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Read the contents of a file into a string
python
contents = open('myFile.txt', 'rt').read()
clojure
(slurp "/tmp/foobar")
fsharp
let file = new FileStream("test.txt", FileMode.Open)
let buffer = new String((new BinaryReader(file)).ReadChars(Convert.ToInt32(file.Length)))
let buffer = new String((new BinaryReader(file)).ReadChars(Convert.ToInt32(file.Length)))
let stream = new StreamReader("test.txt")
let buffer = stream.ReadToEnd()
let buffer = stream.ReadToEnd()
let buffer = File.ReadAllText("test.txt")
fantom
contents := File(`file.text`).readAllStr
groovy
contents = file.text
java
String text = FileUtils.readFileToString(new File("Solution109.java"), "UTF-8");
RandomAccessFile raf = null; byte[] buffer; String text = null;
try
{
raf = new RandomAccessFile("Solution399.java", "r");
buffer = new byte[(int)raf.length()]; raf.read(buffer);
text = new String(buffer);
}
try
{
raf = new RandomAccessFile("Solution399.java", "r");
buffer = new byte[(int)raf.length()]; raf.read(buffer);
text = new String(buffer);
}
erlang
Text = readfile("Solution607.erl"),
Text = readfile("Solution608.erl"),
perl
@file = read()
open(my $fh, '<', $path) or die "can't open $path: $!";
$string = do { local $/; <$fh> };
close $fh;
$string = do { local $/; <$fh> };
close $fh;
Process a file one line at a time
Open the source file to your solution and print each line in the file, prefixed by the line number, like:
1> First line of file
2> Second line of file
3> Third line of file
1> First line of file
2> Second line of file
3> Third line of file
python
for no, line in enumerate(open(__file__)):
print "{0}> {1}".format(no+1, line.rstrip())
print "{0}> {1}".format(no+1, line.rstrip())
clojure
(defn read-line-by-line [fn]
(reduce str (map (partial format "%d> %s\n")
(iterate inc 1)
(read-lines fn))))
(reduce str (map (partial format "%d> %s\n")
(iterate inc 1)
(read-lines fn))))
fsharp
let stream = new StreamReader("test.txt")
let mutable i = 1
let mutable line = stream.ReadLine()
while (line <> null) do printfn "%d> %s" i line ; line <- stream.ReadLine() ; i <- i + 1 done
stream.Close()
let mutable i = 1
let mutable line = stream.ReadLine()
while (line <> null) do printfn "%d> %s" i line ; line <- stream.ReadLine() ; i <- i + 1 done
stream.Close()
let proc_a_line (filename : string) proc =
let stream = new StreamReader(filename)
let rec proc_a_line' count line =
match line with
| null -> stream.Close()
| _ -> proc count line ; proc_a_line' (count + 1) (stream.ReadLine())
proc_a_line' 1 (stream.ReadLine())
// ------
let _ = proc_a_line "test.txt" (fun i line -> printfn "%d> %s" i line)
let stream = new StreamReader(filename)
let rec proc_a_line' count line =
match line with
| null -> stream.Close()
| _ -> proc count line ; proc_a_line' (count + 1) (stream.ReadLine())
proc_a_line' 1 (stream.ReadLine())
// ------
let _ = proc_a_line "test.txt" (fun i line -> printfn "%d> %s" i line)
let reader(filename : string) = seq {
use sr = new StreamReader(filename)
while not sr.EndOfStream do
let line = sr.ReadLine()
yield line
done
}
// ------
reader("test.txt") |> Seq.iteri (fun i line -> printfn "%d> %s" (i + 1) line)
use sr = new StreamReader(filename)
while not sr.EndOfStream do
let line = sr.ReadLine()
yield line
done
}
// ------
reader("test.txt") |> Seq.iteri (fun i line -> printfn "%d> %s" (i + 1) line)
File.ReadAllLines("test.txt") |> Array.iteri (fun i line -> printfn "%d> %s" (i + 1) line)
// Unlike ReadAllLines, ReadLines (new in .NET 4) only reads the file
// one line at a time, rather than reading the entire file into an array first.
open System.IO
File.ReadLines("test.txt") |> Seq.iteri (fun i line -> printfn "%d> %s" (i + 1) line)
// one line at a time, rather than reading the entire file into an array first.
