blender/source/gameengine/Ketsji/KX_KetsjiEngine.cpp

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/*
* $Id$
*
* ***** BEGIN GPL/BL DUAL LICENSE BLOCK *****
*
* This program 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. The Blender
* Foundation also sells licenses for use in proprietary software under
* the Blender License. See http://www.blender.org/BL/ for information
* about this.
*
* 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.
*
* The Original Code is Copyright (C) 2001-2002 by NaN Holding BV.
* All rights reserved.
*
* The Original Code is: all of this file.
*
* Contributor(s): none yet.
*
* ***** END GPL/BL DUAL LICENSE BLOCK *****
* The engine ties all game modules together.
*/
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#ifdef WIN32
#pragma warning (disable : 4786)
#endif //WIN32
#include <iostream>
#include "KX_KetsjiEngine.h"
#include "ListValue.h"
#include "IntValue.h"
#include "VectorValue.h"
#include "BoolValue.h"
#include "FloatValue.h"
#define KX_NUM_ITERATIONS 4
#include "RAS_BucketManager.h"
#include "RAS_Rect.h"
#include "RAS_IRasterizer.h"
#include "RAS_IRenderTools.h"
#include "RAS_ICanvas.h"
#include "STR_String.h"
#include "MT_Vector3.h"
#include "MT_Transform.h"
#include "SCA_IInputDevice.h"
#include "KX_Scene.h"
#include "MT_CmMatrix4x4.h"
#include "KX_Camera.h"
#include "KX_PythonInit.h"
#include "KX_PyConstraintBinding.h"
#include "PHY_IPhysicsEnvironment.h"
#include "SumoPhysicsEnvironment.h"
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#include "SND_Scene.h"
#include "SND_IAudioDevice.h"
#include "NG_NetworkScene.h"
#include "NG_NetworkDeviceInterface.h"
#include "KX_WorldInfo.h"
#include "KX_ISceneConverter.h"
#include "KX_TimeCategoryLogger.h"
#include "RAS_FramingManager.h"
// If define: little test for Nzc: guarded drawing. If the canvas is
// not valid, skip rendering this frame.
//#define NZC_GUARDED_OUTPUT
#define DEFAULT_LOGIC_TIC_RATE 60.0
#define DEFAULT_PHYSICS_TIC_RATE 60.0
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const char KX_KetsjiEngine::m_profileLabels[tc_numCategories][15] = {
"Physics:", // tc_physics
"Logic", // tc_logic
"Network:", // tc_network
"Scenegraph:", // tc_scenegraph
"Sound:", // tc_sound
"Rasterizer:", // tc_rasterizer
"Services:", // tc_services
"Overhead:", // tc_overhead
"Outside:" // tc_outside
};
double KX_KetsjiEngine::m_ticrate = DEFAULT_LOGIC_TIC_RATE;
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double KX_KetsjiEngine::m_suspendedtime = 0.0;
double KX_KetsjiEngine::m_suspendeddelta = 0.0;
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/**
* Constructor of the Ketsji Engine
*/
KX_KetsjiEngine::KX_KetsjiEngine(KX_ISystem* system)
: m_canvas(NULL),
m_rasterizer(NULL),
m_kxsystem(system),
m_rendertools(NULL),
m_sceneconverter(NULL),
m_networkdevice(NULL),
m_audiodevice(NULL),
m_pythondictionary(NULL),
m_keyboarddevice(NULL),
m_mousedevice(NULL),
m_propertiesPresent(false),
m_bInitialized(false),
m_activecam(0),
m_bFixedTime(false),
m_game2ipo(false),
m_firstframe(true),
m_frameTime(0.f),
m_clockTime(0.f),
m_previousClockTime(0.f),
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m_exitcode(KX_EXIT_REQUEST_NO_REQUEST),
m_exitstring(""),
m_drawingmode(5),
m_cameraZoom(1.0),
m_overrideCam(false),
m_overrideCamUseOrtho(false),
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m_stereo(false),
m_curreye(0),
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m_logger(NULL),
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// Set up timing info display variables
m_show_framerate(false),
m_show_profile(false),
m_showProperties(false),
m_showBackground(false),
m_show_debug_properties(false),
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// Default behavior is to hide the cursor every frame.
