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40f1c4f34337d7dfb3fa5bcbd2daa2f602e12011
blender-archive/source/gameengine/VideoTexture/Exception.cpp
Benoit Bolsee 40f1c4f343 BGE: Various render improvements. 
bge.logic.setRender(flag) to enable/disable render.
    The render pass is enabled by default but it can be disabled with
    bge.logic.setRender(False).
    Once disabled, the render pass is skipped and a new logic frame starts
    immediately. Note that VSync no longer limits the fps when render is off
    but the 'Use Frame Rate' option in the Render Properties still does.
    To run as many frames as possible, untick the option
    This function is useful when you don't need the default render, e.g.
    when doing offscreen render to an alternate device than the monitor.
    Note that without VSync, you must limit the frame rate by other means.

fbo = bge.render.offScreenCreate(width,height,[,samples=0][,target=bge.render.RAS_OFS_RENDER_BUFFER])
    Use this method to create an offscreen buffer of given size, with given MSAA
    samples and targetting either a render buffer (bge.render.RAS_OFS_RENDER_BUFFER)
    or a texture (bge.render.RAS_OFS_RENDER_TEXTURE). Use the former if you want to
    retrieve the frame buffer on the host and the latter if you want to pass the render
    to another context (texture are proper OGL object, render buffers aren't)
    The object created by this function can only be used as a parameter of the
    bge.texture.ImageRender() constructor to send the the render to the FBO rather
    than to the frame buffer. This is best suited when you want to create a render
    of specific size, or if you need an image with an alpha channel.

bge.texture.<imagetype>.refresh(buffer=None, format="RGBA", ts=-1.0)
    Without arg, the refresh method of the image objects is pretty much a no-op, it
    simply invalidates the image so that on next texture refresh, the image will
    be recalculated.
    It is now possible to pass an optional buffer object to transfer the image (and
    recalculate it if it was invalid) to an external object. The object must implement
    the 'buffer protocol'. The image will be transfered as "RGBA" or "BGRA" pixels
    depending on format argument (only those 2 formats are supported) and ts is an
    optional timestamp in the image depends on it (e.g. VideoFFmpeg playing a video file).
    With this function you don't need anymore to link the image object to a Texture
    object to use: the image object is self-sufficient.

bge.texture.ImageRender(scene, camera, fbo=None)
    Render to buffer is possible by passing a FBO object (see offScreenCreate).

bge.texture.ImageRender.render()
    Allows asynchronous render: call this method to render the scene but without
    extracting the pixels yet. The function returns as soon as the render commands
    have been send to the GPU. The render will proceed asynchronously in the GPU
    while the host can perform other tasks.
    To complete the render, you can either call refresh() directly of refresh the texture
    to which this object is the source. Asynchronous render is useful to achieve optimal
    performance: call render() on frame N and refresh() on frame N+1 to give as much as
    time as possible to the GPU to render the frame while the game engine can perform other tasks.

Support negative scale on camera.
    Camera scale was previously ignored in the BGE.
    It is now injected in the modelview matrix as a vertical or horizontal flip
    of the scene (respectively if scaleY<0 and scaleX<0).
    Note that the actual value of the scale is not used, only the sign.
    This allows to flip the image produced by ImageRender() without any performance
    degradation: the flip is integrated in the render itself.

Optimized image transfer from ImageRender to buffer.
    Previously, images that were transferred to the host were always going through
    buffers in VideoTexture. It is now possible to transfer ImageRender
    images to external buffer without intermediate copy (i.e. directly from OGL to buffer)
    if the attributes of the ImageRender objects are set as follow:
       flip=False, alpha=True, scale=False, depth=False, zbuff=False.
       (if you need to flip the image, use camera negative scale)
2016-06-11 22:05:20 +02:00

