2 * UCW Library -- Table printer
4 * (c) 2014 Robert Kessl <robert.kessl@economia.cz>
8 #include <ucw/string.h>
9 #include <ucw/stkstring.h>
11 #include <ucw/table.h>
12 #include <ucw/strtonum.h>
17 /* Forward declarations */
19 static void table_update_ll(struct table *tbl);
21 /*** Management of tables ***/
23 void table_init(struct table *tbl)
25 int col_count = 0; // count the number of columns in the struct table
28 if(tbl->columns[col_count].name == NULL &&
29 tbl->columns[col_count].fmt == NULL &&
30 tbl->columns[col_count].width == 0 &&
31 tbl->columns[col_count].type == COL_TYPE_LAST)
33 ASSERT(tbl->columns[col_count].name != NULL);
34 ASSERT(tbl->columns[col_count].type == COL_TYPE_ANY || tbl->columns[col_count].fmt != NULL);
35 ASSERT(tbl->columns[col_count].width != 0);
39 tbl->pool = mp_new(4096);
41 tbl->column_count = col_count;
44 tbl->formatter = &table_fmt_human_readable;
47 tbl->print_header = 1; // by default, print header
50 void table_cleanup(struct table *tbl)
53 memset(tbl, 0, sizeof(struct table));
56 // TODO: test default column order
57 static void table_make_default_column_order(struct table *tbl)
59 int *col_order_int = mp_alloc_zero(tbl->pool, sizeof(int) * tbl->column_count);
60 for(int i = 0; i < tbl->column_count; i++) {
63 table_set_col_order(tbl, col_order_int, tbl->column_count);
66 void table_start(struct table *tbl, struct fastbuf *out)
68 tbl->last_printed_col = -1;
69 tbl->row_printing_started = 0;
72 ASSERT_MSG(tbl->out, "Output fastbuf not specified.");
74 if(tbl->column_order == NULL) table_make_default_column_order(tbl);
76 // update linked lists
79 if(tbl->formatter->table_start != NULL) tbl->formatter->table_start(tbl);
81 mp_save(tbl->pool, &tbl->pool_state);
83 ASSERT_MSG(tbl->col_delimiter, "In-between column delimiter not specified.");
86 void table_end(struct table *tbl)
88 tbl->last_printed_col = -1;
89 tbl->row_printing_started = 0;
91 mp_restore(tbl->pool, &tbl->pool_state);
93 if(tbl->formatter->table_end) tbl->formatter->table_end(tbl);
96 /*** Configuration ***/
98 void table_set_formatter(struct table *tbl, struct table_formatter *fmt)
100 tbl->formatter = fmt;
103 int table_get_col_idx(struct table *tbl, const char *col_name)
105 for(int i = 0; i < tbl->column_count; i++) {
106 if(strcmp(tbl->columns[i].name, col_name) == 0) return i;
111 const char * table_get_col_list(struct table *tbl)
113 if(tbl->column_count == 0) return "";
115 char *tmp = mp_strdup(tbl->pool, tbl->columns[0].name);
117 for(int i = 1; i < tbl->column_count; i++) {
118 tmp = mp_printf_append(tbl->pool, tmp, ", %s", tbl->columns[i].name);
125 static void table_update_ll(struct table *tbl)
127 int cols_to_output = tbl->cols_to_output;
129 for(int i = 0; i < tbl->column_count; i++) {
130 tbl->columns[i].first_column = -1;
131 tbl->columns[i].last_column = -1;
134 for(int i = 0; i < cols_to_output; i++) {
135 int col_idx = tbl->column_order[i].idx;
136 int last = tbl->columns[col_idx].last_column;
138 tbl->columns[col_idx].last_column = i;
139 tbl->column_order[last].next_column = i;
141 tbl->columns[col_idx].last_column = i;
142 tbl->columns[col_idx].first_column = i;
