CPU/PGXP: Use component enum
This commit is contained in:
parent
e4bedbbbfa
commit
3fd86a69a4
src/core
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@ -58,12 +58,13 @@ struct PGXP_value
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u32 value;
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u32 flags;
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ALWAYS_INLINE void SetValidComp(u32 comp, bool valid)
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ALWAYS_INLINE void SetValid(u32 comp, bool valid = true)
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{
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flags = (flags & ~(1u << comp)) | (static_cast<u32>(valid) << comp);
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const u32 mask = (1u << comp);
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flags = valid ? (flags | mask) : (flags & ~mask);
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}
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ALWAYS_INLINE bool GetValidComp(u32 comp) const { return ConvertToBoolUnchecked((flags >> comp) & 1); }
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ALWAYS_INLINE bool HasValid(u32 comp) const { return ConvertToBoolUnchecked((flags >> comp) & 1); }
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};
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struct State
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@ -20,6 +20,8 @@ Log_SetChannel(CPU::PGXP);
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// #define LOG_VALUES 1
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// #define LOG_LOOKUPS 1
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// TODO: Get rid of all the rs/rt subscripting.
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namespace CPU::PGXP {
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namespace {
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@ -29,17 +31,27 @@ enum : u32
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VERTEX_CACHE_HEIGHT = 0x800 * 2,
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VERTEX_CACHE_SIZE = VERTEX_CACHE_WIDTH * VERTEX_CACHE_HEIGHT,
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PGXP_MEM_SIZE = (static_cast<u32>(Bus::RAM_8MB_SIZE) + static_cast<u32>(CPU::SCRATCHPAD_SIZE)) / 4,
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PGXP_MEM_SCRATCH_OFFSET = Bus::RAM_8MB_SIZE / 4
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PGXP_MEM_SCRATCH_OFFSET = Bus::RAM_8MB_SIZE / 4,
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};
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#define ALL 0xFFFFFFFF
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#define VALID_0 (1 << 0)
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#define VALID_1 (1 << 1)
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#define VALID_2 (1 << 2)
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#define VALID_01 (VALID_0 | VALID_1)
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#define VALID_012 (VALID_0 | VALID_1 | VALID_2)
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#define VALID_ALL (VALID_0 | VALID_1 | VALID_2)
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#define INV_VALID_ALL (ALL ^ VALID_ALL)
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enum : u32
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{
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COMP_X,
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COMP_Y,
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COMP_Z,
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};
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enum : u32
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{
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ALL = 0xFFFFFFFFu,
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VALID_X = (1u << 0),
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VALID_Y = (1u << 1),
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VALID_Z = (1u << 2),
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VALID_XY = (VALID_X | VALID_Y),
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VALID_XYZ = (VALID_X | VALID_Y | VALID_Z),
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VALID_ALL = (VALID_X | VALID_Y | VALID_Z),
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INV_VALID_ALL = (ALL ^ VALID_ALL),
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};
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union psx_value
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{
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@ -107,8 +119,8 @@ static void LogValueStr(SmallStringBase& str, const char* name, u32 rval, const
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#endif
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// clang-format on
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static const PGXP_value PGXP_value_invalid = {0.f, 0.f, 0.f, 0, 0};
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static const PGXP_value PGXP_value_zero = {0.f, 0.f, 0.f, 0, VALID_ALL};
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static constexpr PGXP_value PGXP_value_invalid = {0.f, 0.f, 0.f, 0, 0};
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static constexpr PGXP_value PGXP_value_zero = {0.f, 0.f, 0.f, 0, VALID_ALL};
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static PGXP_value* s_mem = nullptr;
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static PGXP_value* s_vertex_cache = nullptr;
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@ -200,13 +212,13 @@ void CPU::PGXP::Shutdown()
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ALWAYS_INLINE_RELEASE void CPU::PGXP::MakeValid(PGXP_value* pV, u32 psxV)
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{
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if ((pV->flags & VALID_01) == VALID_01)
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if ((pV->flags & VALID_XY) == VALID_XY)
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return;
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pV->x = static_cast<float>(static_cast<s16>(Truncate16(psxV)));
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pV->y = static_cast<float>(static_cast<s16>(Truncate16(psxV >> 16)));
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pV->z = 0.0f;
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pV->flags = VALID_01;
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pV->flags = VALID_XY;
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pV->value = psxV;
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}
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@ -286,13 +298,13 @@ ALWAYS_INLINE_RELEASE void CPU::PGXP::ValidateAndCopyMem16(PGXP_value* dest, u32
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{
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val.w.h = static_cast<u16>(value);
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mask.w.h = 0xFFFF;
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valid_mask = VALID_1;
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valid_mask = VALID_Y;
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}
