Difference between revisions of "Bounds checking"

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"There is a view that in order to gain static assurances such as an array index
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being always in range or tail being applied to a non-empty list, we must give
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up on something significant: on data structures such as arrays (to be replaced
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with nested tuples), on general recursion, on annotation-free programming, on
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clarity of code, on well-supported programming languages.
  
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That does not have to be the case. [These exampels] show non-trivial
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examples involving native Haskell arrays, index computations, and general
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recursion. All arrays indexing operations are statically guaranteed to be safe
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-- and so we can safely use an efficient unsafeAt provided by GHC seemingly for
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that purpose. The code is efficient; the static assurances cost us no run-time
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overhead. The example uses only Haskell98 + higher-ranked types. No new type
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classes are introduced. The safety is based on: Haskell type system, quantified
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type variables, and a compact general-purpose trusted kernel."
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[http://okmij.org/ftp/Haskell/types.html#branding Eliminating Array Bound Checking through Non-dependent types]
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[[Category:Idioms]]

Revision as of 15:19, 6 February 2021

"There is a view that in order to gain static assurances such as an array index being always in range or tail being applied to a non-empty list, we must give up on something significant: on data structures such as arrays (to be replaced with nested tuples), on general recursion, on annotation-free programming, on clarity of code, on well-supported programming languages.

That does not have to be the case. [These exampels] show non-trivial examples involving native Haskell arrays, index computations, and general recursion. All arrays indexing operations are statically guaranteed to be safe -- and so we can safely use an efficient unsafeAt provided by GHC seemingly for that purpose. The code is efficient; the static assurances cost us no run-time overhead. The example uses only Haskell98 + higher-ranked types. No new type classes are introduced. The safety is based on: Haskell type system, quantified type variables, and a compact general-purpose trusted kernel."

Eliminating Array Bound Checking through Non-dependent types