// C++/WinRT v2.0.250303.1

// Copyright (c) Microsoft Corporation. All rights reserved.
// Licensed under the MIT License.

#pragma once
#ifndef WINRT_Windows_System_Power_Thermal_H
#define WINRT_Windows_System_Power_Thermal_H
#include "winrt/base.h"
static_assert(winrt::check_version(CPPWINRT_VERSION, "2.0.250303.1"), "Mismatched C++/WinRT headers.");
#define CPPWINRT_VERSION "2.0.250303.1"
#include "winrt/Windows.System.Power.h"
#include "winrt/impl/Windows.Foundation.2.h"
#include "winrt/impl/Windows.Foundation.Collections.2.h"
#include "winrt/impl/Windows.System.Power.Thermal.2.h"
namespace winrt::impl
{
    template <typename D> auto consume_Windows_System_Power_Thermal_IPowerThermalChannelConfiguration<D>::Id() const
    {
        winrt::Windows::System::Power::Thermal::PowerThermalChannelId value{};
        if constexpr (!std::is_same_v<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelConfiguration>)
        {
            winrt::hresult _winrt_cast_result_code;
            auto const _winrt_casted_result = impl::try_as_with_reason<winrt::Windows::System::Power::Thermal::IPowerThermalChannelConfiguration, D const*>(static_cast<D const*>(this), _winrt_cast_result_code);
            check_hresult(_winrt_cast_result_code);
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelConfiguration>**)&_winrt_casted_result;
            check_hresult(_winrt_abi_type->get_Id(put_abi(value)));
        }
        else
        {
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelConfiguration>**)this;
            check_hresult(_winrt_abi_type->get_Id(put_abi(value)));
        }
        return value;
    }
    template <typename D> auto consume_Windows_System_Power_Thermal_IPowerThermalChannelConfiguration<D>::ConfigurationString() const
    {
        void* value{};
        if constexpr (!std::is_same_v<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelConfiguration>)
        {
            winrt::hresult _winrt_cast_result_code;
            auto const _winrt_casted_result = impl::try_as_with_reason<winrt::Windows::System::Power::Thermal::IPowerThermalChannelConfiguration, D const*>(static_cast<D const*>(this), _winrt_cast_result_code);
            check_hresult(_winrt_cast_result_code);
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelConfiguration>**)&_winrt_casted_result;
            check_hresult(_winrt_abi_type->get_ConfigurationString(&value));
        }
        else
        {
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelConfiguration>**)this;
            check_hresult(_winrt_abi_type->get_ConfigurationString(&value));
        }
        return hstring{ value, take_ownership_from_abi };
    }
    template <typename D> auto consume_Windows_System_Power_Thermal_IPowerThermalChannelConfiguration<D>::GetConfigurationNumericParameters() const
    {
        uint32_t result_impl_size{};
        int32_t* result{};
        if constexpr (!std::is_same_v<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelConfiguration>)
        {
            winrt::hresult _winrt_cast_result_code;
            auto const _winrt_casted_result = impl::try_as_with_reason<winrt::Windows::System::Power::Thermal::IPowerThermalChannelConfiguration, D const*>(static_cast<D const*>(this), _winrt_cast_result_code);
            check_hresult(_winrt_cast_result_code);
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelConfiguration>**)&_winrt_casted_result;
            check_hresult(_winrt_abi_type->GetConfigurationNumericParameters(&result_impl_size, &result));
        }
        else
        {
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelConfiguration>**)this;
            check_hresult(_winrt_abi_type->GetConfigurationNumericParameters(&result_impl_size, &result));
        }
        return com_array<int32_t>{ result, result_impl_size, take_ownership_from_abi };
    }
    template <typename D> auto consume_Windows_System_Power_Thermal_IPowerThermalChannelDataConsumer<D>::GetChannelIds() const
    {
        uint32_t result_impl_size{};
        struct struct_Windows_System_Power_Thermal_PowerThermalChannelId* result{};
        if constexpr (!std::is_same_v<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer>)
        {
            winrt::hresult _winrt_cast_result_code;
            auto const _winrt_casted_result = impl::try_as_with_reason<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer, D const*>(static_cast<D const*>(this), _winrt_cast_result_code);
            check_hresult(_winrt_cast_result_code);
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer>**)&_winrt_casted_result;
            check_hresult(_winrt_abi_type->GetChannelIds(&result_impl_size, &result));
        }
        else
        {
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer>**)this;
            check_hresult(_winrt_abi_type->GetChannelIds(&result_impl_size, &result));
        }
        return com_array<winrt::Windows::System::Power::Thermal::PowerThermalChannelId>{ result, result_impl_size, take_ownership_from_abi };
    }
    template <typename D> auto consume_Windows_System_Power_Thermal_IPowerThermalChannelDataConsumer<D>::GetChannelConfigurations() const
    {
        void* result{};
        if constexpr (!std::is_same_v<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer>)
        {
            winrt::hresult _winrt_cast_result_code;
            auto const _winrt_casted_result = impl::try_as_with_reason<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer, D const*>(static_cast<D const*>(this), _winrt_cast_result_code);
            check_hresult(_winrt_cast_result_code);
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer>**)&_winrt_casted_result;
            check_hresult(_winrt_abi_type->GetChannelConfigurations(&result));
        }
        else
        {
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer>**)this;
            check_hresult(_winrt_abi_type->GetChannelConfigurations(&result));
        }
        return winrt::Windows::Foundation::Collections::IMapView<winrt::Windows::System::Power::Thermal::PowerThermalChannelId, winrt::Windows::System::Power::Thermal::PowerThermalChannelConfiguration>{ result, take_ownership_from_abi };
    }
