comment fixes

include/psyc/parser.h

@@ -66,44 +66,47 @@ typedef struct
 
 typedef struct
 {
-	size_t cursor; /** current position in buffer */
+	size_t cursor; ///< current position in buffer
-	size_t startc; /** line start position */
+	size_t startc; ///< line start position
 	PSYC_Array buffer;
 	uint8_t flags;
-	char part; /** part of the packet being parsed currently, see PSYC_Parts */
+	char part; ///< part of the packet being parsed currently, see PSYC_Parts
 
-	size_t contentParsed; /** number of bytes parsed from the content so far */
+	size_t contentParsed; ///< number of bytes parsed from the content so far
-	size_t contentLength; /** expected length of the content */
+	size_t contentLength; ///< expected length of the content
-	char contentLengthFound; /** is there a length given for this packet? */
+	char contentLengthFound; ///< is there a length given for this packet?
-	size_t valueParsed; /** number of bytes parsed from the value so far */
+	size_t valueParsed; ///< number of bytes parsed from the value so far
-	size_t valueLength; /** expected length of the value */
+	size_t valueLength; ///< expected length of the value
 } PSYC_State;
 
 typedef struct
 {
-	size_t cursor; /** current position in buffer */
+	size_t cursor; ///< current position in buffer
-	size_t startc; /** line start position */
+	size_t startc; ///< line start position
 	PSYC_Array buffer;
-	char type; /** list type, see PSYC_ListTypes */
+	char type; ///< list type, see PSYC_ListTypes
 
-	size_t elemParsed; /** number of bytes parsed from the elem so far */
+	size_t elemParsed; ///< number of bytes parsed from the elem so far
-	size_t elemLength; /** expected length of the elem */
+	size_t elemLength; ///< expected length of the elem
 } PSYC_ListState;
 
 #ifndef PSYC_COMPILE_LIBRARY
-/* @brief Shortcut for creating an array.
+/**
+ * Shortcut for creating an array.
  *
  * @param memory Pointer to the buffer.
  * @param length Length of that buffer.
  *
- * @return An instance of the PSYC_Array struct. */
+ * @return An instance of the PSYC_Array struct.
+ */
 inline PSYC_Array PSYC_createArray (uint8_t* const memory, size_t length)
 {
 	PSYC_Array arr = {length, memory};
 	return arr;
 }
 
-/* @brief Initiates the state struct with flags.
+/**
+ * Initiates the state struct with flags.
  *
  * @param state Pointer to the state struct that should be initiated.
  * @param flags The flags that one ones to set, see PSYC_Flags.
@@ -114,7 +117,8 @@ inline void PSYC_initState2 (PSYC_State* state, uint8_t flags )
 	state->flags = flags;
 }
 
-/* @brief Initiates the state struct.
+/**
+ * Initiates the state struct.
  *
  * @param state Pointer to the state struct that should be initiated.
  */
@@ -123,7 +127,8 @@ inline void PSYC_initState (PSYC_State* state)
 	memset(state, 0, sizeof(PSYC_State));
 }
 
-/* @brief Initiates the list state struct.
+/**
+ * Initiates the list state struct.
  *
  * @param state Pointer to the list state struct that should be initiated.
  */

src/parser.c

@@ -14,9 +14,9 @@
 		return ret;																	 \
 	}
 
-/** @brief isGlyph
+/** 
- *
+ * Determines if the argument is a glyph.
- * @todo: document this function
+ * Glyphs are: : = + - ? !
  */
 inline char isGlyph(uint8_t g)
 {
@@ -34,11 +34,17 @@ inline char isGlyph(uint8_t g)
 	}
 }
 
+/**
+ * Determines if the argument is numeric.
+ */
 inline char isNumeric(uint8_t c)
 {
 	return c >= '0' && c <= '9';
 }
 
+/**
+ * Determines if the argument is alphanumeric.
+ */
 inline char isAlphaNumeric(uint8_t c)
 {
 	return
@@ -47,14 +53,18 @@ inline char isAlphaNumeric(uint8_t c)
 		isNumeric(c);
 }
 
+/**
+ * Determines if the argument is a keyword character.
+ * Keyword characters are: alphanumeric and _
+ */
 inline char isKwChar(uint8_t c)
 {
 	return isAlphaNumeric(c) || c == '_';
 }
 
