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ladybird/Userland/Libraries/LibSoftGPU/Image.cpp
Jelle Raaijmakers eb7c3d16fb LibGL+LibGPU+LibSoftGPU: Implement flexible pixel format conversion 
A GPU (driver) is now responsible for reading and writing pixels from
and to user data. The client (LibGL) is responsible for specifying how
the user data must be interpreted or written to.

This allows us to centralize all pixel format conversion in one class,
`LibSoftGPU::PixelConverter`. For both the input and output image, it
takes a specification containing the image dimensions, the pixel type
and the selection (basically a clipping rect), and converts the pixels
from the input image to the output image.

Effectively this means we now support almost all OpenGL 1.5 formats,
and all custom logic has disappeared from:
  - `glDrawPixels`
  - `glReadPixels`
  - `glTexImage2D`
  - `glTexSubImage2D`

The new logic is still unoptimized, but on my machine I experienced no
noticeable slowdown. :^)
2022-08-27 12:28:05 +02:00

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/*
* Copyright (c) 2021, Stephan Unverwerth <s.unverwerth@serenityos.org>
* Copyright (c) 2022, Jelle Raaijmakers <jelle@gmta.nl>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <LibSoftGPU/Image.h>
#include <LibSoftGPU/PixelConverter.h>
namespace SoftGPU {
Image::Image(void const* ownership_token, u32 width, u32 height, u32 depth, u32 max_levels, u32 layers)
: GPU::Image(ownership_token)
, m_num_layers(layers)
, m_mipmap_buffers(FixedArray<RefPtr<Typed3DBuffer<FloatVector4>>>::must_create_but_fixme_should_propagate_errors(layers * max_levels))
{
VERIFY(width > 0);
VERIFY(height > 0);
VERIFY(depth > 0);
VERIFY(max_levels > 0);
VERIFY(layers > 0);
m_width_is_power_of_two = is_power_of_two(width);
m_height_is_power_of_two = is_power_of_two(height);
m_depth_is_power_of_two = is_power_of_two(depth);
u32 level;
for (level = 0; level < max_levels; ++level) {
for (u32 layer = 0; layer < layers; ++layer)
m_mipmap_buffers[layer * layers + level] = MUST(Typed3DBuffer<FloatVector4>::try_create(width, height, depth));
if (width <= 1 && height <= 1 && depth <= 1)
break;
width = max(width / 2, 1);
height = max(height / 2, 1);
depth = max(depth / 2, 1);
}
m_num_levels = level + 1;
}
GPU::ImageDataLayout Image::image_data_layout(u32 level, Vector3<i32> offset) const
{
auto const width = level_width(level);
auto const height = level_height(level);
auto const depth = level_depth(level);
// FIXME: we are directly writing to FloatVector4s. We should probably find a better way to do this
return {
.pixel_type = {
.format = GPU::PixelFormat::RGBA,
.bits = GPU::PixelComponentBits::AllBits,
.data_type = GPU::PixelDataType::Float,
},
.dimensions = {
.width = width,
.height = height,
.depth = depth,
},
.selection = {
.offset_x = offset.x(),
.offset_y = offset.y(),
.offset_z = offset.z(),
.width = width - offset.x(),
.height = height - offset.y(),
.depth = depth - offset.z(),
},
};
}
void Image::write_texels(u32 layer, u32 level, Vector3<i32> const& output_offset, void const* data, GPU::ImageDataLayout const& input_layout)
{
VERIFY(layer < num_layers());
VERIFY(level < num_levels());
auto output_layout = image_data_layout(level, output_offset);
PixelConverter converter { input_layout, output_layout };
auto conversion_result = converter.convert(data, texel_pointer(layer, level, 0, 0, 0));
if (conversion_result.is_error())
dbgln("Pixel conversion failed: {}", conversion_result.error().string_literal());
}
void Image::read_texels(u32 layer, u32 level, Vector3<i32> const& input_offset, void* data, GPU::ImageDataLayout const& output_layout) const
{
VERIFY(layer < num_layers());
VERIFY(level < num_levels());
auto input_layout = image_data_layout(level, input_offset);
PixelConverter converter { input_layout, output_layout };
auto conversion_result = converter.convert(texel_pointer(layer, level, 0, 0, 0), data);
if (conversion_result.is_error())
dbgln("Pixel conversion failed: {}", conversion_result.error().string_literal());
}
void Image::copy_texels(GPU::Image const& source, u32 source_layer, u32 source_level, Vector3<u32> const& source_offset, Vector3<u32> const& size, u32 destination_layer, u32 destination_level, Vector3<u32> const& destination_offset)
{
VERIFY(source.has_same_ownership_token(*this));
auto const& src_image = static_cast<Image const&>(source);
VERIFY(source_layer < src_image.num_layers());
VERIFY(source_level < src_image.num_levels());
VERIFY(source_offset.x() + size.x() <= src_image.level_width(source_level));
VERIFY(source_offset.y() + size.y() <= src_image.level_height(source_level));
VERIFY(source_offset.z() + size.z() <= src_image.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 (u32 z = 0; z < size.z(); ++z) {
for (u32 y = 0; y < size.y(); ++y) {
for (u32 x = 0; x < size.x(); ++x) {
auto color = src_image.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);
}
}
}
}
}
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