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From: daniel_james_at_[hidden]
Date: 2008-01-13 11:19:27


Author: danieljames
Date: 2008-01-13 11:19:26 EST (Sun, 13 Jan 2008)
New Revision: 42724
URL: http://svn.boost.org/trac/boost/changeset/42724

Log:
Merge in latest changes to Boost.Unordered. Some compiler workarounds and
starting to clean up the tests a little.

Added:
   trunk/libs/unordered/test/helpers/exception_test.hpp
      - copied unchanged from r42721, /branches/unordered/trunk/libs/unordered/test/helpers/exception_test.hpp
Properties modified:
   trunk/ (props changed)
Text files modified:
   trunk/boost/unordered/detail/hash_table_impl.hpp | 8
   trunk/libs/unordered/test/helpers/allocator.hpp | 7
   trunk/libs/unordered/test/objects/exception.hpp | 367 +++++++--------------------------------
   trunk/libs/unordered/test/unordered/erase_tests.cpp | 4
   4 files changed, 79 insertions(+), 307 deletions(-)

Modified: trunk/boost/unordered/detail/hash_table_impl.hpp
==============================================================================
--- trunk/boost/unordered/detail/hash_table_impl.hpp (original)
+++ trunk/boost/unordered/detail/hash_table_impl.hpp 2008-01-13 11:19:26 EST (Sun, 13 Jan 2008)
@@ -131,7 +131,7 @@
 
                 void destroy(link_ptr ptr)
                 {
- node_ptr n(node_alloc_.address(static_cast<node&>(*ptr)));
+ node_ptr n(node_alloc_.address(*static_cast<node*>(&*ptr)));
                     value_alloc_.destroy(value_alloc_.address(n->value_));
                     node_base_alloc_.destroy(node_base_alloc_.address(*n));
                     node_alloc_.deallocate(n, 1);
@@ -224,7 +224,7 @@
 
 #if BOOST_UNORDERED_EQUIVALENT_KEYS
             static inline link_ptr& prev_in_group(link_ptr n) {
- return static_cast<node&>(*n).group_prev_;
+ return static_cast<node*>(&*n)->group_prev_;
             }
 
             // pre: Must be pointing to the first node in a group.
@@ -242,13 +242,13 @@
             // pre: Must be pointing to a node
             static inline node& get_node(link_ptr p) {
                 BOOST_ASSERT(p);
- return static_cast<node&>(*p);
+ return *static_cast<node*>(&*p);
             }
 
             // pre: Must be pointing to a node
             static inline reference get_value(link_ptr p) {
                 BOOST_ASSERT(p);
- return static_cast<node&>(*p).value_;
+ return static_cast<node*>(&*p)->value_;
             }
 
             class iterator_base

Modified: trunk/libs/unordered/test/helpers/allocator.hpp
==============================================================================
--- trunk/libs/unordered/test/helpers/allocator.hpp (original)
+++ trunk/libs/unordered/test/helpers/allocator.hpp 2008-01-13 11:19:26 EST (Sun, 13 Jan 2008)
@@ -43,6 +43,13 @@
         }
 
         pointer allocate(size_type n, const_pointer u) { return allocate(n); }
+
+#if defined(__IBMCPP__)
+ // Workaround for IBM Visual Age which seems to use a void pointer
+ // for the second argument.
+ pointer allocate(size_type n, void const* u) { return allocate(n); }
+#endif
+
         void deallocate(pointer p, size_type) {
             using namespace std;
             free(p);

Modified: trunk/libs/unordered/test/objects/exception.hpp
==============================================================================
--- trunk/libs/unordered/test/objects/exception.hpp (original)
+++ trunk/libs/unordered/test/objects/exception.hpp 2008-01-13 11:19:26 EST (Sun, 13 Jan 2008)
@@ -3,253 +3,18 @@
 // Distributed under the Boost Software License, Version 1.0. (See accompanying
 // file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
 
-#if !defined(BOOST_UNORDERED_TEST_OBJECTS_HEADER)
-#define BOOST_UNORDERED_TEST_OBJECTS_HEADER
+#if !defined(BOOST_UNORDERED_EXCEPTION_TEST_OBJECTS_HEADER)
+#define BOOST_UNORDERED_EXCEPTION_TEST_OBJECTS_HEADER
 
