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#define THROW_UNSUPPORTED_COMPARISONS
using Microsoft.Dafny;
using System;
using System.Collections.Generic;
using System.Diagnostics.Contracts;
using System.Linq;
using System.Text;
namespace Microsoft.Dafny.Triggers {
internal static class DeduplicateExtension {
public static List<T> Deduplicate<T>(this IEnumerable<T> seq, Func<T, T, bool> eq) {
List<T> deduplicated = new List<T>();
foreach (var elem in seq) {
if (!deduplicated.Any(other => eq(elem, other))) {
deduplicated.Add(elem);
}
}
return deduplicated;
}
}
internal struct TriggerMatch {
internal Expression Expr;
internal Expression OriginalExpr;
internal Dictionary<IVariable, Expression> Bindings;
internal static bool Eq(TriggerMatch t1, TriggerMatch t2) {
return ExprExtensions.ExpressionEq(t1.Expr, t2.Expr);
}
/// <summary>
/// This method checks whether this match could actually cause a loop, given a set of terms participating in a trigger;
/// to compute an answer, we match the Expr of this match against the Exprs of each of these term, allowing for harmless
/// variations. If any of these tests does match, this term likely won't cause a loop.
/// The boundVars list is useful to determine that forall x :: P(x) == P(y+z) does not loop.
/// </summary>
internal bool CouldCauseLoops(List<TriggerTerm> terms, ISet<BoundVar> boundVars) {
var expr = Expr;
return !terms.Any(term => term.Expr.ExpressionEqModuloExpressionsNotInvolvingBoundVariables(expr, boundVars));
}
}
internal static class ExprExtensions {
internal static IEnumerable<Expression> AllSubExpressions(this Expression expr, bool wrapOld, bool strict) {
bool isOld = expr is OldExpr;
foreach (var subexpr in expr.SubExpressions) {
foreach (var r_subexpr in AllSubExpressions(subexpr, wrapOld, false)) {
yield return TriggerUtils.MaybeWrapInOld(r_subexpr, isOld);
}
}
if (expr is StmtExpr) {
foreach (var r_subexpr in AllSubExpressions(((StmtExpr)expr).S, wrapOld, false)) {
yield return TriggerUtils.MaybeWrapInOld(r_subexpr, isOld);
}
}
if (!strict) {
yield return expr;
}
}
internal static IEnumerable<Expression> AllSubExpressions(this Statement stmt, bool wrapOld, bool strict) {
foreach (var subexpr in stmt.SubExpressions) {
foreach (var r_subexpr in AllSubExpressions(subexpr, wrapOld, false)) {
yield return r_subexpr;
}
}
foreach (var substmt in stmt.SubStatements) {
foreach (var r_subexpr in AllSubExpressions(substmt, wrapOld, false)) {
yield return r_subexpr;
}
}
}
internal static bool ExpressionEq(this Expression expr1, Expression expr2) {
expr1 = expr1.Resolved;
expr2 = expr2.Resolved;
return ShallowEq_Top(expr1, expr2) && TriggerUtils.SameLists(expr1.SubExpressions, expr2.SubExpressions, (e1, e2) => ExpressionEq(e1, e2));
}
internal static bool ExpressionEqModuloExpressionsNotInvolvingBoundVariables(this Expression expr1, Expression expr2, ISet<BoundVar> boundVars) {
expr1 = expr1.Resolved;
expr2 = expr2.Resolved;
if (expr1 is IdentifierExpr) {
if (expr2 is IdentifierExpr) {
return true;
} else {
var freeInE2 = Translator.ComputeFreeVariables(expr2);
freeInE2.IntersectWith(boundVars);
