clang/test/SemaTemplate/matrix-type.cpp - llvm-project - Git at Google

 // RUN: %clang_cc1 -std=c++11 -fsyntax-only -verify -fenable-matrix %s

 template <typename T> // expected-note{{declared here}}
 void matrix_template_1() {
   using matrix1_t = float __attribute__((matrix_type(T, T))); // expected-error{{'T' does not refer to a value}}
 }

 template <class C> // expected-note{{declared here}}
 void matrix_template_2() {
   using matrix1_t = float __attribute__((matrix_type(C, C))); // expected-error{{'C' does not refer to a value}}
 }

 template <unsigned Rows, unsigned Cols>
 void matrix_template_3() {
   using matrix1_t = float __attribute__((matrix_type(Rows, Cols))); // expected-error{{zero matrix size}}
 }

 void instantiate_template_3() {
   matrix_template_3<1, 10>();
   matrix_template_3<0, 10>(); // expected-note{{in instantiation of function template specialization 'matrix_template_3<0U, 10U>' requested here}}
 }

 template <int Rows, unsigned Cols>
 void matrix_template_4() {
   using matrix1_t = float __attribute__((matrix_type(Rows, Cols))); // expected-error{{matrix row size too large}}
 }

 void instantiate_template_4() {
   matrix_template_4<2, 10>();
   matrix_template_4<-3, 10>(); // expected-note{{in instantiation of function template specialization 'matrix_template_4<-3, 10U>' requested here}}
 }

 template <class T, unsigned long R, unsigned long C>
 using matrix = T __attribute__((matrix_type(R, C)));

 template <class T, unsigned long R>
 void use_matrix(matrix<T, R, 10> &m) {}
 // expected-note@-1 {{candidate function [with T = float, R = 10]}}

 template <class T, unsigned long C>
 void use_matrix(matrix<T, 10, C> &m) {}
 // expected-note@-1 {{candidate function [with T = float, C = 10]}}

 void test_ambigous_deduction1() {
   matrix<float, 10, 10> m;
   use_matrix(m);
   // expected-error@-1 {{call to 'use_matrix' is ambiguous}}
 }

 template <class T, long R>
 void type_conflict(matrix<T, R, 10> &m, T x) {}
 // expected-note@-1 {{candidate template ignored: deduced conflicting types for parameter 'T' ('float' vs. 'char *')}}

 void test_type_conflict(char *p) {
   matrix<float, 10, 10> m;
   type_conflict(m, p);
   // expected-error@-1 {{no matching function for call to 'type_conflict'}}
 }

 template <unsigned long R, unsigned long C>
 matrix<float, R + 1, C + 2> use_matrix_2(matrix<int, R, C> &m) {}
 // expected-note@-1 {{candidate function template not viable: requires single argument 'm', but 2 arguments were provided}}
 // expected-note@-2 {{candidate function template not viable: requires single argument 'm', but 2 arguments were provided}}

 template <unsigned long R, unsigned long C>
 void use_matrix_2(matrix<int, R + 2, C / 2> &m1, matrix<float, R, C> &m2) {}
 // expected-note@-1 {{candidate function [with R = 3, C = 11] not viable: no known conversion from 'matrix<int, 5, 6>' (aka 'int __attribute__((matrix_type(5, 6)))') to 'matrix<int, 3UL + 2, 11UL / 2> &' (aka 'int  __attribute__((matrix_type(5, 5)))&') for 1st argument}}
 // expected-note@-2 {{candidate template ignored: deduced type 'matrix<float, 3UL, 4UL>' of 2nd parameter does not match adjusted type 'matrix<int, 3, 4>' of argument [with R = 3, C = 4]}}

 template <typename T, unsigned long R, unsigned long C>
 void use_matrix_2(matrix<T, R + C, C> &m1, matrix<T, R, C - R> &m2) {}
 // expected-note@-1 {{candidate template ignored: deduced conflicting types for parameter 'T' ('int' vs. 'float')}}
 // expected-note@-2 {{candidate template ignored: deduced type 'matrix<[...], 3UL + 4UL, 4UL>' of 1st parameter does not match adjusted type 'matrix<[...], 3, 4>' of argument [with T = int, R = 3, C = 4]}}

