Mercurial > games > semicongine
view semiconginev2/thirdparty/zippy/zippy.nim @ 1259:a13509ede62a
fix: use old model for test, for now
author | sam <sam@basx.dev> |
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date | Sun, 28 Jul 2024 21:18:33 +0700 |
parents | 56781cc0fc7c |
children |
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import zippy/adler32, zippy/common, zippy/crc, zippy/deflate, zippy/gzip, zippy/inflate, zippy/internal when (NimMajor, NimMinor, NimPatch) >= (1, 6, 0): import std/sysrand else: import std/random, std/times export common proc compress*( src: pointer, len: int, level = DefaultCompression, dataFormat = dfGzip ): string {.raises: [ZippyError].} = ## Compresses src and returns the compressed data. let src = cast[ptr UncheckedArray[uint8]](src) case dataFormat: of dfGzip: result.setLen(10) result[0] = 31.char result[1] = 139.char result[2] = 8.char result[3] = (1.uint8 shl 3).char # Set the fname flag block: # https://github.com/guzba/zippy/issues/61 let htbLen = when (NimMajor, NimMinor, NimPatch) >= (1, 6, 0): var urand: array[1, uint8] if not urandom(urand): raise newException(ZippyError, "Failed to generate random number") (urand[0] mod 26).int else: let now = getTime() var rand = initRand(now.toUnix * 1_000_000_000 + now.nanosecond) (rand.next() mod 26).int # mod the uint first to ensure a positive int # Add up to 26 characters as the gzip header file name for i in 0 ..< htbLen: result.add (97 + i).char result.add '\0' deflate(result, src, len, level) let checksum = crc32(src, len) isize = len result.add(((checksum shr 0) and 255).char) result.add(((checksum shr 8) and 255).char) result.add(((checksum shr 16) and 255).char) result.add(((checksum shr 24) and 255).char) result.add(((isize shr 0) and 255).char) result.add(((isize shr 8) and 255).char) result.add(((isize shr 16) and 255).char) result.add(((isize shr 24) and 255).char) of dfZlib: const cm = 8.uint8 cinfo = 7.uint8 cmf = (cinfo shl 4) or cm fcheck = (31.uint32 - (cmf.uint32 * 256) mod 31).uint8 result.setLen(2) result[0] = cmf.char result[1] = fcheck.char deflate(result, src, len, level) let checksum = adler32(src, len) result.add(((checksum shr 24) and 255).char) result.add(((checksum shr 16) and 255).char) result.add(((checksum shr 8) and 255).char) result.add(((checksum shr 0) and 255).char) of dfDeflate: deflate(result, src, len, level) else: raise newException(ZippyError, "Invalid data format " & $dfDetect) proc compress*( src: string, level = DefaultCompression, dataFormat = dfGzip ): string {.raises: [ZippyError].} = compress(src.cstring, src.len, level, dataFormat) proc compress*( src: seq[uint8], level = DefaultCompression, dataFormat = dfGzip ): seq[uint8] {.raises: [ZippyError].} = cast[seq[uint8]](compress(cast[string](src).cstring, src.len, level, dataFormat)) proc uncompress*( src: pointer, len: int, dataFormat = dfDetect ): string {.raises: [ZippyError].} = ## Uncompresses src and returns the uncompressed data. let src = cast[ptr UncheckedArray[uint8]](src) case dataFormat: of dfDetect: if ( len > 18 and src[0].uint8 == 31 and src[1].uint8 == 139 and src[2].uint8 == 8 and (src[3].uint8 and 0b11100000) == 0 ): return uncompress(src, len, dfGzip) if ( len > 6 and (src[0].uint8 and 0b00001111) == 8 and (src[0].uint8 shr 4) <= 7 and ((src[0].uint16 * 256) + src[1].uint8) mod 31 == 0 ): return uncompress(src, len, dfZlib) raise newException(ZippyError, "Unable to detect compressed data format") of dfGzip: uncompressGzip(result, src, len) of dfZlib: if len < 6: failUncompress() let cmf = src[0].uint8 flg = src[1].uint8 cm = cmf and 0b00001111 cinfo = cmf shr 4 if cm != 8: # DEFLATE raise newException(ZippyError, "Unsupported compression method") if cinfo > 7.uint8: raise newException(ZippyError, "Invalid compression info") if ((cmf.uint16 * 256) + flg.uint16) mod 31 != 0: raise newException(ZippyError, "Invalid header") if (flg and 0b00100000) != 0: # FDICT raise newException(ZippyError, "Preset dictionary is not yet supported") inflate(result, src, len, 2) let checksum = ( src[len - 4].uint32 shl 24 or src[len - 3].uint32 shl 16 or src[len - 2].uint32 shl 8 or src[len - 1].uint32 ) if checksum != adler32(result): raise newException(ZippyError, "Checksum verification failed") of dfDeflate: inflate(result, src, len, 0) proc uncompress*( src: string, dataFormat = dfDetect ): string {.raises: [ZippyError].} = uncompress(src.cstring, src.len, dataFormat) proc uncompress*( src: seq[uint8], dataFormat = dfDetect ): seq[uint8] {.raises: [ZippyError].} = cast[seq[uint8]](uncompress(cast[string](src).cstring, src.len, dataFormat))