flang/unittests/Evaluate/intrinsics.cpp - third_party/github.com/llvm/llvm-project - Git at Google

 #include "flang/Evaluate/intrinsics.h"
 #include "testing.h"
 #include "flang/Evaluate/common.h"
 #include "flang/Evaluate/expression.h"
 #include "flang/Evaluate/tools.h"
 #include "flang/Parser/provenance.h"
 #include "llvm/Support/raw_ostream.h"
 #include <initializer_list>
 #include <map>
 #include <string>

 namespace Fortran::evaluate {

 class CookedStrings {
 public:
   CookedStrings() {}
   explicit CookedStrings(const std::initializer_list<std::string> &ss) {
     for (const auto &s : ss) {
       Save(s);
     }
     Marshal();
   }
   void Save(const std::string &s) {
     offsets_[s] = cooked_.Put(s);
     cooked_.PutProvenance(cooked_.allSources().AddCompilerInsertion(s));
   }
   void Marshal() { cooked_.Marshal(); }
   parser::CharBlock operator()(const std::string &s) {
     return {cooked_.data().data() + offsets_[s], s.size()};
   }
   parser::ContextualMessages Messages(parser::Messages &buffer) {
     return parser::ContextualMessages{cooked_.data(), &buffer};
   }
   void Emit(llvm::raw_ostream &o, const parser::Messages &messages) {
     messages.Emit(o, cooked_);
   }

 private:
   parser::AllSources allSources_;
   parser::CookedSource cooked_{allSources_};
   std::map<std::string, std::size_t> offsets_;
 };

 template <typename A> auto Const(A &&x) -> Constant<TypeOf<A>> {
   return Constant<TypeOf<A>>{std::move(x)};
 }

 template <typename A> struct NamedArg {
   std::string keyword;
   A value;
 };

 template <typename A> static NamedArg<A> Named(std::string kw, A &&x) {
   return {kw, std::move(x)};
 }

 struct TestCall {
   TestCall(const common::IntrinsicTypeDefaultKinds &d,
       const IntrinsicProcTable &t, std::string n)
       : defaults{d}, table{t}, name{n} {}
   template <typename A> TestCall &Push(A &&x) {
     args.emplace_back(AsGenericExpr(std::move(x)));
     keywords.push_back("");
     return *this;
   }
   template <typename A> TestCall &Push(NamedArg<A> &&x) {
     args.emplace_back(AsGenericExpr(std::move(x.value)));
     keywords.push_back(x.keyword);
     strings.Save(x.keyword);
     return *this;
   }
   template <typename A, typename... As> TestCall &Push(A &&x, As &&... xs) {
     Push(std::move(x));
     return Push(std::move(xs)...);
   }
   void Marshal() {
     strings.Save(name);
     strings.Marshal();
     std::size_t j{0};
     for (auto &kw : keywords) {
       if (!kw.empty()) {
         args[j]->set_keyword(strings(kw));
       }
       ++j;
     }
   }
   void DoCall(std::optional<DynamicType> resultType = std::nullopt,
       int rank = 0, bool isElemental = false) {
     Marshal();
     parser::CharBlock fName{strings(name)};
     llvm::outs() << "function: " << fName.ToString();
     char sep{'('};
     for (const auto &a : args) {
       llvm::outs() << sep;
       sep = ',';
       a->AsFortran(llvm::outs());
     }
     if (sep == '(') {
       llvm::outs() << '(';
     }
     llvm::outs() << ')' << '\n';
     llvm::outs().flush();
     CallCharacteristics call{fName.ToString()};
     auto messages{strings.Messages(buffer)};
     FoldingContext context{messages, defaults, table};
     std::optional<SpecificCall> si{table.Probe(call, args, context)};
     if (resultType.has_value()) {
       TEST(si.has_value());
       TEST(messages.messages() && !messages.messages()->AnyFatalError());
       if (si) {
         const auto &proc{si->specificIntrinsic.characteristics.value()};
         const auto &fr{proc.functionResult};
         TEST(fr.has_value());
         if (fr) {
           const auto *ts{fr->GetTypeAndShape()};
           TEST(ts != nullptr);
           if (ts) {
             TEST(*resultType == ts->type());
             MATCH(rank, ts->Rank());
           }
         }
         MATCH(isElemental,
             proc.attrs.test(characteristics::Procedure::Attr::Elemental));
       }
     } else {
       TEST(!si.has_value());
       TEST((messages.messages() && messages.messages()->AnyFatalError()) ||
           name == "bad");
     }
     strings.Emit(llvm::outs(), buffer);
   }

