changeset
add visit_on_exit to iterator implementation
Wed, 21 Feb 2024 18:32:38 +0100
- author
- Mike Becker <universe@uap-core.de>
- date
- Wed, 21 Feb 2024 18:32:38 +0100
- changeset 838
- 1ce90ab4fab9
- parent 837
- 7c15fea5cbea
- child 839
- 62d3aecc5bb7
add visit_on_exit to iterator implementation
relates to #371
| src/tree.c | file | annotate | diff | comparison | revisions | |
| tests/test_tree.c | file | annotate | diff | comparison | revisions |
--- a/src/tree.c Mon Feb 19 22:12:13 2024 +0100 +++ b/src/tree.c Wed Feb 21 18:32:38 2024 +0100 @@ -182,40 +182,58 @@ off_t const loc_children = iter->loc_children; // TODO: support mutating iterator - // TODO: support visit_on_exit + + void *children; - void *children = tree_children(iter->node); + // check if we are currently exiting or entering nodes + if (iter->exiting) { + children = NULL; + } else { + children = tree_children(iter->node); + } + if (children == NULL) { // search for the next node - void *current = iter->node; - do { - // check if there is a sibling - void *next = tree_next(current); - if (next == NULL) { - // no sibling, check again for parent node - --iter->depth; - if (iter->depth == 0) { + void *next; + cx_tree_iter_search_next: + // check if there is a sibling + next = tree_next(iter->node); + if (next == NULL) { + // no sibling, we are done with this node and exit + if (iter->visit_on_exit && !iter->exiting) { + // iter is supposed to visit the node again + iter->exiting = true; + } else { + iter->exiting = false; + if (iter->depth == 1) { // there is no parent - we have iterated the entire tree // invalidate the iterator and free the node stack iter->node = NULL; - current = NULL; - iter->stack_capacity = 0; + iter->stack_capacity = iter->depth = 0; free(iter->stack); iter->stack = NULL; } else { // the parent node can be obtained from the top of stack // this way we can avoid the loc_parent in the iterator - current = iter->stack[iter->depth - 1]; + iter->depth--; + iter->node = iter->stack[iter->depth - 1]; + // retry with the parent node to find a sibling + goto cx_tree_iter_search_next; } + } + } else { + if (iter->visit_on_exit && !iter->exiting) { + // iter is supposed to visit the node again + iter->exiting = true; } else { - // move to the sibling and break the loop - current = NULL; + iter->exiting = false; + // move to the sibling iter->counter++; iter->node = next; // new top of stack is the sibling iter->stack[iter->depth - 1] = next; } - } while (current != NULL); + } } else { // node has children, push the first child onto the stack and enter it cx_array_simple_add(iter->stack, children);
--- a/tests/test_tree.c Mon Feb 19 22:12:13 2024 +0100 +++ b/tests/test_tree.c Wed Feb 21 18:32:38 2024 +0100 @@ -271,7 +271,7 @@ } } -CX_TEST(test_tree_iterator_basic_test_only_enter) { +CX_TEST(test_tree_iterator_basic_only_enter) { tree_node root = {0}; tree_node a = {0}; tree_node b = {0}; @@ -330,6 +330,64 @@ } } +CX_TEST(test_tree_iterator_basic_enter_and_exit) { + tree_node root = {0}; + tree_node a = {0}; + tree_node b = {0}; + tree_node c = {0}; + tree_node aa = {0}; + tree_node ab = {0}; + tree_node ba = {0}; + tree_node ca = {0}; + tree_node cb = {0}; + tree_node cc = {0}; + tree_node cba = {0}; + + cx_tree_link(&root, &a, tree_node_layout); + cx_tree_link(&root, &b, tree_node_layout); + cx_tree_link(&root, &c, tree_node_layout); + cx_tree_link(&a, &aa, tree_node_layout); + cx_tree_link(&a, &ab, tree_node_layout); + cx_tree_link(&b, &ba, tree_node_layout); + cx_tree_link(&c, &ca, tree_node_layout); + cx_tree_link(&c, &cb, tree_node_layout); + cx_tree_link(&c, &cc, tree_node_layout); + cx_tree_link(&cb, &cba, tree_node_layout); + CX_TEST_DO { + CxTreeIterator iter = cx_tree_iterator(&root, true, tree_child_list); + unsigned chk = 0; + cx_foreach(tree_node*, node, iter) { + CX_TEST_ASSERT(iter.exiting || node->data == 0); + node->data++; + chk++; + CX_TEST_ASSERT(node == iter.node); + if (node == &root) { + CX_TEST_ASSERT(iter.depth == 1); + } else if (node == &a || node == &b || node == &c) { + CX_TEST_ASSERT(iter.depth == 2); + } else if (node == &cba) { + CX_TEST_ASSERT(iter.depth == 4); + } else { + CX_TEST_ASSERT(iter.depth == 3); + } + } + CX_TEST_ASSERT(iter.counter == 11); + CX_TEST_ASSERT(chk == 22); + CX_TEST_ASSERT(iter.stack == NULL); + CX_TEST_ASSERT(root.data == 2); + CX_TEST_ASSERT(a.data == 2); + CX_TEST_ASSERT(b.data == 2); + CX_TEST_ASSERT(c.data == 2); + CX_TEST_ASSERT(aa.data == 2); + CX_TEST_ASSERT(ab.data == 2); + CX_TEST_ASSERT(ba.data == 2); + CX_TEST_ASSERT(ca.data == 2); + CX_TEST_ASSERT(cb.data == 2); + CX_TEST_ASSERT(cc.data == 2); + CX_TEST_ASSERT(cba.data == 2); + } +} + CxTestSuite *cx_test_suite_tree_low_level(void) { CxTestSuite *suite = cx_test_suite_new("tree (low level)"); @@ -339,7 +397,8 @@ cx_test_register(suite, test_tree_unlink); cx_test_register(suite, test_tree_search); cx_test_register(suite, test_tree_iterator_create_and_dispose); - cx_test_register(suite, test_tree_iterator_basic_test_only_enter); + cx_test_register(suite, test_tree_iterator_basic_only_enter); + cx_test_register(suite, test_tree_iterator_basic_enter_and_exit); return suite; }
