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// Copyright 2021 yuzu Emulator Project
// Licensed under GPLv2 or any later version
// Refer to the license.txt file included.

#include "shader_recompiler/backend/spirv/emit_spirv.h"
#include "shader_recompiler/backend/spirv/emit_spirv_instructions.h"

namespace Shader::Backend::SPIRV {
namespace {
Id SharedPointer(EmitContext& ctx, Id offset, u32 index_offset = 0) {
    const Id shift_id{ctx.Const(2U)};
    Id index{ctx.OpShiftRightArithmetic(ctx.U32[1], offset, shift_id)};
    if (index_offset > 0) {
        index = ctx.OpIAdd(ctx.U32[1], index, ctx.Const(index_offset));
    }
    return ctx.profile.support_explicit_workgroup_layout
               ? ctx.OpAccessChain(ctx.shared_u32, ctx.shared_memory_u32, ctx.u32_zero_value, index)
               : ctx.OpAccessChain(ctx.shared_u32, ctx.shared_memory_u32, index);
}

Id StorageIndex(EmitContext& ctx, const IR::Value& offset, size_t element_size) {
    if (offset.IsImmediate()) {
        const u32 imm_offset{static_cast<u32>(offset.U32() / element_size)};
        return ctx.Const(imm_offset);
    }
    const u32 shift{static_cast<u32>(std::countr_zero(element_size))};
    const Id index{ctx.Def(offset)};
    if (shift == 0) {
        return index;
    }
    const Id shift_id{ctx.Const(shift)};
    return ctx.OpShiftRightLogical(ctx.U32[1], index, shift_id);
}

Id StoragePointer(EmitContext& ctx, const StorageTypeDefinition& type_def,
                  Id StorageDefinitions::*member_ptr, const IR::Value& binding,
                  const IR::Value& offset, size_t element_size) {
    if (!binding.IsImmediate()) {
        throw NotImplementedException("Dynamic storage buffer indexing");
    }
    const Id ssbo{ctx.ssbos[binding.U32()].*member_ptr};
    const Id index{StorageIndex(ctx, offset, element_size)};
    return ctx.OpAccessChain(type_def.element, ssbo, ctx.u32_zero_value, index);
}

std::pair<Id, Id> AtomicArgs(EmitContext& ctx) {
    const Id scope{ctx.Const(static_cast<u32>(spv::Scope::Device))};
    const Id semantics{ctx.u32_zero_value};
    return {scope, semantics};
}

Id SharedAtomicU32(EmitContext& ctx, Id offset, Id value,
                   Id (Sirit::Module::*atomic_func)(Id, Id, Id, Id, Id)) {
    const Id pointer{SharedPointer(ctx, offset)};
    const auto [scope, semantics]{AtomicArgs(ctx)};
    return (ctx.*atomic_func)(ctx.U32[1], pointer, scope, semantics, value);
}

Id StorageAtomicU32(EmitContext& ctx, const IR::Value& binding, const IR::Value& offset, Id value,
                    Id (Sirit::Module::*atomic_func)(Id, Id, Id, Id, Id)) {
    const Id pointer{StoragePointer(ctx, ctx.storage_types.U32, &StorageDefinitions::U32, binding,
                                    offset, sizeof(u32))};
    const auto [scope, semantics]{AtomicArgs(ctx)};
    return (ctx.*atomic_func)(ctx.U32[1], pointer, scope, semantics, value);
}

Id StorageAtomicU64(EmitContext& ctx, const IR::Value& binding, const IR::Value& offset, Id value,
                    Id (Sirit::Module::*atomic_func)(Id, Id, Id, Id, Id),
                    Id (Sirit::Module::*non_atomic_func)(Id, Id, Id)) {
    if (ctx.profile.support_int64_atomics) {
        const Id pointer{StoragePointer(ctx, ctx.storage_types.U64, &StorageDefinitions::U64,
                                        binding, offset, sizeof(u64))};
        const auto [scope, semantics]{AtomicArgs(ctx)};
        return (ctx.*atomic_func)(ctx.U64, pointer, scope, semantics, value);
    }
    // LOG_WARNING(..., "Int64 Atomics not supported, fallback to non-atomic");
    const Id pointer{StoragePointer(ctx, ctx.storage_types.U32x2, &StorageDefinitions::U32x2,
                                    binding, offset, sizeof(u32[2]))};
    const Id original_value{ctx.OpBitcast(ctx.U64, ctx.OpLoad(ctx.U32[2], pointer))};
    const Id result{(ctx.*non_atomic_func)(ctx.U64, value, original_value)};
    ctx.OpStore(pointer, ctx.OpBitcast(ctx.U32[2], result));
    return original_value;
}
} // Anonymous namespace

