Library
Module
Module type
Parameter
Class
Class type
Read and write the CSV (comma separated values) format.
This library should be compatible with RFC4180 if one sets strip=false
in the creation functions.
Representation of CSV data in memory. This is a list of rows (also called records), each row being a list of columns.
class type in_obj_channel = object ... end
The most basic input object for best interoperability.
class type out_obj_channel = object ... end
The most basic output object for best interoperability.
Failure(nrecord, nfield, msg)
is raised to indicate a parsing error for the field number nfield
on the record number nrecord
, the description msg
says what is wrong. The first record and the first field of a record are numbered 1
(to correspond to the usual spreadsheet numbering but differing from List.nth
of the OCaml representation).
val of_in_obj :
?separator:char ->
?strip:bool ->
?has_header:bool ->
?header:string list ->
?backslash_escape:bool ->
?excel_tricks:bool ->
?fix:bool ->
in_obj_channel ->
in_channel
of_in_obj ?separator ?excel_tricks in_chan
creates a new "channel" to access the data in CSV form available from the channel in_chan
.
val of_channel :
?separator:char ->
?strip:bool ->
?has_header:bool ->
?header:string list ->
?backslash_escape:bool ->
?excel_tricks:bool ->
?fix:bool ->
Pervasives.in_channel ->
in_channel
Same as Csv.of_in_obj
except that the data is read from a standard channel.
val of_string :
?separator:char ->
?strip:bool ->
?has_header:bool ->
?header:string list ->
?backslash_escape:bool ->
?excel_tricks:bool ->
?fix:bool ->
string ->
in_channel
Same as Csv.of_in_obj
except that the data is read from a string.
val load :
?separator:char ->
?strip:bool ->
?backslash_escape:bool ->
?excel_tricks:bool ->
?fix:bool ->
string ->
t
load fname
loads the CSV file fname
. If filename
is "-"
then load from stdin
.
val load_in :
?separator:char ->
?strip:bool ->
?backslash_escape:bool ->
?excel_tricks:bool ->
?fix:bool ->
Pervasives.in_channel ->
t
load_in ch
loads a CSV file from the input channel ch
. See Csv.load
for the meaning of separator
and excel_tricks
.
val to_in_obj : in_channel -> in_obj_channel
For efficiency reasons, the in_channel
buffers the data from the original channel. If you want to examine the data by other means than the methods below (say after a failure), you need to use this function in order not to "loose" data in the buffer.
val close_in : in_channel -> unit
close_in ic
closes the channel ic
. The underlying channel is closed as well.
val next : in_channel -> string list
next ic
returns the next record in the CSV file.
val fold_left : f:('a -> string list -> 'a) -> init:'a -> in_channel -> 'a
fold_left f a ic
computes (f ... (f (f a r0) r1) ... rN) where r1,...,rN are the records in the CSV file. If f
raises an exception, the record available at that moment is accessible through Csv.current_record
.
val fold_right : f:(string list -> 'a -> 'a) -> in_channel -> 'a -> 'a
fold_right f ic a
computes (f r1 ... (f rN-1 (f rN a)) ...) where r1,...,rN-1, rN are the records in the CSV file. All records are read before applying f
so this method is not convenient if your file is large.
val iter : f:(string list -> unit) -> in_channel -> unit
iter f ic
iterates f
on all remaining records. If f
raises an exception, the record available at that moment is accessible through Csv.current_record
.
val input_all : in_channel -> t
input_all ic
return a list of the CSV records till the end of the file.
val current_record : in_channel -> string list
The current record under examination. This is useful in order to gather the parsed data in case of Failure
.
val load_rows :
?separator:char ->
?strip:bool ->
?backslash_escape:bool ->
?excel_tricks:bool ->
?fix:bool ->
(string list -> unit) ->
Pervasives.in_channel ->
unit
val to_out_obj :
?separator:char ->
?backslash_escape:bool ->
?excel_tricks:bool ->
?quote_all:bool ->
out_obj_channel ->
out_channel
to_out_obj ?separator ?excel_tricks out_chan
creates a new "channel" to output the data in CSV form.
val to_channel :
?separator:char ->
?backslash_escape:bool ->
?excel_tricks:bool ->
?quote_all:bool ->
Pervasives.out_channel ->
out_channel
Same as Csv.to_out_obj
but output to a standard channel.
val to_buffer :
?separator:char ->
?backslash_escape:bool ->
?excel_tricks:bool ->
?quote_all:bool ->
Buffer.t ->
out_channel
Same as Csv.to_out_obj
but output to a buffer.
val close_out : out_channel -> unit
close_out oc
close the channel oc
. The underlying channel is closed as well.
val output_record : out_channel -> string list -> unit
output_record oc r
write the record r
is CSV form to the channel oc
.
