/** * Automated SDL_IOStream test. * * Original code written by Edgar Simo "bobbens" * Ported by Markus Kauppila (markus.kauppila@gmail.com) * Updated and extended for SDL_test by aschiffler at ferzkopp dot net * * Released under Public Domain. */ /* quiet windows compiler warnings */ #if defined(_MSC_VER) && !defined(_CRT_SECURE_NO_WARNINGS) #define _CRT_SECURE_NO_WARNINGS #endif #include #include #include #include "testautomation_suites.h" /* ================= Test Case Implementation ================== */ static const char *IOStreamReadTestFilename = "iostrm_read"; static const char *IOStreamWriteTestFilename = "iostrm_write"; static const char *IOStreamAlphabetFilename = "iostrm_alphabet"; static const char IOStreamHelloWorldTestString[] = "Hello World!"; static const char IOStreamHelloWorldCompString[] = "Hello World!"; static const char IOStreamAlphabetString[] = "ABCDEFGHIJKLMNOPQRSTUVWXYZ"; /* Fixture */ static void SDLCALL IOStreamSetUp(void **arg) { size_t fileLen; FILE *handle; size_t writtenLen; int result; /* Clean up from previous runs (if any); ignore errors */ (void)remove(IOStreamReadTestFilename); (void)remove(IOStreamWriteTestFilename); (void)remove(IOStreamAlphabetFilename); /* Create a test file */ handle = fopen(IOStreamReadTestFilename, "w"); SDLTest_AssertCheck(handle != NULL, "Verify creation of file '%s' returned non NULL handle", IOStreamReadTestFilename); if (handle == NULL) { return; } /* Write some known text into it */ fileLen = SDL_strlen(IOStreamHelloWorldTestString); writtenLen = fwrite(IOStreamHelloWorldTestString, 1, fileLen, handle); SDLTest_AssertCheck(fileLen == writtenLen, "Verify number of written bytes, expected %i, got %i", (int)fileLen, (int)writtenLen); result = fclose(handle); SDLTest_AssertCheck(result == 0, "Verify result from fclose, expected 0, got %i", result); /* Create a second test file */ handle = fopen(IOStreamAlphabetFilename, "w"); SDLTest_AssertCheck(handle != NULL, "Verify creation of file '%s' returned non NULL handle", IOStreamAlphabetFilename); if (handle == NULL) { return; } /* Write alphabet text into it */ fileLen = SDL_strlen(IOStreamAlphabetString); writtenLen = fwrite(IOStreamAlphabetString, 1, fileLen, handle); SDLTest_AssertCheck(fileLen == writtenLen, "Verify number of written bytes, expected %i, got %i", (int)fileLen, (int)writtenLen); result = fclose(handle); SDLTest_AssertCheck(result == 0, "Verify result from fclose, expected 0, got %i", result); SDLTest_AssertPass("Creation of test file completed"); } static void SDLCALL IOStreamTearDown(void *arg) { int result; /* Remove the created files to clean up; ignore errors for write filename */ result = remove(IOStreamReadTestFilename); SDLTest_AssertCheck(result == 0, "Verify result from remove(%s), expected 0, got %i", IOStreamReadTestFilename, result); (void)remove(IOStreamWriteTestFilename); result = remove(IOStreamAlphabetFilename); SDLTest_AssertCheck(result == 0, "Verify result from remove(%s), expected 0, got %i", IOStreamAlphabetFilename, result); SDLTest_AssertPass("Cleanup of test files completed"); } /** * Makes sure parameters work properly. Local helper function. * * \sa SDL_SeekIO * \sa SDL_ReadIO */ static void testGenericIOStreamValidations(SDL_IOStream *rw, bool write) { char buf[sizeof(IOStreamHelloWorldTestString)]; Sint64 i; size_t s; int seekPos = SDLTest_RandomIntegerInRange(4, 8); /* Clear buffer */ SDL_zeroa(buf); /* Set to start. */ i = SDL_SeekIO(rw, 0, SDL_IO_SEEK_SET); SDLTest_AssertPass("Call to SDL_SeekIO succeeded"); SDLTest_AssertCheck(i == (Sint64)0, "Verify seek to 0 with SDL_SeekIO (SDL_IO_SEEK_SET), expected 0, got %" SDL_PRIs64, i); /* Test write */ s = SDL_WriteIO(rw, IOStreamHelloWorldTestString, sizeof(IOStreamHelloWorldTestString) - 1); SDLTest_AssertPass("Call to SDL_WriteIO succeeded"); if (write) { SDLTest_AssertCheck(s == sizeof(IOStreamHelloWorldTestString) - 1, "Verify result of writing with SDL_WriteIO, expected %i, got %i", (int)sizeof(IOStreamHelloWorldTestString) - 1, (int)s); } else { SDLTest_AssertCheck(s == 0, "Verify result of writing with SDL_WriteIO, expected: 0, got %i", (int)s); } /* Test seek to random position */ i = SDL_SeekIO(rw, seekPos, SDL_IO_SEEK_SET); SDLTest_AssertPass("Call to SDL_SeekIO succeeded"); SDLTest_AssertCheck(i == (Sint64)seekPos, "Verify seek to %i with SDL_SeekIO (SDL_IO_SEEK_SET), expected %i, got %" SDL_PRIs64, seekPos, seekPos, i); /* Test seek back to start */ i = SDL_SeekIO(rw, 0, SDL_IO_SEEK_SET); SDLTest_AssertPass("Call to SDL_SeekIO succeeded"); SDLTest_AssertCheck(i == (Sint64)0, "Verify seek to 0 with SDL_SeekIO (SDL_IO_SEEK_SET), expected 0, got %" SDL_PRIs64, i); /* Test read */ s = SDL_ReadIO(rw, buf, sizeof(IOStreamHelloWorldTestString) - 1); SDLTest_AssertPass("Call to SDL_ReadIO succeeded"); SDLTest_AssertCheck( s == (sizeof(IOStreamHelloWorldTestString) - 1), "Verify result from SDL_ReadIO, expected %i, got %i", (int)(sizeof(IOStreamHelloWorldTestString) - 1), (int)s); SDLTest_AssertCheck( SDL_memcmp(buf, IOStreamHelloWorldTestString, sizeof(IOStreamHelloWorldTestString) - 1) == 0, "Verify read bytes match expected string, expected '%s', got '%s'", IOStreamHelloWorldTestString, buf); /* Test seek back to start */ i = SDL_SeekIO(rw, 0, SDL_IO_SEEK_SET); SDLTest_AssertPass("Call to SDL_SeekIO succeeded"); SDLTest_AssertCheck(i == (Sint64)0, "Verify seek to 0 with SDL_SeekIO (SDL_IO_SEEK_SET), expected 0, got %" SDL_PRIs64, i); /* Test printf */ s = SDL_IOprintf(rw, "%s", IOStreamHelloWorldTestString); SDLTest_AssertPass("Call to SDL_IOprintf succeeded"); if (write) { SDLTest_AssertCheck(s == sizeof(IOStreamHelloWorldTestString) - 1, "Verify result of writing with SDL_IOprintf, expected %i, got %i", (int)sizeof(IOStreamHelloWorldTestString) - 1, (int)s); } else { SDLTest_AssertCheck(s == 0, "Verify result of writing with SDL_WriteIO, expected: 0, got %i", (int)s); } /* Test seek back to start */ i = SDL_SeekIO(rw, 0, SDL_IO_SEEK_SET); SDLTest_AssertPass("Call to