144 tbl->column_order[i].next_column = -1;
148 void table_set_col_order(struct table *tbl, int *col_order, int cols_to_output)
150 for(int i = 0; i < cols_to_output; i++) {
151 ASSERT_MSG(col_order[i] >= 0 && col_order[i] < tbl->column_count, "Column %d does not exist (column number should be between 0 and %d)", col_order[i], tbl->column_count - 1);
154 tbl->cols_to_output = cols_to_output;
155 tbl->column_order = mp_alloc_zero(tbl->pool, sizeof(struct table_col_info) * cols_to_output);
156 for(int i = 0; i < cols_to_output; i++) {
157 int col_idx = col_order[i];
158 tbl->column_order[i].idx = col_idx;
159 tbl->column_order[i].cell_content = NULL;
160 tbl->column_order[i].output_type = CELL_OUT_UNINITIALIZED;
162 table_update_ll(tbl);
165 bool table_col_is_printed(struct table *tbl, uint col_idx)
167 if(tbl->columns[col_idx].first_column == -1) return 0;
172 static char * table_parse_col_arg(char *col_def)
174 // FIXME: should be switched to str_sepsplit
175 char * left_br = strchr(col_def, '[');
176 if(left_br == NULL) return NULL;
179 char *right_br = strchr(left_br, ']');
188 bool table_set_col_opt_default(struct table *tbl, int col_copy_idx, const char *col_arg, char **err)
190 int col_type_idx = tbl->column_order[col_copy_idx].idx;
192 if(tbl->columns[col_type_idx].type == COL_TYPE_DOUBLE) {
194 str_to_uint(&precision, col_arg, NULL, 0);
195 tbl->column_order[col_type_idx].output_type = precision;
199 *err = mp_printf(tbl->pool, "Tableprinter: invalid column format option: '%s' for column %d.", col_arg, col_copy_idx);
204 * TODO: This function deliberately leaks memory. When it is called multiple times,
205 * previous column orders still remain allocated in the table's memory pool.
207 const char * table_set_col_order_by_name(struct table *tbl, const char *col_order_str)
209 if(col_order_str[0] == '*') {
210 int *col_order_int = alloca(sizeof(int) * tbl->column_count);
211 for(int i = 0; i < tbl->column_count; i++) {
212 col_order_int[i] = i;
214 table_set_col_order(tbl, col_order_int, tbl->column_count);
219 if(!col_order_str[0]) {
220 tbl->column_order = mp_alloc(tbl->pool, 0);
221 tbl->cols_to_output = 0;
225 char *tmp_col_order = stk_strdup(col_order_str);
228 for(int i = 0; col_order_str[i] != 0; i++) {
229 if(col_order_str[i] == ',') {
234 tbl->cols_to_output = col_count;
235 tbl->column_order = mp_alloc_zero(tbl->pool, sizeof(struct table_col_info) * col_count);
237 //int *col_order_int = alloca(sizeof(int) * col_count);
238 int curr_col_idx = 0;
239 char *name_start = tmp_col_order;
240 //int curr_col_instance = 0;
242 char *next = strchr(name_start, ',');
247 char *arg = table_parse_col_arg(name_start); // this sets 0 on the '['
248 int col_idx = table_get_col_idx(tbl, name_start);
250 return mp_printf(tbl->pool, "Unknown table column '%s'", name_start);
252 tbl->column_order[curr_col_idx].idx = col_idx;
253 tbl->column_order[curr_col_idx].cell_content = NULL;
254 tbl->column_order[curr_col_idx].output_type = CELL_OUT_UNINITIALIZED;
255 fprintf(stdout, "formatter: %p, set_col_instance_option: %p\n", tbl->formatter, tbl->formatter->set_col_instance_option);
256 if(tbl->formatter && tbl->formatter->set_col_instance_option) {
