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I have a design question on how best to handle errors in the context of multiple operations organized in a tree structure (explained in more detail below).

Our setup:

We're using Objective C on the iOS platform, but the question is platform-independent, so it's phrased generally. However, the solution can involve special language features.

We have a number of atomic operations, each performing HTTP requests, parsing data, performing other I/O, etc. We compose some of these operations into higher-level operations (e.g., chain a number of HTTP requests), and so on. When an operation fails, the error propagates upwards until someone either handles it, or the top-most operation fails as well.

We have a number of independent objects (not considered operations) which invoke these complex operations and work with their results. They also check and handle errors. Let them be named 'primary callers'.

The problem:

Error handling that is local to the operation's universe should of course happen in that operation. The problematic error handling is the one that needs to access external resources such as the GUI, or various global managers.

Currently, some of this error handling is inside the operations, and some in the primary callers. This is a recipe for a headache. As error types grow in number and complexity, we need a consistent strategy to deal with them. I thought of two approaches, neither are completely satisfactory:

  1. Have the operations deal with their errors as soon as possible. Then have them propagate the error with a 'handled' boolean flag, to let the primary caller know it shouldn't handle that particular error. An advantage of this approach is that it plays nicely with inheritance. If we have an HTTPOperation, it can handle all the HTTP errors regardless of who calls it, preventing code duplication. A disadvantage is that the operation becomes aware of classes it has no other reason to know, and in fact some calls (like GUI updates) can fail.
  2. Have the operations propagate the error without handling it. Then the primary caller will handle all the errors. An advantage is that it centralizes all error handling in one place, which is good for readability and maintainability. A disadvantage is DRY violation - many errors should be handled exactly the same way by the primary callers, but I see no good way of reusing this functionality, let alone enforcing its use. I see no way to constrain who the primary callers are or what they can do.

What other strategies are there? Or are there ways to mitigate the problems I pointed out?


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1 Answer 1

Objectively I don't really know Objective C, so I'll use more "general" terms.

If the operation can easily (i.e. without needing to know "too much" as you described) treat the error locally, do it. Otherwise, have the operations return an ErrorHandler or ErrorResponse (I just made those names up). An error handler will receive the required objects to handle the error and will encompass the logic. For example, if OperationA has an error that requires a UI context, it could return a UIContextHandler that receives IUIContext (as a property or as an argument to a method). Thus, the calling object/operation can input the more concrete instance (i.e. MyConcreteUIDisplay) if it's aware of it. This would play nice with anonymous classes, if the language supports them, since the operation having the error can create an anonymous class inheriting from the appropriate handler and implement the logic in the operation (if it's something unique to said operation).

This assumes you have a small finite set of such special contextual types (i.e. UIContext, a database connection) that the operations' errors may need. Since assumption is the mother of all problems, one can remedy this beforehand. Perhaps there's a better approach, but you could let the primary objects pass a list of the objects they know to the error handlers and they will find in the list the objects they need. If they don't find them all, fail.

I think it solves your concerns, as you don't need to pass around MyConcreteUIDisplay when all the error handlers need to know is IUIContext (and you don't need to pass a reference around - the primary object/parent operation knowing the concrete instance will supply the reference). Moreover, it also gives the possibility of moving shared error handling logic (i.e. HTTPErrorHandler) into the handlers.

Hope that helps.

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