camelCase.el emacswiki has a function to un-camelcase. But It doesn't seem to work. I added that piece to the camelCase.el itself. But can't get it to work.
What am I missing ? Did anyone else have the same problem ?
EDIT : I have added last two functions, one of which is the function that doesn't work
(defun camelCase-downcase-word (count)
"Make word starting at point lowercase, leaving point after word."
(interactive "*p")
(let ((start (point)))
(camelCase-forward-word count)
(downcase-region start (point))))
(defun un-camelcase-string (s &optional sep start)
"Convert CamelCase string S to lower case with word separator SEP.
Default for SEP is a hyphen \"-\".
If third argument START is non-nil, convert words after that
index in STRING."
(let ((case-fold-search nil))
(while (string-match "[A-Z]" s (or start 1))
(setq s (replace-match (concat (or sep "_")
(downcase (match-string 0 s)))
t nil s)))
(downcase s)))
(provide 'camelCase)
Other than the misleading doc-string (it actually defaults to "_", not "-" for the separator), the definition of un-camelcase-string you provide works. Can you give us more details about how it fails and under what circumstances?
Related
After wandering off in frustration from before, I've decided to try Haskell in Emacs org-mode again. I'm using Haskell stack-ghci (8.6.3), Emacs 26.2, org-mode 9.2.3 set up with intero. This code block
#+begin_src haskell :results raw :session *haskell*
pyth2 :: Int -> [(Int, Int, Int)]
pyth2 n =
[ (x, y, z)
| x <- [1 .. n]
, y <- [x .. n]
, z <- [y .. n]
, x ^ 2 + y ^ 2 == z ^ 2
]
#+end_src
produces this RESULTS:
*Main| *Main| *Main| *Main| *Main|
<interactive>:59:16: error: Variable not in scope: n
<interactive>:60:16: error: Variable not in scope: n
<interactive>:61:16: error: Variable not in scope: n
However, this
#+begin_src haskell :results raw
tripleMe x = x + x + x
#+end_src
works fine. I've added the :set +m to both ghci.conf and the individual code block to no effect. This code works fine in a separate hs file run in a separate REPL. The pyth2 code in a separate file also can be called from the org-mode started REPL and run just fine as well. Not sure how to proceed. Can include Emacs init info if necessary.
Over on the org-mode mailing list I got an answer that basically is saying the same as you, D. Gillis. He had a similar work-around that actually is more org-mode-centric. Under a heading where your code blocks will be put this "drawer"
:PROPERTIES:
:header-args:haskell: :prologue ":{\n" :epilogue ":}\n"
:END:
and then (possibly in a local variable) run
#+begin_src haskell :results output
:set prompt-cont ""
#+end_src
For reasons unknown I've had to include the :results output otherwise a cryptic error of "expecting a string" happens.
On a few other notes, haskell babel doesn't respond/care about the :session option, i.e., when you run a code block, a REPL *haskell* starts and that will be the sole REPL. Also, a haskell-mode started REPL doesn't play well with an existing org-mode initiated REPL, i.e., if you start a REPL from haskell-mode, it kills the original org-mode *haskkell*REPL, and any new attempt to run org-mode code blocks can't see this new, non-*haskell*REPL. Then if you kill the haskell-mode REPL and try to run org-mode blocks, you get
executing Haskell code block...
inferior-haskell-start-process: List contains a loop: ("--no-build" "--no-load" "--ghci-options=-ferror-spans" "--no-build" "--no-load" . #2)
... you're hosed -- and nothing seems to shake it, not any restart/refresh, nor killing, reloading the file, i.e., a complete restart of Emacs is necessary. Anyone knowing a better solution, please tells usses.
This is a GHCi issue.
The same error occurs when your code is copied directly into GHCi, which also gives a parse error when it encounters the new line after the equal sign. This first error isn't showing up here because org-babel only shows the value of the last expression (in this case, the error caused by the list comprehension).
I'm not entirely familiar with how Haskell-mode sends the code to GHCi, but it looks like it involves loading in the buffer into GHCi as a file, which may be why you didn't have this problem working from the hs file.
There are a few options to fix this, none of which are completely ideal:
Move some portion of the list into the first line (e.g. the first line could be pyth2 n = [).
Wrap the entire function definition with :{ and :}.
