+++ /dev/null
-/*
- * Copyright (c) 2005, Jon Seymour
- *
- * For more information about epoch theory on which this module is based,
- * refer to http://blackcubes.dyndns.org/epoch/. That web page defines
- * terms such as "epoch" and "minimal, non-linear epoch" and provides rationales
- * for some of the algorithms used here.
- *
- */
-#include <stdlib.h>
-
-/* Provides arbitrary precision integers required to accurately represent
- * fractional mass: */
-#include <openssl/bn.h>
-
-#include "cache.h"
-#include "commit.h"
-#include "revision.h"
-#include "epoch.h"
-
-struct fraction {
- BIGNUM numerator;
- BIGNUM denominator;
-};
-
-#define HAS_EXACTLY_ONE_PARENT(n) ((n)->parents && !(n)->parents->next)
-
-static BN_CTX *context = NULL;
-static struct fraction *one = NULL;
-static struct fraction *zero = NULL;
-
-static BN_CTX *get_BN_CTX(void)
-{
- if (!context) {
- context = BN_CTX_new();
- }
- return context;
-}
-
-static struct fraction *new_zero(void)
-{
- struct fraction *result = xmalloc(sizeof(*result));
- BN_init(&result->numerator);
- BN_init(&result->denominator);
- BN_zero(&result->numerator);
- BN_one(&result->denominator);
- return result;
-}
-
-static void clear_fraction(struct fraction *fraction)
-{
- BN_clear(&fraction->numerator);
- BN_clear(&fraction->denominator);
-}
-
-static struct fraction *divide(struct fraction *result, struct fraction *fraction, int divisor)
-{
- BIGNUM bn_divisor;
-
- BN_init(&bn_divisor);
- BN_set_word(&bn_divisor, divisor);
-
- BN_copy(&result->numerator, &fraction->numerator);
- BN_mul(&result->denominator, &fraction->denominator, &bn_divisor, get_BN_CTX());
-
- BN_clear(&bn_divisor);
- return result;
-}
-
-static struct fraction *init_fraction(struct fraction *fraction)
-{
- BN_init(&fraction->numerator);
- BN_init(&fraction->denominator);
- BN_zero(&fraction->numerator);
- BN_one(&fraction->denominator);
- return fraction;
-}
-
-static struct fraction *get_one(void)
-{
- if (!one) {
- one = new_zero();
- BN_one(&one->numerator);
- }
- return one;
-}
-
-static struct fraction *get_zero(void)
-{
- if (!zero) {
- zero = new_zero();
- }
- return zero;
-}
-
-static struct fraction *copy(struct fraction *to, struct fraction *from)
-{
- BN_copy(&to->numerator, &from->numerator);
- BN_copy(&to->denominator, &from->denominator);
- return to;
-}
-
-static struct fraction *add(struct fraction *result, struct fraction *left, struct fraction *right)
-{
- BIGNUM a, b, gcd;
-
- BN_init(&a);
- BN_init(&b);
- BN_init(&gcd);
-
- BN_mul(&a, &left->numerator, &right->denominator, get_BN_CTX());
- BN_mul(&b, &left->denominator, &right->numerator, get_BN_CTX());
- BN_mul(&result->denominator, &left->denominator, &right->denominator, get_BN_CTX());
- BN_add(&result->numerator, &a, &b);
-
- BN_gcd(&gcd, &result->denominator, &result->numerator, get_BN_CTX());
- BN_div(&result->denominator, NULL, &result->denominator, &gcd, get_BN_CTX());
- BN_div(&result->numerator, NULL, &result->numerator, &gcd, get_BN_CTX());
-
- BN_clear(&a);
- BN_clear(&b);
- BN_clear(&gcd);
-
- return result;
-}
-
-static int compare(struct fraction *left, struct fraction *right)
-{
- BIGNUM a, b;
- int result;
-
- BN_init(&a);
- BN_init(&b);
-
- BN_mul(&a, &left->numerator, &right->denominator, get_BN_CTX());
- BN_mul(&b, &left->denominator, &right->numerator, get_BN_CTX());
-
- result = BN_cmp(&a, &b);
-
- BN_clear(&a);
- BN_clear(&b);
-
- return result;
-}
-
-struct mass_counter {
- struct fraction seen;
- struct fraction pending;
-};
-
-static struct mass_counter *new_mass_counter(struct commit *commit, struct fraction *pending)
-{
- struct mass_counter *mass_counter = xmalloc(sizeof(*mass_counter));
- memset(mass_counter, 0, sizeof(*mass_counter));
-
- init_fraction(&mass_counter->seen);
- init_fraction(&mass_counter->pending);
-
- copy(&mass_counter->pending, pending);
- copy(&mass_counter->seen, get_zero());
-
- if (commit->object.util) {
- die("multiple attempts to initialize mass counter for %s",
- sha1_to_hex(commit->object.sha1));
- }
-
- commit->object.util = mass_counter;
-
- return mass_counter;
-}
-
-static void free_mass_counter(struct mass_counter *counter)
-{
- clear_fraction(&counter->seen);
- clear_fraction(&counter->pending);
- free(counter);
-}
-
-/*
- * Finds the base commit of a list of commits.
