windows-nt/Source/XPSP1/NT/base/crts/crtw32/rtc/bintree.cpp

/***
*bintree.cpp - RTC support
*
*       Copyright (c) 1998-2001, Microsoft Corporation. All rights reserved.
*
*
*Revision History:
*       07-28-98  JWM   Module incorporated into CRTs (from KFrei)
*       11-03-98  KBF   Removed alloca dependency for CRT independence
*       05-11-99  KBF   Error if RTC support define not enabled
*       05-26-99  KBF   Everything is now prefixed with _RTC_
*
****/

#ifndef _RTC
#error  RunTime Check support not enabled!
#endif

#include "rtcpriv.h"

#ifdef _RTC_ADVMEM

void 
_RTC_BinaryTree::BinaryNode::kill() throw()
{
    if (l)
    {
        l->kill();
        delete l;
    }
    if (r)
    {
        r->kill();
        delete r;
    }
    delete val;
}

_RTC_Container *
_RTC_BinaryTree::get(_RTC_HeapBlock *data) throw()
{
    BinaryNode *t = tree;
    while (t)
    {
        if (t->val->contains(data))
            return t->val;

        if (*t->val->info() < *data)
            t = t->l;
        else
            t = t->r;
    }
    return 0;
}


_RTC_Container *
_RTC_BinaryTree::add(_RTC_HeapBlock* data) throw()
{
    BinaryNode *t = tree;
    if (!tree)
    {
        tree = new BinaryNode(0,0,new _RTC_Container(data));
        return tree->val;
    }
    for (;;)
    {
        if (*t->val->info() < *data)
        {
            // before this one
            if (t->l)
                t = t->l;
            else 
            {
                t->l = new BinaryNode(0,0,new _RTC_Container(data));
                return t->l->val;
            }
        } else 
        {
            if (t->r)
                t = t->r;
            else
            {
                t->r = new BinaryNode(0, 0, new _RTC_Container(data));
                return t->r->val;
            }
        }
    }
}


_RTC_Container *
_RTC_BinaryTree::del(_RTC_HeapBlock *data) throw()
{
    BinaryNode **prv = &tree;
    while (*prv && (*prv)->val->info() != data)
    {
        prv = (*(*prv)->val->info() < *data) ? &(*prv)->l : &(*prv)->r;
    }

    if (!*prv)
        return 0;

    BinaryNode *dl = *prv;
    
    if (dl->r) 
    {
        *prv = dl->r;
        BinaryNode *left = dl->r;
        
        while (left->l)
            left = left->l;

        left->l = dl->l;
    
    } else 
        *prv = dl->l;

    _RTC_Container* res = dl->val;
    delete dl;
    return res;
}


_RTC_Container *
_RTC_BinaryTree::FindNext(_RTC_BinaryTree::iter *i) throw()
{
    // Return the next element from the iterator
    // If the iterator is done, free up it's memory
    if (++i->curSib >= i->totSibs) 
    {
        VirtualFree(i->allSibs, 0, MEM_RELEASE);
        i->curSib = i->totSibs = 0;
        return 0;
    } else
        return i->allSibs[i->curSib];
}

_RTC_Container *
_RTC_BinaryTree::FindFirst(_RTC_BinaryTree::iter *i) throw()
{
    // Initialize the iterator, and return it's first element
    // Flatten the siblings into a nice array..
    struct stk {
        stk(stk *p, BinaryNode *i) : next(p), cur(i) {}
        void *operator new(unsigned) {return _RTC_heap2->alloc();}
        void operator delete(void *p) {_RTC_heap2->free(p);}
        stk *next;
        BinaryNode *cur;
    };

    stk *stack = new stk(0, this->tree);
    stk *list = 0;
    stk *tmp;

    int count = 0;
    
    // Build a list of all elements (reverse in-order traversal)
    while (stack) 
    {
        BinaryNode *cur = stack->cur;
        tmp = stack;
        stack = stack->next;
        delete tmp;
        while (cur) 
        {
            list = new stk(list, cur);
            count++;
            if (cur->l)
                stack = new stk(stack, cur->l);
            cur = cur->r;
        }
    }
    i->totSibs = 0;
    i->curSib = 0;
    if (!count)
    {
        i->allSibs = 0;
        return 0;
    }

    i->allSibs = (_RTC_Container**)VirtualAlloc(0, sizeof(_RTC_Container*) * count,
                                           MEM_RESERVE | MEM_COMMIT, PAGE_READWRITE);

    while (list)
    {
        i->allSibs[i->totSibs++] = list->cur->val;
        tmp = list;
        list = list->next;
        delete tmp;
    }
    return i->allSibs[0];

}

#endif // _RTC_ADVMEM
Add source files 2020-09-26 03:20:57 -05:00			`/***`
			`*bintree.cpp - RTC support`
			`*`
			`* Copyright (c) 1998-2001, Microsoft Corporation. All rights reserved.`
			`*`
			`*`
			`*Revision History:`
			`* 07-28-98 JWM Module incorporated into CRTs (from KFrei)`
			`* 11-03-98 KBF Removed alloca dependency for CRT independence`
			`* 05-11-99 KBF Error if RTC support define not enabled`
			`* 05-26-99 KBF Everything is now prefixed with _RTC_`
			`*`
			`****/`