    template <typename D> auto consume_Windows_System_Power_Thermal_IPowerThermalChannelDataConsumer<D>::Start() const
    {
        if constexpr (!std::is_same_v<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer>)
        {
            winrt::hresult _winrt_cast_result_code;
            auto const _winrt_casted_result = impl::try_as_with_reason<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer, D const*>(static_cast<D const*>(this), _winrt_cast_result_code);
            check_hresult(_winrt_cast_result_code);
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer>**)&_winrt_casted_result;
            check_hresult(_winrt_abi_type->Start());
        }
        else
        {
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer>**)this;
            check_hresult(_winrt_abi_type->Start());
        }
    }
    template <typename D> auto consume_Windows_System_Power_Thermal_IPowerThermalChannelDataConsumer<D>::Stop() const
    {
        if constexpr (!std::is_same_v<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer>)
        {
            winrt::hresult _winrt_cast_result_code;
            auto const _winrt_casted_result = impl::try_as_with_reason<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer, D const*>(static_cast<D const*>(this), _winrt_cast_result_code);
            check_hresult(_winrt_cast_result_code);
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer>**)&_winrt_casted_result;
            check_hresult(_winrt_abi_type->Stop());
        }
        else
        {
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer>**)this;
            check_hresult(_winrt_abi_type->Stop());
        }
    }
    template <typename D> auto consume_Windows_System_Power_Thermal_IPowerThermalChannelDataConsumer<D>::ChannelDataReceived(winrt::Windows::Foundation::TypedEventHandler<winrt::Windows::System::Power::Thermal::PowerThermalChannelDataConsumer, winrt::Windows::System::Power::Thermal::PowerThermalChannelDataReceivedEventArgs> const& handler) const
    {
        winrt::event_token token{};
        if constexpr (!std::is_same_v<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer>)
        {
            winrt::hresult _winrt_cast_result_code;
            auto const _winrt_casted_result = impl::try_as_with_reason<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer, D const*>(static_cast<D const*>(this), _winrt_cast_result_code);
            check_hresult(_winrt_cast_result_code);
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer>**)&_winrt_casted_result;
            check_hresult(_winrt_abi_type->add_ChannelDataReceived(*(void**)(&handler), put_abi(token)));
        }
        else
        {
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer>**)this;
            check_hresult(_winrt_abi_type->add_ChannelDataReceived(*(void**)(&handler), put_abi(token)));
        }
        return token;
    }
    template <typename D> auto consume_Windows_System_Power_Thermal_IPowerThermalChannelDataConsumer<D>::ChannelDataReceived(auto_revoke_t, winrt::Windows::Foundation::TypedEventHandler<winrt::Windows::System::Power::Thermal::PowerThermalChannelDataConsumer, winrt::Windows::System::Power::Thermal::PowerThermalChannelDataReceivedEventArgs> const& handler) const
    {
        return impl::make_event_revoker<D, ChannelDataReceived_revoker>(this, ChannelDataReceived(handler));
    }
    template <typename D> auto consume_Windows_System_Power_Thermal_IPowerThermalChannelDataConsumer<D>::ChannelDataReceived(winrt::event_token const& token) const noexcept
    {
        if constexpr (!std::is_same_v<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer>)
        {
            winrt::hresult _winrt_cast_result_code;
            auto const _winrt_casted_result = impl::try_as_with_reason<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer, D const*>(static_cast<D const*>(this), _winrt_cast_result_code);
            check_hresult(_winrt_cast_result_code);
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer>**)&_winrt_casted_result;
            _winrt_abi_type->remove_ChannelDataReceived(impl::bind_in(token));
        }
        else
        {
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer>**)this;
            _winrt_abi_type->remove_ChannelDataReceived(impl::bind_in(token));
        }
    }
    template <typename D> auto consume_Windows_System_Power_Thermal_IPowerThermalChannelDataConsumer<D>::BackEndStatus() const
    {
        winrt::Windows::System::Power::Thermal::PowerThermalBackEndStatus value{};
        if constexpr (!std::is_same_v<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer>)
        {
            winrt::hresult _winrt_cast_result_code;
            auto const _winrt_casted_result = impl::try_as_with_reason<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer, D const*>(static_cast<D const*>(this), _winrt_cast_result_code);
            check_hresult(_winrt_cast_result_code);
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer>**)&_winrt_casted_result;
            check_hresult(_winrt_abi_type->get_BackEndStatus(reinterpret_cast<int32_t*>(&value)));
        }
        else
        {
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer>**)this;
            check_hresult(_winrt_abi_type->get_BackEndStatus(reinterpret_cast<int32_t*>(&value)));
        }
        return value;
    }
    template <typename D> auto consume_Windows_System_Power_Thermal_IPowerThermalChannelDataConsumer<D>::BackEndStatusChanged(winrt::Windows::Foundation::TypedEventHandler<winrt::Windows::System::Power::Thermal::PowerThermalChannelDataConsumer, winrt::Windows::Foundation::IInspectable> const& handler) const
    {
        winrt::event_token token{};
        if constexpr (!std::is_same_v<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer>)
        {
            winrt::hresult _winrt_cast_result_code;
            auto const _winrt_casted_result = impl::try_as_with_reason<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer, D const*>(static_cast<D const*>(this), _winrt_cast_result_code);
            check_hresult(_winrt_cast_result_code);
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer>**)&_winrt_casted_result;
