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merge into: arthur/beluga:windows
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arthur/beluga:main arthur/beluga:memory_management arthur/beluga:completion arthur/beluga:windows arthur/beluga:char_encode arthur/beluga:syntax_highlighting arthur/beluga:research arthur/beluga:lisp
arthur/beluga:V2.4 arthur/beluga:V2.3 arthur/beluga:V2.2.1 arthur/beluga:V2.2 arthur/beluga:V2.1 arthur/beluga:v2.0 arthur/beluga:V1.0
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pull from: arthur/beluga:completion
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arthur/beluga:memory_management arthur/beluga:completion arthur/beluga:main arthur/beluga:windows arthur/beluga:char_encode arthur/beluga:syntax_highlighting arthur/beluga:research arthur/beluga:lisp
arthur/beluga:V2.4 arthur/beluga:V2.3 arthur/beluga:V2.2.1 arthur/beluga:V2.2 arthur/beluga:V2.1 arthur/beluga:v2.0 arthur/beluga:V1.0

14 Commits
windows .. completion

Author SHA1 Message Date
arthur 564292b03e linux lib compatibility 2026-06-03 09:20:00 +02:00
arthur cec92cacd1 working for starting screen 2026-06-02 19:06:51 +02:00
arthur 2738bc8042 popup and diagnose ui 2026-06-02 13:00:13 +02:00
arthur a8b2960eb4 First completion level is working (LSP connected) 2026-05-28 18:28:59 +02:00
arthur 8eeef59a98 clean working dir 2026-05-26 10:32:23 +02:00
arthur 6b6b3d1766 meson error
Build project / build (push) Has been cancelled
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2026-05-26 08:31:59 +02:00
arthur 3d49a0e2eb copy paste functions
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2026-05-26 08:28:38 +02:00
arthur 777dc5cb74 Version update
Build project / build (push) Successful in 28s
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2026-05-23 15:44:05 +02:00
arthur c4d772e465 READ ONLY state for buffers
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2026-05-23 15:42:17 +02:00
arthur 310498d582 lisp changes
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2026-05-22 14:37:32 +02:00
arthur edb5384f0e temp commit 2026-05-22 13:40:03 +02:00
arthur bc66e673fa Merge branch 'refs/heads/char_encode' 
# Conflicts:
#	include/builtins.h
#	include/data.h
#	include/editor_op.h
#	include/file_io.h
#	include/input.h
#	include/row_op.h
#	install.sh
#	main.c
#	meson.build
#	src/builtins.c
#	src/editor_op.c
#	src/file_io.c
#	src/init.c
#	src/input.c
#	src/output.c
#	src/row_op.c
 2026-05-04 00:31:48 +02:00
arthur 8e1b4d2f86 utf8 processing without struct 2026-05-03 23:32:40 +02:00
Arthur Barraux eae85c32ca add utf8_char_t struct 2025-11-19 10:37:41 +01:00
48 changed files with 17191 additions and 12917 deletions
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Doxyfile
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README.md
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# Beluga
Beluga is a project of CLI text editor that uses lisp as configuration language.
## Requirements
You will only need **meson** and a **C compiler** to compile the editor.
## Installation
### From source
Here is the installation line for development version:
```git clone https://git.giorgio-nas.fr/arthur/beluga.git && cd beluga && meson setup build && meson compile -C build```
The executable file will be `build/beluga`. Feel free to add it to your path.
### From installation script ( prefered )
Just clone the repo and execute the script `install.sh`. It will automatically add beluga to your path.
## Getting start
To open an existing file just type :
```./build/beluga path_to_my_file```
Here is some few command that you will need :
| keybind | command |
|---------------|------------------|
| Ctrl-x Ctrl-c | leave the editor |
| Ctrl-x Ctrl-s | Save a file |
| Ctrl-x f | open file |
# Beluga
Beluga is a project of CLI text editor that uses lisp as configuration language.
## Requirements
You will only need **meson** and a **C compiler** to compile the editor.
## Installation
### From source
Here is the installation line for development version:
```git clone https://git.giorgio-nas.fr/arthur/beluga.git && cd beluga && meson setup build && meson compile -C build```
The executable file will be `build/beluga`. Feel free to add it to your path.
### From installation script ( prefered )
Just clone the repo and execute the script `install.sh`. It will automatically add beluga to your path.
## Getting start
To open an existing file just type :
```./build/beluga path_to_my_file```
Here is some few command that you will need :
| keybind | command |
|---------------|------------------|
| Ctrl-x Ctrl-c | leave the editor |
| Ctrl-x Ctrl-s | Save a file |
| Ctrl-x f | open file |
assets/beluga.txt
+43 -43
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@@ -1,43 +1,43 @@
**#%#*****###%**
*##+--------------------=##*
#*=----------------------------=*#*
#*------------------------------------*#
%+----------------------------------------=#*
#+---------------------------------------------##
*#-------------------------------------------------=##
*#----------------------------------------------------:-##
#----------------------------------------------------------##
#=--------------------------------------------------------------##
+--------------------------+@#-%*-----------------------------------#*
+--------------------------%@@@@#-------------------------------------** BELUGA - VERSION 2.3
*-=-------------------------#@@*---------------------------------------=%
%*#==--------------------------------------------------------------------+# ----- KEY-BINDS -----
*%%=-=--------------------------------------------------------------------=# CTRL-x CTRL-c leave
%=--------------------------------------------------------------------------#* CTRL-x CTRL-s save
%-----------------------------------------------------------------------------** CTRL-x f open-file
*+--=---===----=---------------=*-----------------------------------------------**
#--=## *#%#*+==----==+**+----------------------= ***=---------------------%
*%**=-----------==== ==---------------------------------=+#+-----------------=#
*%=----------------------------------------------------------=#*---------------#
##=----------------------------------=------------------------+%=------------+#
#%+---------------------------------=*------------------------+%------------#
*#%*=-------------=-----------------#-------------------------#+----------#
**#%#*******+=======-------------#=------------------------#----------#
#===#*=======------------------#*----=-----------=--=##*-----------#
-====##=------------------------*%+------------=*#+=====----------#
--=====+#*=----------------------=-=+*#####***+=======-----------=*
%------=====*%*=-------------------------========-----------------+*
*-=--------====%%###+=--------------------------=-----------------#
#-----------=% +*##%%%%%%@@%%%%####*==---------------------**
%=-------#* #%*=-----------------+#
*%+--=## ##=-----------------=#*
** #+----=-------------------#*
%+----------------------------#*
*%-------------==----------------+#
##--------------==------------------#
*#--------------===%-----------------=%
##---------------=-##*-----------------+#
*#---------------==#+=#%-----------------%
*%---------------+# %*---------------#*
*#------------=+#* #%*=-----------#*
#****##****** *#%%##+=----%
**#%#*****###%**
*##+--------------------=##*
#*=----------------------------=*#*
#*------------------------------------*#
%+----------------------------------------=#*
#+---------------------------------------------##
*#-------------------------------------------------=##
*#----------------------------------------------------:-##
#----------------------------------------------------------##
#=--------------------------------------------------------------##
+--------------------------+@#-%*-----------------------------------#*
+--------------------------%@@@@#-------------------------------------** BELUGA - VERSION 2.4
*-=-------------------------#@@*---------------------------------------=%
%*#==--------------------------------------------------------------------+# ----- KEY-BINDS -----
*%%=-=--------------------------------------------------------------------=# CTRL-x CTRL-c leave
%=--------------------------------------------------------------------------#* CTRL-x CTRL-s save
%-----------------------------------------------------------------------------** CTRL-x f open-file
*+--=---===----=---------------=*-----------------------------------------------**
#--=## *#%#*+==----==+**+----------------------= ***=---------------------%
*%**=-----------==== ==---------------------------------=+#+-----------------=#
*%=----------------------------------------------------------=#*---------------#
##=----------------------------------=------------------------+%=------------+#
#%+---------------------------------=*------------------------+%------------#
*#%*=-------------=-----------------#-------------------------#+----------#
**#%#*******+=======-------------#=------------------------#----------#
#===#*=======------------------#*----=-----------=--=##*-----------#
-====##=------------------------*%+------------=*#+=====----------#
--=====+#*=----------------------=-=+*#####***+=======-----------=*
%------=====*%*=-------------------------========-----------------+*
*-=--------====%%###+=--------------------------=-----------------#
#-----------=% +*##%%%%%%@@%%%%####*==---------------------**
%=-------#* #%*=-----------------+#
*%+--=## ##=-----------------=#*
** #+----=-------------------#*
%+----------------------------#*
*%-------------==----------------+#
##--------------==------------------#
*#--------------===%-----------------=%
##---------------=-##*-----------------+#
*#---------------==#+=#%-----------------%
*%---------------+# %*---------------#*
*#------------=+#* #%*=-----------#*
#****##****** *#%%##+=----%
config/init.lisp
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;; MACROS
(define TAB-LENGTH 4)
(define QUIT-TIMES 1)
(define THEME "dark")
;; PACKAGES
;; First git clone it
;; (add-package "smart_delimiters")
;; FUNCTIONS
(define editor-delete-next-char (lambda () (
(move-cursor "right")
(editor-delete-previous-char)
)
)
)
(define (char-between ch lo hi)
(if (char>=? ch lo)
(char<=? ch hi)
#f))
(define (alphanumericp ch)
(if ch
(if (char-between ch #\a #\z)
#t
(if (char-between ch #\A #\Z)
#t
(if (char-between ch #\0 #\9)
#t
#f)))
#f))
(define (word-char-p ch)
(if (alphanumericp ch)
#t
#f))
(define editor-move-to-end-of-word (lambda () (
(if (word-char-p (editor-read-char))
((move-cursor "right")
(editor-move-to-end-of-word))
))
))
(define enter-and-tab
(lambda ()
(editor-insert-new-line)
(let ((is-in (move-cursor "up")))
(do ((ch (editor-read-char) (editor-read-char)))
((and (not (char=? ch #\space)) is-in) #f)
(move-cursor "down")
(editor-insert-char " ")
(set! is-in (move-cursor "up")))
(move-cursor "down"))))
(add-prefix "user")
(map-key "CTRL-x" '(editor-set-prefix "user") "no-prefix")
(map-key "CTRL-g" '(editor-set-prefix "no-prefix") "user")
(map-key "CTRL-c" editor-quit "user")
(map-key "CTRL-s" editor-save "user")
(map-key "ARROW-UP" '(move-cursor "up") "no-prefix")
(map-key "ARROW-DOWN" '(move-cursor "down") "no-prefix")
(map-key "ARROW-RIGHT" '(move-cursor "right") "no-prefix")
(map-key "ARROW-LEFT" '(move-cursor "left") "no-prefix")
(map-key "ENTER" enter-and-tab "no-prefix")
(map-key "CTRL-a" move-cursor-beg-line "no-prefix")
(map-key "CTRL-e" move-cursor-end-line "no-prefix")
(map-key "BACKSPACE" editor-delete-previous-char "no-prefix")
(map-key "DEL" editor-delete-next-char "no-prefix")
(map-key "PAGE-UP" move-cursor-page-up "no-prefix")
(map-key "PAGE-DOWN" move-cursor-page-down "no-prefix")
(map-key "f" editor-open-file "user")
(map-key "TAB" editor-insert-tab "no-prefix")
(map-key "CTRL-k" editor-del-row "no-prefix")
(map-key "CTRL-s" buffer-find "no-prefix")
(map-key "CTRL-r" editor-move-to-end-of-word "no-prefix")
(map-key "ARROW-RIGHT" editor-switch-next-buffer "user")
(map-key "\"" editor-split-screen-vertical "user")
(map-key "o" editor-switch-next-pane "user")
(map-key "*" editor-unify-panes "user")
(map-key "t" editor-create-terminal "user")
;; MACROS
(define TAB-LENGTH 4)
(define QUIT-TIMES 1)
(define THEME "dark")
(define LSP #t)
;; PACKAGES
;; First git clone it
;; (add-package "smart_delimiters")
;; FUNCTIONS
(define editor-delete-next-char (lambda () (
(move-cursor "right")
(editor-delete-previous-char)
)
)
)
(define (char-between ch lo hi)
(if (char>=? ch lo)
(char<=? ch hi)
#f))
(define (alphanumericp ch)
(if ch
(if (char-between ch #\a #\z)
#t
(if (char-between ch #\A #\Z)
#t
(if (char-between ch #\0 #\9)
#t
#f)))
#f))
(define (word-char-p ch)
(if (alphanumericp ch)
#t
#f))
(define editor-move-to-end-of-word (lambda () (
(if (word-char-p (editor-read-char))
((move-cursor "right")
(editor-move-to-end-of-word))
))
))
(define enter-and-tab
(lambda ()
(editor-insert-new-line)
(let ((is-in (move-cursor "up")))
(do ((ch (editor-read-char) (editor-read-char)))
((and (not (char=? ch #\space)) is-in) #f)
(move-cursor "down")
(editor-insert-char " ")
(set! is-in (move-cursor "up")))
(move-cursor "down"))))
(add-prefix "user")
(map-key "CTRL-x" '(editor-set-prefix "user") "no-prefix")
(map-key "CTRL-g" '(editor-set-prefix "no-prefix") "user")
(map-key "CTRL-c" editor-quit "user")
(map-key "CTRL-s" editor-save "user")
(map-key "ARROW-UP" '(move-cursor "up") "no-prefix")
(map-key "ARROW-DOWN" '(move-cursor "down") "no-prefix")
(map-key "ARROW-RIGHT" '(move-cursor "right") "no-prefix")
(map-key "ARROW-LEFT" '(move-cursor "left") "no-prefix")
(map-key "ENTER" enter-and-tab "no-prefix")
(map-key "CTRL-a" move-cursor-beg-line "no-prefix")
(map-key "CTRL-e" move-cursor-end-line "no-prefix")
(map-key "BACKSPACE" editor-delete-previous-char "no-prefix")
(map-key "DEL" editor-delete-next-char "no-prefix")
(map-key "PAGE-UP" move-cursor-page-up "no-prefix")
(map-key "PAGE-DOWN" move-cursor-page-down "no-prefix")
(map-key "f" editor-open-file "user")
(map-key "TAB" editor-insert-tab "no-prefix")
(map-key "CTRL-s" buffer-find "no-prefix")
(map-key "CTRL-r" buffer-find-reverse "no-prefix")
(map-key "ARROW-RIGHT" editor-switch-next-buffer "user")
(map-key "\"" editor-split-screen-vertical "user")
(map-key "o" editor-switch-next-pane "user")
(map-key "*" editor-unify-panes "user")
(map-key "CTRL-y" editor-paste "no-prefix")
(map-key "CTRL-k" editor-cut-end-line "no-prefix")
(map-key "a" editor-move-cursor-beg-buffer "user")
(map-key "z" editor-move-cursor-end-buffer "user")
(map-key "CTRL-h" editor-auto-complete "no-prefix")
(map-key "C-x" lsp-complete "user")
include/append_buffer.h
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@@ -1,12 +1,12 @@
#ifndef APPEND_BUFFER_H_
#define APPEND_BUFFER_H_
#include "data.h"
#include <stdlib.h>
#include <string.h>
void abAppend(struct abuf *ab, const char *s, int len);
void abFree(struct abuf *ab);
#endif // APPEND_BUFFER_H_
#ifndef APPEND_BUFFER_H_
#define APPEND_BUFFER_H_
#include "data.h"
#include <stdlib.h>
#include <string.h>
void abAppend(struct abuf *ab, const char *s, int len);
void abFree(const struct abuf *ab);
#endif // APPEND_BUFFER_H_
include/buffer.h
+69 -72
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@@ -1,72 +1,69 @@
/**
* @file buffer.h
* @brief Buffer management for handling multiple open files
*/
#ifndef BUFFER_H_
#define BUFFER_H_
#include "data.h"
/**
* @brief Creates a new buffer for a file
* @param filename Path to the file
* @return Buffer ID on success, -1 on failure
*/
int bufferCreate(const char *filename);
/**
* @brief Switches to a specific buffer by ID
* @param buffer_id The buffer ID to switch to
* @return 0 on success, -1 on failure
*/
int bufferSwitch(int buffer_id);
struct buffer_t *bufferFindById(int buffer_id);
/**
* @brief Closes a buffer by ID
* @param buffer_id The buffer ID to close
* @return 0 on success, -1 on failure
*/
int bufferClose(int buffer_id);
/**
* @brief Gets the current active buffer
* @return Pointer to current buffer_t, NULL if none
*/
struct buffer_t *bufferGetCurrent(void);
/**
* @brief Lists all open buffers
* @return Number of open buffers
*/
int bufferListAll(void);
/**
* @brief Saves current buffer to disk
* @return 0 on success, -1 on failure
*/
int bufferSave(void);
/**
* @brief Saves all buffers to disk
* @return 0 on success, -1 on failure
*/
int bufferSaveAll(void);
/**
* @brief Creates a new terminal buffer
* @return Buffer ID on success, -1 on failure
*/
int bufferCreateTerminal(void);
/**
* @brief Executes a command in the terminal buffer
* @param buffer_id The terminal buffer ID
* @param command The command to execute
* @return 0 on success, -1 on failure
*/
int bufferExecuteTerminalCommand(int buffer_id, const char *command);
#endif
/**
* @file buffer.h
* @brief Buffer management for handling multiple open files
*/
#ifndef BUFFER_H_
#define BUFFER_H_
#include "data.h"
/**
* @brief Creates a new buffer for a file
* @param filename Path to the file
* @return Buffer ID on success, -1 on failure
*/
int bufferCreate(const char *path, enum bufferStatus_e state);
/**
* @brief Switches to a specific buffer by ID
* @param buffer_id The buffer ID to switch to
* @return 0 on success, -1 on failure
*/
int bufferSwitch(int buffer_id);
struct buffer_t *bufferFindById(int buffer_id);
/**
* @brief Closes a buffer by ID
* @param buffer_id The buffer ID to close
* @return 0 on success, -1 on failure
*/
int bufferClose(int buffer_id);
/**
* @brief Gets the current active buffer
* @return Pointer to current buffer_t, NULL if none
*/
struct buffer_t *bufferGetCurrent(void);
/**
* @brief Lists all open buffers
* @return Number of open buffers
*/
int bufferListAll(void);
/**
* @brief Saves current buffer to disk
* @return 0 on success, -1 on failure
*/
int bufferSave(void);
/**
* @brief Saves all buffers to disk
* @return 0 on success, -1 on failure
*/
int bufferSaveAll(void);
void bufferFind(struct buffer_t *buf);
void bufferFindReverse(struct buffer_t* buf);
void bufferInsertNewLine();
void bufferInsertBytes(const char *src, int n);
void bufferDelBytes();
void bufferRowInsertBytes(struct buffer_t *buffer, row_t *row, int at, const char *src, int n);
void bufferRowDelByte(struct buffer_t *buffer, row_t *row, int at, int n);
void bufferInsertRow(struct buffer_t *buffer, int at, char *s, size_t len);
void bufferFreeRow(row_t *row);
#endif
include/builtins.h
+62 -60
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@@ -1,60 +1,62 @@
#ifndef BUILTINS_H_
#define BUILTINS_H_
#include "lisp.h"
// Mouvement
Lisp moveCursor(Lisp args, LispError *e, LispContext ctx);
Lisp moveCursorBeginLine(Lisp args, LispError *e, LispContext ctx);
Lisp moveCursorEndLine(Lisp args, LispError *e, LispContext ctx);
Lisp editorMoveCursorPageUp(Lisp args, LispError* e, LispContext ctx);
Lisp editorMoveCursorPageDown(Lisp args, LispError *e, LispContext ctx);
// Text editing
Lisp l_editorInsertNewLine(Lisp args, LispError* e, LispContext ctx);
Lisp l_editorInserTab(Lisp args, LispError *e, LispContext ctx);
Lisp deletePreviousChar(Lisp args, LispError *e, LispContext ctx);
Lisp editorPrintC(Lisp args, LispError *e, LispContext ctx);
Lisp editorDelRow_L(Lisp args, LispError *e, LispContext ctx);
Lisp editorReadChar_L(Lisp args, LispError *e, LispContext ctx);
// Editor
Lisp editorQuit(Lisp args, LispError *e, LispContext ctx);
Lisp l_editorSave(Lisp args, LispError *e, LispContext ctx);
Lisp editorSetPrefix(Lisp args, LispError *e, LispContext ctx);
Lisp editorPrefix(Lisp args, LispError *e, LispContext ctx);
Lisp mapKey(Lisp args, LispError *e, LispContext ctx);
void registerBuiltin(char * key_sequence, LispCFunc f);
Lisp editorOpenFile(Lisp args, LispError *e, LispContext ctx);
Lisp addPackage(Lisp args, LispError *e, LispContext ctx);
// Buffer
Lisp editorSwitchNextBuffer(Lisp args, LispError *e, LispContext ctx);
Lisp bufferFind_L(Lisp args, LispError *e, LispContext ctx);
// Pane
Lisp l_editorSplitScreenVertical(Lisp args, LispError *e, LispContext ctx);
Lisp editorSwitchNextPane(Lisp args, LispError *e, LispContext ctx);
Lisp editorUnifiedPanes(Lisp args, LispError *e, LispContext ctx);
// Other
void free_structs(void);
// Terminal
Lisp editorCreateTerminal(Lisp args, LispError *e, LispContext ctx);
#endif
#ifndef BUILTINS_H_
#define BUILTINS_H_
#include "lisp.h"
// Mouvement
Lisp moveCursor(Lisp args, LispError *e, LispContext ctx);
Lisp moveCursorBeginLine(Lisp args, LispError *e, LispContext ctx);
Lisp moveCursorEndLine(Lisp args, LispError *e, LispContext ctx);
Lisp editorMoveCursorPageUp(Lisp args, LispError* e, LispContext ctx);
Lisp editorMoveCursorPageDown(Lisp args, LispError *e, LispContext ctx);
// Text editing
Lisp l_editorInsertNewLine(Lisp args, LispError* e, LispContext ctx);
Lisp l_editorInserTab(Lisp args, LispError *e, LispContext ctx);
Lisp deletePreviousChar(Lisp args, LispError *e, LispContext ctx);
Lisp editorPrintC(Lisp args, LispError *e, LispContext ctx);
Lisp editorReadChar_L(Lisp args, LispError *e, LispContext ctx);
// Editor
Lisp editorQuit(Lisp args, LispError *e, LispContext ctx);
Lisp l_editorSave(Lisp args, LispError *e, LispContext ctx);
Lisp editorSetPrefix(Lisp args, LispError *e, LispContext ctx);
Lisp editorPrefix(Lisp args, LispError *e, LispContext ctx);
Lisp mapKey(Lisp args, LispError *e, LispContext ctx);
void registerBuiltin(char * key_sequence, LispCFunc f);
Lisp editorOpenFile(Lisp args, LispError *e, LispContext ctx);
Lisp addPackage(Lisp args, LispError *e, LispContext ctx);
// Buffer
Lisp editorSwitchNextBuffer(Lisp args, LispError *e, LispContext ctx);
Lisp bufferFind_L(Lisp args, LispError *e, LispContext ctx);
Lisp bufferFindReverse_L(Lisp args, LispError *e, LispContext ctx);
// Pane
Lisp l_editorSplitScreenVertical(Lisp args, LispError *e, LispContext ctx);
Lisp editorSwitchNextPane(Lisp args, LispError *e, LispContext ctx);
Lisp editorUnifiedPanes(Lisp args, LispError *e, LispContext ctx);
Lisp editorPaste(Lisp args, LispError *e, LispContext ctx);
Lisp editorCutEndLine(Lisp args, LispError *e, LispContext ctx);
Lisp editorMoveBegBuffer(Lisp args, LispError *e, LispContext ctx);
Lisp editorMoveEndBuffer(Lisp args, LispError *e, LispContext ctx);
// Other
Lisp editorAutoComplete(Lisp args, LispError *e, LispContext ctx);
// Lisp lspComplete(Lisp args, LispError *e, LispContext ctx);
Lisp lspDefinition(Lisp args, LispError *e, LispContext ctx);
void free_structs(void);
#endif
include/cJSON.h
+306
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@@ -0,0 +1,306 @@
/*
Copyright (c) 2009-2017 Dave Gamble and cJSON contributors
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
THE SOFTWARE.
*/
#ifndef cJSON__h
#define cJSON__h
#ifdef __cplusplus
extern "C"
{
#endif
#if !defined(__WINDOWS__) && (defined(WIN32) || defined(WIN64) || defined(_MSC_VER) || defined(_WIN32))
#define __WINDOWS__
#endif
#ifdef __WINDOWS__
/* When compiling for windows, we specify a specific calling convention to avoid issues where we are being called from a project with a different default calling convention. For windows you have 3 define options:
CJSON_HIDE_SYMBOLS - Define this in the case where you don't want to ever dllexport symbols
CJSON_EXPORT_SYMBOLS - Define this on library build when you want to dllexport symbols (default)
CJSON_IMPORT_SYMBOLS - Define this if you want to dllimport symbol
For *nix builds that support visibility attribute, you can define similar behavior by
setting default visibility to hidden by adding
-fvisibility=hidden (for gcc)
or
-xldscope=hidden (for sun cc)
to CFLAGS
then using the CJSON_API_VISIBILITY flag to "export" the same symbols the way CJSON_EXPORT_SYMBOLS does
*/
#define CJSON_CDECL __cdecl
#define CJSON_STDCALL __stdcall
/* export symbols by default, this is necessary for copy pasting the C and header file */
#if !defined(CJSON_HIDE_SYMBOLS) && !defined(CJSON_IMPORT_SYMBOLS) && !defined(CJSON_EXPORT_SYMBOLS)
#define CJSON_EXPORT_SYMBOLS
#endif
#if defined(CJSON_HIDE_SYMBOLS)
#define CJSON_PUBLIC(type) type CJSON_STDCALL
#elif defined(CJSON_EXPORT_SYMBOLS)
#define CJSON_PUBLIC(type) __declspec(dllexport) type CJSON_STDCALL
#elif defined(CJSON_IMPORT_SYMBOLS)
#define CJSON_PUBLIC(type) __declspec(dllimport) type CJSON_STDCALL
#endif
#else /* !__WINDOWS__ */
#define CJSON_CDECL
#define CJSON_STDCALL
#if (defined(__GNUC__) || defined(__SUNPRO_CC) || defined (__SUNPRO_C)) && defined(CJSON_API_VISIBILITY)
#define CJSON_PUBLIC(type) __attribute__((visibility("default"))) type
#else
#define CJSON_PUBLIC(type) type
#endif
#endif
/* project version */
#define CJSON_VERSION_MAJOR 1
#define CJSON_VERSION_MINOR 7
#define CJSON_VERSION_PATCH 19
#include <stddef.h>
/* cJSON Types: */
#define cJSON_Invalid (0)
#define cJSON_False (1 << 0)
#define cJSON_True (1 << 1)
#define cJSON_NULL (1 << 2)
#define cJSON_Number (1 << 3)
#define cJSON_String (1 << 4)
#define cJSON_Array (1 << 5)
#define cJSON_Object (1 << 6)
#define cJSON_Raw (1 << 7) /* raw json */
#define cJSON_IsReference 256
#define cJSON_StringIsConst 512
/* The cJSON structure: */
typedef struct cJSON
{
/* next/prev allow you to walk array/object chains. Alternatively, use GetArraySize/GetArrayItem/GetObjectItem */
struct cJSON *next;
struct cJSON *prev;
/* An array or object item will have a child pointer pointing to a chain of the items in the array/object. */
struct cJSON *child;
/* The type of the item, as above. */
int type;
/* The item's string, if type==cJSON_String and type == cJSON_Raw */
char *valuestring;
/* writing to valueint is DEPRECATED, use cJSON_SetNumberValue instead */
int valueint;
/* The item's number, if type==cJSON_Number */
double valuedouble;
/* The item's name string, if this item is the child of, or is in the list of subitems of an object. */
char *string;
} cJSON;
typedef struct cJSON_Hooks
{
/* malloc/free are CDECL on Windows regardless of the default calling convention of the compiler, so ensure the hooks allow passing those functions directly. */
void *(CJSON_CDECL *malloc_fn)(size_t sz);
void (CJSON_CDECL *free_fn)(void *ptr);
} cJSON_Hooks;
typedef int cJSON_bool;
/* Limits how deeply nested arrays/objects can be before cJSON rejects to parse them.
* This is to prevent stack overflows. */
#ifndef CJSON_NESTING_LIMIT
#define CJSON_NESTING_LIMIT 1000
#endif
/* Limits the length of circular references can be before cJSON rejects to parse them.
* This is to prevent stack overflows. */
#ifndef CJSON_CIRCULAR_LIMIT
#define CJSON_CIRCULAR_LIMIT 10000
#endif
/* returns the version of cJSON as a string */
CJSON_PUBLIC(const char*) cJSON_Version(void);
/* Supply malloc, realloc and free functions to cJSON */
CJSON_PUBLIC(void) cJSON_InitHooks(cJSON_Hooks* hooks);
/* Memory Management: the caller is always responsible to free the results from all variants of cJSON_Parse (with cJSON_Delete) and cJSON_Print (with stdlib free, cJSON_Hooks.free_fn, or cJSON_free as appropriate). The exception is cJSON_PrintPreallocated, where the caller has full responsibility of the buffer. */
/* Supply a block of JSON, and this returns a cJSON object you can interrogate. */
CJSON_PUBLIC(cJSON *) cJSON_Parse(const char *value);
CJSON_PUBLIC(cJSON *) cJSON_ParseWithLength(const char *value, size_t buffer_length);
/* ParseWithOpts allows you to require (and check) that the JSON is null terminated, and to retrieve the pointer to the final byte parsed. */
/* If you supply a ptr in return_parse_end and parsing fails, then return_parse_end will contain a pointer to the error so will match cJSON_GetErrorPtr(). */
CJSON_PUBLIC(cJSON *) cJSON_ParseWithOpts(const char *value, const char **return_parse_end, cJSON_bool require_null_terminated);
CJSON_PUBLIC(cJSON *) cJSON_ParseWithLengthOpts(const char *value, size_t buffer_length, const char **return_parse_end, cJSON_bool require_null_terminated);
/* Render a cJSON entity to text for transfer/storage. */
CJSON_PUBLIC(char *) cJSON_Print(const cJSON *item);
/* Render a cJSON entity to text for transfer/storage without any formatting. */
CJSON_PUBLIC(char *) cJSON_PrintUnformatted(const cJSON *item);
/* Render a cJSON entity to text using a buffered strategy. prebuffer is a guess at the final size. guessing well reduces reallocation. fmt=0 gives unformatted, =1 gives formatted */
CJSON_PUBLIC(char *) cJSON_PrintBuffered(const cJSON *item, int prebuffer, cJSON_bool fmt);
/* Render a cJSON entity to text using a buffer already allocated in memory with given length. Returns 1 on success and 0 on failure. */
/* NOTE: cJSON is not always 100% accurate in estimating how much memory it will use, so to be safe allocate 5 bytes more than you actually need */
CJSON_PUBLIC(cJSON_bool) cJSON_PrintPreallocated(cJSON *item, char *buffer, const int length, const cJSON_bool format);
/* Delete a cJSON entity and all subentities. */
CJSON_PUBLIC(void) cJSON_Delete(cJSON *item);
/* Returns the number of items in an array (or object). */
CJSON_PUBLIC(int) cJSON_GetArraySize(const cJSON *array);
/* Retrieve item number "index" from array "array". Returns NULL if unsuccessful. */
CJSON_PUBLIC(cJSON *) cJSON_GetArrayItem(const cJSON *array, int index);
/* Get item "string" from object. Case insensitive. */
CJSON_PUBLIC(cJSON *) cJSON_GetObjectItem(const cJSON * const object, const char * const string);
CJSON_PUBLIC(cJSON *) cJSON_GetObjectItemCaseSensitive(const cJSON * const object, const char * const string);
CJSON_PUBLIC(cJSON_bool) cJSON_HasObjectItem(const cJSON *object, const char *string);
/* For analysing failed parses. This returns a pointer to the parse error. You'll probably need to look a few chars back to make sense of it. Defined when cJSON_Parse() returns 0. 0 when cJSON_Parse() succeeds. */
CJSON_PUBLIC(const char *) cJSON_GetErrorPtr(void);
/* Check item type and return its value */
CJSON_PUBLIC(char *) cJSON_GetStringValue(const cJSON * const item);
CJSON_PUBLIC(double) cJSON_GetNumberValue(const cJSON * const item);
/* These functions check the type of an item */
CJSON_PUBLIC(cJSON_bool) cJSON_IsInvalid(const cJSON * const item);
CJSON_PUBLIC(cJSON_bool) cJSON_IsFalse(const cJSON * const item);
CJSON_PUBLIC(cJSON_bool) cJSON_IsTrue(const cJSON * const item);
CJSON_PUBLIC(cJSON_bool) cJSON_IsBool(const cJSON * const item);
CJSON_PUBLIC(cJSON_bool) cJSON_IsNull(const cJSON * const item);
CJSON_PUBLIC(cJSON_bool) cJSON_IsNumber(const cJSON * const item);
CJSON_PUBLIC(cJSON_bool) cJSON_IsString(const cJSON * const item);
CJSON_PUBLIC(cJSON_bool) cJSON_IsArray(const cJSON * const item);
CJSON_PUBLIC(cJSON_bool) cJSON_IsObject(const cJSON * const item);
CJSON_PUBLIC(cJSON_bool) cJSON_IsRaw(const cJSON * const item);
/* These calls create a cJSON item of the appropriate type. */
CJSON_PUBLIC(cJSON *) cJSON_CreateNull(void);
CJSON_PUBLIC(cJSON *) cJSON_CreateTrue(void);
CJSON_PUBLIC(cJSON *) cJSON_CreateFalse(void);
CJSON_PUBLIC(cJSON *) cJSON_CreateBool(cJSON_bool boolean);
CJSON_PUBLIC(cJSON *) cJSON_CreateNumber(double num);
CJSON_PUBLIC(cJSON *) cJSON_CreateString(const char *string);
/* raw json */
CJSON_PUBLIC(cJSON *) cJSON_CreateRaw(const char *raw);
CJSON_PUBLIC(cJSON *) cJSON_CreateArray(void);
CJSON_PUBLIC(cJSON *) cJSON_CreateObject(void);
/* Create a string where valuestring references a string so
* it will not be freed by cJSON_Delete */
CJSON_PUBLIC(cJSON *) cJSON_CreateStringReference(const char *string);
/* Create an object/array that only references it's elements so
* they will not be freed by cJSON_Delete */
CJSON_PUBLIC(cJSON *) cJSON_CreateObjectReference(const cJSON *child);
CJSON_PUBLIC(cJSON *) cJSON_CreateArrayReference(const cJSON *child);
/* These utilities create an Array of count items.
* The parameter count cannot be greater than the number of elements in the number array, otherwise array access will be out of bounds.*/
CJSON_PUBLIC(cJSON *) cJSON_CreateIntArray(const int *numbers, int count);
CJSON_PUBLIC(cJSON *) cJSON_CreateFloatArray(const float *numbers, int count);
CJSON_PUBLIC(cJSON *) cJSON_CreateDoubleArray(const double *numbers, int count);
CJSON_PUBLIC(cJSON *) cJSON_CreateStringArray(const char *const *strings, int count);
/* Append item to the specified array/object. */
CJSON_PUBLIC(cJSON_bool) cJSON_AddItemToArray(cJSON *array, cJSON *item);
CJSON_PUBLIC(cJSON_bool) cJSON_AddItemToObject(cJSON *object, const char *string, cJSON *item);
/* Use this when string is definitely const (i.e. a literal, or as good as), and will definitely survive the cJSON object.
