pezkuwi-subxt/substrate/frame/support/test/tests/construct_runtime.rs

// This file is part of Substrate.

// Copyright (C) 2019-2022 Parity Technologies (UK) Ltd.
// SPDX-License-Identifier: Apache-2.0

// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// 	http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.

//! General tests for construct_runtime macro, test for:
//! * error declareed with decl_error works
//! * integrity test is generated

#![recursion_limit = "128"]

use codec::MaxEncodedLen;
use frame_support::{
	parameter_types,
	traits::{CrateVersion, PalletInfo as _},
};
use scale_info::TypeInfo;
use sp_core::{sr25519, H256};
use sp_runtime::{
	generic,
	traits::{BlakeTwo256, Verify},
	DispatchError, ModuleError,
};

mod system;

pub trait Currency {}

parameter_types! {
	pub static IntegrityTestExec: u32 = 0;
}

mod module1 {
	use super::*;

	pub trait Config<I>: system::Config {}

	frame_support::decl_module! {
		pub struct Module<T: Config<I>, I: Instance = DefaultInstance> for enum Call
			where origin: <T as system::Config>::RuntimeOrigin, system=system
		{
			#[weight = 0]
			pub fn fail(_origin) -> frame_support::dispatch::DispatchResult {
				Err(Error::<T, I>::Something.into())
			}
		}
	}

	#[derive(
		Clone, PartialEq, Eq, Debug, codec::Encode, codec::Decode, TypeInfo, MaxEncodedLen,
	)]
	pub struct Origin<T, I: Instance = DefaultInstance>(pub core::marker::PhantomData<(T, I)>);

	frame_support::decl_event! {
		pub enum Event<T, I: Instance = DefaultInstance> where
			<T as system::Config>::AccountId
		{
			A(AccountId),
		}
	}

	frame_support::decl_error! {
		pub enum Error for Module<T: Config<I>, I: Instance> {
			Something
		}
	}

	frame_support::decl_storage! {
		trait Store for Module<T: Config<I>, I: Instance=DefaultInstance> as Module {}
	}
}

mod module2 {
	use super::*;

	pub trait Config: system::Config {}

	frame_support::decl_module! {
		pub struct Module<T: Config> for enum Call
			where origin: <T as system::Config>::RuntimeOrigin, system=system
		{
			#[weight = 0]
			pub fn fail(_origin) -> frame_support::dispatch::DispatchResult {
				Err(Error::<T>::Something.into())
			}

			fn integrity_test() {
				IntegrityTestExec::mutate(|i| *i += 1);
			}
		}
	}

	#[derive(
		Clone, PartialEq, Eq, Debug, codec::Encode, codec::Decode, TypeInfo, MaxEncodedLen,
	)]
	pub struct Origin;

	frame_support::decl_event! {
		pub enum Event {
			A,
		}
	}

	frame_support::decl_error! {
		pub enum Error for Module<T: Config> {
			Something
		}
	}

	frame_support::decl_storage! {
		trait Store for Module<T: Config> as Module {}
	}
}

mod nested {
	use super::*;

	pub mod module3 {
		use super::*;

		pub trait Config: system::Config {}

		frame_support::decl_module! {
			pub struct Module<T: Config> for enum Call
				where origin: <T as system::Config>::RuntimeOrigin, system=system
			{
				#[weight = 0]
				pub fn fail(_origin) -> frame_support::dispatch::DispatchResult {
					Err(Error::<T>::Something.into())
				}

				fn integrity_test() {
					IntegrityTestExec::mutate(|i| *i += 1);
				}
			}
		}

		#[derive(
			Clone, PartialEq, Eq, Debug, codec::Encode, codec::Decode, TypeInfo, MaxEncodedLen,
		)]
		pub struct Origin;

		frame_support::decl_event! {
			pub enum Event {
				A,
			}
		}

		frame_support::decl_error! {
			pub enum Error for Module<T: Config> {
				Something
			}
		}

		frame_support::decl_storage! {
			trait Store for Module<T: Config> as Module {}
			add_extra_genesis {
				build(|_config| {})
			}
		}
	}
}

pub mod module3 {
	use super::*;