return !freeInE2.Any();
}
}
return ShallowEq_Top(expr1, expr2) && TriggerUtils.SameLists(expr1.SubExpressions,
expr2.SubExpressions, (e1, e2) => ExpressionEqModuloExpressionsNotInvolvingBoundVariables(e1, e2, boundVars));
}
internal static bool MatchesTrigger(this Expression expr, Expression trigger, ISet<BoundVar> holes, Dictionary<IVariable, Expression> bindings) {
expr = expr.Resolved;
trigger = trigger.Resolved;
if (trigger is IdentifierExpr) {
var var = ((IdentifierExpr)trigger).Var;
if (holes.Contains(var)) {
Expression existing_binding = null;
if (bindings.TryGetValue(var, out existing_binding)) {
return ExpressionEq(expr, existing_binding);
} else {
bindings[var] = expr;
return true;
}
}
}
return ShallowEq_Top(expr, trigger) && TriggerUtils.SameLists(expr.SubExpressions, trigger.SubExpressions, (e1, e2) => MatchesTrigger(e1, e2, holes, bindings));
}
private static TriggerMatch? MatchAgainst(this Expression expr, Expression trigger, IEnumerable<BoundVar> holes, Expression originalExpr) {
var bindings = new Dictionary<IVariable, Expression>();
if (expr.MatchesTrigger(trigger, new HashSet<BoundVar>(holes), bindings)) {
return new TriggerMatch { Expr = expr, OriginalExpr = originalExpr ?? expr, Bindings = bindings };
} else {
return null;
}
}
internal static IEnumerable<TriggerMatch> SubexpressionsMatchingTrigger(this QuantifierExpr quantifier, Expression trigger) {
return quantifier.AllSubExpressions(true, true)
.Select(e => TriggerUtils.PrepareExprForInclusionInTrigger(e).MatchAgainst(trigger, quantifier.BoundVars, e))
.Where(e => e.HasValue).Select(e => e.Value);
}
private static bool ShallowSameAttributes(Attributes attributes1, Attributes attributes2) {
return TriggerUtils.SameLists(attributes1.AsEnumerable(), attributes2.AsEnumerable(), ShallowSameSingleAttribute);
}
private static bool ShallowSameSingleAttribute(Attributes arg1, Attributes arg2) {
return arg1.Name == arg2.Name;
}
private static bool SameBoundVar(IVariable arg1, IVariable arg2) {
return arg1 == arg2 ||
(arg1.Name == arg2.Name &&
arg1.CompileName == arg2.CompileName &&
arg1.DisplayName == arg2.DisplayName &&
arg1.UniqueName == arg2.UniqueName &&
arg1.IsGhost == arg2.IsGhost &&
arg1.IsMutable == arg2.IsMutable &&
((arg1.Type == null && arg2.Type == null) || arg1.Type.Equals(arg2.Type)));
}
/// <summary>
/// Compares two abstract syntax expressions, looking only at their direct members. Subexpressions and substatements are not compared.
/// </summary>
/// <returns></returns>
internal static bool ShallowEq_Top(Expression expr1, Expression expr2) {
Contract.Requires(expr1 != null);
Contract.Requires(expr2 != null);
// We never compare concrete expressions
Contract.Requires(!(expr1 is ConcreteSyntaxExpression));
Contract.Requires(!(expr2 is ConcreteSyntaxExpression));
// CPC: Hey future editor: the following block of code is auto-generated. Just add your own cases at the end.
// This could be a visitor pattern, except I need to visit a pair of nodes.
// It could also be implemented in each individual class. I'd have a slight preference for that.
// This really just wants to use double dispatch.
