sola/scpi-parser.git

			@@ -41,7 +41,8 @@
			#include <string.h>
			#include <ctype.h>

			#include "utils.h"
			#include "utils_private.h"
			#include "scpi/utils.h"

			static size_t patternSeparatorShortPos(const char * pattern, size_t len);
			static size_t patternSeparatorPos(const char * pattern, size_t len);
			@@ -72,36 +73,241 @@
			* @param val integer value
			* @param str converted textual representation
			* @param len string buffer length
			* @param base output base
			* @return number of bytes written to str (without '\0')
			*/
			// TODO: add support for other bases
			size_t longToStr(int32_t val, char * str, size_t len, int8_t base) {
			uint32_t x = 1000000000L;
			size_t SCPI_Int32ToStr(int32_t val, char * str, size_t len, int8_t base) {
			const char digits[] = "0123456789ABCDEF";

			#define ADD_CHAR(c) if (pos < len) str[pos++] = (c)
			uint32_t x = 0;
			int_fast8_t digit;
			size_t pos = 0;
			uint32_t uval = val;

			if (val == 0) {
			if (pos < len) str[pos++] = '0';
			if (uval == 0) {
			ADD_CHAR('0');
			} else {
			if (val < 0) {
			val = -val;
			if (pos < len) str[pos++] = '-';

			switch (base) {
			case 2:
			x = 0x80000000L;
			break;
			case 8:
			x = 0x40000000L;
			break;
			case 10:
			x = 1000000000L;
			break;
			case 0x10:
			x = 0x10000000L;
			break;
			default:
			x = 1000000000L;
			base = 10;
			break;
			}

			while ((val / x) == 0) {
			x /= 10;
			// add sign for numbers in base 10
			if ((val < 0) && (base == 10)) {
			uval = -val;
			ADD_CHAR('-');
			}

			// remove leading zeros
			while ((uval / x) == 0) {
			x /= base;
			}

			do {
			digit = (uint8_t) (val / x);
			if (pos < len) str[pos++] = digit + '0';
			val -= digit * x;
			x /= 10;
			digit = (uint8_t) (uval / x);
			ADD_CHAR(digits[digit]);
			uval -= digit * x;
			x /= base;
			} while (x && (pos < len));
			}

			if (pos < len) str[pos] = 0;
			return pos;
			#undef ADD_CHAR
			}

			/**
			* Converts unsigned 32b integer value to string
			* @param val integer value
			* @param str converted textual representation
			* @param len string buffer length
			* @param base output base
			* @return number of bytes written to str (without '\0')
			*/
			size_t SCPI_UInt32ToStr(uint32_t val, char * str, size_t len, int8_t base) {
			const char digits[] = "0123456789ABCDEF";

			#define ADD_CHAR(c) if (pos < len) str[pos++] = (c)
			uint32_t x = 0;
			int_fast8_t digit;
			size_t pos = 0;

			if (val == 0) {
			ADD_CHAR('0');
			} else {

			switch (base) {
			case 2:
			x = 0x80000000L;
			break;
			case 8:
			x = 0x40000000L;
			break;
			case 10:
			x = 1000000000L;
			break;
			case 0x10:
			x = 0x10000000L;
			break;
			default:
			x = 1000000000L;
			base = 10;
			break;
			}

			// remove leading zeros
			while ((val / x) == 0) {
			x /= base;
			}

			do {
			digit = (uint8_t) (val / x);
			ADD_CHAR(digits[digit]);
			val -= digit * x;
			x /= base;
			} while (x && (pos < len));
			}

			if (pos < len) str[pos] = 0;
			return pos;
			#undef ADD_CHAR
			}

			/**
			* Converts signed 64b integer value to string
			* @param val integer value
			* @param str converted textual representation
			* @param len string buffer length
			* @param base output base
			* @return number of bytes written to str (without '\0')
			*/
			size_t SCPI_Int64ToStr(int64_t val, char * str, size_t len, int8_t base) {
			const char digits[] = "0123456789ABCDEF";