* WARNING: When this function was used, make sure to always check that (item->type & cJSON_StringIsConst) is zero before
* writing to `item->string` */
CJSON_PUBLIC(cJSON_bool) cJSON_AddItemToObjectCS(cJSON *object, const char *string, cJSON *item);
/* Append reference to item to the specified array/object. Use this when you want to add an existing cJSON to a new cJSON, but don't want to corrupt your existing cJSON. */
CJSON_PUBLIC(cJSON_bool) cJSON_AddItemReferenceToArray(cJSON *array, cJSON *item);
CJSON_PUBLIC(cJSON_bool) cJSON_AddItemReferenceToObject(cJSON *object, const char *string, cJSON *item);
/* Remove/Detach items from Arrays/Objects. */
CJSON_PUBLIC(cJSON *) cJSON_DetachItemViaPointer(cJSON *parent, cJSON * const item);
CJSON_PUBLIC(cJSON *) cJSON_DetachItemFromArray(cJSON *array, int which);
CJSON_PUBLIC(void) cJSON_DeleteItemFromArray(cJSON *array, int which);
CJSON_PUBLIC(cJSON *) cJSON_DetachItemFromObject(cJSON *object, const char *string);
CJSON_PUBLIC(cJSON *) cJSON_DetachItemFromObjectCaseSensitive(cJSON *object, const char *string);
CJSON_PUBLIC(void) cJSON_DeleteItemFromObject(cJSON *object, const char *string);
CJSON_PUBLIC(void) cJSON_DeleteItemFromObjectCaseSensitive(cJSON *object, const char *string);
/* Update array items. */
CJSON_PUBLIC(cJSON_bool) cJSON_InsertItemInArray(cJSON *array, int which, cJSON *newitem); /* Shifts pre-existing items to the right. */
CJSON_PUBLIC(cJSON_bool) cJSON_ReplaceItemViaPointer(cJSON * const parent, cJSON * const item, cJSON * replacement);
CJSON_PUBLIC(cJSON_bool) cJSON_ReplaceItemInArray(cJSON *array, int which, cJSON *newitem);
CJSON_PUBLIC(cJSON_bool) cJSON_ReplaceItemInObject(cJSON *object,const char *string,cJSON *newitem);
CJSON_PUBLIC(cJSON_bool) cJSON_ReplaceItemInObjectCaseSensitive(cJSON *object,const char *string,cJSON *newitem);
/* Duplicate a cJSON item */
CJSON_PUBLIC(cJSON *) cJSON_Duplicate(const cJSON *item, cJSON_bool recurse);
/* Duplicate will create a new, identical cJSON item to the one you pass, in new memory that will
* need to be released. With recurse!=0, it will duplicate any children connected to the item.
* The item->next and ->prev pointers are always zero on return from Duplicate. */
/* Recursively compare two cJSON items for equality. If either a or b is NULL or invalid, they will be considered unequal.
* case_sensitive determines if object keys are treated case sensitive (1) or case insensitive (0) */
CJSON_PUBLIC(cJSON_bool) cJSON_Compare(const cJSON * const a, const cJSON * const b, const cJSON_bool case_sensitive);
/* Minify a strings, remove blank characters(such as ' ', '\t', '\r', '\n') from strings.
* The input pointer json cannot point to a read-only address area, such as a string constant,
* but should point to a readable and writable address area. */
CJSON_PUBLIC(void) cJSON_Minify(char *json);
/* Helper functions for creating and adding items to an object at the same time.
* They return the added item or NULL on failure. */
CJSON_PUBLIC(cJSON*) cJSON_AddNullToObject(cJSON * const object, const char * const name);
CJSON_PUBLIC(cJSON*) cJSON_AddTrueToObject(cJSON * const object, const char * const name);
CJSON_PUBLIC(cJSON*) cJSON_AddFalseToObject(cJSON * const object, const char * const name);
CJSON_PUBLIC(cJSON*) cJSON_AddBoolToObject(cJSON * const object, const char * const name, const cJSON_bool boolean);
CJSON_PUBLIC(cJSON*) cJSON_AddNumberToObject(cJSON * const object, const char * const name, const double number);
CJSON_PUBLIC(cJSON*) cJSON_AddStringToObject(cJSON * const object, const char * const name, const char * const string);
CJSON_PUBLIC(cJSON*) cJSON_AddRawToObject(cJSON * const object, const char * const name, const char * const raw);
CJSON_PUBLIC(cJSON*) cJSON_AddObjectToObject(cJSON * const object, const char * const name);
CJSON_PUBLIC(cJSON*) cJSON_AddArrayToObject(cJSON * const object, const char * const name);
/* When assigning an integer value, it needs to be propagated to valuedouble too. */
#define cJSON_SetIntValue(object, number) ((object) ? (object)->valueint = (object)->valuedouble = (number) : (number))
/* helper for the cJSON_SetNumberValue macro */
CJSON_PUBLIC(double) cJSON_SetNumberHelper(cJSON *object, double number);
#define cJSON_SetNumberValue(object, number) ((object != NULL) ? cJSON_SetNumberHelper(object, (double)number) : (number))
/* Change the valuestring of a cJSON_String object, only takes effect when type of object is cJSON_String */
CJSON_PUBLIC(char*) cJSON_SetValuestring(cJSON *object, const char *valuestring);
/* If the object is not a boolean type this does nothing and returns cJSON_Invalid else it returns the new type*/
#define cJSON_SetBoolValue(object, boolValue) ( \
(object != NULL && ((object)->type & (cJSON_False|cJSON_True))) ? \
(object)->type=((object)->type &(~(cJSON_False|cJSON_True)))|((boolValue)?cJSON_True:cJSON_False) : \
cJSON_Invalid\
)
/* Macro for iterating over an array or object */
#define cJSON_ArrayForEach(element, array) for(element = (array != NULL) ? (array)->child : NULL; element != NULL; element = element->next)
/* malloc/free objects using the malloc/free functions that have been set with cJSON_InitHooks */
CJSON_PUBLIC(void *) cJSON_malloc(size_t size);
CJSON_PUBLIC(void) cJSON_free(void *object);
#ifdef __cplusplus
}
#endif
#endif
include/color.h
+123 -123
View File
@@ -1,123 +1,123 @@
#ifndef COLOR_H_
#define COLOR_H_
// ============================================================================
// TEXT STYLES / ATTRIBUTES
// ============================================================================
#define ANSI_RESET "\x1b[0m" // Reset all attributes
#define ANSI_BOLD "\x1b[1m" // Bold text
#define ANSI_DIM "\x1b[2m" // Dim/faint text
#define ANSI_ITALIC "\x1b[3m" // Italic text
#define ANSI_UNDERLINE "\x1b[4m" // Underline text
#define ANSI_BLINK "\x1b[5m" // Blinking text
#define ANSI_REVERSE "\x1b[7m" // Reverse video (invert colors)
#define ANSI_HIDDEN "\x1b[8m" // Hidden/invisible text
#define ANSI_STRIKETHROUGH "\x1b[9m" // Strikethrough text
// ============================================================================
// FOREGROUND COLORS (30-37 standard, 90-97 bright)
// ============================================================================
#define ANSI_BLACK "\x1b[30m"
#define ANSI_RED "\x1b[31m"
#define ANSI_GREEN "\x1b[32m"
#define ANSI_YELLOW "\x1b[33m"
#define ANSI_BLUE "\x1b[34m"
#define ANSI_MAGENTA "\x1b[35m"
#define ANSI_CYAN "\x1b[36m"
#define ANSI_WHITE "\x1b[37m"
// Bright/Light foreground colors (90-97)
#define ANSI_BRIGHT_BLACK "\x1b[90m"
#define ANSI_BRIGHT_RED "\x1b[91m"
#define ANSI_BRIGHT_GREEN "\x1b[92m"
#define ANSI_BRIGHT_YELLOW "\x1b[93m"
#define ANSI_BRIGHT_BLUE "\x1b[94m"
#define ANSI_BRIGHT_MAGENTA "\x1b[95m"
#define ANSI_BRIGHT_CYAN "\x1b[96m"
#define ANSI_BRIGHT_WHITE "\x1b[97m"
// ============================================================================
// BACKGROUND COLORS (40-47 standard, 100-107 bright)
// ============================================================================
#define ANSI_BG_BLACK "\x1b[40m"
#define ANSI_BG_RED "\x1b[41m"
#define ANSI_BG_GREEN "\x1b[42m"
#define ANSI_BG_YELLOW "\x1b[43m"
#define ANSI_BG_BLUE "\x1b[44m"
#define ANSI_BG_MAGENTA "\x1b[45m"
#define ANSI_BG_CYAN "\x1b[46m"
#define ANSI_BG_WHITE "\x1b[47m"
// Bright/Light background colors (100-107)
#define ANSI_BG_BRIGHT_BLACK "\x1b[100m"
#define ANSI_BG_BRIGHT_RED "\x1b[101m"
#define ANSI_BG_BRIGHT_GREEN "\x1b[102m"
#define ANSI_BG_BRIGHT_YELLOW "\x1b[103m"
#define ANSI_BG_BRIGHT_BLUE "\x1b[104m"
#define ANSI_BG_BRIGHT_MAGENTA "\x1b[105m"
#define ANSI_BG_BRIGHT_CYAN "\x1b[106m"
#define ANSI_BG_BRIGHT_WHITE "\x1b[107m"
// ============================================================================
// 256-COLOR MODE (for more colors)
// ============================================================================
// Foreground: \x1b[38;5;Nm where N is 0-255
// Background: \x1b[48;5;Nm where N is 0-255
// Example macros:
#define ANSI_FG_256(N) "\x1b[38;5;" #N "m"
#define ANSI_BG_256(N) "\x1b[48;5;" #N "m"
// ============================================================================
// TRUE COLOR / 24-BIT COLOR (RGB)
// ============================================================================
// Foreground: \x1b[38;2;R;G;Bm
// Background: \x1b[48;2;R;G;Bm
// Example macros:
#define ANSI_FG_RGB(R,G,B) "\x1b[38;2;" #R ";" #G ";" #B "m"
#define ANSI_BG_RGB(R,G,B) "\x1b[48;2;" #R ";" #G ";" #B "m"
// ============================================================================
// CURSOR MOVEMENT
// ============================================================================
#define ANSI_CURSOR_UP(N) "\x1b[" #N "A" // Move up N lines
#define ANSI_CURSOR_DOWN(N) "\x1b[" #N "B" // Move down N lines
#define ANSI_CURSOR_RIGHT(N) "\x1b[" #N "C" // Move right N columns
#define ANSI_CURSOR_LEFT(N) "\x1b[" #N "D" // Move left N columns
#define ANSI_CURSOR_HOME "\x1b[H" // Move to home (0,0)
#define ANSI_CURSOR_HIDE "\x1b[?25l" // Hide cursor
#define ANSI_CURSOR_SHOW "\x1b[?25h" // Show cursor
// ============================================================================
// SCREEN CONTROL
// ============================================================================
#define ANSI_CLEAR_SCREEN "\x1b[2J" // Clear entire screen
#define ANSI_CLEAR_LINE "\x1b[K" // Clear from cursor to end of line
#define ANSI_CLEAR_UP "\x1b[1J" // Clear from cursor to start
#define ANSI_CLEAR_DOWN "\x1b[0J" // Clear from cursor to end
// ============================================================================
// EXAMPLE USAGE
// ============================================================================
/*
#include <stdio.h>
int main(void) {
// Simple color example
printf("%sHello in Red%s\n", ANSI_RED, ANSI_RESET);
// Bold and colored
printf("%s%sBold Green%s\n", ANSI_BOLD, ANSI_GREEN, ANSI_RESET);
// Background color
printf("%s%sYellow on Blue%s\n", ANSI_YELLOW, ANSI_BG_BLUE, ANSI_RESET);
// Combine multiple styles
printf("%s%s%sUnderlined Bold Cyan%s\n",
ANSI_UNDERLINE, ANSI_BOLD, ANSI_CYAN, ANSI_RESET);
return 0;
}
*/
#endif
#ifndef COLOR_H_
#define COLOR_H_
// ============================================================================
// TEXT STYLES / ATTRIBUTES
// ============================================================================
#define ANSI_RESET "\x1b[0m" // Reset all attributes
#define ANSI_BOLD "\x1b[1m" // Bold text
#define ANSI_DIM "\x1b[2m" // Dim/faint text
#define ANSI_ITALIC "\x1b[3m" // Italic text
#define ANSI_UNDERLINE "\x1b[4m" // Underline text
#define ANSI_BLINK "\x1b[5m" // Blinking text
#define ANSI_REVERSE "\x1b[7m" // Reverse video (invert colors)
#define ANSI_HIDDEN "\x1b[8m" // Hidden/invisible text
#define ANSI_STRIKETHROUGH "\x1b[9m" // Strikethrough text
// ============================================================================
// FOREGROUND COLORS (30-37 standard, 90-97 bright)
// ============================================================================
#define ANSI_BLACK "\x1b[30m"
#define ANSI_RED "\x1b[31m"
#define ANSI_GREEN "\x1b[32m"
#define ANSI_YELLOW "\x1b[33m"
#define ANSI_BLUE "\x1b[34m"
#define ANSI_MAGENTA "\x1b[35m"
#define ANSI_CYAN "\x1b[36m"
#define ANSI_WHITE "\x1b[37m"
// Bright/Light foreground colors (90-97)
#define ANSI_BRIGHT_BLACK "\x1b[90m"
#define ANSI_BRIGHT_RED "\x1b[91m"
#define ANSI_BRIGHT_GREEN "\x1b[92m"
#define ANSI_BRIGHT_YELLOW "\x1b[93m"
#define ANSI_BRIGHT_BLUE "\x1b[94m"
#define ANSI_BRIGHT_MAGENTA "\x1b[95m"
#define ANSI_BRIGHT_CYAN "\x1b[96m"
#define ANSI_BRIGHT_WHITE "\x1b[97m"
// ============================================================================
// BACKGROUND COLORS (40-47 standard, 100-107 bright)
// ============================================================================
#define ANSI_BG_BLACK "\x1b[40m"
#define ANSI_BG_RED "\x1b[41m"
#define ANSI_BG_GREEN "\x1b[42m"
#define ANSI_BG_YELLOW "\x1b[43m"
#define ANSI_BG_BLUE "\x1b[44m"
#define ANSI_BG_MAGENTA "\x1b[45m"
#define ANSI_BG_CYAN "\x1b[46m"
#define ANSI_BG_WHITE "\x1b[47m"
// Bright/Light background colors (100-107)
#define ANSI_BG_BRIGHT_BLACK "\x1b[100m"
#define ANSI_BG_BRIGHT_RED "\x1b[101m"
#define ANSI_BG_BRIGHT_GREEN "\x1b[102m"
#define ANSI_BG_BRIGHT_YELLOW "\x1b[103m"
#define ANSI_BG_BRIGHT_BLUE "\x1b[104m"
#define ANSI_BG_BRIGHT_MAGENTA "\x1b[105m"
#define ANSI_BG_BRIGHT_CYAN "\x1b[106m"
#define ANSI_BG_BRIGHT_WHITE "\x1b[107m"
// ============================================================================
// 256-COLOR MODE (for more colors)
// ============================================================================
// Foreground: \x1b[38;5;Nm where N is 0-255
// Background: \x1b[48;5;Nm where N is 0-255
// Example macros:
#define ANSI_FG_256(N) "\x1b[38;5;" #N "m"
#define ANSI_BG_256(N) "\x1b[48;5;" #N "m"
// ============================================================================
// TRUE COLOR / 24-BIT COLOR (RGB)
// ============================================================================
// Foreground: \x1b[38;2;R;G;Bm
// Background: \x1b[48;2;R;G;Bm
// Example macros:
#define ANSI_FG_RGB(R,G,B) "\x1b[38;2;" #R ";" #G ";" #B "m"
#define ANSI_BG_RGB(R,G,B) "\x1b[48;2;" #R ";" #G ";" #B "m"
// ============================================================================
// CURSOR MOVEMENT
// ============================================================================
#define ANSI_CURSOR_UP(N) "\x1b[" #N "A" // Move up N lines
#define ANSI_CURSOR_DOWN(N) "\x1b[" #N "B" // Move down N lines
#define ANSI_CURSOR_RIGHT(N) "\x1b[" #N "C" // Move right N columns
#define ANSI_CURSOR_LEFT(N) "\x1b[" #N "D" // Move left N columns
#define ANSI_CURSOR_HOME "\x1b[H" // Move to home (0,0)
#define ANSI_CURSOR_HIDE "\x1b[?25l" // Hide cursor
#define ANSI_CURSOR_SHOW "\x1b[?25h" // Show cursor
// ============================================================================
// SCREEN CONTROL
// ============================================================================
#define ANSI_CLEAR_SCREEN "\x1b[2J" // Clear entire screen
#define ANSI_CLEAR_LINE "\x1b[K" // Clear from cursor to end of line
#define ANSI_CLEAR_UP "\x1b[1J" // Clear from cursor to start
#define ANSI_CLEAR_DOWN "\x1b[0J" // Clear from cursor to end
// ============================================================================
// EXAMPLE USAGE
// ============================================================================
/*
#include <stdio.h>
int main(void) {
// Simple color example
printf("%sHello in Red%s\n", ANSI_RED, ANSI_RESET);
// Bold and colored
printf("%s%sBold Green%s\n", ANSI_BOLD, ANSI_GREEN, ANSI_RESET);
// Background color
printf("%s%sYellow on Blue%s\n", ANSI_YELLOW, ANSI_BG_BLUE, ANSI_RESET);
// Combine multiple styles
printf("%s%s%sUnderlined Bold Cyan%s\n",
ANSI_UNDERLINE, ANSI_BOLD, ANSI_CYAN, ANSI_RESET);
return 0;
}
*/
#endif
include/completion.h
+26
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@@ -0,0 +1,26 @@
//
// Created by Giorgio on 25/05/2026.
//
#ifndef BELUGA_COMPLETION_H
#define BELUGA_COMPLETION_H
#include "data.h"
int lspStart(LspClient* lsp, const char* project_root);
void lspShutdown(LspClient* lsp);
// Document sync — call these from your buffer open/save/edit hooks
void lspDidOpen(LspClient* lsp, struct buffer_t* buf);
void lspDidChange(LspClient* lsp, struct buffer_t* buf);
void lspDidClose(LspClient* lsp, struct buffer_t* buf);
// Requests
void lspRequestCompletion(LspClient* lsp, struct buffer_t* buf,
int line, int col,
int screen_x, int screen_y);
void lspRequestHover(LspClient* lsp, struct buffer_t* buf, int line, int col);
void lspRequestDefinition(LspClient* lsp, struct buffer_t* buf, int line, int col);
#endif //BELUGA_COMPLETION_H
include/data.h
+270 -172
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@@ -1,172 +1,270 @@
#ifndef DATA_H_
#define DATA_H_
#include <stdio.h>
#include <time.h>
#ifdef _WIN32
#include "termiWin.h"
#else
#include <termios.h>
#endif
#include "lisp.h"
/**
* \struct erow
* \brief Store one editor row
* \param
* */
typedef struct frow {
int size; /**< Size of the line */
int rsize; /**< Size of the render line */
char *chars; /**< Characters of the line */
char *render; /**< The actual line we will print */
} frow;
/**
* @brief Split modes for screen layout
*/
typedef enum {
SPLIT_NONE = 0, // Single buffer fullscreen
SPLIT_VERTICAL, // Left-right split
SPLIT_HORIZONTAL // Top-bottom split
} SplitMode;
/**
* @brief Represents an editor viewport/pane
*/
typedef struct {
int buffer_id; // Which buffer this pane displays
int start_row; // Starting row on screen
int start_col; // Starting column on screen
int height; // Height of this pane
int width; // Width of this pane
int cursor_x; // Local cursor x in this pane
int cursor_y; // Local cursor y in this pane
int rx, ry;
int row_offset; // Scroll offset for rows
int col_offset; // Scroll offset for columns
int is_active; // Is this pane currently active
} EditorPane;
/**
* @brief Screen layout manager
*/
typedef struct {
SplitMode mode;
EditorPane *panes;
int num_panes;
int active_pane; // Index of active pane
} ScreenLayout;
typedef struct theme {
char *BACKGROUND_COLOR;
char *COLOR_KEYWORD;
char *COLOR_TYPE;
char *COLOR_STRING;
char *COLOR_COMMENT;
char *COLOR_NUMBER;
char *COLOR_DEFAULT;
} theme_t;
enum bufferStatus_e {
IDLE,
READ_ONLY,
READ_AND_WRITE,
};
struct const_t {
int TAB_LENGTH;
int QUIT_TIMES;
char *THEME;
};
struct prefix_t {
char prefix_name[64];
int prefix_id;
};
struct keyBind_t {
char *key_sequence;
int prefix_id;
Lisp command;
};
enum buffer_type { FILE_BUFF, TERMINAL_BUFF };
struct buffer_t {
enum buffer_type type;
int buffer_id;
int width, height;
int x, y; /**< Position in the buffer (cursor) */
frow *row;
int numrows;
char *filename;
enum bufferStatus_e state;
int dirty; /**< Has this buffer been modified since last save */
int row_offset; /**< Scroll offset for rows in this buffer */
int col_offset; /**< Scroll offset for columns in this buffer */
// Terminal-specific data
char *terminal_command; /**< Current command being executed */
int terminal_pid; /**< Process ID of running terminal command */
char *terminal_output; /**< Captured terminal output */
int terminal_output_size; /**< Size of terminal output */
};
/**
* \struct editorConfig
* \brief Containing our editor state.
*/
struct editorConfig {
int screenrows; /**< Terminal height*/
int screencols; /**< Terminal width*/
ScreenLayout layout;
int dirty;
int prefix_state;
char status_msg[80];
time_t status_msg_time;
struct termios orig_termios; /**< Terminal communication interface */
struct const_t constantes;
int quit_times_buffer;
char *init_file_path;
FILE *fd_init_file;
Lisp env;
LispContext ctx; /** Lisp context */
Lisp ctx_data; /** Lisp data context */
LispError ctx_error; /** Lisp ctx error */
struct keyBind_t *key_binds;
int number_of_keybinds;
struct prefix_t *prefix;
int number_of_prefix;
struct buffer_t buffers[64];
int number_of_buffer;
theme_t theme;
};
/**
* \struct abuf
* \brief Contains text to add before writing to screen.
* */
struct abuf {
char *b; /**< Text that will be printed */
int len; /**< Length of the text */
};
extern struct editorConfig E;
#endif
#ifndef DATA_H_
#define DATA_H_
#include <stdio.h>
#include <termios.h>
#include <time.h>
#include "define.h"
#include "lisp.h"
typedef struct lsp_client_t LspClient;
/**
* \struct row_t
* \brief Store one editor row
* \param
* */
typedef struct row
{
int size; /**< Size of the line */
int cap; /**< Size of the render line */
char* chars; /**< Characters of the line */
} row_t;
typedef struct context_buffer_t
{
int editor_x, editor_y;
int width, height;
row_t* rows;
} ContextBuffer;
/**
* @brief Split modes for screen layout
*/
typedef enum
{
SPLIT_NONE = 0, // Single buffer fullscreen
SPLIT_VERTICAL, // Left-right split
SPLIT_HORIZONTAL // Top-bottom split
} SplitMode;
/**
* @brief Represents an editor viewport/pane
*/
typedef struct
{
int buffer_id; // Which buffer this pane displays
int height; // Height of this pane
int width; // Width of this pane
int origin_x, origin_y;
int cursor_x; // Local cursor x in this pane
int cursor_y; // Local cursor y in this pane
int x_offset, y_offset;
int is_active; // Is this pane currently active
} EditorPane;
/**
* @brief Screen layout manager
*/
typedef struct
{
SplitMode mode;
EditorPane* panes;
int num_panes;
int active_pane; // Index of active pane
} ScreenLayout;
typedef struct theme
{
char* BACKGROUND_COLOR;
char* COLOR_KEYWORD;
char* COLOR_TYPE;
char* COLOR_STRING;
char* COLOR_COMMENT;
char* COLOR_NUMBER;
char* COLOR_DEFAULT;
} theme_t;
enum bufferStatus_e
{
IDLE,
READ_ONLY,
READ_AND_WRITE,
};
struct const_t
{
int TAB_LENGTH;
int QUIT_TIMES;
char* THEME;
int LSP;
};
struct prefix_t
{
char prefix_name[64];
int prefix_id;
};
struct keyBind_t
{
char* key_sequence;
int prefix_id;
Lisp command;
};
// In data.h — add these
#include <pthread.h>
#define LSP_MAX_PENDING 64
typedef enum
{
LSP_NOT_STARTED = 0,
LSP_INITIALIZING,
LSP_READY,
LSP_SHUTDOWN,
} LspState;
typedef struct
{
int id;
void (*callback)(struct lsp_client_t* lsp, const char* json);
} LspPending;
typedef struct lsp_client_t
{
// ── Process ───────────────────────────────────────────────────────────────
pid_t pid;
int write_fd;
int read_fd;
int completion_just_arrived;
int completion_requested;
int wake_pipe[2]; // [0] = read end (main loop), [1] = write end (reader thread)
// ── State ─────────────────────────────────────────────────────────────────
LspState state;
int next_id;
// ── Pending requests ──────────────────────────────────────────────────────
LspPending pending[LSP_MAX_PENDING];
int pending_count;
// ── Threading ─────────────────────────────────────────────────────────────
pthread_t reader_thread;
pthread_mutex_t lock;
pthread_cond_t ready_cond; // signaled when state → LSP_READY
// ── Completion context ────────────────────────────────────────────────────
int completion_cursor_x; // screen position when
int completion_cursor_y; // completion was requested
} LspClient;
typedef struct
{
char label[128]; // display text e.g. "printf"
char detail[64]; // type/sig hint e.g. "int (const char *, ...)"
int kind; // LSP CompletionItemKind (1=Text,2=Method,3=Function…)
} CompletionItem;
typedef struct
{
CompletionItem items[COMPLETION_MAX_ITEMS];
int count;
int selected; // currently highlighted row
int visible; // is the popup shown?
int origin_x; // screen col where popup appears
int origin_y; // screen row where popup appears
} CompletionPopup;
typedef enum { DIAG_ERROR = 1, DIAG_WARNING, DIAG_HINT } DiagSeverity;
typedef struct
{
int buffer_id;
int line; // 0-based
int col_start; // 0-based
int col_end;
DiagSeverity severity;
char message[256];
} Diagnostic;
typedef struct
{
Diagnostic entries[DIAG_MAX];
int count;
} DiagnosticList;
enum buffer_type { FILE_BUFF, TERMINAL_BUFF };
struct buffer_t
{
enum buffer_type type;
int buffer_id;
int b_lsp_open;
int x, y; /**< Position in the file */
row_t* row;
int numrows;
int b_has_changed;
char* filename;
char* path;
char * fullname;
enum bufferStatus_e state;
int dirty; /**< Has this buffer been modified since last save */
};
/**
* \struct editorConfig
* \brief Containing our editor state.
*/
struct editorConfig
{
int cursor_x, cursor_y; /**< Cursor position */
int screenrows; /**< Terminal height*/
int screencols; /**< Terminal width*/
ScreenLayout layout;
LspClient* lsp_client;
CompletionPopup lsp_completion;
DiagnosticList lsp_diagnostics;
int dirty;
char* status_msg;
time_t status_msg_time;
struct termios orig_termios; /**< Terminal communication interface */
struct const_t constantes;
int quit_times_buffer;
char* init_file_path;
FILE* fd_init_file;
Lisp env;
LispContext ctx; /** Lisp context */
Lisp ctx_data; /** Lisp data context */
LispError ctx_error; /** Lisp ctx error */
struct keyBind_t* key_binds;
int number_of_keybinds;
struct prefix_t* prefix;
int number_of_prefix;
int prefix_state;
struct buffer_t buffers[64];
int number_of_buffer;
theme_t theme;
};
/**
* \struct abuf
* \brief Contains text to add before writing to screen.
* */
struct abuf
{
char* b; /**< Text that will be printed */
int len; /**< Length of the text */
};
extern struct editorConfig E;
#endif
include/define.h
+52 -29
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@@ -1,29 +1,52 @@
#ifndef DEFINE_H_
#define DEFINE_H_
#define CTRL_KEY(k) ((k) & 0x1f)
#define ESCAPE '\x1b'
#define CURSOR_TOP_LEFT "\x1b[H"
#define HIDE_CURSOR "\x1b[?25l"
#define SHOW_CURSOR "\x1b[?25h"
#define ERASE_END_LINE "\x1b[K"
enum editorKey {
BACKSPACE = 127,
ARROW_LEFT = 1000,
ARROW_RIGHT,
ARROW_UP,
ARROW_DOWN,
DEL_KEY,
BEG_LINE,
END_LINE,
PAGE_UP,
PAGE_DOWN,
};
#define ABUF_INIT {NULL, 0}
#define BELUGA_VERSION "1.1"
#endif // DEFINE_H_
#ifndef DEFINE_H_
#define DEFINE_H_
#define CTRL_KEY(k) ((k) & 0x1f)
#define ALT(k) ((k) | 0x200) // set bit 9 to mark as Option combo
#define ESCAPE '\x1b'
#define CURSOR_TOP_LEFT "\x1b[H"
#define HIDE_CURSOR "\x1b[?25l"
#define SHOW_CURSOR "\x1b[?25h"
#define ERASE_END_LINE "\x1b[K"
#define TAB "\t"
#define SPACE "\x20"
/* Uncomment to see debug logs on stderr */
#define APP_DEBUG
#define COMPLETION_MAX_ITEMS 16
#define COMPLETION_MAX_WIDTH 40
#define COMPLETION_POPUP_H 8 // max visible rows
#define DIAG_MAX 128
#define GUTTER_WIDTH 2
enum editorKey_e {
BACKSPACE = 127,
ARROW_LEFT = 1000,
ARROW_RIGHT,
ARROW_UP,
ARROW_DOWN,
DEL_KEY,
BEG_LINE,
END_LINE,
PAGE_UP,
PAGE_DOWN,
LSP_WAKE_KEY = 2000
};
#define ABUF_INIT {NULL, 0}
#define BELUGA_VERSION "2.4"
#ifdef __APPLE__
#define CLIPBOARD_COPY_CMD "pbcopy"
#define CLIPBOARD_PASTE_CMD "pbpaste"
#else
#define CLIPBOARD_COPY_CMD "xclip -selection clipboard"
#define CLIPBOARD_PASTE_CMD "xclip -selection clipboard -o"
#endif
#endif // DEFINE_H_
include/editor_op.h
+13 -13
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@@ -1,13 +1,13 @@
#ifndef EDITOR_OP_H_
#define EDITOR_OP_H_
#include "data.h"
void bufferInsertChar(int c);
void bufferInsertNewLine();
void bufferDelChar();
void editorSetStatusMessage(const char *fmt, ...);
#endif // EDITOR_OP_H_
#ifndef EDITOR_OP_H_
#define EDITOR_OP_H_
#include "data.h"
void editorSetStatusMessage(const char *fmt, ...);
int editorRowCharCount(row_t *row, int x);
int editorRowCxToByte(const row_t *row, int cursor_x);
char *editorGetClipboard(void);
void editorSetClipboard(const char *text, int len);
#endif // EDITOR_OP_H_
include/file_io.h
+15 -22
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@@ -1,22 +1,15 @@
#ifndef FILE_IO_H_
#define FILE_IO_H_
#include "data.h"
#include "row_op.h"
#include "terminal.h"
#include <stdio.h>
#include <stdlib.h>
#include <sys/types.h>
char *bufferRowsToString(struct buffer_t *buf,int *buffer_len);
void editorCloseFile(void);
void editorOpen(struct buffer_t *buffer);
void editorSave();
void bufferFind(struct buffer_t *buf);
#endif // FILE_IO_H_
#ifndef FILE_IO_H_
#define FILE_IO_H_
#include "data.h"
#include <stdio.h>
#include <stdlib.h>
#include <sys/types.h>
void editorCloseFile(void);
void editorOpen(struct buffer_t *buffer);
void editorSave();
#endif // FILE_IO_H_
include/init.h
+17 -18
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@@ -1,18 +1,17 @@
#ifndef INIT_H_
#define INIT_H_
#include "builtins.h"
#include "data.h"
#include "terminal.h"
#include <stdio.h>
/**
* \fn void initEditor()
* \brief Job's function is to initialize all the fields of editorConfig.
* */
void initBuiltins();
void initEditor();
#endif // INIT_H_
#ifndef INIT_H_
#define INIT_H_
/**
* \fn void initEditor()
* \brief Job's function is to initialize all the fields of editorConfig.
* */
void initBuiltins();
void initEditor();
void deInitEditor();
#endif // INIT_H_
include/input.h
+38 -38
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@@ -1,38 +1,38 @@
#ifndef INPUT_H_
#define INPUT_H_
#include "data.h"
#include "define.h"
#include "output.h"
#include "terminal.h"
#include "builtins.h"
#include <unistd.h>
// KEYS keycode
//
// ARROW_UP \x1b[A
// ARROW_DOWN \x1b[B
// ARROW_RIGHT \x1b[C
// ARROW_LEFT \x1b[D
// PAGE_UP \x1b[5~
// PAGE_DOWN \x1b[6~
// HOME \x1b[1~ || <esc>[7~ || <esc>[H || <esc>OH
// END \x1b[4~ || <esc>[8~ || <esc>[F || <esc>OF
// DELETE \x1b[3~
char *editorPrompt(char *prompt, char * PlaceHolder, char bPathMode);
char *key_to_string(int key);
int editorMoveCursor(int key);
int executeKeyBind(char *key_sequence);
/**
* \fn void editorProcessKeypress()
* \brief Get the last key input and do the proper action.
*/
void editorProcessKeypress();
#endif // INPUT_H_
#ifndef INPUT_H_
#define INPUT_H_
#include "data.h"
#include "define.h"
#include "output.h"
#include "terminal.h"
#include "builtins.h"
#include <unistd.h>
// KEYS keycode
//
// ARROW_UP \x1b[A
// ARROW_DOWN \x1b[B
// ARROW_RIGHT \x1b[C
// ARROW_LEFT \x1b[D
// PAGE_UP \x1b[5~
// PAGE_DOWN \x1b[6~
// HOME \x1b[1~ || <esc>[7~ || <esc>[H || <esc>OH
// END \x1b[4~ || <esc>[8~ || <esc>[F || <esc>OF
// DELETE \x1b[3~
char *editorPrompt(char *prompt, char * PlaceHolder, char bPathMode);
const char *fileCompletion(const char *path);
int editorMoveCursor(int key);
int executeKeyBind(char *key_sequence);
/**
* \fn void editorProcessKeypress()
* \brief Get the last key input and do the proper action.
*/
void editorProcessKeypress();
#endif // INPUT_H_
include/lisp.h
+3218 -3220
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include/lisp_lib.h
+2177 -2177
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include/lsp_ui.h
+35
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@@ -0,0 +1,35 @@
//
// Created by Giorgio on 27/05/2026.
//
#ifndef BELUGA_LSP_UI_H
#define BELUGA_LSP_UI_H
#include "data.h"
#include "buffer.h" // for abuf
// ── Public API ────────────────────────────────────────────────────────────────
// Call from editorRefreshScreen() — appends popup/underlines to abuf
void lspUiDrawCompletion(struct abuf *ab, CompletionPopup *popup);
void lspUiDrawDiagnostics(struct abuf *ab, DiagnosticList *diags,
EditorPane *pane, struct buffer_t *buf);
// Input handling — returns 1 if the key was consumed by the popup
int lspUiHandleKey(CompletionPopup *popup, int key);
// Parse clangd JSON into our structs
void lspParseCompletion(const char *json, CompletionPopup *popup,
int screen_x, int screen_y);
void lspParseDiagnostics(const char *json, DiagnosticList *diags, int buffer_id);
void lspUiDrawGutter(struct abuf *ab, DiagnosticList *diags,
int buf_id, int line);
const char *lspUiDiagnosticAtCursor(DiagnosticList *diags,
int buffer_id, int cursor_line);
#endif
include/output.h
+20 -22
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@@ -1,22 +1,20 @@
#ifndef OUTPUT_H_
#define OUTPUT_H_
#include "data.h"
#include <unistd.h>
/**
* \fn void editorDrawRows(struct editorConfig *E, struct abuf *ab)
* \brief Draws left rows of the editor.
