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library.cpp
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library.cpp
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#include <torch/library.h>
#include <ATen/core/dispatch/Dispatcher.h>
namespace torch {
namespace {
// TODO: Consider representing debug info as a struct instead so you
// don't have to allocate strings all the time
std::string debugString(const char* file, uint32_t line) {
#ifdef STRIP_ERROR_MESSAGES
return std::string();
#else
return c10::str("registered at ", file, ":", line);
#endif
}
std::string debugString(std::string debug, const char* file, uint32_t line) {
#ifdef STRIP_ERROR_MESSAGES
return std::string();
#else
if (debug.empty()) {
return debugString(file, line);
} else {
return debug;
}
#endif
}
#ifndef STRIP_ERROR_MESSAGES
const char* toString(Library::Kind kind) {
switch (kind) {
case Library::DEF:
return "TORCH_LIBRARY";
case Library::IMPL:
return "TORCH_LIBRARY_IMPL";
case Library::FRAGMENT:
return "TORCH_LIBRARY_FRAGMENT";
}
return "(unknown)";
}
#endif
constexpr auto CatchAll = c10::DispatchKey::CatchAll;
} // anonymous namespace
CppFunction::CppFunction(c10::KernelFunction func, std::optional<c10::impl::CppSignature> cpp_signature, std::unique_ptr<c10::FunctionSchema> schema)
: func_(std::move(func))
, cpp_signature_(cpp_signature)
, schema_(std::move(schema))
, debug_()
{}
CppFunction::~CppFunction() = default;
void Library::reset() {
registrars_.clear();
}
#define ERROR_CONTEXT "(Error occurred while processing ", toString(kind_), " block at ", file_, ":", line_, ")"
Library::Library(Kind kind, std::string ns, std::optional<c10::DispatchKey> k, const char* file, uint32_t line)
: kind_(kind)
, ns_(ns == "_" ? std::nullopt : std::make_optional(std::move(ns)))
, dispatch_key_(k.value_or(CatchAll) == CatchAll ? std::optional<c10::DispatchKey>() : k)
, file_(file)
, line_(line)
{
switch (kind_) {
case DEF:
// Only DEFs require library uniqueness; fragments
// don't register a library
registrars_.emplace_back(
c10::Dispatcher::singleton().registerLibrary(
// NOLINTNEXTLINE(bugprone-unchecked-optional-access)
*ns_, debugString(file_, line_)
)
);
[[fallthrough]];
case FRAGMENT:
TORCH_CHECK(
ns_.has_value(),
toString(kind_), ": cannot define ", toString(kind_), " with the wildcard namespace _ "
"(every ", toString(kind_), " defines operators for a distinct namespace!) "
"Did you mean to use TORCH_LIBRARY_IMPL instead? "
ERROR_CONTEXT
);
TORCH_INTERNAL_ASSERT(!dispatch_key_.has_value(), ERROR_CONTEXT);
break;
case IMPL:
// Nothing to do, everything is OK
break;
}
}
// TODO: Error if an operator is def'ed multiple times. Right now we just
// merge everything
#define DEF_PRELUDE "def(\"", schema.operator_name(), "\"): "
Library& Library::_def(c10::FunctionSchema&& schema, c10::OperatorName* out_name, const std::vector<at::Tag>& tags, _RegisterOrVerify rv) & {
TORCH_CHECK(kind_ == DEF || kind_ == FRAGMENT,
DEF_PRELUDE,
"Cannot define an operator inside of a ", toString(kind_), " block. "
"All def()s should be placed in the (unique) TORCH_LIBRARY block for their namespace. ",
ERROR_CONTEXT
);
TORCH_INTERNAL_ASSERT(ns_.has_value(), ERROR_CONTEXT);
TORCH_INTERNAL_ASSERT(!dispatch_key_.has_value(), ERROR_CONTEXT);
auto ns_opt = schema.getNamespace();
if (ns_opt.has_value()) {
// Note [Redundancy in registration code is OK]
// ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
// In an earlier version of this code, I made it an error to explicitly
// specify the namespace, even when the namespaces match. I've decided
// to relax this constraint because sometimes we code generate registrations
// and you cannot conveniently tell what the enclosing context will be;
// in these cases, it is simpler (and less error prone) to place all
// of the information in the registration site, which will be cross-checked
// in the end in any case (and if it turns out you DON'T have the right
// information at the site, as is the case with backend specific
// per-op registrations, you will get the right behavior!)