			#define ADD_CHAR(c) if (pos < len) str[pos++] = (c)
			uint64_t x = 0;
			int_fast8_t digit;
			size_t pos = 0;
			uint64_t uval = val;

			if (uval == 0) {
			ADD_CHAR('0');
			} else {

			switch (base) {
			case 2:
			x = 0x8000000000000000LL;
			break;
			case 8:
			x = 0x4000000000000000LL;
			break;
			case 10:
			x = 100000000000000000LL;
			break;
			case 0x10:
			x = 0x1000000000000000LL;
			break;
			default:
			x = 100000000000000000LL;
			base = 10;
			break;
			}

			// add sign for numbers in base 10
			if ((val < 0) && (base == 10)) {
			uval = -val;
			ADD_CHAR('-');
			}

			// remove leading zeros
			while ((uval / x) == 0) {
			x /= base;
			}

			do {
			digit = (uint8_t) (uval / x);
			ADD_CHAR(digits[digit]);
			uval -= digit * x;
			x /= base;
			} while (x && (pos < len));
			}

			if (pos < len) str[pos] = 0;
			return pos;
			#undef ADD_CHAR
			}

			/**
			* Converts unsigned 64b integer value to string
			* @param val integer value
			* @param str converted textual representation
			* @param len string buffer length
			* @param base output base
			* @return number of bytes written to str (without '\0')
			*/
			size_t SCPI_UInt64ToStr(uint64_t val, char * str, size_t len, int8_t base) {
			const char digits[] = "0123456789ABCDEF";

			#define ADD_CHAR(c) if (pos < len) str[pos++] = (c)
			uint64_t x = 0;
			int_fast8_t digit;
			size_t pos = 0;

			if (val == 0) {
			ADD_CHAR('0');
			} else {

			switch (base) {
			case 2:
			x = 0x8000000000000000LL;
			break;
			case 8:
			x = 0x4000000000000000LL;
			break;
			case 10:
			x = 100000000000000000LL;
			break;
			case 0x10:
			x = 0x1000000000000000LL;
			break;
			default:
			x = 1000000000L;
			base = 10;
			break;
			}

			// remove leading zeros
			while ((val / x) == 0) {
			x /= base;
			}

			do {
			digit = (uint8_t) (val / x);
			ADD_CHAR(digits[digit]);
			val -= digit * x;
			x /= base;
			} while (x && (pos < len));
			}

			if (pos < len) str[pos] = 0;
			return pos;
			#undef ADD_CHAR
			}

			/**
			@@ -111,8 +317,8 @@
			* @param len string buffer length
			* @return number of bytes written to str (without '\0')
			*/
			size_t doubleToStr(double val, char * str, size_t len) {
			return snprintf(str, len, "%lg", val);
			size_t SCPI_DoubleToStr(double val, char * str, size_t len) {
			return SCPIDEFINE_doubleToStr(val, str, len);
			}

			/**
			@@ -121,11 +327,24 @@
			* @param val 32bit integer result
			* @return number of bytes used in string
			*/
			size_t strToLong(const char * str, int32_t * val, int8_t base) {
			size_t strToInt32(const char * str, int32_t * val, int8_t base) {
			char * endptr;
			*val = strtol(str, &endptr, base);
			return endptr - str;
			}

			/**
			* Converts string to unsigned 32bit integer representation
			* @param str string value
			* @param val 32bit integer result
			* @return number of bytes used in string
			*/
			size_t strToUInt32(const char * str, uint32_t * val, int8_t base) {
			char * endptr;
			*val = strtoul(str, &endptr, base);
			return endptr - str;
			}


