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Added highlighting, diming support

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htop looks a lot better now
This commit is contained in:
Rekketstone 2025-01-16 10:03:58 -07:00
parent e7cb69fe4b
commit d53f948bc4
2 changed files with 168 additions and 83 deletions
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2
config.mk
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@ -12,7 +12,7 @@ LIBS = -L/usr/X11R6/lib -lX11 -lutil ${FREETYPELIBS}
# flags # flags
CPPFLAGS = -D_DEFAULT_SOURCE -D_XOPEN_SOURCE=700 CPPFLAGS = -D_DEFAULT_SOURCE -D_XOPEN_SOURCE=700
CFLAGS = -std=c99 -pedantic -Wall -Wextra -Os ${INCS} ${CPPFLAGS} CFLAGS = -g -std=c99 -pedantic -Wall -Wextra -Os ${INCS} ${CPPFLAGS}
LDFLAGS = ${LIBS} LDFLAGS = ${LIBS}
# compiler and linker # compiler and linker

245
cowterm.c
View File

@ -23,29 +23,36 @@
#define CHAR_WIDTH 8 #define CHAR_WIDTH 8
#define CHAR_HEIGHT 16 #define CHAR_HEIGHT 16
// General window/terminal stuff
static pid_t child_pid; static pid_t child_pid;
static char **terminal_buffer = NULL; static char **terminal_buffer = NULL;
static unsigned long **color_buffer = NULL; static unsigned long **color_buffer = NULL;
static int **attr_buffer = NULL; static int **attr_buffer = NULL;
static int term_rows; static int term_rows;
static int term_cols; static int term_cols;
static int cursor_x = 0;
static int cursor_y = 0;
static unsigned long current_color; static unsigned long current_color;
static int current_attr = 0; static int current_attr = 0;
static GC gc = NULL; static GC gc = NULL;
static GC gc_bold = NULL; static GC gc_bold = NULL;
static Display *display = NULL; static Display *display = NULL;
static int cursor_visible = 1;
static struct timeval last_blink;
static struct timeval last_refresh; static struct timeval last_refresh;
static Pixmap buffer_pixmap = None; static Pixmap buffer_pixmap = None;
static int master_fd = -1; static int master_fd = -1;
static int needs_refresh = 0; static int needs_refresh = 0;
static int window_focused = 0;
// Cursor stuff
static int cursor_visible = 1;
static struct timeval last_blink;
static int cursor_x = 0;
static int cursor_y = 0;
// Font stuff
static XFontStruct *regular_font = NULL; static XFontStruct *regular_font = NULL;
static XFontStruct *bold_font = NULL; static XFontStruct *bold_font = NULL;
static XFontStruct *italic_font = NULL; static XFontStruct *italic_font = NULL;
static int window_focused = 0; static unsigned long current_bg_color;
static unsigned long **bg_color_buffer = NULL;
// Alternatives to handle the ANSI escape codes // Alternatives to handle the ANSI escape codes
static char **saved_terminal = NULL; static char **saved_terminal = NULL;
@ -55,8 +62,12 @@ static int saved_cursor_x = 0;
static int saved_cursor_y = 0; static int saved_cursor_y = 0;
static int using_alternate = 0; static int using_alternate = 0;
#define ATTR_BOLD 1 #define ATTR_BOLD (1 << 0)
#define ATTR_ITALIC 2 #define ATTR_ITALIC (1 << 1)
#define ATTR_REVERSE (1 << 2)
#define ATTR_UNDERLINE (1 << 3)
#define ATTR_DIM (1 << 4)
#define ATTR_BLINK (1 << 5)
// Pesky static smth smth error, so we "declare" it early // Pesky static smth smth error, so we "declare" it early
static void draw_terminal(Display *display, Window window); static void draw_terminal(Display *display, Window window);
@ -144,12 +155,16 @@ static void resize_buffers(int new_rows, int new_cols) {