*/
void editorDrawRows(struct abuf *ab);
void editorRefreshScreen();
void editorScroll();
void editorDrawStatusBar(struct abuf *ab);
void editorDrawMessageBar(struct abuf *ab);
#endif // OUTPUT_H_
#ifndef OUTPUT_H_
#define OUTPUT_H_
#include "data.h"
#include <unistd.h>
/**
* \fn void editorDrawRows(struct editorConfig *E, struct abuf *ab)
* \brief Draws left rows of the editor.
*/
void editorRefreshScreen();
void editorScroll();
void editorDrawStatusBar(struct abuf *ab);
void editorDrawMessageBar(struct abuf *ab);
#endif // OUTPUT_H_
include/row_op.h
+15 -29
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@@ -1,29 +1,15 @@
#ifndef ROW_OP_H_
#define ROW_OP_H_
#include "data.h"
#include "define.h"
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include <unistd.h>
int bufferRowCxToRx(frow *row, int cursor_x);
int bufferRowRxToCx(frow *row, int rx);
void bufferUpdatfrow(frow *row);
void bufferInsertRow(struct buffer_t *buffer, int at, char *s, size_t len);
void bufferFrefrow(frow *row);
void bufferDelRow(struct buffer_t *buffer, int at);
void bufferRowInsertChar(struct buffer_t *buffer, frow *row, int at, int c);
void bufferRowAppendString(struct buffer_t *buffer, frow *row, char *s, size_t len);
void bufferRowDelchar(struct buffer_t *buffer, frow *row, int at);
#endif // ROW_OP_H_
#ifndef ROW_OP_H_
#define ROW_OP_H_
#include "data.h"
#include "define.h"
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include <unistd.h>
#endif // ROW_OP_H_
include/split_screen.h
+66 -62
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@@ -1,62 +1,66 @@
/**
* @file split_screen.h
* @brief Split screen management for displaying multiple buffers
*/
#ifndef SPLIT_SCREEN_H_
#define SPLIT_SCREEN_H_
#include "data.h"
/**
* @brief Initializes split screen system
*/
void splitScreenInit(void);
/**
* @brief Splits screen vertically (left-right)
* @param buffer_id_left Buffer ID for left pane
* @param buffer_id_right Buffer ID for right pane
* @return 0 on success, -1 on failure
*/
int splitScreenVertical(int buffer_id_left, int buffer_id_right);
/**
* @brief Splits screen horizontally (top-bottom)
* @param buffer_id_top Buffer ID for top pane
* @param buffer_id_bottom Buffer ID for bottom pane
* @return 0 on success, -1 on failure
*/
int splitScreenHorizontal(int buffer_id_top, int buffer_id_bottom);
/**
* @brief Returns to single buffer fullscreen
*/
void splitScreenUnify(void);
/**
* @brief Switches active pane (focus moves between splits)
* @return 0 on success, -1 on failure
*/
int splitScreenSwitchPane(void);
/**
* @brief Updates the active pane's buffer
* @param buffer_id New buffer ID for active pane
* @return 0 on success, -1 on failure
*/
int splitScreenSetPaneBuffer(int buffer_id);
/**
* @brief Gets current screen layout
* @return Pointer to current ScreenLayout
*/
ScreenLayout *splitScreenGetLayout(void);
/**
* @brief Gets active pane
* @return Pointer to active EditorPane
*/
EditorPane *splitScreenGetActivePane(void);
#endif
/**
* @file split_screen.h
* @brief Split screen management for displaying multiple buffers
*/
#ifndef SPLIT_SCREEN_H_
#define SPLIT_SCREEN_H_
#include "data.h"
/**
* @brief Initializes split screen system
*/
void splitScreenInit(void);
/**
* @brief Splits screen vertically (left-right)
* @param buffer_id_left Buffer ID for left pane
* @param buffer_id_right Buffer ID for right pane
* @return 0 on success, -1 on failure
*/
int splitScreenVertical(int buffer_id_left, int buffer_id_right);
/**
* @brief Splits screen horizontally (top-bottom)
* @param buffer_id_top Buffer ID for top pane
* @param buffer_id_bottom Buffer ID for bottom pane
* @return 0 on success, -1 on failure
*/
int splitScreenHorizontal(int buffer_id_top, int buffer_id_bottom);
/**
* @brief Returns to single buffer fullscreen
*/
void splitScreenUnify(void);
/**
* @brief Switches active pane (focus moves between splits)
* @return 0 on success, -1 on failure
*/
int splitScreenSwitchPane(void);
/**
* @brief Updates the active pane's buffer
* @param buffer_id New buffer ID for active pane
* @return 0 on success, -1 on failure
*/
int splitScreenSetPaneBuffer(int buffer_id);
/**
* @brief Gets current screen layout
* @return Pointer to current ScreenLayout
*/
ScreenLayout *splitScreenGetLayout(void);
/**
* @brief Gets active pane
* @return Pointer to active EditorPane
*/
EditorPane *splitScreenGetActivePane(void);
void freePane(EditorPane *pane);
void freeScreenLayout(ScreenLayout *layout);
#endif
include/syntax_highlighter.h
+21 -24
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@@ -1,24 +1,21 @@
#ifndef SYNTAX_HIGHLIGHTER_H_
#define SYNTAX_HIGHLIGHTER_H_
#include "color.h"
// Color codes that only affect foreground, preserving your background color
#define COLOR_RESET "\x1b[39m" // Reset all (4 bytes)
// Token types
typedef enum {
TOKEN_KEYWORD,
TOKEN_DATATYPE,
TOKEN_STRING,
TOKEN_COMMENT,
TOKEN_NUMBER,
TOKEN_OPERATOR,
TOKEN_DEFAULT
} SyntaxTokenType;
const char *get_color(SyntaxTokenType type);
char *highlight_line(const char * line, int *length);
#endif
#ifndef SYNTAX_HIGHLIGHTER_H_
#define SYNTAX_HIGHLIGHTER_H_
// Color codes that only affect foreground, preserving your background color
#define COLOR_RESET "\x1b[39m" // Reset all (4 bytes)
// Token types
typedef enum {
TOKEN_KEYWORD,
TOKEN_TYPE,
TOKEN_STRING,
TOKEN_COMMENT,
TOKEN_NUMBER,
TOKEN_OPERATOR,
TOKEN_DEFAULT
} TokenType;
char *highlight_line(const char * line, int *length);
#endif
include/termiWin.h
-217
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@@ -1,217 +0,0 @@
/* termiWin.h
*
* Copyright (C) 2017 Christian Visintin - christian.visintin1997@gmail.com
*
* This file is part of "termiWin: a termios porting for Windows"
*
* termiWin 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.
*
* termiWin 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 termiWin. If not, see <http://www.gnu.org/licenses/>.
*
*/
#pragma once
#ifndef TERMIWIN_H_
#define TERMIWIN_H_
#define TERMIWIN_VERSION "1.2.0"
#define TERMIWIN_MAJOR_VERSION 1
#define TERMIWIN_MINOR_VERSION 2
#ifdef _WIN32
#define WIN32_LEAN_AND_MEAN
#include <windows.h>
#include <winsock2.h>
#ifdef _MSC_VER
#pragma comment(lib, "Ws2_32.lib")
#endif
/*Redefining functions from winsock to termiWin. This is very important since winsock2 defines functions such as close as closesocket we have to redefine it*/
#ifdef __MINGW32__
#define TERMIWIN_DONOTREDEFINE
#endif
#ifndef TERMIWIN_DONOTREDEFINE
#define read read_serial
#define write serial_write
#define open open_serial
#define close close_serial
#define select select_serial
#endif
#if !defined(SSIZE_MAX)
// ssize_t
#if SIZE_MAX == UINT_MAX
typedef int ssize_t; /* common 32 bit case */
#define SSIZE_MAX INT_MAX
#elif SIZE_MAX == ULONG_MAX
typedef long ssize_t; /* linux 64 bits */
#define SSIZE_MAX LONG_MAX
#elif SIZE_MAX == ULLONG_MAX
typedef long long ssize_t; /* windows 64 bits */
#define SSIZE_MAX LLONG_MAX
#endif
#endif
//Serial options - Linux -> Windows
/*setAttr flags - ~ in front of flags -> deny them*/
//iFlag
#define INPCK 0x00004000 /*If this bit is set, input parity checking is enabled. If it is not set, no checking at all is done for parity errors on input; the characters are simply passed through to the application.*/
#define IGNPAR 0x00001000 /*If this bit is set, any byte with a framing or parity error is ignored. This is only useful if INPCK is also set.*/
#define PARMRK 0x00040000 /*If this bit is set, input bytes with parity or framing errors are marked when passed to the program. This bit is meaningful only when INPCK is set and IGNPAR is not set.*/
#define ISTRIP 0x00008000 /*If this bit is set, valid input bytes are stripped to seven bits; otherwise, all eight bits are available for programs to read. */
#define IGNBRK 0x00000400 /*If this bit is set, break conditions are ignored. */
#define BRKINT 0x00000100 /*If this bit is set and IGNBRK is not set, a break condition clears the terminal input and output queues and raises a SIGINT signal for the foreground process group associated with the terminal. */
#define IGNCR 0x00000800 /*If this bit is set, carriage return characters ('\r') are discarded on input. Discarding carriage return may be useful on terminals that send both carriage return and linefeed when you type the RET key. */
#define ICRNL 0x00000200 /*If this bit is set and IGNCR is not set, carriage return characters ('\r') received as input are passed to the application as newline characters ('\n').*/
#define INLCR 0x00002000 /*If this bit is set, newline characters ('\n') received as input are passed to the application as carriage return characters ('\r').*/
#define IXOFF 0x00010000 /*If this bit is set, start/stop control on input is enabled. In other words, the computer sends STOP and START characters as necessary to prevent input from coming in faster than programs are reading it. The idea is that the actual terminal hardware that is generating the input data responds to a STOP character by suspending transmission, and to a START character by resuming transmission.*/
#define IXON 0x00020000 /*If this bit is set, start/stop control on output is enabled. In other words, if the computer receives a STOP character, it suspends output until a START character is received. In this case, the STOP and START characters are never passed to the application program. If this bit is not set, then START and STOP can be read as ordinary characters.*/
//lFlag
#define ICANON 0x00001000 /*This bit, if set, enables canonical input processing mode. Otherwise, input is processed in noncanonical mode. */
#define ECHO 0x00000100 /*If this bit is set, echoing of input characters back to the terminal is enabled.*/
#define ECHOE 0x00000200 /*If this bit is set, echoing indicates erasure of input with the ERASE character by erasing the last character in the current line from the screen. Otherwise, the character erased is re-echoed to show what has happened (suitable for a printing terminal). */
#define ECHOK 0x00000400 /*This bit enables special display of the KILL character by moving to a new line after echoing the KILL character normally. The behavior of ECHOKE (below) is nicer to look at.*/
#define ECHONL 0x00000800 /*If this bit is set and the ICANON bit is also set, then the newline ('\n') character is echoed even if the ECHO bit is not set. */
#define ISIG 0x00004000 /*This bit controls whether the INTR, QUIT, and SUSP characters are recognized. The functions associated with these characters are performed if and only if this bit is set. Being in canonical or noncanonical input mode has no effect on the interpretation of these characters. */
#define IEXTEN 0x00002000 /*On BSD systems and GNU/Linux and GNU/Hurd systems, it enables the LNEXT and DISCARD characters.*/
#define NOFLSH 0x00008000 /*Normally, the INTR, QUIT, and SUSP characters cause input and output queues for the terminal to be cleared. If this bit is set, the queues are not cleared. */
#define TOSTOP 0x00010000 /*If this bit is set and the system supports job control, then SIGTTOU signals are generated by background processes that attempt to write to the terminal.*/
//cFlag
#define CSTOPB 0x00001000 /*If this bit is set, two stop bits are used. Otherwise, only one stop bit is used. */
#define PARENB 0x00004000 /*If this bit is set, generation and detection of a parity bit are enabled*/
#define PARODD 0x00008000 /*This bit is only useful if PARENB is set. If PARODD is set, odd parity is used, otherwise even parity is used. */
#define CSIZE 0x00000c00 /*This is a mask for the number of bits per character. */
#define CS5 0x00000000 /*This specifies five bits per byte. */
#define CS6 0x00000400 /*This specifies six bits per byte. */
#define CS7 0x00000800 /*This specifies seven bits per byte. */
#define CS8 0x00000c00 /*This specifies eight bits per byte. */
#define CLOCAL 0x00000000 /*Ignore modem control lines -> ignore data carrier detected - not implementable in windows*/
#define CREAD 0x00000000 /*Enable receiver - if is not set no character will be received*/
//oFlag
#define OPOST 0x00000100 /*If this bit is set, output data is processed in some unspecified way so that it is displayed appropriately on the terminal device. This typically includes mapping newline characters ('\n') onto carriage return and linefeed pairs. */
//cc
#define VEOF 0
#define VEOL 1
#define VERASE 2
#define VINTR 3
#define VKILL 4
#define VMIN 5 /*If set to 0, serial communication is NOT-BLOCKING, otherwise is BLOCKING*/
#define VQUIT 6
#define VSTART 7
#define VSTOP 8
#define VSUSP 9
#define VTIME 10
//END OF setAttr flags
/*Controls*/
#define TIOMBIC DTR_CONTROL_DISABLE
#define TIOMBIS DTR_CONTROL_ENABLE
#define CRTSCTS RTS_CONTROL_ENABLE
/*Others*/
#define NCCS 11
//Baud speed
#define B110 CBR_110
#define B300 CBR_300
#define B600 CBR_600
#define B1200 CBR_2400
#define B2400 CBR_2400
#define B4800 CBR_4800
#define B9600 CBR_9600
#define B19200 CBR_19200
#define B38400 CBR_38400
#define B57600 CBR_57600
#define B115200 CBR_115200
/*Attributes optional_actions*/
#define TCSANOW 0
#define TCSADRAIN 1
#define TCSAFLUSH 2
/*TCFLUSH options*/
#define TCIFLUSH 0
#define TCOFLUSH 1
#define TCIOFLUSH 2
/*TCFLOW optons*/
#define TCOOFF 0
#define TCOON 1
#define TCIOFF 2
#define TCION 3
//typdef
typedef unsigned tcflag_t; /*This is an unsigned integer type used to represent the various bit masks for terminal flags.*/
typedef unsigned cc_t; /*This is an unsigned integer type used to represent characters associated with various terminal control functions.*/
typedef unsigned speed_t; /*used for terminal baud rates*/
typedef struct termios
{
tcflag_t c_iflag; /*input modes*/
tcflag_t c_oflag; /*output modes*/
tcflag_t c_cflag; /*control modes*/
tcflag_t c_lflag; /*local modes*/
cc_t c_cc[NCCS]; /*special character*/
} termios;
//Serial configuration functions
int tcgetattr(int fd, struct termios *termios_p);
int tcsetattr(int fd, int optional_actions, const struct termios *termios_p);
int tcsendbreak(int fd, int duration);
int tcdrain(int fd);
int tcflush(int fd, int queue_selector);
int tcflow(int fd, int action);
void cfmakeraw(struct termios *termios_p);
speed_t cfgetispeed(const struct termios *termios_p);
speed_t cfgetospeed(const struct termios *termios_p);
int cfsetispeed(struct termios *termios_p, speed_t speed);
int cfsetospeed(struct termios *termios_p, speed_t speed);
int cfsetspeed(struct termios * termios_p, speed_t speed);
//Write/Read/Open/Close/Select Functions
ssize_t read_serial(int fd, void* buffer, size_t count);
ssize_t write_serial(int fd, const void* buffer, size_t count);
int open_serial(const char* portname, int opt);
int close_serial(int fd);
int select_serial(int nfds, fd_set *readfds, fd_set *writefds, fd_set *exceptfds, struct timeval *timeout);
//get Handle out of the COM structure
HANDLE getHandle();
#endif
#ifndef _WIN32
#pragma message("-Warning: termiWin requires a Windows system!")
#endif
#endif
include/terminal.h
+36 -33
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@@ -1,33 +1,36 @@
#ifndef TERMINAL_H_
#define TERMINAL_H_
/* includes */
#include "data.h"
#include "define.h"
#include <errno.h>
#include <stdio.h>
#include <stdlib.h>
// #include <sys/ioctl.h>
#include <unistd.h>
/**
* \fn void die(const char *s)
* \brief Exit program and return s error message.
* \param *s Error string
* */
void die(const char *s);
void disableRawMode();
void enableRawMode();
int editorReadKey();
int getCursorPosition(int *rows, int *cols);
int getWindowSize(int *rows, int *cols);
#endif
#ifndef TERMINAL_H_
#define TERMINAL_H_
/* includes */
#include <errno.h>
#include <stdio.h>
#include <stdlib.h>
#include <sys/ioctl.h>
#include <termios.h>
#include <unistd.h>
/**
* \fn void die(const char *s)
* \brief Exit program and return s error message.
* \param *s Error string
* */
void die(const char *s);
void disableRawMode();
void enableRawMode();
int editorReadKey();
int getCursorPosition(int *rows, int *cols);
int getWindowSize(int *rows, int *cols);
char *keyToString(int key);
void appDebug(const char *fmt, ...);
#endif
include/termios.h
-32
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@@ -1,32 +0,0 @@
/* termios.h
*
* Copyright (C) 2017 Christian Visintin - christian.visintin1997@gmail.com
*
* This file is part of "termiWin: a termios porting for Windows"
*
* termiWin 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.
*
* termiWin 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 termiWin. If not, see <http://www.gnu.org/licenses/>.
*
*/
#pragma once
#ifdef _WIN32
#ifndef TERMIOS_H
#define TERMIOS_H
#include "termiWin.h"
#endif // TERMIOS_H
#endif // _WIN32
include/utf8.h
+17
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@@ -0,0 +1,17 @@
//
// Created by Giorgio on 01/05/2026.
//
#ifndef BELUGA_UTF8_H
#define BELUGA_UTF8_H
#include <stdint.h>
uint32_t readUtf8Char(void);
int utf8Encode(uint32_t cp, char *buf);
int utf8Seqlen(unsigned char c);
int codepointWidth(uint32_t codepoint);
uint32_t utf8Decode(const char** s);
int is_word_char(const char *s);
#endif //BELUGA_UTF8_H
install.sh
Executable → Regular
+44 -44
View File
@@ -1,44 +1,44 @@
#!/bin/bash
echo "--- Welcome to Beluga installer ---"
read -p "Do you want to start the installation ? (Y/n)" confirm && [[ $confirm == [yY] || $confirm == [yY][eE][sS] ]] || exit 1
# Check dependencies
if ! command -v "meson" &>/dev/null; then
echo "❌ Error: meson not found. Please install it first."
exit 1
fi
# Create config files
echo "Create config files ..."
mkdir -pv ~/.beluga/
mkdir -pv ~/.beluga/assets/
cp -rv ./assets/beluga.txt ~/.beluga/assets/
mkdir -pv ~/.beluga/packages/
mkdir -pv ~/.beluga/config/
read -p "Do you want to replace your config file or keep it (init.lisp.bak) / (init.lisp.new) ? (Y/n)" confirm
if [[ "$confirm" =~ ^[Yy]$ ]]; then
mv ~/.beluga/config/init.lisp ~/.beluga/config/init.lisp.bak
cp -rv ./config/init.lisp ~/.beluga/config/
else
cp -rv ./config/init.lisp ~/.beluga/config/init.lisp.new
fi
# Compile the project
echo "Start compilation ..."
meson setup build/
meson compile -C build/
# Add to path
echo "Adding beluga to the path"
sudo cp -f ./build/beluga /usr/local/bin/
echo "Installation finish"
echo "Check ~/.beluga/config/init.lisp for customization"
#!/bin/bash
echo "--- Welcome to Beluga installer ---"
read -p "Do you want to start the installation ? (Y/n)" confirm && [[ $confirm == [yY] || $confirm == [yY][eE][sS] ]] || exit 1
# Check dependencies
if ! command -v "meson" &>/dev/null; then
echo "❌ Error: meson not found. Please install it first."
exit 1
fi
# Create config files
echo "Create config files ..."
mkdir -pv ~/.beluga/
mkdir -pv ~/.beluga/assets/
cp -rv ./assets/beluga.txt ~/.beluga/assets/
mkdir -pv ~/.beluga/packages/
mkdir -pv ~/.beluga/config/
read -p "Do you want to replace your config file or keep it (init.lisp.bak) / (init.lisp.new) ? (Y/n)" confirm
if [[ "$confirm" =~ ^[Yy]$ ]]; then
mv ~/.beluga/config/init.lisp ~/.beluga/config/init.lisp.bak
cp -rv ./config/init.lisp ~/.beluga/config/
else
cp -rv ./config/init.lisp ~/.beluga/config/init.lisp.new
fi
# Compile the project
echo "Start compilation ..."
meson setup build/
meson compile -C build/
# Add to path
echo "Adding beluga to the path"
sudo cp -f ./build/beluga /usr/local/bin/
echo "Installation finish"
echo "Check ~/.beluga/config/init.lisp for customization"
main.c
+72 -54
View File
@@ -1,54 +1,72 @@
/**
* \file main.c
* \author Arthur Barraux
* \brief Base file of Beluga text editor. Contain fonctions for terminal
* interactions. \version 0.1 \date 21 septembre 2024
*/
#include "include/buffer.h"
#include "include/split_screen.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#define _DEFAULT_SOURCE
#define _BSD_SOURCE
#define _GNU_SOURCE
#include "include/data.h"
#include "include/file_io.h"
#include "include/init.h"
#include "include/input.h"
#include "include/editor_op.h"
#include "include/terminal.h"
struct editorConfig E;
int main(int argc, char *argv[]) {
char * splash_screen = (char *) calloc(256, sizeof(char));
enableRawMode();
initEditor();
if (argc >= 2) {
EditorPane *active = splitScreenGetActivePane();
active->buffer_id = bufferCreate(argv[1]);
} else {
strcat(splash_screen, getenv("HOME"));
strcat(splash_screen, "/.beluga/assets/beluga.txt");
fprintf(stderr, "%s\n", splash_screen);
EditorPane *active = splitScreenGetActivePane();
active->buffer_id = bufferCreate(splash_screen);
}
//free(splash_screen);
editorSetStatusMessage("HELP: Ctrl-x Ctrl-s = save | Ctrl-x Ctrl-c = quit");
while (1) {
editorRefreshScreen();
editorProcessKeypress();
}
return 0;
}
/**
* \file main.c
* \author Arthur Barraux
* \brief Base file of Beluga text editor. Contain fonctions for terminal
* interactions. \version 0.1 \date 21 septembre 2024
*/
#define _DEFAULT_SOURCE
#define _BSD_SOURCE
#define _GNU_SOURCE
#include <libgen.h>
#include "include/buffer.h"
#include "include/split_screen.h"
#include <string.h>
#include <unistd.h>
#include "include/data.h"
#include "include/init.h"
#include "include/input.h"
#include "include/editor_op.h"
#include "include/terminal.h"
#include "include/completion.h"
#include <signal.h>
struct editorConfig E;
int main(int argc, char *argv[]) {
char * splash_screen = strdup(getenv("HOME"));
int home_path_len = (int) strlen(splash_screen);
char * splash_screen_relative_path = strdup("/.beluga/assets/beluga.txt");
int splash_screen_relative_path_len = (int) strlen(splash_screen_relative_path);
signal(SIGPIPE, SIG_IGN); // don't die on broken pipe, just get EPIPE from write()
enableRawMode();
initEditor();
EditorPane *active = splitScreenGetActivePane();
struct buffer_t *buf;
splash_screen = realloc(splash_screen, sizeof(char) * (home_path_len + splash_screen_relative_path_len + 1));
strcat(splash_screen, "/.beluga/assets/beluga.txt");
free(splash_screen_relative_path);
appDebug("splash : %s\n", splash_screen);
active->buffer_id = bufferCreate(splash_screen, READ_ONLY);
if (argc >= 2) {
if (E.constantes.LSP) {
}
active->buffer_id = bufferCreate(argv[1], READ_AND_WRITE);
buf = &E.buffers[active->buffer_id];
appDebug("peoject root : %s\n", dirname(buf->fullname));
}
free(splash_screen);
editorSetStatusMessage("HELP: Ctrl-x Ctrl-s = save | Ctrl-x Ctrl-c = quit");
while (1) {
editorRefreshScreen();
editorProcessKeypress();
}
return 0;
}
meson.build
+37 -37
View File
@@ -1,37 +1,37 @@
project('beluga', 'c',
version : '2.3',
default_options : [
'c_std=none',
]
)
cc = meson.get_compiler('c')
m = cc.find_library('m', required: false)
# Source files
src_files = files(
'main.c',
'src/append_buffer.c',
'src/editor_op.c',
'src/syntax_highlighter.c',
'src/file_io.c',
'src/init.c',
'src/input.c',
'src/output.c',
'src/row_op.c',
'src/terminal.c',
'src/builtins.c',
'src/buffer.c',
'src/split_screen.c'
)
# Add termiWin.c for Windows builds
if host_machine.system() == 'windows'
src_files += files('src/termiWin.c')
endif
# Executable
executable('beluga',
src_files,
dependencies: [m]
)
project('beluga', 'c',
version : '2.3',
default_options : [
'c_std=none',
]
)
cc = meson.get_compiler('c')
m = cc.find_library('m', required: false)
thread_dep = dependency('threads')
# Source files
src_files = files(
'main.c',
'src/append_buffer.c',
'src/editor_op.c',
'src/syntax_highlighter.c',
'src/file_io.c',
'src/init.c',
'src/input.c',
'src/output.c',
'src/row_op.c',
'src/terminal.c',
'src/builtins.c',
'src/buffer.c',
'src/split_screen.c',
'src/utf8.c',
'src/completion.c',
'src/lsp_ui.c',
'src/cJSON.c'
)
# Executable
executable('beluga',
src_files,
dependencies: [m, thread_dep]
)
src/append_buffer.c
+14 -16
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@@ -1,16 +1,14 @@
#include "../include/append_buffer.h"
extern struct editorConfig E;
void abAppend(struct abuf *ab, const char *s, int len) {
char *new = realloc(ab->b, ab->len + len);
if (new == NULL) {
return;
}
memcpy(&new[ab->len], s, len);
ab->b = new;
ab->len += len;
}
void abFree(struct abuf *ab) { free(ab->b); }
#include "../include/append_buffer.h"
void abAppend(struct abuf *ab, const char *s, int len) {
char *new = realloc(ab->b, ab->len + len);
if (new == NULL) {
return;
}
memcpy(&new[ab->len], s, len);
ab->b = new;
ab->len += len;
}
void abFree(const struct abuf *ab) { free(ab->b); }
src/buffer.c
+492 -336
View File
@@ -1,336 +1,492 @@
/**
* @file buffer.c
* @brief Buffer management implementation for multiple open files
*/
#include "../include/buffer.h"
#include "../include/file_io.h"
#include "../include/editor_op.h"
#include "../include/data.h"
#include "include/split_screen.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
extern struct editorConfig E;
/**
* @brief Finds a buffer by filename
* @param filename The filename to search for
* @return Buffer ID if found, -1 if not found
*/
static int bufferFindByFilename(const char *filename) {
for (int i = 0; i < E.number_of_buffer; i++) {
if (E.buffers[i].filename != NULL &&
strcmp(E.buffers[i].filename, filename) == 0) {
return E.buffers[i].buffer_id;
}
}
return -1;
}
/**
* @brief Finds a buffer by ID
* @param buffer_id The buffer ID to find
* @return Pointer to buffer, NULL if not found
*/
struct buffer_t *bufferFindById(int buffer_id) {
for (int i = 0; i < E.number_of_buffer; i++) {
if (E.buffers[i].buffer_id == buffer_id) {
return &E.buffers[i];
}
}
return NULL;
}
/**
* @brief Creates a new buffer for a file
* @details Allocates buffer slot, loads file content, saves buffer metadata.
* If file is already open, switches to existing buffer instead.
* @param filename Path to the file
* @return Buffer ID on success, -1 on failure
*/
int bufferCreate(const char *filename) {
// Check if file is already open
int existing_id = bufferFindByFilename(filename);
if (existing_id != -1) {
return bufferSwitch(existing_id);
}
// Check if we have space for more buffers
if (E.number_of_buffer >= 64) {
editorSetStatusMessage("Error: maximum buffers reached (64)");
return -1;
}
// Initialize new buffer
struct buffer_t *new_buf = &E.buffers[E.number_of_buffer];
new_buf->buffer_id = E.number_of_buffer;
new_buf->filename = strdup(filename);
new_buf->type = FILE_BUFF;
new_buf->state = READ_AND_WRITE;
new_buf->x = 0;
new_buf->y = 0;
new_buf->row_offset = 0;
new_buf->col_offset = 0;
new_buf->dirty = 0; // New file starts clean
// Load file content using existing editorOpen
editorOpen(new_buf);
E.number_of_buffer++;
editorSetStatusMessage("Opened: %s (buffer %d)", filename, new_buf->buffer_id);
return new_buf->buffer_id;
}
/**
* @brief Switches to a specific buffer by ID
* @details Saves current buffer state, loads target buffer content and state.
* @param buffer_id The buffer ID to switch to
* @return 0 on success, -1 on failure
*/
int bufferSwitch(int buffer_id) {
struct buffer_t *target = bufferFindById(buffer_id);
if (target == NULL) {
E.layout.panes[E.layout.active_pane].buffer_id = buffer_id;
editorSetStatusMessage("Error: buffer not found");
return -1;
}
editorSetStatusMessage("Switched to: %s (buffer %d)",
target->filename, buffer_id);
return 0;
}
/**
* @brief Closes a buffer by ID
* @details Frees buffer resources and removes from buffer list.
* Prompts to save unsaved changes. If closing current buffer,
* switches to next available buffer.
* @param buffer_id The buffer ID to close
* @return 0 on success, -1 on failure
*/
int bufferClose(int buffer_id) {
struct buffer_t *buf = bufferFindById(buffer_id);
if (buf == NULL) {
editorSetStatusMessage("Error: buffer not found");
return -1;
}
EditorPane * active = splitScreenGetActivePane();
// If this is the current buffer, find next buffer to switch to
if (active->buffer_id == buffer_id) {
int next_id = -1;
// Try to switch to next buffer
for (int i = 0; i < E.number_of_buffer; i++) {
if (E.buffers[i].buffer_id != buffer_id) {
next_id = E.buffers[i].buffer_id;
break;
}
}
if (next_id != -1) {
bufferSwitch(next_id);
} else {
// No other buffers, clear editor
editorCloseFile();
}
}
// Free buffer resources
free(buf->filename);
buf->filename = NULL;
buf->buffer_id = -1;
// Remove from buffer list by shifting
for (int i = 0; i < E.number_of_buffer; i++) {
if (E.buffers[i].buffer_id == buffer_id) {
for (int j = i; j < E.number_of_buffer - 1; j++) {
E.buffers[j] = E.buffers[j + 1];
}
E.number_of_buffer--;
break;
}
}
editorSetStatusMessage("Closed buffer %d", buffer_id);
return 0;
}
/**
* @brief Gets the current active buffer
* @return Pointer to current buffer_t, NULL if none
*/
struct buffer_t *bufferGetCurrent(void) {
EditorPane * active = splitScreenGetActivePane();
return bufferFindById(active->buffer_id);
}
/**
* @brief Lists all open buffers
* @details Prints buffer information to status message
* @return Number of open buffers
*/
int bufferListAll(void) {
if (E.number_of_buffer == 0) {
editorSetStatusMessage("No buffers open");
return 0;
}
char buf[256] = "";
int offset = 0;
EditorPane * active = splitScreenGetActivePane();
for (int i = 0; i < E.number_of_buffer; i++) {
struct buffer_t *b = &E.buffers[i];
char marker = (b->buffer_id == active->buffer_id) ? '*' : ' ';
offset += snprintf(&buf[offset], sizeof(buf) - offset,
"%c%d:%s ", marker, b->buffer_id,
b->filename ? b->filename : "[No Name]");
}
editorSetStatusMessage("Buffers: %s", buf);
return E.number_of_buffer;
}
/**
* @brief Saves current buffer to disk
* @return 0 on success, -1 on failure
*/
int bufferSave(void) {
EditorPane * active = splitScreenGetActivePane();
if (active->buffer_id == -1) {
editorSetStatusMessage("Error: no buffer active");
return -1;
}
editorSave();
return 0;
}
/**
* @brief Saves all buffers to disk
* @details Iterates through all buffers, saves each one
* @return 0 on success, -1 on failure
*/
int bufferSaveAll(void) {
int saved = 0;
int failed = 0;
for (int i = 0; i < E.number_of_buffer; i++) {
if (bufferSwitch(E.buffers[i].buffer_id) == 0) {
if (E.dirty && bufferSave() == 0) {
saved++;
}
} else {
failed++;
}
}
editorSetStatusMessage("Saved %d buffers (%d failed)", saved, failed);
return (failed == 0) ? 0 : -1;
}
/**
* @brief Creates a new terminal buffer
* @return Buffer ID on success, -1 on failure
*/
int bufferCreateTerminal(void) {
// Check if we have space for more buffers
if (E.number_of_buffer >= 64) {
editorSetStatusMessage("Error: maximum buffers reached (64)");
return -1;
}
// Initialize new terminal buffer
struct buffer_t *new_buf = &E.buffers[E.number_of_buffer];
new_buf->buffer_id = E.number_of_buffer;
new_buf->filename = strdup("[Terminal]");
new_buf->type = TERMINAL_BUFF;
new_buf->state = READ_AND_WRITE;
new_buf->x = 0;
new_buf->y = 0;
new_buf->row_offset = 0;
new_buf->col_offset = 0;
new_buf->dirty = 0;
new_buf->numrows = 0;
new_buf->row = NULL;
// Initialize terminal-specific data
new_buf->terminal_command = NULL;
new_buf->terminal_pid = -1;
new_buf->terminal_output = NULL;
new_buf->terminal_output_size = 0;
// Initialize terminal-specific data
new_buf->terminal_command = NULL;
new_buf->terminal_pid = -1;
new_buf->terminal_output = NULL;
new_buf->terminal_output_size = 0;
E.number_of_buffer++;
editorSetStatusMessage("Created terminal buffer %d", new_buf->buffer_id);
return new_buf->buffer_id;
}
/**
* @brief Executes a command in the terminal buffer
* @param buffer_id The terminal buffer ID
* @param command The command to execute
* @return 0 on success, -1 on failure
*/
int bufferExecuteTerminalCommand(int buffer_id, const char *command) {
struct buffer_t *buf = bufferFindById(buffer_id);
if (buf == NULL || buf->type != TERMINAL_BUFF) {
editorSetStatusMessage("Error: buffer is not a terminal buffer");
return -1;
}
// Free any existing terminal data
if (buf->terminal_command) {
free(buf->terminal_command);
}
if (buf->terminal_output) {
free(buf->terminal_output);
}
// Store the command
buf->terminal_command = strdup(command);
// For now, we'll simulate terminal output
// In a real implementation, this would fork a process and capture output
char output[256];
snprintf(output, sizeof(output), "$ %s\n[Command executed: %s]\n", command, command);
buf->terminal_output = strdup(output);
buf->terminal_output_size = strlen(output);
// Update the buffer content to show terminal output
// Clear existing rows
for (int i = 0; i < buf->numrows; ++i) {
free(buf->row[i].chars);
free(buf->row[i].render);
}
free(buf->row);
buf->row = NULL;
buf->numrows = 0;
// Add terminal output as rows
// Make a copy for parsing since strtok modifies the string
char *output_copy = strdup(buf->terminal_output);
char *line = strtok(output_copy, "\n");
while (line != NULL) {
bufferInsertRow(buf, buf->numrows, line, strlen(line));
line = strtok(NULL, "\n");
}
free(output_copy);
buf->dirty = 1;
editorSetStatusMessage("Executed: %s", command);
return 0;
}
/**
* @file buffer.c
* @brief Buffer management implementation for multiple open files
*/
#include "../include/buffer.h"
#include "../include/file_io.h"
#include "../include/editor_op.h"
#include "../include/data.h"
#include "include/split_screen.h"
#include <_string.h>
#include <stdio.h>
#include <stdlib.h>
#include <libgen.h>
#include <string.h>
#include <sys/stat.h>
#include "include/completion.h"
#include "include/input.h"
/**
* @brief Finds a buffer by filename
* @param filename The filename to search for
* @return Buffer ID if found, -1 if not found
*/
static int bufferFindByFilename(const char* filename)
{
for (int i = 0; i < E.number_of_buffer; i++)
{
if (E.buffers[i].filename != NULL &&
strcmp(E.buffers[i].filename, filename) == 0)
{
return E.buffers[i].buffer_id;
}
}
return -1;
}
/**
* @brief Finds a buffer by ID
* @param buffer_id The buffer ID to find
* @return Pointer to buffer, NULL if not found
*/
struct buffer_t* bufferFindById(int buffer_id)
{
for (int i = 0; i < E.number_of_buffer; i++)
{
if (E.buffers[i].buffer_id == buffer_id)
{
return &E.buffers[i];
}
}
return NULL;
}
/**
* @brief Creates a new buffer for a file
* @details Allocates buffer slot, loads file content, saves buffer metadata.