TORCH_CHECK(*ns_opt == *ns_,
"Explicitly provided namespace (", *ns_opt, ") in schema string "
"does not match namespace of enclosing ", toString(kind_), " block (", *ns_, "). "
"Move this definition to the (unique) TORCH_LIBRARY block corresponding to this namespace "
"(and consider deleting the namespace from your schema string.) ",
ERROR_CONTEXT
);
} else {
bool b = schema.setNamespaceIfNotSet(ns_->c_str());
TORCH_INTERNAL_ASSERT(b, ERROR_CONTEXT);
}
if (out_name) {
*out_name = schema.operator_name(); // copy!
}
switch (rv) {
case _RegisterOrVerify::REGISTER:
// Workaround for https://github.com/pytorch/pytorch/issues/140272 on mobile.
// Since Python isn't available at all we can noop registerPythonModule
#ifndef C10_MOBILE
if (python_module_.has_value()) {
registrars_.emplace_back(
c10::Dispatcher::singleton().registerPythonModule(
schema.operator_name(),
python_module_->first,
python_module_->second)
);
}
#endif
registrars_.emplace_back(
c10::Dispatcher::singleton().registerDef(
std::move(schema),
debugString(file_, line_),
tags
)
);
break;
case _RegisterOrVerify::VERIFY:
c10::Dispatcher::singleton().waitForDef(schema);
break;
}
return *this;
}
#undef DEF_PRELUDE
// NOLINTNEXTLINE(cppcoreguidelines-rvalue-reference-param-not-moved)
Library& Library::_def(std::variant<c10::OperatorName, c10::FunctionSchema>&& name_or_schema, CppFunction&& f, const std::vector<at::Tag>& tags) & {
c10::FunctionSchema schema = [&] {
if (std::holds_alternative<c10::FunctionSchema>(name_or_schema)){
return std::get<c10::FunctionSchema>(std::move(name_or_schema));
} else {
// it's a name; use the inferred schema
c10::OperatorName name = std::get<c10::OperatorName>(std::move(name_or_schema));
TORCH_CHECK(f.schema_,
"def(\"", name, "\"): "
"Full schema string was not specified, and we couldn't infer schema either. ",
"Please explicitly provide a schema string. ",
ERROR_CONTEXT
);
c10::FunctionSchema s = f.schema_->cloneWithName(std::move(name.name), std::move(name.overload_name));
s.setAliasAnalysis(c10::AliasAnalysisKind::CONSERVATIVE);
return s;
}
}();
c10::OperatorName name("", ""); // Get the namespaced name for the impl call
// First define the schema...
_def(std::move(schema), &name, tags);
// Then register the implementation...
