sola/scpi-parser.git

			@@ -8,6 +8,7 @@
			#include "CUnit/Basic.h"

			#include "scpi/scpi.h"
			#include "../src/fifo_private.h"

			/*
			* CUnit Test Suite
			@@ -41,6 +42,17 @@

			SCPI_ResultInt32(context, 20);

			return SCPI_RES_OK;
			}

			static double test_sample_received = NAN;

			static scpi_result_t SCPI_Sample(scpi_t * context) {
			const char * val;
			size_t len;
			if (!SCPI_ParamArbitraryBlock(context, &val, &len, TRUE)) return SCPI_RES_ERR;
			if (len != sizeof(test_sample_received)) return SCPI_RES_ERR;
			memcpy(&test_sample_received, val, sizeof(test_sample_received));
			return SCPI_RES_OK;
			}

			@@ -79,6 +91,7 @@
			{ .pattern = "STUB", .callback = SCPI_Stub,},
			{ .pattern = "STUB?", .callback = SCPI_StubQ,},

			{ .pattern = "SAMple", .callback = SCPI_Sample,},
			SCPI_CMD_LIST_END
			};

			@@ -170,25 +183,24 @@
			#define SCPI_INPUT_BUFFER_LENGTH 256
			static char scpi_input_buffer[SCPI_INPUT_BUFFER_LENGTH];

			static scpi_reg_val_t scpi_regs[SCPI_REG_COUNT];
			#define SCPI_ERROR_QUEUE_SIZE 4
			static scpi_error_t scpi_error_queue_data[SCPI_ERROR_QUEUE_SIZE];


			scpi_t scpi_context = {
			.cmdlist = scpi_commands,
			.buffer =
			{
			.length = SCPI_INPUT_BUFFER_LENGTH,
			.data = scpi_input_buffer,
			},
			.interface = &scpi_interface,
			.registers = scpi_regs,
			.units = scpi_units_def,
			.idn =
			{"MA", "IN", NULL, "VER"},
			};
			#define SCPI_ERROR_INFO_HEAP_SIZE 100
			static char error_info_heap[SCPI_ERROR_INFO_HEAP_SIZE];

			static int init_suite(void) {
			SCPI_Init(&scpi_context);
			SCPI_Init(&scpi_context,
			scpi_commands,
			&scpi_interface,
			scpi_units_def,
			"MA", "IN", NULL, "VER",
			scpi_input_buffer, SCPI_INPUT_BUFFER_LENGTH,
			scpi_error_queue_data, SCPI_ERROR_QUEUE_SIZE);
			#if USE_DEVICE_DEPENDENT_ERROR_INFORMATION && !USE_MEMORY_ALLOCATION_FREE
			SCPI_InitHeap(&scpi_context,
			error_info_heap, SCPI_ERROR_INFO_HEAP_SIZE);
			#endif

			return 0;
			}
			@@ -266,6 +278,9 @@
			"ABCDEFGHIJABCDEFGHIJABCDEFGHIJABCDEFGHIJABCDEFGHIJABCDEFGHIJABCDEFGHIJABCDEFGHIJABCDEFGHIJABCDEFGHIJ"
			"ABCDEFGHIJABCDEFGHIJABCDEFGHIJABCDEFGHIJABCDEFGHIJABCDEFGHIJABCDEFGHIJABCDEFGHIJABCDEFGHIJABCDEFGHIJ",
			"", FALSE, SCPI_ERROR_INPUT_BUFFER_OVERRUN);
			TEST_ERROR("*SRE\r\n", "", FALSE, SCPI_ERROR_MISSING_PARAMETER);



			// TODO: SCPI_ERROR_INVALID_SEPARATOR
			// TODO: SCPI_ERROR_INVALID_SUFFIX
			@@ -319,14 +334,38 @@
			TEST_IEEE4882("*ESR?\r\n", "0\r\n");

			TEST_IEEE4882("SYST:ERR:COUNT?\r\n", "1\r\n");
			#if USE_DEVICE_DEPENDENT_ERROR_INFORMATION
			TEST_IEEE4882("SYST:ERR:NEXT?\r\n", "-113,\"Undefined header;ABCD\"\r\n");
			#else /* USE_DEVICE_DEPENDENT_ERROR_INFORMATION */
			TEST_IEEE4882("SYST:ERR:NEXT?\r\n", "-113,\"Undefined header\"\r\n");
			#endif /* USE_DEVICE_DEPENDENT_ERROR_INFORMATION */
			TEST_IEEE4882("SYST:ERR:NEXT?\r\n", "0,\"No error\"\r\n");

			TEST_IEEE4882("STB?\r\n", "0\r\n"); / Error queue is now empty */

			scpi_context.interface->control = NULL;
			srq_val = 0;
			TEST_IEEE4882("ABCD\r\n", ""); /* "Undefined header" cause command error */
			CU_ASSERT_EQUAL(srq_val, 0); /* no control callback */
			TEST_IEEE4882("STB?\r\n", "100\r\n"); / Event status register + Service request */
			TEST_IEEE4882("ESR?\r\n", "32\r\n"); / Command error */
			#if USE_DEVICE_DEPENDENT_ERROR_INFORMATION
			TEST_IEEE4882("SYST:ERR:NEXT?\r\n", "-113,\"Undefined header;ABCD\"\r\n");
			#else /* USE_DEVICE_DEPENDENT_ERROR_INFORMATION */
			TEST_IEEE4882("SYST:ERR:NEXT?\r\n", "-113,\"Undefined header\"\r\n");
			#endif /* USE_DEVICE_DEPENDENT_ERROR_INFORMATION */
			scpi_context.interface->control = SCPI_Control;

			RST_executed = FALSE;
			TEST_IEEE4882("*RST\r\n", "");
			CU_ASSERT_EQUAL(RST_executed, TRUE);

			scpi_context.interface->reset = NULL;
			RST_executed = FALSE;
			TEST_IEEE4882("*RST\r\n", "");
			CU_ASSERT_EQUAL(RST_executed, FALSE);
			scpi_context.interface->reset = SCPI_Reset;


			TEST_IEEE4882("*TST?\r\n", "0\r\n");

			@@ -353,13 +392,17 @@

			TEST_IEEE4882("STUB\r\n", "");
			TEST_IEEE4882("STUB?\r\n", "0\r\n");

			TEST_IEEE4882_REG(SCPI_REG_COUNT + 1, 0);
			TEST_IEEE4882_REG_SET(SCPI_REG_OPERE, 1);
			TEST_IEEE4882_REG(SCPI_REG_OPERE, 1);
			}