-#if defined(BOOST_UNORDERED_USE_TEST)
-#define BOOST_TEST_MAIN
-#include <boost/test/exception_safety.hpp>
-#include <boost/test/test_tools.hpp>
-#include <boost/test/unit_test.hpp>
-#else
-#include <boost/detail/lightweight_test.hpp>
-#endif
+#include "../helpers/exception_test.hpp"
 
 #include <cstddef>
 #include <iostream>
 #include <boost/limits.hpp>
-#include <boost/preprocessor/seq/for_each_product.hpp>
-#include <boost/preprocessor/seq/elem.hpp>
-#include <boost/preprocessor/cat.hpp>
 #include "../helpers/fwd.hpp"
 #include "../helpers/allocator.hpp"
 #include "./memory.hpp"
 
-#define RUN_EXCEPTION_TESTS(test_seq, param_seq) \
- UNORDERED_EXCEPTION_TEST_PREFIX \
- BOOST_PP_SEQ_FOR_EACH_PRODUCT(RUN_EXCEPTION_TESTS_OP, (test_seq)(param_seq)) \
- UNORDERED_EXCEPTION_TEST_POSTFIX
-
-#define RUN_EXCEPTION_TESTS_OP(r, product) \
- UNORDERED_EXCEPTION_TEST_CASE( \
- BOOST_PP_CAT(BOOST_PP_SEQ_ELEM(0, product), \
- BOOST_PP_CAT(_, BOOST_PP_SEQ_ELEM(1, product)) \
- ), \
- BOOST_PP_SEQ_ELEM(0, product), \
- BOOST_PP_SEQ_ELEM(1, product) \
- )
-
-
-#if defined(BOOST_UNORDERED_USE_TEST)
-#define UNORDERED_EXCEPTION_TEST_PREFIX
-#define UNORDERED_EXCEPTION_TEST_CASE(name, test_func, type) \
- BOOST_AUTO_TEST_CASE(name) \
- { \
- test_func< type > fixture; \
- ::test::exception_safety(fixture, BOOST_STRINGIZE(test_func<type>)); \
- }
-#define UNORDERED_EXCEPTION_TEST_POSTFIX
-#else
-#define UNORDERED_EXCEPTION_TEST_PREFIX int main() {
-#define UNORDERED_EXCEPTION_TEST_CASE(name, test_func, type) \
- { \
- test_func< type > fixture; \
- ::test::lightweight::exception_safety(fixture, BOOST_STRINGIZE(test_func<type>)); \
- }
-#define UNORDERED_EXCEPTION_TEST_POSTFIX return boost::report_errors(); }
-#endif
-
-#define SCOPE(scope_name) \
- for(::test::scope_guard unordered_test_guard( \
- BOOST_STRINGIZE(scope_name)); \
- !unordered_test_guard.dismissed(); \
- unordered_test_guard.dismiss())
-
-#if defined(BOOST_UNORDERED_USE_TEST)
-#define EPOINT(name) \
- if(::test::exceptions_enabled) { \
- BOOST_ITEST_EPOINT(name); \
- }
-#else
-#define EPOINT(name) \
- if(::test::exceptions_enabled) { \
- ::test::lightweight::epoint(name); \
- }
-#endif
-
-#define ENABLE_EXCEPTIONS \
- ::test::exceptions_enable BOOST_PP_CAT(ENABLE_EXCEPTIONS_, __LINE__)(true)
-#define DISABLE_EXCEPTIONS \
- ::test::exceptions_enable BOOST_PP_CAT(ENABLE_EXCEPTIONS_, __LINE__)(false)
-
-namespace test {
- static char const* scope = "";
- bool exceptions_enabled = false;
-
- class scope_guard {
- scope_guard& operator=(scope_guard const&);
- scope_guard(scope_guard const&);
-
- char const* old_scope_;
- char const* scope_;
- bool dismissed_;
- public:
- scope_guard(char const* name)
- : old_scope_(scope),
- scope_(name),
- dismissed_(false)
- {
- scope = scope_;
- }
-
- ~scope_guard() {
- if(dismissed_) scope = old_scope_;
- }
-
- void dismiss() {
- dismissed_ = true;
- }
-
- bool dismissed() const {
- return dismissed_;
- }
- };
-
- class exceptions_enable
- {
- exceptions_enable& operator=(exceptions_enable const&);
- exceptions_enable(exceptions_enable const&);
-
- bool old_value_;
- public:
- exceptions_enable(bool enable)
- : old_value_(exceptions_enabled)
- {
- exceptions_enabled = enable;
- }
-
- ~exceptions_enable()
- {
- exceptions_enabled = old_value_;
- }
- };
-
- struct exception_base {
- struct data_type {};
