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c9b2399cd0
# Conflicts: # source/CMakeLists.txt # source/common/utility/basics.h # source/core/serializer.h
483 lines
9.9 KiB
C++
483 lines
9.9 KiB
C++
#pragma once
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#include "vm.h"
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#include <csetjmp>
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class VMScriptFunction;
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#ifdef __BIG_ENDIAN__
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#define VM_DEFINE_OP2(TYPE, ARG1, ARG2) TYPE ARG2, ARG1
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#define VM_DEFINE_OP4(TYPE, ARG1, ARG2, ARG3, ARG4) TYPE ARG4, ARG3, ARG2, ARG1
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#else // little endian
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#define VM_DEFINE_OP2(TYPE, ARG1, ARG2) TYPE ARG1, ARG2
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#define VM_DEFINE_OP4(TYPE, ARG1, ARG2, ARG3, ARG4) TYPE ARG1, ARG2, ARG3, ARG4
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#endif // __BIG_ENDIAN__
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union VMOP
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{
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struct
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{
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VM_DEFINE_OP4(VM_UBYTE, op, a, b, c);
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};
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struct
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{
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VM_DEFINE_OP4(VM_SBYTE, pad0, as, bs, cs);
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};
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struct
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{
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VM_DEFINE_OP2(VM_SWORD, pad1:8, i24:24);
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};
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struct
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{
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VM_DEFINE_OP2(VM_SWORD, pad2:16, i16:16);
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};
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struct
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{
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VM_DEFINE_OP2(VM_UHALF, pad3, i16u);
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};
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VM_UWORD word;
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// Interesting fact: VC++ produces better code for i16 when it's defined
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// as a bitfield than when it's defined as two discrete units.
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// Compare:
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// mov eax,dword ptr [op] ; As two discrete units
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// shr eax,10h
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// movsx eax,ax
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// versus:
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// mov eax,dword ptr [op] ; As a bitfield
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// sar eax,10h
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};
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#undef VM_DEFINE_OP4
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#undef VM_DEFINE_OP2
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enum
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{
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#include "vmops.h"
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NUM_OPS
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};
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// Flags for A field of CMPS
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enum
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{
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CMP_CHECK = 1,
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CMP_EQ = 0,
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CMP_LT = 2,
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CMP_LE = 4,
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CMP_METHOD_MASK = 6,
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CMP_BK = 8,
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CMP_CK = 16,
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CMP_APPROX = 32,
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};
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// Floating point operations for FLOP
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enum
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{
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FLOP_ABS,
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FLOP_NEG,
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FLOP_EXP,
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FLOP_LOG,
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FLOP_LOG10,
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FLOP_SQRT,
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FLOP_CEIL,
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FLOP_FLOOR,
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FLOP_ACOS, // This group works with radians
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FLOP_ASIN,
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FLOP_ATAN,
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FLOP_COS,
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FLOP_SIN,
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FLOP_TAN,
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FLOP_ACOS_DEG, // This group works with degrees
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FLOP_ASIN_DEG,
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FLOP_ATAN_DEG,
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FLOP_COS_DEG,
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FLOP_SIN_DEG,
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FLOP_TAN_DEG,
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FLOP_COSH,
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FLOP_SINH,
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FLOP_TANH,
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FLOP_ROUND,
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};
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// Cast operations
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enum
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{
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CAST_I2F,
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CAST_I2S,
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CAST_U2F,
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CAST_U2S,
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CAST_F2I,
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CAST_F2U,
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CAST_F2S,
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CAST_P2S,
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CAST_S2I,
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CAST_S2F,
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CAST_S2N,
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CAST_N2S,
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CAST_S2Co,
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CAST_S2So,
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CAST_Co2S,
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CAST_So2S,
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CAST_V22S,
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CAST_V32S,
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CAST_SID2S,
