;;; cl-preloaded.el --- Preloaded part of the CL library -*- lexical-binding: t; -*- ;; Copyright (C) 2015-2017 Free Software Foundation, Inc ;; Author: Stefan Monnier ;; Package: emacs ;; This file is part of GNU Emacs. ;; GNU Emacs is free software: you can redistribute it and/or modify ;; it under the terms of the GNU General Public License as published by ;; the Free Software Foundation, either version 3 of the License, or ;; (at your option) any later version. ;; GNU Emacs is distributed in the hope that it will be useful, ;; but WITHOUT ANY WARRANTY; without even the implied warranty of ;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ;; GNU General Public License for more details. ;; You should have received a copy of the GNU General Public License ;; along with GNU Emacs. If not, see . ;;; Commentary: ;; The cl-defstruct macro is full of circularities, since it uses the ;; cl-structure-class type (and its accessors) which is defined with itself, ;; and it setups a default parent (cl-structure-object) which is also defined ;; with cl-defstruct, and to make things more interesting, the class of ;; cl-structure-object is of course an object of type cl-structure-class while ;; cl-structure-class's parent is cl-structure-object. ;; Furthermore, the code generated by cl-defstruct generally assumes that the ;; parent will be loaded when the child is loaded. But at the same time, the ;; expectation is that structs defined with cl-defstruct do not need cl-lib at ;; run-time, which means that the `cl-structure-object' parent can't be in ;; cl-lib but should be preloaded. So here's this preloaded circular setup. ;;; Code: (eval-when-compile (require 'cl-lib)) (eval-when-compile (require 'cl-macs)) ;For cl--struct-class. ;; The `assert' macro from the cl package signals ;; `cl-assertion-failed' at runtime so always define it. (define-error 'cl-assertion-failed (purecopy "Assertion failed (\\[cl-show-assert] for backtrace)")) (defvar cl-assert-last-backtrace) (defun cl--assertion-failed (form &optional string sargs args) (if debug-on-error (funcall debugger 'error `(cl-assertion-failed (,form ,string ,@sargs))) (setq cl-assert-last-backtrace (backtrace-frames 'cl--assertion-failed)) (autoload 'cl-show-assert "cl-lib" "Show backtrace from last assertion failure." t) (if string (apply #'error (concat string " (\\[cl-show-assert] for backtrace)") (append sargs args)) (signal 'cl-assertion-failed `(,form ,@sargs))))) ;; When we load this (compiled) file during pre-loading, the cl--struct-class ;; code below will need to access the `cl-struct' info, since it's considered ;; already as its parent (because `cl-struct' was defined while the file was ;; compiled). So let's temporarily setup a fake. (defvar cl-struct-cl-structure-object-tags nil) (unless (cl--find-class 'cl-structure-object) (setf (cl--find-class 'cl-structure-object) 'dummy)) (fset 'cl--make-slot-desc ;; To break circularity, we pre-define the slot constructor by hand. ;; It's redefined a bit further down as part of the cl-defstruct of ;; cl--slot-descriptor. ;; BEWARE: Obviously, it's important to keep the two in sync! (lambda (name &optional initform type props) (record 'cl-slot-descriptor name initform type props))) (defun cl--struct-get-class (name) (or (if (not (symbolp name)) name) (cl--find-class name) (if (not (get name 'cl-struct-type)) ;; FIXME: Add a conversion for `eieio--class' so we can ;; create a cl-defstruct that inherits from an eieio class? (error "%S is not a struct name" name) ;; Backward compatibility with a defstruct compiled with a version ;; cl-defstruct from Emacs<25. Convert to new format. (let ((tag (intern (format "cl-struct-%s" name))) (type-and-named (get name 'cl-struct-type)) (descs (get name 'cl-struct-slots))) (cl-struct-define name nil (get name 'cl-struct-include) (unless (and (eq (car type-and-named) 'vector) (null (cadr type-and-named)) (assq 'cl-tag-slot descs)) (car type-and-named)) (cadr type-and-named) descs (intern (format "cl-struct-%s-tags" name)) tag (get name 'cl-struct-print)) (cl--find-class name))))) (defun cl--plist-remove (plist member) (cond ((null plist) nil) ((null member) plist) ((eq plist member) (cddr plist)) (t `(,(car plist) ,(cadr plist) ,@(cl--plist-remove (cddr plist) member))))) (defun cl--struct-register-child (parent tag) ;; Can't use (cl-typep parent 'cl-structure-class) at this stage ;; because `cl-structure-class' is defined later. (while (recordp parent) (add-to-list (cl--struct-class-children-sym parent) tag) ;; Only register ourselves as a child of the leftmost parent since structs ;; can only only have one parent. (setq parent (car (cl--struct-class-parents parent))))) ;;;###autoload (defun cl-struct-define (name docstring parent type named slots children-sym tag print) (unless type ;; Legacy defstruct, using tagged vectors. Enable backward compatibility. (cl-old-struct-compat-mode 1)) (if (eq type 'record) ;; Defstruct using record objects. (setq type nil)) (cl-assert (or type (not named))) (if (boundp children-sym) (add-to-list children-sym tag) (set children-sym (list tag))) (and (null type) (eq (caar slots) 'cl-tag-slot) ;; Hide the tag slot from "standard" (i.e. non-`type'd) structs. (setq slots (cdr slots))) (let* ((parent-class (when parent (cl--struct-get-class parent))) (n (length slots)) (index-table (make-hash-table :test 'eq :size n)) (vslots (let ((v (make-vector n nil)) (i 0) (offset (if type 0 1))) (dolist (slot slots) (let* ((props (cddr slot)) (typep (plist-member props :type)) (type (if typep (cadr typep) t))) (aset v i (cl--make-slot-desc (car slot) (nth 1 slot) type (cl--plist-remove props typep)))) (puthash (car slot) (+ i offset) index-table) (cl-incf i)) v)) (class (cl--struct-new-class name docstring (unless (symbolp parent-class) (list parent-class)) type named vslots index-table children-sym tag print))) (unless (symbolp parent-class) (let ((pslots (cl--struct-class-slots parent-class))) (or (>= n (length pslots)) (let ((ok t)) (dotimes (i (length pslots)) (unless (eq (cl--slot-descriptor-name (aref pslots i)) (cl--slot-descriptor-name (aref vslots i))) (setq ok nil))) ok) (error "Included struct %S has changed since compilation of %S" parent name)))) (add-to-list 'current-load-list `(define-type . ,name)) (cl--struct-register-child parent-class tag) (unless (or (eq named t) (eq tag name)) ;; We used to use `defconst' instead of `set' but that ;; has a side-effect of purecopying during the dump, so that the ;; class object stored in the tag ends up being a *copy* of the ;; one stored in the `cl--class' property! We could have fixed ;; this needless duplication by using the purecopied object, but ;; that then breaks down a bit later when we modify the ;; cl-structure-class class object to close the recursion ;; between cl-structure-object and cl-structure-class (because ;; modifying purecopied objects is not allowed. Since this is ;; done during dumping, we could relax this rule and allow the ;; modification, but it's cumbersome). ;; So in the end, it's easier to just avoid the duplication by ;; avoiding the use of the purespace here. (set tag class) ;; In the cl-generic support, we need to be able to check ;; if a vector is a cl-struct object, without knowing its particular type. ;; So we use the (otherwise) unused function slots of the tag symbol ;; to put a special witness value, to make the check easy and reliable. (fset tag :quick-object-witness-check)) (setf (cl--find-class name) class))) (cl-defstruct (cl-structure-class (:conc-name cl--struct-class-) (:predicate cl--struct-class-p) (:constructor