			`#ifndef _RTC`
			`#error RunTime Check support not enabled!`
			`#endif`

			`#include "rtcpriv.h"`

			`#ifdef _RTC_ADVMEM`

			`void`
			`_RTC_BinaryTree::BinaryNode::kill() throw()`
			`{`
			`if (l)`
			`{`
			`l->kill();`
			`delete l;`
			`}`
			`if (r)`
			`{`
			`r->kill();`
			`delete r;`
			`}`
			`delete val;`
			`}`

			`_RTC_Container *`
			`_RTC_BinaryTree::get(_RTC_HeapBlock *data) throw()`
			`{`
			`BinaryNode *t = tree;`
			`while (t)`
			`{`
			`if (t->val->contains(data))`
			`return t->val;`

			`if (t->val->info() < data)`
			`t = t->l;`
			`else`
			`t = t->r;`
			`}`
			`return 0;`
			`}`


			`_RTC_Container *`
			`_RTC_BinaryTree::add(_RTC_HeapBlock* data) throw()`
			`{`
			`BinaryNode *t = tree;`
			`if (!tree)`
			`{`
			`tree = new BinaryNode(0,0,new _RTC_Container(data));`
			`return tree->val;`
			`}`
			`for (;;)`
			`{`
			`if (t->val->info() < data)`
			`{`
			`// before this one`
			`if (t->l)`
			`t = t->l;`
			`else`
			`{`
			`t->l = new BinaryNode(0,0,new _RTC_Container(data));`
			`return t->l->val;`
			`}`
			`} else`
			`{`
			`if (t->r)`
			`t = t->r;`
			`else`
			`{`
			`t->r = new BinaryNode(0, 0, new _RTC_Container(data));`
			`return t->r->val;`
			`}`
			`}`
			`}`
			`}`


			`_RTC_Container *`
			`_RTC_BinaryTree::del(_RTC_HeapBlock *data) throw()`
			`{`
			`BinaryNode **prv = &tree;`
			`while (prv && (prv)->val->info() != data)`
			`{`
			`prv = ((prv)->val->info() < data) ? &(prv)->l : &(*prv)->r;`
			`}`

			`if (!*prv)`
			`return 0;`

			`BinaryNode dl = prv;`

			`if (dl->r)`
			`{`
			`*prv = dl->r;`
			`BinaryNode *left = dl->r;`

			`while (left->l)`
			`left = left->l;`

			`left->l = dl->l;`

			`} else`
			`*prv = dl->l;`

			`_RTC_Container* res = dl->val;`
			`delete dl;`
			`return res;`
			`}`


			`_RTC_Container *`
			`_RTC_BinaryTree::FindNext(_RTC_BinaryTree::iter *i) throw()`
			`{`
			`// Return the next element from the iterator`
			`// If the iterator is done, free up it's memory`
			`if (++i->curSib >= i->totSibs)`
			`{`
			`VirtualFree(i->allSibs, 0, MEM_RELEASE);`
			`i->curSib = i->totSibs = 0;`
			`return 0;`
			`} else`
			`return i->allSibs[i->curSib];`
			`}`

			`_RTC_Container *`
			`_RTC_BinaryTree::FindFirst(_RTC_BinaryTree::iter *i) throw()`
			`{`
			`// Initialize the iterator, and return it's first element`
			`// Flatten the siblings into a nice array..`
			`struct stk {`
			`stk(stk p, BinaryNode i) : next(p), cur(i) {}`
			`void *operator new(unsigned) {return _RTC_heap2->alloc();}`
			`void operator delete(void *p) {_RTC_heap2->free(p);}`
			`stk *next;`
			`BinaryNode *cur;`
			`};`

			`stk *stack = new stk(0, this->tree);`
			`stk *list = 0;`
			`stk *tmp;`

			`int count = 0;`

			`// Build a list of all elements (reverse in-order traversal)`
			`while (stack)`
			`{`
			`BinaryNode *cur = stack->cur;`
			`tmp = stack;`
			`stack = stack->next;`
			`delete tmp;`
			`while (cur)`
			`{`
			`list = new stk(list, cur);`
			`count++;`
			`if (cur->l)`
			`stack = new stk(stack, cur->l);`
			`cur = cur->r;`
			`}`
			`}`
			`i->totSibs = 0;`
			`i->curSib = 0;`
			`if (!count)`
			`{`
			`i->allSibs = 0;`
			`return 0;`
			`}`

			`i->allSibs = (_RTC_Container*)VirtualAlloc(0, sizeof(_RTC_Container) * count,`
			`MEM_RESERVE \| MEM_COMMIT, PAGE_READWRITE);`

			`while (list)`
			`{`
			`i->allSibs[i->totSibs++] = list->cur->val;`
			`tmp = list;`
			`list = list->next;`
			`delete tmp;`
			`}`
			`return i->allSibs[0];`

			`}`

			`#endif // _RTC_ADVMEM`