[epclust.git] / epclust / R / de_serialize.R

#' @name de_serialize
#' @rdname de_serialize
#' @aliases binarize binarizeTransform getDataInFile
#'
#' @title (De)Serialization of a [big]matrix or data stream
#'
#' @description \code{binarize()} serializes a matrix or CSV file with minimal overhead,
#'   into a binary file. \code{getDataInFile()} achieves the inverse task: she retrieves
#'   (ASCII) data rows from indices in the binary file. Finally,
#'   \code{binarizeTransform()} serialize transformations of all data chunks; to use it,
#'   a data-retrieval function must be provided, thus \code{binarize} will most likely be
#'   used first (and then a function defined to seek in generated binary file)
#'
#' @param data_ascii Either a matrix or CSV file, with items in rows
#' @param indices Indices of the lines to retrieve
#' @param data_bin_file Name of binary file on output (\code{binarize})
#'   or input (\code{getDataInFile})
#' @param nb_per_chunk Number of lines to process in one batch (big.matrix or connection)
#' @inheritParams claws
#' @param getData Function to retrieve data chunks
#' @param transform Transformation function to apply on data chunks
#'
#' @return For \code{getDataInFile()}, the matrix with rows corresponding to the
#'   requested indices. \code{binarizeTransform} returns the number of processed lines.
#'   \code{binarize} is designed to serialize in several calls, thus returns nothing.
NULL

#' @rdname de_serialize
#' @export
binarize = function(data_ascii, data_bin_file, nb_per_chunk,
	sep=",", nbytes=4, endian=.Platform$endian)
{
	# data_ascii can be of two types: [big.]matrix, or connection
	if (is.character(data_ascii))
		data_ascii = file(data_ascii, open="r")
	else if (methods::is(data_ascii,"connection") && !isOpen(data_ascii))
		open(data_ascii)
	is_matrix = !methods::is(data_ascii,"connection")

	# At first call, the length of a stored row is written. So it's important to determine
	# if the serialization process already started.
	first_write = (!file.exists(data_bin_file) || file.info(data_bin_file)$size == 0)

	# Open the binary file for writing (or 'append' if already exists)
	data_bin = file(data_bin_file, open=ifelse(first_write,"wb","ab"))

	if (first_write)
	{
		# Write data length on first call: number of items always on 8 bytes
		writeBin(0L, data_bin, size=8, endian=endian)
		if (is_matrix)
			data_length = nrow(data_ascii)
		else #connection
		{
			# Read the first line to know data length, and write it then
			data_line = scan(data_ascii, double(), sep=sep, nlines=1, quiet=TRUE)
			writeBin(data_line, data_bin, size=nbytes, endian=endian)
			data_length = length(data_line)
		}
	}

	if (is_matrix)
	{
		# Data is processed by chunks; although this may not be so useful for (normal) matrix
		# input, it could for a file-backed big.matrix. It's easier to follow a unified pattern.
		index = 1
	}
	repeat
	{
		if (is_matrix)
		{
			data_chunk =
				if (index <= ncol(data_ascii))
					as.double(data_ascii[,index:min(ncol(data_ascii),index+nb_per_chunk-1)])
				else
					double(0)
			index = index + nb_per_chunk
		}
		else #connection
			data_chunk = scan(data_ascii, double(), sep=sep, nlines=nb_per_chunk, quiet=TRUE)

		# Data size is unknown in the case of a connection
		if (length(data_chunk)==0)
			break

		# Write this chunk of data to the binary file
		writeBin(data_chunk, data_bin, size=nbytes, endian=endian)
	}

	if (first_write)
	{
		# Write data_length, = (file_size-1) / (nbytes*nbWritten) at offset 0 in data_bin
		ignored = seek(data_bin, 0)
		writeBin(data_length, data_bin, size=8, endian=endian)
	}
	close(data_bin)

	if ( ! is_matrix )
		close(data_ascii)
}

#' @rdname de_serialize
#' @export
binarizeTransform = function(getData, transform, data_bin_file, nb_per_chunk,
	nbytes=4, endian=.Platform$endian)
{
	nb_items = 0 #side-effect: store the number of transformed items
	index = 1
	repeat
	{
		# Retrieve a chunk of data in a binary file (generally obtained by binarize())
		data_chunk = getData((index-1)+seq_len(nb_per_chunk))
		if (is.null(data_chunk))
			break

		# Apply transformation on the current chunk (by columns)
		transformed_chunk = transform(data_chunk)

		# Save the result in binary format
		binarize(transformed_chunk, data_bin_file, nb_per_chunk, ",", nbytes, endian)

		index = index + nb_per_chunk
		nb_items = nb_items + nrow(data_chunk)
	}
	nb_items #number of transformed items
}