Id EmitSharedAtomicIAdd32(EmitContext& ctx, Id offset, Id value) {
    return SharedAtomicU32(ctx, offset, value, &Sirit::Module::OpAtomicIAdd);
}

Id EmitSharedAtomicSMin32(EmitContext& ctx, Id offset, Id value) {
    return SharedAtomicU32(ctx, offset, value, &Sirit::Module::OpAtomicSMin);
}

Id EmitSharedAtomicUMin32(EmitContext& ctx, Id offset, Id value) {
    return SharedAtomicU32(ctx, offset, value, &Sirit::Module::OpAtomicUMin);
}

Id EmitSharedAtomicSMax32(EmitContext& ctx, Id offset, Id value) {
    return SharedAtomicU32(ctx, offset, value, &Sirit::Module::OpAtomicSMax);
}

Id EmitSharedAtomicUMax32(EmitContext& ctx, Id offset, Id value) {
    return SharedAtomicU32(ctx, offset, value, &Sirit::Module::OpAtomicUMax);
}

Id EmitSharedAtomicInc32(EmitContext& ctx, Id offset, Id value) {
    const Id shift_id{ctx.Const(2U)};
    const Id index{ctx.OpShiftRightArithmetic(ctx.U32[1], offset, shift_id)};
    return ctx.OpFunctionCall(ctx.U32[1], ctx.increment_cas_shared, index, value);
}

Id EmitSharedAtomicDec32(EmitContext& ctx, Id offset, Id value) {
    const Id shift_id{ctx.Const(2U)};
    const Id index{ctx.OpShiftRightArithmetic(ctx.U32[1], offset, shift_id)};
    return ctx.OpFunctionCall(ctx.U32[1], ctx.decrement_cas_shared, index, value);
}

Id EmitSharedAtomicAnd32(EmitContext& ctx, Id offset, Id value) {
    return SharedAtomicU32(ctx, offset, value, &Sirit::Module::OpAtomicAnd);
}

Id EmitSharedAtomicOr32(EmitContext& ctx, Id offset, Id value) {
    return SharedAtomicU32(ctx, offset, value, &Sirit::Module::OpAtomicOr);
}

Id EmitSharedAtomicXor32(EmitContext& ctx, Id offset, Id value) {
    return SharedAtomicU32(ctx, offset, value, &Sirit::Module::OpAtomicXor);
}

Id EmitSharedAtomicExchange32(EmitContext& ctx, Id offset, Id value) {
    return SharedAtomicU32(ctx, offset, value, &Sirit::Module::OpAtomicExchange);
}

Id EmitSharedAtomicExchange64(EmitContext& ctx, Id offset, Id value) {
    if (ctx.profile.support_int64_atomics && ctx.profile.support_explicit_workgroup_layout) {
        const Id shift_id{ctx.Const(3U)};
        const Id index{ctx.OpShiftRightArithmetic(ctx.U32[1], offset, shift_id)};
        const Id pointer{
            ctx.OpAccessChain(ctx.shared_u64, ctx.shared_memory_u64, ctx.u32_zero_value, index)};
        const auto [scope, semantics]{AtomicArgs(ctx)};
        return ctx.OpAtomicExchange(ctx.U64, pointer, scope, semantics, value);
    }
    // LOG_WARNING("Int64 Atomics not supported, fallback to non-atomic");
    const Id pointer_1{SharedPointer(ctx, offset, 0)};
    const Id pointer_2{SharedPointer(ctx, offset, 1)};
    const Id value_1{ctx.OpLoad(ctx.U32[1], pointer_1)};
    const Id value_2{ctx.OpLoad(ctx.U32[1], pointer_2)};
    const Id new_vector{ctx.OpBitcast(ctx.U32[2], value)};
    ctx.OpStore(pointer_1, ctx.OpCompositeExtract(ctx.U32[1], new_vector, 0U));
    ctx.OpStore(pointer_2, ctx.OpCompositeExtract(ctx.U32[1], new_vector, 1U));
    return ctx.OpBitcast(ctx.U64, ctx.OpCompositeConstruct(ctx.U32[2], value_1, value_2));
}

Id EmitStorageAtomicIAdd32(EmitContext& ctx, const IR::Value& binding, const IR::Value& offset,
                           Id value) {
    return StorageAtomicU32(ctx, binding, offset, value, &Sirit::Module::OpAtomicIAdd);
}

