sola/scpi-parser.git

			@@ -45,15 +45,15 @@
			* CUnit Test Suite
			*/

			int init_suite(void) {
			static int init_suite(void) {
			return 0;
			}

			int clean_suite(void) {
			static int clean_suite(void) {
			return 0;
			}

			void test_strnpbrk() {
			static void test_strnpbrk() {
			char str[] = "ahoj";

			CU_ASSERT(strnpbrk(str, 4, "a") == (str + 0));
			@@ -61,26 +61,262 @@
			CU_ASSERT(strnpbrk(str, 4, "b") == NULL);
			CU_ASSERT(strnpbrk(str, 1, "h") == NULL);
			CU_ASSERT(strnpbrk(str, 4, "xo") == (str + 2));

			CU_ASSERT(strnpbrk(str, 4, "j") == (str + 3));

			}

			void test_longToStr() {
			char str[32];
			static void test_Int32ToStr() {
			const size_t max=32+1;
			char str[max];
			size_t len;

			len = longToStr(10, str, 32, 10);
			// test conversion to decimal numbers
			len = SCPI_Int32ToStr(0, str, max, 10);
			CU_ASSERT(len == 1);
			CU_ASSERT_STRING_EQUAL(str, "0");
			CU_ASSERT(str[len] == '\0');

			len = SCPI_Int32ToStr(1, str, max, 10);
			CU_ASSERT(len == 1);
			CU_ASSERT_STRING_EQUAL(str, "1");
			CU_ASSERT(str[len] == '\0');

			len = SCPI_Int32ToStr(-1, str, max, 10);
			CU_ASSERT(len == 2);
			CU_ASSERT(str[0] == '1');
			CU_ASSERT(str[1] == '0');
			CU_ASSERT(str[2] == '\0');
			CU_ASSERT_STRING_EQUAL(str, "-1");
			CU_ASSERT(str[len] == '\0');

			len = SCPI_Int32ToStr(0x7fffffff, str, max, 10);
			CU_ASSERT(len == 10);
			CU_ASSERT_STRING_EQUAL(str, "2147483647");
			CU_ASSERT(str[len] == '\0');

			len = SCPI_Int32ToStr(0x80000000, str, max, 10);
			CU_ASSERT(len == 11);
			CU_ASSERT_STRING_EQUAL(str, "-2147483648");
			CU_ASSERT(str[len] == '\0');

			// test conversion to binary numbers
			len = SCPI_Int32ToStr(0, str, max, 2);
			CU_ASSERT(len == 1);
			CU_ASSERT_STRING_EQUAL(str, "0");
			CU_ASSERT(str[len] == '\0');

			len = SCPI_Int32ToStr(1, str, max, 2);
			CU_ASSERT(len == 1);
			CU_ASSERT_STRING_EQUAL(str, "1");
			CU_ASSERT(str[len] == '\0');

			len = SCPI_Int32ToStr(-1, str, max, 2);
			CU_ASSERT(len == 32);
			CU_ASSERT_STRING_EQUAL(str, "11111111111111111111111111111111");
			CU_ASSERT(str[len] == '\0');

			len = SCPI_Int32ToStr(0x01234567, str, max, 2);
			CU_ASSERT(len == 25);
			CU_ASSERT_STRING_EQUAL(str, "1001000110100010101100111");
			CU_ASSERT(str[len] == '\0');

			len = SCPI_Int32ToStr(0x89abcdef, str, max, 2);
			CU_ASSERT(len == 32);
			CU_ASSERT_STRING_EQUAL(str, "10001001101010111100110111101111");
			CU_ASSERT(str[len] == '\0');

			// test conversion to hexadecimal numbers
			len = SCPI_Int32ToStr(0x0, str, max, 16);
			CU_ASSERT(len == 1);
			CU_ASSERT_STRING_EQUAL(str, "0");
			CU_ASSERT(str[len] == '\0');

			len = SCPI_Int32ToStr(0x01234567, str, max, 16);
			CU_ASSERT(len == 7);
			CU_ASSERT_STRING_EQUAL(str, "1234567");
			CU_ASSERT(str[len] == '\0');

			len = SCPI_Int32ToStr(0x89ABCDEF, str, max, 16);
			CU_ASSERT(len == 8);
			CU_ASSERT_STRING_EQUAL(str, "89ABCDEF");
			CU_ASSERT(str[len] == '\0');

