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

 /* Copyright 2016-2017 Tobias Grosser
  *
  * Use of this software is governed by the MIT license
  *
  * Written by Tobias Grosser, Weststrasse 47, CH-8003, Zurich
  */

 #include <vector>
 #include <string>
 #include <limits.h>
 #include <stdio.h>
 #include <stdlib.h>

 #include <isl/options.h>
 #include <isl/cpp-checked.h>

 namespace isl { using namespace checked; }

 static void assert_impl(bool condition, const char *file, int line,
 	const char *message)
 {
 	if (condition)
 		return;

 	fprintf(stderr, "Assertion failed in %s:%d %s\n", file, line, message);
 	exit(EXIT_FAILURE);
 }

 static void assert_impl(isl::boolean condition, const char *file, int line,
 	const char *message)
 {
 	assert_impl(bool(condition), file, line, message);
 }

 /* Return the value encapsulated by "s".
  */
 static int size_val(isl::size s)
 {
 	return s.is_error() ? -1 : unsigned(s);
 }

 #undef assert
 #define assert(exp) assert_impl(exp, __FILE__, __LINE__, #exp)
 #define IS_TRUE(b)	(b).is_true()
 #define SIZE_VAL(s)	size_val(s)

 #include "isl_test_cpp-generic.cc"

 /* Test that isl_bool values are returned correctly.
  *
  * We check in detail the following parts of the isl::boolean class:
  *  - The is_true, is_false, and is_error functions return true in case they
  *    are called on a true, false, or error instance of isl::boolean,
  *    respectively
  *  - Explicit conversion to 'bool'
  *  - Implicit conversion to 'bool'
  *  - The complement operator
  *  - Explicit construction from 'true' and 'false'
  *  - Explicit construction form isl_bool
  */
 void test_return_bool(isl::ctx ctx)
 {
 	isl::set empty(ctx, "{ : false }");
 	isl::set univ(ctx, "{ : }");
 	isl::set null;

 	isl::boolean b_true = empty.is_empty();
 	isl::boolean b_false = univ.is_empty();
 	isl::boolean b_error = null.is_empty();

 	assert(b_true.is_true());
 	assert(!b_true.is_false());
 	assert(!b_true.is_error());

 	assert(!b_false.is_true());
 	assert(b_false.is_false());
 	assert(!b_false.is_error());

 	assert(!b_error.is_true());
 	assert(!b_error.is_false());
 	assert(b_error.is_error());

 	assert(bool(b_true) == true);
 	assert(bool(b_false) == false);

 	assert(b_true);

 	assert((!b_false).is_true());
 	assert((!b_true).is_false());
 	assert((!b_error).is_error());

 	assert(isl::boolean(true).is_true());
 	assert(!isl::boolean(true).is_false());
 	assert(!isl::boolean(true).is_error());

 	assert(isl::boolean(false).is_false());
 	assert(!isl::boolean(false).is_true());
 	assert(!isl::boolean(false).is_error());

 	assert(isl::manage(isl_bool_true).is_true());
 	assert(!isl::manage(isl_bool_true).is_false());
 	assert(!isl::manage(isl_bool_true).is_error());

 	assert(isl::manage(isl_bool_false).is_false());
 	assert(!isl::manage(isl_bool_false).is_true());
 	assert(!isl::manage(isl_bool_false).is_error());

 	assert(isl::manage(isl_bool_error).is_error());
 	assert(!isl::manage(isl_bool_error).is_true());
 	assert(!isl::manage(isl_bool_error).is_false());
 }

 /* Test that return values are handled correctly.
  *
  * Test that isl C++ objects, integers, boolean values, and strings are
  * returned correctly.
  */
 void test_return(isl::ctx ctx)
 {
 	test_return_obj(ctx);
 	test_return_int(ctx);
 	test_return_bool(ctx);
 	test_return_string(ctx);
 }