SDL_SeekIO succeeded"); SDLTest_AssertCheck(i == (Sint64)0, "Verify seek to 0 with SDL_SeekIO (SDL_IO_SEEK_SET), expected 0, got %" SDL_PRIs64, i); /* Test read */ s = SDL_ReadIO(rw, buf, sizeof(IOStreamHelloWorldTestString) - 1); SDLTest_AssertPass("Call to SDL_ReadIO succeeded"); SDLTest_AssertCheck( s == (sizeof(IOStreamHelloWorldTestString) - 1), "Verify result from SDL_ReadIO, expected %i, got %i", (int)(sizeof(IOStreamHelloWorldTestString) - 1), (int)s); SDLTest_AssertCheck( SDL_memcmp(buf, IOStreamHelloWorldTestString, sizeof(IOStreamHelloWorldTestString) - 1) == 0, "Verify read bytes match expected string, expected '%s', got '%s'", IOStreamHelloWorldTestString, buf); /* More seek tests. */ i = SDL_SeekIO(rw, -4, SDL_IO_SEEK_CUR); SDLTest_AssertPass("Call to SDL_SeekIO(...,-4,SDL_IO_SEEK_CUR) succeeded"); SDLTest_AssertCheck( i == (Sint64)(sizeof(IOStreamHelloWorldTestString) - 5), "Verify seek to -4 with SDL_SeekIO (SDL_IO_SEEK_CUR), expected %i, got %i", (int)(sizeof(IOStreamHelloWorldTestString) - 5), (int)i); i = SDL_SeekIO(rw, -1, SDL_IO_SEEK_END); SDLTest_AssertPass("Call to SDL_SeekIO(...,-1,SDL_IO_SEEK_END) succeeded"); SDLTest_AssertCheck( i == (Sint64)(sizeof(IOStreamHelloWorldTestString) - 2), "Verify seek to -1 with SDL_SeekIO (SDL_IO_SEEK_END), expected %i, got %i", (int)(sizeof(IOStreamHelloWorldTestString) - 2), (int)i); /* Invalid whence seek */ i = SDL_SeekIO(rw, 0, (SDL_IOWhence)999); SDLTest_AssertPass("Call to SDL_SeekIO(...,0,invalid_whence) succeeded"); SDLTest_AssertCheck( i == (Sint64)(-1), "Verify seek with SDL_SeekIO (invalid_whence); expected: -1, got %i", (int)i); } /** * Negative test for SDL_IOFromFile parameters * * \sa SDL_IOFromFile * */ static int SDLCALL iostrm_testParamNegative(void *arg) { SDL_IOStream *iostrm; /* These should all fail. */ iostrm = SDL_IOFromFile(NULL, NULL); SDLTest_AssertPass("Call to SDL_IOFromFile(NULL, NULL) succeeded"); SDLTest_AssertCheck(iostrm == NULL, "Verify SDL_IOFromFile(NULL, NULL) returns NULL"); iostrm = SDL_IOFromFile(NULL, "ab+"); SDLTest_AssertPass("Call to SDL_IOFromFile(NULL, \"ab+\") succeeded"); SDLTest_AssertCheck(iostrm == NULL, "Verify SDL_IOFromFile(NULL, \"ab+\") returns NULL"); iostrm = SDL_IOFromFile(NULL, "sldfkjsldkfj"); SDLTest_AssertPass("Call to SDL_IOFromFile(NULL, \"sldfkjsldkfj\") succeeded"); SDLTest_AssertCheck(iostrm == NULL, "Verify SDL_IOFromFile(NULL, \"sldfkjsldkfj\") returns NULL"); iostrm = SDL_IOFromFile("something", ""); SDLTest_AssertPass("Call to SDL_IOFromFile(\"something\", \"\") succeeded"); SDLTest_AssertCheck(iostrm == NULL, "Verify SDL_IOFromFile(\"something\", \"\") returns NULL"); iostrm = SDL_IOFromFile("something", NULL); SDLTest_AssertPass("Call to SDL_IOFromFile(\"something\", NULL) succeeded"); SDLTest_AssertCheck(iostrm == NULL, "Verify SDL_IOFromFile(\"something\", NULL) returns NULL"); iostrm = SDL_IOFromMem(NULL, 10); SDLTest_AssertPass("Call to SDL_IOFromMem(NULL, 10) succeeded"); SDLTest_AssertCheck(iostrm == NULL, "Verify