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9 Commits

Author SHA1 Message Date
IndecisiveTurtle 2fc1f05aee build fix 2024-08-05 02:02:48 +03:00
IndecisiveTurtle 2aefd73776 liverpool: Print error on exception 2024-08-05 01:26:12 +03:00
IndecisiveTurtle 1a4c82aeac kernel: Fix cond memory leak and reduce spam 2024-08-05 00:11:18 +03:00
IndecisiveTurtle 62f9af18ac clang format 2024-08-05 00:07:27 +03:00
IndecisiveTurtle 5678a2d56c shader_recompiler: More instructions 2024-08-05 00:05:46 +03:00
IndecisiveTurtle a5574bdbf0 vector_alu: Simplify mbcnt pattern 2024-08-05 00:05:40 +03:00
IndecisiveTurtle b08db4603e spirv: Remove subgroup id 2024-08-05 00:05:32 +03:00
IndecisiveTurtle 9a38e6ccd8 vk_graphics_pipeline: Fix unnecessary invalidate 2024-08-05 00:05:25 +03:00
IndecisiveTurtle 3d41c13552 data_share: Fix DS instruction 2024-08-05 00:05:18 +03:00
9 changed files with 55 additions and 35 deletions

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@ -727,6 +727,9 @@ int PS4_SYSV_ABI scePthreadCondDestroy(ScePthreadCond* cond) {
LOG_INFO(Kernel_Pthread, "scePthreadCondDestroy, result={}", result); LOG_INFO(Kernel_Pthread, "scePthreadCondDestroy, result={}", result);
delete *cond;
*cond = nullptr;
switch (result) { switch (result) {
case 0: case 0:
return SCE_OK; return SCE_OK;
@ -1142,7 +1145,7 @@ int PS4_SYSV_ABI scePthreadCondWait(ScePthreadCond* cond, ScePthreadMutex* mutex
} }
int result = pthread_cond_wait(&(*cond)->cond, &(*mutex)->pth_mutex); int result = pthread_cond_wait(&(*cond)->cond, &(*mutex)->pth_mutex);
LOG_INFO(Kernel_Pthread, "scePthreadCondWait, result={}", result); LOG_DEBUG(Kernel_Pthread, "scePthreadCondWait, result={}", result);
switch (result) { switch (result) {
case 0: case 0:
@ -1162,7 +1165,7 @@ int PS4_SYSV_ABI scePthreadCondattrDestroy(ScePthreadCondattr* attr) {
} }
int result = pthread_condattr_destroy(&(*attr)->cond_attr); int result = pthread_condattr_destroy(&(*attr)->cond_attr);
LOG_INFO(Kernel_Pthread, "scePthreadCondattrDestroy: result = {} ", result); LOG_DEBUG(Kernel_Pthread, "scePthreadCondattrDestroy: result = {} ", result);
switch (result) { switch (result) {
case 0: case 0:

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@ -11,7 +11,7 @@ Id SubgroupScope(EmitContext& ctx) {
} }
Id EmitWarpId(EmitContext& ctx) { Id EmitWarpId(EmitContext& ctx) {
return ctx.OpLoad(ctx.U32[1], ctx.subgroup_id); UNREACHABLE();
} }
Id EmitLaneId(EmitContext& ctx) { Id EmitLaneId(EmitContext& ctx) {

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@ -225,7 +225,6 @@ void EmitContext::DefineInputs(const Info& info) {
break; break;
} }
case Stage::Fragment: case Stage::Fragment:
subgroup_id = DefineVariable(U32[1], spv::BuiltIn::SubgroupId, spv::StorageClass::Input);
subgroup_local_invocation_id = DefineVariable( subgroup_local_invocation_id = DefineVariable(
U32[1], spv::BuiltIn::SubgroupLocalInvocationId, spv::StorageClass::Input); U32[1], spv::BuiltIn::SubgroupLocalInvocationId, spv::StorageClass::Input);
Decorate(subgroup_local_invocation_id, spv::Decoration::Flat); Decorate(subgroup_local_invocation_id, spv::Decoration::Flat);

