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Getting started

1. Your gem skeleton

$ bundle gem my_awesome_gem
$ cd my_awesome_gem
$ mkdir -p ext/my_awesome_gem

2. Teaching Rake how to compile your gem

my_awesome_gem/my_awesome_gem.gemspec

spec.add_development_dependency "rake-compiler"

my_awesome_gem/Rakefile

require "rake/extensiontask"

Rake::ExtensionTask.new("my_awesome_gem") do |ext|
	ext.lib_dir = "lib/my_awesome_gem"
end

3. Boilerplate

my_awesome_gem/ext/my_awesome_gem/extconf.rb

require 'mkmf'
create_makefile('my_awesome_gem')

my_awesome_gem/ext/my_awesome_gem/my_awesome_gem.c

#include "ruby.h"

VALUE MyAwesomeGemModule = Qnil;

void Init_my_awesome_gem()
{
    MyAwesomeGemModule = rb_define_module("MyAwesomeGem");
    rb_init_awesome_class();
}

4. Your first class

my_awesome_gem/ext/my_awesome_gem/my_awesome_gem.c

#include "ruby.h"
#include "awesome_class.h"

// ...

void Init_my_awesome_gem()
{
    MyAwesomeGemModule = rb_define_module("MyAwesomeGem");
    rb_init_awesome_class();
}

my_awesome_gem/ext/my_awesome_gem/awesome_class.h

#include "ruby.h"
void rb_init_awesome_class();

my_awesome_gem/ext/my_awesome_gem/awesome_class.c

#include "awesome_class.h"

VALUE AwesomeClass = Qnil;
extern VALUE MyAwesomeGemModule;

void rb_init_awesome_class()
{
	AwesomeClass = rb_define_class_under(MyAwesomeGemModule, "AwesomeClass", rb_cObject);
}

5. Your first instance method

my_awesome_gem/ext/my_awesome_gem/awesome_class.h

#include "ruby.h"
void rb_init_awesome_class();
VALUE rb_awesome_class_say_hi(VALUE self);
VALUE rb_awesome_class_say_hi_to(VALUE self, VALUE r_name);

my_awesome_gem/ext/my_awesome_gem/awesome_class.c

#include "awesome_class.h"

VALUE AwesomeClass = Qnil;
extern VALUE MyAwesomeGemModule;

void rb_init_awesome_class()
{
	AwesomeClass = rb_define_class_under(MyAwesomeGemModule, "AwesomeClass", rb_cObject);
	rb_define_method(AwesomeClass, "say_hi", rb_awesome_class_say_hi, 0);
	rb_define_method(AwesomeClass, "say_hi_to", rb_awesome_class_say_hi, 1);
}

VALUE rb_awesome_class_say_hi(VALUE self)
{
	return rb_str_new2("Hello!");
}

VALUE rb_awesome_class_say_hi_to(VALUE self, VALUE r_name)
{
	VALUE r_greeting = rb_str_new2("Hello, ");
	rb_str_append(r_greeting, r_name);
	rb_str_append(r_greeting, INT2NUM(33));
	
	return r_greeting;
}

6. Including your new class

my_awesome_gem/lib/my_awesome_gem.rb

require 'my_awesome_gem/my_awesome_gem'

7. Compiling

$ rake clean compile

Modules and Classes

rb_define_module(module_name)

Defines the module named module_name.

VALUE AwesomeNewModule = rb_define_module("Awesome");

rb_define_module_function(ruby_module, method_name, implementation, argc)

Defines a function called method_name under the module ruby_module. Expects argc arguments and calls implementation when invoked in Ruby.