258 fprintf(stdout, "calling: %p\n", tbl->formatter->set_col_instance_option);
259 tbl->formatter->set_col_instance_option(tbl, curr_col_idx, arg, &err);
267 //table_set_col_order(tbl, col_order_int, curr_col_order_int);
268 //tbl->cols_to_output = cols_to_output;
269 //tbl->column_order = mp_alloc_zero(tbl->pool, sizeof(struct table_col_info) * cols_to_output);
270 //for(int i = 0; i < cols_to_output; i++) {
271 //int col_idx = col_order[i];
272 //tbl->column_order[i].idx = col_idx;
273 //tbl->column_order[i].cell_content = NULL;
274 //tbl->column_order[i].output_type = CELL_OUT_UNINITIALIZED;
276 table_update_ll(tbl);
281 /*** Table cells ***/
283 static void table_set_all_cols_content(struct table *tbl, int col, char *col_content, int override)
285 int curr_col = tbl->columns[col].first_column;
286 while(curr_col != -1) {
287 if(override == 0 && tbl->column_order[curr_col].output_type != CELL_OUT_UNINITIALIZED ) {
288 fprintf(stdout, "curr_col: %d\n", curr_col);
290 die("Error while setting content of all cells of a single type column, cell format should not be overriden.");
292 tbl->column_order[curr_col].cell_content = col_content;
293 curr_col = tbl->column_order[curr_col].next_column;
297 void table_col_printf(struct table *tbl, int col, const char *fmt, ...)
299 ASSERT_MSG(col < tbl->column_count && col >= 0, "Table column %d does not exist.", col);
300 tbl->last_printed_col = col;
301 tbl->row_printing_started = 1;
304 char *cell_content = mp_vprintf(tbl->pool, fmt, args);
305 table_set_all_cols_content(tbl, col, cell_content, 1);
309 static const char *table_col_default_fmts[] = {
310 [COL_TYPE_STR] = "%s",
311 [COL_TYPE_INT] = "%d",
312 [COL_TYPE_S64] = "%lld",
313 [COL_TYPE_INTMAX] = "%jd",
314 [COL_TYPE_UINT] = "%u",
315 [COL_TYPE_U64] = "%llu",
316 [COL_TYPE_UINTMAX] = "%ju",
317 [COL_TYPE_BOOL] = "%d",
318 [COL_TYPE_DOUBLE] = "%.2lf",
319 [COL_TYPE_ANY] = NULL,
320 [COL_TYPE_LAST] = NULL
323 #define TABLE_COL(_name_, _type_, _typeconst_) void table_col_##_name_(struct table *tbl, int col, _type_ val)\
325 const char *fmt = tbl->columns[col].fmt;\
326 if(tbl->columns[col].type == COL_TYPE_ANY) {\
327 fmt = table_col_default_fmts[_typeconst_];\
329 table_col_##_name_##_fmt(tbl, col, fmt, val);\
332 #define TABLE_COL_STR(_name_, _type_, _typeconst_) void table_col_##_name_##_name(struct table *tbl, const char *col_name, _type_ val)\
334 int col = table_get_col_idx(tbl, col_name);\
335 table_col_##_name_(tbl, col, val);\
338 #define TABLE_COL_FMT(_name_, _type_, _typeconst_) void table_col_##_name_##_fmt(struct table *tbl, int col, const char *fmt, _type_ val)\
340 ASSERT_MSG(col < tbl->column_count && col >= 0, "Table column %d does not exist.", col);\
341 ASSERT(tbl->columns[col].type == COL_TYPE_ANY || _typeconst_ == tbl->columns[col].type);\
342 ASSERT(fmt != NULL);\
343 tbl->last_printed_col = col;\
344 tbl->row_printing_started = 1;\
345 char *cell_content = mp_printf(tbl->pool, fmt, val);\
346 table_set_all_cols_content(tbl, col, cell_content, 0);\
349 #define TABLE_COL_BODIES(_name_, _type_, _typeconst_) TABLE_COL(_name_, _type_, _typeconst_);\
350 TABLE_COL_STR(_name_, _type_, _typeconst_);\
