/*****************************************************************************/ // Copyright 2006-2007 Adobe Systems Incorporated // All Rights Reserved. // // NOTICE: Adobe permits you to use, modify, and distribute this file in // accordance with the terms of the Adobe license agreement accompanying it. /*****************************************************************************/ /* $Id: //mondo/dng_sdk_1_4/dng_sdk/source/dng_memory.h#1 $ */ /* $DateTime: 2012/05/30 13:28:51 $ */ /* $Change: 832332 $ */ /* $Author: tknoll $ */ /** Support for memory allocation. */ /*****************************************************************************/ #ifndef __dng_memory__ #define __dng_memory__ /*****************************************************************************/ #include "dng_classes.h" #include "dng_exceptions.h" #include "dng_safe_arithmetic.h" #include "dng_types.h" #include #include /*****************************************************************************/ /// \brief Class to provide resource acquisition is instantiation discipline /// for small memory allocations. /// /// This class does not use dng_memory_allocator for memory allocation. class dng_memory_data { private: char *fBuffer; public: /// Construct an empty memory buffer using malloc. /// \exception dng_memory_full with fErrorCode equal to dng_error_memory. dng_memory_data (); /// Construct memory buffer of size bytes using malloc. /// \param size Number of bytes of memory needed. /// \exception dng_memory_full with fErrorCode equal to dng_error_memory. dng_memory_data (uint32 size); /// Note: This constructor is for internal use only and should not be /// considered part of the DNG SDK API. /// /// Construct memory buffer of count elements of elementSize bytes each. /// \param count Number of elements. /// \param elementSize Size of each element. /// \exception dng_memory_full with fErrorCode equal to dng_error_memory. dng_memory_data (uint32 count, std::size_t elementSize); /// Release memory buffer using free. ~dng_memory_data (); /// Clear existing memory buffer and allocate new memory of size bytes. /// \param size Number of bytes of memory needed. /// \exception dng_memory_full with fErrorCode equal to dng_error_memory. void Allocate (uint32 size); /// Note: This method is for internal use only and should not be /// considered part of the DNG SDK API. /// /// Clear existing memory buffer and allocate new memory of count /// elements of elementSize bytes each. /// \param count Number of elements. /// \param elementSize Size of each element. /// \exception dng_memory_full with fErrorCode equal to dng_error_memory. void Allocate (uint32 count, std::size_t elementSize); /// Release any allocated memory using free. Object is still valid and /// Allocate can be called again. void Clear (); /// Return pointer to allocated memory as a void *.. /// \retval void * valid for as many bytes as were allocated. void * Buffer () { return fBuffer; } /// Return pointer to allocated memory as a const void *. /// \retval const void * valid for as many bytes as were allocated. const void * Buffer () const { return fBuffer; } /// Return pointer to allocated memory as a char *. /// \retval char * valid for as many bytes as were allocated. char * Buffer_char () { return (char *) Buffer (); } /// Return pointer to allocated memory as a const char *. /// \retval const char * valid for as many bytes as were allocated. const char * Buffer_char () const { return (const char *) Buffer (); } /// Return pointer to allocated memory as a uint8 *. /// \retval uint8 * valid for as many bytes as were allocated. uint8 * Buffer_uint8 () { return (uint8 *) Buffer (); } /// Return pointer to allocated memory as a const uint8 *. /// \retval const uint8 * valid for as many bytes as were allocated. const uint8 * Buffer_uint8 () const { return (const uint8 *) Buffer (); } /// Return pointer to allocated memory as a uint16 *. /// \retval uint16 * valid for as many bytes as were allocated. uint16 * Buffer_uint16 () { return (uint16 *) Buffer (); } /// Return pointer to allocated memory as a const uint16 *. /// \retval const uint16 * valid for as many bytes as were allocated. const uint16 * Buffer_uint16 () const { return (const uint16 *) Buffer (); } /// Return pointer to allocated memory as a int16 *. /// \retval int16 * valid for as many bytes as were allocated. int16 * Buffer_int16 () { return (int16 *) Buffer (); } /// Return pointer to allocated memory as a const int16 *. /// \retval const int16 * valid for as many bytes as were allocated. const int16 * Buffer_int16 () const { return (const int16 *) Buffer (); } /// Return pointer to allocated memory as a uint32 *. /// \retval uint32 * valid for as many bytes as were allocated. uint32 * Buffer_uint32 () { return (uint32 *) Buffer (); } /// Return pointer to allocated memory as a uint32 *. /// \retval uint32 * valid for as many bytes as were allocated. const