			#define TEST_ParamInt32(data, mandatory, expected_value, expected_result, expected_error_code) \
			{ \
			int32_t value; \
			scpi_bool_t result; \
			int16_t errCode; \
			scpi_error_t errCode; \
			\
			SCPI_CoreCls(&scpi_context); \
			scpi_context.input_count = 0; \
			@@ -368,12 +411,12 @@
			scpi_context.param_list.lex_state.pos = scpi_context.param_list.lex_state.buffer; \
			result = SCPI_ParamInt32(&scpi_context, &value, mandatory); \
			\
			errCode = SCPI_ErrorPop(&scpi_context); \
			SCPI_ErrorPop(&scpi_context, &errCode); \
			CU_ASSERT_EQUAL(result, expected_result); \
			if (expected_result) { \
			CU_ASSERT_EQUAL(value, expected_value); \
			} \
			CU_ASSERT_EQUAL(errCode, expected_error_code); \
			CU_ASSERT_EQUAL(errCode.error_code, expected_error_code); \
			}

			static void testSCPI_ParamInt32(void) {
			@@ -384,10 +427,10 @@
			TEST_ParamInt32("#H101010", TRUE, 1052688, TRUE, 0);
			TEST_ParamInt32("#Q10", TRUE, 8, TRUE, 0);

			TEST_ParamInt32("", TRUE, 0, FALSE, -109); // missing parameter
			TEST_ParamInt32("abcd", TRUE, 0, FALSE, -104); // Data type error
			TEST_ParamInt32("10.5V", TRUE, 0, FALSE, -138);
			TEST_ParamInt32("10V", TRUE, 0, FALSE, -138);
			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_ParamInt32("2147483647", TRUE, 2147483647, TRUE, 0);
			@@ -398,7 +441,7 @@
			{ \
			uint32_t value; \
			scpi_bool_t result; \
			int16_t errCode; \
			scpi_error_t errCode; \
			\
			SCPI_CoreCls(&scpi_context); \
			scpi_context.input_count = 0; \
			@@ -407,12 +450,12 @@
			scpi_context.param_list.lex_state.pos = scpi_context.param_list.lex_state.buffer; \
			result = SCPI_ParamUInt32(&scpi_context, &value, mandatory); \
			\
			errCode = SCPI_ErrorPop(&scpi_context); \
			SCPI_ErrorPop(&scpi_context, &errCode); \
			CU_ASSERT_EQUAL(result, expected_result); \
			if (expected_result) { \
			CU_ASSERT_EQUAL(value, expected_value); \
			} \
			CU_ASSERT_EQUAL(errCode, expected_error_code); \
			CU_ASSERT_EQUAL(errCode.error_code, expected_error_code); \
			}

			static void testSCPI_ParamUInt32(void) {
			@@ -423,10 +466,10 @@
			TEST_ParamUInt32("#H101010", TRUE, 1052688, TRUE, 0);
			TEST_ParamUInt32("#Q10", TRUE, 8, TRUE, 0);

			TEST_ParamUInt32("", TRUE, 0, FALSE, -109); // missing parameter
			TEST_ParamUInt32("abcd", TRUE, 0, FALSE, -104); // Data type error
			TEST_ParamUInt32("10.5V", TRUE, 0, FALSE, -138);
			TEST_ParamUInt32("10V", TRUE, 0, FALSE, -138);
			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_ParamUInt32("2147483647", TRUE, 2147483647ULL, TRUE, 0);
			@@ -437,7 +480,7 @@
			{ \
			int64_t value; \
			scpi_bool_t result; \
			int16_t errCode; \
			scpi_error_t errCode; \
			\
			SCPI_CoreCls(&scpi_context); \
			scpi_context.input_count = 0; \
			@@ -446,12 +489,12 @@
			scpi_context.param_list.lex_state.pos = scpi_context.param_list.lex_state.buffer; \
			result = SCPI_ParamInt64(&scpi_context, &value, mandatory); \
			\
			errCode = SCPI_ErrorPop(&scpi_context); \
			SCPI_ErrorPop(&scpi_context, &errCode); \
			CU_ASSERT_EQUAL(result, expected_result); \
			if (expected_result) { \
			CU_ASSERT_EQUAL(value, expected_value); \
			} \
			CU_ASSERT_EQUAL(errCode, expected_error_code); \
			CU_ASSERT_EQUAL(errCode.error_code, expected_error_code); \
			}

			static void testSCPI_ParamInt64(void) {
			@@ -462,10 +505,10 @@
			TEST_ParamInt64("#H101010", TRUE, 1052688, TRUE, 0);
			TEST_ParamInt64("#Q10", TRUE, 8, TRUE, 0);

			TEST_ParamInt64("", TRUE, 0, FALSE, -109); // missing parameter
			TEST_ParamInt64("abcd", TRUE, 0, FALSE, -104); // Data type error
			TEST_ParamInt64("10.5V", TRUE, 0, FALSE, -138);
			TEST_ParamInt64("10V", TRUE, 0, FALSE, -138);
			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_ParamInt64("2147483647", TRUE, 2147483647LL, TRUE, 0);
			@@ -478,7 +521,7 @@
			{ \
			uint64_t value; \
			scpi_bool_t result; \
			int16_t errCode; \
			scpi_error_t errCode; \
			\
			SCPI_CoreCls(&scpi_context); \
			scpi_context.input_count = 0; \
			@@ -487,12 +530,12 @@
			scpi_context.param_list.lex_state.pos = scpi_context.param_list.lex_state.buffer; \
			result = SCPI_ParamUInt64(&scpi_context, &value, mandatory); \
			\
			errCode = SCPI_ErrorPop(&scpi_context); \
			SCPI_ErrorPop(&scpi_context, &errCode); \
			CU_ASSERT_EQUAL(result, expected_result); \
			if (expected_result) { \
			CU_ASSERT_EQUAL(value, expected_value); \
			} \
			CU_ASSERT_EQUAL(errCode, expected_error_code); \
			CU_ASSERT_EQUAL(errCode.error_code, expected_error_code); \
			}

			static void testSCPI_ParamUInt64(void) {
			@@ -503,10 +546,10 @@
			TEST_ParamUInt64("#H101010", TRUE, 1052688, TRUE, 0);
			TEST_ParamUInt64("#Q10", TRUE, 8, TRUE, 0);

