sola/scpi-parser.git

			@@ -282,11 +282,12 @@



			// TODO: SCPI_ERROR_INVALID_SEPARATOR
			// TODO: SCPI_ERROR_INVALID_SUFFIX
			// TODO: SCPI_ERROR_SUFFIX_NOT_ALLOWED
			// TODO: SCPI_ERROR_EXECUTION_ERROR
			// TODO: SCPI_ERROR_ILLEGAL_PARAMETER_VALUE
			/* TODO: SCPI_ERROR_INVALID_SEPARATOR
			* TODO: SCPI_ERROR_INVALID_SUFFIX
			* TODO: SCPI_ERROR_SUFFIX_NOT_ALLOWED
			* TODO: SCPI_ERROR_EXECUTION_ERROR
			* TODO: SCPI_ERROR_ILLEGAL_PARAMETER_VALUE
			*/

			output_buffer_clear();
			error_buffer_clear();
			@@ -349,7 +350,7 @@
			}

			#define TEST_IEEE4882_REG(reg, expected) { \
			CU_ASSERT_EQUAL(SCPI_RegGet(&scpi_context, reg), expected); \
			CU_ASSERT_EQUAL(SCPI_RegGet(&scpi_context, (scpi_reg_name_t)(reg)), expected);\
			}


			@@ -471,17 +472,17 @@
			static void testSCPI_ParamInt32(void) {
			TEST_ParamInt32("10", TRUE, 10, TRUE, 0);
			TEST_ParamInt32("", FALSE, 0, FALSE, 0);
			TEST_ParamInt32("10.5", TRUE, 10, TRUE, 0); // TODO: should be FALSE, -104
			TEST_ParamInt32("10.5", TRUE, 10, TRUE, 0); /* TODO: should be FALSE, -104 */
			TEST_ParamInt32("#B101010", TRUE, 42, TRUE, 0);
			TEST_ParamInt32("#H101010", TRUE, 1052688, TRUE, 0);
			TEST_ParamInt32("#Q10", TRUE, 8, TRUE, 0);

			TEST_ParamInt32("", TRUE, 0, FALSE, SCPI_ERROR_MISSING_PARAMETER); // missing parameter
			TEST_ParamInt32("abcd", TRUE, 0, FALSE, SCPI_ERROR_DATA_TYPE_ERROR); // Data type error
			TEST_ParamInt32("", TRUE, 0, FALSE, SCPI_ERROR_MISSING_PARAMETER); /* missing parameter */
			TEST_ParamInt32("abcd", TRUE, 0, FALSE, SCPI_ERROR_DATA_TYPE_ERROR); /* Data type error */
			TEST_ParamInt32("10.5V", TRUE, 0, FALSE, SCPI_ERROR_SUFFIX_NOT_ALLOWED);
			TEST_ParamInt32("10V", TRUE, 0, FALSE, SCPI_ERROR_SUFFIX_NOT_ALLOWED);

			// test range
			/* test range */
			TEST_ParamInt32("2147483647", TRUE, 2147483647, TRUE, 0);
			TEST_ParamInt32("-2147483647", TRUE, -2147483647, TRUE, 0);
			}
			@@ -510,17 +511,17 @@
			static void testSCPI_ParamUInt32(void) {
			TEST_ParamUInt32("10", TRUE, 10, TRUE, 0);
			TEST_ParamUInt32("", FALSE, 0, FALSE, 0);
			TEST_ParamUInt32("10.5", TRUE, 10, TRUE, 0); // TODO: should be FALSE, -104
			TEST_ParamUInt32("10.5", TRUE, 10, TRUE, 0); /* TODO: should be FALSE, -104 */
			TEST_ParamUInt32("#B101010", TRUE, 42, TRUE, 0);
			TEST_ParamUInt32("#H101010", TRUE, 1052688, TRUE, 0);
			TEST_ParamUInt32("#Q10", TRUE, 8, TRUE, 0);

			TEST_ParamUInt32("", TRUE, 0, FALSE, SCPI_ERROR_MISSING_PARAMETER); // missing parameter
			TEST_ParamUInt32("abcd", TRUE, 0, FALSE, SCPI_ERROR_DATA_TYPE_ERROR); // Data type error
			TEST_ParamUInt32("", TRUE, 0, FALSE, SCPI_ERROR_MISSING_PARAMETER); /* missing parameter */
			TEST_ParamUInt32("abcd", TRUE, 0, FALSE, SCPI_ERROR_DATA_TYPE_ERROR); /* Data type error */
			TEST_ParamUInt32("10.5V", TRUE, 0, FALSE, SCPI_ERROR_SUFFIX_NOT_ALLOWED);
			TEST_ParamUInt32("10V", TRUE, 0, FALSE, SCPI_ERROR_SUFFIX_NOT_ALLOWED);

