bool CBindInfo::CalcMapsAndCheck()
{
ClearMaps();
UInt32 numStreams = 0;
if (Coders.Size() == 0)
return false;
if (Coders.Size() - 1 != Bonds.Size())
return false;
FOR_VECTOR(i, Coders)
{
Coder_to_Stream.Add(numStreams);
const CCoderStreamsInfo &c = Coders[i];
for (unsigned j = 0; j < c.NumStreams; j++)
Stream_to_Coder.Add(i);
numStreams += c.NumStreams;
}
void MythUIStateType::CopyFrom(MythUIType *base)
{
MythUIStateType *st = dynamic_cast<MythUIStateType *>(base);
if (!st)
{
VERBOSE(VB_IMPORTANT, "ERROR, bad parsing");
return;
}
ClearMaps();
m_ShowEmpty = st->m_ShowEmpty;
MythUIType::CopyFrom(base);
QMap<QString, MythUIType *>::iterator i;
for (i = st->m_ObjectsByName.begin(); i != st->m_ObjectsByName.end(); ++i)
{
MythUIType *other = i.data();
QString key = i.key();
MythUIType *newtype = GetChild(other->name());
AddObject(key, newtype);
newtype->SetVisible(other->IsVisible());
}
QMap<int, MythUIType *>::iterator j;
for (j = st->m_ObjectsByState.begin(); j != st->m_ObjectsByState.end(); ++j)
{
MythUIType *other = j.data();
int key = j.key();
MythUIType *newtype = GetChild(other->name());
AddObject((StateType)key, newtype);
newtype->SetVisible(other->IsVisible());
}
}
void wxsItemEditorContent::BeforePreviewChanged()
{
ClearMaps();
ClearDragPoints();
BeforeContentChanged();
}
pxcStatus UtilCapture::LocateStreams(std::vector<PXCCapture::VideoStream::DataDesc*> &vinputs,std::vector<PXCCapture::AudioStream::DataDesc*> &ainputs) {
UtilTrace trace(L"UtilCapture::LocateStreams(video)", m_session_service);
if (vinputs.empty() && ainputs.empty()) return PXC_STATUS_ITEM_UNAVAILABLE;
PXCCapture::AudioStream::DataDesc ainput;
if (!ConsolidateAudioRequests(ainputs,&ainput)) return PXC_STATUS_ITEM_UNAVAILABLE;
int n1=CalculateNumFormats(vinputs);
pxcStatus sts;
m_desc_filter.group=PXCSession::IMPL_GROUP_SENSOR;
m_desc_filter.subgroup=(vinputs.size()>0?PXCSession::IMPL_SUBGROUP_VIDEO_CAPTURE:0)|(ainputs.size()>0?PXCSession::IMPL_SUBGROUP_AUDIO_CAPTURE:0);
for (int module_idx=0;;module_idx++) {
sts = CreateCapture(module_idx, m_capture.ReleaseRef());
if (sts == PXC_STATUS_ITEM_UNAVAILABLE) break;
if (sts < PXC_STATUS_NO_ERROR) continue;
PXCCapture::DeviceInfo dinfo;
for (int device_idx=0;;device_idx++) {
sts=m_capture->QueryDevice(device_idx,&dinfo);
if (sts<PXC_STATUS_NO_ERROR) break;
if (m_session_service) m_session_service->TraceParam(L"Locating stream(s) on device ", dinfo.name);
if (m_name_filter) if (!wcsstr(dinfo.name,m_name_filter)) continue;
sts=m_capture->CreateDevice(device_idx,m_device.ReleaseRef());
if (sts<PXC_STATUS_NO_ERROR) continue;
/* Match image formats */
ClearMaps(vinputs);
int n2=0;
bool am=(ainputs.size()>0)?false:true;
for (int stream_idx=0;;stream_idx++) {
PXCCapture::Device::StreamInfo sinfo;
sts=m_device->QueryStream(stream_idx, &sinfo);
if (sts<PXC_STATUS_NO_ERROR) break;
if (sinfo.cuid==PXCCapture::VideoStream::CUID && n2<n1) {
PXCSmartPtr<PXCCapture::VideoStream> vstream;
sts=m_device->CreateStream(stream_idx,PXCCapture::VideoStream::CUID,(void**)&vstream);
if (sts<PXC_STATUS_NO_ERROR) break;
std::list<PXCCapture::VideoStream::ProfileInfo> profiles;
ScanProfiles(profiles,sinfo.imageType,vstream);
int n3=MatchProfiles(vinputs,sinfo,profiles,(int)m_vstreams.size());
if (n3==0) continue;
FindBestProfile(vinputs,profiles,(int)m_vstreams.size());
sts=vstream->SetProfile(&*profiles.begin());
if (sts<PXC_STATUS_NO_ERROR) break;
m_vstreams.push_back(vstream.ReleasePtr());