351 TABLE_COL_FMT(_name_, _type_, _typeconst_);
353 TABLE_COL_BODIES(int, int, COL_TYPE_INT)
354 TABLE_COL_BODIES(uint, uint, COL_TYPE_UINT)
355 TABLE_COL_BODIES(str, const char *, COL_TYPE_STR)
356 TABLE_COL_BODIES(intmax, intmax_t, COL_TYPE_INTMAX)
357 TABLE_COL_BODIES(uintmax, uintmax_t, COL_TYPE_UINTMAX)
358 TABLE_COL_BODIES(s64, s64, COL_TYPE_S64)
359 TABLE_COL_BODIES(u64, u64, COL_TYPE_U64)
361 // column type double is a special case
362 TABLE_COL(double, double, COL_TYPE_DOUBLE);
363 TABLE_COL_STR(double, double, COL_TYPE_DOUBLE);
367 #undef TABLE_COL_BODIES
369 void table_col_double_fmt(struct table *tbl, int col, const char *fmt, double val)
371 ASSERT_MSG(col < tbl->column_count && col >= 0, "Table column %d does not exist.", col);
372 ASSERT(tbl->columns[col].type == COL_TYPE_ANY || COL_TYPE_DOUBLE == tbl->columns[col].type);
374 tbl->last_printed_col = col;
375 tbl->row_printing_started = 1;
376 char *cell_content = mp_printf(tbl->pool, fmt, val);
377 int curr_col = tbl->columns[col].first_column;
378 while(curr_col != -1) {
379 if(tbl->column_order[curr_col].output_type < 0) tbl->column_order[curr_col].cell_content = cell_content;
381 char *cell_content_tmp = mp_printf(tbl->pool, "%.*lf", tbl->column_order[curr_col].output_type, val);
382 tbl->column_order[curr_col].cell_content = cell_content_tmp;
384 curr_col = tbl->column_order[curr_col].next_column;
388 void table_col_bool(struct table *tbl, int col, uint val)
390 table_col_bool_fmt(tbl, col, tbl->columns[col].fmt, val);
393 void table_col_bool_name(struct table *tbl, const char *col_name, uint val)
395 int col = table_get_col_idx(tbl, col_name);
396 table_col_bool(tbl, col, val);
399 void table_col_bool_fmt(struct table *tbl, int col, const char *fmt, uint val)
401 ASSERT_MSG(col < tbl->column_count && col >= 0, "Table column %d does not exist.", col);
402 ASSERT(COL_TYPE_BOOL == tbl->columns[col].type);
404 tbl->last_printed_col = col;
405 tbl->row_printing_started = 1;
407 int curr_col = tbl->columns[col].first_column;
408 while(curr_col != -1) {
409 switch(tbl->column_order[curr_col].output_type) {
410 case CELL_OUT_HUMAN_READABLE:
411 case CELL_OUT_UNINITIALIZED:
412 tbl->column_order[curr_col].cell_content = mp_printf(tbl->pool, fmt, val ? "true" : "false");
414 case CELL_OUT_MACHINE_READABLE:
415 // FIXME: this is just an example of printing in different formats
416 tbl->column_order[curr_col].cell_content = mp_printf(tbl->pool, fmt, val ? "1" : "0");
419 die("Unsupported output type.");
421 curr_col = tbl->column_order[curr_col].next_column;
424 // FIXME: add to printing of all columns
427 void table_reset_row(struct table *tbl)
429 for(uint i = 0; i < tbl->cols_to_output; i++) {
430 tbl->column_order[i].cell_content = NULL;
432 mp_restore(tbl->pool, &tbl->pool_state);
433 tbl->last_printed_col = -1;
434 tbl->row_printing_started = 0;
437 void table_end_row(struct table *tbl)
439 ASSERT(tbl->formatter->row_output);
440 if(tbl->row_printing_started == 0) return;
441 tbl->formatter->row_output(tbl);
442 table_reset_row(tbl);
445 /* Construction of a cell using a fastbuf */
447 struct fastbuf *table_col_fbstart(struct table *tbl, int col)
