package base
Full standard library replacement for OCaml
Install
Dune Dependency
Authors
Maintainers
Sources
v0.9.2.tar.gz
sha256=cb93c7b8da60adefc6f154b6eb7f94417add7b5d483e7f6f27e13b1295e30afc
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README.org.html
README.org
* Base Base is a standard library for OCaml. It is not an extension but rather a wholesale replacement of the standard library distributed with the OCaml compiler. In particular it makes different choices and doesn't re-export features that are not fully portable such as I/O, which are left to other libraries. ** Overview Base provides a standard set of general purpose modules. Everything exposed by Base is fully portable and should work in any environment that can run OCaml code: Unix, Windows, Javascript, embedded systems, etc. Base uses [[https://github.com/janestreet/jbuilder][jbuilder]] to build which requires nothing more than the compiler. In particular, you don't need =bash= or =make= to build Base. Outside of jbuilder, Base has no dependencies and is fast to build. ** Using the OCaml standard library with Base Base is intended as a full stdlib replacement. As a result, after an =open Base=, all the modules, values, types, ... coming from the OCaml standard library that one normally gets in the default environment are deprecated. In order to access these values, one must use the =Caml= library, which re-exports them all through the toplevel name =Caml=: =Caml.String=, =Caml.print_string=, ... The recommended way to build code using Base is as follows: #+begin_src ocaml $ ocamlc -open Base #+end_src ** Differences between Base and the OCaml standard library Programmers who are used to the OCaml standard library should read through this section to understand major differences between the two libraries that one should be aware of when switching to Base. *** Comparison operators The comparison operators exposed by the OCaml standard library are polymorphic: #+begin_src ocaml val compare : 'a -> 'a -> int val ( <= ) : 'a -> 'a -> bool ... #+end_src What they implement is structural comparison of the runtime representation of values. Since these are often error-prone, i.e. they don't correspond to what the user expects, they are not exposed directly by Base. To use polymorphic comparison with Base, one should use the =Polymorphic_compare= module. The default comparison operators exposed by Base are the integer ones, just like the default arithmetic operators are the integer ones. The recommended way to compare arbitrary complex data structures is to use the specific =compare= functions. For instance: #+begin_src ocaml List.compare String.compare x y #+end_src The [[https://github.com/janestreet/ppx_compare][ppx_compare]] rewriter offers an alternative way to write this: #+begin_src ocaml [%compare: string list] x y #+end_src ** Base and ppx code generators Base uses a few ppx code generators to implement: - reliable and customizable comparison of OCaml values - reliable and customizable hash of OCaml values - conversions between OCaml values and s-expression However, it doesn't need these code generators to build. What it does instead is use ppx as a code verification tool during development. It works in a very similar fashion to [[https://github.com/janestreet/ppx_expect][expectation tests]]. Whenever you see this in the code source: #+begin_src ocaml type t = ... [@@deriving_inline sexp_of] let sexp_of_t = ... [@@@end] #+end_src the code between the =[@@deriving_inline]= and the =[@@@end]= is generated code. The generated code is currently quite big and hard to read, however we are working on making it look like human-written code. You can put the following elisp code in your =~/.emacs= file to hide these blocks: #+begin_src scheme (defun deriving-inline-forward-sexp (&optional arg) (search-forward-regexp "\\[@@@end\\]") nil nil arg) (defun setup-hide-deriving-inline () (inline) (hs-minor-mode t) (let ((hs-hide-comments-when-hiding-all nil)) (hs-hide-all))) (require 'hideshow) (add-to-list 'hs-special-modes-alist '(tuareg-mode "\\[@@deriving_inline[^]]*\\]" "\\[@@@end\\]" nil deriving-inline-forward-sexp nil)) (add-hook 'tuareg-mode-hook 'setup-hide-deriving-inline) #+end_src Things are not yet setup in the git repository to make it convenient to change types and update the generated code, but they will be setup soon. ** Base coding rules There are a few coding rules across the code base that are enforced by lint tools. These rules are: - Opening the =Caml= module is not allowed. Inside Base, the OCaml stdlib is shadowed and accessible through the =Caml= module. We forbid opening =Caml= so that we know exactly where things come from. - =Caml.Foo= modules cannot be aliased, one must use =Caml.Foo= explicitly. This is to avoid having to remember a list of aliases at the beginning of each file. - For some modules that are both in the OCaml stdlib and Base, such as =String=, we define a module =String0= for common functions that cannot be defined directly in =Base.String= to avoid creating a circular dependency. Expect for =String= itself, other modules are not allowed to use =Caml.String= and must use either =String= or =String0= instead. - Indentation is exactly the one of =ocp-indent=. - A few other coding style rules enforced by [[https://github/janestreet/ppx_js_style][ppx_js_style]]. The Base specific coding rules are checked by =ppx_base_lint=, in the =lint= subfolder. The indentation rules are checked by a wrapper around =ocp-indent= and the coding style rules are checked by =ppx_js_style=. These checks are currently not run by =jbuilder=, but it will soon get a =-dev= flag to run them automatically. ** Roadmap Following is the current plan for a stable version 1 of Base. *** Add missing modules There are still a few missing modules in Base: - =Buffer= - =Bytes= (and make Base -safe-string compliant) - =Format= - =Queue= - =Ref= - =Type_equal= - =Uchar= - =Unit= For =Format=, it might be better to simply import the [[http://erratique.ch/software/fmt][Fmt module]] that provides a better API than the =Format= module of the stdlib. *** Add more integer types Add support for ={,u}int{8,16,32,64}=. These are always useful when implementing binary protocols. Initially they should be implemented with C stubs and eventually we should propose their inclusion in the compiler. *** 80 columns limit Currently lines in Base are limited to a maximum width of 90 characters. To make things more standard, we should use an 80 columns limit. The only thing needed for this is to extend the style checker to enforce a maximum line width. *** Remove implicit uses of polymorphic comparison Such as =List.mem= where =?equal= defaults to the polymorphic comparison. These are error-prone. *** Improve the generated code Improve our code generators to produce code that looks more like hand-written code.
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