	pub trait Config: system::Config {}

	frame_support::decl_module! {
		pub struct Module<T: Config> for enum Call
			where origin: <T as system::Config>::RuntimeOrigin, system=system
		{
			#[weight = 0]
			pub fn fail(_origin) -> frame_support::dispatch::DispatchResult {
				Err(Error::<T>::Something.into())
			}
			#[weight = 0]
			pub fn aux_1(_origin, #[compact] _data: u32) -> frame_support::dispatch::DispatchResult {
				unreachable!()
			}
			#[weight = 0]
			pub fn aux_2(_origin, _data: i32, #[compact] _data2: u32) -> frame_support::dispatch::DispatchResult {
				unreachable!()
			}
			#[weight = 0]
			fn aux_3(_origin, _data: i32, _data2: String) -> frame_support::dispatch::DispatchResult {
				unreachable!()
			}
			#[weight = 3]
			fn aux_4(_origin) -> frame_support::dispatch::DispatchResult { unreachable!() }
			#[weight = (5, frame_support::dispatch::DispatchClass::Operational)]
			fn operational(_origin) { unreachable!() }
		}
	}

	#[derive(
		Clone, PartialEq, Eq, Debug, codec::Encode, codec::Decode, TypeInfo, MaxEncodedLen,
	)]
	pub struct Origin<T>(pub core::marker::PhantomData<T>);

	frame_support::decl_event! {
		pub enum Event {
			A,
		}
	}

	frame_support::decl_error! {
		pub enum Error for Module<T: Config> {
			Something
		}
	}

	frame_support::decl_storage! {
		trait Store for Module<T: Config> as Module {}
		add_extra_genesis {
			build(|_config| {})
		}
	}
}

impl<I> module1::Config<I> for Runtime {}
impl module2::Config for Runtime {}
impl nested::module3::Config for Runtime {}
impl module3::Config for Runtime {}

pub type Signature = sr25519::Signature;
pub type AccountId = <Signature as Verify>::Signer;
pub type BlockNumber = u64;
pub type Index = u64;

fn test_pub() -> AccountId {
	AccountId::from_raw([0; 32])
}

impl system::Config for Runtime {
	type BaseCallFilter = frame_support::traits::Everything;
	type Hash = H256;
	type RuntimeOrigin = RuntimeOrigin;
	type BlockNumber = BlockNumber;
	type AccountId = AccountId;
	type RuntimeEvent = RuntimeEvent;
	type PalletInfo = PalletInfo;
	type RuntimeCall = RuntimeCall;
	type DbWeight = ();
}

frame_support::construct_runtime!(
	pub enum Runtime where
		Block = Block,
		NodeBlock = Block,
		UncheckedExtrinsic = UncheckedExtrinsic
	{
		System: system::{Pallet, Call, Event<T>, Origin<T>} = 30,
		Module1_1: module1::<Instance1>::{Pallet, Call, Storage, Event<T>, Origin<T>},
		Module2: module2::{Pallet, Call, Storage, Event, Origin},
		Module1_2: module1::<Instance2>::{Pallet, Call, Storage, Event<T>, Origin<T>},
		NestedModule3: nested::module3::{Pallet, Call, Config, Storage, Event, Origin},
		Module3: self::module3::{Pallet, Call, Config, Storage, Event, Origin<T>},
		Module1_3: module1::<Instance3>::{Pallet, Storage} = 6,
		Module1_4: module1::<Instance4>::{Pallet, Call} = 3,
		Module1_5: module1::<Instance5>::{Pallet, Event<T>},
		Module1_6: module1::<Instance6>::{Pallet, Call, Storage, Event<T>, Origin<T>} = 1,
		Module1_7: module1::<Instance7>::{Pallet, Call, Storage, Event<T>, Origin<T>},
		Module1_8: module1::<Instance8>::{Pallet, Call, Storage, Event<T>, Origin<T>} = 12,
		Module1_9: module1::<Instance9>::{Pallet, Call, Storage, Event<T>, Origin<T>},
	}
);

pub type Header = generic::Header<BlockNumber, BlakeTwo256>;
pub type Block = generic::Block<Header, UncheckedExtrinsic>;
pub type UncheckedExtrinsic = generic::UncheckedExtrinsic<u32, RuntimeCall, Signature, ()>;