Write an Elisp function to modify what is being sent to GHCi and then changes it back after it is evaluated.
The first two options require you to format your code in a form that the GHCi will accept. In your example case, the first option may not be too bad, but this won't always be so trivial for all multi-line declarations (e.g. pattern-matching function declarations). The downside to the second option is that it requires adding brackets to the code that shouldn't be there in real source code.
To fix the issue of extraneous brackets being added, I've written an Elisp command (my-org-babel-execute-haskell-blocks) that places these brackets around code blocks that it finds, evaluates the region, and then deletes the brackets. Note that this function requires that blocks be separated from all other code with at least one empty line.
Calling my-org-babel-execute-haskell-blocks on your example declares the function without any errors.
EDIT: The previous function I gave failed to work on pattern matching declarations. I've rewritten the function to fix this issue as well as to be comment aware. This new function should be significantly more useful. However, it's worth noting that I didn't handle multi-line comments in a sophisticated manner, so code blocks with multi-line comments may not be wrapped properly.
(defun my-org-babel-execute-haskell-blocks ()
"Wraps :{ and :} around all multi-line blocks and then evaluates the source block.
Multi-line blocks are those where all non-indented, non-comment lines are declarations using the same token."
(interactive)
(save-excursion
;; jump to top of source block
(my-org-jump-to-top-of-block)
(forward-line)
;; get valid blocks
(let ((valid-block-start-ends (seq-filter #'my-haskell-block-valid-p (my-get-babel-blocks))))
(mapcar #'my-insert-haskell-braces valid-block-start-ends)
(org-babel-execute-src-block)
(mapcar #'my-delete-inserted-haskell-braces (reverse valid-block-start-ends)))))
(defun my-get-blocks-until (until-string)
(let ((block-start nil)
(block-list nil))
(while (not (looking-at until-string))
(if (looking-at "[[:space:]]*\n")
(when (not (null block-start))
(setq block-list (cons (cons block-start (- (point) 1))
block-list)
block-start nil))
(when (null block-start)
(setq block-start (point))))
(forward-line))
(when (not (null block-start))
(setq block-list (cons (cons block-start (- (point) 1))
block-list)))))
(defun my-get-babel-blocks ()
(my-get-blocks-until "#\\+end_src"))
(defun my-org-jump-to-top-of-block ()
(forward-line)
(org-previous-block 1))
(defun my-empty-line-p ()
(beginning-of-line)
(= (char-after) 10))
(defun my-haskell-type-declaration-line-p ()
(beginning-of-line)
(and (not (looking-at "--"))
(looking-at "^.*::.*$")))
(defun my-insert-haskell-braces (block-start-end)
(let ((block-start (car block-start-end))
(block-end (cdr block-start-end)))
(goto-char block-end)
(insert "\n:}")
(goto-char block-start)
(insert ":{\n")))
(defun my-delete-inserted-haskell-braces (block-start-end)
(let ((block-start (car block-start-end))
(block-end (cdr block-start-end)))
(goto-char block-start)
(delete-char 3)
(goto-char block-end)
(delete-char 3)))
(defun my-get-first-haskell-token ()
"Gets all consecutive non-whitespace text until first whitespace"
(save-excursion
(beginning-of-line)
(let ((starting-point (point)))
(re-search-forward ".*?[[:blank:]\n]")
(goto-char (- (point) 1))
(buffer-substring-no-properties starting-point (point)))))
(defun my-haskell-declaration-line-p ()
(beginning-of-line)
(or (looking-at "^.*=.*$") ;; has equals sign
(looking-at "^.*\n[[:blank:]]*|")
(looking-at "^.*where[[:blank:]]*$")))
(defun my-haskell-block-valid-p (block-start-end)
(let ((block-start (car block-start-end))
(block-end (cdr block-start-end))
(line-count 0))
(save-excursion
(goto-char block-start)
(let ((token 'nil)
(is-valid t))
;; eat top comments
(while (or (looking-at "--")
(looking-at "{-"))
(forward-line))
(when (my-haskell-type-declaration-line-p)
(progn
(setq token (my-get-first-haskell-token)
line-count 1)
(forward-line)))
(while (<= (point) block-end)
(let ((current-token (my-get-first-haskell-token)))
(cond ((string= current-token "") ; line with indentation
(when (null token) (setq is-valid nil))
(setq line-count (+ 1 line-count)))
((or (string= (substring current-token 0 2) "--") ;; skip comments
(string= (substring current-token 0 2) "{-"))
'())
((and (my-haskell-declaration-line-p)
(or (null token) (string= token current-token)))
(setq token current-token
line-count (+ 1 line-count)))
(t (setq is-valid nil)
(goto-char (+ 1 block-end))))
(forward-line)))
(and is-valid (> line-count 1))))))
I am doing a lot of embedded C programming right now, which means that I am writing things like this all the time:
(ioe_extra_A & 0xE7)
It would be super useful, if when put my cursor on the 0xE7, emacs would display "0b1110 0111" in the status bar or mini-buffer, so I could check that my mask is what I meant it to be.