   const common::IntrinsicTypeDefaultKinds &defaults;
   const IntrinsicProcTable &table;
   CookedStrings strings;
   parser::Messages buffer;
   ActualArguments args;
   std::string name;
   std::vector<std::string> keywords;
 };

 void TestIntrinsics() {
   common::IntrinsicTypeDefaultKinds defaults;
   MATCH(4, defaults.GetDefaultKind(TypeCategory::Integer));
   MATCH(4, defaults.GetDefaultKind(TypeCategory::Real));
   IntrinsicProcTable table{IntrinsicProcTable::Configure(defaults)};
   table.Dump(llvm::outs());

   using Int1 = Type<TypeCategory::Integer, 1>;
   using Int4 = Type<TypeCategory::Integer, 4>;
   using Int8 = Type<TypeCategory::Integer, 8>;
   using Real4 = Type<TypeCategory::Real, 4>;
   using Real8 = Type<TypeCategory::Real, 8>;
   using Complex4 = Type<TypeCategory::Complex, 4>;
   using Complex8 = Type<TypeCategory::Complex, 8>;
   using Char = Type<TypeCategory::Character, 1>;
   using Log4 = Type<TypeCategory::Logical, 4>;

   TestCall{defaults, table, "bad"}
       .Push(Const(Scalar<Int4>{}))
       .DoCall(); // bad intrinsic name
   TestCall{defaults, table, "abs"}
       .Push(Named("a", Const(Scalar<Int4>{})))
       .DoCall(Int4::GetType());
   TestCall{defaults, table, "abs"}
       .Push(Const(Scalar<Int4>{}))
       .DoCall(Int4::GetType());
   TestCall{defaults, table, "abs"}
       .Push(Named("bad", Const(Scalar<Int4>{})))
       .DoCall(); // bad keyword
   TestCall{defaults, table, "abs"}.DoCall(); // insufficient args
   TestCall{defaults, table, "abs"}
       .Push(Const(Scalar<Int4>{}))
       .Push(Const(Scalar<Int4>{}))
       .DoCall(); // too many args
   TestCall{defaults, table, "abs"}
       .Push(Const(Scalar<Int4>{}))
       .Push(Named("a", Const(Scalar<Int4>{})))
       .DoCall();
   TestCall{defaults, table, "abs"}
       .Push(Named("a", Const(Scalar<Int4>{})))
       .Push(Const(Scalar<Int4>{}))
       .DoCall();
   TestCall{defaults, table, "abs"}
       .Push(Const(Scalar<Int1>{}))
       .DoCall(Int1::GetType());
   TestCall{defaults, table, "abs"}
       .Push(Const(Scalar<Int4>{}))
       .DoCall(Int4::GetType());
   TestCall{defaults, table, "abs"}
       .Push(Const(Scalar<Int8>{}))
       .DoCall(Int8::GetType());
   TestCall{defaults, table, "abs"}
       .Push(Const(Scalar<Real4>{}))
       .DoCall(Real4::GetType());
   TestCall{defaults, table, "abs"}
       .Push(Const(Scalar<Real8>{}))
       .DoCall(Real8::GetType());
   TestCall{defaults, table, "abs"}
       .Push(Const(Scalar<Complex4>{}))
       .DoCall(Real4::GetType());
   TestCall{defaults, table, "abs"}
       .Push(Const(Scalar<Complex8>{}))
       .DoCall(Real8::GetType());
   TestCall{defaults, table, "abs"}.Push(Const(Scalar<Char>{})).DoCall();
   TestCall{defaults, table, "abs"}.Push(Const(Scalar<Log4>{})).DoCall();

