[6] | 1 | /* BDD relational product routine */ |
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| 2 | |
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| 3 | |
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| 4 | #include "bddint.h" |
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| 5 | |
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| 6 | |
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| 7 | static |
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| 8 | bdd |
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| 9 | cmu_bdd_rel_prod_step(cmu_bdd_manager bddm, bdd f, bdd g, long op, var_assoc vars) |
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| 10 | { |
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| 11 | bdd_indexindex_type top_indexindex; |
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| 12 | bdd f1, f2; |
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| 13 | bdd g1, g2; |
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| 14 | bdd temp1, temp2; |
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| 15 | bdd result; |
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| 16 | int quantifying; |
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| 17 | |
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| 18 | BDD_SETUP(f); |
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| 19 | BDD_SETUP(g); |
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| 20 | if (BDD_IS_CONST(f) || BDD_IS_CONST(g)) |
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| 21 | { |
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| 22 | if (f == BDD_ZERO(bddm) || g == BDD_ZERO(bddm)) |
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| 23 | return (BDD_ZERO(bddm)); |
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| 24 | if (f == BDD_ONE(bddm)) |
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| 25 | return (cmu_bdd_exists_temp(bddm, g, op-1)); |
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| 26 | return (cmu_bdd_exists_temp(bddm, f, op-1)); |
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| 27 | } |
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| 28 | if ((long)BDD_INDEX(bddm, f) > vars->last && (long)BDD_INDEX(bddm, g) > vars->last) |
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| 29 | return (cmu_bdd_ite_step(bddm, f, g, BDD_ZERO(bddm))); |
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| 30 | /* Put in canonical order. */ |
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| 31 | if (BDD_OUT_OF_ORDER(f, g)) |
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| 32 | BDD_SWAP(f, g); |
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| 33 | if (bdd_lookup_in_cache2(bddm, op, f, g, &result)) |
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| 34 | return (result); |
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| 35 | BDD_TOP_VAR2(top_indexindex, bddm, f, g); |
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| 36 | quantifying=(vars->assoc[top_indexindex] != 0); |
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| 37 | BDD_COFACTOR(top_indexindex, f, f1, f2); |
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| 38 | BDD_COFACTOR(top_indexindex, g, g1, g2); |
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| 39 | temp1=cmu_bdd_rel_prod_step(bddm, f1, g1, op, vars); |
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| 40 | if (quantifying && temp1 == BDD_ONE(bddm)) |
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| 41 | result=temp1; |
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| 42 | else |
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| 43 | { |
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| 44 | temp2=cmu_bdd_rel_prod_step(bddm, f2, g2, op, vars); |
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| 45 | if (quantifying) |
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| 46 | { |
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| 47 | BDD_SETUP(temp1); |
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| 48 | BDD_SETUP(temp2); |
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| 49 | bddm->op_cache.cache_level++; |
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| 50 | result=cmu_bdd_ite_step(bddm, temp1, BDD_ONE(bddm), temp2); |
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| 51 | BDD_TEMP_DECREFS(temp1); |
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| 52 | BDD_TEMP_DECREFS(temp2); |
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| 53 | bddm->op_cache.cache_level--; |
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| 54 | } |
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| 55 | else |
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| 56 | result=bdd_find(bddm, top_indexindex, temp1, temp2); |
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| 57 | } |
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| 58 | bdd_insert_in_cache2(bddm, op, f, g, result); |
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| 59 | return (result); |
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| 60 | } |
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| 61 | |
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| 62 | |
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| 63 | /* cmu_bdd_rel_prod(bddm, f, g) returns the BDD for "f and g" with those */ |
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| 64 | /* variables which are associated with something in the current */ |
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| 65 | /* variable association quantified out. */ |
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| 66 | |
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| 67 | bdd |
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| 68 | cmu_bdd_rel_prod(cmu_bdd_manager bddm, bdd f, bdd g) |
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| 69 | { |
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| 70 | long op; |
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| 71 | |
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| 72 | if (bdd_check_arguments(2, f, g)) |
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| 73 | { |
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| 74 | FIREWALL(bddm); |
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| 75 | if (bddm->curr_assoc_id == -1) |
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| 76 | { |
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| 77 | op=bddm->temp_op--; |
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| 78 | /* We decrement the temporary opcode once more because */ |
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| 79 | /* cmu_bdd_rel_prod may call cmu_bdd_exists_temp, and we don't */ |
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| 80 | /* want to generate new temporary opcodes for each such */ |
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| 81 | /* call. Instead, we pass op-1 to cmu_bdd_exists_temp, and */ |
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| 82 | /* have it use this opcode for caching. */ |
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| 83 | bddm->temp_op--; |
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| 84 | } |
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| 85 | else |
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| 86 | op=OP_RELPROD+bddm->curr_assoc_id; |
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| 87 | RETURN_BDD(cmu_bdd_rel_prod_step(bddm, f, g, op, bddm->curr_assoc)); |
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| 88 | } |
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| 89 | return ((bdd)0); |
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| 90 | } |
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