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else
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{
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val.w.l = static_cast<u16>(value);
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mask.w.l = 0xFFFF;
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valid_mask = VALID_0;
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valid_mask = VALID_X;
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}
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// validate and copy whole value
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@ -303,19 +315,19 @@ ALWAYS_INLINE_RELEASE void CPU::PGXP::ValidateAndCopyMem16(PGXP_value* dest, u32
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if (hiword)
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{
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dest->x = dest->y;
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dest->SetValidComp(0, dest->GetValidComp(1));
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dest->SetValid(COMP_X, dest->HasValid(COMP_Y));
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}
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// only set y as valid if x is also valid.. don't want to make fake values
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if (dest->GetValidComp(0))
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if (dest->HasValid(COMP_X))
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{
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dest->y = (dest->x < 0) ? -1.f * sign : 0.f;
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dest->SetValidComp(1, true);
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dest->SetValid(COMP_Y);
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}
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else
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{
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dest->y = 0.0f;
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dest->SetValidComp(1, false);
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dest->SetValid(COMP_Y, false);
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}
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dest->value = value;
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@ -340,37 +352,38 @@ ALWAYS_INLINE_RELEASE void CPU::PGXP::WriteMem16(const PGXP_value* src, u32 addr
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if (hiword)
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{
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dest->y = src->x;
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dest->SetValidComp(1, src->GetValidComp(0));
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dest->SetValid(COMP_Y, src->HasValid(COMP_X));
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dest->value = (dest->value & UINT32_C(0x0000FFFF)) | (src->value << 16);
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}
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else
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{
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dest->x = src->x;
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dest->SetValidComp(0, src->GetValidComp(0));
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dest->SetValid(COMP_X, src->HasValid(COMP_X));
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dest->value = (dest->value & UINT32_C(0xFFFF0000)) | (src->value & UINT32_C(0x0000FFFF));
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}
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// overwrite z/w if valid
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if (src->GetValidComp(2))
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// TODO: Check modified
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if (src->HasValid(COMP_Z))
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{
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dest->z = src->z;
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dest->SetValidComp(2, true);
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dest->SetValid(COMP_Z);
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}
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}
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ALWAYS_INLINE_RELEASE void CPU::PGXP::CopyZIfMissing(PGXP_value& dst, const PGXP_value& src)
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{
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if (dst.GetValidComp(2))
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if (dst.HasValid(COMP_Z))
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return;
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dst.z = src.z;
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dst.flags |= (src.flags & VALID_2);
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dst.flags |= (src.flags & VALID_Z);
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}
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ALWAYS_INLINE_RELEASE void CPU::PGXP::SelectZ(PGXP_value& dst, const PGXP_value& src1, const PGXP_value& src2)
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{
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dst.z = src1.GetValidComp(2) ? src1.z : src2.z;
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dst.flags |= ((src1.flags | src2.flags) & VALID_2);
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dst.z = src1.HasValid(COMP_Z) ? src1.z : src2.z;
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dst.flags |= ((src1.flags | src2.flags) & VALID_Z);
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}
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#ifdef LOG_VALUES
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@ -418,11 +431,11 @@ void CPU::PGXP::LogValueStr(SmallStringBase& str, const char* name, u32 rval, co
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if (val->flags != 0)
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{
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str.append(", valid=");
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if (val->flags & VALID_0)
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if (val->flags & VALID_X)
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str.append('X');
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if (val->flags & VALID_1)
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if (val->flags & VALID_Y)
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str.append('Y');
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if (val->flags & VALID_2)
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if (val->flags & VALID_Z)
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str.append('Z');
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}
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@ -459,7 +472,7 @@ int CPU::PGXP::GTE_NCLIP_valid(u32 sxy0, u32 sxy1, u32 sxy2)
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Validate(&SXY2, sxy2);
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// Don't use accurate clipping for game-constructed values, which don't have a valid Z.
