File input/output: Difference between revisions
→{{header|Groovy}}: ++ fortran |
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Also, abort" can be used instead of throw if desired. |
Also, abort" can be used instead of throw if desired. |
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=={{header|Fortran}}== |
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{{works with|Fortran|2003}} |
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{{works with|gfortran|4.3.2}} |
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It uses the <tt>access="stream"</tt> which is defined in Fortran 2003 standard and should allow to "copy" also binary data easily. |
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<lang fortran>program FileIO |
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integer, parameter :: out = 123, in = 124 |
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integer :: err |
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character(len=1) :: c |
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open(out, file="output.txt", status="new", action="write", access="stream", iostat=err) |
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if ( err == 0 ) then |
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open(in, file="input.txt", status="old", action="read", access="stream", iostat=err) |
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if ( err == 0 ) then |
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err = 0 |
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do while ( err == 0 ) |
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read(unit=in, iostat=err) c |
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if ( err == 0 ) write(out) c |
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end do |
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close(in) |
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end if |
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close(out) |
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end if |
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end program FileIO</lang> |
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=={{header|Groovy}}== |
=={{header|Groovy}}== |
Revision as of 21:44, 16 April 2009
You are encouraged to solve this task according to the task description, using any language you may know.
In this task, the job is to create a file called "output.txt", and place in it the contents of the file "input.txt".
Ada
If the file line size exceeds the size of the input string the output file will contain extra new-line characters. <lang ada> with Ada.Text_IO; use Ada.Text_IO; procedure File_IO is
Input, Output : File_Type; Line : String (1 .. 10_000); Last : Natural;
begin
Create (Output, Out_File, "output.txt"); Open (Input, In_File, "input.txt"); while not End_Of_File (Input) loop Get_Line (Input, Line, Last); Put_Line (Output, Line (1 .. Last)); end loop; Close (Input); Close (Output);
end File_IO; </lang> Note that it is possible to use a version of Get_Line that returns the read line as one string of unspecified length: <lang ada> while not End_Of_File (Input) loop
Put_Line (Output, Get_Line (Input));
end loop; </lang> But it is not recommended, because it would make program vulnerable to storage error problems.
The following example reads and writes each file one character at a time. There is no new-line issue. <lang ada> with Ada.Sequential_Io;
procedure File_Io is
package Char_Io is new Ada.Sequential_Io(Character); use Char_Io; Infile, Outfile : File_Type; Value : Character;
begin
Create(File => Outfile, Mode => Out_File, Name => "output.txt"); Open(File => Infile, Mode => In_File, Name => "input.txt"); while not End_Of_File(Infile) loop Read(File => Infile, Item => Value); Write(File => Outfile, Item => Value); end loop; Close(Infile); Close(Outfile);
end File_IO; </lang> The following solution uses stream I/O. Any file of Ada.Text_IO can be used to obtain a corresponding stream. Reading and writing streams is more efficient than reading text files directly, because it skips formatting. Note also how End_Error exception is used to avoid End_Of_File. End_Of_File is depreciated as it requires file look-ahead, and thus is much less efficient. <lang ada> with Ada.Text_IO; use Ada.Text_IO; with Ada.Text_IO.Text_Streams; use Ada.Text_IO.Text_Streams;
procedure File_Io is
Infile, Outfile : File_Type;
begin
Create (File => Outfile, Mode => Out_File, Name => "output.txt"); Open (File => Infile, Mode => In_File, Name => "input.txt"); loop Character'Write (Stream (Outfile), Character'Input (Stream (Infile))); end loop;
exception
when End_Error => Close (Infile); Close (Outfile);
end File_IO; </lang>
ALGOL 68