- *
- * One property of the commit being searched for is that every commit reachable
- * from the base commit is reachable from the commits in the starting list only
- * via paths that include the base commit.
- *
- * This algorithm uses a conservation of mass approach to find the base commit.
- *
- * We start by injecting one unit of mass into the graph at each
- * of the commits in the starting list. Injecting mass into a commit
- * is achieved by adding to its pending mass counter and, if it is not already
- * enqueued, enqueuing the commit in a list of pending commits, in latest
- * commit date first order.
- *
- * The algorithm then proceeds to visit each commit in the pending queue.
- * Upon each visit, the pending mass is added to the mass already seen for that
- * commit and then divided into N equal portions, where N is the number of
- * parents of the commit being visited. The divided portions are then injected
- * into each of the parents.
- *
- * The algorithm continues until we discover a commit which has seen all the
- * mass originally injected or until we run out of things to do.
- *
- * If we find a commit that has seen all the original mass, we have found
- * the common base of all the commits in the starting list.
- *
- * The algorithm does _not_ depend on accurate timestamps for correct operation.
- * However, reasonably sane (e.g. non-random) timestamps are required in order
- * to prevent an exponential performance characteristic. The occasional
- * timestamp inaccuracy will not dramatically affect performance but may
- * result in more nodes being processed than strictly necessary.
- *
- * This procedure sets *boundary to the address of the base commit. It returns
- * non-zero if, and only if, there was a problem parsing one of the
- * commits discovered during the traversal.
- */
-static int find_base_for_list(struct commit_list *list, struct commit **boundary)
-{
- int ret = 0;
- struct commit_list *cleaner = NULL;
- struct commit_list *pending = NULL;
- struct fraction injected;
- init_fraction(&injected);
- *boundary = NULL;
-
- for (; list; list = list->next) {
- struct commit *item = list->item;
-
- if (!item->object.util) {
- new_mass_counter(list->item, get_one());
- add(&injected, &injected, get_one());
-
- commit_list_insert(list->item, &cleaner);
- commit_list_insert(list->item, &pending);
- }
- }
-
- while (!*boundary && pending && !ret) {
- struct commit *latest = pop_commit(&pending);
- struct mass_counter *latest_node = (struct mass_counter *) latest->object.util;
- int num_parents;
-
- if ((ret = parse_commit(latest)))
- continue;
- add(&latest_node->seen, &latest_node->seen, &latest_node->pending);
-
- num_parents = count_parents(latest);
- if (num_parents) {
- struct fraction distribution;
- struct commit_list *parents;
-
- divide(init_fraction(&distribution), &latest_node->pending, num_parents);
-
- for (parents = latest->parents; parents; parents = parents->next) {
- struct commit *parent = parents->item;
- struct mass_counter *parent_node = (struct mass_counter *) parent->object.util;
-
- if (!parent_node) {
- parent_node = new_mass_counter(parent, &distribution);
- insert_by_date(parent, &pending);
- commit_list_insert(parent, &cleaner);
- } else {
- if (!compare(&parent_node->pending, get_zero()))
- insert_by_date(parent, &pending);
- add(&parent_node->pending, &parent_node->pending, &distribution);
- }
- }
-
- clear_fraction(&distribution);
- }
-
- if (!compare(&latest_node->seen, &injected))
- *boundary = latest;
- copy(&latest_node->pending, get_zero());
- }
-
- while (cleaner) {
- struct commit *next = pop_commit(&cleaner);
- free_mass_counter((struct mass_counter *) next->object.util);
- next->object.util = NULL;
- }
-
- if (pending)
- free_commit_list(pending);
-
- clear_fraction(&injected);
- return ret;
-}
-
-
-/*
- * Finds the base of an minimal, non-linear epoch, headed at head, by
- * applying the find_base_for_list to a list consisting of the parents
- */
-static int find_base(struct commit *head, struct commit **boundary)
-{
- int ret = 0;
- struct commit_list *pending = NULL;
- struct commit_list *next;
-
- for (next = head->parents; next; next = next->next) {
- commit_list_insert(next->item, &pending);
- }
- ret = find_base_for_list(pending, boundary);
- free_commit_list(pending);
-
- return ret;
-}
-
-/*
- * This procedure traverses to the boundary of the first epoch in the epoch
- * sequence of the epoch headed at head_of_epoch. This is either the end of
- * the maximal linear epoch or the base of a minimal non-linear epoch.
