polly/lib/External/isl/isl_test2.cc - llvm-project - Git at Google

 #include <assert.h>
 #include <stdlib.h>

 #include <functional>
 #include <iostream>
 #include <sstream>
 #include <string>
 #include <type_traits>
 #include <utility>
 #include <vector>

 #include <isl/cpp.h>

 /* A binary isl function that appears in the C++ bindings
  * as a unary method in a class T, taking an extra argument
  * of type A1 and returning an object of type R.
  */
 template <typename A1, typename R, typename T>
 using binary_fn = R (T::*)(A1) const;

 /* A function for selecting an overload of a pointer to a unary C++ method
  * based on the single argument type.
  * The object type and the return type are meant to be deduced.
  */
 template <typename A1, typename R, typename T>
 static binary_fn<A1, R, T> const arg(const binary_fn<A1, R, T> &fn)
 {
 	return fn;
 }

 /* A description of the inputs and the output of a binary operation.
  */
 struct binary {
 	const char *arg1;
 	const char *arg2;
 	const char *res;
 };

 /* A template function for checking whether two objects
  * of the same (isl) type are (obviously) equal.
  * The spelling depends on the isl type and
  * in particular on whether an equality method is available or
  * whether only obvious equality can be tested.
  */
 template <typename T, typename std::decay<decltype(
 	std::declval<T>().is_equal(std::declval<T>()))>::type = true>
 static bool is_equal(const T &a, const T &b)
 {
 	return a.is_equal(b);
 }
 template <typename T, typename std::decay<decltype(
 	std::declval<T>().plain_is_equal(std::declval<T>()))>::type = true>
 static bool is_equal(const T &a, const T &b)
 {
 	return a.plain_is_equal(b);
 }

 /* A helper macro for throwing an isl::exception_invalid with message "msg".
  */
 #define THROW_INVALID(msg) \
 	isl::exception::throw_error(isl_error_invalid, msg, __FILE__, __LINE__)

 /* Run a sequence of tests of method "fn" with stringification "name" and
  * with inputs and output described by "test",
  * throwing an exception when an unexpected result is produced.
  */
 template <typename R, typename T, typename A1>
 static void test(isl::ctx ctx, R (T::*fn)(A1) const, const std::string &name,
 	const std::vector<binary> &tests)
 {
 	for (const auto &test : tests) {
 		T obj(ctx, test.arg1);
 		A1 arg1(ctx, test.arg2);
 		R expected(ctx, test.res);
 		const auto &res = (obj.*fn)(arg1);
 		std::ostringstream ss;

 		if (is_equal(expected, res))
 			continue;

 		ss << name << "(" << test.arg1 << ", " << test.arg2 << ") =\n"
 		   << res << "\n"
 		   << "expecting:\n"
 		   << test.res;
 		THROW_INVALID(ss.str().c_str());
 	}
 }

 /* A helper macro that calls test with as implicit initial argument "ctx" and
  * as extra argument a stringification of "FN".
  */
 #define C(FN, ...) test(ctx, FN, #FN, __VA_ARGS__)

 /* Perform some basic preimage tests.
  */
 static void test_preimage(isl::ctx ctx)
 {
 	C(arg<isl::multi_aff>(&isl::set::preimage), {
 	{ "{ B[i,j] : 0 <= i < 10 and 0 <= j < 100 }",
 	  "{ A[j,i] -> B[i,j] }",
 	  "{ A[j,i] : 0 <= i < 10 and 0 <= j < 100 }" },
 	{ "{ rat: B[i,j] : 0 <= i, j and 3 i + 5 j <= 100 }",
 	  "{ A[a,b] -> B[a/2,b/6] }",
 	  "{ rat: A[a,b] : 0 <= a, b and 9 a + 5 b <= 600 }" },
 	{ "{ B[i,j] : 0 <= i, j and 3 i + 5 j <= 100 }",
 	  "{ A[a,b] -> B[a/2,b/6] }",
 	  "{ A[a,b] : 0 <= a, b and 9 a + 5 b <= 600 and "
 		    "exists i,j : a = 2 i and b = 6 j }" },
 	{ "[n] -> { S[i] : 0 <= i <= 100 }", "[n] -> { S[n] }",
 	  "[n] -> { : 0 <= n <= 100 }" },
 	{ "{ B[i] : 0 <= i < 100 and exists a : i = 4 a }",
 	  "{ A[a] -> B[2a] }",
 	  "{ A[a] : 0 <= a < 50 and exists b : a = 2 b }" },
 	{ "{ B[i] : 0 <= i < 100 and exists a : i = 4 a }",
 	  "{ A[a] -> B[([a/2])] }",
 	  "{ A[a] : 0 <= a < 200 and exists b : [a/2] = 4 b }" },
 	{ "{ B[i,j,k] : 0 <= i,j,k <= 100 }",
 	  "{ A[a] -> B[a,a,a/3] }",
 	  "{ A[a] : 0 <= a <= 100 and exists b : a = 3 b }" },
 	{ "{ B[i,j] : j = [(i)/2] } ", "{ A[i,j] -> B[i/3,j] }",
 	  "{ A[i,j] : j = [(i)/6] and exists a : i = 3 a }" },
 	});