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@ -180,7 +180,6 @@ public:
Id workgroup_id{}; Id workgroup_id{};
Id local_invocation_id{}; Id local_invocation_id{};
Id subgroup_id{};
Id subgroup_local_invocation_id{}; Id subgroup_local_invocation_id{};
Id image_u32{}; Id image_u32{};

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@ -48,7 +48,8 @@ void Translator::DS_READ(int bit_size, bool is_signed, bool is_pair, const GcnIn
IR::VectorReg dst_reg{inst.dst[0].code}; IR::VectorReg dst_reg{inst.dst[0].code};
if (is_pair) { if (is_pair) {
// Pair loads are either 32 or 64-bit // Pair loads are either 32 or 64-bit
const IR::U32 addr0 = ir.IAdd(addr, ir.Imm32(u32(inst.control.ds.offset0))); const u32 adj = bit_size == 32 ? 4 : 8;
const IR::U32 addr0 = ir.IAdd(addr, ir.Imm32(u32(inst.control.ds.offset0 * adj)));
const IR::Value data0 = ir.LoadShared(bit_size, is_signed, addr0); const IR::Value data0 = ir.LoadShared(bit_size, is_signed, addr0);
if (bit_size == 32) { if (bit_size == 32) {
ir.SetVectorReg(dst_reg++, IR::U32{data0}); ir.SetVectorReg(dst_reg++, IR::U32{data0});
@ -56,7 +57,7 @@ void Translator::DS_READ(int bit_size, bool is_signed, bool is_pair, const GcnIn
ir.SetVectorReg(dst_reg++, IR::U32{ir.CompositeExtract(data0, 0)}); ir.SetVectorReg(dst_reg++, IR::U32{ir.CompositeExtract(data0, 0)});
ir.SetVectorReg(dst_reg++, IR::U32{ir.CompositeExtract(data0, 1)}); ir.SetVectorReg(dst_reg++, IR::U32{ir.CompositeExtract(data0, 1)});
} }
const IR::U32 addr1 = ir.IAdd(addr, ir.Imm32(u32(inst.control.ds.offset1))); const IR::U32 addr1 = ir.IAdd(addr, ir.Imm32(u32(inst.control.ds.offset1 * adj)));
const IR::Value data1 = ir.LoadShared(bit_size, is_signed, addr1); const IR::Value data1 = ir.LoadShared(bit_size, is_signed, addr1);
if (bit_size == 32) { if (bit_size == 32) {
ir.SetVectorReg(dst_reg++, IR::U32{data1}); ir.SetVectorReg(dst_reg++, IR::U32{data1});
@ -65,11 +66,13 @@ void Translator::DS_READ(int bit_size, bool is_signed, bool is_pair, const GcnIn
ir.SetVectorReg(dst_reg++, IR::U32{ir.CompositeExtract(data1, 1)}); ir.SetVectorReg(dst_reg++, IR::U32{ir.CompositeExtract(data1, 1)});
} }
} else if (bit_size == 64) { } else if (bit_size == 64) {
const IR::Value data = ir.LoadShared(bit_size, is_signed, addr); const IR::U32 addr0 = ir.IAdd(addr, ir.Imm32(u32(inst.control.ds.offset0)));
const IR::Value data = ir.LoadShared(bit_size, is_signed, addr0);
ir.SetVectorReg(dst_reg, IR::U32{ir.CompositeExtract(data, 0)}); ir.SetVectorReg(dst_reg, IR::U32{ir.CompositeExtract(data, 0)});
ir.SetVectorReg(dst_reg + 1, IR::U32{ir.CompositeExtract(data, 1)}); ir.SetVectorReg(dst_reg + 1, IR::U32{ir.CompositeExtract(data, 1)});
} else { } else {
const IR::U32 data = IR::U32{ir.LoadShared(bit_size, is_signed, addr)}; const IR::U32 addr0 = ir.IAdd(addr, ir.Imm32(u32(inst.control.ds.offset0)));
const IR::U32 data = IR::U32{ir.LoadShared(bit_size, is_signed, addr0)};
ir.SetVectorReg(dst_reg, data); ir.SetVectorReg(dst_reg, data);
} }
} }
@ -79,7 +82,8 @@ void Translator::DS_WRITE(int bit_size, bool is_signed, bool is_pair, const GcnI
const IR::VectorReg data0{inst.src[1].code}; const IR::VectorReg data0{inst.src[1].code};
const IR::VectorReg data1{inst.src[2].code}; const IR::VectorReg data1{inst.src[2].code};
if (is_pair) { if (is_pair) {
const IR::U32 addr0 = ir.IAdd(addr, ir.Imm32(u32(inst.control.ds.offset0))); const u32 adj = bit_size == 32 ? 4 : 8;
const IR::U32 addr0 = ir.IAdd(addr, ir.Imm32(u32(inst.control.ds.offset0 * adj)));
if (bit_size == 32) { if (bit_size == 32) {
ir.WriteShared(32, ir.GetVectorReg(data0), addr0); ir.WriteShared(32, ir.GetVectorReg(data0), addr0);
} else { } else {
@ -87,7 +91,7 @@ void Translator::DS_WRITE(int bit_size, bool is_signed, bool is_pair, const GcnI
64, ir.CompositeConstruct(ir.GetVectorReg(data0), ir.GetVectorReg(data0 + 1)), 64, ir.CompositeConstruct(ir.GetVectorReg(data0), ir.GetVectorReg(data0 + 1)),
addr0); addr0);
} }
const IR::U32 addr1 = ir.IAdd(addr, ir.Imm32(u32(inst.control.ds.offset1))); const IR::U32 addr1 = ir.IAdd(addr, ir.Imm32(u32(inst.control.ds.offset1 * adj)));
if (bit_size == 32) { if (bit_size == 32) {
ir.WriteShared(32, ir.GetVectorReg(data1), addr1); ir.WriteShared(32, ir.GetVectorReg(data1), addr1);
} else { } else {
@ -96,11 +100,13 @@ void Translator::DS_WRITE(int bit_size, bool is_signed, bool is_pair, const GcnI
addr1); addr1);
} }
} else if (bit_size == 64) { } else if (bit_size == 64) {
const IR::U32 addr0 = ir.IAdd(addr, ir.Imm32(u32(inst.control.ds.offset0)));
const IR::Value data = const IR::Value data =
ir.CompositeConstruct(ir.GetVectorReg(data0), ir.GetVectorReg(data0 + 1)); ir.CompositeConstruct(ir.GetVectorReg(data0), ir.GetVectorReg(data0 + 1));
ir.WriteShared(bit_size, data, addr); ir.WriteShared(bit_size, data, addr0);
} else { } else {
ir.WriteShared(bit_size, ir.GetVectorReg(data0), addr); const IR::U32 addr0 = ir.IAdd(addr, ir.Imm32(u32(inst.control.ds.offset0)));
ir.WriteShared(bit_size, ir.GetVectorReg(data0), addr0);
} }
} }