- *
- * The queue of pending nodes is sorted in reverse date order and each node
- * is currently in the queue at most once.
- */
-static int find_next_epoch_boundary(struct commit *head_of_epoch, struct commit **boundary)
-{
- int ret;
- struct commit *item = head_of_epoch;
-
- ret = parse_commit(item);
- if (ret)
- return ret;
-
- if (HAS_EXACTLY_ONE_PARENT(item)) {
- /*
- * We are at the start of a maximimal linear epoch.
- * Traverse to the end.
- */
- while (HAS_EXACTLY_ONE_PARENT(item) && !ret) {
- item = item->parents->item;
- ret = parse_commit(item);
- }
- *boundary = item;
-
- } else {
- /*
- * Otherwise, we are at the start of a minimal, non-linear
- * epoch - find the common base of all parents.
- */
- ret = find_base(item, boundary);
- }
-
- return ret;
-}
-
-/*
- * Returns non-zero if parent is known to be a parent of child.
- */
-static int is_parent_of(struct commit *parent, struct commit *child)
-{
- struct commit_list *parents;
- for (parents = child->parents; parents; parents = parents->next) {
- if (!memcmp(parent->object.sha1, parents->item->object.sha1,
- sizeof(parents->item->object.sha1)))
- return 1;
- }
- return 0;
-}
-
-/*
- * Pushes an item onto the merge order stack. If the top of the stack is
- * marked as being a possible "break", we check to see whether it actually
- * is a break.
- */
-static void push_onto_merge_order_stack(struct commit_list **stack, struct commit *item)
-{
- struct commit_list *top = *stack;
- if (top && (top->item->object.flags & DISCONTINUITY)) {
- if (is_parent_of(top->item, item)) {
- top->item->object.flags &= ~DISCONTINUITY;
- }
- }
- commit_list_insert(item, stack);
-}
-
-/*
- * Marks all interesting, visited commits reachable from this commit
- * as uninteresting. We stop recursing when we reach the epoch boundary,
- * an unvisited node or a node that has already been marking uninteresting.
- *
- * This doesn't actually mark all ancestors between the start node and the
- * epoch boundary uninteresting, but does ensure that they will eventually
- * be marked uninteresting when the main sort_first_epoch() traversal
- * eventually reaches them.
- */
-static void mark_ancestors_uninteresting(struct commit *commit)
-{
- unsigned int flags = commit->object.flags;
- int visited = flags & VISITED;
- int boundary = flags & BOUNDARY;
- int uninteresting = flags & UNINTERESTING;
- struct commit_list *next;
-
- commit->object.flags |= UNINTERESTING;
-
- /*
- * We only need to recurse if
- * we are not on the boundary and
- * we have not already been marked uninteresting and
- * we have already been visited.
- *
- * The main sort_first_epoch traverse will mark unreachable
- * all uninteresting, unvisited parents as they are visited
- * so there is no need to duplicate that traversal here.
- *
- * Similarly, if we are already marked uninteresting
- * then either all ancestors have already been marked
- * uninteresting or will be once the sort_first_epoch
- * traverse reaches them.
