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Aquaria/BBGE/RenderObject.cpp

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/*
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 "RenderObject.h"
#include "Core.h"
#include "MathFunctions.h"
#include <assert.h>
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#include <algorithm>
#ifdef BBGE_USE_GLM
#include "glm/glm.hpp"
#include "glm/gtx/transform.hpp"
#endif
bool RenderObject::renderCollisionShape = false;
int RenderObject::lastTextureApplied = 0;
bool RenderObject::lastTextureRepeat = false;
bool RenderObject::renderPaths = false;
const bool RENDEROBJECT_SHAREATTRIBUTES = true;
const bool RENDEROBJECT_FASTTRANSFORM = false;
RenderObjectLayer *RenderObject::rlayer = 0;
void RenderObject::toggleAlpha(float t)
{
if (alpha.x < 0.5f)
alpha.interpolateTo(1,t);
else
alpha.interpolateTo(0,t);
}
int RenderObject::getTopLayer()
{
if (parent)
{
return parent->getTopLayer();
}
return layer;
}
void RenderObject::applyBlendType()
{
if (blendEnabled)
{
glEnable(GL_BLEND);
switch (blendType)
{
case BLEND_DEFAULT:
glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
break;
case BLEND_ADD:
glBlendFunc(GL_SRC_ALPHA,GL_ONE);
break;
case BLEND_SUB:
glBlendFunc(GL_ZERO, GL_SRC_ALPHA);
break;
case BLEND_MULT:
glBlendFunc(GL_ZERO, GL_SRC_COLOR);
break;
}
}
else
{
glDisable(GL_BLEND);
glDisable(GL_ALPHA_TEST);
}
}
void RenderObject::setColorMult(const Vector &color, const float alpha)
{
if (colorIsSaved)
{
debugLog("setColorMult() WARNING: can't do nested multiplies");
return;
}
this->colorIsSaved = true;
this->savedColor.x = this->color.x;
this->savedColor.y = this->color.y;
this->savedColor.z = this->color.z;
this->savedAlpha = this->alpha.x;
this->color *= color;
this->alpha.x *= alpha;
for (Children::iterator i = children.begin(); i != children.end(); i++)
{
(*i)->setColorMult(color, alpha);
}
}
void RenderObject::clearColorMult()
{
if (!colorIsSaved)
{
debugLog("clearColorMult() WARNING: no saved color to restore");
return;
}
this->color.x = this->savedColor.x;
this->color.y = this->savedColor.y;
this->color.z = this->savedColor.z;
this->alpha.x = this->savedAlpha;
this->colorIsSaved = false;
for (Children::iterator i = children.begin(); i != children.end(); i++)
{
(*i)->clearColorMult();
}
}
RenderObject::RenderObject()
{
Script interface improvements & extensions. - Pointer typechecks are now enabled by default. - enabled all script warnings for non-FULL or DEMO builds by default - Added generic obj_* functions that operate on any type of RenderObject. These give quite low-level control about the renderer, and are quite dangerous too. Subsequently, many functions sharing the same code (*_setPosition, for example) could be removed, and simply call the generic functions after a type check. - Added interface function deathNotify(). The original logic of death notifiers was never used, so i thought i'd make use of it. This is useful in scripts to safely drop dangling pointers. - removed sendEntityMessage, entity_setCollideWithAvatar, entity_setTouchDamage, which were essentially no-ops. - Replaced all unnecessary luaReturnNum(0) and luaReturnInt(0), now it does only push a return value on the stack if the function is actually supposed to have a retun value. - Allow variadic calling of entity_msg(). Now any parameters can be passed to the function, and the target entity will receive all of them. Any values returned from the entity's msg() callback will be returned by entity_msg() to the original caller. This allows nice RPC-like entity communication. - fixed possible crash in debugLog, bone_update, entity_debugText - added an override function for loadfile() that is case-insensitive like dofile() - entity_createEntity returns the created entity now - spawnParticleEffect returns the associated RenderObject - Added some text rendering functions - Added beam_setFirer() - removed the underflow check in avatar_decrLeaches() I added earlier - added a panic function for Lua. - added the Lua debug library - fixed a stupid typo in ScriptObject::isType() that made the type checks a lot less accurate - misc stuff I forgot
