Skip to content

Latest commit

 

History

History
143 lines (104 loc) · 5.78 KB

README.md

File metadata and controls

143 lines (104 loc) · 5.78 KB

Erlware Commons

Current Status

Hex.pm Tests

Introduction

Erlware commons can best be described as an extension to the stdlib application that is distributed with Erlang. These are things that we at Erlware have found useful for production applications but are not included with the distribution. We hope that as things in this library prove themselves useful, they will make their way into the main Erlang distribution. However, whether they do or not, we hope that this application will prove generally useful.

Goals for the project

  • Generally Useful Code
  • High Quality
  • Well Documented
  • Well Tested

Licenses

This project contains elements licensed with Apache License, Version 2.0, as well as elements licensed with The MIT License.

You'll find license-related information in the header of specific files, where warranted.

In cases where no such information is present refer to COPYING.

Currently Available Modules/Systems

This module formats erlang dates in the form {{Year, Month, Day}, {Hour, Minute, Second}} to printable strings, using (almost) equivalent formatting rules as http://uk.php.net/date, US vs European dates are disambiguated in the same way as http://uk.php.net/manual/en/function.strtotime.php That is, Dates in the m/d/y or d-m-y formats are disambiguated by looking at the separator between the various components: if the separator is a slash (/), then the American m/d/y is assumed; whereas if the separator is a dash (-) or a dot (.), then the European d-m-y format is assumed. To avoid potential ambiguity, it's best to use ISO 8601 (YYYY-MM-DD) dates.

erlang has no concept of timezone so the following formats are not implemented: B e I O P T Z formats c and r will also differ slightly

A set of commonly defined helper functions for files that are not included in stdlib.

plists is a drop-in replacement for module lists, making most list operations parallel. It can operate on each element in parallel, for IO-bound operations, on sublists in parallel, for taking advantage of multi-core machines with CPU-bound operations, and across erlang nodes, for parallelizing inside a cluster. It handles errors and node failures. It can be configured, tuned, and tweaked to get optimal performance while minimizing overhead.

Almost all the functions are identical to equivalent functions in lists, returning exactly the same result, and having both a form with an identical syntax that operates on each element in parallel and a form which takes an optional "malt", a specification for how to parallelize the operation.

fold is the one exception, parallel fold is different from linear fold. This module also include a simple mapreduce implementation, and the function runmany. All the other functions are implemented with runmany, which is as a generalization of parallel list operations.

A complete parser for the semver standard. Including a complete set of conforming comparison functions.

A set of additional list manipulation functions designed to supliment the lists module in stdlib.

A set of simple utility functions to facilitate command line communication with a user.

Signatures

Other languages, have built in support for Interface or signature functionality. Java has Interfaces, SML has Signatures. Erlang, though, doesn't currently support this model, at least not directly. There are a few ways you can approximate it. We have defined a mechanism called signatures and several modules that to serve as examples and provide a good set of dictionary signatures. More information about signatures can be found at signature.

A signature that supports association of keys to values. A map cannot contain duplicate keys; each key can map to at most one value.

This provides an implementation of the ec_dictionary signature using erlang's dicts as a base. The function documentation for ec_dictionary applies here as well.

This provides an implementation of the ec_dictionary signature using erlang's gb_trees as a base. The function documentation for ec_dictionary applies here as well.

This provides an implementation of the ec_dictionary signature using erlang's orddict as a base. The function documentation for ec_dictionary applies here as well.

This provides an implementation of the ec_dictionary signature using Robert Virding's rbdict module as a base. The function documentation for ec_dictionary applies here as well.