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Aquaria/BBGE/RenderObjectLayer.cpp
fgenesis 8472718fb7 Major include refactor; changes to pretty much everything
This untangles some of the gigantic kitchen sink headers
in an attempt to split things into smaller files.
Also don't include gl.h, glext.h, windows.h,
and other such nonsense *everywhere*.

Lots of cleanups on the way too. More dead/unused code removal.

Remove incrFlag(), decrFlag() Lua functions.
2016-07-09 04:18:40 +02:00

383 lines
8 KiB
C++

/*
Copyright (C) 2007, 2010 - Bit-Blot
This file is part of Aquaria.
Aquaria is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; either version 2
of the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
See the GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*/
#include "Core.h"
#include "RenderBase.h"
#define BASE_ARRAY_SIZE 100 // Size of an object array in a new layer
RenderObjectLayer::RenderObjectLayer()
: renderObjects(BASE_ARRAY_SIZE)
{
followCamera = NO_FOLLOW_CAMERA;
visible = true;
startPass = endPass = 0;
followCameraLock = FCL_NONE;
cull = true;
update = true;
optimizeStatic = false;
mode = Core::MODE_2D;
color = Vector(1,1,1);
displayListValid = false;
const int size = renderObjects.size();
for (int i = 0; i < size; i++)
renderObjects[i] = 0;
objectCount = 0;
firstFreeIdx = 0;
}
RenderObjectLayer::~RenderObjectLayer()
{
clearDisplayList();
}
void RenderObjectLayer::setCull(bool cull)
{
this->cull = cull;
}
void RenderObjectLayer::setOptimizeStatic(bool opt)
{
this->optimizeStatic = opt;
clearDisplayList();
}
void RenderObjectLayer::add(RenderObject* r)
{
int size = renderObjects.size();
if (firstFreeIdx >= size)
{
size += size/2; // Increase size by 50% each time we fill up.
renderObjects.resize(size);
}
renderObjects[firstFreeIdx] = r;
objectCount++;
r->setIdx(firstFreeIdx);
for (; firstFreeIdx < size; firstFreeIdx++)
{
if (!renderObjects[firstFreeIdx])
break;
}
clearDisplayList();
}
void RenderObjectLayer::remove(RenderObject* r)
{
const int idx = r->getIdx();
if (idx < 0 || idx >= renderObjects.size())
{
errorLog("Trying to remove RenderObject with invalid index");
return;
}
if (renderObjects[idx] != r)
{
errorLog("RenderObject pointer doesn't match array");
return;
}
renderObjects[idx] = 0;
objectCount--;
if (idx < firstFreeIdx)
firstFreeIdx = idx;
r->setIdx(-1);
clearDisplayList();
}
void RenderObjectLayer::moveToFront(RenderObject *r)
{
const int size = renderObjects.size();
const int curIdx = r->getIdx();
int lastUsed;
for (lastUsed = size-1; lastUsed > curIdx; lastUsed--)
{
if (renderObjects[lastUsed])
break;
}
if (curIdx == lastUsed)
{
// Already at the front, so nothing to do.
}
else if (lastUsed < size-1)
{
const int newIdx = lastUsed + 1;
renderObjects[curIdx] = 0;
renderObjects[newIdx] = r;
r->setIdx(newIdx);
if (firstFreeIdx > curIdx)
firstFreeIdx = curIdx;
}
else if (objectCount == size)
{
// Expand the array so future calls have a bit of breathing room.
const int newSize = size + 10;
renderObjects.resize(newSize);
renderObjects[curIdx] = 0;
renderObjects[size] = r;
r->setIdx(size);
for (int i = size+1; i < newSize; i++)
renderObjects[i] = 0;
if (firstFreeIdx > curIdx)
firstFreeIdx = curIdx;
}
else
{
// Need to shift elements downward to make room for the new one.
renderObjects[curIdx] = 0;
int lastFree;
for (lastFree = lastUsed-1; lastFree > curIdx; lastFree--)
{
if (!renderObjects[lastFree])
break;
}
for (int i = lastFree + 1; i <= lastUsed; i++)
{
renderObjects[i-1] = renderObjects[i];
renderObjects[i-1]->setIdx(i-1); // Known to be non-NULL.
}
renderObjects[lastUsed] = r;
r->setIdx(lastUsed);
firstFreeIdx = 0;
// Known to have at least one NULL-element
while (renderObjects[firstFreeIdx])
firstFreeIdx++;
}
clearDisplayList();
}
void RenderObjectLayer::moveToBack(RenderObject *r)
{
const int size = renderObjects.size();