nil) (:constructor cl--struct-new-class (name docstring parents type named slots index-table children-sym tag print)) (:copier nil)) "The type of CL structs descriptors." ;; The first few fields here are actually inherited from cl--class, but we ;; have to define this one before, to break the circularity, so we manually ;; list the fields here and later "backpatch" cl--class as the parent. ;; BEWARE: Obviously, it's indispensable to keep these two structs in sync! (name nil :type symbol) ;The type name. (docstring nil :type string) (parents nil :type (list-of cl--class)) ;The included struct. (slots nil :type (vector cl--slot-descriptor)) (index-table nil :type hash-table) (tag nil :type symbol) ;Placed in cl-tag-slot. Holds the struct-class object. (type nil :type (memq (vector list))) (named nil :type bool) (print nil :type bool) (children-sym nil :type symbol) ;This sym's value holds the tags of children. ) (cl-defstruct (cl-structure-object (:predicate cl-struct-p) (:constructor nil) (:copier nil)) "The root parent of all \"normal\" CL structs") (setq cl--struct-default-parent 'cl-structure-object) (cl-defstruct (cl-slot-descriptor (:conc-name cl--slot-descriptor-) (:constructor nil) (:constructor cl--make-slot-descriptor (name &optional initform type props)) (:copier cl--copy-slot-descriptor-1)) ;; FIXME: This is actually not used yet, for circularity reasons! "Descriptor of structure slot." name ;Attribute name (symbol). initform type ;; Extra properties, kept in an alist, can include: ;; :documentation, :protection, :custom, :label, :group, :printer. (props nil :type alist)) (defun cl--copy-slot-descriptor (slot) (let ((new (cl--copy-slot-descriptor-1 slot))) (cl-callf copy-alist (cl--slot-descriptor-props new)) new)) (cl-defstruct (cl--class (:constructor nil) (:copier nil)) "Type of descriptors for any kind of structure-like data." ;; Intended to be shared between defstruct and defclass. (name nil :type symbol) ;The type name. (docstring nil :type string) ;; For structs there can only be one parent, but when EIEIO classes inherit ;; from cl--class, we'll need this to hold a list. (parents nil :type (list-of cl--class)) (slots nil :type (vector cl-slot-descriptor)) (index-table nil :type hash-table)) (cl-assert (let ((sc-slots (cl--struct-class-slots (cl--find-class 'cl-structure-class))) (c-slots (cl--struct-class-slots (cl--find-class 'cl--class))) (eq t)) (dotimes (i (length c-slots)) (let ((sc-slot (aref sc-slots i)) (c-slot (aref c-slots i))) (unless (eq (cl--slot-descriptor-name sc-slot) (cl--slot-descriptor-name c-slot)) (setq eq nil)))) eq)) ;; Close the recursion between cl-structure-object and cl-structure-class. (setf (cl--struct-class-parents (cl--find-class 'cl-structure-class)) (list (cl--find-class 'cl--class))) (cl--struct-register-child (cl--find-class 'cl--class) (cl--struct-class-tag (cl--find-class 'cl-structure-class))) (cl-assert (cl--find-class 'cl-structure-class)) (cl-assert (cl--find-class 'cl-structure-object)) (cl-assert (cl-struct-p (cl--find-class 'cl-structure-class))) (cl-assert (cl-struct-p (cl--find-class 'cl-structure-object))) (cl-assert (cl--class-p (cl--find-class 'cl-structure-class))) (cl-assert (cl--class-p (cl--find-class 'cl-structure-object))) ;; Make sure functions defined with cl-defsubst can be inlined even in ;; packages which do not require CL. We don't put an autoload cookie ;; directly on that function, since those cookies only go to cl-loaddefs. (autoload 'cl--defsubst-expand "cl-macs") ;; Autoload, so autoload.el and font-lock can use it even when CL ;; is not loaded. (put 'cl-defun 'doc-string-elt 3) (put 'cl-defmacro 'doc-string-elt 3) (put 'cl-defsubst 'doc-string-elt 3) (put 'cl-defstruct 'doc-string-elt 2) (provide 'cl-preloaded) ;;; cl-preloaded.el ends here