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=== B2SAT in Jupyter Notebooks === | === B2SAT in Jupyter Notebooks === |
The current versions of ProB can make use of the new B2SAT backend as an alternate way of solving constraints. It translates a subset of B formulas to SAT and for solving by an external SAT solver. The new backend interleaves low-level SAT solving with high-level constraint solving performed by the default solver of ProB.
The following four commands are now available in REPL of probcli (start with probcli --repl):
Here is a simple example:
>>> :sat f:1..n --> BOOL & n=3 & f(1)=TRUE & !i.(i:2..n => f(i) /= f(i-1)) PREDICATE is TRUE Solution: f = {(1|->TRUE),(2|->FALSE),(3|->TRUE)} & n = 3
The new preference SOLVER_FOR_PROPERTIES can be used to specify solver for PROPERTIES (axioms) when setting up constants. The valid settings are: prob (the default), kodkod, z3, z3cns, z3axm, cdclt, sat, sat-z3.
The last two will use B2SAT.
Here is an example using this preference:
MACHINE IceCream_Generic // Dominating set example: // place ice cream vans so that every house (node) is at most one block away from a van // a version which can be solved by SATSOLVER extension DEFINITIONS N == 24; CUSTOM_GRAPH == rec(layout:"dot", rankdir:"TB", nodes: {j•j:NODES | rec(value:j, style:"filled", fillcolor:IF ice(j)=TRUE THEN "mistyrose" ELSE "white" END )}, edges:rec(color:"gray", arrowhead:"odot", arrowtail:"odot", dir:"both", label:"edge", edges: edge) ); bi_edge == (edge \/ edge~); SET_PREF_SMT == TRUE; SET_PREF_TIME_OUT == 50000; SET_PREF_SOLVER_STRENGTH == 300; SET_PREF_SOLVER_FOR_PROPERTIES == "sat"; SETS NODES = {n1,n2,n3,n4,n5,n6,n7,n8,n9,n10, n11,n12,n13,n14,n15,n16,n17,n18,n19,n20,n21,n22,n23,n24} CONSTANTS edge, ice, vans, neighbours PROPERTIES edge: NODES <-> NODES & edge = { n1|->n2, n1|->n4, n2|->n3, n3|->n4, n3|->n5, n3|->n7, n4|->n7, n5|->n6, n5|->n9, n6|->n7, n6|->n8, n7|->n8, n8|->n10, n8|->n13, n9|->n10, n9|->n11, n9|->n12, n11|->n12, n11|->n14, n12|->n13, n13|->n16, n14|->n15, n14|->n17, n15|->n16, n15|->n17, n15|->n18, n15|->n21, n16|->n18, n16|->n19, n17|->n19, n18|->n19, n18|->n20, n18|->n21, n19|->n20, n19|->n21, n20|->n21, n20|->n22, n21|->n22, n21|->n23, n21|->n24, n22|->n23, n21|->n24, n23|->n24 } & ice : NODES--> BOOL & neighbours = %x.(x:NODES|bi_edge[{x}]) & !x.(x:NODES => (ice(x)=TRUE or #neighbour.(neighbour: neighbours(x) & ice(neighbour)=TRUE) ) ) & vans = card(ice~[{TRUE}]) & card({x|x:NODES & ice(x)=TRUE})<=6 /* minimal solution requires 6 vans */ OPERATIONS v <-- NrVans = BEGIN v := vans END; xx <-- Get(yy) = PRE yy:NODES THEN xx:= ice(yy) END; v <-- Vans = BEGIN v:= ice~[{TRUE}] END END