m_hideCursor(false),
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m_overrideFrameColor(false),
m_overrideFrameColorR(0.0),
m_overrideFrameColorG(0.0),
m_overrideFrameColorB(0.0)
{
// Initialize the time logger
m_logger = new KX_TimeCategoryLogger (25);
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for (int i = tc_first; i < tc_numCategories; i++)
m_logger->AddCategory((KX_TimeCategory)i);
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}
/**
* Destructor of the Ketsji Engine, release all memory
*/
KX_KetsjiEngine::~KX_KetsjiEngine()
{
delete m_logger;
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}
void KX_KetsjiEngine::SetKeyboardDevice(SCA_IInputDevice* keyboarddevice)
{
MT_assert(keyboarddevice);
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m_keyboarddevice = keyboarddevice;
}
void KX_KetsjiEngine::SetMouseDevice(SCA_IInputDevice* mousedevice)
{
MT_assert(mousedevice);
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m_mousedevice = mousedevice;
}
void KX_KetsjiEngine::SetNetworkDevice(NG_NetworkDeviceInterface* networkdevice)
{
MT_assert(networkdevice);
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m_networkdevice = networkdevice;
}
void KX_KetsjiEngine::SetAudioDevice(SND_IAudioDevice* audiodevice)
{
MT_assert(audiodevice);
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m_audiodevice = audiodevice;
}
void KX_KetsjiEngine::SetCanvas(RAS_ICanvas* canvas)
{
MT_assert(canvas);
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m_canvas = canvas;
}
void KX_KetsjiEngine::SetRenderTools(RAS_IRenderTools* rendertools)
{
MT_assert(rendertools);
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m_rendertools = rendertools;
}
void KX_KetsjiEngine::SetRasterizer(RAS_IRasterizer* rasterizer)
{
MT_assert(rasterizer);
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m_rasterizer = rasterizer;
}
void KX_KetsjiEngine::SetPythonDictionary(PyObject* pythondictionary)
{
MT_assert(pythondictionary);
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m_pythondictionary = pythondictionary;
}
void KX_KetsjiEngine::SetSceneConverter(KX_ISceneConverter* sceneconverter)
{
MT_assert(sceneconverter);
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m_sceneconverter = sceneconverter;
}
/**
* Ketsji Init(), Initializes datastructures and converts data from
* Blender into Ketsji native (realtime) format also sets up the
* graphics context
*/
void KX_KetsjiEngine::StartEngine()
{
m_clockTime = m_kxsystem->GetTimeInSeconds();
m_frameTime = m_kxsystem->GetTimeInSeconds();
m_previousClockTime = m_kxsystem->GetTimeInSeconds();
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m_firstframe = true;
m_bInitialized = true;
m_ticrate = DEFAULT_LOGIC_TIC_RATE;
if (m_game2ipo)
{
m_sceneconverter->ResetPhysicsObjectsAnimationIpo();
m_sceneconverter->WritePhysicsObjectToAnimationIpo(m_currentFrame);
}
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}
bool KX_KetsjiEngine::BeginFrame()
{
bool result = false;
RAS_Rect vp;
KX_Scene* firstscene = *m_scenes.begin();
const RAS_FrameSettings &framesettings = firstscene->GetFramingType();
// set the area used for rendering
m_rasterizer->SetRenderArea();
RAS_FramingManager::ComputeViewport(framesettings, m_canvas->GetDisplayArea(), vp);
if (m_canvas->BeginDraw())
{
result = true;
m_canvas->SetViewPort(vp.GetLeft(), vp.GetBottom(), vp.GetRight(), vp.GetTop());
SetBackGround( firstscene->GetWorldInfo() );
m_rasterizer->BeginFrame( m_drawingmode , m_kxsystem->GetTimeInSeconds());
m_rendertools->BeginFrame( m_rasterizer);
}
return result;
}
void KX_KetsjiEngine::EndFrame()
{
// Show profiling info
m_logger->StartLog(tc_overhead, m_kxsystem->GetTimeInSeconds(), true);
if (m_show_framerate || m_show_profile || (m_show_debug_properties && m_propertiesPresent))
{
RenderDebugProperties();
}
// Go to next profiling measurement, time spend after this call is shown in the next frame.
m_logger->NextMeasurement(m_kxsystem->GetTimeInSeconds());
m_logger->StartLog(tc_rasterizer, m_kxsystem->GetTimeInSeconds(), true);
m_rasterizer->EndFrame();
// swap backbuffer (drawing into this buffer) <-> front/visible buffer
m_rasterizer->SwapBuffers();
m_rendertools->EndFrame(m_rasterizer);
m_canvas->EndDraw();
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}
// #include "PIL_time.h"
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void KX_KetsjiEngine::NextFrame()
{
m_logger->StartLog(tc_services, m_kxsystem->GetTimeInSeconds(), true);
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if (m_bFixedTime)
m_clockTime += 1.0/m_ticrate;
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else
m_clockTime = m_kxsystem->GetTimeInSeconds();
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double deltatime = m_clockTime - m_frameTime;
if (deltatime<0.f)
{
printf("problem with clock\n");
deltatime = 0.f;
m_clockTime = 0.f;
m_frameTime = 0.f;
}
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// Compute the number of logic frames to do each update (fixed tic bricks)
int frames =int(deltatime*m_ticrate);
// if (!frames)
// PIL_sleep_ms(4);
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KX_SceneList::iterator sceneit;
int frameOut = 5;
if (frames>frameOut)
{
printf("framedOut: %d\n",frames);
m_frameTime+=(frames-frameOut)*(1.0/m_ticrate);
frames = frameOut;
}
while (frames)
{
if (frames > frameOut)
{
printf ("what happened\n");
}
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m_frameTime += 1.0/m_ticrate;
for (sceneit = m_scenes.begin();sceneit != m_scenes.end(); ++sceneit)
// for each scene, call the proceed functions
{
KX_Scene* scene = *sceneit;
/* Suspension holds the physics and logic processing for an
* entire scene. Objects can be suspended individually, and
* the settings for that preceed the logic and physics
* update. */
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m_logger->StartLog(tc_logic, m_kxsystem->GetTimeInSeconds(), true);
scene->UpdateObjectActivity();
if (!scene->IsSuspended())
{
// if the scene was suspended recalcutlate the delta tu "curtime"
m_suspendedtime = scene->getSuspendedTime();
if (scene->getSuspendedTime()!=0.0)
scene->setSuspendedDelta(scene->getSuspendedDelta()+m_clockTime-scene->getSuspendedTime());
m_suspendeddelta = scene->getSuspendedDelta();
m_logger->StartLog(tc_network, m_kxsystem->GetTimeInSeconds(), true);
scene->GetNetworkScene()->proceed(m_frameTime);
m_logger->StartLog(tc_scenegraph, m_kxsystem->GetTimeInSeconds(), true);
scene->UpdateParents(m_frameTime);
m_logger->StartLog(tc_physics, m_kxsystem->GetTimeInSeconds(), true);
// set Python hooks for each scene
PHY_SetActiveEnvironment(scene->GetPhysicsEnvironment());
PHY_SetActiveScene(scene);
scene->GetPhysicsEnvironment()->endFrame();
// Update scenegraph after physics step. This maps physics calculations
// into node positions.