Id EmitStorageAtomicSMin32(EmitContext& ctx, const IR::Value& binding, const IR::Value& offset,
                           Id value) {
    return StorageAtomicU32(ctx, binding, offset, value, &Sirit::Module::OpAtomicSMin);
}

Id EmitStorageAtomicUMin32(EmitContext& ctx, const IR::Value& binding, const IR::Value& offset,
                           Id value) {
    return StorageAtomicU32(ctx, binding, offset, value, &Sirit::Module::OpAtomicUMin);
}

Id EmitStorageAtomicSMax32(EmitContext& ctx, const IR::Value& binding, const IR::Value& offset,
                           Id value) {
    return StorageAtomicU32(ctx, binding, offset, value, &Sirit::Module::OpAtomicSMax);
}

Id EmitStorageAtomicUMax32(EmitContext& ctx, const IR::Value& binding, const IR::Value& offset,
                           Id value) {
    return StorageAtomicU32(ctx, binding, offset, value, &Sirit::Module::OpAtomicUMax);
}

Id EmitStorageAtomicInc32(EmitContext& ctx, const IR::Value& binding, const IR::Value& offset,
                          Id value) {
    const Id ssbo{ctx.ssbos[binding.U32()].U32};
    const Id base_index{StorageIndex(ctx, offset, sizeof(u32))};
    return ctx.OpFunctionCall(ctx.U32[1], ctx.increment_cas_ssbo, base_index, value, ssbo);
}

Id EmitStorageAtomicDec32(EmitContext& ctx, const IR::Value& binding, const IR::Value& offset,
                          Id value) {
    const Id ssbo{ctx.ssbos[binding.U32()].U32};
    const Id base_index{StorageIndex(ctx, offset, sizeof(u32))};
    return ctx.OpFunctionCall(ctx.U32[1], ctx.decrement_cas_ssbo, base_index, value, ssbo);
}

Id EmitStorageAtomicAnd32(EmitContext& ctx, const IR::Value& binding, const IR::Value& offset,
                          Id value) {
    return StorageAtomicU32(ctx, binding, offset, value, &Sirit::Module::OpAtomicAnd);
}

Id EmitStorageAtomicOr32(EmitContext& ctx, const IR::Value& binding, const IR::Value& offset,
                         Id value) {
    return StorageAtomicU32(ctx, binding, offset, value, &Sirit::Module::OpAtomicOr);
}

Id EmitStorageAtomicXor32(EmitContext& ctx, const IR::Value& binding, const IR::Value& offset,
                          Id value) {
    return StorageAtomicU32(ctx, binding, offset, value, &Sirit::Module::OpAtomicXor);
}

Id EmitStorageAtomicExchange32(EmitContext& ctx, const IR::Value& binding, const IR::Value& offset,
                               Id value) {
    return StorageAtomicU32(ctx, binding, offset, value, &Sirit::Module::OpAtomicExchange);
}

Id EmitStorageAtomicIAdd64(EmitContext& ctx, const IR::Value& binding, const IR::Value& offset,
                           Id value) {
    return StorageAtomicU64(ctx, binding, offset, value, &Sirit::Module::OpAtomicIAdd,
                            &Sirit::Module::OpIAdd);
}

Id EmitStorageAtomicSMin64(EmitContext& ctx, const IR::Value& binding, const IR::Value& offset,
                           Id value) {
    return StorageAtomicU64(ctx, binding, offset, value, &Sirit::Module::OpAtomicSMin,
                            &Sirit::Module::OpSMin);
}

Id EmitStorageAtomicUMin64(EmitContext& ctx, const IR::Value& binding, const IR::Value& offset,
                           Id value) {
    return StorageAtomicU64(ctx, binding, offset, value, &Sirit::Module::OpAtomicUMin,
                            &Sirit::Module::OpUMin);
}

Id EmitStorageAtomicSMax64(EmitContext& ctx, const IR::Value& binding, const IR::Value& offset,
                           Id value) {
    return StorageAtomicU64(ctx, binding, offset, value, &Sirit::Module::OpAtomicSMax,
                            &Sirit::Module::OpSMax);
}

Id EmitStorageAtomicUMax64(EmitContext& ctx, const IR::Value& binding, const IR::Value& offset,
                           Id value) {
    return StorageAtomicU64(ctx, binding, offset, value, &Sirit::Module::OpAtomicUMax,
                            &Sirit::Module::OpUMax);
}

