/* * column.c - functions for table handling at the column level * * Copyright (C) 2014 Ondrej Oprala * Copyright (C) 2014 Karel Zak * * This file may be redistributed under the terms of the * GNU Lesser General Public License. */ /** * SECTION: column * @title: Column * @short_description: defines output columns formats, headers, etc. * * An API to access and modify per-column data and information. */ #include #include #include #include #include "mbsalign.h" #include "smartcolsP.h" /** * scols_new_column: * * Allocates space for a new column. * * Returns: a pointer to a new struct libscols_column instance, NULL in case of an ENOMEM error. */ struct libscols_column *scols_new_column(void) { struct libscols_column *cl; cl = calloc(1, sizeof(*cl)); if (!cl) return NULL; DBG(COL, ul_debugobj(cl, "alloc")); cl->refcount = 1; INIT_LIST_HEAD(&cl->cl_columns); return cl; } /** * scols_ref_column: * @cl: a pointer to a struct libscols_column instance * * Increases the refcount of @cl. */ void scols_ref_column(struct libscols_column *cl) { if (cl) cl->refcount++; } /** * scols_unref_column: * @cl: a pointer to a struct libscols_column instance * * Decreases the refcount of @cl. When the count falls to zero, the instance * is automatically deallocated. */ void scols_unref_column(struct libscols_column *cl) { if (cl && --cl->refcount <= 0) { DBG(COL, ul_debugobj(cl, "dealloc")); list_del(&cl->cl_columns); scols_reset_cell(&cl->header); free(cl->color); free(cl->safechars); free(cl->pending_data_buf); free(cl); } } /** * scols_copy_column: * @cl: a pointer to a struct libscols_column instance * * Creates a new column and copies @cl's data over to it. * * Returns: a pointer to a new struct libscols_column instance. */ struct libscols_column *scols_copy_column(const struct libscols_column *cl) { struct libscols_column *ret; if (!cl) return NULL; ret = scols_new_column(); if (!ret) return NULL; DBG(COL, ul_debugobj(cl, "copy to %p", ret)); if (scols_column_set_color(ret, cl->color)) goto err; if (scols_cell_copy_content(&ret->header, &cl->header)) goto err; ret->width = cl->width; ret->width_min = cl->width_min; ret->width_max = cl->width_max; ret->width_avg = cl->width_avg; ret->width_hint = cl->width_hint; ret->flags = cl->flags; ret->is_extreme = cl->is_extreme; return ret; err: scols_unref_column(ret); return NULL; } /** * scols_column_set_whint: * @cl: a pointer to a struct libscols_column instance * @whint: a width hint * * Sets the width hint of column @cl to @whint. See scols_table_new_column(). * * Returns: 0, a negative value in case of an error. */ int scols_column_set_whint(struct libscols_column *cl, double whint) { if (!cl) return -EINVAL; cl->width_hint = whint; return 0; } /** * scols_column_get_whint: * @cl: a pointer to a struct libscols_column instance * * Returns: The width hint of column @cl, a negative value in case of an error. */ double scols_column_get_whint(const struct libscols_column *cl) { return cl->width_hint; } /** * scols_column_set_flags: * @cl: a pointer to a struct libscols_column instance * @flags: a flag mask * * Sets the flags of @cl to @flags. * * Returns: 0, a negative value in case of an error. */ int scols_column_set_flags(struct libscols_column *cl, int flags) { if (!cl) return -EINVAL; if (cl->table) { if (!(cl->flags & SCOLS_FL_TREE) && (flags & SCOLS_FL_TREE)) cl->table->ntreecols++; else if ((cl->flags & SCOLS_FL_TREE) && !