PROC copy file = (STRING in name, out name)VOID: ( INT errno; FILE in file, out file; errno := open(in file, in name, stand in channel); errno := open(out file, out name, stand out channel); BOOL in done := FALSE; PROC call back done = (REF FILE f) BOOL: ( in done := TRUE ); on logical file end(in file, call back done); STRING line; WHILE get(in file,(line, new line)); NOT in done DO put(out file,(line, new line)) OD; close(in file); close(out file) ); copy file("input.txt","output.txt")
AppleScript
on copyFile from src into dst set filedata to read file src set outfile to open for access dst with write permission write filedata to outfile close access outfile end copyFile copyFile from ":input.txt" into ":output.txt"
AWK
(This does not handle properly binary files)
<lang awk>BEGIN {
while ( (getline <"input.txt") > 0 ) { print >"output.txt" }
}</lang>
BASIC
OPEN "INPUT.TXT" FOR INPUT AS #1 OPEN "OUTPUT.TXT" FOR OUTPUT AS #2 DO UNTIL EOF(1) LINE INPUT #1, Data$ PRINT #2, Data$ LOOP CLOSE #1 CLOSE #2 SYSTEM
C
#include <stdio.h> int main(int argc, char **argv) { FILE *in, *out; int c; in = fopen("input.txt", "r"); if (!in) { fprintf(stderr, "Error opening input.txt for reading.\n"); return 1; } out = fopen("output.txt", "w"); if (!out) { fprintf(stderr, "Error opening output.txt for writing.\n"); fclose(in); return 1; } while ((c = fgetc(in)) != EOF) { fputc(c, out); } fclose(out); fclose(in); return 0; }
A couple of remarks on the preceding example:
It uses fgetc to read one character at a time. Each character is visited, even though there's nothing to do with it. Copying bigger blocks of data is much more efficient.
It uses buffered IO to perform the move, which is overkill. This is not actually a weakness, but it invokes some overhead that you don't need.
The following example addresses those issues. To avoid buffered IO, it uses open(), read(), write() and close(), which are part of POSIX, but not defined of ANSI C.
#include <stdio.h> #include <unistd.h> #include <fcntl.h> int main(int argc, char **argv) { int fi, fo; int len; char buf[1024]; /* a better choice is the FS block size, if you know it */ if ((fi = open("input.txt", O_RDONLY)) < 0) { perror("Can't read input.txt"); return 1; } if ((fo = open("output.txt", O_WRONLY|O_CREAT|O_TRUNC)) < 0) { perror("Can't write to output.txt"); return 1; } while ((len = read(fi, buf, 1024)) > 0) { if (write(fo, buf, len) < 0) { perror("write failed"); return 1; } } if (len < 0) { perror("read failed"); return 1; } close(fi); close(fo); return 0; }
C#
<lang csharp>using System; using System.IO;
namespace FileIO {
class Program { static void Main(string[] args) { try { using (StreamReader reader = new StreamReader("input.txt")) using (StreamWriter writer = new StreamWriter("output.txt")) { string s = reader.ReadLine(); while (s != null) { writer.WriteLine(s); s = reader.ReadLine(); } } } catch (Exception exception) { Console.WriteLine(exception.Message); } } }
}</lang>
There is an easier way in .NET 2.0:
<lang csharp>using System; using System.IO;
namespace FileIO {
class Program { static void Main(string[] args) { try { File.WriteAllText("output.txt", File.ReadAllText("input.txt")); } catch (Exception exception) { Console.WriteLine(exception.Message); } } }
}</lang>
C++
<lang cpp>#include <iostream>
- include <fstream>
- include <string>
using namespace std;
int main() {
string line; ifstream input ( "input.txt" ); ofstream output ("output.txt"); if (output.is_open()) { if (input.is_open()){ while (input) { getline (input,line); output << line << endl; } input.close(); // Not necessary - will be closed when variable goes out of scope. } else { cout << "input.txt cannot be opened!\n"; } output.close(); // Not necessary - will be closed when variable goes out of scope. } else { cout << "output.txt cannot be written to!\n"; } return 0;
}</lang>
Simpler version:
<lang cpp>#include <iostream>
- include <fstream>
- include <cstdlib>
int main() {
std::ifstream input("input.txt"); if (!input.is_open()) { std::cerr << "could not open input.txt for reading.\n"; return EXIT_FAILURE; } std::ofstream output("output.txt"); if (!output.is_open()) { std::cerr << "could not open output.txt for writing.\n"; return EXIT_FAILURE; } output << input.rdbuf(); if (!output) { std::cerr << "error copying the data.\n"; return EXIT_FAILURE; } return EXIT_SUCCESS;
}</lang>
Using istream- and ostream- iterators:
<lang cpp># include <algorithm>
- include <fstream>
int main() {
std::ifstream ifile("input.txt"); std::ofstream ofile("output.txt"); std::copy(std::istreambuf_iterator<char>(ifile), std::istreambuf_iterator<char>(), std::ostreambuf_iterator<char>(ofile));
}</lang>
Even simpler way:
<lang cpp>#include <fstream>
int main() {
std::ifstream input("input.txt"); std::ofstream output("output.txt"); output << input.rdbuf();
}</lang>
Clean
Define a function that copies the content from one file to another.