- struct strong_type {
- template <class T> void store(T const&) {}
- template <class T> void test(T const&) const {}
- };
- data_type init() const { return data_type(); }
- void check() const {}
- };
-
- template <class T, class P1, class P2, class T2>
- inline void call_ignore_extra_parameters(void (T::*fn)() const, T2 const& obj,
- P1&, P2&)
- {
- (obj.*fn)();
- }
-
- template <class T, class P1, class P2, class T2>
- inline void call_ignore_extra_parameters(void (T::*fn)(P1&) const, T2 const& obj,
- P1& p1, P2&)
- {
- (obj.*fn)(p1);
- }
-
- template <class T, class P1, class P2, class T2>
- inline void call_ignore_extra_parameters(void (T::*fn)(P1&, P2&) const, T2 const& obj,
- P1& p1, P2& p2)
- {
- (obj.*fn)(p1, p2);
- }
-
- template <class T>
- T const& constant(T const& x) {
- return x;
- }
-
- template <class Test>
- class test_runner
- {
- Test const& test_;
- public:
- test_runner(Test const& t) : test_(t) {}
- void operator()() const {
- DISABLE_EXCEPTIONS;
- BOOST_DEDUCED_TYPENAME Test::data_type x(test_.init());
- BOOST_DEDUCED_TYPENAME Test::strong_type strong;
- strong.store(x);
- try {
- ENABLE_EXCEPTIONS;
- call_ignore_extra_parameters<Test, BOOST_DEDUCED_TYPENAME Test::data_type, BOOST_DEDUCED_TYPENAME Test::strong_type>(&Test::run, test_, x, strong);
- }
- catch(...) {
- call_ignore_extra_parameters<Test, BOOST_DEDUCED_TYPENAME Test::data_type const, BOOST_DEDUCED_TYPENAME Test::strong_type const>(&Test::check, test_,
- constant(x), constant(strong));
- throw;
- }
- }
- };
-
-
-
-#if defined(BOOST_UNORDERED_USE_TEST)
- template <class Test>
- void exception_safety(Test const& f, char const* name) {
- test_runner<Test> runner(f);
- ::boost::itest::exception_safety(runner, name);
- }
-#else
-
- // Quick exception testing based on lightweight test
-
- namespace lightweight {
- static int iteration;
- static int count;
-
- struct test_exception {
- char const* name;
- test_exception(char const* n) : name(n) {}
- };
-
- struct test_failure {
- };
-
- void epoint(char const* name) {
- ++count;
- if(count == iteration) {
- throw test_exception(name);
- }
- }
-
- template <class Test>
- void exception_safety(Test const& f, char const* name) {
- test_runner<Test> runner(f);
-
- iteration = 0;
- bool success = false;
- do {
- ++iteration;
- count = 0;
-
- try {
- runner();
- success = true;
- }
- catch(test_failure) {
- break;
- }
- catch(...) {
- }
- } while(!success);
- }
- }
-#endif
-
-}
-
 namespace test
 {
 namespace exception
@@ -280,23 +45,23 @@
 
         explicit object() : tag1_(0), tag2_(0)
         {
- SCOPE(object::object()) {
- EPOINT("Mock object default constructor.");
+ UNORDERED_SCOPE(object::object()) {
+ UNORDERED_EPOINT("Mock object default constructor.");
             }
         }
 
         explicit object(int t1, int t2 = 0) : tag1_(t1), tag2_(t2)
         {
- SCOPE(object::object(int)) {
- EPOINT("Mock object constructor by value.");
+ UNORDERED_SCOPE(object::object(int)) {
+ UNORDERED_EPOINT("Mock object constructor by value.");
             }
         }
 
         object(object const& x)
              : tag1_(x.tag1_), tag2_(x.tag2_)
         {
- SCOPE(object::object(object)) {
- EPOINT("Mock object copy constructor.");
+ UNORDERED_SCOPE(object::object(object)) {
+ UNORDERED_EPOINT("Mock object copy constructor.");
             }
         }
 
