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Define a class
Declare a class named Greeter that takes a string on creation and greets using this string if you call the
"greet" method.
perl
{ package Greeter;
sub new {
my $self = {};
my $type = shift;
$self->{'whom'} = shift;
bless $self, $type;
}
sub greet {
my $self = shift;
print "Hello " . $self->{'whom'} . "!\n";
}
}
my $greeter = Greeter->new("world");
$greeter->greet();
sub new {
my $self = {};
my $type = shift;
$self->{'whom'} = shift;
bless $self, $type;
}
sub greet {
my $self = shift;
print "Hello " . $self->{'whom'} . "!\n";
}
}
my $greeter = Greeter->new("world");
$greeter->greet();
{
package Greeter;
sub new {
my $class = shift;
my $whom = shift or die 'Need a name to greet';
bless \$whom, $class;
}
sub greet {
my $self = shift;
print "Hello $$self!\n";
}
}
my $greeter = Greeter->new("Bob");
$greeter->greet();
package Greeter;
sub new {
my $class = shift;
my $whom = shift or die 'Need a name to greet';
bless \$whom, $class;
}
sub greet {
my $self = shift;
print "Hello $$self!\n";
}
}
my $greeter = Greeter->new("Bob");
$greeter->greet();
java
class Greeter
{
public Greeter(String whom) { this.whom = whom; }
public void greet() { System.out.printf("Hello, %s\n", whom); }
private String whom;
}
public class Solution381 {
public static void main(String[] args) {
(new Greeter("world")).greet();
}
}
{
public Greeter(String whom) { this.whom = whom; }
public void greet() { System.out.printf("Hello, %s\n", whom); }
private String whom;
}
public class Solution381 {
public static void main(String[] args) {
(new Greeter("world")).greet();
}
}
clojure
(defprotocol IGreeter
(greet [this]))
(deftype Greeter [whom]
IGreeter
(greet [this]
(println (str "Hello, " whom))))
(greet (Greeter. "world"))
(greet [this]))
(deftype Greeter [whom]
IGreeter
(greet [this]
(println (str "Hello, " whom))))
(greet (Greeter. "world"))
(defn greeter [whom]
{:whom whom})
(defn greet [g]
(println (str "Hello, " (:whom g))))
(greet (greeter "world"))
{:whom whom})
(defn greet [g]
(println (str "Hello, " (:whom g))))
(greet (greeter "world"))
Instantiate object with mutable state
Reimplement the Greeter class so that the
For example, if the greetee is changed to
Hello, Tommy!
The getter would then be used to display the line:
I have just greeted Tommy.
'whom' property or data member remains private but is mutable, and is provided with getter and setter methods. Invoke the setter to change the greetee, invoke 'greet', then use the getter in displaying the line, "I have just greeted {whom}.".
For example, if the greetee is changed to
'Tommy' using the setter, the 'greet' method would display:
Hello, Tommy!
The getter would then be used to display the line:
I have just greeted Tommy.
perl
package Greeter;
sub new {
my ($class, $whom) = @_;
bless {whom => $whom}, $class;
}
sub whom {
my ($self, $whom) = @_;
if ($whom) { $self->{whom} = $whom; }
else { return $self->{whom} }
}
sub greet {
my ($self) = @_;
my $whom = $self->{whom};
print "Hello, $whom!\n";
}
package main;
my $g = new Greeter ("world");
$g->greet;
$g->whom("Tommy");
$g->greet;
print "I have just greeted " . $g->whom . "\n";
sub new {
my ($class, $whom) = @_;
bless {whom => $whom}, $class;
}
sub whom {
my ($self, $whom) = @_;
if ($whom) { $self->{whom} = $whom; }
else { return $self->{whom} }
}
sub greet {
my ($self) = @_;
my $whom = $self->{whom};
print "Hello, $whom!\n";
}
package main;
my $g = new Greeter ("world");
$g->greet;
$g->whom("Tommy");
$g->greet;
print "I have just greeted " . $g->whom . "\n";
java
class Greeter {
private String whom;
public Greeter(String whom) {
this.whom = whom;
}
public String getWhom() {
return whom;
}
public void setWhom(String whom) {
this.whom = whom;
}
public void greet() {
System.out.println("Hello " + whom + "!");
}
}
Greeter greeter = new Greeter("World");
greeter.greet();
greeter.setWhom("Tommy");
greeter.greet();
System.out.println("I have just greeted " + greeter.getWhom() + ".");
private String whom;
public Greeter(String whom) {
this.whom = whom;
}
public String getWhom() {
return whom;
}
public void setWhom(String whom) {
this.whom = whom;
}
public void greet() {
System.out.println("Hello " + whom + "!");
}
}
Greeter greeter = new Greeter("World");
greeter.greet();
greeter.setWhom("Tommy");
greeter.greet();
System.out.println("I have just greeted " + greeter.getWhom() + ".");
clojure
(defn greeter [whom]
(atom {:whom whom}))
(defn get-whom [g]
(:whom @g))
(defn set-whom [g whom]
(swap! g #(conj % {:whom whom})))
(defn greet [g]
(println (str "Hello, " (:whom @g) "!")))
