A library that stores enum variants with their own structs with an optional base struct
A crate to generate bindings for the postcard binary format for other languages than Rust.
A crate to generate bindings for the postcard binary format for other languages than Rust - Core Crate
A crate to generate bindings for the postcard binary format for other languages than Rust - Derive Crate
Semantic version control CLI. Shows what entities changed (functions, classes, methods) instead of lines.
Entity-level semantic diff engine. Extracts functions, classes, and methods from 20 languages via tree-sitter and diffs at the entity level.
MCP server for entity-level semantic code intelligence. 6 tools: sem_entities, sem_diff, sem_blame, sem_impact, sem_log, sem_context.
A blazingly fast MCP server for code intelligence - enumerates repos, data structures, algorithms, and returns relevant code context
Kotlin parser for CodeGraph - extracts code entities and relationships from Kotlin source files
Fast, powerful filesystem indexing with .gitignore support and iterator-based API
GodotDoc is a documentation generator for GdScript.
A highly parallel Perl 5 interpreter written in Rust
Provides a lightweight solution for object-oriented enumerations in Ruby in a similar ways as other languages, like Java, do. It consists of a single class (Enum), that can be subclassed to create enumerated types. Each class has a set of predefined instances, that represent the enumerated values. Fatures like support for inheritance and declaring instance methods on enumerated values are supported as well.
'classial' enum for Ruby
A simple Gem to enable any `ActiveRecord::Base` object to store a set of attributes in a set like structure represented through a bitfield on the database level. You only have to specify the name of the set to hold the attributes in question an the rest is done for you through some fine selected Ruby magic. Here is a simple example of how you could use the gem: class Person < ActiveRecord::Base has_set :interests end To get this to work you need some additional work done first: 1. You need an unsigned 8-Byte integer column in your database to store the bitfield. It is expected that the column is named after the name of the set with the suffix `_bitfield` appended (e.g. `interests_bitfield`). You can change that default behavior by providing the option `:column_name` (e.g. `has_set :interests, :column_name => :my_custom_column`). 2. You need a class that provides the valid values to be stored within the set and map the single bits back to something meaningful. The class should be named after the name of the set (you can change this through the `:enum_class` option). This class could be seen as an enumeration and must implement the following simple interface: * There must be a class method `values` to return all valid enumerators in the defined enumeration. * Each enumerator must implement a `name` method to return a literal representation for identification. The literal must be of the type `String`. * Each enumerator must implement a `bitfield_index` method to return the exponent of the number 2 for calculation the position of this enumerator in the bitfield. **Attention** Changing this index afterwards will destroy your data integrity. Here is a simple example of how to implement such a enumeration type while using the the `renum` gem for simplicity. You are free to use anything else that matches the described interface. enum :Interests do attr_reader :bitfield_index Art(0) Golf(1) Sleeping(2) Drinking(3) Dating(4) Shopping(5) def init(bitfield_index) @bitfield_index = bitfield_index end end
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