size_t row_size = ((new_cols * sizeof(char) + 15) & ~15); size_t row_size = ((new_cols * sizeof(char) + 15) & ~15);
size_t color_row_size = ((new_cols * sizeof(unsigned long) + 15) & ~15); size_t color_row_size = ((new_cols * sizeof(unsigned long) + 15) & ~15);
size_t attr_row_size = ((new_cols * sizeof(int) + 15) & ~15); size_t attr_row_size = ((new_cols * sizeof(int) + 15) & ~15);
size_t bg_color_row_size = ((new_cols * sizeof(unsigned long) + 15) & ~15);
char **new_term_buffer = malloc(new_rows * sizeof(char *)); char **new_term_buffer = malloc(new_rows * sizeof(char *));
unsigned long **new_color_buffer = malloc(new_rows * sizeof(unsigned long *)); unsigned long **new_color_buffer = malloc(new_rows * sizeof(unsigned long *));
int **new_attr_buffer = malloc(new_rows * sizeof(int *)); int **new_attr_buffer = malloc(new_rows * sizeof(int *));
unsigned long **new_bg_color_buffer =
malloc(new_rows * sizeof(unsigned long *));
if (!new_term_buffer || !new_color_buffer || !new_attr_buffer) { if (!new_term_buffer || !new_color_buffer || !new_attr_buffer ||
!new_bg_color_buffer) {
fprintf(stderr, "Failed to allocate memory for buffers\n"); fprintf(stderr, "Failed to allocate memory for buffers\n");
return; return;
} }
@ -158,33 +173,40 @@ static void resize_buffers(int new_rows, int new_cols) {
new_term_buffer[i] = malloc(row_size); new_term_buffer[i] = malloc(row_size);
new_color_buffer[i] = malloc(color_row_size); new_color_buffer[i] = malloc(color_row_size);
new_attr_buffer[i] = malloc(attr_row_size); new_attr_buffer[i] = malloc(attr_row_size);
new_bg_color_buffer[i] = malloc(bg_color_row_size);
if (!new_term_buffer[i] || !new_color_buffer[i] || !new_attr_buffer[i]) { if (!new_term_buffer[i] || !new_color_buffer[i] || !new_attr_buffer[i] ||
!new_bg_color_buffer[i]) {
fprintf(stderr, "Failed to allocate memory for buffer row\n"); fprintf(stderr, "Failed to allocate memory for buffer row\n");
// Clean up allocated memory // Clean up allocated memory
for (int j = 0; j < i; j++) { for (int j = 0; j < i; j++) {
free(new_term_buffer[j]); free(new_term_buffer[j]);
free(new_color_buffer[j]); free(new_color_buffer[j]);
free(new_attr_buffer[j]); free(new_attr_buffer[j]);
free(new_bg_color_buffer[j]);
} }
free(new_term_buffer); free(new_term_buffer);
free(new_color_buffer); free(new_color_buffer);
free(new_attr_buffer); free(new_attr_buffer);
free(new_bg_color_buffer);
return; return;
} }
if (i < term_rows && i < new_rows && terminal_buffer && color_buffer && if (i < term_rows && i < new_rows && terminal_buffer && color_buffer &&
attr_buffer) { attr_buffer && bg_color_buffer) {
int copy_cols = (new_cols < term_cols) ? new_cols : term_cols; int copy_cols = (new_cols < term_cols) ? new_cols : term_cols;
memcpy(new_term_buffer[i], terminal_buffer[i], copy_cols * sizeof(char)); memcpy(new_term_buffer[i], terminal_buffer[i], copy_cols * sizeof(char));
memcpy(new_color_buffer[i], color_buffer[i], memcpy(new_color_buffer[i], color_buffer[i],
copy_cols * sizeof(unsigned long)); copy_cols * sizeof(unsigned long));
memcpy(new_attr_buffer[i], attr_buffer[i], copy_cols * sizeof(int)); memcpy(new_attr_buffer[i], attr_buffer[i], copy_cols * sizeof(int));
memcpy(new_bg_color_buffer[i], bg_color_buffer[i],
copy_cols * sizeof(unsigned long));
if (new_cols > term_cols) { if (new_cols > term_cols) {
