#include "runtime/runtime_spec_helper.h" extern "C" TSLanguage * ts_language_json(); START_TEST describe("Node", []() { TSDocument *document; TSNode root; before_each([&]() { document = ts_document_make(); ts_document_set_language(document, ts_language_json()); ts_document_set_input_string(document, " [123, false, {\"x\": null}]"); root = ts_document_root_node(document); AssertThat(ts_node_string(root, document), Equals( "(DOCUMENT (array " "(number) " "(false) " "(object (string) (null))))")); }); after_each([&]() { ts_document_free(document); }); describe("child_count()", [&]() { it("returns the number of visible child nodes", [&]() { TSNode array = ts_node_child(root, 0); AssertThat(ts_node_child_count(array), Equals(3)); }); }); describe("child(i)", [&]() { it("returns the child node at the given index", [&]() { TSNode parent = ts_node_child(root, 0); TSNode child1 = ts_node_child(parent, 0); TSNode child2 = ts_node_child(parent, 1); TSNode child3 = ts_node_child(parent, 2); AssertThat(ts_node_name(parent, document), Equals("array")); AssertThat(ts_node_name(child1, document), Equals("number")); AssertThat(ts_node_name(child2, document), Equals("false")); AssertThat(ts_node_name(child3, document), Equals("object")); AssertThat(ts_node_pos(parent).bytes, Equals(2)); AssertThat(ts_node_size(parent).bytes, Equals(25)); AssertThat(ts_node_pos(child1).bytes, Equals(3)); AssertThat(ts_node_size(child1).bytes, Equals(3)); AssertThat(ts_node_pos(child2).bytes, Equals(8)); AssertThat(ts_node_size(child2).bytes, Equals(5)); AssertThat(ts_node_pos(child3).bytes, Equals(15)); AssertThat(ts_node_size(child3).bytes, Equals(11)); AssertThat(ts_node_parent(child1), Equals(parent)); AssertThat(ts_node_parent(child2), Equals(parent)); AssertThat(ts_node_parent(child3), Equals(parent)); AssertThat(ts_node_parent(parent), Equals(root)); AssertThat(ts_node_parent(root).data, Equals(nullptr)); }); }); describe("next_sibling() and prev_sibling()", [&]() { it("returns the node's next and previous siblings", [&]() { TSNode array_node = ts_node_child(root, 0); TSNode number_node = ts_node_child(array_node, 0); TSNode false_node = ts_node_child(array_node, 1); TSNode object_node = ts_node_child(array_node, 2); TSNode string_node = ts_node_child(object_node, 0); TSNode null_node = ts_node_child(object_node, 1); AssertThat(ts_node_next_sibling(number_node), Equals(false_node)); AssertThat(ts_node_next_sibling(false_node), Equals(object_node)); AssertThat(ts_node_next_sibling(string_node), Equals(null_node)); AssertThat(ts_node_prev_sibling(object_node), Equals(false_node)); AssertThat(ts_node_prev_sibling(false_node), Equals(number_node)); AssertThat(ts_node_prev_sibling(null_node), Equals(string_node)); }); it("returns null when the node has no parent", [&]() { TSNode array_node = ts_node_child(root, 0); AssertThat(ts_node_next_sibling(root).data, Equals(nullptr)); AssertThat(ts_node_prev_sibling(root).data, Equals(nullptr)); AssertThat(ts_node_next_sibling(array_node).data, Equals(nullptr)); AssertThat(ts_node_prev_sibling(array_node).data, Equals(nullptr)); }); }); describe("find_for_range(start, end)", [&]() { describe("when there is a leaf node that spans the given range exactly", [&]() { it("returns that leaf node", [&]() { TSNode leaf = ts_node_find_for_range(root, 16, 18); AssertThat(ts_node_name(leaf, document), Equals("string")); AssertThat(ts_node_size(leaf).bytes, Equals(3)); AssertThat(ts_node_pos(leaf).bytes, Equals(16)); leaf = ts_node_find_for_range(root, 3, 5); AssertThat(ts_node_name(leaf, document), Equals("number")); AssertThat(ts_node_size(leaf).bytes, Equals(3)); AssertThat(ts_node_pos(leaf).bytes, Equals(3)); }); }); describe("when there is a leaf node that extends beyond the given range", [&]() { it("returns that leaf node", [&]() { TSNode leaf = ts_node_find_for_range(root, 16, 17); AssertThat(ts_node_name(leaf, document), Equals("string")); AssertThat(ts_node_size(leaf).bytes, Equals(3)); AssertThat(ts_node_pos(leaf).bytes, Equals(16)); leaf = ts_node_find_for_range(root, 17, 18); AssertThat(ts_node_name(leaf, document), Equals("string")); AssertThat(ts_node_size(leaf).bytes, Equals(3)); AssertThat(ts_node_pos(leaf).bytes, Equals(16)); }); }); describe("when there is no leaf node that spans the given range", [&]() { it("returns the smallest node that does span the range", [&]() { TSNode node = ts_node_find_for_range(root, 16, 19); AssertThat(ts_node_name(node, document), Equals("object")); AssertThat(ts_node_size(node).bytes, Equals(11)); AssertThat(ts_node_pos(node).bytes, Equals(15)); }); it("does not return invisible nodes (repeats)", [&]() { TSNode node = ts_node_find_for_range(root, 6, 7); AssertThat(ts_node_name(node, document), Equals("array")); AssertThat(ts_node_size(node).bytes, Equals(25)); AssertThat(ts_node_pos(node).bytes, Equals(2)); }); }); }); describe("find_for_pos(position)", [&]() { it("finds the smallest node that spans the given position", [&]() { TSNode node = ts_node_find_for_pos(root, 10); AssertThat(ts_node_name(node, document), Equals("false")); AssertThat(ts_node_pos(node).bytes, Equals(8)); AssertThat(ts_node_size(node).bytes, Equals(5)); }); }); }); END_TEST bool operator==(const TSNode &left, const TSNode &right) { return ts_node_eq(left, right); }