            check_hresult(_winrt_abi_type->add_BackEndStatusChanged(*(void**)(&handler), put_abi(token)));
        }
        else
        {
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer>**)this;
            check_hresult(_winrt_abi_type->add_BackEndStatusChanged(*(void**)(&handler), put_abi(token)));
        }
        return token;
    }
    template <typename D> auto consume_Windows_System_Power_Thermal_IPowerThermalChannelDataConsumer<D>::BackEndStatusChanged(auto_revoke_t, winrt::Windows::Foundation::TypedEventHandler<winrt::Windows::System::Power::Thermal::PowerThermalChannelDataConsumer, winrt::Windows::Foundation::IInspectable> const& handler) const
    {
        return impl::make_event_revoker<D, BackEndStatusChanged_revoker>(this, BackEndStatusChanged(handler));
    }
    template <typename D> auto consume_Windows_System_Power_Thermal_IPowerThermalChannelDataConsumer<D>::BackEndStatusChanged(winrt::event_token const& token) const noexcept
    {
        if constexpr (!std::is_same_v<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer>)
        {
            winrt::hresult _winrt_cast_result_code;
            auto const _winrt_casted_result = impl::try_as_with_reason<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer, D const*>(static_cast<D const*>(this), _winrt_cast_result_code);
            check_hresult(_winrt_cast_result_code);
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer>**)&_winrt_casted_result;
            _winrt_abi_type->remove_BackEndStatusChanged(impl::bind_in(token));
        }
        else
        {
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer>**)this;
            _winrt_abi_type->remove_BackEndStatusChanged(impl::bind_in(token));
        }
    }
    template <typename D> auto consume_Windows_System_Power_Thermal_IPowerThermalChannelDataConsumerFactory<D>::CreateInstance(array_view<winrt::Windows::System::Power::Thermal::PowerThermalChannelId const> channelIds) const
    {
        void* value{};
        if constexpr (!std::is_same_v<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumerFactory>)
        {
            winrt::hresult _winrt_cast_result_code;
            auto const _winrt_casted_result = impl::try_as_with_reason<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumerFactory, D const*>(static_cast<D const*>(this), _winrt_cast_result_code);
            check_hresult(_winrt_cast_result_code);
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumerFactory>**)&_winrt_casted_result;
            check_hresult(_winrt_abi_type->CreateInstance(channelIds.size(), get_abi(channelIds), &value));
        }
        else
        {
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumerFactory>**)this;
            check_hresult(_winrt_abi_type->CreateInstance(channelIds.size(), get_abi(channelIds), &value));
        }
        return winrt::Windows::System::Power::Thermal::PowerThermalChannelDataConsumer{ value, take_ownership_from_abi };
    }
    template <typename D> auto consume_Windows_System_Power_Thermal_IPowerThermalChannelDataProducer<D>::GetChannelIds() const
    {
        uint32_t result_impl_size{};
        struct struct_Windows_System_Power_Thermal_PowerThermalChannelId* result{};
        if constexpr (!std::is_same_v<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer>)
        {
            winrt::hresult _winrt_cast_result_code;
            auto const _winrt_casted_result = impl::try_as_with_reason<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer, D const*>(static_cast<D const*>(this), _winrt_cast_result_code);
            check_hresult(_winrt_cast_result_code);
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer>**)&_winrt_casted_result;
            check_hresult(_winrt_abi_type->GetChannelIds(&result_impl_size, &result));
        }
        else
        {
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer>**)this;
            check_hresult(_winrt_abi_type->GetChannelIds(&result_impl_size, &result));
        }
        return com_array<winrt::Windows::System::Power::Thermal::PowerThermalChannelId>{ result, result_impl_size, take_ownership_from_abi };
    }
    template <typename D> auto consume_Windows_System_Power_Thermal_IPowerThermalChannelDataProducer<D>::GetChannelConfigurations() const
    {
        void* result{};
        if constexpr (!std::is_same_v<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer>)
        {
            winrt::hresult _winrt_cast_result_code;
            auto const _winrt_casted_result = impl::try_as_with_reason<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer, D const*>(static_cast<D const*>(this), _winrt_cast_result_code);
            check_hresult(_winrt_cast_result_code);
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer>**)&_winrt_casted_result;
            check_hresult(_winrt_abi_type->GetChannelConfigurations(&result));
        }
        else
        {
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer>**)this;
            check_hresult(_winrt_abi_type->GetChannelConfigurations(&result));
        }
        return winrt::Windows::Foundation::Collections::IMapView<winrt::Windows::System::Power::Thermal::PowerThermalChannelId, winrt::Windows::System::Power::Thermal::PowerThermalChannelConfiguration>{ result, take_ownership_from_abi };
    }
    template <typename D> auto consume_Windows_System_Power_Thermal_IPowerThermalChannelDataProducer<D>::DisableChannel(winrt::Windows::System::Power::Thermal::PowerThermalChannelId const& channelId) const
    {
        if constexpr (!std::is_same_v<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer>)
        {
            winrt::hresult _winrt_cast_result_code;
            auto const _winrt_casted_result = impl::try_as_with_reason<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer, D const*>(static_cast<D const*>(this), _winrt_cast_result_code);
            check_hresult(_winrt_cast_result_code);
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer>**)&_winrt_casted_result;
            check_hresult(_winrt_abi_type->DisableChannel(impl::bind_in(channelId)));
        }
        else
        {
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer>**)this;
            check_hresult(_winrt_abi_type->DisableChannel(impl::bind_in(channelId)));