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addType(SCO_RENDEROBJECT);
useOldDT = false;
updateAfterParent = false;
ignoreUpdate = false;
overrideRenderPass = OVERRIDE_NONE;
renderPass = 0;
overrideCullRadiusSqr = 0;
repeatTexture = false;
alphaMod = 1;
collisionMaskRadius = 0;
collideRadius = 0;
motionBlurTransition = false;
motionBlurFrameOffsetCounter = 0;
motionBlurFrameOffset = 0;
motionBlur = false;
idx = -1;
_fv = false;
_fh = false;
updateCull = -1;
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layer = LR_NONE;
cull = true;
pm = PM_NONE;
positionSnapTo = 0;
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blendEnabled = true;
texture = 0;
width = 0;
height = 0;
scale = Vector(1,1,1);
color = Vector(1,1,1);
alpha.x = 1;
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life = maxLife = 1;
decayRate = 0;
_dead = false;
_hidden = false;
_static = false;
fadeAlphaWithLife = false;
blendType = BLEND_DEFAULT;
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followCamera = 0;
stateData = 0;
parent = 0;
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renderBeforeParent = false;
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colorIsSaved = false;
shareAlphaWithChildren = false;
shareColorWithChildren = false;
motionBlurTransitionTimer = 0;
}
RenderObject::~RenderObject()
{
}
Vector RenderObject::getWorldPosition()
{
return getWorldCollidePosition();
}
RenderObject* RenderObject::getTopParent()
{
RenderObject *p = parent;
RenderObject *lastp=0;
while (p)
{
lastp = p;
p = p->parent;
}
return lastp;
}
bool RenderObject::isPieceFlippedHorizontal()
{
RenderObject *p = getTopParent();
if (p)
return p->isfh();
return isfh();
}
Vector RenderObject::getInvRotPosition(const Vector &vec)
{
glPushMatrix();
glLoadIdentity();
std::vector<RenderObject*>chain;
RenderObject *p = this;
while(p)
{
chain.push_back(p);
p = p->parent;
}
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for (int i = chain.size()-1; i >= 0; i--)
{
glRotatef(-(chain[i]->rotation.z+chain[i]->rotationOffset.z), 0, 0, 1);
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if (chain[i]->isfh())
{
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glRotatef(180, 0, 1, 0);
}
}
if (vec.x != 0 || vec.y != 0)
{
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glTranslatef(vec.x, vec.y, 0);
}
float m[16];
glGetFloatv(GL_MODELVIEW_MATRIX, m);
float x = m[12];
float y = m[13];
float z = m[14];
glPopMatrix();
return Vector(x,y,z);
}
#ifdef BBGE_USE_GLM
static glm::mat4 matrixChain(const RenderObject *ro)
{
glm::mat4 tranformMatrix = glm::scale(
glm::translate(
glm::rotate(
glm::translate(
ro->getParent() ? matrixChain(ro->getParent()) : glm::mat4(1.0f),
glm::vec3(ro->position.x+ro->offset.x, ro->position.y+ro->offset.y, 0)
),
ro->rotation.z + ro->rotationOffset.z,
glm::vec3(0, 0, 1)
),
glm::vec3(ro->beforeScaleOffset.x, ro->beforeScaleOffset.y, 0.0f)
),
glm::vec3(ro->scale.x, ro->scale.y, 0.0f)
);
if (ro->isfh())
tranformMatrix *= glm::rotate(180.0f, glm::vec3(0.0f, 1.0f, 0.0f));
tranformMatrix *= glm::translate(glm::vec3(ro->internalOffset.x, ro->internalOffset.y, 0.0f));
return tranformMatrix;
}
#else
static void matrixChain(RenderObject *ro)
{
if (RenderObject *parent = ro->getParent())
matrixChain(parent);
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glTranslatef(ro->position.x+ro->offset.x, ro->position.y+ro->offset.y, 0);
glRotatef(ro->rotation.z+ro->rotationOffset.z, 0, 0, 1);
glTranslatef(ro->beforeScaleOffset.x, ro->beforeScaleOffset.y, 0);
glScalef(ro->scale.x, ro->scale.y, 0);
if (ro->isfh())
{
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glRotatef(180, 0, 1, 0);
}
glTranslatef(ro->internalOffset.x, ro->internalOffset.y, 0);
}
#endif
float RenderObject::getWorldRotation()
{
Vector up = getWorldCollidePosition(Vector(0,1));
Vector orig = getWorldPosition();
float rot = 0;
MathFunctions::calculateAngleBetweenVectorsInDegrees(orig, up, rot);