   // "Ext" in names for calls allowed as extensions
   TestCall maxCallR{defaults, table, "max"}, maxCallI{defaults, table, "min"},
       max0Call{defaults, table, "max0"}, max1Call{defaults, table, "max1"},
       amin0Call{defaults, table, "amin0"}, amin1Call{defaults, table, "amin1"},
       max0ExtCall{defaults, table, "max0"},
       amin1ExtCall{defaults, table, "amin1"};
   for (int j{0}; j < 10; ++j) {
     maxCallR.Push(Const(Scalar<Real4>{}));
     maxCallI.Push(Const(Scalar<Int4>{}));
     max0Call.Push(Const(Scalar<Int4>{}));
     max0ExtCall.Push(Const(Scalar<Real4>{}));
     max1Call.Push(Const(Scalar<Real4>{}));
     amin0Call.Push(Const(Scalar<Int4>{}));
     amin1ExtCall.Push(Const(Scalar<Int4>{}));
     amin1Call.Push(Const(Scalar<Real4>{}));
   }
   maxCallR.DoCall(Real4::GetType());
   maxCallI.DoCall(Int4::GetType());
   max0Call.DoCall(Int4::GetType());
   max0ExtCall.DoCall(Int4::GetType());
   max1Call.DoCall(Int4::GetType());
   amin0Call.DoCall(Real4::GetType());
   amin1Call.DoCall(Real4::GetType());
   amin1ExtCall.DoCall(Real4::GetType());

   TestCall{defaults, table, "conjg"}
       .Push(Const(Scalar<Complex4>{}))
       .DoCall(Complex4::GetType());
   TestCall{defaults, table, "conjg"}
       .Push(Const(Scalar<Complex8>{}))
       .DoCall(Complex8::GetType());
   TestCall{defaults, table, "dconjg"}.Push(Const(Scalar<Complex4>{})).DoCall();
   TestCall{defaults, table, "dconjg"}
       .Push(Const(Scalar<Complex8>{}))
       .DoCall(Complex8::GetType());

   TestCall{defaults, table, "float"}.Push(Const(Scalar<Real4>{})).DoCall();
   TestCall{defaults, table, "float"}
       .Push(Const(Scalar<Int4>{}))
       .DoCall(Real4::GetType());
   TestCall{defaults, table, "idint"}.Push(Const(Scalar<Int4>{})).DoCall();
   TestCall{defaults, table, "idint"}
       .Push(Const(Scalar<Real8>{}))
       .DoCall(Int4::GetType());

   // Allowed as extensions
   TestCall{defaults, table, "float"}
       .Push(Const(Scalar<Int8>{}))
       .DoCall(Real4::GetType());
   TestCall{defaults, table, "idint"}
       .Push(Const(Scalar<Real4>{}))
       .DoCall(Int4::GetType());

   TestCall{defaults, table, "num_images"}.DoCall(Int4::GetType());
   TestCall{defaults, table, "num_images"}
       .Push(Const(Scalar<Int1>{}))
       .DoCall(Int4::GetType());
   TestCall{defaults, table, "num_images"}
       .Push(Const(Scalar<Int4>{}))
       .DoCall(Int4::GetType());
   TestCall{defaults, table, "num_images"}
       .Push(Const(Scalar<Int8>{}))
       .DoCall(Int4::GetType());
   TestCall{defaults, table, "num_images"}
       .Push(Named("team_number", Const(Scalar<Int4>{})))
       .DoCall(Int4::GetType());
   TestCall{defaults, table, "num_images"}
       .Push(Const(Scalar<Int4>{}))
       .Push(Const(Scalar<Int4>{}))
       .DoCall(); // too many args
   TestCall{defaults, table, "num_images"}
       .Push(Named("bad", Const(Scalar<Int4>{})))
       .DoCall(); // bad keyword
   TestCall{defaults, table, "num_images"}
       .Push(Const(Scalar<Char>{}))
       .DoCall(); // bad type
   TestCall{defaults, table, "num_images"}
       .Push(Const(Scalar<Log4>{}))
       .DoCall(); // bad type
   TestCall{defaults, table, "num_images"}
       .Push(Const(Scalar<Complex8>{}))
       .DoCall(); // bad type
   TestCall{defaults, table, "num_images"}
       .Push(Const(Scalar<Real4>{}))
       .DoCall(); // bad type

