int ReadTest::read(const char * encodeTypeName, const char * decodeTypeName, const char * defs) { LPDRMETA meta = dr_lib_find_meta_by_name(m_metaLib, encodeTypeName); EXPECT_TRUE(meta) << "get meta " << encodeTypeName << " error!"; char buf[1024]; int r = dr_cfg_read(buf, sizeof(buf), t_cfg_parse(defs), meta, 0, t_em()); EXPECT_GT(r, 0); return read(decodeTypeName, buf, r); }
int WriteTest::write(const char * typeName, const char * defs) { LPDRMETA meta = dr_lib_find_meta_by_name(m_metaLib, typeName); EXPECT_TRUE(meta) << "get meta " << typeName << " error!"; char buf[1024]; int r = dr_cfg_read(buf, sizeof(buf), t_cfg_parse(defs), meta, 0, t_em()); EXPECT_GT(r, 0); return write(typeName, buf, r); }
int ReadTest::read(const char * data, const char * typeName, int policy, size_t capacity) { LPDRMETA meta = dr_lib_find_meta_by_name(m_metaLib, typeName); EXPECT_TRUE(meta) << "get meta " << typeName << " error!"; if (meta == 0) return -1; if (capacity == 0) { capacity = dr_meta_size(meta); } cfg_t input = t_cfg_parse(data); EXPECT_TRUE(input) << "parse input to cfg fail!"; if (input == 0) return -1; t_elist_clear(); mem_buffer_clear(&m_buffer); return dr_cfg_read( mem_buffer_alloc(&m_buffer, capacity), capacity, input, meta, policy, t_em()); }
Node & t_cfg_parse_ex(const char * input) { return Node::_cast(t_cfg_parse(input)); }
const char * DumpTest::dump_inline(const char * input) { return t_cfg_dump_inline(t_cfg_parse(input)); }