			// test conversion to octal numbers
			len = SCPI_Int32ToStr(0, str, max, 8);
			CU_ASSERT(len == 1);
			CU_ASSERT_STRING_EQUAL(str, "0");
			CU_ASSERT(str[len] == '\0');

			len = SCPI_Int32ToStr(0xffffffff, str, max, 8);
			CU_ASSERT(len == 11);
			CU_ASSERT_STRING_EQUAL(str, "37777777777");
			CU_ASSERT(str[len] == '\0');

			len = SCPI_Int32ToStr(076543210, str, max, 8);
			CU_ASSERT(len == 8);
			CU_ASSERT_STRING_EQUAL(str, "76543210");
			CU_ASSERT(str[len] == '\0');
			}

			void test_doubleToStr() {
			static void test_UInt32ToStr() {
			const size_t max=32+1;
			char str[max];
			size_t len;

			// test conversion to decimal numbers
			len = SCPI_UInt32ToStr(0, str, max, 10);
			CU_ASSERT(len == 1);
			CU_ASSERT_STRING_EQUAL(str, "0");
			CU_ASSERT(str[len] == '\0');

			len = SCPI_UInt32ToStr(1, str, max, 10);
			CU_ASSERT(len == 1);
			CU_ASSERT_STRING_EQUAL(str, "1");
			CU_ASSERT(str[len] == '\0');

			len = SCPI_UInt32ToStr(-1, str, max, 10);
			CU_ASSERT(len == 10);
			CU_ASSERT_STRING_EQUAL(str, "4294967295");
			CU_ASSERT(str[len] == '\0');

			len = SCPI_UInt32ToStr(0x7fffffff, str, max, 10);
			CU_ASSERT(len == 10);
			CU_ASSERT_STRING_EQUAL(str, "2147483647");
			CU_ASSERT(str[len] == '\0');

			len = SCPI_UInt32ToStr(0x80000000, str, max, 10);
			CU_ASSERT(len == 10);
			CU_ASSERT_STRING_EQUAL(str, "2147483648");
			CU_ASSERT(str[len] == '\0');
			}

			static void test_Int64ToStr() {
			const size_t max=64+1;
			char str[max];
			size_t len;

			// test conversion to decimal numbers
			len = SCPI_Int64ToStr(0, str, max, 10);
			CU_ASSERT(len == 1);
			CU_ASSERT_STRING_EQUAL(str, "0");
			CU_ASSERT(str[len] == '\0');

			len = SCPI_Int64ToStr(1, str, max, 10);
			CU_ASSERT(len == 1);
			CU_ASSERT_STRING_EQUAL(str, "1");
			CU_ASSERT(str[len] == '\0');

			len = SCPI_Int64ToStr(-1, str, max, 10);
			CU_ASSERT(len == 2);
			CU_ASSERT_STRING_EQUAL(str, "-1");
			CU_ASSERT(str[len] == '\0');

			len = SCPI_Int64ToStr(0x7fffffffffffffff, str, max, 10);
			CU_ASSERT(len == 19);
			CU_ASSERT_STRING_EQUAL(str, "9223372036854775807");
			CU_ASSERT(str[len] == '\0');

			len = SCPI_Int64ToStr(0x8000000000000000, str, max, 10);
			CU_ASSERT(len == 20);
			CU_ASSERT_STRING_EQUAL(str, "-9223372036854775808");
			CU_ASSERT(str[len] == '\0');

			// test conversion to binary numbers
			len = SCPI_Int64ToStr(0, str, max, 2);
			CU_ASSERT(len == 1);
			CU_ASSERT_STRING_EQUAL(str, "0");
			CU_ASSERT(str[len] == '\0');

			len = SCPI_Int64ToStr(1, str, max, 2);
			CU_ASSERT(len == 1);
			CU_ASSERT_STRING_EQUAL(str, "1");
			CU_ASSERT(str[len] == '\0');

			len = SCPI_Int64ToStr(-1, str, max, 2);
			CU_ASSERT(len == 64);
			CU_ASSERT_STRING_EQUAL(str, "1111111111111111111111111111111111111111111111111111111111111111");
			CU_ASSERT(str[len] == '\0');

			len = SCPI_Int64ToStr(0x0123456789abcdef, str, max, 2);
			CU_ASSERT(len == 57);
			CU_ASSERT_STRING_EQUAL(str, "100100011010001010110011110001001101010111100110111101111");
			CU_ASSERT(str[len] == '\0');

			len = SCPI_Int64ToStr(0xfedcba9876543210, str, max, 2);
			CU_ASSERT(len == 64);
			CU_ASSERT_STRING_EQUAL(str, "1111111011011100101110101001100001110110010101000011001000010000");
			CU_ASSERT(str[len] == '\0');