			TEST_ParamUInt64("", TRUE, 0, FALSE, -109); // missing parameter
			TEST_ParamUInt64("abcd", TRUE, 0, FALSE, -104); // Data type error
			TEST_ParamUInt64("10.5V", TRUE, 0, FALSE, -138);
			TEST_ParamUInt64("10V", TRUE, 0, FALSE, -138);
			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_ParamUInt64("2147483647", TRUE, 2147483647ULL, TRUE, 0);
			@@ -520,7 +563,7 @@
			{ \
			float value; \
			scpi_bool_t result; \
			int16_t errCode; \
			scpi_error_t errCode; \
			\
			SCPI_CoreCls(&scpi_context); \
			scpi_context.input_count = 0; \
			@@ -529,12 +572,12 @@
			scpi_context.param_list.lex_state.pos = scpi_context.param_list.lex_state.buffer; \
			result = SCPI_ParamFloat(&scpi_context, &value, mandatory); \
			\
			errCode = SCPI_ErrorPop(&scpi_context); \
			SCPI_ErrorPop(&scpi_context, &errCode); \
			CU_ASSERT_EQUAL(result, expected_result); \
			if (expected_result) { \
			CU_ASSERT_DOUBLE_EQUAL(value, expected_value, 0.000001); \
			} \
			CU_ASSERT_EQUAL(errCode, expected_error_code); \
			CU_ASSERT_EQUAL(errCode.error_code, expected_error_code); \
			}

			static void testSCPI_ParamFloat(void) {
			@@ -546,17 +589,17 @@
			TEST_ParamFloat("#Q10", TRUE, 8, TRUE, 0);
			TEST_ParamFloat("#HFFFFFF", TRUE, 0xFFFFFFu, TRUE, 0);

			TEST_ParamFloat("", TRUE, 0, FALSE, -109); // missing parameter
			TEST_ParamFloat("abcd", TRUE, 0, FALSE, -104); // Data type error
			TEST_ParamFloat("10.5V", TRUE, 0, FALSE, -138);
			TEST_ParamFloat("10V", TRUE, 0, FALSE, -138);
			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);
			}

			#define TEST_ParamDouble(data, mandatory, expected_value, expected_result, expected_error_code) \
			{ \
			double value; \
			scpi_bool_t result; \
			int16_t errCode; \
			scpi_error_t errCode; \
			\
			SCPI_CoreCls(&scpi_context); \
			scpi_context.input_count = 0; \
			@@ -565,12 +608,12 @@
			scpi_context.param_list.lex_state.pos = scpi_context.param_list.lex_state.buffer; \
			result = SCPI_ParamDouble(&scpi_context, &value, mandatory); \
			\
			errCode = SCPI_ErrorPop(&scpi_context); \
			SCPI_ErrorPop(&scpi_context, &errCode); \
			CU_ASSERT_EQUAL(result, expected_result); \
			if (expected_result) { \
			CU_ASSERT_DOUBLE_EQUAL(value, expected_value, 0.000001); \
			} \
			CU_ASSERT_EQUAL(errCode, expected_error_code); \
			CU_ASSERT_EQUAL(errCode.error_code, expected_error_code); \
			}

			static void testSCPI_ParamDouble(void) {
			@@ -582,10 +625,10 @@
			TEST_ParamDouble("#Q10", TRUE, 8, TRUE, 0);
			TEST_ParamDouble("#HFFFFFFFF", TRUE, 0xFFFFFFFFu, TRUE, 0);

			TEST_ParamDouble("", TRUE, 0, FALSE, -109); // missing parameter
			TEST_ParamDouble("abcd", TRUE, 0, FALSE, -104); // Data type error
			TEST_ParamDouble("10.5V", TRUE, 0, FALSE, -138);
			TEST_ParamDouble("10V", TRUE, 0, FALSE, -138);
			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);
			}

			#define TEST_ParamCharacters(data, mandatory, expected_value, expected_result, expected_error_code) \
			@@ -593,7 +636,7 @@
			const char * value; \
			size_t value_len; \
			scpi_bool_t result; \
			int16_t errCode; \
			scpi_error_t errCode; \
			\
			SCPI_CoreCls(&scpi_context); \
			scpi_context.input_count = 0; \
			@@ -602,12 +645,12 @@
			scpi_context.param_list.lex_state.pos = scpi_context.param_list.lex_state.buffer; \
			result = SCPI_ParamCharacters(&scpi_context, &value, &value_len, mandatory); \
			/printf("%.s\r\n", (int)value_len, value);*/ \
			errCode = SCPI_ErrorPop(&scpi_context); \
			SCPI_ErrorPop(&scpi_context, &errCode); \
			CU_ASSERT_EQUAL(result, expected_result); \
			if (expected_result) { \
			CU_ASSERT_NSTRING_EQUAL(value, expected_value, value_len); \
			} \
			CU_ASSERT_EQUAL(errCode, expected_error_code); \
			CU_ASSERT_EQUAL(errCode.error_code, expected_error_code); \
			}

			static void testSCPI_ParamCharacters(void) {
			@@ -616,7 +659,7 @@
			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, -151); // invalid Block Data
			TEST_ParamCharacters("#210ABCD", TRUE, "", FALSE, SCPI_ERROR_INVALID_STRING_DATA); // invalid Block Data
			}


			@@ -625,7 +668,7 @@
			char value[100]; \
			size_t value_len; \
			scpi_bool_t result; \
			int16_t errCode; \
			scpi_error_t errCode; \
			\
			SCPI_CoreCls(&scpi_context); \
			scpi_context.input_count = 0; \
			@@ -634,13 +677,13 @@
			scpi_context.param_list.lex_state.pos = scpi_context.param_list.lex_state.buffer; \
			result = SCPI_ParamCopyText(&scpi_context, value, sizeof(value), &value_len, mandatory);\
			/printf("%.s\r\n", (int)value_len, value);*/ \
			errCode = SCPI_ErrorPop(&scpi_context); \
			SCPI_ErrorPop(&scpi_context, &errCode); \
			CU_ASSERT_EQUAL(result, expected_result); \
			if (expected_result) { \
			CU_ASSERT_STRING_EQUAL(value, expected_value); \
			CU_ASSERT_EQUAL(value_len, expected_len); \
			} \
			CU_ASSERT_EQUAL(errCode, expected_error_code); \
			CU_ASSERT_EQUAL(errCode.error_code, expected_error_code); \
			}

			static void testSCPI_ParamCopyText(void) {
			@@ -656,12 +699,101 @@
			TEST_ParamCopyText("\"\"", FALSE, "", 0, TRUE, 0);
			}

			#define TEST_ParamArbitraryBlock(data, mandatory, expected_value, expected_result, expected_error_code) \
			{ \
			const char * value; \
			size_t value_len; \
			scpi_bool_t result; \
			scpi_error_t errCode; \
			\
			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 = SCPI_ParamArbitraryBlock(&scpi_context, &value, &value_len, mandatory); \
			/printf("%.s\r\n", (int)value_len, value);*/ \
			SCPI_ErrorPop(&scpi_context, &errCode); \
			CU_ASSERT_EQUAL(result, expected_result); \
			if (expected_result) { \
			CU_ASSERT_NSTRING_EQUAL(value, expected_value, value_len); \
			} \
			CU_ASSERT_EQUAL(errCode.error_code, expected_error_code); \
			}
			static void testSCPI_ParamArbitraryBlock(void) {
			TEST_ParamArbitraryBlock("#204ABCD", TRUE, "ABCD", TRUE, 0);
			TEST_ParamArbitraryBlock("\"ABCD\"", TRUE, "", FALSE, SCPI_ERROR_DATA_TYPE_ERROR);
			}

