axmol/3rdparty/recast/DetourNode.cpp

201 lines
4.8 KiB
C++

//
// Copyright (c) 2009-2010 Mikko Mononen memon@inside.org
//
// This software is provided 'as-is', without any express or implied
// warranty. In no event will the authors be held liable for any damages
// arising from the use of this software.
// Permission is granted to anyone to use this software for any purpose,
// including commercial applications, and to alter it and redistribute it
// freely, subject to the following restrictions:
// 1. The origin of this software must not be misrepresented; you must not
// claim that you wrote the original software. If you use this software
// in a product, an acknowledgment in the product documentation would be
// appreciated but is not required.
// 2. Altered source versions must be plainly marked as such, and must not be
// misrepresented as being the original software.
// 3. This notice may not be removed or altered from any source distribution.
//
#include "DetourNode.h"
#include "DetourAlloc.h"
#include "DetourAssert.h"
#include "DetourCommon.h"
#include <string.h>
#ifdef DT_POLYREF64
// From Thomas Wang, https://gist.github.com/badboy/6267743
inline unsigned int dtHashRef(dtPolyRef a)
{
a = (~a) + (a << 18); // a = (a << 18) - a - 1;
a = a ^ (a >> 31);
a = a * 21; // a = (a + (a << 2)) + (a << 4);
a = a ^ (a >> 11);
a = a + (a << 6);
a = a ^ (a >> 22);
return (unsigned int)a;
}
#else
inline unsigned int dtHashRef(dtPolyRef a)
{
a += ~(a<<15);
a ^= (a>>10);
a += (a<<3);
a ^= (a>>6);
a += ~(a<<11);
a ^= (a>>16);
return (unsigned int)a;
}
#endif
//////////////////////////////////////////////////////////////////////////////////////////
dtNodePool::dtNodePool(int maxNodes, int hashSize) :
m_nodes(0),
m_first(0),
m_next(0),
m_maxNodes(maxNodes),
m_hashSize(hashSize),
m_nodeCount(0)
{
dtAssert(dtNextPow2(m_hashSize) == (unsigned int)m_hashSize);
// pidx is special as 0 means "none" and 1 is the first node. For that reason
// we have 1 fewer nodes available than the number of values it can contain.
dtAssert(m_maxNodes > 0 && m_maxNodes <= DT_NULL_IDX && m_maxNodes <= (1 << DT_NODE_PARENT_BITS) - 1);
m_nodes = (dtNode*)dtAlloc(sizeof(dtNode)*m_maxNodes, DT_ALLOC_PERM);
m_next = (dtNodeIndex*)dtAlloc(sizeof(dtNodeIndex)*m_maxNodes, DT_ALLOC_PERM);
m_first = (dtNodeIndex*)dtAlloc(sizeof(dtNodeIndex)*hashSize, DT_ALLOC_PERM);
dtAssert(m_nodes);
dtAssert(m_next);
dtAssert(m_first);
memset(m_first, 0xff, sizeof(dtNodeIndex)*m_hashSize);
memset(m_next, 0xff, sizeof(dtNodeIndex)*m_maxNodes);
}
dtNodePool::~dtNodePool()
{
dtFree(m_nodes);
dtFree(m_next);
dtFree(m_first);
}
void dtNodePool::clear()
{
memset(m_first, 0xff, sizeof(dtNodeIndex)*m_hashSize);
m_nodeCount = 0;
}
unsigned int dtNodePool::findNodes(dtPolyRef id, dtNode** nodes, const int maxNodes)
{
int n = 0;
unsigned int bucket = dtHashRef(id) & (m_hashSize-1);
dtNodeIndex i = m_first[bucket];
while (i != DT_NULL_IDX)
{
if (m_nodes[i].id == id)
{
if (n >= maxNodes)
return n;
nodes[n++] = &m_nodes[i];
}
i = m_next[i];
}
return n;
}
dtNode* dtNodePool::findNode(dtPolyRef id, unsigned char state)
{
unsigned int bucket = dtHashRef(id) & (m_hashSize-1);
dtNodeIndex i = m_first[bucket];
while (i != DT_NULL_IDX)
{
if (m_nodes[i].id == id && m_nodes[i].state == state)
return &m_nodes[i];
i = m_next[i];
}
return 0;
}
dtNode* dtNodePool::getNode(dtPolyRef id, unsigned char state)
{
unsigned int bucket = dtHashRef(id) & (m_hashSize-1);
dtNodeIndex i = m_first[bucket];
dtNode* node = 0;
while (i != DT_NULL_IDX)
{
if (m_nodes[i].id == id && m_nodes[i].state == state)
return &m_nodes[i];
i = m_next[i];
}
if (m_nodeCount >= m_maxNodes)
return 0;
i = (dtNodeIndex)m_nodeCount;
m_nodeCount++;
// Init node
node = &m_nodes[i];
node->pidx = 0;
node->cost = 0;
node->total = 0;
node->id = id;
node->state = state;
node->flags = 0;
m_next[i] = m_first[bucket];
m_first[bucket] = i;
return node;
}
//////////////////////////////////////////////////////////////////////////////////////////
dtNodeQueue::dtNodeQueue(int n) :
m_heap(0),
m_capacity(n),
m_size(0)
{
dtAssert(m_capacity > 0);
m_heap = (dtNode**)dtAlloc(sizeof(dtNode*)*(m_capacity+1), DT_ALLOC_PERM);
dtAssert(m_heap);
}
dtNodeQueue::~dtNodeQueue()
{
dtFree(m_heap);
}
void dtNodeQueue::bubbleUp(int i, dtNode* node)
{
int parent = (i-1)/2;
// note: (index > 0) means there is a parent
while ((i > 0) && (m_heap[parent]->total > node->total))
{
m_heap[i] = m_heap[parent];
i = parent;
parent = (i-1)/2;
}
m_heap[i] = node;
}
void dtNodeQueue::trickleDown(int i, dtNode* node)
{
int child = (i*2)+1;
while (child < m_size)
{
if (((child+1) < m_size) &&
(m_heap[child]->total > m_heap[child+1]->total))
{
child++;
}
m_heap[i] = m_heap[child];
i = child;
child = (i*2)+1;
}
bubbleUp(i, node);
}