Ejemplo n.º 1
0
def _operate(stream, data, flush, max_length, cfunc, while_doing):
    """Common code for compress() and decompress().
    """
    # Prepare the input buffer for the stream
    with lltype.scoped_alloc(rffi.CCHARP.TO, len(data)) as inbuf:
        for i in xrange(len(data)):
            inbuf[i] = data[i]
        stream.c_next_in = rffi.cast(Bytefp, inbuf)
        rffi.setintfield(stream, 'c_avail_in', len(data))

        # Prepare the output buffer
        with lltype.scoped_alloc(rffi.CCHARP.TO, OUTPUT_BUFFER_SIZE) as outbuf:
            # Strategy: we call deflate() to get as much output data as fits in
            # the buffer, then accumulate all output into a StringBuffer
            # 'result'.
            result = StringBuilder()

            while True:
                stream.c_next_out = rffi.cast(Bytefp, outbuf)
                bufsize = OUTPUT_BUFFER_SIZE
                if max_length < bufsize:
                    if max_length <= 0:
                        err = Z_OK
                        break
                    bufsize = max_length
                max_length -= bufsize
                rffi.setintfield(stream, 'c_avail_out', bufsize)
                err = cfunc(stream, flush)
                if err == Z_OK or err == Z_STREAM_END:
                    # accumulate data into 'result'
                    avail_out = rffi.cast(lltype.Signed, stream.c_avail_out)
                    result.append_charpsize(outbuf, bufsize - avail_out)
                    # if the output buffer is full, there might be more data
                    # so we need to try again.  Otherwise, we're done.
                    if avail_out > 0:
                        break
                    # We're also done if we got a Z_STREAM_END (which should
                    # only occur when flush == Z_FINISH).
                    if err == Z_STREAM_END:
                        break
                    else:
                        continue
                elif err == Z_BUF_ERROR:
                    avail_out = rffi.cast(lltype.Signed, stream.c_avail_out)
                    # When compressing, we will only get Z_BUF_ERROR if
                    # the output buffer was full but there wasn't more
                    # output when we tried again, so it is not an error
                    # condition.
                    if avail_out == bufsize:
                        break

                # fallback case: report this error
                raise RZlibError.fromstream(stream, err, while_doing)

    # When decompressing, if the compressed stream of data was truncated,
    # then the zlib simply returns Z_OK and waits for more.  If it is
    # complete it returns Z_STREAM_END.
    return (result.build(),
            err,
            rffi.cast(lltype.Signed, stream.c_avail_in))
Ejemplo n.º 2
0
def _operate(stream, data, flush, max_length, cfunc, while_doing):
    """Common code for compress() and decompress().
    """
    # Prepare the input buffer for the stream
    with lltype.scoped_alloc(rffi.CCHARP.TO, len(data)) as inbuf:
        for i in xrange(len(data)):
            inbuf[i] = data[i]
        stream.c_next_in = rffi.cast(Bytefp, inbuf)
        rffi.setintfield(stream, 'c_avail_in', len(data))

        # Prepare the output buffer
        with lltype.scoped_alloc(rffi.CCHARP.TO, OUTPUT_BUFFER_SIZE) as outbuf:
            # Strategy: we call deflate() to get as much output data as fits in
            # the buffer, then accumulate all output into a StringBuffer
            # 'result'.
            result = StringBuilder()

            while True:
                stream.c_next_out = rffi.cast(Bytefp, outbuf)
                bufsize = OUTPUT_BUFFER_SIZE
                if max_length < bufsize:
                    if max_length <= 0:
                        err = Z_OK
                        break
                    bufsize = max_length
                max_length -= bufsize
                rffi.setintfield(stream, 'c_avail_out', bufsize)
                err = cfunc(stream, flush)
                if err == Z_OK or err == Z_STREAM_END:
                    # accumulate data into 'result'
                    avail_out = rffi.cast(lltype.Signed, stream.c_avail_out)
                    result.append_charpsize(outbuf, bufsize - avail_out)
                    # if the output buffer is full, there might be more data
                    # so we need to try again.  Otherwise, we're done.
                    if avail_out > 0:
                        break
                    # We're also done if we got a Z_STREAM_END (which should
                    # only occur when flush == Z_FINISH).
                    if err == Z_STREAM_END:
                        break
                    else:
                        continue
                elif err == Z_BUF_ERROR:
                    avail_out = rffi.cast(lltype.Signed, stream.c_avail_out)
                    # When compressing, we will only get Z_BUF_ERROR if
                    # the output buffer was full but there wasn't more
                    # output when we tried again, so it is not an error
                    # condition.
                    if avail_out == bufsize:
                        break

                # fallback case: report this error
                raise RZlibError.fromstream(stream, err, while_doing)

    # When decompressing, if the compressed stream of data was truncated,
    # then the zlib simply returns Z_OK and waits for more.  If it is
    # complete it returns Z_STREAM_END.
    return (result.build(), err, rffi.cast(lltype.Signed, stream.c_avail_in))
Ejemplo n.º 3
0
 def func(l):
     s = StringBuilder()
     with rffi.scoped_str2charp("hello world") as x:
         s.append_charpsize(x, l)
     return s.build()
Ejemplo n.º 4
0
 def func(l):
     s = StringBuilder()
     with rffi.scoped_str2charp("hello world") as x:
         s.append_charpsize(x, l)
     return s.build()