return rot;
}
Vector RenderObject::getWorldPositionAndRotation()
{
Vector up = getWorldCollidePosition(Vector(0,1));
Vector orig = getWorldPosition();
MathFunctions::calculateAngleBetweenVectorsInDegrees(orig, up, orig.z);
return orig;
}
Vector RenderObject::getWorldCollidePosition(const Vector &vec)
{
#ifdef BBGE_USE_GLM
glm::mat4 transformMatrix = glm::translate(
matrixChain(this),
glm::vec3(vec.x, vec.y, 0.0f)
);
return Vector(transformMatrix[3][0], transformMatrix[3][1], 0);
#else
glPushMatrix();
glLoadIdentity();
matrixChain(this);
glTranslatef(vec.x, vec.y, 0);
float m[16];
glGetFloatv(GL_MODELVIEW_MATRIX, m);
float x = m[12];
float y = m[13];
glPopMatrix();
return Vector(x,y,0);
#endif
}
void RenderObject::fhTo(bool fh)
{
if ((fh && !_fh) || (!fh && _fh))
{
flipHorizontal();
}
}
void RenderObject::flipHorizontal()
{
bool wasFlippedHorizontal = _fh;
_fh = !_fh;
if (wasFlippedHorizontal != _fh)
{
onFH();
}
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}
void RenderObject::flipVertical()
{
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_fv = !_fv;
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}
void RenderObject::destroy()
{
for (Children::iterator i = children.begin(); i != children.end(); i++)
{
// must do this first
// otherwise child will try to remove THIS
(*i)->parent = 0;
switch ((*i)->pm)
{
case PM_STATIC:
(*i)->destroy();
break;
case PM_POINTER:
(*i)->destroy();
delete (*i);
break;
}
}
children.clear();
if (parent)
{
parent->removeChild(this);
parent = 0;
}
texture = NULL;
}
void RenderObject::copyProperties(RenderObject *target)
{
this->color = target->color;
this->position = target->position;
this->alpha = target->alpha;
this->velocity = target->velocity;
}
const RenderObject &RenderObject::operator=(const RenderObject &r)
{
errorLog("Operator= not defined for RenderObject. Use 'copyProperties'");
return *this;
}
Vector RenderObject::getRealPosition()
{
if (parent)
{
return position + offset + parent->getRealPosition();
}
return position + offset;
}
Vector RenderObject::getRealScale()
{
if (parent)
{
return scale * parent->getRealScale();
}
return scale;
}
void RenderObject::setStateDataObject(StateData *state)
{
stateData = state;
}
void RenderObject::toggleCull(bool value)
{
cull = value;
}
void RenderObject::moveToFront()
{
if(RenderObject *p = parent)
{
if(p->children.size() && p->children[p->children.size()-1] != this)
{
p->removeChild(this);
p->addChild(this, (ParentManaged)this->pm, RBP_NONE, CHILD_BACK); // To back of list -> rendered on top
}
}
else if (layer != -1)
core->renderObjectLayers[this->layer].moveToFront(this);
}
void RenderObject::moveToBack()
{
if(RenderObject *p = parent)
{
if(p->children.size() && p->children[0] != this)
{
p->removeChild(this);
p->addChild(this, (ParentManaged)this->pm, RBP_NONE, CHILD_FRONT); // To front of list -> rendered first, below everything else
}
}
else if (layer != -1)
core->renderObjectLayers[this->layer].moveToBack(this);
}
void RenderObject::enableMotionBlur(int sz, int off)
{
motionBlur = true;
motionBlurPositions.resize(sz);
motionBlurFrameOffsetCounter = 0;
motionBlurFrameOffset = off;
for (int i = 0; i < motionBlurPositions.size(); i++)
{
motionBlurPositions[i].position = position;
motionBlurPositions[i].rotz = rotation.z;
}
}
void RenderObject::disableMotionBlur()
{
motionBlurTransition = true;
motionBlurTransitionTimer = 1.0;
motionBlur = false;
}
bool RenderObject::isfhr()
{
RenderObject *p = this;
bool fh = false;
do
if (p->isfh())
fh = !fh;
while ((p = p->parent));
return fh;
}
bool RenderObject::isfvr()
{
RenderObject *p = this;
bool fv = false;
do
if (p->isfv())
fv = !fv;
while ((p = p->parent));
return fv;
}
bool RenderObject::hasRenderPass(const int pass)
{
if (pass == renderPass)
return true;
for (Children::iterator i = children.begin(); i != children.end(); i++)
{
if (!(*i)->isDead() && (*i)->hasRenderPass(pass))
return true;
}
return false;
}
void RenderObject::render()
{
if (isHidden()) return;
/// new (breaks anything?)