memset(new_term_buffer[i] + term_cols, ' ', new_cols - term_cols); memset(new_term_buffer[i] + term_cols, ' ', new_cols - term_cols);
for (int x = term_cols; x < new_cols; x++) { for (int x = term_cols; x < new_cols; x++) {
new_color_buffer[i][x] = current_color; new_color_buffer[i][x] = current_color;
new_attr_buffer[i][x] = current_attr; new_attr_buffer[i][x] = current_attr;
new_bg_color_buffer[i][x] = current_bg_color;
} }
} }
} else { } else {
@ -192,25 +214,29 @@ static void resize_buffers(int new_rows, int new_cols) {
for (int x = 0; x < new_cols; x++) { for (int x = 0; x < new_cols; x++) {
new_color_buffer[i][x] = current_color; new_color_buffer[i][x] = current_color;
new_attr_buffer[i][x] = current_attr; new_attr_buffer[i][x] = current_attr;
new_bg_color_buffer[i][x] = current_bg_color;
} }
} }
} }
// Free old buffers after successful allocation // Free old buffers after successful allocation
if (terminal_buffer && color_buffer && attr_buffer) { if (terminal_buffer && color_buffer && attr_buffer && bg_color_buffer) {
for (int i = 0; i < term_rows; i++) { for (int i = 0; i < term_rows; i++) {
free(terminal_buffer[i]); free(terminal_buffer[i]);
free(color_buffer[i]); free(color_buffer[i]);
free(attr_buffer[i]); free(attr_buffer[i]);
free(bg_color_buffer[i]);
} }
free(terminal_buffer); free(terminal_buffer);
free(color_buffer); free(color_buffer);
free(attr_buffer); free(attr_buffer);
free(bg_color_buffer);
} }
terminal_buffer = new_term_buffer; terminal_buffer = new_term_buffer;
color_buffer = new_color_buffer; color_buffer = new_color_buffer;
attr_buffer = new_attr_buffer; attr_buffer = new_attr_buffer;
bg_color_buffer = new_bg_color_buffer;
term_rows = new_rows; term_rows = new_rows;
term_cols = new_cols; term_cols = new_cols;
@ -258,24 +284,41 @@ static void destroy_cb(Display *display, Window window) {
} }
free(attr_buffer); free(attr_buffer);
} }
if (bg_color_buffer) {
for (int i = 0; i < term_rows; i++) {
free(bg_color_buffer[i]);
}
free(bg_color_buffer);
}
if (master_fd >= 0) if (master_fd >= 0)
close(master_fd); close(master_fd);
exit(0); exit(0);
} }
static void draw_char(Display *display, Drawable d, int x, int y) { static void draw_char(Display *display, Drawable d, int x, int y) {
if (!gc || !terminal_buffer || !color_buffer || !attr_buffer) if (!gc || !terminal_buffer || !color_buffer || !attr_buffer ||
!bg_color_buffer)
return; return;
if (x < 0 || x >= term_cols || y < 0 || y >= term_rows) if (x < 0 || x >= term_cols || y < 0 || y >= term_rows)
return; return;
unsigned long fg_color = color_buffer[y][x];
unsigned long bg_color = bg_color_buffer[y][x];
int attrs = attr_buffer[y][x];
if (attrs & ATTR_REVERSE) {
unsigned long temp = fg_color;
fg_color = bg_color;
bg_color = temp;
}
// Clear the character position first // Clear the character position first
XSetForeground(display, gc, XBlackPixel(display, DefaultScreen(display))); XSetForeground(display, gc, bg_color);
XFillRectangle(display, d, gc, x * CHAR_WIDTH, y * CHAR_HEIGHT, CHAR_WIDTH, XFillRectangle(display, d, gc, x * CHAR_WIDTH, y * CHAR_HEIGHT, CHAR_WIDTH,
CHAR_HEIGHT); CHAR_HEIGHT);
XSetForeground(display, gc, fg_color);
char str[2] = {terminal_buffer[y][x], '\0'}; char str[2] = {terminal_buffer[y][x], '\0'};
XSetForeground(display, gc, color_buffer[y][x]);
// Select appropriate font based on attributes // Select appropriate font based on attributes
XFontStruct *font = regular_font; XFontStruct *font = regular_font;
