/* Based on https://github.com/antirez/kilo
*
* -----------------------------------------------------------------------
*
* Copyright (C) 2016 Salvatore Sanfilippo <antirez at gmail dot com>
*
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
*
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#define KILO_VERSION "0.0.1"
#ifdef __linux__
#define _POSIX_C_SOURCE 200809L
#endif
#include <assert.h>
#include <ncurses.h>
#include <stdlib.h>
#include <stdio.h>
#include <stdint.h>
#include <errno.h>
#include <string.h>
#include <ctype.h>
#include <time.h>
#include <sys/types.h>
#include <sys/time.h>
#include <unistd.h>
#include <fcntl.h>
#include "lua.h"
#include "teliva.h"
/* Syntax highlight types */
#define HL_NORMAL 0
#define HL_NONPRINT 1
#define HL_COMMENT 2 /* Single line comment. */
#define HL_MLCOMMENT 3 /* Multi-line comment. */
#define HL_KEYWORD1 4
#define HL_KEYWORD2 5
#define HL_STRING 6
#define HL_NUMBER 7
#define HL_MATCH 8 /* Search match. */
struct editorSyntax {
char **keywords;
char singleline_comment_start[2];
char *multiline_comment_start;
char *multiline_comment_end;
};
/* This structure represents a single line of the file we are editing. */
typedef struct erow {
int idx; /* Row index in the file, zero-based. */
int size; /* Size of the row, excluding the null term. */
int rsize; /* Size of the rendered row. */
char *chars; /* Row content. */
char *render; /* Row content "rendered" for screen (for TABs). */
unsigned char *hl; /* Syntax highlight type for each character in render.*/
int hl_oc; /* Row had open comment at end in last syntax highlight
check. */
} erow;
typedef struct hlcolor {
int r,g,b;
} hlcolor;
#define LINE_NUMBER_SPACE 4
struct editorConfig {
int cx,cy; /* Cursor x and y position in characters */
int cols; /* viewport width */
int rowoff; /* Offset of row displayed. */
int coloff; /* Offset of column displayed. */
int numrows; /* Number of rows */
erow *row; /* Rows */
int dirty; /* File modified but not saved. */
char *filename; /* Currently open filename */
struct editorSyntax *syntax; /* Current syntax highlight, or NULL. */
};
static struct editorConfig E;
/* =========================== Syntax highlights DB =========================
*
* In order to add a new syntax, define two arrays with a list of file name
* matches and keywords. The file name matches are used in order to match
* a given syntax with a given file name: if a match pattern starts with a
* dot, it is matched as the last past of the filename, for example ".c".
* Otherwise the pattern is just searched inside the filenme, like "Makefile").
*
* The list of keywords to highlight is just a list of words, however if they
* a trailing '|' character is added at the end, they are highlighted in
* a different color, so that you can have two different sets of keywords.
*
* Finally add a stanza in the HLDB global variable with two two arrays
* of strings.
*
* The characters for single and multi line comments must be exactly two
* and must be provided as well (see the C language example).
*
* There is no support to highlight patterns currently. */
/* Lua */
char *Lua_HL_keywords[] = {
/* keywords */
"do", "end", "function", "return", "require", "local",
"if", "then", "else", "elseif",
"while", "for", "repeat", "until", "break",
"and", "or", "not", "in",
/* types */
"nil|", "false|", "true|",
NULL
};
/* Here we define an array of syntax highlights by extensions, keywords,
* comments delimiters. */
struct editorSyntax HLDB[] = {
{
Lua_HL_keywords,
"--", /* line comment */
"--[[", /* multiline comment start */
"--]]" /* multline comment stop */
}
};
