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https://git.uploadfilter24.eu/lerentis/terraform-provider-gitea.git
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524 lines
9.5 KiB
Go
524 lines
9.5 KiB
Go
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// Copyright 2014-2017 Ulrich Kunitz. 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 lzma
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import (
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"bufio"
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"errors"
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"fmt"
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"io"
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"unicode"
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)
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// node represents a node in the binary tree.
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type node struct {
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// x is the search value
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x uint32
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// p parent node
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p uint32
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// l left child
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l uint32
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// r right child
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r uint32
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}
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// wordLen is the number of bytes represented by the v field of a node.
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const wordLen = 4
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// binTree supports the identification of the next operation based on a
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// binary tree.
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//
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// Nodes will be identified by their index into the ring buffer.
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type binTree struct {
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dict *encoderDict
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// ring buffer of nodes
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node []node
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// absolute offset of the entry for the next node. Position 4
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// byte larger.
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hoff int64
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// front position in the node ring buffer
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front uint32
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// index of the root node
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root uint32
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// current x value
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x uint32
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// preallocated array
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data []byte
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}
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// null represents the nonexistent index. We can't use zero because it
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// would always exist or we would need to decrease the index for each
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// reference.
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const null uint32 = 1<<32 - 1
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// newBinTree initializes the binTree structure. The capacity defines
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// the size of the buffer and defines the maximum distance for which
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// matches will be found.
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func newBinTree(capacity int) (t *binTree, err error) {
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if capacity < 1 {
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return nil, errors.New(
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"newBinTree: capacity must be larger than zero")
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}
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if int64(capacity) >= int64(null) {
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return nil, errors.New(
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"newBinTree: capacity must less 2^{32}-1")
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}
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t = &binTree{
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node: make([]node, capacity),
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hoff: -int64(wordLen),
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root: null,
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data: make([]byte, maxMatchLen),
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}
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return t, nil
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}
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func (t *binTree) SetDict(d *encoderDict) { t.dict = d }
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// WriteByte writes a single byte into the binary tree.
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func (t *binTree) WriteByte(c byte) error {
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t.x = (t.x << 8) | uint32(c)
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t.hoff++
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if t.hoff < 0 {
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return nil
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}
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v := t.front
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if int64(v) < t.hoff {
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// We are overwriting old nodes stored in the tree.
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t.remove(v)
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}
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t.node[v].x = t.x
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t.add(v)
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t.front++
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if int64(t.front) >= int64(len(t.node)) {
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t.front = 0
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}
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return nil
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}
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// Writes writes a sequence of bytes into the binTree structure.
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func (t *binTree) Write(p []byte) (n int, err error) {
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for _, c := range p {
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t.WriteByte(c)
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}
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return len(p), nil
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}
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// add puts the node v into the tree. The node must not be part of the
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// tree before.
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func (t *binTree) add(v uint32) {
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vn := &t.node[v]
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// Set left and right to null indices.
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vn.l, vn.r = null, null
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// If the binary tree is empty make v the root.
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if t.root == null {
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t.root = v
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vn.p = null
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return
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}
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x := vn.x
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p := t.root
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// Search for the right leave link and add the new node.
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for {
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pn := &t.node[p]
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if x <= pn.x {
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if pn.l == null {
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pn.l = v
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vn.p = p
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return
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}
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p = pn.l
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} else {
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if pn.r == null {
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pn.r = v
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vn.p = p
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return
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}
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p = pn.r
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}
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}
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}
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// parent returns the parent node index of v and the pointer to v value
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// in the parent.
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func (t *binTree) parent(v uint32) (p uint32, ptr *uint32) {
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if t.root == v {
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return null, &t.root
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}
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p = t.node[v].p
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if t.node[p].l == v {
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ptr = &t.node[p].l
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} else {
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ptr = &t.node[p].r
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}
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return
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}
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// Remove node v.
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func (t *binTree) remove(v uint32) {
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vn := &t.node[v]
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p, ptr := t.parent(v)
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l, r := vn.l, vn.r
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if l == null {
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// Move the right child up.
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*ptr = r
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if r != null {
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t.node[r].p = p
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}
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return
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}
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if r == null {
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// Move the left child up.
