for-each-ref: use skip_prefix() to avoid duplicate string comparison
[git/mingw.git] / column.c
blobca878bcea7a42476a7c2b03e74897a2af87bec3f
1 #include "cache.h"
2 #include "column.h"
3 #include "string-list.h"
4 #include "parse-options.h"
5 #include "run-command.h"
6 #include "utf8.h"
8 #define XY2LINEAR(d, x, y) (COL_LAYOUT((d)->colopts) == COL_COLUMN ? \
9 (x) * (d)->rows + (y) : \
10 (y) * (d)->cols + (x))
12 struct column_data {
13 const struct string_list *list;
14 unsigned int colopts;
15 struct column_options opts;
17 int rows, cols;
18 int *len; /* cell length */
19 int *width; /* index to the longest row in column */
22 /* return length of 's' in letters, ANSI escapes stripped */
23 static int item_length(unsigned int colopts, const char *s)
25 int len, i = 0;
26 struct strbuf str = STRBUF_INIT;
28 strbuf_addstr(&str, s);
29 while ((s = strstr(str.buf + i, "\033[")) != NULL) {
30 int len = strspn(s + 2, "0123456789;");
31 i = s - str.buf;
32 strbuf_remove(&str, i, len + 3); /* \033[<len><func char> */
34 len = utf8_strwidth(str.buf);
35 strbuf_release(&str);
36 return len;
40 * Calculate cell width, rows and cols for a table of equal cells, given
41 * table width and how many spaces between cells.
43 static void layout(struct column_data *data, int *width)
45 int i;
47 *width = 0;
48 for (i = 0; i < data->list->nr; i++)
49 if (*width < data->len[i])
50 *width = data->len[i];
52 *width += data->opts.padding;
54 data->cols = (data->opts.width - strlen(data->opts.indent)) / *width;
55 if (data->cols == 0)
56 data->cols = 1;
58 data->rows = DIV_ROUND_UP(data->list->nr, data->cols);
61 static void compute_column_width(struct column_data *data)
63 int i, x, y;
64 for (x = 0; x < data->cols; x++) {
65 data->width[x] = XY2LINEAR(data, x, 0);
66 for (y = 0; y < data->rows; y++) {
67 i = XY2LINEAR(data, x, y);
68 if (i < data->list->nr &&
69 data->len[data->width[x]] < data->len[i])
70 data->width[x] = i;
76 * Shrink all columns by shortening them one row each time (and adding
77 * more columns along the way). Hopefully the longest cell will be
78 * moved to the next column, column is shrunk so we have more space
79 * for new columns. The process ends when the whole thing no longer
80 * fits in data->total_width.
82 static void shrink_columns(struct column_data *data)
84 data->width = xrealloc(data->width,
85 sizeof(*data->width) * data->cols);
86 while (data->rows > 1) {
87 int x, total_width, cols, rows;
88 rows = data->rows;
89 cols = data->cols;
91 data->rows--;
92 data->cols = DIV_ROUND_UP(data->list->nr, data->rows);
93 if (data->cols != cols)
94 data->width = xrealloc(data->width,
95 sizeof(*data->width) * data->cols);
96 compute_column_width(data);
98 total_width = strlen(data->opts.indent);
99 for (x = 0; x < data->cols; x++) {
100 total_width += data->len[data->width[x]];
101 total_width += data->opts.padding;
103 if (total_width > data->opts.width) {
104 data->rows = rows;
105 data->cols = cols;
106 break;
109 compute_column_width(data);
112 /* Display without layout when not enabled */
113 static void display_plain(const struct string_list *list,
114 const char *indent, const char *nl)
116 int i;
118 for (i = 0; i < list->nr; i++)
119 printf("%s%s%s", indent, list->items[i].string, nl);
122 /* Print a cell to stdout with all necessary leading/traling space */
123 static int display_cell(struct column_data *data, int initial_width,
124 const char *empty_cell, int x, int y)
126 int i, len, newline;
128 i = XY2LINEAR(data, x, y);
129 if (i >= data->list->nr)
130 return -1;
132 len = data->len[i];
133 if (data->width && data->len[data->width[x]] < initial_width) {
135 * empty_cell has initial_width chars, if real column
136 * is narrower, increase len a bit so we fill less
137 * space.