   // TODO: test other intrinsics
 }
 } // namespace Fortran::evaluate

 int main() {
   Fortran::evaluate::TestIntrinsics();
   return testing::Complete();
 }
	#include "flang/Evaluate/intrinsics.h"
	#include "testing.h"
	#include "flang/Evaluate/common.h"
	#include "flang/Evaluate/expression.h"
	#include "flang/Evaluate/tools.h"
	#include "flang/Parser/provenance.h"
	#include "llvm/Support/raw_ostream.h"
	#include <initializer_list>
	#include <map>
	#include <string>

	namespace Fortran::evaluate {

	class CookedStrings {
	public:
	CookedStrings() {}
	explicit CookedStrings(const std::initializer_list<std::string> &ss) {
	for (const auto &s : ss) {
	Save(s);
	}
	Marshal();
	}
	void Save(const std::string &s) {
	offsets_[s] = cooked_.Put(s);
	cooked_.PutProvenance(cooked_.allSources().AddCompilerInsertion(s));
	}
	void Marshal() { cooked_.Marshal(); }
	parser::CharBlock operator()(const std::string &s) {
	return {cooked_.data().data() + offsets_[s], s.size()};
	}
	parser::ContextualMessages Messages(parser::Messages &buffer) {
	return parser::ContextualMessages{cooked_.data(), &buffer};
	}
	void Emit(llvm::raw_ostream &o, const parser::Messages &messages) {
	messages.Emit(o, cooked_);
	}

	private:
	parser::AllSources allSources_;
	parser::CookedSource cooked_{allSources_};
	std::map<std::string, std::size_t> offsets_;
	};

	template <typename A> auto Const(A &&x) -> Constant<TypeOf<A>> {
	return Constant<TypeOf<A>>{std::move(x)};
	}

	template <typename A> struct NamedArg {
	std::string keyword;
	A value;
	};

	template <typename A> static NamedArg<A> Named(std::string kw, A &&x) {
	return {kw, std::move(x)};
	}

	struct TestCall {
	TestCall(const common::IntrinsicTypeDefaultKinds &d,
	const IntrinsicProcTable &t, std::string n)
	: defaults{d}, table{t}, name{n} {}
	template <typename A> TestCall &Push(A &&x) {
	args.emplace_back(AsGenericExpr(std::move(x)));
	keywords.push_back("");
	return *this;
	}
	template <typename A> TestCall &Push(NamedArg<A> &&x) {
	args.emplace_back(AsGenericExpr(std::move(x.value)));
	keywords.push_back(x.keyword);
	strings.Save(x.keyword);
	return *this;
	}
	template <typename A, typename... As> TestCall &Push(A &&x, As &&... xs) {
	Push(std::move(x));
	return Push(std::move(xs)...);
	}
	void Marshal() {
	strings.Save(name);
	strings.Marshal();
	std::size_t j{0};
	for (auto &kw : keywords) {
	if (!kw.empty()) {
	args[j]->set_keyword(strings(kw));
	}
	++j;
	}
	}
	void DoCall(std::optional<DynamicType> resultType = std::nullopt,
	int rank = 0, bool isElemental = false) {
	Marshal();
	parser::CharBlock fName{strings(name)};
	llvm::outs() << "function: " << fName.ToString();
	char sep{'('};
	for (const auto &a : args) {
	llvm::outs() << sep;
	sep = ',';
	a->AsFortran(llvm::outs());
	}
	if (sep == '(') {
	llvm::outs() << '(';
	}
	llvm::outs() << ')' << '\n';
	llvm::outs().flush();
	CallCharacteristics call{fName.ToString()};
	auto messages{strings.Messages(buffer)};
	FoldingContext context{messages, defaults, table};
	std::optional<SpecificCall> si{table.Probe(call, args, context)};
	if (resultType.has_value()) {
	TEST(si.has_value());
	TEST(messages.messages() && !messages.messages()->AnyFatalError());
	if (si) {
	const auto &proc{si->specificIntrinsic.characteristics.value()};
	const auto &fr{proc.functionResult};
	TEST(fr.has_value());
	if (fr) {
	const auto *ts{fr->GetTypeAndShape()};
	TEST(ts != nullptr);
	if (ts) {
	TEST(*resultType == ts->type());
	MATCH(rank, ts->Rank());
	}
	}
	MATCH(isElemental,
	proc.attrs.test(characteristics::Procedure::Attr::Elemental));
	}
	} else {
	TEST(!si.has_value());
	TEST((messages.messages() && messages.messages()->AnyFatalError()) \|\|
	name == "bad");
	}
	strings.Emit(llvm::outs(), buffer);
	}