 /**
- * @brief Parse variable name or method name.
+ * Parse variable name or method name.
- * @details It should contain one or more keyword characters.
+ * It should contain one or more keyword characters.
  * @return PSYC_ERROR or PSYC_SUCCESS
  */
 inline int PSYC_parseName(PSYC_State* state, PSYC_Array* name)
@@ -64,7 +74,7 @@ inline int PSYC_parseName(PSYC_State* state, PSYC_Array* name)
 
 	while (isKwChar(state->buffer.ptr[state->cursor]))
 	{
-		name->length++; /* was a valid char, increase length */
+		name->length++; // was a valid char, increase length
 		ADVANCE_CURSOR_OR_RETURN(PSYC_INSUFFICIENT);
 	}
 
@@ -72,8 +82,8 @@ inline int PSYC_parseName(PSYC_State* state, PSYC_Array* name)
 }
 
 /**
- * @brief Parse binary data into value.
+ * Parse binary data into value.
- * @details length is the expected length of the data, parsed is the number of bytes parsed so far
+ * length is the expected length of the data, parsed is the number of bytes parsed so far
  * @return PSYC_COMPLETE or PSYC_INCOMPLETE
  */
 inline int PSYC_parseBinaryValue(PSYC_State* state, PSYC_Array* value, size_t* length, size_t* parsed)
@@ -81,7 +91,7 @@ inline int PSYC_parseBinaryValue(PSYC_State* state, PSYC_Array* value, size_t* l
 	size_t remaining = *length - *parsed;
 	value->ptr = state->buffer.ptr + state->cursor;
 
-	if (state->cursor + remaining > state->buffer.length) /* is the length larger than this buffer? */
+	if (state->cursor + remaining > state->buffer.length) // is the length larger than this buffer?
 	{
 		value->length = state->buffer.length - state->cursor;
 		*parsed += value->length;
@@ -96,7 +106,7 @@ inline int PSYC_parseBinaryValue(PSYC_State* state, PSYC_Array* value, size_t* l
 }
 
 /**
- * @brief Parse simple or binary variable
+ * Parse simple or binary variable.
  * @return PSYC_ERROR or PSYC_SUCCESS
  */
 inline int PSYC_parseVar(PSYC_State* state, uint8_t* modifier, PSYC_Array* name, PSYC_Array* value)
@@ -109,10 +119,10 @@ inline int PSYC_parseVar(PSYC_State* state, uint8_t* modifier, PSYC_Array* name,
 
 	value->length = 0;
 
-	/* Parse the value.
+	// Parse the value.
-	 * If we're in the content part check if it's a binary var */
+	// If we're in the content part check if it's a binary var.
-	if (state->part == PSYC_PART_CONTENT && state->buffer.ptr[state->cursor] == ' ') /* binary arg */
+	if (state->part == PSYC_PART_CONTENT && state->buffer.ptr[state->cursor] == ' ') // binary arg
-	{ /* After SP the length follows. */
+	{ // After SP the length follows.
 		ADVANCE_CURSOR_OR_RETURN(PSYC_INSUFFICIENT);
 		state->valueLength = 0;
 		state->valueParsed = 0;
@@ -129,11 +139,11 @@ inline int PSYC_parseVar(PSYC_State* state, uint8_t* modifier, PSYC_Array* name,
 		else
 			return PSYC_ERROR_VAR_LEN;
 
-		/* After the length a TAB follows. */
+		// After the length a TAB follows.
 		if (state->buffer.ptr[state->cursor] != '\t')
 			return PSYC_ERROR_VAR_TAB;
 
-		if (state->buffer.length <= ++(state->cursor)) /* Incremented cursor inside length? */
+		if (state->buffer.length <= ++(state->cursor)) // Incremented cursor inside length?
 			return PSYC_ENTITY_INCOMPLETE;
 
 		if (PSYC_parseBinaryValue(state, value, &(state->valueLength), &(state->valueParsed)) == PSYC_INCOMPLETE)
@@ -142,7 +152,7 @@ inline int PSYC_parseVar(PSYC_State* state, uint8_t* modifier, PSYC_Array* name,
 		state->cursor++;
 		return PSYC_SUCCESS;
 	}
-	else if (state->buffer.ptr[state->cursor] == '\t') /* simple arg */
+	else if (state->buffer.ptr[state->cursor] == '\t') // simple arg
 	{
 		ADVANCE_CURSOR_OR_RETURN(PSYC_INSUFFICIENT);
 		value->ptr = state->buffer.ptr + state->cursor;
@@ -159,49 +169,52 @@ inline int PSYC_parseVar(PSYC_State* state, uint8_t* modifier, PSYC_Array* name,
 		return PSYC_ERROR_VAR_TAB;
 }
 