if (alpha.x == 0 || alphaMod == 0) return;
if (core->currentLayerPass != RENDER_ALL && renderPass != RENDER_ALL)
{
RenderObject *top = getTopParent();
if (top == NULL && this->overrideRenderPass != OVERRIDE_NONE)
{
// FIXME: overrideRenderPass is not applied to the
// node itself in the original check (below); is
// that intentional? Doing the same thing here
// for the time being. --achurch
if (core->currentLayerPass != this->renderPass
&& core->currentLayerPass != this->overrideRenderPass)
return;
}
else if (top != NULL && top->overrideRenderPass != OVERRIDE_NONE)
{
if (core->currentLayerPass != top->overrideRenderPass)
return;
}
else
{
if (!hasRenderPass(core->currentLayerPass))
return;
}
}
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if (motionBlur || motionBlurTransition)
{
Vector oldPos = position;
float oldAlpha = alpha.x;
float oldRotZ = rotation.z;
for (int i = 0; i < motionBlurPositions.size(); i++)
{
position = motionBlurPositions[i].position;
rotation.z = motionBlurPositions[i].rotz;
alpha = 1.0f-(float(i)/float(motionBlurPositions.size()));
alpha *= 0.5f;
if (motionBlurTransition)
{
alpha *= motionBlurTransitionTimer;
}
renderCall();
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}
position = oldPos;
alpha.x = oldAlpha;
rotation.z = oldRotZ;
renderCall();
}
else
renderCall();
}
void RenderObject::renderCall()
{
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if (positionSnapTo)
this->position = *positionSnapTo;
position += offset;
if (!RENDEROBJECT_FASTTRANSFORM)
glPushMatrix();
if (!RENDEROBJECT_SHAREATTRIBUTES)
{
glPushAttrib(GL_ALL_ATTRIB_BITS);
}
if (!RENDEROBJECT_FASTTRANSFORM)
{
if (layer != LR_NONE)
{
RenderObjectLayer *l = &core->renderObjectLayers[layer];
if (l->followCamera != NO_FOLLOW_CAMERA)
{
followCamera = l->followCamera;
}
}
if (followCamera!=0 && !parent)
{
if (followCamera == 1)
{
glLoadIdentity();
glScalef(core->globalResolutionScale.x, core->globalResolutionScale.y,0);
glTranslatef(position.x, position.y, position.z);
if (isfh())
{
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glRotatef(180, 0, 1, 0);
}
glRotatef(rotation.z+rotationOffset.z, 0, 0, 1);
}
else
{
Vector pos = getFollowCameraPosition();
glTranslatef(pos.x, pos.y, pos.z);
if (isfh())
{
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glRotatef(180, 0, 1, 0);
}
glRotatef(rotation.z+rotationOffset.z, 0, 0, 1);
}
}
else
{
glTranslatef(position.x, position.y, position.z);
if (RenderObject::renderPaths && position.data && position.data->path.getNumPathNodes() > 0)
{
glLineWidth(4);
glEnable(GL_BLEND);
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int i = 0;
glColor4f(1.0f, 1.0f, 1.0f, 0.5f);
glBindTexture(GL_TEXTURE_2D, 0);
glBegin(GL_LINES);
for (i = 0; i < position.data->path.getNumPathNodes()-1; i++)
{
glVertex2f(position.data->path.getPathNode(i)->value.x-position.x, position.data->path.getPathNode(i)->value.y-position.y);
glVertex2f(position.data->path.getPathNode(i+1)->value.x-position.x, position.data->path.getPathNode(i+1)->value.y-position.y);
}
glEnd();
glPointSize(20);
glBegin(GL_POINTS);
glColor4f(0.5,0.5,1,1);
for (i = 0; i < position.data->path.getNumPathNodes(); i++)
{
glVertex2f(position.data->path.getPathNode(i)->value.x-position.x, position.data->path.getPathNode(i)->value.y-position.y);
}
glEnd();
}
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glRotatef(rotation.z+rotationOffset.z, 0, 0, 1);
if (isfh())
{
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glRotatef(180, 0, 1, 0);
}
}
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glTranslatef(beforeScaleOffset.x, beforeScaleOffset.y, beforeScaleOffset.z);
glScalef(scale.x, scale.y, 1);
glTranslatef(internalOffset.x, internalOffset.y, internalOffset.z);
}
for (Children::iterator i = children.begin(); i != children.end(); i++)
{
if (!(*i)->isDead() && (*i)->renderBeforeParent)
(*i)->render();
}