SDL_IOFromMem(NULL, 10) returns NULL"); iostrm = SDL_IOFromMem((void *)IOStreamAlphabetString, 0); SDLTest_AssertPass("Call to SDL_IOFromMem(data, 0) succeeded"); SDLTest_AssertCheck(iostrm == NULL, "Verify SDL_IOFromMem(data, 0) returns NULL"); iostrm = SDL_IOFromConstMem((const void *)IOStreamAlphabetString, 0); SDLTest_AssertPass("Call to SDL_IOFromConstMem(data, 0) succeeded"); SDLTest_AssertCheck(iostrm == NULL, "Verify SDL_IOFromConstMem(data, 0) returns NULL"); return TEST_COMPLETED; } /** * Tests opening from memory. * * \sa SDL_IOFromMem * \sa SDL_CloseIO */ static int SDLCALL iostrm_testMem(void *arg) { char mem[sizeof(IOStreamHelloWorldTestString)]; SDL_IOStream *rw; int result; /* Clear buffer */ SDL_zeroa(mem); /* Open */ rw = SDL_IOFromMem(mem, sizeof(IOStreamHelloWorldTestString) - 1); SDLTest_AssertPass("Call to SDL_IOFromMem() succeeded"); SDLTest_AssertCheck(rw != NULL, "Verify opening memory with SDL_IOFromMem does not return NULL"); /* Bail out if NULL */ if (rw == NULL) { return TEST_ABORTED; } /* Run generic tests */ testGenericIOStreamValidations(rw, true); /* Close */ result = SDL_CloseIO(rw); SDLTest_AssertPass("Call to SDL_CloseIO() succeeded"); SDLTest_AssertCheck(result == true, "Verify result value is true; got: %d", result); return TEST_COMPLETED; } /** * Tests opening from memory. * * \sa SDL_IOFromConstMem * \sa SDL_CloseIO */ static int SDLCALL iostrm_testConstMem(void *arg) { SDL_IOStream *rw; int result; /* Open handle */ rw = SDL_IOFromConstMem(IOStreamHelloWorldCompString, sizeof(IOStreamHelloWorldCompString) - 1); SDLTest_AssertPass("Call to SDL_IOFromConstMem() succeeded"); SDLTest_AssertCheck(rw != NULL, "Verify opening memory with SDL_IOFromConstMem does not return NULL"); /* Bail out if NULL */ if (rw == NULL) { return TEST_ABORTED; } /* Run generic tests */ testGenericIOStreamValidations(rw, false); /* Close handle */ result = SDL_CloseIO(rw); SDLTest_AssertPass("Call to SDL_CloseIO() succeeded"); SDLTest_AssertCheck(result == true, "Verify result value is true; got: %d", result); return TEST_COMPLETED; } /** * Tests dynamic memory * * \sa SDL_IOFromDynamicMem * \sa SDL_CloseIO */ static int SDLCALL iostrm_testDynamicMem(void *arg) { SDL_IOStream *rw; SDL_PropertiesID props; char *mem; int result; /* Open */ rw = SDL_IOFromDynamicMem(); SDLTest_AssertPass("Call to SDL_IOFromDynamicMem() succeeded"); SDLTest_AssertCheck(rw != NULL, "Verify opening memory with SDL_IOFromDynamicMem does not return NULL"); /* Bail out if NULL */ if (rw == NULL) { return TEST_ABORTED; } /* Set the chunk size to 1 byte */ props = SDL_GetIOProperties(rw); SDL_SetNumberProperty(props, SDL_PROP_IOSTREAM_DYNAMIC_CHUNKSIZE_NUMBER, 1); /* Run generic tests */ testGenericIOStreamValidations(rw, true); /* Get the dynamic memory and verify it */ mem = (char *)SDL_GetPointerProperty(props, SDL_PROP_IOSTREAM_DYNAMIC_MEMORY_POINTER, NULL); SDLTest_AssertPass("Call to SDL_GetPointerProperty(props, SDL_PROP_IOSTREAM_DYNAMIC_MEMORY_POINTER, NULL) succeeded"); SDLTest_AssertCheck(mem != NULL, "Verify memory value is not NULL"); mem[SDL_GetIOSize(rw)] = '\0'; SDLTest_AssertCheck(SDL_strcmp(mem, IOStreamHelloWorldTestString) == 0, "Verify memory value is correct"); /* Take the memory and free it ourselves */ SDL_SetPointerProperty(props, SDL_PROP_IOSTREAM_DYNAMIC_MEMORY_POINTER, NULL); SDL_free(mem); /* Close */ result = SDL_CloseIO(rw); SDLTest_AssertPass("Call to SDL_CloseIO() succeeded"); SDLTest_AssertCheck(result == true, "Verify result value is true; got: %d", result); return TEST_COMPLETED; } /** * Tests reading from file. * * \sa SDL_IOFromFile * \sa SDL_CloseIO */ static int SDLCALL iostrm_testFileRead(void *arg) { SDL_IOStream *rw; int result; /* Read test. */ rw = SDL_IOFromFile(IOStreamReadTestFilename, "r"); SDLTest_AssertPass("Call to SDL_IOFromFile(..,\"r\") succeeded"); SDLTest_AssertCheck(rw != NULL, "Verify opening file with SDL_IOFromFile in read mode does not return NULL"); /* Bail out if NULL */ if (rw == NULL) { return TEST_ABORTED; } /* Run generic tests */ testGenericIOStreamValidations(rw, false); /* Close handle */ result = SDL_CloseIO(rw); SDLTest_AssertPass("Call to SDL_CloseIO() succeeded"); SDLTest_AssertCheck(result == true, "Verify result value is true; got: %d", result); return TEST_COMPLETED; } /** * Tests writing from file. * * \sa SDL_IOFromFile * \sa SDL_CloseIO */ static int SDLCALL iostrm_testFileWrite(void *arg) { SDL_IOStream *rw; int result; /* Write test. */ rw = SDL_IOFromFile(IOStreamWriteTestFilename, "w+"); SDLTest_AssertPass("Call to SDL_IOFromFile(..,\"w+\") succeeded"); SDLTest_AssertCheck(rw != NULL, "Verify opening file with SDL_IOFromFile in write mode does not return NULL"); /* Bail out if NULL */ if (rw == NULL) { return TEST_ABORTED; } /* Run generic tests */ testGenericIOStreamValidations(rw, true); /* Close handle */ result = SDL_CloseIO(rw); SDLTest_AssertPass("Call to SDL_CloseIO() succeeded"); SDLTest_AssertCheck(result == true, "Verify result value is true; got: %d", result); return TEST_COMPLETED; } /** * Tests alloc and free RW context. * * \sa SDL_OpenIO * \sa SDL_CloseIO */ static int SDLCALL iostrm_testAllocFree(void *arg) { /* Allocate context */ SDL_IOStreamInterface iface; SDL_IOStream *rw; SDL_INIT_INTERFACE(&iface); rw = SDL_OpenIO(&iface, NULL); SDLTest_AssertPass("Call to SDL_OpenIO() succeeded"); SDLTest_AssertCheck(rw != NULL, "Validate result from SDL_OpenIO() is not NULL"); if (rw == NULL) { return TEST_ABORTED; } /* Free context again */ SDL_CloseIO(rw); SDLTest_AssertPass("Call to SDL_CloseIO() succeeded"); return TEST_COMPLETED; } /** * Compare memory and file reads * * \sa SDL_IOFromMem * \sa SDL_IOFromFile */ static int SDLCALL iostrm_testCompareRWFromMemWithRWFromFile(void *arg) { int slen = 26; char buffer_file[27]; char buffer_mem[27]; size_t rv_file; size_t rv_mem; Uint64 sv_file; Uint64 sv_mem; SDL_IOStream *iostrm_file; SDL_IOStream *iostrm_mem; int size; int result; for (size = 