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/*
* ***** BEGIN GPL 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.
*
* 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
* Copyright (c) 2006 The Zdeno Ash Miklas
*
* This source file is part of VideoTexture library
*
* Contributor(s):
*
* ***** END GPL LICENSE BLOCK *****
*/
/** \file gameengine/VideoTexture/Exception.cpp
* \ingroup bgevideotex
*/
#include <sstream>
#include <fstream>
#include "EXP_PyObjectPlus.h"
#include "Exception.h"
// exception identificators
ExceptionID ErrGeneral, ErrNotFound;
// exception descriptions
ExpDesc errGenerDesc(ErrGeneral, "General Error");
ExpDesc errNFoundDesc(ErrNotFound, "Error description not found");
// implementation of ExpDesc
// constructor
ExpDesc::ExpDesc (ExceptionID & exp, const char *desc, RESULT hres)
: m_expID(exp), m_hRslt(hres), m_description(desc)
{
}
// destructor
ExpDesc::~ExpDesc (void) {}
// list of descriptions
std::vector<ExpDesc*> ExpDesc::m_expDescs;
// class Exception
// last exception description
std::string Exception::m_lastError;
// log file name
const char * Exception::m_logFile = NULL;
// basic constructor
Exception::Exception ()
{
// default values
m_expID = &ErrNotFound;
m_hRslt = S_OK;
m_line = 0;
}
// destructor
Exception::~Exception () throw() { }
// copy constructor
Exception::Exception (const Exception & xpt)
{ copy (xpt); }
// assignment operator
Exception & Exception::operator= (const Exception & xpt)
{ copy (xpt); return *this; }
// get exception description
const char * Exception::what()
{
// set exception description
setXptDesc();
// return c string
return m_desc.c_str();
}
// debug version - with file and line of exception
Exception::Exception (ExceptionID & expID, RESULT rslt, const char *fil, int lin)
: m_expID (&expID), m_hRslt (rslt)
{
// set file and line
if (fil[0] != '\0' || lin > 0)
setFileLine (fil, lin);
else
m_line = -1;
}
// set file and line
void Exception::setFileLine (const char *fil, int lin)
{
if (fil != NULL) m_fileName = fil;
m_line = lin;
}
// report exception
void Exception::report(void)
{
// set exception description
setXptDesc();
// set python error
PyErr_SetString(PyExc_RuntimeError, what());
// if log file is set
if (m_logFile != NULL)
{
// write description to log
std::ofstream logf (m_logFile, std::ios_base::app);
logf << m_fileName << ':' << m_line << ':' << m_desc << std::endl;
logf.flush();
logf.close();
}
}
// set exception description
void Exception::setXptDesc (void)
{
// if description is not set
if (m_desc.size() == 0)
{
// start of search -1
// found description "NotFound" 0
// found description without matching result 1
// found description with matching result 2
int best = -1;
// find exception description
for (std::vector<ExpDesc*>::iterator it = ExpDesc::m_expDescs.begin(); it != ExpDesc::m_expDescs.end(); ++it)
{
// use "NotFound", if there is not better
if (best < 0 && (*it)->isExp(&ErrNotFound) > 0)
{
(*it)->loadDesc(m_desc);
best = 0;
}
// match exception
int nBest = (*it)->isExp(m_expID, m_hRslt);
// if exception is matching better
if (nBest > 0 && best < nBest)
{
// set description
(*it)->loadDesc(m_desc);
best = nBest;
// if matching exactly, finish search
if (best == 2) break;
}
}
// add result code
// length of result code
const size_t rsltSize = 11;
// delimit description
//const char delimRslt[] = ": ";
// set text of description
char rsltTxt[rsltSize];
std::ostringstream os;
os << std::hex << m_hRslt << ": " << '\0';
// copy result to description
m_desc.insert(0, rsltTxt);
// copy exception description to last exception string
m_lastError = m_desc;
}
}
// copy exception data
void Exception::copy (const Exception & xpt)
{
// standard data
m_expID = xpt.m_expID;
m_hRslt = xpt.m_hRslt;
m_desc = xpt.m_desc;
// debug data
m_fileName = xpt.m_fileName;
m_line = xpt.m_line;
}
void registerAllExceptions(void)
{
errGenerDesc.registerDesc();
errNFoundDesc.registerDesc();
MaterialNotAvailDesc.registerDesc();
ImageSizesNotMatchDesc.registerDesc();
ImageHasExportsDesc.registerDesc();
InvalidColorChannelDesc.registerDesc();
InvalidImageModeDesc.registerDesc();
SceneInvalidDesc.registerDesc();
CameraInvalidDesc.registerDesc();
ObserverInvalidDesc.registerDesc();
MirrorInvalidDesc.registerDesc();
MirrorSizeInvalidDesc.registerDesc();
MirrorNormalInvalidDesc.registerDesc();
MirrorHorizontalDesc.registerDesc();
MirrorTooSmallDesc.registerDesc();
SourceVideoEmptyDesc.registerDesc();
SourceVideoCreationDesc.registerDesc();
OffScreenInvalidDesc.registerDesc();
#ifdef WITH_DECKLINK
AutoDetectionNotAvailDesc.registerDesc();
DeckLinkBadDisplayModeDesc.registerDesc();
DeckLinkBadPixelFormatDesc.registerDesc();
DeckLinkOpenCardDesc.registerDesc();
DeckLinkBadFormatDesc.registerDesc();
DeckLinkInternalErrorDesc.registerDesc();
SourceVideoOnlyCaptureDesc.registerDesc();
VideoDeckLinkBadFormatDesc.registerDesc();
VideoDeckLinkOpenCardDesc.registerDesc();
VideoDeckLinkDvpInternalErrorDesc.registerDesc();
VideoDeckLinkPinMemoryErrorDesc.registerDesc();
#endif
}
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