@ -288,6 +331,11 @@ static void draw_char(Display *display, Drawable d, int x, int y) {
XDrawString(display, d, gc, x * CHAR_WIDTH, (y + 1) * CHAR_HEIGHT - 2, str, XDrawString(display, d, gc, x * CHAR_WIDTH, (y + 1) * CHAR_HEIGHT - 2, str,
1); 1);
if (attrs & ATTR_UNDERLINE) {
XDrawLine(display, d, gc, x * CHAR_WIDTH, (y + 1) * CHAR_HEIGHT - 1,
(x + 1) * CHAR_WIDTH, (y + 1) * CHAR_HEIGHT - 1);
}
} }
static void draw_terminal(Display *display, Window window) { static void draw_terminal(Display *display, Window window) {
@ -350,13 +398,14 @@ static void check_refresh(Display *display, Window window) {
} }
static void clear_terminal(Display *display, Window window) { static void clear_terminal(Display *display, Window window) {
if (!terminal_buffer || !color_buffer || !attr_buffer) if (!terminal_buffer || !color_buffer || !attr_buffer || !bg_color_buffer)
return; return;
for (int y = 0; y < term_rows; y++) { for (int y = 0; y < term_rows; y++) {
memset(terminal_buffer[y], ' ', term_cols); memset(terminal_buffer[y], ' ', term_cols);
for (int x = 0; x < term_cols; x++) { for (int x = 0; x < term_cols; x++) {
color_buffer[y][x] = current_color; color_buffer[y][x] = current_color;
attr_buffer[y][x] = current_attr; attr_buffer[y][x] = current_attr;
bg_color_buffer[y][x] = current_bg_color;
} }
} }
cursor_x = 0; cursor_x = 0;
@ -372,6 +421,8 @@ static void scroll_up(void) {
memcpy(color_buffer[y], color_buffer[y + 1], memcpy(color_buffer[y], color_buffer[y + 1],
term_cols * sizeof(unsigned long)); term_cols * sizeof(unsigned long));
memcpy(attr_buffer[y], attr_buffer[y + 1], term_cols * sizeof(int)); memcpy(attr_buffer[y], attr_buffer[y + 1], term_cols * sizeof(int));
memcpy(bg_color_buffer[y], bg_color_buffer[y + 1],
term_cols * sizeof(unsigned long));
} }
// Clear the bottom line // Clear the bottom line
@ -379,6 +430,7 @@ static void scroll_up(void) {
for (int x = 0; x < term_cols; x++) { for (int x = 0; x < term_cols; x++) {
color_buffer[term_rows - 1][x] = current_color; color_buffer[term_rows - 1][x] = current_color;
attr_buffer[term_rows - 1][x] = current_attr; attr_buffer[term_rows - 1][x] = current_attr;
bg_color_buffer[term_rows - 1][x] = current_bg_color;
} }
needs_refresh = 1; needs_refresh = 1;
} }
@ -424,13 +476,16 @@ static void handle_alternate_buffer(const char *buf, int *idx, int max_len) {
saved_terminal = terminal_buffer; saved_terminal = terminal_buffer;
saved_colors = color_buffer; saved_colors = color_buffer;
saved_attrs = attr_buffer; saved_attrs = attr_buffer;
saved_colors = bg_color_buffer;
terminal_buffer = malloc(term_rows * sizeof(char *)); terminal_buffer = malloc(term_rows * sizeof(char *));
color_buffer = malloc(term_rows * sizeof(unsigned long *)); color_buffer = malloc(term_rows * sizeof(unsigned long *));
attr_buffer = malloc(term_rows * sizeof(int *)); attr_buffer = malloc(term_rows * sizeof(int *));
bg_color_buffer = malloc(term_rows * sizeof(unsigned long *));
for (int i = 0; i < term_rows; i++) { for (int i = 0; i < term_rows; i++) {
terminal_buffer[i] = calloc(term_cols, sizeof(char)); terminal_buffer[i] = calloc(term_cols, sizeof(char));
color_buffer[i] = calloc(term_cols, sizeof(unsigned long)); color_buffer[i] = calloc(term_cols, sizeof(unsigned long));
attr_buffer[i] = calloc(term_cols, sizeof(int)); attr_buffer[i] = calloc(term_cols, sizeof(int));
bg_color_buffer[i] = calloc(term_cols, sizeof(unsigned long));
} }
