X-Git-Url: http://plrg.eecs.uci.edu/git/?p=satune.git;a=blobdiff_plain;f=src%2Fcsolver.h;h=79428395dcdfe5372277ff6ae9787438d2f94c8c;hp=9628f11b2e8d17c059acbf239d006c12c3b2f500;hb=ef5d7a44cfe435c24e5f104e320b1a81835626e7;hpb=86027a9b0f99313d110458948a174ae98e026a5e

diff --git a/src/csolver.h b/src/csolver.h
index 9628f11..7942839 100644
--- a/src/csolver.h
+++ b/src/csolver.h
@@ -1,125 +1,194 @@
 #ifndef CSOLVER_H
 #define CSOLVER_H
-#include "classlist.h"
+#include "classes.h"
 #include "ops.h"
-#include "structs.h"
+#include "corestructs.h"
+#include "asthash.h"
+#include "solver_interface.h"
 
-struct CSolver {
-	SATEncoder* satEncoder;
-	/** This is a vector of constraints that must be satisfied. */
-	VectorBoolean * constraints;
+class CSolver {
+public:
+	CSolver();
+	~CSolver();
 
-	/** This is a vector of all boolean structs that we have allocated. */
-	VectorBoolean * allBooleans;
+	/** This function creates a set containing the elements passed in the array. */
+	Set *createSet(VarType type, uint64_t *elements, uint num);
 
-	/** This is a vector of all set structs that we have allocated. */
-	VectorSet * allSets;
+	/** This function creates a set from lowrange to highrange (inclusive). */
 
-	/** This is a vector of all element structs that we have allocated. */
-	VectorElement * allElements;
+	Set *createRangeSet(VarType type, uint64_t lowrange, uint64_t highrange);
 
-	/** This is a vector of all predicate structs that we have allocated. */
-	VectorPredicate * allPredicates;
+	Element *createRangeVar(VarType type, uint64_t lowrange, uint64_t highrange);
+		
+	/** This function creates a mutable set. */
 
-	/** This is a vector of all table structs that we have allocated. */
-	VectorTable * allTables;
+	MutableSet *createMutableSet(VarType type);
 
-	/** This is a vector of all order structs that we have allocated. */
-	VectorOrder * allOrders;
+	/** This function adds a new item to a set. */
 
-	/** This is a vector of all function structs that we have allocated. */
-	VectorFunction* allFunctions;
-};
+	void addItem(MutableSet *set, uint64_t element);
+
+	/** This function adds a new unique item to the set and returns it.
+	    This function cannot be used in conjunction with manually adding
+	    items to the set. */
+
+	uint64_t createUniqueItem(MutableSet *set);
+
+	/** This function creates an element variable over a set. */
+
+	Element *getElementVar(Set *set);
+
+	/** This function creates an element constrant. */
+	Element *getElementConst(VarType type, uint64_t value);
+
+	Boolean *getBooleanTrue();
 
-/** Create a new solver instance. */
+	Boolean *getBooleanFalse();
+	
+	/** This function creates a boolean variable. */
 
-CSolver * allocCSolver();
+	Boolean *getBooleanVar(VarType type);
 
-/** Delete solver instance. */
+	/** This function creates a function operator. */
 
-void deleteSolver(CSolver * This);
+	Function *createFunctionOperator(ArithOp op, Set **domain, uint numDomain, Set *range,
+																	 OverFlowBehavior overflowbehavior);
 
-/** This function creates a set containing the elements passed in the array. */
+	/** This function creates a predicate operator. */
 
-Set * createSet(CSolver *, VarType type, uint64_t * elements, uint num);
+	Predicate *createPredicateOperator(CompOp op, Set **domain, uint numDomain);
 
-/** This function creates a set from lowrange to highrange (inclusive). */
+	Predicate *createPredicateTable(Table *table, UndefinedBehavior behavior);
 
-Set * createRangeSet(CSolver *, VarType type, uint64_t lowrange, uint64_t highrange);
+	/** This function creates an empty instance table.*/
 