import StdEnv copyFile fromPath toPath world # (ok, fromFile, world) = fopen fromPath FReadData world | not ok = abort ("Cannot open " +++ fromPath +++ " for reading") # (ok, toFile, world) = fopen toPath FWriteData world | not ok = abort ("Cannot open " +++ toPath +++ " for writing") # (fromFile, toFile) = copyData 1024 fromFile toFile # (ok, world) = fclose fromFile world | not ok = abort ("Cannot close " +++ fromPath +++ " after reading") # (ok, world) = fclose toFile world | not ok = abort ("Cannot close " +++ toPath +++ " after writing") = world where copyData bufferSize fromFile toFile # (buffer, fromFile) = freads fromFile bufferSize # toFile = fwrites buffer toFile | size buffer < bufferSize = (fromFile, toFile) // we're done = copyData bufferSize fromFile toFile // continue recursively
Apply this function to the world to copy a file.
Start world = copyFile "input.txt" "output.txt" world
ColdFusion
<cfif fileExists(expandPath("input.txt"))> <cffile action="read" file="#expandPath('input.txt')#" variable="inputContents"> <cffile action="write" file="#expandPath('output.txt')#" output="#inputContents#"> </cfif>
Common Lisp
By lines:
(with-open-file (in #p"input.txt" :direction :input) (with-open-file (out #p"output.txt" :direction :output) (loop for line = (read-line in nil 'foo) until (eq line 'foo) do (write-line line out))))
By arbitrary blocks and for possibly-binary files:
(defconstant +buffer-size+ (expt 2 16)) (with-open-file (in #p"input.txt" :direction :input :element-type '(unsigned-byte 8)) (with-open-file (out #p"output.txt" :direction :output :element-type (stream-element-type in)) (loop with buffer = (make-array +buffer-size+ :element-type (stream-element-type in)) for size = (read-sequence buffer in) while (plusp size) do (write-sequence buffer out :end size))))
If you're on an odd platform which actually stores text/binary/... type information for files and your CL implementation will use this information, then in should be opened with :element-type :default.
D
Copy the content from one file to another (exceptions are handled by Tango):
<lang D>import tango.io.device.File;
void main() {
auto from = new File("input.txt"); auto to = new File("output.txt", File.WriteCreate); to.copy(from).close; from.close;
} </lang>
Or a shorter example without explicitly closing the output file:
<lang D>import tango.io.device.File;
void main() {
auto to = new File("output.txt", File.WriteCreate); to.copy(new File("input.txt")).close;
}</lang>
Delphi
Delphi supports both typed and untyped as well as a textfile type for files. Delphi provides a default 128 byte buffer for text files. This may be enlarged via a call to SetTextBuff(Var F: Text; Var Buf [Size : integer]) procedure. All other files have no buffer at all and it is the programmers option to do buffering.
The following file I/O procedures have existed since Turbo Pascal V-3.
- Read(F,V1..Vn) - ReadLn(F,V1..Vn) - Write(F,V1[,V2..Vn]) - WriteLn(f,V1[,V2..Vn]) - BlockRead(F,Buff,BytesToRead[,BytesRead]) - BlockWrite(F,Buff,BytesToRead[,BytesWritten])
Files are opened using:
AssignFile(f,{fully qualified path and file name})
Assigns the file name to the file structure in preparation for opening.