-/** @brief Generalized line-based parser. */
+/**
+ * Parse PSYC packets.
+ * Generalized line-based parser.
+ * @return see PSYC_ReturnCodes
+ */
 int PSYC_parse(PSYC_State* state, uint8_t* modifier, PSYC_Array* name, PSYC_Array* value)
 {
-	int ret; /* a return value */
+	int ret; // a return value
-	size_t pos;	/* a cursor position */
+	size_t pos;	// a cursor position
 
-	/* Start position of the current line in the buffer
+	// Start position of the current line in the buffer
-	 * in case we return insufficent, we rewind to this position. */
+	// in case we return insufficent, we rewind to this position.
 	state->startc = state->cursor;
 
-	/* First we test if we can access the first char. */
+	// First we test if we can access the first char.
-	if (state->cursor >= state->buffer.length) /* cursor is not inside the length */
+	if (state->cursor >= state->buffer.length) // cursor is not inside the length
-		return PSYC_INSUFFICIENT; /* return insufficient data. */
+		return PSYC_INSUFFICIENT;
 
 	switch (state->part)
 	{
-		case PSYC_PART_RESET: /* New packet starts here, reset state. */
+		case PSYC_PART_RESET: // New packet starts here, reset state.
 			state->valueParsed = 0;
 			state->valueLength = 0;
 			state->contentParsed = 0;
 			state->contentLength = 0;
 			state->contentLengthFound = 0;
 			state->part = PSYC_PART_HEADER;
-			/* fall thru */
+			// fall thru
 
 		case PSYC_PART_HEADER:
-			/* Each line of the header starts with a glyph,
+			// Each line of the header starts with a glyph,
-			 * i.e. :_name, -_name +_name etc,
+			// i.e. :_name, -_name +_name etc,
-			 * so just test if the first char is a glyph.
+			// so just test if the first char is a glyph.
-			 */
+			if (isGlyph(state->buffer.ptr[state->cursor])) // is the first char a glyph?
-			if (isGlyph(state->buffer.ptr[state->cursor])) /* is the first char a glyph? */
+			{ // it is a glyph, so a variable starts here
-			{ /* it is a glyph, so a variable starts here */
 				ret = PSYC_parseVar(state, modifier, name, value);
 				return ret == PSYC_SUCCESS ? PSYC_ROUTING : ret;
 			}
-			else /* not a glyph */
+			else // not a glyph
 			{
 				state->part = PSYC_PART_LENGTH;
-				/* fall thru */
+				// fall thru
 			}
 
 		case PSYC_PART_LENGTH:
-			/* End of header, content starts with an optional length then a NL */
+			// End of header, content starts with an optional length then a NL
 			if (isNumeric(state->buffer.ptr[state->cursor]))
 			{
 				state->contentLengthFound = 1;
@@ -214,17 +227,18 @@ int PSYC_parse(PSYC_State* state, uint8_t* modifier, PSYC_Array* name, PSYC_Arra
 				while (isNumeric(state->buffer.ptr[state->cursor]));
 			}
 
-			if (state->buffer.ptr[state->cursor] == '\n') /* start of content */
+			if (state->buffer.ptr[state->cursor] == '\n') // start of content
 			{
-				/* If we need to parse the header only and we know the content length, then skip content parsing. */
+				// If we need to parse the header only and we know the content length,
+				// then skip content parsing.
 				if (state->flags & PSYC_HEADER_ONLY && state->contentLengthFound)
 					state->part = PSYC_PART_DATA;
 				else
 					state->part = PSYC_PART_CONTENT;
 			}
-			else /* Not start of content, this must be the end. */
+			else // Not start of content, this must be the end.
 			{
-				/* If we have a length then it should've been followed by a \n */
+				// If we have a length then it should've been followed by a \n
 				if (state->contentLengthFound)
 					return PSYC_ERROR_LENGTH;
 