	const common::IntrinsicTypeDefaultKinds &defaults;
	const IntrinsicProcTable &table;
	CookedStrings strings;
	parser::Messages buffer;
	ActualArguments args;
	std::string name;
	std::vector<std::string> keywords;
	};

	void TestIntrinsics() {
	common::IntrinsicTypeDefaultKinds defaults;
	MATCH(4, defaults.GetDefaultKind(TypeCategory::Integer));
	MATCH(4, defaults.GetDefaultKind(TypeCategory::Real));
	IntrinsicProcTable table{IntrinsicProcTable::Configure(defaults)};
	table.Dump(llvm::outs());

	using Int1 = Type<TypeCategory::Integer, 1>;
	using Int4 = Type<TypeCategory::Integer, 4>;
	using Int8 = Type<TypeCategory::Integer, 8>;
	using Real4 = Type<TypeCategory::Real, 4>;
	using Real8 = Type<TypeCategory::Real, 8>;
	using Complex4 = Type<TypeCategory::Complex, 4>;
	using Complex8 = Type<TypeCategory::Complex, 8>;
	using Char = Type<TypeCategory::Character, 1>;
	using Log4 = Type<TypeCategory::Logical, 4>;

	TestCall{defaults, table, "bad"}
	.Push(Const(Scalar<Int4>{}))
	.DoCall(); // bad intrinsic name
	TestCall{defaults, table, "abs"}
	.Push(Named("a", Const(Scalar<Int4>{})))
	.DoCall(Int4::GetType());
	TestCall{defaults, table, "abs"}
	.Push(Const(Scalar<Int4>{}))
	.DoCall(Int4::GetType());
	TestCall{defaults, table, "abs"}
	.Push(Named("bad", Const(Scalar<Int4>{})))
	.DoCall(); // bad keyword
	TestCall{defaults, table, "abs"}.DoCall(); // insufficient args
	TestCall{defaults, table, "abs"}
	.Push(Const(Scalar<Int4>{}))
	.Push(Const(Scalar<Int4>{}))
	.DoCall(); // too many args
	TestCall{defaults, table, "abs"}
	.Push(Const(Scalar<Int4>{}))
	.Push(Named("a", Const(Scalar<Int4>{})))
	.DoCall();
	TestCall{defaults, table, "abs"}
	.Push(Named("a", Const(Scalar<Int4>{})))
	.Push(Const(Scalar<Int4>{}))
	.DoCall();
	TestCall{defaults, table, "abs"}
	.Push(Const(Scalar<Int1>{}))
	.DoCall(Int1::GetType());
	TestCall{defaults, table, "abs"}
	.Push(Const(Scalar<Int4>{}))
	.DoCall(Int4::GetType());
	TestCall{defaults, table, "abs"}
	.Push(Const(Scalar<Int8>{}))
	.DoCall(Int8::GetType());
	TestCall{defaults, table, "abs"}
	.Push(Const(Scalar<Real4>{}))
	.DoCall(Real4::GetType());
	TestCall{defaults, table, "abs"}
	.Push(Const(Scalar<Real8>{}))
	.DoCall(Real8::GetType());
	TestCall{defaults, table, "abs"}
	.Push(Const(Scalar<Complex4>{}))
	.DoCall(Real4::GetType());
	TestCall{defaults, table, "abs"}
	.Push(Const(Scalar<Complex8>{}))
	.DoCall(Real8::GetType());
	TestCall{defaults, table, "abs"}.Push(Const(Scalar<Char>{})).DoCall();
	TestCall{defaults, table, "abs"}.Push(Const(Scalar<Log4>{})).DoCall();