(flags & SCOLS_FL_TREE)) cl->table->ntreecols--; } cl->flags = flags; return 0; } /** * scols_column_get_table: * @cl: a pointer to a struct libscols_column instance * * Returns: pointer to the table where columns is used */ struct libscols_table *scols_column_get_table(const struct libscols_column *cl) { return cl->table; } /** * scols_column_get_flags: * @cl: a pointer to a struct libscols_column instance * * Returns: The flag mask of @cl, a negative value in case of an error. */ int scols_column_get_flags(const struct libscols_column *cl) { return cl->flags; } /** * scols_column_get_header: * @cl: a pointer to a struct libscols_column instance * * Returns: A pointer to a struct libscols_cell instance, representing the * header info of column @cl or NULL in case of an error. */ struct libscols_cell *scols_column_get_header(struct libscols_column *cl) { return &cl->header; } /** * scols_column_set_color: * @cl: a pointer to a struct libscols_column instance * @color: color name or ESC sequence * * The default color for data cells and column header. * * If you want to set header specific color then use scols_column_get_header() * and scols_cell_set_color(). * * If you want to set data cell specific color the use scols_line_get_cell() + * scols_cell_set_color(). * * Returns: 0, a negative value in case of an error. */ int scols_column_set_color(struct libscols_column *cl, const char *color) { if (color && isalpha(*color)) { color = color_sequence_from_colorname(color); if (!color) return -EINVAL; } return strdup_to_struct_member(cl, color, color); } /** * scols_column_get_color: * @cl: a pointer to a struct libscols_column instance * * Returns: The current color setting of the column @cl. */ const char *scols_column_get_color(const struct libscols_column *cl) { return cl->color; } /** * scols_wrapnl_nextchunk: * @cl: a pointer to a struct libscols_column instance * @data: string * @userdata: callback private data * * This is built-in function for scols_column_set_wrapfunc(). This function * terminates the current chunk by \0 and returns pointer to the begin of * the next chunk. The chunks are based on \n. * * For example for data "AAA\nBBB\nCCC" the next chunk is "BBB". * * Returns: next chunk * * Since: 2.29 */ char *scols_wrapnl_nextchunk(const struct libscols_column *cl __attribute__((unused)), char *data, void *userdata __attribute__((unused))) { char *p = data ? strchr(data, '\n') : NULL; if (p) { *p = '\0'; return p + 1; } return NULL; } /** * scols_wrapnl_chunksize: * @cl: a pointer to a struct libscols_column instance * @data: string * @userdata: callback private data * * Analyzes @data and returns size of the largest chunk. The chunks are based * on \n. For example for data "AAA\nBBB\nCCCC" the largest chunk size is 4. * * Note that the size has to be based on number of terminal cells rather than * bytes to support multu-byte output. * * Returns: size of the largest chunk. * * Since: 2.29 */ size_t scols_wrapnl_chunksize(const struct libscols_column *cl __attribute__((unused)), const char *data, void *userdata __attribute__((unused))) { size_t sum = 0; while (data && *data) { const char *p = data; size_t sz; p = strchr(data, '\n'); if (p) { sz = mbs_safe_nwidth(data, p - data, NULL); p++; } else sz = mbs_safe_width(data); sum = max(sum, sz); data = p;; } return sum; } /** * scols_column_set_cmpfunc: * @cl: column * @cmp: pointer to compare function * @data: private data for cmp function * * Returns: 0, a negative value in case of an error. */ int scols_column_set_cmpfunc(struct libscols_column *cl, int (*cmp)(struct libscols_cell *, struct libscols_cell *, void *), void *data) { if (!cl) return -EINVAL; cl->cmpfunc = cmp; cl->cmpfunc_data = data; return 0; } /** * scols_column_set_wrapfunc: * @cl: a pointer to a struct libscols_column instance * @wrap_chunksize: function to return size of the largest chink of data * @wrap_nextchunk: function to return next zero terminated data * @userdata: optional stuff for callbacks * * Extends SCOLS_FL_WRAP and allows to set custom wrap function. The default * is to wrap by column size, but you can create functions to wrap for example * after \n or after words, etc. * * Returns: 0, a negative