-static int make_column_details_single(struct context *inc,
- size_t col_nr, size_t bit_count, enum single_col_format format)
-{
- struct column_details *details;
-
- /*
- * Need at least as many columns to also include the one with
- * the single-column input data.
- */
- inc->column_want_count = col_nr;
-
- /*
- * Allocate the columns' processing details. Columns are counted
- * from 1 (user's perspective), array items from 0 (programmer's
- * perspective).
- */
- inc->column_details = g_malloc0_n(col_nr, sizeof(inc->column_details[0]));
- details = &inc->column_details[col_nr - 1];
- details->col_nr = col_nr;
-
- /*
- * In single-column mode this single column will hold all bits
- * of all logic channels, in the user specified number format.
- */
- details->text_format = format;
- details->channel_offset = 0;
- details->channel_count = bit_count;
-
- return SR_OK;
-}
-
-static int make_column_details_multi(struct context *inc,
- size_t first_col, size_t last_col)
-{
- struct column_details *details;
- size_t col_nr;
-
- /*
- * Need at least as many columns to also include the one with
- * the last channel's data.
- */
- inc->column_want_count = last_col;
-
- /*
- * Allocate the columns' processing details. Columns are counted
- * from 1, array items from 0.
- * In multi-column mode each column will hold a single bit for
- * the respective channel.
- */
- inc->column_details = g_malloc0_n(last_col, sizeof(inc->column_details[0]));
- for (col_nr = first_col; col_nr <= last_col; col_nr++) {
- details = &inc->column_details[col_nr - 1];
- details->col_nr = col_nr;
- details->text_format = FORMAT_BIN;
- details->channel_offset = col_nr - first_col;
- details->channel_count = 1;
- }
-
-
- return SR_OK;
-}
-