- */
-
- if (uninteresting || boundary || !visited)
- return;
-
- for (next = commit->parents; next; next = next->next)
- mark_ancestors_uninteresting(next->item);
-}
-
-/*
- * Sorts the nodes of the first epoch of the epoch sequence of the epoch headed at head
- * into merge order.
- */
-static void sort_first_epoch(struct commit *head, struct commit_list **stack)
-{
- struct commit_list *parents;
-
- head->object.flags |= VISITED;
-
- /*
- * TODO: By sorting the parents in a different order, we can alter the
- * merge order to show contemporaneous changes in parallel branches
- * occurring after "local" changes. This is useful for a developer
- * when a developer wants to see all changes that were incorporated
- * into the same merge as her own changes occur after her own
- * changes.
- */
-
- for (parents = head->parents; parents; parents = parents->next) {
- struct commit *parent = parents->item;
-
- if (head->object.flags & UNINTERESTING) {
- /*
- * Propagates the uninteresting bit to all parents.
- * if we have already visited this parent, then
- * the uninteresting bit will be propagated to each
- * reachable commit that is still not marked
- * uninteresting and won't otherwise be reached.
- */
- mark_ancestors_uninteresting(parent);
- }
-
- if (!(parent->object.flags & VISITED)) {
- if (parent->object.flags & BOUNDARY) {
- if (*stack) {
- die("something else is on the stack - %s",
- sha1_to_hex((*stack)->item->object.sha1));
- }
- push_onto_merge_order_stack(stack, parent);
- parent->object.flags |= VISITED;
-
- } else {
- sort_first_epoch(parent, stack);
- if (parents) {
- /*
- * This indicates a possible
- * discontinuity it may not be be
- * actual discontinuity if the head
- * of parent N happens to be the tail
- * of parent N+1.
- *
- * The next push onto the stack will
- * resolve the question.
- */
- (*stack)->item->object.flags |= DISCONTINUITY;
- }
- }
- }
- }
-
- push_onto_merge_order_stack(stack, head);
-}
-
-/*
- * Emit the contents of the stack.
- *
- * The stack is freed and replaced by NULL.
- *
- * Sets the return value to STOP if no further output should be generated.
- */
-static int emit_stack(struct commit_list **stack, emitter_func emitter, int include_last)
-{
- unsigned int seen = 0;
- int action = CONTINUE;
-
- while (*stack && (action != STOP)) {
- struct commit *next = pop_commit(stack);
- seen |= next->object.flags;
- if (*stack || include_last) {
- if (!*stack)
- next->object.flags |= BOUNDARY;
- action = emitter(next);
- }
- }
-
- if (*stack) {
- free_commit_list(*stack);
- *stack = NULL;
- }
-
- return (action == STOP || (seen & UNINTERESTING)) ? STOP : CONTINUE;
-}
-
-/*
- * Sorts an arbitrary epoch into merge order by sorting each epoch
- * of its epoch sequence into order.
- *
- * Note: this algorithm currently leaves traces of its execution in the
- * object flags of nodes it discovers. This should probably be fixed.
- */
-static int sort_in_merge_order(struct commit *head_of_epoch, emitter_func emitter)
-{
- struct commit *next = head_of_epoch;
- int ret = 0;
- int action = CONTINUE;
-
- ret = parse_commit(head_of_epoch);
-
- next->object.flags |= BOUNDARY;
-
- while (next && next->parents && !ret && (action != STOP)) {
- struct commit *base = NULL;
-
- ret = find_next_epoch_boundary(next, &base);
- if (ret)
- return ret;
- next->object.flags |= BOUNDARY;
- if (base)
- base->object.flags |= BOUNDARY;
-
- if (HAS_EXACTLY_ONE_PARENT(next)) {
- while (HAS_EXACTLY_ONE_PARENT(next)
- && (action != STOP)
- && !ret) {
- if (next->object.flags & UNINTERESTING) {
- action = STOP;
- } else {
- action = emitter(next);
- }
- if (action != STOP) {
- next = next->parents->item;
- ret = parse_commit(next);
- }
- }
-
- } else {
- struct commit_list *stack = NULL;
- sort_first_epoch(next, &stack);
- action = emit_stack(&stack, emitter, (base == NULL));
- next = base;
- }
- }
-
- if (next && (action != STOP) && !ret) {
- emitter(next);
- }
-
- return ret;
-}
-
-/*
- * Sorts the nodes reachable from a starting list in merge order, we
- * first find the base for the starting list and then sort all nodes
- * in this subgraph using the sort_first_epoch algorithm. Once we have
- * reached the base we can continue sorting using sort_in_merge_order.