			// test range
			/* test range */
			TEST_ParamUInt32("2147483647", TRUE, 2147483647ULL, TRUE, 0);
			TEST_ParamUInt32("4294967295", TRUE, 4294967295ULL, TRUE, 0);
			}
			@@ -549,17 +550,17 @@
			static void testSCPI_ParamInt64(void) {
			TEST_ParamInt64("10", TRUE, 10, TRUE, 0);
			TEST_ParamInt64("", FALSE, 0, FALSE, 0);
			TEST_ParamInt64("10.5", TRUE, 10, TRUE, 0); // TODO: should be FALSE, -104
			TEST_ParamInt64("10.5", TRUE, 10, TRUE, 0); /* TODO: should be FALSE, -104 */
			TEST_ParamInt64("#B101010", TRUE, 42, TRUE, 0);
			TEST_ParamInt64("#H101010", TRUE, 1052688, TRUE, 0);
			TEST_ParamInt64("#Q10", TRUE, 8, TRUE, 0);

			TEST_ParamInt64("", TRUE, 0, FALSE, SCPI_ERROR_MISSING_PARAMETER); // missing parameter
			TEST_ParamInt64("abcd", TRUE, 0, FALSE, SCPI_ERROR_DATA_TYPE_ERROR); // Data type error
			TEST_ParamInt64("", TRUE, 0, FALSE, SCPI_ERROR_MISSING_PARAMETER); /* missing parameter */
			TEST_ParamInt64("abcd", TRUE, 0, FALSE, SCPI_ERROR_DATA_TYPE_ERROR); /* Data type error */
			TEST_ParamInt64("10.5V", TRUE, 0, FALSE, SCPI_ERROR_SUFFIX_NOT_ALLOWED);
			TEST_ParamInt64("10V", TRUE, 0, FALSE, SCPI_ERROR_SUFFIX_NOT_ALLOWED);

			// test range
			/* test range */
			TEST_ParamInt64("2147483647", TRUE, 2147483647LL, TRUE, 0);
			TEST_ParamInt64("-2147483647", TRUE, -2147483647LL, TRUE, 0);
			TEST_ParamInt64("9223372036854775807", TRUE, 9223372036854775807LL, TRUE, 0);
			@@ -590,17 +591,17 @@
			static void testSCPI_ParamUInt64(void) {
			TEST_ParamUInt64("10", TRUE, 10, TRUE, 0);
			TEST_ParamUInt64("", FALSE, 0, FALSE, 0);
			TEST_ParamUInt64("10.5", TRUE, 10, TRUE, 0); // TODO: should be FALSE, -104
			TEST_ParamUInt64("10.5", TRUE, 10, TRUE, 0); /* TODO: should be FALSE, -104 */
			TEST_ParamUInt64("#B101010", TRUE, 42, TRUE, 0);
			TEST_ParamUInt64("#H101010", TRUE, 1052688, TRUE, 0);
			TEST_ParamUInt64("#Q10", TRUE, 8, TRUE, 0);

			TEST_ParamUInt64("", TRUE, 0, FALSE, SCPI_ERROR_MISSING_PARAMETER); // missing parameter
			TEST_ParamUInt64("abcd", TRUE, 0, FALSE, SCPI_ERROR_DATA_TYPE_ERROR); // Data type error
			TEST_ParamUInt64("", TRUE, 0, FALSE, SCPI_ERROR_MISSING_PARAMETER); /* missing parameter */
			TEST_ParamUInt64("abcd", TRUE, 0, FALSE, SCPI_ERROR_DATA_TYPE_ERROR); /* Data type error */
			TEST_ParamUInt64("10.5V", TRUE, 0, FALSE, SCPI_ERROR_SUFFIX_NOT_ALLOWED);
			TEST_ParamUInt64("10V", TRUE, 0, FALSE, SCPI_ERROR_SUFFIX_NOT_ALLOWED);