if (expr1 is UnboxingCastExpr && expr2 is UnboxingCastExpr) {
return ShallowEq((UnboxingCastExpr)expr1, (UnboxingCastExpr)expr2);
} else if (expr1 is BoxingCastExpr && expr2 is BoxingCastExpr) {
return ShallowEq((BoxingCastExpr)expr1, (BoxingCastExpr)expr2);
} else if (expr1 is MatchExpr && expr2 is MatchExpr) {
return ShallowEq((MatchExpr)expr1, (MatchExpr)expr2);
} else if (expr1 is ITEExpr && expr2 is ITEExpr) {
return ShallowEq((ITEExpr)expr1, (ITEExpr)expr2);
} else if (expr1 is StmtExpr && expr2 is StmtExpr) {
return ShallowEq((StmtExpr)expr1, (StmtExpr)expr2);
} else if (expr1 is WildcardExpr && expr2 is WildcardExpr) {
return ShallowEq((WildcardExpr)expr1, (WildcardExpr)expr2);
} else if (expr1 is ComprehensionExpr && expr2 is ComprehensionExpr) {
return ShallowEq((ComprehensionExpr)expr1, (ComprehensionExpr)expr2);
} else if (expr1 is NamedExpr && expr2 is NamedExpr) {
return ShallowEq((NamedExpr)expr1, (NamedExpr)expr2);
} else if (expr1 is LetExpr && expr2 is LetExpr) {
return ShallowEq((LetExpr)expr1, (LetExpr)expr2);
} else if (expr1 is TernaryExpr && expr2 is TernaryExpr) {
return ShallowEq((TernaryExpr)expr1, (TernaryExpr)expr2);
} else if (expr1 is BinaryExpr && expr2 is BinaryExpr) {
return ShallowEq((BinaryExpr)expr1, (BinaryExpr)expr2);
} else if (expr1 is UnaryExpr && expr2 is UnaryExpr) {
return ShallowEq((UnaryExpr)expr1, (UnaryExpr)expr2);
} else if (expr1 is MultiSetFormingExpr && expr2 is MultiSetFormingExpr) {
return ShallowEq((MultiSetFormingExpr)expr1, (MultiSetFormingExpr)expr2);
} else if (expr1 is OldExpr && expr2 is OldExpr) {
return ShallowEq((OldExpr)expr1, (OldExpr)expr2);
} else if (expr1 is FunctionCallExpr && expr2 is FunctionCallExpr) {
return ShallowEq((FunctionCallExpr)expr1, (FunctionCallExpr)expr2);
} else if (expr1 is ApplyExpr && expr2 is ApplyExpr) {
return ShallowEq((ApplyExpr)expr1, (ApplyExpr)expr2);
} else if (expr1 is SeqUpdateExpr && expr2 is SeqUpdateExpr) {
return ShallowEq((SeqUpdateExpr)expr1, (SeqUpdateExpr)expr2);
} else if (expr1 is MultiSelectExpr && expr2 is MultiSelectExpr) {
return ShallowEq((MultiSelectExpr)expr1, (MultiSelectExpr)expr2);
} else if (expr1 is SeqSelectExpr && expr2 is SeqSelectExpr) {
return ShallowEq((SeqSelectExpr)expr1, (SeqSelectExpr)expr2);
} else if (expr1 is MemberSelectExpr && expr2 is MemberSelectExpr) {
return ShallowEq((MemberSelectExpr)expr1, (MemberSelectExpr)expr2);
} else if (expr1 is MapDisplayExpr && expr2 is MapDisplayExpr) { //Note: MapDisplayExpr is not a DisplayExpression
return ShallowEq((MapDisplayExpr)expr1, (MapDisplayExpr)expr2);
} else if (expr1 is DisplayExpression && expr2 is DisplayExpression) {
return ShallowEq((DisplayExpression)expr1, (DisplayExpression)expr2);
} else if (expr1 is IdentifierExpr && expr2 is IdentifierExpr) {
return ShallowEq((IdentifierExpr)expr1, (IdentifierExpr)expr2);
} else if (expr1 is ThisExpr && expr2 is ThisExpr) {
return ShallowEq((ThisExpr)expr1, (ThisExpr)expr2);
} else if (expr1 is DatatypeValue && expr2 is DatatypeValue) {
return ShallowEq((DatatypeValue)expr1, (DatatypeValue)expr2);
} else if (expr1 is LiteralExpr && expr2 is LiteralExpr) {
return ShallowEq((LiteralExpr)expr1, (LiteralExpr)expr2);
} else {
// If this assertion fail, then a new abstract AST node was probably introduced but not registered here.
