src/dawn_native/Error.h - dawn - Git at Google

 // Copyright 2018 The Dawn Authors
 //
 // 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.

 #ifndef DAWNNATIVE_ERROR_H_
 #define DAWNNATIVE_ERROR_H_

 #include "absl/strings/str_format.h"
 #include "common/Result.h"
 #include "dawn_native/ErrorData.h"
 #include "dawn_native/webgpu_absl_format.h"

 #include <string>

 namespace dawn_native {

     enum class InternalErrorType : uint32_t {
         Validation,
         DeviceLost,
         Internal,
         OutOfMemory
     };

     // MaybeError and ResultOrError are meant to be used as return value for function that are not
     // expected to, but might fail. The handling of error is potentially much slower than successes.
     using MaybeError = Result<void, ErrorData>;

     template <typename T>
     using ResultOrError = Result<T, ErrorData>;

     // Returning a success is done like so:
     //   return {}; // for Error
     //   return SomethingOfTypeT; // for ResultOrError<T>
     //
     // Returning an error is done via:
     //   return DAWN_MAKE_ERROR(errorType, "My error message");
     //
     // but shorthand version for specific error types are preferred:
     //   return DAWN_VALIDATION_ERROR("My error message");
     //
     // There are different types of errors that should be used for different purpose:
     //
     //   - Validation: these are errors that show the user did something bad, which causes the
     //     whole call to be a no-op. It's most commonly found in the frontend but there can be some
     //     backend specific validation in non-conformant backends too.
     //
     //   - Out of memory: creation of a Buffer or Texture failed because there isn't enough memory.
     //     This is similar to validation errors in that the call becomes a no-op and returns an
     //     error object, but is reported separated from validation to the user.
     //
     //   - Device loss: the backend driver reported that the GPU has been lost, which means all
     //     previous commands magically disappeared and the only thing left to do is clean up.
     //     Note: Device loss should be used rarely and in most case you want to use Internal
     //     instead.
     //
     //   - Internal: something happened that the backend didn't expect, and it doesn't know
     //     how to recover from that situation. This causes the device to be lost, but is separate
     //     from device loss, because the GPU execution is still happening so we need to clean up
     //     more gracefully.
     //
     //   - Unimplemented: same as Internal except it puts "unimplemented" in the error message for
     //     more clarity.

 #define DAWN_MAKE_ERROR(TYPE, MESSAGE) \
     ::dawn_native::ErrorData::Create(TYPE, MESSAGE, __FILE__, __func__, __LINE__)

 #define DAWN_VALIDATION_ERROR(MESSAGE) DAWN_MAKE_ERROR(InternalErrorType::Validation, MESSAGE)

 // TODO(dawn:563): Rename to DAWN_VALIDATION_ERROR once all message format strings have been
 // converted to constexpr.
 #define DAWN_FORMAT_VALIDATION_ERROR(...) \
     DAWN_MAKE_ERROR(InternalErrorType::Validation, absl::StrFormat(__VA_ARGS__))

 #define DAWN_INVALID_IF(EXPR, ...)                                                           \
     if (DAWN_UNLIKELY(EXPR)) {                                                               \
         return DAWN_MAKE_ERROR(InternalErrorType::Validation, absl::StrFormat(__VA_ARGS__)); \
     }                                                                                        \
     for (;;)                                                                                 \
     break

 // DAWN_DEVICE_LOST_ERROR means that there was a real unrecoverable native device lost error.
 // We can't even do a graceful shutdown because the Device is gone.
 #define DAWN_DEVICE_LOST_ERROR(MESSAGE) DAWN_MAKE_ERROR(InternalErrorType::DeviceLost, MESSAGE)

 // DAWN_INTERNAL_ERROR means Dawn hit an unexpected error in the backend and should try to
 // gracefully shut down.
 #define DAWN_INTERNAL_ERROR(MESSAGE) DAWN_MAKE_ERROR(InternalErrorType::Internal, MESSAGE)

