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Canonical Cover & Normal Forms

Canonical Cover & Normal Forms. August 25, 2014. Canonical Cover - 1. Given a relation R with a set of FDs F 4 steps to find a canonical cover for F: Step 1: Decompose all FDs in standard form Replace each FD X → A1A2…Ak in F with X→A1, X→A2, …, X→Ak. Canonical Cover - 2.

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Canonical Cover & Normal Forms

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  1. Canonical Cover & Normal Forms August 25, 2014

  2. Canonical Cover - 1 • Given a relation R with a set of FDs F • 4 steps to find a canonical cover for F: • Step 1:Decompose all FDs in standard form • Replace each FD X → A1A2…Ak in F with X→A1, X→A2, …, X→Ak

  3. Canonical Cover - 2 • Step 2:Eliminate unnecessary attributes from LHS • For every FD XA in F, check if the closure of a subset of X determines A. If so, remove redundant attribute(s) from X

  4. Canonical Cover - 3 • Step 3:Remove redundant FD(s) • For every FD XA in G • Remove XA from G, and call the result G’ • Compute X+under G’ • If A X+, then XA is redundant. Hence, we remove the FD XA from G (That is, we rename G’ to G)

  5. Canonical Cover - 4 • Step 4:Make LHS of FDs unique • Replace X→A1, X→A2, …, X→Ak with X → A1A2…Ak

  6. BCNF Requirements • We say R w.r.t. F is in BCNF if: • For every FD X  A in F, at least one of the following conditions is true: • A  X, that is, X  A is a trivial FD, OR • X is a super key

  7. 3NF Requirements • We say R w.r.t. F is in 3NF if: • For every FD X  A in F, at least one of the following conditions is true: • A  X, that is, X  A is a trivial FD, OR • Xis asuper key, OR • IfXis not a key, thenAis part of some key of R

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