Reset(f)
Opens and existing file. If it does not exist EIOError is raised.
Rewrite(f)
Creates a new file and opens it for I/O. If the files exists is is overwritten.
Delphi implemented Streams of which a variant is TFileStream and are very closely related to the Windows API for file handling.
- Text File I/O -
var f : TextFile ; s : string ; begin AssignFile(f,[fully qualified file name); Reset(f); writeln(f,s); Reset(f); ReadLn(F,S); CloseFile( end;
- Untyped File I/O -
This is perhaps one of the most powerful I/O functions built into Pascal. This will allow you to open and read a file of ANY type, regardless of structure, size or content. Note the usage of Reset(). This is using the optional size parameter that instructs the record size of file I/O. This could have been called with SizeOf(Buff) as the optional parameter but that would have limited flexibility. Calling it with a size of ONE byte allows you to adjust the buffer size on the fly, as conditions warrant. Also note the use of the BytesRead parameter. When included in the BlockRead() function it will return the number of bytes actually read. If this is not included, then if your directive to read n bytes is greater then the size of the file, the EOF will be encountered unexpectedly and EIOError will be raised.
var f : File ; buff : array[1.1024] of byte ; BytesRead : Integer ; begin AssignFile(f,fully qualified file name); Reset(f,1); Blockread(f,Buff,SizeOf(Buff),BytesRead); CloseFile(f); end;
- Typed File I/O -
Typed file I/O is very useful when reading and writing structures. An Address List is quiet easy to write when using this type of I/O. The same file procedures are used with some subtle differences. Bite below in the blockread and blockwrite procedures that the bytes to read or write are 1. Also note that the reset procedure is not called with a buffer size. When performing Typed File I/O the size of the type definition is the buffer size. In the BlockRead() and BlockWrite() procedures I elected to read one record. Had I declared a very large buffer of type tAddressBook of say 500 records, I could have set bytes to read as SizeOf(Buffer) thereby reading a minimum of 500 records.
type tAddressBook = Record FName : string[20]; LName : string[30]; Address : string[30]; City : string[30]; State : string[2]; Zip5 : string[5]; Zip4 : string[4]; Phone : string[14]; Deleted : boolean ; end; var f : file of tAddressBook ; v : tAddressBook ; bytes : integer ; begin AssignFile(f,fully qualified file name); Reset(f); Blockread(f,V,1,Bytes); Edit(v); Seek(F,FilePos(f)-1); BlockWrite(f,v,1,bytes); CloseFile(f); end;
E
<file:output.txt>.setText(<file:input.txt>.getText())
(This version holds the entire contents in memory.)
Forth
Forth traditionally has not had any file handling capabilities, preferring instead to operate on a disk image block by block. Most modern Forth systems however run under an existing operating system and provide methods for disk access.
\ <to> <from> copy-file : copy-file ( a1 n1 a2 n2 -- ) r/o open-file throw >r w/o create-file throw r> begin pad maxstring 2 pick read-file throw ?dup while pad swap 3 pick write-file throw repeat close-file throw close-file throw ;
\ Invoke it like this: s" output.txt" s" input.txt" copy-file
Note the use of "2 pick" to get the input file handle and "3 pick" to get the output file handle. Local or global variables could have been used, but in this implementation simple stack manipulation was chosen. Also, only maxstring bytes are copied at a time, and the global "pad" memory area is used to hold the data. For faster copies, allocating a larger buffer could be advantageous.
Also, abort" can be used instead of throw if desired.
Fortran
It uses the access="stream" which is defined in Fortran 2003 standard and should allow to "copy" also binary data easily.