 template <typename T, unsigned long R>
 void use_matrix_3(matrix<T, R - 2, R> &m) {}
 // expected-note@-1 {{candidate template ignored: deduced type 'matrix<[...], 5UL - 2, 5UL>' of 1st parameter does not match adjusted type 'matrix<[...], 5, 5>' of argument [with T = unsigned int, R = 5]}}

 void test_use_matrix_2() {
   matrix<int, 5, 6> m1;
   matrix<float, 5, 8> r1 = use_matrix_2(m1);
   // expected-error@-1 {{cannot initialize a variable of type 'matrix<[...], 5, 8>' with an rvalue of type 'matrix<[...], 5UL + 1, 6UL + 2>'}}

   matrix<int, 4, 5> m2;
   matrix<float, 5, 8> r2 = use_matrix_2(m2);
   // expected-error@-1 {{cannot initialize a variable of type 'matrix<[...], 5, 8>' with an rvalue of type 'matrix<[...], 4UL + 1, 5UL + 2>'}}

   matrix<float, 3, 11> m3;
   use_matrix_2(m1, m3);
   // expected-error@-1 {{no matching function for call to 'use_matrix_2'}}

   matrix<int, 3, 4> m4;
   use_matrix_2(m4, m4);
   // expected-error@-1 {{no matching function for call to 'use_matrix_2'}}

   matrix<unsigned, 5, 5> m5;
   use_matrix_3(m5);
   // expected-error@-1 {{no matching function for call to 'use_matrix_3'}}
 }
 template <typename T, unsigned R, unsigned C>
 struct make1 {
   typedef T __attribute__((matrix_type(R, C))) type;
 };

 void test_make1() {
   make1<int, 5, 4>::type x;
 }

 template <typename T, unsigned R, unsigned C>
 struct make2 {
   typedef T __attribute__((matrix_type(R, C))) type; // expected-error{{zero matrix size}}
 };

 int test_make2() {
   make2<int, 0, 1> x; // expected-note{{in instantiation of}}
 }

 template <typename T, unsigned R, unsigned C>
 struct make3 {
   typedef T __attribute__((matrix_type(R, C))) type; // expected-error{{invalid matrix element type 's'}}
 };

 struct s {};

 int test_make3() {
   make3<s, 3, 3> x; // expected-note{{in instantiation of}}
 }

 template <typename T, T R, unsigned C>
 struct make4 {
   typedef T __attribute__((matrix_type(R, C))) type;
 };

 int test_make4() {
   make4<int, 4, 5>::type x;
 }

 typedef int *int_ptr;
 template <unsigned R, unsigned C>
 struct make5 {
   typedef int_ptr __attribute__((matrix_type(R, C))) type; // expected-error{{invalid matrix element type}}
 };

 template <int R, unsigned C>
 struct make6 {
   typedef int __attribute__((matrix_type(R, C))) type;
 };

 int test_make6() {
   make6<4, 4>::type x;

   make6<2, 2>::type y;
 }

 namespace Deduction {
 template <typename T>
 struct X0;

 template <typename T, unsigned N>
 struct X0<T __attribute__((matrix_type(N, 3)))> {
   static const unsigned value = 0;
 };

 template <typename T>
 struct X0<T __attribute__((matrix_type(4, 3)))> {
   static const unsigned value = 1;
 };

 template <unsigned N>
 struct X0<float __attribute__((matrix_type(N, 3)))> {
   static const unsigned value = 2;
 };

 template <>
 struct X0<float __attribute__((matrix_type(4, 3)))> {
   static const unsigned value = 3;
 };

 typedef int __attribute__((matrix_type(2, 3))) int2;
 typedef int __attribute__((matrix_type(4, 3))) int4;
 typedef float __attribute__((matrix_type(2, 3))) float2;
 typedef float __attribute__((matrix_type(4, 3))) float4;

 int array0[X0<int2>::value == 0 ? 1 : -1];
 int array1[X0<int4>::value == 1 ? 1 : -1];
 int array2[X0<float2>::value == 2 ? 1 : -1];
 int array3[X0<float4>::value == 3 ? 1 : -1];
 } // namespace Deduction
	// RUN: %clang_cc1 -std=c++11 -fsyntax-only -verify -fenable-matrix %s