; using the "class"
(let [g (greeter "world")]
(greet g)
(set-whom g "Tommy")
(greet g)
(println (str "I have just greeted " (get-whom g) ".")))
; or same effect without using any variables
(println (str "I have just greeted "
(get-whom (doto (greeter "world")
(greet)
(set-whom "Tommy")
(greet)))
"."))
(atom {:whom whom}))
(defn get-whom [g]
(:whom @g))
(defn set-whom [g whom]
(swap! g #(conj % {:whom whom})))
(defn greet [g]
(println (str "Hello, " (:whom @g) "!")))
; using the "class"
(let [g (greeter "world")]
(greet g)
(set-whom g "Tommy")
(greet g)
(println (str "I have just greeted " (get-whom g) ".")))
; or same effect without using any variables
(println (str "I have just greeted "
(get-whom (doto (greeter "world")
(greet)
(set-whom "Tommy")
(greet)))
"."))
Implement Inheritance Heirarchy
Implement a Shape abstract class which will form the base of an inheritance hierarchy that models 2D geometric shapes. It will have:
* A non-mutable
* A
* A
* A non-mutable
'name' property or data member set by derived or descendant classes at construction time
* A
'area' method intended to be overridden by derived or descendant classes ( double precision floating point return value)
* A
'print' method (also for overriding) will display the shape's name, area, and all shape-specific values
Two derived or descendant classes will be created:
* Circle -> Constructor requires a 'radius' argument, and a 'circumference' method to be implemented
* Rectangle -> Constructor requires 'length' and 'breadth' arguments, and a 'perimeter' method to be implemented
Instantiate an object of each class, and invoke each objects 'print' method to show relevant details.
perl
package Shapes;
use MooseX::Declare;
class Shape {
use MooseX::ABC;
requires qw/area print/;
has 'name' => (is => 'ro', isa => 'Str', default => '', required => 0, init_arg => undef );
}
class Circle extends Shape {
use constant PI => 4 * atan2(1, 1);
has '+name' => ( default => 'circle' );
has 'radius' => (is => 'ro', isa => 'Num', required => 1, init_arg => 'r' );
sub area { PI * ( $_[0]->radius ** 2 ) }
sub circumference { 2 * PI * ( $_[0]->radius ** 2 ) }
sub print {
my $self = shift;
printf <<"END_OF_BLOCK", map { $self->$_ } qw/name radius area circumference/;
I am a '%s' with
Radius: %.2f
Area: %.2f
Circumference: %.2f
END_OF_BLOCK
}
}
class Rectangle extends Shape {
has '+name' => ( default => 'rectangle' );
has 'length' => (is => 'ro', isa => 'Num', required => 1, init_arg => 'l' );
has 'breadth' => (is => 'ro', isa => 'Num', required => 1, init_arg => 'b' );
sub area { $_[0]->length * $_[0]->breadth }
sub perimeter { 2 * ( $_[0]->length + $_[0]->breadth ) }
sub print {
my $self = shift;
printf <<"END_OF_BLOCK", map { $self->$_ } qw/name length breadth area perimeter/;
I am a '%s' with
Length, Width: %.2f, %.2f
Area: %.2f
Perimeter: %.2f
END_OF_BLOCK
}
}
1;
package main;
my @shapes = ( Circle->new( r => 4.2 ), Rectangle->new(l => 2.7, b => 3.1),
Rectangle->new(l => 6.2, b => 2.6), Circle->new( r => 17.3) );
$_->print for @shapes;
use MooseX::Declare;
class Shape {
use MooseX::ABC;
requires qw/area print/;
has 'name' => (is => 'ro', isa => 'Str', default => '', required => 0, init_arg => undef );
}
class Circle extends Shape {
use constant PI => 4 * atan2(1, 1);
has '+name' => ( default => 'circle' );
has 'radius' => (is => 'ro', isa => 'Num', required => 1, init_arg => 'r' );
sub area { PI * ( $_[0]->radius ** 2 ) }
sub circumference { 2 * PI * ( $_[0]->radius ** 2 ) }
sub print {
my $self = shift;
printf <<"END_OF_BLOCK", map { $self->$_ } qw/name radius area circumference/;
I am a '%s' with
Radius: %.2f
Area: %.2f
Circumference: %.2f
END_OF_BLOCK
}
}
class Rectangle extends Shape {
has '+name' => ( default => 'rectangle' );
has 'length' => (is => 'ro', isa => 'Num', required => 1, init_arg => 'l' );