			// test range
			/* test range */
			TEST_ParamUInt64("2147483647", TRUE, 2147483647ULL, TRUE, 0);
			TEST_ParamUInt64("4294967295", TRUE, 4294967295ULL, TRUE, 0);
			TEST_ParamUInt64("9223372036854775807", TRUE, 9223372036854775807ULL, TRUE, 0);
			@@ -638,8 +639,8 @@
			TEST_ParamFloat("#Q10", TRUE, 8, TRUE, 0);
			TEST_ParamFloat("#HFFFFFF", TRUE, 0xFFFFFFu, TRUE, 0);

			TEST_ParamFloat("", TRUE, 0, FALSE, SCPI_ERROR_MISSING_PARAMETER); // missing parameter
			TEST_ParamFloat("abcd", TRUE, 0, FALSE, SCPI_ERROR_DATA_TYPE_ERROR); // Data type error
			TEST_ParamFloat("", TRUE, 0, FALSE, SCPI_ERROR_MISSING_PARAMETER); /* missing parameter */
			TEST_ParamFloat("abcd", TRUE, 0, FALSE, SCPI_ERROR_DATA_TYPE_ERROR); /* Data type error */
			TEST_ParamFloat("10.5V", TRUE, 0, FALSE, SCPI_ERROR_SUFFIX_NOT_ALLOWED);
			TEST_ParamFloat("10V", TRUE, 0, FALSE, SCPI_ERROR_SUFFIX_NOT_ALLOWED);
			}
			@@ -674,8 +675,8 @@
			TEST_ParamDouble("#Q10", TRUE, 8, TRUE, 0);
			TEST_ParamDouble("#HFFFFFFFF", TRUE, 0xFFFFFFFFu, TRUE, 0);

			TEST_ParamDouble("", TRUE, 0, FALSE, SCPI_ERROR_MISSING_PARAMETER); // missing parameter
			TEST_ParamDouble("abcd", TRUE, 0, FALSE, SCPI_ERROR_DATA_TYPE_ERROR); // Data type error
			TEST_ParamDouble("", TRUE, 0, FALSE, SCPI_ERROR_MISSING_PARAMETER); /* missing parameter */
			TEST_ParamDouble("abcd", TRUE, 0, FALSE, SCPI_ERROR_DATA_TYPE_ERROR); /* Data type error */
			TEST_ParamDouble("10.5V", TRUE, 0, FALSE, SCPI_ERROR_SUFFIX_NOT_ALLOWED);
			TEST_ParamDouble("10V", TRUE, 0, FALSE, SCPI_ERROR_SUFFIX_NOT_ALLOWED);
			}
			@@ -704,11 +705,11 @@

			static void testSCPI_ParamCharacters(void) {
			TEST_ParamCharacters("10", TRUE, "10", TRUE, 0);
			TEST_ParamCharacters(" ABCD", TRUE, "ABCD", TRUE, 0); // TokProgramMnemonic
			TEST_ParamCharacters("\"ABCD\"", TRUE, "ABCD", TRUE, 0); // TokDoubleQuoteProgramData
			TEST_ParamCharacters("\'ABCD\'", TRUE, "ABCD", TRUE, 0); // TokSingleQuoteProgramData
			TEST_ParamCharacters("#204ABCD", TRUE, "ABCD", TRUE, 0); // TokArbitraryBlockProgramData
			TEST_ParamCharacters("#210ABCD", TRUE, "", FALSE, SCPI_ERROR_INVALID_STRING_DATA); // invalid Block Data
			TEST_ParamCharacters(" ABCD", TRUE, "ABCD", TRUE, 0); /* TokProgramMnemonic */
			TEST_ParamCharacters("\"ABCD\"", TRUE, "ABCD", TRUE, 0); /* TokDoubleQuoteProgramData */
			TEST_ParamCharacters("\'ABCD\'", TRUE, "ABCD", TRUE, 0); /* TokSingleQuoteProgramData */
			TEST_ParamCharacters("#204ABCD", TRUE, "ABCD", TRUE, 0); /* TokArbitraryBlockProgramData */
			TEST_ParamCharacters("#210ABCD", TRUE, "", FALSE, SCPI_ERROR_INVALID_STRING_DATA); /* invalid Block Data */
			}


			@@ -1123,7 +1124,7 @@
			TEST_Result(Int32, 10, "10");
			TEST_Result(Int32, -10, "-10");
			TEST_Result(Int32, 2147483647L, "2147483647");
			//TEST_Result(Int32, -2147483648L, "-2147483648"); // bug in GCC
			/* TEST_Result(Int32, -2147483648L, "-2147483648"); bug in GCC */
			TEST_Result(Int32, -2147483647L, "-2147483647");
			}

