1 files changed, 0 insertions, 346 deletions

diff --git a/src/mesa/shader/slang/Include/PoolAlloc.h b/src/mesa/shader/slang/Include/PoolAlloc.h
deleted file mode 100755
index e224d3b8676..00000000000
--- a/src/mesa/shader/slang/Include/PoolAlloc.h
+++ /dev/null
@@ -1,346 +0,0 @@
-//

-//Copyright (C) 2002-2005  3Dlabs Inc. Ltd.

-//All rights reserved.

-//

-//Redistribution and use in source and binary forms, with or without

-//modification, are permitted provided that the following conditions

-//are met:

-//

-//    Redistributions of source code must retain the above copyright

-//    notice, this list of conditions and the following disclaimer.

-//

-//    Redistributions in binary form must reproduce the above

-//    copyright notice, this list of conditions and the following

-//    disclaimer in the documentation and/or other materials provided

-//    with the distribution.

-//

-//    Neither the name of 3Dlabs Inc. Ltd. nor the names of its

-//    contributors may be used to endorse or promote products derived

-//    from this software without specific prior written permission.

-//

-//THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS

-//"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT

-//LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS

-//FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE

-//COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,

-//INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,

-//BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;

-//LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER

-//CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT

-//LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN

-//ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE

-//POSSIBILITY OF SUCH DAMAGE.

-//

-

-#ifndef _POOLALLOC_INCLUDED_

-#define _POOLALLOC_INCLUDED_

-

-#ifdef _DEBUG

-#  define GUARD_BLOCKS  // define to enable guard block sanity checking

-#endif

-

-//

-// This header defines an allocator that can be used to efficiently

-// allocate a large number of small requests for heap memory, with the 

-// intention that they are not individually deallocated, but rather 

-// collectively deallocated at one time.

-//

-// This simultaneously

-//

-// * Makes each individual allocation much more efficient; the

-//     typical allocation is trivial.

-// * Completely avoids the cost of doing individual deallocation.

-// * Saves the trouble of tracking down and plugging a large class of leaks.

-//

-// Individual classes can use this allocator by supplying their own

-// new and delete methods.

-//

-// STL containers can use this allocator by using the pool_allocator

-// class as the allocator (second) template argument.

-//

-

-#include <stddef.h>

-#include <vector>

-

-// If we are using guard blocks, we must track each indivual

-// allocation.  If we aren't using guard blocks, these

-// never get instantiated, so won't have any impact.

-// 

-

-class TAllocation {

-public:

-    TAllocation(size_t size, unsigned char* mem, TAllocation* prev = 0) :

-        size(size), mem(mem), prevAlloc(prev) {

-        // Allocations are bracketed:

-        //    [allocationHeader][initialGuardBlock][userData][finalGuardBlock]

-        // This would be cleaner with if (guardBlockSize)..., but that

-        // makes the compiler print warnings about 0 length memsets,

-        // even with the if() protecting them.

-#       ifdef GUARD_BLOCKS

-            memset(preGuard(),  guardBlockBeginVal, guardBlockSize);

-            memset(data(),      userDataFill,       size);

-            memset(postGuard(), guardBlockEndVal,   guardBlockSize);

-#       endif

-    }

-    

-    void check() const {

-        checkGuardBlock(preGuard(),  guardBlockBeginVal, "before");

-        checkGuardBlock(postGuard(), guardBlockEndVal,   "after");

-    }

-

-    void checkAllocList() const;

-

-    // Return total size needed to accomodate user buffer of 'size',

-    // plus our tracking data.

-    inline static size_t allocationSize(size_t size) {

-        return size + 2 * guardBlockSize + headerSize();

-    }

-    

-    // Offset from surrounding buffer to get to user data buffer.

