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#!/usr/bin/env python
# coding: utf8
"""
Authors: Jérôme Kieffer, ESRF
         email:jerome.kieffer@esrf.fr

FabIO library containing compression and decompression algorithm for various
"""
__author__ = "Jérôme Kieffer"
__contact__ = "jerome.kieffer@esrf.eu"
__license__ = "GPLv3+"
__copyright__ = "European Synchrotron Radiation Facility, Grenoble, France"


import logging, struct, hashlib, base64, StringIO, sys
if sys.version_info >= (3,):
    str = bytes
logger = logging.getLogger("compression")
import numpy

try:
    import gzip
except ImportError:
    logger.error("Unable to import gzip module: disabling gzip compression")
    gzip = None

try:
    import bz2
except ImportError:
    logger.error("Unable to import bz2 module: disabling bz2 compression")
    bz2 = None

try:
    import zlib
except ImportError:
    logger.error("Unable to import zlib module: disabling zlib compression")
    zlib = None

def md5sum(blob):
    """
    returns the md5sum of an object...
    """
    return base64.b64encode(hashlib.md5(blob).digest())


def endianness():
    """
    Return the native endianness of the system
    """
    if numpy.little_endian:
        return "LITTLE_ENDIAN"
    else:
        return "BIG_ENDIAN"


def decGzip(stream):
    """

    Decompress a chunk of data using the gzip algorithm from Python or alternatives if possible

    """

    if gzip is None:
        raise ImportError("gzip module is not available")
    fileobj = StringIO.StringIO(stream)
    try:
        rawData = gzip.GzipFile(fileobj=fileobj).read()
    except IOError:
        logger.warning("Encounter the python-gzip bug with trailing garbage, trying subprocess gzip")
        try:
            #This is as an ugly hack against a bug in Python gzip
            import subprocess
            sub = subprocess.Popen(["gzip", "-d", "-f"], stdout=subprocess.PIPE, stdin=subprocess.PIPE, stderr=subprocess.PIPE)
            rawData, err = sub.communicate(input=stream)
            logger.debug("Gzip subprocess ended with %s err= %s; I got %s bytes back" % (sub.wait(), err, len(rawData)))
        except Exception, error: #IGNORE:W0703
            logger.warning("Unable to use the subprocess gzip (%s). Is gzip available? " % error)
            for i in range(1, 513):
                try:
                    fileobj = StringIO.StringIO(stream[:-i])
                    rawData = gzip.GzipFile(fileobj=fileobj).read()
                except IOError:
                    logger.debug("trying with %s bytes less, doesn't work" % i)
                else:
                    break
            else:
                logger.error("I am totally unable to read this gzipped compressed data block, giving up")
    return rawData


def decBzip2(stream):
    """

    Decompress a chunk of data using the bzip2 algorithm from Python

    """
    if bz2 is None:
        raise ImportError("bz2 module is not available")
    return bz2.decompress(stream)


def decZlib(stream):
    """

    Decompress a chunk of data using the zlib algorithm from Python

    """
    if zlib is None:
        raise ImportError("zlib module is not available")
    return zlib.decompress(stream)


def decByteOffet_python(stream, size):
    """
    Analyze a stream of char with any length of exception (2,4, or 8 bytes integers)

    @param stream: string representing the compressed data
    @param size: the size of the output array (of longInts)
    @return: 1D-ndarray

    """
    logger.debug("CBF decompression using Python with Cython loops")
    dataOut = numpy.zeros((size), dtype=numpy.int64)
    i = 0
    j = 0
    last = 0
    current = 0
    while ((i < len(stream)) and (j < size)):
        if (stream[i] == '\x80'):
            if (stream[i + 1:i + 3] == "\x00\x80"):
                if (stream[i + 3:i + 7] == "\x00\x00\x00\x80"):
                    current = struct.unpack("<q", stream[i + 7:i + 15])[0]
                    i += 15
                else:
                    current = struct.unpack("<i", stream[i + 3:i + 7])[0]
                    i += 7
            else:
                current = struct.unpack("<h", stream[i + 1:i + 3])[0]
                i += 3
        else:
            current = struct.unpack("<b", stream[i])[0]
            i += 1
        last += current
        dataOut[j] = last
        j += 1
    return dataOut

def decByteOffet_weave(stream, size):
    """
    Analyze a stream of char with any length of exception (2,4, or 8 bytes integers)

    @param stream: string representing the compressed data
    @param size: the size of the output array (of longInts)
    @return: 1D-ndarray