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return (((SXY0.flags & SXY1.flags & SXY2.flags & VALID_012) == VALID_012));
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return (((SXY0.flags & SXY1.flags & SXY2.flags & VALID_XYZ) == VALID_XYZ));
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}
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float CPU::PGXP::GTE_NCLIP()
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@ -595,7 +608,7 @@ bool CPU::PGXP::GetPreciseVertex(u32 addr, u32 value, int x, int y, int xOffs, i
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float* out_w)
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{
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const PGXP_value* vert = GetPtr(addr);
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if (vert && ((vert->flags & VALID_01) == VALID_01) && (vert->value == value))
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if (vert && ((vert->flags & VALID_XY) == VALID_XY) && (vert->value == value))
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{
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// There is a value here with valid X and Y coordinates
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*out_x = TruncateVertexPosition(vert->x) + static_cast<float>(xOffs);
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@ -611,7 +624,7 @@ bool CPU::PGXP::GetPreciseVertex(u32 addr, u32 value, int x, int y, int xOffs, i
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if (IsWithinTolerance(*out_x, *out_y, x, y))
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{
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// check validity of z component
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return ((vert->flags & VALID_2) == VALID_2);
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return ((vert->flags & VALID_Z) == VALID_Z);
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}
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}
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@ -622,7 +635,7 @@ bool CPU::PGXP::GetPreciseVertex(u32 addr, u32 value, int x, int y, int xOffs, i
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// Look in cache for valid vertex
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vert = GetCachedVertex(psx_x, psx_y);
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if (vert && (vert->flags & VALID_01) == VALID_01)
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if (vert && (vert->flags & VALID_XY) == VALID_XY)
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{
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*out_x = TruncateVertexPosition(vert->x) + static_cast<float>(xOffs);
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*out_y = TruncateVertexPosition(vert->y) + static_cast<float>(yOffs);
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@ -723,29 +736,31 @@ void CPU::PGXP::CPU_ADDI(u32 instr, u32 rsVal)
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LOG_VALUES_C1(rs(instr), rsVal);
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// Rt = Rs + Imm (signed)
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Validate(&g_state.pgxp_gpr[rs(instr)], rsVal);
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PGXP_value ret = g_state.pgxp_gpr[rs(instr)];
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PGXP_value& prsVal = g_state.pgxp_gpr[rs(instr)];
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Validate(&prsVal, rsVal);
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psx_value tempImm;
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tempImm.d = SignExtend32(static_cast<u16>(imm(instr)));
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if (tempImm.d != 0)
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{
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ret.x = (float)f16Unsign(ret.x);
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ret.x += (float)tempImm.w.l;
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PGXP_value& prtVal = g_state.pgxp_gpr[rt(instr)];
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prtVal = prsVal;