#define HLDB_ENTRIES (sizeof(HLDB)/sizeof(HLDB[0]))
/* ====================== Syntax highlight color scheme ==================== */
static int is_separator(int c) {
return c == '\0' || isspace(c) || strchr(",.()+-/*=~%[];",c) != NULL;
}
static int starts_with(const char* s, const char* prefix) {
return strncmp(prefix, s, strlen(prefix)) == 0;
}
/* Return true if the specified row last char is part of a multi line comment
* that starts at this row or at one before, and does not end at the end
* of the row but spawns to the next row. */
static int editorRowHasOpenComment(erow *row, char *mce) {
if (row->hl && row->rsize && row->hl[row->rsize-1] == HL_MLCOMMENT &&
(row->rsize < strlen(mce) || strcmp(&row->render[row->rsize-strlen(mce)], mce) != 0)) return 1;
return 0;
}
/* Set every byte of row->hl (that corresponds to every character in the line)
* to the right syntax highlight type (HL_* defines). */
static void editorUpdateSyntax(erow *row) {
row->hl = realloc(row->hl,row->rsize);
memset(row->hl,HL_NORMAL,row->rsize);
if (E.syntax == NULL) return; /* No syntax, everything is HL_NORMAL. */
int i, prev_sep, in_string, in_comment;
char *p;
char **keywords = E.syntax->keywords;
char *scs = E.syntax->singleline_comment_start;
char *mcs = E.syntax->multiline_comment_start;
char *mce = E.syntax->multiline_comment_end;
/* Point to the first non-space char. */
p = row->render;
i = 0; /* Current char offset */
while(*p && isspace(*p)) {
p++;
i++;
}
prev_sep = 1; /* Tell the parser if 'i' points to start of word. */
in_string = 0; /* Are we inside "" or '' ? */
in_comment = 0; /* Are we inside multi-line comment? */
/* If the previous line has an open comment, this line starts
* with an open comment state. */
if (row->idx > 0 && editorRowHasOpenComment(&E.row[row->idx-1], mce))
in_comment = 1;
while(*p) {
/* Handle multi line comments. */
if (in_comment) {
row->hl[i] = HL_MLCOMMENT;
if (starts_with(p, mce)) {
memset(&row->hl[i],HL_MLCOMMENT, strlen(mce));
p += strlen(mce); i += strlen(mce);
in_comment = 0;
prev_sep = 1;
continue;
} else {
prev_sep = 0;
p++; i++;
continue;
}
} else if (starts_with(p, mcs)) {
memset(&row->hl[i],HL_MLCOMMENT, strlen(mcs));
p += strlen(mcs); i += strlen(mcs);
in_comment = 1;
prev_sep = 0;
continue;
}
/* Handle single-line comments. */
if (prev_sep && *p == scs[0] && *(p+1) == scs[1]) {
/* From here to end is a comment */
memset(row->hl+i,HL_COMMENT,row->rsize-i);
return;
}
/* Handle "" and '' */
if (in_string) {
row->hl[i] = HL_STRING;
if (*p == '\\' && *(p+1)) {
row->hl[i+1] = HL_STRING;
p += 2; i += 2;
prev_sep = 0;
continue;
}
if (*p == in_string) in_string = 0;
p++; i++;
continue;
} else {
if (*p == '"' || *p == '\'') {
in_string = *p;
row->hl[i] = HL_STRING;
p++; i++;
prev_sep = 0;
continue;
}
}
/* Handle non printable chars. */
if (!isprint(*p)) {
row->hl[i] = HL_NONPRINT;
p++; i++;
prev_sep = 0;
continue;
}
/* Handle numbers */
if ((isdigit(*p) && (prev_sep || row->hl[i-1] == HL_NUMBER)) ||
(*p == '.' && i > 0 && row->hl[i-1] == HL_NUMBER)) {
row->hl[i] = HL_NUMBER;
p++; i++;
prev_sep = 0;
continue;
}
/* Handle keywords and lib calls */
if (prev_sep) {
int j;
int ileft = row->rsize-i;
for (j = 0; keywords[j]; j++) {
int klen = strlen(keywords[j]);
int kw2 = keywords[j][klen-1] == '|';
if (kw2) klen--;
if (klen <= ileft && !memcmp(p,keywords[j],klen) &&
is_separator(*(p+klen)))
{
/* Keyword */
memset(row->hl+i,kw2 ? HL_KEYWORD2 : HL_KEYWORD1,klen);
p += klen;
i += klen;
break;
}
}
if (keywords[j] != NULL) {
prev_sep = 0;
continue; /* We had a keyword match */
}
}
/* Not special chars */
prev_sep = is_separator(*p);