m_logger->StartLog(tc_scenegraph, m_kxsystem->GetTimeInSeconds(), true);
scene->UpdateParents(m_frameTime);
// Process sensors, and controllers
m_logger->StartLog(tc_logic, m_kxsystem->GetTimeInSeconds(), true);
scene->LogicBeginFrame(m_frameTime);
// Scenegraph needs to be updated again, because Logic Controllers
// can affect the local matrices.
m_logger->StartLog(tc_scenegraph, m_kxsystem->GetTimeInSeconds(), true);
scene->UpdateParents(m_frameTime);
// Process actuators
// Do some cleanup work for this logic frame
m_logger->StartLog(tc_logic, m_kxsystem->GetTimeInSeconds(), true);
scene->LogicUpdateFrame(m_frameTime, true);
scene->LogicEndFrame();
// Actuators can affect the scenegraph
m_logger->StartLog(tc_scenegraph, m_kxsystem->GetTimeInSeconds(), true);
scene->UpdateParents(m_frameTime);
m_logger->StartLog(tc_physics, m_kxsystem->GetTimeInSeconds(), true);
scene->GetPhysicsEnvironment()->beginFrame();
// Perform physics calculations on the scene. This can involve
// many iterations of the physics solver.
scene->GetPhysicsEnvironment()->proceedDeltaTime(m_frameTime,1.0/m_ticrate);//m_deltatimerealDeltaTime);
m_logger->StartLog(tc_scenegraph, m_kxsystem->GetTimeInSeconds(), true);
scene->UpdateParents(m_frameTime);
if (m_game2ipo)
{
m_sceneconverter->WritePhysicsObjectToAnimationIpo(++m_currentFrame);
}
scene->setSuspendedTime(0.0);
} // suspended
else
if(scene->getSuspendedTime()==0.0)
scene->setSuspendedTime(m_clockTime);
DoSound(scene);
m_logger->StartLog(tc_services, m_kxsystem->GetTimeInSeconds(), true);
}
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// update system devices
m_logger->StartLog(tc_logic, m_kxsystem->GetTimeInSeconds(), true);
if (m_keyboarddevice)
m_keyboarddevice->NextFrame();
if (m_mousedevice)
m_mousedevice->NextFrame();
if (m_networkdevice)
m_networkdevice->NextFrame();
if (m_audiodevice)
m_audiodevice->NextFrame();
// scene management
ProcessScheduledScenes();
frames--;
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}
bool bUseAsyncLogicBricks= false;
if (bUseAsyncLogicBricks)
{
// Logic update sub frame: this will let some logic bricks run at the
// full frame rate.
for (sceneit = m_scenes.begin();sceneit != m_scenes.end(); ++sceneit)
// for each scene, call the proceed functions
{
KX_Scene* scene = *sceneit;
if (!scene->IsSuspended())
{
// if the scene was suspended recalcutlate the delta tu "curtime"
m_suspendedtime = scene->getSuspendedTime();
if (scene->getSuspendedTime()!=0.0)
scene->setSuspendedDelta(scene->getSuspendedDelta()+m_clockTime-scene->getSuspendedTime());
m_suspendeddelta = scene->getSuspendedDelta();
// set Python hooks for each scene
PHY_SetActiveEnvironment(scene->GetPhysicsEnvironment());
PHY_SetActiveScene(scene);
m_logger->StartLog(tc_scenegraph, m_kxsystem->GetTimeInSeconds(), true);
scene->UpdateParents(m_clockTime);
// Perform physics calculations on the scene. This can involve
// many iterations of the physics solver.
m_logger->StartLog(tc_physics, m_kxsystem->GetTimeInSeconds(), true);
scene->GetPhysicsEnvironment()->proceedDeltaTime(m_clockTime,0.f);
// Update scenegraph after physics step. This maps physics calculations
// into node positions.