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// carry on over/underflow
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float of = (ret.x > USHRT_MAX) ? 1.f : (ret.x < 0) ? -1.f : 0.f;
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ret.x = (float)f16Sign(ret.x);
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// ret.x -= of * (USHRT_MAX + 1);
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ret.y += tempImm.sw.h + of;
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if (tempImm.d == 0)
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return;
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// truncate on overflow/underflow
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ret.y += (ret.y > SHRT_MAX) ? -(USHRT_MAX + 1) : (ret.y < SHRT_MIN) ? USHRT_MAX + 1 : 0.f;
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}
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prtVal.x = (float)f16Unsign(prtVal.x);
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prtVal.x += (float)tempImm.w.l;
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g_state.pgxp_gpr[rt(instr)] = ret;
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g_state.pgxp_gpr[rt(instr)].value = rsVal + imm_sext(instr);
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// carry on over/underflow
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float of = (prtVal.x > USHRT_MAX) ? 1.f : (prtVal.x < 0) ? -1.f : 0.f;
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prtVal.x = (float)f16Sign(prtVal.x);
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// ret.x -= of * (USHRT_MAX + 1);
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prtVal.y += tempImm.sw.h + of;
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// truncate on overflow/underflow
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prtVal.y += (prtVal.y > SHRT_MAX) ? -(USHRT_MAX + 1) : (prtVal.y < SHRT_MIN) ? USHRT_MAX + 1 : 0.f;
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prtVal.value = rsVal + tempImm.d;
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}
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void CPU::PGXP::CPU_ANDI(u32 instr, u32 rsVal)
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@ -754,33 +769,35 @@ void CPU::PGXP::CPU_ANDI(u32 instr, u32 rsVal)
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// Rt = Rs & Imm
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const u32 rtVal = rsVal & imm(instr);
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Validate(&g_state.pgxp_gpr[rs(instr)], rsVal);
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PGXP_value ret = g_state.pgxp_gpr[rs(instr)];
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PGXP_value& prsVal = g_state.pgxp_gpr[rs(instr)];
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Validate(&prsVal, rsVal);
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psx_value vRt;
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vRt.d = rtVal;
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ret.y = 0.f; // remove upper 16-bits
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PGXP_value& prtVal = g_state.pgxp_gpr[rt(instr)];
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prtVal = prsVal;
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prtVal.value = rtVal;
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prtVal.y = 0.f; // remove upper 16-bits
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prtVal.SetValid(COMP_Y);
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switch (imm(instr))
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{
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case 0:
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// if 0 then x == 0
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ret.x = 0.f;
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// TODO: x should be valid here
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prtVal.x = 0.f;
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break;
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case 0xFFFF:
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// if saturated then x == x
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break;
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default:
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// otherwise x is low precision value
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ret.x = vRt.sw.l;
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ret.flags |= VALID_0;
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prtVal.x = vRt.sw.l;
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prtVal.SetValid(COMP_X);
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break;
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}
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ret.flags |= VALID_1;
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g_state.pgxp_gpr[rt(instr)] = ret;
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g_state.pgxp_gpr[rt(instr)].value = rtVal;
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}
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void CPU::PGXP::CPU_ORI(u32 instr, u32 rsVal)
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@ -804,7 +821,8 @@ void CPU::PGXP::CPU_ORI(u32 instr, u32 rsVal)
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default:
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// otherwise x is low precision value
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ret.x = vRt.sw.l;
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ret.flags |= VALID_0;
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ret.SetValid(COMP_X);
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break;
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}
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ret.value = rtVal;
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@ -832,7 +850,8 @@ void CPU::PGXP::CPU_XORI(u32 instr, u32 rsVal)
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default:
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// otherwise x is low precision value
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ret.x = vRt.sw.l;
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ret.flags |= VALID_0;
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ret.SetValid(COMP_X);
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break;
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}
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ret.value = rtVal;
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@ -851,7 +870,7 @@ void CPU::PGXP::CPU_SLTI(u32 instr, u32 rsVal)
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tempImm.w.h = imm(instr);
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ret.y = 0.f;
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ret.x = (g_state.pgxp_gpr[rs(instr)].x < tempImm.sw.h) ? 1.f : 0.f;
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ret.flags |= VALID_1;
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ret.SetValid(COMP_Y);
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ret.value = BoolToUInt32(static_cast<s32>(rsVal) < imm_sext(instr));
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g_state.pgxp_gpr[rt(instr)] = ret;
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@ -869,7 +888,7 @@ void CPU::PGXP::CPU_SLTIU(u32 instr, u32 rsVal)
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tempImm.w.h = imm(instr);
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ret.y = 0.f;
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ret.x = (f16Unsign(g_state.pgxp_gpr[rs(instr)].x) < tempImm.w.h) ? 1.f : 0.f;
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ret.flags |= VALID_1;
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ret.SetValid(COMP_Y);
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ret.value = BoolToUInt32(rsVal < imm(instr));
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g_state.pgxp_gpr[rt(instr)] = ret;
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@ -886,7 +905,7 @@ void CPU::PGXP::CPU_LUI(u32 instr)
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g_state.pgxp_gpr[rt(instr)] = PGXP_value_zero;