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CAST_TID2S,
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CASTB_I,
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CASTB_F,
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CASTB_A,
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CASTB_S
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};
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enum EVMOpMode
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{
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MODE_ASHIFT = 0,
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MODE_BSHIFT = 4,
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MODE_CSHIFT = 8,
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MODE_BCSHIFT = 12,
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MODE_ATYPE = 15 << MODE_ASHIFT,
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MODE_BTYPE = 15 << MODE_BSHIFT,
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MODE_CTYPE = 15 << MODE_CSHIFT,
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MODE_BCTYPE = 31 << MODE_BCSHIFT,
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MODE_I = 0,
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MODE_F,
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MODE_S,
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MODE_P,
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MODE_V,
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MODE_X,
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MODE_KI,
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MODE_KF,
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MODE_KS,
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MODE_KP,
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MODE_KV,
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MODE_UNUSED,
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MODE_IMMS,
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MODE_IMMZ,
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MODE_JOINT,
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MODE_CMP,
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MODE_PARAM,
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MODE_PARAM24,
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MODE_THROW,
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MODE_CATCH,
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MODE_CAST,
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MODE_AI = MODE_I << MODE_ASHIFT,
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MODE_AF = MODE_F << MODE_ASHIFT,
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MODE_AS = MODE_S << MODE_ASHIFT,
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MODE_AP = MODE_P << MODE_ASHIFT,
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MODE_AV = MODE_V << MODE_ASHIFT,
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MODE_AX = MODE_X << MODE_ASHIFT,
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MODE_AKP = MODE_KP << MODE_ASHIFT,
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MODE_AUNUSED = MODE_UNUSED << MODE_ASHIFT,
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MODE_AIMMS = MODE_IMMS << MODE_ASHIFT,
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MODE_AIMMZ = MODE_IMMZ << MODE_ASHIFT,
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MODE_ACMP = MODE_CMP << MODE_ASHIFT,
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MODE_BI = MODE_I << MODE_BSHIFT,
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MODE_BF = MODE_F << MODE_BSHIFT,
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MODE_BS = MODE_S << MODE_BSHIFT,
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MODE_BP = MODE_P << MODE_BSHIFT,
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MODE_BV = MODE_V << MODE_BSHIFT,
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MODE_BX = MODE_X << MODE_BSHIFT,
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MODE_BKI = MODE_KI << MODE_BSHIFT,
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MODE_BKF = MODE_KF << MODE_BSHIFT,
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MODE_BKS = MODE_KS << MODE_BSHIFT,
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MODE_BKP = MODE_KP << MODE_BSHIFT,
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MODE_BKV = MODE_KV << MODE_BSHIFT,
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MODE_BUNUSED = MODE_UNUSED << MODE_BSHIFT,
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MODE_BIMMS = MODE_IMMS << MODE_BSHIFT,
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MODE_BIMMZ = MODE_IMMZ << MODE_BSHIFT,
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MODE_CI = MODE_I << MODE_CSHIFT,
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MODE_CF = MODE_F << MODE_CSHIFT,
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MODE_CS = MODE_S << MODE_CSHIFT,
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MODE_CP = MODE_P << MODE_CSHIFT,
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MODE_CV = MODE_V << MODE_CSHIFT,
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MODE_CX = MODE_X << MODE_CSHIFT,
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MODE_CKI = MODE_KI << MODE_CSHIFT,
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MODE_CKF = MODE_KF << MODE_CSHIFT,
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MODE_CKS = MODE_KS << MODE_CSHIFT,
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MODE_CKP = MODE_KP << MODE_CSHIFT,
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MODE_CKV = MODE_KV << MODE_CSHIFT,
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MODE_CUNUSED = MODE_UNUSED << MODE_CSHIFT,
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MODE_CIMMS = MODE_IMMS << MODE_CSHIFT,
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MODE_CIMMZ = MODE_IMMZ << MODE_CSHIFT,
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MODE_ABCJOINT = (MODE_JOINT << MODE_ASHIFT) | (MODE_JOINT << MODE_BSHIFT) | (MODE_JOINT << MODE_CSHIFT),
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MODE_BCJOINT = (MODE_JOINT << MODE_BSHIFT) | (MODE_JOINT << MODE_CSHIFT),
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MODE_BCKI = MODE_KI << MODE_BCSHIFT,
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MODE_BCKF = MODE_KF << MODE_BCSHIFT,
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MODE_BCKS = MODE_KS << MODE_BCSHIFT,
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MODE_BCKP = MODE_KP << MODE_BCSHIFT,
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MODE_BCIMMS = MODE_IMMS << MODE_BCSHIFT,
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MODE_BCIMMZ = MODE_IMMZ << MODE_BCSHIFT,
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MODE_BCPARAM = MODE_PARAM << MODE_BCSHIFT,
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MODE_BCTHROW = MODE_THROW << MODE_BCSHIFT,
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MODE_BCCATCH = MODE_CATCH << MODE_BCSHIFT,
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MODE_BCCAST = MODE_CAST << MODE_BCSHIFT,
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};
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struct VMOpInfo
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{
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const char *Name;
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int Mode;
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};
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extern const VMOpInfo OpInfo[NUM_OPS];
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// VM frame layout:
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// VMFrame header
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// parameter stack - 16 byte boundary, 16 bytes each
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// double registers - 8 bytes each
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// string registers - 4 or 8 bytes each
