mirror of
https://github.com/HarbourMasters/Shipwright.git
synced 2024-11-30 05:12:18 -05:00
227 lines
5.9 KiB
C++
227 lines
5.9 KiB
C++
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#include <stdint.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include <list>
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#include "readwrite.h"
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#include "yaz0.h"
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typedef uint8_t u8;
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typedef uint16_t u16;
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typedef uint32_t u32;
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/* internal declarations */
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int yaz0_encode_internal(const u8* src, int srcSize, u8* Data);
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int yaz0_get_size(u8* src) { return U32(src + 0x4); }
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u32 toDWORD(u32 d) {
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u8 w1 = d & 0xFF;
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u8 w2 = (d >> 8) & 0xFF;
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u8 w3 = (d >> 16) & 0xFF;
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u8 w4 = d >> 24;
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return (w1 << 24) | (w2 << 16) | (w3 << 8) | w4;
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}
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// simple and straight encoding scheme for Yaz0
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u32 longest_match_brute(const u8* src, int size, int pos, u32* pMatchPos) {
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int startPos = pos - 0x1000;
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int max_match_size = size - pos;
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u32 best_match_size = 0;
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u32 best_match_pos = 0;
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if (max_match_size < 3) return 0;
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if (startPos < 0) startPos = 0;
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if (max_match_size > 0x111) max_match_size = 0x111;
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for (int i = startPos; i < pos; i++) {
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int current_size;
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for (current_size = 0; current_size < max_match_size; current_size++) {
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if (src[i + current_size] != src[pos + current_size]) {
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break;
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}
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}
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if (current_size > best_match_size) {
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best_match_size = current_size;
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best_match_pos = i;
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if (best_match_size == 0x111) break;
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}
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}
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*pMatchPos = best_match_pos;
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return best_match_size;
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}
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u32 longest_match_rabinkarp(const u8* src, int size, int pos, u32* match_pos) {
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int startPos = pos - 0x1000;
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int max_match_size = size - pos;
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u32 best_match_size = 0;
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u32 best_match_pos = 0;
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if (max_match_size < 3) return 0;
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if (startPos < 0) startPos = 0;
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if (max_match_size > 0x111) max_match_size = 0x111;
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int find_hash = src[pos] << 16 | src[pos + 1] << 8 | src[pos + 2];
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int current_hash = src[startPos] << 16 | src[startPos + 1] << 8 | src[startPos + 2];
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for (int i = startPos; i < pos; i++) {
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if(current_hash == find_hash) {
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int current_size;
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for (current_size = 3; current_size < max_match_size; current_size++) {
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if (src[i + current_size] != src[pos + current_size]) {
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break;
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}
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}
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if (current_size > best_match_size) {
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best_match_size = current_size;
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best_match_pos = i;
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if (best_match_size == 0x111) break;
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}
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}
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current_hash = (current_hash << 8 | src[i + 3]) & 0xFFFFFF;
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}
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*match_pos = best_match_pos;
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return best_match_size;
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}
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int yaz0_encode_internal(const u8* src, int srcSize, u8* Data) {
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int srcPos = 0;
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int bitmask = 0x80;
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u8 currCodeByte = 0;
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int currCodeBytePos = 0;
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int pos = currCodeBytePos + 1;
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while (srcPos < srcSize) {
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u32 numBytes;
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u32 matchPos;
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numBytes = longest_match_rabinkarp(src, srcSize, srcPos, &matchPos);
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//fprintf(stderr, "pos %x len %x pos %x\n", srcPos, (int)numBytes, (int)matchPos);
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if (numBytes < 3) {
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//fprintf(stderr, "single byte %02x\n", src[srcPos]);
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Data[pos++] = src[srcPos++];
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currCodeByte |= bitmask;
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} else {
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// RLE part
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u32 dist = srcPos - matchPos - 1;
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if (numBytes >= 0x12) // 3 byte encoding
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{
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Data[pos++] = dist >> 8; // 0R
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Data[pos++] = dist & 0xFF; // FF
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if (numBytes > 0xFF + 0x12) numBytes = 0xFF + 0x12;
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Data[pos++] = numBytes - 0x12;
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} else // 2 byte encoding
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{
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Data[pos++] = ((numBytes - 2) << 4) | (dist >> 8);
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Data[pos++] = dist & 0xFF;
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}
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srcPos += numBytes;
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}
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bitmask >>= 1;
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// write eight codes
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if (!bitmask) {
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Data[currCodeBytePos] = currCodeByte;
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currCodeBytePos = pos++;
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currCodeByte = 0;
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bitmask = 0x80;
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}
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}
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if (bitmask) {
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Data[currCodeBytePos] = currCodeByte;
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}
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return pos;
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}
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std::vector<uint8_t> yaz0_encode_fast(const u8* src, int src_size) {
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std::vector<uint8_t> buffer;
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std::vector<std::list<uint32_t>> lut;
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lut.resize(0x1000000);
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for (int i = 0; i < src_size - 3; ++i) {
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lut[src[i + 0] << 16 | src[i + 1] << 8 | src[i + 2]].push_back(i);
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}
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return buffer;
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}
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std::vector<uint8_t> yaz0_encode(const u8* src, int src_size) {
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std::vector<uint8_t> buffer(src_size * 10 / 8 + 16);
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u8* dst = buffer.data();
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// write 4 bytes yaz0 header
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memcpy(dst, "Yaz0", 4);
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// write 4 bytes uncompressed size
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W32(dst + 4, src_size);
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// encode
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int dst_size = yaz0_encode_internal(src, src_size, dst + 16);
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int aligned_size = (dst_size + 31) & -16;
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buffer.resize(aligned_size);
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#if 0
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std::vector<uint8_t> decompressed(src_size);
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yaz0_decode(buffer.data(), decompressed.data(), src_size);
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if(memcmp(src, decompressed.data(), src_size)) {
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fprintf(stderr, "Decompressed buffer is different from original\n");
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}
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#endif
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return buffer;
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}
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void yaz0_decode(const uint8_t* source, uint8_t* decomp, int32_t decompSize) {
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uint32_t srcPlace = 0, dstPlace = 0;
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uint32_t i, dist, copyPlace, numBytes;
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uint8_t codeByte, byte1, byte2;
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uint8_t bitCount = 0;
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source += 0x10;
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while (dstPlace < decompSize) {
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/* If there are no more bits to test, get a new byte */
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if (!bitCount) {
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codeByte = source[srcPlace++];
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bitCount = 8;
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}
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/* If bit 7 is a 1, just copy 1 byte from source to destination */
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/* Else do some decoding */
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if (codeByte & 0x80) {
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decomp[dstPlace++] = source[srcPlace++];
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} else {
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/* Get 2 bytes from source */
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byte1 = source[srcPlace++];
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byte2 = source[srcPlace++];
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/* Calculate distance to move in destination */
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/* And the number of bytes to copy */
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dist = ((byte1 & 0xF) << 8) | byte2;
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copyPlace = dstPlace - (dist + 1);
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numBytes = byte1 >> 4;
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/* Do more calculations on the number of bytes to copy */
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if (!numBytes)
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numBytes = source[srcPlace++] + 0x12;
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else
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numBytes += 2;
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/* Copy data from a previous point in destination */
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/* to current point in destination */
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for (i = 0; i < numBytes; i++) decomp[dstPlace++] = decomp[copyPlace++];
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}
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/* Set up for the next read cycle */
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codeByte = codeByte << 1;
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bitCount--;
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}
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}
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