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Merge pull request #598 from mahkoh/jorth/tf-power

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Various color management enhancements
This commit is contained in:
mahkoh 2025-09-09 15:07:23 +02:00 committed by GitHub
commit 6ba8b71b3e
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14 changed files with 571 additions and 185 deletions
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51
src/cmm/cmm_eotf.rs
View file

@ -1,14 +1,59 @@
use linearize::Linearize; use crate::utils::ordered_float::F32;
#[derive(Copy, Clone, Debug, PartialEq, Eq, Hash, Linearize)] #[derive(Copy, Clone, Debug, PartialEq, Eq, Hash)]
pub enum Eotf { pub enum Eotf {
Linear, Linear,
St2084Pq, St2084Pq,
Bt1886, Bt1886(F32),
Gamma22, Gamma22,
Gamma24,
Gamma28, Gamma28,
St240, St240,
Log100, Log100,
Log316, Log316,
St428, St428,
Pow(EotfPow),
}
const MUL: u32 = 10_000;
const MUL_F32: f32 = MUL as f32;
#[derive(Copy, Clone, Debug, PartialEq, Eq, Hash, Ord, PartialOrd)]
pub struct EotfPow(pub u32);
impl EotfPow {
pub const MIN: Self = Self(10_000);
pub const LINEAR: Self = Self(10_000);
pub const GAMMA22: Self = Self(22_000);
pub const GAMMA24: Self = Self(24_000);
pub const GAMMA28: Self = Self(28_000);
pub const MAX: Self = Self(100_000);
pub fn eotf_f32(self) -> f32 {
self.0 as f32 / MUL_F32
}
pub fn inv_eotf_f32(self) -> f32 {
MUL_F32 / self.0 as f32
}
}
pub fn bt1886_eotf_args(c: F32) -> [f32; 4] {
let c = c.0;
let gamma = 1.0 / 2.4;
let a1 = 1.0 / (1.0 - c);
let a2 = 1.0 - c.powf(gamma);
let a3 = c.powf(gamma);
let a4 = c;
[a1, a2, a3, a4]
}
pub fn bt1886_inv_eotf_args(c: F32) -> [f32; 4] {
let c = c.0;
let gamma = 1.0 / 2.4;
let a1 = 1.0 / (1.0 - c.powf(gamma));
let a2 = 1.0 - c;
let a3 = c;
let a4 = c.powf(gamma);
[a1, a2, a3, a4]
} }

14
src/gfx_apis/vulkan/descriptor.rs
View file

@ -15,7 +15,7 @@ pub(super) struct VulkanDescriptorSetLayout {
pub(super) device: Rc<VulkanDevice>, pub(super) device: Rc<VulkanDevice>,
pub(super) layout: DescriptorSetLayout, pub(super) layout: DescriptorSetLayout,
pub(super) size: DeviceSize, pub(super) size: DeviceSize,
pub(super) offsets: ArrayVec<DeviceSize, 2>, pub(super) offsets: ArrayVec<DeviceSize, 4>,
pub(super) _sampler: Option<Rc<VulkanSampler>>, pub(super) _sampler: Option<Rc<VulkanSampler>>,
} }
@ -98,6 +98,16 @@ impl VulkanDevice {
.stage_flags(ShaderStageFlags::FRAGMENT) .stage_flags(ShaderStageFlags::FRAGMENT)
.descriptor_count(1) .descriptor_count(1)
.descriptor_type(DescriptorType::UNIFORM_BUFFER), .descriptor_type(DescriptorType::UNIFORM_BUFFER),
DescriptorSetLayoutBinding::default()
.binding(2)
.stage_flags(ShaderStageFlags::FRAGMENT)
.descriptor_count(1)
.descriptor_type(DescriptorType::UNIFORM_BUFFER),
DescriptorSetLayoutBinding::default()
.binding(3)
.stage_flags(ShaderStageFlags::FRAGMENT)
.descriptor_count(1)
.descriptor_type(DescriptorType::UNIFORM_BUFFER),
]; ];
let create_info = DescriptorSetLayoutCreateInfo::default() let create_info = DescriptorSetLayoutCreateInfo::default()
.bindings(&bindings) .bindings(&bindings)
@ -110,6 +120,8 @@ impl VulkanDevice {
unsafe { unsafe {
offsets.push(db.get_descriptor_set_layout_binding_offset(layout, 0)); offsets.push(db.get_descriptor_set_layout_binding_offset(layout, 0));
offsets.push(db.get_descriptor_set_layout_binding_offset(layout, 1)); offsets.push(db.get_descriptor_set_layout_binding_offset(layout, 1));