			#define TEST_ParamBool(data, mandatory, expected_value, expected_result, expected_error_code) \
			{ \
			scpi_bool_t value; \
			scpi_bool_t result; \
			scpi_error_t errCode; \
			\
			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 = SCPI_ParamBool(&scpi_context, &value, mandatory); \
			\
			SCPI_ErrorPop(&scpi_context, &errCode); \
			CU_ASSERT_EQUAL(result, expected_result); \
			if (expected_result) { \
			CU_ASSERT_EQUAL(value, expected_value); \
			} \
			CU_ASSERT_EQUAL(errCode.error_code, expected_error_code); \
			}
			static void testSCPI_ParamBool(void) {
			TEST_ParamBool("ON", TRUE, TRUE, TRUE, 0);
			TEST_ParamBool("1", TRUE, TRUE, TRUE, 0);
			TEST_ParamBool("100", TRUE, TRUE, TRUE, 0);
			TEST_ParamBool("OFF", TRUE, FALSE, TRUE, 0);
			TEST_ParamBool("0", TRUE, FALSE, TRUE, 0);
			TEST_ParamBool("XYZ", TRUE, FALSE, FALSE, SCPI_ERROR_ILLEGAL_PARAMETER_VALUE);
			}

			#define TEST_ParamChoice(data, mandatory, expected_value, expected_result, expected_error_code) \
			{ \
			int32_t value; \
			scpi_bool_t result; \
			scpi_error_t errCode; \
			\
			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 = SCPI_ParamChoice(&scpi_context, test_options, &value, mandatory); \
			\
			SCPI_ErrorPop(&scpi_context, &errCode); \
			CU_ASSERT_EQUAL(result, expected_result); \
			if (expected_result) { \
			CU_ASSERT_EQUAL(value, expected_value); \
			} \
			CU_ASSERT_EQUAL(errCode.error_code, expected_error_code); \
			}
			static void testSCPI_ParamChoice(void) {
			scpi_choice_def_t test_options[] = {
			{"OPTIONA", 1},
			{"OPTIONB", 2},
			{"SOURce", 3},
			SCPI_CHOICE_LIST_END /* termination of option list */
			};

			TEST_ParamChoice("ON", TRUE, 0, FALSE, SCPI_ERROR_ILLEGAL_PARAMETER_VALUE);
			TEST_ParamChoice("OPTIONA", TRUE, 1, TRUE, 0);
			TEST_ParamChoice("OPTIONB", TRUE, 2, TRUE, 0);
			TEST_ParamChoice("SOURCE", TRUE, 3, TRUE, 0);
			TEST_ParamChoice("SOUR", TRUE, 3, TRUE, 0);
			}

			#define TEST_NumericListInt(data, index, expected_range, expected_from, expected_to, expected_result, expected_error_code) \
			{ \
			scpi_bool_t result; \
			scpi_expr_result_t result2; \
			int16_t errCode; \
			scpi_error_t errCode; \
			scpi_parameter_t param; \
			int32_t val_from, val_to; \
			scpi_bool_t val_range; \
			@@ -673,7 +805,7 @@
			scpi_context.param_list.lex_state.pos = scpi_context.param_list.lex_state.buffer; \
			result = SCPI_Parameter(&scpi_context, &param, TRUE); \
			result2 = SCPI_ExprNumericListEntryInt(&scpi_context, &param, index, &val_range, &val_from, &val_to);\
			errCode = SCPI_ErrorPop(&scpi_context); \
			SCPI_ErrorPop(&scpi_context, &errCode); \
			CU_ASSERT_EQUAL(result2, expected_result); \
			if (expected_result == SCPI_EXPR_OK) { \
			CU_ASSERT_EQUAL(val_range, expected_range); \
			@@ -682,14 +814,14 @@
			CU_ASSERT_EQUAL(val_to, expected_to); \
			} \
			} \
			CU_ASSERT_EQUAL(errCode, expected_error_code); \
			CU_ASSERT_EQUAL(errCode.error_code, expected_error_code); \
			}

			#define TEST_NumericListDouble(data, index, expected_range, expected_from, expected_to, expected_result, expected_error_code) \
			{ \
			scpi_bool_t result; \
			scpi_expr_result_t result2; \
			int16_t errCode; \
			scpi_error_t errCode; \
			scpi_parameter_t param; \
			double val_from, val_to; \
			scpi_bool_t val_range; \
			@@ -701,7 +833,7 @@
			scpi_context.param_list.lex_state.pos = scpi_context.param_list.lex_state.buffer; \
			result = SCPI_Parameter(&scpi_context, &param, TRUE); \
			result2 = SCPI_ExprNumericListEntryDouble(&scpi_context, &param, index, &val_range, &val_from, &val_to);\
			errCode = SCPI_ErrorPop(&scpi_context); \
			SCPI_ErrorPop(&scpi_context, &errCode); \
			CU_ASSERT_EQUAL(result2, expected_result); \
			if (expected_result == SCPI_EXPR_OK) { \
			CU_ASSERT_EQUAL(val_range, expected_range); \
			@@ -710,7 +842,7 @@
			CU_ASSERT_DOUBLE_EQUAL(val_to, expected_to, 0.0001); \
			} \
			} \
			CU_ASSERT_EQUAL(errCode, expected_error_code); \
			CU_ASSERT_EQUAL(errCode.error_code, expected_error_code); \
			}

			static void testNumericList(void) {
			@@ -737,6 +869,8 @@
			TEST_NumericListDouble("(12,5:6:3)", 0, FALSE, 12, 0, SCPI_EXPR_OK, 0);
			TEST_NumericListDouble("(12,5:6:3)", 1, TRUE, 5, 6, SCPI_EXPR_OK, 0);
			TEST_NumericListDouble("(12,5:6:3)", 2, FALSE, 0, 0, SCPI_EXPR_ERROR, SCPI_ERROR_EXPRESSION_PARSING_ERROR);
			TEST_NumericListDouble("(12,5:)", 2, FALSE, 0, 0, SCPI_EXPR_ERROR, SCPI_ERROR_EXPRESSION_PARSING_ERROR);
			TEST_NumericListDouble("aaaa", 2, FALSE, 0, 0, SCPI_EXPR_ERROR, SCPI_ERROR_DATA_TYPE_ERROR);
			}