 	C(arg<isl::multi_aff>(&isl::union_map::preimage_domain), {
 	{ "{ B[i,j] -> C[2i + 3j] : 0 <= i < 10 and 0 <= j < 100 }",
 	  "{ A[j,i] -> B[i,j] }",
 	  "{ A[j,i] -> C[2i + 3j] : 0 <= i < 10 and 0 <= j < 100 }" },
 	{ "{ B[i] -> C[i]; D[i] -> E[i] }",
 	  "{ A[i] -> B[i + 1] }",
 	  "{ A[i] -> C[i + 1] }" },
 	{ "{ B[i] -> C[i]; B[i] -> E[i] }",
 	  "{ A[i] -> B[i + 1] }",
 	  "{ A[i] -> C[i + 1]; A[i] -> E[i + 1] }" },
 	{ "{ B[i] -> C[([i/2])] }",
 	  "{ A[i] -> B[2i] }",
 	  "{ A[i] -> C[i] }" },
 	{ "{ B[i,j] -> C[([i/2]), ([(i+j)/3])] }",
 	  "{ A[i] -> B[([i/5]), ([i/7])] }",
 	  "{ A[i] -> C[([([i/5])/2]), ([(([i/5])+([i/7]))/3])] }" },
 	{ "[N] -> { B[i] -> C[([N/2]), i, ([N/3])] }",
 	  "[N] -> { A[] -> B[([N/5])] }",
 	  "[N] -> { A[] -> C[([N/2]), ([N/5]), ([N/3])] }" },
 	{ "{ B[i] -> C[i] : exists a : i = 5 a }",
 	  "{ A[i] -> B[2i] }",
 	  "{ A[i] -> C[2i] : exists a : 2i = 5 a }" },
 	{ "{ B[i] -> C[i] : exists a : i = 2 a; "
 	    "B[i] -> D[i] : exists a : i = 2 a + 1 }",
 	  "{ A[i] -> B[2i] }",
 	  "{ A[i] -> C[2i] }" },
 	{ "{ A[i] -> B[i] }", "{ C[i] -> A[(i + floor(i/3))/2] }",
 	  "{ C[i] -> B[j] : 2j = i + floor(i/3) }" },
 	});

 	C(arg<isl::multi_aff>(&isl::union_map::preimage_range), {
 	{ "[M] -> { A[a] -> B[a] }", "[M] -> { C[] -> B[floor(M/2)] }",
 	  "[M] -> { A[floor(M/2)] -> C[] }" },
 	});
 }

 /* The list of tests to perform.
  */
 static std::vector<std::pair<const char *, void (*)(isl::ctx)>> tests =
 {
 	{ "preimage", &test_preimage },
 };

 /* Perform some basic checks by means of the C++ bindings.
  */
 int main(int argc, char **argv)
 {
 	int ret = EXIT_SUCCESS;
 	struct isl_ctx *ctx;
 	struct isl_options *options;

 	options = isl_options_new_with_defaults();
 	assert(options);
 	argc = isl_options_parse(options, argc, argv, ISL_ARG_ALL);
 	ctx = isl_ctx_alloc_with_options(&isl_options_args, options);

 	try {
 		for (const auto &f : tests) {
 			std::cout << f.first << "\n";
 			f.second(ctx);
 		}
 	} catch (const isl::exception &e) {
 		std::cerr << e.what() << "\n";
 		ret = EXIT_FAILURE;
 	}

 	isl_ctx_free(ctx);
 	return ret;
 }
	#include <assert.h>
	#include <stdlib.h>

	#include <functional>
	#include <iostream>
	#include <sstream>
	#include <string>
	#include <type_traits>
	#include <utility>
	#include <vector>

