Software Expression Side Effect

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See: Software Expression, Declarative Programming, Immutable Object, Referentially Transparent Expression.



References

2013

  • http://en.wikipedia.org/wiki/Side_effect_%28computer_science%29
    • In computer science, a function or expression is said to have a 'side effect if, in addition to returning a value, it also modifies some state or has an observable interaction with calling functions of the outside world. For example, a function might modify a global or static variable, modify one of its arguments, raise an exception, write data to a display or file, read data, or call other side-effecting functions. In the presence of side effects, a program's behavior depends on history; that is, the order of evaluation matters. Understanding and debugging a function with side effects requires knowledge about the context and its possible histories.[1][2]

      Side effects are the most common way that a program interacts with the outside world (people, filesystems, other computers on networks). But the degree to which side effects are used depends on the programming paradigm. Imperative programming is known for its frequent utilization of side effects. In functional programming, side effects are rarely used. Functional languages such as Standard ML, Scheme and Scala do not restrict side effects, but it is customary for programmers to avoid them.[3] The functional language Haskell restricts side effects with a static type system; it uses the concept of monads to do stateful and IO computations.[4][5]

      Assembly language programmers must be aware of hidden side effects — instructions that modify parts of the processor state which are not mentioned in the instruction's mnemonic. A classic example of a hidden side effect is an arithmetic instruction which explicitly modifies a register (an overt effect) and implicitly modifies condition codes (a hidden side effect). One defect of an instruction set with many hidden side effects is that, if many instructions have side effects on a single piece of state, like condition codes, then the logic required to update that state sequentially may become a performance bottleneck. The problem is particularly acute on processors designed with pipelining (since 1990) or with out-of-order execution. Such a processor may require additional control circuitry to detect hidden side effects and stall the pipeline if the next instruction depends on the results of those effects.

  1. “Research Topics in Functional Programming” ed. D. Turner, Addison-Wesley, 1990, pp 17–42. Retrieved from: Template:Citation
  2. Template:Citation
  3. Matthias Felleisen et al., How To Design Programs, MIT Press
  4. Haskell 98 report, http://www.haskell.org.
  5. Imperative Functional Programming, Simon Peyton Jones and Phil Wadler, Conference Record of the 20th Annual ACM Symposium on Principles of Programming Languages, pages 71–84, 1993