3

I'm writing an application that requires me to write information to a TFT display (kinda like a gameboy display). I'm outputting the information to the display line by line. The way I'm doing it now requires me to have a function for each different screen. Like:

void displayWelcomeMessage();
void displayInsertCoinMessage();
void displayGoodByeMessage();

Each function follows this logic:

void displaWelcomeMessage()
{
  writeline(0, "Hi David");
  writeline(1, "Welcome");
  writeline(2, "Back!");
}

Problem: I hate to have a different function for each screen. It's not scalable at all, imagine if I had 500 different screens. How do I abstract the process of writing to the display? So that I end up with a single generic function responsible for writing to the display.

Thank you


Update

Following "Useless's" and Michael.P's advice, what I will probably end up doing is storing the format of each message in a file:

DisplayMessages.cfg

WELCOME_MESSAGE_1 = "Hi %name"
WELCOME_MESSAGE_2 = "Welcome"
WELCOME_MESSAGE_3 = "back!"

And in the code I will do something like:

using Message = std::vector<QString>;

void login(){

 //Do Stuff...

 QString line
 Message welcomeMessage;

 line=getMessageStructureFromCfg("WELCOME_MESSAGE_1").arg(userName); // loads "Hi %name" and replaces %name with the content of userName
 welcomeMessage.pushBack(line); // pushes the first line to welcomeMessage

 line=getMessageStructureFromCfg("WELCOME_MESSAGE_2"); // loads "Welcome"
 welcomeMessage.pushBack(line); // pushes the second line to welcomeMessage

 line=getMessageStructureFromCfg("WELCOME_MESSAGE_3"); // loads "back!"
 welcomeMessage.pushBack(line); // pushes the third line to welcomeMessage

 displayMessage(welcomeMessage);

}

void displayMessage(Message const &msg) {
 int i = 0;
 for (auto &line : msg) {
   writeline(i, line);
   i++;
 }
}

Thank you all for your help!

PS: Further improvements can be made if the file containing the messages structure used JSON instead of plain text. This way you could just iterate the child members(the lines) of each message and process accordingly

7
  • In any case, you will write the code, in many functions (methods) or many classes, but you can define an interface (a pure virtual class) called Displayer which contains a method for exemple : display then you implement it in many classes such as : WelcomeMessageDisplayer, 'InsertCoinMessageDisplayer' ... then you treat all the objects as Displayer. May 2, 2017 at 11:07
  • the problem is that, at the moment, I have 50 different display messages (50 different functions). That would mean I would have 50 different classes. There has to be a better way of doing this May 2, 2017 at 11:18
  • 1
    Can you store these messages in a file? You could then put them into a vector, and iterate through as much of them as you need
    – Misha.P
    May 2, 2017 at 11:32
  • I like that idea. That way I dont have to have a function per message (or a class per message). I updated my post May 2, 2017 at 14:09
  • Note you still have some interleaved data & logic (the getMessageStructureFromCfg/push_back lines). You could aim to end up with just fetchAndDisplay("WELCOME_MESSAGE") automating that loop for you.
    – Useless
    May 2, 2017 at 14:33

2 Answers 2

4

How do you abstract the information to be displayed in a screen?

The same way you abstract any information - you move the data out of the code and into a data structure.

Your displayXMessage() functions perform a fixed sequence of calls on a fixed sequence of hardcoded string literals. So, split the algorithm from the data the usual way, by passing the data as an argument:

using Message = std::vector<std::pair<int, std::string>>;

void displayMessage(Message const &msg) {
  for (auto &line : msg) {
    writeline(line.first, line.second);
  }
}

and call it with the appropriate data:

Message welcomeMsg { {0, "Hi David"}, 
                     {1, "Welcome"},
                     {2, "Back!"}
                   };
displayMessage(welcomeMsg);
1
  • really liked your approach! thank you. Pls see the update I made May 2, 2017 at 14:08
-1

I think you will find a solution to all those kind of problems by learning design patterns. In this case in particular. Strucural patterns seem to be what you are looking for; you will then have to pick the pattern which fits the most what you are trying to do.

5
  • Shall someone explain why down-vote ? Design patterns are exactly made to answer those kind of problems, like class exponential multiplicity and such. It provides an adaptable solution to a common problem.
    – Badda
    May 2, 2017 at 12:39
  • Probably because design patterns aren't supposed to help you design your code: they're supposed to help you describe and communicate the design you came up with. They're names for common solutions, not recipes to follow.
    – Useless
    May 2, 2017 at 13:42
  • And on further thought (although I didn't downvote), I can't see how structural patterns are relevant here anyway. This is really a simple code-level refactoring rather than an architecture.
    – Useless
    May 2, 2017 at 13:49
  • You are true, even though I am still thinking that those very common solutions would clearly fit his problem and any similar ones he could enconter. Therefore, learning these names and the describtion of the patterns might, to my opinon, help him understand how to abstract better and could give him tools to improve the way he builds his code. I admit this might be going to deep to answer a simple problem.
    – Badda
    May 2, 2017 at 14:05
  • It's not necessarily too deep, I just think it's the wrong approach. Patterns provide a language for naming the solution once you have it, but you still have to actually solve your problem in the first place.
    – Useless
    May 2, 2017 at 14:37

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.