	#include <isl/cpp.h>

	/* A binary isl function that appears in the C++ bindings
	* as a unary method in a class T, taking an extra argument
	* of type A1 and returning an object of type R.
	*/
	template <typename A1, typename R, typename T>
	using binary_fn = R (T::*)(A1) const;

	/* A function for selecting an overload of a pointer to a unary C++ method
	* based on the single argument type.
	* The object type and the return type are meant to be deduced.
	*/
	template <typename A1, typename R, typename T>
	static binary_fn<A1, R, T> const arg(const binary_fn<A1, R, T> &fn)
	{
	return fn;
	}

	/* A description of the inputs and the output of a binary operation.
	*/
	struct binary {
	const char *arg1;
	const char *arg2;
	const char *res;
	};

	/* A template function for checking whether two objects
	* of the same (isl) type are (obviously) equal.
	* The spelling depends on the isl type and
	* in particular on whether an equality method is available or
	* whether only obvious equality can be tested.
	*/
	template <typename T, typename std::decay<decltype(
	std::declval<T>().is_equal(std::declval<T>()))>::type = true>
	static bool is_equal(const T &a, const T &b)
	{
	return a.is_equal(b);
	}
	template <typename T, typename std::decay<decltype(
	std::declval<T>().plain_is_equal(std::declval<T>()))>::type = true>
	static bool is_equal(const T &a, const T &b)
	{
	return a.plain_is_equal(b);
	}

	/* A helper macro for throwing an isl::exception_invalid with message "msg".
	*/
	#define THROW_INVALID(msg) \
	isl::exception::throw_error(isl_error_invalid, msg, __FILE__, __LINE__)

	/* Run a sequence of tests of method "fn" with stringification "name" and
	* with inputs and output described by "test",
	* throwing an exception when an unexpected result is produced.
	*/
	template <typename R, typename T, typename A1>
	static void test(isl::ctx ctx, R (T::*fn)(A1) const, const std::string &name,
	const std::vector<binary> &tests)
	{
	for (const auto &test : tests) {
	T obj(ctx, test.arg1);
	A1 arg1(ctx, test.arg2);
	R expected(ctx, test.res);
	const auto &res = (obj.*fn)(arg1);
	std::ostringstream ss;

	if (is_equal(expected, res))
	continue;

	ss << name << "(" << test.arg1 << ", " << test.arg2 << ") =\n"
	<< res << "\n"
	<< "expecting:\n"
	<< test.res;
	THROW_INVALID(ss.str().c_str());
	}
	}

	/* A helper macro that calls test with as implicit initial argument "ctx" and
	* as extra argument a stringification of "FN".
	*/
	#define C(FN, ...) test(ctx, FN, #FN, __VA_ARGS__)

	/* Perform some basic preimage tests.
	*/
	static void test_preimage(isl::ctx ctx)
	{
	C(arg<isl::multi_aff>(&isl::set::preimage), {
	{ "{ B[i,j] : 0 <= i < 10 and 0 <= j < 100 }",
	"{ A[j,i] -> B[i,j] }",
	"{ A[j,i] : 0 <= i < 10 and 0 <= j < 100 }" },
	{ "{ rat: B[i,j] : 0 <= i, j and 3 i + 5 j <= 100 }",
	"{ A[a,b] -> B[a/2,b/6] }",
	"{ rat: A[a,b] : 0 <= a, b and 9 a + 5 b <= 600 }" },
	{ "{ B[i,j] : 0 <= i, j and 3 i + 5 j <= 100 }",
	"{ A[a,b] -> B[a/2,b/6] }",
	"{ A[a,b] : 0 <= a, b and 9 a + 5 b <= 600 and "
	"exists i,j : a = 2 i and b = 6 j }" },
	{ "[n] -> { S[i] : 0 <= i <= 100 }", "[n] -> { S[n] }",
	"[n] -> { : 0 <= n <= 100 }" },
	{ "{ B[i] : 0 <= i < 100 and exists a : i = 4 a }",
	"{ A[a] -> B[2a] }",
	"{ A[a] : 0 <= a < 50 and exists b : a = 2 b }" },
	{ "{ B[i] : 0 <= i < 100 and exists a : i = 4 a }",
	"{ A[a] -> B[([a/2])] }",
	"{ A[a] : 0 <= a < 200 and exists b : [a/2] = 4 b }" },
	{ "{ B[i,j,k] : 0 <= i,j,k <= 100 }",
	"{ A[a] -> B[a,a,a/3] }",
	"{ A[a] : 0 <= a <= 100 and exists b : a = 3 b }" },
	{ "{ B[i,j] : j = [(i)/2] } ", "{ A[i,j] -> B[i/3,j] }",
	"{ A[i,j] : j = [(i)/6] and exists a : i = 3 a }" },
	});

