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.NET Decompiler with support for PDB generation, ReadyToRun, Metadata (&more) - cross-platform!
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ILSpy/ICSharpCode.Decompiler/IL/PointerArithmeticOffset.cs

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using System;
using System.Collections.Generic;
using System.Text;
using ICSharpCode.Decompiler.TypeSystem;
namespace ICSharpCode.Decompiler.IL
{
/// <summary>
/// Analyses the RHS of a 'ptr + int' or 'ptr - int' operation.
/// </summary>
struct PointerArithmeticOffset
{
/// <summary>
/// Given an instruction that computes a pointer arithmetic offset in bytes,
/// returns an instruction that computes the same offset in number of elements.
///
/// Returns null if no such instruction can be found.
/// </summary>
/// <param name="byteOffsetInst">Input instruction.</param>
/// <param name="pointerElementType">The target type of the pointer type.</param>
/// <param name="checkForOverflow">Whether the pointer arithmetic operation checks for overflow.</param>
/// <param name="unwrapZeroExtension">Whether to allow zero extensions in the mul argument.</param>
public static ILInstruction Detect(ILInstruction byteOffsetInst, IType pointerElementType,
bool checkForOverflow,
bool unwrapZeroExtension = false)
{
if (byteOffsetInst is Conv conv && conv.InputType == StackType.I8 && conv.ResultType == StackType.I) {
byteOffsetInst = conv.Argument;
}
int? elementSize = ComputeSizeOf(pointerElementType);
if (elementSize == 1) {
return byteOffsetInst;
} else if (byteOffsetInst is BinaryNumericInstruction mul && mul.Operator == BinaryNumericOperator.Mul) {
if (mul.IsLifted)
return null;
if (mul.CheckForOverflow != checkForOverflow)
return null;
if (elementSize > 0 && mul.Right.MatchLdcI(elementSize.Value)
|| mul.Right.UnwrapConv(ConversionKind.SignExtend) is SizeOf sizeOf && sizeOf.Type.Equals(pointerElementType)) {
var countOffsetInst = mul.Left;
if (unwrapZeroExtension) {
countOffsetInst = countOffsetInst.UnwrapConv(ConversionKind.ZeroExtend);
}
return countOffsetInst;
}
} else if (byteOffsetInst.UnwrapConv(ConversionKind.SignExtend) is SizeOf sizeOf && sizeOf.Type.Equals(pointerElementType)) {
return new LdcI4(1).WithILRange(byteOffsetInst);
} else if (byteOffsetInst.MatchLdcI(out long val)) {
// If the offset is a constant, it's possible that the compiler
// constant-folded the multiplication.
if (elementSize > 0 && (val % elementSize == 0) && val > 0) {
val /= elementSize.Value;
if (val <= int.MaxValue) {
return new LdcI4((int)val).WithILRange(byteOffsetInst);
}
}
}
return null;
}
public static int? ComputeSizeOf(IType type)
{
switch (type.GetEnumUnderlyingType().GetDefinition()?.KnownTypeCode) {
case KnownTypeCode.Boolean:
case KnownTypeCode.SByte:
case KnownTypeCode.Byte:
return 1;
case KnownTypeCode.Char:
case KnownTypeCode.Int16:
case KnownTypeCode.UInt16:
return 2;
case KnownTypeCode.Int32:
case KnownTypeCode.UInt32:
case KnownTypeCode.Single:
return 4;
case KnownTypeCode.Int64:
case KnownTypeCode.UInt64:
case KnownTypeCode.Double:
return 8;
}
return null;
}
}
}