#include "cache.h" #include "commit.h" #include "color.h" #include "graph.h" #include "diff.h" #include "revision.h" /* Internal API */ /* * Output a padding line in the graph. * This is similar to graph_next_line(). However, it is guaranteed to * never print the current commit line. Instead, if the commit line is * next, it will simply output a line of vertical padding, extending the * branch lines downwards, but leaving them otherwise unchanged. */ static void graph_padding_line(struct git_graph *graph, struct strbuf *sb); /* * Print a strbuf to stdout. If the graph is non-NULL, all lines but the * first will be prefixed with the graph output. * * If the strbuf ends with a newline, the output will end after this * newline. A new graph line will not be printed after the final newline. * If the strbuf is empty, no output will be printed. * * Since the first line will not include the graph output, the caller is * responsible for printing this line's graph (perhaps via * graph_show_commit() or graph_show_oneline()) before calling * graph_show_strbuf(). */ static void graph_show_strbuf(struct git_graph *graph, struct strbuf const *sb); /* * TODO: * - 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. */ struct column { /* * The parent commit of this column. */ struct commit *commit; /* * The color to (optionally) print this column in. This is an * index into column_colors. */ unsigned short color; }; enum graph_state { GRAPH_PADDING, GRAPH_SKIP, GRAPH_PRE_COMMIT, GRAPH_COMMIT, GRAPH_POST_MERGE, GRAPH_COLLAPSING }; static const char **column_colors; static unsigned short column_colors_max; void graph_set_column_colors(const char **colors, unsigned short colors_max) { column_colors = colors; column_colors_max = colors_max; } static const char *column_get_color_code(unsigned short color) { return column_colors[color]; } static void strbuf_write_column(struct strbuf *sb, const struct column *c, char col_char) { if (c->color < column_colors_max) strbuf_addstr(sb, column_get_color_code(c->color)); strbuf_addch(sb, col_char); if (c->color < column_colors_max) strbuf_addstr(sb, column_get_color_code(column_colors_max)); } struct git_graph { /* * The commit currently being processed */ struct commit *commit; /* The rev-info used for the current traversal */ struct rev_info *revs; /* * The number of interesting parents that this commit has. * * Note that this is not the same as the actual number of parents. * This count excludes parents that won't be printed in the graph * output, as determined by graph_is_interesting(). */ int num_parents; /* * The width of the graph output for this commit. * All rows for this commit are padded to this width, so that * messages printed after the graph output are aligned. */ int width; /* * The next expansion row to print * when state is GRAPH_PRE_COMMIT */ int expansion_row; /* * The current output state. * This tells us what kind of line graph_next_line() should output. */ enum graph_state state; /* * The output state for the previous line of output. * This is primarily used to determine how the first merge line * should appear, based on the last line of the previous commit. */ enum graph_state prev_state; /* * The index of the column that refers to this commit. * * If none of the incoming columns refer to this commit, * this will be equal to num_columns. */ int commit_index; /* * The commit_index for the previously displayed commit. * * This is used to determine how the first line of a merge * graph output should appear, based on the last line of the * previous commit. */ int prev_commit_index; /* * The maximum number of columns that can be stored in the columns * and new_columns arrays. This is also half the number of entries * that can be stored in the mapping and new_mapping arrays. */ int column_capacity; /* * The number of columns (also called "branch lines" in some places) */ int num_columns; /* * The number of columns in the new_columns array */ int num_new_columns; /* * The number of entries in the mapping array */ int mapping_size; /* * The column state before we output the current commit. */ struct column *columns; /* * The new column state after we output the current commit. * Only valid when state is GRAPH_COLLAPSING. */ struct column *new_columns; /* * An array that tracks the current state of each * character in the output line during state GRAPH_COLLAPSING. * Each entry is -1 if