        }
    }
    template <typename D> auto consume_Windows_System_Power_Thermal_IPowerThermalChannelDataProducer<D>::Start() const
    {
        if constexpr (!std::is_same_v<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer>)
        {
            winrt::hresult _winrt_cast_result_code;
            auto const _winrt_casted_result = impl::try_as_with_reason<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer, D const*>(static_cast<D const*>(this), _winrt_cast_result_code);
            check_hresult(_winrt_cast_result_code);
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer>**)&_winrt_casted_result;
            check_hresult(_winrt_abi_type->Start());
        }
        else
        {
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer>**)this;
            check_hresult(_winrt_abi_type->Start());
        }
    }
    template <typename D> auto consume_Windows_System_Power_Thermal_IPowerThermalChannelDataProducer<D>::Stop() const
    {
        if constexpr (!std::is_same_v<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer>)
        {
            winrt::hresult _winrt_cast_result_code;
            auto const _winrt_casted_result = impl::try_as_with_reason<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer, D const*>(static_cast<D const*>(this), _winrt_cast_result_code);
            check_hresult(_winrt_cast_result_code);
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer>**)&_winrt_casted_result;
            check_hresult(_winrt_abi_type->Stop());
        }
        else
        {
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer>**)this;
            check_hresult(_winrt_abi_type->Stop());
        }
    }
    template <typename D> auto consume_Windows_System_Power_Thermal_IPowerThermalChannelDataProducer<D>::PublishInputChannelData(array_view<winrt::Windows::System::Power::Thermal::PowerThermalChannelData const> data) const
    {
        if constexpr (!std::is_same_v<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer>)
        {
            winrt::hresult _winrt_cast_result_code;
            auto const _winrt_casted_result = impl::try_as_with_reason<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer, D const*>(static_cast<D const*>(this), _winrt_cast_result_code);
            check_hresult(_winrt_cast_result_code);
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer>**)&_winrt_casted_result;
            check_hresult(_winrt_abi_type->PublishInputChannelData(data.size(), get_abi(data)));
        }
        else
        {
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer>**)this;
            check_hresult(_winrt_abi_type->PublishInputChannelData(data.size(), get_abi(data)));
        }
    }
    template <typename D> auto consume_Windows_System_Power_Thermal_IPowerThermalChannelDataProducer<D>::BackEndStatus() const
    {
        winrt::Windows::System::Power::Thermal::PowerThermalBackEndStatus value{};
        if constexpr (!std::is_same_v<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer>)
        {
            winrt::hresult _winrt_cast_result_code;
            auto const _winrt_casted_result = impl::try_as_with_reason<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer, D const*>(static_cast<D const*>(this), _winrt_cast_result_code);
            check_hresult(_winrt_cast_result_code);
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer>**)&_winrt_casted_result;
            check_hresult(_winrt_abi_type->get_BackEndStatus(reinterpret_cast<int32_t*>(&value)));
        }
        else
        {
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer>**)this;
            check_hresult(_winrt_abi_type->get_BackEndStatus(reinterpret_cast<int32_t*>(&value)));
        }
        return value;
    }
    template <typename D> auto consume_Windows_System_Power_Thermal_IPowerThermalChannelDataProducer<D>::BackEndStatusChanged(winrt::Windows::Foundation::TypedEventHandler<winrt::Windows::System::Power::Thermal::PowerThermalChannelDataProducer, winrt::Windows::Foundation::IInspectable> const& handler) const
    {
        winrt::event_token token{};
        if constexpr (!std::is_same_v<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer>)
        {
            winrt::hresult _winrt_cast_result_code;
            auto const _winrt_casted_result = impl::try_as_with_reason<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer, D const*>(static_cast<D const*>(this), _winrt_cast_result_code);
            check_hresult(_winrt_cast_result_code);
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer>**)&_winrt_casted_result;
            check_hresult(_winrt_abi_type->add_BackEndStatusChanged(*(void**)(&handler), put_abi(token)));
        }
        else
        {
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer>**)this;
            check_hresult(_winrt_abi_type->add_BackEndStatusChanged(*(void**)(&handler), put_abi(token)));
        }
        return token;
    }
    template <typename D> auto consume_Windows_System_Power_Thermal_IPowerThermalChannelDataProducer<D>::BackEndStatusChanged(auto_revoke_t, winrt::Windows::Foundation::TypedEventHandler<winrt::Windows::System::Power::Thermal::PowerThermalChannelDataProducer, winrt::Windows::Foundation::IInspectable> const& handler) const
    {
        return impl::make_event_revoker<D, BackEndStatusChanged_revoker>(this, BackEndStatusChanged(handler));
    }
    template <typename D> auto consume_Windows_System_Power_Thermal_IPowerThermalChannelDataProducer<D>::BackEndStatusChanged(winrt::event_token const& token) const noexcept
    {
        if constexpr (!std::is_same_v<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer>)
        {
            winrt::hresult _winrt_cast_result_code;
            auto const _winrt_casted_result = impl::try_as_with_reason<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer, D const*>(static_cast<D const*>(this), _winrt_cast_result_code);
            check_hresult(_winrt_cast_result_code);
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer>**)&_winrt_casted_result;
            _winrt_abi_type->remove_BackEndStatusChanged(impl::bind_in(token));
        }
        else
        {
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer>**)this;