p++; i++;
}
/* Propagate syntax change to the next row if the open comment
* state changed. This may recursively affect all the following rows
* in the file. */
int oc = editorRowHasOpenComment(row, mce);
if (row->hl_oc != oc && row->idx+1 < E.numrows)
editorUpdateSyntax(&E.row[row->idx+1]);
row->hl_oc = oc;
}
/* Maps syntax highlight token types to terminal colors. */
static int editorSyntaxToColorPair(int hl) {
switch(hl) {
case HL_COMMENT:
case HL_MLCOMMENT: return COLOR_PAIR_LUA_COMMENT;
case HL_KEYWORD1: return COLOR_PAIR_LUA_KEYWORD;
case HL_KEYWORD2: return COLOR_PAIR_LUA_CONSTANT;
case HL_STRING: return COLOR_PAIR_LUA_CONSTANT;
case HL_NUMBER: return COLOR_PAIR_LUA_CONSTANT;
case HL_MATCH: return COLOR_PAIR_MATCH;
default: return COLOR_PAIR_NORMAL;
}
}
/* ======================= Editor rows implementation ======================= */
/* Update the rendered version and the syntax highlight of a row. */
static void editorUpdateRow(erow *row) {
unsigned int tabs = 0, nonprint = 0;
int j, idx;
/* Create a version of the row we can directly print on the screen,
* respecting tabs, substituting non printable characters with '?'. */
free(row->render);
for (j = 0; j < row->size; j++)
if (row->chars[j] == TAB) tabs++;
unsigned long long allocsize =
(unsigned long long) row->size + tabs*8 + nonprint*9 + 1;
if (allocsize > UINT32_MAX) {
printf("Some line of the edited file is too long for kilo\n");
exit(1);
}
row->render = malloc(row->size + tabs*8 + nonprint*9 + 1);
idx = 0;
for (j = 0; j < row->size; j++) {
if (row->chars[j] == TAB) {
row->render[idx++] = ' ';
while((idx+1) % 8 != 0) row->render[idx++] = ' ';
} else {
row->render[idx++] = row->chars[j];
}
}
row->rsize = idx;
row->render[idx] = '\0';
/* Update the syntax highlighting attributes of the row. */
editorUpdateSyntax(row);
}
/* Insert a row at the specified position, shifting the other rows on the bottom
* if required. */
static void editorInsertRow(int at, char *s, size_t len) {
if (at > E.numrows) return;
E.row = realloc(E.row,sizeof(erow)*(E.numrows+1));
if (at != E.numrows) {
memmove(E.row+at+1,E.row+at,sizeof(E.row[0])*(E.numrows-at));
for (int j = at+1; j <= E.numrows; j++) E.row[j].idx++;
}
E.row[at].size = len;
E.row[at].chars = malloc(len+1);
memcpy(E.row[at].chars,s,len+1);
E.row[at].hl = NULL;
E.row[at].hl_oc = 0;
E.row[at].render = NULL;
E.row[at].rsize = 0;
E.row[at].idx = at;
editorUpdateRow(E.row+at);
E.numrows++;
E.dirty++;
}
/* Free row's heap allocated stuff. */
static void editorFreeRow(erow *row) {
free(row->render);
free(row->chars);
free(row->hl);
}
/* Remove the row at the specified position, shifting the remaining on the
* top. */
static void editorDelRow(int at) {
erow *row;
if (at >= E.numrows) return;
row = E.row+at;
editorFreeRow(row);
memmove(E.row+at,E.row+at+1,sizeof(E.row[0])*(E.numrows-at-1));
for (int j = at; j < E.numrows-1; j++) E.row[j].idx++;
E.numrows--;
E.dirty++;
}
void clearEditor(void) {
E.cx = E.cy = 0;
E.rowoff = E.coloff = 0;
for (int j = E.numrows-1; j >= 0; j--)
editorDelRow(j);
}
/* Turn the editor rows into a single heap-allocated string.
* Returns the pointer to the heap-allocated string and populate the
* integer pointed by 'buflen' with the size of the string, excluding
* the final null term. */
static char *editorRowsToString(int *buflen) {
char *buf = NULL, *p;
int totlen = 0;
int j;
/* Compute count of bytes */
for (j = 0; j < E.numrows; j++)
totlen += E.row[j].size+1; /* +1 is for "\n" at end of every row */
*buflen = totlen;
totlen++; /* Also make space for null term */
p = buf = malloc(totlen);
for (j = 0; j < E.numrows; j++) {