			/**
			* Converts string to double representation
			@@ -147,219 +366,61 @@
			* @param len2
			* @return TRUE if len1==len2 and "len" characters of both strings are equal
			*/
			bool_t compareStr(const char * str1, size_t len1, const char * str2, size_t len2) {
			scpi_bool_t compareStr(const char * str1, size_t len1, const char * str2, size_t len2) {
			if (len1 != len2) {
			return FALSE;
			}

			if (SCPI_strncasecmp(str1, str2, len2) == 0) {
			if (SCPIDEFINE_strncasecmp(str1, str2, len2) == 0) {
			return TRUE;
			}

			return FALSE;
			}

			enum _locate_text_states {
			STATE_FIRST_WHITESPACE,
			STATE_TEXT_QUOTED,
			STATE_TEXT,
			STATE_LAST_WHITESPACE,
			STATE_COMMA,
			STATE_ERROR
			};
			typedef enum _locate_text_states locate_text_states;

			struct _locate_text_nfa {
			locate_text_states state;
			int32_t startIdx;
			int32_t stopIdx;
			/**
			* Compare two strings, one be longer but may contains only numbers in that section
			* @param str1
			* @param len1
			* @param str2
			* @param len2
			* @return TRUE if strings match
			*/
			scpi_bool_t compareStrAndNum(const char * str1, size_t len1, const char * str2, size_t len2, int32_t * num) {
			scpi_bool_t result = FALSE;
			size_t i;
			};
			typedef struct _locate_text_nfa locate_text_nfa;

			/**
			* Test locate text state, if it is correct final state
			*/
			static bool_t isFinalState(locate_text_states state) {
			return (
			((state) == STATE_COMMA)
			\|\| ((state) == STATE_LAST_WHITESPACE)
			\|\| ((state) == STATE_TEXT) \|\|
			((state) == STATE_FIRST_WHITESPACE)
			);
			}

			/**
			* Perform locateText automaton to search string pattern
			* @param nfa stores automaton state
			* @param c current char processed
			*/
			static bool_t locateTextAutomaton(locate_text_nfa * nfa, unsigned char c) {
			switch(nfa->state) {
			/* first state locating only white spaces */
			case STATE_FIRST_WHITESPACE:
			if(isspace(c)) {
			nfa->startIdx = nfa->stopIdx = nfa->i + 1;
			} else if (c == ',') {
			nfa->state = STATE_COMMA;
			} else if (c == '"') {
			nfa->startIdx = nfa->i + 1;
			nfa->state = STATE_TEXT_QUOTED;
			} else {
			nfa->startIdx = nfa->i;
			nfa->stopIdx = nfa->i + 1;
			nfa->state = STATE_TEXT;
			}
			break;
			/* state locating any text inside "" */
			case STATE_TEXT_QUOTED:
			if(c == '"') {
			nfa->state = STATE_LAST_WHITESPACE;
			nfa->stopIdx = nfa->i;
			}
			break;
			/* locate text ignoring quotes */
			case STATE_TEXT:
			if (c == ',') {
			nfa->state = STATE_COMMA;
			} else if (!isspace(c)) {
			nfa->stopIdx = nfa->i + 1;
			}
			break;
			/* locating text after last quote */
			case STATE_LAST_WHITESPACE:
			if (c == ',') {
			nfa->state = STATE_COMMA;
			} else if (!isspace(c)) {
			nfa->state = STATE_ERROR;
			}
			break;

			default:
			break;
			}

			/* if it is terminating state, break from for loop */
			if ((nfa->state == STATE_COMMA) \|\| (nfa->state == STATE_ERROR)) {
			if (len2 < len1) {
			return FALSE;
			} else {
			return TRUE;
			}
			}