449 fbpool_init(&tbl->fb_col_out);
450 fbpool_start(&tbl->fb_col_out, tbl->pool, 1);
452 return &tbl->fb_col_out.fb;
455 void table_col_fbend(struct table *tbl)
457 char *cell_content = fbpool_end(&tbl->fb_col_out);
458 table_set_all_cols_content(tbl, tbl->col_out, cell_content, 1);
462 /*** Option parsing ***/
464 const char *table_set_option_value(struct table *tbl, const char *key, const char *value)
466 // Options with no value
467 if(value == NULL || (value != NULL && strlen(value) == 0)) {
468 if(strcmp(key, "noheader") == 0) {
469 tbl->print_header = 0;
474 // Options with a value
476 if(strcmp(key, "header") == 0) {
478 return mp_printf(tbl->pool, "Tableprinter: invalid option: '%s' has invalid value: '%s'.", key, value);
479 uint tmp = value[0] - '0';
481 return mp_printf(tbl->pool, "Tableprinter: invalid option: '%s' has invalid value: '%s'.", key, value);
482 tbl->print_header = tmp;
484 } else if(strcmp(key, "cols") == 0) {
485 const char *err = table_set_col_order_by_name(tbl, value);
487 return mp_printf(tbl->pool, "%s, possible column names are: %s.", err, table_get_col_list(tbl));
490 } else if(strcmp(key, "fmt") == 0) {
491 if(strcmp(value, "human") == 0) table_set_formatter(tbl, &table_fmt_human_readable);
492 else if(strcmp(value, "machine") == 0) table_set_formatter(tbl, &table_fmt_machine_readable);
493 else if(strcmp(value, "blockline") == 0) table_set_formatter(tbl, &table_fmt_blockline);
495 return "Tableprinter: invalid argument to output-type option.";
498 } else if(strcmp(key, "col-delim") == 0) {
499 char * d = mp_printf(tbl->pool, "%s", value);
500 tbl->col_delimiter = d;
506 if(tbl->formatter && tbl->formatter->process_option) {
507 const char *err = NULL;
508 if(tbl->formatter->process_option(tbl, key, value, &err)) {
513 // Unrecognized option
514 return mp_printf(tbl->pool, "Tableprinter: invalid option: '%s%s%s'.", key, (value ? ":" : ""), (value ? : ""));
517 const char *table_set_option(struct table *tbl, const char *opt)
519 char *key = stk_strdup(opt);
520 char *value = strchr(key, ':');
524 return table_set_option_value(tbl, key, value);
527 const char *table_set_gary_options(struct table *tbl, char **gary_table_opts)
529 for (uint i = 0; i < GARY_SIZE(gary_table_opts); i++) {
530 const char *rv = table_set_option(tbl, gary_table_opts[i]);
538 /*** Default formatter for human-readable output ***/
540 static void table_row_human_readable(struct table *tbl)
542 for(uint i = 0; i < tbl->cols_to_output; i++) {
543 int col_idx = tbl->column_order[i].idx;
545 bputs(tbl->out, tbl->col_delimiter);
547 int col_width = tbl->columns[col_idx].width & CELL_WIDTH_MASK;
548 if(tbl->columns[col_idx].width & CELL_ALIGN_LEFT) col_width = -1 * col_width;
549 bprintf(tbl->out, "%*s", col_width, tbl->column_order[i].cell_content);
551 bputc(tbl->out, '\n');
554 static void table_write_header(struct table *tbl)
556 for(uint i = 0; i < tbl->cols_to_output; i++) {
557 int col_idx = tbl->column_order[i].idx;
559 bputs(tbl->out, tbl->col_delimiter);
561 int col_width = tbl->columns[col_idx].width & CELL_WIDTH_MASK;
562 if(tbl->columns[col_idx].width & CELL_ALIGN_LEFT) col_width = -1 * col_width;
