#include "ksia64.h" //++ // // VOID // KiEmulateLoadFloat80( // IN PVOID UnalignedAddress, // OUT PVOID FloatData // ); // //-- LEAF_ENTRY(KiEmulateLoadFloat80) ARGPTR(a0) ARGPTR(a1) ldfe ft0 = [a0] ;; stf.spill [a1] = ft0 LEAF_RETURN LEAF_EXIT(KiEmulateLoadFloat80) //++ // // VOID // KiEmulateLoadFloatInt( // IN PVOID UnalignedAddress, // OUT PVOID FloatData // ); // //-- LEAF_ENTRY(KiEmulateLoadFloatInt) ARGPTR(a0) ARGPTR(a1) ldf8 ft0 = [a0] ;; stf.spill [a1] = ft0 LEAF_RETURN LEAF_EXIT(KiEmulateLoadFloatInt) //++ // // VOID // KiEmulateLoadFloat32( // IN PVOID UnalignedAddress, // OUT PVOID FloatData // ); // //-- LEAF_ENTRY(KiEmulateLoadFloat32) ARGPTR(a0) ARGPTR(a1) ldfs ft0 = [a0] ;; stf.spill [a1] = ft0 LEAF_RETURN LEAF_EXIT(KiEmulateLoadFloat32) //++ // // VOID // KiEmulateLoadFloat64( // IN PVOID UnalignedAddress, // OUT PVOID FloatData // ); // //-- LEAF_ENTRY(KiEmulateLoadFloat64) ARGPTR(a0) ARGPTR(a1) ldfd ft0 = [a0] ;; stf.spill [a1] = ft0 LEAF_RETURN LEAF_EXIT(KiEmulateLoadFloat64) //++ // // VOID // KiEmulateStoreFloat80( // IN PVOID UnalignedAddress, // OUT PVOID FloatData // ); // //-- LEAF_ENTRY(KiEmulateStoreFloat80) ARGPTR(a0) ARGPTR(a1) ldf.fill ft0 = [a1] ;; stfe [a0] = ft0 LEAF_RETURN LEAF_EXIT(KiEmulateStoreFloat80) //++ // // VOID // KiEmulateStoreFloatInt( // IN PVOID UnalignedAddress, // OUT PVOID FloatData // ); // //-- LEAF_ENTRY(KiEmulateStoreFloatInt) ARGPTR(a0) ARGPTR(a1) ldf.fill ft0 = [a1] ;; stf8 [a0] = ft0 LEAF_RETURN LEAF_EXIT(KiEmulateStoreFloatInt) //++ // // VOID // KiEmulateStoreFloat32( // IN PVOID UnalignedAddress, // OUT PVOID FloatData // ); // //-- LEAF_ENTRY(KiEmulateStoreFloat32) ARGPTR(a0) ARGPTR(a1) ldf.fill ft0 = [a1] ;; stfs [a0] = ft0 LEAF_RETURN LEAF_EXIT(KiEmulateStoreFloat32) //++ // // VOID // KiEmulateStoreFloat64( // IN PVOID UnalignedAddress, // OUT PVOID FloatData // ); // //-- LEAF_ENTRY(KiEmulateStoreFloat64) ARGPTR(a0) ARGPTR(a1) ldf.fill ft0 = [a1] ;; stfd [a0] = ft0 LEAF_RETURN LEAF_EXIT(KiEmulateStoreFloat64)