m_logger->StartLog(tc_scenegraph, m_kxsystem->GetTimeInSeconds(), true);
scene->UpdateParents(m_clockTime);
// Do some cleanup work for this logic frame
m_logger->StartLog(tc_logic, m_kxsystem->GetTimeInSeconds(), true);
scene->LogicUpdateFrame(m_clockTime, false);
// Actuators can affect the scenegraph
m_logger->StartLog(tc_scenegraph, m_kxsystem->GetTimeInSeconds(), true);
scene->UpdateParents(m_clockTime);
scene->setSuspendedTime(0.0);
} // suspended
else
if(scene->getSuspendedTime()==0.0)
scene->setSuspendedTime(m_clockTime);
DoSound(scene);
m_logger->StartLog(tc_services, m_kxsystem->GetTimeInSeconds(), true);
}
}
m_previousClockTime = m_clockTime;
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// Start logging time spend outside main loop
m_logger->StartLog(tc_outside, m_kxsystem->GetTimeInSeconds(), true);
}
void KX_KetsjiEngine::Render()
{
KX_Scene* firstscene = *m_scenes.begin();
const RAS_FrameSettings &framesettings = firstscene->GetFramingType();
m_logger->StartLog(tc_rasterizer, m_kxsystem->GetTimeInSeconds(), true);
// hiding mouse cursor each frame
// (came back when going out of focus and then back in again)
if (m_hideCursor)
m_canvas->SetMouseState(RAS_ICanvas::MOUSE_INVISIBLE);
// clear the entire game screen with the border color
// only once per frame
m_canvas->BeginDraw();
if (m_drawingmode == RAS_IRasterizer::KX_TEXTURED) {
m_canvas->SetViewPort(0, 0, m_canvas->GetWidth(), m_canvas->GetHeight());
if (m_overrideFrameColor)
{
// Do not use the framing bar color set in the Blender scenes
m_canvas->ClearColor(
m_overrideFrameColorR,
m_overrideFrameColorG,
m_overrideFrameColorB,
1.0
);
}
else
{
// Use the framing bar color set in the Blender scenes
m_canvas->ClearColor(
framesettings.BarRed(),
framesettings.BarGreen(),
framesettings.BarBlue(),
1.0
);
}
// clear the -whole- viewport
m_canvas->ClearBuffer(RAS_ICanvas::COLOR_BUFFER);
}
m_rasterizer->SetEye(RAS_IRasterizer::RAS_STEREO_LEFTEYE);
// BeginFrame() sets the actual drawing area. You can use a part of the window
if (!BeginFrame())
return;
KX_SceneList::iterator sceneit;
for (sceneit = m_scenes.begin();sceneit != m_scenes.end(); sceneit++)
// for each scene, call the proceed functions
{
KX_Scene* scene = *sceneit;
KX_Camera* cam = scene->GetActiveCamera();
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// pass the scene's worldsettings to the rasterizer
SetWorldSettings(scene->GetWorldInfo());
// Avoid drawing the scene with the active camera twice when it's viewport is enabled
if(!cam->GetViewport())
{
if (scene->IsClearingZBuffer())
m_rasterizer->ClearDepthBuffer();
m_rendertools->SetAuxilaryClientInfo(scene);
//Initialize scene viewport.
SetupRenderFrame(scene, cam);
// do the rendering
RenderFrame(scene, cam);
}
set<class KX_Camera*>* cameras = scene->GetCameras();
// Draw the scene once for each camera with an enabled viewport
set<KX_Camera*>::iterator it = cameras->begin();
while(it != cameras->end())
{
if((*it)->GetViewport())
{
if (scene->IsClearingZBuffer())
m_rasterizer->ClearDepthBuffer();
m_rendertools->SetAuxilaryClientInfo(scene);
//Initialize scene viewport.
SetupRenderFrame(scene, (*it));
// do the rendering
RenderFrame(scene, (*it));
}
it++;
}
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}
// only one place that checks for stereo
if(m_rasterizer->Stereo())
{
m_rasterizer->SetEye(RAS_IRasterizer::RAS_STEREO_RIGHTEYE);
if (!BeginFrame())
return;
KX_SceneList::iterator sceneit;
for (sceneit = m_scenes.begin();sceneit != m_scenes.end(); sceneit++)
// for each scene, call the proceed functions
{
KX_Scene* scene = *sceneit;
KX_Camera* cam = scene->GetActiveCamera();
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// pass the scene's worldsettings to the rasterizer
SetWorldSettings(scene->GetWorldInfo());
if (scene->IsClearingZBuffer())
m_rasterizer->ClearDepthBuffer();
//pass the scene, for picking and raycasting (shadows)
m_rendertools->SetAuxilaryClientInfo(scene);
//Initialize scene viewport.