139 len += initial_width - data->len[data->width[x]];
140 len -= data->opts.padding;
143 if (COL_LAYOUT(data->colopts) == COL_COLUMN)
144 newline = i + data->rows >= data->list->nr;
145 else
146 newline = x == data->cols - 1 || i == data->list->nr - 1;
148 printf("%s%s%s",
149 x == 0 ? data->opts.indent : "",
150 data->list->items[i].string,
151 newline ? data->opts.nl : empty_cell + len);
152 return 0;
155 /* Display COL_COLUMN or COL_ROW */
156 static void display_table(const struct string_list *list,
157 unsigned int colopts,
158 const struct column_options *opts)
160 struct column_data data;
161 int x, y, i, initial_width;
162 char *empty_cell;
164 memset(&data, 0, sizeof(data));
165 data.list = list;
166 data.colopts = colopts;
167 data.opts = *opts;
169 data.len = xmalloc(sizeof(*data.len) * list->nr);
170 for (i = 0; i < list->nr; i++)
171 data.len[i] = item_length(colopts, list->items[i].string);
173 layout(&data, &initial_width);
175 if (colopts & COL_DENSE)
176 shrink_columns(&data);
178 empty_cell = xmalloc(initial_width + 1);
179 memset(empty_cell, ' ', initial_width);
180 empty_cell[initial_width] = '\0';
181 for (y = 0; y < data.rows; y++) {
182 for (x = 0; x < data.cols; x++)
183 if (display_cell(&data, initial_width, empty_cell, x, y))
184 break;
187 free(data.len);
188 free(data.width);
189 free(empty_cell);
192 void print_columns(const struct string_list *list, unsigned int colopts,
193 const struct column_options *opts)
195 struct column_options nopts;
197 if (!list->nr)
198 return;
199 assert((colopts & COL_ENABLE_MASK) != COL_AUTO);
201 memset(&nopts, 0, sizeof(nopts));
202 nopts.indent = opts && opts->indent ? opts->indent : "";
203 nopts.nl = opts && opts->nl ? opts->nl : "\n";
204 nopts.padding = opts ? opts->padding : 1;
205 nopts.width = opts && opts->width ? opts->width : term_columns() - 1;
206 if (!column_active(colopts)) {
207 display_plain(list, "", "\n");
208 return;
210 switch (COL_LAYOUT(colopts)) {
211 case COL_PLAIN:
212 display_plain(list, nopts.indent, nopts.nl);
213 break;
214 case COL_ROW:
215 case COL_COLUMN:
216 display_table(list, colopts, &nopts);
217 break;
218 default:
219 die("BUG: invalid layout mode %d", COL_LAYOUT(colopts));
223 int finalize_colopts(unsigned int *colopts, int stdout_is_tty)
225 if ((*colopts & COL_ENABLE_MASK) == COL_AUTO) {
226 if (stdout_is_tty < 0)
227 stdout_is_tty = isatty(1);
228 *colopts &= ~COL_ENABLE_MASK;
229 if (stdout_is_tty)
230 *colopts |= COL_ENABLED;
232 return 0;
235 struct colopt {
236 const char *name;
237 unsigned int value;
238 unsigned int mask;
241 #define LAYOUT_SET 1
242 #define ENABLE_SET 2
244 static int parse_option(const char *arg, int len, unsigned int *colopts,
245 int *group_set)
247 struct colopt opts[] = {
248 { "always", COL_ENABLED, COL_ENABLE_MASK },
249 { "never", COL_DISABLED, COL_ENABLE_MASK },
250 { "auto", COL_AUTO, COL_ENABLE_MASK },
251 { "plain", COL_PLAIN, COL_LAYOUT_MASK },
252 { "column", COL_COLUMN, COL_LAYOUT_MASK },
253 { "row", COL_ROW, COL_LAYOUT_MASK },
254 { "dense", COL_DENSE, 0 },
256 int i;
258 for (i = 0; i < ARRAY_SIZE(opts); i++) {
259 int set = 1, arg_len = len, name_len;
260 const char *arg_str = arg;
262 if (!opts[i].mask) {
263 if (arg_len > 2 && !strncmp(arg_str, "no", 2)) {
264 arg_str += 2;
265 arg_len -= 2;
266 set = 0;
270 name_len = strlen(opts[i].name);
271 if (arg_len != name_len ||