@@ -307,26 +72,26 @@
 
         object& operator=(object const& x)
         {
- SCOPE(object::operator=(object)) {
+ UNORDERED_SCOPE(object::operator=(object)) {
                 tag1_ = x.tag1_;
- EPOINT("Mock object assign operator 1.");
+ UNORDERED_EPOINT("Mock object assign operator 1.");
                 tag2_ = x.tag2_;
- //EPOINT("Mock object assign operator 2.");
+ //UNORDERED_EPOINT("Mock object assign operator 2.");
             }
             return *this;
         }
 
         friend bool operator==(object const& x1, object const& x2) {
- SCOPE(operator==(object, object)) {
- EPOINT("Mock object equality operator.");
+ UNORDERED_SCOPE(operator==(object, object)) {
+ UNORDERED_EPOINT("Mock object equality operator.");
             }
 
             return x1.tag1_ == x2.tag1_ && x1.tag2_ == x2.tag2_;
         }
 
         friend bool operator!=(object const& x1, object const& x2) {
- SCOPE(operator!=(object, object)) {
- EPOINT("Mock object inequality operator.");
+ UNORDERED_SCOPE(operator!=(object, object)) {
+ UNORDERED_EPOINT("Mock object inequality operator.");
             }
 
             return !(x1.tag1_ == x2.tag1_ && x1.tag2_ == x2.tag2_);
@@ -356,32 +121,32 @@
     public:
         hash(int t = 0) : tag_(t)
         {
- SCOPE(hash::object()) {
- EPOINT("Mock hash default constructor.");
+ UNORDERED_SCOPE(hash::object()) {
+ UNORDERED_EPOINT("Mock hash default constructor.");
             }
         }
 
         hash(hash const& x)
             : tag_(x.tag_)
         {
- SCOPE(hash::hash(hash)) {
- EPOINT("Mock hash copy constructor.");
+ UNORDERED_SCOPE(hash::hash(hash)) {
+ UNORDERED_EPOINT("Mock hash copy constructor.");
             }
         }
 
         hash& operator=(hash const& x)
         {
- SCOPE(hash::operator=(hash)) {
- EPOINT("Mock hash assign operator 1.");
+ UNORDERED_SCOPE(hash::operator=(hash)) {
+ UNORDERED_EPOINT("Mock hash assign operator 1.");
                 tag_ = x.tag_;
- EPOINT("Mock hash assign operator 2.");
+ UNORDERED_EPOINT("Mock hash assign operator 2.");
             }
             return *this;
         }
 
         std::size_t operator()(object const& x) const {
- SCOPE(hash::operator()(object)) {
- EPOINT("Mock hash function.");
+ UNORDERED_SCOPE(hash::operator()(object)) {
+ UNORDERED_EPOINT("Mock hash function.");
             }
 
             switch(tag_) {
@@ -395,15 +160,15 @@
         }
 
         friend bool operator==(hash const& x1, hash const& x2) {
- SCOPE(operator==(hash, hash)) {
- EPOINT("Mock hash equality function.");
+ UNORDERED_SCOPE(operator==(hash, hash)) {
+ UNORDERED_EPOINT("Mock hash equality function.");
             }
             return x1.tag_ == x2.tag_;
         }
 