			// test conversion to hexadecimal numbers
			len = SCPI_Int64ToStr(0x0, str, max, 16);
			CU_ASSERT(len == 1);
			CU_ASSERT_STRING_EQUAL(str, "0");
			CU_ASSERT(str[len] == '\0');

			len = SCPI_Int64ToStr(0x0123456789abcdef, str, max, 16);
			CU_ASSERT(len == 15);
			CU_ASSERT_STRING_EQUAL(str, "123456789ABCDEF");
			CU_ASSERT(str[len] == '\0');

			len = SCPI_Int64ToStr(0xfedcba9876543210, str, max, 16);
			CU_ASSERT(len == 16);
			CU_ASSERT_STRING_EQUAL(str, "FEDCBA9876543210");
			CU_ASSERT(str[len] == '\0');

			// test conversion to octal numbers
			len = SCPI_Int64ToStr(0, str, max, 8);
			CU_ASSERT(len == 1);
			CU_ASSERT_STRING_EQUAL(str, "0");
			CU_ASSERT(str[len] == '\0');

			len = SCPI_Int64ToStr(0xffffffffffffffff, str, max, 8);
			CU_ASSERT(len == 22);
			CU_ASSERT_STRING_EQUAL(str, "1777777777777777777777");
			CU_ASSERT(str[len] == '\0');

			len = SCPI_Int64ToStr(076543210, str, max, 8);
			CU_ASSERT(len == 8);
			CU_ASSERT_STRING_EQUAL(str, "76543210");
			CU_ASSERT(str[len] == '\0');
			}

			static void test_UInt64ToStr() {
			const size_t max=64+1;
			char str[max];
			size_t len;

			// test conversion to decimal numbers
			len = SCPI_UInt64ToStr(0, str, max, 10);
			CU_ASSERT(len == 1);
			CU_ASSERT_STRING_EQUAL(str, "0");
			CU_ASSERT(str[len] == '\0');

			len = SCPI_UInt64ToStr(1, str, max, 10);
			CU_ASSERT(len == 1);
			CU_ASSERT_STRING_EQUAL(str, "1");
			CU_ASSERT(str[len] == '\0');

			len = SCPI_UInt64ToStr(-1, str, max, 10);
			CU_ASSERT(len == 20);
			CU_ASSERT_STRING_EQUAL(str, "18446744073709551615");
			CU_ASSERT(str[len] == '\0');

			len = SCPI_UInt64ToStr(0x7fffffffffffffff, str, max, 10);
			CU_ASSERT(len == 19);
			CU_ASSERT_STRING_EQUAL(str, "9223372036854775807");
			CU_ASSERT(str[len] == '\0');

			len = SCPI_UInt64ToStr(0x8000000000000000, str, max, 10);
			CU_ASSERT(len == 19);
			CU_ASSERT_STRING_EQUAL(str, "9223372036854775808");
			CU_ASSERT(str[len] == '\0');
			}

			static void test_doubleToStr() {
			size_t result;
			char str[50];

			#define TEST_DOUBLE_TO_STR(v, r, s) \
			do { \
			result = doubleToStr(v, str, sizeof(str)); \
			result = SCPI_DoubleToStr(v, str, sizeof(str)); \
			CU_ASSERT_EQUAL(result, r); \
			CU_ASSERT_STRING_EQUAL(str, s); \
			} while(0) \
			@@ -96,17 +332,17 @@
			TEST_DOUBLE_TO_STR(-1.3e-30, 8, "-1.3e-30");
			}

			void test_strToLong() {
			static void test_strToInt32() {
			size_t result;
			int32_t val;

			#define TEST_STR_TO_LONG(s, r, v, b) \
			do { \
			result = strToLong(s, &val, b); \
			result = strToInt32(s, &val, b); \
			CU_ASSERT_EQUAL(val, v); \
			CU_ASSERT_EQUAL(result, r); \
			} while(0) \