* If file is already open, switches to existing buffer instead.
* @return Buffer ID on success, -1 on failure
*/
int bufferCreate(const char* path, enum bufferStatus_e state)
{
appDebug("Creating new buffer");
char *filename = basename((char *) path);
// Check if file is already open
const int existing_id = bufferFindByFilename(path);
if (existing_id != -1)
{
return bufferSwitch(existing_id);
}
// Check if we have space for more buffers
if (E.number_of_buffer >= 64)
{
editorSetStatusMessage("Error: maximum buffers reached (64)");
return -1;
}
// Initialize new buffer
struct buffer_t* new_buf = &E.buffers[E.number_of_buffer];
new_buf->buffer_id = E.number_of_buffer;
new_buf->filename = strdup(filename);
new_buf->fullname = malloc(1024 * sizeof(char));
realpath(path, new_buf->fullname);
new_buf->path = dirname(new_buf->fullname);
new_buf->type = FILE_BUFF;
new_buf->state = state;
new_buf->x = 0;
new_buf->y = 0;
new_buf->dirty = 0; // New file starts clean
new_buf->b_lsp_open = 0;
// Load file content using existing editorOpen
editorOpen(new_buf);
E.number_of_buffer++;
if (new_buf->filename[strlen(new_buf->filename) - 1] == 'c')
{
if (E.lsp_client->state == LSP_SHUTDOWN)
lspStart(E.lsp_client, dirname(new_buf->path));
while (E.lsp_client->state != LSP_READY)
;
lspDidOpen(E.lsp_client, new_buf);
}
editorSetStatusMessage("Opened: %s (buffer %d)", filename, new_buf->buffer_id);
return new_buf->buffer_id;
}
/**
* @brief Switches to a specific buffer by ID
* @details Saves current buffer state, loads target buffer content and state.
* @param buffer_id The buffer ID to switch to
* @return 0 on success, -1 on failure
*/
int bufferSwitch(int buffer_id)
{
struct buffer_t* target = bufferFindById(buffer_id);
if (target == NULL)
{
E.layout.panes[E.layout.active_pane].buffer_id = buffer_id;
editorSetStatusMessage("Error: buffer not found");
return -1;
}
editorSetStatusMessage("Switched to: %s (buffer %d)",
target->filename, buffer_id);
return 0;
}
/**
* @brief Closes a buffer by ID
* @details Frees buffer resources and removes from buffer list.
* Prompts to save unsaved changes. If closing current buffer,
* switches to next available buffer.
* @param buffer_id The buffer ID to close
* @return 0 on success, -1 on failure
*/
int bufferClose(int buffer_id)
{
struct buffer_t* buf = bufferFindById(buffer_id);
if (buf == NULL)
{
editorSetStatusMessage("Error: buffer not found");
return -1;
}
EditorPane* active = splitScreenGetActivePane();
// If this is the current buffer, find next buffer to switch to
if (active->buffer_id == buffer_id)
{
int next_id = -1;
// Try to switch to next buffer
for (int i = 0; i < E.number_of_buffer; i++)
{
if (E.buffers[i].buffer_id != buffer_id)
{
next_id = E.buffers[i].buffer_id;
break;
}
}
if (next_id != -1)
{
bufferSwitch(next_id);
}
else
{
// No other buffers, clear editor
editorCloseFile();
}
}
// Free buffer resources
free(buf->filename);
buf->filename = NULL;
buf->buffer_id = -1;
// Remove from buffer list by shifting
for (int i = 0; i < E.number_of_buffer; i++)
{
if (E.buffers[i].buffer_id == buffer_id)
{
for (int j = i; j < E.number_of_buffer - 1; j++)
{
E.buffers[j] = E.buffers[j + 1];
}
E.number_of_buffer--;
break;
}
}
editorSetStatusMessage("Closed buffer %d", buffer_id);
return 0;
}
/**
* @brief Gets the current active buffer
* @return Pointer to current buffer_t, NULL if none
*/
struct buffer_t* bufferGetCurrent(void)
{
EditorPane* active = splitScreenGetActivePane();
return bufferFindById(active->buffer_id);
}
/**
* @brief Lists all open buffers
* @details Prints buffer information to status message
* @return Number of open buffers
*/
int bufferListAll(void)
{
if (E.number_of_buffer == 0)
{
editorSetStatusMessage("No buffers open");
return 0;
}
char buf[256] = "";
int offset = 0;
EditorPane* active = splitScreenGetActivePane();
for (int i = 0; i < E.number_of_buffer; i++)
{
struct buffer_t* b = &E.buffers[i];
char marker = (b->buffer_id == active->buffer_id) ? '*' : ' ';
offset += snprintf(&buf[offset], sizeof(buf) - offset,
"%c%d:%s ", marker, b->buffer_id,
b->filename ? b->filename : "[No Name]");
}
editorSetStatusMessage("Buffers: %s", buf);
return E.number_of_buffer;
}
/**
* @brief Saves current buffer to disk
* @return 0 on success, -1 on failure
*/
int bufferSave(void)
{
EditorPane* active = splitScreenGetActivePane();
if (active->buffer_id == -1)
{
editorSetStatusMessage("Error: no buffer active");
return -1;
}
editorSave();
return 0;
}
/**
* @brief Saves all buffers to disk
* @details Iterates through all buffers, saves each one
* @return 0 on success, -1 on failure
*/
int bufferSaveAll(void)
{
int saved = 0;
int failed = 0;
for (int i = 0; i < E.number_of_buffer; i++)
{
if (bufferSwitch(E.buffers[i].buffer_id) == 0)
{
if (E.dirty && bufferSave() == 0)
{
saved++;
}
}
else
{
failed++;
}
}
editorSetStatusMessage("Saved %d buffers (%d failed)", saved, failed);
return (failed == 0) ? 0 : -1;
}
/**
* @brief Searches for a string in the document
* @details Prompts user for a search query, then searches forward from current
* cursor position. Updates cursor position to the first match found.
* @note Updates global editor state E (cursor position, row_offset)
* @note Search is case-sensitive and operates on rendered line content
* @note Searches begin from the line after current cursor position
* @see editorPrompt()
* @see editorRowRxToCx()
*/
void bufferFind(struct buffer_t* buf)
{
appDebug("searching\n");
char* query = editorPrompt("Search: %s (ESC to cancel)", "", 0);
if (query == NULL)
return;
int i;
for (i = buf->y+1; i < buf->numrows; i++)
{
row_t* row = &buf->row[i];
char* match = strstr(row->chars, query);
if (match)
{
buf->y = i;
break;
}
}
free(query);
}
void bufferFindReverse(struct buffer_t* buf)
{
appDebug("searching\n");
char* query = editorPrompt("Reverse search: %s (ESC to cancel)", "", 0);
if (query == NULL)
return;
int i;
if (!buf->y)
return;
for (i = buf->y - 1; i >= 0; i--)
{
row_t* row = &buf->row[i];
char* match = strstr(row->chars, query);
if (match)
{
buf->y = i;
break;
}
}
free(query);
}
void bufferInsertRow(struct buffer_t *buffer, int at, char *s, size_t len) {
if (at < 0 || at > buffer->numrows)
return;
row_t *tmp = realloc(buffer->row, sizeof(row_t) * (buffer->numrows + 1));
if (!tmp)
return;
buffer->row = tmp;
/* Shift existing rows to make room at 'at' — no at++ */
if (at < buffer->numrows) {
memmove(&buffer->row[at + 1], &buffer->row[at],
sizeof(row_t) * (buffer->numrows - at)); /* not -at+1 */
}
buffer->row[at].size = (int) len;
buffer->row[at].cap = (int) len + 1;
buffer->row[at].chars = malloc(len + 1);
if (!buffer->row[at].chars)
return;
memcpy(buffer->row[at].chars, s, len);
buffer->row[at].chars[len] = '\0'; /* always NUL-terminate */
buffer->numrows++;
buffer->dirty++;
}
void bufferFreeRow(row_t *row) { free(row->chars); }
/**
* \fn editorRowInsertChar(erow *row, int at, int c)
* \param at Index of where we want to insert the char */
void bufferRowInsertBytes(struct buffer_t *buffer, row_t *row, int at,
const char *src, int n) {
if (buffer->state == READ_ONLY)
return;
if (row->size + n + 1 > row->cap) {
row->cap = (row->size + n + 1) * 2;
row->chars = realloc(row->chars, row->cap);
}
memmove(row->chars + at + n, row->chars + at, row->size - at);
memcpy(row->chars + at, src, n);
row->size += n;
row->chars = realloc(row->chars, row->size + 2);
++buffer->dirty;
}
/**
* \fn bufferRowDelChar(struct bufferConfig *E, frow *frow, int at)
* \brief Delete the a char at the chosen position on the given row
* \param at Index of the char to delete
* \param row Row on operation is made */
void bufferRowDelByte(struct buffer_t *buffer, row_t *row, int at, int n) {
if (buffer->state == READ_ONLY)
return;
if (at < 0 || at >= row->size)
return;
memmove(row->chars + at, row->chars + at + n, row->size - at - n);
row->size -= n;
row->chars[row->size] = '\0';
buffer->x -= n;
++buffer->dirty;
}
void bufferInsertBytes(const char* src, int n)
{
appDebug("bufferInsertBytes \r\n");
EditorPane* active = splitScreenGetActivePane();
struct buffer_t* buf = bufferFindById(active->buffer_id);
if (buf->y == buf->numrows)
{
bufferInsertRow(buf, buf->numrows, "", 0);
}
bufferRowInsertBytes(buf, &buf->row[buf->y], buf->x, src, n);
buf->x += n;
buf->b_has_changed = 1;
}
void bufferDelBytes(void)
{
EditorPane* active = splitScreenGetActivePane();
struct buffer_t* buf = bufferFindById(active->buffer_id);
/* Nothing to delete */
if (buf->numrows == 0) return;
if (buf->x == 0 && buf->y == 0) return;
/* Use row_offset, not col_offset, for row indexing */
row_t* r = &buf->row[buf->y];
if (buf->x > 0)
{
int byte_end = editorRowCxToByte(r, buf->x);
int byte_start = editorRowCxToByte(r, buf->x - 1);
int char_width = byte_end - byte_start; /* byte width of the character */
bufferRowDelByte(buf, r, byte_start, char_width);
E.dirty = 1;
}
else
{
/* Merge current row into the previous one */
row_t* prev = &buf->row[buf->y - 1]; // FIX: was buf->y (same as r)
int prev_char_count = editorRowCharCount(prev, prev->size);
bufferRowInsertBytes(buf, prev, prev->size, r->chars, r->size);
free(r->chars);
r->chars = NULL;
memmove(&buf->row[buf->y],
&buf->row[buf->y + 1],
sizeof(row_t) * (buf->numrows - buf->y - 1));
buf->numrows--;
active->cursor_x = prev_char_count;
buf->x = prev_char_count;
active->cursor_y--;
buf->y--;
E.dirty = 1;
}
}
void bufferInsertNewLine(void) {
appDebug("Inserting new line\n");
EditorPane *active = splitScreenGetActivePane();
struct buffer_t *buf = bufferFindById(active->buffer_id);
appDebug("buf x %d\n", buf->x);
if (buf->y >= buf->numrows) {
/* Cursor is past the last row: just append a blank line */
bufferInsertRow(buf, buf->numrows, "", 0);
} else {
row_t *row = &buf->row[buf->y];
/* Insert the tail (from cursor to end) as a new row below */
bufferInsertRow(buf, buf->y + 1, &row->chars[buf->x], row->size - buf->x);
/* Re-fetch: bRealloc inside bufferInsertRow may have moved the array */
row = &buf->row[buf->y];
/* Truncate the current row at the cursor */
row->size = buf->x;
row->chars[row->size] = '\0';
/* Do NOT touch row->cap — the allocation is still valid */
}
buf->y++;
buf->x = 0;
appDebug("Insert new line done\n");
}
src/builtins.c
+651 -530
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//
// Created by Giorgio on 25/05/2026.
//
#include "../include/completion.h"
#include <stdlib.h>
#include <unistd.h>
#include <string.h>
#include <sys/syslimits.h>
#include "include/append_buffer.h"
#include "include/cJSON.h"
#include "include/data.h"
#include "include/lsp_ui.h"
#include "include/split_screen.h"
#include "include/terminal.h"
static void lsp_send(int fd, const char* json)
{
int body_len = strlen(json);
char header[1024];
int header_len = snprintf(header, sizeof(header),
"Content-Length: %d\r\n\r\n", body_len);
// Write header + body atomically in two writes, no dprintf mixing
write(fd, header, header_len);
write(fd, json, body_len);
// Log to stderr for debugging
appDebug("[LSP →] Content-Length: %d | %s\n", body_len, json);
fflush(stderr);
}
static char* lsp_recv(int fd)
{
char header[1024];
int content_length = 0;
while (1)
{
int i = 0;
char c;
int n;
// Read until \n
while ((n = read(fd, &c, 1)) == 1 && c != '\n')
header[i++] = c;
if (n <= 0) return NULL;
header[i] = '\0';
// Strip \r explicitly
while (i > 0 && (header[i - 1] == '\r' || header[i - 1] == ' '))
header[--i] = '\0';
if (i == 0) break; // blank line = end of headers
if (strncmp(header, "Content-Length: ", 16) == 0)
content_length = atoi(header + 16);
}
if (content_length == 0) return NULL;
char* body = malloc(content_length + 1);
int total = 0;
while (total < content_length)
{
int n = read(fd, body + total, content_length - total);
if (n <= 0)
{
free(body);
return NULL;
}
total += n;
}
body[content_length] = '\0';
return body;
}
static void lsp_dispatch(LspClient* lsp, const char* json)
{
if (!json) return;
cJSON* root = cJSON_Parse(json);
if (!root)
{
appDebug("[LSP ←] Failed to parse JSON: %.120s\n", json);
return;
}
cJSON* method = cJSON_GetObjectItem(root, "method");
cJSON* id = cJSON_GetObjectItem(root, "id");
cJSON* result = cJSON_GetObjectItem(root, "result");
cJSON* error = cJSON_GetObjectItem(root, "error");
// ── Error response ────────────────────────────────────────────────────────
if (error)
{
cJSON* msg = cJSON_GetObjectItem(error, "message");
appDebug("[LSP ←] ERROR: %s\n",
msg ? msg->valuestring : "(no message)");
cJSON_Delete(root);
return;
}
// ── Notification (no id, has method) ─────────────────────────────────────
if (method && !id)
{
const char* m = method->valuestring;
appDebug("[LSP ←] NOTIF: %s\n", m);
if (strcmp(m, "textDocument/publishDiagnostics") == 0)
{
// Find which buffer this diagnostic belongs to
cJSON* params = cJSON_GetObjectItem(root, "params");
cJSON* uri = cJSON_GetObjectItem(params, "uri");
int buf_id = splitScreenGetActivePane()->buffer_id;
appDebug("[LSP ←] Diagnostics for buffer %d\n", buf_id);
pthread_mutex_lock(&lsp->lock);
lspParseDiagnostics(json, &E.lsp_diagnostics, buf_id);
pthread_mutex_unlock(&lsp->lock);
write(lsp->wake_pipe[1], "d", 1);
}
else if (strcmp(m, "window/logMessage") == 0)
{
cJSON* params = cJSON_GetObjectItem(root, "params");
cJSON* message = cJSON_GetObjectItem(params, "message");
appDebug("[LSP ←] LOG: %s\n",
message ? message->valuestring : "");
}
E.lsp_client->completion_just_arrived = 1;
cJSON_Delete(root);
return;
}
// ── Response (has id + result) ────────────────────────────────────────────
if (id && result)
{
int response_id = id->valueint;
appDebug("[LSP ←] RESPONSE id=%d\n", response_id);
// initialize response → send initialized + mark ready
if (lsp->state == LSP_INITIALIZING)
{
appDebug("[LSP ←] Initialize OK, sending initialized\n");
lsp_send(lsp->write_fd,
"{\"jsonrpc\":\"2.0\",\"method\":\"initialized\",\"params\":{}}");
pthread_mutex_lock(&lsp->lock);
lsp->state = LSP_READY;
pthread_cond_signal(&lsp->ready_cond);
pthread_mutex_unlock(&lsp->lock);
E.lsp_client->completion_just_arrived = 1;
cJSON_Delete(root);
return;
}
// completion response → parse items and show popup
cJSON* items = cJSON_GetObjectItem(result, "items");
if (items && cJSON_IsArray(items))
{
int count = cJSON_GetArraySize(items);
appDebug("[LSP ←] Completion: %d items\n", count);
// Print each item to stderr for debugging
cJSON* item;
int i = 0;
cJSON_ArrayForEach(item, items)
{
cJSON* label = cJSON_GetObjectItem(item, "label");
cJSON* detail = cJSON_GetObjectItem(item, "detail");
cJSON* kind = cJSON_GetObjectItem(item, "kind");
appDebug(" [%d] kind=%-2d %-40s %s\n",
i++,
kind ? kind->valueint : 0,
label ? label->valuestring : "(no label)",
detail ? detail->valuestring : "");
if (i >= 10)
{
appDebug(" ... (%d more)\n", count - 10);
break;
}
}
pthread_mutex_lock(&lsp->lock);
lspParseCompletion(json, &E.lsp_completion,
lsp->completion_cursor_x,
lsp->completion_cursor_y);
pthread_mutex_unlock(&lsp->lock);
E.lsp_client->completion_just_arrived = 1;
appDebug("[POPUP] visible=%d count=%d origin=(%d,%d)\n",
E.lsp_completion.visible,
E.lsp_completion.count,
E.lsp_completion.origin_x,
E.lsp_completion.origin_y);
write(lsp->wake_pipe[1], "c", 1);
cJSON_Delete(root);
return;
}
// definition response → jump to location
cJSON* uri_item = cJSON_GetObjectItem(result, "uri");
if (uri_item)
{
cJSON* range = cJSON_GetObjectItem(result, "range");
cJSON* start = cJSON_GetObjectItem(range, "start");
int line = cJSON_GetObjectItem(start, "line")->valueint;
int col = cJSON_GetObjectItem(start, "character")->valueint;
appDebug("[LSP ←] Definition: %s:%d:%d\n",
uri_item->valuestring, line, col);
E.lsp_client->completion_just_arrived = 1;
// TODO: jump to that location
cJSON_Delete(root);
return;
}
appDebug("[LSP ←] Unhandled response id=%d: %.80s\n",
response_id, json);
}
cJSON_Delete(root);
}
static void* lsp_reader(void* arg)
{
LspClient* lsp = (LspClient*)arg;
while (lsp->state != LSP_SHUTDOWN)
{
char* msg = lsp_recv(lsp->read_fd);
if (!msg) break; // ← pipe closed or error, exit cleanly
lsp_dispatch(lsp, msg);
free(msg);
}
return NULL;
}
// ─── lifecycle ───────────────────────────────────────────────────────────────
int lspStart(LspClient *lsp, const char *project_root)
{
// ── Pipes ─────────────────────────────────────────────────────────────────
int to_clangd[2], from_clangd[2];
if (pipe(to_clangd) < 0 || pipe(from_clangd) < 0) {
fprintf(stderr, "[LSP] pipe() failed\n");
free(lsp);
return 0;
}
if (pipe(lsp->wake_pipe) < 0) {
fprintf(stderr, "[LSP] wake pipe() failed\n");
free(lsp);
return 0;
}
// ── Fork clangd ───────────────────────────────────────────────────────────
lsp->pid = fork();
if (lsp->pid < 0) {
fprintf(stderr, "[LSP] fork() failed\n");
free(lsp);
return 0;
}
if (lsp->pid == 0) {
// Child — become clangd
dup2(to_clangd[0], STDIN_FILENO);
dup2(from_clangd[1], STDOUT_FILENO);
close(to_clangd[1]);
close(from_clangd[0]);
close(lsp->wake_pipe[0]);
close(lsp->wake_pipe[1]);
execlp("clangd", "clangd",
"--log=error",
"--completion-style=detailed",
NULL);
fprintf(stderr, "[LSP] execlp failed — is clangd installed?\n");
_exit(1);
}
// Parent — keep write end of to_clangd, read end of from_clangd
close(to_clangd[0]);
close(from_clangd[1]);
lsp->write_fd = to_clangd[1];
lsp->read_fd = from_clangd[0];
lsp->next_id = 1;
lsp->state = LSP_INITIALIZING;
// ── Threading ─────────────────────────────────────────────────────────────
pthread_mutex_init(&lsp->lock, NULL);
pthread_cond_init (&lsp->ready_cond, NULL);
// Start reader thread BEFORE sending initialize
// so it can handle the response
pthread_create(&lsp->reader_thread, NULL, lsp_reader, lsp);
// ── Send initialize ───────────────────────────────────────────────────────
char abs_root[PATH_MAX];
if (realpath(project_root, abs_root) == NULL)
strncpy(abs_root, project_root, PATH_MAX - 1);
cJSON *req = cJSON_CreateObject();
cJSON *params = cJSON_CreateObject();
cJSON *caps = cJSON_CreateObject();
cJSON *td_caps = cJSON_CreateObject();
cJSON *comp_caps = cJSON_CreateObject();
cJSON *comp_item = cJSON_CreateObject();
cJSON_AddStringToObject(req, "jsonrpc", "2.0");
cJSON_AddNumberToObject(req, "id", lsp->next_id++);
cJSON_AddStringToObject(req, "method", "initialize");
// rootUri
char root_uri[PATH_MAX + 8];
snprintf(root_uri, sizeof(root_uri), "file://%s", abs_root);
cJSON_AddNumberToObject(params, "processId", getpid());
cJSON_AddStringToObject(params, "rootUri", root_uri);
// Capabilities — tell clangd what we support
cJSON_AddBoolToObject (comp_item, "snippetSupport", 0);
cJSON_AddBoolToObject (comp_item, "commitCharactersSupport", 0);
cJSON_AddItemToObject (comp_caps, "completionItem", comp_item);
cJSON_AddItemToObject (td_caps, "completion", comp_caps);
cJSON_AddItemToObject (td_caps, "hover", cJSON_CreateObject());
cJSON_AddItemToObject (td_caps, "definition", cJSON_CreateObject());
cJSON_AddItemToObject (td_caps, "publishDiagnostics", cJSON_CreateObject());
cJSON_AddItemToObject (caps, "textDocument", td_caps);
cJSON_AddItemToObject (params, "capabilities", caps);
cJSON_AddItemToObject (req, "params", params);
char *msg = cJSON_PrintUnformatted(req);
lsp_send(lsp->write_fd, msg);
free(msg);
cJSON_Delete(req);
// ── Wait for LSP_READY ────────────────────────────────────────────────────
// Reader thread will handle the initialize response,
// send "initialized", and signal ready_cond
pthread_mutex_lock(&lsp->lock);
while (lsp->state != LSP_READY) {
struct timespec ts;
clock_gettime(CLOCK_REALTIME, &ts);
ts.tv_sec += 5; // 5 second timeout — clangd should respond fast
int rc = pthread_cond_timedwait(&lsp->ready_cond, &lsp->lock, &ts);
if (rc == ETIMEDOUT) {
fprintf(stderr, "[LSP] timeout waiting for initialize response\n");
pthread_mutex_unlock(&lsp->lock);
// Don't kill clangd — it might still come up, just return what we have
return 1;
}
}
pthread_mutex_unlock(&lsp->lock);
fprintf(stderr, "[LSP] ready — clangd initialized at %s\n", abs_root);
return 1;
}
// ─── document sync ───────────────────────────────────────────────────────────
// Build the full buffer text into a bAlloc'd string
static char* buffer_to_text(struct buffer_t* buf)
{
int total = 0;
for (int i = 0; i < buf->numrows; i++)
total += buf->row[i].size + 1; // +1 for \n
char* text = malloc(total + 1);
char* p = text;
for (int i = 0; i < buf->numrows; i++)
{
memcpy(p, buf->row[i].chars, buf->row[i].size);
p += buf->row[i].size;
*p++ = '\n';
}
*p = '\0';
return text;
}
void lspDidOpen(LspClient* lsp, struct buffer_t* buf)
{
appDebug("[LSP] opening file");
if (lsp->state != LSP_READY || buf->b_lsp_open) return;
char uri[PATH_MAX + 8];
snprintf(uri, sizeof(uri), "file://%s", buf->fullname);
const char* lang = "c";
if (strstr(buf->filename, ".cpp") || strstr(buf->filename, ".cc"))
lang = "cpp";
char* raw = buffer_to_text(buf);
// Let cJSON handle ALL escaping — don't touch the text yourself
cJSON* root = cJSON_CreateObject();
cJSON* params = cJSON_CreateObject();
cJSON* td = cJSON_CreateObject();
cJSON_AddStringToObject(root, "jsonrpc", "2.0");
cJSON_AddStringToObject(root, "method", "textDocument/didOpen");
cJSON_AddStringToObject(td, "uri", uri);
cJSON_AddStringToObject(td, "languageId", lang);
cJSON_AddNumberToObject(td, "version", 1);
cJSON_AddStringToObject(td, "text", raw); // cJSON escapes this
cJSON_AddItemToObject(params, "textDocument", td);
cJSON_AddItemToObject(root, "params", params);
char* msg = cJSON_PrintUnformatted(root);
lsp_send(lsp->write_fd, msg);
free(msg);
free(raw);
cJSON_Delete(root);
buf->b_lsp_open = 1;
}
void lspDidChange(LspClient* lsp, struct buffer_t* buf)
{
if (lsp->state != LSP_READY || !buf->b_lsp_open) return;
char uri[PATH_MAX + 8];
snprintf(uri, sizeof(uri), "file://%s", buf->fullname);
char* raw = buffer_to_text(buf);
cJSON* root = cJSON_CreateObject();
cJSON* params = cJSON_CreateObject();
cJSON* td = cJSON_CreateObject();
cJSON* changes = cJSON_CreateArray();
cJSON* change = cJSON_CreateObject();
cJSON_AddStringToObject(root, "jsonrpc", "2.0");
cJSON_AddStringToObject(root, "method", "textDocument/didChange");
cJSON_AddStringToObject(td, "uri", uri);
cJSON_AddNumberToObject(td, "version", buf->dirty);
cJSON_AddStringToObject(change, "text", raw); // full content sync
cJSON_AddItemToArray(changes, change);
cJSON_AddItemToObject(params, "textDocument", td);
cJSON_AddItemToObject(params, "contentChanges", changes);
cJSON_AddItemToObject(root, "params", params);
char* msg = cJSON_PrintUnformatted(root);
lsp_send(lsp->write_fd, msg);
free(msg);
free(raw);
cJSON_Delete(root);
}
void lspDidClose(LspClient* lsp, struct buffer_t* buf)
{
char uri[PATH_MAX + 8];
snprintf(uri, sizeof(uri), "file://%s", buf->fullname);
cJSON* root = cJSON_CreateObject();
cJSON* params = cJSON_CreateObject();
cJSON* td = cJSON_CreateObject();
cJSON_AddStringToObject(root, "jsonrpc", "2.0");
cJSON_AddStringToObject(root, "method", "textDocument/didClose");
cJSON_AddStringToObject(td, "uri", uri); // ← fixed
cJSON_AddItemToObject(params, "textDocument", td);
cJSON_AddItemToObject(root, "params", params);
char* msg = cJSON_PrintUnformatted(root);
lsp_send(lsp->write_fd, msg);
free(msg);
cJSON_Delete(root);
buf->b_lsp_open = 0;
}
// ─── requests ────────────────────────────────────────────────────────────────
void lspRequestCompletion(LspClient* lsp, struct buffer_t* buf,
int line, int col,
int screen_x, int screen_y)
{
if (lsp->state != LSP_READY) return;
lsp->completion_cursor_x = screen_x;
lsp->completion_cursor_y = screen_y;
appDebug("LSP REQUEST COMP");
char* msg;
char uri[PATH_MAX + 8];
snprintf(uri, sizeof(uri), "file://%s", buf->fullname);
appDebug("FULLNAME : %s\n", buf->fullname);
cJSON* req = cJSON_CreateObject();
cJSON* params = cJSON_CreateObject();
cJSON* td = cJSON_CreateObject();
cJSON* position = cJSON_CreateObject();
cJSON_AddStringToObject(req, "jsonrpc", "2.0");
cJSON_AddNumberToObject(req, "id", lsp->next_id++);
cJSON_AddStringToObject(req, "method", "textDocument/completion");
cJSON_AddStringToObject(td, "uri", uri);
cJSON_AddNumberToObject(position, "line", line);
cJSON_AddNumberToObject(position, "character", col);
cJSON_AddItemToObject(params, "position", position);
cJSON_AddItemToObject(params, "textDocument", td);
cJSON_AddItemToObject(req, "params", params);
msg = cJSON_PrintUnformatted(req);
lsp_send(lsp->write_fd, msg);
E.lsp_client->completion_requested = 1;
cJSON_Delete(req);
free(msg);
}
void lspRequestDefinition(LspClient* lsp, struct buffer_t* buf, int line, int col)
{
if (lsp->state != LSP_READY) return;
char* msg;
asprintf(&msg,
"{\"jsonrpc\":\"2.0\",\"id\":%d,\"method\":\"textDocument/definition\","
"\"params\":{\"textDocument\":{\"uri\":\"file://%s\"},"
"\"position\":{\"line\":%d,\"character\":%d}}}",
lsp->next_id++, buf->filename, line, col);
lsp_send(lsp->write_fd, msg);
free(msg);
}
void lspShutdown(LspClient *lsp)
{
if (!lsp || lsp->state == LSP_SHUTDOWN) return;
lsp->state = LSP_SHUTDOWN;
// 1. Send didClose for all open buffers
for (int i = 0; i < E.number_of_buffer; i++) {
if (E.buffers[i].b_lsp_open)
lspDidClose(lsp, &E.buffers[i]);
}
// 2. Send shutdown request (clangd expects this before exit)
cJSON *req = cJSON_CreateObject();
cJSON_AddStringToObject(req, "jsonrpc", "2.0");
cJSON_AddNumberToObject(req, "id", lsp->next_id++);
cJSON_AddStringToObject(req, "method", "shutdown");
cJSON_AddNullToObject (req, "params");
char *msg = cJSON_PrintUnformatted(req);
lsp_send(lsp->write_fd, msg);
free(msg);
cJSON_Delete(req);
// 3. Wait briefly for the shutdown response (2s timeout)
struct timeval tv = { .tv_sec = 2, .tv_usec = 0 };
fd_set fds;
FD_ZERO(&fds);
FD_SET(lsp->read_fd, &fds);
if (select(lsp->read_fd + 1, &fds, NULL, NULL, &tv) > 0) {
char *resp = lsp_recv(lsp->read_fd);
free(resp);
}
// 4. Send exit notification
lsp_send(lsp->write_fd,
"{\"jsonrpc\":\"2.0\",\"method\":\"exit\",\"params\":null}");
// 5. Close write pipe first — reader thread will get EOF and exit
close(lsp->write_fd);
lsp->write_fd = -1;
// 6. Wake the main loop so it doesn't stay blocked in select()
write(lsp->wake_pipe[1], "q", 1);
// 7. Wait for reader thread to finish
pthread_join(lsp->reader_thread, NULL);
// 8. Close remaining fds
close(lsp->read_fd);
lsp->read_fd = -1;
close(lsp->wake_pipe[0]);
close(lsp->wake_pipe[1]);
// 9. Destroy synchronization primitives
pthread_mutex_destroy(&lsp->lock);
pthread_cond_destroy (&lsp->ready_cond);
// 10. Reap the clangd process
waitpid(lsp->pid, NULL, 0);
free(lsp);
}
src/editor_op.c
+132 -82
View File
@@ -1,82 +1,132 @@
#include <stdarg.h>
#include "../include/editor_op.h"
#include "../include/row_op.h"
#include "include/buffer.h"
#include "include/data.h"
#include "include/split_screen.h"
extern struct editorConfig E;
/**
* @brief Sets a temporary status message for display
* @details Formats and stores a message that will be displayed in the message
* bar for 5 seconds. Uses printf-style variable argument formatting.
* @param fmt Printf-style format string
* @param ... Variable arguments for format string
* @note Updates global editor state E (status_msg, status_msg_time)
* @see editorDrawMessageBar()
*/
void editorSetStatusMessage(const char *fmt, ...) {
va_list ap;
va_start(ap, fmt);
vsnprintf(E.status_msg, sizeof(E.status_msg), fmt, ap);
va_end(ap);
E.status_msg_time = time(NULL);
}
void bufferInsertChar(int c) {
EditorPane *active = splitScreenGetActivePane();
struct buffer_t *buf = bufferFindById(active->buffer_id);
if (active->cursor_y == buf->numrows) {
bufferInsertRow(buf, buf->numrows, "", 0);
}
bufferRowInsertChar(buf, &buf->row[active->cursor_y], active->cursor_x, c);
active->cursor_x++;
}
void bufferInsertNewLine() {
/*
* Add new line and place the cursor at the beginning of it
*/
fprintf(stderr, "Inserting new line\n");
EditorPane *active = splitScreenGetActivePane();
struct buffer_t *buf = bufferFindById(active->buffer_id);
frow *row;
if (!active->cursor_x) {
bufferInsertRow(buf, active->cursor_y, "", 0);
} else {
row = &buf->row[active->cursor_y];
bufferInsertRow(buf, active->cursor_y + 1, &row->chars[active->cursor_x],
row->size - active->cursor_x);
row = &buf->row[active->cursor_y];
row->size = active->cursor_x;
row->chars[row->size] = '\0';
bufferUpdatfrow(row);
}
++active->cursor_y;
active->cursor_x = 0;
fprintf(stderr, "Insert new line done\n");
}
void bufferDelChar() {
frow *row;
EditorPane *active = splitScreenGetActivePane();
struct buffer_t *buf = bufferFindById(active->buffer_id);
if (active->cursor_y == buf->numrows || !(active->cursor_x || active->cursor_y)) {
return;
}
row = &buf->row[active->cursor_y];
if (active->cursor_x > 0) {
bufferRowDelchar(buf, row, active->cursor_x - 1);
--active->cursor_x;
} else {
active->cursor_x = buf->row[active->cursor_y - 1].size;
bufferRowAppendString(buf, &buf->row[active->cursor_y - 1], row->chars, row->size);
bufferDelRow(buf, active->cursor_y);
--active->cursor_y;
}
}
#include "../include/editor_op.h"
#include <stdarg.h>
#include "../include/row_op.h"
#include "../include/buffer.h"
#include "../include/data.h"
#include "../include/split_screen.h"
#include "../include/terminal.h"
#include "../include/utf8.h"
extern struct editorConfig E;
/**
* @brief Sets a temporary status message for display
* @details Formats and stores a message that will be displayed in the message
* bar for 5 seconds. Uses printf-style variable argument formatting.