         friend bool operator!=(hash const& x1, hash const& x2) {
- SCOPE(hash::operator!=(hash, hash)) {
- EPOINT("Mock hash inequality function.");
+ UNORDERED_SCOPE(hash::operator!=(hash, hash)) {
+ UNORDERED_EPOINT("Mock hash inequality function.");
             }
             return x1.tag_ != x2.tag_;
         }
@@ -415,32 +180,32 @@
     public:
         equal_to(int t = 0) : tag_(t)
         {
- SCOPE(equal_to::equal_to()) {
- EPOINT("Mock equal_to default constructor.");
+ UNORDERED_SCOPE(equal_to::equal_to()) {
+ UNORDERED_EPOINT("Mock equal_to default constructor.");
             }
         }
 
         equal_to(equal_to const& x)
             : tag_(x.tag_)
         {
- SCOPE(equal_to::equal_to(equal_to)) {
- EPOINT("Mock equal_to copy constructor.");
+ UNORDERED_SCOPE(equal_to::equal_to(equal_to)) {
+ UNORDERED_EPOINT("Mock equal_to copy constructor.");
             }
         }
 
         equal_to& operator=(equal_to const& x)
         {
- SCOPE(equal_to::operator=(equal_to)) {
- EPOINT("Mock equal_to assign operator 1.");
+ UNORDERED_SCOPE(equal_to::operator=(equal_to)) {
+ UNORDERED_EPOINT("Mock equal_to assign operator 1.");
                 tag_ = x.tag_;
- EPOINT("Mock equal_to assign operator 2.");
+ UNORDERED_EPOINT("Mock equal_to assign operator 2.");
             }
             return *this;
         }
 
         bool operator()(object const& x1, object const& x2) const {
- SCOPE(equal_to::operator()(object, object)) {
- EPOINT("Mock equal_to function.");
+ UNORDERED_SCOPE(equal_to::operator()(object, object)) {
+ UNORDERED_EPOINT("Mock equal_to function.");
             }
 
             switch(tag_) {
@@ -454,15 +219,15 @@
         }
 
         friend bool operator==(equal_to const& x1, equal_to const& x2) {
- SCOPE(operator==(equal_to, equal_to)) {
- EPOINT("Mock equal_to equality function.");
+ UNORDERED_SCOPE(operator==(equal_to, equal_to)) {
+ UNORDERED_EPOINT("Mock equal_to equality function.");
             }
             return x1.tag_ == x2.tag_;
         }
 
         friend bool operator!=(equal_to const& x1, equal_to const& x2) {
- SCOPE(operator!=(equal_to, equal_to)) {
- EPOINT("Mock equal_to inequality function.");
+ UNORDERED_SCOPE(operator!=(equal_to, equal_to)) {
+ UNORDERED_EPOINT("Mock equal_to inequality function.");
             }
             return x1.tag_ != x2.tag_;
         }
@@ -485,24 +250,24 @@
 
         explicit allocator(int t = 0) : tag_(t)
         {
- SCOPE(allocator::allocator()) {
- EPOINT("Mock allocator default constructor.");
+ UNORDERED_SCOPE(allocator::allocator()) {
+ UNORDERED_EPOINT("Mock allocator default constructor.");
             }
             detail::tracker.allocator_ref();
         }
 
         template <class Y> allocator(allocator<Y> const& x) : tag_(x.tag_)
         {
- SCOPE(allocator::allocator()) {
- EPOINT("Mock allocator template copy constructor.");
+ UNORDERED_SCOPE(allocator::allocator()) {
+ UNORDERED_EPOINT("Mock allocator template copy constructor.");
             }
             detail::tracker.allocator_ref();
         }
 
         allocator(allocator const& x) : tag_(x.tag_)
         {
- SCOPE(allocator::allocator()) {
- EPOINT("Mock allocator copy constructor.");
+ UNORDERED_SCOPE(allocator::allocator()) {
+ UNORDERED_EPOINT("Mock allocator copy constructor.");
             }
             detail::tracker.allocator_ref();
         }
@@ -512,8 +277,8 @@
         }
 
         allocator& operator=(allocator const& x) {
- SCOPE(allocator::allocator()) {
- EPOINT("Mock allocator assignment operator.");
+ UNORDERED_SCOPE(allocator::allocator()) {
+ UNORDERED_EPOINT("Mock allocator assignment operator.");
                 tag_ = x.tag_;
             }
             return *this;
@@ -524,23 +289,23 @@
         // this.
 
