/* * Copyright (c) 2021, Stephan Unverwerth * * SPDX-License-Identifier: BSD-2-Clause */ #include namespace SoftGPU { Image::Image(ImageFormat format, unsigned width, unsigned height, unsigned depth, unsigned levels, unsigned layers) : m_format(format) , m_width(width) , m_height(height) , m_depth(depth) , m_num_layers(layers) { VERIFY(width > 0); VERIFY(height > 0); VERIFY(depth > 0); VERIFY(levels > 0); VERIFY(layers > 0); m_mipmap_sizes.append({ width, height, depth }); m_mipmap_offsets.append(0); m_mipchain_size += width * height * depth * element_size(format); while (--levels && (width > 1 || height > 1 || depth > 1)) { width = max(width / 2, 1); height = max(height / 2, 1); depth = max(depth / 2, 1); m_mipmap_sizes.append({ width, height, depth }); m_mipmap_offsets.append(m_mipchain_size); m_mipchain_size += width * height * depth * element_size(format); } m_num_levels = m_mipmap_sizes.size(); m_data.resize(m_mipchain_size * m_num_layers); } void Image::write_texels(unsigned layer, unsigned level, Vector3 const& offset, Vector3 const& size, void const* data, ImageDataLayout const& layout) { VERIFY(layer < num_layers()); VERIFY(level < num_levels()); VERIFY(offset.x() + size.x() <= level_width(level)); VERIFY(offset.y() + size.y() <= level_height(level)); VERIFY(offset.z() + size.z() <= level_depth(level)); for (unsigned z = 0; z < size.z(); ++z) { for (unsigned y = 0; y < size.y(); ++y) { for (unsigned x = 0; x < size.x(); ++x) { auto ptr = reinterpret_cast(data) + layout.depth_stride * z + layout.row_stride * y + layout.column_stride * x; auto color = unpack_color(ptr, layout.format); set_texel(layer, level, offset.x() + x, offset.y() + y, offset.z() + z, color); } } } } void Image::read_texels(unsigned layer, unsigned level, Vector3 const& offset, Vector3 const& size, void* data, ImageDataLayout const& layout) const { VERIFY(layer < num_layers()); VERIFY(level < num_levels()); VERIFY(offset.x() + size.x() <= level_width(level)); VERIFY(offset.y() + size.y() <= level_height(level)); VERIFY(offset.z() + size.z() <= level_depth(level)); for (unsigned z = 0; z < size.z(); ++z) { for (unsigned y = 0; y < size.y(); ++y) { for (unsigned x = 0; x < size.x(); ++x) { auto color = texel(layer, level, offset.x() + x, offset.y() + y, offset.z() + z); auto ptr = reinterpret_cast(data) + layout.depth_stride * z + layout.row_stride * y + layout.column_stride * x; pack_color(color, ptr, layout.format); } } } } void Image::copy_texels(Image const& source, unsigned source_layer, unsigned source_level, Vector3 const& source_offset, Vector3 const& size, unsigned destination_layer, unsigned destination_level, Vector3 const& destination_offset) { VERIFY(source_layer < source.num_layers()); VERIFY(source_level < source.num_levels()); VERIFY(source_offset.x() + size.x() <= source.level_width(source_level)); VERIFY(source_offset.y() + size.y() <= source.level_height(source_level)); VERIFY(source_offset.z() + size.z() <= source.level_depth(source_level)); VERIFY(destination_layer < num_layers()); VERIFY(destination_level < num_levels()); VERIFY(destination_offset.x() + size.x() <= level_width(destination_level)); VERIFY(destination_offset.y() + size.y() <= level_height(destination_level)); VERIFY(destination_offset.z() + size.z() <= level_depth(destination_level)); for (unsigned z = 0; z < size.z(); ++z) { for (unsigned y = 0; y < size.y(); ++y) { for (unsigned x = 0; x < size.x(); ++x) { auto color = source.texel(source_layer, source_level, source_offset.x() + x, source_offset.y() + y, source_offset.z() + z); set_texel(destination_layer, destination_level, destination_offset.x() + x, destination_offset.y() + y, destination_offset.z() + z, color); } } } } }