- */
-int sort_list_in_merge_order(struct commit_list *list, emitter_func emitter)
-{
- struct commit_list *stack = NULL;
- struct commit *base;
- int ret = 0;
- int action = CONTINUE;
- struct commit_list *reversed = NULL;
-
- for (; list; list = list->next)
- commit_list_insert(list->item, &reversed);
-
- if (!reversed)
- return ret;
- else if (!reversed->next) {
- /*
- * If there is only one element in the list, we can sort it
- * using sort_in_merge_order.
- */
- base = reversed->item;
- } else {
- /*
- * Otherwise, we search for the base of the list.
- */
- ret = find_base_for_list(reversed, &base);
- if (ret)
- return ret;
- if (base)
- base->object.flags |= BOUNDARY;
-
- while (reversed) {
- struct commit * next = pop_commit(&reversed);
-
- if (!(next->object.flags & VISITED) && next!=base) {
- sort_first_epoch(next, &stack);
- if (reversed) {
- /*
- * If we have more commits
- * to push, then the first
- * push for the next parent may
- * (or may * not) represent a
- * discontinuity with respect
- * to the parent currently on
- * the top of the stack.
- *
- * Mark it for checking here,
- * and check it with the next
- * push. See sort_first_epoch()
- * for more details.
- */
- stack->item->object.flags |= DISCONTINUITY;
- }
- }
- }
-
- action = emit_stack(&stack, emitter, (base==NULL));
- }
-
- if (base && (action != STOP)) {
- ret = sort_in_merge_order(base, emitter);
- }
-
- return ret;
-}
+++ /dev/null
-#!/bin/sh
-#
-# Copyright (c) 2005 Jon Seymour
-#
-
-test_description='Tests git-rev-list --merge-order functionality'
-
-. ./test-lib.sh
-. ../t6000lib.sh # t6xxx specific functions
-
-# test-case specific test function
-check_adjacency()
-{
- read previous
- echo "= $previous"
- while read next
- do
- if ! (git-cat-file commit $previous | grep "^parent $next" >/dev/null)
- then
- echo "^ $next"
- else
- echo "| $next"
- fi
- previous=$next
- done
-}
-
-list_duplicates()
-{
- "$@" | sort | uniq -d
-}
-
-grep_stderr()
-{
- args=$1
- shift 1
- "$@" 2>&1 | grep "$args"
-}
-
-date >path0
-git-update-index --add path0
-save_tag tree git-write-tree
-on_committer_date "1971-08-16 00:00:00" hide_error save_tag root unique_commit root tree
-on_committer_date "1971-08-16 00:00:01" save_tag l0 unique_commit l0 tree -p root
-on_committer_date "1971-08-16 00:00:02" save_tag l1 unique_commit l1 tree -p l0
-on_committer_date "1971-08-16 00:00:03" save_tag l2 unique_commit l2 tree -p l1
-on_committer_date "1971-08-16 00:00:04" save_tag a0 unique_commit a0 tree -p l2
-on_committer_date "1971-08-16 00:00:05" save_tag a1 unique_commit a1 tree -p a0
-on_committer_date "1971-08-16 00:00:06" save_tag b1 unique_commit b1 tree -p a0
-on_committer_date "1971-08-16 00:00:07" save_tag c1 unique_commit c1 tree -p b1
-on_committer_date "1971-08-16 00:00:08" as_author foobar@example.com save_tag b2 unique_commit b2 tree -p b1
-on_committer_date "1971-08-16 00:00:09" save_tag b3 unique_commit b2 tree -p b2
-on_committer_date "1971-08-16 00:00:10" save_tag c2 unique_commit c2 tree -p c1 -p b2