//SetupRenderFrame(scene);
SetupRenderFrame(scene, cam);
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// do the rendering
//RenderFrame(scene);
RenderFrame(scene, cam);
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}
} // if(m_rasterizer->Stereo())
EndFrame();
}
void KX_KetsjiEngine::RequestExit(int exitrequestmode)
{
m_exitcode = exitrequestmode;
}
void KX_KetsjiEngine::SetNameNextGame(const STR_String& nextgame)
{
m_exitstring = nextgame;
}
int KX_KetsjiEngine::GetExitCode()
{
// if a gameactuator has set an exitcode or if there are no scenes left
if (!m_exitcode)
{
if (m_scenes.begin()==m_scenes.end())
m_exitcode = KX_EXIT_REQUEST_NO_SCENES_LEFT;
}
return m_exitcode;
}
const STR_String& KX_KetsjiEngine::GetExitString()
{
return m_exitstring;
}
void KX_KetsjiEngine::DoSound(KX_Scene* scene)
{
m_logger->StartLog(tc_sound, m_kxsystem->GetTimeInSeconds(), true);
KX_Camera* cam = scene->GetActiveCamera();
if (!cam)
return;
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MT_Point3 listenerposition = cam->NodeGetWorldPosition();
MT_Vector3 listenervelocity = cam->GetLinearVelocity();
MT_Matrix3x3 listenerorientation = cam->NodeGetWorldOrientation();
SND_Scene* soundscene = scene->GetSoundScene();
soundscene->SetListenerTransform(
listenerposition,
listenervelocity,
listenerorientation);
soundscene->Proceed();
}
void KX_KetsjiEngine::SetBackGround(KX_WorldInfo* wi)
{
if (wi->hasWorld())
{
if (m_drawingmode == RAS_IRasterizer::KX_TEXTURED)
{
m_rasterizer->SetBackColor(
wi->getBackColorRed(),
wi->getBackColorGreen(),
wi->getBackColorBlue(),
0.0
);
}
}
}
void KX_KetsjiEngine::SetWorldSettings(KX_WorldInfo* wi)
{
if (wi->hasWorld())
{
// ...
m_rasterizer->SetAmbientColor(
wi->getAmbientColorRed(),
wi->getAmbientColorGreen(),
wi->getAmbientColorBlue()
);
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if (m_drawingmode == RAS_IRasterizer::KX_TEXTURED)
{
if (wi->hasMist())
{
m_rasterizer->SetFog(
wi->getMistStart(),
wi->getMistDistance(),
wi->getMistColorRed(),
wi->getMistColorGreen(),
wi->getMistColorBlue()
);
}
else
{
m_rasterizer->DisableFog();
}
}
}
}
void KX_KetsjiEngine::SetDrawType(int drawingmode)
{
m_drawingmode = drawingmode;
}
void KX_KetsjiEngine::EnableCameraOverride(const STR_String& forscene)
{
m_overrideCam = true;
m_overrideSceneName = forscene;
}
void KX_KetsjiEngine::SetCameraZoom(float camzoom)
{
m_cameraZoom = camzoom;
}
void KX_KetsjiEngine::SetCameraOverrideUseOrtho(bool useOrtho)
{
m_overrideCamUseOrtho = useOrtho;
}
void KX_KetsjiEngine::SetCameraOverrideProjectionMatrix(const MT_CmMatrix4x4& mat)
{
m_overrideCamProjMat = mat;
}
void KX_KetsjiEngine::SetCameraOverrideViewMatrix(const MT_CmMatrix4x4& mat)
{
m_overrideCamViewMat = mat;
}
void KX_KetsjiEngine::SetupRenderFrame(KX_Scene *scene, KX_Camera* cam)
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{
// In this function we make sure the rasterizer settings are upto
// date. We compute the viewport so that logic
// using this information is upto date.
// Note we postpone computation of the projection matrix
// so that we are using the latest camera position.
RAS_Rect viewport;
if (cam->GetViewport()) {
viewport.SetLeft(cam->GetViewportLeft());
viewport.SetBottom(cam->GetViewportBottom());
viewport.SetRight(cam->GetViewportRight());
viewport.SetTop(cam->GetViewportTop());
}
else if ( m_overrideCam || (scene->GetName() != m_overrideSceneName) || m_overrideCamUseOrtho ) {
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RAS_FramingManager::ComputeViewport(
scene->GetFramingType(),
m_canvas->GetDisplayArea(),
viewport
);
} else {
viewport.SetLeft(0);
viewport.SetBottom(0);
viewport.SetRight(int(m_canvas->GetWidth()));
viewport.SetTop(int(m_canvas->GetHeight()));
}
// store the computed viewport in the scene
scene->SetSceneViewport(viewport);
// set the viewport for this frame and scene
m_canvas->SetViewPort(
viewport.GetLeft(),
viewport.GetBottom(),
viewport.GetRight(),
viewport.GetTop()
);
}
// update graphics
void KX_KetsjiEngine::RenderFrame(KX_Scene* scene, KX_Camera* cam)
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{
float left, right, bottom, top, nearfrust, farfrust;
const float ortho = 100.0;
// KX_Camera* cam = scene->GetActiveCamera();
if (!cam)
return;
// see KX_BlenderMaterial::Activate
//m_rasterizer->SetAmbient();
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m_rasterizer->DisplayFog();
if (m_overrideCam && (scene->GetName() == m_overrideSceneName) && m_overrideCamUseOrtho) {
MT_CmMatrix4x4 projmat = m_overrideCamProjMat;
m_rasterizer->SetProjectionMatrix(projmat);
} else if (cam->hasValidProjectionMatrix() && !cam->GetViewport() )
{
m_rasterizer->SetProjectionMatrix(cam->GetProjectionMatrix());
} else
{
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RAS_FrameFrustum frustum;
float lens = cam->GetLens();
nearfrust = cam->GetCameraNear();
farfrust = cam->GetCameraFar();
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if (!cam->GetCameraData()->m_perspective)
{
lens *= ortho;
nearfrust = (nearfrust + 1.0)*ortho;
farfrust *= ortho;
}
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RAS_FramingManager::ComputeFrustum(
scene->GetFramingType(),
m_canvas->GetDisplayArea(),
scene->GetSceneViewport(),
lens,
nearfrust,
farfrust,
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frustum
);
left = frustum.x1 * m_cameraZoom;
right = frustum.x2 * m_cameraZoom;
bottom = frustum.y1 * m_cameraZoom;
top = frustum.y2 * m_cameraZoom;
nearfrust = frustum.camnear;
farfrust = frustum.camfar;
MT_Matrix4x4 projmat = m_rasterizer->GetFrustumMatrix(
left, right, bottom, top, nearfrust, farfrust);
cam->SetProjectionMatrix(projmat);
// Otherwise the projection matrix for each eye will be the same...