has 'breadth' => (is => 'ro', isa => 'Num', required => 1, init_arg => 'b' );
sub area { $_[0]->length * $_[0]->breadth }
sub perimeter { 2 * ( $_[0]->length + $_[0]->breadth ) }
sub print {
my $self = shift;
printf <<"END_OF_BLOCK", map { $self->$_ } qw/name length breadth area perimeter/;
I am a '%s' with
Length, Width: %.2f, %.2f
Area: %.2f
Perimeter: %.2f
END_OF_BLOCK
}
}
1;
package main;
my @shapes = ( Circle->new( r => 4.2 ), Rectangle->new(l => 2.7, b => 3.1),
Rectangle->new(l => 6.2, b => 2.6), Circle->new( r => 17.3) );
$_->print for @shapes;
{
package Shapes;
sub new {
my $class = shift;
die 'Invalid parameters' if (@_ % 2);
my %parameters = @_;
die 'Missing name' unless defined $parameters{name};
bless \%parameters, $class
}
sub area {
die
'area() method must be implemented by ',__PACKAGE__.' subclasses';
}
sub print {
my $self = shift;
printf "Name: \t%s\n", $self->{name};
printf "Area: \t%.2f\n", $self->area();
}
}
{
package Circle;
use parent -norequire, 'Shapes';
use Scalar::Util qw/looks_like_number/;
use Math::Trig;
sub new {
my $class = shift;
my $self = $class->SUPER::new(name => 'Circle', @_);
die 'Missing radius' unless defined($self->{radius});
die 'Invalid radius (not a number)'
unless looks_like_number($self->{radius});
$self
}
sub area {
my $self = shift;
pi * ($self->{radius} ** 2)
}
sub circumference {
my $self = shift;
2 * pi * $self->{radius};
}
sub print {
my $self = shift;
$self->SUPER::print;
printf "Circumference: \t%.2f\n", $self->circumference;
}
}
{
package Rectangle;
use parent -norequire, 'Shapes';
use Scalar::Util qw/looks_like_number/;
sub new {
my $class = shift;
my $self = $class->SUPER::new(name => 'Rectangle', @_);
do {
die "Missing $_" unless defined($self->{$_});
die "Invalid $_" unless looks_like_number($self->{$_});
} for qw/length breadth/;
$self;
}
sub area {
my $self = shift;
$self->{length} * $self->{breadth}
}
sub print {
my $self = shift;
$self->SUPER::print();
do {
printf ucfirst($_).": \t%.2f\n", $self->{$_}
} for qw/length breadth/;
}
}
package main;
my @shapes = ( Circle->new( radius => 4.2 ),
Rectangle->new(length => 2.7, breadth => 3.1),
Rectangle->new(length => 6.2, breadth => 2.6),
Circle->new( radius => 17.3) );
$_->print for @shapes;
package Shapes;
sub new {
my $class = shift;
die 'Invalid parameters' if (@_ % 2);
my %parameters = @_;
die 'Missing name' unless defined $parameters{name};
bless \%parameters, $class
}
sub area {
die
'area() method must be implemented by ',__PACKAGE__.' subclasses';
}
sub print {
my $self = shift;
printf "Name: \t%s\n", $self->{name};
printf "Area: \t%.2f\n", $self->area();
}
}
{
package Circle;
use parent -norequire, 'Shapes';
use Scalar::Util qw/looks_like_number/;
use Math::Trig;
sub new {
my $class = shift;
my $self = $class->SUPER::new(name => 'Circle', @_);
die 'Missing radius' unless defined($self->{radius});
die 'Invalid radius (not a number)'
unless looks_like_number($self->{radius});
$self
}
sub area {
my $self = shift;
pi * ($self->{radius} ** 2)
}
sub circumference {
my $self = shift;
2 * pi * $self->{radius};
}
sub print {
my $self = shift;
$self->SUPER::print;
printf "Circumference: \t%.2f\n", $self->circumference;
}
}
{
package Rectangle;
use parent -norequire, 'Shapes';
use Scalar::Util qw/looks_like_number/;
sub new {
my $class = shift;
my $self = $class->SUPER::new(name => 'Rectangle', @_);
do {
die "Missing $_" unless defined($self->{$_});
die "Invalid $_" unless looks_like_number($self->{$_});
} for qw/length breadth/;
$self;
}
sub area {
my $self = shift;
$self->{length} * $self->{breadth}
}
sub print {
my $self = shift;
$self->SUPER::print();
do {
printf ucfirst($_).": \t%.2f\n", $self->{$_}
} for qw/length breadth/;
}
}
package main;
my @shapes = ( Circle->new( radius => 4.2 ),
Rectangle->new(length => 2.7, breadth => 3.1),
