#include <stdio.h>
#include <stdlib.h>
+static const char *unit_suffix[] = {
+ [UNIT_BYTE] = "",
+ [UNIT_KILOBYTE] = "KB",
+ [UNIT_MEGABYTE] = "MB",
+ [UNIT_GIGABYTE] = "GB",
+ [UNIT_TERABYTE] = "TB"
+};
+
static bool table_set_col_opt_size(struct table *tbl, uint col_copy_idx, const char *col_arg, char **err)
{
int col_type_idx = tbl->column_order[col_copy_idx].idx;
- if(tbl->columns[col_type_idx].type == COL_TYPE_SIZE) {
- if(strcasecmp(col_arg, "b") == 0 || strcasecmp(col_arg, "bytes") == 0) {
- tbl->column_order[col_copy_idx].output_type = UNIT_BYTE;
- } else if(strcasecmp(col_arg, "kb") == 0) {
- tbl->column_order[col_copy_idx].output_type = UNIT_KILOBYTE;
- } else if(strcasecmp(col_arg, "mb") == 0) {
- tbl->column_order[col_copy_idx].output_type = UNIT_MEGABYTE;
- } else if(strcasecmp(col_arg, "gb") == 0) {
- tbl->column_order[col_copy_idx].output_type = UNIT_GIGABYTE;
- } else if(strcasecmp(col_arg, "tb") == 0) {
- tbl->column_order[col_copy_idx].output_type = UNIT_TERABYTE;
- } else {
- *err = mp_printf(tbl->pool, "Tableprinter: invalid column format option: '%s' for column %d (counted from 0)", col_arg, col_copy_idx);
- return true;
- }
+ if(tbl->columns[col_type_idx].type != COL_TYPE_SIZE) {
+ *err = NULL;
+ return false;
+ }
+
+ if(col_arg == NULL) {
*err = NULL;
return true;
}
+ if(strcasecmp(col_arg, "b") == 0 || strcasecmp(col_arg, "bytes") == 0) {
+ tbl->column_order[col_copy_idx].output_type = UNIT_BYTE;
+ }
+
+ tbl->column_order[col_copy_idx].output_type = CELL_OUT_UNINITIALIZED;
+ for(uint i = 0; i < ARRAY_SIZE(unit_suffix); i++) {
+ if(strcasecmp(col_arg, unit_suffix[i]) == 0) {
+ tbl->column_order[col_copy_idx].output_type = i;
+ }
+ }
+
+ if(tbl->column_order[col_copy_idx].output_type == CELL_OUT_UNINITIALIZED) {
+ *err = mp_printf(tbl->pool, "Tableprinter: invalid column format option: '%s' for column %d (counted from 0)", col_arg, col_copy_idx);
+ return true;
+ }
+
*err = NULL;
- return false;
+ return true;
}
struct table_user_type table_type_size = {
static bool table_set_col_opt_timestamp(struct table *tbl, uint col_copy_idx, const char *col_arg, char **err)
{
int col_type_idx = tbl->column_order[col_copy_idx].idx;
- if(tbl->columns[col_type_idx].type == COL_TYPE_TIMESTAMP) {
- if(strcasecmp(col_arg, "timestamp") == 0 || strcasecmp(col_arg, "epoch") == 0) {
- tbl->column_order[col_copy_idx].output_type = TIMESTAMP_EPOCH;
- } else if(strcasecmp(col_arg, "datetime") == 0) {
- tbl->column_order[col_copy_idx].output_type = TIMESTAMP_DATETIME;
- } else {
- *err = mp_printf(tbl->pool, "Tableprinter: invalid column format option: '%s' for column %d.", col_arg, col_copy_idx);
- return true;
- }
+ if(tbl->columns[col_type_idx].type != COL_TYPE_TIMESTAMP) {
*err = NULL;
+ return false;
+ }
+
+ if(col_arg == NULL) {
+ *err = NULL;
+ return true;
+ }
+
+ if(strcasecmp(col_arg, "timestamp") == 0 || strcasecmp(col_arg, "epoch") == 0) {
+ tbl->column_order[col_copy_idx].output_type = TIMESTAMP_EPOCH;
+ } else if(strcasecmp(col_arg, "datetime") == 0) {
+ tbl->column_order[col_copy_idx].output_type = TIMESTAMP_DATETIME;
+ } else {
+ *err = mp_printf(tbl->pool, "Tableprinter: invalid column format option: '%s' for column %d.", col_arg, col_copy_idx);
return true;
}
*err = NULL;
- return false;
+ return true;
}
struct table_user_type table_type_timestamp = {
static u64 unit_div[] = {
[UNIT_BYTE] = (u64) 1,
- [UNIT_KILOBYTE] = (u64) 1024LU,
- [UNIT_MEGABYTE] = (u64) (1024LU * 1024LU),
- [UNIT_GIGABYTE] = (u64) (1024LU * 1024LU * 1024LU),
- [UNIT_TERABYTE] = (u64) (1024LU * 1024LU * 1024LU * 1024LU)
- };
-
- static const char *unit_suffix[] = {
- [UNIT_BYTE] = "",
- [UNIT_KILOBYTE] = "KB",
- [UNIT_MEGABYTE] = "MB",
- [UNIT_GIGABYTE] = "GB",
- [UNIT_TERABYTE] = "TB"
+ [UNIT_KILOBYTE] = (u64) 1024LLU,
+ [UNIT_MEGABYTE] = (u64) (1024LLU * 1024LLU),
+ [UNIT_GIGABYTE] = (u64) (1024LLU * 1024LLU * 1024LLU),
+ [UNIT_TERABYTE] = (u64) (1024LLU * 1024LLU * 1024LLU * 1024LLU)
};
- int curr_col = tbl->columns[col].first_column;
- while(curr_col != -1) {
-
+ TBL_COL_ITER(tbl, col, curr_col, curr_col_idx) {
// FIXME: do some rounding?
uint out_type = 0;
- if(tbl->column_order[curr_col].output_type == CELL_OUT_UNINITIALIZED) {
+ if(curr_col->output_type == CELL_OUT_UNINITIALIZED) {
val = val / unit_div[UNIT_BYTE];
out_type = 0;
} else {
- val = val / unit_div[tbl->column_order[curr_col].output_type];
- out_type = tbl->column_order[curr_col].output_type;
+ val = val / unit_div[curr_col->output_type];
+ out_type = curr_col->output_type;
}
- tbl->column_order[curr_col].cell_content = mp_printf(tbl->pool, "%lu%s", val, unit_suffix[out_type]);
- curr_col = tbl->column_order[curr_col].next_column;
+ curr_col->cell_content = mp_printf(tbl->pool, "%lu%s", val, unit_suffix[out_type]);
}
-
}
#define FORMAT_TIME_SIZE 20 // Minimum buffer size
time_t tmp_time = (time_t)val;
struct tm t = *gmtime(&tmp_time);
-
- int curr_col = tbl->columns[col].first_column;
- while(curr_col != -1) {
- switch (tbl->column_order[curr_col].output_type) {
+ TBL_COL_ITER(tbl, col, curr_col, curr_col_idx) {
+ switch (curr_col->output_type) {
case TIMESTAMP_EPOCH:
case CELL_OUT_UNINITIALIZED:
sprintf(formatted_time_buf, "%lu", val);
break;
}
- tbl->column_order[curr_col].cell_content = mp_printf(tbl->pool, "%s", formatted_time_buf);
- curr_col = tbl->column_order[curr_col].next_column;
+ curr_col->cell_content = mp_printf(tbl->pool, "%s", formatted_time_buf);
}
}