Contract.Assert(expr1.GetType() != expr2.GetType());
return false;
}
}
private static bool ShallowEq(UnboxingCastExpr expr1, UnboxingCastExpr expr2) {
Contract.Requires(false);
throw new InvalidOperationException();
}
private static bool ShallowEq(BoxingCastExpr expr1, BoxingCastExpr expr2) {
return expr1.FromType == expr2.FromType &&
expr1.ToType == expr2.ToType;
}
private static bool ShallowEq(MatchExpr expr1, MatchExpr expr2) {
return true;
}
private static bool ShallowEq(ITEExpr expr1, ITEExpr expr2) {
return true;
}
private static bool ShallowEq(StmtExpr expr1, StmtExpr expr2) {
#if THROW_UNSUPPORTED_COMPARISONS
Contract.Assume(false); // This kind of expression never appears in a trigger
throw new NotImplementedException();
#else
return expr1.S == expr2.S;
#endif
}
private static bool ShallowEq(WildcardExpr expr1, WildcardExpr expr2) {
return true;
}
private static bool ShallowEq(LambdaExpr expr1, LambdaExpr expr2) {
#if THROW_UNSUPPORTED_COMPARISONS
Contract.Assume(false); // This kind of expression never appears in a trigger
throw new NotImplementedException();
#else
return false;
#endif
}
private static bool ShallowEq(MapComprehension expr1, MapComprehension expr2) {
return expr1.Finite == expr2.Finite;
}
private static bool ShallowEq(SetComprehension expr1, SetComprehension expr2) {
return expr1.TermIsImplicit == expr2.TermIsImplicit && //TODO
expr1.Finite == expr2.Finite;
}
private static bool ShallowEq(ExistsExpr expr1, ExistsExpr expr2) {
return true;
}
private static bool ShallowEq(ForallExpr expr1, ForallExpr expr2) {
return true;
}
private static bool ShallowEq(QuantifierExpr expr1, QuantifierExpr expr2) {
if (!TriggerUtils.SameNullity(expr1.SplitQuantifier, expr2.SplitQuantifier)) {
return false;
}
if (expr1.SplitQuantifier != null && expr2.SplitQuantifier != null) {
return ShallowEq_Top(expr1.SplitQuantifierExpression, expr2.SplitQuantifierExpression);
}
if (expr1.TypeArgs.Count != expr2.TypeArgs.Count ||
!TriggerUtils.SameNullity(expr1.Range, expr2.Range)) {
return false;
}
if (expr1 is ExistsExpr && expr2 is ExistsExpr) {
return ShallowEq((ExistsExpr)expr1, (ExistsExpr)expr2);
} else if (expr1 is ForallExpr && expr2 is ForallExpr) {
return ShallowEq((ForallExpr)expr1, (ForallExpr)expr2);
} else {
return false;
}
}
private static bool ShallowEq(ComprehensionExpr expr1, ComprehensionExpr expr2) {
if (!TriggerUtils.SameLists(expr1.BoundVars, expr2.BoundVars, SameBoundVar) ||
!ShallowSameAttributes(expr1.Attributes, expr2.Attributes) ||
// Filled in during resolution: !SameLists(expr1.Bounds, expr2.Bounds, ReferenceCompare) ||
// !SameLists(expr1.MissingBounds, expr2.MissingBounds, SameBoundVar) ||
!TriggerUtils.SameNullity(expr1.Range, expr2.Range)) { //TODO Check
return false;
}
if (expr1 is LambdaExpr && expr2 is LambdaExpr) {
return ShallowEq((LambdaExpr)expr1, (LambdaExpr)expr2);
} else if (expr1 is MapComprehension && expr2 is MapComprehension) {
return ShallowEq((MapComprehension)expr1, (MapComprehension)expr2);
} else if (expr1 is SetComprehension && expr2 is SetComprehension) {