272 strncmp(arg_str, opts[i].name, name_len))
273 continue;
275 switch (opts[i].mask) {
276 case COL_ENABLE_MASK:
277 *group_set |= ENABLE_SET;
278 break;
279 case COL_LAYOUT_MASK:
280 *group_set |= LAYOUT_SET;
281 break;
284 if (opts[i].mask)
285 *colopts = (*colopts & ~opts[i].mask) | opts[i].value;
286 else {
287 if (set)
288 *colopts |= opts[i].value;
289 else
290 *colopts &= ~opts[i].value;
292 return 0;
295 return error("unsupported option '%s'", arg);
298 static int parse_config(unsigned int *colopts, const char *value)
300 const char *sep = " ,";
301 int group_set = 0;
303 while (*value) {
304 int len = strcspn(value, sep);
305 if (len) {
306 if (parse_option(value, len, colopts, &group_set))
307 return -1;
309 value += len;
311 value += strspn(value, sep);
314 * If none of "always", "never", and "auto" is specified, then setting
315 * layout implies "always".
317 * Current value in COL_ENABLE_MASK is disregarded. This means if
318 * you set column.ui = auto and pass --column=row, then "auto"
319 * will become "always".
321 if ((group_set & LAYOUT_SET) && !(group_set & ENABLE_SET))
322 *colopts = (*colopts & ~COL_ENABLE_MASK) | COL_ENABLED;
323 return 0;
326 static int column_config(const char *var, const char *value,
327 const char *key, unsigned int *colopts)
329 if (!value)
330 return config_error_nonbool(var);
331 if (parse_config(colopts, value))
332 return error("invalid column.%s mode %s", key, value);
333 return 0;
336 int git_column_config(const char *var, const char *value,
337 const char *command, unsigned int *colopts)
339 const char *it;
341 if (!skip_prefix(var, "column.", &it))
342 return 0;
344 if (!strcmp(it, "ui"))
345 return column_config(var, value, "ui", colopts);
347 if (command && !strcmp(it, command))
348 return column_config(var, value, it, colopts);
350 return 0;
353 int parseopt_column_callback(const struct option *opt,
354 const char *arg, int unset)
356 unsigned int *colopts = opt->value;
357 *colopts |= COL_PARSEOPT;
358 *colopts &= ~COL_ENABLE_MASK;
359 if (unset) /* --no-column == never */
360 return 0;
361 /* --column == always unless "arg" states otherwise */
362 *colopts |= COL_ENABLED;
363 if (arg)
364 return parse_config(colopts, arg);
366 return 0;
369 static int fd_out = -1;
370 static struct child_process column_process;
372 int run_column_filter(int colopts, const struct column_options *opts)
374 struct argv_array *argv;
376 if (fd_out != -1)
377 return -1;
379 memset(&column_process, 0, sizeof(column_process));
380 argv = &column_process.args;
382 argv_array_push(argv, "column");
383 argv_array_pushf(argv, "--raw-mode=%d", colopts);
384 if (opts && opts->width)
385 argv_array_pushf(argv, "--width=%d", opts->width);
386 if (opts && opts->indent)
387 argv_array_pushf(argv, "--indent=%s", opts->indent);
388 if (opts && opts->padding)
389 argv_array_pushf(argv, "--padding=%d", opts->padding);
391 fflush(stdout);
392 column_process.in = -1;
393 column_process.out = dup(1);
394 column_process.git_cmd = 1;
396 if (start_command(&column_process))
397 return -2;
399 fd_out = dup(1);
400 close(1);
401 dup2(column_process.in, 1);
402 close(column_process.in);
403 return 0;
406 int stop_column_filter(void)
408 if (fd_out == -1)
409 return -1;
411 fflush(stdout);
412 close(1);
413 finish_command(&column_process);
414 dup2(fd_out, 1);
415 close(fd_out);
416 fd_out = -1;
417 return 0;