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*ptr = l
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t.node[l].p = p
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return
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}
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// Search the in-order predecessor u.
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un := &t.node[l]
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ur := un.r
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if ur == null {
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// In order predecessor is l. Move it up.
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un.r = r
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t.node[r].p = l
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un.p = p
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*ptr = l
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return
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}
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var u uint32
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for {
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// Look for the max value in the tree where l is root.
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u = ur
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ur = t.node[u].r
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if ur == null {
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break
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}
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}
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// replace u with ul
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un = &t.node[u]
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ul := un.l
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up := un.p
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t.node[up].r = ul
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if ul != null {
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t.node[ul].p = up
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}
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// replace v by u
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un.l, un.r = l, r
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t.node[l].p = u
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t.node[r].p = u
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*ptr = u
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un.p = p
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}
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// search looks for the node that have the value x or for the nodes that
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// brace it. The node highest in the tree with the value x will be
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// returned. All other nodes with the same value live in left subtree of
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// the returned node.
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func (t *binTree) search(v uint32, x uint32) (a, b uint32) {
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a, b = null, null
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if v == null {
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return
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}
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for {
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vn := &t.node[v]
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if x <= vn.x {
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if x == vn.x {
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return v, v
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}
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b = v
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if vn.l == null {
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return
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}
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v = vn.l
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} else {
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a = v
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if vn.r == null {
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return
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}
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v = vn.r
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}
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}
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}
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// max returns the node with maximum value in the subtree with v as
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// root.
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func (t *binTree) max(v uint32) uint32 {
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if v == null {
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return null
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}
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for {
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r := t.node[v].r
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if r == null {
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return v
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}
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v = r
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}
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}
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// min returns the node with the minimum value in the subtree with v as
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// root.
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func (t *binTree) min(v uint32) uint32 {
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if v == null {
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return null
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}
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for {
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l := t.node[v].l
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if l == null {
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return v
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}
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v = l
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}
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}
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// pred returns the in-order predecessor of node v.
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func (t *binTree) pred(v uint32) uint32 {
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if v == null {
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return null
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}
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u := t.max(t.node[v].l)
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if u != null {
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return u
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}
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for {
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p := t.node[v].p
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if p == null {
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return null
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}
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if t.node[p].r == v {
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return p
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}
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v = p
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}
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}
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// succ returns the in-order successor of node v.
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func (t *binTree) succ(v uint32) uint32 {
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if v == null {
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return null
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}
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u := t.min(t.node[v].r)
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if u != null {
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return u
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}
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for {
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p := t.node[v].p
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if p == null {
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return null
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}
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if t.node[p].l == v {
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return p
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}
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v = p
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}
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}
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// xval converts the first four bytes of a into an 32-bit unsigned
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// integer in big-endian order.
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func xval(a []byte) uint32 {
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var x uint32
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switch len(a) {
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default:
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x |= uint32(a[3])
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fallthrough
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case 3:
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x |= uint32(a[2]) << 8
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fallthrough
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case 2:
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x |= uint32(a[1]) << 16
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fallthrough
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case 1:
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x |= uint32(a[0]) << 24
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case 0:
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}
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return x
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}
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// dumpX converts value x into a four-letter string.
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func dumpX(x uint32) string {
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a := make([]byte, 4)
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for i := 0; i < 4; i++ {
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c := byte(x >> uint((3-i)*8))
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if unicode.IsGraphic(rune(c)) {
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a[i] = c
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} else {
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a[i] = '.'
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}
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}
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return string(a)
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}
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// dumpNode writes a representation of the node v into the io.Writer.
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func (t *binTree) dumpNode(w io.Writer, v uint32, indent int) {
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if v == null {
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return
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}
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vn := &t.node[v]
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t.dumpNode(w, vn.r, indent+2)
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for i := 0; i < indent; i++ {
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fmt.Fprint(w, " ")
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}
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if vn.p == null {
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fmt.Fprintf(w, "node %d %q parent null\n", v, dumpX(vn.x))
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} else {
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fmt.Fprintf(w, "node %d %q parent %d\n", v, dumpX(vn.x), vn.p)
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}
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t.dumpNode(w, vn.l, indent+2)
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}
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// dump prints a representation of the binary tree into the writer.