	template <typename T> // expected-note{{declared here}}
	void matrix_template_1() {
	using matrix1_t = float __attribute__((matrix_type(T, T))); // expected-error{{'T' does not refer to a value}}
	}

	template <class C> // expected-note{{declared here}}
	void matrix_template_2() {
	using matrix1_t = float __attribute__((matrix_type(C, C))); // expected-error{{'C' does not refer to a value}}
	}

	template <unsigned Rows, unsigned Cols>
	void matrix_template_3() {
	using matrix1_t = float __attribute__((matrix_type(Rows, Cols))); // expected-error{{zero matrix size}}
	}

	void instantiate_template_3() {
	matrix_template_3<1, 10>();
	matrix_template_3<0, 10>(); // expected-note{{in instantiation of function template specialization 'matrix_template_3<0U, 10U>' requested here}}
	}

	template <int Rows, unsigned Cols>
	void matrix_template_4() {
	using matrix1_t = float __attribute__((matrix_type(Rows, Cols))); // expected-error{{matrix row size too large}}
	}

	void instantiate_template_4() {
	matrix_template_4<2, 10>();
	matrix_template_4<-3, 10>(); // expected-note{{in instantiation of function template specialization 'matrix_template_4<-3, 10U>' requested here}}
	}

	template <class T, unsigned long R, unsigned long C>
	using matrix = T __attribute__((matrix_type(R, C)));

	template <class T, unsigned long R>
	void use_matrix(matrix<T, R, 10> &m) {}
	// expected-note@-1 {{candidate function [with T = float, R = 10]}}

	template <class T, unsigned long C>
	void use_matrix(matrix<T, 10, C> &m) {}
	// expected-note@-1 {{candidate function [with T = float, C = 10]}}

	void test_ambigous_deduction1() {
	matrix<float, 10, 10> m;
	use_matrix(m);
	// expected-error@-1 {{call to 'use_matrix' is ambiguous}}
	}

	template <class T, long R>
	void type_conflict(matrix<T, R, 10> &m, T x) {}
	// expected-note@-1 {{candidate template ignored: deduced conflicting types for parameter 'T' ('float' vs. 'char *')}}

	void test_type_conflict(char *p) {
	matrix<float, 10, 10> m;
	type_conflict(m, p);
	// expected-error@-1 {{no matching function for call to 'type_conflict'}}
	}

	template <unsigned long R, unsigned long C>
	matrix<float, R + 1, C + 2> use_matrix_2(matrix<int, R, C> &m) {}
	// expected-note@-1 {{candidate function template not viable: requires single argument 'm', but 2 arguments were provided}}
	// expected-note@-2 {{candidate function template not viable: requires single argument 'm', but 2 arguments were provided}}

	template <unsigned long R, unsigned long C>
	void use_matrix_2(matrix<int, R + 2, C / 2> &m1, matrix<float, R, C> &m2) {}
	// expected-note@-1 {{candidate function [with R = 3, C = 11] not viable: no known conversion from 'matrix<int, 5, 6>' (aka 'int __attribute__((matrix_type(5, 6)))') to 'matrix<int, 3UL + 2, 11UL / 2> &' (aka 'int __attribute__((matrix_type(5, 5)))&') for 1st argument}}
	// expected-note@-2 {{candidate template ignored: deduced type 'matrix<float, 3UL, 4UL>' of 2nd parameter does not match adjusted type 'matrix<int, 3, 4>' of argument [with R = 3, C = 4]}}

	template <typename T, unsigned long R, unsigned long C>
	void use_matrix_2(matrix<T, R + C, C> &m1, matrix<T, R, C - R> &m2) {}
	// expected-note@-1 {{candidate template ignored: deduced conflicting types for parameter 'T' ('int' vs. 'float')}}
	// expected-note@-2 {{candidate template ignored: deduced type 'matrix<[...], 3UL + 4UL, 4UL>' of 1st parameter does not match adjusted type 'matrix<[...], 3, 4>' of argument [with T = int, R = 3, C = 4]}}