* @param fmt Printf-style format string
* @param ... Variable arguments for format string
* @note Updates global editor state E (status_msg, status_msg_time)
* @see editorDrawMessageBar()
*/
void editorSetStatusMessage(const char* fmt, ...)
{
va_list ap;
va_start(ap, fmt);
vsnprintf(E.status_msg, E.screencols, fmt, ap);
va_end(ap);
E.status_msg_time = time(NULL);
}
/**
* @brief Moves the cursor based on arrow key input
* @details Updates cursor position (E.cursor_x, E.cursor_y) based on the given
* key direction. Handles line wrapping and boundary conditions. Prevents cursor
* from exceeding line lengths.
* @param key The arrow key code (ARROW_UP, ARROW_DOWN, ARROW_LEFT, ARROW_RIGHT)
* @return 1 if cursor movement was valid, 0 if cursor was constrained to line boundary
* @note Updates global editor state E
*/
int editorMoveCursor(int key) {
EditorPane *active = splitScreenGetActivePane();
struct buffer_t *buf = bufferFindById(active->buffer_id);
row_t *row = &buf->row[buf->y];
switch (key) {
case ARROW_RIGHT:
if (row && buf->x < row->size) {
int len = utf8Seqlen(row->chars[buf->x]);
buf->x += len;
} else if (row && buf->y < buf->numrows) {
buf->y++;
buf->x = 0;
}
break;
case ARROW_DOWN:
if (buf->y < buf->numrows) {
buf->y++;
}
break;
case ARROW_UP:
if (buf->y != 0) {
--buf->y;
}
break;
case ARROW_LEFT:
if (buf->x != 0) {
--buf->x;
} else if (buf->y > 0) {
--buf->y;
buf->x = buf->row[buf->y].size;
}
break;
default:
break;
}
return 1;
}
char *editorGetClipboard(void) {
FILE *pipe = popen(CLIPBOARD_PASTE_CMD, "r");
if (!pipe) return NULL;
size_t cap = 4096;
size_t len = 0;
char *buf = malloc(cap);
int c;
while ((c = fgetc(pipe)) != EOF) {
if (len + 1 >= cap) {
cap *= 2;
buf = realloc(buf, cap);
}
buf[len++] = (char)c;
}
buf[len] = '\0';
pclose(pipe);
return buf; // caller must free
}
void editorSetClipboard(const char *text, int len) {
FILE *pipe = popen(CLIPBOARD_COPY_CMD, "w");
if (!pipe) return;
fwrite(text, 1, len, pipe);
pclose(pipe);
}
int editorRowCxToByte(const row_t *row, int cursor_x) {
int i = 0, col = 0;
while (col < cursor_x && i < row->size) {
int sl = utf8Seqlen((unsigned char)row->chars[i]);
if (sl < 1)
sl = 1;
col++;
i += sl;
}
return i;
}
int editorRowCharCount(row_t *row, int x) {
int n = 0, i = 0;
while (i < x && i < row->size) {
int sl = utf8Seqlen((unsigned char)row->chars[i]);
if (sl < 1)
sl = 1;
n++;
i += sl;
}
return n;
}
src/file_io.c
+134 -251
View File
@@ -1,251 +1,134 @@
/**
* @file file_io.c
* @brief File I/O operations module for the Beluga text editor
* @details Handles file loading, saving, searching, and buffer management.
* Provides functionality for opening/closing files, persisting changes to disk,
* and searching for text patterns within the document.
*/
#include "../include/file_io.h"
#include "../include/editor_op.h"
#include "../include/input.h"
#include "include/buffer.h"
#include "include/data.h"
#include "include/split_screen.h"
#include <fcntl.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include <unistd.h>
// Windows compatibility for getline
#ifdef _WIN32
#include <io.h>
ssize_t getline(char **lineptr, size_t *n, FILE *stream) {
char *bufptr = NULL;
char *p = bufptr;
size_t size;
int c;
if (lineptr == NULL) {
return -1;
}
if (stream == NULL) {
return -1;
}
if (n == NULL) {
return -1;
}
bufptr = *lineptr;
size = *n;
c = fgetc(stream);
if (c == EOF) {
return -1;
}
if (bufptr == NULL) {
bufptr = malloc(128);
if (bufptr == NULL) {
return -1;
}
size = 128;
}
p = bufptr;
while(c != EOF) {
if ((p - bufptr) > (size - 1)) {
size = size + 128;
bufptr = realloc(bufptr, size);
if (bufptr == NULL) {
return -1;
}
}
*p++ = c;
if (c == '\n') {
break;
}
c = fgetc(stream);
}
*p++ = '\0';
*lineptr = bufptr;
*n = size;
return p - bufptr - 1;
}
#endif
extern char *strdup(const char *);
extern ssize_t getline(char **restrict lineptr, size_t *restrict n,
FILE *restrict stream);
extern int ftruncate(int fd, off_t length);
extern struct editorConfig E;
/**
* @brief Converts all editor rows to a single string buffer
* @details Concatenates all row content into a single allocated buffer with
* newlines between rows. Useful for file saving and buffer operations.
* @param buffer_len Pointer to integer where total buffer length will be stored
* @return Pointer to dynamically allocated buffer containing all row data.
* Rows are separated by newline characters.
* @note Caller is responsible for freeing the returned buffer
*/
char *bufferRowsToString(struct buffer_t *buf, int *buffer_len) {
int tot_len = 0;
int j;
char *buffer;
char *p;
for (j = 0; j < buf->numrows; ++j) {
tot_len += buf->row[j].size + 1;
}
*buffer_len = tot_len;
buffer = malloc(tot_len);
p = buffer;
for (j = 0; j < buf->numrows; ++j) {
memcpy(p, buf->row[j].chars, buf->row[j].size);
p += buf->row[j].size;
*p = '\n';
p++;
}
return buffer;
}
/**
* @brief Closes the current file and resets editor state
* @details Clears all rows, resets cursor position, scroll offsets, and file
* metadata. Does not prompt to save unsaved changes.
* @note Updates global editor state E
*/
void editorCloseFile(void) {
EditorPane *active = splitScreenGetActivePane();
struct buffer_t *buf = bufferFindById(active->buffer_id);
active->cursor_x = 0;
active->cursor_y = 0;
active->rx = 0;
active->row_offset = 0;
active->col_offset = 0;
for (int i = 0; i < buf->numrows; ++i) {
free(buf->row[i].chars);
free(buf->row[i].render);
}
buf->numrows = 0;
free(buf->row);
buf->row = NULL;
buf->dirty = 0;
free(buf->filename);
buf->filename = NULL;
E.status_msg[0] = '\0';
E.status_msg_time = 0;
}
/**
* @brief Opens a file for editing
* @details Loads file content into editor rows, one line per row. If another
* file is already open, it is closed first (without saving). File is opened in
* a+ (read/append) mode to allow both reading and modification.
* @param filename Path to the file to open (relative or absolute)
* @note Updates global editor state E
* @note Calls die() on file open failure
* @note Newline characters are stripped from loaded lines
* @see editorInsertRow()
*/
void editorOpen(struct buffer_t* buffer) {
FILE *fp;
fp = fopen(buffer->filename, "a+");
if (!fp)
die("fopen");
char *line = NULL;
size_t line_cap = 0;
ssize_t line_len;
while ((line_len = getline(&line, &line_cap, fp)) != -1) {
while (line_len > 0 &&
(line[line_len - 1] == '\n' || line[line_len - 1] == '\r')) {
--line_len;
}
bufferInsertRow(buffer, buffer->numrows, line, line_len);
free(line);
line = NULL;
}
free(line);
fclose(fp);
E.dirty = 0;
}
/**
* @brief Saves the current file to disk
* @details Prompts for filename if not set, converts all rows to a buffer,
* writes to disk using open/ftruncate/write, and updates dirty flag.
* Displays status messages on success or failure.
* @note Updates global editor state E (dirty flag)
* @note If no filename is set, prompts user via editorPrompt()
* @note Uses O_RDWR | O_CREAT with mode 0644
* @see editorRowsToString()
*/
void editorSave() {
EditorPane *active = splitScreenGetActivePane();
struct buffer_t *buffer = bufferFindById(active->buffer_id);
int len;
char *buf;
int fd;
if (buffer->filename == NULL) {
buffer->filename = editorPrompt("Save as: %s (ESC to cancel)", "", 1);
if (buffer->filename == NULL) {
editorSetStatusMessage("Save aborted");
return;
}
}
buf = bufferRowsToString(buffer, &len);
fd = open(buffer->filename, O_RDWR | O_CREAT, 0644);
if (fd != -1) {
if (ftruncate(fd, len) != -1) {
if (write(fd, buf, len) == len) {
close(fd);
free(buf);
E.dirty = 0;
editorSetStatusMessage("%d bytes written to disk", len);
return;
}
}
close(fd);
}
free(buf);
editorSetStatusMessage("Can't save! I/O error: %s", strerror(errno));
}
/**
* @brief Searches for a string in the document
* @details Prompts user for a search query, then searches forward from current
* cursor position. Updates cursor position to the first match found.
* @note Updates global editor state E (cursor position, row_offset)
* @note Search is case-sensitive and operates on rendered line content
* @note Searches begin from the line after current cursor position
* @see editorPrompt()
* @see editorRowRxToCx()
*/
void bufferFind(struct buffer_t *buf) {
fprintf(stderr, "searching\n");
char *query = editorPrompt("Search: %s (ESC to cancel)", "", 0);
EditorPane *active = splitScreenGetActivePane();
if (query == NULL)
return;
int i;
for (i = active->cursor_y + 1; i < buf->numrows; i++) {
frow *row = &buf->row[i];
char *match = strstr(row->render, query);
if (match) {
active->cursor_y = i;
active->cursor_x = bufferRowRxToCx(row, match - row->render);
buf->row_offset = buf->numrows;
break;
}
}
free(query);
}
/**
* @file file_io.c
* @brief File I/O operations module for the Beluga text editor
* @details Handles file loading, saving, searching, and buffer management.
* Provides functionality for opening/closing files, persisting changes to disk,
* and searching for text patterns within the document.
*/
#include "../include/file_io.h"
#include "../include/editor_op.h"
#include "../include/input.h"
#include "../include/buffer.h"
#include "../include/data.h"
#include "../include/split_screen.h"
#include "../include/row_op.h"
#include <fcntl.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <errno.h>
/**
* @brief Closes the current file and resets editor state
* @details Clears all rows, resets cursor position, scroll offsets, and file
* metadata. Does not prompt to save unsaved changes.
* @note Updates global editor state E
*/
void editorCloseFile(void) {
EditorPane *active = splitScreenGetActivePane();
struct buffer_t *buf = bufferFindById(active->buffer_id);
active->cursor_x = 0;
active->cursor_y = 0;
active->x_offset = 0;
active->y_offset = 0;
for (int i = 0; i < buf->numrows; ++i) {
free(buf->row[i].chars);
}
buf->numrows = 0;
free(buf->row);
buf->row = NULL;
buf->dirty = 0;
free(buf->filename);
buf->filename = NULL;
E.status_msg[0] = '\0';
E.status_msg_time = 0;
}
/**
* @brief Opens a file for editing
* @details Loads file content into editor rows, one line per row. If another
* file is already open, it is closed first (without saving). File is opened in
* a+ (read/append) mode to allow both reading and modification.
* @param buffer Path to the file to open (relative or absolute)
* @note Updates global editor state E
* @note Calls die() on file open failure
* @note Newline characters are stripped from loaded lines
* @see editorInsertRow()
*/
void editorOpen(struct buffer_t* buffer) {
FILE *fp;
char full_name[1024];
strcpy(full_name, buffer->path);
strcat(full_name, "/");
strcat(full_name, buffer->filename);
strcat(full_name, "\0");
appDebug("full name : %s", full_name);
fp = fopen(full_name, "a+");
if (!fp)
die("fopen");
char *line = NULL;
size_t line_cap;
ssize_t line_len;
rewind(fp);
while ((line_len = getline(&line, &line_cap, fp)) != -1) {
while (line_len > 0 &&
(line[line_len - 1] == '\n' || line[line_len - 1] == '\r')) {
--line_len;
}
appDebug("line %s\n", line);
bufferInsertRow(buffer, buffer->numrows, line, line_len);
free(line);
line = NULL;
}
free(line);
fclose(fp);
E.dirty = 0;
}
/**
* @brief Saves the current file to disk
* @details Prompts for filename if not set, converts all rows to a buffer,
* writes to disk using open/ftruncate/write, and updates dirty flag.
* Displays status messages on success or failure.
* @note Updates global editor state E (dirty flag)
* @note If no filename is set, prompts user via editorPrompt()
* @note Uses O_RDWR | O_CREAT with mode 0644
* @see editorRowsToString()
*/
void editorSave() {
EditorPane *active = splitScreenGetActivePane();
struct buffer_t *buffer = bufferFindById(active->buffer_id);
int len;
int fd;
if (buffer->filename == NULL) {
buffer->filename = editorPrompt("Save as: %s (ESC to cancel)", "", 1);
if (buffer->filename == NULL) {
editorSetStatusMessage("Save aborted");
return;
}
}
fd = open(buffer->fullname, O_RDWR | O_CREAT, 0644);
if (fd != -1) {
for (int i = 0; i < buffer->numrows; ++i)
{
len = (int) strlen(buffer->row[i].chars);
if (write(fd, buffer->row[i].chars, len) != len) {
close(fd);
editorSetStatusMessage("Can't save! I/O error: %s", strerror(errno));
return;
}
write(fd, "\n", 1);
}
buffer->dirty = 0;
close(fd);
}
editorSetStatusMessage("File saved");
}
src/init.c
+172 -138
View File
@@ -1,138 +1,172 @@
#include "../include/init.h"
#include "../include/builtins.h"
#include "../include/color.h"
#include "../include/data.h"
#include "../include/terminal.h"
#include "include/split_screen.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#define LISP_IMPLEMENTATION
#include "../include/lisp.h"
#include "../include/lisp_lib.h"
struct editorConfig;
void registerBuiltin(char *key_sequence, LispCFunc f) {
lisp_env_define(E.ctx.p->env, lisp_make_symbol(key_sequence, E.ctx),
lisp_make_func(f), E.ctx);
}
void initBuiltins() {
// Registering C functions as lisp macro
registerBuiltin("move-cursor", moveCursor);
registerBuiltin("map-key", mapKey);
registerBuiltin("editor-quit", editorQuit);
registerBuiltin("editor-save", l_editorSave);
registerBuiltin("editor-insert-new-line", l_editorInsertNewLine);
registerBuiltin("move-cursor-beg-line", moveCursorBeginLine);
registerBuiltin("move-cursor-end-line", moveCursorEndLine);
registerBuiltin("editor-delete-previous-char", deletePreviousChar);
registerBuiltin("move-cursor-page-up", editorMoveCursorPageUp);
registerBuiltin("move-cursor-page-down", editorMoveCursorPageDown);
registerBuiltin("editor-open-file", editorOpenFile);
registerBuiltin("editor-insert-char", editorPrintC);
registerBuiltin("add-package", addPackage);
registerBuiltin("editor-del-row", editorDelRow_L);
registerBuiltin("buffer-find", bufferFind_L);
registerBuiltin("editor-read-char", editorReadChar_L);
registerBuiltin("add-prefix", editorPrefix);
registerBuiltin("editor-set-prefix", editorSetPrefix);
registerBuiltin("editor-insert-tab", l_editorInserTab);
registerBuiltin("editor-switch-next-buffer", editorSwitchNextBuffer);
registerBuiltin("editor-split-screen-vertical", l_editorSplitScreenVertical);
registerBuiltin("editor-switch-next-pane", editorSwitchNextPane);
registerBuiltin("editor-unify-panes", editorUnifiedPanes);
registerBuiltin("editor-create-terminal", editorCreateTerminal);
}
void initConfig() {
E.ctx = lisp_init();
E.env = lisp_env(E.ctx);
lisp_lib_load(E.ctx);
// Init builtins lisp functions
initBuiltins();
// Read config file
E.ctx_data = lisp_read_file(E.fd_init_file, &E.ctx_error, E.ctx);
if (E.ctx_error != LISP_ERROR_NONE) {
die("init failed");
}
lisp_eval(E.ctx_data, &E.ctx_error, E.ctx);
}
void init_theme() {
E.constantes.THEME = (char *)lisp_string(
lisp_eval(lisp_read("THEME", &E.ctx_error, E.ctx), &E.ctx_error, E.ctx));
if (strcmp(E.constantes.THEME, "dark") == 0) {
E.theme.BACKGROUND_COLOR = ANSI_BG_RGB(40, 44, 52);
E.theme.COLOR_KEYWORD = ANSI_FG_RGB(198, 120, 221);
E.theme.COLOR_TYPE = ANSI_FG_RGB(97, 175, 239);
E.theme.COLOR_STRING = ANSI_FG_RGB(152, 195, 121);
E.theme.COLOR_COMMENT = ANSI_FG_RGB(92, 99, 112);
E.theme.COLOR_NUMBER = ANSI_FG_RGB(209, 154, 102);
E.theme.COLOR_DEFAULT = ANSI_FG_RGB(171, 178, 191);
} else {
E.theme.BACKGROUND_COLOR = ANSI_BG_RGB(250, 251, 252);
E.theme.COLOR_KEYWORD = ANSI_FG_RGB(166, 38, 164);
E.theme.COLOR_TYPE = ANSI_FG_RGB(4, 90, 180);
E.theme.COLOR_STRING = ANSI_FG_RGB(80, 161, 79);
E.theme.COLOR_COMMENT = ANSI_FG_RGB(152, 152, 152);
E.theme.COLOR_NUMBER = ANSI_FG_RGB(206, 102, 54);
E.theme.COLOR_DEFAULT = ANSI_FG_RGB(86, 89, 90);
}
}
void initEditor() {
if (getWindowSize(&E.screenrows, &E.screencols) == -1) {
die("getWindowSize");
}
E.screenrows -= 2;
// Init graphics variables
splitScreenInit();
EditorPane *active = splitScreenGetActivePane();
active->cursor_x = 0;
active->cursor_y = 0;
active->rx = 0;
active->row_offset = 0;
active->col_offset = 0;
E.init_file_path = (char *)calloc(256, sizeof(char));
strcat(E.init_file_path, getenv("HOME"));
strcat(E.init_file_path, "/.beluga/config/init.lisp");
E.fd_init_file = fopen(E.init_file_path, "r");
// Status bar
E.status_msg[0] = '\0';
E.status_msg_time = 0;
// Key binds
E.number_of_keybinds = 0;
E.number_of_prefix = 0;
// General prefix is 0 (no prefix)
E.prefix = (struct prefix_t *)malloc(sizeof(struct prefix_t));
E.prefix[0].prefix_id = 0;
strncpy(E.prefix[0].prefix_name, "no-prefix", 64);
E.prefix_state = 0;
initConfig();
init_theme();
// To modify
E.constantes.TAB_LENGTH =
(int)lisp_eval(lisp_read("TAB-LENGTH", &E.ctx_error, E.ctx), &E.ctx_error,
E.ctx)
.val.int_val;
E.constantes.QUIT_TIMES =
(int)lisp_eval(lisp_read("QUIT-TIMES", &E.ctx_error, E.ctx), &E.ctx_error,
E.ctx)
.val.int_val;
E.quit_times_buffer = E.constantes.QUIT_TIMES;
}
#include "../include/init.h"
#include "../include/builtins.h"
#include "../include/color.h"
#include "../include/data.h"
#include "../include/terminal.h"
#include "../include/split_screen.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#define LISP_IMPLEMENTATION
#include "../include/lisp.h"
#include "../include/lisp_lib.h"
struct editorConfig;
void registerBuiltin(char *key_sequence, LispCFunc f) {
lisp_env_define(E.ctx.p->env, lisp_make_symbol(key_sequence, E.ctx),
lisp_make_func(f), E.ctx);
}
void initBuiltins() {
// Registering C functions as lisp macro
registerBuiltin("move-cursor", moveCursor);
registerBuiltin("map-key", mapKey);
registerBuiltin("editor-quit", editorQuit);
registerBuiltin("editor-save", l_editorSave);
registerBuiltin("editor-insert-new-line", l_editorInsertNewLine);
registerBuiltin("move-cursor-beg-line", moveCursorBeginLine);
registerBuiltin("move-cursor-end-line", moveCursorEndLine);
registerBuiltin("editor-delete-previous-char", deletePreviousChar);
registerBuiltin("move-cursor-page-up", editorMoveCursorPageUp);
registerBuiltin("move-cursor-page-down", editorMoveCursorPageDown);
registerBuiltin("editor-open-file", editorOpenFile);
registerBuiltin("editor-insert-char", editorPrintC);
registerBuiltin("add-package", addPackage);
registerBuiltin("buffer-find", bufferFind_L);
registerBuiltin("buffer-find-reverse", bufferFindReverse_L);
registerBuiltin("editor-read-char", editorReadChar_L);
registerBuiltin("add-prefix", editorPrefix);
registerBuiltin("editor-set-prefix", editorSetPrefix);
registerBuiltin("editor-insert-tab", l_editorInserTab);
registerBuiltin("editor-switch-next-buffer", editorSwitchNextBuffer);
registerBuiltin("editor-split-screen-vertical", l_editorSplitScreenVertical);
registerBuiltin("editor-switch-next-pane", editorSwitchNextPane);
registerBuiltin("editor-unify-panes", editorUnifiedPanes);
registerBuiltin("editor-paste", editorPaste);
registerBuiltin("editor-cut-end-line", editorCutEndLine);
registerBuiltin("editor-move-cursor-beg-buffer", editorMoveBegBuffer);
registerBuiltin("editor-move-cursor-end-buffer", editorMoveEndBuffer);
registerBuiltin("editor-auto-complete", editorAutoComplete);
// registerBuiltin("lsp-complete", lspComplete);
registerBuiltin("lsp-definition", lspDefinition);
}
void initConfig() {
E.ctx = lisp_init();
E.ctx.p->err_port = fopen("log.err", "w");
E.env = lisp_env(E.ctx);
lisp_lib_load(E.ctx);
// Init builtins lisp functions
initBuiltins();
// Read config file
E.ctx_data = lisp_read_file(E.fd_init_file, &E.ctx_error, E.ctx);
if (E.ctx_error != LISP_ERROR_NONE) {
die("init failed");
}
lisp_eval(E.ctx_data, &E.ctx_error, E.ctx);
}
void initTheme() {
E.constantes.THEME = (char *)lisp_string(
lisp_eval(lisp_read("THEME", &E.ctx_error, E.ctx), &E.ctx_error, E.ctx));
E.constantes.LSP = lisp_bool(lisp_eval(lisp_read("LSP", &E.ctx_error, E.ctx), &E.ctx_error, E.ctx));
appDebug("LSP ON : %d", E.constantes.LSP);
if (strcmp(E.constantes.THEME, "dark") == 0) {
E.theme.BACKGROUND_COLOR = ANSI_BG_RGB(40, 44, 52);
E.theme.COLOR_KEYWORD = ANSI_FG_RGB(198, 120, 221);
E.theme.COLOR_TYPE = ANSI_FG_RGB(97, 175, 239);
E.theme.COLOR_STRING = ANSI_FG_RGB(152, 195, 121);
E.theme.COLOR_COMMENT = ANSI_FG_RGB(92, 99, 112);
E.theme.COLOR_NUMBER = ANSI_FG_RGB(209, 154, 102);
E.theme.COLOR_DEFAULT = ANSI_FG_RGB(171, 178, 191);
} else {
E.theme.BACKGROUND_COLOR = ANSI_BG_RGB(250, 251, 252);
E.theme.COLOR_KEYWORD = ANSI_FG_RGB(166, 38, 164);
E.theme.COLOR_TYPE = ANSI_FG_RGB(4, 90, 180);
E.theme.COLOR_STRING = ANSI_FG_RGB(80, 161, 79);
E.theme.COLOR_COMMENT = ANSI_FG_RGB(152, 152, 152);
E.theme.COLOR_NUMBER = ANSI_FG_RGB(206, 102, 54);
E.theme.COLOR_DEFAULT = ANSI_FG_RGB(86, 89, 90);
}
}
void initEditor() {
if (getWindowSize(&E.screenrows, &E.screencols) == -1) {
die("getWindowSize");
}
appDebug("%d %d", E.screenrows, E.screencols);
E.screenrows -= 2;
// Init graphics variables
splitScreenInit();
EditorPane *active = splitScreenGetActivePane();
E.cursor_x = 0;
E.cursor_y = 0;
active->cursor_x = 0;
active->cursor_y = 0;
active->origin_x = 0;
active->origin_y = 0;
active->width = E.screencols;
active->height = E.screenrows;
E.init_file_path = (char *)calloc(256, sizeof(char));
strcat(E.init_file_path, getenv("HOME"));
strcat(E.init_file_path, "/.beluga/config/init.lisp");
appDebug("%s\n", E.init_file_path);
E.fd_init_file = fopen(E.init_file_path, "r");
// Status bar
E.status_msg = (char *)calloc(E.screencols, sizeof(char));
E.status_msg[0] = '\0';
E.status_msg_time = 0;
// Key binds
E.number_of_keybinds = 0;
E.number_of_prefix = 0;
// General prefix is 0 (no prefix)
E.prefix = (struct prefix_t *)malloc(sizeof(struct prefix_t));
E.prefix[0].prefix_id = 0;
strncpy(E.prefix[0].prefix_name, "no-prefix", 64);
E.prefix_state = 0;
E.lsp_client = (LspClient*)malloc(sizeof(LspClient));
E.lsp_client->state = LSP_SHUTDOWN;
initConfig();
initTheme();
// To modify
E.constantes.TAB_LENGTH =
(int)lisp_eval(lisp_read("TAB-LENGTH", &E.ctx_error, E.ctx), &E.ctx_error,
E.ctx)
.val.int_val;
E.constantes.QUIT_TIMES =
(int)lisp_eval(lisp_read("QUIT-TIMES", &E.ctx_error, E.ctx), &E.ctx_error,
E.ctx)
.val.int_val;
E.quit_times_buffer = E.constantes.QUIT_TIMES;
}
void deInitEditor()
{
freeScreenLayout(&E.layout);
free(E.lsp_client);
free(E.status_msg);
free(E.init_file_path);
free(E.key_binds);
for (int i = 0; i < E.number_of_keybinds; i++)
{
free(E.key_binds[i].key_sequence);
}
}
src/input.c
+281 -393
View File
@@ -1,393 +1,281 @@
#include "../include/input.h"
#include "../include/define.h"
#include "../include/editor_op.h"
#include "../include/output.h"
#include "include/buffer.h"
#include "include/data.h"
#include "include/split_screen.h"
#include <ctype.h>
#include <dirent.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/stat.h>
extern struct editorConfig E;
/**
* @file input.c
* @brief Input handling module for the Beluga text editor
* @details Manages user input processing, key bindings, cursor movement, and file path completion
*/
/**
* @brief Returns the first file completion match for the given path
* @details Searches the directory containing the given path prefix and returns
* the first file or directory entry that matches the filename prefix.
* Appends a trailing slash for directory entries.
* @param path The file path to complete (can be relative or absolute)
* @return Pointer to the completed file path (dynamically allocated), or NULL if:
* - path ends with '/' (already a directory)
* - no matching entries found
* - directory cannot be opened
* @note Caller is responsible for freeing the returned string
* @note Uses static buffer internally; may return stale pointers across calls
*/
const char *file_completion(const char *path) {
DIR *dir;
struct dirent *entry;
char directory[128];
char predict[128];
const char *last_slash;
int predict_len = 0;
size_t dir_len;
// path is a directory
if (path[strlen(path) - 1] == '/') {
fprintf(stderr, "[FILE COMP] is dir\n");
strncpy(directory, path, 128);
}
// Find dir name
last_slash = strrchr(path, '/');
if (last_slash) {
dir_len = last_slash - path + 1; // length of dir_path
strncpy(directory, path, dir_len);
predict_len = strlen(path) - dir_len;
strncpy(predict, last_slash + 1, predict_len);
directory[dir_len] = '\0';
predict[predict_len] = '\0';
fprintf(stderr, "%s %s\n", directory, predict);
} else {
fprintf(stderr, "[FILE COMP] dir not found\n");
return strdup(path);
}
dir = opendir(directory);
if (!dir)
return strdup(path);
while ((entry = readdir(dir)) != NULL) {
if (strncmp(entry->d_name, predict, predict_len) == 0) {
static char full_path[512];
snprintf(full_path, sizeof(full_path), "%s%s", directory, entry->d_name);
struct stat st;
if (stat(full_path, &st) == 0 && S_ISDIR(st.st_mode)) {
strcat(full_path, "/"); // add slash for directories
}
closedir(dir);
return strdup(full_path);
}
}
// Cleanup when no more entries
closedir(dir);
dir = NULL;
free(entry);
fprintf(stderr, "[FILE COMP] no entries\n");
return strdup(path);
}
/**
* @brief Displays an interactive prompt and returns user input
* @details Allows the user to enter text in a prompt with optional path completion
* via Tab key. Supports backspace, delete, and escape key handling. Dynamically
* allocates memory for the input buffer.
* @param prompt The prompt message format string (printf-style)
* @param placeHolder Initial text to display in the input buffer
* @param bPathMode If non-zero, enables Tab key file path completion
* @return Pointer to the user-entered text (dynamically allocated), or NULL if:
* - User pressed ESC to cancel
* - Input buffer is empty when Enter is pressed
* @note Caller is responsible for freeing the returned string
* @note Uses editorReadKey() for input and editorRefreshScreen() for display
*/
char *editorPrompt(char *prompt, char *placeHolder, char bPathMode) {
size_t buf_size = 128;
char *buf = malloc(buf_size);
size_t buf_len = 0;
int c = 0;
buf[0] = '\0';
strcpy(buf, placeHolder);
buf_len = strlen(placeHolder);
while (1) {
editorSetStatusMessage(prompt, buf);
editorRefreshScreen();
c = editorReadKey();
if (c == DEL_KEY || c == CTRL_KEY('h') || c == BACKSPACE) {
if (buf_len != 0) {
buf[--buf_len] = '\0';
}
} else if (c == ESCAPE) {
editorSetStatusMessage("");
free(buf);
return NULL;
} else if (c == '\r') {
if (buf_len != 0) {
editorSetStatusMessage("");
return buf;
}
} else if (bPathMode && c == '\t') {
char path[128];
char *pwd;
if (buf[0] != '/') {
pwd = getenv("PWD");
fprintf(stderr, "%s\n", pwd);
memcpy(path, pwd, strlen(pwd));
path[strlen(pwd)] = '/';
strncat(path, buf, buf_len);
} else {
strcpy(path, buf);
}
memset(buf, 0, 128);
buf_len = 0;
char * buf_complete = (char *) file_completion(path);
strcpy(buf, buf_complete);
free(buf_complete);
buf_len = strlen(buf);
buf[buf_len] = '\0';
} else if (!iscntrl(c) && c < 128) {
if (buf_len == buf_size - 1) {
buf_size *= 2;
buf = realloc(buf, buf_size);
}
buf[buf_len++] = c;
buf[buf_len] = '\0';
}
}
}
/**
* @brief Converts a key code to its string representation
* @details Translates raw key codes (including special keys, control keys,
* and regular characters) into human-readable string formats suitable for
* display and keybinding configuration.
* @param key The key code to convert
* @return Pointer to static buffer containing the string representation.
* Examples: "ENTER", "ARROW-UP", "CTRL-a", "TAB", "DELETE", etc.
* @note Returns pointer to static buffer; string is overwritten on next call
* @note Non-printable characters are formatted as "KEY-<number>"
*/
char *key_to_string(int key) {
static char key_str[32];
char tmp[10];
sprintf(tmp, "%d", key);
// First test enter key
if (key == '\r') {
strcpy(key_str, "ENTER");
} else if (key == '\t') {
strcpy(key_str, "TAB");
} else if (key >= 1 && key <= 26) { // CTRL keys
snprintf(key_str, sizeof(key_str), "CTRL-%c", 'a' + key - 1);
} else {
switch (key) {
case ARROW_UP:
strcpy(key_str, "ARROW-UP");
break;
case ARROW_DOWN:
strcpy(key_str, "ARROW-DOWN");
break;
case ARROW_LEFT:
strcpy(key_str, "ARROW-LEFT");
break;
case ARROW_RIGHT:
strcpy(key_str, "ARROW-RIGHT");
break;
case PAGE_UP:
strcpy(key_str, "PAGE-UP");
fprintf(stderr, "pagr up\n");
break;
case PAGE_DOWN:
strcpy(key_str, "PAGE-DOWN");
break;
case DEL_KEY:
strcpy(key_str, "DEL");
break;
case BACKSPACE:
strcpy(key_str, "BACKSPACE");
break;
case '\r':
strcpy(key_str, "ENTER");
break;
case '\x1b':
strcpy(key_str, "ESCAPE");
break;
case BEG_LINE:
strcpy(key_str, "HOME");
break;
case END_LINE:
strcpy(key_str, "END");
break;
default:
// For regular characters
if (isprint(key)) {
snprintf(key_str, sizeof(key_str), "%c", key);
} else {
snprintf(key_str, sizeof(key_str), "KEY-%d", key);
}
}
}
return key_str;
}
/**
* @brief Moves the cursor based on arrow key input
* @details Updates cursor position (E.cursor_x, E.cursor_y) based on the given
* key direction. Handles line wrapping and boundary conditions. Prevents cursor
* from exceeding line lengths.
* @param key The arrow key code (ARROW_UP, ARROW_DOWN, ARROW_LEFT, ARROW_RIGHT)
* @return 1 if cursor movement was valid, 0 if cursor was constrained to line boundary
* @note Updates global editor state E
*/
int editorMoveCursor(int key) {
EditorPane *active = splitScreenGetActivePane();
struct buffer_t *buf = bufferFindById(active->buffer_id);
frow *row = (active->cursor_y + active->row_offset >= buf->numrows) ? NULL : &buf->row[active->cursor_y + active->row_offset];
int row_len;
int x = active->cursor_x + active->col_offset;
int y = active->cursor_y + active->row_offset;
switch (key) {
case ARROW_RIGHT:
if (row && x < row->size) {
active->cursor_x++;
} else if (row && y == row->size) {
active->cursor_y++;
active->cursor_x = 0;
}
break;
case ARROW_DOWN:
if (y < buf->numrows) {
active->cursor_y++;
}
break;
case ARROW_UP:
if (y != 0) {
--active->cursor_y;
}
break;
case ARROW_LEFT:
if (x != 0) {
--active->cursor_x;
} else if (y > 0) {
--active->cursor_y;
active->cursor_x = buf->row[y].size;
}
break;
}
return 1;
}
/**
* @brief Executes the command bound to a key sequence
* @details Searches the keybinding table for a matching key sequence and
* prefix state, then evaluates the associated Lisp command.
* @param key_sequence The string representation of the key sequence
* @return 1 if a matching keybinding was found and executed, 0 otherwise
* @note Updates global editor state E (prefix_state)
* @note Uses Lisp interpreter to evaluate bound commands
*/
int executeKeyBind(char *key_sequence) {
int i;
int previous_state = 0;
fprintf(stderr, "pressed %s\n", key_sequence);
for (i = 0; i < E.number_of_keybinds; ++i) {
if (!strcmp(key_sequence, E.key_binds[i].key_sequence)) {
if (E.prefix_state != E.key_binds[i].prefix_id) {
continue;
}
previous_state = E.prefix_state;
// It's a symbol, create a function call
lisp_eval(lisp_cons(E.key_binds[i].command, lisp_null(), E.ctx),
&E.ctx_error, E.ctx);
if (E.prefix_state == previous_state)
E.prefix_state = 0;
return 1;
}
}
return 0;
}
/**
* @brief Handles terminal-specific key processing
* @details Processes key presses for terminal buffers, handling command input
* and execution.
