/************************************************************************************************ NC_ALLOC.CPP * Copyright (c) 1997 * Mark of the Unicorn, Inc. * * Permission to use, copy, modify, distribute and sell this software * and its documentation for any purpose is hereby granted without fee, * provided that the above copyright notice appear in all copies and * that both that copyright notice and this permission notice appear * in supporting documentation. Mark of the Unicorn makes no * representations about the suitability of this software for any * purpose. It is provided "as is" without express or implied warranty. ************************************************************************************************/ #include "nc_alloc.h" #include #if defined (EH_NEW_HEADERS) # include # include # include #else # include # include # include #endif #if defined (EH_NEW_IOSTREAMS) # include #else # include #endif long alloc_count = 0; long object_count = 0; long TestController::possible_failure_count = 0; const char* TestController::current_test = ""; const char* TestController::current_test_category = "no category"; const char* TestController::current_container = 0; bool TestController::nc_verbose = true; bool TestController::never_fail = false; bool TestController::track_allocations = false; bool TestController::leak_detection_enabled = false; TestController gTestController; //************************************************************************************************ void TestController::maybe_fail(long) { if ( never_fail || Failure_threshold() == kNotInExceptionTest ) return; // throw if allocation would satisfy the threshold if ( possible_failure_count++ >= Failure_threshold() ) { // what about doing some standard new_handler() behavior here (to test it!) ??? // reset and simulate an out-of-memory failure Failure_threshold() = kNotInExceptionTest; # ifndef EH_NO_EXCEPTIONS throw EH_STD::bad_alloc(); # endif } } # if defined( EH_HASHED_CONTAINERS_IMPLEMENTED ) # if defined (__SGI_STL ) # if defined (EH_NEW_HEADERS) # include # else # include # endif # elif defined (__MSL__) # include # else # error what do I include to get hash_set? # endif # else # if defined (EH_NEW_HEADERS) # include # else # include # endif # endif # if !defined( EH_HASHED_CONTAINERS_IMPLEMENTED ) typedef EH_STD::set > allocation_set; #else USING_CSTD_NAME(size_t) struct hash_void { size_t operator()(void* x) const { return (size_t)x; } }; typedef std::hash_set > allocation_set; # endif static allocation_set& alloc_set() { static allocation_set s; return s; } // Prevents infinite recursion during allocation static bool using_alloc_set = false; # if !defined (NO_FAST_ALLOCATOR) // // FastAllocator -- speeds up construction of TestClass objects when // TESTCLASS_DEEP_DATA is enabled, and speeds up tracking of allocations // when the suite is run with the -t option. // class FastAllocator { public: // FastAllocator() : mFree(0), mUsed(0) {} static void *Allocate( size_t s ) { void *result = 0; if ( s <= sizeof( Block ) ) { if ( mFree != 0 ) { result = mFree; mFree = mFree->next; } else if ( mBlocks != 0 && mUsed < kBlockCount ) { result = (void*)&mBlocks[mUsed++]; } } return result; } static bool Free( void* p ) { Block* b = (Block*)p; if ( mBlocks == 0 || b < mBlocks || b >= mBlocks + kBlockCount ) return false; b->next = mFree; mFree = b; return true; } struct Block; friend struct Block; enum { // Number of fast allocation blocks to create. kBlockCount = 1500, // You may need to adjust this number for your platform. // A good choice will speed tests. A bad choice will still work. kMinBlockSize = 48 }; struct Block { union { Block *next; double dummy; // fbp - force alignment char dummy2[kMinBlockSize]; }; }; static Block* mBlocks; static Block *mFree; static size_t mUsed; }; FastAllocator::Block *FastAllocator::mBlocks = (FastAllocator::Block*)EH_CSTD::calloc( sizeof(FastAllocator::Block), FastAllocator::kBlockCount ); FastAllocator::Block *FastAllocator::mFree; size_t FastAllocator::mUsed; static FastAllocator gFastAllocator; # endif inline char* AllocateBlock( size_t s ) { # if !defined (NO_FAST_ALLOCATOR) char * const p = (char*)gFastAllocator.Allocate( s ); if ( p != 0 ) return p; # endif return (char*)EH_CSTD::malloc(s); } static void* OperatorNew( size_t s ) { if ( !using_alloc_set ) { simulate_possible_failure(); alloc_count++; } char *p = AllocateBlock(s); if ( gTestController.TrackingEnabled() && gTestController.LeakDetectionEnabled() && !using_alloc_set ) { using_alloc_set = true; EH_ASSERT( alloc_set().find( p ) == alloc_set().end() ); alloc_set().insert( p ); using_alloc_set = false; } return p; } void* _STLP_CALL operator new(size_t s) #ifdef EH_DELETE_HAS_THROW_SPEC throw(EH_STD::bad_alloc) #endif { return OperatorNew( s ); } #ifdef EH_USE_NOTHROW void* _STLP_CALL operator new(size_t size, const EH_STD::nothrow_t&) throw() { try { return OperatorNew( size ); } catch(...) { return 0; } } #endif # if defined (EH_VECTOR_OPERATOR_NEW) void* _STLP_CALL operator new[](size_t size ) throw(EH_STD::bad_alloc) { return OperatorNew( size ); } #ifdef EH_USE_NOTHROW void* _STLP_CALL operator new[](size_t size, const EH_STD::nothrow_t&) throw() { try { return OperatorNew( size ); } catch(...) { return 0; } } #endif void _STLP_CALL operator delete[](void* ptr) throw() { operator delete( ptr ); } # endif # if defined (EH_DELETE_HAS_THROW_SPEC) void _STLP_CALL operator delete(void* s) throw() # else void _STLP_CALL operator delete(void* s) # endif { if ( s != 0 ) { if ( !using_alloc_set ) { alloc_count--; if ( gTestController.TrackingEnabled() && gTestController.LeakDetectionEnabled() ) { using_alloc_set = true; allocation_set::iterator p = alloc_set().find( (char*)s ); EH_ASSERT( p != alloc_set().end() ); alloc_set().erase( p ); using_alloc_set = false; } } # if ! defined (NO_FAST_ALLOCATOR) if ( !gFastAllocator.Free( s ) ) # endif EH_CSTD::free(s); } } /*=================================================================================== ClearAllocationSet (private helper) EFFECTS: Empty the set of allocated blocks. ====================================================================================*/ void TestController::ClearAllocationSet() { if ( !using_alloc_set ) { using_alloc_set = true; alloc_set().clear(); using_alloc_set = false; } } bool TestController::ReportLeaked() { EndLeakDetection(); if (using_alloc_set) EH_ASSERT( alloc_count == static_cast(alloc_set().size()) ); if ( alloc_count!=0 || object_count!=0 ) { EH_STD::cerr<<"\nEH TEST FAILURE !\n"; PrintTestName(true); if (alloc_count) EH_STD::cerr<<"ERROR : "<