offsets.push(db.get_descriptor_set_layout_binding_offset(layout, 2));
offsets.push(db.get_descriptor_set_layout_binding_offset(layout, 3));
} }
Ok(Rc::new(VulkanDescriptorSetLayout { Ok(Rc::new(VulkanDescriptorSetLayout {
device: self.clone(), device: self.clone(),

74
src/gfx_apis/vulkan/eotfs.rs
View file

@ -1,31 +1,77 @@
use crate::cmm::cmm_eotf::Eotf; use {crate::cmm::cmm_eotf::Eotf, linearize::Linearize};
pub const EOTF_LINEAR: u32 = 1; pub const EOTF_LINEAR: u32 = 1;
pub const EOTF_ST2084_PQ: u32 = 2; pub const EOTF_ST2084_PQ: u32 = 2;
pub const EOTF_GAMMA24: u32 = 3; pub const EOTF_BT1886: u32 = 3;
pub const EOTF_GAMMA22: u32 = 4; pub const EOTF_GAMMA22: u32 = 4;
pub const EOTF_GAMMA28: u32 = 5; pub const EOTF_GAMMA28: u32 = 5;
pub const EOTF_ST240: u32 = 6; pub const EOTF_ST240: u32 = 6;
pub const EOTF_LOG100: u32 = 8; pub const EOTF_LOG100: u32 = 8;
pub const EOTF_LOG316: u32 = 9; pub const EOTF_LOG316: u32 = 9;
pub const EOTF_ST428: u32 = 10; pub const EOTF_ST428: u32 = 10;
pub const EOTF_POW: u32 = 11;
pub const EOTF_GAMMA24: u32 = 12;
#[derive(Copy, Clone, Debug, PartialEq, Eq, Hash, Linearize)]
pub enum VulkanEotf {
Linear,
St2084Pq,
Bt1886,
Gamma22,
Gamma24,
Gamma28,
St240,
Log100,
Log316,
St428,
Pow,
}
pub trait EotfExt: Sized { pub trait EotfExt: Sized {
fn to_vulkan(self) -> u32; fn to_vulkan(self) -> VulkanEotf;
} }
impl EotfExt for Eotf { impl EotfExt for Eotf {
fn to_vulkan(self) -> u32 { fn to_vulkan(self) -> VulkanEotf {
match self { macro_rules! map {
Eotf::Linear => EOTF_LINEAR, ($($name:ident,)*) => {
Eotf::St2084Pq => EOTF_ST2084_PQ, match self {
Eotf::Bt1886 => EOTF_GAMMA24, $(
Eotf::Gamma22 => EOTF_GAMMA22, Self::$name { .. } => VulkanEotf::$name,
Eotf::Gamma28 => EOTF_GAMMA28, )*
Eotf::St240 => EOTF_ST240, }
Eotf::Log100 => EOTF_LOG100, };
Eotf::Log316 => EOTF_LOG316, }
Eotf::St428 => EOTF_ST428, map! {
Linear,
St2084Pq,
Bt1886,
Gamma22,
Gamma24,
Gamma28,
St240,
Log100,
Log316,
St428,
Pow,
}
}
}
impl VulkanEotf {
pub fn to_vulkan(self) -> u32 {
match self {
Self::Linear => EOTF_LINEAR,
Self::St2084Pq => EOTF_ST2084_PQ,
Self::Bt1886 => EOTF_BT1886,
Self::Gamma22 => EOTF_GAMMA22,
Self::Gamma24 => EOTF_GAMMA24,
Self::Gamma28 => EOTF_GAMMA28,
Self::St240 => EOTF_ST240,
Self::Log100 => EOTF_LOG100,
Self::Log316 => EOTF_LOG316,
Self::St428 => EOTF_ST428,
Self::Pow => EOTF_POW,
} }
} }
} }

282
src/gfx_apis/vulkan/renderer.rs
View file

@ -3,7 +3,7 @@ use {
async_engine::{AsyncEngine, SpawnedFuture}, async_engine::{AsyncEngine, SpawnedFuture},
cmm::{ cmm::{
cmm_description::{ColorDescription, LinearColorDescription, LinearColorDescriptionId}, cmm_description::{ColorDescription, LinearColorDescription, LinearColorDescriptionId},
cmm_eotf::Eotf, cmm_eotf::{Eotf, EotfPow, bt1886_eotf_args, bt1886_inv_eotf_args},
cmm_transform::ColorMatrix, cmm_transform::ColorMatrix,
}, },
cpu_worker::PendingJob, cpu_worker::PendingJob,
@ -19,23 +19,26 @@ use {
descriptor::VulkanDescriptorSetLayout, descriptor::VulkanDescriptorSetLayout,
descriptor_buffer::VulkanDescriptorBufferWriter, descriptor_buffer::VulkanDescriptorBufferWriter,
device::VulkanDevice, device::VulkanDevice,
eotfs::{EOTF_LINEAR, EotfExt}, eotfs::{EOTF_LINEAR, EotfExt, VulkanEotf},
fence::VulkanFence, fence::VulkanFence,
image::{QueueFamily, QueueState, QueueTransfer, VulkanImage, VulkanImageMemory}, image::{QueueFamily, QueueState, QueueTransfer, VulkanImage, VulkanImageMemory},