-on_committer_date "1971-08-16 00:00:11" save_tag c3 unique_commit c3 tree -p c2
-on_committer_date "1971-08-16 00:00:12" save_tag a2 unique_commit a2 tree -p a1
-on_committer_date "1971-08-16 00:00:13" save_tag a3 unique_commit a3 tree -p a2
-on_committer_date "1971-08-16 00:00:14" save_tag b4 unique_commit b4 tree -p b3 -p a3
-on_committer_date "1971-08-16 00:00:15" save_tag a4 unique_commit a4 tree -p a3 -p b4 -p c3
-on_committer_date "1971-08-16 00:00:16" save_tag l3 unique_commit l3 tree -p a4
-on_committer_date "1971-08-16 00:00:17" save_tag l4 unique_commit l4 tree -p l3
-on_committer_date "1971-08-16 00:00:18" save_tag l5 unique_commit l5 tree -p l4
-on_committer_date "1971-08-16 00:00:19" save_tag m1 unique_commit m1 tree -p a4 -p c3
-on_committer_date "1971-08-16 00:00:20" save_tag m2 unique_commit m2 tree -p c3 -p a4
-on_committer_date "1971-08-16 00:00:21" hide_error save_tag alt_root unique_commit alt_root tree
-on_committer_date "1971-08-16 00:00:22" save_tag r0 unique_commit r0 tree -p alt_root
-on_committer_date "1971-08-16 00:00:23" save_tag r1 unique_commit r1 tree -p r0
-on_committer_date "1971-08-16 00:00:24" save_tag l5r1 unique_commit l5r1 tree -p l5 -p r1
-on_committer_date "1971-08-16 00:00:25" save_tag r1l5 unique_commit r1l5 tree -p r1 -p l5
-
-
-#
-# note: as of 20/6, it isn't possible to create duplicate parents, so this
-# can't be tested.
-#
-#on_committer_date "1971-08-16 00:00:20" save_tag m3 unique_commit m3 tree -p c3 -p a4 -p c3
-hide_error save_tag e1 as_author e@example.com unique_commit e1 tree
-save_tag e2 as_author e@example.com unique_commit e2 tree -p e1
-save_tag f1 as_author f@example.com unique_commit f1 tree -p e1
-save_tag e3 as_author e@example.com unique_commit e3 tree -p e2
-save_tag f2 as_author f@example.com unique_commit f2 tree -p f1
-save_tag e4 as_author e@example.com unique_commit e4 tree -p e3 -p f2
-save_tag e5 as_author e@example.com unique_commit e5 tree -p e4
-save_tag f3 as_author f@example.com unique_commit f3 tree -p f2
-save_tag f4 as_author f@example.com unique_commit f4 tree -p f3
-save_tag e6 as_author e@example.com unique_commit e6 tree -p e5 -p f4
-save_tag f5 as_author f@example.com unique_commit f5 tree -p f4
-save_tag f6 as_author f@example.com unique_commit f6 tree -p f5 -p e6
-save_tag e7 as_author e@example.com unique_commit e7 tree -p e6
-save_tag e8 as_author e@example.com unique_commit e8 tree -p e7
-save_tag e9 as_author e@example.com unique_commit e9 tree -p e8
-save_tag f7 as_author f@example.com unique_commit f7 tree -p f6
-save_tag f8 as_author f@example.com unique_commit f8 tree -p f7
-save_tag f9 as_author f@example.com unique_commit f9 tree -p f8
-save_tag e10 as_author e@example.com unique_commit e1 tree -p e9 -p f8
-
-hide_error save_tag g0 unique_commit g0 tree
-save_tag g1 unique_commit g1 tree -p g0
-save_tag h1 unique_commit g2 tree -p g0
-save_tag g2 unique_commit g3 tree -p g1 -p h1
-save_tag h2 unique_commit g4 tree -p g2
-save_tag g3 unique_commit g5 tree -p g2
-save_tag g4 unique_commit g6 tree -p g3 -p h2
-