Rectangle->new(length => 6.2, breadth => 2.6),
Circle->new( radius => 17.3) );
$_->print for @shapes;
java
/*
* Will work with version 1.4 if you remove the @Override annotation
* and declare floating point numbers using the primitive "double"
*/
abstract class Shape {
protected final String name;
public Shape(String name) {
this.name = name;
}
public abstract Double area();
public abstract void print();
}
class Circle extends Shape {
private Double radius;
public Circle(Double radius) {
super("circle");
this.radius = radius;
}
@Override
public Double area() {
return Math.PI * Math.pow(radius, 2);
}
@Override
public void print() {
System.out.println("A " + name + " with radius " + radius
+ ", area " + area() + " and circumference "
+ circumference() + ".");
}
public Double circumference() {
return 2 * Math.PI * radius;
}
}
class Rectangle extends Shape {
private Double length, breadth;
public Rectangle(Double length, Double breadth) {
super("Rectangle");
this.length = length;
this.breadth = breadth;
}
@Override
public Double area() {
return length * breadth;
}
public Double perimeter() {
return 2 * length + 2 * breadth;
}
@Override
public void print() {
System.out.println("A " + name + " with length " + length
+ ", breadth " + breadth + ", area " + area()
+ " and perimeter " + perimeter() + ".");
}
}
Circle circle = new Circle(4d);
circle.print();
Rectangle rectangle = new Rectangle(2d, 5.5);
rectangle.print();
* Will work with version 1.4 if you remove the @Override annotation
* and declare floating point numbers using the primitive "double"
*/
abstract class Shape {
protected final String name;
public Shape(String name) {
this.name = name;
}
public abstract Double area();
public abstract void print();
}
class Circle extends Shape {
private Double radius;
public Circle(Double radius) {
super("circle");
this.radius = radius;
}
@Override
public Double area() {
return Math.PI * Math.pow(radius, 2);
}
@Override
public void print() {
System.out.println("A " + name + " with radius " + radius
+ ", area " + area() + " and circumference "
+ circumference() + ".");
}
public Double circumference() {
return 2 * Math.PI * radius;
}
}
class Rectangle extends Shape {
private Double length, breadth;
public Rectangle(Double length, Double breadth) {
super("Rectangle");
this.length = length;
this.breadth = breadth;
}
@Override
public Double area() {
return length * breadth;
}
public Double perimeter() {
return 2 * length + 2 * breadth;
}
@Override
public void print() {
System.out.println("A " + name + " with length " + length
+ ", breadth " + breadth + ", area " + area()
+ " and perimeter " + perimeter() + ".");
}
}
Circle circle = new Circle(4d);
circle.print();
Rectangle rectangle = new Rectangle(2d, 5.5);
rectangle.print();
clojure
(defmulti area :Shape)
(defmulti print :Shape)
; Circle methods
(defn circle [r]
{:Shape :Circle
:name "Circle"
:radius r})
(defn circumference [c]
(* 2 Math/PI (:radius c)))
(defmethod area :Circle [c]
(* Math/PI (:radius c) (:radius c)))
(defmethod print :Circle [c]
(println (format "I am a %s with ->" (:name c)))
(println (format "Radius: %.2f" (:radius c)))
(println (format "Area: %.2f" (area c)))
(println (format "Circumference: %.2f" (circumference c))))
; Rectangle methods
(defn rectangle [l b]
{:Shape :Rectangle
:name "Rectangle"
:length l
:breadth b})
(defn perimeter [r]
(+ (* 2 (:length r)) (* 2 (:breadth r))))
(defmethod area :Rectangle [r]
(* (:length r) (:breadth r)))
(defmethod print :Rectangle [r]
(println (format "I am a %s with ->" (:name r)))
(println (format "Length, Width: %.2f, %.2f" (:length r) (:breadth r)))
(println (format "Area: %.2f" (area r)))
(println (format "Perimeter: %.2f" (perimeter r))))
; usage of the "classes"
(let [shapes (list (circle 4.2) (rectangle 2.7 3.1) (rectangle 6.2 2.6) (circle 17.3))]