            _winrt_abi_type->remove_BackEndStatusChanged(impl::bind_in(token));
        }
    }
    template <typename D> auto consume_Windows_System_Power_Thermal_IPowerThermalChannelDataProducerFactory<D>::CreateInstance(array_view<winrt::Windows::System::Power::Thermal::PowerThermalChannelId const> channelIds) const
    {
        void* value{};
        if constexpr (!std::is_same_v<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducerFactory>)
        {
            winrt::hresult _winrt_cast_result_code;
            auto const _winrt_casted_result = impl::try_as_with_reason<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducerFactory, D const*>(static_cast<D const*>(this), _winrt_cast_result_code);
            check_hresult(_winrt_cast_result_code);
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducerFactory>**)&_winrt_casted_result;
            check_hresult(_winrt_abi_type->CreateInstance(channelIds.size(), get_abi(channelIds), &value));
        }
        else
        {
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducerFactory>**)this;
            check_hresult(_winrt_abi_type->CreateInstance(channelIds.size(), get_abi(channelIds), &value));
        }
        return winrt::Windows::System::Power::Thermal::PowerThermalChannelDataProducer{ value, take_ownership_from_abi };
    }
    template <typename D> auto consume_Windows_System_Power_Thermal_IPowerThermalChannelDataReceivedEventArgs<D>::GetData() const
    {
        uint32_t result_impl_size{};
        struct struct_Windows_System_Power_Thermal_PowerThermalChannelData* result{};
        if constexpr (!std::is_same_v<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataReceivedEventArgs>)
        {
            winrt::hresult _winrt_cast_result_code;
            auto const _winrt_casted_result = impl::try_as_with_reason<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataReceivedEventArgs, D const*>(static_cast<D const*>(this), _winrt_cast_result_code);
            check_hresult(_winrt_cast_result_code);
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataReceivedEventArgs>**)&_winrt_casted_result;
            check_hresult(_winrt_abi_type->GetData(&result_impl_size, &result));
        }
        else
        {
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataReceivedEventArgs>**)this;
            check_hresult(_winrt_abi_type->GetData(&result_impl_size, &result));
        }
        return com_array<winrt::Windows::System::Power::Thermal::PowerThermalChannelData>{ result, result_impl_size, take_ownership_from_abi };
    }
    template <typename D> auto consume_Windows_System_Power_Thermal_IPowerThermalChannelDiagnosticsStatics<D>::Current() const
    {
        void* value{};
        if constexpr (!std::is_same_v<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDiagnosticsStatics>)
        {
            winrt::hresult _winrt_cast_result_code;
            auto const _winrt_casted_result = impl::try_as_with_reason<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDiagnosticsStatics, D const*>(static_cast<D const*>(this), _winrt_cast_result_code);
            check_hresult(_winrt_cast_result_code);
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDiagnosticsStatics>**)&_winrt_casted_result;
            check_hresult(_winrt_abi_type->get_Current(&value));
        }
        else
        {
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDiagnosticsStatics>**)this;
            check_hresult(_winrt_abi_type->get_Current(&value));
        }
        return winrt::Windows::System::Power::Thermal::PowerThermalChannelDiagnostics{ value, take_ownership_from_abi };
    }
    template <typename D> auto consume_Windows_System_Power_Thermal_IPowerThermalChannelDiagnosticsStatics<D>::GetDataForChannels(array_view<winrt::Windows::System::Power::Thermal::PowerThermalChannelId const> channelIds) const
    {
        uint32_t result_impl_size{};
        struct struct_Windows_System_Power_Thermal_PowerThermalChannelData* result{};
        if constexpr (!std::is_same_v<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDiagnosticsStatics>)
        {
            winrt::hresult _winrt_cast_result_code;
            auto const _winrt_casted_result = impl::try_as_with_reason<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDiagnosticsStatics, D const*>(static_cast<D const*>(this), _winrt_cast_result_code);
            check_hresult(_winrt_cast_result_code);
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDiagnosticsStatics>**)&_winrt_casted_result;
            check_hresult(_winrt_abi_type->GetDataForChannels(channelIds.size(), get_abi(channelIds), &result_impl_size, &result));
        }
        else
        {
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDiagnosticsStatics>**)this;
            check_hresult(_winrt_abi_type->GetDataForChannels(channelIds.size(), get_abi(channelIds), &result_impl_size, &result));
        }
        return com_array<winrt::Windows::System::Power::Thermal::PowerThermalChannelData>{ result, result_impl_size, take_ownership_from_abi };
    }
    template <typename D> auto consume_Windows_System_Power_Thermal_IPowerThermalChannelFinderStatics<D>::FindChannels(winrt::guid const& channelInterfaceType) const
    {
        uint32_t result_impl_size{};
        struct struct_Windows_System_Power_Thermal_PowerThermalChannelId* result{};
        if constexpr (!std::is_same_v<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelFinderStatics>)
        {
            winrt::hresult _winrt_cast_result_code;
            auto const _winrt_casted_result = impl::try_as_with_reason<winrt::Windows::System::Power::Thermal::IPowerThermalChannelFinderStatics, D const*>(static_cast<D const*>(this), _winrt_cast_result_code);
            check_hresult(_winrt_cast_result_code);
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelFinderStatics>**)&_winrt_casted_result;
            check_hresult(_winrt_abi_type->FindChannels(impl::bind_in(channelInterfaceType), &result_impl_size, &result));
        }
        else
        {
            auto const _winrt_abi_type = *(abi_t<winrt::Windows::System::Power::Thermal::IPowerThermalChannelFinderStatics>**)this;