 #define DAWN_FORMAT_INTERNAL_ERROR(...) \
     DAWN_MAKE_ERROR(InternalErrorType::Internal, absl::StrFormat(__VA_ARGS__))

 #define DAWN_UNIMPLEMENTED_ERROR(MESSAGE) \
     DAWN_MAKE_ERROR(InternalErrorType::Internal, std::string("Unimplemented: ") + MESSAGE)

 // DAWN_OUT_OF_MEMORY_ERROR means we ran out of memory. It may be used as a signal internally in
 // Dawn to free up unused resources. Or, it may bubble up to the application to signal an allocation
 // was too large or they should free some existing resources.
 #define DAWN_OUT_OF_MEMORY_ERROR(MESSAGE) DAWN_MAKE_ERROR(InternalErrorType::OutOfMemory, MESSAGE)

 #define DAWN_CONCAT1(x, y) x##y
 #define DAWN_CONCAT2(x, y) DAWN_CONCAT1(x, y)
 #define DAWN_LOCAL_VAR DAWN_CONCAT2(_localVar, __LINE__)

     // When Errors aren't handled explicitly, calls to functions returning errors should be
     // wrapped in an DAWN_TRY. It will return the error if any, otherwise keep executing
     // the current function.
 #define DAWN_TRY(EXPR) DAWN_TRY_WITH_CLEANUP(EXPR, {})

 #define DAWN_TRY_CONTEXT(EXPR, ...) \
     DAWN_TRY_WITH_CLEANUP(EXPR, { error->AppendContext(absl::StrFormat(__VA_ARGS__)); })

 #define DAWN_TRY_WITH_CLEANUP(EXPR, BODY)                                                    \
     {                                                                                        \
         auto DAWN_LOCAL_VAR = EXPR;                                                          \
         if (DAWN_UNLIKELY(DAWN_LOCAL_VAR.IsError())) {                                       \
             std::unique_ptr<::dawn_native::ErrorData> error = DAWN_LOCAL_VAR.AcquireError(); \
             {BODY} /* comment to force the formatter to insert a newline */                  \
             error->AppendBacktrace(__FILE__, __func__, __LINE__);                            \
             return {std::move(error)};                                                       \
         }                                                                                    \
     }                                                                                        \
     for (;;)                                                                                 \
     break

     // DAWN_TRY_ASSIGN is the same as DAWN_TRY for ResultOrError and assigns the success value, if
     // any, to VAR.
 #define DAWN_TRY_ASSIGN(VAR, EXPR) DAWN_TRY_ASSIGN_WITH_CLEANUP(VAR, EXPR, {})

     // Argument helpers are used to determine which macro implementations should be called when
     // overloading with different number of variables.
 #define DAWN_ERROR_UNIMPLEMENTED_MACRO_(...) UNREACHABLE()
 #define DAWN_ERROR_GET_5TH_ARG_HELPER_(_1, _2, _3, _4, NAME, ...) NAME
 #define DAWN_ERROR_GET_5TH_ARG_(args) DAWN_ERROR_GET_5TH_ARG_HELPER_ args

     // DAWN_TRY_ASSIGN_WITH_CLEANUP is overloaded with 2 version so that users can override the
     // return value of the macro when necessary. This is particularly useful if the function
     // calling the macro may want to return void instead of the error, i.e. in a test where we may
     // just want to assert and fail if the assign cannot go through. In both the cleanup and return
     // clauses, users can use the `error` variable to access the pointer to the acquired error.
     //
     // Example usages:
     //     3 Argument Case:
     //          Result res;
     //          DAWN_TRY_ASSIGN_WITH_CLEANUP(
     //              res, GetResultOrErrorFunction(), { AddAdditionalErrorInformation(error.get()); }
     //          );
     //
     //     4 Argument Case:
     //          bool FunctionThatReturnsBool() {
     //              DAWN_TRY_ASSIGN_WITH_CLEANUP(
     //                  res, GetResultOrErrorFunction(),
     //                  { AddAdditionalErrorInformation(error.get()); },
     //                  false
     //              );
     //          }
 #define DAWN_TRY_ASSIGN_WITH_CLEANUP(...)                                       \
     DAWN_ERROR_GET_5TH_ARG_((__VA_ARGS__, DAWN_TRY_ASSIGN_WITH_CLEANUP_IMPL_4_, \
                              DAWN_TRY_ASSIGN_WITH_CLEANUP_IMPL_3_,              \
                              DAWN_ERROR_UNIMPLEMENTED_MACRO_))                  \
     (__VA_ARGS__)