const int curIdx = r->getIdx();
int firstUsed;
for (firstUsed = 0; firstUsed < curIdx; firstUsed++)
{
if (renderObjects[firstUsed])
break;
}
if (curIdx == firstUsed)
{
// Already at the back, so nothing to do.
}
else if (firstUsed > 0)
{
const int newIdx = firstUsed - 1;
renderObjects[curIdx] = 0;
renderObjects[newIdx] = r;
r->setIdx(newIdx);
// firstFreeIdx must be 0 here; if we filled slot 0, then
// scan forward for the next empty element.
while (renderObjects[firstFreeIdx])
firstFreeIdx++;
}
else if (objectCount == size)
{
const int newSize = size + 10;
const int sizeDiff = newSize - size;
const int newIdx = sizeDiff - 1;
renderObjects.resize(newSize);
renderObjects[curIdx] = 0;
for (int i = newSize - 1; i >= sizeDiff; i--)
{
renderObjects[i] = renderObjects[i - sizeDiff];
if(renderObjects[i])
renderObjects[i]->setIdx(i);
}
for (int i = 0; i < newIdx; i++)
renderObjects[i] = 0;
renderObjects[newIdx] = r;
r->setIdx(newIdx);
firstFreeIdx = 0;
}
else
{
renderObjects[curIdx] = 0;
if (curIdx < firstFreeIdx)
firstFreeIdx = curIdx;
for (int i = firstFreeIdx; i > 0; i--)
{
renderObjects[i] = renderObjects[i-1];
renderObjects[i]->setIdx(i); // Known to be non-NULL.
}
renderObjects[0] = r;
r->setIdx(0);
for (firstFreeIdx++; firstFreeIdx < size; firstFreeIdx++)
{
if (!renderObjects[firstFreeIdx])
break;
}
}
clearDisplayList();
}
void RenderObjectLayer::renderPass(int pass)
{
core->currentLayerPass = pass;
if (optimizeStatic && (followCamera == 0 || followCamera == NO_FOLLOW_CAMERA))
{
if (!displayListValid)
generateDisplayList();
const int size = displayList.size();
for (int i = 0; i < size; i++)
{
if (displayList[i].isList)
{
glCallList(displayList[i].u.listID);
RenderObject::lastTextureApplied = 0;
}
else
renderOneObject(displayList[i].u.robj);
}
}
else
{
for (RenderObject *robj = getFirst(); robj; robj = getNext())
{
renderOneObject(robj);
}
}
}
void RenderObjectLayer::reloadDevice()
{
if (displayListValid)
clearDisplayList();
}
void RenderObjectLayer::clearDisplayList()
{
if (!displayListValid)
return;
const int size = displayList.size();
for (int i = 0; i < size; i++)
{
if (displayList[i].isList)
glDeleteLists(displayList[i].u.listID, 1);
}
displayList.resize(0);
displayListValid = false;
}
void RenderObjectLayer::generateDisplayList()
{
// Temporarily disable culling so all static objects are entered into
// the display list.
bool savedCull = this->cull;
this->cull = false;
int listSize = 0, listLength = 0;
bool lastWasStatic = false;
for (RenderObject *robj = getFirst(); robj; robj = getNext())
{
if (listLength >= listSize)
{
listSize += 100;
displayList.resize(listSize);
}
bool addEntry = true; // Add an entry for this robj?
if (robj->isStatic() && robj->followCamera == 0)
{
if (lastWasStatic)
{
addEntry = false;
}
else
{
int listID = glGenLists(1);
if (listID != 0)
{
(void) glGetError(); // Clear error state
glNewList(listID, GL_COMPILE);
if (glGetError() == GL_NO_ERROR)
{
displayList[listLength].isList = true;
displayList[listLength].u.listID = listID;
listLength++;
lastWasStatic = true;
addEntry = false;
RenderObject::lastTextureApplied = 0;
}
else
debugLog("glNewList failed");
}
else
debugLog("glGenLists failed");
}
}
else
{
if (lastWasStatic)
{
glEndList();
lastWasStatic = false;
}
}
if (addEntry)
{
displayList[listLength].isList = false;
displayList[listLength].u.robj = robj;
listLength++;
}
else
{
renderOneObject(robj);
}
}
if (lastWasStatic)
{
glEndList();
}
displayList.resize(listLength);
displayListValid = true;
this->cull = savedCull;
}
inline void RenderObjectLayer::renderOneObject(RenderObject *robj)
{
core->totalRenderObjectCount++;
if (robj->getParent() || robj->alpha.x == 0)
return;
if (!this->cull || !robj->cull || robj->isOnScreen())
{
robj->render();
core->renderObjectCount++;
}
core->processedRenderObjectCount++;
}