auto dispatch_key = f.dispatch_key_.has_value() ? f.dispatch_key_ : dispatch_key_;
registrars_.emplace_back(
c10::Dispatcher::singleton().registerImpl(
std::move(name),
dispatch_key,
std::move(f.func_),
f.cpp_signature_,
std::move(f.schema_),
debugString(std::move(f.debug_), file_, line_)
)
);
return *this;
}
#define IMPL_PRELUDE "impl(\"", name_str, "\", ...): "
at::OperatorName Library::_parseNameForLib(const char* name_str) const {
auto name = torch::jit::parseName(name_str);
auto ns_opt = name.getNamespace();
// This is a copy paste of Library::_impl
if (ns_opt.has_value()) {
// See Note [Redundancy in registration code is OK]
// NOLINTNEXTLINE(bugprone-unchecked-optional-access)
TORCH_CHECK(*ns_opt == *ns_,
IMPL_PRELUDE,
"Explicitly provided namespace (", *ns_opt, ") in operator name "
// NOLINTNEXTLINE(bugprone-unchecked-optional-access)
"does not match namespace of enclosing ", toString(kind_), " block (", *ns_, "). "
"Move this definition to the ", toString(kind_), " block corresponding to this namespace "
"(and consider deleting the namespace from your schema string.) ",
ERROR_CONTEXT
);
} else {
// NOLINTNEXTLINE(bugprone-unchecked-optional-access)
bool b = name.setNamespaceIfNotSet(ns_->c_str());
TORCH_INTERNAL_ASSERT(b, ERROR_CONTEXT);
}
return name;
}
// NOLINTNEXTLINE(cppcoreguidelines-rvalue-reference-param-not-moved)
Library& Library::_impl(const char* name_str, CppFunction&& f, _RegisterOrVerify rv) & {
at::OperatorName name = _parseNameForLib(name_str);
// See Note [Redundancy in registration code is OK]
TORCH_CHECK(!(f.dispatch_key_.has_value() &&
dispatch_key_.has_value() &&
*f.dispatch_key_ != *dispatch_key_),
IMPL_PRELUDE,
"Explicitly provided dispatch key (", *f.dispatch_key_, ") is inconsistent "
"with the dispatch key of the enclosing ", toString(kind_), " block (", *dispatch_key_, "). "
"Please declare a separate ", toString(kind_), " block for this dispatch key and "
"move your impl() there. "
ERROR_CONTEXT
);
auto dispatch_key = f.dispatch_key_.has_value() ? f.dispatch_key_ : dispatch_key_;
switch (rv) {
case _RegisterOrVerify::REGISTER:
registrars_.emplace_back(
c10::Dispatcher::singleton().registerImpl(
std::move(name),
dispatch_key,
std::move(f.func_),
f.cpp_signature_,
std::move(f.schema_),
debugString(std::move(f.debug_), file_, line_)
)
);
break;
case _RegisterOrVerify::VERIFY:
c10::Dispatcher::singleton().waitForImpl(name, dispatch_key);
break;
}
return *this;
}
c10::OperatorName Library::_resolve(const char* name_str) const {
return _parseNameForLib(name_str);
}
#undef IMPL_PRELUDE
// NOLINTNEXTLINE(cppcoreguidelines-rvalue-reference-param-not-moved)
Library& Library::_fallback(CppFunction&& f) & {
TORCH_CHECK(kind_ == IMPL,
"fallback(...): Cannot define an operator inside of a ", toString(kind_), " block. "
"Did you mean to call this function inside a TORCH_LIBRARY_IMPL block? ",
ERROR_CONTEXT);
auto dispatch_key = f.dispatch_key_.has_value() ? f.dispatch_key_ : dispatch_key_;
TORCH_INTERNAL_ASSERT(dispatch_key.has_value(), ERROR_CONTEXT);
TORCH_CHECK(!ns_.has_value(),
"fallback(...): Fallback functions which apply to only a single namespace ",
"(you specified ", *ns_, ") are not supported. If you intended to apply ",
"this fallback function globally, please define a separate block:\n\n",
" TORCH_LIBRARY_IMPL(_, ", *dispatch_key, ", m) { m.fallback(...); }\n\n",
ERROR_CONTEXT);
// Note if dispatch_key is DispatchKey::Undefined, it'll be ignored here since Undefined
// isn't a runtime key, you shouldn't register anything to it at all.
for (auto k : c10::getRuntimeDispatchKeySet(*dispatch_key)) {
// mobile doesn't use all dispatch keys, so skip any fallback registrations for the unused keys.
auto idx = getDispatchTableIndexForDispatchKey(k);
if (idx < 0) continue;
registrars_.emplace_back(
c10::Dispatcher::singleton().registerFallback(
k,
f.func_,
debugString(f.debug_, file_, line_)
)
);
}
return *this;
}
} // namespace torch