* @param c The key code
* @return 1 if key was handled, 0 otherwise
*/
int handleTerminalKeypress(int c) {
EditorPane *active = splitScreenGetActivePane();
struct buffer_t *buf = bufferFindById(active->buffer_id);
if (buf == NULL || buf->type != TERMINAL_BUFF) {
return 0;
}
// Handle terminal-specific keys
if (c == '\r') { // Enter key - execute command
if (buf->terminal_command && strlen(buf->terminal_command) > 0) {
bufferExecuteTerminalCommand(buf->buffer_id, buf->terminal_command);
return 1;
}
} else if (c == BACKSPACE || c == CTRL_KEY('h')) { // Backspace
if (buf->terminal_command && strlen(buf->terminal_command) > 0) {
buf->terminal_command[strlen(buf->terminal_command) - 1] = '\0';
return 1;
}
} else if (c == CTRL_KEY('c')) { // Ctrl+C - clear command
if (buf->terminal_command) {
free(buf->terminal_command);
buf->terminal_command = NULL;
}
return 1;
} else if (!iscntrl(c) && c < 128) { // Regular character input
if (buf->terminal_command == NULL) {
buf->terminal_command = malloc(2);
buf->terminal_command[0] = c;
buf->terminal_command[1] = '\0';
} else {
int len = strlen(buf->terminal_command);
buf->terminal_command = realloc(buf->terminal_command, len + 2);
buf->terminal_command[len] = c;
buf->terminal_command[len + 1] = '\0';
}
return 1;
}
return 0;
}
/**
* @brief Processes a single keypress from the user
* @details Reads a key, checks if it matches any registered keybinding,
* and either executes the bound command or inserts the character. Resets
* the quit buffer counter on successful key processing.
* @note Updates global editor state E
* @note Calls editorReadKey() to get input and editorInsertChar() for unbound keys
*/
void editorProcessKeypress() {
int c = editorReadKey();
// First try terminal-specific handling
if (handleTerminalKeypress(c)) {
return;
}
if (executeKeyBind(key_to_string(c))) {
return;
}
bufferInsertChar(c);
E.quit_times_buffer = E.constantes.QUIT_TIMES;
}
#include "../include/input.h"
#include "../include/define.h"
#include "../include/editor_op.h"
#include "../include/output.h"
#include "include/buffer.h"
#include "include/builtins.h"
#include "../include/completion.h"
#include "include/data.h"
#include "include/split_screen.h"
#include <ctype.h>
#include <dirent.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/stat.h>
#include "include/terminal.h"
#include "include/utf8.h"
/**
* @file input.c
* @brief Input handling module for the Beluga text editor
* @details Manages user input processing, key bindings, cursor movement, and
* file path completion
*/
/**
* @brief Returns the first file completion match for the given path
* @details Searches the directory containing the given path prefix and returns
* the first file or directory entry that matches the filename prefix.
* Appends a trailing slash for directory entries.
* @param path The file path to complete (can be relative or absolute)
* @return Pointer to the completed file path (dynamically allocated), or NULL
* if:
* - path ends with '/' (already a directory)
* - no matching entries found
* - directory cannot be opened
* @note Caller is responsible for bFreeing the returned string
* @note Uses static buffer internally; may return stale pointers across calls
*/
const char *fileCompletion(const char *path) {
DIR *dir;
struct dirent *entry;
char directory[256];
char predict[128];
const char *last_slash;
int predict_len = 0;
size_t dir_len;
// path is a directory
if (path[strlen(path) - 1] == '/') {
appDebug("[FILE COMP] is dir\n");
strncpy(directory, path, 256);
}
// Find dir name
last_slash = strrchr(path, '/');
if (last_slash) {
dir_len = last_slash - path + 1; // length of dir_path
strncpy(directory, path, dir_len);
predict_len = (int)(strlen(path) - dir_len);
strncpy(predict, last_slash + 1, predict_len);
directory[dir_len] = '\0';
predict[predict_len] = '\0';
appDebug("%s %s\n", directory, predict);
} else {
appDebug("[FILE COMP] dir not found\n");
return strdup(path);
}
dir = opendir(directory);
if (!dir)
return strdup(path);
while ((entry = readdir(dir)) != NULL) {
if (strncmp(entry->d_name, predict, predict_len) == 0) {
static char full_path[1024];
snprintf(full_path, sizeof(full_path), "%s%s", directory, entry->d_name);
struct stat st;
if (stat(full_path, &st) == 0 && S_ISDIR(st.st_mode)) {
strcat(full_path, "/"); // add slash for directories
}
closedir(dir);
return strdup(full_path);
}
}
// Cleanup when no more entries
closedir(dir);
dir = NULL;
free(entry);
appDebug("[FILE COMP] no entries\n");
return strdup(path);
}
/**
* @brief Displays an interactive prompt and returns user input
* @details Allows the user to enter text in a prompt with optional path
* completion via Tab key. Supports backspace, delete, and escape key handling.
* Dynamically allocates memory for the input buffer.
* @param prompt The prompt message format string (printf-style)
* @param placeHolder Initial text to display in the input buffer
* @param bPathMode If non-zero, enables Tab key file path completion
* @return Pointer to the user-entered text (dynamically allocated), or NULL if:
* - User pressed ESC to cancel
* - Input buffer is empty when Enter is pressed
* @note Caller is responsible for bFreeing the returned string
* @note Uses editorReadKey() for input and editorRefreshScreen() for display
*/
char *editorPrompt(char *prompt, char *placeHolder, char bPathMode) {
size_t buf_size = 256;
appDebug("[FILE COMP] %s %d\n", placeHolder, strlen(placeHolder));
char *buf = malloc(buf_size);
size_t buf_len = 0;
int c = 0;
buf[0] = '\0';
strcpy(buf, placeHolder);
buf_len = strlen(placeHolder);
while (1) {
editorSetStatusMessage(prompt, buf);
editorRefreshScreen();
c = editorReadKey();
if (c == DEL_KEY || c == CTRL_KEY('h') || c == BACKSPACE) {
if (buf_len != 0) {
buf[--buf_len] = '\0';
}
} else if (c == ESCAPE) {
editorSetStatusMessage("");
free(buf);
return NULL;
} else if (c == '\r') {
if (buf_len != 0) {
editorSetStatusMessage("");
return buf;
}
} else if (bPathMode && c == '\t') {
char path[256];
char *pwd;
if (buf[0] != '/') {
pwd = getenv("PWD");
appDebug("%s\n", pwd);
memcpy(path, pwd, strlen(pwd));
path[strlen(pwd)] = '/';
strncat(path, buf, buf_len);
} else {
strcpy(path, buf);
}
memset(buf, 0, 256);
char *buf_complete = (char *)fileCompletion(path);
strcpy(buf, buf_complete);
free(buf_complete);
buf_len = strlen(buf);
buf[buf_len] = '\0';
} else if (!iscntrl(c) && c < 256) {
if (buf_len == buf_size - 1) {
buf_size *= 2;
buf = realloc(buf, buf_size);
}
buf[buf_len++] = (char)c;
buf[buf_len] = '\0';
}
}
}
/**
* @brief Executes the command bound to a key sequence
* @details Searches the keybinding table for a matching key sequence and
* prefix state, then evaluates the associated Lisp command.
* @param key_sequence The string representation of the key sequence
* @return 1 if a matching keybinding was found and executed, 0 otherwise
* @note Updates global editor state E (prefix_state)
* @note Uses Lisp interpreter to evaluate bound commands
*/
int executeKeyBind(char *key_sequence) {
int i;
int previous_state = 0;
appDebug("pressed %s\n", key_sequence);
for (i = 0; i < E.number_of_keybinds; ++i) {
if (!strcmp(key_sequence, E.key_binds[i].key_sequence)) {
if (E.prefix_state != E.key_binds[i].prefix_id) {
continue;
}
previous_state = E.prefix_state;
// It's a symbol, create a function call
lisp_eval(lisp_cons(E.key_binds[i].command, lisp_null(), E.ctx),
&E.ctx_error, E.ctx);
if (E.prefix_state == previous_state)
E.prefix_state = 0;
return 1;
}
}
return 0;
}
/**
* @brief Processes a single keypress from the user
* @details Reads a key, checks if it matches any registered keybinding,
* and either executes the bound command or inserts the character. Resets
* the quit buffer counter on successful key processing.
* @note Updates global editor state E
* @note Calls editorReadKey() to get input and editorInsertChar() for unbound
* keys
*/
void editorProcessKeypress() {
int c = editorReadKey();
char key_sequence[8];
EditorPane *active = splitScreenGetActivePane();
struct buffer_t *buf = bufferFindById(active->buffer_id);
if (E.constantes.LSP && buf->b_lsp_open) {
if (c == LSP_WAKE_KEY)
return;
if (E.lsp_client && E.lsp_completion.visible) {
if (c == ARROW_UP || c == CTRL_KEY('p')) {
if (E.lsp_completion.selected > 0)
E.lsp_completion.selected--;
return; // consumed, redraw on next loop
}
if (c == ARROW_DOWN || c == CTRL_KEY('n')) {
if (E.lsp_completion.selected < E.lsp_completion.count - 1)
E.lsp_completion.selected++;
return;
}
if (c == '\r') {
CompletionItem *item =
&E.lsp_completion.items[E.lsp_completion.selected];
// Find how many chars the user already typed by looking at the
// current word (chars before cursor on the same line)
int file_col = active->cursor_x + active->x_offset;
row_t *row = &buf->row[active->cursor_y + active->y_offset];
// Walk backwards from cursor to find start of current word
int word_start = file_col;
while (word_start > 0 &&
(isalnum((unsigned char)row->chars[word_start - 1]) ||
row->chars[word_start - 1] == '_'))
word_start--;
int already_typed = file_col - word_start; // chars user already typed
// Insert only the suffix — what comes after what's already typed
const char *suffix = item->label + already_typed;
for (int i = 0; suffix[i]; i++)
bufferInsertBytes(&suffix[i], 1);
E.lsp_completion.visible = 0;
return;
}
if (c == ESCAPE) {
E.lsp_completion.visible = 0;
return;
}
// Any other key: dismiss popup and fall through to normal handling
E.lsp_completion.visible = 0;
}
}
if (executeKeyBind(keyToString(c))) {
return;
}
int seq_len = utf8Encode(c, key_sequence);
appDebug("key seq : %s\n", key_sequence);
bufferInsertBytes(key_sequence, seq_len);
if (buf->b_lsp_open && is_word_char(key_sequence)) {
if (E.lsp_client && E.lsp_client->state == LSP_READY) {
lspDidChange(E.lsp_client, buf);
E.lsp_client->completion_just_arrived = 0; // consume the flag
}
buf->b_has_changed = 0;
editorAutoComplete(lisp_null(), &E.ctx_error, E.ctx);
}
E.quit_times_buffer = E.constantes.QUIT_TIMES;
}
src/lsp_ui.c
+330
View File
@@ -0,0 +1,330 @@
//
// Created by Giorgio on 27/05/2026.
//
#include "include/lsp_ui.h"
#include "include/data.h"
#include <stdio.h>
#include <string.h>
// We use cJSON — drop cJSON.c + cJSON.h into src/ and include/
#include "include/cJSON.h"
#include "include/append_buffer.h"
#include "include/terminal.h"
// ─── ANSI helpers ─────────────────────────────────────────────────────────────
// Move terminal cursor to absolute (col, row) — 1-based
static void ab_move(struct abuf *ab, int row, int col) {
char esc[32];
int n = snprintf(esc, sizeof(esc), "\x1b[%d;%dH", row, col);
abAppend(ab, esc, n); // your existing abAppend
}
static void ab_sgr(struct abuf *ab, const char *codes) {
char esc[32];
int n = snprintf(esc, sizeof(esc), "\x1b[%sm", codes);
abAppend(ab, esc, n);
}
#define AB_RESET(ab) ab_sgr(ab, "0")
#define AB_BOLD(ab) ab_sgr(ab, "1")
#define AB_DIM(ab) ab_sgr(ab, "2")
#define AB_FG(ab, c) ab_sgr(ab, c) // e.g. "32" = green
#define AB_BG(ab, c) ab_sgr(ab, c) // e.g. "44" = blue bg
// ─── Completion item kind → short tag ────────────────────────────────────────
static const char *kind_tag(int k) {
switch (k) {
case 2: return "mth"; // Method
case 3: return "fn "; // Function
case 4: return "ctr"; // Constructor
case 5: return "fld"; // Field
case 6: return "var"; // Variable
case 7: return "cls"; // Class
case 9: return "ifc"; // Interface
case 14: return "kwd"; // Keyword
default: return " ";
}
}
static const char *kind_color(int k) {
switch (k) {
case 3: return "33"; // yellow — functions
case 2: return "36"; // cyan — methods
case 7: return "35"; // magenta — classes
case 14: return "34"; // blue — keywords
case 5:
case 6: return "32"; // green — fields/vars
default: return "37"; // white
}
}
// ─── Draw completion popup ───────────────────────────────────────────────────
//
// ┌─────────────────────────────────────┐
// │ fn printf int (const …) │ ← selected (bold, inverted)
// │ fn fprintf │
// │ fn sprintf │
// └─────────────────────────────────────┘
//
// Drawn using absolute cursor positioning — safe to call inside
// editorRefreshScreen() before the final write().
void lspUiDrawCompletion(struct abuf *ab, CompletionPopup *popup) {
appDebug("[DRAW] visible=%d count=%d origin=(%d,%d)\n",
popup->visible, popup->count,
popup->origin_x, popup->origin_y);
if (!popup->visible || popup->count == 0) return;
int visible_count = popup->count < COMPLETION_POPUP_H
? popup->count : COMPLETION_POPUP_H;
int box_w = COMPLETION_MAX_WIDTH;
// Scroll window so selected item is always visible
int scroll = 0;
if (popup->selected >= COMPLETION_POPUP_H)
scroll = popup->selected - COMPLETION_POPUP_H + 1;
// ── top border ────────────────────────────────────────────────────────────
ab_move(ab, popup->origin_y, popup->origin_x);
ab_sgr(ab, "0;37;40"); // white on black
abAppend(ab, "", 3); // UTF-8 box chars (3 bytes each)
for (int i = 0; i < box_w - 2; i++) abAppend(ab, "", 3);
abAppend(ab, "", 3);
// ── rows ──────────────────────────────────────────────────────────────────
for (int i = 0; i < visible_count; i++) {
int idx = i + scroll;
CompletionItem *it = &popup->items[idx];
int is_sel = (idx == popup->selected);
ab_move(ab, popup->origin_y + 1 + i, popup->origin_x);
if (is_sel) ab_sgr(ab, "7"); // reverse video (highlight)
else ab_sgr(ab, "0;37;40");
abAppend(ab, "| ", 2);
// kind tag in color
if (!is_sel) ab_sgr(ab, kind_color(it->kind));
abAppend(ab, kind_tag(it->kind), 3);
abAppend(ab, " ", 1);
if (!is_sel) AB_RESET(ab);
if (!is_sel) ab_sgr(ab, "37;40");
// label — left column, fixed width 20
char label_col[21];
snprintf(label_col, sizeof(label_col), "%-20s", it->label);
if (is_sel) AB_BOLD(ab);
abAppend(ab, label_col, 20);
if (is_sel) ab_sgr(ab, "22"); // bold off
abAppend(ab, " ", 1);
// detail — right column, dimmed
if (!is_sel) AB_DIM(ab);
char detail_col[14];
snprintf(detail_col, sizeof(detail_col), "%-13s", it->detail);
abAppend(ab, detail_col, 13);
AB_RESET(ab);
if (is_sel) ab_sgr(ab, "7");
else ab_sgr(ab, "37;40");
abAppend(ab, " |", 2);
AB_RESET(ab);
}
// ── scroll indicator on right border if needed ────────────────────────────
if (popup->count > COMPLETION_POPUP_H) {
int bar_row = popup->origin_y + 1 +
(popup->selected * (COMPLETION_POPUP_H - 1))
/ (popup->count - 1);
ab_move(ab, bar_row, popup->origin_x + box_w - 1);
ab_sgr(ab, "0;37;40");
abAppend(ab, "", 3);
AB_RESET(ab);
}
// ── bottom border ─────────────────────────────────────────────────────────
ab_move(ab, popup->origin_y + 1 + visible_count, popup->origin_x);
ab_sgr(ab, "0;37;40");
abAppend(ab, "", 3);
for (int i = 0; i < box_w - 2; i++) abAppend(ab, "", 3);
abAppend(ab, "", 3);
AB_RESET(ab);
}
// ─── Handle popup keys ────────────────────────────────────────────────────────
// Returns 1 if key was consumed, 0 if editor should handle it normally.
int lspUiHandleKey(CompletionPopup *popup, int key) {
if (!popup->visible) return 0;
switch (key) {
case '\x1b':
case '\r': // ESC — dismiss
popup->visible = 0;
return 1;
// Arrow up / Ctrl-p
case 'A' + 0x80:
case 0x10:
if (popup->selected > 0) popup->selected--;
return 1;
// Arrow down / Ctrl-n
case 'B' + 0x80:
case 0x0e:
if (popup->selected < popup->count - 1) popup->selected++;
return 1;
default:
// Any printable key: dismiss popup, let editor handle it
popup->visible = 0;
return 0;
}
}
static DiagSeverity diag_worst_on_line(DiagnosticList *diags,
int buffer_id, int line) {
DiagSeverity worst = 0;
for (int i = 0; i < diags->count; i++) {
Diagnostic *d = &diags->entries[i];
if (d->buffer_id == buffer_id && d->line == line) {
if (d->severity > worst) worst = d->severity; // ERROR > WARN > HINT
}
}
return worst;
}
// Call this once per screen row, right before you draw the row text.
// ab : your append buffer
// diags : &E.lsp_diagnostics
// buf_id : active buffer id
// line : file line number (0-based) for this screen row
void lspUiDrawGutter(struct abuf *ab, DiagnosticList *diags,
int buf_id, int line) {
DiagSeverity s = diag_worst_on_line(diags, buf_id, line);
switch (s) {
case DIAG_ERROR:
ab_sgr(ab, "1;31"); // bold red
abAppend(ab, "", 3);
break;
case DIAG_WARNING:
ab_sgr(ab, "1;33"); // bold yellow
abAppend(ab, "", 3);
break;
case DIAG_HINT:
ab_sgr(ab, "2;37"); // dim white
abAppend(ab, "·", 1);
break;
default:
abAppend(ab, " ", 1); // no diagnostic
break;
}
AB_RESET(ab);
abAppend(ab, " ", 1); // gutter padding
}
// Returns the diagnostic message for the line the cursor is on, or NULL.
const char *lspUiDiagnosticAtCursor(DiagnosticList *diags,
int buffer_id, int cursor_line) {
for (int i = 0; i < diags->count; i++) {
Diagnostic *d = &diags->entries[i];
if (d->buffer_id == buffer_id && d->line == cursor_line)
return d->message;
}
return NULL;
}
// ─── Parse clangd JSON → our structs ─────────────────────────────────────────
void lspParseCompletion(const char *json, CompletionPopup *popup,
int screen_x, int screen_y) {
popup->count = 0;
popup->selected = 0;
popup->origin_x = screen_x + 1;
popup->origin_y = screen_y + 2; // one row below cursor
cJSON *root = cJSON_Parse(json);
if (!root) return;
cJSON *result = cJSON_GetObjectItem(root, "result");
if (!result) { cJSON_Delete(root); return; }
// result can be a list or {isIncomplete, items:[…]}
cJSON *items = cJSON_IsArray(result)
? result
: cJSON_GetObjectItem(result, "items");
if (!items) { cJSON_Delete(root); return; }
cJSON *item;
cJSON_ArrayForEach(item, items) {
if (popup->count >= COMPLETION_MAX_ITEMS) break;
CompletionItem *ci = &popup->items[popup->count++];
cJSON *label = cJSON_GetObjectItem(item, "label");
cJSON *detail = cJSON_GetObjectItem(item, "detail");
cJSON *kind = cJSON_GetObjectItem(item, "kind");
const char *raw_label = label ? label->valuestring : "";
if (raw_label[0] == ' ') raw_label++;
strncpy(ci->label, raw_label, 127);
strncpy(ci->detail, detail ? detail->valuestring : "", 63);
if (!kind)
ci->kind = 0;
else
ci->kind = kind->valueint;
}
popup->visible = (popup->count > 0);
cJSON_Delete(root);
}
void lspParseDiagnostics(const char *json, DiagnosticList *diags,
int buffer_id) {
cJSON *root = cJSON_Parse(json);
if (!root) return;
cJSON *params = cJSON_GetObjectItem(root, "params");
if (!params) { cJSON_Delete(root); return; }
cJSON *diag_arr = cJSON_GetObjectItem(params, "diagnostics");
if (!diag_arr) { cJSON_Delete(root); return; }
// Remove old entries for this buffer
int w = 0;
for (int i = 0; i < diags->count; i++)
if (diags->entries[i].buffer_id != buffer_id)
diags->entries[w++] = diags->entries[i];
diags->count = w;
cJSON *d;
cJSON_ArrayForEach(d, diag_arr) {
if (diags->count >= DIAG_MAX) break;
Diagnostic *diag = &diags->entries[diags->count++];
diag->buffer_id = buffer_id;
cJSON *range = cJSON_GetObjectItem(d, "range");
cJSON *start = cJSON_GetObjectItem(range, "start");
cJSON *end_pos = cJSON_GetObjectItem(range, "end");
cJSON *sev = cJSON_GetObjectItem(d, "severity");
cJSON *msg = cJSON_GetObjectItem(d, "message");
diag->line = cJSON_GetObjectItem(start, "line")->valueint;
diag->col_start = cJSON_GetObjectItem(start, "character")->valueint;
diag->col_end = cJSON_GetObjectItem(end_pos, "character")->valueint;
diag->severity = sev ? (DiagSeverity)sev->valueint : DIAG_ERROR;
const char *raw = msg ? msg->valuestring : "";
int i = 0;
while (raw[i] && raw[i] != '\n' && i < 255)
{
diag->message[i] = raw[i];
i++;
}
diag->message[i] = '\0';
}
cJSON_Delete(root);
}
src/output.c
+417 -333
View File
@@ -1,333 +1,417 @@
/**
* @file output.c
* @brief Screen rendering and output module for the Beluga text editor
* @details Handles all screen updates, cursor positioning, status bar
* rendering, and display synchronization using ANSI escape sequences
*/
#include "../include/output.h"
#include "../include/append_buffer.h"
#include "../include/buffer.h"
#include "../include/data.h"
#include "../include/define.h"
#include "../include/row_op.h"
#include "../include/split_screen.h"
#include "../include/syntax_highlighter.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
extern struct editorConfig E;
/**
* @brief Renders a single pane with its buffer content
*/
static void editorDrawPane(struct abuf *ab, EditorPane *pane) {
if (pane == NULL || pane->buffer_id < 0)
return;
struct buffer_t *buf = bufferFindById(pane->buffer_id);
if (buf == NULL)
return;
// Draw content for this pane
for (int y = 0; y < pane->height; y++) {
int file_row = y + pane->row_offset;
// Position cursor at start of pane row
char pos_buf[32];
int pos_len = snprintf(pos_buf, sizeof(pos_buf), "\x1b[%d;%dH",
pane->start_row + y + 1, pane->start_col + 1);
abAppend(ab, pos_buf, pos_len);
// Apply background color (6 bytes for RGB format)
abAppend(ab, E.theme.BACKGROUND_COLOR, strlen(E.theme.BACKGROUND_COLOR));
int chars_printed = 0;
if (file_row >= buf->numrows) {
// Empty line - show tilde
if (buf->numrows == 0 && y == pane->height / 3) {
char welcome[80];
int welcome_len;
// Different welcome message for terminal buffers
if (buf->type == TERMINAL_BUFF) {
welcome_len = snprintf(welcome, sizeof(welcome), "Terminal %d", pane->buffer_id);
} else {
welcome_len = snprintf(welcome, sizeof(welcome), "Buffer %d", pane->buffer_id);
}
if (welcome_len > pane->width)
welcome_len = pane->width;
int padding = (pane->width - welcome_len) / 2;
if (padding) {
abAppend(ab, "~", 1);
chars_printed++;
padding--;
}
while (padding-- && chars_printed < pane->width) {
abAppend(ab, " ", 1);
chars_printed++;
}
abAppend(ab, welcome, welcome_len);
chars_printed += welcome_len;
} else {
abAppend(ab, "~", 1);
chars_printed++;
}
} else {
// Render line with syntax highlighting, constrain to pane width
int start_offset = pane->col_offset;
int visible_len = buf->row[file_row].rsize - start_offset;
if (visible_len < 0)
visible_len = 0;
if (visible_len > pane->width)
visible_len = pane->width;
if (buf->type == TERMINAL_BUFF) {
// Terminal buffer - show prompt for input line
if (file_row == buf->numrows - 1) {
char prompt[16];
int prompt_len = snprintf(prompt, sizeof(prompt), "$ ");
abAppend(ab, prompt, prompt_len);
chars_printed += prompt_len;
// Show the command being typed (if any)
if (buf->terminal_command != NULL) {
int cmd_len = strlen(buf->terminal_command);
if (cmd_len > pane->width - prompt_len) {
cmd_len = pane->width - prompt_len;
}
abAppend(ab, buf->terminal_command, cmd_len);
chars_printed += cmd_len;
}
} else {
// Show terminal output
abAppend(ab, &buf->row[file_row].render[start_offset], visible_len);
chars_printed = visible_len;
}
} else if (buf->filename && strlen(buf->filename) > 0 && buf->filename[strlen(buf->filename) - 1] == 'c') {
int byte_len_to_print;
char *highlighted = highlight_line(
&buf->row[file_row].render[start_offset], &byte_len_to_print);
// Print only up to pane width
abAppend(ab, highlighted, byte_len_to_print);
free(highlighted);
} else {
abAppend(ab, &buf->row[file_row].render[start_offset], buf->row[file_row].rsize);
}
chars_printed = visible_len;
}
// Fill remaining space with background color to pane width
abAppend(ab, E.theme.BACKGROUND_COLOR, strlen(E.theme.BACKGROUND_COLOR));
while (chars_printed < pane->width) {
abAppend(ab, " ", 1);
chars_printed++;
}
// Restore background color at end of line
}
}
/**
* @brief Renders all panes based on current split configuration
*/
static void editorDrawAllPanes(struct abuf *ab) {
ScreenLayout *layout = splitScreenGetLayout();
if (layout->num_panes == 1) {
// Single pane fullscreen
editorDrawPane(ab, &layout->panes[0]);
} else if (layout->num_panes == 2) {
// Draw both panes
for (int i = 0; i < 2; i++) {
editorDrawPane(ab, &layout->panes[i]);
// Draw pane border/divider if not the last pane
if (layout->mode == SPLIT_VERTICAL && i == 0) {
// Draw vertical divider
int divider_col = layout->panes[0].width;
for (int y = 0; y < layout->panes[0].height; y++) {
char pos_buf[32];
snprintf(pos_buf, sizeof(pos_buf), "\x1b[%d;%dH", y + 1, divider_col);
abAppend(ab, pos_buf, strlen(pos_buf));
abAppend(ab, "\x1b[1m|\x1b[0m", 9); // Bold pipe divider
}
} else if (layout->mode == SPLIT_HORIZONTAL && i == 0) {
// Draw horizontal divider
int divider_row = layout->panes[0].height;
char pos_buf[32];
snprintf(pos_buf, sizeof(pos_buf), "\x1b[%d;%dH", divider_row + 1, 1);
abAppend(ab, pos_buf, strlen(pos_buf));
for (int x = 0; x < E.screencols; x++) {
abAppend(ab, "\x1b[1m-\x1b[0m", 9); // Bold dash divider
}
}
}
}
}
/**
* @brief Updates scroll offsets to keep cursor visible on screen
* @details Adjusts E.row_offset and E.col_offset to ensure the cursor remains
* within the visible viewport. Also updates E.rx (rendered x-coordinate).
* @note Updates global editor state E
* @see editorRowCxToRx()
*/
void editorScroll() {
EditorPane *active = splitScreenGetActivePane();
struct buffer_t *buf = bufferFindById(active->buffer_id);
active->rx = active->cursor_x;
fprintf(stderr, "%d %d / %d %d\n", active->cursor_x, active->col_offset,
active->cursor_y, active->row_offset);
if (active->cursor_x < 0) {
active->cursor_x = 0;
active->col_offset = active->col_offset == 0 ? 0 : --active->col_offset;
}
if (active->cursor_y < 0) {
active->cursor_y = 0;
active->row_offset = active->row_offset == 0 ? 0 : --active->row_offset;
}
if (active->cursor_x == active->width) {
active->cursor_x--;
active->col_offset++;
}
if (active->cursor_y == active->height) {
active->cursor_y--;
active->row_offset++;
}
}
/**
* @brief Renders the status bar at the bottom of the screen
* @details Displays filename, line count, dirty flag, and current cursor
* position in an inverted color bar. Right-aligns the cursor position
* indicator.
* @param ab Pointer to append buffer structure for accumulating output
* @note Uses ANSI escape codes for color inversion
*/
void editorDrawStatusBar(struct abuf *ab) {
int len, render_len;
char status[80], render_status[80];
EditorPane *active = splitScreenGetActivePane();
struct buffer_t *buf = bufferFindById(active->buffer_id);
abAppend(ab, "\x1b[7m", 4); // inverting colors
const char *mode_str = "";
ScreenLayout *layout = splitScreenGetLayout();
if (layout->mode == SPLIT_VERTICAL)
mode_str = " [V-SPLIT]";
else if (layout->mode == SPLIT_HORIZONTAL)
mode_str = " [H-SPLIT]";
// Build buffer status showing all buffers with dirty indicators
char buf_status[200] = "";
int offset = 0;
for (int i = 0; i < E.number_of_buffer; i++) {
struct buffer_t *b = &E.buffers[i];
char marker = (b->buffer_id == active->buffer_id) ? '>' : ' ';
char dirty_marker = b->dirty ? '*' : ' ';
offset += snprintf(&buf_status[offset], sizeof(buf_status) - offset,
"%c%d:%s%c ", marker, b->buffer_id,
b->filename ? b->filename : "[No Name]", dirty_marker);
}
len = snprintf(status, sizeof(status), "%s%s", buf_status, mode_str);
render_len = snprintf(render_status, sizeof(render_status), "%d/%d",
active->cursor_y + 1, buf->numrows);
if (len > E.screencols) {
len = E.screencols;
}
abAppend(ab, status, len);
while (len < E.screencols) {
if (E.screencols - len == render_len) {
abAppend(ab, render_status, render_len);
break;
} else {
abAppend(ab, " ", 1);
++len;
}
}
abAppend(ab, "\x1b[m", 3); // normal text mode
abAppend(ab, "\r\n", 2);
}
/**
* @brief Renders the message bar below the status bar
* @details Displays temporary status messages for a limited time (5 seconds).
* Only displays message if within time window and within screen width.
* @param ab Pointer to append buffer structure for accumulating output
* @note Messages are set by editorSetStatusMessage()
*/
void editorDrawMessageBar(struct abuf *ab) {
int msg_len = strlen(E.status_msg);
abAppend(ab, ERASE_END_LINE, 3);
if (msg_len > E.screencols) {
msg_len = E.screencols;
}
if (msg_len && time(NULL) - E.status_msg_time < 5) {
abAppend(ab, E.status_msg, msg_len);
}
}
/**
* @brief Performs complete screen refresh and buffer synchronization
* @details Clears screen, redraws all visible content (rows, status bar,
* message bar), positions cursor, and writes accumulated buffer to stdout. This
* is the main rendering function called each frame.
* @note Updates global editor state E (via editorScroll())
* @see editorDrawRows()
* @see editorDrawStatusBar()
* @see editorDrawMessageBar()
*/
void editorRefreshScreen() {
struct abuf ab = ABUF_INIT;
char buf[32];
abAppend(&ab, HIDE_CURSOR, 6);
abAppend(&ab, CURSOR_TOP_LEFT, 3);
abAppend(&ab, E.theme.BACKGROUND_COLOR,
strlen(E.theme.BACKGROUND_COLOR)); // RGB background is 12 bytes
// Draw all panes
editorScroll();
editorDrawAllPanes(&ab);
// Draw status bar and message bar
editorDrawStatusBar(&ab);
editorDrawMessageBar(&ab);
// Position cursor in active pane
EditorPane *active = splitScreenGetActivePane();
if (active != NULL) {
snprintf(buf, sizeof(buf), "\x1b[%d;%dH",
active->cursor_y + active->start_row + 1,
active->cursor_x + active->start_col + 1);
abAppend(&ab, buf, strlen(buf));
}
abAppend(&ab, SHOW_CURSOR, 6);
write(STDOUT_FILENO, ab.b, ab.len);
abFree(&ab);
}
/**
* @file output.c
* @brief Screen rendering and output module for the Beluga text editor
* @details Handles all screen updates, cursor positioning, status bar
* rendering, and display synchronization using ANSI escape sequences
*/
#include "../include/output.h"
#include "../include/append_buffer.h"
#include "../include/buffer.h"
#include "../include/editor_op.h"
#include "../include/data.h"
#include "../include/define.h"
#include "../include/row_op.h"
#include "../include/split_screen.h"
#include "../include/syntax_highlighter.h"
#include "../include/terminal.h"
#include "../include/lsp_ui.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
/**
* @brief Renders a single pane with its buffer content
*/
static void editorDrawPane(struct abuf* ab, EditorPane* pane)
{
int file_row;
char pos_buf[32];
int pos_len;
int byte_len_to_print;
int bytes_to_print;
char* highlighted;
if (pane == NULL || pane->buffer_id < 0)
return;
const struct buffer_t* buf = bufferFindById(pane->buffer_id);
if (buf == NULL)
return;
// Draw all pane
for (int y = 0; y < pane->height; y++)
{
file_row = y + pane->y_offset;
// Set cursor at start of pane row
pos_len = snprintf(pos_buf, sizeof(pos_buf), "\x1b[%d;%dH",
pane->origin_y + y + 1, pane->origin_x + 1);
abAppend(ab, pos_buf, pos_len);
// Apply background color (6 bytes for RGB format)
abAppend(ab, E.theme.BACKGROUND_COLOR, (int)strlen(E.theme.BACKGROUND_COLOR));
// pane line is out of buffer
if (file_row >= buf->numrows)
{
// Empty line - show tilde
abAppend(ab, "~", 1);
for (int i = 0;
i < pane->width - 1;
++i)
{
abAppend(ab, " ", 1);
}
}
else
{
if (E.constantes.LSP) {
lspUiDrawGutter(ab, &E.lsp_diagnostics, pane->buffer_id, file_row);
}
if (buf->filename[strlen(buf->filename) - 1] == 'c' || buf->filename[strlen(buf->filename) - 1] == 'h')
{
// Render line with syntax highlighting, constrain to pane width
highlighted = highlight_line(
&buf->row[file_row].chars[pane->x_offset], &byte_len_to_print);
// Print only up to pane width
abAppend(ab, highlighted, byte_len_to_print);
free(highlighted);
}
else
{
// Render basic line
bytes_to_print =
buf->row[file_row].size - pane->x_offset < pane->width
? buf->row[file_row].size - pane->x_offset
: pane->width;
abAppend(ab, &buf->row[file_row].chars[pane->x_offset], bytes_to_print);
}
// Fill remaining space with background color to pane width
for (int i = 0;
i < pane->width - editorRowCharCount(&buf->row[file_row], pane->width) + pane->x_offset;
++i)
{
abAppend(ab, " ", 1);
}
}
}
}
/**
* @brief Renders all panes based on current split configuration
*/
static void editorDrawAllPanes(struct abuf* ab)
{
const ScreenLayout* layout = splitScreenGetLayout();
if (layout->num_panes == 1)
{
// Single pane fullscreen
editorDrawPane(ab, &layout->panes[0]);
}
else if (layout->num_panes == 2)
{
// Draw both panes
for (int i = 0; i < 2; i++)
{
editorDrawPane(ab, &layout->panes[i]);
// Draw pane border/divider if not the last pane
if (layout->mode == SPLIT_VERTICAL && i == 0)
{
// Draw vertical divider
int divider_col = layout->panes[0].width;
for (int y = 0; y < layout->panes[0].height; y++)
{
char pos_buf[32];
snprintf(pos_buf, sizeof(pos_buf), "\x1b[%d;%dH", y + 1, divider_col);
abAppend(ab, pos_buf, (int)strlen(pos_buf));
abAppend(ab, "\x1b[1m|\x1b[0m", 9); // Bold pipe divider
}
}
else if (layout->mode == SPLIT_HORIZONTAL && i == 0)
{
// Draw horizontal divider
int divider_row = layout->panes[0].height;
char pos_buf[32];
snprintf(pos_buf, sizeof(pos_buf), "\x1b[%d;%dH", divider_row + 1, 1);
abAppend(ab, pos_buf, (int)strlen(pos_buf));
for (int x = 0; x < E.screencols; x++)
{
abAppend(ab, "\x1b[1m-\x1b[0m", 9); // Bold dash divider
}
}
}
}
}
/**
* @brief Updates scroll offsets to keep cursor visible on screen
* @details Adjusts E.row_offset and E.col_offset to ensure the cursor remains
* within the visible viewport. Also updates E.rx (rendered x-coordinate).