 #define DAWN_TRY_ASSIGN_WITH_CLEANUP_IMPL_3_(VAR, EXPR, BODY) \
     DAWN_TRY_ASSIGN_WITH_CLEANUP_IMPL_4_(VAR, EXPR, BODY, std::move(error))

 #define DAWN_TRY_ASSIGN_WITH_CLEANUP_IMPL_4_(VAR, EXPR, BODY, RET)            \
     {                                                                         \
         auto DAWN_LOCAL_VAR = EXPR;                                           \
         if (DAWN_UNLIKELY(DAWN_LOCAL_VAR.IsError())) {                        \
             std::unique_ptr<ErrorData> error = DAWN_LOCAL_VAR.AcquireError(); \
             {BODY} /* comment to force the formatter to insert a newline */   \
             error->AppendBacktrace(__FILE__, __func__, __LINE__);             \
             return (RET);                                                     \
         }                                                                     \
         VAR = DAWN_LOCAL_VAR.AcquireSuccess();                                \
     }                                                                         \
     for (;;)                                                                  \
     break

     // Assert that errors are device loss so that we can continue with destruction
     void IgnoreErrors(MaybeError maybeError);

     wgpu::ErrorType ToWGPUErrorType(InternalErrorType type);
     InternalErrorType FromWGPUErrorType(wgpu::ErrorType type);

 }  // namespace dawn_native

 #endif  // DAWNNATIVE_ERROR_H_
	// Copyright 2018 The Dawn Authors
	//
	// 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.

	#ifndef DAWNNATIVE_ERROR_H_
	#define DAWNNATIVE_ERROR_H_

	#include "absl/strings/str_format.h"
	#include "common/Result.h"
	#include "dawn_native/ErrorData.h"
	#include "dawn_native/webgpu_absl_format.h"

	#include <string>

	namespace dawn_native {

	enum class InternalErrorType : uint32_t {
	Validation,
	DeviceLost,
	Internal,
	OutOfMemory
	};

	// MaybeError and ResultOrError are meant to be used as return value for function that are not
	// expected to, but might fail. The handling of error is potentially much slower than successes.
	using MaybeError = Result<void, ErrorData>;

	template <typename T>
	using ResultOrError = Result<T, ErrorData>;

	// Returning a success is done like so:
	// return {}; // for Error
	// return SomethingOfTypeT; // for ResultOrError<T>
	//
	// Returning an error is done via:
	// return DAWN_MAKE_ERROR(errorType, "My error message");
	//
	// but shorthand version for specific error types are preferred:
	// return DAWN_VALIDATION_ERROR("My error message");
	//
	// There are different types of errors that should be used for different purpose:
	//
	// - Validation: these are errors that show the user did something bad, which causes the
	// whole call to be a no-op. It's most commonly found in the frontend but there can be some
	// backend specific validation in non-conformant backends too.
	//
	// - Out of memory: creation of a Buffer or Texture failed because there isn't enough memory.
	// This is similar to validation errors in that the call becomes a no-op and returns an
	// error object, but is reported separated from validation to the user.
	//
	// - Device loss: the backend driver reported that the GPU has been lost, which means all
	// previous commands magically disappeared and the only thing left to do is clean up.
	// Note: Device loss should be used rarely and in most case you want to use Internal
	// instead.
	//
	// - Internal: something happened that the backend didn't expect, and it doesn't know
	// how to recover from that situation. This causes the device to be lost, but is separate
	// from device loss, because the GPU execution is still happening so we need to clean up
	// more gracefully.
	//
	// - Unimplemented: same as Internal except it puts "unimplemented" in the error message for
	// more clarity.

