Vigenère cipher in Ruby
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$begingroup$
What I'm trying to do: implement the Vigenère cipher in Ruby. I already have a working version, but I want to make sure it is efficient and well-designed.
module Crypto
# Vigenère cipher encryption and decryption abstraction
module Vigenere
LETTERS = ('a'..'z').to_a.freeze
private_constant :LETTERS
module_function
# Encrypts a string
#
# @param string [String] the string that will be encrypted
# @param key [String] the key that will be used to encrypt the string
#
# @return [String] the encrypted string
def encrypt(string:, key:)
key = make_key(length: string.length, key: key)
string.length.times.map { |i|
p = LETTERS.find_index(string[i])
k = LETTERS.find_index(key[i])
LETTERS[(p + k) % 26]
}.join
end
# Decrypts an encrypted string
#
# @param string [String] the encrypted string that will be decrypted
# @param key [String] the key that will be used to decrypt the string
#
# @return [String] the decrypted string
def decrypt(string:, key:)
key = make_key(length: string.length, key: key)
string.length.times.map { |i|
c = LETTERS.find_index(string[i])
k = LETTERS.find_index(key[i])
LETTERS[(c - k + 26) % 26]
}.join
end
# Repeats a word until it matches a certain length
#
# @param length [Integer] the length of the word being encrypted/decrypted
# @param key [String] the word that will be repeated
#
# @return [String] the word in its new form
def make_key(length:, key:)
i = 0
length.times do
i = 0 if i == key.length
break if key.length == length
key << key[i]
i += 1
end
key
end
private_class_method :make_key
end
end
I do have some specific questions:
1. private_class_method
This is the best way I found to define a private method in a module, but it feels weird to me. Isn't there a better way to do that? My first implementation was this:
module Crypto
class Vigenere
class << self
def encrypt # ...
def decrypt # ...
private
def make_key # ...
end
end
end
which was fine for me. But then I read this rule on the Ruby Style Guide repository. So I switched to using module
, but it doesn't feel right to use private methods in this structure. Am I wrong?
2. reseting a counter (index)
Take a look at this snippet of code:
def make_key(length:, key:)
i = 0
length.times do
i = 0 if i == key.length
break if key.length == length
key << key[i]
i += 1
end
key
end
Defining a counter (i
) and manually incrementing it... looks awkward, doesn't it (at least in the Ruby world)? Is there a better way to do this?
3. valid multi-line block with curly braces?
Now take a look at this snippet:
string.length.times.map { |i|
p = LETTERS.find_index(string[i])
k = LETTERS.find_index(key[i])
LETTERS[(p + k) % 26]
}.join
I know most Ruby developers tend to use curly braces only for one-line blocks and do-end
for multi-line blocks, but this time it seems okay using curly braces with a multi-line block, since I'm chaining #join
right after. What would you do:
1. use do-end, store it in a variable and invoke #join after that
new_letters = string.length.times.map do |i|
p = LETTERS.find_index(string[i])
k = LETTERS.find_index(key[i])
LETTERS[(p + k) % 26]
end
new_letters.join
2. what I did (use curly braces even with multi-line block and chain #join)
And of course, if you have any other observations, please share.
ruby vigenere-cipher
New contributor
$endgroup$
add a comment |
$begingroup$
What I'm trying to do: implement the Vigenère cipher in Ruby. I already have a working version, but I want to make sure it is efficient and well-designed.
module Crypto
# Vigenère cipher encryption and decryption abstraction
module Vigenere
LETTERS = ('a'..'z').to_a.freeze
private_constant :LETTERS
module_function
# Encrypts a string
#
# @param string [String] the string that will be encrypted
# @param key [String] the key that will be used to encrypt the string
#
# @return [String] the encrypted string
def encrypt(string:, key:)
key = make_key(length: string.length, key: key)
string.length.times.map { |i|
p = LETTERS.find_index(string[i])
k = LETTERS.find_index(key[i])
LETTERS[(p + k) % 26]
}.join
end
# Decrypts an encrypted string
#
# @param string [String] the encrypted string that will be decrypted
# @param key [String] the key that will be used to decrypt the string
#
# @return [String] the decrypted string
def decrypt(string:, key:)
key = make_key(length: string.length, key: key)
string.length.times.map { |i|
c = LETTERS.find_index(string[i])
k = LETTERS.find_index(key[i])
LETTERS[(c - k + 26) % 26]
}.join
end
# Repeats a word until it matches a certain length
#
# @param length [Integer] the length of the word being encrypted/decrypted
# @param key [String] the word that will be repeated
#
# @return [String] the word in its new form
def make_key(length:, key:)
i = 0
length.times do
i = 0 if i == key.length
break if key.length == length
key << key[i]
i += 1
end
key
end
private_class_method :make_key
end
end
I do have some specific questions:
1. private_class_method
This is the best way I found to define a private method in a module, but it feels weird to me. Isn't there a better way to do that? My first implementation was this:
module Crypto
class Vigenere
class << self
def encrypt # ...