			TEST_STR_TO_LONG("", 0, 0, 10);
			TEST_STR_TO_LONG("1", 1, 1, 10);
			TEST_STR_TO_LONG("10", 2, 10, 10);
			@@ -121,7 +357,32 @@
			TEST_STR_TO_LONG("18", 1, 1, 8); // octal 1, 8 is ignored
			}

			void test_strToDouble() {
			static void test_strToUInt32() {
			size_t result;
			uint32_t val;

			#define TEST_STR_TO_ULONG(s, r, v, b) \
			do { \
			result = strToUInt32(s, &val, b); \
			CU_ASSERT_EQUAL(val, v); \
			CU_ASSERT_EQUAL(result, r); \
			} while(0) \

			TEST_STR_TO_ULONG("", 0, 0, 10);
			TEST_STR_TO_ULONG("1", 1, 1, 10);
			TEST_STR_TO_ULONG("10", 2, 10, 10);
			TEST_STR_TO_ULONG("100MHz", 3, 100, 10);
			TEST_STR_TO_ULONG("MHz", 0, 0, 10);
			TEST_STR_TO_ULONG("1.4", 1, 1, 10);
			TEST_STR_TO_ULONG(" 1", 2, 1, 10);
			TEST_STR_TO_ULONG(" +100", 5, 100, 10); // space and +
			TEST_STR_TO_ULONG("FF", 2, 255, 16); // hexadecimal FF
			TEST_STR_TO_ULONG("77", 2, 63, 8); // octal 77
			TEST_STR_TO_ULONG("18", 1, 1, 8); // octal 1, 8 is ignored
			TEST_STR_TO_ULONG("FFFFFFFF", 8, 0xffffffffu, 16); // octal 1, 8 is ignored
			}

			static void test_strToDouble() {
			double val;
			size_t result;

			@@ -154,7 +415,7 @@

			}

			void test_compareStr() {
			static void test_compareStr() {

			CU_ASSERT_TRUE(compareStr("abcd", 1, "afgh", 1));
			CU_ASSERT_TRUE(compareStr("ABCD", 4, "abcd", 4));
			@@ -165,12 +426,44 @@
			CU_ASSERT_FALSE(compareStr("ABCD", 4, "abcd", 3));
			}

			void test_matchPattern() {
			bool_t result;
			static void test_compareStrAndNum() {
			int32_t num;

			CU_ASSERT_TRUE(compareStrAndNum("abcd", 1, "afgh", 1, NULL));
			CU_ASSERT_TRUE(compareStrAndNum("ABCD", 4, "abcd", 4, NULL));
			CU_ASSERT_TRUE(compareStrAndNum("AbCd", 3, "AbCE", 3, NULL));
			CU_ASSERT_TRUE(compareStrAndNum("ABCD", 1, "a", 1, NULL));

			CU_ASSERT_FALSE(compareStrAndNum("abcd", 1, "efgh", 1, NULL));
			CU_ASSERT_FALSE(compareStrAndNum("ABCD", 4, "abcd", 3, NULL));

			CU_ASSERT_TRUE(compareStrAndNum("abcd", 4, "abcd1", 5, NULL));
			CU_ASSERT_TRUE(compareStrAndNum("abcd", 4, "abcd123", 7, NULL));
			CU_ASSERT_FALSE(compareStrAndNum("abcd", 4, "abcd12A", 7, NULL));
			CU_ASSERT_FALSE(compareStrAndNum("abcd", 4, "abcdB12", 7, NULL));
			CU_ASSERT_FALSE(compareStrAndNum("abdd", 4, "abcd132", 7, NULL));

			#define TEST_COMPARE_STR_AND_NUM(s1, l1, s2, l2, v, r) \
			do { \
			num = -1; \
			CU_ASSERT_EQUAL(compareStrAndNum(s1, l1, s2, l2, &num),r); \
			CU_ASSERT_EQUAL(num, v); \
			} while(0); \