         pointer address(reference r) {
- //SCOPE(allocator::address(reference)) {
- // EPOINT("Mock allocator address function.");
+ //UNORDERED_SCOPE(allocator::address(reference)) {
+ // UNORDERED_EPOINT("Mock allocator address function.");
             //}
             return pointer(&r);
         }
 
         const_pointer address(const_reference r) {
- //SCOPE(allocator::address(const_reference)) {
- // EPOINT("Mock allocator const address function.");
+ //UNORDERED_SCOPE(allocator::address(const_reference)) {
+ // UNORDERED_EPOINT("Mock allocator const address function.");
             //}
             return const_pointer(&r);
         }
 
         pointer allocate(size_type n) {
             T* ptr = 0;
- SCOPE(allocator::allocate(size_type)) {
- EPOINT("Mock allocator allocate function.");
+ UNORDERED_SCOPE(allocator::allocate(size_type)) {
+ UNORDERED_EPOINT("Mock allocator allocate function.");
 
                 using namespace std;
                 ptr = (T*) malloc(n * sizeof(T));
@@ -555,8 +320,8 @@
         pointer allocate(size_type n, const_pointer u)
         {
             T* ptr = 0;
- SCOPE(allocator::allocate(size_type, const_pointer)) {
- EPOINT("Mock allocator allocate function.");
+ UNORDERED_SCOPE(allocator::allocate(size_type, const_pointer)) {
+ UNORDERED_EPOINT("Mock allocator allocate function.");
 
                 using namespace std;
                 ptr = (T*) malloc(n * sizeof(T));
@@ -579,8 +344,8 @@
         }
 
         void construct(pointer p, T const& t) {
- SCOPE(allocator::construct(pointer, T)) {
- EPOINT("Mock allocator construct function.");
+ UNORDERED_SCOPE(allocator::construct(pointer, T)) {
+ UNORDERED_EPOINT("Mock allocator construct function.");
                 new(p) T(t);
             }
             detail::tracker.track_construct((void*) p, sizeof(T), tag_);
@@ -592,8 +357,8 @@
         }
 
         size_type max_size() const {
- SCOPE(allocator::construct(pointer, T)) {
- EPOINT("Mock allocator max_size function.");
+ UNORDERED_SCOPE(allocator::construct(pointer, T)) {
+ UNORDERED_EPOINT("Mock allocator max_size function.");
             }
             return (std::numeric_limits<std::size_t>::max)();
         }
@@ -611,8 +376,8 @@
     template <class T>
     inline bool operator==(allocator<T> const& x, allocator<T> const& y)
     {
- //SCOPE(operator==(allocator, allocator)) {
- // EPOINT("Mock allocator equality operator.");
+ //UNORDERED_SCOPE(operator==(allocator, allocator)) {
+ // UNORDERED_EPOINT("Mock allocator equality operator.");
         //}
         return x.tag_ == y.tag_;
     }
@@ -620,8 +385,8 @@
     template <class T>
     inline bool operator!=(allocator<T> const& x, allocator<T> const& y)
     {
- //SCOPE(operator!=(allocator, allocator)) {
- // EPOINT("Mock allocator inequality operator.");
+ //UNORDERED_SCOPE(operator!=(allocator, allocator)) {
+ // UNORDERED_EPOINT("Mock allocator inequality operator.");
         //}
         return x.tag_ != y.tag_;
     }

Modified: trunk/libs/unordered/test/unordered/erase_tests.cpp
==============================================================================
--- trunk/libs/unordered/test/unordered/erase_tests.cpp (original)
+++ trunk/libs/unordered/test/unordered/erase_tests.cpp 2008-01-13 11:19:26 EST (Sun, 13 Jan 2008)
@@ -77,8 +77,8 @@
             BOOST_TEST(next == x.erase(pos));
             --size;
             if(size > 0)
- BOOST_TEST(next ==
- (index == 0 ? x.begin() : boost::next(prev)));
+ BOOST_TEST(index == 0 ? next == x.begin() :
+ next == boost::next(prev));
             BOOST_TEST(x.count(key) == count - 1);
             BOOST_TEST(x.size() == size);
         }


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