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sav07_homework_3 [2007/03/31 20:00] vkuncak |
sav07_homework_3 [2007/04/02 09:37] vkuncak |
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\end{equation*} | \end{equation*} | ||
where $r^{-1}$ denotes the inverse of relation $r$. In other words, computing weakest preconditions corresponds to propagating possible errors backwards. | where $r^{-1}$ denotes the inverse of relation $r$. In other words, computing weakest preconditions corresponds to propagating possible errors backwards. | ||
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==== Galois Connection ==== | ==== Galois Connection ==== | ||
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* $\gamma$ is an [[wk>injective function]] | * $\gamma$ is an [[wk>injective function]] | ||
- | **4.** State the condition for $c=\gamma(\alpha(c))$ to hold for all $c$. When $C$ is the set of concrete states and $A$ is a domain of static analysis, is it more reasonable to expect that $c=\gamma(\alpha(c))$ or $\alpha(\gamma(a)) = a$ to be satisfied, and why? | + | **4.** State the condition for $c=\gamma(\alpha(c))$ to hold for all $c$. When $C$ is the set of sets of concrete states and $A$ is a domain of static analysis, is it more reasonable to expect that $c=\gamma(\alpha(c))$ or $\alpha(\gamma(a)) = a$ to be satisfied, and why? |