			TEST_COMPARE_STR_AND_NUM("abcd", 4, "abcd", 4, -1, TRUE);
			TEST_COMPARE_STR_AND_NUM("abcd", 4, "abcd1", 5, 1, TRUE);
			TEST_COMPARE_STR_AND_NUM("abcd", 4, "abcd123", 7, 123, TRUE);
			TEST_COMPARE_STR_AND_NUM("abcd", 4, "abcd12A", 7, -1, FALSE);
			TEST_COMPARE_STR_AND_NUM("abcd", 4, "abcdB12", 7, -1, FALSE);
			TEST_COMPARE_STR_AND_NUM("abdd", 4, "abcd132", 7, -1, FALSE);
			}

			static void test_matchPattern() {
			scpi_bool_t result;

			#define TEST_MATCH_PATTERN(p, s, r) \
			do { \
			result = matchPattern(p, strlen(p), s, strlen(s)); \
			result = matchPattern(p, strlen(p), s, strlen(s), NULL);\
			CU_ASSERT_EQUAL(result, r); \
			} while(0) \

			@@ -179,15 +472,32 @@
			TEST_MATCH_PATTERN("Ab", "ab", TRUE);
			TEST_MATCH_PATTERN("Ab", "aB", TRUE);
			TEST_MATCH_PATTERN("AB", "a", FALSE);
			TEST_MATCH_PATTERN("Ab#", "aB", TRUE);
			TEST_MATCH_PATTERN("Ab#", "aB10", TRUE);
			TEST_MATCH_PATTERN("Ab#", "a10", TRUE);
			}

			void test_matchCommand() {
			bool_t result;
			static void test_matchCommand() {
			scpi_bool_t result;
			int32_t values[20];

			#define TEST_MATCH_COMMAND(p, s, r) \
			#define TEST_MATCH_COMMAND(p, s, r) \
			do { \
			result = matchCommand(p, s, strlen(s)); \
			result = matchCommand(p, s, strlen(s), NULL, 0, 0); \
			CU_ASSERT_EQUAL(result, r); \
			} while(0) \

			#define NOPAREN(...) __VA_ARGS__

			#define TEST_MATCH_COMMAND2(p, s, r, v) \
			do { \
			int32_t evalues[] = {NOPAREN v}; \
			unsigned int cnt = (sizeof(evalues)/4); \
			result = matchCommand(p, s, strlen(s), values, 20, -1); \
			CU_ASSERT_EQUAL(result, r); \
			{unsigned int i; for (i = 0; i<cnt; i++) { \
			CU_ASSERT_EQUAL(evalues[i], values[i]); \
			}} \
			} while(0) \

			TEST_MATCH_COMMAND("A", "a", TRUE);
			@@ -289,9 +599,85 @@
			TEST_MATCH_COMMAND("*IDN?", ":idn?", FALSE); // common command
			TEST_MATCH_COMMAND("IDN?", ":idn", FALSE); // common command
			TEST_MATCH_COMMAND("IDN?", ":idn?", FALSE); // common command

			TEST_MATCH_COMMAND("ABCdef#", "abc", TRUE); // test numeric parameter
			TEST_MATCH_COMMAND("ABCdef#", "abc1324", TRUE); // test numeric parameter
			TEST_MATCH_COMMAND("ABCdef#", "abcDef1324", TRUE); // test numeric parameter
			TEST_MATCH_COMMAND("ABCdef#", "abcDef124b", FALSE); // test numeric parameter

			TEST_MATCH_COMMAND("OUTPut#:MODulation#:FM#", "abc", FALSE); // test numeric parameter
			TEST_MATCH_COMMAND("OUTPut#:MODulation#:FM#", "outp1:mod10:fm", TRUE); // test numeric parameter
			TEST_MATCH_COMMAND("OUTPut#:MODulation#:FM#", "output1:mod10:fm", TRUE); // test numeric parameter
			TEST_MATCH_COMMAND("OUTPut#:MODulation#:FM#", "outp1:modulation:fm5", TRUE); // test numeric parameter
			TEST_MATCH_COMMAND("OUTPut#:MODulation#:FM#", "output:mod:fm", TRUE); // test numeric parameter
			TEST_MATCH_COMMAND("OUTPut#:MODulation#:FM#", "outp1:mod10a:fm", FALSE); // test numeric parameter
			TEST_MATCH_COMMAND("OUTPut#[:MODulation#]:FM#", "outp1:fm", TRUE); // test numeric parameter
			TEST_MATCH_COMMAND("OUTPut#[:MODulation#]:FM#", "outp1:mod10:fm", TRUE); // test numeric parameter
			TEST_MATCH_COMMAND("OUTPut#[:MODulation#]:FM#", "outp1:fm2", TRUE); // test numeric parameter
			TEST_MATCH_COMMAND("OUTPut#[:MODulation#]:FM#", "output:fm", TRUE); // test numeric parameter