 /* Test that foreach functions are modeled correctly.
  *
  * Verify that lambdas are correctly called as callback of a 'foreach'
  * function and that variables captured by the lambda work correctly. Also
  * check that the foreach function takes account of the return value of the
  * lambda and aborts in case isl::stat::error is returned and then returns
  * isl::stat::error itself.
  */
 void test_foreach(isl::ctx ctx)
 {
 	isl::set s(ctx, "{ [0]; [1]; [2] }");

 	std::vector<isl::basic_set> basic_sets;

 	auto add_to_vector = [&] (isl::basic_set bs) {
 		basic_sets.push_back(bs);
 		return isl::stat::ok();
 	};

 	isl::stat ret1 = s.foreach_basic_set(add_to_vector);

 	assert(ret1.is_ok());
 	assert(basic_sets.size() == 3);
 	assert(isl::set(basic_sets[0]).is_subset(s).is_true());
 	assert(isl::set(basic_sets[1]).is_subset(s).is_true());
 	assert(isl::set(basic_sets[2]).is_subset(s).is_true());
 	assert(!basic_sets[0].is_equal(basic_sets[1]).is_true());

 	auto fail = [&] (isl::basic_set bs) {
 		return isl::stat::error();
 	};

 	isl::stat ret2 = s.foreach_basic_set(fail);

 	assert(ret2.is_error());
 }

 /* Test the functionality of "every" functions.
  *
  * In particular, test the generic functionality and
  * test that error conditions are properly propagated.
  */
 static void test_every(isl::ctx ctx)
 {
 	isl::union_set us(ctx, "{ A[i]; B[j] }");

 	test_every_generic(ctx);

 	auto fail = [] (isl::set s){
 		return isl::boolean::error();
 	};
 	assert(us.every_set(fail).is_error());
 }

 /* Test basic schedule tree functionality.
  *
  * In particular, create a simple schedule tree and
  * - perform some generic tests
  * - test map_descendant_bottom_up in the failing case
  * - test foreach_descendant_top_down
  * - test every_descendant
  */
 static void test_schedule_tree(isl::ctx ctx)
 {
 	auto root = test_schedule_tree_generic(ctx);

 	auto fail_map = [](isl::schedule_node node) {
 		return isl::schedule_node();
 	};
 	assert(root.map_descendant_bottom_up(fail_map).is_null());

 	int count = 0;
 	auto inc_count = [&count](isl::schedule_node node) {
 		count++;
 		return isl::boolean(true);
 	};
 	assert(root.foreach_descendant_top_down(inc_count).is_ok());
 	assert(count == 8);

 	count = 0;
 	auto inc_count_once = [&count](isl::schedule_node node) {
 		count++;
 		return isl::boolean(false);
 	};
 	assert(root.foreach_descendant_top_down(inc_count_once).is_ok());
 	assert(count == 1);

 	auto is_not_domain = [](isl::schedule_node node) {
 		return !node.isa<isl::schedule_node_domain>();
 	};
 	assert(root.child(0).every_descendant(is_not_domain).is_true());
 	assert(root.every_descendant(is_not_domain).is_false());

 	auto fail = [](isl::schedule_node node) {
 		return isl::boolean();
 	};
 	assert(root.every_descendant(fail).is_error());

 	auto domain = root.as<isl::schedule_node_domain>().domain();
 	auto filters = isl::union_set(ctx, "{}");
 	auto collect_filters = [&filters](isl::schedule_node node) {
 		if (node.isa<isl::schedule_node_filter>().is_true()) {
 			auto filter = node.as<isl::schedule_node_filter>();
 			filters = filters.unite(filter.filter());
 		}
 		return isl::boolean(true);
 	};
 	assert(!root.every_descendant(collect_filters).is_error());
 	assert(domain.is_equal(filters).is_true());
 }