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{
if (rlayer)
glColor4f(color.x * rlayer->color.x, color.y * rlayer->color.y, color.z * rlayer->color.z, alpha.x*alphaMod);
else
glColor4f(color.x, color.y, color.z, alpha.x*alphaMod);
}
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if (texture)
{
if (texture->textures[0] != lastTextureApplied || repeatTexture != lastTextureRepeat)
{
texture->apply(repeatTexture);
lastTextureRepeat = repeatTexture;
lastTextureApplied = texture->textures[0];
}
}
else
{
if (lastTextureApplied != 0 || repeatTexture != lastTextureRepeat)
{
glBindTexture(GL_TEXTURE_2D, 0);
lastTextureApplied = 0;
lastTextureRepeat = repeatTexture;
}
}
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applyBlendType();
bool doRender = true;
int pass = renderPass;
if (core->currentLayerPass != RENDER_ALL && renderPass != RENDER_ALL)
{
RenderObject *top = getTopParent();
if (top)
{
if (top->overrideRenderPass != OVERRIDE_NONE)
pass = top->overrideRenderPass;
}
doRender = (core->currentLayerPass == pass);
}
if (renderCollisionShape)
renderCollision();
if (doRender)
onRender();
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if (!RENDEROBJECT_SHAREATTRIBUTES)
{
glPopAttrib();
}
for (Children::iterator i = children.begin(); i != children.end(); i++)
{
if (!(*i)->isDead() && !(*i)->renderBeforeParent)
(*i)->render();
}
if (!RENDEROBJECT_FASTTRANSFORM)
{
glPopMatrix();
}
position -= offset;
}
void RenderObject::renderCollision()
{
if (!collisionMask.empty())
{
glPushAttrib(GL_ALL_ATTRIB_BITS);
glPushMatrix();
glBindTexture(GL_TEXTURE_2D, 0);
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glLoadIdentity();
core->setupRenderPositionAndScale();
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glEnable(GL_BLEND);
glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
glColor4f(1,1,0,0.5);
for (int i = 0; i < transformedCollisionMask.size(); i++)
{
Vector collide = this->transformedCollisionMask[i];
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glTranslatef(collide.x, collide.y, 0);
RenderObject *parent = this->getTopParent();
if (parent)
drawCircle(collideRadius*parent->scale.x, 45);
glTranslatef(-collide.x, -collide.y, 0);
}
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glDisable(GL_BLEND);
glPopMatrix();
glPopAttrib();
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}
else if (collideRadius > 0)
{
glPushMatrix();
glLoadIdentity();
core->setupRenderPositionAndScale();
glBindTexture(GL_TEXTURE_2D, 0);
glTranslatef(position.x+offset.x, position.y+offset.y, 0);
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glTranslatef(internalOffset.x, internalOffset.y, 0);
glEnable(GL_BLEND);
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glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
glColor4f(1,0,0,0.5);
drawCircle(collideRadius, 8);
glDisable(GL_BLEND);
glTranslatef(offset.x, offset.y,0);
glPopMatrix();
}
}
void RenderObject::addDeathNotify(RenderObject *r)
{
deathNotifications.remove(r);
deathNotifications.push_back(r);
}
void RenderObject::deathNotify(RenderObject *r)
{
deathNotifications.remove(r);
}
Vector RenderObject::getCollisionMaskNormal(int index)
{
Vector sum;
int num=0;
for (int i = 0; i < this->transformedCollisionMask.size(); i++)
{
if (i != index)
{
Vector diff = transformedCollisionMask[index] - transformedCollisionMask[i];
if (diff.isLength2DIn(128))
{
sum += diff;
num++;
}
}
}
if (!sum.isZero())
{
sum /= num;
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sum.normalize2D();
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}
return sum;
}
void RenderObject::lookAt(const Vector &pos, float t, float minAngle, float maxAngle, float offset)
{
Vector myPos = this->getWorldPosition();
float angle = 0;
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if (myPos.x == pos.x && myPos.y == pos.y)
{
return;
}