			TEST_MATCH_COMMAND2("OUTPut#:MODulation#:FM#", "outp3:mod10:fm", TRUE, (3, 10, -1)); // test numeric parameter
			TEST_MATCH_COMMAND2("OUTPut#:MODulation#:FM#", "output3:mod10:fm", TRUE, (3, 10, -1)); // test numeric parameter
			TEST_MATCH_COMMAND2("OUTPut#:MODulation#:FM#", "outp30:modulation:fm5", TRUE, (30, -1, 5)); // test numeric parameter
			TEST_MATCH_COMMAND2("OUTPut#:MODulation#:FM#", "output:mod:fm", TRUE, (-1, -1, -1)); // test numeric parameter
			TEST_MATCH_COMMAND2("OUTPut#[:MODulation#]:FM#", "outp3:fm", TRUE, (3, -1, -1)); // test numeric parameter
			TEST_MATCH_COMMAND2("OUTPut#[:MODulation#]:FM#", "outp3:mod10:fm", TRUE, (3, 10, -1)); // test numeric parameter
			TEST_MATCH_COMMAND2("OUTPut#[:MODulation#]:FM#", "outp3:fm2", TRUE, (3, -1, 2)); // test numeric parameter
			TEST_MATCH_COMMAND2("OUTPut#[:MODulation#]:FM#", "output:fm", TRUE, (-1, -1, -1)); // test numeric parameter

			TEST_MATCH_COMMAND2("OUTPut#:MODulation:FM#", "outp3:mod:fm", TRUE, (3, -1)); // test numeric parameter
			TEST_MATCH_COMMAND2("OUTPut#:MODulation:FM#", "output3:mod:fm", TRUE, (3, -1)); // test numeric parameter
			TEST_MATCH_COMMAND2("OUTPut#:MODulation:FM#", "outp30:modulation:fm5", TRUE, (30, 5)); // test numeric parameter
			TEST_MATCH_COMMAND2("OUTPut#:MODulation:FM#", "output:mod:fm", TRUE, (-1, -1)); // test numeric parameter
			TEST_MATCH_COMMAND2("OUTPut#[:MODulation]:FM#", "outp3:fm", TRUE, (3, -1)); // test numeric parameter
			TEST_MATCH_COMMAND2("OUTPut#[:MODulation]:FM#", "outp3:mod:fm", TRUE, (3, -1)); // test numeric parameter
			TEST_MATCH_COMMAND2("OUTPut#[:MODulation]:FM#", "outp3:fm2", TRUE, (3, 2)); // test numeric parameter
			TEST_MATCH_COMMAND2("OUTPut#[:MODulation]:FM#", "output:fm", TRUE, (-1, -1)); // test numeric parameter

			TEST_MATCH_COMMAND2("OUTPut#:MODulation#:FM", "outp3:mod10:fm", TRUE, (3, 10)); // test numeric parameter
			TEST_MATCH_COMMAND2("OUTPut#:MODulation#:FM", "output3:mod10:fm", TRUE, (3, 10)); // test numeric parameter
			TEST_MATCH_COMMAND2("OUTPut#:MODulation#:FM", "outp30:modulation:fm", TRUE, (30, -1)); // test numeric parameter
			TEST_MATCH_COMMAND2("OUTPut#:MODulation#:FM", "output:mod:fm", TRUE, (-1, -1)); // test numeric parameter
			TEST_MATCH_COMMAND2("OUTPut#[:MODulation#]:FM", "outp3:fm", TRUE, (3, -1)); // test numeric parameter
			TEST_MATCH_COMMAND2("OUTPut#[:MODulation#]:FM", "outp3:mod10:fm", TRUE, (3, 10)); // test numeric parameter
			TEST_MATCH_COMMAND2("OUTPut#[:MODulation#]:FM", "outp3:fm", TRUE, (3, -1)); // test numeric parameter
			TEST_MATCH_COMMAND2("OUTPut#[:MODulation#]:FM", "output:fm", TRUE, (-1, -1)); // test numeric parameter
			}

