Moved the private functions out of the anonymous namespace, because I need to use them in other places

connect_code.cpp

@@ -8,42 +8,39 @@
 
 namespace connect_code {
 
-	/* Since these are private functions, I have wrapped them in an anonymous namespace, to prevent outside access to them */
-	namespace {
-		 /* Tokenizes a string, based on the given delimiter */
-		std::vector<std::string> tokenize_str(std::string str, std::string delim) {
-			std::vector<std::string> result;
-			char* c_str = str.data();
-			char* c_delim = delim.data();
-
-			char* tok = strtok(c_str, c_delim);
-			while (tok != NULL) {
-				result.push_back(std::string(tok));
-				tok = strtok(NULL, c_delim);
-			}
-
-			return result;
+	 /* Tokenizes a string, based on the given delimiter */
+	std::vector<std::string> tokenize_str(std::string str, std::string delim) {
+		std::vector<std::string> result;
+		char* c_str = str.data();
+		char* c_delim = delim.data();
+
+		char* tok = strtok(c_str, c_delim);
+		while (tok != NULL) {
+			result.push_back(std::string(tok));
+			tok = strtok(NULL, c_delim);
 		}
 
-		/* Convert an IPv4 address from decimal to dotted decimal notation */
-		std::string dec_to_dotted_dec(std::string addr) {
-			uint32_t addr_val = std::stoul(addr); /* 32 bit address */
-			uint8_t addr_1 = (addr_val & (0xFF << 24)) >> 24;   /* First octet (Bitwise AND the address with 255.0.0.0, and shift it to the right to obtain the first octet) */
-			uint8_t addr_2 = (addr_val & (0xFF << 16)) >> 16;
-			uint8_t addr_3 = (addr_val & (0xFF << 8)) >> 8;
-			uint8_t addr_4 = (addr_val & 0xFF);
+		return result;
+	}
 
-			std::string ret_val = std::string(std::to_string(addr_1) + "." + std::to_string(addr_2) + "." + std::to_string(addr_3) + "." + std::to_string(addr_4));
+	/* Convert an IPv4 address from decimal to dotted decimal notation */
+	std::string dec_to_dotted_dec(std::string addr) {
+		uint32_t addr_val = std::stoul(addr); /* 32 bit address */
+		uint8_t addr_1 = (addr_val & (0xFF << 24)) >> 24;   /* First octet (Bitwise AND the address with 255.0.0.0, and shift it to the right to obtain the first octet) */
+		uint8_t addr_2 = (addr_val & (0xFF << 16)) >> 16;
+		uint8_t addr_3 = (addr_val & (0xFF << 8)) >> 8;
+		uint8_t addr_4 = (addr_val & 0xFF);
 
-			return ret_val;
-		}
+		std::string ret_val = std::string(std::to_string(addr_1) + "." + std::to_string(addr_2) + "." + std::to_string(addr_3) + "." + std::to_string(addr_4));
 
-		/* Convert an IPv4 address from dotted deecimal to decimal */
-		std::string dotted_dec_to_dec(std::string addr) {
-			std::vector<std::string> octets = tokenize_str(addr, ".");
-			uint32_t addr_val = (std::stoul(octets[0]) << 24) + (std::stoul(octets[1]) << 16) + (std::stoul(octets[2]) << 8) + (std::stoul(octets[3]));
-			return std::to_string(addr_val);
-		}
+		return ret_val;
+	}
+
+	/* Convert an IPv4 address from dotted deecimal to decimal */
+	std::string dotted_dec_to_dec(std::string addr) {
+		std::vector<std::string> octets = tokenize_str(addr, ".");
+		uint32_t addr_val = (std::stoul(octets[0]) << 24) + (std::stoul(octets[1]) << 16) + (std::stoul(octets[2]) << 8) + (std::stoul(octets[3]));
+		return std::to_string(addr_val);
 	}