memcpy(p,E.row[j].chars,E.row[j].size);
p += E.row[j].size;
*p = '\n';
p++;
}
*p = '\0';
return buf;
}
/* Insert a character at the specified position in a row, moving the remaining
* chars on the right if needed. */
static void editorRowInsertChar(erow *row, int at, int c) {
if (at > row->size) {
/* Pad the string with spaces if the insert location is outside the
* current length by more than a single character. */
int padlen = at-row->size;
/* In the next line +2 means: new char and null term. */
row->chars = realloc(row->chars,row->size+padlen+2);
memset(row->chars+row->size,' ',padlen);
row->chars[row->size+padlen+1] = '\0';
row->size += padlen+1;
} else {
/* If we are in the middle of the string just make space for 1 new
* char plus the (already existing) null term. */
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;
editorUpdateRow(row);
E.dirty++;
}
/* Append the string 's' at the end of a row */
static void editorRowAppendString(erow *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';
editorUpdateRow(row);
E.dirty++;
}
/* Delete the character at offset 'at' from the specified row. */
static void editorRowDelChar(erow *row, int at) {
if (row->size <= at) return;
memmove(row->chars+at,row->chars+at+1,row->size-at);
editorUpdateRow(row);
row->size--;
E.dirty++;
}
/* Insert the specified char at the current prompt position. */
static void editorInsertChar(int c) {
int filerow = E.rowoff+E.cy;
int filecol = E.coloff+E.cx;
erow *row = (filerow >= E.numrows) ? NULL : &E.row[filerow];
/* If the row where the cursor is currently located does not exist in our
* logical representaion of the file, add enough empty rows as needed. */
if (!row) {
while(E.numrows <= filerow)
editorInsertRow(E.numrows,"",0);
}
row = &E.row[filerow];
editorRowInsertChar(row,filecol,c);
if (E.cx == E.cols-1)
E.coloff++;
else
E.cx++;
E.dirty++;
}
/* Inserting a newline is slightly complex as we have to handle inserting a
* newline in the middle of a line, splitting the line as needed. */
static void editorInsertNewline(void) {
int filerow = E.rowoff+E.cy;
int filecol = E.coloff+E.cx;
erow *row = (filerow >= E.numrows) ? NULL : &E.row[filerow];
if (!row) {
if (filerow == E.numrows) {
editorInsertRow(filerow,"",0);
goto fixcursor;
}
return;
}
/* If the cursor is over the current line size, we want to conceptually
* think it's just over the last character. */
if (filecol >= row->size) filecol = row->size;
if (filecol == 0) {
editorInsertRow(filerow,"",0);
} else {
/* We are in the middle of a line. Split it between two rows. */
editorInsertRow(filerow+1,row->chars+filecol,row->size-filecol);
row = &E.row[filerow];
row->chars[filecol] = '\0';
row->size = filecol;
editorUpdateRow(row);
}
fixcursor:
if (E.cy == LINES-1-1) {
E.rowoff++;
} else {
E.cy++;
}
E.cx = 0;
E.coloff = 0;
}
/* Delete the char at the current prompt position. */
static void editorDelChar() {
int filerow = E.rowoff+E.cy;
int filecol = E.coloff+E.cx;
erow *row = (filerow >= E.numrows) ? NULL : &E.row[filerow];
if (!row || (filecol == 0 && filerow == 0)) return;
if (filecol == 0) {
/* Handle the case of column 0, we need to move the current line
* on the right of the previous one. */
filecol = E.row[filerow-1].size;
editorRowAppendString(&E.row[filerow-1],row->chars,row->size);
editorDelRow(filerow);
row = NULL;
if (E.cy == 0)
E.rowoff--;
else
E.cy--;
E.cx = filecol;
if (E.cx >= E.cols) {
int shift = (E.cols-E.cx)+1;
E.cx -= shift;
E.coloff += shift;
}
} else {
editorRowDelChar(row,filecol-1);
if (E.cx == 0 && E.coloff)
E.coloff--;
else
E.cx--;
}
if (row) editorUpdateRow(row);
E.dirty++;
}