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g_state.pgxp_gpr[rt(instr)].y = (float)(s16)imm(instr);
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g_state.pgxp_gpr[rt(instr)].value = static_cast<u32>(imm(instr)) << 16;
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g_state.pgxp_gpr[rt(instr)].flags = VALID_01;
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g_state.pgxp_gpr[rt(instr)].flags = VALID_XY;
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}
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////////////////////////////////////
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@ -913,8 +932,8 @@ void CPU::PGXP::CPU_ADD(u32 instr, u32 rsVal, u32 rtVal)
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else
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{
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// iCB: Only require one valid input
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if (((g_state.pgxp_gpr[rt(instr)].flags & VALID_01) != VALID_01) !=
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((g_state.pgxp_gpr[rs(instr)].flags & VALID_01) != VALID_01))
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if (((g_state.pgxp_gpr[rt(instr)].flags & VALID_XY) != VALID_XY) !=
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((g_state.pgxp_gpr[rs(instr)].flags & VALID_XY) != VALID_XY))
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{
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MakeValid(&g_state.pgxp_gpr[rs(instr)], rsVal);
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MakeValid(&g_state.pgxp_gpr[rt(instr)], rtVal);
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@ -936,13 +955,13 @@ void CPU::PGXP::CPU_ADD(u32 instr, u32 rsVal, u32 rtVal)
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// TODO: decide which "z/w" component to use
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ret.flags &= (g_state.pgxp_gpr[rt(instr)].flags & VALID_01);
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ret.flags &= (g_state.pgxp_gpr[rt(instr)].flags & VALID_XY) | ~VALID_XY;
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}
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if (!(ret.flags & VALID_2) && (g_state.pgxp_gpr[rt(instr)].flags & VALID_2))
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if (!(ret.flags & VALID_Z) && (g_state.pgxp_gpr[rt(instr)].flags & VALID_Z))
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{
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ret.z = g_state.pgxp_gpr[rt(instr)].z;
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ret.SetValidComp(2, true);
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ret.SetValid(COMP_Z);
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}
|
||||
|
||||
ret.value = rsVal + rtVal;
|
||||
|
@ -959,8 +978,8 @@ void CPU::PGXP::CPU_SUB(u32 instr, u32 rsVal, u32 rtVal)
|
|||
Validate(&g_state.pgxp_gpr[rt(instr)], rtVal);
|
||||
|
||||
// iCB: Only require one valid input
|
||||
if (((g_state.pgxp_gpr[rt(instr)].flags & VALID_01) != VALID_01) !=
|
||||
((g_state.pgxp_gpr[rs(instr)].flags & VALID_01) != VALID_01))
|
||||
if (((g_state.pgxp_gpr[rt(instr)].flags & VALID_XY) != VALID_XY) !=
|
||||
((g_state.pgxp_gpr[rs(instr)].flags & VALID_XY) != VALID_XY))
|
||||
{
|
||||
MakeValid(&g_state.pgxp_gpr[rs(instr)], rsVal);
|
||||
MakeValid(&g_state.pgxp_gpr[rt(instr)], rtVal);
|
||||
|
@ -980,14 +999,14 @@ void CPU::PGXP::CPU_SUB(u32 instr, u32 rsVal, u32 rtVal)
|
|||
// truncate on overflow/underflow
|
||||
ret.y += (ret.y > SHRT_MAX) ? -(USHRT_MAX + 1) : (ret.y < SHRT_MIN) ? USHRT_MAX + 1 : 0.f;
|
||||
|
||||
ret.flags &= (g_state.pgxp_gpr[rt(instr)].flags & VALID_01);
|
||||
ret.flags &= (g_state.pgxp_gpr[rt(instr)].flags & VALID_XY) | ~VALID_XY;
|
||||
|
||||
ret.value = rsVal - rtVal;
|
||||
|
||||
if (!(ret.flags & VALID_2) && (g_state.pgxp_gpr[rt(instr)].flags & VALID_2))
|
||||
if (!(ret.flags & VALID_Z) && (g_state.pgxp_gpr[rt(instr)].flags & VALID_Z))
|
||||
{
|
||||
ret.z = g_state.pgxp_gpr[rt(instr)].z;
|
||||
ret.flags |= VALID_2;
|
||||
ret.SetValid(COMP_Z);
|
||||
}
|
||||
|
||||
