I have these two methods on a class that differ only in one method call. Obviously, this is very un-DRY, especially as both use the same formula.

int PlayerCharacter::getAttack() {
    int attack;
    attack = 1 + this->level;
    for(int i = 0; i < this->current_equipment; i++) {
        attack += this->equipment[i].getAttack();
    attack *= sqrt(this->level);
    return attack;
int PlayerCharacter::getDefense() {
    int defense;
    defense = 1 + this->level;
    for(int i = 0; i < this->current_equipment; i++) {
        defense += this->equipment[i].getDefense();
    defense *= sqrt(this->level);
    return defense;

How can I tidy this up in C++?

  • 2
    this.? Post us some real code. :)
    – GManNickG
    Apr 19, 2010 at 18:43
  • What GMan said. Also, are attack and defense global variables or did you omit their definition?
    – sbi
    Apr 19, 2010 at 18:46
  • facepalm - Well, this is my first real C++ after months of other languages :P. Could be worse, I could of done self. since most of it was Python.
    – Macha
    Apr 19, 2010 at 18:46
  • @sbi: While the other problem was idiocy, that one was a copy/paste error.
    – Macha
    Apr 19, 2010 at 18:47
  • 1
    @sbi: Don't Repeat Yourself is my best guess Apr 19, 2010 at 23:52

7 Answers 7


One easy way is to represent all of a piece of equipment's attributes in an array, indexed by an enum.

enum Attributes {

class Equipment {
  std::vector<int> attributes;

  Equipment(int attack, int defense): attributes(AttributeMAX)
    attributes[ATTACK] = attack;
    attributes[DEFENSE] = defense;


Then you change your function to

int PlayerCharacter::getAttribute(int& value, Attribute attribute) {
    value = 1 + this->level;
    for(int i = 0; i <= current_equipment; i++) {
        value += this->equipment[i].attributes[attribute];
    value *= sqrt(this->level);
    return value;

And you can call it like so

  player.getAttribute(player.attack, Attack);
  • Thought of this one too, but was too lazy to spell it out. =)
    – Nailer
    Apr 19, 2010 at 18:52
  • 2
    This is a good solution since it doesn't obfuscate the intent of the code. However, it does tend to obfuscate the usage. But that is EASILY fixed by creating two wrapper routines called getAttack and getDefence that in turn calls with routine. (EDIT) But I will say that player.getAttribute(player.attack, Attack) is really clear in it's own right.
    – Torlack
    Apr 19, 2010 at 18:56
  • 1
    +1. You'll need to initialize attributes to the number of Attributes before you assign to it in the ctor, of course.
    – Bill
    Apr 19, 2010 at 19:03
  • Thanks, for some reason I thought vector dynamically expanded if you try to index it out of range.
    – Bill Prin
    Apr 19, 2010 at 19:16

In my opinion, what you have is fine, as it will allow you to tweak attack/defense more than if you represented both of them with one function. Once you start testing your game, you'll begin balancing attack/defense formulas, so having separate functions for them is fine.

The whole concept of DRY [don't repeat yourself] is [hopefully] to prevent your code from becoming a huge copy & paste fest. In your situation, the defense/attack formulas will change over time [for example, what if characters have buffs/status-ailment? A specific status ailment might cut defense in half, while increasing attack by 2 (Berserk, FF reference, heh)]

  • 1
    I agree. While there are (theoretically) ways to DRY-ify the underlying mathematics of what you're doing (using some function pointers), you're likely to wind up writing different wrapper methods for each in the long haul anyway, as (like @ItzWarty suggests) you begin to tamper with the two values in different ways. Apr 19, 2010 at 18:48

From a strict refactoring point of view, you could do this:

int PlayerCharacter::getDefense() {
    return getAttribute(&EquipmentClass::getDefense);

int PlayerCharacter::getOffense() {
    return getAttribute(&EquipmentClass::getOffense);

int PlayerCharacter::getAttribute(int (EquipmentClass::*attributeFun)()) {
    int attribute = 0;
    attribute= 1 + this->level;
    for(int i = 0; i <= current_equipment; i++) {
        attribute += this->equipment[i].*attributeFun();
    attribute *= sqrt(this->level);
    return attribute;

well, I would at least consider extracting sqrt(this.level); as a separate function called getLevelModifier()


defense = 1 + this.level;

attack = 1 + this.level;

could be

defense = getBaseDefense();

attack= getBaseAttack();

Not only does this add flexibility, it also auto-documents your function.


Depending on other code in the application it may or may not be worth it but an OOP approach would make defense and attack values objects of a class rather than a plain int. Then you could derive them from a common base class that has a get() method that calls a virtual getEquipmentRate() method defined by each of the subclasses as necessary.


Apart from ltzWarty's answer I would recommend refactoring your loop into a function for better readability:

int PlayerCharacter::getEquipmentAttack() {
    int attack = 0;
    for(int i = 0; i <= current_equipment; i++) {
        attack += this.equipment[i].getAttack();
    return attack;
int PlayerCharacter::getAttack() {
    int attack = 1 + this->level;
    attack += getEquipmentAttack();
    attack *= sqrt(this->level);
    return attack;

Also, when you declare your local variable attack you should initialize it immediately.


IMO, ItzWarty makes a reasonable point -- you may want to just leave the code alone. Assuming you decide that changing it is a good thing though, you could do something like this:

class equipment { 
    int getAttack();
    int getDefense();

int PlayerCharacter::getBattleFactor(int (equipment::*get)()) { 
    int factor = level + 1;
    for (int i=0; i<current_equipment; ++i)
        factor += equipment[i].*get();
    return factor * sqrt(level + 1);

You'd call this like:

int attack = my_player.getBattleFactor(&equipment::getAttack);


int defense = my_player.GetBattleFactor(&equipment::getDefense);


Another obvious possibility would be to decree that any one piece of equipment can only be defensive or offensive. In this case, things become simpler still, to the point that it might even be questionable whether you really need a function at all:

class PlayerCharacter {
    std::vector<equipment> d_equip;
    std::vector<equipment> o_equip;

// ...

int d=level+1+std::accumulate(d_equip.begin(), d_equip.end(), 0)*sqrt(level+1);

int o=level+1+std::accumulate(o_equip.begin(), o_equip.end(), 0)*sqrt(level+1);
  • +1 for BattleFactor. It sounds awesome and makes we want to play it (whatever it is). Apr 19, 2010 at 19:02

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