pipeline::{PipelineCreateInfo, VulkanPipeline}, pipeline::{PipelineCreateInfo, VulkanPipeline},
sampler::VulkanSampler, sampler::VulkanSampler,
semaphore::VulkanSemaphore, semaphore::VulkanSemaphore,
shaders::{ shaders::{
FILL_FRAG, FILL_VERT, FillPushConstants, LEGACY_FILL_FRAG, LEGACY_FILL_VERT, ColorManagementData, EotfArgs, FILL_FRAG, FILL_VERT, FillPushConstants,
LEGACY_TEX_FRAG, LEGACY_TEX_VERT, LegacyFillPushConstants, LegacyTexPushConstants, InvEotfArgs, LEGACY_FILL_FRAG, LEGACY_FILL_VERT, LEGACY_TEX_FRAG, LEGACY_TEX_VERT,
OUT_FRAG, OUT_VERT, OutColorManagementData, OutPushConstants, TEX_FRAG, TEX_VERT, LegacyFillPushConstants, LegacyTexPushConstants, OUT_FRAG, OUT_VERT,
TexColorManagementData, TexPushConstants, TexVertex, VulkanShader, OutPushConstants, TEX_FRAG, TEX_VERT, TexPushConstants, TexVertex, VulkanShader,
}, },
}, },
io_uring::IoUring, io_uring::IoUring,
rect::{Rect, Region}, rect::{Rect, Region},
theme::Color, theme::Color,
utils::{copyhashmap::CopyHashMap, errorfmt::ErrorFmt, numcell::NumCell, stack::Stack}, utils::{
copyhashmap::CopyHashMap, errorfmt::ErrorFmt, numcell::NumCell, ordered_float::F32,
stack::Stack,
},
video::dmabuf::{DMA_BUF_SYNC_READ, DMA_BUF_SYNC_WRITE, dma_buf_export_sync_file}, video::dmabuf::{DMA_BUF_SYNC_READ, DMA_BUF_SYNC_WRITE, dma_buf_export_sync_file},
}, },
ahash::AHashMap, ahash::AHashMap,
@ -78,8 +81,9 @@ pub struct VulkanRenderer {
pub(super) formats: Rc<AHashMap<u32, GfxFormat>>, pub(super) formats: Rc<AHashMap<u32, GfxFormat>>,
pub(super) device: Rc<VulkanDevice>, pub(super) device: Rc<VulkanDevice>,
pub(super) fill_pipelines: CopyHashMap<vk::Format, FillPipelines>, pub(super) fill_pipelines: CopyHashMap<vk::Format, FillPipelines>,
pub(super) tex_pipelines: StaticMap<Eotf, CopyHashMap<vk::Format, Rc<TexPipelines>>>, pub(super) tex_pipelines: StaticMap<VulkanEotf, CopyHashMap<vk::Format, Rc<TexPipelines>>>,
pub(super) out_pipelines: StaticMap<Eotf, CopyHashMap<OutPipelineKey, Rc<VulkanPipeline>>>, pub(super) out_pipelines:
StaticMap<VulkanEotf, CopyHashMap<OutPipelineKey, Rc<VulkanPipeline>>>,
pub(super) gfx_command_buffers: CachedCommandBuffers, pub(super) gfx_command_buffers: CachedCommandBuffers,
pub(super) transfer_command_buffers: Option<CachedCommandBuffers>, pub(super) transfer_command_buffers: Option<CachedCommandBuffers>,
pub(super) wait_semaphores: Stack<Rc<VulkanSemaphore>>, pub(super) wait_semaphores: Stack<Rc<VulkanSemaphore>>,
@ -176,10 +180,16 @@ pub(super) struct Memory {
data_buffer: Vec<u8>, data_buffer: Vec<u8>,
out_address: DeviceAddress, out_address: DeviceAddress,
color_transforms: ColorTransforms, color_transforms: ColorTransforms,
eotf_args_cache: EotfArgsCache,
uniform_buffer_writer: GenericBufferWriter, uniform_buffer_writer: GenericBufferWriter,
uniform_buffer_descriptor_cache: Option<Box<[u8]>>, uniform_buffer_descriptor_cache: Option<Box<[u8]>>,
blend_buffer_inv_eotf_args_descriptor: Option<Box<[u8]>>,
fb_inv_eotf_args_descriptor: Option<Box<[u8]>>,
blend_buffer_descriptor_buffer_offset: DeviceAddress, blend_buffer_descriptor_buffer_offset: DeviceAddress,
blend_buffer_color_management_data_address: Option<DeviceSize>, blend_buffer_color_management_data_address: Option<DeviceSize>,
blend_buffer_eotf_args_address: Option<DeviceSize>,
blend_buffer_inv_eotf_args_address: Option<DeviceSize>,
fb_inv_eotf_args_address: Option<DeviceSize>,
} }