			@@ -1131,7 +1132,7 @@
			TEST_Result(UInt32, 10, "10");
			TEST_Result(UInt32, -10, "4294967286");
			TEST_Result(UInt32, 2147483647L, "2147483647");
			//TEST_Result(UInt32, -2147483648L, "2147483648"); // bug in GCC
			/* TEST_Result(UInt32, -2147483648L, "2147483648"); bug in GCC */
			TEST_Result(UInt32, -2147483647L, "2147483649");
			TEST_Result(UInt32, 4294967295UL, "4294967295");

			@@ -1148,10 +1149,10 @@
			TEST_Result(Int64, 32767, "32767");
			TEST_Result(Int64, -32768, "-32768");
			TEST_Result(Int64, 2147483647L, "2147483647");
			//TEST_Result(Int64, -2147483648, "-2147483648"); // bug in gcc
			/* TEST_Result(Int64, -2147483648, "-2147483648"); bug in gcc */
			TEST_Result(Int64, -2147483647L, "-2147483647");
			TEST_Result(Int64, 9223372036854775807LL, "9223372036854775807");
			//TEST_Result(Int64, -9223372036854775808LL, "-9223372036854775808"); bug in GCC
			/* TEST_Result(Int64, -9223372036854775808LL, "-9223372036854775808"); bug in GCC */
			TEST_Result(Int64, -9223372036854775807LL, "-9223372036854775807");
			}

			@@ -1163,10 +1164,10 @@
			TEST_Result(UInt64, 32767, "32767");
			TEST_Result(UInt64, -32768, "18446744073709518848");
			TEST_Result(UInt64, 2147483647L, "2147483647");
			//TEST_Result(UInt64, -2147483648L, "18446744071562067968"); // bug in GCC
			/* TEST_Result(UInt64, -2147483648L, "18446744071562067968"); bug in GCC */
			TEST_Result(UInt64, -2147483647L, "18446744071562067969");
			TEST_Result(UInt64, 9223372036854775807LL, "9223372036854775807");
			//TEST_Result(Int64, -9223372036854775808LL, "9223372036854775808"); bug in GCC
			/* TEST_Result(Int64, -9223372036854775808LL, "9223372036854775808"); bug in GCC */
			TEST_Result(UInt64, -9223372036854775807LL, "9223372036854775809");
			TEST_Result(UInt64, 18446744073709551615ULL, "18446744073709551615");

			@@ -1183,7 +1184,7 @@
			TEST_Result(Float, 32767, "32767");
			TEST_Result(Float, -32768, "-32768");
			TEST_Result(Float, 2147483647L, "2.14748e+09");
			//TEST_Result(Float, -2147483648, "-2.14748e+09"); // bug in GCC
			/* TEST_Result(Float, -2147483648, "-2.14748e+09"); bug in GCC */
			TEST_Result(Float, -2147483647L, "-2.14748e+09");
			TEST_Result(Float, 9223372036854775807LL, "9.22337e+18");
			TEST_Result(Float, -9223372036854775807LL, "-9.22337e+18");
			@@ -1200,10 +1201,12 @@
			TEST_Result(Double, 32767, "32767");
			TEST_Result(Double, -32768, "-32768");
			TEST_Result(Double, 2147483647, "2147483647");
			//TEST_Result(Double, -2147483648, "-2147483648"); // bug in GCC
			/* TEST_Result(Double, -2147483648, "-2147483648"); bug in GCC */
			TEST_Result(Double, -2147483647, "-2147483647");
			TEST_Result(Double, 9223372036854775807LL, "9.22337203685478e+18");
			TEST_Result(Double, -9223372036854775807LL, "-9.22337203685478e+18");
			/* TEST_Result(Double, 9223372036854775807LL, "9.22337203685478e+18"); */
			/* TEST_Result(Double, -9223372036854775807LL, "-9.22337203685478e+18"); */
			TEST_Result(Double, 9223372036854700000LL, "9.2233720368547e+18");
			TEST_Result(Double, -9223372036854700000LL, "-9.2233720368547e+18");