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@ -125,6 +125,7 @@ public:
void V_ADD_F32(const GcnInst& inst); void V_ADD_F32(const GcnInst& inst);
void V_CVT_OFF_F32_I4(const GcnInst& inst); void V_CVT_OFF_F32_I4(const GcnInst& inst);
void V_MED3_F32(const GcnInst& inst); void V_MED3_F32(const GcnInst& inst);
void V_MED3_I32(const GcnInst& inst);
void V_FLOOR_F32(const GcnInst& inst); void V_FLOOR_F32(const GcnInst& inst);
void V_SUB_F32(const GcnInst& inst); void V_SUB_F32(const GcnInst& inst);
void V_RCP_F32(const GcnInst& inst); void V_RCP_F32(const GcnInst& inst);
@ -159,6 +160,7 @@ public:
void V_SUB_I32(const GcnInst& inst); void V_SUB_I32(const GcnInst& inst);
void V_LSHR_B32(const GcnInst& inst); void V_LSHR_B32(const GcnInst& inst);
void V_ASHRREV_I32(const GcnInst& inst); void V_ASHRREV_I32(const GcnInst& inst);
void V_ASHR_I32(const GcnInst& inst);
void V_MAD_U32_U24(const GcnInst& inst); void V_MAD_U32_U24(const GcnInst& inst);
void V_RNDNE_F32(const GcnInst& inst); void V_RNDNE_F32(const GcnInst& inst);
void V_BCNT_U32_B32(const GcnInst& inst); void V_BCNT_U32_B32(const GcnInst& inst);