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// address registers - 4 or 8 bytes each
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// data registers - 4 bytes each
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// address register tags-1 byte each
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// extra space - 16 byte boundary
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struct VMFrame
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{
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VMFrame *ParentFrame;
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VMFunction *Func;
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VM_UBYTE NumRegD;
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VM_UBYTE NumRegF;
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VM_UBYTE NumRegS;
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VM_UBYTE NumRegA;
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VM_UHALF MaxParam;
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VM_UHALF NumParam; // current number of parameters
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static int FrameSize(int numregd, int numregf, int numregs, int numrega, int numparam, int numextra)
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{
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int size = (sizeof(VMFrame) + 15) & ~15;
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size += numparam * sizeof(VMValue);
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size += numregf * sizeof(double);
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size += numrega * sizeof(void *);
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size += numregs * sizeof(FString);
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size += numregd * sizeof(int);
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if (numextra != 0)
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{
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size = (size + 15) & ~15;
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size += numextra;
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}
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return size;
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}
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VMValue *GetParam() const
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{
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assert(((size_t)this & 15) == 0 && "VM frame is unaligned");
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return (VMValue *)(((size_t)(this + 1) + 15) & ~15);
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}
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double *GetRegF() const
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{
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return (double *)(GetParam() + MaxParam);
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}
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FString *GetRegS() const
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{
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return (FString *)(GetRegF() + NumRegF);
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}
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void **GetRegA() const
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{
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return (void **)(GetRegS() + NumRegS);
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}
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int *GetRegD() const
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{
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return (int *)(GetRegA() + NumRegA);
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}
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void *GetExtra() const
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{
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uint8_t *pbeg = (uint8_t*)(GetRegD() + NumRegD);
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ptrdiff_t ofs = pbeg - (uint8_t *)this;
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return (VM_UBYTE *)this + ((ofs + 15) & ~15);
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}
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void GetAllRegs(int *&d, double *&f, FString *&s, void **&a, VMValue *¶m) const
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{
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// Calling the individual functions produces suboptimal code. :(
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param = GetParam();
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f = (double *)(param + MaxParam);
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s = (FString *)(f + NumRegF);
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a = (void **)(s + NumRegS);
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d = (int *)(a + NumRegA);
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}
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void InitRegS();
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};
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struct VMRegisters
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{
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VMRegisters(const VMFrame *frame)
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{
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frame->GetAllRegs(d, f, s, a, param);
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}
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VMRegisters(const VMRegisters &o)
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: d(o.d), f(o.f), s(o.s), a(o.a), param(o.param)
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{ }
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int *d;
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double *f;
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FString *s;
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void **a;
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VMValue *param;
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};
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union FVoidObj
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{
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DObject *o;
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void *v;
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};
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struct FStatementInfo
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{
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uint16_t InstructionIndex;
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uint16_t LineNumber;
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};
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class VMFrameStack
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{
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public:
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VMFrameStack();
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~VMFrameStack();
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VMFrame *AllocFrame(VMScriptFunction *func);
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VMFrame *PopFrame();
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VMFrame *TopFrame()
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{
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assert(Blocks != NULL && Blocks->LastFrame != NULL);
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return Blocks->LastFrame;
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}
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static int OffsetLastFrame() { return (int)(ptrdiff_t)offsetof(BlockHeader, LastFrame); }
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private:
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enum { BLOCK_SIZE = 4096 }; // Default block size
