#include "test.hpp" #include "writer_string.hpp" #include "allocator.hpp" #include #include using namespace pugi; namespace { int page_allocs = 0; int page_deallocs = 0; bool is_page(size_t size) { return size >= 16384; } void* allocate(size_t size) { void* ptr = memory_allocate(size); page_allocs += is_page(memory_size(ptr)); return ptr; } void deallocate(void* ptr) { page_deallocs += is_page(memory_size(ptr)); memory_deallocate(ptr); } } TEST(memory_custom_memory_management) { page_allocs = page_deallocs = 0; // remember old functions allocation_function old_allocate = get_memory_allocation_function(); deallocation_function old_deallocate = get_memory_deallocation_function(); // replace functions set_memory_management_functions(allocate, deallocate); { // parse document xml_document doc; CHECK(page_allocs == 0 && page_deallocs == 0); CHECK(doc.load_string(STR(""))); CHECK(page_allocs == 1 && page_deallocs == 0); // modify document (no new page) CHECK(doc.first_child().set_name(STR("foobars"))); CHECK(page_allocs == 1 && page_deallocs == 0); // modify document (new page) std::basic_string s(65536, 'x'); CHECK(doc.first_child().set_name(s.c_str())); CHECK(page_allocs == 2 && page_deallocs == 0); // modify document (new page, old one should die) s += s; CHECK(doc.first_child().set_name(s.c_str())); CHECK(page_allocs == 3 && page_deallocs == 1); } CHECK(page_allocs == 3 && page_deallocs == 3); // restore old functions set_memory_management_functions(old_allocate, old_deallocate); } TEST(memory_large_allocations) { page_allocs = page_deallocs = 0; // remember old functions allocation_function old_allocate = get_memory_allocation_function(); deallocation_function old_deallocate = get_memory_deallocation_function(); // replace functions set_memory_management_functions(allocate, deallocate); { xml_document doc; CHECK(page_allocs == 0 && page_deallocs == 0); // initial fill for (size_t i = 0; i < 128; ++i) { std::basic_string s(i * 128, 'x'); CHECK(doc.append_child(node_pcdata).set_value(s.c_str())); } CHECK(page_allocs > 0 && page_deallocs == 0); // grow-prune loop while (doc.first_child()) { xml_node node; // grow for (node = doc.first_child(); node; node = node.next_sibling()) { std::basic_string s = node.value(); CHECK(node.set_value((s + s).c_str())); } // prune for (node = doc.first_child(); node; ) { xml_node next = node.next_sibling().next_sibling(); node.parent().remove_child(node); node = next; } } CHECK(page_allocs == page_deallocs + 1); // only one live page left (it waits for new allocations) char buffer; CHECK(doc.load_buffer_inplace(&buffer, 0, parse_fragment, get_native_encoding())); CHECK(page_allocs == page_deallocs); // no live pages left } CHECK(page_allocs == page_deallocs); // everything is freed // restore old functions set_memory_management_functions(old_allocate, old_deallocate); } TEST(memory_page_management) { page_allocs = page_deallocs = 0; // remember old functions allocation_function old_allocate = get_memory_allocation_function(); deallocation_function old_deallocate = get_memory_deallocation_function(); // replace functions set_memory_management_functions(allocate, deallocate); { xml_document doc; CHECK(page_allocs == 0 && page_deallocs == 0); // initial fill std::vector nodes; for (size_t i = 0; i < 4000; ++i) { xml_node node = doc.append_child(STR("n")); CHECK(node); nodes.push_back(node); } CHECK(page_allocs > 0 && page_deallocs == 0); // grow-prune loop size_t offset = 0; size_t prime = 15485863; while (nodes.size() > 0) { offset = (offset + prime) % nodes.size(); doc.remove_child(nodes[offset]); nodes[offset] = nodes.back(); nodes.pop_back(); } CHECK(page_allocs == page_deallocs + 1); // only one live page left (it waits for new allocations) char buffer; CHECK(doc.load_buffer_inplace(&buffer, 0, parse_fragment, get_native_encoding())); CHECK(page_allocs == page_deallocs); // no live pages left } CHECK(page_allocs == page_deallocs); // everything is freed // restore old functions set_memory_management_functions(old_allocate, old_deallocate); } TEST(memory_string_allocate_increasing) { xml_document doc; doc.append_child(node_pcdata).set_value(STR("x")); std::basic_string s = STR("ab"); for (int i = 0; i < 17; ++i) { doc.append_child(node_pcdata).set_value(s.c_str()); s += s; } std::string result = save_narrow(doc, format_no_declaration | format_raw, encoding_utf8); CHECK(result.size() == 262143); CHECK(result[0] == 'x'); for (size_t j = 1; j < result.size(); ++j) { CHECK(result[j] == (j % 2 ? 'a' : 'b')); } } TEST(memory_string_allocate_decreasing) { xml_document doc; std::basic_string s = STR("ab"); for (int i = 0; i < 17; ++i) s += s; for (int j = 0; j < 17; ++j) { s.resize(s.size() / 2); doc.append_child(node_pcdata).set_value(s.c_str()); } doc.append_child(node_pcdata).set_value(STR("x")); std::string result = save_narrow(doc, format_no_declaration | format_raw, encoding_utf8); CHECK(result.size() == 262143); CHECK(result[result.size() - 1] == 'x'); for (size_t k = 0; k + 1 < result.size(); ++k) { CHECK(result[k] == (k % 2 ? 'b' : 'a')); } } TEST(memory_string_allocate_increasing_inplace) { xml_document doc; xml_node node = doc.append_child(node_pcdata); node.set_value(STR("x")); std::basic_string s = STR("ab"); for (int i = 0; i < 17; ++i) { node.set_value(s.c_str()); s += s; } std::string result = save_narrow(doc, format_no_declaration | format_raw, encoding_utf8); CHECK(result.size() == 131072); for (size_t j = 0; j < result.size(); ++j) { CHECK(result[j] == (j % 2 ? 'b' : 'a')); } } TEST(memory_string_allocate_decreasing_inplace) { xml_document doc; xml_node node = doc.append_child(node_pcdata); std::basic_string s = STR("ab"); for (int i = 0; i < 17; ++i) s += s; for (int j = 0; j < 17; ++j) { s.resize(s.size() / 2); node.set_value(s.c_str()); } node.set_value(STR("x")); std::string result = save_narrow(doc, format_no_declaration | format_raw, encoding_utf8); CHECK(result == "x"); }