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@ -24,6 +24,8 @@ void Translator::EmitVectorAlu(const GcnInst& inst) {
return V_LSHR_B32(inst); return V_LSHR_B32(inst);
case Opcode::V_ASHRREV_I32: case Opcode::V_ASHRREV_I32:
return V_ASHRREV_I32(inst); return V_ASHRREV_I32(inst);
case Opcode::V_ASHR_I32:
return V_ASHR_I32(inst);
case Opcode::V_LSHRREV_B32: case Opcode::V_LSHRREV_B32:
return V_LSHRREV_B32(inst); return V_LSHRREV_B32(inst);
case Opcode::V_NOT_B32: case Opcode::V_NOT_B32:
@ -183,6 +185,8 @@ void Translator::EmitVectorAlu(const GcnInst& inst) {
return V_ADD_F32(inst); return V_ADD_F32(inst);
case Opcode::V_MED3_F32: case Opcode::V_MED3_F32:
return V_MED3_F32(inst); return V_MED3_F32(inst);
case Opcode::V_MED3_I32:
return V_MED3_I32(inst);
case Opcode::V_FLOOR_F32: case Opcode::V_FLOOR_F32:
return V_FLOOR_F32(inst); return V_FLOOR_F32(inst);
case Opcode::V_SUB_F32: case Opcode::V_SUB_F32:
@ -479,6 +483,14 @@ void Translator::V_MED3_F32(const GcnInst& inst) {
SetDst(inst.dst[0], ir.FPMax(ir.FPMin(src0, src1), mmx)); SetDst(inst.dst[0], ir.FPMax(ir.FPMin(src0, src1), mmx));
} }
void Translator::V_MED3_I32(const GcnInst& inst) {
const IR::U32 src0{GetSrc(inst.src[0])};
const IR::U32 src1{GetSrc(inst.src[1])};
const IR::U32 src2{GetSrc(inst.src[2])};
const IR::U32 mmx = ir.SMin(ir.SMax(src0, src1), src2);
SetDst(inst.dst[0], ir.SMax(ir.SMin(src0, src1), mmx));
}
void Translator::V_FLOOR_F32(const GcnInst& inst) { void Translator::V_FLOOR_F32(const GcnInst& inst) {
const IR::F32 src0{GetSrc(inst.src[0], true)}; const IR::F32 src0{GetSrc(inst.src[0], true)};
const IR::VectorReg dst_reg{inst.dst[0].code}; const IR::VectorReg dst_reg{inst.dst[0].code};
@ -760,6 +772,12 @@ void Translator::V_ASHRREV_I32(const GcnInst& inst) {
SetDst(inst.dst[0], ir.ShiftRightArithmetic(src1, ir.BitwiseAnd(src0, ir.Imm32(0x1F)))); SetDst(inst.dst[0], ir.ShiftRightArithmetic(src1, ir.BitwiseAnd(src0, ir.Imm32(0x1F))));
} }
void Translator::V_ASHR_I32(const GcnInst& inst) {
const IR::U32 src0{GetSrc(inst.src[0])};
const IR::U32 src1{GetSrc(inst.src[1])};
SetDst(inst.dst[0], ir.ShiftRightArithmetic(src0, ir.BitwiseAnd(src1, ir.Imm32(0x1F))));
}
void Translator::V_MAD_U32_U24(const GcnInst& inst) { void Translator::V_MAD_U32_U24(const GcnInst& inst) {
V_MAD_I32_I24(inst, false); V_MAD_I32_I24(inst, false);
} }
@ -925,25 +943,12 @@ void Translator::V_FFBL_B32(const GcnInst& inst) {
void Translator::V_MBCNT_U32_B32(bool is_low, const GcnInst& inst) { void Translator::V_MBCNT_U32_B32(bool is_low, const GcnInst& inst) {
const IR::U32 src0{GetSrc(inst.src[0])}; const IR::U32 src0{GetSrc(inst.src[0])};
const IR::U32 src1{GetSrc(inst.src[1])}; const IR::U32 src1{GetSrc(inst.src[1])};
const IR::U32 lane_id = ir.LaneId(); if (!is_low) {
ASSERT(src0.IsImmediate() && src0.U32() == ~0U && src1.IsImmediate() && src1.U32() == 0U);
const auto [warp_half, mask_shift] = [&]() -> std::pair<IR::U32, IR::U32> { return;
if (profile.subgroup_size == 32) {
const IR::U32 warp_half = ir.BitwiseAnd(ir.WarpId(), ir.Imm32(1));
return std::make_pair(warp_half, lane_id);
} }
const IR::U32 warp_half = ir.ShiftRightLogical(lane_id, ir.Imm32(5)); ASSERT(src0.IsImmediate() && src0.U32() == ~0U);
const IR::U32 mask_shift = ir.BitwiseAnd(lane_id, ir.Imm32(0x1F)); SetDst(inst.dst[0], ir.LaneId());
return std::make_pair(warp_half, mask_shift);
}();
const IR::U32 thread_mask = ir.ISub(ir.ShiftLeftLogical(ir.Imm32(1), mask_shift), ir.Imm32(1));
const IR::U1 is_odd_warp = ir.INotEqual(warp_half, ir.Imm32(0));
const IR::U32 mask = IR::U32{ir.Select(is_odd_warp, is_low ? ir.Imm32(~0U) : thread_mask,
is_low ? thread_mask : ir.Imm32(0))};
const IR::U32 masked_value = ir.BitwiseAnd(src0, mask);
const IR::U32 result = ir.IAdd(src1, ir.BitCount(masked_value));
SetDst(inst.dst[0], result);
} }
} // namespace Shader::Gcn } // namespace Shader::Gcn