            check_hresult(_winrt_abi_type->FindChannels(impl::bind_in(channelInterfaceType), &result_impl_size, &result));
        }
        return com_array<winrt::Windows::System::Power::Thermal::PowerThermalChannelId>{ result, result_impl_size, take_ownership_from_abi };
    }
#ifndef WINRT_LEAN_AND_MEAN
    template <typename D>
    struct produce<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelConfiguration> : produce_base<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelConfiguration>
    {
        int32_t __stdcall get_Id(struct struct_Windows_System_Power_Thermal_PowerThermalChannelId* value) noexcept final try
        {
            zero_abi<winrt::Windows::System::Power::Thermal::PowerThermalChannelId>(value);
            typename D::abi_guard guard(this->shim());
            *value = detach_from<winrt::Windows::System::Power::Thermal::PowerThermalChannelId>(this->shim().Id());
            return 0;
        }
        catch (...) { return to_hresult(); }
        int32_t __stdcall get_ConfigurationString(void** value) noexcept final try
        {
            clear_abi(value);
            typename D::abi_guard guard(this->shim());
            *value = detach_from<hstring>(this->shim().ConfigurationString());
            return 0;
        }
        catch (...) { return to_hresult(); }
        int32_t __stdcall GetConfigurationNumericParameters(uint32_t* __resultSize, int32_t** result) noexcept final try
        {
            clear_abi(result);
            typename D::abi_guard guard(this->shim());
            std::tie(*__resultSize, *result) = detach_abi(this->shim().GetConfigurationNumericParameters());
            return 0;
        }
        catch (...) { return to_hresult(); }
    };
#endif
#ifndef WINRT_LEAN_AND_MEAN
    template <typename D>
    struct produce<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer> : produce_base<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer>
    {
        int32_t __stdcall GetChannelIds(uint32_t* __resultSize, struct struct_Windows_System_Power_Thermal_PowerThermalChannelId** result) noexcept final try
        {
            clear_abi(result);
            typename D::abi_guard guard(this->shim());
            std::tie(*__resultSize, *result) = detach_abi(this->shim().GetChannelIds());
            return 0;
        }
        catch (...) { return to_hresult(); }
        int32_t __stdcall GetChannelConfigurations(void** result) noexcept final try
        {
            clear_abi(result);
            typename D::abi_guard guard(this->shim());
            *result = detach_from<winrt::Windows::Foundation::Collections::IMapView<winrt::Windows::System::Power::Thermal::PowerThermalChannelId, winrt::Windows::System::Power::Thermal::PowerThermalChannelConfiguration>>(this->shim().GetChannelConfigurations());
            return 0;
        }
        catch (...) { return to_hresult(); }
        int32_t __stdcall Start() noexcept final try
        {
            typename D::abi_guard guard(this->shim());
            this->shim().Start();
            return 0;
        }
        catch (...) { return to_hresult(); }
        int32_t __stdcall Stop() noexcept final try
        {
            typename D::abi_guard guard(this->shim());
            this->shim().Stop();
            return 0;
        }
        catch (...) { return to_hresult(); }
        int32_t __stdcall add_ChannelDataReceived(void* handler, winrt::event_token* token) noexcept final try
        {
            zero_abi<winrt::event_token>(token);
            typename D::abi_guard guard(this->shim());
            *token = detach_from<winrt::event_token>(this->shim().ChannelDataReceived(*reinterpret_cast<winrt::Windows::Foundation::TypedEventHandler<winrt::Windows::System::Power::Thermal::PowerThermalChannelDataConsumer, winrt::Windows::System::Power::Thermal::PowerThermalChannelDataReceivedEventArgs> const*>(&handler)));
            return 0;
        }
        catch (...) { return to_hresult(); }
        int32_t __stdcall remove_ChannelDataReceived(winrt::event_token token) noexcept final
        {
            typename D::abi_guard guard(this->shim());
            this->shim().ChannelDataReceived(*reinterpret_cast<winrt::event_token const*>(&token));
            return 0;
        }
        int32_t __stdcall get_BackEndStatus(int32_t* value) noexcept final try
        {
            typename D::abi_guard guard(this->shim());
            *value = detach_from<winrt::Windows::System::Power::Thermal::PowerThermalBackEndStatus>(this->shim().BackEndStatus());
            return 0;
        }
        catch (...) { return to_hresult(); }
        int32_t __stdcall add_BackEndStatusChanged(void* handler, winrt::event_token* token) noexcept final try
        {
            zero_abi<winrt::event_token>(token);
            typename D::abi_guard guard(this->shim());
            *token = detach_from<winrt::event_token>(this->shim().BackEndStatusChanged(*reinterpret_cast<winrt::Windows::Foundation::TypedEventHandler<winrt::Windows::System::Power::Thermal::PowerThermalChannelDataConsumer, winrt::Windows::Foundation::IInspectable> const*>(&handler)));
            return 0;
        }
        catch (...) { return to_hresult(); }
        int32_t __stdcall remove_BackEndStatusChanged(winrt::event_token token) noexcept final
        {
            typename D::abi_guard guard(this->shim());
            this->shim().BackEndStatusChanged(*reinterpret_cast<winrt::event_token const*>(&token));
            return 0;
        }
    };
#endif
#ifndef WINRT_LEAN_AND_MEAN
    template <typename D>
    struct produce<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumerFactory> : produce_base<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumerFactory>
    {
        int32_t __stdcall CreateInstance(uint32_t __channelIdsSize, struct struct_Windows_System_Power_Thermal_PowerThermalChannelId* channelIds, void** value) noexcept final try
        {
            clear_abi(value);
            typename D::abi_guard guard(this->shim());