	#define DAWN_MAKE_ERROR(TYPE, MESSAGE) \
	::dawn_native::ErrorData::Create(TYPE, MESSAGE, __FILE__, __func__, __LINE__)

	#define DAWN_VALIDATION_ERROR(MESSAGE) DAWN_MAKE_ERROR(InternalErrorType::Validation, MESSAGE)

	// TODO(dawn:563): Rename to DAWN_VALIDATION_ERROR once all message format strings have been
	// converted to constexpr.
	#define DAWN_FORMAT_VALIDATION_ERROR(...) \
	DAWN_MAKE_ERROR(InternalErrorType::Validation, absl::StrFormat(__VA_ARGS__))

	#define DAWN_INVALID_IF(EXPR, ...) \
	if (DAWN_UNLIKELY(EXPR)) { \
	return DAWN_MAKE_ERROR(InternalErrorType::Validation, absl::StrFormat(__VA_ARGS__)); \
	} \
	for (;;) \
	break

	// DAWN_DEVICE_LOST_ERROR means that there was a real unrecoverable native device lost error.
	// We can't even do a graceful shutdown because the Device is gone.
	#define DAWN_DEVICE_LOST_ERROR(MESSAGE) DAWN_MAKE_ERROR(InternalErrorType::DeviceLost, MESSAGE)

	// DAWN_INTERNAL_ERROR means Dawn hit an unexpected error in the backend and should try to
	// gracefully shut down.
	#define DAWN_INTERNAL_ERROR(MESSAGE) DAWN_MAKE_ERROR(InternalErrorType::Internal, MESSAGE)

	#define DAWN_FORMAT_INTERNAL_ERROR(...) \
	DAWN_MAKE_ERROR(InternalErrorType::Internal, absl::StrFormat(__VA_ARGS__))

	#define DAWN_UNIMPLEMENTED_ERROR(MESSAGE) \
	DAWN_MAKE_ERROR(InternalErrorType::Internal, std::string("Unimplemented: ") + MESSAGE)

	// DAWN_OUT_OF_MEMORY_ERROR means we ran out of memory. It may be used as a signal internally in
	// Dawn to free up unused resources. Or, it may bubble up to the application to signal an allocation
	// was too large or they should free some existing resources.
	#define DAWN_OUT_OF_MEMORY_ERROR(MESSAGE) DAWN_MAKE_ERROR(InternalErrorType::OutOfMemory, MESSAGE)

	#define DAWN_CONCAT1(x, y) x##y
	#define DAWN_CONCAT2(x, y) DAWN_CONCAT1(x, y)
	#define DAWN_LOCAL_VAR DAWN_CONCAT2(_localVar, __LINE__)

	// When Errors aren't handled explicitly, calls to functions returning errors should be
	// wrapped in an DAWN_TRY. It will return the error if any, otherwise keep executing
	// the current function.
	#define DAWN_TRY(EXPR) DAWN_TRY_WITH_CLEANUP(EXPR, {})

	#define DAWN_TRY_CONTEXT(EXPR, ...) \
	DAWN_TRY_WITH_CLEANUP(EXPR, { error->AppendContext(absl::StrFormat(__VA_ARGS__)); })