    """
    logger.debug("CBF decompression using Weave")
    try:
        from scipy import weave
        from scipy.weave import converters
    except ImportError:
        logger.warning("scipy.weave is not available, falling back on slow Numpy implementations")
        return decByteOffet_numpy(stream, size)
    dataIn = numpy.fromstring(stream, dtype="uint8")
    n = dataIn.size
    dataOut = numpy.zeros(size, dtype="int64")
    codeC = """
unsigned char key = 0x80;
long   j = 0;
long   last=0;
long   current=0;
for (int i=0; i< n; i++){
   if (j>=size){
   //printf("i= %i<%i, j=%i < size= %i %i\\n",i,n,j,size,dataIn(i));
       break;
  }
  if (dataIn(i) == key){
      if ( (dataIn(i+1)==0) and (dataIn(i+2)==key) ){
          if ( (dataIn(i+3)==0) and (dataIn(i+4)==0) and (dataIn(i+5)==0) and (dataIn(i+6)==key) )  {
               // 64 bits mode
               char tmp = dataIn(i+14) ;
               current = (long(tmp)<<56) | (long(dataIn(i+13))<<48) | (long(dataIn(i+12))<<40) | (long(dataIn(i+11))<<32) | (long(dataIn(i+10))<<24) | (long(dataIn(i+9))<<16) | (long(dataIn(i+8))<<8) | (long(dataIn(i+7)));
//                printf("64 bit int at pos %i, %i, value=%ld \\n",i,j,current);
               i+=14;
           }else{
               // 32 bits mode
               char tmp = dataIn(i+6) ;
               current = (long(tmp)<<24) | (long(dataIn(i+5))<<16) | (long(dataIn(i+4))<<8) | (long(dataIn(i+3)));
//                printf("32 bit int at pos %i, %i, value=%ld was %i %i %i %i %i %i %i\\n",i,j,current,dataIn(i),dataIn(i+1),dataIn(i+2),dataIn(i+3),dataIn(i+4),dataIn(i+5),dataIn(i+6));
//                printf("%ld %ld %ld %ld\\n",(long(tmp)<<24) , (long(dataIn(i+5))<<16) , (long(dataIn(i+4))<<8) ,long(dataIn(i+3)));
               i+=6;
           }
      }else{
           // 16 bit mode
           char tmp = dataIn(i+2);
           current = (long(tmp)<<8) | (long (dataIn(i+1)));
//           printf("16 bit int at pos %i, %i, value=%ld was %i %i %i\\n",i,j,current,dataIn(i),dataIn(i+1),dataIn(i+2));
           i+=2;
      }
  }else{
      // 8 bit mode
      char tmp = dataIn(i) ;
      current= long(tmp) ;
  }
  last+=current;
  dataOut(j)=last;
  j++ ;
}
return_val=0;
     """
    rc = weave.inline(codeC, ["dataIn", "dataOut", "n", "size" ], verbose=2, type_converters=converters.blitz)
    if rc != 0:
        logger.warning("weave binary module return error code %s" % rc)
    return dataOut



def decByteOffet_numpy(stream, size=None):
    """
    Analyze a stream of char with any length of exception:
                2, 4, or 8 bytes integers

    @param stream: string representing the compressed data
    @param size: the size of the output array (of longInts)
    @return: 1D-ndarray

    """
    logger.debug("CBF decompression using Numpy")
    listnpa = []
    key16 = "\x80"
    key32 = "\x00\x80"
    key64 = "\x00\x00\x00\x80"
    shift = 1
    while True:
        idx = stream.find(key16)
        if idx == -1:
            listnpa.append(numpy.fromstring(stream, dtype="int8"))
            break
        listnpa.append(numpy.fromstring(stream[:idx], dtype="int8"))

        if stream[idx + 1:idx + 3] == key32:
            if stream[idx + 3:idx + 7] == key64:
#                        long int 64 bits
                listnpa.append(numpy.fromstring(stream[idx + 7:idx + 15],
                                             dtype="int64"))
                shift = 15
            else: #32 bit int
                listnpa.append(numpy.fromstring(stream[idx + 3:idx + 7],
                                             dtype="int32"))
                shift = 7
        else:  # int16
            listnpa.append(numpy.fromstring(stream[idx + 1:idx + 3],
                                         dtype="int16"))
            shift = 3
        stream = stream[idx + shift:]
    return  (numpy.hstack(listnpa)).astype("int64").cumsum()


def decByteOffet_cython(stream, size=None):
    """
    Analyze a stream of char with any length of exception:
                2, 4, or 8 bytes integers

    @param stream: string representing the compressed data
    @param size: the size of the output array (of longInts)
    @return: 1D-ndarray

    """
    logger.debug("CBF decompression using cython")
    try:
        from fabio.byte_offset import analyseCython
    except ImportError, error:
        logger.error("Failed to import byte_offset cython module, falling back on numpy method")
        return decByteOffet_numpy(stream, size)
    else:
        return analyseCython(stream, size)

def compByteOffet_numpy(data):
    """
    Compress a dataset into a string using the byte_offet algorithm

    @param data: ndarray
    @return: string/bytes with compressed data

    test = numpy.array([0,1,2,127,0,1,2,128,0,1,2,32767,0,1,2,32768,0,1,2,2147483647,0,1,2,2147483648,0,1,2,128,129,130,32767,32768,128,129,130,32768,2147483647,2147483648])