using_alternate = 1; using_alternate = 1;
} }
@ -439,13 +494,16 @@ static void handle_alternate_buffer(const char *buf, int *idx, int max_len) {
free(terminal_buffer[i]); free(terminal_buffer[i]);
free(color_buffer[i]); free(color_buffer[i]);
free(attr_buffer[i]); free(attr_buffer[i]);
free(bg_color_buffer[i]);
} }
free(terminal_buffer); free(terminal_buffer);
free(color_buffer); free(color_buffer);
free(attr_buffer); free(attr_buffer);
free(bg_color_buffer);
terminal_buffer = saved_terminal; terminal_buffer = saved_terminal;
color_buffer = saved_colors; color_buffer = saved_colors;
attr_buffer = saved_attrs; attr_buffer = saved_attrs;
bg_color_buffer = saved_colors;
saved_terminal = NULL; saved_terminal = NULL;
using_alternate = 0; using_alternate = 0;
} }
@ -467,13 +525,16 @@ static void handle_alternate_buffer(const char *buf, int *idx, int max_len) {
saved_terminal = terminal_buffer; saved_terminal = terminal_buffer;
saved_colors = color_buffer; saved_colors = color_buffer;
saved_attrs = attr_buffer; saved_attrs = attr_buffer;
saved_colors = bg_color_buffer;
terminal_buffer = malloc(term_rows * sizeof(char *)); terminal_buffer = malloc(term_rows * sizeof(char *));
color_buffer = malloc(term_rows * sizeof(unsigned long *)); color_buffer = malloc(term_rows * sizeof(unsigned long *));
attr_buffer = malloc(term_rows * sizeof(int *)); attr_buffer = malloc(term_rows * sizeof(int *));
bg_color_buffer = malloc(term_rows * sizeof(unsigned long *));
for (int i = 0; i < term_rows; i++) { for (int i = 0; i < term_rows; i++) {
terminal_buffer[i] = calloc(term_cols, sizeof(char)); terminal_buffer[i] = calloc(term_cols, sizeof(char));
color_buffer[i] = calloc(term_cols, sizeof(unsigned long)); color_buffer[i] = calloc(term_cols, sizeof(unsigned long));
attr_buffer[i] = calloc(term_cols, sizeof(int)); attr_buffer[i] = calloc(term_cols, sizeof(int));
bg_color_buffer[i] = calloc(term_cols, sizeof(unsigned long));
} }
using_alternate = 1; using_alternate = 1;
} }
@ -482,13 +543,16 @@ static void handle_alternate_buffer(const char *buf, int *idx, int max_len) {
free(terminal_buffer[i]); free(terminal_buffer[i]);
free(color_buffer[i]); free(color_buffer[i]);
free(attr_buffer[i]); free(attr_buffer[i]);
free(bg_color_buffer[i]);
} }
free(terminal_buffer); free(terminal_buffer);
free(color_buffer); free(color_buffer);
free(attr_buffer); free(attr_buffer);
free(bg_color_buffer);
terminal_buffer = saved_terminal; terminal_buffer = saved_terminal;
color_buffer = saved_colors; color_buffer = saved_colors;
attr_buffer = saved_attrs; attr_buffer = saved_attrs;
bg_color_buffer = saved_colors;
saved_terminal = NULL; saved_terminal = NULL;
cursor_x = saved_cursor_x; cursor_x = saved_cursor_x;
cursor_y = saved_cursor_y; cursor_y = saved_cursor_y;
@ -500,6 +564,19 @@ static void handle_alternate_buffer(const char *buf, int *idx, int max_len) {
} }
} }
static unsigned long get_ansi_color(int index) {
static const unsigned long colors[] = {0x000000, RED, GREEN, YELLOW,
BLUE, MAGENTA, CYAN, 0xFFFFFF};
return colors[index & 7];
}
static unsigned long get_bright_ansi_color(int index) {
static const unsigned long colors[] = {
DARK_GRAY, LIGHT_RED, LIGHT_GREEN, LIGHT_YELLOW,
LIGHT_BLUE, LIGHT_MAGENTA, LIGHT_CYAN, 0xFFFFFF};
return colors[index & 7];
}
// Handles those pesky ANSI color escape codes that terminals use. // Handles those pesky ANSI color escape codes that terminals use.