-/** This function creates a mutable set. */
+	Table *createTable(Set **domains, uint numDomain, Set *range);
 
-MutableSet * createMutableSet(CSolver *, VarType type);
+	Table *createTableForPredicate(Set **domains, uint numDomain);
+	/** This function adds an input output relation to a table. */
 
-/** This function adds a new item to a set. */
+	void addTableEntry(Table *table, uint64_t *inputs, uint inputSize, uint64_t result);
 
-void addItem(CSolver *, MutableSet * set, uint64_t element);
+	/** This function converts a completed table into a function. */
 
-/** This function adds a new unique item to the set and returns it.
-    This function cannot be used in conjunction with manually adding
-    items to the set. */
+	Function *completeTable(Table *, UndefinedBehavior behavior);
 
-uint64_t createUniqueItem(CSolver *, MutableSet * set);
+	/** This function applies a function to the Elements in its input. */
 
-/** This function creates an element variable over a set. */
+	Element *applyFunction(Function *function, Element **array, uint numArrays, Boolean *overflowstatus);
 
-Element * getElementVar(CSolver *, Set * set);
+	/** This function applies a predicate to the Elements in its input. */
 
-/** This function creates a boolean variable. */
+	Boolean *applyPredicateTable(Predicate *predicate, Element **inputs, uint numInputs, Boolean *undefinedStatus);
 
-Boolean * getBooleanVar(CSolver *, VarType type);
+	Boolean *applyPredicate(Predicate *predicate, Element **inputs, uint numInputs);
 
-/** This function creates a function operator. */
+	/** This function applies a logical operation to the Booleans in its input. */
 
-Function * createFunctionOperator(CSolver *solver, ArithOp op, Set ** domain, uint numDomain, Set * range,
-																	OverFlowBehavior overflowbehavior);
+	Boolean *applyLogicalOperation(LogicOp op, Boolean **array, uint asize);
 
-/** This function creates a predicate operator. */
+		/** This function applies a logical operation to the Booleans in its input. */
 
-Predicate * createPredicateOperator(CSolver *solver, CompOp op, Set ** domain, uint numDomain);
+	Boolean *applyLogicalOperation(LogicOp op, Boolean * arg1, Boolean * arg2);
 
-/** This function creates an empty instance table.*/
+	/** This function applies a logical operation to the Booleans in its input. */
 
-Table * createTable(CSolver *solver, Set **domains, uint numDomain, Set * range);
+	Boolean *applyLogicalOperation(LogicOp op, Boolean *arg);
 
-/** This function adds an input output relation to a table. */
+	/** This function adds a boolean constraint to the set of constraints
+	    to be satisfied */
 
-void addTableEntry(CSolver *solver, Table* table, uint64_t* inputs, uint inputSize, uint64_t result);
+	void addConstraint(Boolean *constraint);
 
-/** This function converts a completed table into a function. */
+	/** This function instantiates an order of type type over the set set. */
+	Order *createOrder(OrderType type, Set *set);
 
-Function * completeTable(CSolver *, Table *);
+	/** This function instantiates a boolean on two items in an order. */
+	Boolean *orderConstraint(Order *order, uint64_t first, uint64_t second);
 
-/** This function applies a function to the Elements in its input. */
+	/** When everything is done, the client calls this function and then csolver starts to encode*/
+	int solve();
 
-Element * applyFunction(CSolver *, Function * function, Element ** array, uint numArrays, Boolean * overflowstatus);
+	/** After getting the solution from the SAT solver, client can get the value of an element via this function*/
+	uint64_t getElementValue(Element *element);
 
-/** This function applies a predicate to the Elements in its input. */
+	/** After getting the solution from the SAT solver, client can get the value of a boolean via this function*/
+	bool getBooleanValue(Boolean *boolean);
 