VALUE rb_module_say_hi(VALUE klass)
{
    VALUE r_hello = rb_str_new2("Hello!");
    return r_hello;
}

void Init_example()
{
	VALUE AwesomeNewModule = rb_define_module("Awesome");
	rb_define_module_function(AwesomeNewModule, "say_hi", rb_module_say_hi, 0);
}

rb_define_const(ruby_module_or_class, constant_name, value)

Defines a constant under the Ruby Module or Class ruby_module_or_class with the name constant_name and value value.

void Init_example()
{
	VALUE AwesomeNewModule = rb_define_module("Awesome");
	rb_define_const(AwesomeNewModule, "UNIVERSAL_ANSWER", INT2NUM(42));
}

rb_define_class_under(ruby_module, class_name, super_class)

Defines a class under the Ruby module ruby_module called class_name and inheriting from super_class.

void Init_example()
{
	VALUE AwesomeNewModule = rb_define_module("Awesome");
	rb_define_module_function(AwesomeNewModule, "say_hi", rb_module_say_hi, 0);
	
	VALUE AwesomeClass = rb_define_class_under(AwesomeNewModule, "AwesomeClass", rb_cObject);
}

rb_define_singleton_method(ruby_class, method_name, implementation, argc)

Defines a class method called method_name under the class ruby_class. Expects argc arguments and calls implementation when invoked in Ruby.

VALUE rb_class_say_hi(VALUE klass)
{
    VALUE r_hello = rb_str_new2("Hello!");
    return r_hello;
}

void Init_example()
{
	VALUE AwesomeNewModule = rb_define_module("Awesome");
	VALUE AwesomeClass = rb_define_class_under(AwesomeNewModule, "AwesomeClass", rb_cObject);
	
	rb_define_singleton_method(AwesomeClass, "say_hi", rb_class_say_hi, 0);
}

rb_define_method(ruby_class, method_name, implementation, argc)

Defines an instance called method_name under the class ruby_class. Expects argc arguments and calls implementation when invoked in Ruby.

VALUE rb_class_say_hi(VALUE klass)
{
    VALUE r_hello = rb_str_new2("Hello!");
    return r_hello;
}

void Init_example()
{
	VALUE AwesomeNewModule = rb_define_module("Awesome");
	VALUE AwesomeClass = rb_define_class_under(AwesomeNewModule, "AwesomeClass", rb_cObject);
	
	rb_define_method(AwesomeClass, "say_hi", rb_class_say_hi, 0);
}

rb_ivar_set(ruby_object, ivar_name, value)

Sets the instance variable ivar_name into the object ruby_object

rb_ivar_set(self, rb_str_new2("@universal_answer"), INT2NUM(42));

rb_ivar_get(ruby_object, ivar_name)

Gets the instance variable ivar_name from the object ruby_object

VALUE r_universal_answer = rb_ivar_get(self, rb_str_new2("@universal_answer"));
// => 42

Strings

rb_str_new(c_string, length)

Creates a new Ruby string with the value c_string and length length.

char *message = "Hello, World!";
VALUE r_message = rb_str_new(message, 13);

rb_str_new2(c_string)

Creates a new Ruby string with the value string. Length is inferred from the string, as long as it is null terminated.

char *message = "Hello, World!";
VALUE r_message = rb_str_new2(message);
// => Hello, World!

rb_str_dup(ruby_string_object)

Creates a copy from a Ruby String object.

char *message = "Hello, World!";
VALUE r_message = rb_str_new2(message);
VALUE r_message_copy = rb_str_dup(r_message);
// => Hello, World!

rb_str_plus(ruby_string_object_1, ruby_string_object_2)

Concatenates two Ruby String objects, returning a new Ruby String as a result.

VALUE r_hello = rb_str_new2("Hello");
VALUE r_world = rb_str_new2(", World!");
VALUE r_hello_world = rb_str_plus(r_hello, r_world);
// => Hello, World!

rb_str_times(ruby_string_object, ruby_fixnum_object)

Repeats a Ruby String ruby_fixnum_object times.