-git-update-ref HEAD $(tag l5)
-
-test_output_expect_success 'rev-list has correct number of entries' 'git-rev-list HEAD | wc -l | tr -d \" \"' <<EOF
-19
-EOF
-
-if git-rev-list --merge-order HEAD 2>&1 | grep 'OpenSSL not linked' >/dev/null
-then
- test_expect_success 'skipping merge-order test' :
- test_done
- exit
-fi
-
-normal_adjacency_count=$(git-rev-list HEAD | check_adjacency | grep -c "\^" | tr -d ' ')
-merge_order_adjacency_count=$(git-rev-list --merge-order HEAD | check_adjacency | grep -c "\^" | tr -d ' ')
-test_expect_success '--merge-order produces as many or fewer discontinuities' '[ $merge_order_adjacency_count -le $normal_adjacency_count ]'
-test_output_expect_success 'simple merge order' 'git-rev-list --merge-order --show-breaks HEAD' <<EOF
-= l5
-| l4
-| l3
-= a4
-| c3
-| c2
-| c1
-^ b4
-| b3
-| b2
-| b1
-^ a3
-| a2
-| a1
-= a0
-| l2
-| l1
-| l0
-= root
-EOF
-
-test_output_expect_success 'two diamonds merge order (g6)' 'git-rev-list --merge-order --show-breaks g4' <<EOF
-= g4
-| h2
-^ g3
-= g2
-| h1
-^ g1
-= g0
-EOF
-
-test_output_expect_success 'multiple heads' 'git-rev-list --merge-order a3 b3 c3' <<EOF
-c3
-c2
-c1
-b3
-b2
-b1
-a3
-a2
-a1
-a0
-l2
-l1
-l0
-root
-EOF
-
-test_output_expect_success 'multiple heads, prune at a1' 'git-rev-list --merge-order a3 b3 c3 ^a1' <<EOF
-c3
-c2
-c1
-b3
-b2
-b1
-a3
-a2
-EOF
-
-test_output_expect_success 'multiple heads, prune at l1' 'git-rev-list --merge-order a3 b3 c3 ^l1' <<EOF
-c3
-c2
-c1
-b3
-b2
-b1
-a3
-a2
-a1
-a0
-l2
-EOF
-
-test_output_expect_success 'cross-epoch, head at l5, prune at l1' 'git-rev-list --merge-order l5 ^l1' <<EOF
-l5
-l4
-l3
-a4
-c3
-c2
-c1
-b4
-b3
-b2
-b1
-a3
-a2
-a1
-a0
-l2
-EOF
-
-test_output_expect_success 'duplicated head arguments' 'git-rev-list --merge-order l5 l5 ^l1' <<EOF
-l5
-l4
-l3
-a4
-c3
-c2
-c1
-b4
-b3
-b2
-b1
-a3
-a2
-a1
-a0
-l2
-EOF
-
-test_output_expect_success 'prune near merge' 'git-rev-list --merge-order a4 ^c3' <<EOF
-a4
-b4
-b3
-a3
-a2
-a1
-EOF
-
-test_output_expect_success "head has no parent" 'git-rev-list --merge-order --show-breaks root' <<EOF
-= root
-EOF
-
-test_output_expect_success "two nodes - one head, one base" 'git-rev-list --merge-order --show-breaks l0' <<EOF
-= l0
-= root
-EOF
-
-test_output_expect_success "three nodes one head, one internal, one base" 'git-rev-list --merge-order --show-breaks l1' <<EOF
-= l1
-| l0
-= root
-EOF
-
-test_output_expect_success "linear prune l2 ^root" 'git-rev-list --merge-order --show-breaks l2 ^root' <<EOF
-^ l2
-| l1
-| l0
-EOF
-
-test_output_expect_success "linear prune l2 ^l0" 'git-rev-list --merge-order --show-breaks l2 ^l0' <<EOF
-^ l2
-| l1
-EOF
-
-test_output_expect_success "linear prune l2 ^l1" 'git-rev-list --merge-order --show-breaks l2 ^l1' <<EOF
-^ l2
-EOF
-
-test_output_expect_success "linear prune l5 ^a4" 'git-rev-list --merge-order --show-breaks l5 ^a4' <<EOF
-^ l5
-| l4
-| l3
-EOF
-
-test_output_expect_success "linear prune l5 ^l3" 'git-rev-list --merge-order --show-breaks l5 ^l3' <<EOF
-^ l5
-| l4
-EOF
-