			/**
			* Locate text in string. Text is separated by two ""
			* example: "text", next parameter
			* regexp: ^[ \t\r\n]"([^"])"[ \t\r\n]*,?
			* regexp: ^[ \t\r\n]([^,])[ \t\r\n]*,?
			* @param str1 string to be searched
			* @param len1 length of string
			* @param str2 result
			* @param len2 length of result
			* @return string str1 contains text and str2 was set
			*/
			bool_t locateText(const char * str1, size_t len1, const char ** str2, size_t * len2) {
			locate_text_nfa nfa;
			nfa.state = STATE_FIRST_WHITESPACE;
			nfa.startIdx = 0;
			nfa.stopIdx = 0;

			for (nfa.i = 0; nfa.i < len1; nfa.i++) {
			if(FALSE == locateTextAutomaton(&nfa, str1[nfa.i])) {
			break;
			}
			}

			if (isFinalState(nfa.state)) {
			if (SCPIDEFINE_strncasecmp(str1, str2, len1) == 0) {
			result = TRUE;

			if (str2) {
			*str2 = &str1[nfa.startIdx];
			}

			if (len2) {
			*len2 = nfa.stopIdx - nfa.startIdx;
			}
			return TRUE;
			}
			return FALSE;
			}

			/**
			* Perform locateStr automaton to search string pattern
			* @param nfa stores automaton state
			* @param c current char processed
			*/
			static bool_t locateStrAutomaton(locate_text_nfa * nfa, unsigned char c) {
			switch(nfa->state) {
			/* first state locating only white spaces */
			case STATE_FIRST_WHITESPACE:
			if(isspace(c)) {
			nfa->startIdx = nfa->stopIdx = nfa->i + 1;
			} else if (c == ',') {
			nfa->state = STATE_COMMA;
			if (num) {
			if (len1 == len2) {
			//*num = 1;
			} else {
			nfa->startIdx = nfa->i;
			nfa->stopIdx = nfa->i + 1;
			nfa->state = STATE_TEXT;
			int32_t tmpNum;
			i = len1 + strToInt32(str2 + len1, &tmpNum, 10);
			if (i != len2) {
			result = FALSE;
			} else {
			*num = tmpNum;
			}
			}
			break;
			/* locate text ignoring quotes */
			case STATE_TEXT:
			if (c == ',') {
			nfa->state = STATE_COMMA;
			} else if (!isspace(c)) {
			nfa->stopIdx = nfa->i + 1;
			} else {
			for (i = len1; i<len2; i++) {
			if (!isdigit((int) str2[i])) {
			result = FALSE;
			break;
			}
			}
			break;

			default:
			break;
			}
			}

			/* if it is terminating state, break from for loop */
			if ((nfa->state == STATE_COMMA) \|\| (nfa->state == STATE_ERROR)) {
			return FALSE;
			} else {
			return TRUE;
			}
			return result;
			}

			/**
			* Locate string in string.
			* regexp: ^[ \t\r\n]([^,])[ \t\r\n]*,?
			* @param str1 string to be searched
			* @param len1 length of string
			* @param str2 result
			* @param len2 length of result
			* @return string str1 contains text and str2 was set
			*/
			bool_t locateStr(const char * str1, size_t len1, const char ** str2, size_t * len2) {
			locate_text_nfa nfa;
			nfa.state = STATE_FIRST_WHITESPACE;
			nfa.startIdx = 0;
			nfa.stopIdx = 0;


			for (nfa.i = 0; nfa.i < len1; nfa.i++) {
			if(FALSE == locateStrAutomaton(&nfa, str1[nfa.i])) {
			break;
			}
			}

			if (isFinalState(nfa.state)) {

			if (str2) {
			*str2 = &str1[nfa.startIdx];
			}

			if (len2) {
			*len2 = nfa.stopIdx - nfa.startIdx;
			}
			return TRUE;
			}
			return FALSE;
			}


			/**
			* Count white spaces from the beggining
			@@ -370,20 +431,11 @@
			size_t skipWhitespace(const char * cmd, size_t len) {
			size_t i;
			for (i = 0; i < len; i++) {
			if (!isspace((unsigned char)cmd[i])) {
			if (!isspace((unsigned char) cmd[i])) {
			return i;
			}
			}
			return len;
			}

			/**
			* is colon or not
			* @param cmd - command
			* @return
			*/
			static bool_t iscolon(char ch) {
			return (':' == ch) ? TRUE : FALSE;
			}