5; size < 10; size++) { /* Terminate buffer */ buffer_file[slen] = 0; buffer_mem[slen] = 0; /* Read/seek from memory */ iostrm_mem = SDL_IOFromMem((void *)IOStreamAlphabetString, slen); SDLTest_AssertPass("Call to SDL_IOFromMem()"); rv_mem = SDL_ReadIO(iostrm_mem, buffer_mem, size * 6); SDLTest_AssertPass("Call to SDL_ReadIO(mem, size=%d)", size * 6); sv_mem = SDL_SeekIO(iostrm_mem, 0, SEEK_END); SDLTest_AssertPass("Call to SDL_SeekIO(mem,SEEK_END)"); result = SDL_CloseIO(iostrm_mem); SDLTest_AssertPass("Call to SDL_CloseIO(mem)"); SDLTest_AssertCheck(result == true, "Verify result value is true; got: %d", result); /* Read/see from file */ iostrm_file = SDL_IOFromFile(IOStreamAlphabetFilename, "r"); SDLTest_AssertPass("Call to SDL_IOFromFile()"); rv_file = SDL_ReadIO(iostrm_file, buffer_file, size * 6); SDLTest_AssertPass("Call to SDL_ReadIO(file, size=%d)", size * 6); sv_file = SDL_SeekIO(iostrm_file, 0, SEEK_END); SDLTest_AssertPass("Call to SDL_SeekIO(file,SEEK_END)"); result = SDL_CloseIO(iostrm_file); SDLTest_AssertPass("Call to SDL_CloseIO(file)"); SDLTest_AssertCheck(result == true, "Verify result value is true; got: %d", result); /* Compare */ SDLTest_AssertCheck(rv_mem == rv_file, "Verify returned read blocks matches for mem and file reads; got: rv_mem=%d rv_file=%d", (int)rv_mem, (int)rv_file); SDLTest_AssertCheck(sv_mem == sv_file, "Verify SEEK_END position matches for mem and file seeks; got: sv_mem=%d sv_file=%d", (int)sv_mem, (int)sv_file); SDLTest_AssertCheck(buffer_mem[slen] == 0, "Verify mem buffer termination; expected: 0, got: %d", buffer_mem[slen]); SDLTest_AssertCheck(buffer_file[slen] == 0, "Verify file buffer termination; expected: 0, got: %d", buffer_file[slen]); SDLTest_AssertCheck( SDL_strncmp(buffer_mem, IOStreamAlphabetString, slen) == 0, "Verify mem buffer contain alphabet string; expected: %s, got: %s", IOStreamAlphabetString, buffer_mem); SDLTest_AssertCheck( SDL_strncmp(buffer_file, IOStreamAlphabetString, slen) == 0, "Verify file buffer contain alphabet string; expected: %s, got: %s", IOStreamAlphabetString, buffer_file); } return TEST_COMPLETED; } /** * Tests writing and reading from file using endian aware functions. * * \sa SDL_IOFromFile * \sa SDL_CloseIO * \sa SDL_ReadU16BE * \sa SDL_WriteU16BE */ static int SDLCALL iostrm_testFileWriteReadEndian(void *arg) { SDL_IOStream *rw; Sint64 result; int mode; Uint16 BE16value; Uint32 BE32value; Uint64 BE64value; Uint16 LE16value; Uint32 LE32value; Uint64 LE64value; Uint16 BE16test; Uint32 BE32test; Uint64 BE64test; Uint16 LE16test; Uint32 LE32test; Uint64 LE64test; bool bresult; int cresult; for (mode = 0; mode < 3; mode++) { /* Create test data */ switch (mode) { default: case 0: SDLTest_Log("All 0 values"); BE16value = 0; BE32value = 0; BE64value = 0; LE16value = 0; LE32value = 0; LE64value = 0; break; case 1: SDLTest_Log("All 1 values"); BE16value = 1; BE32value = 1; BE64value = 1; LE16value = 1; LE32value = 1; LE64value = 1; break; case 2: SDLTest_Log("Random