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55 lines
2.4 KiB
Markdown
55 lines
2.4 KiB
Markdown
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---
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id: 9e3bc9a2-cda1-4097-81ea-6e15736a5e9b
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title: Impact of Multifaceted Abstraction on Key Quality Attributes
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---
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# Understandability
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A class with the Multifaceted Abstraction smell has multiple aspects
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realized into the abstraction, increasing the cognitive load on the
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user. When a class has multiple responsibilities, it takes more time and
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effort to understand each responsibility, how they releate to each other
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in the abstraction, etc. This adversely affects its understandability.
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# Changeability & extensibility
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When a class has multiple responsibilities, it is difficult to determine
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which members should be modified to support a change or enhancement.
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Further, a modification to a member may impact unrelated
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responsibilities within the same class; this in turn can have a ripple
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effect accross the entire design. For this reason, the amount of time
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and effort required to change or extend the class while still ensuring
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that the reulting ripple effect has no adverse impact on the correctness
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of the software is considerably greater. These factors negatively impact
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changeability and extensibility.
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# Reusability
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Ideally, a well-formed abstraction that supports a single responsibility
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has the potential to be reused as a unit in a different context. When an
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abstraction has multiple responsibilities, the entire abstraction must
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be used even if only one of the responsibilities needs to be reused. In
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such a case, the presence of unnecessary responsibilities may become a
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costly overhead that must be addressed. Thus, the abstraction's
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reusability is compromised. Further, in an abstraction with multiple
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responsibilities, sometimes the responsibilities may be intertwined. In
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such a case, even if only a single responsibility needs to be reused,
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the overall behavior of the abstraction may be unpredicatable, again
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affecting its reusability.
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# Testability
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Often, when a class has multiple responsibilities, these
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responsibilities may be tightly coupled to each other, making it
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difficult to test each responsibility separately. This can negatively
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impact the testability of the class.
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# Reliability
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The effects of modification to a class with intertwined responsibilities
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may be unpredictable and lead to runtime problems. For instance,
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consider the case in which each responsibility operates on a seperate
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set of variables. When these variables are put together in a single
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abstraction, it is easy to mistakenly access the wrong variable,
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resulting in a runtime problem.
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