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func (t *binTree) dump(w io.Writer) error {
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bw := bufio.NewWriter(w)
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t.dumpNode(bw, t.root, 0)
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return bw.Flush()
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}
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func (t *binTree) distance(v uint32) int {
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dist := int(t.front) - int(v)
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if dist <= 0 {
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dist += len(t.node)
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}
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return dist
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}
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type matchParams struct {
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rep [4]uint32
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// length when match will be accepted
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nAccept int
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// nodes to check
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check int
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// finish if length get shorter
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stopShorter bool
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}
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func (t *binTree) match(m match, distIter func() (int, bool), p matchParams,
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) (r match, checked int, accepted bool) {
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buf := &t.dict.buf
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for {
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if checked >= p.check {
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return m, checked, true
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}
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dist, ok := distIter()
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if !ok {
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return m, checked, false
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}
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checked++
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if m.n > 0 {
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i := buf.rear - dist + m.n - 1
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if i < 0 {
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i += len(buf.data)
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} else if i >= len(buf.data) {
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i -= len(buf.data)
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}
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if buf.data[i] != t.data[m.n-1] {
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if p.stopShorter {
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return m, checked, false
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}
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continue
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}
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}
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n := buf.matchLen(dist, t.data)
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switch n {
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case 0:
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if p.stopShorter {
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return m, checked, false
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}
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continue
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case 1:
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if uint32(dist-minDistance) != p.rep[0] {
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continue
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}
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}
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if n < m.n || (n == m.n && int64(dist) >= m.distance) {
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continue
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}
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m = match{int64(dist), n}
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if n >= p.nAccept {
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return m, checked, true
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}
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}
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}
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func (t *binTree) NextOp(rep [4]uint32) operation {
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// retrieve maxMatchLen data
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n, _ := t.dict.buf.Peek(t.data[:maxMatchLen])
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if n == 0 {
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panic("no data in buffer")
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}
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t.data = t.data[:n]
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var (
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m match
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x, u, v uint32
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iterPred, iterSucc func() (int, bool)
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)
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p := matchParams{
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rep: rep,
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nAccept: maxMatchLen,
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check: 32,
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}
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i := 4
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iterSmall := func() (dist int, ok bool) {
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i--
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if i <= 0 {
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return 0, false
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}
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return i, true
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}
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m, checked, accepted := t.match(m, iterSmall, p)
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if accepted {
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goto end
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}
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p.check -= checked
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x = xval(t.data)
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u, v = t.search(t.root, x)
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if u == v && len(t.data) == 4 {
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iter := func() (dist int, ok bool) {
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if u == null {
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return 0, false
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}
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dist = t.distance(u)
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u, v = t.search(t.node[u].l, x)
|
||
|
if u != v {
|
||
|
u = null
|
||
|
}
|
||
|
return dist, true
|
||
|
}
|
||
|
m, _, _ = t.match(m, iter, p)
|
||
|
goto end
|
||
|
}
|
||
|
p.stopShorter = true
|
||
|
iterSucc = func() (dist int, ok bool) {
|
||
|
if v == null {
|
||
|
return 0, false
|
||
|
}
|
||
|
dist = t.distance(v)
|
||
|
v = t.succ(v)
|
||
|
return dist, true
|
||
|
}
|
||
|
m, checked, accepted = t.match(m, iterSucc, p)
|
||
|
if accepted {
|
||
|
goto end
|
||
|
}
|
||
|
p.check -= checked
|
||
|
iterPred = func() (dist int, ok bool) {
|
||
|
if u == null {
|
||
|
return 0, false
|
||
|
}
|
||
|
dist = t.distance(u)
|
||
|
u = t.pred(u)
|
||
|
return dist, true
|
||
|
}
|
||
|
m, _, _ = t.match(m, iterPred, p)
|
||
|
end:
|
||
|
if m.n == 0 {
|
||
|
return lit{t.data[0]}
|
||
|
}
|
||
|
return m
|
||
|
}
|