            *value = detach_from<winrt::Windows::System::Power::Thermal::PowerThermalChannelDataConsumer>(this->shim().CreateInstance(array_view<winrt::Windows::System::Power::Thermal::PowerThermalChannelId const>(reinterpret_cast<winrt::Windows::System::Power::Thermal::PowerThermalChannelId const *>(channelIds), reinterpret_cast<winrt::Windows::System::Power::Thermal::PowerThermalChannelId const *>(channelIds) + __channelIdsSize)));
            return 0;
        }
        catch (...) { return to_hresult(); }
    };
#endif
#ifndef WINRT_LEAN_AND_MEAN
    template <typename D>
    struct produce<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer> : produce_base<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer>
    {
        int32_t __stdcall GetChannelIds(uint32_t* __resultSize, struct struct_Windows_System_Power_Thermal_PowerThermalChannelId** result) noexcept final try
        {
            clear_abi(result);
            typename D::abi_guard guard(this->shim());
            std::tie(*__resultSize, *result) = detach_abi(this->shim().GetChannelIds());
            return 0;
        }
        catch (...) { return to_hresult(); }
        int32_t __stdcall GetChannelConfigurations(void** result) noexcept final try
        {
            clear_abi(result);
            typename D::abi_guard guard(this->shim());
            *result = detach_from<winrt::Windows::Foundation::Collections::IMapView<winrt::Windows::System::Power::Thermal::PowerThermalChannelId, winrt::Windows::System::Power::Thermal::PowerThermalChannelConfiguration>>(this->shim().GetChannelConfigurations());
            return 0;
        }
        catch (...) { return to_hresult(); }
        int32_t __stdcall DisableChannel(struct struct_Windows_System_Power_Thermal_PowerThermalChannelId channelId) noexcept final try
        {
            typename D::abi_guard guard(this->shim());
            this->shim().DisableChannel(*reinterpret_cast<winrt::Windows::System::Power::Thermal::PowerThermalChannelId const*>(&channelId));
            return 0;
        }
        catch (...) { return to_hresult(); }
        int32_t __stdcall Start() noexcept final try
        {
            typename D::abi_guard guard(this->shim());
            this->shim().Start();
            return 0;
        }
        catch (...) { return to_hresult(); }
        int32_t __stdcall Stop() noexcept final try
        {
            typename D::abi_guard guard(this->shim());
            this->shim().Stop();
            return 0;
        }
        catch (...) { return to_hresult(); }
        int32_t __stdcall PublishInputChannelData(uint32_t __dataSize, struct struct_Windows_System_Power_Thermal_PowerThermalChannelData* data) noexcept final try
        {
            typename D::abi_guard guard(this->shim());
            this->shim().PublishInputChannelData(array_view<winrt::Windows::System::Power::Thermal::PowerThermalChannelData const>(reinterpret_cast<winrt::Windows::System::Power::Thermal::PowerThermalChannelData const *>(data), reinterpret_cast<winrt::Windows::System::Power::Thermal::PowerThermalChannelData const *>(data) + __dataSize));
            return 0;
        }
        catch (...) { return to_hresult(); }
        int32_t __stdcall get_BackEndStatus(int32_t* value) noexcept final try
        {
            typename D::abi_guard guard(this->shim());
            *value = detach_from<winrt::Windows::System::Power::Thermal::PowerThermalBackEndStatus>(this->shim().BackEndStatus());
            return 0;
        }
        catch (...) { return to_hresult(); }
        int32_t __stdcall add_BackEndStatusChanged(void* handler, winrt::event_token* token) noexcept final try
        {
            zero_abi<winrt::event_token>(token);
            typename D::abi_guard guard(this->shim());
            *token = detach_from<winrt::event_token>(this->shim().BackEndStatusChanged(*reinterpret_cast<winrt::Windows::Foundation::TypedEventHandler<winrt::Windows::System::Power::Thermal::PowerThermalChannelDataProducer, winrt::Windows::Foundation::IInspectable> const*>(&handler)));
            return 0;
        }
        catch (...) { return to_hresult(); }
        int32_t __stdcall remove_BackEndStatusChanged(winrt::event_token token) noexcept final
        {
            typename D::abi_guard guard(this->shim());
            this->shim().BackEndStatusChanged(*reinterpret_cast<winrt::event_token const*>(&token));
            return 0;
        }
    };
#endif
#ifndef WINRT_LEAN_AND_MEAN
    template <typename D>
    struct produce<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducerFactory> : produce_base<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducerFactory>
    {
        int32_t __stdcall CreateInstance(uint32_t __channelIdsSize, struct struct_Windows_System_Power_Thermal_PowerThermalChannelId* channelIds, void** value) noexcept final try
        {
            clear_abi(value);
            typename D::abi_guard guard(this->shim());
            *value = detach_from<winrt::Windows::System::Power::Thermal::PowerThermalChannelDataProducer>(this->shim().CreateInstance(array_view<winrt::Windows::System::Power::Thermal::PowerThermalChannelId const>(reinterpret_cast<winrt::Windows::System::Power::Thermal::PowerThermalChannelId const *>(channelIds), reinterpret_cast<winrt::Windows::System::Power::Thermal::PowerThermalChannelId const *>(channelIds) + __channelIdsSize)));
            return 0;
        }
        catch (...) { return to_hresult(); }
    };
#endif
#ifndef WINRT_LEAN_AND_MEAN
    template <typename D>
    struct produce<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataReceivedEventArgs> : produce_base<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataReceivedEventArgs>
    {
        int32_t __stdcall GetData(uint32_t* __resultSize, struct struct_Windows_System_Power_Thermal_PowerThermalChannelData** result) noexcept final try
        {
            clear_abi(result);
            typename D::abi_guard guard(this->shim());
            std::tie(*__resultSize, *result) = detach_abi(this->shim().GetData());
            return 0;
        }
        catch (...) { return to_hresult(); }
    };
#endif
#ifndef WINRT_LEAN_AND_MEAN
    template <typename D>
    struct produce<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDiagnostics> : produce_base<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDiagnostics>
    {
    };
#endif