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MathFunctions::calculateAngleBetweenVectorsInDegrees(myPos, pos, angle);
RenderObject *p = parent;
while (p)
{
angle -= p->rotation.z;
p = p->parent;
}
if (isPieceFlippedHorizontal())
{
angle = 180-angle;
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offset = -offset;
}
angle += offset;
if (angle < minAngle)
angle = minAngle;
if (angle > maxAngle)
angle = maxAngle;
int amt = 10;
if (isPieceFlippedHorizontal())
{
if (pos.x < myPos.x-amt)
{
angle = 0;
}
}
else
{
if (pos.x > myPos.x+amt)
{
angle = 0;
}
}
rotation.interpolateTo(Vector(0,0,angle), t);
}
void RenderObject::update(float dt)
{
if (ignoreUpdate)
{
return;
}
if (useOldDT)
{
dt = core->get_old_dt();
}
if (!isDead())
{
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onUpdate(dt);
if (isHidden())
return;
for (Children::iterator i = children.begin(); i != children.end(); i++)
{
if ((*i)->updateAfterParent && (((*i)->pm == PM_POINTER) || ((*i)->pm == PM_STATIC)))
{
(*i)->update(dt);
}
}
}
}
void RenderObject::removeChild(RenderObject *r)
{
r->parent = 0;
Children::iterator oldend = children.end();
Children::iterator newend = std::remove(children.begin(), oldend, r);
if(oldend != newend)
{
children.resize(std::distance(children.begin(), newend));
return;
}
for (Children::iterator i = children.begin(); i != children.end(); i++)
{
(*i)->removeChild(r);
}
}
void RenderObject::enqueueChildDeletion(RenderObject *r)
{
if (r->parent == this)
{
// Don't garbage a child more than once
for (size_t i = 0; i < childGarbage.size(); ++i)
if(childGarbage[i] == r)
return;
childGarbage.push_back(r);
}
}
void RenderObject::safeKill()
{
alpha = 0;
life = 0;
onEndOfLife();
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for (RenderObjectList::iterator i = deathNotifications.begin(); i != deathNotifications.end(); i++)
{
(*i)->deathNotify(this);
}
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if (this->parent)
{
parent->enqueueChildDeletion(this);
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}
else
{
if (stateData)
stateData->removeRenderObject(this);
else
core->enqueueRenderObjectDeletion(this);
}
}
Vector RenderObject::getNormal()
{
float a = MathFunctions::toRadians(getAbsoluteRotation().z);
return Vector(sinf(a),cosf(a));
}
// HACK: this is probably a slow implementation
Vector RenderObject::getForward()
{
Vector v = getWorldCollidePosition(Vector(0,-1, 0));
Vector r = v - getWorldCollidePosition();
r.normalize2D();
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return r;
}
Vector RenderObject::getAbsoluteRotation()
{
Vector r = rotation;
if (parent)
{
return parent->getAbsoluteRotation() + r;
}
return r;
}
void RenderObject::onUpdate(float dt)
{
if (isDead()) return;
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updateLife(dt);
// FIXME: We might not need to do lifetime checks either; I just
// left that above for safety since I'm not certain. --achurch
if (isHidden()) return;
position += velocity * dt;
velocity += gravity * dt;
position.update(dt);
velocity.update(dt);
scale.update(dt);
rotation.update(dt);
color.update(dt);
alpha.update(dt);
offset.update(dt);
internalOffset.update(dt);
beforeScaleOffset.update(dt);
rotationOffset.update(dt);
for (Children::iterator i = children.begin(); i != children.end(); i++)
{
if (shareAlphaWithChildren)
(*i)->alpha.x = this->alpha.x;
if (shareColorWithChildren)
(*i)->color = this->color;
if (!(*i)->updateAfterParent && (((*i)->pm == PM_POINTER) || ((*i)->pm == PM_STATIC)))
{
(*i)->update(dt);
}
}
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if (!childGarbage.empty())
{
for (Children::iterator i = childGarbage.begin(); i != childGarbage.end(); i++)
{
removeChild(*i);
(*i)->destroy();
delete (*i);
}
childGarbage.clear();
}
if (motionBlur)
{
if (motionBlurFrameOffsetCounter >= motionBlurFrameOffset)
{
motionBlurFrameOffsetCounter = 0;
motionBlurPositions[0].position = position;