if (m_rasterizer->Stereo())
cam->InvalidateProjectionMatrix();
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}
MT_Transform camtrans(cam->GetWorldToCamera());
if (!cam->GetCameraData()->m_perspective)
camtrans.getOrigin()[2] *= ortho;
MT_Matrix4x4 viewmat(camtrans);
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m_rasterizer->SetViewMatrix(viewmat, cam->NodeGetWorldPosition(),
cam->GetCameraLocation(), cam->GetCameraOrientation());
cam->SetModelviewMatrix(viewmat);
scene->UpdateMeshTransformations();
// The following actually reschedules all vertices to be
// redrawn. There is a cache between the actual rescheduling
// and this call though. Visibility is imparted when this call
// runs through the individual objects.
scene->CalculateVisibleMeshes(m_rasterizer,cam);
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scene->RenderBuckets(camtrans, m_rasterizer, m_rendertools);
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}
void KX_KetsjiEngine::StopEngine()
{
if (m_bInitialized)
{
if (m_game2ipo)
{
// printf("TestHandlesPhysicsObjectToAnimationIpo\n");
m_sceneconverter->TestHandlesPhysicsObjectToAnimationIpo();
}
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KX_SceneList::iterator sceneit;
for (sceneit = m_scenes.begin();sceneit != m_scenes.end() ; sceneit++)
{
KX_Scene* scene = *sceneit;
delete scene;
}
m_scenes.clear();
// cleanup all the stuff
m_rasterizer->Exit();
}
}
// Scene Management is able to switch between scenes
// and have several scene's running in parallel
void KX_KetsjiEngine::AddScene(KX_Scene* scene)
{
m_scenes.push_back(scene);
PostProcessScene(scene);
SceneListsChanged();
}
void KX_KetsjiEngine::PostProcessScene(KX_Scene* scene)
{
bool override_camera = (m_overrideCam && (scene->GetName() == m_overrideSceneName));
// if there is no activecamera, or the camera is being
// overridden we need to construct a temporarily camera
if (!scene->GetActiveCamera() || override_camera)
{
KX_Camera* activecam = NULL;
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RAS_CameraData camdata = RAS_CameraData();
activecam = new KX_Camera(scene,KX_Scene::m_callbacks,camdata, false);
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activecam->SetName("__default__cam__");
// set transformation
if (override_camera) {
const MT_CmMatrix4x4& cammatdata = m_overrideCamViewMat;
MT_Transform trans = MT_Transform(cammatdata.getPointer());
MT_Transform camtrans;
camtrans.invert(trans);
activecam->NodeSetLocalPosition(camtrans.getOrigin());
activecam->NodeSetLocalOrientation(camtrans.getBasis());
activecam->NodeUpdateGS(0,true);
} else {
activecam->NodeSetLocalPosition(MT_Point3(0.0, 0.0, 0.0));
activecam->NodeSetLocalOrientation(MT_Vector3(0.0, 0.0, 0.0));
activecam->NodeUpdateGS(0,true);
}
scene->AddCamera(activecam);
scene->SetActiveCamera(activecam);
scene->GetObjectList()->Add(activecam->AddRef());
scene->GetRootParentList()->Add(activecam->AddRef());
}
scene->UpdateParents(0.0);
}
void KX_KetsjiEngine::RenderDebugProperties()
{
STR_String debugtxt;
int xcoord = 10; // mmmm, these constants were taken from blender source
int ycoord = 14; // to 'mimic' behaviour
float tottime = m_logger->GetAverage();
if (tottime < 1e-6f) {
tottime = 1e-6f;
}
// Set viewport to entire canvas
RAS_Rect viewport;
m_canvas->SetViewPort(0, 0, int(m_canvas->GetWidth()), int(m_canvas->GetHeight()));
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/* Framerate display */
if (m_show_framerate) {
debugtxt.Format("swap : %.3f (%.3f frames per second)", tottime, 1.0/tottime);
m_rendertools->RenderText2D(RAS_IRenderTools::RAS_TEXT_PADDED,
debugtxt.Ptr(),
xcoord,
ycoord,
m_canvas->GetWidth() /* RdV, TODO ?? */,
m_canvas->GetHeight() /* RdV, TODO ?? */);
ycoord += 14;
}
/* Profile and framerate display */
if (m_show_profile)
{
for (int j = tc_first; j < tc_numCategories; j++)
{
debugtxt.Format(m_profileLabels[j]);
m_rendertools->RenderText2D(RAS_IRenderTools::RAS_TEXT_PADDED,
debugtxt.Ptr(),
xcoord,ycoord,
m_canvas->GetWidth(),
m_canvas->GetHeight());
double time = m_logger->GetAverage((KX_TimeCategory)j);