#[test]
fn check_modules_error_type() {
	sp_io::TestExternalities::default().execute_with(|| {
		assert_eq!(
			Module1_1::fail(system::Origin::<Runtime>::Root.into()),
			Err(DispatchError::Module(ModuleError {
				index: 31,
				error: [0; 4],
				message: Some("Something")
			})),
		);
		assert_eq!(
			Module2::fail(system::Origin::<Runtime>::Root.into()),
			Err(DispatchError::Module(ModuleError {
				index: 32,
				error: [0; 4],
				message: Some("Something")
			})),
		);
		assert_eq!(
			Module1_2::fail(system::Origin::<Runtime>::Root.into()),
			Err(DispatchError::Module(ModuleError {
				index: 33,
				error: [0; 4],
				message: Some("Something")
			})),
		);
		assert_eq!(
			NestedModule3::fail(system::Origin::<Runtime>::Root.into()),
			Err(DispatchError::Module(ModuleError {
				index: 34,
				error: [0; 4],
				message: Some("Something")
			})),
		);
		assert_eq!(
			Module1_3::fail(system::Origin::<Runtime>::Root.into()),
			Err(DispatchError::Module(ModuleError {
				index: 6,
				error: [0; 4],
				message: Some("Something")
			})),
		);
		assert_eq!(
			Module1_4::fail(system::Origin::<Runtime>::Root.into()),
			Err(DispatchError::Module(ModuleError {
				index: 3,
				error: [0; 4],
				message: Some("Something")
			})),
		);
		assert_eq!(
			Module1_5::fail(system::Origin::<Runtime>::Root.into()),
			Err(DispatchError::Module(ModuleError {
				index: 4,
				error: [0; 4],
				message: Some("Something")
			})),
		);
		assert_eq!(
			Module1_6::fail(system::Origin::<Runtime>::Root.into()),
			Err(DispatchError::Module(ModuleError {
				index: 1,
				error: [0; 4],
				message: Some("Something")
			})),
		);
		assert_eq!(
			Module1_7::fail(system::Origin::<Runtime>::Root.into()),
			Err(DispatchError::Module(ModuleError {
				index: 2,
				error: [0; 4],
				message: Some("Something")
			})),
		);
		assert_eq!(
			Module1_8::fail(system::Origin::<Runtime>::Root.into()),
			Err(DispatchError::Module(ModuleError {
				index: 12,
				error: [0; 4],
				message: Some("Something")
			})),
		);
		assert_eq!(
			Module1_9::fail(system::Origin::<Runtime>::Root.into()),
			Err(DispatchError::Module(ModuleError {
				index: 13,
				error: [0; 4],
				message: Some("Something")
			})),
		);
	})
}

#[test]
fn integrity_test_works() {
	__construct_runtime_integrity_test::runtime_integrity_tests();
	assert_eq!(IntegrityTestExec::get(), 2);
}

#[test]
fn origin_codec() {
	use codec::Encode;

	let origin = OriginCaller::system(system::RawOrigin::None);
	assert_eq!(origin.encode()[0], 30);

	let origin = OriginCaller::Module1_1(module1::Origin(Default::default()));
	assert_eq!(origin.encode()[0], 31);

	let origin = OriginCaller::Module2(module2::Origin);
	assert_eq!(origin.encode()[0], 32);

	let origin = OriginCaller::Module1_2(module1::Origin(Default::default()));
	assert_eq!(origin.encode()[0], 33);

	let origin = OriginCaller::NestedModule3(nested::module3::Origin);
	assert_eq!(origin.encode()[0], 34);

	let origin = OriginCaller::Module3(module3::Origin(Default::default()));
	assert_eq!(origin.encode()[0], 35);

	let origin = OriginCaller::Module1_6(module1::Origin(Default::default()));
	assert_eq!(origin.encode()[0], 1);

	let origin = OriginCaller::Module1_7(module1::Origin(Default::default()));
	assert_eq!(origin.encode()[0], 2);

	let origin = OriginCaller::Module1_8(module1::Origin(Default::default()));
	assert_eq!(origin.encode()[0], 12);

	let origin = OriginCaller::Module1_9(module1::Origin(Default::default()));
	assert_eq!(origin.encode()[0], 13);
}