Id EmitStorageAtomicAnd64(EmitContext& ctx, const IR::Value& binding, const IR::Value& offset,
                          Id value) {
    return StorageAtomicU64(ctx, binding, offset, value, &Sirit::Module::OpAtomicAnd,
                            &Sirit::Module::OpBitwiseAnd);
}

Id EmitStorageAtomicOr64(EmitContext& ctx, const IR::Value& binding, const IR::Value& offset,
                         Id value) {
    return StorageAtomicU64(ctx, binding, offset, value, &Sirit::Module::OpAtomicOr,
                            &Sirit::Module::OpBitwiseOr);
}

Id EmitStorageAtomicXor64(EmitContext& ctx, const IR::Value& binding, const IR::Value& offset,
                          Id value) {
    return StorageAtomicU64(ctx, binding, offset, value, &Sirit::Module::OpAtomicXor,
                            &Sirit::Module::OpBitwiseXor);
}

Id EmitStorageAtomicExchange64(EmitContext& ctx, const IR::Value& binding, const IR::Value& offset,
                               Id value) {
    if (ctx.profile.support_int64_atomics) {
        const Id pointer{StoragePointer(ctx, ctx.storage_types.U64, &StorageDefinitions::U64,
                                        binding, offset, sizeof(u64))};
        const auto [scope, semantics]{AtomicArgs(ctx)};
        return ctx.OpAtomicExchange(ctx.U64, pointer, scope, semantics, value);
    }
    // LOG_WARNING(..., "Int64 Atomics not supported, fallback to non-atomic");
    const Id pointer{StoragePointer(ctx, ctx.storage_types.U32x2, &StorageDefinitions::U32x2,
                                    binding, offset, sizeof(u32[2]))};
    const Id original{ctx.OpBitcast(ctx.U64, ctx.OpLoad(ctx.U32[2], pointer))};
    ctx.OpStore(pointer, value);
    return original;
}

Id EmitStorageAtomicAddF32(EmitContext& ctx, const IR::Value& binding, const IR::Value& offset,
                           Id value) {
    const Id ssbo{ctx.ssbos[binding.U32()].U32};
    const Id base_index{StorageIndex(ctx, offset, sizeof(u32))};
    return ctx.OpFunctionCall(ctx.F32[1], ctx.f32_add_cas, base_index, value, ssbo);
}

Id EmitStorageAtomicAddF16x2(EmitContext& ctx, const IR::Value& binding, const IR::Value& offset,
                             Id value) {
    const Id ssbo{ctx.ssbos[binding.U32()].U32};
    const Id base_index{StorageIndex(ctx, offset, sizeof(u32))};
    const Id result{ctx.OpFunctionCall(ctx.F16[2], ctx.f16x2_add_cas, base_index, value, ssbo)};
    return ctx.OpBitcast(ctx.U32[1], result);
}

Id EmitStorageAtomicAddF32x2(EmitContext& ctx, const IR::Value& binding, const IR::Value& offset,
                             Id value) {
    const Id ssbo{ctx.ssbos[binding.U32()].U32};
    const Id base_index{StorageIndex(ctx, offset, sizeof(u32))};
    const Id result{ctx.OpFunctionCall(ctx.F32[2], ctx.f32x2_add_cas, base_index, value, ssbo)};
    return ctx.OpPackHalf2x16(ctx.U32[1], result);
}

Id EmitStorageAtomicMinF16x2(EmitContext& ctx, const IR::Value& binding, const IR::Value& offset,
                             Id value) {
    const Id ssbo{ctx.ssbos[binding.U32()].U32};
    const Id base_index{StorageIndex(ctx, offset, sizeof(u32))};
    const Id result{ctx.OpFunctionCall(ctx.F16[2], ctx.f16x2_min_cas, base_index, value, ssbo)};
    return ctx.OpBitcast(ctx.U32[1], result);
}

Id EmitStorageAtomicMinF32x2(EmitContext& ctx, const IR::Value& binding, const IR::Value& offset,
                             Id value) {
    const Id ssbo{ctx.ssbos[binding.U32()].U32};
    const Id base_index{StorageIndex(ctx, offset, sizeof(u32))};
    const Id result{ctx.OpFunctionCall(ctx.F32[2], ctx.f32x2_min_cas, base_index, value, ssbo)};
    return ctx.OpPackHalf2x16(ctx.U32[1], result);
}

Id EmitStorageAtomicMaxF16x2(EmitContext& ctx, const IR::Value& binding, const IR::Value& offset,
                             Id value) {
    const Id ssbo{ctx.ssbos[binding.U32()].U32};
    const Id base_index{StorageIndex(ctx, offset, sizeof(u32))};
    const Id result{ctx.OpFunctionCall(ctx.F16[2], ctx.f16x2_max_cas, base_index, value, ssbo)};
    return ctx.OpBitcast(ctx.U32[1], result);
}

