[go: up one dir, main page]

Skip to content

sv99/computationbook

 
 

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 

History

56 Commits
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

Understanding Computation example code

This is the example code for Understanding Computation, an O’Reilly book about computation theory. (Here’s a sample chapter.) Ruby 1.9 or 2.0 is required.

Right now it’s a pretty rough dump of code from the book. Each chapter has its own directory:

Each directory contains definitions of the classes implemented in that chapter. There’s also a file named after each chapter (e.g. just_add_power.rb) that can be required to load all the code for that chapter.

For example:

$ irb -I.
>> require 'universality_is_everywhere'
=> true
>> identity = SKICall.new(SKICall.new(S, K), SKICall.new(K, K))
=> S[K][K[K]]
>> x = SKISymbol.new(:x)
=> x
>> expression = SKICall.new(identity, x)
=> S[K][K[K]][x]
>> while expression.reducible?; puts expression; expression = expression.reduce; end; puts expression
S[K][K[K]][x]
K[x][K[K][x]]
K[x][K]
x
=> nil

If you run bundle install to install Treetop, you can try out the parsers:

$ bundle exec irb -I.
>> require 'treetop'
=> true
>> Treetop.load('the_meaning_of_programs/parser/simple')
=> SimpleParser
>> require 'the_meaning_of_programs'
=> true
>> program = SimpleParser.new.parse('while (x < 5) { x = x * 3 }').to_ast
=> «while (x < 5) { x = x * 3 }»
>> program.reduce(x: Number.new(3))
=> [«if (x < 5) { x = x * 3; while (x < 5) { x = x * 3 } } else { do-nothing }», {:x=>«3»}]
>> program.evaluate(x: Number.new(3))
=> {:x=>«9»}
>> program.to_ruby
=> "-> e { while (-> e { (-> e { e[:x] }).call(e) < (-> e { 5 }).call(e) }).call(e); e = (-> e { e.merge({ :x => (-> e { (-> e { e[:x] }).call(e) * (-> e { 3 }).call(e) }).call(e) }) }).call(e); end; e }"
>> eval(program.to_ruby).call(x: 3)
=> {:x=>9}
$ bundle exec irb -I.
>> require 'treetop'
=> true
>> Treetop.load('programming_with_nothing/lambda_calculus/lambda_calculus')
=> LambdaCalculusParser
>> require 'programming_with_nothing'
=> true
>> two = LambdaCalculusParser.new.parse('-> p { -> x { p[p[x]] } }').to_ast
=> -> p { -> x { p[p[x]] } }
>> require 'universality_is_everywhere'
=> true
>> two.to_ski
=> S[S[K[S]][S[K[K]][I]]][S[S[K[S]][S[K[K]][I]]][K[I]]]
>> two.to_ski.to_iota
=> ɩ[ɩ[ɩ[ɩ[ɩ]]]][ɩ[ɩ[ɩ[ɩ[ɩ]]]][ɩ[ɩ[ɩ[ɩ]]][ɩ[ɩ[ɩ[ɩ[ɩ]]]]]][ɩ[ɩ[ɩ[ɩ[ɩ]]]][ɩ[ɩ[ɩ[ɩ]]][ɩ[ɩ[ɩ[ɩ]]]]][ɩ[ɩ]]]][ɩ[ɩ[ɩ[ɩ[ɩ]]]][ɩ[ɩ[ɩ[ɩ[ɩ]]]][ɩ[ɩ[ɩ[ɩ]]][ɩ[ɩ[ɩ[ɩ[ɩ]]]]]][ɩ[ɩ[ɩ[ɩ[ɩ]]]][ɩ[ɩ[ɩ[ɩ]]][ɩ[ɩ[ɩ[ɩ]]]]][ɩ[ɩ]]]][ɩ[ɩ[ɩ[ɩ]]][ɩ[ɩ]]]]
>> inc, zero = SKISymbol.new(:inc), SKISymbol.new(:zero)
=> [inc, zero]
>> expression = SKICall.new(SKICall.new(two.to_ski.to_iota, inc), zero)
=> ɩ[ɩ[ɩ[ɩ[ɩ]]]][ɩ[ɩ[ɩ[ɩ[ɩ]]]][ɩ[ɩ[ɩ[ɩ]]][ɩ[ɩ[ɩ[ɩ[ɩ]]]]]][ɩ[ɩ[ɩ[ɩ[ɩ]]]][ɩ[ɩ[ɩ[ɩ]]][ɩ[ɩ[ɩ[ɩ]]]]][ɩ[ɩ]]]][ɩ[ɩ[ɩ[ɩ[ɩ]]]][ɩ[ɩ[ɩ[ɩ[ɩ]]]][ɩ[ɩ[ɩ[ɩ]]][ɩ[ɩ[ɩ[ɩ[ɩ]]]]]][ɩ[ɩ[ɩ[ɩ[ɩ]]]][ɩ[ɩ[ɩ[ɩ]]][ɩ[ɩ[ɩ[ɩ]]]]][ɩ[ɩ]]]][ɩ[ɩ[ɩ[ɩ]]][ɩ[ɩ]]]][inc][zero]
>> expression = expression.reduce while expression.reducible?
=> nil
>> expression
=> inc[inc[zero]]

If you have any questions, please get in touch via Twitter or email. If you find any bugs or other programs with the code, please open an issue.

About

Example code for Understanding Computation

Resources

License

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published

Languages

  • Ruby 100.0%