// Copyright (C) 2017 Jérôme Leclercq // This file is part of the "Nazara Engine - Utility module" // For conditions of distribution and use, see copyright notice in Config.hpp #include #include #include #include #include #include #include #include namespace Nz { IndexBuffer::IndexBuffer(bool largeIndices, BufferRef buffer) { ErrorFlags(ErrorFlag_ThrowException, true); Reset(largeIndices, std::move(buffer)); } IndexBuffer::IndexBuffer(bool largeIndices, BufferRef buffer, UInt32 offset, UInt32 size) { ErrorFlags(ErrorFlag_ThrowException, true); Reset(largeIndices, std::move(buffer), offset, size); } IndexBuffer::IndexBuffer(bool largeIndices, UInt32 length, DataStorage storage, BufferUsageFlags usage) { ErrorFlags(ErrorFlag_ThrowException, true); Reset(largeIndices, length, storage, usage); } IndexBuffer::IndexBuffer(const IndexBuffer& indexBuffer) : RefCounted(), m_buffer(indexBuffer.m_buffer), m_endOffset(indexBuffer.m_endOffset), m_indexCount(indexBuffer.m_indexCount), m_startOffset(indexBuffer.m_startOffset), m_largeIndices(indexBuffer.m_largeIndices) { } IndexBuffer::~IndexBuffer() { OnIndexBufferRelease(this); } unsigned int IndexBuffer::ComputeCacheMissCount() const { IndexMapper mapper(this); return Nz::ComputeCacheMissCount(mapper.begin(), m_indexCount); } bool IndexBuffer::Fill(const void* data, UInt32 startIndex, UInt32 length) { UInt32 stride = GetStride(); return FillRaw(data, startIndex*stride, length*stride); } bool IndexBuffer::FillRaw(const void* data, UInt32 offset, UInt32 size) { NazaraAssert(m_buffer && m_buffer->IsValid(), "Invalid buffer"); NazaraAssert(m_startOffset + offset + size <= m_endOffset, "Exceeding virtual buffer size"); return m_buffer->Fill(data, m_startOffset+offset, size); } void* IndexBuffer::MapRaw(BufferAccess access, UInt32 offset, UInt32 size) { NazaraAssert(m_buffer && m_buffer->IsValid(), "Invalid buffer"); NazaraAssert(m_startOffset + offset + size <= m_endOffset, "Exceeding virtual buffer size"); return m_buffer->Map(access, offset, size); } void* IndexBuffer::MapRaw(BufferAccess access, UInt32 offset, UInt32 size) const { NazaraAssert(m_buffer && m_buffer->IsValid(), "Invalid buffer"); NazaraAssert(m_startOffset + offset + size <= m_endOffset, "Exceeding virtual buffer size"); return m_buffer->Map(access, offset, size); } void IndexBuffer::Optimize() { IndexMapper mapper(this); OptimizeIndices(mapper.begin(), m_indexCount); } void IndexBuffer::Reset() { m_buffer.Reset(); } void IndexBuffer::Reset(bool largeIndices, BufferRef buffer) { NazaraAssert(buffer && buffer->IsValid(), "Invalid buffer"); Reset(largeIndices, buffer, 0, buffer->GetSize()); } void IndexBuffer::Reset(bool largeIndices, BufferRef buffer, UInt32 offset, UInt32 size) { NazaraAssert(buffer && buffer->IsValid(), "Invalid buffer"); NazaraAssert(size > 0, "Invalid size"); NazaraAssert(offset + size > buffer->GetSize(), "Virtual buffer exceed buffer bounds"); UInt32 stride = static_cast((largeIndices) ? sizeof(UInt32) : sizeof(UInt16)); m_buffer = buffer; m_endOffset = offset + size; m_indexCount = size / stride; m_largeIndices = largeIndices; m_startOffset = offset; } void IndexBuffer::Reset(bool largeIndices, UInt32 length, DataStorage storage, BufferUsageFlags usage) { UInt32 stride = static_cast((largeIndices) ? sizeof(UInt32) : sizeof(UInt16)); m_endOffset = length * stride; m_indexCount = length; m_largeIndices = largeIndices; m_startOffset = 0; m_buffer = Buffer::New(BufferType_Index, m_endOffset, storage, usage); } void IndexBuffer::Reset(const IndexBuffer& indexBuffer) { m_buffer = indexBuffer.m_buffer; m_endOffset = indexBuffer.m_endOffset; m_indexCount = indexBuffer.m_indexCount; m_largeIndices = indexBuffer.m_largeIndices; m_startOffset = indexBuffer.m_startOffset; } void IndexBuffer::Unmap() const { m_buffer->Unmap(); } IndexBuffer& IndexBuffer::operator=(const IndexBuffer& indexBuffer) { Reset(indexBuffer); return *this; } }