 /* Test basic AST generation from a schedule tree.
  *
  * In particular, create a simple schedule tree and
  * - perform some generic tests
  * - test at_each_domain in the failing case
  */
 static void test_ast_build(isl::ctx ctx)
 {
 	auto schedule = test_ast_build_generic(ctx);

 	bool do_fail = true;
 	int count_ast_fail = 0;
 	auto fail_inc_count_ast =
 	    [&count_ast_fail, &do_fail](isl::ast_node node,
 					isl::ast_build build) {
 		count_ast_fail++;
 		return do_fail ? isl::ast_node() : node;
 	};
 	auto build = isl::ast_build(ctx);
 	build = build.set_at_each_domain(fail_inc_count_ast);
 	auto ast = build.node_from(schedule);
 	assert(ast.is_null());
 	assert(count_ast_fail > 0);
 	auto build_copy = build;
 	int count_ast = 0;
 	auto inc_count_ast =
 	    [&count_ast](isl::ast_node node, isl::ast_build build) {
 		count_ast++;
 		return node;
 	};
 	build_copy = build_copy.set_at_each_domain(inc_count_ast);
 	ast = build_copy.node_from(schedule);
 	assert(!ast.is_null());
 	assert(count_ast == 2);
 	count_ast_fail = 0;
 	do_fail = false;
 	ast = build.node_from(schedule);
 	assert(!ast.is_null());
 	assert(count_ast_fail == 2);
 }

 /* Test the isl checked C++ interface
  *
  * This includes:
  *  - The isl C <-> C++ pointer interface
  *  - Object construction
  *  - Different parameter types
  *  - Different return types
  *  - Foreach functions
  *  - Every functions
  *  - Spaces
  *  - Schedule trees
  *  - AST generation
  *  - AST expression generation
  */
 int main()
 {
 	isl_ctx *ctx = isl_ctx_alloc();

 	isl_options_set_on_error(ctx, ISL_ON_ERROR_ABORT);

 	test_pointer(ctx);
 	test_constructors(ctx);
 	test_parameters(ctx);
 	test_return(ctx);
 	test_foreach(ctx);
 	test_every(ctx);
 	test_space(ctx);
 	test_schedule_tree(ctx);
 	test_ast_build(ctx);
 	test_ast_build_expr(ctx);

 	isl_ctx_free(ctx);

 	return EXIT_SUCCESS;
 }
	/* Copyright 2016-2017 Tobias Grosser
	*
	* Use of this software is governed by the MIT license
	*
	* Written by Tobias Grosser, Weststrasse 47, CH-8003, Zurich
	*/

	#include <vector>
	#include <string>
	#include <limits.h>
	#include <stdio.h>
	#include <stdlib.h>

	#include <isl/options.h>
	#include <isl/cpp-checked.h>

	namespace isl { using namespace checked; }

	static void assert_impl(bool condition, const char *file, int line,
	const char *message)
	{
	if (condition)
	return;

	fprintf(stderr, "Assertion failed in %s:%d %s\n", file, line, message);
	exit(EXIT_FAILURE);
	}

	static void assert_impl(isl::boolean condition, const char *file, int line,
	const char *message)
	{
	assert_impl(bool(condition), file, line, message);
	}

	/* Return the value encapsulated by "s".
	*/
	static int size_val(isl::size s)
	{
	return s.is_error() ? -1 : unsigned(s);
	}

	#undef assert
	#define assert(exp) assert_impl(exp, __FILE__, __LINE__, #exp)
	#define IS_TRUE(b) (b).is_true()
	#define SIZE_VAL(s) size_val(s)

	#include "isl_test_cpp-generic.cc"

