// Copyright (c) 2017 Siegfried Pammer // // Permission is hereby granted, free of charge, to any person obtaining a copy of this // software and associated documentation files (the "Software"), to deal in the Software // without restriction, including without limitation the rights to use, copy, modify, merge, // publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons // to whom the Software is furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in all copies or // substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, // INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR // PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE // FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR // OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER // DEALINGS IN THE SOFTWARE. using System; using System.Collections.Generic; using System.Linq; using System.Text; using System.Threading.Tasks; using ICSharpCode.Decompiler.TypeSystem; namespace ICSharpCode.Decompiler.IL.Transforms { /// /// Transform for constructing the NullCoalescingInstruction (if.notnull(a,b), or in C#: ??) /// Note that this transform only handles the case where a,b are reference types. /// /// The ?? operator for nullable value types is handled by NullableLiftingTransform. /// public class NullCoalescingTransform : IStatementTransform { public void Run(Block block, int pos, StatementTransformContext context) { if (TransformRefTypes(block, pos, context)) return; if (TransformHoistedConstructorArgumentNullGuard(block, pos, context)) return; TransformThrowExpressionValueTypes(block, pos, context); } /// /// Handles NullCoalescingInstruction case 1: reference types. /// bool TransformRefTypes(Block block, int pos, StatementTransformContext context) { if (!(block.Instructions[pos] is StLoc stloc)) return false; if (stloc.Variable.Kind != VariableKind.StackSlot) return false; if (!block.Instructions[pos + 1].MatchIfInstruction(out var condition, out var trueInst)) return false; if (!(condition.MatchCompEquals(out var left, out var right) && left.MatchLdLoc(stloc.Variable) && right.MatchLdNull())) return false; trueInst = Block.Unwrap(trueInst); // stloc s(valueInst) // if (comp(ldloc s == ldnull)) { // stloc s(fallbackInst) // } // => // stloc s(if.notnull(valueInst, fallbackInst)) if (trueInst.MatchStLoc(stloc.Variable, out var fallbackValue)) { context.Step("NullCoalescingTransform: simple (reference types)", stloc); stloc.Value = new NullCoalescingInstruction(NullCoalescingKind.Ref, stloc.Value, fallbackValue); block.Instructions.RemoveAt(pos + 1); // remove if instruction ILInlining.InlineOneIfPossible(block, pos, InliningOptions.None, context); return true; } // sometimes the compiler generates: // stloc s(valueInst) // if (comp(ldloc s == ldnull)) { // stloc v(fallbackInst) // stloc s(ldloc v) // } // v must be single-assign and single-use. if (trueInst is Block trueBlock && trueBlock.Instructions.Count == 2 && trueBlock.Instructions[0].MatchStLoc(out var temporary, out fallbackValue) && temporary.IsSingleDefinition && temporary.LoadCount == 1 && trueBlock.Instructions[1].MatchStLoc(stloc.Variable, out var useOfTemporary) && useOfTemporary.MatchLdLoc(temporary)) { context.Step("NullCoalescingTransform: with temporary variable (reference types)", stloc); stloc.Value = new NullCoalescingInstruction(NullCoalescingKind.Ref, stloc.Value, fallbackValue); block.Instructions.RemoveAt(pos + 1); // remove if instruction ILInlining.InlineOneIfPossible(block, pos, InliningOptions.None, context); return true; } // stloc obj(valueInst) // if (comp(ldloc obj == ldnull)) { // throw(...) // } // => // stloc obj(if.notnull(valueInst, throw(...))) if (context.Settings.ThrowExpressions && trueInst is Throw throwInst) { context.Step("NullCoalescingTransform (reference types + throw expression)", stloc); throwInst.resultType = StackType.O; stloc.Value = new NullCoalescingInstruction(NullCoalescingKind.Ref, stloc.Value, throwInst); block.Instructions.RemoveAt(pos + 1); // remove if instruction ILInlining.InlineOneIfPossible(block, pos, InliningOptions.None, context); return true; } return false; } /// /// When an argument of a chained constructor call contains a throwing null-check /// (e.g. arg ?? throw ...) and arg is evaluated more than once, the C# /// compiler hoists the null-check in front of the chained call: /// /// if (comp.o(ldloc param == ldnull)) throw(...) /// call Base..ctor(..., ldlen(ldloc param), ..., ldloc param, ...) /// /// The guard then blocks TransformFieldAndConstructorInitializers from lifting the chained /// call into a : this(...) / : base(...) clause. Replace the guard with /// /// stloc temp(if.notnull(ldloc param, throw(...))) /// /// redirecting the first following use of the parameter (the position the check was hoisted /// from) to temp, and leave moving the coalescing expression into the chained call to /// ILInlining, which does so only when that preserves the order of evaluation. /// Only reference-type chains (base/this..ctor calls, identified by IL offset via /// ) need this: value types chain via /// this = new TSelf(...), which is an ordinary body statement, so a preceding /// guard statement is legal C# and can stay. /// bool TransformHoistedConstructorArgumentNullGuard(Block block, int pos, StatementTransformContext context) { // A throw-expression is the only way to express the folded form. if (!context.Settings.ThrowExpressions) return false; var function = block.Ancestors.OfType().FirstOrDefault(); if (function?.Method is not { IsConstructor: true, IsStatic: false }) return false; // Match `if (comp(ldloc param == ldnull)) throw(...)