n2+=n3;
}
if (sinfo.cuid==PXCCapture::AudioStream::CUID && !am) {
sts=m_device->CreateStream(stream_idx, PXCCapture::AudioStream::CUID, (void**)m_astream.ReleaseRef());
if (sts<PXC_STATUS_NO_ERROR) continue;
for (int profile_idx=0;;profile_idx++) {
PXCCapture::AudioStream::ProfileInfo pinfo;
sts=m_astream->QueryProfile(profile_idx,&pinfo);
if (sts<PXC_STATUS_NO_ERROR) break;
if (ainput.info.nchannels>0 && ainput.info.nchannels!=pinfo.audioInfo.nchannels) continue;
if (ainput.info.sampleRate>0 && ainput.info.sampleRate!=pinfo.audioInfo.sampleRate) continue;
if (ainput.info.bufferSize>0 && ainput.info.bufferSize!=pinfo.audioInfo.bufferSize) continue;
if (ainput.info.channelMask>0 && ainput.info.channelMask!=pinfo.audioInfo.channelMask) continue;
sts=m_astream->SetProfile(&pinfo);
if (sts<PXC_STATUS_NO_ERROR) break;
for (int i=0;i<(int)ainputs.size();i++) {
memcpy_s(&ainputs[i]->info,sizeof(ainputs[i]->info),&pinfo.audioInfo,sizeof(pinfo.audioInfo));
ainputs[i]->options=pinfo.audioOptions;
}
am=true;
break;
}
if (sts<PXC_STATUS_NO_ERROR) m_astream.ReleaseRef();
}
if (sts>=PXC_STATUS_NO_ERROR && n2>=n1 && am) break;
}
if (sts>=PXC_STATUS_NO_ERROR && n2>=n1 && am)
if (RecordProperties(vinputs)) break;
DeleteStreams();
m_device.ReleaseRef();
}
if (sts>=PXC_STATUS_NO_ERROR)
{
if (m_session_service) m_session_service->TraceParam(L"Successfully located streams on device ", dinfo.name);
// update actual image size
for (int i = 0; i < (int)vinputs.size() && i < (int)m_maps.size(); i++)
{
for (int c = 0; c < PXCCapture::VideoStream::STREAM_LIMIT; c++)
{
PXCCapture::VideoStream::ProfileInfo info;
if (m_maps[i][c]<0) break;
PXCCapture::VideoStream* vstream = m_vstreams[m_maps[i][c]];
if (!vstream) break;
if (vstream->QueryProfile(&info) >= PXC_STATUS_NO_ERROR)
{
vinputs[i]->streams[c].sizeMin.width = info.imageInfo.width;
vinputs[i]->streams[c].sizeMin.height = info.imageInfo.height;
vinputs[i]->streams[c].sizeMax.width = info.imageInfo.width;
vinputs[i]->streams[c].sizeMax.height = info.imageInfo.height;
}
}
}
break;
}
m_capture.ReleaseRef();
}
return sts;
}
void MythUIStateType::ClearImages()
{
ClearMaps();
SetRedraw();
}
void WrappedID3D11DeviceContext::ReplayLog(LogState readType, uint32_t startEventID, uint32_t endEventID, bool partial)
{
m_State = readType;
m_DoStateVerify = true;
D3D11ChunkType header = (D3D11ChunkType)m_pSerialiser->PushContext(NULL, 1, false);
RDCASSERT(header == CONTEXT_CAPTURE_HEADER);
ResourceId id;
m_pSerialiser->Serialise("context", id);
WrappedID3D11DeviceContext *context = (WrappedID3D11DeviceContext *)m_pDevice->GetResourceManager()->GetLiveResource(id);
RDCASSERT(WrappedID3D11DeviceContext::IsAlloc(context) && context == this);
Serialise_BeginCaptureFrame(!partial);
m_pSerialiser->PopContext(NULL, header);
m_CurEvents.clear();
if(m_State == EXECUTING)
{
FetchAPIEvent ev = GetEvent(startEventID);
m_CurEventID = ev.eventID;
m_pSerialiser->SetOffset(ev.fileOffset);
}
else if(m_State == READING)
{
m_CurEventID = 1;
}
if(m_State == EXECUTING)
{
ClearMaps();
for(size_t i=0; i < m_pDevice->GetNumDeferredContexts(); i++)
{
WrappedID3D11DeviceContext *defcontext = m_pDevice->GetDeferredContext(i);
defcontext->ClearMaps();
}
}
m_pDevice->GetResourceManager()->MarkInFrame(true);
uint64_t startOffset = m_pSerialiser->GetOffset();
while(1)
{
if(m_State == EXECUTING && m_CurEventID > endEventID)
{
// we can just break out if we've done all the events desired.