Typically, no matter what it is I want emacs to do, 10 minutes of Googling will turn up the answer, but for this one, I have exhausted my searching skills and still not turned up an answer.
Thanks ahead of time.
This seems to work:
(defvar my-hex-idle-timer nil)
(defun my-hex-idle-status-on ()
(interactive)
(when (timerp my-hex-idle-timer)
(cancel-timer my-hex-idle-timer))
(setq my-hex-idle-timer (run-with-idle-timer 1 t 'my-hex-idle-status)))
(defun my-hex-idle-status-off ()
(interactive)
(when (timerp my-hex-idle-timer)
(cancel-timer my-hex-idle-timer)
(setq my-hex-idle-timer nil)))
(defun int-to-binary-string (i)
"convert an integer into it's binary representation in string format
By Trey Jackson, from https://stackoverflow.com/a/20577329/."
(let ((res ""))
(while (not (= i 0))
(setq res (concat (if (= 1 (logand i 1)) "1" "0") res))
(setq i (lsh i -1)))
(if (string= res "")
(setq res "0"))
res))
(defun my-hex-idle-status ()
(let ((word (thing-at-point 'word)))
(when (string-prefix-p "0x" word)
(let ((num (ignore-errors (string-to-number (substring word 2) 16))))
(message "In binary: %s" (int-to-binary-string num))))))
Type M-x my-hex-idle-status-on to turn it on.
As noted, thanks to Trey Jackson for int-to-binary-string.
I'm writing a simple mode for a Lisp-like language, and am having trouble setting up indentation. I've been following the emacswiki mode tutorial.
However, I can't figure out how to adapt their example indentation to my needs because they don't do any form of counting.
Basically, I just need to add 2 spaces to my indentation count every time I see a { or (, even if there are multiple on the same line, and subtract 2 spaces when I see closures of the above. I'm new to elisp; how can I adapt their example to count braces and brackets?
For convenience, here is the code they are using (for a non-bracket language):
(defun wpdl-indent-line ()
"Indent current line as WPDL code"
(interactive)
(beginning-of-line)
(if (bobp) ; Check for rule 1
(indent-line-to 0)
(let ((not-indented t) cur-indent)
(if (looking-at "^[ \t]*END_") ; Check for rule 2
(progn
(save-excursion
(forward-line -1)
(setq cur-indent (- (current-indentation) default-tab-width)))
(if (< cur-indent 0)
(setq cur-indent 0)))
(save-excursion
(while not-indented
(forward-line -1)
(if (looking-at "^[ \t]*END_") ; Check for rule 3
(progn
(setq cur-indent (current-indentation))
(setq not-indented nil))
; Check for rule 4
(if (looking-at "^[ \t]*\\(PARTICIPANT\\|MODEL\\|APPLICATION\\|WORKFLOW\\|ACTIVITY\\|DATA\\|TOOL_LIST\\|TRANSITION\\)")
(progn
(setq cur-indent (+ (current-indentation) default-tab-width))
(setq not-indented nil))
(if (bobp) ; Check for rule 5
(setq not-indented nil)))))))
(if cur-indent
(indent-line-to cur-indent)
(indent-line-to 0))))) ; If we didn't see an indentation hint, then allow no indentation
How can I just implement lisp-like indentation (but also with curly braces)?
If you want something simple for a Lisp-style language, I suggest you start with (syntax-ppss) which returns the "parsing state" at point. The first element of that state is the current paren-nesting depth. While I used the word "paren", this doesn't really count parens but counts those chars which the syntax-table defines as paren-like, so if you set your syntax-table such that { and } are declared as paren-like, then those will also be counted.