	template <typename T, unsigned long R>
	void use_matrix_3(matrix<T, R - 2, R> &m) {}
	// expected-note@-1 {{candidate template ignored: deduced type 'matrix<[...], 5UL - 2, 5UL>' of 1st parameter does not match adjusted type 'matrix<[...], 5, 5>' of argument [with T = unsigned int, R = 5]}}

	void test_use_matrix_2() {
	matrix<int, 5, 6> m1;
	matrix<float, 5, 8> r1 = use_matrix_2(m1);
	// expected-error@-1 {{cannot initialize a variable of type 'matrix<[...], 5, 8>' with an rvalue of type 'matrix<[...], 5UL + 1, 6UL + 2>'}}

	matrix<int, 4, 5> m2;
	matrix<float, 5, 8> r2 = use_matrix_2(m2);
	// expected-error@-1 {{cannot initialize a variable of type 'matrix<[...], 5, 8>' with an rvalue of type 'matrix<[...], 4UL + 1, 5UL + 2>'}}

	matrix<float, 3, 11> m3;
	use_matrix_2(m1, m3);
	// expected-error@-1 {{no matching function for call to 'use_matrix_2'}}

	matrix<int, 3, 4> m4;
	use_matrix_2(m4, m4);
	// expected-error@-1 {{no matching function for call to 'use_matrix_2'}}

	matrix<unsigned, 5, 5> m5;
	use_matrix_3(m5);
	// expected-error@-1 {{no matching function for call to 'use_matrix_3'}}
	}
	template <typename T, unsigned R, unsigned C>
	struct make1 {
	typedef T __attribute__((matrix_type(R, C))) type;
	};

	void test_make1() {
	make1<int, 5, 4>::type x;
	}

	template <typename T, unsigned R, unsigned C>
	struct make2 {
	typedef T __attribute__((matrix_type(R, C))) type; // expected-error{{zero matrix size}}
	};

	int test_make2() {
	make2<int, 0, 1> x; // expected-note{{in instantiation of}}
	}

	template <typename T, unsigned R, unsigned C>
	struct make3 {
	typedef T __attribute__((matrix_type(R, C))) type; // expected-error{{invalid matrix element type 's'}}
	};

	struct s {};

	int test_make3() {
	make3<s, 3, 3> x; // expected-note{{in instantiation of}}
	}

	template <typename T, T R, unsigned C>
	struct make4 {
	typedef T __attribute__((matrix_type(R, C))) type;
	};

	int test_make4() {
	make4<int, 4, 5>::type x;
	}

	typedef int *int_ptr;
	template <unsigned R, unsigned C>
	struct make5 {
	typedef int_ptr __attribute__((matrix_type(R, C))) type; // expected-error{{invalid matrix element type}}
	};

	template <int R, unsigned C>
	struct make6 {
	typedef int __attribute__((matrix_type(R, C))) type;
	};

	int test_make6() {
	make6<4, 4>::type x;

	make6<2, 2>::type y;
	}

	namespace Deduction {
	template <typename T>
	struct X0;

	template <typename T, unsigned N>
	struct X0<T __attribute__((matrix_type(N, 3)))> {
	static const unsigned value = 0;
	};

	template <typename T>
	struct X0<T __attribute__((matrix_type(4, 3)))> {
	static const unsigned value = 1;
	};

	template <unsigned N>
	struct X0<float __attribute__((matrix_type(N, 3)))> {
	static const unsigned value = 2;
	};

	template <>
	struct X0<float __attribute__((matrix_type(4, 3)))> {
	static const unsigned value = 3;
	};

	typedef int __attribute__((matrix_type(2, 3))) int2;
	typedef int __attribute__((matrix_type(4, 3))) int4;
	typedef float __attribute__((matrix_type(2, 3))) float2;
	typedef float __attribute__((matrix_type(4, 3))) float4;

	int array0[X0<int2>::value == 0 ? 1 : -1];
	int array1[X0<int4>::value == 1 ? 1 : -1];
	int array2[X0<float2>::value == 2 ? 1 : -1];
	int array3[X0<float4>::value == 3 ? 1 : -1];
	} // namespace Deduction