			#define NOPAREN(...) __VA_ARGS__
			@@ -745,7 +879,7 @@
			{ \
			scpi_bool_t result; \
			scpi_expr_result_t result2; \
			int16_t errCode; \
			scpi_error_t errCode; \
			scpi_parameter_t param; \
			int32_t val_from[val_len], val_to[val_len]; \
			scpi_bool_t val_range; \
			@@ -760,7 +894,7 @@
			scpi_context.param_list.lex_state.pos = scpi_context.param_list.lex_state.buffer; \
			result = SCPI_Parameter(&scpi_context, &param, TRUE); \
			result2 = SCPI_ExprChannelListEntry(&scpi_context, &param, index, &val_range, val_from, val_to, val_len, &val_dimensions);\
			errCode = SCPI_ErrorPop(&scpi_context); \
			SCPI_ErrorPop(&scpi_context, &errCode); \
			CU_ASSERT_EQUAL(result2, expected_result); \
			if (expected_result == SCPI_EXPR_OK) { \
			CU_ASSERT_EQUAL(val_dimensions, expected_dimensions); \
			@@ -774,7 +908,7 @@
			}} \
			} \
			} \
			CU_ASSERT_EQUAL(errCode, expected_error_code); \
			CU_ASSERT_EQUAL(errCode.error_code, expected_error_code); \
			}

			static void testChannelList(void) {
			@@ -805,6 +939,10 @@

			TEST_ChannelList("(@1, 2)", 0, 1, FALSE, 1, (1), (0), SCPI_EXPR_OK, 0);
			TEST_ChannelList("(@1, 2)", 1, 1, FALSE, 0, (0), (0), SCPI_EXPR_ERROR, SCPI_ERROR_EXPRESSION_PARSING_ERROR);

			TEST_ChannelList("(@1,)", 1, 1, FALSE, 0, (0), (0), SCPI_EXPR_ERROR, SCPI_ERROR_EXPRESSION_PARSING_ERROR);
			TEST_ChannelList("(@1,2:)", 1, 1, FALSE, 0, (0), (0), SCPI_EXPR_ERROR, SCPI_ERROR_EXPRESSION_PARSING_ERROR);
			TEST_ChannelList("abcd", 1, 1, FALSE, 0, (0), (0), SCPI_EXPR_ERROR, SCPI_ERROR_DATA_TYPE_ERROR);
			}


			@@ -812,7 +950,7 @@
			{ \
			scpi_number_t value; \
			scpi_bool_t result; \
			int16_t errCode; \
			scpi_error_t errCode; \
			\
			SCPI_CoreCls(&scpi_context); \
			scpi_context.input_count = 0; \
			@@ -821,7 +959,7 @@
			scpi_context.param_list.lex_state.pos = scpi_context.param_list.lex_state.buffer; \
			result = SCPI_ParamNumber(&scpi_context, scpi_special_numbers_def, &value, mandatory);\
			\
			errCode = SCPI_ErrorPop(&scpi_context); \
			SCPI_ErrorPop(&scpi_context, &errCode); \
			CU_ASSERT_EQUAL(result, expected_result); \
			if (expected_result) { \
			CU_ASSERT_EQUAL(value.special, expected_special); \
			@@ -830,7 +968,7 @@
			CU_ASSERT_EQUAL(value.unit, expected_unit); \
			CU_ASSERT_EQUAL(value.base, expected_base); \
			} \
			CU_ASSERT_EQUAL(errCode, expected_error_code); \
			CU_ASSERT_EQUAL(errCode.error_code, expected_error_code); \
			}

			static void testParamNumber(void) {
			@@ -846,6 +984,7 @@
			TEST_ParamNumber("min", TRUE, TRUE, SCPI_NUM_MIN, 0, SCPI_UNIT_NONE, 10, TRUE, 0);
			TEST_ParamNumber("infinity", TRUE, TRUE, SCPI_NUM_INF, 0, SCPI_UNIT_NONE, 10, TRUE, 0);
			TEST_ParamNumber("minc", TRUE, TRUE, SCPI_NUM_NUMBER, 0, SCPI_UNIT_NONE, 10, FALSE, SCPI_ERROR_ILLEGAL_PARAMETER_VALUE);
			TEST_ParamNumber("100 xyz", TRUE, FALSE, SCPI_NUM_NUMBER, 100, SCPI_UNIT_NONE, 10, FALSE, SCPI_ERROR_INVALID_SUFFIX);
			}

			#define TEST_Result(func, value, expected_result) \
			@@ -1051,6 +1190,269 @@
			TEST_Result(ArbitraryBlockString, "X1234567890\x80x", "#213X1234567890\x80x");
			}

			static void testResultArray(void) {

			#define SCPI_ResultArrayInt8ASCII(c, a) SCPI_ResultArrayInt8((c), (a), sizeof(a)/sizeof(*a), SCPI_FORMAT_ASCII)
			#define SCPI_ResultArrayUInt8ASCII(c, a) SCPI_ResultArrayUInt8((c), (a), sizeof(a)/sizeof(*a), SCPI_FORMAT_ASCII)
			#define SCPI_ResultArrayInt16ASCII(c, a) SCPI_ResultArrayInt16((c), (a), sizeof(a)/sizeof(*a), SCPI_FORMAT_ASCII)
			#define SCPI_ResultArrayUInt16ASCII(c, a) SCPI_ResultArrayUInt16((c), (a), sizeof(a)/sizeof(*a), SCPI_FORMAT_ASCII)
			#define SCPI_ResultArrayInt32ASCII(c, a) SCPI_ResultArrayInt32((c), (a), sizeof(a)/sizeof(*a), SCPI_FORMAT_ASCII)
			#define SCPI_ResultArrayUInt32ASCII(c, a) SCPI_ResultArrayUInt32((c), (a), sizeof(a)/sizeof(*a), SCPI_FORMAT_ASCII)
			#define SCPI_ResultArrayInt64ASCII(c, a) SCPI_ResultArrayInt64((c), (a), sizeof(a)/sizeof(*a), SCPI_FORMAT_ASCII)
			#define SCPI_ResultArrayUInt64ASCII(c, a) SCPI_ResultArrayUInt64((c), (a), sizeof(a)/sizeof(*a), SCPI_FORMAT_ASCII)
			#define SCPI_ResultArrayFloatASCII(c, a) SCPI_ResultArrayFloat((c), (a), sizeof(a)/sizeof(*a), SCPI_FORMAT_ASCII)
			#define SCPI_ResultArrayDoubleASCII(c, a) SCPI_ResultArrayDouble((c), (a), sizeof(a)/sizeof(*a), SCPI_FORMAT_ASCII)