// When \033[<number>m is sent to the terminal, it changes text color: // When \033[<number>m is sent to the terminal, it changes text color:
// 30 = Black 31 = Red 32 = Green 33 = Yellow // 30 = Black 31 = Red 32 = Green 33 = Yellow
@ -585,6 +662,7 @@ static void parse_ansi_code(const char *buf, int *idx, int max_len) {
terminal_buffer[cursor_y][i] = ' '; terminal_buffer[cursor_y][i] = ' ';
color_buffer[cursor_y][i] = current_color; color_buffer[cursor_y][i] = current_color;
attr_buffer[cursor_y][i] = current_attr; attr_buffer[cursor_y][i] = current_attr;
bg_color_buffer[cursor_y][i] = current_bg_color;
} }
break; break;
case 'J': // Clear screen case 'J': // Clear screen
@ -594,6 +672,7 @@ static void parse_ansi_code(const char *buf, int *idx, int max_len) {
for (int x = 0; x < term_cols; x++) { for (int x = 0; x < term_cols; x++) {
color_buffer[y][x] = current_color; color_buffer[y][x] = current_color;
attr_buffer[y][x] = current_attr; attr_buffer[y][x] = current_attr;
bg_color_buffer[y][x] = current_bg_color;
} }
} }
needs_refresh = 1; needs_refresh = 1;
@ -601,71 +680,40 @@ static void parse_ansi_code(const char *buf, int *idx, int max_len) {
break; break;
case 'm': // Handling of text case 'm': // Handling of text
for (int i = 0; i < param_idx; i++) { for (int i = 0; i < param_idx; i++) {
switch (params[i]) { if (params[i] == 0) { // Reset Everything
case 0:
current_color = XWhitePixel(display, DefaultScreen(display)); current_color = XWhitePixel(display, DefaultScreen(display));
current_bg_color = XBlackPixel(display, DefaultScreen(display));
current_attr = 0; current_attr = 0;
break; } else if (params[i] == 1) { // Apply ATTRS
case 1:
current_attr |= ATTR_BOLD; current_attr |= ATTR_BOLD;
break; } else if (params[i] == 2) {
case 3: current_attr |= ATTR_DIM;
} else if (params[i] == 3) {
current_attr |= ATTR_ITALIC; current_attr |= ATTR_ITALIC;
break; } else if (params[i] == 4) {
case 22: current_attr |= ATTR_UNDERLINE;
} else if (params[i] == 5) {
current_attr |= ATTR_BLINK;
} else if (params[i] == 7) {
current_attr |= ATTR_REVERSE;
} else if (params[i] == 22) { // Reset ATTRS
current_attr &= ~ATTR_BOLD; current_attr &= ~ATTR_BOLD;
break; } else if (params[i] == 23) {
case 23:
current_attr &= ~ATTR_ITALIC; current_attr &= ~ATTR_ITALIC;
break; } else if (params[i] == 24) {
case 30: current_attr &= ~ATTR_UNDERLINE;
current_color = XBlackPixel(display, DefaultScreen(display)); } else if (params[i] == 27) {
break; current_attr &= ~ATTR_REVERSE;
case 31: } else if (params[i] >= 30 && params[i] <= 37) { // Foreground colors
current_color = RED; current_color = get_ansi_color(params[i] - 30);
break; } else if (params[i] >= 40 && params[i] <= 47) { // Background colors
case 32: current_bg_color = get_ansi_color(params[i] - 40);
current_color = GREEN; } else if (params[i] >= 90 &&
break; params[i] <= 97) { // Bright foreground colors
case 33: current_color = get_bright_ansi_color(params[i] - 90);
current_color = YELLOW; } else if (params[i] >= 100 &&
break; params[i] <= 107) { // Bright background colors
case 34: current_bg_color = get_bright_ansi_color(params[i] - 100);
current_color = BLUE;
break;