    """
    flat = data.astype("int64").ravel()
    delta = numpy.zeros_like(flat)
    delta[0] = flat[0]
    delta[1:] = flat[1:] - flat[:-1]
    mask = ((delta > 127) + (delta < -127))
    exceptions = numpy.nonzero(mask)[0]
    if numpy.little_endian:
        byteswap = False
    else:
        byteswap = True
    start = 0
    binary_blob = ""
    for stop in exceptions:
        if stop - start > 0:
            binary_blob += delta[start:stop].astype("int8").tostring()
        exc = delta[stop]
        if (exc > 2147483647) or (exc < -2147483647): #2**31-1
            binary_blob += "\x80\x00\x80\x00\x00\x00\x80"
            if byteswap:
                binary_blob += delta[stop:stop + 1].byteswap().tostring()
            else:
                binary_blob += delta[stop:stop + 1].tostring()
        elif (exc > 32767) or (exc < -32767): #2**15-1
            binary_blob += "\x80\x00\x80"
            if byteswap:
                binary_blob += delta[stop:stop + 1].astype("int32").byteswap().tostring()
            else:
                binary_blob += delta[stop:stop + 1].astype("int32").tostring()
        else: #>127
            binary_blob += "\x80"
            if byteswap:
                binary_blob += delta[stop:stop + 1].astype("int16").byteswap().tostring()
            else:
                binary_blob += delta[stop:stop + 1].astype("int16").tostring()
        start = stop + 1
    if start < delta.size:
        binary_blob += delta[start:].astype("int8").tostring()
    return binary_blob


def decTY1(raw_8, raw_16=None, raw_32=None):
    """
    Modified byte offset decompressor used in Oxford Diffraction images
    
    @param raw_8:  strings containing raw data with integer 8 bits
    @param raw_16: strings containing raw data with integer 16 bits
    @param raw_32: strings containing raw data with integer 32 bits
    @return: numpy.ndarray
    
    """
    data = numpy.fromstring(raw_8, dtype="uint8").astype(int)
    data -= 127
    if raw_32 is not None:
        int32 = numpy.fromstring(raw_32, dtype="int32").astype(int)
        exception32 = numpy.nonzero(data == 128)
    if raw_16 is not None:
        int16 = numpy.fromstring(raw_16, dtype="int16").astype(int)
        exception16 = numpy.nonzero(data == 127)
        data[exception16] = int16
    if raw_32:
        data[exception32] = int32
    summed = data.cumsum()
    smax = summed.max()
    if (smax > (2 ** 31 - 1)):
        bytecode = "int64"
    elif (smax > (2 ** 15 - 1)):
        bytecode = "int32"
    elif (smax > (2 ** 7 - 1)):
        bytecode = "int16"
    else:
        bytecode = "int8"
    return summed.astype(bytecode)
decKM4CCD = decTY1

def compTY1(data):
    """
    Modified byte offset compressor used in Oxford Diffraction images

    @param data: numpy.ndarray with the input data (integers!)
    @return: 3-tuple of strings: raw_8,raw_16,raw_32 containing raw data with integer of the given size

    """
    fdata = data.flatten()
    diff = numpy.zeros_like(fdata)
    diff[0] = fdata[0]
    diff[1:] = fdata[1:] - fdata[:-1]
    adiff = abs(diff)
    exception32 = (adiff > 32767)#2**15-1
    exception16 = (adiff >= 127) - exception32 #2**7-1)
    we16 = numpy.where(exception16)
    we32 = numpy.where(exception32)
    raw_16 = diff[we16].astype("int16").tostring()
    raw_32 = diff[we32].astype("int32").tostring()
    diff[we16] = 127
    diff[we32] = 128
    diff += 127
    raw_8 = diff.astype("uint8").tostring()
    return  raw_8, raw_16, raw_32

def decPCK(stream, dim1=None, dim2=None, overflowPix=None, version=None):
    """
    Modified CCP4  pck decompressor used in MAR345 images

    @param stream: string or file
    @return: numpy.ndarray (square array)

    """

    try:
        from mar345_IO import uncompress_pck
    except ImportError, error:
        raise RuntimeError("Unable to import mar345_IO to read compressed dataset")
    if "seek" in dir(stream):
        stream.seek(0)
        raw = stream.read()
    else:
        raw = str(stream)

    return uncompress_pck(raw, dim1, dim2, overflowPix, version)


def compPCK(data):
    """
    Modified CCP4  pck compressor used in MAR345 images

    @param data: numpy.ndarray (square array)
    @return:  compressed stream

    """
    try:
        from mar345_IO import compress_pck
    except ImportError, error:
        raise RuntimeError("Unable to import mar345_IO to write compressed dataset")
    return compress_pck(data)