So you could start with something like
(defun foo-indent-function ()
(save-excursion
(beginning-of-line)
(indent-line-to (* 2 (car (syntax-ppss))))))
Do not define this as interactive, since the way to use it is by adding
(set (make-local-variable 'indent-line-function) #'foo-indent-function)
in your major-mode function.
But maybe a better option is to simply do:
(require 'smie)
...
(define-derived-mode foo-mode "Foo"
...
(smie-setup nil #'ignore)
...)
This will use an indentation step of 4 (configured in smie-indent-basic).
An mplayer tool (midentify) outputs "shell-ready" lines intended to be evaluated by a bash/sh/whatever interpreter.
How can I assign these var-names to their corresponding values as elisp var-names in emacs?
The data is in a string (via shell-command-to-string)
Here is the data
ID_AUDIO_ID=0
ID_FILENAME=/home/axiom/abc.wav
ID_DEMUXER=audio
ID_AUDIO_FORMAT=1
ID_AUDIO_BITRATE=512000
ID_AUDIO_RATE=0
ID_AUDIO_NCH=1
ID_LENGTH=3207.00
ID_SEEKABLE=1
ID_CHAPTERS=0
ID_AUDIO_BITRATE=512000
ID_AUDIO_RATE=32000
ID_AUDIO_NCH=1
ID_AUDIO_CODEC=pcm
ID_EXIT=EOF
Here's a routine that takes a string containing midentify output, and returns an association list of the key-value pairs (which is safer than setting Emacs variables willy-nilly). It also has the advantage that it parses numeric values into actual numbers:
(require 'cl) ; for "loop"
(defun midentify-output-to-alist (str)
(setq str (replace-regexp-in-string "\n+" "\n" str))
(setq str (replace-regexp-in-string "\n+\\'" "" str))
(loop for index = 0 then (match-end 0)
while (string-match "^\\(?:\\([A-Z_]+\\)=\\(?:\\([0-9]+\\(?:\\.[0-9]+\\)?\\)\\|\\(.*\\)\\)\\|\\(.*\\)\\)\n?" str index)
if (match-string 4 str)
do (error "Invalid line: %s" (match-string 4 str))
collect (cons (match-string 1 str)
(if (match-string 2 str)
(string-to-number (match-string 2 str))
(match-string 3 str)))))
You'd use this function like so:
(setq alist (midentify-output-to-alist my-output))
(if (assoc "ID_LENGTH" alist)
(setq id-length (cdr (assoc "ID_LENGTH" alist)))
(error "Didn't find an ID_LENGTH!"))
EDIT: Modified function to handle blank lines and trailing newlines correctly.
The regexp is indeed a beast; Emacs regexps are not known for their easiness on the eyes. To break it down a bit:
The outermost pattern is ^(?:valid-line)|(.*). It tries to match a valid line, or else matches the entire line (the .*) in match-group 4. If (match-group 4 str) is not nil, that indicates that an invalid line was encountered, and an error is raised.
valid-line is (word)=(?:(number)|(.*)). If this matches, then the name part of the name-value pair is in match-string 1, and if the rest of the line matches a number, then the number is in match-string 2, otherwise the entire rest of the line is in match-string 3.
There's probably a better way but this should do it:
(require 'cl)
(let ((s "ID_AUDIO_ID=0
ID_FILENAME=/home/axiom/abc.wav
ID_DEMUXER=audio
ID_AUDIO_FORMAT=1
ID_AUDIO_BITRATE=512000
ID_AUDIO_RATE=0
ID_AUDIO_NCH=1
ID_LENGTH=3207.00
ID_SEEKABLE=1
ID_CHAPTERS=0
ID_AUDIO_BITRATE=512000
ID_AUDIO_RATE=32000
ID_AUDIO_NCH=1
ID_AUDIO_CODEC=pcm
ID_EXIT=EOF"))
(loop for p in (split-string s "\n")
do
(let* ((elements (split-string p "="))
(key (elt elements 0))
(value (elt elements 1)))
(set (intern key) value))))
Here's a function you can run on the output buffer:
(defun set-variables-from-shell-assignments ()
(goto-char (point-min))
(while (< (point) (point-max))
(and (looking-at "\\([A-Z_]+\\)=\\(.*\\)$")
(set (intern (match-string 1)) (match-string 2)))
(forward-line 1)))
I don't think regexp is what really need. You need to split your string by \n and =, so you just say exactly the same to interpreter.