VALUE r_times = INT2NUM(16);
VALUE r_string = rb_str_new2("Na");
VALUE r_result = rb_str_times(r_string, r_times);
VALUE r_batman = rb_str_plus(r_result, rb_str_new2(" Batman"));
// => NaNaNaNaNaNaNaNaNaNaNaNaNaNaNaNa Batman!

rb_str_substr(ruby_string_object, begin, length)

Grabs a substring of a Ruby String object, starting at begin with length characters.

VALUE r_hello_world = rb_str_new2("Hello, World!");
VALUE r_hello = rb_str_substr(r_hello_world, 0, 5);
// => Hello

rb_str_cat(ruby_string_object, c_string, length)

Takes the c_string's first length characters and appends it to an existing Ruby String.

VALUE r_batman = rb_str_times(rb_str_new2("Na"), INT2NUM(16));
rb_str_cat(r_batman, " Batman!", 8);
// => NaNaNaNaNaNaNaNaNaNaNaNaNaNaNaNa Batman!

rb_str_cat2(ruby_string_object, c_string)

Takes the c_string and appends it to an existing Ruby String. Length is inferred from the string, as long as it is null terminated.

VALUE r_batman = rb_str_times(rb_str_new2("Na"), INT2NUM(16));
rb_str_cat2(r_batman, " Batman!");
// => NaNaNaNaNaNaNaNaNaNaNaNaNaNaNaNa Batman!

rb_str_append(ruby_string_object_1, ruby_string_object_2)

Appends ruby_string_object_2 into ruby_string_object_1.

VALUE r_batman = rb_str_times(rb_str_new2("Na"), INT2NUM(16));
rb_str_append(r_batman, rb_str_new2(" Batman!"));
// => NaNaNaNaNaNaNaNaNaNaNaNaNaNaNaNa Batman!

rb_str_concat(ruby_string_object, ruby_object)

Concatenates ruby_object into ruby_string_object. If ruby_object is a Fixnum between 0 and 255, then it is converted to a character before it is copied. Otherwise, this function behaves exactly the same as rb_str_append.

VALUE r_dull_hello_world = rb_str_new2("Hello, World");
rb_str_concat(r_dull_hello_world, INT2NUM(33)); 
// => Hello, World!

StringValueCStr(ruby_string_object)

Takes a Ruby String object and converts it to a NULL terminated char *

VALUE r_hello_world = rb_str_new2("Hello, World!");
char *hello_world = StringValueCStr(r_hello_world);
// => Hello, World!

Arrays

rb_ary_new()

Creates a new Ruby Array object with 0 elements.

VALUE r_boring_empty_ary = rb_ary_new();
// => []

rb_ary_new2(size)

Creates a new Ruby Array object with size elements.

VALUE r_array = rb_ary_new2(10);

rb_ary_store(ruby_array, index, value)

Stores value (a Ruby object) on the index index in the array ruby_array.

VALUE r_array = rb_ary_new2(1);
rb_ary_store(r_array, 0, rb_str_new2("Hello!"));
// => ["Hello!"]

rb_ary_push(ruby_array, value)

Stores value (a Ruby object) at the end of the array ruby_array.

VALUE r_array = rb_ary_new2(1);
rb_ary_push(r_array, rb_str_new2("Hello!"));
// => ["Hello!"]

rb_ary_unshift(ruby_array, value)

Stores value (a Ruby object) at the beginning of the array ruby_array.

VALUE r_array = rb_ary_new2(2);
rb_ary_push(r_array, rb_str_new2("World!"));
rb_ary_unshift(r_array, rb_str_new2("Hello"));
// => ["Hello", "World!"]

rb_ary_pop(ruby_array)

Removes the last element off of the array ruby_array and returns it.

VALUE r_array = rb_ary_new2(2);
rb_ary_push(r_array, rb_str_new2("Hello"));
rb_ary_push(r_array, rb_str_new2("World!"));
VALUE r_world = rb_ary_pop(r_array);
// => World!

rb_ary_shift(ruby_array)

Removes the first element off of the array ruby_array and returns it.