#[test]
fn event_codec() {
	use codec::Encode;

	let event = system::Event::<Runtime>::ExtrinsicSuccess;
	assert_eq!(RuntimeEvent::from(event).encode()[0], 30);

	let event = module1::Event::<Runtime, module1::Instance1>::A(test_pub());
	assert_eq!(RuntimeEvent::from(event).encode()[0], 31);

	let event = module2::Event::A;
	assert_eq!(RuntimeEvent::from(event).encode()[0], 32);

	let event = module1::Event::<Runtime, module1::Instance2>::A(test_pub());
	assert_eq!(RuntimeEvent::from(event).encode()[0], 33);

	let event = nested::module3::Event::A;
	assert_eq!(RuntimeEvent::from(event).encode()[0], 34);

	let event = module3::Event::A;
	assert_eq!(RuntimeEvent::from(event).encode()[0], 35);

	let event = module1::Event::<Runtime, module1::Instance5>::A(test_pub());
	assert_eq!(RuntimeEvent::from(event).encode()[0], 4);

	let event = module1::Event::<Runtime, module1::Instance6>::A(test_pub());
	assert_eq!(RuntimeEvent::from(event).encode()[0], 1);

	let event = module1::Event::<Runtime, module1::Instance7>::A(test_pub());
	assert_eq!(RuntimeEvent::from(event).encode()[0], 2);

	let event = module1::Event::<Runtime, module1::Instance8>::A(test_pub());
	assert_eq!(RuntimeEvent::from(event).encode()[0], 12);

	let event = module1::Event::<Runtime, module1::Instance9>::A(test_pub());
	assert_eq!(RuntimeEvent::from(event).encode()[0], 13);
}

#[test]
fn call_codec() {
	use codec::Encode;
	assert_eq!(RuntimeCall::System(system::Call::noop {}).encode()[0], 30);
	assert_eq!(RuntimeCall::Module1_1(module1::Call::fail {}).encode()[0], 31);
	assert_eq!(RuntimeCall::Module2(module2::Call::fail {}).encode()[0], 32);
	assert_eq!(RuntimeCall::Module1_2(module1::Call::fail {}).encode()[0], 33);
	assert_eq!(RuntimeCall::NestedModule3(nested::module3::Call::fail {}).encode()[0], 34);
	assert_eq!(RuntimeCall::Module3(module3::Call::fail {}).encode()[0], 35);
	assert_eq!(RuntimeCall::Module1_4(module1::Call::fail {}).encode()[0], 3);
	assert_eq!(RuntimeCall::Module1_6(module1::Call::fail {}).encode()[0], 1);
	assert_eq!(RuntimeCall::Module1_7(module1::Call::fail {}).encode()[0], 2);
	assert_eq!(RuntimeCall::Module1_8(module1::Call::fail {}).encode()[0], 12);
	assert_eq!(RuntimeCall::Module1_9(module1::Call::fail {}).encode()[0], 13);
}

#[test]
fn call_compact_attr() {
	use codec::Encode;
	let call: module3::Call<Runtime> = module3::Call::aux_1 { _data: 1 };
	let encoded = call.encode();
	assert_eq!(2, encoded.len());
	assert_eq!(vec![1, 4], encoded);

	let call: module3::Call<Runtime> = module3::Call::aux_2 { _data: 1, _data2: 2 };
	let encoded = call.encode();
	assert_eq!(6, encoded.len());
	assert_eq!(vec![2, 1, 0, 0, 0, 8], encoded);
}

#[test]
fn call_encode_is_correct_and_decode_works() {
	use codec::{Decode, Encode};
	let call: module3::Call<Runtime> = module3::Call::fail {};
	let encoded = call.encode();
	assert_eq!(vec![0], encoded);
	let decoded = module3::Call::<Runtime>::decode(&mut &encoded[..]).unwrap();
	assert_eq!(decoded, call);

	let call: module3::Call<Runtime> = module3::Call::aux_3 { _data: 32, _data2: "hello".into() };
	let encoded = call.encode();
	assert_eq!(vec![3, 32, 0, 0, 0, 20, 104, 101, 108, 108, 111], encoded);
	let decoded = module3::Call::<Runtime>::decode(&mut &encoded[..]).unwrap();
	assert_eq!(decoded, call);
}

#[test]
fn call_weight_should_attach_to_call_enum() {
	use frame_support::{
		dispatch::{DispatchClass, DispatchInfo, GetDispatchInfo, Pays},
		weights::Weight,
	};
	// operational.
	assert_eq!(
		module3::Call::<Runtime>::operational {}.get_dispatch_info(),
		DispatchInfo {
			weight: Weight::from_ref_time(5),
			class: DispatchClass::Operational,
			pays_fee: Pays::Yes
		},
	);
	// custom basic
	assert_eq!(
		module3::Call::<Runtime>::aux_4 {}.get_dispatch_info(),
		DispatchInfo {
			weight: Weight::from_ref_time(3),
			class: DispatchClass::Normal,
			pays_fee: Pays::Yes
		},
	);
}

