void ezSceneExportModifier::DestroyModifiers(ezHybridArray<ezSceneExportModifier*, 8>& modifiers) { for (auto pMod : modifiers) { pMod->GetDynamicRTTI()->GetAllocator()->Deallocate(pMod); } modifiers.Clear(); }
void ezRTTI::GetAllProperties(ezHybridArray<ezAbstractProperty*, 32>& out_Properties) const { out_Properties.Clear(); if (m_pParentType) m_pParentType->GetAllProperties(out_Properties); out_Properties.PushBackRange(GetProperties()); }
bool ezIReflectedTypeAccessor::GetValues(const char* szProperty, ezHybridArray<ezVariant, 16>& out_values) const { ezHybridArray<ezVariant, 16> keys; if (!GetKeys(szProperty, keys)) return false; out_values.Clear(); out_values.Reserve(keys.GetCount()); for (ezVariant key : keys) { out_values.PushBack(GetValue(szProperty, key)); } return true; }
~ezEngineWriter() { m_logBlocks.Clear(); m_pInterface = nullptr; }
ezResult ezImageConversion::BuildPath(ezImageFormat::Enum sourceFormat, ezImageFormat::Enum targetFormat, bool bSourceEqualsTarget, ezHybridArray<ezImageConversion::ConversionPathNode, 16>& path_out, ezUInt32& numScratchBuffers_out) { path_out.Clear(); numScratchBuffers_out = 0; if (sourceFormat == targetFormat) { ConversionPathNode node; node.m_sourceFormat = sourceFormat; node.m_targetFormat = targetFormat; node.m_inPlace = bSourceEqualsTarget; node.m_sourceBufferIndex = 0; node.m_targetBufferIndex = 0; node.m_step = nullptr; path_out.PushBack(node); return EZ_SUCCESS; } if (!s_conversionTableValid) { RebuildConversionTable(); } for (ezImageFormat::Enum current = sourceFormat; current != targetFormat;) { ezUInt32 currentTableIndex = MakeKey(current, targetFormat); TableEntry entry; if (!s_conversionTable.TryGetValue(currentTableIndex, entry)) { return EZ_FAILURE; } ezImageConversion::ConversionPathNode step; step.m_sourceFormat = entry.m_sourceFormat; step.m_targetFormat = entry.m_targetFormat; step.m_inPlace = entry.m_flags.IsAnySet(ezImageConversionFlags::InPlace); step.m_step = entry.m_step; current = entry.m_targetFormat; path_out.PushBack(step); } ezHybridArray<IntermediateBuffer, 16> scratchBuffers; scratchBuffers.PushBack(IntermediateBuffer(ezImageFormat::GetBitsPerBlock(targetFormat))); for (int i = path_out.GetCount() - 1; i >= 0; --i) { if (i == path_out.GetCount() - 1) path_out[i].m_targetBufferIndex = 0; else path_out[i].m_targetBufferIndex = path_out[i + 1].m_sourceBufferIndex; if (i > 0) { if (path_out[i].m_inPlace) { path_out[i].m_sourceBufferIndex = path_out[i].m_targetBufferIndex; } else { ezUInt32 bitsPerBlock = ezImageFormat::GetBitsPerBlock(path_out[i].m_sourceFormat); path_out[i].m_sourceBufferIndex = allocateScratchBufferIndex(scratchBuffers, bitsPerBlock, path_out[i].m_targetBufferIndex); } } } if (bSourceEqualsTarget) { // Enforce constraint that source == target path_out[0].m_sourceBufferIndex = 0; // Did we accidentally break the in-place invariant? if (path_out[0].m_sourceBufferIndex == path_out[0].m_targetBufferIndex && !path_out[0].m_inPlace) { if (path_out.GetCount() == 1) { // Only a single step, so we need to add a copy step ezImageConversion::ConversionPathNode copy; copy.m_inPlace = false; copy.m_sourceFormat = sourceFormat; copy.m_targetFormat = sourceFormat; copy.m_sourceBufferIndex = path_out[0].m_sourceBufferIndex; copy.m_targetBufferIndex = allocateScratchBufferIndex(scratchBuffers, ezImageFormat::GetBitsPerBlock(path_out[0].m_sourceFormat), path_out[0].m_sourceBufferIndex); path_out[0].m_sourceBufferIndex = copy.m_targetBufferIndex; copy.m_step = nullptr; path_out.Insert(copy, 0); } else { // Turn second step to non-inplace path_out[1].m_inPlace = false; path_out[1].m_sourceBufferIndex = allocateScratchBufferIndex( scratchBuffers, ezImageFormat::GetBitsPerBlock(path_out[1].m_sourceFormat), path_out[0].m_sourceBufferIndex); path_out[0].m_targetBufferIndex = path_out[1].m_sourceBufferIndex; } } } else { path_out[0].m_sourceBufferIndex = scratchBuffers.GetCount(); } numScratchBuffers_out = scratchBuffers.GetCount() - 1; return EZ_SUCCESS; }