			TEST_Result(Double, 1.256e-17, "1.256e-17");
			TEST_Result(Double, -1.256e-17, "-1.256e-17");
			@@ -1325,6 +1328,90 @@
			TEST_Result(ArrayDoubleSWAPPED, double_arr, "#216" "\x40\x8c\x16\xd3\x66\x67\xd1\x42" "\x1c\xbc\x6e\xf2\x54\x8b\x11\x43");
			}

			#define _countof(a) (sizeof(a)/sizeof(*(a)))

			#define TEST_ParamArrayDouble(T, func, data, mandatory, _expected_value, expected_result, expected_error_code) \
			{ \
			T value[10]; \
			scpi_bool_t result; \
			scpi_error_t errCode; \
			T expected_value[] = {NOPAREN _expected_value}; \
			size_t o_count; \
			size_t i_count = _countof(expected_value); \
			\
			SCPI_CoreCls(&scpi_context); \
			scpi_context.input_count = 0; \
			scpi_context.param_list.lex_state.buffer = data; \
			scpi_context.param_list.lex_state.len = strlen(scpi_context.param_list.lex_state.buffer);\
			scpi_context.param_list.lex_state.pos = scpi_context.param_list.lex_state.buffer; \
			result = func(&scpi_context, value, 10, &o_count, SCPI_FORMAT_ASCII, mandatory); \
			\
			SCPI_ErrorPop(&scpi_context, &errCode); \
			CU_ASSERT_EQUAL(result, expected_result); \
			if (expected_result) { \
			CU_ASSERT_EQUAL(i_count, o_count); \
			size_t i; \
			for(i = 0; i < o_count; i++) { \
			CU_ASSERT_DOUBLE_EQUAL(value[i], expected_value[i], 0.000001); \
			} \
			} \
			CU_ASSERT_EQUAL(errCode.error_code, expected_error_code); \
			}

			#define TEST_ParamArrayInt(T, func, data, mandatory, _expected_value, expected_result, expected_error_code) \
			{ \
			T value[10]; \
			scpi_bool_t result; \
			scpi_error_t errCode; \
			T expected_value[] = {NOPAREN _expected_value}; \
			size_t o_count; \
			size_t i_count = _countof(expected_value); \
			\
			SCPI_CoreCls(&scpi_context); \
			scpi_context.input_count = 0; \
			scpi_context.param_list.lex_state.buffer = data; \
			scpi_context.param_list.lex_state.len = strlen(scpi_context.param_list.lex_state.buffer);\
			scpi_context.param_list.lex_state.pos = scpi_context.param_list.lex_state.buffer; \
			result = func(&scpi_context, value, 10, &o_count, SCPI_FORMAT_ASCII, mandatory); \
			\
			SCPI_ErrorPop(&scpi_context, &errCode); \
			CU_ASSERT_EQUAL(result, expected_result); \
			if (expected_result) { \
			CU_ASSERT_EQUAL(i_count, o_count); \
			size_t i; \
			for(i = 0; i < o_count; i++) { \
			CU_ASSERT_EQUAL(value[i], expected_value[i]); \
			} \
			} \
			CU_ASSERT_EQUAL(errCode.error_code, expected_error_code); \
			}

			static void testParamArray(void) {
			TEST_ParamArrayDouble(double, SCPI_ParamArrayDouble, "1, 2, 3", TRUE, (1, 2, 3), TRUE, SCPI_ERROR_NO_ERROR);
			TEST_ParamArrayDouble(double, SCPI_ParamArrayDouble, "", TRUE, (0), FALSE, SCPI_ERROR_MISSING_PARAMETER);
			TEST_ParamArrayDouble(double, SCPI_ParamArrayDouble, "1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11", TRUE, (1, 2, 3, 4, 5, 6, 7, 8, 9, 10), TRUE, SCPI_ERROR_NO_ERROR);

			TEST_ParamArrayDouble(float, SCPI_ParamArrayFloat, "1, 2, 3", TRUE, (1, 2, 3), TRUE, SCPI_ERROR_NO_ERROR);
			TEST_ParamArrayDouble(float, SCPI_ParamArrayFloat, "", TRUE, (0), FALSE, SCPI_ERROR_MISSING_PARAMETER);
			TEST_ParamArrayDouble(float, SCPI_ParamArrayFloat, "1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11", TRUE, (1, 2, 3, 4, 5, 6, 7, 8, 9, 10), TRUE, SCPI_ERROR_NO_ERROR);