def decrypt # ...
private
def make_key # ...
end
end
end
which was fine for me. But then I read this rule on the Ruby Style Guide repository. So I switched to using module
, but it doesn't feel right to use private methods in this structure. Am I wrong?
2. reseting a counter (index)
Take a look at this snippet of code:
def make_key(length:, key:)
i = 0
length.times do
i = 0 if i == key.length
break if key.length == length
key << key[i]
i += 1
end
key
end
Defining a counter (i
) and manually incrementing it... looks awkward, doesn't it (at least in the Ruby world)? Is there a better way to do this?
3. valid multi-line block with curly braces?
Now take a look at this snippet:
string.length.times.map { |i|
p = LETTERS.find_index(string[i])
k = LETTERS.find_index(key[i])
LETTERS[(p + k) % 26]
}.join
I know most Ruby developers tend to use curly braces only for one-line blocks and do-end
for multi-line blocks, but this time it seems okay using curly braces with a multi-line block, since I'm chaining #join
right after. What would you do:
1. use do-end, store it in a variable and invoke #join after that
new_letters = string.length.times.map do |i|
p = LETTERS.find_index(string[i])
k = LETTERS.find_index(key[i])
LETTERS[(p + k) % 26]
end
new_letters.join
2. what I did (use curly braces even with multi-line block and chain #join)
And of course, if you have any other observations, please share.
ruby vigenere-cipher
New contributor
$endgroup$
1
$begingroup$
If you take the time to spell Vigenère correctly then that's enough for me to tell that the code is going to be all right :)
$endgroup$
– Maarten Bodewes
4 hours ago
add a comment |
$begingroup$
What I'm trying to do: implement the Vigenère cipher in Ruby. I already have a working version, but I want to make sure it is efficient and well-designed.
module Crypto
# Vigenère cipher encryption and decryption abstraction
module Vigenere
LETTERS = ('a'..'z').to_a.freeze
private_constant :LETTERS
module_function
# Encrypts a string
#
# @param string [String] the string that will be encrypted
# @param key [String] the key that will be used to encrypt the string
#
# @return [String] the encrypted string
def encrypt(string:, key:)
key = make_key(length: string.length, key: key)
string.length.times.map { |i|
p = LETTERS.find_index(string[i])
k = LETTERS.find_index(key[i])
LETTERS[(p + k) % 26]
}.join
end
# Decrypts an encrypted string
#
# @param string [String] the encrypted string that will be decrypted
# @param key [String] the key that will be used to decrypt the string
#
# @return [String] the decrypted string
def decrypt(string:, key:)
key = make_key(length: string.length, key: key)
string.length.times.map { |i|
c = LETTERS.find_index(string[i])
k = LETTERS.find_index(key[i])
LETTERS[(c - k + 26) % 26]
}.join
end
# Repeats a word until it matches a certain length
#
# @param length [Integer] the length of the word being encrypted/decrypted
# @param key [String] the word that will be repeated
#
# @return [String] the word in its new form
def make_key(length:, key:)
i = 0
length.times do
i = 0 if i == key.length
break if key.length == length
key << key[i]
i += 1
end
key
end
private_class_method :make_key
end
end
I do have some specific questions:
1. private_class_method
This is the best way I found to define a private method in a module, but it feels weird to me. Isn't there a better way to do that? My first implementation was this:
module Crypto
class Vigenere
class << self
def encrypt # ...
def decrypt # ...
private
def make_key # ...
end
end
end
which was fine for me. But then I read this rule on the Ruby Style Guide repository. So I switched to using module
, but it doesn't feel right to use private methods in this structure. Am I wrong?
2. reseting a counter (index)
Take a look at this snippet of code:
def make_key(length:, key:)
i = 0
length.times do
i = 0 if i == key.length
break if key.length == length
key << key[i]
i += 1
end
key
end
Defining a counter (i
) and manually incrementing it... looks awkward, doesn't it (at least in the Ruby world)? Is there a better way to do this?