#[test]
fn call_name() {
	use frame_support::dispatch::GetCallName;
	let name = module3::Call::<Runtime>::aux_4 {}.get_call_name();
	assert_eq!("aux_4", name);
}

#[test]
fn call_metadata() {
	use frame_support::dispatch::{CallMetadata, GetCallMetadata};
	let call = RuntimeCall::Module3(module3::Call::<Runtime>::aux_4 {});
	let metadata = call.get_call_metadata();
	let expected = CallMetadata { function_name: "aux_4".into(), pallet_name: "Module3".into() };
	assert_eq!(metadata, expected);
}

#[test]
fn get_call_names() {
	use frame_support::dispatch::GetCallName;
	let call_names = module3::Call::<Runtime>::get_call_names();
	assert_eq!(["fail", "aux_1", "aux_2", "aux_3", "aux_4", "operational"], call_names);
}

#[test]
fn get_module_names() {
	use frame_support::dispatch::GetCallMetadata;
	let module_names = RuntimeCall::get_module_names();
	assert_eq!(
		[
			"System",
			"Module1_1",
			"Module2",
			"Module1_2",
			"NestedModule3",
			"Module3",
			"Module1_4",
			"Module1_6",
			"Module1_7",
			"Module1_8",
			"Module1_9",
		],
		module_names
	);
}

#[test]
fn call_subtype_conversion() {
	use frame_support::{dispatch::CallableCallFor, traits::IsSubType};
	let call = RuntimeCall::Module3(module3::Call::<Runtime>::fail {});
	let subcall: Option<&CallableCallFor<Module3, Runtime>> = call.is_sub_type();
	let subcall_none: Option<&CallableCallFor<Module2, Runtime>> = call.is_sub_type();
	assert_eq!(Some(&module3::Call::<Runtime>::fail {}), subcall);
	assert_eq!(None, subcall_none);

	let from = RuntimeCall::from(subcall.unwrap().clone());
	assert_eq!(from, call);
}

#[test]
fn test_metadata() {
	use frame_support::metadata::*;
	use scale_info::meta_type;