static void editorUncommentCursorRow() {
erow *row = &E.row[E.rowoff+E.cy];
E.coloff = 0;
E.cx = 4;
editorUpdateRow(row);
editorDelChar();
editorDelChar();
editorDelChar();
editorDelChar();
}
static void editorCommentCursorRow() {
erow *row = &E.row[E.rowoff+E.cy];
editorRowInsertChar(row, 0, ' ');
editorRowInsertChar(row, 0, '?');
editorRowInsertChar(row, 0, '-');
editorRowInsertChar(row, 0, '-');
E.coloff = 0;
E.cx = 0;
}
/* Load the specified program in the editor memory and returns 0 on success
* or 1 on error. */
int editorOpen(char *filename) {
FILE *fp;
E.dirty = 0;
free(E.filename);
size_t fnlen = strlen(filename)+1;
E.filename = malloc(fnlen);
memcpy(E.filename,filename,fnlen);
fp = fopen(filename,"r");
if (!fp) {
if (errno != ENOENT) {
perror("Opening file");
exit(1);
}
return 1;
}
char *line = NULL;
size_t linecap = 0;
ssize_t linelen;
while((linelen = getline(&line,&linecap,fp)) != -1) {
if (linelen && (line[linelen-1] == '\n' || line[linelen-1] == '\r'))
line[--linelen] = '\0';
editorInsertRow(E.numrows,line,linelen);
}
free(line);
fclose(fp);
E.dirty = 0;
return 0;
}
/* Save the current file on disk. Return 0 on success, 1 on error. */
static int editorSaveToDisk(void) {
int len;
char *buf = editorRowsToString(&len);
int fd = open(E.filename,O_RDWR|O_CREAT,0644);
if (fd == -1) goto writeerr;
/* Use truncate + a single write(2) call in order to make saving
* a bit safer, under the limits of what we can do in a small editor. */
if (ftruncate(fd,len) == -1) goto writeerr;
if (write(fd,buf,len) != len) goto writeerr;
close(fd);
free(buf);
E.dirty = 0;
return 0;
writeerr:
free(buf);
if (fd != -1) close(fd);
/* TODO: better error handling. */
/* I haven't gotten to this yet since we have version control. */
endwin();
printf("Can't save! I/O error: %s",strerror(errno));
exit(1);
return 1;
}
/* ============================= Terminal update ============================ */
extern char *Previous_error;
extern void draw_menu_item(const char* key, const char* name);
static void editorMenu(void) {
attrset(A_REVERSE);
for (int x = 0; x < COLS; ++x)
mvaddch(LINES-1, x, ' ');
attrset(A_NORMAL);
extern int menu_column;
menu_column = 2;
draw_menu_item("^e", "run");
if (Previous_error != NULL) {
attron(A_BOLD);
draw_menu_item("^c", "abort");
attroff(A_BOLD);
}
draw_menu_item("^g", "go");
draw_menu_item("^b", "big picture");
draw_menu_item("^f", "find");
draw_menu_item("^h", "backspace");
draw_menu_item("^l", "end of line");
/* draw_menu_item("^/|^-|^_", "(un)comment line"); */
attroff(A_REVERSE);
mvaddstr(LINES-1, menu_column, " ^/");
attron(COLOR_PAIR(COLOR_PAIR_MENU_ALTERNATE));
addstr("|");
attroff(COLOR_PAIR(COLOR_PAIR_MENU_ALTERNATE));
addstr("^-");
attron(COLOR_PAIR(COLOR_PAIR_MENU_ALTERNATE));
addstr("|");
attroff(COLOR_PAIR(COLOR_PAIR_MENU_ALTERNATE));
addstr("^_ ");
menu_column += 10;
attron(A_REVERSE);
mvaddstr(LINES-1, menu_column, " (un)comment line ");
menu_column += 18;
attrset(A_NORMAL);
}
extern void draw_string_on_menu (const char* s);
static void editorFindMenu(void) {
attrset(A_REVERSE);
for (int x = 0; x < COLS; ++x)
mvaddch(LINES-1, x, ' ');
attrset(A_NORMAL);
extern int menu_column;
menu_column = 2;
draw_menu_item("^x", "cancel");
draw_menu_item("Enter", "submit");
draw_menu_item("^h", "backspace");
draw_menu_item("^u", "clear");
/* draw_menu_item("←|↑", "previous"); */
attroff(A_REVERSE);
mvaddstr(LINES-1, menu_column, " ←|↑ ");
menu_column += 5; /* strlen isn't sufficient */
attron(A_REVERSE);
draw_string_on_menu("previous");
/* draw_menu_item("↓|→", "next"); */
attroff(A_REVERSE);
mvaddstr(LINES-1, menu_column, " ↓|→ ");