3. valid multi-line block with curly braces?
Now take a look at this snippet:
string.length.times.map { |i|
p = LETTERS.find_index(string[i])
k = LETTERS.find_index(key[i])
LETTERS[(p + k) % 26]
}.join
I know most Ruby developers tend to use curly braces only for one-line blocks and do-end
for multi-line blocks, but this time it seems okay using curly braces with a multi-line block, since I'm chaining #join
right after. What would you do:
1. use do-end, store it in a variable and invoke #join after that
new_letters = string.length.times.map do |i|
p = LETTERS.find_index(string[i])
k = LETTERS.find_index(key[i])
LETTERS[(p + k) % 26]
end
new_letters.join
2. what I did (use curly braces even with multi-line block and chain #join)
And of course, if you have any other observations, please share.
ruby vigenere-cipher
New contributor
$endgroup$
What I'm trying to do: implement the Vigenère cipher in Ruby. I already have a working version, but I want to make sure it is efficient and well-designed.
module Crypto
# Vigenère cipher encryption and decryption abstraction
module Vigenere
LETTERS = ('a'..'z').to_a.freeze
private_constant :LETTERS
module_function
# Encrypts a string
#
# @param string [String] the string that will be encrypted
# @param key [String] the key that will be used to encrypt the string
#
# @return [String] the encrypted string
def encrypt(string:, key:)
key = make_key(length: string.length, key: key)
string.length.times.map { |i|
p = LETTERS.find_index(string[i])
k = LETTERS.find_index(key[i])
LETTERS[(p + k) % 26]
}.join
end
# Decrypts an encrypted string
#
# @param string [String] the encrypted string that will be decrypted
# @param key [String] the key that will be used to decrypt the string
#
# @return [String] the decrypted string
def decrypt(string:, key:)
key = make_key(length: string.length, key: key)
string.length.times.map { |i|
c = LETTERS.find_index(string[i])
k = LETTERS.find_index(key[i])
LETTERS[(c - k + 26) % 26]
}.join
end
# Repeats a word until it matches a certain length
#
# @param length [Integer] the length of the word being encrypted/decrypted
# @param key [String] the word that will be repeated
#
# @return [String] the word in its new form
def make_key(length:, key:)
i = 0
length.times do
i = 0 if i == key.length
break if key.length == length
key << key[i]
i += 1
end
key
end
private_class_method :make_key
end
end
I do have some specific questions:
1. private_class_method
This is the best way I found to define a private method in a module, but it feels weird to me. Isn't there a better way to do that? My first implementation was this:
module Crypto
class Vigenere
class << self
def encrypt # ...
def decrypt # ...
private
def make_key # ...
end
end
end
which was fine for me. But then I read this rule on the Ruby Style Guide repository. So I switched to using module
, but it doesn't feel right to use private methods in this structure. Am I wrong?
2. reseting a counter (index)
Take a look at this snippet of code:
def make_key(length:, key:)
i = 0
length.times do
i = 0 if i == key.length
break if key.length == length
key << key[i]
i += 1
end
key
end
Defining a counter (i
) and manually incrementing it... looks awkward, doesn't it (at least in the Ruby world)? Is there a better way to do this?
3. valid multi-line block with curly braces?
Now take a look at this snippet:
string.length.times.map { |i|
p = LETTERS.find_index(string[i])
k = LETTERS.find_index(key[i])
LETTERS[(p + k) % 26]
}.join
I know most Ruby developers tend to use curly braces only for one-line blocks and do-end
for multi-line blocks, but this time it seems okay using curly braces with a multi-line block, since I'm chaining #join
right after. What would you do:
1. use do-end, store it in a variable and invoke #join after that
new_letters = string.length.times.map do |i|
p = LETTERS.find_index(string[i])
k = LETTERS.find_index(key[i])
LETTERS[(p + k) % 26]
end
new_letters.join
2. what I did (use curly braces even with multi-line block and chain #join)
And of course, if you have any other observations, please share.