case 35:
current_color = MAGENTA;
break;
case 36:
current_color = CYAN;
break;
case 37:
current_color = XWhitePixel(display, DefaultScreen(display));
break;
case 90:
current_color = DARK_GRAY;
break;
case 91:
current_color = LIGHT_RED;
break;
case 92:
current_color = LIGHT_GREEN;
break;
case 93:
current_color = LIGHT_YELLOW;
break;
case 94:
current_color = LIGHT_BLUE;
break;
case 95:
current_color = LIGHT_MAGENTA;
break;
case 96:
current_color = LIGHT_CYAN;
break;
case 97:
current_color = 0xFFFFFF;
break;
} }
} }
break; break;
@ -673,7 +721,7 @@ static void parse_ansi_code(const char *buf, int *idx, int max_len) {
} }
static int master_cb(int fd, void *data) { static int master_cb(int fd, void *data) {
if (!terminal_buffer || !color_buffer || !attr_buffer) if (!terminal_buffer || !color_buffer || !attr_buffer || !bg_color_buffer)
return 0; return 0;
char buf[4096]; char buf[4096];
ssize_t bytes_read; ssize_t bytes_read;
@ -699,8 +747,8 @@ static int master_cb(int fd, void *data) {
if (cursor_y >= term_rows) { if (cursor_y >= term_rows) {
scroll_up(); scroll_up();
cursor_y = term_rows - 1; cursor_y = term_rows - 1;
needs_refresh = 1;
} }
needs_refresh = 1;
} else if (buf[i] == '\r') { } else if (buf[i] == '\r') {
cursor_x = 0; cursor_x = 0;
} else if (buf[i] == '\b') { } else if (buf[i] == '\b') {
@ -708,12 +756,21 @@ static int master_cb(int fd, void *data) {
cursor_x--; cursor_x--;
terminal_buffer[cursor_y][cursor_x] = ' '; terminal_buffer[cursor_y][cursor_x] = ' ';
needs_refresh = 1; needs_refresh = 1;
} else if (cursor_y > 0) {
cursor_y--;
cursor_x = term_cols - 1;
while (cursor_x > 0 &&
terminal_buffer[cursor_y][cursor_x - 1] == ' ') {
cursor_x--;
}
needs_refresh = 1;
} }
} else { } else {
if (cursor_y < term_rows && cursor_x < term_cols) { if (cursor_y < term_rows && cursor_x < term_cols) {
terminal_buffer[cursor_y][cursor_x] = buf[i]; terminal_buffer[cursor_y][cursor_x] = buf[i];
color_buffer[cursor_y][cursor_x] = current_color; color_buffer[cursor_y][cursor_x] = current_color;
attr_buffer[cursor_y][cursor_x] = current_attr; attr_buffer[cursor_y][cursor_x] = current_attr;
bg_color_buffer[cursor_y][cursor_x] = current_bg_color;
needs_refresh = 1; needs_refresh = 1;
cursor_x++; cursor_x++;
if (cursor_x >= term_cols) { if (cursor_x >= term_cols) {
@ -722,7 +779,6 @@ static int master_cb(int fd, void *data) {
if (cursor_y >= term_rows) { if (cursor_y >= term_rows) {
scroll_up(); scroll_up();
cursor_y = term_rows - 1; cursor_y = term_rows - 1;
needs_refresh = 1;
} }
} }
} }
@ -769,12 +825,28 @@ static void key_press_cb(XKeyEvent *event, void *data) {
if (keysym == XK_Return || keysym == XK_KP_Enter) { if (keysym == XK_Return || keysym == XK_KP_Enter) {
write(*master, "\r", 1); // Shell handles return write(*master, "\r", 1); // Shell handles return
} else if (keysym == XK_BackSpace) { } else if (keysym == XK_BackSpace) {
write(*master, "\b", 1); // Shell handles backspace if (cursor_x > 0) {
write(*master, "\b \b", 3); // Shell handles backspace
} else if (cursor_y > 0) {
char seq[8];
snprintf(seq, sizeof(seq), "\033[A\033[%dC", term_cols);
write(*master, seq, strlen(seq));
}