	/* Test that isl_bool values are returned correctly.
	*
	* We check in detail the following parts of the isl::boolean class:
	* - The is_true, is_false, and is_error functions return true in case they
	* are called on a true, false, or error instance of isl::boolean,
	* respectively
	* - Explicit conversion to 'bool'
	* - Implicit conversion to 'bool'
	* - The complement operator
	* - Explicit construction from 'true' and 'false'
	* - Explicit construction form isl_bool
	*/
	void test_return_bool(isl::ctx ctx)
	{
	isl::set empty(ctx, "{ : false }");
	isl::set univ(ctx, "{ : }");
	isl::set null;

	isl::boolean b_true = empty.is_empty();
	isl::boolean b_false = univ.is_empty();
	isl::boolean b_error = null.is_empty();

	assert(b_true.is_true());
	assert(!b_true.is_false());
	assert(!b_true.is_error());

	assert(!b_false.is_true());
	assert(b_false.is_false());
	assert(!b_false.is_error());

	assert(!b_error.is_true());
	assert(!b_error.is_false());
	assert(b_error.is_error());

	assert(bool(b_true) == true);
	assert(bool(b_false) == false);

	assert(b_true);

	assert((!b_false).is_true());
	assert((!b_true).is_false());
	assert((!b_error).is_error());

	assert(isl::boolean(true).is_true());
	assert(!isl::boolean(true).is_false());
	assert(!isl::boolean(true).is_error());

	assert(isl::boolean(false).is_false());
	assert(!isl::boolean(false).is_true());
	assert(!isl::boolean(false).is_error());

	assert(isl::manage(isl_bool_true).is_true());
	assert(!isl::manage(isl_bool_true).is_false());
	assert(!isl::manage(isl_bool_true).is_error());

	assert(isl::manage(isl_bool_false).is_false());
	assert(!isl::manage(isl_bool_false).is_true());
	assert(!isl::manage(isl_bool_false).is_error());

	assert(isl::manage(isl_bool_error).is_error());
	assert(!isl::manage(isl_bool_error).is_true());
	assert(!isl::manage(isl_bool_error).is_false());
	}

	/* Test that return values are handled correctly.
	*
	* Test that isl C++ objects, integers, boolean values, and strings are
	* returned correctly.
	*/
	void test_return(isl::ctx ctx)
	{
	test_return_obj(ctx);
	test_return_int(ctx);
	test_return_bool(ctx);
	test_return_string(ctx);
	}

	/* Test that foreach functions are modeled correctly.
	*
	* Verify that lambdas are correctly called as callback of a 'foreach'
	* function and that variables captured by the lambda work correctly. Also
	* check that the foreach function takes account of the return value of the
	* lambda and aborts in case isl::stat::error is returned and then returns
	* isl::stat::error itself.
	*/
	void test_foreach(isl::ctx ctx)
	{
	isl::set s(ctx, "{ [0]; [1]; [2] }");

	std::vector<isl::basic_set> basic_sets;

	auto add_to_vector = [&] (isl::basic_set bs) {
	basic_sets.push_back(bs);
	return isl::stat::ok();
	};

	isl::stat ret1 = s.foreach_basic_set(add_to_vector);

	assert(ret1.is_ok());
	assert(basic_sets.size() == 3);
	assert(isl::set(basic_sets[0]).is_subset(s).is_true());
	assert(isl::set(basic_sets[1]).is_subset(s).is_true());
	assert(isl::set(basic_sets[2]).is_subset(s).is_true());
	assert(!basic_sets[0].is_equal(basic_sets[1]).is_true());

	auto fail = [&] (isl::basic_set bs) {
	return isl::stat::error();
	};

	isl::stat ret2 = s.foreach_basic_set(fail);

	assert(ret2.is_error());
	}

	/* Test the functionality of "every" functions.
	*
	* In particular, test the generic functionality and
	* test that error conditions are properly propagated.
	*/
	static void test_every(isl::ctx ctx)
	{
	isl::union_set us(ctx, "{ A[i]; B[j] }");

	test_every_generic(ctx);

	auto fail = [] (isl::set s){
	return isl::boolean::error();
	};
	assert(us.every_set(fail).is_error());
	}