-test_output_expect_success "linear prune l5 ^l4" 'git-rev-list --merge-order --show-breaks l5 ^l4' <<EOF
-^ l5
-EOF
-
-test_output_expect_success "max-count 10 - merge order" 'git-rev-list --merge-order --show-breaks --max-count=10 l5' <<EOF
-= l5
-| l4
-| l3
-= a4
-| c3
-| c2
-| c1
-^ b4
-| b3
-| b2
-EOF
-
-test_output_expect_success "max-count 10 - non merge order" 'git-rev-list --max-count=10 l5' <<EOF
-l5
-l4
-l3
-a4
-b4
-a3
-a2
-c3
-c2
-b3
-EOF
-
-test_output_expect_success '--max-age=c3, no --merge-order' "git-rev-list --max-age=$(commit_date c3) l5" <<EOF
-l5
-l4
-l3
-a4
-b4
-a3
-a2
-c3
-EOF
-
-test_output_expect_success '--max-age=c3, --merge-order' "git-rev-list --merge-order --max-age=$(commit_date c3) l5" <<EOF
-l5
-l4
-l3
-a4
-c3
-b4
-a3
-a2
-EOF
-
-test_output_expect_success 'one specified head reachable from another a4, c3, --merge-order' "list_duplicates git-rev-list --merge-order a4 c3" <<EOF
-EOF
-
-test_output_expect_success 'one specified head reachable from another c3, a4, --merge-order' "list_duplicates git-rev-list --merge-order c3 a4" <<EOF
-EOF
-
-test_output_expect_success 'one specified head reachable from another a4, c3, no --merge-order' "list_duplicates git-rev-list a4 c3" <<EOF
-EOF
-
-test_output_expect_success 'one specified head reachable from another c3, a4, no --merge-order' "list_duplicates git-rev-list c3 a4" <<EOF
-EOF
-
-test_output_expect_success 'graph with c3 and a4 parents of head' "list_duplicates git-rev-list m1" <<EOF
-EOF
-
-test_output_expect_success 'graph with a4 and c3 parents of head' "list_duplicates git-rev-list m2" <<EOF
-EOF
-
-test_expect_success "head ^head --merge-order" 'git-rev-list --merge-order --show-breaks a3 ^a3' <<EOF
-EOF
-
-#
-# can't test this now - duplicate parents can't be created
-#
-#test_output_expect_success 'duplicate parents' 'git-rev-list --parents --merge-order --show-breaks m3' <<EOF
-#= m3 c3 a4 c3
-#| a4 c3 b4 a3
-#| b4 a3 b3
-#| b3 b2
-#^ a3 a2
-#| a2 a1
-#| a1 a0
-#^ c3 c2
-#| c2 b2 c1
-#| b2 b1
-#^ c1 b1
-#| b1 a0
-#= a0 l2
-#| l2 l1
-#| l1 l0
-#| l0 root
-#= root
-#EOF
-
-test_expect_success "head ^head no --merge-order" 'git-rev-list a3 ^a3' <<EOF
-EOF
-
-test_output_expect_success 'simple merge order (l5r1)' 'git-rev-list --merge-order --show-breaks l5r1' <<EOF
-= l5r1
-| r1
-| r0
-| alt_root
-^ l5
-| l4
-| l3
-| a4
-| c3
-| c2
-| c1
-^ b4
-| b3
-| b2
-| b1
-^ a3
-| a2
-| a1
-| a0
-| l2
-| l1
-| l0
-= root
-EOF
-
-test_output_expect_success 'simple merge order (r1l5)' 'git-rev-list --merge-order --show-breaks r1l5' <<EOF
-= r1l5
-| l5
-| l4
-| l3
-| a4
-| c3
-| c2
-| c1
-^ b4
-| b3
-| b2
-| b1
-^ a3
-| a2
-| a1
-| a0
-| l2
-| l1
-| l0
-| root
-^ r1
-| r0
-= alt_root
-EOF
-
-test_output_expect_success "don't print things unreachable from one branch" "git-rev-list a3 ^b3 --merge-order" <<EOF
-a3
-a2
-a1
-EOF
-
-test_output_expect_success "--merge-order a4 l3" "git-rev-list --merge-order a4 l3" <<EOF
-l3
-a4
-c3
-c2
-c1
-b4
-b3
-b2
-b1
-a3
-a2
-a1
-a0
-l2
-l1
-l0
-root
-EOF
-
-#
-#
-
-test_done
projects / git.git / commitdiff