@@ -234,22 +248,21 @@ int PSYC_parse(PSYC_State* state, uint8_t* modifier, PSYC_Array* name, PSYC_Arra
 
 			ADVANCE_CURSOR_OR_RETURN(PSYC_INSUFFICIENT);
 			state->startc = state->cursor;
-			/* fall thru */
+			// fall thru
 
 		case PSYC_PART_CONTENT:
-			/* In case of an incomplete binary variable resume parsing it. */
+			// In case of an incomplete binary variable resume parsing it.
 			if (state->valueParsed < state->valueLength) {
 				ret = PSYC_parseBinaryValue(state, value, &(state->valueLength), &(state->valueParsed));
 				state->contentParsed += value->length;
 				return ret == PSYC_COMPLETE ? PSYC_ENTITY : PSYC_ENTITY_INCOMPLETE;
 			}
 
-			/* Each line of the header starts with a glyph,
+			// Each line of the header starts with a glyph,
-			 * i.e. :_name, -_name +_name etc.
+			// i.e. :_name, -_name +_name etc.
-			 * So just test if the first char is a glyph.
+			// So just test if the first char is a glyph.
-			 * In the body, the same applies, only that the
+			// In the body, the same applies, only that the
-			 * method does not start with a glyph.
+			// method does not start with a glyph.
-			 */
 			if (isGlyph(state->buffer.ptr[state->cursor]))
 			{
 				pos = state->cursor;
@@ -261,13 +274,13 @@ int PSYC_parse(PSYC_State* state, uint8_t* modifier, PSYC_Array* name, PSYC_Arra
 			{
 				state->part = PSYC_PART_METHOD;
 				state->startc = state->cursor;
-				/* fall thru */
+				// fall thru
 			}
 
 		case PSYC_PART_METHOD:
 			pos = state->cursor;
 			if (PSYC_parseName(state, name) == PSYC_SUCCESS)
-			{ /* the method ends with a \n then the data follows */
+			{ // the method ends with a \n then the data follows
 				if (state->buffer.ptr[state->cursor] != '\n')
 					return PSYC_ERROR_METHOD;
 
@@ -277,9 +290,9 @@ int PSYC_parse(PSYC_State* state, uint8_t* modifier, PSYC_Array* name, PSYC_Arra
 				state->part = PSYC_PART_DATA;
 				if (state->cursor >= state->buffer.length)
 					return PSYC_INSUFFICIENT;
-				/* fall thru */
+				// fall thru
 			}
-			else /* No method, which means the packet should end now. */
+			else // No method, which means the packet should end now.
 			{
 				state->part = PSYC_PART_END;
 				state->startc = state->cursor;
@@ -290,7 +303,7 @@ int PSYC_parse(PSYC_State* state, uint8_t* modifier, PSYC_Array* name, PSYC_Arra
 			value->ptr = state->buffer.ptr + state->cursor;
 			value->length = 0;
 
-			if (state->contentLengthFound) /* We know the length of the packet. */
+			if (state->contentLengthFound) // We know the length of the packet.
 			{
 				if (PSYC_parseBinaryValue(state, value, &(state->contentLength), &(state->contentParsed)) == PSYC_INCOMPLETE)
 					return PSYC_BODY_INCOMPLETE;
@@ -299,20 +312,20 @@ int PSYC_parse(PSYC_State* state, uint8_t* modifier, PSYC_Array* name, PSYC_Arra
 				state->part = PSYC_PART_END;
 				return PSYC_BODY;
 			}
-			else /* Search for the terminator. */
+			else // Search for the terminator.
 			{
 				while (1)
 				{
 					if (state->buffer.ptr[state->cursor] == '\n')
 					{
-						if (state->cursor+2 >= state->buffer.length) /* incremented cursor inside length? */
+						if (state->cursor+2 >= state->buffer.length) // incremented cursor inside length?
 						{
 							state->cursor = state->startc;
 							return PSYC_INSUFFICIENT;
 						}
 