			TEST_ParamArrayInt(int32_t, SCPI_ParamArrayInt32, "1, 2, 3", TRUE, (1, 2, 3), TRUE, SCPI_ERROR_NO_ERROR);
			TEST_ParamArrayInt(int32_t, SCPI_ParamArrayInt32, "", TRUE, (0), FALSE, SCPI_ERROR_MISSING_PARAMETER);
			TEST_ParamArrayInt(int32_t, SCPI_ParamArrayInt32, "1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11", TRUE, (1, 2, 3, 4, 5, 6, 7, 8, 9, 10), TRUE, SCPI_ERROR_NO_ERROR);

			TEST_ParamArrayInt(uint32_t, SCPI_ParamArrayUInt32, "1, 2, 3", TRUE, (1, 2, 3), TRUE, SCPI_ERROR_NO_ERROR);
			TEST_ParamArrayInt(uint32_t, SCPI_ParamArrayUInt32, "", TRUE, (0), FALSE, SCPI_ERROR_MISSING_PARAMETER);
			TEST_ParamArrayInt(uint32_t, SCPI_ParamArrayUInt32, "1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11", TRUE, (1, 2, 3, 4, 5, 6, 7, 8, 9, 10), TRUE, SCPI_ERROR_NO_ERROR);

			TEST_ParamArrayInt(int64_t, SCPI_ParamArrayInt64, "1, 2, 3", TRUE, (1, 2, 3), TRUE, SCPI_ERROR_NO_ERROR);
			TEST_ParamArrayInt(int64_t, SCPI_ParamArrayInt64, "", TRUE, (0), FALSE, SCPI_ERROR_MISSING_PARAMETER);
			TEST_ParamArrayInt(int64_t, SCPI_ParamArrayInt64, "1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11", TRUE, (1, 2, 3, 4, 5, 6, 7, 8, 9, 10), TRUE, SCPI_ERROR_NO_ERROR);

			TEST_ParamArrayInt(uint64_t, SCPI_ParamArrayUInt64, "1, 2, 3", TRUE, (1, 2, 3), TRUE, SCPI_ERROR_NO_ERROR);
			TEST_ParamArrayInt(uint64_t, SCPI_ParamArrayUInt64, "", TRUE, (0), FALSE, SCPI_ERROR_MISSING_PARAMETER);
			TEST_ParamArrayInt(uint64_t, SCPI_ParamArrayUInt64, "1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11", TRUE, (1, 2, 3, 4, 5, 6, 7, 8, 9, 10), TRUE, SCPI_ERROR_NO_ERROR);
			}

			static void testNumberToStr(void) {

			#define TEST_SCPI_NumberToStr(_special, _value, _unit, expected_result) do {\
			@@ -1340,9 +1427,62 @@
			CU_ASSERT_EQUAL(res_len, strlen(expected_result));\
			} while(0)

			#define TEST_SCPI_NumberToStr_limited(_special, _value, _unit, expected_result, limit) do {\
			scpi_number_t number;\
			number.base = 10;\
			number.special = (_special);\
			number.unit = (_unit);\
			if (number.special) { number.tag = (int)(_value); } else { number.value = (_value); }\
			char buffer[100];\
			memset(buffer, 0xaa, 100);\
			size_t res_len;\
			res_len = SCPI_NumberToStr(&scpi_context, scpi_special_numbers_def, &number, buffer, limit);\
			size_t expected_len = SCPIDEFINE_strnlen(expected_result, limit - 1);\
			CU_ASSERT_NSTRING_EQUAL(buffer, expected_result, expected_len);\
			CU_ASSERT_EQUAL(buffer[expected_len], 0);\
			CU_ASSERT_EQUAL((unsigned char)buffer[limit], 0xaa);\
			CU_ASSERT_EQUAL(res_len, expected_len);\
			} while(0)

			TEST_SCPI_NumberToStr(FALSE, 10.5, SCPI_UNIT_NONE, "10.5");
			TEST_SCPI_NumberToStr(FALSE, 10.5, SCPI_UNIT_VOLT, "10.5 V");
			TEST_SCPI_NumberToStr(TRUE, SCPI_NUM_DEF, SCPI_UNIT_NONE, "DEFault");

			TEST_SCPI_NumberToStr_limited(FALSE, 10.5, SCPI_UNIT_NONE, "10.5", 1);
			TEST_SCPI_NumberToStr_limited(FALSE, 10.5, SCPI_UNIT_VOLT, "10.5 V", 1);
			TEST_SCPI_NumberToStr_limited(TRUE, SCPI_NUM_DEF, SCPI_UNIT_NONE, "DEFault", 1);

