int) {
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states := (*ct)[h.index:]
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p := 0
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n := h.n
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for i := 0; i < n && p < len(str); {
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e := states[i]
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c := str[p]
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if c >= e.L {
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if e.L == c {
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p++
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if e.I != noIndex {
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index, ns = int(e.I), p
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}
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if e.N != final {
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// set to new state
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i, states, n = 0, states[int(e.H)+n:], int(e.N)
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} else {
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return
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}
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continue
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} else if e.N == final && c <= e.H {
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p++
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return int(c-e.L) + int(e.I), p
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}
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}
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i++
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}
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return
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}
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// print writes the contractTrieSet t as compilable Go code to w. It returns
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// the total number of bytes written and the size of the resulting data structure in bytes.
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func print(t *colltab.ContractTrieSet, w io.Writer, name string) (n, size int, err error) {
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update3 := func(nn, sz int, e error) {
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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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size += sz
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}
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update2 := func(nn int, e error) { update3(nn, 0, e) }
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update3(printArray(*t, w, name))
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update2(fmt.Fprintf(w, "var %sContractTrieSet = ", name))
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update3(printStruct(*t, w, name))
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update2(fmt.Fprintln(w))
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return
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}
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func printArray(ct colltab.ContractTrieSet, 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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size = len(ct) * 4
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p("// %sCTEntries: %d entries, %d bytes\n", name, len(ct), size)
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p("var %sCTEntries = [%d]struct{L,H,N,I uint8}{\n", name, len(ct))
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for _, fe := range ct {
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p("\t{0x%X, 0x%X, %d, %d},\n", fe.L, fe.H, fe.N, fe.I)
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}
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p("}\n")
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return
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}
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func printStruct(ct colltab.ContractTrieSet, w io.Writer, name string) (n, size int, err error) {
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n, err = fmt.Fprintf(w, "colltab.ContractTrieSet( %sCTEntries[:] )", name)
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size = int(reflect.TypeOf(ct).Size())
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return
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}
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