` with no else branch. var guard = block.Instructions[pos]; if (!IsArgumentNullGuard(guard, out var paramLoad, out var throwInst)) return false; // Only a guard sitting in the initializer's argument evaluation, i.e. before the // chained constructor call, is necessarily compiler-hoisted. if (!ILInlining.IsInConstructorInitializer(function, guard)) return false; // The compiler hoists the guard directly in front of the statement containing the // parameter use it was lifted out of, so that use must be order-safely reachable // within the immediately following statement. var paramLoadParent = paramLoad.Parent; var paramLoadChildIndex = paramLoad.ChildIndex; var throwInstParent = throwInst.Parent; var throwInstChildIndex = throwInst.ChildIndex; var expressionWithThrow = new NullCoalescingInstruction(NullCoalescingKind.Ref, paramLoad, throwInst); var result = ILInlining.FindLoadInNext(block.Instructions[pos + 1], paramLoad.Variable, expressionWithThrow, InliningOptions.None); if (result.Type != ILInlining.FindResultType.Found || result.LoadInst is not LdLoc firstUse) { // reset the primary positions (see remarks on ILInstruction.Parent) var paramLoadSiblings = paramLoadParent.Children; paramLoadSiblings[paramLoadChildIndex] = paramLoad; var throwInstSiblings = throwInstParent.Children; throwInstSiblings[throwInstChildIndex] = throwInst; return false; } context.Step($"NullCoalescingTransform: fold hoisted null-guard of '{paramLoad.Variable.Name}' into argument of chained constructor call", guard); var temp = function.RegisterVariable(VariableKind.StackSlot, paramLoad.Variable.Type); firstUse.Variable = temp; throwInst.resultType = StackType.O; var stloc = new StLoc(temp, expressionWithThrow); stloc.AddILRange(guard); block.Instructions[pos] = stloc; context.EndStep(stloc); ILInlining.InlineOneIfPossible(block, pos, InliningOptions.None, context); return true; } /// /// Matches a hoisted argument null-guard `if (comp(ldloc param == ldnull)) throw(...)` /// (no else branch). Only parameters qualify: nothing else is in scope before the /// constructor initializer. /// static bool IsArgumentNullGuard(ILInstruction inst, out LdLoc paramLoad, out Throw throwInst) { paramLoad = null; throwInst = null; if (!inst.MatchIfInstruction(out var condition, out var trueInst)) return false; if (!(Block.Unwrap(trueInst) is Throw t)) return false; if (!(condition.MatchCompEquals(out var left, out var right) && right.MatchLdNull() && left is LdLoc load)) return false; if (load.Variable.Kind != VariableKind.Parameter) return false; paramLoad = load; throwInst = t; return true; } /// /// stloc v(value) /// if (logic.not(call get_HasValue(ldloca v))) throw(...) /// ... Call(arg1, arg2, call GetValueOrDefault(ldloca v), arg4) ... /// => /// ... Call(arg1, arg2, if.notnull(value, throw(...)), arg4) ... /// bool TransformThrowExpressionValueTypes(Block block, int pos, StatementTransformContext context) { if (pos + 2 >= block.Instructions.Count) return false; if (!(block.Instructions[pos] is StLoc stloc)) return false; ILVariable v = stloc.Variable; if (!(v.StoreCount == 1 && v.LoadCount == 0 && v.AddressCount == 2)) return false; if (!block.Instructions[pos + 1].MatchIfInstruction(out var condition, out var trueInst)) return false; if (!(Block.Unwrap(trueInst) is Throw throwInst)) return false; if (!condition.MatchLogicNot(out var arg)) return false; if (!(arg is CallInstruction call && NullableLiftingTransform.MatchHasValueCall(call, v))) return false; var throwInstParent = throwInst.Parent; var throwInstChildIndex = throwInst.ChildIndex; var nullCoalescingWithThrow = new NullCoalescingInstruction( NullCoalescingKind.NullableWithValueFallback, stloc.Value, throwInst); var resultType = NullableType.GetUnderlyingType(call.Method.DeclaringType).GetStackType(); nullCoalescingWithThrow.UnderlyingResultType = resultType; var result = ILInlining.FindLoadInNext(block.Instructions[pos + 2], v, nullCoalescingWithThrow, InliningOptions.None); if (result.Type == ILInlining.FindResultType.Found && NullableLiftingTransform.MatchGetValueOrDefault(result.LoadInst.Parent, v)) { context.Step("NullCoalescingTransform (value types + throw expression)", stloc); throwInst.resultType = resultType; result.LoadInst.Parent.ReplaceWith(nullCoalescingWithThrow); block.Instructions.RemoveRange(pos, 2); // remove store(s) and if instruction return true; } else { // reset the primary position (see remarks on ILInstruction.Parent) stloc.Value = stloc.Value; var children = throwInstParent.Children; children[throwInstChildIndex] = throwInst; return false; } } } }