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@ -6,7 +6,7 @@
#include <array> #include <array>
#include <condition_variable> #include <condition_variable>
#include <coroutine> #include <coroutine>
#include <functional> #include <exception>
#include <mutex> #include <mutex>
#include <span> #include <span>
#include <thread> #include <thread>
@ -1040,7 +1040,11 @@ private:
return {}; return {};
} }
void unhandled_exception() { void unhandled_exception() {
UNREACHABLE(); try {
std::rethrow_exception(std::current_exception());
} catch (const std::exception& e) {
UNREACHABLE_MSG("Unhandled exception: {}", e.what());
}
} }
void return_void() {} void return_void() {}
struct empty {}; struct empty {};

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@ -94,7 +94,9 @@ bool ComputePipeline::BindResources(Core::MemoryManager* memory, StreamBuffer& s
const auto vsharp = buffer.GetVsharp(info); const auto vsharp = buffer.GetVsharp(info);
const u32 size = vsharp.GetSize(); const u32 size = vsharp.GetSize();
const VAddr address = vsharp.base_address; const VAddr address = vsharp.base_address;
if (buffer.is_storage) {
texture_cache.OnCpuWrite(address); texture_cache.OnCpuWrite(address);
}
const u32 offset = staging.Copy(address, size, const u32 offset = staging.Copy(address, size,
buffer.is_storage ? instance.StorageMinAlignment() buffer.is_storage ? instance.StorageMinAlignment()
: instance.UniformMinAlignment()); : instance.UniformMinAlignment());