ruby vigenere-cipher
ruby vigenere-cipher
New contributor
New contributor
New contributor
asked 5 hours ago
sPaGhEtTiCaSesPaGhEtTiCaSe
183
183
New contributor
New contributor
1
$begingroup$
If you take the time to spell Vigenère correctly then that's enough for me to tell that the code is going to be all right :)
$endgroup$
– Maarten Bodewes
4 hours ago
add a comment |
1
$begingroup$
If you take the time to spell Vigenère correctly then that's enough for me to tell that the code is going to be all right :)
$endgroup$
– Maarten Bodewes
4 hours ago
1
1
$begingroup$
If you take the time to spell Vigenère correctly then that's enough for me to tell that the code is going to be all right :)
$endgroup$
– Maarten Bodewes
4 hours ago
$begingroup$
If you take the time to spell Vigenère correctly then that's enough for me to tell that the code is going to be all right :)
$endgroup$
– Maarten Bodewes
4 hours ago
add a comment |
2 Answers
2
active
oldest
votes
$begingroup$
The code is rather clear, so consider the following to be nitpicks.
I'd say that you are generating a new key stream from the key. I'd certainly not reuse the key
variable.
The first i = 0
before the loop seems spurious.
Using i
as a counter is well understood, and I'd not worry overly much on the style of it. You are probably the only one who cares if it is really Ruby-esk; developers down the line will understand it.
What I wonder though is that you run your loop length
times, but there is a break
that seems to trigger before that. That's not all too clear to me.
I wonder what happens if you supply it an "empty" key string. Some guard statements may be in order.
Same for the curly braces. It's clear as it is, choose whatever you want. Personally I slightly favor the braces.
You could consider creating a mod
function, however since %
is already the modulus, which will never return a negative value if the right value is positive, it seems to me that removing the + 26
is probably the only thing you need to change (during decryption).
Instead of using 26 as unexplained magic value, you should get the size of the LETTERS
range instead. That way you can also expand your ciphertext later.
I've got no opinion on the private_class_method
as I'm not a Ruby developer (I'm specialized in knowing many languages / constructs and of course applied crypto).
$endgroup$
$begingroup$
Thanks, that's really helpful! Sadly, I don't have enough reputation to upvote your answer. :(
$endgroup$
– sPaGhEtTiCaSe
2 hours ago
add a comment |
$begingroup$
Looping using string.length.times.map { |i| … }
and length.times do …
is OK, but slightly on the awkward side.
To extend the key, you can use the string multiplication operator. (Note that extending the key longer than necessary doesn't do much harm.)
You can also factor out more of the commonality between the encrypt
and decrypt
functions.
Instead of searching the LETTERS
array, I recommend performing arithmetic on ASCII codes.
module Crypto
module Vigenere
module_function
def encrypt(plaintext, key)
vigenere(plaintext, key) { |p, k| (p + k) % 26 }
end
def decrypt(ciphertext, key)
vigenere(ciphertext, key) { |c, k| (c - k + 26) % 26 }
end
def vigenere(text, key, &combiner)
a = 'a'.ord
ext_key = key * (text.length / key.length + 1)
text.chars.zip(ext_key.chars).collect do |t, k|
(a + combiner.call(t.ord - a, k.ord - a)).chr
end.join
end
private_class_method :vigenere
end
end
$endgroup$
add a comment |
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2 Answers
2
active
oldest
votes
2 Answers
2
active
oldest
votes
active
oldest
votes
active
oldest
votes
$begingroup$
The code is rather clear, so consider the following to be nitpicks.
I'd say that you are generating a new key stream from the key. I'd certainly not reuse the key
variable.
The first i = 0
before the loop seems spurious.
Using i
as a counter is well understood, and I'd not worry overly much on the style of it. You are probably the only one who cares if it is really Ruby-esk; developers down the line will understand it.
What I wonder though is that you run your loop length
times, but there is a break
that seems to trigger before that. That's not all too clear to me.
I wonder what happens if you supply it an "empty" key string. Some guard statements may be in order.
Same for the curly braces. It's clear as it is, choose whatever you want. Personally I slightly favor the braces.
You could consider creating a mod
function, however since %
is already the modulus, which will never return a negative value if the right value is positive, it seems to me that removing the + 26
is probably the only thing you need to change (during decryption).
Instead of using 26 as unexplained magic value, you should get the size of the LETTERS
range instead. That way you can also expand your ciphertext later.
I've got no opinion on the private_class_method
as I'm not a Ruby developer (I'm specialized in knowing many languages / constructs and of course applied crypto).
$endgroup$
$begingroup$
Thanks, that's really helpful! Sadly, I don't have enough reputation to upvote your answer. :(
$endgroup$
– sPaGhEtTiCaSe
2 hours ago
add a comment |
$begingroup$
The code is rather clear, so consider the following to be nitpicks.