<lang fortran>program FileIO
integer, parameter :: out = 123, in = 124 integer :: err character(len=1) :: c
open(out, file="output.txt", status="new", action="write", access="stream", iostat=err) if ( err == 0 ) then open(in, file="input.txt", status="old", action="read", access="stream", iostat=err) if ( err == 0 ) then err = 0 do while ( err == 0 ) read(unit=in, iostat=err) c if ( err == 0 ) write(out) c end do close(in) end if close(out) end if
end program FileIO</lang>
Groovy
Using File
new File('output.txt').write(new File('input.txt').text)
Using Ant
new AntBuilder().copy(file:'input.txt', toFile:'output.txt', overwrite:true)
Buffered
new File('output.txt').withWriter( w -> new File('input.txt').withReader( r -> w << r } }
Haskell
Note: this doesn't keep the file in memory. Buffering is provided by lazy evaluation.
copyFile from to = do filedata <- readFile from writeFile to filedata main = copyFile "input.txt" "output.txt"
IDL
; open two LUNs openw,unit1,'output.txt,/get openr,unit2,'input.txt',/get ; how many bytes to read fs = fstat(unit2) ; make buffer buff = bytarr(fs.size) ; transfer content readu,unit2,buff writeu,unit1,buff ; that's all close,/all
J
'output.txt' (1!:2~ 1!:1)&< 'input.txt'
Java
Simple version; Files may be closed automatically by OS, on some systems.
import java.io.*; public class FileIODemo { public static void main(String[] args) { try { FileInputStream in = new FileInputStream("input.txt"); FileOutputStream out = new FileOutputStream("ouput.txt"); int c; while ((c = in.read()) != -1) { out.write(c); } } catch (FileNotFoundException e) { e.printStackTrace(); } catch (IOException e){ e.printStackTrace(); } } }
This version closes both files after without OS intervention
import java.io.*; public class FileIODemo2 { public static void main(String args[]) { try { // Probably should wrap with a BufferedInputStream final InputStream in = new FileInputStream("input.txt"); try { // Probably should wrap with a BufferedOutputStream final OutputStream out = new FileOutputStream("output.txt"); try { int c; while ((c = in.read()) != -1) { out.write(c); } } finally { out.close(); } } finally { in.close(); } } catch (FileNotFoundException e) { e.printStackTrace(); } catch (IOException e){ e.printStackTrace(); } } }
Package nio
import java.io.*; import java.nio.channels.*; public class FileIODemo3 { public static void main(String args[]) { try { final FileChannel in = new FileInputStream("input.txt").getChannel(); try { final FileChannel out = new FileOutputStream("output.txt").getChannel(); try { out.transferFrom(in, 0, in.size()); } finally { out.close(); } } finally { in.close(); } } catch (Exception e) { System.err.println("Exception while trying to copy: "+e); e.printStackTrace(); // stack trace of place where it happened } } }
This version is more in line with the other languages' implementations: it assumes simple text files, and doesn't worry too much about errors (just throws them out to the caller, the console in this case). It's shorter and simpler and shows that simple programs can be simple to write, in Java as well.
import java.io.*; public class Test { public static void main (String[] args) throws IOException { BufferedReader br = new BufferedReader(new FileReader("input.txt")); BufferedWriter bw = new BufferedWriter(new FileWriter("output.txt")); for (String line; (line = br.readLine()) != null; ) { bw.write(line); bw.newLine(); } br.close(); bw.close(); } }
MAXScript
inFile = openFile "input.txt" outFile = createFile "output.txt" while not EOF inFile do ( format "%" (readLine inFile) to:outFile ) close inFile close outFile
mIRC Scripting Language
alias Write2FileAndReadIt { .write myfilename.txt Goodbye Mike! .echo -a Myfilename.txt contains: $read(myfilename.txt,1) }
Objective-C
Read the contents of input.txt and place it in output.txt, creating a file if needed:
NSData *input = [NSData dataWithContentsOfFile:@"input.txt"]; [data writeToFile:@"output.txt" atomically:YES];
Displayed without error checking to make it more clear. In real code you will need to add lot of error checking code, and maybe use dataWithContentsOfFile:error: if you want to get error information on failure. However, this code will mostly work correctly even if input does not exists or not accessible. dataWithContentsOfFlie: will return nil, and sending nil the message writeTofile:atomically: does nothing :-)
The second argument "atomically:YES" write the content to a temporary file, and rename the temporary file to the destination file, replacing existing file.