g_state.pgxp_gpr[rd(instr)] = ret;
|
||||
|
@ -1003,8 +1022,8 @@ ALWAYS_INLINE_RELEASE void CPU::PGXP::CPU_BITWISE(u32 instr, u32 rdVal, u32 rsVa
|
|||
Validate(&g_state.pgxp_gpr[rt(instr)], rtVal);
|
||||
|
||||
// iCB: Only require one valid input
|
||||
if (((g_state.pgxp_gpr[rt(instr)].flags & VALID_01) != VALID_01) !=
|
||||
((g_state.pgxp_gpr[rs(instr)].flags & VALID_01) != VALID_01))
|
||||
if (((g_state.pgxp_gpr[rt(instr)].flags & VALID_XY) != VALID_XY) !=
|
||||
((g_state.pgxp_gpr[rs(instr)].flags & VALID_XY) != VALID_XY))
|
||||
{
|
||||
MakeValid(&g_state.pgxp_gpr[rs(instr)], rsVal);
|
||||
MakeValid(&g_state.pgxp_gpr[rt(instr)], rtVal);
|
||||
|
@ -1016,7 +1035,7 @@ ALWAYS_INLINE_RELEASE void CPU::PGXP::CPU_BITWISE(u32 instr, u32 rdVal, u32 rsVa
|
|||
valt.d = rtVal;
|
||||
|
||||
PGXP_value ret;
|
||||
ret.flags = VALID_01;
|
||||
ret.flags = VALID_XY;
|
||||
|
||||
if (vald.w.l == 0)
|
||||
{
|
||||
|
@ -1025,17 +1044,17 @@ ALWAYS_INLINE_RELEASE void CPU::PGXP::CPU_BITWISE(u32 instr, u32 rdVal, u32 rsVa
|
|||
else if (vald.w.l == vals.w.l)
|
||||
{
|
||||
ret.x = g_state.pgxp_gpr[rs(instr)].x;
|
||||
ret.SetValidComp(0, g_state.pgxp_gpr[rs(instr)].GetValidComp(0));
|
||||
ret.SetValid(COMP_X, g_state.pgxp_gpr[rs(instr)].HasValid(COMP_X));
|
||||
}
|
||||
else if (vald.w.l == valt.w.l)
|
||||
{
|
||||
ret.x = g_state.pgxp_gpr[rt(instr)].x;
|
||||
ret.SetValidComp(0, g_state.pgxp_gpr[rt(instr)].GetValidComp(0));
|
||||
ret.SetValid(COMP_X, g_state.pgxp_gpr[rt(instr)].HasValid(COMP_X));
|
||||
}
|
||||
else
|
||||
{
|
||||
ret.x = (float)vald.sw.l;
|
||||
ret.SetValidComp(0, true);
|
||||
ret.SetValid(COMP_X);
|
||||
}
|
||||
|
||||
if (vald.w.h == 0)
|
||||
|
@ -1045,17 +1064,17 @@ ALWAYS_INLINE_RELEASE void CPU::PGXP::CPU_BITWISE(u32 instr, u32 rdVal, u32 rsVa
|
|||
else if (vald.w.h == vals.w.h)
|
||||
{
|
||||
ret.y = g_state.pgxp_gpr[rs(instr)].y;
|
||||
ret.SetValidComp(1, g_state.pgxp_gpr[rs(instr)].GetValidComp(1));
|
||||
ret.SetValid(COMP_Y, g_state.pgxp_gpr[rs(instr)].HasValid(COMP_Y));
|
||||
}
|
||||
else if (vald.w.h == valt.w.h)
|
||||
{
|
||||
ret.y = g_state.pgxp_gpr[rt(instr)].y;
|
||||
ret.SetValidComp(1, g_state.pgxp_gpr[rt(instr)].GetValidComp(1));
|
||||
ret.SetValid(COMP_Y, g_state.pgxp_gpr[rt(instr)].HasValid(COMP_Y));
|
||||
}
|
||||
else
|
||||
{
|
||||
ret.y = (float)vald.sw.h;
|
||||
ret.SetValidComp(1, true);
|
||||
ret.SetValid(COMP_Y);
|
||||
}
|
||||
|
||||
// iCB Hack: Force validity if even one half is valid
|
||||
|
@ -1064,20 +1083,20 @@ ALWAYS_INLINE_RELEASE void CPU::PGXP::CPU_BITWISE(u32 instr, u32 rdVal, u32 rsVa
|
|||
// /iCB Hack
|
||||
|
||||
// Get a valid W
|
||||
if (g_state.pgxp_gpr[rs(instr)].GetValidComp(2))
|
||||
if (g_state.pgxp_gpr[rs(instr)].HasValid(COMP_Z))
|
||||
{
|
||||
ret.z = g_state.pgxp_gpr[rs(instr)].z;
|
||||
ret.SetValidComp(2, true);
|
||||
ret.SetValid(COMP_Z);
|
||||
}
|
||||
else if (g_state.pgxp_gpr[rt(instr)].GetValidComp(2))
|
||||
else if (g_state.pgxp_gpr[rt(instr)].HasValid(COMP_Z))
|
||||
{
|
||||
ret.z = g_state.pgxp_gpr[rt(instr)].z;
|
||||
ret.SetValidComp(2, true);
|
||||
ret.SetValid(COMP_Z);
|
||||
}
|
||||
else
|
||||
{
|
||||
ret.z = 0.0f;
|
||||
ret.SetValidComp(2, false);
|
||||
ret.SetValid(COMP_Z, false);
|
||||
}
|
||||
|
||||
ret.value = rdVal;
|
||||
|
@ -1129,8 +1148,8 @@ void CPU::PGXP::CPU_SLT(u32 instr, u32 rsVal, u32 rtVal)
|
|||
Validate(&g_state.pgxp_gpr[rt(instr)], rtVal);
|
||||
|
||||
// iCB: Only require one valid input
|
||||
if (((g_state.pgxp_gpr[rt(instr)].flags & VALID_01) != VALID_01) !=
|
||||
((g_state.pgxp_gpr[rs(instr)].flags & VALID_01) != VALID_01))
|
||||
if (((g_state.pgxp_gpr[rt(instr)].flags & VALID_XY) != VALID_XY) !=
|
||||
((g_state.pgxp_gpr[rs(instr)].flags & VALID_XY) != VALID_XY))
|
||||
{
|
||||
MakeValid(&g_state.pgxp_gpr[rs(instr)], rsVal);
|
||||
MakeValid(&g_state.pgxp_gpr[rt(instr)], rtVal);
|
||||
|
@ -1138,7 +1157,7 @@ void CPU::PGXP::CPU_SLT(u32 instr, u32 rsVal, u32 rtVal)
|
|||
|
||||
PGXP_value ret = g_state.pgxp_gpr[rs(instr)];
|
||||
ret.y = 0.f;
|
||||
ret.SetValidComp(1, true);
|
||||
ret.SetValid(COMP_Y);
|
||||
|
||||