return ShallowEq((SetComprehension)expr1, (SetComprehension)expr2);
} else if (expr1 is QuantifierExpr && expr2 is QuantifierExpr) {
return ShallowEq((QuantifierExpr)expr1, (QuantifierExpr)expr2);
} else {
return false; // ComprehensionExpr is abstract
}
}
private static bool ShallowEq(NamedExpr expr1, NamedExpr expr2) {
return expr1.Name == expr2.Name &&
TriggerUtils.SameNullity(expr1.Contract, expr2.Contract);
}
private static bool ShallowEq(LetExpr expr1, LetExpr expr2) {
return expr1.Exact == expr2.Exact &&
ShallowSameAttributes(expr1.Attributes, expr2.Attributes);
}
private static bool ShallowEq(TernaryExpr expr1, TernaryExpr expr2) {
return expr1.Op == expr2.Op;
}
private static bool ShallowEq(BinaryExpr expr1, BinaryExpr expr2) {
Contract.Requires(expr1.ResolvedOp != BinaryExpr.ResolvedOpcode.YetUndetermined);
Contract.Requires(expr2.ResolvedOp != BinaryExpr.ResolvedOpcode.YetUndetermined);
return expr1.ResolvedOp == expr2.ResolvedOp;
}
private static bool ShallowEq(ConversionExpr expr1, ConversionExpr expr2) {
return expr1.Type == expr2.Type; //TODO equality on types?
}
private static bool ShallowEq(UnaryOpExpr expr1, UnaryOpExpr expr2) {
return expr1.Op == expr2.Op;
}
private static bool ShallowEq(UnaryExpr expr1, UnaryExpr expr2) {
if (expr1 is ConversionExpr && expr2 is ConversionExpr) {
return ShallowEq((ConversionExpr)expr1, (ConversionExpr)expr2);
} else if (expr1 is UnaryOpExpr && expr2 is UnaryOpExpr) {
return ShallowEq((UnaryOpExpr)expr1, (UnaryOpExpr)expr2);
} else {
return false; // UnaryExpr is abstract
}
}
private static bool ShallowEq(MultiSetFormingExpr expr1, MultiSetFormingExpr expr2) {
return true;
}
private static bool ShallowEq(OldExpr expr1, OldExpr expr2) {
return true;
}
private static bool ShallowEq(FunctionCallExpr expr1, FunctionCallExpr expr2) {
return expr1.Name == expr2.Name &&
expr1.CoCall == expr2.CoCall && //TODO
expr1.Function == expr2.Function; // TODO TypeArgumentSubstitutions?
}
private static bool ShallowEq(ApplyExpr expr1, ApplyExpr expr2) {
return true;
}
private static bool ShallowEq(SeqUpdateExpr expr1, SeqUpdateExpr expr2) {
Contract.Requires(expr1.ResolvedUpdateExpr != null && expr2.ResolvedUpdateExpr != null);
return true;
}
private static bool ShallowEq(MultiSelectExpr expr1, MultiSelectExpr expr2) {
return true;
}
private static bool ShallowEq(SeqSelectExpr expr1, SeqSelectExpr expr2) {
return expr1.SelectOne == expr2.SelectOne &&
TriggerUtils.SameNullity(expr1.Seq, expr2.Seq) &&
TriggerUtils.SameNullity(expr1.E0, expr2.E0) &&
TriggerUtils.SameNullity(expr1.E1, expr2.E1);
}
private static bool ShallowEq(MemberSelectExpr expr1, MemberSelectExpr expr2) {
return expr1.MemberName == expr2.MemberName &&
expr1.Member == expr2.Member &&
TriggerUtils.SameLists(expr1.TypeApplication, expr2.TypeApplication, Microsoft.Dafny.Type.Equals);
}
private static bool ShallowEq(SeqDisplayExpr expr1, SeqDisplayExpr expr2) {
return true;
}
private static bool ShallowEq(MapDisplayExpr expr1, MapDisplayExpr expr2) {