	let pallets = vec![
		PalletMetadata {
			name: "System",
			storage: None,
			calls: Some(meta_type::<system::Call<Runtime>>().into()),
			event: Some(meta_type::<system::Event<Runtime>>().into()),
			constants: vec![],
			error: None,
			index: 30,
		},
		PalletMetadata {
			name: "Module1_1",
			storage: Some(PalletStorageMetadata { prefix: "Instance1Module", entries: vec![] }),
			calls: Some(meta_type::<module1::Call<Runtime, module1::Instance1>>().into()),
			event: Some(meta_type::<module1::Event<Runtime, module1::Instance1>>().into()),
			constants: vec![],
			error: None,
			index: 31,
		},
		PalletMetadata {
			name: "Module2",
			storage: Some(PalletStorageMetadata { prefix: "Module", entries: vec![] }),
			calls: Some(meta_type::<module2::Call<Runtime>>().into()),
			event: Some(meta_type::<module2::Event>().into()),
			constants: vec![],
			error: None,
			index: 32,
		},
		PalletMetadata {
			name: "Module1_2",
			storage: Some(PalletStorageMetadata { prefix: "Instance2Module", entries: vec![] }),
			calls: Some(meta_type::<module1::Call<Runtime, module1::Instance2>>().into()),
			event: Some(meta_type::<module1::Event<Runtime, module1::Instance2>>().into()),
			constants: vec![],
			error: None,
			index: 33,
		},
		PalletMetadata {
			name: "NestedModule3",
			storage: Some(PalletStorageMetadata { prefix: "Module", entries: vec![] }),
			calls: Some(meta_type::<nested::module3::Call<Runtime>>().into()),
			event: Some(meta_type::<nested::module3::Event>().into()),
			constants: vec![],
			error: None,
			index: 34,
		},
		PalletMetadata {
			name: "Module3",
			storage: Some(PalletStorageMetadata { prefix: "Module", entries: vec![] }),
			calls: Some(meta_type::<module3::Call<Runtime>>().into()),
			event: Some(meta_type::<module3::Event>().into()),
			constants: vec![],
			error: None,
			index: 35,
		},
		PalletMetadata {
			name: "Module1_3",
			storage: Some(PalletStorageMetadata { prefix: "Instance3Module", entries: vec![] }),
			calls: None,
			event: None,
			constants: vec![],
			error: None,
			index: 6,
		},
		PalletMetadata {
			name: "Module1_4",
			storage: None,
			calls: Some(meta_type::<module1::Call<Runtime, module1::Instance4>>().into()),
			event: None,
			constants: vec![],
			error: None,
			index: 3,
		},
		PalletMetadata {
			name: "Module1_5",
			storage: None,
			calls: None,
			event: Some(meta_type::<module1::Event<Runtime, module1::Instance5>>().into()),
			constants: vec![],
			error: None,
			index: 4,
		},
		PalletMetadata {
			name: "Module1_6",
			storage: Some(PalletStorageMetadata { prefix: "Instance6Module", entries: vec![] }),
			calls: Some(meta_type::<module1::Call<Runtime, module1::Instance6>>().into()),
			event: Some(meta_type::<module1::Event<Runtime, module1::Instance6>>().into()),
			constants: vec![],
			error: None,
			index: 1,
		},
		PalletMetadata {
			name: "Module1_7",
			storage: Some(PalletStorageMetadata { prefix: "Instance7Module", entries: vec![] }),
			calls: Some(meta_type::<module1::Call<Runtime, module1::Instance7>>().into()),
			event: Some(PalletEventMetadata {
				ty: meta_type::<module1::Event<Runtime, module1::Instance7>>(),
			}),
			constants: vec![],
			error: None,
			index: 2,
		},
		PalletMetadata {
			name: "Module1_8",
			storage: Some(PalletStorageMetadata { prefix: "Instance8Module", entries: vec![] }),
			calls: Some(meta_type::<module1::Call<Runtime, module1::Instance8>>().into()),
			event: Some(meta_type::<module1::Event<Runtime, module1::Instance8>>().into()),
			constants: vec![],
			error: None,
			index: 12,
		},
		PalletMetadata {
			name: "Module1_9",
			storage: Some(PalletStorageMetadata { prefix: "Instance9Module", entries: vec![] }),
			calls: Some(meta_type::<module1::Call<Runtime, module1::Instance9>>().into()),
			event: Some(meta_type::<module1::Event<Runtime, module1::Instance9>>().into()),
			constants: vec![],
			error: None,
			index: 13,
		},
	];

	let extrinsic = ExtrinsicMetadata {
		ty: meta_type::<UncheckedExtrinsic>(),
		version: 4,
		signed_extensions: vec![SignedExtensionMetadata {
			identifier: "UnitSignedExtension",
			ty: meta_type::<()>(),
			additional_signed: meta_type::<()>(),
		}],
	};

	let expected_metadata: RuntimeMetadataPrefixed =
		RuntimeMetadataLastVersion::new(pallets, extrinsic, meta_type::<Runtime>()).into();
	let actual_metadata = Runtime::metadata();
	pretty_assertions::assert_eq!(actual_metadata, expected_metadata);
}

#[test]
fn pallet_in_runtime_is_correct() {
	assert_eq!(PalletInfo::index::<System>().unwrap(), 30);
	assert_eq!(PalletInfo::name::<System>().unwrap(), "System");
	assert_eq!(PalletInfo::module_name::<System>().unwrap(), "system");
	assert_eq!(PalletInfo::crate_version::<System>().unwrap(), CrateVersion::new(3, 0, 0));

	assert_eq!(PalletInfo::index::<Module1_1>().unwrap(), 31);
	assert_eq!(PalletInfo::name::<Module1_1>().unwrap(), "Module1_1");
	assert_eq!(PalletInfo::module_name::<Module1_1>().unwrap(), "module1");
	assert_eq!(PalletInfo::crate_version::<Module1_1>().unwrap(), CrateVersion::new(3, 0, 0));