open System.IO
File.ReadLines("test.txt") |> Seq.iteri (fun i line -> printfn "%d> %s" (i + 1) line)
fantom
File(`input.text`).readAllLines.each |Str s, Int i| { echo("${i+1}> $s") }
groovy
int count = 0
file.eachLine { line ->
println "${++count} > $line"
}
file.eachLine { line ->
println "${++count} > $line"
}
file.eachLine { line, count ->
println "${++count} > $line"
}
println "${++count} > $line"
}
java
BufferedReader br = null;
try {
br = new BufferedReader(new FileReader("Solution104.java"));
String line = null;
int lineNumber = 1;
while ((line=br.readLine())!=null) {
System.out.println(lineNumber + "> " + line);
lineNumber++;
}
} catch (IOException e) {
throw new RuntimeException(e);
} finally {
if (br!=null) {
try {
br.close();
} catch (Exception e) {
// ok
}
}
}
try {
br = new BufferedReader(new FileReader("Solution104.java"));
String line = null;
int lineNumber = 1;
while ((line=br.readLine())!=null) {
System.out.println(lineNumber + "> " + line);
lineNumber++;
}
} catch (IOException e) {
throw new RuntimeException(e);
} finally {
if (br!=null) {
try {
br.close();
} catch (Exception e) {
// ok
}
}
}
LineNumberReader lnr = null; PrintWriter pw = null; String line;
try
{
lnr = new LineNumberReader(new FileReader("Solution400.java"));
pw = new PrintWriter(System.out);
while ((line = lnr.readLine()) != null) pw.printf("%d> %s\n", lnr.getLineNumber(), line);
}
try
{
lnr = new LineNumberReader(new FileReader("Solution400.java"));
pw = new PrintWriter(System.out);
while ((line = lnr.readLine()) != null) pw.printf("%d> %s\n", lnr.getLineNumber(), line);
}
erlang
Reader = fun (IODevice) -> io:get_line(IODevice, "") end,
Worker = fun (Line, N) -> io:format("~B> ~s", [N, Line]), N + 1 end,
while_not_eof("Solution609.erl", Reader, Worker, 1).
Worker = fun (Line, N) -> io:format("~B> ~s", [N, Line]), N + 1 end,
while_not_eof("Solution609.erl", Reader, Worker, 1).
Reader = fun (Filename) -> {ok, Contents} = file:read_file(Filename), Contents end,
Transformer = fun (Line, N) -> string:concat(string:concat(integer_to_list(N), "> "), Line) end,
Printer = fun (Line) -> io:format("~s~n", [Line]) end,
Lines = string:tokens(binary_to_list(Reader("Solution610.erl")), "\n"),
NewLines = lists:zipwith(Transformer, Lines, lists:seq(1, length(Lines))),
lists:foreach(Printer, NewLines).
Transformer = fun (Line, N) -> string:concat(string:concat(integer_to_list(N), "> "), Line) end,
Printer = fun (Line) -> io:format("~s~n", [Line]) end,
Lines = string:tokens(binary_to_list(Reader("Solution610.erl")), "\n"),
NewLines = lists:zipwith(Transformer, Lines, lists:seq(1, length(Lines))),
lists:foreach(Printer, NewLines).
perl
open(my $fh, '<', $path) or die "can't open $path: $!";
$c = 1;
print $c++ . "> $_" for (<$fh>);
close $fh;
$c = 1;
print $c++ . "> $_" for (<$fh>);
close $fh;
open my $fh, '<', $path or die "Can't open $path: $!";
while (<$fh>) {
print "$.> $_";
}
while (<$fh>) {
print "$.> $_";
}
Write a string to a file
python
open('test.txt', 'wt').write('Hello World!')
clojure
(with-out-writer "output.txt" (println "Hello file!"))
fsharp
let stream = new StreamWriter("test.txt", false)
stream.WriteLine("This line overwrites file contents!")
stream.WriteLine("This line overwrites file contents!")
fantom
File(`out.txt`).out.writeChars("some text").flush
groovy
file.delete()
file << 'some text'
file << 'some text'
file.text = 'some text'
java
FileWriter fw = null;
try
{
fw = new FileWriter("test.txt");
fw.write("This line overwites file contents!");
}
try
{
fw = new FileWriter("test.txt");
fw.write("This line overwites file contents!");
}
PrintWriter pw = null;
try
{
pw = new PrintWriter(new BufferedWriter(new FileWriter("test.txt")));
pw.print("This line overwites file contents!");
}
try
{
pw = new PrintWriter(new BufferedWriter(new FileWriter("test.txt")));
pw.print("This line overwites file contents!");
}
erlang
Line = "This line overwites file contents!\n",
{ok, IODevice} = file:open("test.txt", [write]), file:write(IODevice, Line), file:close(IODevice).
{ok, IODevice} = file:open("test.txt", [write]), file:write(IODevice, Line), file:close(IODevice).
perl
open(my $fh, '>', $path) or die "can't open $path: $!";
print $fh "This line overwites file contents!";
close $fh;
print $fh "This line overwites file contents!";
close $fh;
Append to a file
python
open('test.txt', 'at').write('Hello World!\n')
clojure
(with-out-append-writer "output.txt" (println "This is appended to the file"))
fsharp
let stream = new StreamWriter("test.txt", true)
stream.WriteLine("This line appended to file!")
stream.WriteLine("This line appended to file!")
fantom
File(`out.txt`).out(true).writeChars("some text").flush
groovy
file << 'some text'
java
FileWriter fw = null;
try
{
fw = new FileWriter("test.txt", true);
fw.write("This line appended to file!");
}
try
{
fw = new FileWriter("test.txt", true);
fw.write("This line appended to file!");
}
PrintWriter pw = null;
try
{
pw = new PrintWriter(new BufferedWriter(new FileWriter("test.txt", true)));
pw.print("This line appended to file!");
}
try
{
pw = new PrintWriter(new BufferedWriter(new FileWriter("test.txt", true)));
pw.print("This line appended to file!");
}
erlang
Line = "This line appended to file!\n",
{ok, IODevice} = file:open("test.txt", [append]), file:write(IODevice, Line), file:close(IODevice).