	C(arg<isl::multi_aff>(&isl::union_map::preimage_domain), {
	{ "{ B[i,j] -> C[2i + 3j] : 0 <= i < 10 and 0 <= j < 100 }",
	"{ A[j,i] -> B[i,j] }",
	"{ A[j,i] -> C[2i + 3j] : 0 <= i < 10 and 0 <= j < 100 }" },
	{ "{ B[i] -> C[i]; D[i] -> E[i] }",
	"{ A[i] -> B[i + 1] }",
	"{ A[i] -> C[i + 1] }" },
	{ "{ B[i] -> C[i]; B[i] -> E[i] }",
	"{ A[i] -> B[i + 1] }",
	"{ A[i] -> C[i + 1]; A[i] -> E[i + 1] }" },
	{ "{ B[i] -> C[([i/2])] }",
	"{ A[i] -> B[2i] }",
	"{ A[i] -> C[i] }" },
	{ "{ B[i,j] -> C[([i/2]), ([(i+j)/3])] }",
	"{ A[i] -> B[([i/5]), ([i/7])] }",
	"{ A[i] -> C[([([i/5])/2]), ([(([i/5])+([i/7]))/3])] }" },
	{ "[N] -> { B[i] -> C[([N/2]), i, ([N/3])] }",
	"[N] -> { A[] -> B[([N/5])] }",
	"[N] -> { A[] -> C[([N/2]), ([N/5]), ([N/3])] }" },
	{ "{ B[i] -> C[i] : exists a : i = 5 a }",
	"{ A[i] -> B[2i] }",
	"{ A[i] -> C[2i] : exists a : 2i = 5 a }" },
	{ "{ B[i] -> C[i] : exists a : i = 2 a; "
	"B[i] -> D[i] : exists a : i = 2 a + 1 }",
	"{ A[i] -> B[2i] }",
	"{ A[i] -> C[2i] }" },
	{ "{ A[i] -> B[i] }", "{ C[i] -> A[(i + floor(i/3))/2] }",
	"{ C[i] -> B[j] : 2j = i + floor(i/3) }" },
	});

	C(arg<isl::multi_aff>(&isl::union_map::preimage_range), {
	{ "[M] -> { A[a] -> B[a] }", "[M] -> { C[] -> B[floor(M/2)] }",
	"[M] -> { A[floor(M/2)] -> C[] }" },
	});
	}

	/* The list of tests to perform.
	*/
	static std::vector<std::pair<const char , void ()(isl::ctx)>> tests =
	{
	{ "preimage", &test_preimage },
	};

	/* Perform some basic checks by means of the C++ bindings.
	*/
	int main(int argc, char **argv)
	{
	int ret = EXIT_SUCCESS;
	struct isl_ctx *ctx;
	struct isl_options *options;

	options = isl_options_new_with_defaults();
	assert(options);
	argc = isl_options_parse(options, argc, argv, ISL_ARG_ALL);
	ctx = isl_ctx_alloc_with_options(&isl_options_args, options);

	try {
	for (const auto &f : tests) {
	std::cout << f.first << "\n";
	f.second(ctx);
	}
	} catch (const isl::exception &e) {
	std::cerr << e.what() << "\n";
	ret = EXIT_FAILURE;
	}

	isl_ctx_free(ctx);
	return ret;
	}