(doseq [shape shapes]
(print shape)))
(defmulti print :Shape)
; Circle methods
(defn circle [r]
{:Shape :Circle
:name "Circle"
:radius r})
(defn circumference [c]
(* 2 Math/PI (:radius c)))
(defmethod area :Circle [c]
(* Math/PI (:radius c) (:radius c)))
(defmethod print :Circle [c]
(println (format "I am a %s with ->" (:name c)))
(println (format "Radius: %.2f" (:radius c)))
(println (format "Area: %.2f" (area c)))
(println (format "Circumference: %.2f" (circumference c))))
; Rectangle methods
(defn rectangle [l b]
{:Shape :Rectangle
:name "Rectangle"
:length l
:breadth b})
(defn perimeter [r]
(+ (* 2 (:length r)) (* 2 (:breadth r))))
(defmethod area :Rectangle [r]
(* (:length r) (:breadth r)))
(defmethod print :Rectangle [r]
(println (format "I am a %s with ->" (:name r)))
(println (format "Length, Width: %.2f, %.2f" (:length r) (:breadth r)))
(println (format "Area: %.2f" (area r)))
(println (format "Perimeter: %.2f" (perimeter r))))
; usage of the "classes"
(let [shapes (list (circle 4.2) (rectangle 2.7 3.1) (rectangle 6.2 2.6) (circle 17.3))]
(doseq [shape shapes]
(print shape)))
Implement and use an Interface
Create a Serializable interface consisting of
* Accept a stream or handle or descriptor argument for the source or destination
* Save to destination or restore from source the properties or data members of the implementing class (restrict yourself to the primitive types
Next, create a Person class which has
'save' and 'restore' methods, each of which:
* Accept a stream or handle or descriptor argument for the source or destination
* Save to destination or restore from source the properties or data members of the implementing class (restrict yourself to the primitive types
'int' and 'string')
Next, create a Person class which has
'name' and 'age' properties or data members and implements this interface. Instantiate a Person object, save it to a serial stream, and instantiate a new Person object by restoring it from the serial stream.
perl
package Person;
use Moose;
use MooseX::Storage;
with Storage('format' => 'JSON', 'io' => 'File');
has 'name' => (is => 'rw', isa => 'Str');
has 'age' => (is => 'rw', isa => 'Int');
1;
Person->new( name => 'David B.', age => 28)->store('person.json');
my $p = Person->load('person.json');
use Moose;
use MooseX::Storage;
with Storage('format' => 'JSON', 'io' => 'File');
has 'name' => (is => 'rw', isa => 'Str');
has 'age' => (is => 'rw', isa => 'Int');
1;
Person->new( name => 'David B.', age => 28)->store('person.json');
my $p = Person->load('person.json');
{
package Serializable;
use Role::Basic;
use Storable qw'store_fd retrieve_fd';
use Scalar::Util 'blessed';
use IO::Handle;
use Carp;
sub save {
my $self = shift;
my $fd = shift or croak 'Needs target file handle';
$DB::single = (1);
store_fd($self, $fd);
}
sub restore {
my $class = shift;
my $fd = shift or croak 'Needs source file handle';
my $self = retrieve_fd( $fd );
bless $self, $class
}
}
{
package Person;
use Role::Basic 'with';
use Scalar::Util 'looks_like_number';
use Carp;
with 'Serializable';
sub new {
my $class = shift;
croak 'Invalid parameters' if (@_ % 2);
%parameters = @_;
do {
croak "Missing $_" unless defined $parameters{$_}
} for qw/name age/;
croak 'Invalid age' unless looks_like_number($parameters{age});
bless \%parameters, $class
}
sub name {
$self{name}
}
sub age {
$self{age}
}
}
use IO::Handle;
my $p1 = Person->new(age => 42, name => 'Milly Fogg');
open my $fh, '+>', 'person.store';
$p1->save( $fh );
seek $fh, 0, SEEK_SET;
my $p2 = Person->restore( $fh );
package Serializable;
use Role::Basic;
use Storable qw'store_fd retrieve_fd';
use Scalar::Util 'blessed';
use IO::Handle;
use Carp;
sub save {
my $self = shift;
my $fd = shift or croak 'Needs target file handle';
$DB::single = (1);
store_fd($self, $fd);