OCaml
By line: <lang ocaml>let () =
let ic = open_in "input.txt" in let oc = open_out "output.txt" in try while true do let s = input_line ic in output_string oc s; output_char oc '\n'; done with End_of_file -> close_in ic; close_out oc;
- </lang>
By character: <lang ocaml>let () =
let ic = open_in "input.txt" in let oc = open_out "output.txt" in try while true do let c = input_char ic in output_char oc c done with End_of_file -> close_in ic; close_out oc;
- </lang>
(Notice that ic and oc, of type in_channel and out_channel, are buffered)
Perl
#!/usr/bin/perl open my $fh_in, '<', 'input.txt' or die "could not open <input.txt> for reading: $!"; open my $fh_out, '>', 'output.txt' or die "could not open <output.txt> for writing: $!"; # '>' overwrites file, '>>' appends to file, just like in the shell binmode $fh_out; # marks filehandle for binary content on systems where that matters print $fh_out $_ while <$fh_in>; # prints current line to file associated with $fh_out filehandle # the same, less concise #while (<$fh_in>) { # print $fh_out $_; #}; close $fh_in; close $fh_out;
Perl has also a powerful mechanism in conjunction with opening files called IO disciplines. It allows you to automatically apply chainable transformations on the input and output. Mangling newlines, gzip (de)compression and character encoding are the most used examples.
PHP
<?php if (!$in=fopen('input.txt','r')) { die('Could not open input.txt!'); } if (!$out=fopen('output.txt','w')) { die('Could not open output.txt!'); } while(!feof($in)) { $data = fread($in,512); fwrite($out,$data); } fclose($out); fclose($in); ?>
<?php if( $contents = file_get_contents('input.txt') ){ if( !file_put_contents('output.txt',$contents) ) echo('could not write output file'); }else{ echo('could not open input file'); } ?>
Pop11
Char by char copy:
lvars i_stream = discin('input.txt'); lvars o_stream = discout('output.txt'); lvars c; while (i_stream() ->> c) /= termin do o_stream(c); endwhile;
Low level block copy:
lvars i_file = sysopen('input.txt', 0, true); lvars o_file = syscreate('output.txt', 1, true); lvars buff = inits(4096); lvars i; while (sysread(i_file, buff, length(buff)) ->> i) > 0 do syswrite(o_file, buff, i); endwhile;
Python
The following use of the standard libraries shutil.copyfile is to be preferred. (Current source code ensures that failure to open files raises appropriate exceptions, a restricted buffer is used to copy the files using binary mode, and any used file descriptors are always closed).
<lang python>import shutil shutil.copyfile('input.txt', 'output.txt')</lang>
However the following example shows how one would do file I/O of other sorts:
<lang python> infile = open('input.txt', 'r') outfile = open('output.txt', 'w') for line in infile:
outfile.write(line)
outfile.close() infile.close() </lang>
This does no error checking. A more robust program would wrap each open with exception handling blocks:
<lang python> import sys try:
infile = open('input.txt', 'r')
except IOError:
print >> sys.stderr, "Unable to open input.txt for input" sys.exit(1)
try:
outfile = open('output.txt', 'w')
except IOError:
print >> sys.stderr, "Unable to open output.txt for output" sys.exit(1)
try: # for finally
try: # for I/O for line in infile: outfile.write(line) except IOError, e: print >> sys.stderr, "Some I/O Error occurred (reading from input.txt or writing to output.txt)"
finally:
infile.close() outfile.close()
</lang>
In Python 2.6 (or 2.5 if we use from __future__ import with_statement) we can more simply write:
<lang python> import sys try:
with open('input.txt') as infile: with open('output.txt', 'w') as outfile: for line in infile: outfile.write(line)
except IOError:
print >> sys.stderr, "Some I/O Error occurred" sys.exit(1)
</lang>
The files will automatically be closed on exit of their with: blocks. (Thus even if an I/O error occurred while reading the middle of the input file we are assured that the .close() method will have been called on each of the two files.