val output_all : out_channel -> t -> unit
output_all oc csv
outputs all records in csv
to the channel oc
.
val save_out :
?separator:char ->
?backslash_escape:bool ->
?excel_tricks:bool ->
Pervasives.out_channel ->
t ->
unit
val save :
?separator:char ->
?backslash_escape:bool ->
?excel_tricks:bool ->
?quote_all:bool ->
string ->
t ->
unit
save fname csv
saves the csv
data to the file fname
.
val print :
?separator:char ->
?backslash_escape:bool ->
?excel_tricks:bool ->
?quote_all:bool ->
t ->
unit
Print the CSV data.
val print_readable : t -> unit
Print the CSV data to stdout
in a human-readable format. Not much is guaranteed about how the CSV is printed, except that it will be easier to follow than a "raw" output done with Csv.print
. This is a one-way operation. There is no easy way to parse the output of this command back into CSV data.
val save_out_readable : Pervasives.out_channel -> t -> unit
As for Csv.print_readable
, allowing the output to be sent to a channel.
module Row : sig ... end
A row with a header.
module Rows : sig ... end
Accessing rows (when a header was provided).
val lines : t -> int
Return the number of lines in a CSV data.
val columns : t -> int
Work out the (maximum) number of columns in a CSV file. Note that each line may be a different length, so this finds the one with the most columns.
This takes a CSV file and trims empty cells.
All four of the option arguments (~top
, ~left
, ~right
, ~bottom
) default to true
.
The exact behaviour is:
~right
: If true, remove any empty cells at the right hand end of any row. The number of columns in the resulting CSV structure will not necessarily be the same for each row.
~top
: If true, remove any empty rows (no cells, or containing just empty cells) from the top of the CSV structure.
~bottom
: If true, remove any empty rows from the bottom of the CSV structure.
~left
: If true, remove any empty columns from the left of the CSV structure. Note that ~left
and ~right
are quite different: ~left
considers the whole CSV structure, whereas ~right
considers each row in isolation.
Make the CSV data "square" (actually rectangular). This pads out each row with empty cells so that all rows are the same length as the longest row. After this operation, every row will have length Csv.columns
.
val is_square : t -> bool
Return true iff the CSV is "square" (actually rectangular). This means that each row has the same number of cells.
set_columns cols csv
makes the CSV data square by forcing the width to the given number of cols
. Any short rows are padded with blank cells. Any long rows are truncated.
set_rows rows csv
makes the CSV data have exactly rows
rows by adding empty rows or truncating rows as necessary.
Note that set_rows
does not make the CSV square. If you want it to be square, call either Csv.square
or Csv.set_columns
after.
set_size rows cols csv
makes the CSV data square by forcing the size to rows * cols
, adding blank cells or truncating as necessary. It is the same as calling set_columns cols
(set_rows rows csv)
sub r c rows cols csv
returns a subset of csv
. The subset is defined as having top left corner at row r
, column c
(counting from 0
) and being rows
deep and cols
wide.
The returned CSV will be "square".
Compare two CSV files for equality, ignoring blank cells at the end of a row, and empty rows appended to one or the other. This is "semantic" equality - roughly speaking, the two CSV files would look the same if opened in a spreadsheet program.
Concatenate CSV files so that they appear side by side, arranged left to right across the page. Each CSV file (except the final one) is first squared.
(To concatenate CSV files so that they appear from top to bottom, just use List.concat
).
Permutes the lines and columns of the CSV data. Nonexistent cells become empty cells after transpose if they must be created.
val to_array : t -> string array array
val of_array : string array array -> t
Convenience functions to convert to and from a matrix representation. to_array
will produce a ragged matrix (not all rows will have the same length) unless you call Csv.square
first.
val associate : string list -> t -> (string * string) list list
associate header data
takes a block of data and converts each row in turn into an assoc list which maps column header to data cell.
Typically a spreadsheet will have the format:
header1 header2 header3 data11 data12 data13 data21 data22 data23 ...
This function arranges the data into a more usable form which is robust against changes in column ordering. The output of the function is:
[ ["header1", "data11"; "header2", "data12"; "header3", "data13"]; ["header1", "data21"; "header2", "data22"; "header3", "data23"]; etc. ]
Each row is turned into an assoc list (see List.assoc
).
If a row is too short, it is padded with empty cells (""
). If a row is too long, it is truncated.
You would typically call this function as:
let header, data = match csv with h :: d -> h, d | [] -> assert false;;
let data = Csv.associate header data;;
The header strings are shared, so the actual space in memory consumed by the spreadsheet is not much larger.
combine ~header row
returns a row with elements (h, x)
where h
is the header name and x
the corresponding row entry. If the row
has less entries than header
, they are interpreted as being empty. See associate
which applies this function to all rows.