{ok, IODevice} = file:open("test.txt", [append]), file:write(IODevice, Line), file:close(IODevice).
perl
open(my $fh, '>>', $path) or die "can't open $path: $!";
print $fh "This line is appended to the file!";
close $fh;
print $fh "This line is appended to the file!";
close $fh;
Process each file in a directory
python
import os
results = (process(f) for f in os.listdir(".") if os.path.isfile(f))
results = (process(f) for f in os.listdir(".") if os.path.isfile(f))
clojure
; (defn process-file [f] "process one file" body...)
(map process-file (.listFiles (File. ".")))
(map process-file (.listFiles (File. ".")))
fsharp
let dirname = "c:\\"
let processFile filename = printfn "%s" filename
for filename in Directory.GetFiles(dirname) do processFile filename done
let processFile filename = printfn "%s" filename
for filename in Directory.GetFiles(dirname) do processFile filename done
let dirname = "c:\\"
Directory.GetFiles(dirname) |> Array.iter (fun filename -> printfn "%s" filename)
Directory.GetFiles(dirname) |> Array.iter (fun filename -> printfn "%s" filename)
fantom
File(`./`).list.each { process(it) }
groovy
dir.eachFile{ f -> process(f) }
java
for (File file : (new File("c:\\")).listFiles()) process(file);
erlang
% File basenames only - many tasks require absolute paths to work
lists:foreach(fun (FileOrDirPath) -> Worker(FileOrDirPath) end, file:list_dir(Directory)).
lists:foreach(fun (FileOrDirPath) -> Worker(FileOrDirPath) end, file:list_dir(Directory)).
% Absolute paths provided - will accomodate most tasks
lists:foreach(fun (FileOrDirPath) -> Worker(FileOrDirPath) end, list_dir_path(Directory)).
lists:foreach(fun (FileOrDirPath) -> Worker(FileOrDirPath) end, list_dir_path(Directory)).
perl
use File::Glob;
for (<*>) {
process_file($_) if (-f);
}
for (<*>) {
process_file($_) if (-f);
}
Process each file in a directory recursively
python
import os
results = (process(os.path.join(p, n)) for p,d,l in os.walk(".") for n in l)
results = (process(os.path.join(p, n)) for p,d,l in os.walk(".") for n in l)
clojure
; (defn process-file [f] "process one file" body...)
(map process-file (file-seq (File. ".")))
(map process-file (file-seq (File. ".")))
fsharp
let processDirectory dirname proc =
let rec processDirectory' dirname' =
Directory.GetFiles(dirname') |> Array.iter proc
Directory.GetDirectories(dirname') |> Array.iter processDirectory'
processDirectory' dirname
// ------
let dirname = "c:\\"
processDirectory dirname (fun filename -> printfn "%s" filename)
let rec processDirectory' dirname' =
Directory.GetFiles(dirname') |> Array.iter proc
Directory.GetDirectories(dirname') |> Array.iter processDirectory'
processDirectory' dirname
// ------
let dirname = "c:\\"
processDirectory dirname (fun filename -> printfn "%s" filename)
fantom
File(`./`).walk { process(it) }
groovy
dir.eachFileRecurse{ f -> process(f) }
java
processDirectory(new File("c:\\"));
erlang
filelib:fold_files(Directory, ".*", true, fun (FileOrDirPath, Acc) -> Worker(FileOrDirPath), Acc end, []).
process_dir(Directory, Worker).
perl
use File::Glob;
process_directory(".");
sub process_directory {
my $dir = shift;
for my $file (<$dir/*>) {
next unless (-r $file);
if (-f $file) {
process_file($file);
} elsif (-d $file) {
process_directory($file);
}
}
}
process_directory(".");
sub process_directory {
my $dir = shift;
for my $file (<$dir/*>) {
next unless (-r $file);
if (-f $file) {
process_file($file);
} elsif (-d $file) {
process_directory($file);
}
}
}
use File::Find ();
# Traverse desired filesystems
sub process_directory {
my $directory = shift;
File::Find::find({wanted => \&wanted}, $directory);
}
sub wanted {
process_file( $File::Find::name );
}
# Traverse desired filesystems
sub process_directory {
my $directory = shift;
File::Find::find({wanted => \&wanted}, $directory);
}
sub wanted {
process_file( $File::Find::name );
}