type Point = [[f32; 2]; 4]; type Point = [[f32; 2]; 4];
@ -202,6 +212,7 @@ struct VulkanTexOp {
instances: u32, instances: u32,
tex_cd: Rc<ColorDescription>, tex_cd: Rc<ColorDescription>,
color_management_data_address: Option<DeviceAddress>, color_management_data_address: Option<DeviceAddress>,
eotf_args_address: Option<DeviceAddress>,
resource_descriptor_buffer_offset: DeviceAddress, resource_descriptor_buffer_offset: DeviceAddress,
} }
@ -246,20 +257,21 @@ type FillPipelines = Rc<StaticMap<TexSourceType, Rc<VulkanPipeline>>>;
struct TexPipelineKey { struct TexPipelineKey {
tex_copy_type: TexCopyType, tex_copy_type: TexCopyType,
tex_source_type: TexSourceType, tex_source_type: TexSourceType,
eotf: Eotf, eotf: VulkanEotf,
has_color_management_data: bool, has_color_management_data: bool,
} }
pub(super) struct TexPipelines { pub(super) struct TexPipelines {
format: vk::Format, format: vk::Format,
eotf: Eotf, eotf: VulkanEotf,
pipelines: CopyHashMap<TexPipelineKey, Rc<VulkanPipeline>>, pipelines: CopyHashMap<TexPipelineKey, Rc<VulkanPipeline>>,
} }
#[derive(Copy, Clone, Debug, Eq, PartialEq, Hash)] #[derive(Copy, Clone, Debug, Eq, PartialEq, Hash)]
pub(super) struct OutPipelineKey { pub(super) struct OutPipelineKey {
format: vk::Format, format: vk::Format,
eotf: Eotf, eotf: VulkanEotf,
has_color_management_data: bool,
} }
impl VulkanDevice { impl VulkanDevice {
@ -351,7 +363,9 @@ impl VulkanDevice {
}; };
let uniform_buffer_cache = { let uniform_buffer_cache = {
let usage = BufferUsageFlags::SHADER_DEVICE_ADDRESS | BufferUsageFlags::UNIFORM_BUFFER; let usage = BufferUsageFlags::SHADER_DEVICE_ADDRESS | BufferUsageFlags::UNIFORM_BUFFER;
let align = align_of::<TexColorManagementData>() as DeviceSize; let align = align_of::<ColorManagementData>()
.max(align_of::<EotfArgs>())
.max(align_of::<InvEotfArgs>()) as DeviceSize;
VulkanBufferCache::new(self, &allocator, usage, align) VulkanBufferCache::new(self, &allocator, usage, align)
}; };
let render = Rc::new(VulkanRenderer { let render = Rc::new(VulkanRenderer {
@ -436,13 +450,14 @@ impl VulkanRenderer {
format: vk::Format, format: vk::Format,
target_cd: &ColorDescription, target_cd: &ColorDescription,
) -> Rc<TexPipelines> { ) -> Rc<TexPipelines> {
let pipelines = &self.tex_pipelines[target_cd.eotf]; let eotf = target_cd.eotf.to_vulkan();
let pipelines = &self.tex_pipelines[eotf];
match pipelines.get(&format) { match pipelines.get(&format) {
Some(pl) => pl, Some(pl) => pl,
_ => { _ => {
let pl = Rc::new(TexPipelines { let pl = Rc::new(TexPipelines {
format, format,
eotf: target_cd.eotf, eotf,
pipelines: Default::default(), pipelines: Default::default(),
}); });
pipelines.set(format, pl.clone()); pipelines.set(format, pl.clone());
@ -462,7 +477,7 @@ impl VulkanRenderer {
let key = TexPipelineKey { let key = TexPipelineKey {
tex_copy_type, tex_copy_type,
tex_source_type, tex_source_type,
eotf: tex_cd.eotf, eotf: tex_cd.eotf.to_vulkan(),
has_color_management_data, has_color_management_data,
}; };
if let Some(pl) = pipelines.pipelines.get(&key) { if let Some(pl) = pipelines.pipelines.get(&key) {
@ -507,9 +522,11 @@ impl VulkanRenderer {
) -> Result<Rc<VulkanPipeline>, VulkanError> { ) -> Result<Rc<VulkanPipeline>, VulkanError> {
let key = OutPipelineKey { let key = OutPipelineKey {
format, format,
eotf: bb_cd.eotf, eotf: bb_cd.eotf.to_vulkan(),
has_color_management_data,
}; };