motionBlurPositions[0].rotz = rotation.z;
for (int i = motionBlurPositions.size()-1; i > 0; i--)
{
motionBlurPositions[i] = motionBlurPositions[i-1];
}
}
else
motionBlurFrameOffsetCounter ++;
}
if (motionBlurTransition)
{
motionBlurTransitionTimer -= dt*2;
if (motionBlurTransitionTimer <= 0)
{
motionBlur = motionBlurTransition = false;
motionBlurTransitionTimer = 0;
}
}
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}
void RenderObject::unloadDevice()
{
for (Children::iterator i = children.begin(); i != children.end(); i++)
{
(*i)->unloadDevice();
}
}
void RenderObject::reloadDevice()
{
for (Children::iterator i = children.begin(); i != children.end(); i++)
{
(*i)->reloadDevice();
}
}
bool RenderObject::setTexture(const std::string &n)
{
std::string name = n;
stringToLowerUserData(name);
if (name.empty())
{
setTexturePointer(NULL);
return false;
}
if(texture && texture->getLoadResult() == TEX_SUCCESS && name == texture->name)
return true; // no texture change
CountedPtr<Texture> tex = core->addTexture(name);
setTexturePointer(tex);
return tex && tex->getLoadResult() == TEX_SUCCESS;
}
void RenderObject::addChild(RenderObject *r, ParentManaged pm, RenderBeforeParent rbp, ChildOrder order)
{
if (r->parent)
{
errorLog("Engine does not support multiple parents");
Script interface improvements & extensions. - Pointer typechecks are now enabled by default. - enabled all script warnings for non-FULL or DEMO builds by default - Added generic obj_* functions that operate on any type of RenderObject. These give quite low-level control about the renderer, and are quite dangerous too. Subsequently, many functions sharing the same code (*_setPosition, for example) could be removed, and simply call the generic functions after a type check. - Added interface function deathNotify(). The original logic of death notifiers was never used, so i thought i'd make use of it. This is useful in scripts to safely drop dangling pointers. - removed sendEntityMessage, entity_setCollideWithAvatar, entity_setTouchDamage, which were essentially no-ops. - Replaced all unnecessary luaReturnNum(0) and luaReturnInt(0), now it does only push a return value on the stack if the function is actually supposed to have a retun value. - Allow variadic calling of entity_msg(). Now any parameters can be passed to the function, and the target entity will receive all of them. Any values returned from the entity's msg() callback will be returned by entity_msg() to the original caller. This allows nice RPC-like entity communication. - fixed possible crash in debugLog, bone_update, entity_debugText - added an override function for loadfile() that is case-insensitive like dofile() - entity_createEntity returns the created entity now - spawnParticleEffect returns the associated RenderObject - Added some text rendering functions - Added beam_setFirer() - removed the underflow check in avatar_decrLeaches() I added earlier - added a panic function for Lua. - added the Lua debug library - fixed a stupid typo in ScriptObject::isType() that made the type checks a lot less accurate - misc stuff I forgot
2012-02-05 19:22:54 +00:00
return;
}
if (order == CHILD_BACK)
children.push_back(r);
else
children.insert(children.begin(), r);
r->pm = pm;
if (rbp == RBP_OFF)
r->renderBeforeParent = 0;
else if (rbp == RBP_ON)
r->renderBeforeParent = 1;
r->parent = this;
}
StateData *RenderObject::getStateData()
{
if (parent)
{
return parent->getStateData();
}
else
return stateData;
}
void RenderObject::setPositionSnapTo(InterpolatedVector *positionSnapTo)
{
this->positionSnapTo = positionSnapTo;
}
void RenderObject::setOverrideCullRadius(float ovr)
{
overrideCullRadiusSqr = ovr * ovr;
}
bool RenderObject::isCoordinateInRadius(const Vector &pos, float r)
{
Vector d = pos-getRealPosition();
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return (d.getSquaredLength2D() < r*r);
}