I’ll shrink your example. Suppose you have an object A which has a B which has a C, which is what you need.
By writing a.getB().getC(), you are implicitly coupling A and C together without A noticing. All A knows is that it is coupled to B. Should B ever decide to use a different C’, which would make more sense for B, it may break your code without noticing it.
The solution is to make the coupling explicit. A should define a getC function that observes the needed contract. For the time being, it may get its C from B (which is fine, because C is under B’s immediate control), but if B changes, and wants to use C’, you know to look into A (which is already explicitly coupled to B) and see if it can still function. You’d notice that it relied on B’s returning C and can find a solution to this.
An example with fewer variables: You have a shopping cart, which manages items. Implicit coupling translates to knowing and relying on the fact that the items are stored in an array. Adding an item the bad way would be shoppingCart.getItems()[shoppingCart.getItems().getLength] = item;*
The proposed solution adds the function ShoppingCart::addItem. Should ShoppingCart switch to a linked list, it can change the implementation of addItem accordingly. Instead of reaching through the cart into the items, you make dealing with the items the problem of ShoppingCart.
I don’t have copy at hand, so I can’t check. I think this advice stems from “The Pragmatic Programmer” by David Thomas and Andrew Hunt.
* I don’t actually know Java, so please forgive if this example wouldn’t really work.
I’ll shrink your example. Suppose you have an object A which has a B which has a C, which is what you need.
By writing
a.getB().getC(), you are implicitly coupling A and C together without A noticing. All A knows is that it is coupled to B. Should B ever decide to use a different C’, which would make more sense for B, it may break your code without noticing it.The solution is to make the coupling explicit. A should define a
getCfunction that observes the needed contract. For the time being, it may get its C from B (which is fine, because C is under B’s immediate control), but if B changes, and wants to use C’, you know to look into A (which is already explicitly coupled to B) and see if it can still function. You’d notice that it relied on B’s returning C and can find a solution to this.An example with fewer variables: You have a shopping cart, which manages items. Implicit coupling translates to knowing and relying on the fact that the items are stored in an array. Adding an item the bad way would be
shoppingCart.getItems()[shoppingCart.getItems().getLength] = item;*The proposed solution adds the function
ShoppingCart::addItem. Should ShoppingCart switch to a linked list, it can change the implementation of addItem accordingly. Instead of reaching through the cart into the items, you make dealing with the items the problem of ShoppingCart.I don’t have copy at hand, so I can’t check. I think this advice stems from “The Pragmatic Programmer” by David Thomas and Andrew Hunt.
* I don’t actually know Java, so please forgive if this example wouldn’t really work.