"Hash table populated with all known f90 interfaces.")
(defvar f90-types (make-hash-table :test 'equal)
- "Hash table populated with all known f90 derived types.")
+ "Hash table populated with all known f90 derived types.
+The keys are type names and the values are lists of pairs of the form
+\(NAME . REST) where NAME is the name of a slot of that type and REST
+describes that slot.")
;;; Inlineable utility functions
(defsubst f90-specialisers (name interfaces)
(defsubst f90-get-slot-type (slot type)
"Get the type of SLOT in TYPE."
- (let ((fn (intern-soft (format "f90-type.%s.%s"
- (f90-get-parsed-type-typename type) slot))))
- (when fn
- (funcall fn (f90-get-type type)))))
+ (assoc slot (f90-get-type type)))
(defsubst f90-merge-into-tags-completion-table (ctable)
"Merge completions in CTABLE into the tags completion table."
the arglist is a sublist of the specialiser's arglist. For more
details see `f90-approx-arglist-match' and
`f90-browse-interface-specialisers'."
- (interactive (let ((def (word-at-point)))
+ (interactive (let ((def (thing-at-point 'symbol)))
(list (completing-read
(format "Find interface/tag (default %s): " def)
(f90-lazy-completion-table)
If INVOCATION-POINT is non-nil it should be a `point-marker'
indicating where we were called from, for jumping back to with
`pop-tag-mark'."
- (interactive (let ((def (word-at-point)))
+ (interactive (let ((def (thing-at-point 'symbol)))
(list (completing-read
(format "Interface%s: "
(if def
(fundamental-mode)
(erase-buffer)
(let* ((tname (format "type(%s)" type))
- (type-struct (f90-get-type (list nil tname)))
- fns)
- (when type-struct
- (setq fns (loop for name in (funcall (intern-soft
- (format "f90-type.%s.-varnames"
- tname))
- type-struct)
- collect (intern-soft (format "f90-type.%s.%s"
- tname name)))))
- (if (null type-struct)
+ (slots (f90-get-type (list nil tname))))
+ (if (null slots)
(insert (format "The type %s is not a known derived type."
type))
(insert (format "type %s\n" type))
- (loop for fn in fns
- for parsed = (funcall fn type-struct)
- then (funcall fn type-struct)
+ (loop for slot in slots
do
(insert (format " %s :: %s\n"
- (f90-format-parsed-slot-type parsed)
- (f90-get-parsed-type-varname parsed))))
+ (f90-format-parsed-slot-type slot)
+ (f90-get-parsed-type-varname slot))))
(insert (format "end type %s\n" type))
(f90-mode))
(goto-char (point-min))
(when slot
(setf slots (nconc slot slots)))
(forward-line 1))
- (eval (f90-make-type-struct type slots))
- (setq fn (intern-soft (format "make-f90-type.%s" type)))
- (unless fn
- (error "Something bad went wrong parsing type definition %s" type))
- (setf (gethash type f90-types) (funcall fn))))
-
-(defun f90-make-type-struct (type slots)
- "Create a struct describing TYPE with SLOTS."
- (let ((struct-name (make-symbol (format "f90-type.%s" type)))
- (varnames (reverse (mapcar (lambda (x)
- (setq x (car x))
- (if (string-match "\\([^(]+\\)(" x)
- (match-string 1 x)
- x)) slots))))
- `(defstruct (,struct-name
- (:conc-name ,(make-symbol (format "f90-type.%s." type))))
- (-varnames ',varnames :read-only t)
- ,@(loop for (name . rest) in slots
- collect `(,(make-symbol name) (cons ',name ',rest)
- :read-only t)))))
+ (setf (gethash type f90-types) slots)))
(defun f90-arglist-types ()
"Return the types of the arguments to the function at `point'."
collect (save-excursion
(save-restriction
(when (re-search-forward
- (format "^[ \t]*\\([^!\n].+?\\)[ \t]*::.*\\<%s\\>"
+ (format "^[ \t]*\\([^!\n].+?\\)[ \t]*::.*\\_<%s\\_>"
arg) nil t)
(goto-char (match-beginning 0))
(let ((type (assoc arg