 						if (state->buffer.ptr[state->cursor+1] == '|' &&
-								state->buffer.ptr[state->cursor+2] == '\n') /* packet ends here */
+								state->buffer.ptr[state->cursor+2] == '\n') // packet ends here
 						{
 							state->cursor++;
 							state->part = PSYC_PART_END;
@@ -326,28 +339,31 @@ int PSYC_parse(PSYC_State* state, uint8_t* modifier, PSYC_Array* name, PSYC_Arra
 
 		case PSYC_PART_END:
 		PSYC_PART_END:
-			/* End of packet, at this point we have already passed a \n
+			// End of packet, at this point we have already passed a \n
-				 and the cursor should point to | */
+			// and the cursor should point to |
-			if (state->cursor+1 >= state->buffer.length) /* incremented cursor inside length? */
+			if (state->cursor+1 >= state->buffer.length) // incremented cursor inside length?
 				return PSYC_INSUFFICIENT;
 
 			if (state->buffer.ptr[state->cursor] == '|' &&
-					state->buffer.ptr[state->cursor+1] == '\n') /* packet ends here */
+					state->buffer.ptr[state->cursor+1] == '\n') // packet ends here
 			{
 				state->cursor += 2;
 				state->part = PSYC_PART_RESET;
 				return PSYC_COMPLETE;
 			}
-			else /* packet should've ended here, return error */
+			else // packet should've ended here, return error
 			{
 				state->part = PSYC_PART_RESET;
 				return PSYC_ERROR_END;
 			}
 	}
-	return PSYC_ERROR; /* should not be reached */
+	return PSYC_ERROR; // should not be reached
 }
 
-/** @brief list parser */
+/**
+ * List value parser.
+ * @return see PSYC_ListReturnCodes.
+ */
 int PSYC_parseList(PSYC_ListState* state, PSYC_Array *name, PSYC_Array* value, PSYC_Array* elem)
 {
 	if (state->cursor >= state->buffer.length)
@@ -355,13 +371,13 @@ int PSYC_parseList(PSYC_ListState* state, PSYC_Array *name, PSYC_Array* value, P
 
 	state->startc = state->cursor;
 
-	if (!state->type) /* If type is not set we're at the start */
+	if (!state->type) // If type is not set we're at the start
 	{
 		if (name->length < 5 || memcmp(name->ptr, "_list", 5) != 0 ||
-				(name->length > 5 && name->ptr[5] != '_')) /* name should be _list or should start with _list_ */
+				(name->length > 5 && name->ptr[5] != '_')) // name should be _list or should start with _list_
 			return PSYC_ERROR_LIST_NAME;
 
-		/* First character is either | for text lists, or a number for binary lists */
+		// First character is either | for text lists, or a number for binary lists
 		if (state->buffer.ptr[state->cursor] == '|')
 		{
 			state->type = PSYC_LIST_TEXT;
@@ -390,10 +406,11 @@ int PSYC_parseList(PSYC_ListState* state, PSYC_Array *name, PSYC_Array* value, P
 		state->cursor++;
 		return PSYC_LIST_ELEM;
 	}
-	else /* binary list */
+	else // binary list
 	{
-		if (!(state->elemParsed < state->elemLength)) {
+		if (!(state->elemParsed < state->elemLength))
-			/* Element starts with a number. */
+		{
+			// Element starts with a number.
 			if (isNumeric(state->buffer.ptr[state->cursor]))
 			{
 				do
@@ -415,8 +432,9 @@ int PSYC_parseList(PSYC_ListState* state, PSYC_Array *name, PSYC_Array* value, P
 			state->elemParsed = 0;
 		}
 
-		/* Start or resume parsing the binary data */
+		// Start or resume parsing the binary data
-		if (state->elemParsed < state->elemLength) {
+		if (state->elemParsed < state->elemLength)
+		{
 			if (PSYC_parseBinaryValue((PSYC_State*)state, elem, &(state->elemLength), &(state->elemParsed)) == PSYC_INCOMPLETE)
 				return PSYC_LIST_INCOMPLETE;
 
@@ -433,5 +451,5 @@ int PSYC_parseList(PSYC_ListState* state, PSYC_Array *name, PSYC_Array* value, P
 		}
 	}
 
-	return PSYC_ERROR_LIST; /* should not be reached */
+	return PSYC_ERROR_LIST; // should not be reached
 }