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269 lines
6.7 KiB
269 lines
6.7 KiB
/*
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** lzcommon.c - Routines common to LZ compression / expansion.
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**
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** Author: DavidDi
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*/
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// Headers
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///////////
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#include "lz_common.h"
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#include "lz_buffers.h"
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#include "lzcommon.h"
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/*
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** bool LZInitTree(void);
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**
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** Initializes trees used in LZ compression.
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**
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** Arguments: none
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**
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** Returns: true/false
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**
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** Globals: RightChild[] and Parent[] arrays reset to NIL to begin
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** encoding.
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*/
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BOOL LZInitTree(PLZINFO pLZI)
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{
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INT i;
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/*
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** For i = 0 to RING_BUF_LEN - 1, rightChild[i] and leftChild[i] will be the
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** right and left children of node i. These nodes need not be initialized.
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** Also, parent[i] is the parent of node i. These are initialized to
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** NIL (= N), which stands for 'not used.'
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** For i = 0 to 255, rightChild[RING_BUF_LEN + i + 1] is the root of the tree
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** for strings that begin with character i. These are initialized to NIL.
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** n.b., there are 256 trees.
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*/
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if (!pLZI->rightChild) {
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if (!(pLZI->rightChild = (INT*)LocalAlloc(LPTR, (RING_BUF_LEN + 257) * sizeof(INT)))) {
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return(FALSE);
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}
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}
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if (!pLZI->leftChild) {
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if (!(pLZI->leftChild = (INT*)LocalAlloc(LPTR, (RING_BUF_LEN + 1) * sizeof(INT)))) {
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return(FALSE);
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}
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}
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if (!pLZI->parent) {
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if (!(pLZI->parent = (INT*)LocalAlloc(LPTR, (RING_BUF_LEN + 1) * sizeof(INT)))) {
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return(FALSE);
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}
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}
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for (i = RING_BUF_LEN + 1; i <= RING_BUF_LEN + 256; i++)
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pLZI->rightChild[i] = NIL;
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for (i = 0; i < RING_BUF_LEN; i++)
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pLZI->parent[i] = NIL;
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return(TRUE);
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}
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VOID
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LZFreeTree(PLZINFO pLZI)
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{
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// Sanity check
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if (!pLZI) {
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return;
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}
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if (pLZI->rightChild) {
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LocalFree((HLOCAL)pLZI->rightChild);
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pLZI->rightChild = NULL;
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}
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if (pLZI->leftChild) {
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LocalFree((HLOCAL)pLZI->leftChild);
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pLZI->leftChild = NULL;
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}
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if (pLZI->parent) {
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LocalFree((HLOCAL)pLZI->parent);
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pLZI->parent = NULL;
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}
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}
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/*
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** void LZInsertNode(int nodeToInsert, BOOL bDoArithmeticInsert);
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**
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** Inserts a new tree into the forest. Inserts string of length
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** cbMaxMatchLen, rgbyteRingBuf[r..r + cbMaxMatchLen - 1], into one of the trees
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** (rgbyteRingBuf[r]'th tree).
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**
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** Arguments: nodeToInsert - start of string in ring buffer to insert
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** (also, associated tree root)
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** bDoArithmeticInsert - flag for performing regular LZ node
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** insertion or arithmetic encoding node
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** insertion
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**
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** Returns: void
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**
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** Globals: cbCurMatch - set to length of longest match
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** iCurMatch - set to start index of longest matching string in
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** ring buffer
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**
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** N.b., if cbCurMatch == cbMaxMatchLen, we remove the old node in favor of
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** the new one, since the old node will be deleted sooner.
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*/
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VOID LZInsertNode(INT nodeToInsert, BOOL bDoArithmeticInsert, PLZINFO pLZI)
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{
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INT i, p, cmp, temp;
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BYTE FAR *key;
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// Sanity check
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if (!pLZI) {
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return;
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}
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cmp = 1;
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key = pLZI->rgbyteRingBuf + nodeToInsert;
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p = RING_BUF_LEN + 1 + key[0];
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pLZI->rightChild[nodeToInsert] = pLZI->leftChild[nodeToInsert] = NIL;
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pLZI->cbCurMatch = 0;
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FOREVER
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{
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if (cmp >= 0)
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{
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if (pLZI->rightChild[p] != NIL)
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p = pLZI->rightChild[p];
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else
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{
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pLZI->rightChild[p] = nodeToInsert;
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pLZI->parent[nodeToInsert] = p;
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return;
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}
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}
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else
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{
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if (pLZI->leftChild[p] != NIL)
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p = pLZI->leftChild[p];
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else
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{
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pLZI->leftChild[p] = nodeToInsert;
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pLZI->parent[nodeToInsert] = p;
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return;
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}
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}
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for (i = 1; i < pLZI->cbMaxMatchLen; i++)
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if ((cmp = key[i] - pLZI->rgbyteRingBuf[p + i]) != 0)
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break;
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if (bDoArithmeticInsert == TRUE)
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{
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// Do node insertion for arithmetic encoding.
