mirror of https://github.com/PCSX2/pcsx2.git
x86emitter: xAddressReg size will depend on the arch
Note: displacement are never 8B. The max is 4B which is sign extended to 8B. So we can't store a pointer into it anymore. Add xRegisterLong that will be x64 on 64 bits and x32 on 32 bits
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@ -421,20 +421,28 @@ template< typename T > void xWrite( T val );
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// --------------------------------------------------------------------------------------
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// --------------------------------------------------------------------------------------
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// xAddressReg
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// xAddressReg
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// --------------------------------------------------------------------------------------
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// --------------------------------------------------------------------------------------
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// Use 32 bit registers as our index registers (for ModSib-style memory address calculations).
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// Use 32/64 bit registers as our index registers (for ModSib-style memory address calculations).
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// This type is implicitly exchangeable with xRegister32.
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// This type is implicitly exchangeable with xRegister32/64.
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//
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//
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// Only xAddressReg provides operators for constructing xAddressInfo types. These operators
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// Only xAddressReg provides operators for constructing xAddressInfo types. These operators
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// could have been added to xRegister32 directly instead, however I think this design makes
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// could have been added to xRegister32/64 directly instead, however I think this design makes
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// more sense and allows the programmer a little more type protection if needed.
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// more sense and allows the programmer a little more type protection if needed.
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//
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//
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class xAddressReg : public xRegister32
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#ifdef __x86_64__
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#define xRegisterLong xRegister64
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#else
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#define xRegisterLong xRegister32
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#endif
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class xAddressReg : public xRegisterLong
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{
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{
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public:
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public:
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xAddressReg(): xRegister32() {}
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xAddressReg(): xRegisterLong() {}
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xAddressReg( const xAddressReg& src ) : xRegister32( src.Id ) {}
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xAddressReg( const xAddressReg& src ) : xRegisterLong( src.Id ) {}
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xAddressReg( const xRegister32& src ) : xRegister32( src ) {}
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xAddressReg( const xRegister32& src ) : xRegisterLong( src.Id ) {}
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explicit xAddressReg( int regId ) : xRegister32( regId ) {}
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xAddressReg( const xRegister64& src ) : xRegisterLong( src.Id ) {}
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explicit xAddressReg( int regId ) : xRegisterLong( regId ) {}
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// Returns true if the register is the stack pointer: ESP.
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// Returns true if the register is the stack pointer: ESP.
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bool IsStackPointer() const { return Id == 4; }
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bool IsStackPointer() const { return Id == 4; }
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@ -444,14 +452,9 @@ template< typename T > void xWrite( T val );
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xAddressVoid operator+( const void* right ) const;
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xAddressVoid operator+( const void* right ) const;
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xAddressVoid operator-( s32 right ) const;
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xAddressVoid operator-( s32 right ) const;
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xAddressVoid operator-( const void* right ) const;
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xAddressVoid operator-( const void* right ) const;
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xAddressVoid operator*( u32 factor ) const;
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xAddressVoid operator*( int factor ) const;
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xAddressVoid operator<<( u32 shift ) const;
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xAddressVoid operator<<( u32 shift ) const;
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/*xAddressReg& operator=( const xRegister32& src )
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{
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Id = src.Id;
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return *this;
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}*/
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};
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};
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// --------------------------------------------------------------------------------------
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// --------------------------------------------------------------------------------------
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@ -471,7 +471,7 @@ xAddressVoid xAddressReg::operator-( const void* right ) const
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return xAddressVoid( *this, -(sptr)right );
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return xAddressVoid( *this, -(sptr)right );
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}
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}
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xAddressVoid xAddressReg::operator*( u32 factor ) const
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xAddressVoid xAddressReg::operator*( int factor ) const
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{
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{
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pxAssertMsg( Id != -1, "Uninitialized x86 register." );
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pxAssertMsg( Id != -1, "Uninitialized x86 register." );
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return xAddressVoid( xEmptyReg, *this, factor );
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return xAddressVoid( xEmptyReg, *this, factor );
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@ -499,7 +499,7 @@ xAddressVoid::xAddressVoid( const xAddressReg& base, const xAddressReg& index, i
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pxAssertMsg( index.Id != xRegId_Invalid, "Uninitialized x86 register." );
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pxAssertMsg( index.Id != xRegId_Invalid, "Uninitialized x86 register." );
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}
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}
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xAddressVoid::xAddressVoid( const xAddressReg& index, int displacement )
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xAddressVoid::xAddressVoid( const xAddressReg& index, s32 displacement )
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{
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{
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Base = xEmptyReg;
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Base = xEmptyReg;
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Index = index;
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Index = index;
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@ -522,7 +522,12 @@ xAddressVoid::xAddressVoid( const void* displacement )
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Base = xEmptyReg;
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Base = xEmptyReg;
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Index = xEmptyReg;
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Index = xEmptyReg;
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Factor = 0;
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Factor = 0;
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Displacement = (sptr)displacement;
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#ifdef __x86_64__
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pxAssert(0);
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//Displacement = (s32)displacement;
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#else
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Displacement = (s32)displacement;
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#endif
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}
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}
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xAddressVoid& xAddressVoid::Add( const xAddressReg& src )
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xAddressVoid& xAddressVoid::Add( const xAddressReg& src )
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