let pipelines = &self.out_pipelines[fb_cd.eotf]; let fb_eotf = fb_cd.eotf.to_vulkan();
let pipelines = &self.out_pipelines[fb_eotf];
if let Some(pl) = pipelines.get(&key) { if let Some(pl) = pipelines.get(&key) {
return Ok(pl); return Ok(pl);
} }
@ -525,7 +542,7 @@ impl VulkanRenderer {
src_has_alpha: true, src_has_alpha: true,
has_alpha_mult: false, has_alpha_mult: false,
eotf: key.eotf.to_vulkan(), eotf: key.eotf.to_vulkan(),
inv_eotf: fb_cd.eotf.to_vulkan(), inv_eotf: fb_eotf.to_vulkan(),
descriptor_set_layouts, descriptor_set_layouts,
has_color_management_data, has_color_management_data,
})?; })?;
@ -558,33 +575,73 @@ impl VulkanRenderer {
} }
let resource_writer = &mut memory.resource_descriptor_buffer_writer; let resource_writer = &mut memory.resource_descriptor_buffer_writer;
resource_writer.clear(); resource_writer.clear();
let uniform_buffer_descriptor_cache = memory macro_rules! ub_descriptor_cache {
.uniform_buffer_descriptor_cache ($field:ident) => {
.get_or_insert_with(|| { memory.$field.get_or_insert_with(|| {
vec![0u8; self.device.uniform_buffer_descriptor_size].into_boxed_slice() vec![0u8; self.device.uniform_buffer_descriptor_size].into_boxed_slice()
}); })
if let Some(bb) = bb { };
let layout = self.out_descriptor_set_layout.as_ref().unwrap(); }
memory.blend_buffer_descriptor_buffer_offset = resource_writer.next_offset(); let uniform_buffer_descriptor_cache = ub_descriptor_cache!(uniform_buffer_descriptor_cache);
let mut writer = resource_writer.add_set(layout); macro_rules! get_ub_descriptor {
writer.write(layout.offsets[0], &bb.sampled_image_descriptor); ($addr:expr, $ty:ty, $descriptor:expr $(,)?) => {{
if let Some(addr) = memory.blend_buffer_color_management_data_address {
let uniform_buffer = DescriptorAddressInfoEXT::default() let uniform_buffer = DescriptorAddressInfoEXT::default()
.address(addr) .address($addr)
.range(size_of::<OutColorManagementData>() as _); .range(size_of::<$ty>() as _);
let info = DescriptorGetInfoEXT::default() let info = DescriptorGetInfoEXT::default()
.ty(DescriptorType::UNIFORM_BUFFER) .ty(DescriptorType::UNIFORM_BUFFER)
.data(DescriptorDataEXT { .data(DescriptorDataEXT {
p_uniform_buffer: &uniform_buffer, p_uniform_buffer: &uniform_buffer,
}); });
unsafe { unsafe {
db.get_descriptor(&info, uniform_buffer_descriptor_cache); db.get_descriptor(&info, $descriptor);
} }
writer.write(layout.offsets[1], uniform_buffer_descriptor_cache); &*$descriptor
}};
($addr:expr, $ty:ty $(,)?) => {
get_ub_descriptor!($addr, $ty, uniform_buffer_descriptor_cache)
};
}
let mut blend_buffer_inv_eotf_args_descriptor = None;
if let Some(addr) = memory.blend_buffer_inv_eotf_args_address {
blend_buffer_inv_eotf_args_descriptor = Some(get_ub_descriptor!(
addr,
InvEotfArgs,
ub_descriptor_cache!(blend_buffer_inv_eotf_args_descriptor),
));
}
let mut fb_inv_eotf_args_descriptor = None;
if let Some(addr) = memory.fb_inv_eotf_args_address {
fb_inv_eotf_args_descriptor = Some(get_ub_descriptor!(
addr,
InvEotfArgs,
ub_descriptor_cache!(fb_inv_eotf_args_descriptor),
));
}
if let Some(bb) = bb {
let layout = self.out_descriptor_set_layout.as_ref().unwrap();
memory.blend_buffer_descriptor_buffer_offset = resource_writer.next_offset();
let mut writer = resource_writer.add_set(layout);
writer.write(layout.offsets[0], &bb.sampled_image_descriptor);
if let Some(addr) = memory.blend_buffer_color_management_data_address {
writer.write(
layout.offsets[1],