	assert_eq!(PalletInfo::index::<Module2>().unwrap(), 32);
	assert_eq!(PalletInfo::name::<Module2>().unwrap(), "Module2");
	assert_eq!(PalletInfo::module_name::<Module2>().unwrap(), "module2");
	assert_eq!(PalletInfo::crate_version::<Module2>().unwrap(), CrateVersion::new(3, 0, 0));

	assert_eq!(PalletInfo::index::<Module1_2>().unwrap(), 33);
	assert_eq!(PalletInfo::name::<Module1_2>().unwrap(), "Module1_2");
	assert_eq!(PalletInfo::module_name::<Module1_2>().unwrap(), "module1");
	assert_eq!(PalletInfo::crate_version::<Module1_2>().unwrap(), CrateVersion::new(3, 0, 0));

	assert_eq!(PalletInfo::index::<NestedModule3>().unwrap(), 34);
	assert_eq!(PalletInfo::name::<NestedModule3>().unwrap(), "NestedModule3");
	assert_eq!(PalletInfo::module_name::<NestedModule3>().unwrap(), "nested::module3");
	assert_eq!(PalletInfo::crate_version::<NestedModule3>().unwrap(), CrateVersion::new(3, 0, 0));

	assert_eq!(PalletInfo::index::<Module3>().unwrap(), 35);
	assert_eq!(PalletInfo::name::<Module3>().unwrap(), "Module3");
	assert_eq!(PalletInfo::module_name::<Module3>().unwrap(), "self::module3");
	assert_eq!(PalletInfo::crate_version::<Module3>().unwrap(), CrateVersion::new(3, 0, 0));

	assert_eq!(PalletInfo::index::<Module1_3>().unwrap(), 6);
	assert_eq!(PalletInfo::name::<Module1_3>().unwrap(), "Module1_3");
	assert_eq!(PalletInfo::module_name::<Module1_3>().unwrap(), "module1");
	assert_eq!(PalletInfo::crate_version::<Module1_3>().unwrap(), CrateVersion::new(3, 0, 0));

	assert_eq!(PalletInfo::index::<Module1_4>().unwrap(), 3);
	assert_eq!(PalletInfo::name::<Module1_4>().unwrap(), "Module1_4");
	assert_eq!(PalletInfo::module_name::<Module1_4>().unwrap(), "module1");
	assert_eq!(PalletInfo::crate_version::<Module1_4>().unwrap(), CrateVersion::new(3, 0, 0));

	assert_eq!(PalletInfo::index::<Module1_5>().unwrap(), 4);
	assert_eq!(PalletInfo::name::<Module1_5>().unwrap(), "Module1_5");
	assert_eq!(PalletInfo::module_name::<Module1_5>().unwrap(), "module1");
	assert_eq!(PalletInfo::crate_version::<Module1_5>().unwrap(), CrateVersion::new(3, 0, 0));

	assert_eq!(PalletInfo::index::<Module1_6>().unwrap(), 1);
	assert_eq!(PalletInfo::name::<Module1_6>().unwrap(), "Module1_6");
	assert_eq!(PalletInfo::module_name::<Module1_6>().unwrap(), "module1");
	assert_eq!(PalletInfo::crate_version::<Module1_6>().unwrap(), CrateVersion::new(3, 0, 0));

	assert_eq!(PalletInfo::index::<Module1_7>().unwrap(), 2);
	assert_eq!(PalletInfo::name::<Module1_7>().unwrap(), "Module1_7");
	assert_eq!(PalletInfo::module_name::<Module1_7>().unwrap(), "module1");
	assert_eq!(PalletInfo::crate_version::<Module1_7>().unwrap(), CrateVersion::new(3, 0, 0));

	assert_eq!(PalletInfo::index::<Module1_8>().unwrap(), 12);
	assert_eq!(PalletInfo::name::<Module1_8>().unwrap(), "Module1_8");
	assert_eq!(PalletInfo::module_name::<Module1_8>().unwrap(), "module1");
	assert_eq!(PalletInfo::crate_version::<Module1_8>().unwrap(), CrateVersion::new(3, 0, 0));

	assert_eq!(PalletInfo::index::<Module1_9>().unwrap(), 13);
	assert_eq!(PalletInfo::name::<Module1_9>().unwrap(), "Module1_9");
	assert_eq!(PalletInfo::module_name::<Module1_9>().unwrap(), "module1");
	assert_eq!(PalletInfo::crate_version::<Module1_9>().unwrap(), CrateVersion::new(3, 0, 0));
}