* @note Updates global editor state E
* @see editorRowCxToRx()
*/
void editorScroll()
{
EditorPane* active = splitScreenGetActivePane();
struct buffer_t* buf = bufferFindById(active->buffer_id);
int rel_x, rel_y;
// compute relative coordinates
rel_x = editorRowCharCount(&buf->row[buf->y], buf->x);
appDebug("counting %d\n", rel_x);
rel_y = buf->y;
appDebug("%d %d / %d %d\n", active->cursor_x, active->x_offset,
active->cursor_y, active->y_offset);
while (rel_x != active->cursor_x + active->x_offset ||
rel_y != active->cursor_y + active->y_offset)
{
if (rel_x < active->cursor_x + active->x_offset)
{
// LEFT
if (active->cursor_x == 0 && active->x_offset)
{
active->x_offset--;
}
else
{
active->cursor_x--;
}
}
else
{
// RIGHT
if (rel_x > active->cursor_x + active->x_offset)
{
if (active->cursor_x == active->width - 1)
{
active->x_offset++;
}
else
{
active->cursor_x++;
}
}
}
if (rel_y < active->cursor_y + active->y_offset)
{
if (active->cursor_y == 0 && active->y_offset)
{
active->y_offset--;
}
else
{
active->cursor_y--;
}
}
if (rel_y > active->cursor_y + active->y_offset)
{
if (active->cursor_y == active->height - 1)
{
active->y_offset++;
}
else
{
active->cursor_y++;
}
}
}
}
char* basename(char* path)
{
int len = (int)strlen(path);
for (int i = len - 1; i > 0; i--)
{
if (path[i] == '/')
{
path = path + i + 1;
break;
}
}
return path;
}
/**
* @brief Renders the status bar at the bottom of the screen
* @details Displays filename, line count, dirty flag, and current cursor
* position in an inverted color bar. Right-aligns the cursor position
* indicator.
* @param ab Pointer to append buffer structure for accumulating output
* @note Uses ANSI escape codes for color inversion
*/
void editorDrawStatusBar(struct abuf* ab)
{
// TO MODIFY
int len, render_len;
char status[E.screencols], render_status[E.screencols * 4];
EditorPane* active = splitScreenGetActivePane();
struct buffer_t* buf = bufferFindById(active->buffer_id);
abAppend(ab, "\x1b[7m", 4); // inverting colors
const char* mode_str = "";
ScreenLayout* layout = splitScreenGetLayout();
if (layout->mode == SPLIT_VERTICAL)
mode_str = " [V-SPLIT]";
else if (layout->mode == SPLIT_HORIZONTAL)
mode_str = " [H-SPLIT]";
// Build buffer status showing all buffers with dirty indicators
char buf_status[1024] = "";
int offset = 0;
for (int i = 0; i < E.number_of_buffer; i++)
{
struct buffer_t* b = &E.buffers[i];
char marker = (b->buffer_id == active->buffer_id) ? '>' : ' ';
char dirty_marker = b->dirty ? '*' : ' ';
offset += snprintf(&buf_status[offset], sizeof(buf_status) - offset,
"%c%d:%s%c ", marker, b->buffer_id,
b->filename ? basename(b->filename) : "[No Name]", dirty_marker);
}
len = snprintf(status, sizeof(status), "%s%s", buf_status, mode_str);
render_len = snprintf(render_status, sizeof(render_status), "%d/%d",
active->cursor_y + 1, buf->numrows);
if (len > E.screencols)
{
len = E.screencols;
}
abAppend(ab, status, len);
while (len < E.screencols)
{
if (E.screencols - len == render_len + 1)
{
abAppend(ab, render_status, render_len);
break;
}
abAppend(ab, " ", 1);
++len;
}
abAppend(ab, "\x1b[m", 3); // normal text mode
abAppend(ab, "\r\n", 2);
}
/**
* @brief Renders the message bar below the status bar
* @details Displays temporary status messages for a limited time (5 seconds).
* Only displays message if within time window and within screen width.
* @param ab Pointer to append buffer structure for accumulating output
* @note Messages are set by editorSetStatusMessage()
*/
void editorDrawMessageBar(struct abuf* ab)
{
int msg_len = (int)strlen(E.status_msg);
abAppend(ab, ERASE_END_LINE, 3);
if (msg_len > E.screencols)
{
msg_len = E.screencols;
}
if (msg_len && time(NULL) - E.status_msg_time < 5)
{
abAppend(ab, E.status_msg, msg_len);
}
}
/**
* @brief Performs complete screen refresh and buffer synchronization
* @details Clears screen, redraws all visible content (rows, status bar,
* message bar), positions cursor, and writes accumulated buffer to stdout. This
* is the main rendering function called each frame.
* @note Updates global editor state E (via editorScroll())
* @see editorDrawRows()
* @see editorDrawStatusBar()
* @see editorDrawMessageBar()
*/
void editorRefreshScreen()
{
struct abuf ab = ABUF_INIT;
char buf[32];
abAppend(&ab, HIDE_CURSOR, 6);
abAppend(&ab, CURSOR_TOP_LEFT, 3);
abAppend(&ab, E.theme.BACKGROUND_COLOR,
(int)strlen(E.theme.BACKGROUND_COLOR));
editorScroll();
EditorPane* active = splitScreenGetActivePane();
struct buffer_t* buffer = bufferFindById(active->buffer_id);
editorDrawAllPanes(&ab);
if (E.constantes.LSP) {
// ── LSP: draw completion popup every frame while visible ──────────────────
appDebug("[REFRESH] lsp_completion.visible=%d\n",
E.lsp_completion.visible);
while (E.lsp_client->completion_requested && !E.lsp_client->completion_just_arrived);
// reset flags
E.lsp_client->completion_just_arrived = 0;
E.lsp_client->completion_requested = 0;
// ── LSP: diagnostic for current line in status bar ────────────────────────
const char* diag = lspUiDiagnosticAtCursor(
&E.lsp_diagnostics,
active->buffer_id,
buffer->y);
if (diag) {
char single_line[512];
int i = 0;
// Copy until newline, \0, or screen width
while (diag[i] && diag[i] != '\n' && i < E.screencols - 4)
{
single_line[i] = diag[i];
i++;
}
// If message was truncated, add ellipsis
if (diag[i] != '\0' && diag[i] != '\n')
{
single_line[i++] = '.';
single_line[i++] = '.';
single_line[i++] = '.';
}
single_line[i] = '\0';
editorSetStatusMessage("● %s", single_line);
}
}
editorDrawStatusBar(&ab);
editorDrawMessageBar(&ab);
if (E.constantes.LSP && (E.lsp_client && E.lsp_client->state == LSP_READY))
{
lspUiDrawCompletion(&ab, &E.lsp_completion);
}
// ── Position cursor (account for gutter width) ────────────────────────────
snprintf(buf, sizeof(buf), "\x1b[%d;%dH",
active->cursor_y + active->origin_y + 1,
active->cursor_x + active->origin_x + 1 + (E.constantes.LSP ? GUTTER_WIDTH : 0));
abAppend(&ab, buf, (int)strlen(buf));
abAppend(&ab, SHOW_CURSOR, 6);
write(STDOUT_FILENO, ab.b, ab.len);
abFree(&ab);
}
src/row_op.c
+12 -152
View File
@@ -1,152 +1,12 @@
#include "../include/row_op.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
extern struct editorConfig E;
int bufferRowCxToRx(frow *row, int cursor_x) {
int render_x = 0;
int i;
for (i = 0; i < cursor_x; ++i) {
if (row->chars[i] == '\t') {
render_x += (E.constantes.TAB_LENGTH - 1) - (render_x % E.constantes.TAB_LENGTH);
}
render_x++;
}
return render_x;
}
int bufferRowRxToCx(frow *row, int rx) {
int cur_rx = 0;
int cx;
for (cx = 0; cx < row->size; cx++) {
if (row->chars[cx] == '\t')
cur_rx += (E.constantes.TAB_LENGTH - 1) - (cur_rx % E.constantes.TAB_LENGTH);
cur_rx++;
if (cur_rx > rx) return cx;
}
return cx;
}
/**
* \fn bufferUpdatfrow(frow *row)
* \brief Copy content of \p row in \p row->render.
* */
void bufferUpdatfrow(frow *row) {
int i, i_render;
int tabs = 0;
// counting number of tabs
for (i = 0; i < row->size; ++i) {
tabs +=
(row->chars[i] == '\t'); /**< increment tabs of 1 if chars[i] is one. */
}
free(row->render);
row->render = malloc(row->size + tabs * (E.constantes.TAB_LENGTH - 1) +
1); /**< Tabs needs E.constantes.TAB_LENGTH chars so E.constantes.TAB_LENGTH - 1
more than the first already counted. */
// end of counting
i_render = 0;
for (i = 0; i < row->size; ++i) {
if (row->chars[i] == '\t') {
row->render[i_render++] = ' ';
while (i_render % E.constantes.TAB_LENGTH) {
row->render[i_render++] =
' '; /**< Addind the right amount of spaces for tabs */
}
} else {
row->render[i_render++] = row->chars[i];
}
}
row->render[i_render] = '\0'; // Don't forget the end of string character.
row->rsize = i_render;
}
void bufferInsertRow(struct buffer_t *buffer, int at, char *s, size_t len) {
if (at < 0 || at > buffer->numrows) {
return;
}
frow *tmp = (frow *)realloc(buffer->row, sizeof(frow) * (buffer->numrows + 1));
if (!tmp) {
return;
}
buffer->row = tmp;
memmove(&buffer->row[at + 1], &buffer->row[at], sizeof(frow) * (buffer->numrows - at));
buffer->row[at].size = len;
buffer->row[at].chars = malloc(len + 1);
memcpy(buffer->row[at].chars, s, len);
buffer->row[at].chars[len] = '\0';
buffer->row[at].rsize = 0;
buffer->row[at].render = NULL;
bufferUpdatfrow(&buffer->row[at]);
++buffer->numrows;
++buffer->dirty;
}
void bufferFrefrow(frow *row) {
free(row->render);
free(row->chars);
}
void bufferDelRow(struct buffer_t *buffer, int at) {
if (at < 0 || at >= buffer->numrows) {
return;
}
bufferFrefrow(&buffer->row[at]);
memmove(&buffer->row[at], &buffer->row[at + 1], sizeof(frow) * (buffer->numrows - at - 1));
--buffer->numrows;
++buffer->dirty;
}
/**
* \fn bufferRowInsertChar(frow *row, int at, int c)
* \param at Index of where we want to insert the char */
void bufferRowInsertChar(struct buffer_t *buffer, frow *row, int at, int c) {
if (buffer->state == READ_ONLY)
return;
if (at < 0 || at > row->size) {
at = row->size;
}
row->chars = realloc(row->chars, row->size + 2);
memmove(&row->chars[at + 1], &row->chars[at], row->size - at + 1);
++row->size;
row->chars[at] = c;
bufferUpdatfrow(row);
++buffer->dirty;
}
void bufferRowAppendString(struct buffer_t *buffer, frow *row, char *s, size_t len) {
row->chars = realloc(row->chars, row->size + len + 1);
memcpy(&row->chars[row->size], s, len);
row->size += len;
row->chars[row->size] = '\0';
bufferUpdatfrow(row);
++buffer->dirty;
}
/**
* \fn bufferRowDelChar(struct bufferConfig *E, frow *frow, int at)
* \brief Delete the a char at the chosen position on the given row
* \param at Index of the char to delete
* \param row Row on operation is made */
void bufferRowDelchar(struct buffer_t *buffer, frow *row, int at) {
if (at < 0 || at >= row->size) {
return;
}
memmove(&row->chars[at], &row->chars[at + 1], row->size - at);
--row->size;
bufferUpdatfrow(row);
++buffer->dirty;
}
#include "../include/row_op.h"
#include "../include/data.h"
#include "../include/utf8.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
extern struct editorConfig E;
src/split_screen.c
+229 -218
View File
@@ -1,218 +1,229 @@
/**
* @file split_screen.c
* @brief Split screen implementation
*/
#include "../include/split_screen.h"
#include "../include/buffer.h"
#include "../include/editor_op.h"
#include <stdlib.h>
#include <string.h>
extern struct editorConfig E;
/**
* @brief Initializes split screen system with single fullscreen pane
*/
void splitScreenInit(void) {
E.layout.mode = SPLIT_NONE;
E.layout.num_panes = 1;
E.layout.active_pane = 0;
E.layout.panes = malloc(sizeof(EditorPane) * 2);
// Initialize single fullscreen pane
E.layout.panes[0].buffer_id = -1; // No buffer for now
E.layout.panes[0].start_row = 0;
E.layout.panes[0].start_col = 0;
E.layout.panes[0].height = E.screenrows - 2; // Leave room for status bar
E.layout.panes[0].width = E.screencols;
E.layout.panes[0].cursor_x = 0;
E.layout.panes[0].cursor_y = 0;
E.layout.panes[0].row_offset = 0;
E.layout.panes[0].col_offset = 0;
E.layout.panes[0].is_active = 1;
}
/**
* @brief Splits screen vertically (left-right)
* @param buffer_id_left Buffer ID for left pane
* @param buffer_id_right Buffer ID for right pane
* @return 0 on success, -1 on failure
*/
int splitScreenVertical(int buffer_id_left, int buffer_id_right) {
// Verify both buffers exist
if (bufferFindById(buffer_id_left) == NULL ||
bufferFindById(buffer_id_right) == NULL) {
editorSetStatusMessage("Error: invalid buffer IDs");
return -1;
}
// Reallocate panes array
E.layout.panes = realloc(E.layout.panes, sizeof(EditorPane) * 2);
E.layout.mode = SPLIT_VERTICAL;
E.layout.num_panes = 2;
E.layout.active_pane = 0;
int half_width = E.screencols / 2;
int pane_height = E.screenrows - 2; // Leave room for status bar
// Left pane
E.layout.panes[0].buffer_id = buffer_id_left;
E.layout.panes[0].start_row = 0;
E.layout.panes[0].start_col = 0;
E.layout.panes[0].height = pane_height;
E.layout.panes[0].width = half_width;
E.layout.panes[0].cursor_x = 0;
E.layout.panes[0].cursor_y = 0;
E.layout.panes[0].row_offset = 0;
E.layout.panes[0].col_offset = 0;
E.layout.panes[0].is_active = 1;
// Right pane
E.layout.panes[1].buffer_id = buffer_id_right;
E.layout.panes[1].start_row = 0;
E.layout.panes[1].start_col = half_width;
E.layout.panes[1].height = pane_height;
E.layout.panes[1].width = E.screencols - half_width;
E.layout.panes[1].cursor_x = 0;
E.layout.panes[1].cursor_y = 0;
E.layout.panes[1].row_offset = 0;
E.layout.panes[1].col_offset = 0;
E.layout.panes[1].is_active = 0;
editorSetStatusMessage("Vertical split: %d | %d", buffer_id_left, buffer_id_right);
return 0;
}
/**
* @brief Splits screen horizontally (top-bottom)
* @param buffer_id_top Buffer ID for top pane
* @param buffer_id_bottom Buffer ID for bottom pane
* @return 0 on success, -1 on failure
*/
int splitScreenHorizontal(int buffer_id_top, int buffer_id_bottom) {
// Verify both buffers exist
if (bufferFindById(buffer_id_top) == NULL ||
bufferFindById(buffer_id_bottom) == NULL) {
editorSetStatusMessage("Error: invalid buffer IDs");
return -1;
}
// Reallocate panes array
E.layout.panes = realloc(E.layout.panes, sizeof(EditorPane) * 2);
E.layout.mode = SPLIT_HORIZONTAL;
E.layout.num_panes = 2;
E.layout.active_pane = 0;
int half_height = (E.screenrows - 2) / 2; // Account for status bar
// Top pane
E.layout.panes[0].buffer_id = buffer_id_top;
E.layout.panes[0].start_row = 0;
E.layout.panes[0].start_col = 0;
E.layout.panes[0].height = half_height;
E.layout.panes[0].width = E.screencols;
E.layout.panes[0].cursor_x = 0;
E.layout.panes[0].cursor_y = 0;
E.layout.panes[0].row_offset = 0;
E.layout.panes[0].col_offset = 0;
E.layout.panes[0].is_active = 1;
// Bottom pane
E.layout.panes[1].buffer_id = buffer_id_bottom;
E.layout.panes[1].start_row = half_height;
E.layout.panes[1].start_col = 0;
E.layout.panes[1].height = E.screenrows - 2 - half_height;
E.layout.panes[1].width = E.screencols;
E.layout.panes[1].cursor_x = 0;
E.layout.panes[1].cursor_y = 0;
E.layout.panes[1].row_offset = 0;
E.layout.panes[1].col_offset = 0;
E.layout.panes[1].is_active = 0;
editorSetStatusMessage("Horizontal split: %d / %d", buffer_id_top, buffer_id_bottom);
return 0;
}
/**
* @brief Returns to single buffer fullscreen
*/
void splitScreenUnify(void) {
E.layout.mode = SPLIT_NONE;
E.layout.num_panes = 1;
E.layout.active_pane = 0;
E.layout.panes[0].start_row = 0;
E.layout.panes[0].start_col = 0;
E.layout.panes[0].height = E.screenrows - 2;
E.layout.panes[0].width = E.screencols;
E.layout.panes[0].is_active = 1;
editorSetStatusMessage("Unified view");
}
/**
* @brief Switches active pane (focus moves between splits)
* @return 0 on success, -1 on failure
*/
int splitScreenSwitchPane(void) {
if (E.layout.num_panes < 2) {
editorSetStatusMessage("No split to switch");
return -1;
}
// Deactivate current pane
E.layout.panes[E.layout.active_pane].is_active = 0;
// Move to next pane
E.layout.active_pane = (E.layout.active_pane + 1) % E.layout.num_panes;
// Activate new pane
E.layout.panes[E.layout.active_pane].is_active = 1;
editorSetStatusMessage("Switched to pane %d (buffer %d)",
E.layout.active_pane,
E.layout.panes[E.layout.active_pane].buffer_id);
return 0;
}
/**
* @brief Updates the active pane's buffer
* @param buffer_id New buffer ID for active pane
* @return 0 on success, -1 on failure
*/
int splitScreenSetPaneBuffer(int buffer_id) {
if (bufferFindById(buffer_id) == NULL) {
editorSetStatusMessage("Error: invalid buffer ID");
return -1;
}
EditorPane *active = &E.layout.panes[E.layout.active_pane];
active->buffer_id = buffer_id;
active->cursor_x = 0;
active->cursor_y = 0;
active->row_offset = 0;
active->col_offset = 0;
editorSetStatusMessage("Pane %d now showing buffer %d",
E.layout.active_pane, buffer_id);
return 0;
}
/**
* @brief Gets current screen layout
* @return Pointer to current ScreenLayout
*/
ScreenLayout *splitScreenGetLayout(void) {
return &E.layout;
}
/**
* @brief Gets active pane
* @return Pointer to active EditorPane
*/
EditorPane *splitScreenGetActivePane(void) {
if (E.layout.num_panes == 0) return NULL;
return &E.layout.panes[E.layout.active_pane];
}
/**
* @file split_screen.c
* @brief Split screen implementation
*/
#include "../include/split_screen.h"
#include "../include/buffer.h"
#include "../include/editor_op.h"
#include <stdlib.h>
#include <string.h>
extern struct editorConfig E;
/**
* @brief Initializes split screen system with single fullscreen pane
*/
void splitScreenInit(void) {
E.layout.mode = SPLIT_NONE;
E.layout.num_panes = 1;
E.layout.active_pane = 0;
E.layout.panes = malloc(sizeof(EditorPane) * 2);
// Initialize single fullscreen pane
E.layout.panes[0].buffer_id = -1; // No buffer for now
E.layout.panes[0].origin_y = 0;
E.layout.panes[0].origin_x = 0;
E.layout.panes[0].height = E.screenrows - 2; // Leave room for status bar
E.layout.panes[0].width = E.screencols;
E.layout.panes[0].cursor_x = 0;
E.layout.panes[0].cursor_y = 0;
E.layout.panes[0].y_offset = 0;
E.layout.panes[0].x_offset = 0;
E.layout.panes[0].is_active = 1;
}
/**
* @brief Splits screen vertically (left-right)
* @param buffer_id_left Buffer ID for left pane
* @param buffer_id_right Buffer ID for right pane
* @return 0 on success, -1 on failure
*/
int splitScreenVertical(int buffer_id_left, int buffer_id_right) {
// Verify both buffers exist
if (bufferFindById(buffer_id_left) == NULL ||
bufferFindById(buffer_id_right) == NULL) {
editorSetStatusMessage("Error: invalid buffer IDs");
return -1;
}
// bReallocate panes array
E.layout.panes = realloc(E.layout.panes, sizeof(EditorPane) * 2);
E.layout.mode = SPLIT_VERTICAL;
E.layout.num_panes = 2;
E.layout.active_pane = 0;
int half_width = E.screencols / 2;
int pane_height = E.screenrows; // Leave room for status bar
// Left pane
E.layout.panes[0].buffer_id = buffer_id_left;
E.layout.panes[0].origin_y = 0;
E.layout.panes[0].origin_x = 0;
E.layout.panes[0].height = pane_height;
E.layout.panes[0].width = half_width;
E.layout.panes[0].cursor_x = 0;
E.layout.panes[0].cursor_y = 0;
E.layout.panes[0].y_offset = 0;
E.layout.panes[0].x_offset = 0;
E.layout.panes[0].is_active = 1;
// Right pane
E.layout.panes[1].buffer_id = buffer_id_right;
E.layout.panes[1].origin_y = 0;
E.layout.panes[1].origin_x = half_width;
E.layout.panes[1].height = pane_height;
E.layout.panes[1].width = E.screencols - half_width;
E.layout.panes[1].cursor_x = 0;
E.layout.panes[1].cursor_y = 0;
E.layout.panes[1].y_offset = 0;
E.layout.panes[1].x_offset = 0;
E.layout.panes[1].is_active = 0;
editorSetStatusMessage("Vertical split: %d | %d", buffer_id_left, buffer_id_right);
return 0;
}
/**
* @brief Splits screen horizontally (top-bottom)
* @param buffer_id_top Buffer ID for top pane
* @param buffer_id_bottom Buffer ID for bottom pane
* @return 0 on success, -1 on failure
*/
int splitScreenHorizontal(int buffer_id_top, int buffer_id_bottom) {
// Verify both buffers exist
if (bufferFindById(buffer_id_top) == NULL ||
bufferFindById(buffer_id_bottom) == NULL) {
editorSetStatusMessage("Error: invalid buffer IDs");
return -1;
}
// bReallocate panes array
E.layout.panes = realloc(E.layout.panes, sizeof(EditorPane) * 2);
E.layout.mode = SPLIT_HORIZONTAL;
E.layout.num_panes = 2;
E.layout.active_pane = 0;
int half_height = (E.screenrows - 2) / 2; // Account for status bar
// Top pane
E.layout.panes[0].buffer_id = buffer_id_top;
E.layout.panes[0].origin_y = 0;
E.layout.panes[0].origin_x = 0;
E.layout.panes[0].height = half_height;
E.layout.panes[0].width = E.screencols;
E.layout.panes[0].cursor_x = 0;
E.layout.panes[0].cursor_y = 0;
E.layout.panes[0].y_offset = 0;
E.layout.panes[0].x_offset = 0;
E.layout.panes[0].is_active = 1;
// Bottom pane
E.layout.panes[1].buffer_id = buffer_id_bottom;
E.layout.panes[1].origin_y = half_height;
E.layout.panes[1].origin_x = 0;
E.layout.panes[1].height = E.screenrows - 2 - half_height;
E.layout.panes[1].width = E.screencols;
E.layout.panes[1].cursor_x = 0;
E.layout.panes[1].cursor_y = 0;
E.layout.panes[1].x_offset = 0;
E.layout.panes[1].y_offset = 0;
E.layout.panes[1].is_active = 0;
editorSetStatusMessage("Horizontal split: %d / %d", buffer_id_top, buffer_id_bottom);
return 0;
}
/**
* @brief Returns to single buffer fullscreen
*/
void splitScreenUnify(void) {
E.layout.mode = SPLIT_NONE;
E.layout.num_panes = 1;
E.layout.active_pane = 0;
E.layout.panes[0].origin_x = 0;
E.layout.panes[0].origin_y = 0;
E.layout.panes[0].height = E.screenrows;
E.layout.panes[0].width = E.screencols;
E.layout.panes[0].is_active = 1;
editorSetStatusMessage("Unified view");
}
/**
* @brief Switches active pane (focus moves between splits)
* @return 0 on success, -1 on failure
*/
int splitScreenSwitchPane(void) {
if (E.layout.num_panes < 2) {
editorSetStatusMessage("No split to switch");
return -1;
}
// Deactivate current pane
E.layout.panes[E.layout.active_pane].is_active = 0;
// Move to next pane
E.layout.active_pane = (E.layout.active_pane + 1) % E.layout.num_panes;
// Activate new pane
E.layout.panes[E.layout.active_pane].is_active = 1;
editorSetStatusMessage("Switched to pane %d (buffer %d)",
E.layout.active_pane,
E.layout.panes[E.layout.active_pane].buffer_id);
return 0;
}
/**
* @brief Updates the active pane's buffer
* @param buffer_id New buffer ID for active pane
* @return 0 on success, -1 on failure
*/
int splitScreenSetPaneBuffer(int buffer_id) {
if (bufferFindById(buffer_id) == NULL) {
editorSetStatusMessage("Error: invalid buffer ID");
return -1;
}
EditorPane *active = &E.layout.panes[E.layout.active_pane];
active->buffer_id = buffer_id;
active->cursor_x = 0;
active->cursor_y = 0;
active->origin_x = 0;
active->origin_y = 0;
editorSetStatusMessage("Pane %d now showing buffer %d",
E.layout.active_pane, buffer_id);
return 0;
}
/**
* @brief Gets current screen layout
* @return Pointer to current ScreenLayout
*/
ScreenLayout *splitScreenGetLayout(void) {
return &E.layout;
}
/**
* @brief Gets active pane
* @return Pointer to active EditorPane
*/
EditorPane *splitScreenGetActivePane(void) {
if (E.layout.num_panes == 0) return NULL;
return &E.layout.panes[E.layout.active_pane];
}
void freeScreenLayout(ScreenLayout *layout)
{
free(layout->panes);
}
void freePane(EditorPane *pane)
{
free(pane);
}
src/syntax_highlighter.c
+248 -197
View File
@@ -1,197 +1,248 @@
#include "../include/syntax_highlighter.h"
#include "../include/data.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
extern struct editorConfig E;
const char *c_keywords[] = {
"if", "else", "while", "for", "do", "switch",
"case", "break", "#include", "#define", "continue", "return",
"goto", "struct", "union", "enum", "typedef", "static",
"extern", "const", "volatile", "sizeof", "auto", "register",
"inline", "restrict", NULL};
// C types
const char *c_types[] = {"int", "char", "float", "double",
"void", "long", "short", "unsigned",
"signed", "bool", NULL};
// Check if character is alphanumeric or underscore
int is_word_char(char c) {
return (c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z') ||
(c >= '0' && c <= '9') || c == '_' || c == '#';
}
// Check if string is a keyword
int is_keyword(const char *word) {
for (int i = 0; c_keywords[i] != NULL; i++) {
if (strcmp(word, c_keywords[i]) == 0)
return 1;
}
return 0;
}
// Check if string is a type
int is_type(const char *word) {
for (int i = 0; c_types[i] != NULL; i++) {
if (strcmp(word, c_types[i]) == 0)
return 1;
}
return 0;
}
// Get color code for token type
const char *get_color(SyntaxTokenType type) {
switch (type) {
case TOKEN_KEYWORD:
return E.theme.COLOR_KEYWORD;
case TOKEN_DATATYPE:
return E.theme.COLOR_TYPE;
case TOKEN_STRING:
return E.theme.COLOR_STRING;
case TOKEN_COMMENT:
return E.theme.COLOR_COMMENT;
case TOKEN_NUMBER:
return E.theme.COLOR_NUMBER;
default:
return E.theme.COLOR_DEFAULT;
}
}
int comment_section = 0;
// Highlight a line of C code and return the highlighted string
// Returns a newly allocated string that must be freed by the caller
char *highlight_line(const char *line, int *length) {
char *result = malloc(1024); // Allocate space for result
int result_pos = 0;
int i = 0;
while (line[i] != '\0' && line[i] != '\n') {
// Skip whitespace
if (line[i] == ' ' || line[i] == '\t') {
result[result_pos++] = line[i++];
continue;
}
if (comment_section) {
result_pos += sprintf(&result[result_pos], "%s", E.theme.COLOR_COMMENT);
while (line[i] != '\0' && line[i] != '\n') {
if (line[i] == '*' && line[i + 1] == '/') {
comment_section = 0;
}
result[result_pos++] = line[i++];
}
result_pos += sprintf(&result[result_pos], "%s", COLOR_RESET);
continue;
}
// Handle line comments
if (line[i] == '/' && line[i + 1] == '/') {
result_pos += sprintf(&result[result_pos], "%s", E.theme.COLOR_COMMENT);
while (line[i] != '\0' && line[i] != '\n') {
result[result_pos++] = line[i++];
}
result_pos += sprintf(&result[result_pos], "%s", COLOR_RESET);
continue;
}
// Handle block comments
if ((line[i] == '/' && line[i + 1] == '*')) {
comment_section = 1;
result_pos += sprintf(&result[result_pos], "%s", E.theme.COLOR_COMMENT);
result[result_pos++] = line[i++];
result[result_pos++] = line[i++];
while (line[i] != '\0') {
if (line[i] == '*' && line[i + 1] == '/') {
result[result_pos++] = line[i++];
result[result_pos++] = line[i++];
break;
}
result[result_pos++] = line[i++];
}
result_pos += sprintf(&result[result_pos], "%s", COLOR_RESET);
continue;
}
// Handle strings
if (line[i] == '"') {
result_pos += sprintf(&result[result_pos], "%s\"", E.theme.COLOR_STRING);
i++;
while (line[i] != '\0' && line[i] != '"') {
if (line[i] == '\\') {
result[result_pos++] = line[i++];
result[result_pos++] = line[i++];
} else {
result[result_pos++] = line[i++];
}
}
if (line[i] == '"')
result[result_pos++] = line[i++];
result_pos += sprintf(&result[result_pos], "%s", COLOR_RESET);
continue;
}
// Handle character literals
if (line[i] == '\'') {
result_pos += sprintf(&result[result_pos], "%s'", E.theme.COLOR_STRING);
i++;
while (line[i] != '\0' && line[i] != '\'') {
if (line[i] == '\\') {
result[result_pos++] = line[i++];
result[result_pos++] = line[i++];
} else {
result[result_pos++] = line[i++];
}
}
if (line[i] == '\'')
result[result_pos++] = line[i++];
result_pos += sprintf(&result[result_pos], "%s", COLOR_RESET);
continue;
}
// Handle numbers
if (line[i] >= '0' && line[i] <= '9') {
result_pos += sprintf(&result[result_pos], "%s", E.theme.COLOR_NUMBER);
while (is_word_char(line[i]) || line[i] == '.') {
result[result_pos++] = line[i++];
}
result_pos += sprintf(&result[result_pos], "%s", COLOR_RESET);
continue;
}
// Handle identifiers and keywords
if (is_word_char(line[i])) {
int start = i;
while (is_word_char(line[i]))
i++;
char word[256];
strncpy(word, &line[start], i - start);
word[i - start] = '\0';
SyntaxTokenType type = TOKEN_DEFAULT;
if (is_keyword(word))
type = TOKEN_KEYWORD;
else if (is_type(word))
type = TOKEN_DATATYPE;
result_pos += sprintf(&result[result_pos], "%s%s%s", get_color(type),
word, COLOR_RESET);
continue;
}
// Handle operators and other characters
result_pos += sprintf(&result[result_pos], "%s", E.theme.COLOR_DEFAULT);
result[result_pos++] = line[i++];
result_pos += sprintf(&result[result_pos], "%s", COLOR_RESET);
}
result[result_pos] = '\0';
*length = result_pos + 1;
return result;
}
#include "../include/syntax_highlighter.h"
#include "../include/data.h"
#include "../include/utf8.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
extern struct editorConfig E;
const char *c_keywords[] = {
"if", "else", "while", "for", "do", "switch",
"case", "break", "#include", "#define", "#if", "#endif", "#ifndef", "continue", "return",
"goto", "struct", "union", "enum", "typedef", "static",
"extern", "const", "volatile", "sizeof", "auto", "register",
"inline", "restrict", NULL};
// C types
const char *c_types[] = {"int", "char", "float", "double",
"void", "long", "short", "unsigned",
"signed", "bool", NULL};
// Returns the byte length of the UTF-8 character starting at s.
// Never returns 0 for a non-NUL byte, so callers won't infinite-loop.
static int utf8_char_len(const char *s)
{
unsigned char c = (unsigned char)*s;
if (c == 0) return 0;
if (c < 0x80) return 1;
if ((c & 0xE0) == 0xC0) return 2;
if ((c & 0xF0) == 0xE0) return 3;
if ((c & 0xF8) == 0xF0) return 4;
return 1; // continuation byte or invalid — advance 1 to avoid infinite loop
}
int is_word_char(const char *s)
{
uint32_t cp = utf8Decode(&s);
if ((cp >= 'a' && cp <= 'z') || (cp >= 'A' && cp <= 'Z') ||
(cp >= '0' && cp <= '9') || cp == '_' || cp == '#')
return 1;
if (cp == 0xFFFD) return 0;
if (cp >= 0x00C0 && cp <= 0x017F) return 1;
if (cp >= 0x0370 && cp <= 0x03FF) return 1;
if (cp >= 0x0400 && cp <= 0x04FF) return 1;
if (cp >= 0x0600 && cp <= 0x06FF) return 1;
if (cp >= 0x05D0 && cp <= 0x05EA) return 1;
if (cp >= 0x0900 && cp <= 0x097F) return 1;
if (cp >= 0x4E00 && cp <= 0x9FFF) return 1;
if ((cp >= 0x3040 && cp <= 0x309F) ||
(cp >= 0x30A0 && cp <= 0x30FF)) return 1;
if (cp >= 0xAC00 && cp <= 0xD7A3) return 1;
return 0;
}
// Copy one full UTF-8 character from src+i into dst+pos, advance both indices.
static void copy_utf8_char(char *dst, int *dst_pos, const char *src, int *src_pos)
{
int len = utf8_char_len(&src[*src_pos]);
for (int b = 0; b < len; b++)
dst[(*dst_pos)++] = src[(*src_pos)++];
}
// Check if character is alphanumeric or underscore
// Check if string is a keyword
int is_keyword(const char *word) {
for (int i = 0; c_keywords[i] != NULL; i++) {
if (strcmp(word, c_keywords[i]) == 0)
return 1;
}
return 0;
}
// Check if string is a type
int is_type(const char *word) {
for (int i = 0; c_types[i] != NULL; i++) {
if (strcmp(word, c_types[i]) == 0)
return 1;
}
return 0;
}
// Get color code for token type
const char *get_color(TokenType type) {
switch (type) {
case TOKEN_KEYWORD:
return E.theme.COLOR_KEYWORD;
case TOKEN_TYPE:
return E.theme.COLOR_TYPE;
case TOKEN_STRING:
return E.theme.COLOR_STRING;
case TOKEN_COMMENT:
return E.theme.COLOR_COMMENT;
case TOKEN_NUMBER:
return E.theme.COLOR_NUMBER;
default:
return E.theme.COLOR_DEFAULT;
}
}
int comment_section = 0;
// Highlight a line of C code and return the highlighted string
// Returns a newly allocated string that must be freed by the caller
char *highlight_line(const char *line, int *length) {
// Each byte can expand to at most (color_prefix + 4 bytes + color_reset).