menu_column += 5; /* strlen isn't sufficient */
attron(A_REVERSE);
draw_string_on_menu("next");
attrset(A_NORMAL);
}
static void editorGoMenu(void) {
attrset(A_REVERSE);
for (int x = 0; x < COLS; ++x)
mvaddch(LINES-1, x, ' ');
attrset(A_NORMAL);
extern int menu_column;
menu_column = 2;
draw_menu_item("^x", "cancel");
draw_menu_item("Enter", "submit");
draw_menu_item("^h", "backspace");
draw_menu_item("^u", "clear");
attrset(A_NORMAL);
}
extern int render_previous_error();
static void editorRefreshScreen(void (*menu_func)(void)) {
int y;
erow *r;
int current_color = -1;
curs_set(0);
clear();
attrset(A_NORMAL);
/* Draw all line numbers first so they don't mess up curses state later
* when rendering lines. */
for (y = 0; y < LINES-1; y++) {
int filerow = E.rowoff+y;
if (filerow >= E.numrows) {
continue;
}
mvaddstr(y, 0, "");
attron(COLOR_PAIR(COLOR_PAIR_FADE));
printw("%3d ", filerow+1); // LINE_NUMBER_SPACE-1
attroff(COLOR_PAIR(COLOR_PAIR_FADE));
}
for (y = 0; y < LINES-1; y++) {
int filerow = E.rowoff+y;
if (filerow >= E.numrows) {
continue;
}
r = &E.row[filerow];
int len = r->rsize - E.coloff;
mvaddstr(y, LINE_NUMBER_SPACE, "");
if (len > 0) {
if (len > E.cols) len = E.cols;
char *c = r->render+E.coloff;
unsigned char *hl = r->hl+E.coloff;
int j;
for (j = 0; j < len; j++) {
if (hl[j] == HL_NONPRINT) {
char sym;
attron(A_REVERSE);
if (c[j] <= 26)
sym = '@'+c[j];
else
sym = '?';
addch(sym);
attroff(A_REVERSE);
} else if (hl[j] == HL_NORMAL) {
if (current_color != -1) {
attrset(A_NORMAL);
current_color = -1;
}
addch(c[j]);
} else {
int color = editorSyntaxToColorPair(hl[j]);
if (color != current_color) {
attrset(COLOR_PAIR(color));
current_color = color;
}
addch(c[j]);
}
}
}
}
render_previous_error();
(*menu_func)();
/* Put cursor at its current position. Note that the horizontal position
* at which the cursor is displayed may be different compared to 'E.cx'
* because of TABs. */
int j;
int cx = 0;
int filerow = E.rowoff+E.cy;
erow *row = (filerow >= E.numrows) ? NULL : &E.row[filerow];
if (row) {
for (j = E.coloff; j < (E.cx+E.coloff); j++) {
if (j < row->size && row->chars[j] == TAB) cx += 7-((cx)%8);
cx++;
}
}
mvaddstr(E.cy, cx+LINE_NUMBER_SPACE, "");
curs_set(1);
}
/* =============================== Find mode ================================ */
#define KILO_QUERY_LEN 256
static void editorFind() {
char query[KILO_QUERY_LEN+1] = {0};
int qlen = 0;
int last_match = -1; /* Last line where a match was found. -1 for none. */
int find_next = 0; /* if 1 search next, if -1 search prev. */
int saved_hl_line = -1; /* No saved HL */
char *saved_hl = NULL;
#define FIND_RESTORE_HL do { \
if (saved_hl) { \
memcpy(E.row[saved_hl_line].hl,saved_hl, E.row[saved_hl_line].rsize); \
free(saved_hl); \
saved_hl = NULL; \
} \
} while (0)
/* Save the cursor position in order to restore it later. */
int saved_cx = E.cx, saved_cy = E.cy;
int saved_coloff = E.coloff, saved_rowoff = E.rowoff;
while(1) {
editorRefreshScreen(editorFindMenu);
mvprintw(LINES-2, 0, "Find: %s", query);
int c = getch();
if (c == KEY_BACKSPACE || c == DELETE || c == CTRL_H) {
if (qlen != 0) query[--qlen] = '\0';
last_match = -1;
} else if (c == CTRL_X || c == ENTER) {
if (c == CTRL_X) {
E.cx = saved_cx; E.cy = saved_cy;
E.coloff = saved_coloff; E.rowoff = saved_rowoff;
}
FIND_RESTORE_HL;
return;
} else if (c == CTRL_U) {
qlen = 0;
query[qlen] = '\0';
} else if (c == KEY_RIGHT || c == KEY_DOWN) {
find_next = 1;
} else if (c == KEY_LEFT || c == KEY_UP) {
find_next = -1;
} else if (isprint(c)) {
if (qlen < KILO_QUERY_LEN) {
query[qlen++] = c;
query[qlen] = '\0';
last_match = -1;
}
}
/* Search occurrence. */