	// "Ext" in names for calls allowed as extensions
	TestCall maxCallR{defaults, table, "max"}, maxCallI{defaults, table, "min"},
	max0Call{defaults, table, "max0"}, max1Call{defaults, table, "max1"},
	amin0Call{defaults, table, "amin0"}, amin1Call{defaults, table, "amin1"},
	max0ExtCall{defaults, table, "max0"},
	amin1ExtCall{defaults, table, "amin1"};
	for (int j{0}; j < 10; ++j) {
	maxCallR.Push(Const(Scalar<Real4>{}));
	maxCallI.Push(Const(Scalar<Int4>{}));
	max0Call.Push(Const(Scalar<Int4>{}));
	max0ExtCall.Push(Const(Scalar<Real4>{}));
	max1Call.Push(Const(Scalar<Real4>{}));
	amin0Call.Push(Const(Scalar<Int4>{}));
	amin1ExtCall.Push(Const(Scalar<Int4>{}));
	amin1Call.Push(Const(Scalar<Real4>{}));
	}
	maxCallR.DoCall(Real4::GetType());
	maxCallI.DoCall(Int4::GetType());
	max0Call.DoCall(Int4::GetType());
	max0ExtCall.DoCall(Int4::GetType());
	max1Call.DoCall(Int4::GetType());
	amin0Call.DoCall(Real4::GetType());
	amin1Call.DoCall(Real4::GetType());
	amin1ExtCall.DoCall(Real4::GetType());

	TestCall{defaults, table, "conjg"}
	.Push(Const(Scalar<Complex4>{}))
	.DoCall(Complex4::GetType());
	TestCall{defaults, table, "conjg"}
	.Push(Const(Scalar<Complex8>{}))
	.DoCall(Complex8::GetType());
	TestCall{defaults, table, "dconjg"}.Push(Const(Scalar<Complex4>{})).DoCall();
	TestCall{defaults, table, "dconjg"}
	.Push(Const(Scalar<Complex8>{}))
	.DoCall(Complex8::GetType());

	TestCall{defaults, table, "float"}.Push(Const(Scalar<Real4>{})).DoCall();
	TestCall{defaults, table, "float"}
	.Push(Const(Scalar<Int4>{}))
	.DoCall(Real4::GetType());
	TestCall{defaults, table, "idint"}.Push(Const(Scalar<Int4>{})).DoCall();
	TestCall{defaults, table, "idint"}
	.Push(Const(Scalar<Real8>{}))
	.DoCall(Int4::GetType());

	// Allowed as extensions
	TestCall{defaults, table, "float"}
	.Push(Const(Scalar<Int8>{}))
	.DoCall(Real4::GetType());
	TestCall{defaults, table, "idint"}
	.Push(Const(Scalar<Real4>{}))
	.DoCall(Int4::GetType());

	TestCall{defaults, table, "num_images"}.DoCall(Int4::GetType());
	TestCall{defaults, table, "num_images"}
	.Push(Const(Scalar<Int1>{}))
	.DoCall(Int4::GetType());
	TestCall{defaults, table, "num_images"}
	.Push(Const(Scalar<Int4>{}))
	.DoCall(Int4::GetType());
	TestCall{defaults, table, "num_images"}
	.Push(Const(Scalar<Int8>{}))
	.DoCall(Int4::GetType());
	TestCall{defaults, table, "num_images"}
	.Push(Named("team_number", Const(Scalar<Int4>{})))
	.DoCall(Int4::GetType());
	TestCall{defaults, table, "num_images"}
	.Push(Const(Scalar<Int4>{}))
	.Push(Const(Scalar<Int4>{}))
	.DoCall(); // too many args
	TestCall{defaults, table, "num_images"}
	.Push(Named("bad", Const(Scalar<Int4>{})))
	.DoCall(); // bad keyword
	TestCall{defaults, table, "num_images"}
	.Push(Const(Scalar<Char>{}))
	.DoCall(); // bad type
	TestCall{defaults, table, "num_images"}
	.Push(Const(Scalar<Log4>{}))
	.DoCall(); // bad type
	TestCall{defaults, table, "num_images"}
	.Push(Const(Scalar<Complex8>{}))
	.DoCall(); // bad type
	TestCall{defaults, table, "num_images"}
	.Push(Const(Scalar<Real4>{}))
	.DoCall(); // bad type

	// TODO: test other intrinsics
	}
	} // namespace Fortran::evaluate

	int main() {
	Fortran::evaluate::TestIntrinsics();
	return testing::Complete();
	}