			/**
			@@ -393,10 +445,10 @@
			* @param len - max search length
			* @return position of separator or len
			*/
			size_t patternSeparatorShortPos(const char * pattern, size_t len) {
			static size_t patternSeparatorShortPos(const char * pattern, size_t len) {
			size_t i;
			for (i = 0; (i < len) && pattern[i]; i++) {
			if (islower((unsigned char)pattern[i])) {
			if (islower((unsigned char) pattern[i])) {
			return i;
			}
			}
			@@ -409,8 +461,8 @@
			* @param len - max search length
			* @return position of separator or len
			*/
			size_t patternSeparatorPos(const char * pattern, size_t len) {

			static size_t patternSeparatorPos(const char * pattern, size_t len) {

			char * separator = strnpbrk(pattern, len, "?:[]");
			if (separator == NULL) {
			return len;
			@@ -425,7 +477,7 @@
			* @param len - max search length
			* @return position of separator or len
			*/
			size_t cmdSeparatorPos(const char * cmd, size_t len) {
			static size_t cmdSeparatorPos(const char * cmd, size_t len) {
			char * separator = strnpbrk(cmd, len, ":?");
			size_t result;
			if (separator == NULL) {
			@@ -433,10 +485,9 @@
			} else {
			result = separator - cmd;
			}


			return result;
			}


			/**
			* Match pattern and str. Pattern is in format UPPERCASElowercase
			@@ -446,78 +497,224 @@
			* @param str_len
			* @return
			*/
			bool_t matchPattern(const char * pattern, size_t pattern_len, const char * str, size_t str_len) {
			int pattern_sep_pos_short = patternSeparatorShortPos(pattern, pattern_len);
			return compareStr(pattern, pattern_len, str, str_len) \|\|
			compareStr(pattern, pattern_sep_pos_short, str, str_len);
			scpi_bool_t matchPattern(const char * pattern, size_t pattern_len, const char * str, size_t str_len, int32_t * num) {
			int pattern_sep_pos_short;

			if ((pattern_len > 0) && pattern[pattern_len - 1] == '#') {
			size_t new_pattern_len = pattern_len - 1;

			pattern_sep_pos_short = patternSeparatorShortPos(pattern, new_pattern_len);

			return compareStrAndNum(pattern, new_pattern_len, str, str_len, num) \|\|
			compareStrAndNum(pattern, pattern_sep_pos_short, str, str_len, num);
			} else {

			pattern_sep_pos_short = patternSeparatorShortPos(pattern, pattern_len);

			return compareStr(pattern, pattern_len, str, str_len) \|\|
			compareStr(pattern, pattern_sep_pos_short, str, str_len);
			}
			}

			/**
			* Compare pattern and command
			* @param pattern
			* @param pattern eg. [:MEASure]:VOLTage:DC?
			* @param cmd - command
			* @param len - max search length
			* @return TRUE if pattern matches, FALSE otherwise
			*/
			bool_t matchCommand(const char * pattern, const char * cmd, size_t len) {
			int result = FALSE;

			scpi_bool_t matchCommand(const char * pattern, const char * cmd, size_t len, int32_t *numbers, size_t numbers_len, int32_t default_value) {
			scpi_bool_t result = FALSE;
			int leftFlag = 0; // flag for '[' on left
			int rightFlag = 0; // flag for ']' on right
			int cmd_sep_pos = 0;

			size_t numbers_idx = 0;
			int32_t *number_ptr = NULL;

			const char * pattern_ptr = pattern;
			int pattern_len = strlen(pattern);
			const char * pattern_end = pattern + pattern_len;


			const char * cmd_ptr = cmd;
			size_t cmd_len = SCPI_strnlen(cmd, len);
			size_t cmd_len = SCPIDEFINE_strnlen(cmd, len);
			const char * cmd_end = cmd + cmd_len;