I'd say that you are generating a new key stream from the key. I'd certainly not reuse the key
variable.
The first i = 0
before the loop seems spurious.
Using i
as a counter is well understood, and I'd not worry overly much on the style of it. You are probably the only one who cares if it is really Ruby-esk; developers down the line will understand it.
What I wonder though is that you run your loop length
times, but there is a break
that seems to trigger before that. That's not all too clear to me.
I wonder what happens if you supply it an "empty" key string. Some guard statements may be in order.
Same for the curly braces. It's clear as it is, choose whatever you want. Personally I slightly favor the braces.
You could consider creating a mod
function, however since %
is already the modulus, which will never return a negative value if the right value is positive, it seems to me that removing the + 26
is probably the only thing you need to change (during decryption).
Instead of using 26 as unexplained magic value, you should get the size of the LETTERS
range instead. That way you can also expand your ciphertext later.
I've got no opinion on the private_class_method
as I'm not a Ruby developer (I'm specialized in knowing many languages / constructs and of course applied crypto).
$endgroup$
$begingroup$
Thanks, that's really helpful! Sadly, I don't have enough reputation to upvote your answer. :(
$endgroup$
– sPaGhEtTiCaSe
2 hours ago
add a comment |
$begingroup$
The code is rather clear, so consider the following to be nitpicks.
I'd say that you are generating a new key stream from the key. I'd certainly not reuse the key
variable.
The first i = 0
before the loop seems spurious.
Using i
as a counter is well understood, and I'd not worry overly much on the style of it. You are probably the only one who cares if it is really Ruby-esk; developers down the line will understand it.
What I wonder though is that you run your loop length
times, but there is a break
that seems to trigger before that. That's not all too clear to me.
I wonder what happens if you supply it an "empty" key string. Some guard statements may be in order.
Same for the curly braces. It's clear as it is, choose whatever you want. Personally I slightly favor the braces.
You could consider creating a mod
function, however since %
is already the modulus, which will never return a negative value if the right value is positive, it seems to me that removing the + 26
is probably the only thing you need to change (during decryption).
Instead of using 26 as unexplained magic value, you should get the size of the LETTERS
range instead. That way you can also expand your ciphertext later.
I've got no opinion on the private_class_method
as I'm not a Ruby developer (I'm specialized in knowing many languages / constructs and of course applied crypto).
$endgroup$
The code is rather clear, so consider the following to be nitpicks.
I'd say that you are generating a new key stream from the key. I'd certainly not reuse the key
variable.
The first i = 0
before the loop seems spurious.
Using i
as a counter is well understood, and I'd not worry overly much on the style of it. You are probably the only one who cares if it is really Ruby-esk; developers down the line will understand it.
What I wonder though is that you run your loop length
times, but there is a break
that seems to trigger before that. That's not all too clear to me.
I wonder what happens if you supply it an "empty" key string. Some guard statements may be in order.
Same for the curly braces. It's clear as it is, choose whatever you want. Personally I slightly favor the braces.
You could consider creating a mod
function, however since %
is already the modulus, which will never return a negative value if the right value is positive, it seems to me that removing the + 26
is probably the only thing you need to change (during decryption).
Instead of using 26 as unexplained magic value, you should get the size of the LETTERS
range instead. That way you can also expand your ciphertext later.
I've got no opinion on the private_class_method
as I'm not a Ruby developer (I'm specialized in knowing many languages / constructs and of course applied crypto).
edited 4 hours ago
answered 4 hours ago
Maarten BodewesMaarten Bodewes
582212
582212
$begingroup$
Thanks, that's really helpful! Sadly, I don't have enough reputation to upvote your answer. :(
$endgroup$
– sPaGhEtTiCaSe
2 hours ago
add a comment |
$begingroup$
Thanks, that's really helpful! Sadly, I don't have enough reputation to upvote your answer. :(
$endgroup$
– sPaGhEtTiCaSe
2 hours ago
$begingroup$
Thanks, that's really helpful! Sadly, I don't have enough reputation to upvote your answer. :(
$endgroup$
– sPaGhEtTiCaSe
2 hours ago
$begingroup$
Thanks, that's really helpful! Sadly, I don't have enough reputation to upvote your answer. :(
$endgroup$
– sPaGhEtTiCaSe
2 hours ago
add a comment |
$begingroup$
Looping using string.length.times.map { |i| … }
and length.times do …
is OK, but slightly on the awkward side.