-    inline static unsigned char* offsetAllocation(unsigned char* m) {

-        return m + guardBlockSize + headerSize();

-    }

-

-private:

-    void checkGuardBlock(unsigned char* blockMem, unsigned char val, char* locText) const;

-

-    // Find offsets to pre and post guard blocks, and user data buffer

-    unsigned char* preGuard()  const { return mem + headerSize(); }

-    unsigned char* data()      const { return preGuard() + guardBlockSize; }

-    unsigned char* postGuard() const { return data() + size; }

-

-    size_t size;                  // size of the user data area

-    unsigned char* mem;           // beginning of our allocation (pts to header)

-    TAllocation* prevAlloc;       // prior allocation in the chain

-

-    // Support MSVC++ 6.0

-    const static unsigned char guardBlockBeginVal;

-    const static unsigned char guardBlockEndVal;

-    const static unsigned char userDataFill;

-

-#   ifdef GUARD_BLOCKS

-    const static size_t guardBlockSize;

-    inline static size_t headerSize() { return sizeof(TAllocation); }

-#   else

-    const static size_t guardBlockSize;

-    inline static size_t headerSize() { return 0; }

-#   endif

-};

-    

-//

-// There are several stacks.  One is to track the pushing and popping

-// of the user, and not yet implemented.  The others are simply a 

-// repositories of free pages or used pages.

-//

-// Page stacks are linked together with a simple header at the beginning

-// of each allocation obtained from the underlying OS.  Multi-page allocations

-// are returned to the OS.  Individual page allocations are kept for future

-// re-use.

-//

-// The "page size" used is not, nor must it match, the underlying OS

-// page size.  But, having it be about that size or equal to a set of 

-// pages is likely most optimal.

-//

-class TPoolAllocator {

-public:

-    TPoolAllocator(bool global = false, int growthIncrement = 8*1024, int allocationAlignment = 16);

-

-    //

-    // Don't call the destructor just to free up the memory, call pop()

-    //

-    ~TPoolAllocator();

-

-    //

-    // Call push() to establish a new place to pop memory too.  Does not

-    // have to be called to get things started.

-    //

-    void push();

-

-    //

-    // Call pop() to free all memory allocated since the last call to push(),

-    // or if no last call to push, frees all memory since first allocation.

-    //

-    void pop();

-

-    //

-    // Call popAll() to free all memory allocated.

-    //

-    void popAll();

-

-    //

-    // Call allocate() to actually acquire memory.  Returns 0 if no memory

-    // available, otherwise a properly aligned pointer to 'numBytes' of memory.

-    //

-    void* allocate(size_t numBytes);

-

-    //

-    // There is no deallocate.  The point of this class is that

-    // deallocation can be skipped by the user of it, as the model

-    // of use is to simultaneously deallocate everything at once

-    // by calling pop(), and to not have to solve memory leak problems.

-    //

-

-protected:

-    friend struct tHeader;

-    

-    struct tHeader {

-        tHeader(tHeader* nextPage, size_t pageCount) :

-#ifdef GUARD_BLOCKS

-        lastAllocation(0),

-#endif

-        nextPage(nextPage), pageCount(pageCount) { }

-

-        ~tHeader() {

-#ifdef GUARD_BLOCKS

-            if (lastAllocation)

-                lastAllocation->checkAllocList();

-#endif

-        }

-

-        tHeader* nextPage;

-        size_t pageCount;

-#ifdef GUARD_BLOCKS

-        TAllocation* lastAllocation;

-#endif

-    };

-

-    struct tAllocState {

-        size_t offset;

-        tHeader* page;

-    };

-    typedef std::vector<tAllocState> tAllocStack;

-

-    // Track allocations if and only if we're using guard blocks

-    void* initializeAllocation(tHeader* block, unsigned char* memory, size_t numBytes) {

-#       ifdef GUARD_BLOCKS

-        new(memory) TAllocation(numBytes, memory, block->lastAllocation);

-        block->lastAllocation = reinterpret_cast<TAllocation*>(memory);

-#       endif

-

-        // This is optimized entirely away if GUARD_BLOCKS is not defined.

-        return TAllocation::offsetAllocation(memory);

-    }

-

-    bool global;            // should be true if this object is globally scoped

-    size_t pageSize;        // granularity of allocation from the OS

-    size_t alignment;       // all returned allocations will be aligned at 

-                            //      this granularity, which will be a power of 2

-    size_t alignmentMask;

-    size_t headerSkip;      // amount of memory to skip to make room for the

-                            //      header (basically, size of header, rounded

-                            //      up to make it aligned

-    size_t currentPageOffset;  // next offset in top of inUseList to allocate from

-    tHeader* freeList;      // list of popped memory

-    tHeader* inUseList;     // list of all memory currently being used

-    tAllocStack stack;      // stack of where to allocate from, to partition pool

-

-    int numCalls;           // just an interesting statistic

-    size_t totalBytes;      // just an interesting statistic

-private:

-    TPoolAllocator& operator=(const TPoolAllocator&);  // dont allow assignment operator

-    TPoolAllocator(const TPoolAllocator&);  // dont allow default copy constructor

-};

-

-

-//

-// There could potentially be many pools with pops happening at

-// different times.  But a simple use is to have a global pop

-// with everyone using the same global allocator.