Id EmitStorageAtomicMaxF32x2(EmitContext& ctx, const IR::Value& binding, const IR::Value& offset,
                             Id value) {
    const Id ssbo{ctx.ssbos[binding.U32()].U32};
    const Id base_index{StorageIndex(ctx, offset, sizeof(u32))};
    const Id result{ctx.OpFunctionCall(ctx.F32[2], ctx.f32x2_max_cas, base_index, value, ssbo)};
    return ctx.OpPackHalf2x16(ctx.U32[1], result);
}

Id EmitGlobalAtomicIAdd32(EmitContext&) {
    throw NotImplementedException("SPIR-V Instruction");
}

Id EmitGlobalAtomicSMin32(EmitContext&) {
    throw NotImplementedException("SPIR-V Instruction");
}

Id EmitGlobalAtomicUMin32(EmitContext&) {
    throw NotImplementedException("SPIR-V Instruction");
}

Id EmitGlobalAtomicSMax32(EmitContext&) {
    throw NotImplementedException("SPIR-V Instruction");
}

Id EmitGlobalAtomicUMax32(EmitContext&) {
    throw NotImplementedException("SPIR-V Instruction");
}

Id EmitGlobalAtomicInc32(EmitContext&) {
    throw NotImplementedException("SPIR-V Instruction");
}

Id EmitGlobalAtomicDec32(EmitContext&) {
    throw NotImplementedException("SPIR-V Instruction");
}

Id EmitGlobalAtomicAnd32(EmitContext&) {
    throw NotImplementedException("SPIR-V Instruction");
}

Id EmitGlobalAtomicOr32(EmitContext&) {
    throw NotImplementedException("SPIR-V Instruction");
}

Id EmitGlobalAtomicXor32(EmitContext&) {
    throw NotImplementedException("SPIR-V Instruction");
}

Id EmitGlobalAtomicExchange32(EmitContext&) {
    throw NotImplementedException("SPIR-V Instruction");
}

Id EmitGlobalAtomicIAdd64(EmitContext&) {
    throw NotImplementedException("SPIR-V Instruction");
}

Id EmitGlobalAtomicSMin64(EmitContext&) {
    throw NotImplementedException("SPIR-V Instruction");
}

Id EmitGlobalAtomicUMin64(EmitContext&) {
    throw NotImplementedException("SPIR-V Instruction");
}

Id EmitGlobalAtomicSMax64(EmitContext&) {
    throw NotImplementedException("SPIR-V Instruction");
}

Id EmitGlobalAtomicUMax64(EmitContext&) {
    throw NotImplementedException("SPIR-V Instruction");
}

Id EmitGlobalAtomicInc64(EmitContext&) {
    throw NotImplementedException("SPIR-V Instruction");
}

Id EmitGlobalAtomicDec64(EmitContext&) {
    throw NotImplementedException("SPIR-V Instruction");
}

Id EmitGlobalAtomicAnd64(EmitContext&) {
    throw NotImplementedException("SPIR-V Instruction");
}

Id EmitGlobalAtomicOr64(EmitContext&) {
    throw NotImplementedException("SPIR-V Instruction");
}

Id EmitGlobalAtomicXor64(EmitContext&) {
    throw NotImplementedException("SPIR-V Instruction");
}

Id EmitGlobalAtomicExchange64(EmitContext&) {
    throw NotImplementedException("SPIR-V Instruction");
}

Id EmitGlobalAtomicAddF32(EmitContext&) {
    throw NotImplementedException("SPIR-V Instruction");
}

Id EmitGlobalAtomicAddF16x2(EmitContext&) {
    throw NotImplementedException("SPIR-V Instruction");
}

Id EmitGlobalAtomicAddF32x2(EmitContext&) {
    throw NotImplementedException("SPIR-V Instruction");
}

Id EmitGlobalAtomicMinF16x2(EmitContext&) {
    throw NotImplementedException("SPIR-V Instruction");
}

Id EmitGlobalAtomicMinF32x2(EmitContext&) {
    throw NotImplementedException("SPIR-V Instruction");
}

Id EmitGlobalAtomicMaxF16x2(EmitContext&) {
    throw NotImplementedException("SPIR-V Instruction");
}

Id EmitGlobalAtomicMaxF32x2(EmitContext&) {
    throw NotImplementedException("SPIR-V Instruction");
}

} // namespace Shader::Backend::SPIRV