			static void test_composeCompoundCommand(void) {

			#define TEST_COMPOSE_COMMAND(b, c1_len, c2_pos, c2_len, c2_final, r) \
			{ \
			char buffer[100]; \
			scpi_token_t cmd_prev, cmd_curr; \
			cmd_prev.ptr = buffer; \
			cmd_prev.len = c1_len; \
			cmd_curr.ptr = buffer + c2_pos; \
			cmd_curr.len = c2_len; \
			scpi_bool_t res; \
			\
			strcpy(buffer, b); \
			res = composeCompoundCommand(&cmd_prev, &cmd_curr); \
			CU_ASSERT_EQUAL(res, r); \
			CU_ASSERT_EQUAL(cmd_curr.len, strlen(c2_final)); \
			CU_ASSERT_STRING_EQUAL(cmd_curr.ptr, c2_final); \
			}\

			TEST_COMPOSE_COMMAND("A:B;C", 3, 4, 1, "A:C", TRUE);
			TEST_COMPOSE_COMMAND("A:B;DD", 3, 4, 2, "A:DD", TRUE);
			TEST_COMPOSE_COMMAND("A:B", 0, 0, 3, "A:B", TRUE);
			TEST_COMPOSE_COMMAND("*IDN? ; ABC", 5, 8, 3, "ABC", TRUE);
			TEST_COMPOSE_COMMAND("A:B;IDN?", 3, 4, 5, "IDN?", TRUE);
			TEST_COMPOSE_COMMAND("A:B;:C", 3, 4, 2, ":C", TRUE);
			TEST_COMPOSE_COMMAND("B;C", 1, 2, 1, "C", TRUE);
			TEST_COMPOSE_COMMAND("A:B;C:D", 3, 4, 3, "A:C:D", TRUE);
			TEST_COMPOSE_COMMAND(":A:B;C", 4, 5, 1, ":A:C", TRUE);
			TEST_COMPOSE_COMMAND(":A:B;:C", 4, 5, 2, ":C", TRUE);
			TEST_COMPOSE_COMMAND(":A;C", 2, 3, 1, ":C", TRUE);
			}

			int main() {
			unsigned int result;
			CU_pSuite pSuite = NULL;

			/* Initialize the CUnit test registry */
			@@ -308,13 +694,19 @@
			/* Add the tests to the suite */
			if (0
			\|\| (NULL == CU_add_test(pSuite, "strnpbrk", test_strnpbrk))
			\|\| (NULL == CU_add_test(pSuite, "longToStr", test_longToStr))
			\|\| (NULL == CU_add_test(pSuite, "Int32ToStr", test_Int32ToStr))
			\|\| (NULL == CU_add_test(pSuite, "UInt32ToStr", test_UInt32ToStr))
			\|\| (NULL == CU_add_test(pSuite, "Int64ToStr", test_Int64ToStr))
			\|\| (NULL == CU_add_test(pSuite, "UInt64ToStr", test_UInt64ToStr))
			\|\| (NULL == CU_add_test(pSuite, "doubleToStr", test_doubleToStr))
			\|\| (NULL == CU_add_test(pSuite, "strToLong", test_strToLong))
			\|\| (NULL == CU_add_test(pSuite, "strToInt32", test_strToInt32))
			\|\| (NULL == CU_add_test(pSuite, "strToUInt32", test_strToUInt32))
			\|\| (NULL == CU_add_test(pSuite, "strToDouble", test_strToDouble))
			\|\| (NULL == CU_add_test(pSuite, "compareStr", test_compareStr))
			\|\| (NULL == CU_add_test(pSuite, "compareStrAndNum", test_compareStrAndNum))
			\|\| (NULL == CU_add_test(pSuite, "matchPattern", test_matchPattern))
			\|\| (NULL == CU_add_test(pSuite, "matchCommand", test_matchCommand))
			\|\| (NULL == CU_add_test(pSuite, "composeCompoundCommand", test_composeCompoundCommand))
			) {
			CU_cleanup_registry();
			return CU_get_error();
			@@ -323,6 +715,7 @@
			/* Run all tests using the CUnit Basic interface */
			CU_basic_set_mode(CU_BRM_VERBOSE);
			CU_basic_run_tests();
			result = CU_get_number_of_tests_failed();
			CU_cleanup_registry();
			return CU_get_error();
			return result ? result : CU_get_error();
			}