* - Limit the number of columns, similar to the way gitk does.
* If we reach more than a specified number of columns, omit
* sections of some columns.
- *
- * - The output during the GRAPH_PRE_COMMIT and GRAPH_COLLAPSING states
- * could be made more compact by printing horizontal lines, instead of
- * long diagonal lines. For example, during collapsing, something like
- * this: instead of this:
- * | | | | | | | | | |
- * | |_|_|/ | | | |/
- * |/| | | | | |/|
- * | | | | | |/| |
- * |/| | |
- * | | | |
- *
- * If there are several parallel diagonal lines, they will need to be
- * replaced with horizontal lines on subsequent rows.
*/
struct column {
graph->num_columns = 0;
graph->num_new_columns = 0;
graph->mapping_size = 0;
- graph->default_column_color = 0;
+ /*
+ * Start the column color at the maximum value, since we'll
+ * always increment it for the first commit we output.
+ * This way we start at 0 for the first commit.
+ */
+ graph->default_column_color = COLUMN_COLORS_MAX - 1;
/*
* Allocate a reasonably large default number of columns
}
/*
- * Uninteresting and pruned commits won't be printed
+ * Otherwise, use get_commit_action() to see if this commit is
+ * interesting
*/
- return (commit->object.flags & (UNINTERESTING | TREESAME)) ? 0 : 1;
+ return get_commit_action(graph->revs, commit) == commit_show;
}
static struct commit_list *next_interesting_parent(struct git_graph *graph,
parent;
parent = next_interesting_parent(graph, parent)) {
/*
- * If this is a merge increment the current
+ * If this is a merge, or the start of a new
+ * childless column, increment the current
* color.
*/
- if (graph->num_parents > 1)
+ if (graph->num_parents > 1 ||
+ !is_commit_in_columns) {
graph_increment_column_color(graph);
+ }
graph_insert_into_new_columns(graph,
parent->item,
&mapping_idx);
if (graph->new_columns[i].commit == commit)
return &graph->new_columns[i];
}
- return 0;
+ return NULL;
}
static void graph_output_post_merge_line(struct git_graph *graph, struct strbuf *sb)
{
int i;
int *tmp_mapping;
+ short used_horizontal = 0;
+ int horizontal_edge = -1;
+ int horizontal_edge_target = -1;
/*
* Clear out the new_mapping array
* Move to the left by one
*/
graph->new_mapping[i - 1] = target;
+ /*
+ * If there isn't already an edge moving horizontally
+ * select this one.
+ */
+ if (horizontal_edge == -1) {
+ int j;
+ horizontal_edge = i;
+ horizontal_edge_target = target;
+ /*
+ * The variable target is the index of the graph
+ * column, and therefore target*2+3 is the
+ * actual screen column of the first horizontal
+ * line.
+ */
+ for (j = (target * 2)+3; j < (i - 2); j += 2)
+ graph->new_mapping[j] = target;
+ }
} else if (graph->new_mapping[i - 1] == target) {
/*
* There is a branch line to our left
*
* The space just to the left of this
* branch should always be empty.
+ *
+ * The branch to the left of that space
+ * should be our eventual target.
*/
assert(graph->new_mapping[i - 1] > target);
assert(graph->new_mapping[i - 2] < 0);
+ assert(graph->new_mapping[i - 3] == target);
graph->new_mapping[i - 2] = target;
+ /*
+ * Mark this branch as the horizontal edge to
+ * prevent any other edges from moving
+ * horizontally.
+ */
+ if (horizontal_edge == -1)
+ horizontal_edge = i;
}
}
strbuf_addch(sb, ' ');
else if (target * 2 == i)
strbuf_write_column(sb, &graph->new_columns[target], '|');
- else
+ else if (target == horizontal_edge_target &&
+ i != horizontal_edge - 1) {
+ /*
+ * Set the mappings for all but the
+ * first segment to -1 so that they
+ * won't continue into the next line.
+ */
+ if (i != (target * 2)+3)
+ graph->new_mapping[i] = -1;
+ used_horizontal = 1;
+ strbuf_write_column(sb, &graph->new_columns[target], '_');
+ } else {
+ if (used_horizontal && i < horizontal_edge)
+ graph->new_mapping[i] = -1;
strbuf_write_column(sb, &graph->new_columns[target], '/');
+
+ }
}
graph_pad_horizontally(graph, sb, graph->mapping_size);