break;
}
uint64_t offset = m_pSerialiser->GetOffset();
D3D11ChunkType chunktype = (D3D11ChunkType)m_pSerialiser->PushContext(NULL, 1, false);
ProcessChunk(offset, chunktype, false);
RenderDoc::Inst().SetProgress(FrameEventsRead, float(offset - startOffset)/float(m_pSerialiser->GetSize()));
// for now just abort after capture scope. Really we'd need to support multiple frames
// but for now this will do.
if(chunktype == CONTEXT_CAPTURE_FOOTER)
break;
m_CurEventID++;
}
if(m_State == READING)
{
m_pDevice->GetFrameRecord().back().drawcallList = m_ParentDrawcall.Bake();
m_pDevice->GetFrameRecord().back().frameInfo.debugMessages = m_pDevice->GetDebugMessages();
int initialSkips = 0;
for(auto it=WrappedID3D11Buffer::m_BufferList.begin(); it != WrappedID3D11Buffer::m_BufferList.end(); ++it)
m_ResourceUses[it->first];
for(auto it=WrappedID3D11Texture1D::m_TextureList.begin(); it != WrappedID3D11Texture1D::m_TextureList.end(); ++it)
m_ResourceUses[it->first];
for(auto it=WrappedID3D11Texture2D::m_TextureList.begin(); it != WrappedID3D11Texture2D::m_TextureList.end(); ++it)
m_ResourceUses[it->first];
for(auto it=WrappedID3D11Texture3D::m_TextureList.begin(); it != WrappedID3D11Texture3D::m_TextureList.end(); ++it)
m_ResourceUses[it->first];
// it's easier to remove duplicate usages here than check it as we go.
// this means if textures are bound in multiple places in the same draw
// we don't have duplicate uses
for(auto it = m_ResourceUses.begin(); it != m_ResourceUses.end(); ++it)
{
vector<EventUsage> &v = it->second;
std::sort(v.begin(), v.end());
v.erase( std::unique(v.begin(), v.end()), v.end() );
#if 0
ResourceId resid = m_pDevice->GetResourceManager()->GetOriginalID(it->first);
if(m_pDevice->GetResourceManager()->GetInitialContents(resid).resource == NULL)
continue;
// code disabled for now as skipping these initial states
// doesn't seem to produce any measurable improvement in any case
// I've checked
RDCDEBUG("Resource %llu", resid);
if(v.empty())
{
RDCDEBUG("Never used!");
initialSkips++;
}
else
{
bool written = false;
for(auto usit = v.begin(); usit != v.end(); ++usit)
{
ResourceUsage u = usit->usage;
if(u == eUsage_SO ||
(u >= eUsage_VS_RWResource && u <= eUsage_CS_RWResource) ||
u == eUsage_DepthStencilTarget || u == eUsage_ColourTarget)
{
written = true;
break;
}
}
if(written)
{
RDCDEBUG("Written in frame - needs initial state");
}
else
{
RDCDEBUG("Never written to in the frame");
initialSkips++;
}
}
#endif
}
//RDCDEBUG("Can skip %d initial states.", initialSkips);
}
m_pDevice->GetResourceManager()->MarkInFrame(false);
m_State = READING;
m_DoStateVerify = false;
}
void WrappedID3D11DeviceContext::ReplayLog(LogState readType, uint32_t startEventID, uint32_t endEventID, bool partial)
{
m_State = readType;
m_DoStateVerify = true;
D3D11ChunkType header = (D3D11ChunkType)m_pSerialiser->PushContext(NULL, 1, false);
RDCASSERT(header == CONTEXT_CAPTURE_HEADER);
ResourceId id;
m_pSerialiser->Serialise("context", id);