value in case of an error. * * Since: 2.29 */ int scols_column_set_wrapfunc(struct libscols_column *cl, size_t (*wrap_chunksize)(const struct libscols_column *, const char *, void *), char * (*wrap_nextchunk)(const struct libscols_column *, char *, void *), void *userdata) { if (!cl) return -EINVAL; cl->wrap_nextchunk = wrap_nextchunk; cl->wrap_chunksize = wrap_chunksize; cl->wrapfunc_data = userdata; return 0; } /** * scols_column_set_safechars: * @cl: a pointer to a struct libscols_column instance * @safe: safe characters (e.g. "\n\t") * * Use for bytes you don't want to encode on output. This is for example * necessary if you want to use custom wrap function based on \n, in this case * you have to set "\n" as a safe char. * * Returns: 0, a negative value in case of an error. * * Since: 2.29 */ int scols_column_set_safechars(struct libscols_column *cl, const char *safe) { return strdup_to_struct_member(cl, safechars, safe); } /** * scols_column_get_safechars: * @cl: a pointer to a struct libscols_column instance * * Returns: safe chars * * Since: 2.29 */ const char *scols_column_get_safechars(const struct libscols_column *cl) { return cl->safechars; } /** * scols_column_get_width: * @cl: a pointer to a struct libscols_column instance * * Important note: the column width is unknown until library starts printing * (width is calculated before printing). The function is usable for example in * nextchunk() callback specified by scols_column_set_wrapfunc(). * * See also scols_column_get_whint(), it returns wanted size (!= final size). * * Returns: column width * * Since: 2.29 */ size_t scols_column_get_width(const struct libscols_column *cl) { return cl->width; } /** * scols_column_is_hidden: * @cl: a pointer to a struct libscols_column instance * * Gets the value of @cl's flag hidden. * * Returns: 0 or 1 * * Since: 2.27 */ int scols_column_is_hidden(const struct libscols_column *cl) { return cl->flags & SCOLS_FL_HIDDEN ? 1 : 0; } /** * scols_column_is_trunc: * @cl: a pointer to a struct libscols_column instance * * Gets the value of @cl's flag trunc. * * Returns: 0 or 1 */ int scols_column_is_trunc(const struct libscols_column *cl) { return cl->flags & SCOLS_FL_TRUNC ? 1 : 0; } /** * scols_column_is_tree: * @cl: a pointer to a struct libscols_column instance * * Gets the value of @cl's flag tree. * * Returns: 0 or 1 */ int scols_column_is_tree(const struct libscols_column *cl) { return cl->flags & SCOLS_FL_TREE ? 1 : 0; } /** * scols_column_is_right: * @cl: a pointer to a struct libscols_column instance * * Gets the value of @cl's flag right. * * Returns: 0 or 1 */ int scols_column_is_right(const struct libscols_column *cl) { return cl->flags & SCOLS_FL_RIGHT ? 1 : 0; } /** * scols_column_is_strict_width: * @cl: a pointer to a struct libscols_column instance * * Gets the value of @cl's flag strict_width. * * Returns: 0 or 1 */ int scols_column_is_strict_width(const struct libscols_column *cl) { return cl->flags & SCOLS_FL_STRICTWIDTH ? 1 : 0; } /** * scols_column_is_noextremes: * @cl: a pointer to a struct libscols_column instance * * Gets the value of @cl's flag no_extremes. * * Returns: 0 or 1 */ int scols_column_is_noextremes(const struct libscols_column *cl) { return cl->flags & SCOLS_FL_NOEXTREMES ? 1 : 0; } /** * scols_column_is_wrap: * @cl: a pointer to a struct libscols_column instance * * Gets the value of @cl's flag wrap. * * Returns: 0 or 1 * * Since: 2.28 */ int scols_column_is_wrap(const struct libscols_column *cl) { return cl->flags & SCOLS_FL_WRAP ? 1 : 0; } /** * scols_column_is_customwrap: * @cl: a pointer to a struct libscols_column instance * * Returns: 0 or 1 * * Since: 2.29 */ int scols_column_is_customwrap(const struct libscols_column *cl) { return (cl->flags & SCOLS_FL_WRAP) && cl->wrap_chunksize && cl->wrap_nextchunk ? 1 : 0; }