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sav08:homework11 [2008/05/08 18:50] vkuncak |
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====== Homework 11, Due May 14 ====== | ====== Homework 11, Due May 14 ====== | ||
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+ | ===== Problem 0 ===== | ||
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+ | Prepare a 5-10 minute update on your project progress to present it on May 15 in exercises. | ||
===== Problem 1 ===== | ===== Problem 1 ===== | ||
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===== Problem 2 ===== | ===== Problem 2 ===== | ||
- | Suppose you are given a set of predicates $P_0,P_1,\ldots,P_n$ in a decidable theory of first-order logic (for example, combination of uninterpreted function symbols with integer linear arithmetic) where $P_0$ is the predicate 'false'. | + | Suppose you are given a set of predicates ${\cap P} = \{P_0,P_1,\ldots,P_n\}$ in a decidable theory of first-order logic (for example, quantifier-free formulas in the combination of uninterpreted function symbols with integer linear arithmetic) where $P_0$ is the predicate 'false'. |
**Part a)** Consider [[Conjunctions of Predicates]] as abstract interpretation domain. Give example showing that it need not be the case that | **Part a)** Consider [[Conjunctions of Predicates]] as abstract interpretation domain. Give example showing that it need not be the case that | ||
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**Part c)** Suppose that, for the same set of predicates, we use lattice $A$ and lattice $B$ to compute the fixpoints $g_A$ and $g_B$ of the function $F^{\#}$ from [[Abstract Interpretation Recipe]]. What can you say about | **Part c)** Suppose that, for the same set of predicates, we use lattice $A$ and lattice $B$ to compute the fixpoints $g_A$ and $g_B$ of the function $F^{\#}$ from [[Abstract Interpretation Recipe]]. What can you say about | ||
- | * the comparison of numbers of iterations needed to compute the fixpoint $g_A$ and $g_B$ (is one always less than equal to the other, strictly less, for various sets of predicates) | + | * the comparison of numbers of iterations needed to compute the fixpoint $g_A$ and $g_B$ (is one always less than the other, can they be equal, does it depend on set ${\cal P}$ of predicates) |
- | * the precision of computed information, that is, the sets $\gamma(g_A(p))$ and $\gamma(g_B(p))$ for an arbitrary program point $p \in V$ | + | * the precision of computed information, that is, comparison of sets $\gamma(g_A(p))$ and $\gamma(g_B(p))$ for an arbitrary program point $p \in V$. |