I think you can also use intern to get symbol from string(and set variables). I use it for the first time, so comment here if i am wrong. Anyways, if list is what you want, just remove top-level mapcar.
(defun set=(str)
(mapcar (lambda(arg)
(set
(intern (car arg))
(cadr arg)))
(mapcar (lambda(arg)
(split-string arg "=" t))
(split-string
str
"\n" t))))
(set=
"ID_AUDIO_ID=0
ID_FILENAME=/home/axiom/abc.wav
ID_DEMUXER=audio
ID_AUDIO_FORMAT=1
ID_AUDIO_BITRATE=512000
ID_AUDIO_RATE=0
ID_AUDIO_NCH=1
ID_LENGTH=3207.00
ID_SEEKABLE=1
ID_CHAPTERS=0
ID_AUDIO_BITRATE=512000
ID_AUDIO_RATE=32000
ID_AUDIO_NCH=1
ID_AUDIO_CODEC=pcm
ID_EXIT=EOF")
Quite often I need to capture some paragraphs in a region with regexp - and then act on each paragraph.
For example consider a problem of recovering a numberd list:
1. Some text with a blank
line. I want not to have that line break
2. Some more text. Also - with
a line break.
3. I want to have a defun which
will capture each numbered entry
and then join it
I want to write a defun which will make the previous text like that:
1. Some text with a blank line. I want not to have that line break
2. Some more text. Also - with a line break.
3. I want to have a defun which will capture each numbered entry and then join it
Here's my best try for now:
(defun joining-lines (start end)
(interactive "r")
(save-restriction
(narrow-to-region start end)
(goto-char (point-min))
(while (search-forward-regexp "\\([[:digit:]]\\. \\)\\(\\[^[:digit:]\\].*?\\)" nil t)
(replace-match "\\1\\,(replace-regexp-in-string " ;; here's a line break
" " " (match-string 2))" t nil))
)
)
It neither work - nor give an error.
Actually it would be better to have a separate defun to act on a string. This way it will be easy to expand the code to have multiple substitutions on the replace-match.
There are two issues with your code:
A period in a regexp matches "anything except newline," so your .*? will never include a newline character.
The \,(...) regexp replacement construct is only available interactively. If issue #1 were resolved, you'd get an error (error "Invalid use of '\\' in replacement text"). Programmatically, you have to write the code yourself, eg: (replace-match (concat (match-string 1) (replace-regexp-in-string "\n" " " (match-string 2)))).
I think you'd be better off not relying on regexps to do the heavy lifting here. This works for me:
(defun massage-list (start end)
(interactive "r")
(save-excursion
(save-restriction
(narrow-to-region start end)
(goto-char start)
(while (progn (forward-line) (= (point) (line-beginning-position)))
(when (not (looking-at "^[[:digit:]]+\\."))
(delete-indentation)
(beginning-of-line))))))
Try something like this code. It's not the shortest possible but rather something straigthforward.
(defun joining-lines(start end)
(interactive "r")
(let ((newline-string "~~~"))
(save-restriction
(narrow-to-region start end)
(mark-whole-buffer)
(replace-string "\n" newline-string)
(goto-char start)
(while (re-search-forward (concat newline-string "\\([[:digit:]]+. \\)") nil t)
(replace-match "\n\\1" nil nil))
(mark-whole-buffer)
(replace-string newline-string " "))))
Here's a solution using an external defun:
(defun capturing-paragraphs (start end)
(interactive "r")
(save-restriction
(narrow-to-region start end)
(goto-char (point-min))
(while (search-forward-regexp "^\\(^[[:digit:]]+\\.[^[:digit:]]+$\\)" nil t) (replace-match (multiple-find-replace-in-match) t nil))))
(defun multiple-find-replace-in-match ()
"Returns a string based on current regex match."
(let (matchedText newText)
(setq matchedText
(buffer-substring-no-properties
(match-beginning 1) (match-end 1)))
(setq newText
(replace-regexp-in-string "\n" "" matchedText) )
newText))
it works only if there's no figures in the text. But this solution is straighforward to expand - to add new replacements on a matched string.