}
sub restore {
my $class = shift;
my $fd = shift or croak 'Needs source file handle';
my $self = retrieve_fd( $fd );
bless $self, $class
}
}
{
package Person;
use Role::Basic 'with';
use Scalar::Util 'looks_like_number';
use Carp;
with 'Serializable';
sub new {
my $class = shift;
croak 'Invalid parameters' if (@_ % 2);
%parameters = @_;
do {
croak "Missing $_" unless defined $parameters{$_}
} for qw/name age/;
croak 'Invalid age' unless looks_like_number($parameters{age});
bless \%parameters, $class
}
sub name {
$self{name}
}
sub age {
$self{age}
}
}
use IO::Handle;
my $p1 = Person->new(age => 42, name => 'Milly Fogg');
open my $fh, '+>', 'person.store';
$p1->save( $fh );
seek $fh, 0, SEEK_SET;
my $p2 = Person->restore( $fh );
java
// Serialization to a file
class Person implements Serializable {
private static final long serialVersionUID = 1L;
private String name;
private int age;
public void setAge(int age) {
this.age = age;
}
public int getAge() {
return age;
}
public void setName(String name) {
this.name = name;
}
public String getName() {
return name;
}
public boolean equals(Object obj) {
if(obj == this) return true;
if(obj instanceof Person) {
Person p = (Person) obj;
return (p.getName().equals(this.getName())
& p.getAge() == this.getAge());
}
return false;
}
public String toString() {
return "Name: " + name + ", age: " + age;
}
}
Person person = new Person();
person.setName("Gaylord Focker");
person.setAge(21);
try {
File file = new File("ser.obj");
FileOutputStream fos = new FileOutputStream(file);
ObjectOutputStream oos = new ObjectOutputStream(fos);
oos.writeObject(person);
oos.close();
FileInputStream fis = new FileInputStream(file);
ObjectInputStream ois = new ObjectInputStream(fis);
Person deserializedPerson = (Person) ois.readObject();
ois.close();
System.out.println(deserializedPerson);
} catch (IOException e) {
e.printStackTrace();
} catch (ClassNotFoundException e) {
e.printStackTrace();
}
class Person implements Serializable {
private static final long serialVersionUID = 1L;
private String name;
private int age;
public void setAge(int age) {
this.age = age;
}
public int getAge() {
return age;
}
public void setName(String name) {
this.name = name;
}
public String getName() {
return name;
}
public boolean equals(Object obj) {
if(obj == this) return true;
if(obj instanceof Person) {
Person p = (Person) obj;
return (p.getName().equals(this.getName())
& p.getAge() == this.getAge());
}
return false;
}
public String toString() {
return "Name: " + name + ", age: " + age;
}
}
Person person = new Person();
person.setName("Gaylord Focker");
person.setAge(21);
try {
File file = new File("ser.obj");
FileOutputStream fos = new FileOutputStream(file);
ObjectOutputStream oos = new ObjectOutputStream(fos);
oos.writeObject(person);
oos.close();
FileInputStream fis = new FileInputStream(file);
ObjectInputStream ois = new ObjectInputStream(fis);
Person deserializedPerson = (Person) ois.readObject();
ois.close();
System.out.println(deserializedPerson);
} catch (IOException e) {
e.printStackTrace();
} catch (ClassNotFoundException e) {
e.printStackTrace();
}
clojure
(defn person [name age]
{:name name :age age})
(defn show [p]
(println (format "Name=%s Age=%d" (:name p) (:age p))))
(defn save [p filename]
(with-out-writer filename (pr p)))
(defn restore [filename]
(read (PushbackReader. (reader filename))))
(let [p (person "Ken" 38)]
(show p)
(save p *person-fn*))
(let [ser-p (restore *person-fn*)]
(show ser-p))
{:name name :age age})
(defn show [p]
(println (format "Name=%s Age=%d" (:name p) (:age p))))
(defn save [p filename]
(with-out-writer filename (pr p)))
(defn restore [filename]
(read (PushbackReader. (reader filename))))
(let [p (person "Ken" 38)]
(show p)
(save p *person-fn*))
(let [ser-p (restore *person-fn*)]
(show ser-p))