			/* TODO: now it is possible to send command ":IDN?" which is incorrect /
			if (iscolon(cmd_ptr[0])) {
			cmd_len --;
			cmd_ptr ++;

			/* now support optional keywords in pattern style, e.g. [:MEASure]:VOLTage:DC? */
			if (pattern_ptr[0] == '[') { // skip first '['
			pattern_len--;
			pattern_ptr++;
			leftFlag++;
			}

			if (pattern_ptr[0] == ':') { // skip first ':'
			pattern_len--;
			pattern_ptr++;
			}

			if (cmd_ptr[0] == ':') {
			/* handle errornouse ":IDN?" /
			if ((cmd_len >= 2) && (cmd_ptr[1] != '*')) {
			cmd_len--;
			cmd_ptr++;
			}
			}

			while (1) {
			int pattern_sep_pos = patternSeparatorPos(pattern_ptr, pattern_end - pattern_ptr);
			int cmd_sep_pos = cmdSeparatorPos(cmd_ptr, cmd_end - cmd_ptr);

			if (matchPattern(pattern_ptr, pattern_sep_pos, cmd_ptr, cmd_sep_pos)) {
			pattern_ptr = pattern_ptr + pattern_sep_pos;

			if ((leftFlag > 0) && (rightFlag > 0)) {
			leftFlag--;
			rightFlag--;
			} else {
			cmd_sep_pos = cmdSeparatorPos(cmd_ptr, cmd_end - cmd_ptr);
			}

			if ((pattern_sep_pos > 0) && pattern_ptr[pattern_sep_pos - 1] == '#') {
			if (numbers && (numbers_idx < numbers_len)) {
			number_ptr = numbers + numbers_idx;
			*number_ptr = default_value; // default value
			} else {
			number_ptr = NULL;
			}
			numbers_idx++;
			} else {
			number_ptr = NULL;
			}

			if (matchPattern(pattern_ptr, pattern_sep_pos, cmd_ptr, cmd_sep_pos, number_ptr)) {
			pattern_ptr += pattern_sep_pos;
			pattern_len -= pattern_sep_pos;
			cmd_ptr = cmd_ptr + cmd_sep_pos;
			result = TRUE;


			/* command is complete */
			if ((pattern_ptr == pattern_end) && (cmd_ptr >= cmd_end)) {
			break;
			}


			/* pattern complete, but command not */
			if ((pattern_ptr == pattern_end) && (cmd_ptr < cmd_end)) {
			result = FALSE;
			break;
			}


			/* command complete, but pattern not */
			if (cmd_ptr >= cmd_end) {
			if (cmd_end == cmd_ptr) {
			if (cmd_ptr[0] == pattern_ptr[pattern_end - pattern_ptr - 1]) {
			break; /* exist optional keyword, command is complete */
			}
			if (']' == pattern_ptr[pattern_end - pattern_ptr - 1]) {
			break; /* exist optional keyword, command is complete */
			}
			}
			result = FALSE;
			break;
			}