			#define SCPI_ResultArrayInt8NORMAL(c, a) SCPI_ResultArrayInt8((c), (a), sizeof(a)/sizeof(*a), SCPI_FORMAT_NORMAL)
			#define SCPI_ResultArrayUInt8NORMAL(c, a) SCPI_ResultArrayUInt8((c), (a), sizeof(a)/sizeof(*a), SCPI_FORMAT_NORMAL)
			#define SCPI_ResultArrayInt16NORMAL(c, a) SCPI_ResultArrayInt16((c), (a), sizeof(a)/sizeof(*a), SCPI_FORMAT_NORMAL)
			#define SCPI_ResultArrayUInt16NORMAL(c, a) SCPI_ResultArrayUInt16((c), (a), sizeof(a)/sizeof(*a), SCPI_FORMAT_NORMAL)
			#define SCPI_ResultArrayInt32NORMAL(c, a) SCPI_ResultArrayInt32((c), (a), sizeof(a)/sizeof(*a), SCPI_FORMAT_NORMAL)
			#define SCPI_ResultArrayUInt32NORMAL(c, a) SCPI_ResultArrayUInt32((c), (a), sizeof(a)/sizeof(*a), SCPI_FORMAT_NORMAL)
			#define SCPI_ResultArrayInt64NORMAL(c, a) SCPI_ResultArrayInt64((c), (a), sizeof(a)/sizeof(*a), SCPI_FORMAT_NORMAL)
			#define SCPI_ResultArrayUInt64NORMAL(c, a) SCPI_ResultArrayUInt64((c), (a), sizeof(a)/sizeof(*a), SCPI_FORMAT_NORMAL)
			#define SCPI_ResultArrayFloatNORMAL(c, a) SCPI_ResultArrayFloat((c), (a), sizeof(a)/sizeof(*a), SCPI_FORMAT_NORMAL)
			#define SCPI_ResultArrayDoubleNORMAL(c, a) SCPI_ResultArrayDouble((c), (a), sizeof(a)/sizeof(*a), SCPI_FORMAT_NORMAL)

			#define SCPI_ResultArrayInt8SWAPPED(c, a) SCPI_ResultArrayInt8((c), (a), sizeof(a)/sizeof(*a), SCPI_FORMAT_SWAPPED)
			#define SCPI_ResultArrayUInt8SWAPPED(c, a) SCPI_ResultArrayUInt8((c), (a), sizeof(a)/sizeof(*a), SCPI_FORMAT_SWAPPED)
			#define SCPI_ResultArrayInt16SWAPPED(c, a) SCPI_ResultArrayInt16((c), (a), sizeof(a)/sizeof(*a), SCPI_FORMAT_SWAPPED)
			#define SCPI_ResultArrayUInt16SWAPPED(c, a) SCPI_ResultArrayUInt16((c), (a), sizeof(a)/sizeof(*a), SCPI_FORMAT_SWAPPED)
			#define SCPI_ResultArrayInt32SWAPPED(c, a) SCPI_ResultArrayInt32((c), (a), sizeof(a)/sizeof(*a), SCPI_FORMAT_SWAPPED)
			#define SCPI_ResultArrayUInt32SWAPPED(c, a) SCPI_ResultArrayUInt32((c), (a), sizeof(a)/sizeof(*a), SCPI_FORMAT_SWAPPED)
			#define SCPI_ResultArrayInt64SWAPPED(c, a) SCPI_ResultArrayInt64((c), (a), sizeof(a)/sizeof(*a), SCPI_FORMAT_SWAPPED)
			#define SCPI_ResultArrayUInt64SWAPPED(c, a) SCPI_ResultArrayUInt64((c), (a), sizeof(a)/sizeof(*a), SCPI_FORMAT_SWAPPED)
			#define SCPI_ResultArrayFloatSWAPPED(c, a) SCPI_ResultArrayFloat((c), (a), sizeof(a)/sizeof(*a), SCPI_FORMAT_SWAPPED)
			#define SCPI_ResultArrayDoubleSWAPPED(c, a) SCPI_ResultArrayDouble((c), (a), sizeof(a)/sizeof(*a), SCPI_FORMAT_SWAPPED)

			int8_t int8_arr[] = {-5, 48, 49, 109, 87};
			TEST_Result(ArrayInt8ASCII, int8_arr, "-5,48,49,109,87");
			TEST_Result(ArrayInt8NORMAL, int8_arr, "#15" "\xFB" "01mW");
			TEST_Result(ArrayInt8SWAPPED, int8_arr, "#15" "\xFB" "01mW");

			uint8_t uint8_arr[] = {250, 48, 49, 109, 87};
			TEST_Result(ArrayUInt8ASCII, uint8_arr, "250,48,49,109,87");
			TEST_Result(ArrayUInt8NORMAL, uint8_arr, "#15" "\xFA" "01mW");
			TEST_Result(ArrayUInt8SWAPPED, uint8_arr, "#15" "\xFA" "01mW");

			int16_t int16_arr[] = {-5, 18505, 12340};
			TEST_Result(ArrayInt16ASCII, int16_arr, "-5,18505,12340");
			TEST_Result(ArrayInt16NORMAL, int16_arr, "#16" "\xFF\xFB" "HI" "04");
			TEST_Result(ArrayInt16SWAPPED, int16_arr, "#16" "\xFB\xFF" "IH" "40");

			uint16_t uint16_arr[] = {65531, 18505, 12340};
			TEST_Result(ArrayUInt16ASCII, uint16_arr, "65531,18505,12340");
			TEST_Result(ArrayUInt16NORMAL, uint16_arr, "#16" "\xFF\xFB" "HI" "04");
			TEST_Result(ArrayUInt16SWAPPED, uint16_arr, "#16" "\xFB\xFF" "IH" "40");

			int32_t int32_arr[] = {-5L, 808530483L, 1094861636L};
			TEST_Result(ArrayInt32ASCII, int32_arr, "-5,808530483,1094861636");
			TEST_Result(ArrayInt32NORMAL, int32_arr, "#212" "\xFF\xFF\xFF\xFB" "0123" "ABCD");
			TEST_Result(ArrayInt32SWAPPED, int32_arr, "#212" "\xFB\xFF\xFF\xFF" "3210" "DCBA");

			uint32_t uint32_arr[] = {4294967291UL, 808530483UL, 1094861636UL};
			TEST_Result(ArrayUInt32ASCII, uint32_arr, "4294967291,808530483,1094861636");
			TEST_Result(ArrayUInt32NORMAL, uint32_arr, "#212" "\xFF\xFF\xFF\xFB" "0123" "ABCD");
			TEST_Result(ArrayUInt32SWAPPED, uint32_arr, "#212" "\xFB\xFF\xFF\xFF" "3210" "DCBA");

			int64_t int64_arr[] = {-5LL, 3472611983179986487LL};
			TEST_Result(ArrayInt64ASCII, int64_arr, "-5,3472611983179986487");
			TEST_Result(ArrayInt64NORMAL, int64_arr, "#216" "\xFF\xFF\xFF\xFF" "\xFF\xFF\xFF\xFB" "01234567");
			TEST_Result(ArrayInt64SWAPPED, int64_arr, "#216" "\xFB\xFF\xFF\xFF" "\xFF\xFF\xFF\xFF" "76543210");