To extend the key, you can use the string multiplication operator. (Note that extending the key longer than necessary doesn't do much harm.)
You can also factor out more of the commonality between the encrypt
and decrypt
functions.
Instead of searching the LETTERS
array, I recommend performing arithmetic on ASCII codes.
module Crypto
module Vigenere
module_function
def encrypt(plaintext, key)
vigenere(plaintext, key) { |p, k| (p + k) % 26 }
end
def decrypt(ciphertext, key)
vigenere(ciphertext, key) { |c, k| (c - k + 26) % 26 }
end
def vigenere(text, key, &combiner)
a = 'a'.ord
ext_key = key * (text.length / key.length + 1)
text.chars.zip(ext_key.chars).collect do |t, k|
(a + combiner.call(t.ord - a, k.ord - a)).chr
end.join
end
private_class_method :vigenere
end
end
$endgroup$
add a comment |
$begingroup$
Looping using string.length.times.map { |i| … }
and length.times do …
is OK, but slightly on the awkward side.
To extend the key, you can use the string multiplication operator. (Note that extending the key longer than necessary doesn't do much harm.)
You can also factor out more of the commonality between the encrypt
and decrypt
functions.
Instead of searching the LETTERS
array, I recommend performing arithmetic on ASCII codes.
module Crypto
module Vigenere
module_function
def encrypt(plaintext, key)
vigenere(plaintext, key) { |p, k| (p + k) % 26 }
end
def decrypt(ciphertext, key)
vigenere(ciphertext, key) { |c, k| (c - k + 26) % 26 }
end
def vigenere(text, key, &combiner)
a = 'a'.ord
ext_key = key * (text.length / key.length + 1)
text.chars.zip(ext_key.chars).collect do |t, k|
(a + combiner.call(t.ord - a, k.ord - a)).chr
end.join
end
private_class_method :vigenere
end
end
$endgroup$
add a comment |
$begingroup$
Looping using string.length.times.map { |i| … }
and length.times do …
is OK, but slightly on the awkward side.
To extend the key, you can use the string multiplication operator. (Note that extending the key longer than necessary doesn't do much harm.)
You can also factor out more of the commonality between the encrypt
and decrypt
functions.
Instead of searching the LETTERS
array, I recommend performing arithmetic on ASCII codes.
module Crypto
module Vigenere
module_function
def encrypt(plaintext, key)
vigenere(plaintext, key) { |p, k| (p + k) % 26 }
end
def decrypt(ciphertext, key)
vigenere(ciphertext, key) { |c, k| (c - k + 26) % 26 }
end
def vigenere(text, key, &combiner)
a = 'a'.ord
ext_key = key * (text.length / key.length + 1)
text.chars.zip(ext_key.chars).collect do |t, k|
(a + combiner.call(t.ord - a, k.ord - a)).chr
end.join
end
private_class_method :vigenere
end
end
$endgroup$
Looping using string.length.times.map { |i| … }
and length.times do …
is OK, but slightly on the awkward side.
To extend the key, you can use the string multiplication operator. (Note that extending the key longer than necessary doesn't do much harm.)
You can also factor out more of the commonality between the encrypt
and decrypt
functions.
Instead of searching the LETTERS
array, I recommend performing arithmetic on ASCII codes.
module Crypto
module Vigenere
module_function
def encrypt(plaintext, key)
vigenere(plaintext, key) { |p, k| (p + k) % 26 }
end
def decrypt(ciphertext, key)
vigenere(ciphertext, key) { |c, k| (c - k + 26) % 26 }
end
def vigenere(text, key, &combiner)
a = 'a'.ord
ext_key = key * (text.length / key.length + 1)
text.chars.zip(ext_key.chars).collect do |t, k|
(a + combiner.call(t.ord - a, k.ord - a)).chr
end.join
end
private_class_method :vigenere
end
end
answered 39 mins ago
200_success200_success
131k17157422
131k17157422
add a comment |
add a comment |
sPaGhEtTiCaSe is a new contributor. Be nice, and check out our Code of Conduct.
sPaGhEtTiCaSe is a new contributor. Be nice, and check out our Code of Conduct.
sPaGhEtTiCaSe is a new contributor. Be nice, and check out our Code of Conduct.
sPaGhEtTiCaSe is a new contributor. Be nice, and check out our Code of Conduct.
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1
$begingroup$
If you take the time to spell Vigenère correctly then that's enough for me to tell that the code is going to be all right :)
$endgroup$
– Maarten Bodewes
4 hours ago