RapidQ
File I/O is one of the things where RapidQ differs from standard Basic. RapidQ uses file streams.
The first version copies text line by line, as in the BASIC example.
$INCLUDE "rapidq.inc" DIM File1 AS QFileStream DIM File2 AS QFileStream File1.Open("input.txt", fmOpenRead) File2.Open("output.txt", fmCreate) WHILE NOT File1.EOF data$ = File1.ReadLine File2.WriteLine(data$) WEND File1.Close File2.Close
When just copying data, the code can be simplified by using the CopyFrom method.
(The second parameter for CopyFrom is number of bytes to copy, 0 = copy the whole file.)
$INCLUDE "rapidq.inc" DIM File1 AS QFileStream DIM File2 AS QFileStream File1.Open("input.txt", fmOpenRead) File2.Open("output.txt", fmCreate) File2.CopyFrom(File1, 0) File1.Close File2.Close
Raven
'input.txt' read 'output.txt' write
Ruby
<lang ruby> File.open("output.txt", "w") do |file|
file.write File.read("input.txt") end</lang>
Smalltalk
<lang smalltalk>| in out | in := FileStream open: 'input.txt' mode: FileStream read. out := FileStream open: 'output.txt' mode: FileStream write. [ in atEnd ]
whileFalse: [ out nextPut: (in next) ]</lang>
Standard ML
fun copyFile (from, to) = let val instream = TextIO.openIn from val outstream = TextIO.openOut to val () = TextIO.output (outstream, TextIO.inputAll instream) val () = TextIO.closeIn instream val () = TextIO.closeOut outstream in true end handle _ => false;
Tcl
set in [open "input.txt" r] set out [open "output.txt" w] puts -nonewline $out [read $in] close $in close $out
or the minimal version if we don't need any processing of the data
file copy input.txt output.txt
Other File I/O:
#open file for writing set myfile [open "README.TXT" w] #write something to the file puts $myfile "This is line 1, so hello world...." #close the file close $myfile
#open file for reading set myfile [open "README.TXT" r] #read something from the file gets $myfile mydata #show what was read from the file #should print "This is line1, so hello world...." puts $mydata #close the file close $myfile
Toka
This is one method, which works with any type of file:
( source dest -- ) { value| source dest size buffer | { { [ "W" file.open to dest ] is open-dest [ "R" file.open to source ] is open-source [ open-dest open-source ] } is open-files { [ source file.size to size ] is obtain-size [ size malloc to buffer ] is allocate-buffer [ obtain-size allocate-buffer ] } is create-buffer [ source dest and 0 <> ] is check [ open-files create-buffer check ] } is prepare [ source buffer size file.read drop ] is read-source [ dest buffer size file.write drop ] is write-dest [ source file.close dest file.close ] is close-files [ prepare [ read-source write-dest close-files ] ifTrue ] } is copy-file
And a much simpler way for plain text files, making use of file.slurp:
[ ( source dest -- ) swap file.slurp dup 0 <> [ >r "W" file.open dup r> string.getLength file.write drop file.close ] ifTrue ] is copy-file
And a test:
" input.txt" " output.txt" copy-file
Visual Basic .NET
'byte copy My.Computer.FileSystem.WriteAllBytes("output.txt", _ My.Computer.FileSystem.ReadAllBytes("input.txt"), False) 'text copy Using input = IO.File.OpenText("input.txt"), _ output As New IO.StreamWriter(IO.File.OpenWrite("output.txt")) output.Write(input.ReadToEnd) End Using 'Line by line text copy Using input = IO.File.OpenText("input.txt"), _ output As New IO.StreamWriter(IO.File.OpenWrite("output.txt")) Do Until input.EndOfStream output.WriteLine(input.ReadLine) Loop End Using
UNIX Shell
Bourne Shell
#!/bin/sh while read a; do echo "$a" done <input.txt >output.txt
Another way, using the 'cat' program
#!/bin/sh cat input.txt >output.txt
Yet another way, using the 'cp' utility
#!/bin/sh cp input.txt output.txt