if (last_match == -1) find_next = 1;
if (find_next) {
char *match = NULL;
int match_offset = 0;
int i, current = last_match;
for (i = 0; i < E.numrows; i++) {
current += find_next;
if (current == -1) current = E.numrows-1;
else if (current == E.numrows) current = 0;
match = strstr(E.row[current].render,query);
if (match) {
match_offset = match-E.row[current].render;
break;
}
}
find_next = 0;
/* Highlight */
FIND_RESTORE_HL;
if (match) {
erow *row = &E.row[current];
last_match = current;
if (row->hl) {
saved_hl_line = current;
saved_hl = malloc(row->rsize);
memcpy(saved_hl,row->hl,row->rsize);
memset(row->hl+match_offset,HL_MATCH,qlen);
}
E.cy = 0;
E.cx = match_offset;
E.rowoff = current;
E.coloff = 0;
/* Scroll horizontally as needed. */
if (E.cx > E.cols) {
int diff = E.cx - E.cols;
E.cx -= diff;
E.coloff += diff;
}
}
}
}
}
/* ========================= Editor events handling ======================== */
static int editorAtStartOfLine() {
return E.coloff == 0 && E.cx == 0;
}
/* Handle cursor position change because arrow keys were pressed. */
static void editorMoveCursor(int key) {
int filerow = E.rowoff+E.cy;
int filecol = E.coloff+E.cx;
int rowlen;
erow *row = (filerow >= E.numrows) ? NULL : &E.row[filerow];
switch(key) {
case KEY_LEFT:
if (E.cx == 0) {
if (E.coloff) {
E.coloff--;
} else {
if (filerow > 0) {
E.cy--;
E.cx = E.row[filerow-1].size;
if (E.cx > E.cols-1) {
E.coloff = E.cx-E.cols+1;
E.cx = E.cols-1;
}
}
}
} else {
E.cx -= 1;
}
break;
case KEY_RIGHT:
if (row && filecol < row->size) {
if (E.cx == E.cols-1) {
E.coloff++;
} else {
E.cx += 1;
}
} else if (row && filecol == row->size) {
E.cx = 0;
E.coloff = 0;
if (E.cy == LINES-1-1) {
E.rowoff++;
} else {
E.cy += 1;
}
}
break;
case KEY_UP:
if (E.cy == 0) {
if (E.rowoff) E.rowoff--;
} else {
E.cy -= 1;
}
break;
case KEY_DOWN:
if (filerow < E.numrows) {
if (E.cy == LINES-1-1) {
E.rowoff++;
} else {
E.cy += 1;
}
}
break;
}
/* Fix cx if the current line has not enough chars. */
filerow = E.rowoff+E.cy;
filecol = E.coloff+E.cx;
row = (filerow >= E.numrows) ? NULL : &E.row[filerow];
rowlen = row ? row->size : 0;
if (filecol > rowlen) {
E.cx -= filecol-rowlen;
if (E.cx < 0) {
E.coloff += E.cx;
E.cx = 0;
}
}
}
int identifier_char(char c) {
/* keep sync'd with llex */
return isalnum(c) || c == '_';
}
void word_at_cursor(char* out, int capacity) {
erow* row = &E.row[E.rowoff + E.cy];
int cidx = E.coloff + E.cx;
int len = 0;
memset(out, 0, capacity);
if (row == NULL) return;
/* scan back to first identifier char */
while (cidx > 0) {
--cidx;
if (!identifier_char(row->chars[cidx])) {
++cidx;
break;
}
}
/* now scan forward */
for (len = 0; cidx+len < row->size; ++len) {
if (!identifier_char(row->chars[cidx+len]))
break;
}
if (len < capacity)
strncpy(out, &row->chars[cidx], len);
}
/* Jump to some definition. */
extern void save_to_current_definition_and_editor_buffer(lua_State *L, char *name);
extern void load_editor_buffer_to_current_definition_in_image(lua_State *L);
extern char Current_definition[];
#define CURRENT_DEFINITION_LEN 256
static void editorGo(lua_State* L) {
char query[CURRENT_DEFINITION_LEN+1] = {0};
int qlen = 0;
if (strlen(Current_definition) > 0) {
/* We're currently editing a definition. Save it. */
editorSaveToDisk();
load_editor_buffer_to_current_definition_in_image(L);
}
word_at_cursor(query, CURRENT_DEFINITION_LEN);
qlen = strlen(query);
while(1) {
editorRefreshScreen(editorGoMenu);
mvprintw(LINES-2, 0, "Go to: %s", query);
int c = getch();
if (c == KEY_BACKSPACE || c == DELETE || c == CTRL_H) {
if (qlen != 0) query[--qlen] = '\0';
} else if (c == CTRL_X || c == ENTER) {