values"); BE16value = SDLTest_RandomUint16(); BE32value = SDLTest_RandomUint32(); BE64value = SDLTest_RandomUint64(); LE16value = SDLTest_RandomUint16(); LE32value = SDLTest_RandomUint32(); LE64value = SDLTest_RandomUint64(); break; } /* Write test. */ rw = SDL_IOFromFile(IOStreamWriteTestFilename, "w+"); SDLTest_AssertPass("Call to SDL_IOFromFile(..,\"w+\")"); SDLTest_AssertCheck(rw != NULL, "Verify opening file with SDL_IOFromFile in write mode does not return NULL"); /* Bail out if NULL */ if (rw == NULL) { return TEST_ABORTED; } /* Write test data */ bresult = SDL_WriteU16BE(rw, BE16value); SDLTest_AssertPass("Call to SDL_WriteU16BE()"); SDLTest_AssertCheck(bresult == true, "Validate object written, expected: true, got: false"); bresult = SDL_WriteU32BE(rw, BE32value); SDLTest_AssertPass("Call to SDL_WriteU32BE()"); SDLTest_AssertCheck(bresult == true, "Validate object written, expected: true, got: false"); bresult = SDL_WriteU64BE(rw, BE64value); SDLTest_AssertPass("Call to SDL_WriteU64BE()"); SDLTest_AssertCheck(bresult == true, "Validate object written, expected: true, got: false"); bresult = SDL_WriteU16LE(rw, LE16value); SDLTest_AssertPass("Call to SDL_WriteU16LE()"); SDLTest_AssertCheck(bresult == true, "Validate object written, expected: true, got: false"); bresult = SDL_WriteU32LE(rw, LE32value); SDLTest_AssertPass("Call to SDL_WriteU32LE()"); SDLTest_AssertCheck(bresult == true, "Validate object written, expected: true, got: false"); bresult = SDL_WriteU64LE(rw, LE64value); SDLTest_AssertPass("Call to SDL_WriteU64LE()"); SDLTest_AssertCheck(bresult == true, "Validate object written, expected: true, got: false"); /* Test seek to start */ result = SDL_SeekIO(rw, 0, SDL_IO_SEEK_SET); SDLTest_AssertPass("Call to SDL_SeekIO succeeded"); SDLTest_AssertCheck(result == 0, "Verify result from position 0 with SDL_SeekIO, expected 0, got %i", (int)result); /* Read test data */ bresult = SDL_ReadU16BE(rw, &BE16test); SDLTest_AssertPass("Call to SDL_ReadU16BE()"); SDLTest_AssertCheck(bresult == true, "Validate object read, expected: true, got: false"); SDLTest_AssertCheck(BE16test == BE16value, "Validate object read from SDL_ReadU16BE, expected: %hu, got: %hu", BE16value, BE16test); bresult = SDL_ReadU32BE(rw, &BE32test); SDLTest_AssertPass("Call to SDL_ReadU32BE()"); SDLTest_AssertCheck(bresult == true, "Validate object read, expected: true, got: false"); SDLTest_AssertCheck(BE32test == BE32value, "Validate object read from SDL_ReadU32BE, expected: %" SDL_PRIu32 ", got: %" SDL_PRIu32, BE32value, BE32test); bresult = SDL_ReadU64BE(rw, &BE64test); SDLTest_AssertPass("Call to SDL_ReadU64BE()"); SDLTest_AssertCheck(bresult == true, "Validate object read, expected: true, got: false"); SDLTest_AssertCheck(BE64test == BE64value, "Validate object read from SDL_ReadU64BE, expected: %" SDL_PRIu64 ", got: %" SDL_PRIu64, BE64value, BE64test); bresult = SDL_ReadU16LE(rw, &LE16test); SDLTest_AssertPass("Call to SDL_ReadU16LE()"); SDLTest_AssertCheck(bresult == true, "Validate object read, expected: true, got: false"); SDLTest_AssertCheck(LE16test == LE16value, "Validate object read from SDL_ReadU16LE, expected: %hu, got: %hu", LE16value, LE16test); bresult = SDL_ReadU32LE(rw, &LE32test); SDLTest_AssertPass("Call to SDL_ReadU32LE()"); SDLTest_AssertCheck(bresult == true, "Validate object read, expected: true, got: false"); SDLTest_AssertCheck(LE32test == LE32value, "Validate object read from SDL_ReadU32LE, expected: %" SDL_PRIu32 ", got: %" SDL_PRIu32, LE32value, LE32test); bresult = SDL_ReadU64LE(rw, &LE64test); SDLTest_AssertPass("Call to SDL_ReadU64LE()"); SDLTest_AssertCheck(bresult == true, "Validate object read, expected: true, got: false"); SDLTest_AssertCheck(LE64test == LE64value, "Validate object read from SDL_ReadU64LE, expected: %" SDL_PRIu64 ", got: %" SDL_PRIu64, LE64value, LE64test); /* Close handle */ cresult = SDL_CloseIO(rw); SDLTest_AssertPass("Call to SDL_CloseIO() succeeded"); SDLTest_AssertCheck(cresult == true, "Verify result value is true; got: %d", cresult); } return TEST_COMPLETED; } /* ================= Test References ================== */ /* IOStream test cases */ static const SDLTest_TestCaseReference iostrmTest1 = { iostrm_testParamNegative, "iostrm_testParamNegative", "Negative test for SDL_IOFromFile parameters", TEST_ENABLED }; static const SDLTest_TestCaseReference iostrmTest2 = { iostrm_testMem, "iostrm_testMem", "Tests opening from memory", TEST_ENABLED }; static const SDLTest_TestCaseReference iostrmTest3 = { iostrm_testConstMem, "iostrm_testConstMem", "Tests opening from (const) memory", TEST_ENABLED }; static const SDLTest_TestCaseReference iostrmTest4 = { iostrm_testDynamicMem, "iostrm_testDynamicMem", "Tests opening dynamic memory", TEST_ENABLED }; static const SDLTest_TestCaseReference iostrmTest5 = { iostrm_testFileRead, "iostrm_testFileRead", "Tests reading from a file", TEST_ENABLED }; static const SDLTest_TestCaseReference iostrmTest6 = { iostrm_testFileWrite, "iostrm_testFileWrite", "Test writing to a file", TEST_ENABLED }; static const SDLTest_TestCaseReference iostrmTest7 = { iostrm_testAllocFree, "iostrm_testAllocFree", "Test alloc and free of RW context", TEST_ENABLED }; static const SDLTest_TestCaseReference iostrmTest8 = { iostrm_testFileWriteReadEndian, "iostrm_testFileWriteReadEndian", "Test writing and reading via the Endian aware functions", TEST_ENABLED }; static const SDLTest_TestCaseReference iostrmTest9 = { iostrm_testCompareRWFromMemWithRWFromFile, "iostrm_testCompareRWFromMemWithRWFromFile", "Compare RWFromMem and RWFromFile IOStream for read and seek", TEST_ENABLED }; /* Sequence of IOStream test cases */ static const SDLTest_TestCaseReference *iostrmTests[] = { &iostrmTest1, &iostrmTest2, &iostrmTest3, &iostrmTest4, &iostrmTest5, &iostrmTest6, &iostrmTest7, &iostrmTest8, &iostrmTest9, NULL }; /* IOStream test suite (global) */ SDLTest_TestSuiteReference iostrmTestSuite = { "IOStream", IOStreamSetUp, iostrmTests, IOStreamTearDown };