ret.x = (g_state.pgxp_gpr[rs(instr)].y < g_state.pgxp_gpr[rt(instr)].y) ? 1.f :
|
||||
(f16Unsign(g_state.pgxp_gpr[rs(instr)].x) < f16Unsign(g_state.pgxp_gpr[rt(instr)].x)) ? 1.f :
|
||||
|
@ -1157,8 +1176,8 @@ void CPU::PGXP::CPU_SLTU(u32 instr, u32 rsVal, u32 rtVal)
|
|||
Validate(&g_state.pgxp_gpr[rt(instr)], rtVal);
|
||||
|
||||
// iCB: Only require one valid input
|
||||
if (((g_state.pgxp_gpr[rt(instr)].flags & VALID_01) != VALID_01) !=
|
||||
((g_state.pgxp_gpr[rs(instr)].flags & VALID_01) != VALID_01))
|
||||
if (((g_state.pgxp_gpr[rt(instr)].flags & VALID_XY) != VALID_XY) !=
|
||||
((g_state.pgxp_gpr[rs(instr)].flags & VALID_XY) != VALID_XY))
|
||||
{
|
||||
MakeValid(&g_state.pgxp_gpr[rs(instr)], rsVal);
|
||||
MakeValid(&g_state.pgxp_gpr[rt(instr)], rtVal);
|
||||
|
@ -1166,7 +1185,7 @@ void CPU::PGXP::CPU_SLTU(u32 instr, u32 rsVal, u32 rtVal)
|
|||
|
||||
PGXP_value ret = g_state.pgxp_gpr[rs(instr)];
|
||||
ret.y = 0.f;
|
||||
ret.SetValidComp(1, true);
|
||||
ret.SetValid(COMP_Y);
|
||||
|
||||
ret.x = (f16Unsign(g_state.pgxp_gpr[rs(instr)].y) < f16Unsign(g_state.pgxp_gpr[rt(instr)].y)) ? 1.f :
|
||||
(f16Unsign(g_state.pgxp_gpr[rs(instr)].x) < f16Unsign(g_state.pgxp_gpr[rt(instr)].x)) ? 1.f :
|
||||
|
@ -1189,8 +1208,8 @@ void CPU::PGXP::CPU_MULT(u32 instr, u32 rsVal, u32 rtVal)
|
|||
Validate(&g_state.pgxp_gpr[rt(instr)], rtVal);
|
||||
|
||||
// iCB: Only require one valid input
|
||||
if (((g_state.pgxp_gpr[rt(instr)].flags & VALID_01) != VALID_01) !=
|
||||
((g_state.pgxp_gpr[rs(instr)].flags & VALID_01) != VALID_01))
|
||||
if (((g_state.pgxp_gpr[rt(instr)].flags & VALID_XY) != VALID_XY) !=
|
||||
((g_state.pgxp_gpr[rs(instr)].flags & VALID_XY) != VALID_XY))
|
||||
{
|
||||
MakeValid(&g_state.pgxp_gpr[rs(instr)], rsVal);
|
||||
MakeValid(&g_state.pgxp_gpr[rt(instr)], rtVal);
|
||||
|
@ -1242,8 +1261,8 @@ void CPU::PGXP::CPU_MULTU(u32 instr, u32 rsVal, u32 rtVal)
|
|||
Validate(&g_state.pgxp_gpr[rt(instr)], rtVal);
|
||||
|
||||
// iCB: Only require one valid input
|
||||
if (((g_state.pgxp_gpr[rt(instr)].flags & VALID_01) != VALID_01) !=
|
||||
((g_state.pgxp_gpr[rs(instr)].flags & VALID_01) != VALID_01))
|
||||
if (((g_state.pgxp_gpr[rt(instr)].flags & VALID_XY) != VALID_XY) !=
|
||||
((g_state.pgxp_gpr[rs(instr)].flags & VALID_XY) != VALID_XY))
|
||||
{
|
||||
MakeValid(&g_state.pgxp_gpr[rs(instr)], rsVal);
|
||||
MakeValid(&g_state.pgxp_gpr[rt(instr)], rtVal);
|
||||
|
@ -1296,8 +1315,8 @@ void CPU::PGXP::CPU_DIV(u32 instr, u32 rsVal, u32 rtVal)
|
|||
Validate(&g_state.pgxp_gpr[rt(instr)], rtVal);
|
||||
|
||||
//// iCB: Only require one valid input
|
||||
if (((g_state.pgxp_gpr[rt(instr)].flags & VALID_01) != VALID_01) !=
|
||||
((g_state.pgxp_gpr[rs(instr)].flags & VALID_01) != VALID_01))
|
||||
if (((g_state.pgxp_gpr[rt(instr)].flags & VALID_XY) != VALID_XY) !=
|
||||
((g_state.pgxp_gpr[rs(instr)].flags & VALID_XY) != VALID_XY))
|
||||
{
|
||||
MakeValid(&g_state.pgxp_gpr[rs(instr)], rsVal);
|
||||
MakeValid(&g_state.pgxp_gpr[rt(instr)], rtVal);
|
||||
|
@ -1353,8 +1372,8 @@ void CPU::PGXP::CPU_DIVU(u32 instr, u32 rsVal, u32 rtVal)
|
|||
Validate(&g_state.pgxp_gpr[rt(instr)], rtVal);
|
||||
|
||||
//// iCB: Only require one valid input
|
||||
if (((g_state.pgxp_gpr[rt(instr)].flags & VALID_01) != VALID_01) !=
|
||||
((g_state.pgxp_gpr[rs(instr)].flags & VALID_01) != VALID_01))
|
||||
if (((g_state.pgxp_gpr[rt(instr)].flags & VALID_XY) != VALID_XY) !=
|
||||
((g_state.pgxp_gpr[rs(instr)].flags & VALID_XY) != VALID_XY))
|
||||
{
|
||||
MakeValid(&g_state.pgxp_gpr[rs(instr)], rsVal);
|
||||
MakeValid(&g_state.pgxp_gpr[rt(instr)], rtVal);
|
||||
|
@ -1566,7 +1585,7 @@ void CPU::PGXP::CPU_SRA(u32 instr, u32 rtVal)
|
|||
// and it's not originally from a 3D value. Too many false positives in P2/etc.
|
||||
// What we probably should do is not set the valid flag on non-3D values to begin
|
||||
// with, only letting them become valid when used in another expression.
|
||||
if (!(ret.flags & VALID_2) && sh < 16)
|
||||
if (!(ret.flags & VALID_Z) && sh < 16)
|
||||
{
|
||||
ret.flags = 0;
|
||||
MakeValid(&ret, rdVal);
|
||||
|
|
Loading…
Reference in New Issue