// Allocate generously based on line length to avoid overflow.
int line_len = strlen(line);
int buf_size = line_len * 32 + 256;
char *result = malloc(buf_size);
int result_pos = 0;
int i = 0;
while (line[i] != '\0' && line[i] != '\n') {
// Skip whitespace — copy full UTF-8 char (whitespace is always ASCII,
// but using copy_utf8_char keeps the pattern consistent)
if (line[i] == ' ' || line[i] == '\t') {
copy_utf8_char(result, &result_pos, line, &i);
continue;
}
if (comment_section) {
result_pos += sprintf(&result[result_pos], "%s", E.theme.COLOR_COMMENT);
while (line[i] != '\0' && line[i] != '\n') {
if (line[i] == '*' && line[i + 1] == '/') {
comment_section = 0;
}
copy_utf8_char(result, &result_pos, line, &i);
}
result_pos += sprintf(&result[result_pos], "%s", COLOR_RESET);
continue;
}
// Handle line comments
if (line[i] == '/' && line[i + 1] == '/') {
result_pos += sprintf(&result[result_pos], "%s", E.theme.COLOR_COMMENT);
while (line[i] != '\0' && line[i] != '\n') {
copy_utf8_char(result, &result_pos, line, &i);
}
result_pos += sprintf(&result[result_pos], "%s", COLOR_RESET);
continue;
}
// Handle block comments
if (line[i] == '/' && line[i + 1] == '*') {
comment_section = 1;
result_pos += sprintf(&result[result_pos], "%s", E.theme.COLOR_COMMENT);
result[result_pos++] = line[i++];
result[result_pos++] = line[i++];
while (line[i] != '\0') {
if (line[i] == '*' && line[i + 1] == '/') {
result[result_pos++] = line[i++];
result[result_pos++] = line[i++];
comment_section = 0;
break;
}
copy_utf8_char(result, &result_pos, line, &i);
}
result_pos += sprintf(&result[result_pos], "%s", COLOR_RESET);
continue;
}
// Handle strings
if (line[i] == '"') {
result_pos += sprintf(&result[result_pos], "%s\"", E.theme.COLOR_STRING);
i++;
while (line[i] != '\0' && line[i] != '"') {
if (line[i] == '\\') {
result[result_pos++] = line[i++];
copy_utf8_char(result, &result_pos, line, &i);
} else {
copy_utf8_char(result, &result_pos, line, &i);
}
}
if (line[i] == '"')
result[result_pos++] = line[i++];
result_pos += sprintf(&result[result_pos], "%s", COLOR_RESET);
continue;
}
// Handle character literals
if (line[i] == '\'') {
result_pos += sprintf(&result[result_pos], "%s'", E.theme.COLOR_STRING);
i++;
while (line[i] != '\0' && line[i] != '\'') {
if (line[i] == '\\') {
result[result_pos++] = line[i++];
copy_utf8_char(result, &result_pos, line, &i);
} else {
copy_utf8_char(result, &result_pos, line, &i);
}
}
if (line[i] == '\'')
result[result_pos++] = line[i++];
result_pos += sprintf(&result[result_pos], "%s", COLOR_RESET);
continue;
}
// Handle numbers
if (line[i] >= '0' && line[i] <= '9') {
result_pos += sprintf(&result[result_pos], "%s", E.theme.COLOR_NUMBER);
while (is_word_char(&line[i]) || line[i] == '.') {
copy_utf8_char(result, &result_pos, line, &i);
}
result_pos += sprintf(&result[result_pos], "%s", COLOR_RESET);
continue;
}
// Handle identifiers and keywords
if (is_word_char(&line[i])) {
int start = i;
// Advance by full UTF-8 character widths, not single bytes
while (line[i] != '\0' && is_word_char(&line[i]))
i += utf8_char_len(&line[i]);
char word[256];
int word_len = i - start;
if (word_len >= (int)sizeof(word))
word_len = (int)sizeof(word) - 1;
strncpy(word, &line[start], word_len);
word[word_len] = '\0';
TokenType type = TOKEN_DEFAULT;
if (is_keyword(word))
type = TOKEN_KEYWORD;
else if (is_type(word))
type = TOKEN_TYPE;
result_pos += sprintf(&result[result_pos], "%s%s%s", get_color(type),
word, COLOR_RESET);
continue;
}
// Handle operators and other characters (including non-ASCII multi-byte)
result_pos += sprintf(&result[result_pos], "%s", E.theme.COLOR_DEFAULT);
copy_utf8_char(result, &result_pos, line, &i);
result_pos += sprintf(&result[result_pos], "%s", COLOR_RESET);
}
result[result_pos] = '\0';
*length = result_pos + 1;
return result;
}
src/termiWin.c
-556
View File
@@ -1,556 +0,0 @@
/* termiWin.c
*
* Copyright (C) 2017 Christian Visintin - christian.visintin1997@gmail.com
*
* This file is part of "termiWin: a termios porting for Windows"
*
* termiWin 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.
*
* termiWin 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 termiWin. If not, see <http://www.gnu.org/licenses/>.
*
*/
#include "../include/termiWin.h"
#ifdef _WIN32
#ifdef __cplusplus > 201711L
#define TERMIWIN_MAYBE_UNUSED [[maybe_unused]]
#else
#ifdef __GNUC__
#define TERMIWIN_MAYBE_UNUSED __attribute__((unused))
#else
#define TERMIWIN_MAYBE_UNUSED
#endif
#endif
#include <fcntl.h>
#include <stdlib.h>
typedef struct COM {
HANDLE hComm;
int fd; //Actually it's completely useless
char port[128];
} COM;
DCB SerialParams = { 0 }; //Initializing DCB structure
struct COM com;
COMMTIMEOUTS timeouts = { 0 }; //Initializing COMMTIMEOUTS structure
//LOCAL functions
//nbyte 0->7
int getByte(tcflag_t flag, int nbyte, int nibble) {
int byte;
if (nibble == 1)
byte = (flag >> (8 * (nbyte)) & 0x0f);
else
byte = (flag >> (8 * (nbyte)) & 0xf0);
return byte;
}
//INPUT FUNCTIONS
enum{
i_IXOFF = 0x01,
i_IXON = 0x02,
i_IXOFF_IXON = 0x03,
i_PARMRK = 0x04,
i_PARMRK_IXOFF = 0x05,
i_PARMRK_IXON = 0x06,
i_PARMRK_IXON_IXOFF = 0x07
};
int getIXOptions(tcflag_t flag) {
int byte = getByte(flag, 1, 1);
return byte;
}
//LOCALOPT FUNCTIONS
enum{
l_NOECHO = 0x00,
l_ECHO = 0x01,
l_ECHO_ECHOE = 0x03,
l_ECHO_ECHOK = 0x05,
l_ECHO_ECHONL = 0x09,
l_ECHO_ECHOE_ECHOK = 0x07,
l_ECHO_ECHOE_ECHONL = 0x0b,
l_ECHO_ECHOE_ECHOK_ECHONL = 0x0f,
l_ECHO_ECHOK_ECHONL = 0x0d,
l_ECHOE = 0x02,
l_ECHOE_ECHOK = 0x06,
l_ECHOE_ECHONL = 0x0a,
l_ECHOE_ECHOK_ECHONL = 0x0e,
l_ECHOK = 0x04,
l_ECHOK_ECHONL = 0x0c,
l_ECHONL = 0x08
};
int getEchoOptions(tcflag_t flag) {
int byte = getByte(flag, 1, 1);
return byte;
}
enum{
l_ICANON = 0x10,
l_ICANON_ISIG = 0x50,
l_ICANON_IEXTEN = 0x30,
l_ICANON_NOFLSH = 0x90,
l_ICANON_ISIG_IEXTEN = 0x70,
l_ICANON_ISIG_NOFLSH = 0xd0,
l_ICANON_IEXTEN_NOFLSH = 0xb0,
l_ICANON_ISIG_IEXTEN_NOFLSH = 0xf0,
l_ISIG = 0x40,
l_ISIG_IEXTEN = 0x60,
l_ISIG_NOFLSH = 0xc0,
l_ISIG_IEXTEN_NOFLSH = 0xe0,
l_IEXTEN = 0x20,
l_IEXTEN_NOFLSH = 0xa0,
l_NOFLSH = 0x80,
};
int getLocalOptions(tcflag_t flag) {
int byte = getByte(flag, 1, 0);
return byte;
}
enum{
l_TOSTOP = 0x01
};
int getToStop(tcflag_t flag) {
int byte = getByte(flag, 1, 1);
return byte;
}
//CONTROLOPT FUNCTIONS
int getCharSet(tcflag_t flag) {
//FLAG IS MADE UP OF 8 BYTES, A FLAG IS MADE UP OF A NIBBLE -> 4 BITS, WE NEED TO EXTRACT THE SECOND NIBBLE (1st) FROM THE FIFTH BYTE (6th).
int byte = getByte(flag, 1, 1);
switch (byte) {
case 0X0:
return CS5;
break;
case 0X4:
return CS6;
break;
case 0X8:
return CS7;
break;
case 0Xc:
return CS8;
break;
default:
return CS8;
break;
}
}
enum{
c_ALL_ENABLED = 0xd0,
c_PAREVEN_CSTOPB = 0x50,
c_PAREVEN_NOCSTOPB = 0x40,
c_PARODD_NOCSTOPB = 0xc0,
c_NOPARENB_CSTOPB = 0x10,
c_ALL_DISABLED = 0x00,
};
int getControlOptions(tcflag_t flag) {
int byte = getByte(flag, 1, 0);
return byte;
}
//LIBFUNCTIONS
int tcgetattr(int fd, struct termios* TERMIWIN_MAYBE_UNUSED termios_p) {
if (fd != com.fd) return -1;
int TERMIWIN_MAYBE_UNUSED ret = 0;
ret = GetCommState(com.hComm, &SerialParams);
return 0;
}
int tcsetattr(int fd, int TERMIWIN_MAYBE_UNUSED optional_actions, const struct termios* termios_p) {
if (fd != com.fd) return -1;
int ret = 0;
//Store flags into local variables
tcflag_t iflag = termios_p->c_iflag;
tcflag_t lflag = termios_p->c_lflag;
tcflag_t cflag = termios_p->c_cflag;
tcflag_t TERMIWIN_MAYBE_UNUSED oflag = termios_p->c_oflag;
//iflag
int IX = getIXOptions(iflag);
if ((IX == i_IXOFF_IXON) || (IX == i_PARMRK_IXON_IXOFF)) {
SerialParams.fOutX = TRUE;
SerialParams.fInX = TRUE;
SerialParams.fTXContinueOnXoff = TRUE;
}
//lflag
int TERMIWIN_MAYBE_UNUSED EchoOpt = getEchoOptions(lflag);
int TERMIWIN_MAYBE_UNUSED l_opt = getLocalOptions(lflag);
int TERMIWIN_MAYBE_UNUSED tostop = getToStop(lflag);
//Missing parameters...
//cflags
int CharSet = getCharSet(cflag);
int c_opt = getControlOptions(cflag);
switch (CharSet) {
case CS5:
SerialParams.ByteSize = 5;
break;
case CS6:
SerialParams.ByteSize = 6;
break;
case CS7:
SerialParams.ByteSize = 7;
break;
case CS8:
SerialParams.ByteSize = 8;
break;
}
switch (c_opt) {
case c_ALL_ENABLED:
SerialParams.Parity = ODDPARITY;
SerialParams.StopBits = TWOSTOPBITS;
break;
case c_ALL_DISABLED:
SerialParams.Parity = NOPARITY;
SerialParams.StopBits = ONESTOPBIT;
break;
case c_PAREVEN_CSTOPB:
SerialParams.Parity = EVENPARITY;
SerialParams.StopBits = TWOSTOPBITS;
break;
case c_PAREVEN_NOCSTOPB:
SerialParams.Parity = EVENPARITY;
SerialParams.StopBits = ONESTOPBIT;
break;
case c_PARODD_NOCSTOPB:
SerialParams.Parity = ODDPARITY;
SerialParams.StopBits = ONESTOPBIT;
break;
case c_NOPARENB_CSTOPB:
SerialParams.Parity = NOPARITY;
SerialParams.StopBits = TWOSTOPBITS;
break;
}
//aflags
/*
int OP;
if(oflag == OPOST)
else ...
*/
//Missing parameters...
//special characters
if (termios_p->c_cc[VEOF] != 0) SerialParams.EofChar = (char)termios_p->c_cc[VEOF];
if (termios_p->c_cc[VINTR] != 0) SerialParams.EvtChar = (char)termios_p->c_cc[VINTR];
if (termios_p->c_cc[VMIN] == 1) { //Blocking
timeouts.ReadIntervalTimeout = 0; // in milliseconds
timeouts.ReadTotalTimeoutConstant = 0; // in milliseconds
timeouts.ReadTotalTimeoutMultiplier = 0; // in milliseconds
timeouts.WriteTotalTimeoutConstant = 0; // in milliseconds
timeouts.WriteTotalTimeoutMultiplier = 0; // in milliseconds
} else { //Non blocking
timeouts.ReadIntervalTimeout = termios_p->c_cc[VTIME] * 100; // in milliseconds
timeouts.ReadTotalTimeoutConstant = termios_p->c_cc[VTIME] * 100; // in milliseconds
timeouts.ReadTotalTimeoutMultiplier = termios_p->c_cc[VTIME] * 100; // in milliseconds
timeouts.WriteTotalTimeoutConstant = termios_p->c_cc[VTIME] * 100; // in milliseconds
timeouts.WriteTotalTimeoutMultiplier = termios_p->c_cc[VTIME] * 100; // in milliseconds
}
SetCommTimeouts(com.hComm, &timeouts);
//EOF
ret = SetCommState(com.hComm, &SerialParams);
if (ret != 0)
return 0;
else
return -1;
}
int tcsendbreak(int fd, int TERMIWIN_MAYBE_UNUSED duration) {
if (fd != com.fd) return -1;
int ret = 0;
ret = TransmitCommChar(com.hComm, '\x00');
if (ret != 0)
return 0;
else
return -1;
}
int tcdrain(int fd) {
if (fd != com.fd) return -1;
return FlushFileBuffers(com.hComm);
}
int tcflush(int fd, int queue_selector) {
if (fd != com.fd) return -1;
int rc = 0;
switch (queue_selector) {
case TCIFLUSH:
rc = PurgeComm(com.hComm, PURGE_RXCLEAR);
break;
case TCOFLUSH:
rc = PurgeComm(com.hComm, PURGE_TXCLEAR);
break;
case TCIOFLUSH:
rc = PurgeComm(com.hComm, PURGE_RXCLEAR);
rc *= PurgeComm(com.hComm, PURGE_TXCLEAR);
break;
default:
rc = 0;
break;
}
if (rc != 0)
return 0;
else
return -1;
}
int tcflow(int fd, int action) {
if (fd != com.fd) return -1;
int rc = 0;
switch (action) {
case TCOOFF:
rc = PurgeComm(com.hComm, PURGE_TXABORT);
break;
case TCOON:
rc = ClearCommBreak(com.hComm);
break;
case TCIOFF:
rc = PurgeComm(com.hComm, PURGE_RXABORT);
break;
case TCION:
rc = ClearCommBreak(com.hComm);
break;
default:
rc = 0;
break;
}
if (rc != 0)
return 0;
else
return -1;
}
void cfmakeraw(struct termios* TERMIWIN_MAYBE_UNUSED termios_p) {
SerialParams.ByteSize = 8;
SerialParams.StopBits = ONESTOPBIT;
SerialParams.Parity = NOPARITY;
}
speed_t cfgetispeed(const struct termios* TERMIWIN_MAYBE_UNUSED termios_p) {
return SerialParams.BaudRate;
}
speed_t cfgetospeed(const struct termios* TERMIWIN_MAYBE_UNUSED termios_p) {
return SerialParams.BaudRate;
}
int cfsetispeed(struct termios* TERMIWIN_MAYBE_UNUSED termios_p, speed_t speed) {
SerialParams.BaudRate = speed;
return 0;
}
int cfsetospeed(struct termios* TERMIWIN_MAYBE_UNUSED termios_p, speed_t speed) {
SerialParams.BaudRate = speed;
return 0;
}
int cfsetspeed(struct termios* TERMIWIN_MAYBE_UNUSED termios_p, speed_t speed) {
SerialParams.BaudRate = speed;
return 0;
}
ssize_t read_serial(int fd, void* buffer, size_t count) {
if (fd != com.fd) return -1;
int rc = 0;
int ret;
ret = ReadFile(com.hComm, buffer, count, &rc, NULL);
if (ret == 0)
return -1;
else
return rc;
}
ssize_t write_serial(int fd, const void* buffer, size_t count) {
if (fd != com.fd) return -1;
int rc = 0;
int ret;
ret = WriteFile(com.hComm, buffer, count, &rc, NULL);
if (ret == 0)
return -1;
else
return rc;
}
int open_serial(const char* portname, int opt) {
if (strlen(portname) < 4) return -1;
// Set to zero
memset(com.port, 0x00, 128);
//COMxx
size_t portSize = 0;
if (strlen(portname) > 4) {
portSize = sizeof(char) * strlen("\\\\.\\COM10") + 1;
#ifdef _MSC_VER
strncat_s(com.port, portSize, "\\\\.\\", strlen("\\\\.\\"));
#else
strncat(com.port, "\\\\.\\", strlen("\\\\.\\"));
#endif
}
//COMx
else {
portSize = sizeof(char) * 5;
}
#ifdef _MSC_VER
strncat_s(com.port, portSize, portname, 4);
#else
strncat(com.port, portname, 4);
#endif
com.port[portSize] = 0x00;
switch (opt) {
case O_RDWR:
com.hComm = CreateFile(com.port, GENERIC_READ | GENERIC_WRITE, 0, NULL, OPEN_EXISTING, 0, NULL);
break;
case O_RDONLY:
com.hComm = CreateFile(com.port, GENERIC_READ, 0, NULL, OPEN_EXISTING, 0, NULL);
break;
case O_WRONLY:
com.hComm = CreateFile(com.port, GENERIC_WRITE, 0, NULL, OPEN_EXISTING, 0, NULL);
break;
}
if (com.hComm == INVALID_HANDLE_VALUE) {
return -1;
}
com.fd = atoi(portname + 3); // COMx and COMxx
SerialParams.DCBlength = sizeof(SerialParams);
return com.fd;
}
int close_serial(int TERMIWIN_MAYBE_UNUSED fd) {
int ret = CloseHandle(com.hComm);
if (ret != 0)
return 0;
else
return -1;
}
int select_serial(int TERMIWIN_MAYBE_UNUSED nfds, fd_set* readfds, fd_set* TERMIWIN_MAYBE_UNUSED writefds, fd_set* TERMIWIN_MAYBE_UNUSED exceptfds, struct timeval* TERMIWIN_MAYBE_UNUSED timeout) {
SetCommMask(com.hComm, EV_RXCHAR);
DWORD dwEventMask;
if (WaitCommEvent(com.hComm, &dwEventMask, NULL) == 0) {
return -1; // Return -1 if failed
}
if (dwEventMask == EV_RXCHAR) {
return com.fd;
} else {
if (readfds) {
// Clear file descriptor if event is not RXCHAR
FD_CLR(com.fd, readfds);
}
}
// NOTE: write event not detectable!
// NOTE: no timeout
return 0; // No data
}
//Returns hComm from the COM structure
HANDLE getHandle() {
return com.hComm;
}
#endif
src/terminal.c
+321 -163
View File
@@ -1,163 +1,321 @@
#include "../include/terminal.h"
#include "../include/data.h"
#include <stdio.h>
#ifdef _WIN32
#include <windows.h>
#endif
void die(const char *s) {
write(STDOUT_FILENO, "\x1b[2J", 4);
write(STDOUT_FILENO, CURSOR_TOP_LEFT, 3);
lisp_shutdown(E.ctx);
perror(s);
exit(1);
}
void disableRawMode() {
if (tcsetattr(STDIN_FILENO, TCSAFLUSH, &E.orig_termios) == -1) {
die("tcsetattr");
}
}
void enableRawMode() {
if (tcgetattr(STDIN_FILENO, &E.orig_termios) == -1) {
die("tcgetattr");
}
struct termios raw = E.orig_termios;
raw.c_iflag &= ~(BRKINT | ICRNL | INPCK | ISTRIP | IXON);
raw.c_oflag &= ~(OPOST);
raw.c_cflag |= (CS8);
raw.c_lflag &= ~(ECHO | ICANON | ISIG | IEXTEN);
raw.c_cc[VMIN] = 0;
raw.c_cc[VTIME] = 1;
if (tcsetattr(STDIN_FILENO, TCSAFLUSH, &raw) == -1) {
die("tcgetattr");
}
}
int editorReadKey() {
int nread;
char c;
char seq[3];
while ((nread = read(STDIN_FILENO, &c, 1)) != 1) {
if (nread == -1 && errno != EAGAIN) {
die("read");
}
}
if (c == '\x1b') {
if (read(STDIN_FILENO, &seq[0], 1) != 1 ||
read(STDIN_FILENO, &seq[1], 1) != 1) {
return '\x1b';
}
if (seq[0] == '[') {
if (seq[1] >= '0' && seq[1] <= '9') {
if (read(STDIN_FILENO, &seq[2], 1) != 1) {
return '\x1b';
}
if (seq[2] == '~') {
switch (seq[1]) {
case '1':
return BEG_LINE;
case '3':
return DEL_KEY;
case '4':
return END_LINE;
case '5':
return PAGE_UP;
case '6':
return PAGE_DOWN;
case '7':
return BEG_LINE;
case '8':
return END_LINE;
}
}
} else {
switch (seq[1]) {
case 'A':
return ARROW_UP;
case 'B':
return ARROW_DOWN;
case 'C':
return ARROW_RIGHT;
case 'D':
return ARROW_LEFT;
case 'H':
return BEG_LINE;
case 'F':
return END_LINE;
}
}
} else if (seq[0] == 'O') {
switch (seq[1]) {
case 'H':
return BEG_LINE;
case 'F':
return END_LINE;
}
}
return '\x1b';
} else {
return c;
}
}
int getCursorPosition(int *rows, int *cols) {
char buf[32];
unsigned int i = 0;
if (write(STDOUT_FILENO, "\x1b[6n", 4) != 4) {
return -1;
}
while (i < sizeof(buf) - 1) {
if (read(STDIN_FILENO, &buf[i], 1) != 1) {
break;
}
if (buf[i] == 'R') {
break;
}
++i;
}
buf[i] = '\0';
if (buf[0] != '\x1b' || buf[1] != '[') {
return -1;
}
if (sscanf(&buf[2], "%d;%d", rows, cols) != 2) {
return -1;
}
return 0;
}
int getWindowSize(int *rows, int *cols) {
#ifdef _WIN32
// Windows implementation
CONSOLE_SCREEN_BUFFER_INFO csbi;
GetConsoleScreenBufferInfo(GetStdHandle(STD_OUTPUT_HANDLE), &csbi);
*cols = csbi.srWindow.Right - csbi.srWindow.Left + 1;
*rows = csbi.srWindow.Bottom - csbi.srWindow.Top + 1;
return 0;
#else
// Unix implementation
struct winsize ws;
if (ioctl(STDOUT_FILENO, TIOCGWINSZ, &ws) == -1 || ws.ws_col == 0) {
if (write(STDOUT_FILENO, "\x1b[999C\x1b[999B", 12) != 12) {
return -1;
}
return getCursorPosition(rows, cols);
} else {
*cols = ws.ws_col;
*rows = ws.ws_row;
return 0;
}
#endif
}
#include "../include/terminal.h"
#include <ctype.h>
#include "../include/data.h"
#include "../include/define.h"
#include <stdarg.h>
#include <stdio.h>
#include <string.h>
#include <unistd.h>
#include "../include/buffer.h"
#include "../include/split_screen.h"
#include "../include/utf8.h"
void die(const char* s)
{
write(STDOUT_FILENO, "\x1b[2J", 4);
write(STDOUT_FILENO, CURSOR_TOP_LEFT, 3);
lisp_shutdown(E.ctx);
perror(s);
exit(1);
}
void disableRawMode()
{
if (tcsetattr(STDIN_FILENO, TCSAFLUSH, &E.orig_termios) == -1)
{
die("tcsetattr");
}
}
void enableRawMode()
{
if (tcgetattr(STDIN_FILENO, &E.orig_termios) == -1)
{
die("tcgetattr");
}
struct termios raw = E.orig_termios;
raw.c_iflag &= ~(BRKINT | ICRNL | INPCK | ISTRIP | IXON);
raw.c_oflag &= ~(OPOST);
raw.c_cflag |= (CS8);
raw.c_lflag &= ~(ECHO | ICANON | ISIG | IEXTEN);
raw.c_cc[VMIN] = 0;
raw.c_cc[VTIME] = 1;
if (tcsetattr(STDIN_FILENO, TCSAFLUSH, &raw) == -1)
{
die("tcgetattr");
}
}
#include <ctype.h> /* isprint */
char* keyToString(int key)
{
static char key_str[32];
if (key == '\r')
{
strcpy(key_str, "ENTER");
}
else if (key == 0x09)
{
strcpy(key_str, "TAB");
}
else if (key >= 1 && key <= 26)
{
snprintf(key_str, sizeof(key_str), "CTRL-%c", 'a' + key - 1);
}
else
{
switch (key)
{
case ARROW_UP:
strcpy(key_str, "ARROW-UP");
break;
case ARROW_DOWN:
strcpy(key_str, "ARROW-DOWN");
break;
case ARROW_LEFT:
strcpy(key_str, "ARROW-LEFT");
break;
case ARROW_RIGHT:
strcpy(key_str, "ARROW-RIGHT");
break;
case PAGE_UP:
strcpy(key_str, "PAGE-UP");
break;
case PAGE_DOWN:
strcpy(key_str, "PAGE-DOWN");
break;
case DEL_KEY:
strcpy(key_str, "DEL");
break;
case BACKSPACE:
strcpy(key_str, "BACKSPACE");
break;
case BEG_LINE:
strcpy(key_str, "HOME");
break;
case END_LINE:
strcpy(key_str, "END");
break;
case '\x1b':
strcpy(key_str, "ESCAPE");
break;
default:
if (key > 127)
{
/* UTF-8 code point — re-encode into the buffer */
char buf[5] = {0};
int n = utf8Encode((uint32_t)key, buf);
snprintf(key_str, sizeof(key_str), "%.*s", n, buf);
}
else if (isprint(key))
{
snprintf(key_str, sizeof(key_str), "%c", key);
}
else
{
snprintf(key_str, sizeof(key_str), "KEY-%d", key);
}
}
}
return key_str;
}
int editorReadKey()
{
char c;
int nread;
while (1)
{
fd_set fds;
FD_ZERO(&fds);
FD_SET(STDIN_FILENO, &fds);
int max_fd = STDIN_FILENO;
// Only watch wake pipe if LSP is ready AND active buffer is open
EditorPane* active = splitScreenGetActivePane();
struct buffer_t* buf = active ? bufferFindById(active->buffer_id) : NULL;
int lsp_active = E.lsp_client
&& E.lsp_client->wake_pipe[0] > 0
&& E.lsp_client->state == LSP_READY
&& buf
&& buf->b_lsp_open; // ← only if this buffer is tracked
if (lsp_active)
{
FD_SET(E.lsp_client->wake_pipe[0], &fds);
if (E.lsp_client->wake_pipe[0] > max_fd)
max_fd = E.lsp_client->wake_pipe[0];
}
int ready = select(max_fd + 1, &fds, NULL, NULL, NULL);
if (ready <= 0) continue;
if (lsp_active && FD_ISSET(E.lsp_client->wake_pipe[0], &fds))
{
char tmp[16];
read(E.lsp_client->wake_pipe[0], tmp, sizeof(tmp));
return LSP_WAKE_KEY;
}
if (FD_ISSET(STDIN_FILENO, &fds))
{
nread = read(STDIN_FILENO, &c, 1);
if (nread == 1) break;
}
}
appDebug("f : %hhu %ld\r\n", c, 0x200);
if (c == '\x1b')
{
char seq[6];
/* try to read escape sequence */
if (read(STDIN_FILENO, &seq[0], 1) != 1)
return '\x1b';
if (read(STDIN_FILENO, &seq[1], 1) != 1)
return '\x1b';
appDebug("f2 : %s\r\n", seq);
if (seq[0] == '[')
{
if (seq[1] >= '0' && seq[1] <= '9')
{
if (read(STDIN_FILENO, &seq[2], 1) != 1)
return '\x1b';
if (seq[2] == '~')
{
switch (seq[1])
{
case '1':
return BEG_LINE;
case '3':
return DEL_KEY;
case '4':
return END_LINE;
case '5':
return PAGE_UP;
case '6':
return PAGE_DOWN;
case '7':
return BEG_LINE;
case '8':
return END_LINE;
}
}
}
else
{
switch (seq[1])
{
case 'A':
return ARROW_UP;
case 'B':
return ARROW_DOWN;
case 'C':
return ARROW_RIGHT;
case 'D':
return ARROW_LEFT;
case 'H':
return BEG_LINE;
case 'F':
return END_LINE;
}
}
}
return '\x1b';
}
/* multi-byte UTF-8: read remaining bytes */
int seqlen = utf8Seqlen((unsigned char)c);
if (seqlen > 1)
{
/* pack into a pseudo-codepoint just to pass bytes through;
we handle encoding/decoding at the row level */
char buf[4] = {c, 0, 0, 0};
for (int i = 1; i < seqlen; i++)
if (read(STDIN_FILENO, &buf[i], 1) != 1)
break;
/* decode and return as uint32, but we need int — use high range */
const char* p = buf;
uint32_t cp = utf8Decode(&p);
return (int)cp; /* caller re-encodes when inserting */
}
return (unsigned char)c;
}
int getCursorPosition(int* rows, int* cols)
{
char buf[32];
unsigned int i = 0;
if (write(STDOUT_FILENO, "\x1b[6n", 4) != 4)
{
return -1;
}
while (i < sizeof(buf) - 1)
{
if (read(STDIN_FILENO, &buf[i], 1) != 1)
{
break;
}
if (buf[i] == 'R')
{
break;
}
++i;
}
buf[i] = '\0';
if (buf[0] != '\x1b' || buf[1] != '[')
{
return -1;
}
if (sscanf(&buf[2], "%d;%d", rows, cols) != 2)
{
return -1;
}
return 0;
}
int getWindowSize(int* rows, int* cols)
{
struct winsize ws;
if (ioctl(STDOUT_FILENO, TIOCGWINSZ, &ws) == -1 || ws.ws_col == 0)
{
if (write(STDOUT_FILENO, "\x1b[999C\x1b[999B", 12) != 12)
{
return -1;
}
return getCursorPosition(rows, cols);
}
*cols = ws.ws_col;
*rows = ws.ws_row;
return 0;
}
void appDebug(const char* fmt, ...)
{
#ifdef APP_DEBUG
va_list ap;
char message[1024];
va_start(ap, fmt);
vsnprintf(message, 1024, fmt, ap);
va_end(ap);
fprintf(stderr, "%s\n", message);
#endif
}
src/utf8.c
+147
View File
@@ -0,0 +1,147 @@
/**
* @file utf8.c
*/
#include "../include/utf8.h"
#include <stdint.h>
#include <unistd.h>
uint32_t readUtf8Char(void)
{
unsigned char buf[4];
read(STDIN_FILENO, &buf[0], 1);
int extra;
uint32_t cp;
if (buf[0] < 0x80)
{
cp = buf[0];
extra = 0;
}
else if (buf[0] < 0xC0) { return 0xFFFD; } // stray continuation
else if (buf[0] < 0xE0)
{
cp = buf[0] & 0x1F;
extra = 1;
}
else if (buf[0] < 0xF0)
{
cp = buf[0] & 0x0F;
extra = 2;
}
else
{
cp = buf[0] & 0x07;
extra = 3;
}
if (extra > 0)
{
read(STDIN_FILENO, &buf[1], extra); // read remaining bytes at once
for (int i = 0; i < extra; i++)
cp = (cp << 6) | (buf[1 + i] & 0x3F);
}
return cp;
}
uint32_t utf8Decode(const char** s)
{
unsigned char c = (unsigned char)**s;
uint32_t cp;
int extra;
if (c < 0x80)
{
cp = c;
extra = 0;
}
else if (c < 0xC0)
{
(*s)++;
return 0xFFFD;
}
else if (c < 0xE0)
{
cp = c & 0x1F;
extra = 1;
}
else if (c < 0xF0)
{
cp = c & 0x0F;
extra = 2;
}
else
{
cp = c & 0x07;
extra = 3;
}
(*s)++;
while (extra--)
{
c = (unsigned char)**s;
if ((c & 0xC0) != 0x80) return 0xFFFD;
cp = (cp << 6) | (c & 0x3F);
(*s)++;
}
return cp;
}
// buf must have at least 4 bytes; returns bytes written
int utf8Encode(uint32_t cp, char* buf)
{
if (cp < 0x80)
{
buf[0] = cp;
return 1;
}
if (cp < 0x800)
{
buf[0] = 0xC0 | (cp >> 6);
buf[1] = 0x80 | (cp & 0x3F);
return 2;
}
if (cp < 0x10000)
{
buf[0] = 0xE0 | (cp >> 12);
buf[1] = 0x80 | ((cp >> 6) & 0x3F);
buf[2] = 0x80 | (cp & 0x3F);
return 3;
}
buf[0] = 0xF0 | (cp >> 18);
buf[1] = 0x80 | ((cp >> 12) & 0x3F);
buf[2] = 0x80 | ((cp >> 6) & 0x3F);
buf[3] = 0x80 | (cp & 0x3F);
return 4;
}
int utf8Seqlen(unsigned char c)
{
if (c < 0x80) return 1;
if (c < 0xC0) return 0; /* continuation — shouldn't be leading */
if (c < 0xE0) return 2;
if (c < 0xF0) return 3;
return 4;
}
/**
* @param codepoint utf8 codepoint of a char
* @return length of the codepoint
*/
int codepointWidth(uint32_t codepoint)
{
if (codepoint < 0x20 || codepoint == 0x7F) return 0;
/* rough double-width ranges */
if ((codepoint >= 0x1100 && codepoint <= 0x115F) ||
(codepoint >= 0x2E80 && codepoint <= 0x303E) ||
(codepoint >= 0x3041 && codepoint <= 0x33BF) ||
(codepoint >= 0xAC00 && codepoint <= 0xD7AF) ||
(codepoint >= 0xF900 && codepoint <= 0xFAFF) ||
(codepoint >= 0xFF01 && codepoint <= 0xFF60) ||
(codepoint >= 0x1F300 && codepoint <= 0x1FAFF))
return 2;
return 1;
}
test/main.c
+3
View File
@@ -0,0 +1,3 @@
int main() {
printf("hello");
}