//: A simple test harness. To create new tests, define functions starting with //: 'test_'. To run all tests so defined, run: //: $ ./mu test //: //: Every layer should include tests, and can reach into previous layers. //: However, it seems like a good idea never to reach into tests from previous //: layers. Every test should be a contract that always passes as originally //: written, regardless of any later layers. Avoid writing 'temporary' tests //: that are only meant to work until some layer. :(before "End Types") typedef void (*test_fn)(void); :(before "Globals") // move a global ahead into types that we can't generate an extern declaration for const test_fn Tests[] = { #include "test_list" // auto-generated; see 'build' script }; :(before "End Globals") bool Run_tests = false; bool Passed = true; // set this to false inside any test to indicate failure long Num_failures = 0; :(before "End Includes") #define CHECK(X) \ if (Passed && !(X)) { \ cerr << "\nF - " << __FUNCTION__ << "(" << __FILE__ << ":" << __LINE__ << "): " << #X << '\n'; \ Passed = false; \ return; /* Currently we stop at the very first failure. */ \ } #define CHECK_EQ(X, Y) \ if (Passed && (X) != (Y)) { \ cerr << "\nF - " << __FUNCTION__ << "(" << __FILE__ << ":" << __LINE__ << "): " << #X << " == " << #Y << '\n'; \ cerr << " got " << (X) << '\n'; /* BEWARE: multiple eval */ \ Passed = false; \ return; /* Currently we stop at the very first failure. */ \ } :(before "End Setup") Passed = true; :(before "End Commandline Parsing") if (argc > 1 && is_equal(argv[1], "test")) { Run_tests = true; --argc; ++argv; // shift 'test' out of commandline args } :(before "End Main") if (Run_tests) { // Test Runs // we run some tests and then exit; assume no state need be maintained afterward // End Test Run Initialization time_t t; time(&t); cerr << "C tests: " << ctime(&t); for (size_t i=0; i < sizeof(Tests)/sizeof(Tests[0]); ++i) { //? cerr << "running .build/test_list line " << (i+1) << '\n'; run_test(i); } cerr << '\n'; // End Tests if (Num_failures > 0) { cerr << Num_failures << " failure" << (Num_failures > 1 ? "s" : "") << '\n'; return 1; } return 0; } :(code) void run_test(size_t i) { if (i >= sizeof(Tests)/sizeof(Tests[0])) { cerr << "no test " << i << '\n'; return; } setup(); // End Test Setup (*Tests[i])(); // End Test Teardown teardown(); if (Passed) cerr << '.'; else ++Num_failures; } bool is_integer(const string& s) { return s.find_first_not_of("0123456789-") == string::npos // no other characters && s.find_first_of("0123456789") != string::npos // at least one digit && s.find('-', 1) == string::npos; // '-' only at first position } int to_integer(string n) { char* end = NULL; // safe because string.c_str() is guaranteed to be null-terminated int result = strtoll(n.c_str(), &end, /*any base*/0); if (*end != '\0') cerr << "tried to convert " << n << " to number\n"; assert(*end == '\0'); return result; } void test_is_integer() { CHECK(is_integer("1234")); CHECK(is_integer("-1")); CHECK(!is_integer("234.0")); CHECK(is_integer("-567")); CHECK(!is_integer("89-0")); CHECK(!is_integer("-")); CHECK(!is_integer("1e3")); // not supported } :(before "End Includes") #include