if (c == ENTER) {
save_to_current_definition_and_editor_buffer(L, query);
clearEditor();
editorOpen("teliva_editor_buffer");
}
return;
} else if (c == CTRL_U) {
qlen = 0;
query[qlen] = '\0';
} else if (isprint(c)) {
if (qlen < CURRENT_DEFINITION_LEN) {
query[qlen++] = c;
query[qlen] = '\0';
}
}
}
}
/* Process events arriving from the standard input, which is, the user
* is typing stuff on the terminal. */
static int Quit = 0;
static int Back_to_big_picture = 0;
extern void save_editor_state(int rowoff, int coloff, int cy, int cx);
static void editorProcessKeypress(lua_State* L) {
int c = getch();
//? mvprintw(LINES-3, 60, "key: %d\n", c);
//? getch();
switch(c) {
case ENTER:
{
editorInsertNewline();
/* auto-indent */
erow* prevrow = &E.row[E.rowoff + E.cy - 1];
for (int x = 0; x < prevrow->size && prevrow->chars[x] == ' '; ++x)
editorInsertChar(' ');
}
break;
case CTRL_C:
if (Previous_error != NULL)
exit(1);
break;
case CTRL_E:
/* Save and quit. */
editorSaveToDisk();
save_editor_state(E.rowoff, E.coloff, E.cy, E.cx);
Quit = 1;
break;
case CTRL_G:
/* Go to a different definition. */
editorGo(L);
break;
case CTRL_B:
/* Go to big-picture view. */
editorSaveToDisk();
Quit = 1;
Back_to_big_picture = 1;
break;
case CTRL_F:
editorFind();
break;
case KEY_BACKSPACE:
case DELETE:
case CTRL_H:
editorDelChar();
break;
case KEY_NPAGE:
case KEY_PPAGE:
if (c == KEY_PPAGE && E.cy != 0)
E.cy = 0;
else if (c == KEY_NPAGE && E.cy != LINES-1-1)
E.cy = LINES-1-1;
{
int times = LINES-1;
while(times--)
editorMoveCursor(c == KEY_PPAGE ? KEY_UP : KEY_DOWN);
}
break;
case CTRL_A:
while (!editorAtStartOfLine())
editorMoveCursor(KEY_LEFT);
break;
case CTRL_L:
while (1) {
editorMoveCursor(KEY_RIGHT);
if (editorAtStartOfLine()) {
editorMoveCursor(KEY_LEFT);
break;
}
}
break;
case CTRL_U:
while (!editorAtStartOfLine())
editorDelChar();
break;
case CTRL_K:
while (1) {
editorMoveCursor(KEY_RIGHT);
if (editorAtStartOfLine()) {
editorMoveCursor(KEY_LEFT);
break;
}
editorDelChar();
}
break;
case CTRL_SLASH: /* same as CTRL_UNDERSCORE */
if (starts_with(E.row[E.rowoff+E.cy].chars, "--? "))
editorUncommentCursorRow();
else
editorCommentCursorRow();
break;
case KEY_UP:
case KEY_DOWN:
case KEY_LEFT:
case KEY_RIGHT:
editorMoveCursor(c);
break;
case TAB:
/* insert 2 spaces */
editorInsertChar(' ');
editorInsertChar(' ');
break;
default:
if (c >= ' ')
editorInsertChar(c);
break;
}
}
static void initEditor(void) {
E.cx = 0;
E.cy = 0;
E.rowoff = 0;
E.coloff = 0;
E.numrows = 0;
E.row = NULL;
E.dirty = 0;
E.filename = NULL;
E.syntax = &HLDB[0];
}
/* return true if user chose to back into the big picture view */
int edit(lua_State* L, char* filename) {
Quit = 0;
Back_to_big_picture = 0;
initEditor();
editorOpen(filename);
while(!Quit) {
E.cols = COLS-LINE_NUMBER_SPACE; /* update on resize */
editorRefreshScreen(editorMenu);
editorProcessKeypress(L);
}
return Back_to_big_picture;
}
/* return true if user chose to back into the big picture view */
int edit_from(lua_State* L, char* filename, int rowoff, int coloff, int cy, int cx) {
Quit = 0;
Back_to_big_picture = 0;
initEditor();
E.rowoff = rowoff;
E.coloff = coloff;
E.cy = cy;
E.cx = cx;
editorOpen(filename);
while(!Quit) {
E.cols = COLS-LINE_NUMBER_SPACE; /* update on resize */
editorRefreshScreen(editorMenu);
editorProcessKeypress(L);
}
return Back_to_big_picture;
}
int resumeEdit(lua_State* L) {
Quit = 0;
Back_to_big_picture = 0;
while(!Quit) {
E.cols = COLS-LINE_NUMBER_SPACE; /* update on resize */
editorRefreshScreen(editorMenu);
editorProcessKeypress(L);
}
return Back_to_big_picture;
}
/* vim:tabstop=4:shiftwidth=0:expandtab:softtabstop=-1
*/