#' @rdname de_serialize
#' @export
getDataInFile = function(indices, data_bin_file, nbytes=4, endian=.Platform$endian)
{
	data_bin = file(data_bin_file, "rb") #source binary file

	data_size = file.info(data_bin_file)$size #number of bytes in the file
	# data_length: length of a vector in the binary file (first element, 8 bytes)
	data_length = readBin(data_bin, "integer", n=1, size=8, endian=endian)

	# Seek all 'indices' columns in the binary file, using data_length and nbytes
	# to compute the offset ( index i at 8 + i*data_length*nbytes )
	data_ascii = do.call( cbind, lapply( indices, function(i) {
		offset = 8+(i-1)*data_length*nbytes
		if (offset > data_size)
			return (NULL)
		ignored = seek(data_bin, offset) #position cursor at computed offset
		readBin(data_bin, "double", n=data_length, size=nbytes, endian=endian)
	} ) )
	close(data_bin)

	data_ascii #retrieved data, in columns
}
Commit	Line	Data
4bcfdbee BA	1	#' @name de_serialize
4bcfdbee BA	2	#' @rdname de_serialize
492cd9e7	3	#' @aliases binarize binarizeTransform getDataInFile
4bcfdbee	4	#'
492cd9e7	5	#' @title (De)Serialization of a [big]matrix or data stream
4bcfdbee BA	6	#'
	7	#' @description \code{binarize()} serializes a matrix or CSV file with minimal overhead,
	8	#' into a binary file. \code{getDataInFile()} achieves the inverse task: she retrieves
492cd9e7 BA	9	#' (ASCII) data rows from indices in the binary file. Finally,
	10	#' \code{binarizeTransform()} serialize transformations of all data chunks; to use it,
	11	#' a data-retrieval function must be provided, thus \code{binarize} will most likely be
	12	#' used first (and then a function defined to seek in generated binary file)
4bcfdbee BA	13	#'
	14	#' @param data_ascii Either a matrix or CSV file, with items in rows
	15	#' @param indices Indices of the lines to retrieve
	16	#' @param data_bin_file Name of binary file on output (\code{binarize})
d9bb53c5 BA	17	#' or input (\code{getDataInFile})
d9bb53c5 BA	18	#' @param nb_per_chunk Number of lines to process in one batch (big.matrix or connection)
4bcfdbee	19	#' @inheritParams claws
492cd9e7 BA	20	#' @param getData Function to retrieve data chunks
492cd9e7 BA	21	#' @param transform Transformation function to apply on data chunks
4bcfdbee BA	22	#'
4bcfdbee BA	23	#' @return For \code{getDataInFile()}, the matrix with rows corresponding to the
492cd9e7 BA	24	#' requested indices. \code{binarizeTransform} returns the number of processed lines.
492cd9e7 BA	25	#' \code{binarize} is designed to serialize in several calls, thus returns nothing.
4bcfdbee BA	26	NULL
	27
	28	#' @rdname de_serialize
	29	#' @export
	30	binarize = function(data_ascii, data_bin_file, nb_per_chunk,
56857861 BA	31	sep=",", nbytes=4, endian=.Platform$endian)
56857861 BA	32	{
d9bb53c5	33	# data_ascii can be of two types: [big.]matrix, or connection
56857861 BA	34	if (is.character(data_ascii))
56857861 BA	35	data_ascii = file(data_ascii, open="r")
4bcfdbee	36	else if (methods::is(data_ascii,"connection") && !isOpen(data_ascii))
56857861	37	open(data_ascii)
492cd9e7	38	is_matrix = !methods::is(data_ascii,"connection")
56857861	39
d9bb53c5 BA	40	# At first call, the length of a stored row is written. So it's important to determine
d9bb53c5 BA	41	# if the serialization process already started.
56857861	42	first_write = (!file.exists(data_bin_file) \|\| file.info(data_bin_file)$size == 0)
d9bb53c5 BA	43
d9bb53c5 BA	44	# Open the binary file for writing (or 'append' if already exists)
56857861 BA	45	data_bin = file(data_bin_file, open=ifelse(first_write,"wb","ab"))
56857861 BA	46
56857861 BA	47	if (first_write)
56857861 BA	48	{
d9bb53c5	49	# Write data length on first call: number of items always on 8 bytes
4bcfdbee	50	writeBin(0L, data_bin, size=8, endian=endian)
0486fbad	51	if (is_matrix)
eef6f6c9	52	data_length = nrow(data_ascii)
492cd9e7	53	else #connection