			uint64_t uint64_arr[] = {18446744073709551611ULL, 3472611983179986487ULL};
			TEST_Result(ArrayUInt64ASCII, uint64_arr, "18446744073709551611,3472611983179986487");
			TEST_Result(ArrayUInt64NORMAL, uint64_arr, "#216" "\xFF\xFF\xFF\xFF" "\xFF\xFF\xFF\xFB" "01234567");
			TEST_Result(ArrayUInt64SWAPPED, uint64_arr, "#216" "\xFB\xFF\xFF\xFF" "\xFF\xFF\xFF\xFF" "76543210");

			float float_arr[] = {0.7549173, 3.0196693};
			TEST_Result(ArrayFloatASCII, float_arr, "0.754917,3.01967");
			TEST_Result(ArrayFloatNORMAL, float_arr, "#18" "?ABC" "@ABC");
			TEST_Result(ArrayFloatSWAPPED, float_arr, "#18" "CBA?" "CBA@");

			double double_arr[] = {76543217654321, 1234567891234567};
			TEST_Result(ArrayDoubleASCII, double_arr, "76543217654321,1.23456789123457e+15");
			TEST_Result(ArrayDoubleNORMAL, double_arr, "#216" "\x42\xd1\x67\x66\xd3\x16\x8c\x40" "\x43\x11\x8b\x54\xf2\x6e\xbc\x1c");
			TEST_Result(ArrayDoubleSWAPPED, double_arr, "#216" "\x40\x8c\x16\xd3\x66\x67\xd1\x42" "\x1c\xbc\x6e\xf2\x54\x8b\x11\x43");
			}

			static void testNumberToStr(void) {

			#define TEST_SCPI_NumberToStr(_special, _value, _unit, expected_result) 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 + 1];\
			size_t res_len;\
			res_len = SCPI_NumberToStr(&scpi_context, scpi_special_numbers_def, &number, buffer, 100);\
			CU_ASSERT_STRING_EQUAL(buffer, expected_result);\
			CU_ASSERT_EQUAL(res_len, strlen(expected_result));\
			} 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");
			}

			static void testErrorQueue(void) {
			scpi_error_t val;
			SCPI_ErrorClear(&scpi_context);
			CU_ASSERT_EQUAL(SCPI_ErrorCount(&scpi_context), 0);
			SCPI_ErrorPush(&scpi_context, -1);
			CU_ASSERT_EQUAL(SCPI_ErrorCount(&scpi_context), 1);
			SCPI_ErrorPush(&scpi_context, -2);
			CU_ASSERT_EQUAL(SCPI_ErrorCount(&scpi_context), 2);
			SCPI_ErrorPush(&scpi_context, -3);
			CU_ASSERT_EQUAL(SCPI_ErrorCount(&scpi_context), 3);
			SCPI_ErrorPush(&scpi_context, -4);
			CU_ASSERT_EQUAL(SCPI_ErrorCount(&scpi_context), 4);
			SCPI_ErrorPush(&scpi_context, -5);
			CU_ASSERT_EQUAL(SCPI_ErrorCount(&scpi_context), 4);
			SCPI_ErrorPush(&scpi_context, -6);
			CU_ASSERT_EQUAL(SCPI_ErrorCount(&scpi_context), 4);

			SCPI_ErrorPop(&scpi_context, &val);
			CU_ASSERT_EQUAL(val.error_code, -1);
			CU_ASSERT_EQUAL(SCPI_ErrorCount(&scpi_context), 3);
			SCPI_ErrorPop(&scpi_context, &val);
			CU_ASSERT_EQUAL(val.error_code, -2);
			CU_ASSERT_EQUAL(SCPI_ErrorCount(&scpi_context), 2);
			SCPI_ErrorPop(&scpi_context, &val);
			CU_ASSERT_EQUAL(val.error_code, -3);
			CU_ASSERT_EQUAL(SCPI_ErrorCount(&scpi_context), 1);
			SCPI_ErrorPop(&scpi_context, &val);
			CU_ASSERT_EQUAL(val.error_code, SCPI_ERROR_QUEUE_OVERFLOW);
			CU_ASSERT_EQUAL(SCPI_ErrorCount(&scpi_context), 0);
			SCPI_ErrorPop(&scpi_context, &val);
			CU_ASSERT_EQUAL(val.error_code, 0);
			CU_ASSERT_EQUAL(SCPI_ErrorCount(&scpi_context), 0);

			SCPI_ErrorClear(&scpi_context);
			}

			#define TEST_INCOMPLETE_ARB(_val, _part_len) do {\
			double val = _val;\
			char command_text[] = "SAMple #18[DOUBLE]\r";\
			char * command = command_text;\
			size_t command_len = strlen(command);\
			memcpy(command + 10, &val, sizeof(val));\
			test_sample_received = NAN;\
			size_t part_len = _part_len;\
			SCPI_ErrorClear(&scpi_context);\
			while (command_len) {\
			part_len = part_len > command_len ? command_len : part_len;\
			SCPI_Input(&scpi_context, command, part_len);\
			command += part_len;\
			command_len -= part_len;\
			}\
			CU_ASSERT_EQUAL(SCPI_ErrorCount(&scpi_context), 0);\
			CU_ASSERT_EQUAL(test_sample_received, val);\
			} while(0)

			static void testIncompleteArbitraryParameter(void) {
			TEST_INCOMPLETE_ARB(0.5, 19);
			TEST_INCOMPLETE_ARB(0.5, 18);
			TEST_INCOMPLETE_ARB(0.5, 17);
			TEST_INCOMPLETE_ARB(0.5, 16);
			TEST_INCOMPLETE_ARB(0.5, 15);
			TEST_INCOMPLETE_ARB(0.5, 14);
			TEST_INCOMPLETE_ARB(0.5, 13);
			TEST_INCOMPLETE_ARB(0.5, 12);
			TEST_INCOMPLETE_ARB(0.5, 11);
			TEST_INCOMPLETE_ARB(0.5, 10);
			TEST_INCOMPLETE_ARB(0.5, 9);
			TEST_INCOMPLETE_ARB(0.5, 8);
			TEST_INCOMPLETE_ARB(0.5, 7);
			TEST_INCOMPLETE_ARB(0.5, 6);
			TEST_INCOMPLETE_ARB(0.5, 5);
			TEST_INCOMPLETE_ARB(0.5, 4);
			TEST_INCOMPLETE_ARB(0.5, 3);
			TEST_INCOMPLETE_ARB(0.5, 2);
			TEST_INCOMPLETE_ARB(0.5, 1);