debugtxt.Format("%2.2f %%", time/tottime * 100.f);
m_rendertools->RenderText2D(RAS_IRenderTools::RAS_TEXT_PADDED,
debugtxt.Ptr(),
xcoord + 60 ,ycoord,
m_canvas->GetWidth(),
m_canvas->GetHeight());
ycoord += 14;
}
}
/* Property display*/
if (m_show_debug_properties && m_propertiesPresent)
{
KX_SceneList::iterator sceneit;
for (sceneit = m_scenes.begin();sceneit != m_scenes.end() ; sceneit++)
{
KX_Scene* scene = *sceneit;
/* the 'normal' debug props */
vector<SCA_DebugProp*>& debugproplist = scene->GetDebugProperties();
for (vector<SCA_DebugProp*>::iterator it = debugproplist.begin();
!(it==debugproplist.end());it++)
{
CValue* propobj = (*it)->m_obj;
STR_String objname = propobj->GetName();
STR_String propname = (*it)->m_name;
CValue* propval = propobj->GetProperty(propname);
if (propval)
{
STR_String text = propval->GetText();
debugtxt = objname + "." + propname + " = " + text;
m_rendertools->RenderText2D(RAS_IRenderTools::RAS_TEXT_PADDED,
debugtxt.Ptr(),
xcoord,
ycoord,
m_canvas->GetWidth(),
m_canvas->GetHeight());
ycoord += 14;
}
}
}
}
}
KX_SceneList* KX_KetsjiEngine::CurrentScenes()
{
return &m_scenes;
}
KX_Scene* KX_KetsjiEngine::FindScene(const STR_String& scenename)
{
KX_SceneList::iterator sceneit = m_scenes.begin();
// bit risky :) better to split the second clause
while ( (sceneit != m_scenes.end())
&& ((*sceneit)->GetName() != scenename))
{
sceneit++;
}
return ((sceneit == m_scenes.end()) ? NULL : *sceneit);
}
void KX_KetsjiEngine::ConvertAndAddScene(const STR_String& scenename,bool overlay)
{
// only add scene when it doesn't exist!
if (FindScene(scenename))
{
STR_String tmpname = scenename;
printf("warning: scene %s already exists, not added!\n",tmpname.Ptr());
}
else
{
if (overlay)
{
m_addingOverlayScenes.insert(scenename);
}
else
{
m_addingBackgroundScenes.insert(scenename);
}
}
}
void KX_KetsjiEngine::RemoveScene(const STR_String& scenename)
{
if (FindScene(scenename))
{
m_removingScenes.insert(scenename);
}
else
{
// STR_String tmpname = scenename;
std::cout << "warning: scene " << scenename << " does not exist, not removed!" << std::endl;
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}
}
void KX_KetsjiEngine::RemoveScheduledScenes()
{
if (m_removingScenes.size())
{
set<STR_String>::iterator scenenameit;
for (scenenameit=m_removingScenes.begin();scenenameit != m_removingScenes.end();scenenameit++)
{
STR_String scenename = *scenenameit;
KX_SceneList::iterator sceneit;
for (sceneit = m_scenes.begin();sceneit != m_scenes.end() ; sceneit++)
{
KX_Scene* scene = *sceneit;
if (scene->GetName()==scenename)
{
delete scene;
m_scenes.erase(sceneit);
break;
}
}
}
m_removingScenes.clear();
}
}
KX_Scene* KX_KetsjiEngine::CreateScene(const STR_String& scenename)
{
KX_Scene* tmpscene = new KX_Scene(m_keyboarddevice,
m_mousedevice,
m_networkdevice,
m_audiodevice,
scenename);
m_sceneconverter->ConvertScene(scenename,
tmpscene,
m_pythondictionary,
m_keyboarddevice,
m_rendertools,
m_canvas);
return tmpscene;
}
void KX_KetsjiEngine::AddScheduledScenes()
{
set<STR_String>::iterator scenenameit;
if (m_addingOverlayScenes.size())
{
for (scenenameit = m_addingOverlayScenes.begin();
scenenameit != m_addingOverlayScenes.end();
scenenameit++)
{
STR_String scenename = *scenenameit;
KX_Scene* tmpscene = CreateScene(scenename);
m_scenes.push_back(tmpscene);
PostProcessScene(tmpscene);
}
m_addingOverlayScenes.clear();
}
if (m_addingBackgroundScenes.size())
{
for (scenenameit = m_addingBackgroundScenes.begin();
scenenameit != m_addingBackgroundScenes.end();
scenenameit++)
{
STR_String scenename = *scenenameit;
KX_Scene* tmpscene = CreateScene(scenename);
m_scenes.insert(m_scenes.begin(),tmpscene);
PostProcessScene(tmpscene);
}
m_addingBackgroundScenes.clear();
}
}
void KX_KetsjiEngine::ReplaceScene(const STR_String& oldscene,const STR_String& newscene)
{
m_replace_scenes.insert(std::make_pair(oldscene,newscene));
}
// replace scene is not the same as removing and adding because the
// scene must be in exact the same place (to maintain drawingorder)
// (nzc) - should that not be done with a scene-display list? It seems
// stupid to rely on the mem allocation order...