get_ub_descriptor!(addr, ColorManagementData),
);
}
if let Some(addr) = memory.blend_buffer_eotf_args_address {
writer.write(layout.offsets[2], get_ub_descriptor!(addr, EotfArgs));
}
if let Some(desc) = fb_inv_eotf_args_descriptor {
writer.write(layout.offsets[3], desc);
} }
} }
let tex_descriptor_set_layout = &self.tex_descriptor_set_layouts[1]; let tex_descriptor_set_layout = &self.tex_descriptor_set_layouts[1];
for pass in RenderPass::variants() { for pass in RenderPass::variants() {
let inv_eotf_desc = match pass {
RenderPass::BlendBuffer => blend_buffer_inv_eotf_args_descriptor,
RenderPass::FrameBuffer => fb_inv_eotf_args_descriptor,
};
for cmd in &mut memory.ops[pass] { for cmd in &mut memory.ops[pass] {
let VulkanOp::Tex(c) = cmd else { let VulkanOp::Tex(c) = cmd else {
continue; continue;
@ -597,22 +654,20 @@ impl VulkanRenderer {
&tex.sampled_image_descriptor, &tex.sampled_image_descriptor,
); );
if let Some(addr) = c.color_management_data_address { if let Some(addr) = c.color_management_data_address {
let uniform_buffer = DescriptorAddressInfoEXT::default()
.address(addr)
.range(size_of::<TexColorManagementData>() as _);
let info = DescriptorGetInfoEXT::default()
.ty(DescriptorType::UNIFORM_BUFFER)
.data(DescriptorDataEXT {
p_uniform_buffer: &uniform_buffer,
});
unsafe {
db.get_descriptor(&info, uniform_buffer_descriptor_cache);
}
writer.write( writer.write(
tex_descriptor_set_layout.offsets[1], tex_descriptor_set_layout.offsets[1],
uniform_buffer_descriptor_cache, get_ub_descriptor!(addr, ColorManagementData),
); );
} }
if let Some(addr) = c.eotf_args_address {
writer.write(
tex_descriptor_set_layout.offsets[2],
get_ub_descriptor!(addr, EotfArgs),
);
}
if let Some(desc) = inv_eotf_desc {
writer.write(tex_descriptor_set_layout.offsets[3], desc);
}
} }
} }
let mut infos = ArrayVec::<_, 2>::new(); let mut infos = ArrayVec::<_, 2>::new();
@ -655,6 +710,7 @@ impl VulkanRenderer {
memory.data_buffer.clear(); memory.data_buffer.clear();
memory.uniform_buffer_writer.clear(); memory.uniform_buffer_writer.clear();
memory.color_transforms.map.clear(); memory.color_transforms.map.clear();
memory.eotf_args_cache.map.clear();
let sync = |memory: &mut Memory| { let sync = |memory: &mut Memory| {
for pass in RenderPass::variants() { for pass in RenderPass::variants() {
let ops = &mut memory.ops_tmp[pass]; let ops = &mut memory.ops_tmp[pass];
@ -809,6 +865,12 @@ impl VulkanRenderer {
self.device.uniform_buffer_offset_mask, self.device.uniform_buffer_offset_mask,
&mut memory.uniform_buffer_writer, &mut memory.uniform_buffer_writer,
); );
let eotf_args_address = memory.eotf_args_cache.get_offset(
&ct.cd,
false,
self.device.uniform_buffer_offset_mask,
&mut memory.uniform_buffer_writer,
);
ops.push(VulkanOp::Tex(VulkanTexOp { ops.push(VulkanOp::Tex(VulkanTexOp {
tex: tex.clone(), tex: tex.clone(),
range: lo..hi, range: lo..hi,
@ -822,6 +884,7 @@ impl VulkanRenderer {
instances: 0, instances: 0,
tex_cd: ct.cd.clone(), tex_cd: ct.cd.clone(),
color_management_data_address, color_management_data_address,
eotf_args_address,
resource_descriptor_buffer_offset: 0, resource_descriptor_buffer_offset: 0,
})); }));
} }
@ -832,21 +895,41 @@ impl VulkanRenderer {
Ok(()) Ok(())
} }
fn create_blend_cm_data( fn create_fixed_cm_data(
&self, &self,
bb: Option<&VulkanImage>, bb: Option<&VulkanImage>,
bb_cd: &ColorDescription, bb_cd: &ColorDescription,