uint32 * Buffer_uint32 () const { return (const uint32 *) Buffer (); } /// Return pointer to allocated memory as a const int32 *. /// \retval const int32 * valid for as many bytes as were allocated. int32 * Buffer_int32 () { return (int32 *) Buffer (); } /// Return pointer to allocated memory as a const int32 *. /// \retval const int32 * valid for as many bytes as were allocated. const int32 * Buffer_int32 () const { return (const int32 *) Buffer (); } /// Return pointer to allocated memory as a uint64 *. /// \retval uint64 * valid for as many bytes as were allocated. uint64 * Buffer_uint64 () { return (uint64 *) Buffer (); } /// Return pointer to allocated memory as a uint64 *. /// \retval uint64 * valid for as many bytes as were allocated. const uint64 * Buffer_uint64 () const { return (const uint64 *) Buffer (); } /// Return pointer to allocated memory as a const int64 *. /// \retval const int64 * valid for as many bytes as were allocated. int64 * Buffer_int64 () { return (int64 *) Buffer (); } /// Return pointer to allocated memory as a const int64 *. /// \retval const int64 * valid for as many bytes as were allocated. const int64 * Buffer_int64 () const { return (const int64 *) Buffer (); } /// Return pointer to allocated memory as a real32 *. /// \retval real32 * valid for as many bytes as were allocated. real32 * Buffer_real32 () { return (real32 *) Buffer (); } /// Return pointer to allocated memory as a const real32 *. /// \retval const real32 * valid for as many bytes as were allocated. const real32 * Buffer_real32 () const { return (const real32 *) Buffer (); } /// Return pointer to allocated memory as a real64 *. /// \retval real64 * valid for as many bytes as were allocated. real64 * Buffer_real64 () { return (real64 *) Buffer (); } /// Return pointer to allocated memory as a const real64 *. /// \retval const real64 * valid for as many bytes as were allocated. const real64 * Buffer_real64 () const { return (const real64 *) Buffer (); } private: // Hidden copy constructor and assignment operator. dng_memory_data (const dng_memory_data &data); dng_memory_data & operator= (const dng_memory_data &data); }; /*****************************************************************************/ /// \brief Class to provide resource acquisition is instantiation discipline for /// image buffers and other larger memory allocations. /// /// This class requires a dng_memory_allocator for allocation. class dng_memory_block { private: uint32 fLogicalSize; char *fBuffer; protected: dng_memory_block (uint32 logicalSize) : fLogicalSize (logicalSize) , fBuffer (NULL) { } uint32 PhysicalSize () { // This size is padded for TWO reasons! The first is allow alignment // to 16-byte boundaries if the allocator does not do that already. The // second, which is very important, so to provide safe overread areas for // SSE2-type bottlenecks, which can often be written faster by allowing them // to reading slightly block. Someone on the image core them did not // understand this and removed this padding. I'm undoing this removal // and restoring this padding, since removing it might lead to memory // access crashes in some cases. // This padding is throwing off all of our allocations (f.e. dng_string, pixel buffers, etc) // that uses dng_memory_block on iOS/Android that is memory limited. Imagecore carefully // allocates pow2 tile buffers, but this bumps us to the next ssd block (+4K). // This also makes it difficult to identify memory reports in Instruments since all // numbers are off by 64. Imagecore never crashed from the removal of the padding. // The allocator on Win64/Mac64 is 16-byte aligned already. iOS is too. // Linux is 8 byte, but it's using mem_align. // We should fix the SIMD routines and revisit removing this padding - Alec. uint32 result; if (!SafeUint32Add(fLogicalSize, 64u, &result)) { ThrowMemoryFull("Arithmetic overflow in PhysicalSize()"); } return result; } void SetBuffer (void *p) { fBuffer = (char *) ((((uintptr) p) + 15) & ~((uintptr) 15)); } public: virtual ~dng_memory_block () { } dng_memory_block * Clone (dng_memory_allocator &allocator) const; /// Getter for available size, in bytes, of memory block. /// \retval size in bytes of available memory in memory block. uint32 LogicalSize () const { return fLogicalSize; } /// Return pointer to allocated memory as a void *.. /// \retval void * valid for as many bytes as were allocated. void * Buffer () { return fBuffer; } /// Return pointer to allocated memory as a const void *. /// \retval const void * valid for as many bytes as were allocated. const void * Buffer () const { return fBuffer; } /// Return pointer to allocated memory as a char *. /// \retval char * valid for as many bytes as were allocated. char * Buffer_char () { return (char *) Buffer (); } /// Return pointer to allocated memory as a const char *. /// \retval const char * valid for as many bytes as were allocated. const char * Buffer_char () const { return (const char *) Buffer (); } /// Return pointer to allocated memory as a uint8 *. /// \retval uint8 * valid for as many bytes as were allocated. uint8 * Buffer_uint8 () { return (uint8 *) Buffer (); } /// Return pointer to allocated memory as a const uint8 *. /// \retval const uint8 * valid for as many bytes as were allocated. const uint8 * Buffer_uint8 () const { return (const uint8 *) Buffer (); } /// Return pointer to allocated memory as a uint16 *. /// \retval uint16 * valid for as many bytes as were allocated. uint16 * Buffer_uint16 () { return (uint16 *) Buffer (); } /// Return pointer to allocated memory as a const uint16 *. /// \retval const uint16 * valid for as many bytes as were allocated. const uint16 * Buffer_uint16 () const { return (const uint16 *) Buffer (); } /// Return pointer to allocated memory as a int16 *. /// \retval int16 * valid for as many bytes as were allocated. int16 * Buffer_int16 () { return (int16 *) Buffer (); } /// Return pointer to allocated memory as a const int16 *. /// \retval const int16 * valid for as many bytes as were allocated. const int16 * Buffer_int16 () const { return (const int16 *) Buffer (); } /// Return pointer to allocated memory as a uint32 *. /// \retval uint32 * valid for as many bytes as were allocated. uint32 * Buffer_uint32 () { return (uint32 *) Buffer (); } /// Return pointer to allocated memory as a const uint32 *. /// \retval const uint32 * valid for as many bytes as were allocated. const uint32 * Buffer_uint32 () const { return (const uint32 *) Buffer (); } /// Return pointer to allocated memory as a int32 *. /// \retval int32 * valid for as many bytes as were allocated. int32 * Buffer_int32 () { return (int32 *) Buffer (); } /// Return pointer to allocated memory as a const int32 *. /// \retval const int32 * valid for as many bytes as were allocated. const int32 * Buffer_int32 () const { return (const int32 *) Buffer (); } /// Return pointer to allocated memory as a real32 *. /// \retval real32 * valid for as many bytes as were allocated. real32 * Buffer_real32 () { return (real32 *) Buffer (); } /// Return pointer to allocated memory as a const real32 *. /// \retval const real32 * valid for as many bytes as were allocated. const real32 * Buffer_real32 () const { return (const real32 *) Buffer (); } /// Return pointer to allocated memory as a real64 *. /// \retval real64 * valid for as many bytes as were allocated. real64 * Buffer_real64 () { return (real64 *) Buffer (); } /// Return pointer to allocated memory as a const real64 *. /// \retval const real64 * valid for as many bytes as were allocated. const real64 * Buffer_real64 () const { return (const real64 *) Buffer (); } private: // Hidden copy constructor and assignment operator. dng_memory_block (const dng_memory_block &data); dng_memory_block & operator= (const dng_memory_block &data); }; /*****************************************************************************/ /// \brief Interface for dng_memory_block allocator. class dng_memory_allocator { public: virtual ~dng_memory_allocator () { } /// Allocate a dng_memory block. /// \param size Number of bytes in memory block. /// \retval A dng_memory_block with at least size bytes of valid storage. /// \exception dng_exception with fErrorCode equal to dng_error_memory. virtual dng_memory_block * Allocate (uint32 size); }; /*****************************************************************************/ /// \brief Default memory allocator used if NULL is passed in for allocator /// when constructing a dng_host. /// /// Uses new and delete for memory block object and malloc/free for underlying /// buffer. extern dng_memory_allocator gDefaultDNGMemoryAllocator; /*****************************************************************************/ // C++ allocator (i.e. an implementation of the Allocator concept) that throws a // dng_exception with error code dng_error_memory if it cannot allocate memory. template class dng_std_allocator { public: typedef T value_type; // Default implementations of default constructor and copy constructor. dng_std_allocator () = default; dng_std_allocator (const dng_std_allocator&) = default; template dng_std_allocator (const dng_std_allocator&) {} T* allocate (size_t n) { const size_t size = SafeSizetMult(n, sizeof (T)); T *retval = static_cast (malloc (size)); if (!retval) { ThrowMemoryFull (); } return retval; } void deallocate (T *ptr, size_t n) { free (ptr); } }; template bool operator== (const dng_std_allocator &a1, const dng_std_allocator &a2) { return true; } template bool operator!= (const dng_std_allocator &a1, const dng_std_allocator &a2) { return false; } // std::vector specialized to use dng_std_allocator for allocation. template using dng_std_vector = std::vector >; /*****************************************************************************/ #endif /*****************************************************************************/