VALUE r_array = rb_ary_new2(2);
rb_ary_push(r_array, rb_str_new2("Hello"));
rb_ary_push(r_array, rb_str_new2("World!"));
VALUE r_hello = rb_ary_shift(r_array);
// => Hello

rb_ary_entry(ruby_array, index)

Returns the array entry at index index

VALUE r_array = rb_ary_new2(2);
rb_ary_push(r_array, rb_str_new2("Hello"));
rb_ary_push(r_array, rb_str_new2("World!"));
VALUE r_hello = rb_ary_entry(r_array, 0);
// => Hello

rb_ary_dup(ruby_array)

Creates and returns a copy of the array ruby_array.

VALUE r_array = rb_ary_new2(2);
rb_ary_push(r_array, rb_str_new2("Hello"));
rb_ary_push(r_array, rb_str_new2("World!"));

VALUE r_array_copy = rb_ary_dup(r_array);
// => ["Hello", "World!"]

rb_ary_to_s(ruby_array)

Invokes the to_s on the array.

VALUE r_array = rb_ary_new2(2);
rb_ary_push(r_array, rb_str_new2("Hello"));
rb_ary_push(r_array, rb_str_new2("World!"));
VALUE r_array_str = rb_ary_to_s(r_array);
# => "[\"Hello\", \"World!\"]"

rb_ary_join(ruby_array, ruby_string_object)

Creates a Ruby String by converting the elements of the array ruby_array to Strings and joining them by ruby_string_object. If Qnil is passed, then no separator is used.

VALUE r_array = rb_ary_new2(2);
rb_ary_push(r_array, rb_str_new2("Hello"));
rb_ary_push(r_array, rb_str_new2("World!"));
VALUE r_greeting = rb_ary_join(r_array, rb_str_new2(", "));
# => "Hello, World!"

rb_ary_reverse(ruby_array)

Reverts the order of the array ruby_array.

VALUE r_array = rb_ary_new2(2);
rb_ary_push(r_array, rb_str_new2("Hello"));
rb_ary_push(r_array, rb_str_new2("World!"));

VALUE r_array_copy = rb_ary_reverse(r_array);
// => ["World!", "Hello"]

rb_ary_to_ary(ruby_object)

Same as calling Array() in Ruby.

VALUE r_value = INT2NUM(42);
VALUE r_array = rb_ary_to_ary(r_value);
// => [42]

Hashes

rb_hash_new()

Creates a new Ruby Hash

VALUE r_hash = rb_hash_new();
// => {}

rb_hash_aset(ruby_hash, key, value)

Sets the key as value in the hash ruby_hash. All of the 3 parameters have to be Ruby objects.

VALUE r_hash = rb_hash_new();
rb_hash_aset(r_hash, rb_str_new2("universal_answer"), INT2NUM(42));
// => {"universal_answer" => 42}

rb_hash_aref(ruby_hash, key)

Gets the value under key in the hash ruby_hash. Both parameters have to be Ruby objects.

VALUE r_hash = rb_hash_new();
rb_hash_aset(r_hash, rb_str_new2("universal_answer"), INT2NUM(42));

VALUE r_universal_answer = rb_hash_aref(r_hash, rb_str_new2("universal_answer"));
// => 42

Blocks

rb_block_proc()

Returns the proc that was given to the method.

if(rb_block_given_p()) {
    VALUE r_proc = rb_block_proc();
}

rb_block_given_p()

Returns 1 if a block was given to the method. Otherwise, returns 0.

if(rb_block_given_p()) {
    VALUE r_proc = rb_block_proc();
}

rb_yield(ruby_object)

Yields ruby_object.

if(rb_block_given_p()) {
    VALUE r_val = INT2NUM(42);
    r_yield(r_val);
}

rb_yield_values(ruby_object, ruby_object, ...)

Yields the values.

if(rb_block_given_p()) {
    r_yield_values(INT2NUM(42), DBL2NUM(3.1415));
}

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A cheat sheet for Ruby's C API

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