示例#1
0
 /// <summary>
 /// when current and other use spans are regular spans we can have only 2 conflict cases:
 /// [1, 3) conflicts with [0, 2)
 /// [1, 3) conflicts with [2, 4)
 /// specifically:
 /// [1, 3) does not conflict with [0, 1)
 /// 
 /// NOTE: with regular spans, it is not possible 
 /// to have start1 == start2 or end1 == end 
 /// since at the same node we can access only one real local.
 /// 
 /// However at the same node we can access one or more dummy locals.
 /// So we can have start1 == start2 and end1 == end2 scenarios, but only if 
 /// other span is a span of a dummy.
 /// 
 /// In such cases we consider 
 ///    start2 == span1.start ==> start2 IS included in span1
 ///    end2 == span1.end ==> end2 IS NOT included in span1
 /// </summary>
 public bool ConflictsWith(LocalDefUseSpan other)
 {
     var containsStart = other.ContainsStart(this.start);
     var containsEnd = other.ContainsEnd(this.end);
     return containsStart ^ containsEnd;
 }
示例#2
0
        private void RecordVarWrite(LocalSymbol local)
        {
            if (!CanScheduleToStack(local))
            {
                return;
            }

            var locInfo = _locals[local];
            if (locInfo.CannotSchedule)
            {
                return;
            }

            // if accessing real val, check stack
            if (local.SynthesizedKind != SynthesizedLocalKind.OptimizerTemp)
            {
                // -1 because real assignment "consumes, assigns, and then pushes back" the value.
                var evalStack = StackDepth() - 1;

                if (locInfo.stackAtDeclaration != evalStack)
                {
                    //writing at different eval stack.
                    locInfo.ShouldNotSchedule();
                    return;
                }
            }
            else
            {
                // dummy must be accessed on same stack.
                Debug.Assert(local == empty || locInfo.stackAtDeclaration == StackDepth());
            }

            var locDef = new LocalDefUseSpan(_counter);
            locInfo.LocalDefs.Add(locDef);
        }
示例#3
0
        private void RecordVarRead(LocalSymbol local)
        {
            if (!CanScheduleToStack(local))
            {
                return;
            }

            var locInfo = _locals[local];

            if (locInfo.CannotSchedule)
            {
                return;
            }

            if (locInfo.LocalDefs.Count == 0)
            {
                //reading before writing.
                locInfo.ShouldNotSchedule();
                return;
            }

            // if accessing real val, check stack
            if (local.SynthesizedKind != SynthesizedLocalKind.OptimizerTemp)
            {
                if (locInfo.stackAtDeclaration != StackDepth() &&
                    !EvalStackHasLocal(local))
                {
                    //reading at different eval stack.
                    locInfo.ShouldNotSchedule();
                    return;
                }
            }
            else
            {
                // dummy must be accessed on same stack.
                Debug.Assert(local == empty || locInfo.stackAtDeclaration == StackDepth());
            }

            var definedAt = locInfo.LocalDefs.Last();
            definedAt.end = _counter;

            var locDef = new LocalDefUseSpan(_counter);
            locInfo.LocalDefs.Add(locDef);
        }
示例#4
0
 /// <summary>
 /// Dummy locals represent implicit control flow
 /// It is not allowed for a regular local span to cross into or 
 /// be immediately adjacent to a dummy span.
 /// 
 /// specifically:
 /// [1, 3) does conflict with [0, 1)   since that would imply a value flowing into or out of a span surrounded by a branch/label
 /// 
 /// </summary>
 public bool ConflictsWithDummy(LocalDefUseSpan dummy)
 {
     return Includes(dummy.Start) ^ Includes(dummy.End);
 }
示例#5
0
 /// <summary>
 /// when current and other use spans are regular spans we can have only 2 conflict cases:
 /// [1, 3) conflicts with [0, 2)
 /// [1, 3) conflicts with [2, 4)
 /// 
 /// NOTE: with regular spans, it is not possible for two spans to share an edge point 
 /// unless they belong to the same local. (because we cannot aceess two real locals at the same time)
 /// 
 /// specifically:
 /// [1, 3) does not conflict with [0, 1)   since such spans would need to belong to the same local
 /// </summary>
 public bool ConflictsWith(LocalDefUseSpan other)
 {
     return Contains(other.Start) ^ Contains(other.End);
 }
示例#6
0
        private void RecordDummyWrite(LocalSymbol local)
        {
            Debug.Assert(local.SynthesizedKind == SynthesizedLocalKind.OptimizerTemp);

            var locInfo = _locals[local];

            // dummy must be accessed on same stack.
            Debug.Assert(local == empty || locInfo.StackAtDeclaration == StackDepth());

            var locDef = new LocalDefUseSpan(_counter);
            locInfo.LocalDefs.Add(locDef);
        }