this character is empty, or a non-negative * integer if the character contains a branch line. The value of * the integer indicates the target position for this branch line. * (I.e., this array maps the current column positions to their * desired positions.) * * The maximum capacity of this array is always * sizeof(int) * 2 * column_capacity. */ int *mapping; /* * A temporary array for computing the next mapping state * while we are outputting a mapping line. This is stored as part * of the git_graph simply so we don't have to allocate a new * temporary array each time we have to output a collapsing line. */ int *new_mapping; /* * The current default column color being used. This is * stored as an index into the array column_colors. */ unsigned short default_column_color; }; static struct strbuf *diff_output_prefix_callback(struct diff_options *opt, void *data) { struct git_graph *graph = data; static struct strbuf msgbuf = STRBUF_INIT; assert(graph); strbuf_reset(&msgbuf); graph_padding_line(graph, &msgbuf); return &msgbuf; } struct git_graph *graph_init(struct rev_info *opt) { struct git_graph *graph = xmalloc(sizeof(struct git_graph)); if (!column_colors) graph_set_column_colors(column_colors_ansi, column_colors_ansi_max); graph->commit = NULL; graph->revs = opt; graph->num_parents = 0; graph->expansion_row = 0; graph->state = GRAPH_PADDING; graph->prev_state = GRAPH_PADDING; graph->commit_index = 0; graph->prev_commit_index = 0; graph->num_columns = 0; graph->num_new_columns = 0; graph->mapping_size = 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 * We'll automatically grow columns later if we need more room. */ graph->column_capacity = 30; graph->columns = xmalloc(sizeof(struct column) * graph->column_capacity); graph->new_columns = xmalloc(sizeof(struct column) * graph->column_capacity); graph->mapping = xmalloc(sizeof(int) * 2 * graph->column_capacity); graph->new_mapping = xmalloc(sizeof(int) * 2 * graph->column_capacity); /* * The diff output prefix callback, with this we can make * all the diff output to align with the graph lines. */ opt->diffopt.output_prefix = diff_output_prefix_callback; opt->diffopt.output_prefix_data = graph; return graph; } static void graph_update_state(struct git_graph *graph, enum graph_state s) { graph->prev_state = graph->state; graph->state = s; } static void graph_ensure_capacity(struct git_graph *graph, int num_columns) { if (graph->column_capacity >= num_columns) return; do { graph->column_capacity *= 2; } while (graph->column_capacity < num_columns); graph->columns = xrealloc(graph->columns, sizeof(struct column) * graph->column_capacity); graph->new_columns = xrealloc(graph->new_columns, sizeof(struct column) * graph->column_capacity); graph->mapping = xrealloc(graph->mapping, sizeof(int) * 2 * graph->column_capacity); graph->new_mapping = xrealloc(graph->new_mapping, sizeof(int) * 2 * graph->column_capacity); } /* * Returns 1 if the commit will be printed in the graph output, * and 0 otherwise. */ static int graph_is_interesting(struct git_graph *graph, struct commit *commit) { /* * If revs->boundary is set, commits whose children have * been shown are always interesting, even if they have the * UNINTERESTING or TREESAME flags set. */ if (graph->revs && graph->revs->boundary) { if (commit->object.flags & CHILD_SHOWN) return 1; } /* * Otherwise, use get_commit_action() to see if this commit is * interesting */ return get_commit_action(graph->revs, commit) == commit_show; } static struct commit_list *next_interesting_parent(struct git_graph *graph, struct commit_list *orig) { struct commit_list *list; /* * If revs->first_parent_only is set, only the first * parent is interesting. None of the others are. */ if (graph->revs->first_parent_only) return NULL; /* * Return the next interesting commit after orig */ for (list = orig->next; list; list = list->next) { if (graph_is_interesting(graph, list->item)) return list; } return NULL; } static struct commit_list *first_interesting_parent(struct git_graph *graph) { struct commit_list *parents = graph->commit->parents; /* * If this commit has no parents, ignore it */ if (!parents) return NULL; /* * If the first parent is interesting, return it */ if (graph_is_interesting(graph, parents->item)) return parents; /* * Otherwise, call next_interesting_parent() to get * the next interesting parent */ return next_interesting_parent(graph, parents); } static