WrappedID3D11DeviceContext *context = (WrappedID3D11DeviceContext *)m_pDevice->GetResourceManager()->GetLiveResource(id);
RDCASSERT(WrappedID3D11DeviceContext::IsAlloc(context) && context == this);
Serialise_BeginCaptureFrame(!partial);
m_pSerialiser->PopContext(NULL, header);
m_CurEvents.clear();
if(m_State == EXECUTING)
{
FetchAPIEvent ev = GetEvent(startEventID);
m_CurEventID = ev.eventID;
m_pSerialiser->SetOffset(ev.fileOffset);
}
else if(m_State == READING)
{
m_CurEventID = 1;
}
if(m_State == EXECUTING)
{
ClearMaps();
for(size_t i=0; i < m_pDevice->GetNumDeferredContexts(); i++)
{
WrappedID3D11DeviceContext *context = m_pDevice->GetDeferredContext(i);
context->ClearMaps();
}
}
m_pDevice->GetResourceManager()->MarkInFrame(true);
while(1)
{
if(m_State == EXECUTING && m_CurEventID > endEventID)
{
// we can just break out if we've done all the events desired.
break;
}
uint64_t offset = m_pSerialiser->GetOffset();
D3D11ChunkType context = (D3D11ChunkType)m_pSerialiser->PushContext(NULL, 1, false);
ProcessChunk(offset, context, false);
RenderDoc::Inst().SetProgress(FileInitialRead, float(offset)/float(m_pSerialiser->GetSize()));
// for now just abort after capture scope. Really we'd need to support multiple frames
// but for now this will do.
if(context == CONTEXT_CAPTURE_FOOTER)
break;
m_CurEventID++;
}
if(m_State == READING)
{
m_pDevice->GetFrameRecord().back().drawcallList = m_ParentDrawcall.Bake();
m_ParentDrawcall.children.clear();
int initialSkips = 0;
for(auto it=WrappedID3D11Buffer::m_BufferList.begin(); it != WrappedID3D11Buffer::m_BufferList.end(); ++it)
m_ResourceUses[it->first];
for(auto it=WrappedID3D11Texture1D::m_TextureList.begin(); it != WrappedID3D11Texture1D::m_TextureList.end(); ++it)
m_ResourceUses[it->first];
for(auto it=WrappedID3D11Texture2D::m_TextureList.begin(); it != WrappedID3D11Texture2D::m_TextureList.end(); ++it)
m_ResourceUses[it->first];
for(auto it=WrappedID3D11Texture3D::m_TextureList.begin(); it != WrappedID3D11Texture3D::m_TextureList.end(); ++it)
m_ResourceUses[it->first];
for(auto it = m_ResourceUses.begin(); it != m_ResourceUses.end(); ++it)
{
ResourceId id = m_pDevice->GetResourceManager()->GetOriginalID(it->first);
if(m_pDevice->GetResourceManager()->GetInitialContents(id) == NULL)
continue;
RDCDEBUG("Resource %llu", id);
if(it->second.empty())
{
RDCDEBUG("Never used!");
initialSkips++;
}
else
{
bool written = false;
for(auto usit = it->second.begin(); usit != it->second.end(); ++usit)
{
ResourceUsage u = usit->usage;
if(u == eUsage_SO ||
u == eUsage_CS_UAV || u == eUsage_PS_UAV ||
u == eUsage_OM_DSV || u == eUsage_OM_RTV)
{
written = true;
break;
}
}
if(written)
{
RDCDEBUG("Written in frame - needs initial state");
}
else
{
RDCDEBUG("Never written to in the frame");
initialSkips++;
}
}
}
RDCDEBUG("Can skip %d initial states.", initialSkips);
}
m_pDevice->GetResourceManager()->MarkInFrame(false);
m_State = READING;
m_DoStateVerify = false;
}
void CVolatilityManagement::FinalRelease()
{
ClearMaps();
//UnregisterPublisher();
}
BaseGrid::~BaseGrid() {
ClearMaps();
delete context_menu;
}