#ifndef WINRT_LEAN_AND_MEAN
    template <typename D>
    struct produce<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDiagnosticsStatics> : produce_base<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelDiagnosticsStatics>
    {
        int32_t __stdcall get_Current(void** value) noexcept final try
        {
            clear_abi(value);
            typename D::abi_guard guard(this->shim());
            *value = detach_from<winrt::Windows::System::Power::Thermal::PowerThermalChannelDiagnostics>(this->shim().Current());
            return 0;
        }
        catch (...) { return to_hresult(); }
        int32_t __stdcall GetDataForChannels(uint32_t __channelIdsSize, struct struct_Windows_System_Power_Thermal_PowerThermalChannelId* channelIds, uint32_t* __resultSize, struct struct_Windows_System_Power_Thermal_PowerThermalChannelData** result) noexcept final try
        {
            clear_abi(result);
            typename D::abi_guard guard(this->shim());
            std::tie(*__resultSize, *result) = detach_abi(this->shim().GetDataForChannels(array_view<winrt::Windows::System::Power::Thermal::PowerThermalChannelId const>(reinterpret_cast<winrt::Windows::System::Power::Thermal::PowerThermalChannelId const *>(channelIds), reinterpret_cast<winrt::Windows::System::Power::Thermal::PowerThermalChannelId const *>(channelIds) + __channelIdsSize)));
            return 0;
        }
        catch (...) { return to_hresult(); }
    };
#endif
#ifndef WINRT_LEAN_AND_MEAN
    template <typename D>
    struct produce<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelFinderStatics> : produce_base<D, winrt::Windows::System::Power::Thermal::IPowerThermalChannelFinderStatics>
    {
        int32_t __stdcall FindChannels(winrt::guid channelInterfaceType, uint32_t* __resultSize, struct struct_Windows_System_Power_Thermal_PowerThermalChannelId** result) noexcept final try
        {
            clear_abi(result);
            typename D::abi_guard guard(this->shim());
            std::tie(*__resultSize, *result) = detach_abi(this->shim().FindChannels(*reinterpret_cast<winrt::guid const*>(&channelInterfaceType)));
            return 0;
        }
        catch (...) { return to_hresult(); }
    };
#endif
}
WINRT_EXPORT namespace winrt::Windows::System::Power::Thermal
{
    inline PowerThermalChannelDataConsumer::PowerThermalChannelDataConsumer(array_view<winrt::Windows::System::Power::Thermal::PowerThermalChannelId const> channelIds) :
        PowerThermalChannelDataConsumer(impl::call_factory<PowerThermalChannelDataConsumer, IPowerThermalChannelDataConsumerFactory>([&](IPowerThermalChannelDataConsumerFactory const& f) { return f.CreateInstance(channelIds); }))
    {
    }
    inline PowerThermalChannelDataProducer::PowerThermalChannelDataProducer(array_view<winrt::Windows::System::Power::Thermal::PowerThermalChannelId const> channelIds) :
        PowerThermalChannelDataProducer(impl::call_factory<PowerThermalChannelDataProducer, IPowerThermalChannelDataProducerFactory>([&](IPowerThermalChannelDataProducerFactory const& f) { return f.CreateInstance(channelIds); }))
    {
    }
    inline auto PowerThermalChannelDiagnostics::Current()
    {
        return impl::call_factory_cast<winrt::Windows::System::Power::Thermal::PowerThermalChannelDiagnostics(*)(IPowerThermalChannelDiagnosticsStatics const&), PowerThermalChannelDiagnostics, IPowerThermalChannelDiagnosticsStatics>([](IPowerThermalChannelDiagnosticsStatics const& f) { return f.Current(); });
    }
    inline auto PowerThermalChannelDiagnostics::GetDataForChannels(array_view<winrt::Windows::System::Power::Thermal::PowerThermalChannelId const> channelIds)
    {
        return impl::call_factory<PowerThermalChannelDiagnostics, IPowerThermalChannelDiagnosticsStatics>([&](IPowerThermalChannelDiagnosticsStatics const& f) { return f.GetDataForChannels(channelIds); });
    }
    inline auto PowerThermalChannelFinder::FindChannels(winrt::guid const& channelInterfaceType)
    {
        return impl::call_factory<PowerThermalChannelFinder, IPowerThermalChannelFinderStatics>([&](IPowerThermalChannelFinderStatics const& f) { return f.FindChannels(channelInterfaceType); });
    }
}
namespace std
{
#ifndef WINRT_LEAN_AND_MEAN
    template<> struct hash<winrt::Windows::System::Power::Thermal::IPowerThermalChannelConfiguration> : winrt::impl::hash_base {};
    template<> struct hash<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumer> : winrt::impl::hash_base {};
    template<> struct hash<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataConsumerFactory> : winrt::impl::hash_base {};
    template<> struct hash<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducer> : winrt::impl::hash_base {};
    template<> struct hash<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataProducerFactory> : winrt::impl::hash_base {};
    template<> struct hash<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDataReceivedEventArgs> : winrt::impl::hash_base {};
    template<> struct hash<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDiagnostics> : winrt::impl::hash_base {};
    template<> struct hash<winrt::Windows::System::Power::Thermal::IPowerThermalChannelDiagnosticsStatics> : winrt::impl::hash_base {};
    template<> struct hash<winrt::Windows::System::Power::Thermal::IPowerThermalChannelFinderStatics> : winrt::impl::hash_base {};
    template<> struct hash<winrt::Windows::System::Power::Thermal::PowerThermalChannelConfiguration> : winrt::impl::hash_base {};
    template<> struct hash<winrt::Windows::System::Power::Thermal::PowerThermalChannelDataConsumer> : winrt::impl::hash_base {};
    template<> struct hash<winrt::Windows::System::Power::Thermal::PowerThermalChannelDataProducer> : winrt::impl::hash_base {};
    template<> struct hash<winrt::Windows::System::Power::Thermal::PowerThermalChannelDataReceivedEventArgs> : winrt::impl::hash_base {};
    template<> struct hash<winrt::Windows::System::Power::Thermal::PowerThermalChannelDiagnostics> : winrt::impl::hash_base {};
    template<> struct hash<winrt::Windows::System::Power::Thermal::PowerThermalChannelFinder> : winrt::impl::hash_base {};
#endif
#ifdef __cpp_lib_format
#endif
}
#endif