	#define DAWN_TRY_WITH_CLEANUP(EXPR, BODY) \
	{ \
	auto DAWN_LOCAL_VAR = EXPR; \
	if (DAWN_UNLIKELY(DAWN_LOCAL_VAR.IsError())) { \
	std::unique_ptr<::dawn_native::ErrorData> error = DAWN_LOCAL_VAR.AcquireError(); \
	{BODY} /* comment to force the formatter to insert a newline */ \
	error->AppendBacktrace(__FILE__, __func__, __LINE__); \
	return {std::move(error)}; \
	} \
	} \
	for (;;) \
	break

	// DAWN_TRY_ASSIGN is the same as DAWN_TRY for ResultOrError and assigns the success value, if
	// any, to VAR.
	#define DAWN_TRY_ASSIGN(VAR, EXPR) DAWN_TRY_ASSIGN_WITH_CLEANUP(VAR, EXPR, {})

	// Argument helpers are used to determine which macro implementations should be called when
	// overloading with different number of variables.
	#define DAWN_ERROR_UNIMPLEMENTED_MACRO_(...) UNREACHABLE()
	#define DAWN_ERROR_GET_5TH_ARG_HELPER_(_1, _2, _3, _4, NAME, ...) NAME
	#define DAWN_ERROR_GET_5TH_ARG_(args) DAWN_ERROR_GET_5TH_ARG_HELPER_ args

	// DAWN_TRY_ASSIGN_WITH_CLEANUP is overloaded with 2 version so that users can override the
	// return value of the macro when necessary. This is particularly useful if the function
	// calling the macro may want to return void instead of the error, i.e. in a test where we may
	// just want to assert and fail if the assign cannot go through. In both the cleanup and return
	// clauses, users can use the `error` variable to access the pointer to the acquired error.
	//
	// Example usages:
	// 3 Argument Case:
	// Result res;
	// DAWN_TRY_ASSIGN_WITH_CLEANUP(
	// res, GetResultOrErrorFunction(), { AddAdditionalErrorInformation(error.get()); }
	// );
	//
	// 4 Argument Case:
	// bool FunctionThatReturnsBool() {
	// DAWN_TRY_ASSIGN_WITH_CLEANUP(
	// res, GetResultOrErrorFunction(),
	// { AddAdditionalErrorInformation(error.get()); },
	// false
	// );
	// }
	#define DAWN_TRY_ASSIGN_WITH_CLEANUP(...) \
	DAWN_ERROR_GET_5TH_ARG_((__VA_ARGS__, DAWN_TRY_ASSIGN_WITH_CLEANUP_IMPL_4_, \
	DAWN_TRY_ASSIGN_WITH_CLEANUP_IMPL_3_, \
	DAWN_ERROR_UNIMPLEMENTED_MACRO_)) \
	(__VA_ARGS__)

	#define DAWN_TRY_ASSIGN_WITH_CLEANUP_IMPL_3_(VAR, EXPR, BODY) \
	DAWN_TRY_ASSIGN_WITH_CLEANUP_IMPL_4_(VAR, EXPR, BODY, std::move(error))

	#define DAWN_TRY_ASSIGN_WITH_CLEANUP_IMPL_4_(VAR, EXPR, BODY, RET) \
	{ \
	auto DAWN_LOCAL_VAR = EXPR; \
	if (DAWN_UNLIKELY(DAWN_LOCAL_VAR.IsError())) { \
	std::unique_ptr<ErrorData> error = DAWN_LOCAL_VAR.AcquireError(); \
	{BODY} /* comment to force the formatter to insert a newline */ \
	error->AppendBacktrace(__FILE__, __func__, __LINE__); \
	return (RET); \
	} \
	VAR = DAWN_LOCAL_VAR.AcquireSuccess(); \
	} \
	for (;;) \
	break

	// Assert that errors are device loss so that we can continue with destruction
	void IgnoreErrors(MaybeError maybeError);

	wgpu::ErrorType ToWGPUErrorType(InternalErrorType type);
	InternalErrorType FromWGPUErrorType(wgpu::ErrorType type);

	} // namespace dawn_native

	#endif // DAWNNATIVE_ERROR_H_