void KX_KetsjiEngine::ReplaceScheduledScenes()
{
if (m_replace_scenes.size())
{
set<pair<STR_String,STR_String> >::iterator scenenameit;
for (scenenameit = m_replace_scenes.begin();
scenenameit != m_replace_scenes.end();
scenenameit++)
{
STR_String oldscenename = (*scenenameit).first;
STR_String newscenename = (*scenenameit).second;
int i=0;
/* Scenes are not supposed to be included twice... I think */
KX_SceneList::iterator sceneit;
for (sceneit = m_scenes.begin();sceneit != m_scenes.end() ; sceneit++)
{
KX_Scene* scene = *sceneit;
if (scene->GetName() == oldscenename)
{
delete scene;
KX_Scene* tmpscene = CreateScene(newscenename);
m_scenes[i]=tmpscene;
PostProcessScene(tmpscene);
}
i++;
}
}
m_replace_scenes.clear();
}
}
void KX_KetsjiEngine::SuspendScene(const STR_String& scenename)
{
KX_Scene* scene = FindScene(scenename);
if (scene) scene->Suspend();
}
void KX_KetsjiEngine::ResumeScene(const STR_String& scenename)
{
KX_Scene* scene = FindScene(scenename);
if (scene) scene->Resume();
}
void KX_KetsjiEngine::SetUseFixedTime(bool bUseFixedTime)
{
m_bFixedTime = bUseFixedTime;
}
void KX_KetsjiEngine::SetGame2IpoMode(bool game2ipo,int startFrame)
{
m_game2ipo = game2ipo;
if (game2ipo)
{
//when recording physics keyframes, always run at a fixed framerate
m_bFixedTime = true;
}
m_currentFrame = startFrame;
}
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bool KX_KetsjiEngine::GetUseFixedTime(void) const
{
return m_bFixedTime;
}
double KX_KetsjiEngine::GetSuspendedDelta()
{
return m_suspendeddelta;
}
double KX_KetsjiEngine::GetTicRate()
{
return m_ticrate;
}
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void KX_KetsjiEngine::SetTicRate(double ticrate)
{
m_ticrate = ticrate;
}
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void KX_KetsjiEngine::SetTimingDisplay(bool frameRate, bool profile, bool properties)
{
m_show_framerate = frameRate;
m_show_profile = profile;
m_show_debug_properties = properties;
}
void KX_KetsjiEngine::GetTimingDisplay(bool& frameRate, bool& profile, bool& properties) const
{
frameRate = m_show_framerate;
profile = m_show_profile;
properties = m_show_debug_properties;
}
void KX_KetsjiEngine::ProcessScheduledScenes(void)
{
// Check whether there will be changes to the list of scenes
if (m_addingOverlayScenes.size() ||
m_addingBackgroundScenes.size() ||
m_replace_scenes.size() ||
m_removingScenes.size()) {
// Change the scene list
ReplaceScheduledScenes();
RemoveScheduledScenes();
AddScheduledScenes();
// Notify
SceneListsChanged();
}
}
void KX_KetsjiEngine::SceneListsChanged(void)
{
m_propertiesPresent = false;
KX_SceneList::iterator sceneit = m_scenes.begin();
while ((sceneit != m_scenes.end()) && (!m_propertiesPresent))
{
KX_Scene* scene = *sceneit;
vector<SCA_DebugProp*>& debugproplist = scene->GetDebugProperties();
m_propertiesPresent = !debugproplist.empty();
sceneit++;
}
}
void KX_KetsjiEngine::SetHideCursor(bool hideCursor)
{
m_hideCursor = hideCursor;
}
bool KX_KetsjiEngine::GetHideCursor(void) const
{
return m_hideCursor;
}
void KX_KetsjiEngine::SetUseOverrideFrameColor(bool overrideFrameColor)
{
m_overrideFrameColor = overrideFrameColor;
}
bool KX_KetsjiEngine::GetUseOverrideFrameColor(void) const
{
return m_overrideFrameColor;
}
void KX_KetsjiEngine::SetOverrideFrameColor(float r, float g, float b)
{
m_overrideFrameColorR = r;
m_overrideFrameColorG = g;
m_overrideFrameColorB = b;
}
void KX_KetsjiEngine::GetOverrideFrameColor(float& r, float& g, float& b) const
{
r = m_overrideFrameColorR;
g = m_overrideFrameColorG;
b = m_overrideFrameColorB;
}