return expr1.Finite == expr2.Finite;
}
private static bool ShallowEq(MultiSetDisplayExpr expr1, MultiSetDisplayExpr expr2) {
return true;
}
private static bool ShallowEq(SetDisplayExpr expr1, SetDisplayExpr expr2) {
return expr1.Finite == expr2.Finite;
}
private static bool ShallowEq(DisplayExpression expr1, DisplayExpression expr2) {
if (expr1 is SeqDisplayExpr && expr2 is SeqDisplayExpr) {
return ShallowEq((SeqDisplayExpr)expr1, (SeqDisplayExpr)expr2);
} else if (expr1 is MultiSetDisplayExpr && expr2 is MultiSetDisplayExpr) {
return ShallowEq((MultiSetDisplayExpr)expr1, (MultiSetDisplayExpr)expr2);
} else if (expr1 is SetDisplayExpr && expr2 is SetDisplayExpr) {
return ShallowEq((SetDisplayExpr)expr1, (SetDisplayExpr)expr2);
} else {
return false;
}
}
private static bool ShallowEq(AutoGhostIdentifierExpr expr1, AutoGhostIdentifierExpr expr2) {
return true;
}
private static bool ShallowEq(IdentifierExpr expr1, IdentifierExpr expr2) {
if (expr1.Name != expr2.Name ||
expr1.Var != expr2.Var) {
return false;
}
if (expr1 is AutoGhostIdentifierExpr && expr2 is AutoGhostIdentifierExpr) {
return ShallowEq((AutoGhostIdentifierExpr)expr1, (AutoGhostIdentifierExpr)expr2);
} else {
return true;
}
}
private static bool ShallowEq(ImplicitThisExpr expr1, ImplicitThisExpr expr2) {
return true;
}
private static bool ShallowEq(ThisExpr expr1, ThisExpr expr2) {
if (expr1 is ImplicitThisExpr && expr2 is ImplicitThisExpr) {
return ShallowEq((ImplicitThisExpr)expr1, (ImplicitThisExpr)expr2);
} else {
return (expr1.GetType() == expr2.GetType()); // LiteralExpr is not abstract
}
}
private static bool ShallowEq(DatatypeValue expr1, DatatypeValue expr2) {
return // Implied by Ctor equality: expr1.DatatypeName == expr2.DatatypeName &&
// Implied by Ctor equality: expr1.MemberName == expr2.MemberName &&
expr1.Ctor == expr2.Ctor &&
// Contextual information: expr1.IsCoCall == expr2.IsCoCall &&
TriggerUtils.SameLists(expr1.InferredTypeArgs, expr2.InferredTypeArgs, Microsoft.Dafny.Type.Equals);
}
private static bool ShallowEq(StringLiteralExpr expr1, StringLiteralExpr expr2) {
return true;
}
private static bool ShallowEq(CharLiteralExpr expr1, CharLiteralExpr expr2) {
return true;
}
private static bool ShallowEq(StaticReceiverExpr expr1, StaticReceiverExpr expr2) {
return true;
}
private static bool ShallowEq(LiteralExpr expr1, LiteralExpr expr2) {
if (!TriggerUtils.SameNullity(expr1.Value, expr2.Value) || (expr1.Value != null && !expr1.Value.Equals(expr2.Value))) {
return false;
}
if (expr1 is StringLiteralExpr && expr2 is StringLiteralExpr) {
return ShallowEq((StringLiteralExpr)expr1, (StringLiteralExpr)expr2);
} else if (expr1 is CharLiteralExpr && expr2 is CharLiteralExpr) {
return ShallowEq((CharLiteralExpr)expr1, (CharLiteralExpr)expr2);
} else if (expr1 is StaticReceiverExpr && expr2 is StaticReceiverExpr) {
return ShallowEq((StaticReceiverExpr)expr1, (StaticReceiverExpr)expr2);
} else {
return (expr1.GetType() == expr2.GetType()); // LiteralExpr is not abstract
}
}
}
}
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