563 bprintf(tbl->out, "%*s", col_width, tbl->columns[col_idx].name);
565 bputc(tbl->out, '\n');
568 static void table_start_human_readable(struct table *tbl)
570 if(tbl->col_delimiter == NULL) {
571 tbl->col_delimiter = " ";
574 if(tbl->print_header != 0) {
575 table_write_header(tbl);
579 struct table_formatter table_fmt_human_readable = {
580 .row_output = table_row_human_readable,
581 .table_start = table_start_human_readable,
584 /*** Default formatter for machine-readable output ***/
586 static void table_row_machine_readable(struct table *tbl)
588 for(uint i = 0; i < tbl->cols_to_output; i++) {
590 bputs(tbl->out, tbl->col_delimiter);
592 bputs(tbl->out, tbl->column_order[i].cell_content);
594 bputc(tbl->out, '\n');
597 static void table_start_machine_readable(struct table *tbl)
599 if(tbl->col_delimiter == NULL) {
600 tbl->col_delimiter = "\t";
603 if(tbl->print_header != 0) {
604 uint col_idx = tbl->column_order[0].idx;
605 bputs(tbl->out, tbl->columns[col_idx].name);
606 for(uint i = 1; i < tbl->cols_to_output; i++) {
607 col_idx = tbl->column_order[i].idx;
608 bputs(tbl->out, tbl->col_delimiter);
609 bputs(tbl->out, tbl->columns[col_idx].name);
611 bputc(tbl->out, '\n');
615 struct table_formatter table_fmt_machine_readable = {
616 .row_output = table_row_machine_readable,
617 .table_start = table_start_machine_readable,
621 /*** Blockline formatter ***/
623 static void table_row_blockline_output(struct table *tbl)
625 for(uint i = 0; i < tbl->cols_to_output; i++) {
626 int col_idx = tbl->column_order[i].idx;
627 bprintf(tbl->out, "%s: %s\n", tbl->columns[col_idx].name, tbl->column_order[i].cell_content);
629 bputc(tbl->out, '\n');
632 static void table_start_blockline(struct table *tbl)
634 if(tbl->col_delimiter == NULL) {
635 tbl->col_delimiter = "\n";
639 struct table_formatter table_fmt_blockline = {
640 .row_output = table_row_blockline_output,
641 .table_start = table_start_blockline
652 enum test_table_cols {
653 test_col0_str, test_col1_int, test_col2_uint, test_col3_bool, test_col4_double
656 static struct table_col_info test_column_order[] = { TBL_COL(test_col3_bool), TBL_COL(test_col4_double), TBL_COL(test_col2_uint), TBL_COL(test_col1_int), TBL_COL(test_col0_str) };
658 static struct table test_tbl = {
660 [test_col0_str] = TBL_COL_STR("col0_str", 20),
661 [test_col1_int] = TBL_COL_INT("col1_int", 8),
662 [test_col2_uint] = TBL_COL_UINT("col2_uint", 9),
663 [test_col3_bool] = TBL_COL_BOOL("col3_bool", 9),
664 [test_col4_double] = TBL_COL_DOUBLE("col4_double", 11, 2),
667 TBL_COL_ORDER(test_column_order),
668 TBL_OUTPUT_HUMAN_READABLE,
669 TBL_COL_DELIMITER("\t"),
673 * tests: table_set_nt, table_set_uint, table_set_bool, table_set_double, table_set_printf
675 static void do_print1(struct table *test_tbl)
677 table_col_str(test_tbl, test_col0_str, "sdsdf");
678 table_col_int(test_tbl, test_col1_int, -10);
679 table_col_int(test_tbl, test_col1_int, 10000);
680 table_col_uint(test_tbl, test_col2_uint, 10);
681 table_col_printf(test_tbl, test_col2_uint, "XXX-%u", 22222);
682 table_col_bool(test_tbl, test_col3_bool, 1);
683 table_col_double(test_tbl, test_col4_double, 1.5);