fb_cd: &ColorDescription, fb_cd: &ColorDescription,
) { ) {
zone!("create_blend_cm_data"); zone!("create_fixed_cm_data");
let memory = &mut *self.memory.borrow_mut(); let memory = &mut *self.memory.borrow_mut();
memory.blend_buffer_color_management_data_address = None; memory.blend_buffer_color_management_data_address = None;
if bb.is_none() { memory.blend_buffer_eotf_args_address = None;
return; memory.blend_buffer_inv_eotf_args_address = None;
memory.fb_inv_eotf_args_address = None;
if bb.is_some() {
memory.blend_buffer_color_management_data_address = memory.color_transforms.get_offset(
&bb_cd.linear,
fb_cd,
self.device.uniform_buffer_offset_mask,
&mut memory.uniform_buffer_writer,
);
memory.blend_buffer_eotf_args_address = memory.eotf_args_cache.get_offset(
bb_cd,
false,
self.device.uniform_buffer_offset_mask,
&mut memory.uniform_buffer_writer,
);
memory.blend_buffer_inv_eotf_args_address = memory.eotf_args_cache.get_offset(
bb_cd,
true,
self.device.uniform_buffer_offset_mask,
&mut memory.uniform_buffer_writer,
);
} }
memory.blend_buffer_color_management_data_address = memory.color_transforms.get_offset( memory.fb_inv_eotf_args_address = memory.eotf_args_cache.get_offset(
&bb_cd.linear,
fb_cd, fb_cd,
true,
self.device.uniform_buffer_offset_mask, self.device.uniform_buffer_offset_mask,
&mut memory.uniform_buffer_writer, &mut memory.uniform_buffer_writer,
); );
@ -908,18 +991,25 @@ impl VulkanRenderer {
buffer.buffer.allocation.upload(|ptr, _| unsafe { buffer.buffer.allocation.upload(|ptr, _| unsafe {
ptr::copy_nonoverlapping(buf.as_ptr(), ptr, buf.len()); ptr::copy_nonoverlapping(buf.as_ptr(), ptr, buf.len());
})?; })?;
macro_rules! adj {
($expr:expr) => {
if let Some(addr) = $expr {
*addr += buffer.buffer.address;
}
};
}
for ops in memory.ops.values_mut() { for ops in memory.ops.values_mut() {
for op in ops { for op in ops {
if let VulkanOp::Tex(c) = op if let VulkanOp::Tex(c) = op {
&& let Some(addr) = &mut c.color_management_data_address adj!(&mut c.color_management_data_address);
{ adj!(&mut c.eotf_args_address);
*addr += buffer.buffer.address;
} }
} }
} }
if let Some(addr) = &mut memory.blend_buffer_color_management_data_address { adj!(&mut memory.blend_buffer_color_management_data_address);
*addr += buffer.buffer.address; adj!(&mut memory.blend_buffer_eotf_args_address);
} adj!(&mut memory.blend_buffer_inv_eotf_args_address);
adj!(&mut memory.fb_inv_eotf_args_address);
memory.used_buffers.push(buffer); memory.used_buffers.push(buffer);
Ok(()) Ok(())
} }
@ -1938,7 +2028,7 @@ impl VulkanRenderer {
let bb = blend_buffer.as_deref(); let bb = blend_buffer.as_deref();
let buf = self.gfx_command_buffers.allocate()?; let buf = self.gfx_command_buffers.allocate()?;
self.convert_ops(opts, bb_cd, fb_cd)?; self.convert_ops(opts, bb_cd, fb_cd)?;
self.create_blend_cm_data(bb, bb_cd, fb_cd); self.create_fixed_cm_data(bb, bb_cd, fb_cd);
self.create_data_buffer()?; self.create_data_buffer()?;
self.create_uniform_buffer()?; self.create_uniform_buffer()?;
self.collect_memory(); self.collect_memory();
@ -2229,7 +2319,7 @@ impl ColorTransforms {
) -> Option<DeviceSize> { ) -> Option<DeviceSize> {
let ct = self.get_or_create(src, dst)?; let ct = self.get_or_create(src, dst)?;
if ct.offset.is_none() { if ct.offset.is_none() {
let data = TexColorManagementData { let data = ColorManagementData {
matrix: ct.matrix.to_f32(), matrix: ct.matrix.to_f32(),
}; };