unsigned short graph_get_current_column_color(const struct git_graph *graph) { if (graph->revs->diffopt.use_color <= 0) return column_colors_max; return graph->default_column_color; } /* * Update the graph's default column color. */ static void graph_increment_column_color(struct git_graph *graph) { graph->default_column_color = (graph->default_column_color + 1) % column_colors_max; } static unsigned short graph_find_commit_color(const struct git_graph *graph, const struct commit *commit) { int i; for (i = 0; i < graph->num_columns; i++) { if (graph->columns[i].commit == commit) return graph->columns[i].color; } return graph_get_current_column_color(graph); } static void graph_insert_into_new_columns(struct git_graph *graph, struct commit *commit, int *mapping_index) { int i; /* * If the commit is already in the new_columns list, we don't need to * add it. Just update the mapping correctly. */ for (i = 0; i < graph->num_new_columns; i++) { if (graph->new_columns[i].commit == commit) { graph->mapping[*mapping_index] = i; *mapping_index += 2; return; } } /* * This commit isn't already in new_columns. Add it. */ graph->new_columns[graph->num_new_columns].commit = commit; graph->new_columns[graph->num_new_columns].color = graph_find_commit_color(graph, commit); graph->mapping[*mapping_index] = graph->num_new_columns; *mapping_index += 2; graph->num_new_columns++; } static void graph_update_width(struct git_graph *graph, int is_commit_in_existing_columns) { /* * Compute the width needed to display the graph for this commit. * This is the maximum width needed for any row. All other rows * will be padded to this width. * * Compute the number of columns in the widest row: * Count each existing column (graph->num_columns), and each new * column added by this commit. */ int max_cols = graph->num_columns + graph->num_parents; /* * Even if the current commit has no parents to be printed, it * still takes up a column for itself. */ if (graph->num_parents < 1) max_cols++; /* * We added a column for the current commit as part of * graph->num_parents. If the current commit was already in * graph->columns, then we have double counted it. */ if (is_commit_in_existing_columns) max_cols--; /* * Each column takes up 2 spaces */ graph->width = max_cols * 2; } static void graph_update_columns(struct git_graph *graph) { struct commit_list *parent; struct column *tmp_columns; int max_new_columns; int mapping_idx; int i, seen_this, is_commit_in_columns; /* * Swap graph->columns with graph->new_columns * graph->columns contains the state for the previous commit, * and new_columns now contains the state for our commit. * * We'll re-use the old columns array as storage to compute the new * columns list for the commit after this one. */ tmp_columns = graph->columns; graph->columns = graph->new_columns; graph->num_columns = graph->num_new_columns; graph->new_columns = tmp_columns; graph->num_new_columns = 0; /* * Now update new_columns and mapping with the information for the * commit after this one. * * First, make sure we have enough room. At most, there will * be graph->num_columns + graph->num_parents columns for the next * commit. */ max_new_columns = graph->num_columns + graph->num_parents; graph_ensure_capacity(graph, max_new_columns); /* * Clear out graph->mapping */ graph->mapping_size = 2 * max_new_columns; for (i = 0; i < graph->mapping_size; i++) graph->mapping[i] = -1; /* * Populate graph->new_columns and graph->mapping * * Some of the parents of this commit may already be in * graph->columns. If so, graph->new_columns should only contain a * single entry for each such commit. graph->mapping should * contain information about where each current branch line is * supposed to end up after the collapsing is performed. */ seen_this = 0; mapping_idx = 0; is_commit_in_columns = 1; for (i = 0; i <= graph->num_columns; i++) { struct commit *col_commit; if (i == graph->num_columns) { if (seen_this) break; is_commit_in_columns = 0; col_commit = graph->commit; } else { col_commit = graph->columns[i].commit; } if (col_commit == graph->commit) { int old_mapping_idx = mapping_idx; seen_this = 1; graph->commit_index = i; for (parent = first_interesting_parent(graph); parent; parent = next_interesting_parent(graph, parent)) { /* * If this is a merge, or the start of a new * childless column, increment the current * color. */ if (graph->num_parents > 1 || !is_commit_in_columns) { graph_increment_column_color(graph); } graph_insert_into_new_columns(graph, parent->item, &mapping_idx); } /* * We always need to increment mapping_idx by at * least 2, even if it has no interesting parents. * The current commit always takes up at least 2 * spaces. */ if (mapping_idx == old_mapping_idx) mapping_idx += 2; } else { graph_insert_into_new_columns(graph, col_commit, &mapping_idx); } } /* * Shrink mapping_size to be the minimum necessary */ while (graph->mapping_size > 1 && graph->mapping[graph->mapping_size - 1] < 0) graph->mapping_size--; /* * Compute graph->width for this commit */ graph_update_width(graph, is_commit_in_columns); } void graph_update(struct git_graph *graph, struct commit *commit) { struct commit_list *parent; /* * Set the new commit */ graph->commit = commit; /* * Count how many interesting parents this commit has */ graph->num_parents = 0; for (parent = first_interesting_parent(graph); parent; parent = next_interesting_parent(graph, parent)) { graph->num_parents++; } /* * Store the old commit_index in prev_commit_index. * graph_update_columns() will update graph->commit_index for this * commit. */ graph->prev_commit_index = graph->commit_index; /* * Call graph_update_columns() to update * columns, new_columns, and mapping. */ graph_update_columns(graph); graph->expansion_row = 0; /* * Update graph->state. * Note that we don't call graph_update_state() here, since * we don't want to update graph->prev_state. No line for * graph->state was ever printed. * * If the previous commit didn't get to the GRAPH_PADDING state, * it never finished its output. Goto GRAPH_SKIP, to print out * a line to indicate that portion of the graph is missing. * * If there are 3 or more parents, we may need to print extra rows * before the commit, to expand the branch lines around it and make * room for it. We need to do this only if there is a branch row * (or more) to the right of this commit. * * If there are less than 3 parents, we can immediately print the * commit line. */ if (graph->state != GRAPH_PADDING) graph->state = GRAPH_SKIP; else if (graph->num_parents >= 3 && graph->commit_index < (graph->num_columns - 1)) graph->state = GRAPH_PRE_COMMIT; else graph->state = GRAPH_COMMIT; } static int graph_is_mapping_correct(struct git_graph *graph) { int i; /* * The mapping is up to date if each entry is at its target, * or is 1 greater than its target. * (If it is 1 greater than the target, '/' will be printed, so it * will look correct on the next row.) */ for (i = 0; i < graph->mapping_size; i++) { int target = graph->mapping[i]; if (target < 0) continue; if (target == (i / 2)) continue; return 0; } return 1; } static void graph_pad_horizontally(struct git_graph *graph, struct strbuf *sb, int chars_written) { /* * Add additional spaces to the end of the strbuf, so that all * lines for a particular commit have the same width. * * This way, fields printed to the right of the graph will remain * aligned for the entire commit. */ int extra; if (chars_written >= graph->width) return; extra = graph->width - chars_written; strbuf_addf(sb, "%*s", (int) extra, ""); } static void graph_output_padding_line(struct git_graph *graph, struct strbuf *sb) { int i; /* * We could conceivable be called with a NULL commit * if our caller has a bug, and invokes graph_next_line() * immediately after graph_init(), without first calling * graph_update(). Return without outputting anything in this * case. */ if (!graph->commit) return; /* * Output a padding row, that leaves all branch lines unchanged */ for (i = 0; i < graph->num_new_columns; i++) { strbuf_write_column(sb, &graph->new_columns[i], '|'); strbuf_addch(sb, ' '); } graph_pad_horizontally(graph, sb, graph->num_new_columns * 2); } static void graph_output_skip_line(struct git_graph *graph, struct strbuf *sb) { /* * Output an ellipsis to indicate that a portion * of the graph is missing. */ strbuf_addstr(sb, "..."); graph_pad_horizontally(graph, sb, 3); if (graph->num_parents >= 3 && graph->commit_index < (graph->num_columns - 1)) graph_update_state(graph, GRAPH_PRE_COMMIT); else graph_update_state(graph, GRAPH_COMMIT); } static void graph_output_pre_commit_line(struct git_graph *graph, struct strbuf *sb) { int num_expansion_rows; int i, seen_this; int chars_written; /* * This function formats a row that increases the space around a commit * with multiple parents, to make room for it. It should only be * called when there are 3 or more parents. * * We need 2 extra rows for every parent over 2. */ assert(graph->num_parents >= 3); num_expansion_rows = (graph->num_parents - 2) * 2; /* * graph->expansion_row tracks the current expansion row we are on. * It should be in the range [0, num_expansion_rows - 1] */ assert(0 <= graph->expansion_row && graph->expansion_row < num_expansion_rows); /* * Output the row */ seen_this = 0; chars_written = 0; for (i = 0; i < graph->num_columns; i++) { struct column *col = &graph->columns[i]; if (col->commit == graph->commit) { seen_this = 1; strbuf_write_column(sb, col, '|'); strbuf_addf(sb, "%*s", graph->expansion_row, ""); chars_written += 1 + graph->expansion_row; } else if (seen_this && (graph->expansion_row == 0)) { /* * This is the first line of the pre-commit output. * If the previous commit was a merge commit and * ended in the GRAPH_POST_MERGE state, all branch * lines after graph->prev_commit_index were * printed as "\" on the previous line. Continue * to print them as "\" on this line. Otherwise, * print the branch lines as "|". */ if (graph->prev_state == GRAPH_POST_MERGE && graph->prev_commit_index < i) strbuf_write_column(sb, col, '\\'); else strbuf_write_column(sb, col, '|'); chars_written++; } else if (seen_this && (graph->expansion_row > 0)) { strbuf_write_column(sb, col, '\\'); chars_written++; } else { strbuf_write_column(sb, col, '|'); chars_written++; } strbuf_addch(sb, ' '); chars_written++; } graph_pad_horizontally(graph, sb, chars_written); /* * Increment graph->expansion_row, * and move to state GRAPH_COMMIT if necessary */ graph->expansion_row++; if (graph->expansion_row >= num_expansion_rows) graph_update_state(graph, GRAPH_COMMIT); } static void graph_output_commit_char(struct git_graph *graph, struct strbuf *sb) { /* * For boundary commits, print 'o' * (We should only see boundary commits when revs->boundary is set.) */ if (graph->commit->object.flags & BOUNDARY) { assert(graph->revs->boundary); strbuf_addch(sb, 'o'); return; } /* * get_revision_mark() handles all other cases without assert() */ strbuf_addstr(sb, get_revision_mark(graph->revs, graph->commit)); } /* * Draw an octopus merge and return the number of characters written. */ static int graph_draw_octopus_merge(struct git_graph *graph, struct strbuf *sb) { /* * Here dashless_commits represents the number of parents * which don't need to have dashes (because their edges fit * neatly under the commit). */ const int dashless_commits = 2; int col_num, i; int num_dashes = ((graph->num_parents - dashless_commits) * 2) - 1; for (i = 0; i < num_dashes; i++) { col_num = (i / 2) + dashless_commits; strbuf_write_column(sb, &graph->new_columns[col_num], '-'); } col_num = (i / 2) + dashless_commits; strbuf_write_column(sb, &graph->new_columns[col_num], '.'); return num_dashes + 1; } static void graph_output_commit_line(struct git_graph *graph, struct strbuf *sb) { int seen_this = 0; int i, chars_written; /* * Output the row containing this commit * Iterate up to and including graph->num_columns, * since the current commit may not be in any of the existing * columns. (This happens when the current commit doesn't have any * children that we have already processed.) */ seen_this = 0; chars_written = 0; for (i = 0; i <= graph->num_columns; i++) { struct column *col = &graph->columns[i]; struct commit *col_commit; if (i == graph->num_columns) { if (seen_this) break; col_commit = graph->commit; } else { col_commit = graph->columns[i].commit; } if (col_commit == graph->commit) { seen_this = 1; graph_output_commit_char(graph, sb); chars_written++; if (graph->num_parents > 2) chars_written += graph_draw_octopus_merge(graph, sb); } else if (seen_this && (graph->num_parents > 2)) { strbuf_write_column(sb, col, '\\'); chars_written++; } else if (seen_this && (graph->num_parents == 2)) { /* * This is a 2-way merge commit. * There is no GRAPH_PRE_COMMIT stage for 2-way * merges, so this is the first line of output * for this commit. Check to see what the previous * line of output was. * * If it was GRAPH_POST_MERGE, the branch line * coming into this commit may have been '\', * and not '|' or '/'. If so, output the branch * line as '\' on this line, instead of '|'. This * makes the output look nicer. */ if (graph->prev_state == GRAPH_POST_MERGE && graph->prev_commit_index < i) strbuf_write_column(sb, col, '\\'); else strbuf_write_column(sb, col, '|'); chars_written++; } else { strbuf_write_column(sb, col, '|'); chars_written++; } strbuf_addch(sb, ' '); chars_written++; } graph_pad_horizontally(graph, sb, chars_written); /* * Update graph->state */ if (graph->num_parents > 1) graph_update_state(graph, GRAPH_POST_MERGE); else if (graph_is_mapping_correct(graph)) graph_update_state(graph, GRAPH_PADDING); else graph_update_state(graph, GRAPH_COLLAPSING); } static struct column *find_new_column_by_commit(struct git_graph *graph, struct commit *commit) { int i; for (i = 0; i < graph->num_new_columns; i++) { if (graph->new_columns[i].commit == commit) return &graph->new_columns[i]; } return NULL; } static void graph_output_post_merge_line(struct git_graph *graph, struct strbuf *sb) { int seen_this = 0; int i, j, chars_written; /* * Output the post-merge row */ chars_written = 0; for (i = 0; i <= graph->num_columns; i++) { struct column *col = &graph->columns[i]; struct commit *col_commit; if (i == graph->num_columns) { if (seen_this) break; col_commit = graph->commit; } else { col_commit = col->commit; } if (col_commit == graph->commit) { /* * Since the current commit is a merge find * the columns for the parent commits in * new_columns and use those to format the * edges. */ struct commit_list *parents = NULL; struct column *par_column; seen_this = 1; parents = first_interesting_parent(graph); assert(parents); par_column = find_new_column_by_commit(graph, parents->item); assert(par_column); strbuf_write_column(sb, par_column, '|'); chars_written++; for (j = 0; j < graph->num_parents - 1; j++) { parents = next_interesting_parent(graph, parents); assert(parents); par_column = find_new_column_by_commit(graph, parents->item); assert(par_column); strbuf_write_column(sb, par_column, '\\'); strbuf_addch(sb, ' '); } chars_written += j * 2; } else if (seen_this) { strbuf_write_column(sb, col, '\\'); strbuf_addch(sb, ' '); chars_written += 2; } else { strbuf_write_column(sb, col, '|'); strbuf_addch(sb, ' '); chars_written += 2; } } graph_pad_horizontally(graph, sb, chars_written); /* * Update graph->state */ if (graph_is_mapping_correct(graph)) graph_update_state(graph, GRAPH_PADDING); else graph_update_state(graph, GRAPH_COLLAPSING); } static void graph_output_collapsing_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 */ for (i = 0; i < graph->mapping_size; i++) graph->new_mapping[i] = -1; for (i = 0; i < graph->mapping_size; i++) { int target = graph->mapping[i]; if (target < 0) continue; /* * Since update_columns() always inserts the leftmost * column first, each branch's target location should * always be either its current location or to the left of * its current location. * * We never have to move branches to the right. This makes * the graph much more legible, since whenever branches * cross, only one is moving directions. */ assert(target * 2 <= i); if (target * 2 == i) { /* * This column is already in the * correct place */ assert(graph->new_mapping[i] == -1); graph->new_mapping[i] = target; } else if (graph->new_mapping[i - 1] < 0) { /* * Nothing is to the left. * 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 * already, and it is our target. We * combine with this line, since we share * the same parent commit. * * We don't have to add anything to the * output or new_mapping, since the * existing branch line has already taken * care of it. */ } else { /* * There is a branch line to our left, * but it isn't our target. We need to * cross over it. * * 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; } } /* * The new mapping may be 1 smaller than the old mapping */ if (graph->new_mapping[graph->mapping_size - 1] < 0) graph->mapping_size--; /* * Output out a line based on the new mapping info */ for (i = 0; i < graph->mapping_size; i++) { int target = graph->new_mapping[i]; if (target < 0) strbuf_addch(sb, ' '); else if (target * 2 == i) strbuf_write_column(sb, &graph->new_columns[target], '|'); 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); /* * Swap mapping and new_mapping */ tmp_mapping = graph->mapping; graph->mapping = graph->new_mapping; graph->new_mapping = tmp_mapping; /* * If graph->mapping indicates that all of the branch lines * are already in the correct positions, we are done. * Otherwise, we need to collapse some branch lines together. */ if (graph_is_mapping_correct(graph)) graph_update_state(graph, GRAPH_PADDING); } int graph_next_line(struct git_graph *graph, struct strbuf *sb) { switch (graph->state) { case GRAPH_PADDING: graph_output_padding_line(graph, sb); return 0; case GRAPH_SKIP: graph_output_skip_line(graph, sb); return 0; case GRAPH_PRE_COMMIT: graph_output_pre_commit_line(graph, sb); return 0; case GRAPH_COMMIT: graph_output_commit_line(graph, sb); return 1; case GRAPH_POST_MERGE: graph_output_post_merge_line(graph, sb); return 0; case GRAPH_COLLAPSING: graph_output_collapsing_line(graph, sb); return 0; } assert(0); return 0; } static void graph_padding_line(struct git_graph *graph, struct strbuf *sb) { int i, j; if (graph->state != GRAPH_COMMIT) { graph_next_line(graph, sb); return; } /* * Output the row containing this commit * Iterate up to and including graph->num_columns, * since the current commit may not be in any of the existing * columns. (This happens when the current commit doesn't have any * children that we have already processed.) */ for (i = 0; i < graph->num_columns; i++) { struct column *col = &graph->columns[i]; struct commit *col_commit = col->commit; if (col_commit == graph->commit) { strbuf_write_column(sb, col, '|'); if (graph->num_parents < 3) strbuf_addch(sb, ' '); else { int num_spaces = ((graph->num_parents - 2) * 2); for (j = 0; j < num_spaces; j++) strbuf_addch(sb, ' '); } } else { strbuf_write_column(sb, col, '|'); strbuf_addch(sb, ' '); } } graph_pad_horizontally(graph, sb, graph->num_columns); /* * Update graph->prev_state since we have output a padding line */ graph->prev_state = GRAPH_PADDING; } int graph_is_commit_finished(struct git_graph const *graph) { return (graph->state == GRAPH_PADDING); } void graph_show_commit(struct git_graph *graph) { struct strbuf msgbuf = STRBUF_INIT; int shown_commit_line = 0; if (!graph) return; while (!shown_commit_line) { shown_commit_line = graph_next_line(graph, &msgbuf); fwrite(msgbuf.buf, sizeof(char), msgbuf.len, stdout); if (!shown_commit_line) putchar('\n'); strbuf_setlen(&msgbuf, 0); } strbuf_release(&msgbuf); } void graph_show_oneline(struct git_graph *graph) { struct strbuf msgbuf = STRBUF_INIT; if (!graph) return; graph_next_line(graph, &msgbuf); fwrite(msgbuf.buf, sizeof(char), msgbuf.len, stdout); strbuf_release(&msgbuf); } void graph_show_padding(struct git_graph *graph) { struct strbuf msgbuf = STRBUF_INIT; if (!graph) return; graph_padding_line(graph, &msgbuf); fwrite(msgbuf.buf, sizeof(char), msgbuf.len, stdout); strbuf_release(&msgbuf); } int graph_show_remainder(struct git_graph *graph) { struct strbuf msgbuf = STRBUF_INIT; int shown = 0; if (!graph) return 0; if (graph_is_commit_finished(graph)) return 0; for (;;) { graph_next_line(graph, &msgbuf); fwrite(msgbuf.buf, sizeof(char), msgbuf.len, stdout); strbuf_setlen(&msgbuf, 0); shown = 1; if (!graph_is_commit_finished(graph)) putchar('\n'); else break; } strbuf_release(&msgbuf); return shown; } static void graph_show_strbuf(struct git_graph *graph, struct strbuf const *sb) { char *p; if (!graph) { fwrite(sb->buf, sizeof(char), sb->len, stdout); return; } /* * Print the strbuf line by line, * and display the graph info before each line but the first. */ p = sb->buf; while (p) { size_t len; char *next_p = strchr(p, '\n'); if (next_p) { next_p++; len = next_p - p; } else { len = (sb->buf + sb->len) - p; } fwrite(p, sizeof(char), len, stdout); if (next_p && *next_p != '\0') graph_show_oneline(graph); p = next_p; } } void graph_show_commit_msg(struct git_graph *graph, struct strbuf const *sb) { int newline_terminated; if (!graph) { /* * If there's no graph, just print the message buffer. * * The message buffer for CMIT_FMT_ONELINE and * CMIT_FMT_USERFORMAT are already missing a terminating * newline. All of the other formats should have it. */ fwrite(sb->buf, sizeof(char), sb->len, stdout); return; } newline_terminated = (sb->len && sb->buf[sb->len - 1] == '\n'); /* * Show the commit message */ graph_show_strbuf(graph, sb); /* * If there is more output needed for this commit, show it now */ if (!graph_is_commit_finished(graph)) { /* * If sb doesn't have a terminating newline, print one now, * so we can start the remainder of the graph output on a * new line. */ if (!newline_terminated) putchar('\n'); graph_show_remainder(graph); /* * If sb ends with a newline, our output should too. */ if (newline_terminated) putchar('\n'); } }