684 table_col_printf(test_tbl, test_col4_double, "AAA");
685 table_end_row(test_tbl);
687 table_col_str(test_tbl, test_col0_str, "test");
688 table_col_int(test_tbl, test_col1_int, -100);
689 table_col_uint(test_tbl, test_col2_uint, 100);
690 table_col_bool(test_tbl, test_col3_bool, 0);
691 table_col_printf(test_tbl, test_col4_double, "%.2lf", 1.5);
692 table_end_row(test_tbl);
695 static void test_simple1(struct fastbuf *out)
697 table_init(&test_tbl);
699 // print table with header
700 table_set_col_order_by_name(&test_tbl, "col3_bool");
701 table_start(&test_tbl, out);
702 do_print1(&test_tbl);
703 table_end(&test_tbl);
705 // print the same table as in the previous case without header
706 table_set_col_order_by_name(&test_tbl, "col0_str,col2_uint,col1_int,col3_bool");
707 table_start(&test_tbl, out);
708 do_print1(&test_tbl);
709 table_end(&test_tbl);
711 // this also tests whether there is need to call table_set_col_order_by_name after table_end was called
712 test_tbl.print_header = 0;
713 table_start(&test_tbl, out);
714 do_print1(&test_tbl);
715 table_end(&test_tbl);
716 test_tbl.print_header = 1;
718 table_set_col_order_by_name(&test_tbl, "col3_bool");
719 table_start(&test_tbl, out);
720 do_print1(&test_tbl);
721 table_end(&test_tbl);
723 table_set_col_order_by_name(&test_tbl, "col3_bool,col0_str");
724 table_start(&test_tbl, out);
725 do_print1(&test_tbl);
726 table_end(&test_tbl);
728 table_set_col_order_by_name(&test_tbl, "col0_str,col3_bool,col2_uint");
729 table_start(&test_tbl, out);
730 do_print1(&test_tbl);
731 table_end(&test_tbl);
733 table_set_col_order_by_name(&test_tbl, "col0_str,col3_bool,col2_uint,col0_str,col3_bool,col2_uint,col0_str,col3_bool,col2_uint");
734 table_start(&test_tbl, out);
735 do_print1(&test_tbl);
736 table_end(&test_tbl);
738 table_set_col_order_by_name(&test_tbl, "col0_str,col1_int,col2_uint,col3_bool,col4_double");
739 table_start(&test_tbl, out);
740 do_print1(&test_tbl);
741 table_end(&test_tbl);
743 table_cleanup(&test_tbl);
746 enum test_any_table_cols {
747 test_any_col0_int, test_any_col1_any
750 static struct table_col_info test_any_column_order[] = { TBL_COL(test_any_col0_int), TBL_COL(test_any_col1_any) };
752 static struct table test_any_tbl = {
754 [test_any_col0_int] = TBL_COL_INT("col0_int", 8),
755 [test_any_col1_any] = TBL_COL_ANY("col1_any", 9),
758 TBL_COL_ORDER(test_any_column_order),
759 TBL_OUTPUT_HUMAN_READABLE,
760 TBL_COL_DELIMITER("\t"),
763 static void test_any_type(struct fastbuf *out)
765 table_init(&test_any_tbl);
767 table_start(&test_any_tbl, out);
769 table_col_int(&test_any_tbl, test_any_col0_int, -10);
770 table_col_int(&test_any_tbl, test_any_col1_any, 10000);
771 table_end_row(&test_any_tbl);
773 table_col_int(&test_any_tbl, test_any_col0_int, -10);
774 table_col_double(&test_any_tbl, test_any_col1_any, 1.4);
775 table_end_row(&test_any_tbl);
777 table_col_printf(&test_any_tbl, test_any_col0_int, "%d", 10);
778 table_col_double(&test_any_tbl, test_any_col1_any, 1.4);
779 table_end_row(&test_any_tbl);
781 table_end(&test_any_tbl);
782 table_cleanup(&test_any_tbl);
785 int main(int argc UNUSED, char **argv UNUSED)
788 out = bfdopen_shared(1, 4096);