			TEST_INCOMPLETE_ARB(0.501220703125, 19);
			TEST_INCOMPLETE_ARB(0.501220703125, 18);
			TEST_INCOMPLETE_ARB(0.501220703125, 17);
			TEST_INCOMPLETE_ARB(0.501220703125, 16);
			TEST_INCOMPLETE_ARB(0.501220703125, 15);
			TEST_INCOMPLETE_ARB(0.501220703125, 14);
			TEST_INCOMPLETE_ARB(0.501220703125, 13);
			TEST_INCOMPLETE_ARB(0.501220703125, 12);
			TEST_INCOMPLETE_ARB(0.501220703125, 11);
			TEST_INCOMPLETE_ARB(0.501220703125, 10);
			TEST_INCOMPLETE_ARB(0.501220703125, 9);
			TEST_INCOMPLETE_ARB(0.501220703125, 8);
			TEST_INCOMPLETE_ARB(0.501220703125, 7);
			TEST_INCOMPLETE_ARB(0.501220703125, 6);
			TEST_INCOMPLETE_ARB(0.501220703125, 5);
			TEST_INCOMPLETE_ARB(0.501220703125, 4);
			TEST_INCOMPLETE_ARB(0.501220703125, 3);
			TEST_INCOMPLETE_ARB(0.501220703125, 2);
			TEST_INCOMPLETE_ARB(0.501220703125, 1);

			TEST_INCOMPLETE_ARB(0.500000024214387, 19);
			TEST_INCOMPLETE_ARB(0.500000024214387, 18);
			TEST_INCOMPLETE_ARB(0.500000024214387, 17);
			TEST_INCOMPLETE_ARB(0.500000024214387, 16);
			TEST_INCOMPLETE_ARB(0.500000024214387, 15);
			TEST_INCOMPLETE_ARB(0.500000024214387, 14);
			TEST_INCOMPLETE_ARB(0.500000024214387, 13);
			TEST_INCOMPLETE_ARB(0.500000024214387, 12);
			TEST_INCOMPLETE_ARB(0.500000024214387, 11);
			TEST_INCOMPLETE_ARB(0.500000024214387, 10);
			TEST_INCOMPLETE_ARB(0.500000024214387, 9);
			TEST_INCOMPLETE_ARB(0.500000024214387, 8);
			TEST_INCOMPLETE_ARB(0.500000024214387, 7);
			TEST_INCOMPLETE_ARB(0.500000024214387, 6);
			TEST_INCOMPLETE_ARB(0.500000024214387, 5);
			TEST_INCOMPLETE_ARB(0.500000024214387, 4);
			TEST_INCOMPLETE_ARB(0.500000024214387, 3);
			TEST_INCOMPLETE_ARB(0.500000024214387, 2);
			TEST_INCOMPLETE_ARB(0.500000024214387, 1);
			}

			#define TEST_INCOMPLETE_TEXT(_text, _part_len) do {\
			char command_text[] = "TEXT? \"\", \"" _text "\"\r";\
			char * command = command_text;\
			size_t command_len = strlen(command);\
			output_buffer_clear();\
			size_t part_len = _part_len;\
			SCPI_ErrorClear(&scpi_context);\
			while (command_len) {\
			part_len = part_len > command_len ? command_len : part_len;\
			SCPI_Input(&scpi_context, command, part_len);\
			command += part_len;\
			command_len -= part_len;\
			}\
			CU_ASSERT_EQUAL(SCPI_ErrorCount(&scpi_context), 0);\
			CU_ASSERT_STRING_EQUAL("\"" _text "\"\r\n", output_buffer);\
			} while(0)

			static void testIncompleteTextParameter(void) {
			TEST_INCOMPLETE_TEXT("AbcdEfgh", 20);
			TEST_INCOMPLETE_TEXT("AbcdEfgh", 19);
			TEST_INCOMPLETE_TEXT("AbcdEfgh", 18);
			TEST_INCOMPLETE_TEXT("AbcdEfgh", 17);
			TEST_INCOMPLETE_TEXT("AbcdEfgh", 16);
			TEST_INCOMPLETE_TEXT("AbcdEfgh", 15);
			TEST_INCOMPLETE_TEXT("AbcdEfgh", 14);
			TEST_INCOMPLETE_TEXT("AbcdEfgh", 13);
			TEST_INCOMPLETE_TEXT("AbcdEfgh", 12);
			TEST_INCOMPLETE_TEXT("AbcdEfgh", 11);
			TEST_INCOMPLETE_TEXT("AbcdEfgh", 10);
			TEST_INCOMPLETE_TEXT("AbcdEfgh", 9);
			TEST_INCOMPLETE_TEXT("AbcdEfgh", 8);
			TEST_INCOMPLETE_TEXT("AbcdEfgh", 7);
			TEST_INCOMPLETE_TEXT("AbcdEfgh", 6);
			TEST_INCOMPLETE_TEXT("AbcdEfgh", 5);
			TEST_INCOMPLETE_TEXT("AbcdEfgh", 4);
			TEST_INCOMPLETE_TEXT("AbcdEfgh", 3);
			TEST_INCOMPLETE_TEXT("AbcdEfgh", 2);
			TEST_INCOMPLETE_TEXT("AbcdEfgh", 1);
			}

			int main() {
			unsigned int result;
			CU_pSuite pSuite = NULL;
			@@ -1075,6 +1477,9 @@
			\|\| (NULL == CU_add_test(pSuite, "SCPI_ParamDouble", testSCPI_ParamDouble))
			\|\| (NULL == CU_add_test(pSuite, "SCPI_ParamCharacters", testSCPI_ParamCharacters))
			\|\| (NULL == CU_add_test(pSuite, "SCPI_ParamCopyText", testSCPI_ParamCopyText))
			\|\| (NULL == CU_add_test(pSuite, "SCPI_ParamArbitraryBlock", testSCPI_ParamArbitraryBlock))
			\|\| (NULL == CU_add_test(pSuite, "SCPI_ParamBool", testSCPI_ParamBool))
			\|\| (NULL == CU_add_test(pSuite, "SCPI_ParamChoice", testSCPI_ParamChoice))
			\|\| (NULL == CU_add_test(pSuite, "Commands handling", testCommandsHandling))
			\|\| (NULL == CU_add_test(pSuite, "Error handling", testErrorHandling))
			\|\| (NULL == CU_add_test(pSuite, "IEEE 488.2 Mandatory commands", testIEEE4882))
			@@ -1095,6 +1500,11 @@
			\|\| (NULL == CU_add_test(pSuite, "SCPI_ResultMnemonic", testResultMnemonic))
			\|\| (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_NumberToStr", testNumberToStr))
			\|\| (NULL == CU_add_test(pSuite, "SCPI_ErrorQueue", testErrorQueue))
			\|\| (NULL == CU_add_test(pSuite, "Incomplete arbitrary parameter", testIncompleteArbitraryParameter))
			\|\| (NULL == CU_add_test(pSuite, "Incomplete text parameter", testIncompleteTextParameter))
			) {
			CU_cleanup_registry();
			return CU_get_error();