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struct BlockHeader
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{
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BlockHeader *NextBlock;
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VMFrame *LastFrame;
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VM_UBYTE *FreeSpace;
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int BlockSize;
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void InitFreeSpace()
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{
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FreeSpace = (VM_UBYTE *)(((size_t)(this + 1) + 15) & ~15);
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}
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};
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BlockHeader *Blocks;
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BlockHeader *UnusedBlocks;
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VMFrame *Alloc(int size);
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};
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class VMParamFiller
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{
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public:
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VMParamFiller(const VMFrame *frame) : Reg(frame), RegD(0), RegF(0), RegS(0), RegA(0) {}
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VMParamFiller(const VMRegisters *reg) : Reg(*reg), RegD(0), RegF(0), RegS(0), RegA(0) {}
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void ParamInt(int val)
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{
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Reg.d[RegD++] = val;
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}
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void ParamFloat(double val)
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{
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Reg.f[RegF++] = val;
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}
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void ParamString(FString &val)
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{
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Reg.s[RegS++] = val;
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}
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void ParamString(const char *val)
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{
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Reg.s[RegS++] = val;
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}
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void ParamObject(DObject *obj)
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{
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Reg.a[RegA] = obj;
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RegA++;
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}
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void ParamPointer(void *ptr)
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{
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Reg.a[RegA] = ptr;
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RegA++;
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}
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private:
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const VMRegisters Reg;
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int RegD, RegF, RegS, RegA;
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};
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enum EVMEngine
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{
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VMEngine_Default,
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VMEngine_Unchecked,
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VMEngine_Checked
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};
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void VMSelectEngine(EVMEngine engine);
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extern int (*VMExec)(VMFunction *func, VMValue *params, int numparams, VMReturn *ret, int numret);
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void VMFillParams(VMValue *params, VMFrame *callee, int numparam);
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void VMDumpConstants(FILE *out, const VMScriptFunction *func);
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void VMDisasm(FILE *out, const VMOP *code, int codesize, const VMScriptFunction *func);
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extern thread_local VMFrameStack GlobalVMStack;
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typedef std::pair<const class PType *, unsigned> FTypeAndOffset;
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typedef int(*JitFuncPtr)(VMFunction *func, VMValue *params, int numparams, VMReturn *ret, int numret);
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class VMScriptFunction : public VMFunction
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{
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public:
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VMScriptFunction(FName name = NAME_None);
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~VMScriptFunction();
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void Alloc(int numops, int numkonstd, int numkonstf, int numkonsts, int numkonsta, int numlinenumbers);
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VMOP *Code;
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FStatementInfo *LineInfo;
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FString SourceFileName;
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int *KonstD;
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double *KonstF;
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FString *KonstS;
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FVoidObj *KonstA;
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int ExtraSpace;
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int CodeSize; // Size of code in instructions (not bytes)
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unsigned LineInfoCount;
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unsigned StackSize;
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VM_UBYTE NumRegD;
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VM_UBYTE NumRegF;
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VM_UBYTE NumRegS;
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VM_UBYTE NumRegA;
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VM_UHALF NumKonstD;
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VM_UHALF NumKonstF;
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VM_UHALF NumKonstS;
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VM_UHALF NumKonstA;
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VM_UHALF MaxParam; // Maximum number of parameters this function has on the stack at once
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VM_UBYTE NumArgs; // Number of arguments this function takes
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TArray<FTypeAndOffset> SpecialInits; // list of all contents on the extra stack which require construction and destruction
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void InitExtra(void *addr);
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void DestroyExtra(void *addr);
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int AllocExtraStack(PType *type);
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int PCToLine(const VMOP *pc);
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private:
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static int FirstScriptCall(VMFunction *func, VMValue *params, int numparams, VMReturn *ret, int numret);
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};
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