-//

-typedef TPoolAllocator* PoolAllocatorPointer;

-extern TPoolAllocator& GetGlobalPoolAllocator();

-#define GlobalPoolAllocator GetGlobalPoolAllocator()

-struct TThreadGlobalPools

-{

-        TPoolAllocator* globalPoolAllocator;

-};

-

-//

-// This STL compatible allocator is intended to be used as the allocator

-// parameter to templatized STL containers, like vector and map.

-//

-// It will use the pools for allocation, and not

-// do any deallocation, but will still do destruction.

-//

-template<class T>

-class pool_allocator {

-public:

-    typedef size_t size_type;

-    typedef ptrdiff_t difference_type;

-    typedef T *pointer;

-    typedef const T *const_pointer;

-    typedef T& reference;

-    typedef const T& const_reference;

-    typedef T value_type;

-    template<class Other> 

-        struct rebind {

-            typedef pool_allocator<Other> other;

-        };

-    pointer address(reference x) const { return &x; }

-    const_pointer address(const_reference x) const { return &x; }

-

-#ifdef USING_SGI_STL

-	pool_allocator()  { }

-#else

-    pool_allocator() : allocator(GlobalPoolAllocator) { }

-    pool_allocator(TPoolAllocator& a) : allocator(a) { }

-    pool_allocator(const pool_allocator<T>& p) : allocator(p.allocator) { }

-#endif

-

-#if defined(_MSC_VER) && _MSC_VER >= 1300

-    template<class Other>

-#ifdef USING_SGI_STL

-        pool_allocator(const pool_allocator<Other>& p) /*: allocator(p.getAllocator())*/ { }

-#else

-        pool_allocator(const pool_allocator<Other>& p) : allocator(p.getAllocator()) { }

-#endif

-#endif

-

-#ifndef _WIN32

-        template<class Other>

-            pool_allocator(const pool_allocator<Other>& p) : allocator(p.getAllocator()) { }

-#endif

-

-#ifdef USING_SGI_STL

-    static pointer allocate(size_type n) { 

-        return reinterpret_cast<pointer>(getAllocator().allocate(n)); }

-    pointer allocate(size_type n, const void*) { 

-        return reinterpret_cast<pointer>(getAllocator().allocate(n)); }

-

-	static void deallocate(void*, size_type) { }

-    static void deallocate(pointer, size_type) { }

-#else

-    pointer allocate(size_type n) { 

-        return reinterpret_cast<pointer>(getAllocator().allocate(n * sizeof(T))); }

-    pointer allocate(size_type n, const void*) { 

-        return reinterpret_cast<pointer>(getAllocator().allocate(n * sizeof(T))); }

-

-	void deallocate(void*, size_type) { }

-    void deallocate(pointer, size_type) { }

-#endif

-

-	pointer _Charalloc(size_t n) {

-        return reinterpret_cast<pointer>(getAllocator().allocate(n)); }

-

-    void construct(pointer p, const T& val) { new ((void *)p) T(val); }

-    void destroy(pointer p) { p->T::~T(); }

-

-    bool operator==(const pool_allocator& rhs) const { return &getAllocator() == &rhs.getAllocator(); }

-    bool operator!=(const pool_allocator& rhs) const { return &getAllocator() != &rhs.getAllocator(); }

-

-    size_type max_size() const { return static_cast<size_type>(-1) / sizeof(T); }

-    size_type max_size(int size) const { return static_cast<size_type>(-1) / size; }

-

-#ifdef USING_SGI_STL

-    //void setAllocator(TPoolAllocator* a) { allocator = a; }

-    static  TPoolAllocator& getAllocator() { return GlobalPoolAllocator; }

-#else

-    void setAllocator(TPoolAllocator* a) { allocator = *a; }

-    TPoolAllocator& getAllocator() const { return allocator; }

-

-protected:

-    TPoolAllocator& allocator;

-#endif

-};

-

-#endif // _POOLALLOC_INCLUDED_