	/* Test basic schedule tree functionality.
	*
	* In particular, create a simple schedule tree and
	* - perform some generic tests
	* - test map_descendant_bottom_up in the failing case
	* - test foreach_descendant_top_down
	* - test every_descendant
	*/
	static void test_schedule_tree(isl::ctx ctx)
	{
	auto root = test_schedule_tree_generic(ctx);

	auto fail_map = [](isl::schedule_node node) {
	return isl::schedule_node();
	};
	assert(root.map_descendant_bottom_up(fail_map).is_null());

	int count = 0;
	auto inc_count = [&count](isl::schedule_node node) {
	count++;
	return isl::boolean(true);
	};
	assert(root.foreach_descendant_top_down(inc_count).is_ok());
	assert(count == 8);

	count = 0;
	auto inc_count_once = [&count](isl::schedule_node node) {
	count++;
	return isl::boolean(false);
	};
	assert(root.foreach_descendant_top_down(inc_count_once).is_ok());
	assert(count == 1);

	auto is_not_domain = [](isl::schedule_node node) {
	return !node.isa<isl::schedule_node_domain>();
	};
	assert(root.child(0).every_descendant(is_not_domain).is_true());
	assert(root.every_descendant(is_not_domain).is_false());

	auto fail = [](isl::schedule_node node) {
	return isl::boolean();
	};
	assert(root.every_descendant(fail).is_error());

	auto domain = root.as<isl::schedule_node_domain>().domain();
	auto filters = isl::union_set(ctx, "{}");
	auto collect_filters = [&filters](isl::schedule_node node) {
	if (node.isa<isl::schedule_node_filter>().is_true()) {
	auto filter = node.as<isl::schedule_node_filter>();
	filters = filters.unite(filter.filter());
	}
	return isl::boolean(true);
	};
	assert(!root.every_descendant(collect_filters).is_error());
	assert(domain.is_equal(filters).is_true());
	}

	/* Test basic AST generation from a schedule tree.
	*
	* In particular, create a simple schedule tree and
	* - perform some generic tests
	* - test at_each_domain in the failing case
	*/
	static void test_ast_build(isl::ctx ctx)
	{
	auto schedule = test_ast_build_generic(ctx);

	bool do_fail = true;
	int count_ast_fail = 0;
	auto fail_inc_count_ast =
	[&count_ast_fail, &do_fail](isl::ast_node node,
	isl::ast_build build) {
	count_ast_fail++;
	return do_fail ? isl::ast_node() : node;
	};
	auto build = isl::ast_build(ctx);
	build = build.set_at_each_domain(fail_inc_count_ast);
	auto ast = build.node_from(schedule);
	assert(ast.is_null());
	assert(count_ast_fail > 0);
	auto build_copy = build;
	int count_ast = 0;
	auto inc_count_ast =
	[&count_ast](isl::ast_node node, isl::ast_build build) {
	count_ast++;
	return node;
	};
	build_copy = build_copy.set_at_each_domain(inc_count_ast);
	ast = build_copy.node_from(schedule);
	assert(!ast.is_null());
	assert(count_ast == 2);
	count_ast_fail = 0;
	do_fail = false;
	ast = build.node_from(schedule);
	assert(!ast.is_null());
	assert(count_ast_fail == 2);
	}

	/* Test the isl checked C++ interface
	*
	* This includes:
	* - The isl C <-> C++ pointer interface
	* - Object construction
	* - Different parameter types
	* - Different return types
	* - Foreach functions
	* - Every functions
	* - Spaces
	* - Schedule trees
	* - AST generation
	* - AST expression generation
	*/
	int main()
	{
	isl_ctx *ctx = isl_ctx_alloc();

	isl_options_set_on_error(ctx, ISL_ON_ERROR_ABORT);

	test_pointer(ctx);
	test_constructors(ctx);
	test_parameters(ctx);
	test_return(ctx);
	test_foreach(ctx);
	test_every(ctx);
	test_space(ctx);
	test_schedule_tree(ctx);
	test_ast_build(ctx);
	test_ast_build_expr(ctx);

	isl_ctx_free(ctx);

	return EXIT_SUCCESS;
	}