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if (i > MAX_LITERAL_LEN)
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{
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if (i > pLZI->cbCurMatch)
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{
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pLZI->iCurMatch = (nodeToInsert - p) & (RING_BUF_LEN - 1);
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if ((pLZI->cbCurMatch = i) >= pLZI->cbMaxMatchLen)
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break;
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}
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else if (i == pLZI->cbCurMatch)
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{
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if ((temp = (nodeToInsert - p) & (RING_BUF_LEN - 1)) < pLZI->iCurMatch)
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pLZI->iCurMatch = temp;
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}
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}
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}
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else
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{
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// Do node insertion for LZ.
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if (i > pLZI->cbCurMatch)
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{
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pLZI->iCurMatch = p;
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if ((pLZI->cbCurMatch = i) >= pLZI->cbMaxMatchLen)
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break;
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}
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}
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}
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pLZI->parent[nodeToInsert] = pLZI->parent[p];
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pLZI->leftChild[nodeToInsert] = pLZI->leftChild[p];
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pLZI->rightChild[nodeToInsert] = pLZI->rightChild[p];
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pLZI->parent[pLZI->leftChild[p]] = nodeToInsert;
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pLZI->parent[pLZI->rightChild[p]] = nodeToInsert;
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if (pLZI->rightChild[pLZI->parent[p]] == p)
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pLZI->rightChild[pLZI->parent[p]] = nodeToInsert;
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else
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pLZI->leftChild[pLZI->parent[p]] = nodeToInsert;
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// Remove p.
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pLZI->parent[p] = NIL;
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return;
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}
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/*
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** void LZDeleteNode(int nodeToDelete);
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**
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** Delete a tree from the forest.
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**
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** Arguments: nodeToDelete - tree to delete from forest
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**
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** Returns: void
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**
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** Globals: Parent[], RightChild[], and LeftChild[] updated to reflect the
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** deletion of nodeToDelete.
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*/
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VOID LZDeleteNode(INT nodeToDelete, PLZINFO pLZI)
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{
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INT q;
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// Sanity check
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if (!pLZI) {
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return;
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}
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if (pLZI->parent[nodeToDelete] == NIL)
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// Tree nodeToDelete is not in the forest.
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return;
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if (pLZI->rightChild[nodeToDelete] == NIL)
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q = pLZI->leftChild[nodeToDelete];
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else if (pLZI->leftChild[nodeToDelete] == NIL)
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q = pLZI->rightChild[nodeToDelete];
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else
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{
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q = pLZI->leftChild[nodeToDelete];
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if (pLZI->rightChild[q] != NIL)
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{
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do
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{
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q = pLZI->rightChild[q];
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} while (pLZI->rightChild[q] != NIL);
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pLZI->rightChild[pLZI->parent[q]] = pLZI->leftChild[q];
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pLZI->parent[pLZI->leftChild[q]] = pLZI->parent[q];
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pLZI->leftChild[q] = pLZI->leftChild[nodeToDelete];
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pLZI->parent[pLZI->leftChild[nodeToDelete]] = q;
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}
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pLZI->rightChild[q] = pLZI->rightChild[nodeToDelete];
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pLZI->parent[pLZI->rightChild[nodeToDelete]] = q;
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}
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pLZI->parent[q] = pLZI->parent[nodeToDelete];
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if (pLZI->rightChild[pLZI->parent[nodeToDelete]] == nodeToDelete)
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pLZI->rightChild[pLZI->parent[nodeToDelete]] = q;
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else
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pLZI->leftChild[pLZI->parent[nodeToDelete]] = q;
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// Remove nodeToDelete.
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pLZI->parent[nodeToDelete] = NIL;
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return;
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}
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