56857861	54	{
d9bb53c5	55	# Read the first line to know data length, and write it then
56857861	56	data_line = scan(data_ascii, double(), sep=sep, nlines=1, quiet=TRUE)
4bcfdbee	57	writeBin(data_line, data_bin, size=nbytes, endian=endian)
56857861 BA	58	data_length = length(data_line)
	59	}
	60	}
	61
492cd9e7	62	if (is_matrix)
d9bb53c5 BA	63	{
	64	# Data is processed by chunks; although this may not be so useful for (normal) matrix
	65	# input, it could for a file-backed big.matrix. It's easier to follow a unified pattern.
56857861	66	index = 1
d9bb53c5	67	}
56857861 BA	68	repeat
56857861 BA	69	{
0486fbad	70	if (is_matrix)
56857861	71	{
56857861	72	data_chunk =
eef6f6c9	73	if (index <= ncol(data_ascii))
0486fbad	74	as.double(data_ascii[,index:min(ncol(data_ascii),index+nb_per_chunk-1)])
56857861	75	else
492cd9e7	76	double(0)
56857861 BA	77	index = index + nb_per_chunk
56857861 BA	78	}
d9bb53c5	79	else #connection
56857861	80	data_chunk = scan(data_ascii, double(), sep=sep, nlines=nb_per_chunk, quiet=TRUE)
d9bb53c5 BA	81
d9bb53c5 BA	82	# Data size is unknown in the case of a connection
56857861 BA	83	if (length(data_chunk)==0)
56857861 BA	84	break
d9bb53c5 BA	85
d9bb53c5 BA	86	# Write this chunk of data to the binary file
4bcfdbee	87	writeBin(data_chunk, data_bin, size=nbytes, endian=endian)
56857861 BA	88	}
	89
	90	if (first_write)
	91	{
492cd9e7	92	# Write data_length, = (file_size-1) / (nbytes*nbWritten) at offset 0 in data_bin
56857861	93	ignored = seek(data_bin, 0)
4bcfdbee	94	writeBin(data_length, data_bin, size=8, endian=endian)
56857861 BA	95	}
	96	close(data_bin)
	97
492cd9e7	98	if ( ! is_matrix )
56857861 BA	99	close(data_ascii)
	100	}
	101
492cd9e7 BA	102	#' @rdname de_serialize
	103	#' @export
	104	binarizeTransform = function(getData, transform, data_bin_file, nb_per_chunk,
	105	nbytes=4, endian=.Platform$endian)
	106	{
d9bb53c5	107	nb_items = 0 #side-effect: store the number of transformed items
492cd9e7 BA	108	index = 1
	109	repeat
	110	{
d9bb53c5	111	# Retrieve a chunk of data in a binary file (generally obtained by binarize())
492cd9e7 BA	112	data_chunk = getData((index-1)+seq_len(nb_per_chunk))
	113	if (is.null(data_chunk))
	114	break
d9bb53c5 BA	115
d9bb53c5 BA	116	# Apply transformation on the current chunk (by columns)
492cd9e7	117	transformed_chunk = transform(data_chunk)
d9bb53c5 BA	118
d9bb53c5 BA	119	# Save the result in binary format
492cd9e7	120	binarize(transformed_chunk, data_bin_file, nb_per_chunk, ",", nbytes, endian)
d9bb53c5	121
492cd9e7 BA	122	index = index + nb_per_chunk
	123	nb_items = nb_items + nrow(data_chunk)
	124	}
d9bb53c5	125	nb_items #number of transformed items
492cd9e7 BA	126	}
492cd9e7 BA	127
4bcfdbee BA	128	#' @rdname de_serialize
4bcfdbee BA	129	#' @export
56857861 BA	130	getDataInFile = function(indices, data_bin_file, nbytes=4, endian=.Platform$endian)
56857861 BA	131	{
d9bb53c5 BA	132	data_bin = file(data_bin_file, "rb") #source binary file
	133
	134	data_size = file.info(data_bin_file)$size #number of bytes in the file
	135	# data_length: length of a vector in the binary file (first element, 8 bytes)
4bcfdbee	136	data_length = readBin(data_bin, "integer", n=1, size=8, endian=endian)
d9bb53c5 BA	137
	138	# Seek all 'indices' columns in the binary file, using data_length and nbytes
	139	# to compute the offset ( index i at 8 + idata_lengthnbytes )
0486fbad	140	data_ascii = do.call( cbind, lapply( indices, function(i) {
8702eb86 BA	141	offset = 8+(i-1)data_lengthnbytes
8702eb86 BA	142	if (offset > data_size)
0486fbad	143	return (NULL)
d9bb53c5	144	ignored = seek(data_bin, offset) #position cursor at computed offset
4bcfdbee	145	readBin(data_bin, "double", n=data_length, size=nbytes, endian=endian)
0486fbad	146	} ) )
56857861	147	close(data_bin)
d9bb53c5 BA	148
d9bb53c5 BA	149	data_ascii #retrieved data, in columns
56857861	150	}