-Boolean * applyPredicate(CSolver *, Predicate * predicate, Element ** inputs, uint numInputs);
+	HappenedBefore getOrderConstraintValue(Order *order, uint64_t first, uint64_t second);
 
-/** This function applies a logical operation to the Booleans in its input. */
+	bool isTrue(Boolean *b);
+	bool isFalse(Boolean *b);
+	
+	void setUnSAT() { unsat = true; }
 
-Boolean * applyLogicalOperation(CSolver *, LogicOp op, Boolean ** array, uint asize);
+	bool isUnSAT() { return unsat; }
 
-/** This function adds a boolean constraint to the set of constraints
-    to be satisfied */
+	Vector<Order *> *getOrders() { return &allOrders;}
 
-void addConstraint(CSolver *, Boolean * constraint);
+	Tuner *getTuner() { return tuner; }
+	Transformer* getTransformer() {return transformer;}
+	
+	SetIteratorBoolean *getConstraints() { return constraints.iterator(); }
 
-/** This function instantiates an order of type type over the set set. */
-Order * createOrder(CSolver *, OrderType type, Set * set);
+	SATEncoder *getSATEncoder() {return satEncoder;}
 
-/** This function instantiates a boolean on two items in an order. */
-Boolean * orderConstraint(CSolver *, Order * order, uint64_t first, uint64_t second);
+	void replaceBooleanWithTrue(Boolean *bexpr);
+	void replaceBooleanWithFalse(Boolean *bexpr);
+	void replaceBooleanWithBoolean(Boolean *oldb, Boolean *newb);
+	CSolver *clone();
+	void autoTune(uint budget);
 
-/** When everything is done, the client calls this function and then csolver starts to encode*/
-void startEncoding(CSolver*);
+	void setTransformer(Transformer * _transformer) {  transformer = _transformer; }
+	void setTuner(Tuner * _tuner) { tuner = _tuner; }
+	long long getElapsedTime() { return elapsedTime; }
+	long long getEncodeTime();
+	long long getSolveTime();
+	
+	CMEMALLOC;
 
-/** After getting the solution from the SAT solver, client can get the value of an element via this function*/
-uint64_t getElementValue(CSolver*, Element* element);
+private:
+	void handleXORFalse(BooleanLogic *bexpr, Boolean *child);
+	void handleIMPLIESTrue(BooleanLogic *bexpr, Boolean *child);
+	void handleIMPLIESFalse(BooleanLogic *bexpr, Boolean *child);
+	void handleANDTrue(BooleanLogic *bexpr, Boolean *child);
+	void handleORFalse(BooleanLogic *bexpr, Boolean *child);
 
-/** After getting the solution from the SAT solver, client can get the value of a boolean via this function*/
-bool getBooleanValue( CSolver* , Boolean* boolean);
+	/** This is a vector of constraints that must be satisfied. */
+	HashsetBoolean constraints;
+
+	/** This is a vector of all boolean structs that we have allocated. */
+	Vector<Boolean *> allBooleans;
+
+	/** This is a vector of all set structs that we have allocated. */
+	Vector<Set *> allSets;
+
+	/** This is a vector of all element structs that we have allocated. */
+	Vector<Element *> allElements;
 
+	/** This is a vector of all predicate structs that we have allocated. */
+	Vector<Predicate *> allPredicates;
+
+	/** This is a vector of all table structs that we have allocated. */
+	Vector<Table *> allTables;
+
+	/** This is a vector of all order structs that we have allocated. */
+	Vector<Order *> allOrders;
+
+	/** This is a vector of all function structs that we have allocated. */
+	Vector<Function *> allFunctions;
+
+	Boolean * boolTrue;
+	Boolean * boolFalse;
+	
+	/** These two tables are used for deduplicating entries. */
+	BooleanMatchMap boolMap;
+	ElementMatchMap elemMap;
+	
+	SATEncoder *satEncoder;
+	bool unsat;
+	Tuner *tuner;
+	Transformer* transformer;
+	long long elapsedTime;
+};
 #endif