			TEST_SCPI_NumberToStr_limited(FALSE, 10.5, SCPI_UNIT_NONE, "10.5", 2);
			TEST_SCPI_NumberToStr_limited(FALSE, 10.5, SCPI_UNIT_VOLT, "10.5 V", 2);
			TEST_SCPI_NumberToStr_limited(TRUE, SCPI_NUM_DEF, SCPI_UNIT_NONE, "DEFault", 2);

			TEST_SCPI_NumberToStr_limited(FALSE, 10.5, SCPI_UNIT_NONE, "10.5", 3);
			TEST_SCPI_NumberToStr_limited(FALSE, 10.5, SCPI_UNIT_VOLT, "10.5 V", 3);
			TEST_SCPI_NumberToStr_limited(TRUE, SCPI_NUM_DEF, SCPI_UNIT_NONE, "DEFault", 3);

			TEST_SCPI_NumberToStr_limited(FALSE, 10.5, SCPI_UNIT_NONE, "10.5", 4);
			TEST_SCPI_NumberToStr_limited(FALSE, 10.5, SCPI_UNIT_VOLT, "10.5 V", 4);
			TEST_SCPI_NumberToStr_limited(TRUE, SCPI_NUM_DEF, SCPI_UNIT_NONE, "DEFault", 4);

			TEST_SCPI_NumberToStr_limited(FALSE, 10.5, SCPI_UNIT_NONE, "10.5", 5);
			TEST_SCPI_NumberToStr_limited(FALSE, 10.5, SCPI_UNIT_VOLT, "10.5 V", 5);
			TEST_SCPI_NumberToStr_limited(TRUE, SCPI_NUM_DEF, SCPI_UNIT_NONE, "DEFault", 5);

			TEST_SCPI_NumberToStr_limited(FALSE, 10.5, SCPI_UNIT_NONE, "10.5", 6);
			TEST_SCPI_NumberToStr_limited(FALSE, 10.5, SCPI_UNIT_VOLT, "10.5 V", 6);
			TEST_SCPI_NumberToStr_limited(TRUE, SCPI_NUM_DEF, SCPI_UNIT_NONE, "DEFault", 6);

			TEST_SCPI_NumberToStr_limited(FALSE, 10.5, SCPI_UNIT_NONE, "10.5", 7);
			TEST_SCPI_NumberToStr_limited(FALSE, 10.5, SCPI_UNIT_VOLT, "10.5 V", 7);
			TEST_SCPI_NumberToStr_limited(TRUE, SCPI_NUM_DEF, SCPI_UNIT_NONE, "DEFault", 7);

			TEST_SCPI_NumberToStr_limited(FALSE, 10.5, SCPI_UNIT_NONE, "10.5", 8);
			TEST_SCPI_NumberToStr_limited(FALSE, 10.5, SCPI_UNIT_VOLT, "10.5 V", 8);
			TEST_SCPI_NumberToStr_limited(TRUE, SCPI_NUM_DEF, SCPI_UNIT_NONE, "DEFault", 8);

			TEST_SCPI_NumberToStr_limited(FALSE, 10.5, SCPI_UNIT_NONE, "10.5", 9);
			TEST_SCPI_NumberToStr_limited(FALSE, 10.5, SCPI_UNIT_VOLT, "10.5 V", 9);
			TEST_SCPI_NumberToStr_limited(TRUE, SCPI_NUM_DEF, SCPI_UNIT_NONE, "DEFault", 9);
			}

			static void testErrorQueue(void) {
			@@ -1551,6 +1691,7 @@
			\|\| (NULL == CU_add_test(pSuite, "SCPI_ResultText", testResultText))
			\|\| (NULL == CU_add_test(pSuite, "SCPI_ResultArbitraryBlock", testResultArbitraryBlock))
			\|\| (NULL == CU_add_test(pSuite, "SCPI_ResultArray", testResultArray))
			\|\| (NULL == CU_add_test(pSuite, "SCPI_ParamArray", testParamArray))
			\|\| (NULL == CU_add_test(pSuite, "SCPI_NumberToStr", testNumberToStr))
			\|\| (NULL == CU_add_test(pSuite, "SCPI_ErrorQueue", testErrorQueue))
			\|\| (NULL == CU_add_test(pSuite, "Incomplete arbitrary parameter", testIncompleteArbitraryParameter))