			/* both command and patter contains command separator at this position */
			if ((pattern_ptr[0] == cmd_ptr[0]) && ((pattern_ptr[0] == ':') \|\| (pattern_ptr[0] == '?'))) {
			pattern_ptr = pattern_ptr + 1;
			pattern_ptr += 1;
			pattern_len -= 1;
			cmd_ptr = cmd_ptr + 1;
			} else if ((pattern_len > 1) && (pattern_ptr[1] == cmd_ptr[0])
			&& (pattern_ptr[0] == '[')
			&& (pattern_ptr[1] == ':')) {
			pattern_ptr += 2; // for skip '[' in "[:"
			pattern_len -= 2;
			cmd_ptr = cmd_ptr + 1;
			leftFlag++;
			} else if ((pattern_len > 1) && (pattern_ptr[1] == cmd_ptr[0])
			&& (pattern_ptr[0] == ']')
			&& (pattern_ptr[1] == ':')) {
			pattern_ptr += 2; // for skip ']' in "]:"
			pattern_len -= 2;
			cmd_ptr = cmd_ptr + 1;
			} else if ((pattern_len > 2) && (pattern_ptr[2] == cmd_ptr[0])
			&& (pattern_ptr[0] == ']')
			&& (pattern_ptr[1] == '[')
			&& (pattern_ptr[2] == ':')) {
			pattern_ptr += 3; // for skip '][' in "][:"
			pattern_len -= 3;
			cmd_ptr = cmd_ptr + 1;
			leftFlag++;
			} else if (((pattern_ptr[0] == ']')
			\|\| (pattern_ptr[0] == '['))
			&& (*(pattern_end - 1) == '?') // last is '?'
			&& (cmd_ptr[0] == '?')) {
			result = TRUE; // exist optional keyword, and they are end with '?'
			break; // command is complete OK
			} else {
			result = FALSE;
			break;
			}
			} else {
			result = FALSE;
			pattern_ptr += pattern_sep_pos;
			pattern_len -= pattern_sep_pos;
			if ((pattern_ptr[0] == ']') && (pattern_ptr[1] == ':')) {
			pattern_ptr += 2; // for skip ']' in "]:" , pattern_ptr continue, while cmd_ptr remain unchanged
			pattern_len -= 2;
			rightFlag++;
			} else if ((pattern_len > 2) && (pattern_ptr[0] == ']')
			&& (pattern_ptr[1] == '[')
			&& (pattern_ptr[2] == ':')) {
			pattern_ptr += 3; // for skip ']' in "][:" , pattern_ptr continue, while cmd_ptr remain unchanged
			pattern_len -= 3;
			rightFlag++;
			} else {
			result = FALSE;
			break;
			}
			}
			}

			return result;
			}

			/**
			* Compose command from previous command anc current command
			*
			* @param prev pointer to previous command
			* @param current pointer of current command
			*
			* prev and current should be in the same memory buffer
			*/
			scpi_bool_t composeCompoundCommand(const scpi_token_t * prev, scpi_token_t * current) {
			size_t i;

			/* Invalid input */
			if (current == NULL \|\| current->ptr == NULL \|\| current->len == 0)
			return FALSE;

			/* no previous command - nothing to do*/
			if (prev->ptr == NULL \|\| prev->len == 0)
			return TRUE;

			/* Common command or command root - nothing to do */
			if (current->ptr[0] == '*' \|\| current->ptr[0] == ':')
			return TRUE;

			/* Previsou command was common command - nothing to do */
			if (prev->ptr[0] == '*')
			return TRUE;

			/* Find last occurence of ':' */
			for (i = prev->len; i > 0; i--) {
			if (prev->ptr[i - 1] == ':') {
			break;
			}
			}

			return result;

			/* Previous command was simple command - nothing to do*/
			if (i == 0)
			return TRUE;

			current->ptr -= i;
			current->len += i;
			memmove(current->ptr, prev->ptr, i);
			return TRUE;
			}



			#if !HAVE_STRNLEN
			@@ -528,15 +725,33 @@
			* All rights reserved.
			*/
			size_t
			BSD_strnlen(const char *s, size_t maxlen)
			{
			size_t len;

			for (len = 0; len < maxlen; len++, s++) {
			if (!*s)
			break;
			}
			return (len);
			BSD_strnlen(const char *s, size_t maxlen) {
			size_t len;

			for (len = 0; len < maxlen; len++, s++) {
			if (!*s)
			break;
			}
			return (len);
			}
			#endif

			#if !HAVE_STRNCASECMP && !HAVE_STRNICMP

			int OUR_strncasecmp(const char s1, const char s2, size_t n) {
			unsigned char c1, c2;

			for (; n != 0; n--) {
			c1 = tolower((unsigned char) *s1++);
			c2 = tolower((unsigned char) *s2++);
			if (c1 != c2) {
			return c1 - c2;
			}
			if (c1 == '\0') {
			return 0;
			}
			}
			return 0;
			}
			#endif