} else if (keysym == XK_Left) { } else if (keysym == XK_Left) {
if (cursor_x > 0) {
write(*master, "\033[D", 3); write(*master, "\033[D", 3);
} else if (cursor_y > 0) {
char seq[8];
snprintf(seq, sizeof(seq), "\033[A\033[%dC", term_cols);
write(*master, seq, strlen(seq));
}
needs_refresh = 1; needs_refresh = 1;
} else if (keysym == XK_Right) { } else if (keysym == XK_Right) {
if (cursor_x < term_cols - 1) {
write(*master, "\033[C", 3); write(*master, "\033[C", 3);
} else if (cursor_y < term_rows - 1) {
write(*master, "\033[B\033[G", 6);
}
needs_refresh = 1; needs_refresh = 1;
} else if (keysym == XK_Up) { // Go up through history } else if (keysym == XK_Up) { // Go up through history
write(*master, "\033[A", 3); write(*master, "\033[A", 3);
@ -786,6 +858,9 @@ static void key_press_cb(XKeyEvent *event, void *data) {
write(*master, "\t", 1); // Shell handles autocomplete write(*master, "\t", 1); // Shell handles autocomplete
} else if (len > 0) { } else if (len > 0) {
write(*master, buf, len); write(*master, buf, len);
if (cursor_x >= term_cols - 1) {
write(*master, "\r\n", 2);
}
} }
} }
@ -807,8 +882,9 @@ int main(void) {
terminal_buffer = malloc(term_rows * sizeof(char *)); terminal_buffer = malloc(term_rows * sizeof(char *));
color_buffer = malloc(term_rows * sizeof(unsigned long *)); color_buffer = malloc(term_rows * sizeof(unsigned long *));
attr_buffer = malloc(term_rows * sizeof(int *)); attr_buffer = malloc(term_rows * sizeof(int *));
bg_color_buffer = malloc(term_rows * sizeof(unsigned long *));
if (!terminal_buffer || !color_buffer || !attr_buffer) { if (!terminal_buffer || !color_buffer || !attr_buffer || !bg_color_buffer) {
fprintf(stderr, "Failed to allocate memory for buffers\n"); fprintf(stderr, "Failed to allocate memory for buffers\n");
return 1; return 1;
} }
@ -817,8 +893,10 @@ int main(void) {
terminal_buffer[i] = malloc(term_cols * sizeof(char)); terminal_buffer[i] = malloc(term_cols * sizeof(char));
color_buffer[i] = malloc(term_cols * sizeof(unsigned long)); color_buffer[i] = malloc(term_cols * sizeof(unsigned long));
attr_buffer[i] = malloc(term_cols * sizeof(int)); attr_buffer[i] = malloc(term_cols * sizeof(int));
bg_color_buffer[i] = malloc(term_cols * sizeof(unsigned long));
if (!terminal_buffer[i] || !color_buffer[i] || !attr_buffer[i]) { if (!terminal_buffer[i] || !color_buffer[i] || !attr_buffer[i] ||
!bg_color_buffer[i]) {
fprintf(stderr, "Failed to allocate memory for buffer row\n"); fprintf(stderr, "Failed to allocate memory for buffer row\n");
return 1; return 1;
} }
@ -834,8 +912,15 @@ int main(void) {
XInitThreads(); XInitThreads();
current_color = XWhitePixel(display, DefaultScreen(display)); current_color = XWhitePixel(display, DefaultScreen(display));
current_bg_color = XBlackPixel(display, DefaultScreen(display));
current_attr = 0; current_attr = 0;
for (int y = 0; y < term_rows; y++) {
for (int x = 0; x < term_cols; x++) {
bg_color_buffer[y][x] = current_bg_color;
}
}
for (int y = 0; y < term_rows; y++) { for (int y = 0; y < term_rows; y++) {
for (int x = 0; x < term_cols; x++) { for (int x = 0; x < term_cols; x++) {
color_buffer[y][x] = current_color; color_buffer[y][x] = current_color;