let offset = writer.write(uniform_buffer_offset_mask, &data); let offset = writer.write(uniform_buffer_offset_mask, &data);
@ -2238,3 +2328,73 @@ impl ColorTransforms {
ct.offset ct.offset
} }
} }
#[derive(Default)]
struct EotfArgsCache {
map: AHashMap<(EotfCacheKey, bool), EotfArg>,
}
#[derive(Copy, Clone, Debug, Eq, PartialEq, Hash)]
enum EotfCacheKey {
Pow(EotfPow),
Bt1886(F32),
}
struct EotfArg {
offset: DeviceSize,
}
impl EotfArgsCache {
fn get_offset(
&mut self,
desc: &ColorDescription,
inv: bool,
uniform_buffer_offset_mask: DeviceSize,
writer: &mut GenericBufferWriter,
) -> Option<DeviceSize> {
let key = match desc.eotf {
Eotf::Bt1886(c) => EotfCacheKey::Bt1886(c),
Eotf::Pow(pow) => EotfCacheKey::Pow(pow),
_ => return None,
};
let ct = match self.map.entry((key, inv)) {
Entry::Occupied(o) => o.into_mut(),
Entry::Vacant(e) => {
#[expect(unused_assignments)]
let [mut arg1, mut arg2, mut arg3, mut arg4] = [0.0; 4];
if inv {
match key {
EotfCacheKey::Pow(pow) => arg1 = pow.inv_eotf_f32(),
EotfCacheKey::Bt1886(c) => {
[arg1, arg2, arg3, arg4] = bt1886_inv_eotf_args(c);
}
}
let data = InvEotfArgs {
arg1,
arg2,
arg3,
arg4,
};
let offset = writer.write(uniform_buffer_offset_mask, &data);
e.insert(EotfArg { offset })
} else {
match key {
EotfCacheKey::Pow(pow) => arg1 = pow.eotf_f32(),
EotfCacheKey::Bt1886(c) => {
[arg1, arg2, arg3, arg4] = bt1886_eotf_args(c);
}
}
let data = EotfArgs {
arg1,
arg2,
arg3,
arg4,
};
let offset = writer.write(uniform_buffer_offset_mask, &data);
e.insert(EotfArg { offset })
}
}
};
Some(ct.offset)
}
}

24
src/gfx_apis/vulkan/shaders.rs
View file

@ -63,19 +63,33 @@ unsafe impl Packed for TexPushConstants {}
#[derive(Copy, Clone, Debug)] #[derive(Copy, Clone, Debug)]
#[repr(C, align(16))] #[repr(C, align(16))]
pub struct TexColorManagementData { pub struct ColorManagementData {
pub matrix: [[f32; 4]; 4], pub matrix: [[f32; 4]; 4],
} }
unsafe impl Packed for TexColorManagementData {} unsafe impl Packed for ColorManagementData {}
#[derive(Copy, Clone, Debug)] #[derive(Copy, Clone, Debug)]
#[repr(C, align(16))] #[repr(C, align(16))]
pub struct OutColorManagementData { pub struct EotfArgs {
pub matrix: [[f32; 4]; 4], pub arg1: f32,
pub arg2: f32,
pub arg3: f32,
pub arg4: f32,
} }
unsafe impl Packed for OutColorManagementData {} unsafe impl Packed for EotfArgs {}
#[derive(Copy, Clone, Debug)]
#[repr(C, align(16))]
pub struct InvEotfArgs {
pub arg1: f32,
pub arg2: f32,
pub arg3: f32,
pub arg4: f32,
}
unsafe impl Packed for InvEotfArgs {}
#[derive(Copy, Clone, Debug)] #[derive(Copy, Clone, Debug)]
#[repr(C)] #[repr(C)]

31
src/gfx_apis/vulkan/shaders/eotfs.glsl
View file

@ -2,16 +2,37 @@
#define EOTFS_GLSL #define EOTFS_GLSL
#include "frag_spec_const.glsl" #include "frag_spec_const.glsl"
#include "tex_set.glsl"
#define TF_LINEAR 1 #define TF_LINEAR 1
#define TF_ST2084_PQ 2 #define TF_ST2084_PQ 2
#define TF_GAMMA24 3 #define TF_BT1886 3
#define TF_GAMMA22 4 #define TF_GAMMA22 4
#define TF_GAMMA28 5 #define TF_GAMMA28 5
#define TF_ST240 6 #define TF_ST240 6
#define TF_LOG100 8 #define TF_LOG100 8
#define TF_LOG316 9 #define TF_LOG316 9
#define TF_ST428 10 #define TF_ST428 10
#define TF_POW 11
#define TF_GAMMA24 12
vec3 eotf_bt1886(vec3 c) {
c = clamp(c, 0.0, 1.0);
float a1 = cm_eotf_args.arg1;
float a2 = cm_eotf_args.arg2;
float a3 = cm_eotf_args.arg3;
float a4 = cm_eotf_args.arg4;
return a1 * (pow(a2 * c + a3, vec3(2.4)) - a4);
}
vec3 inv_eotf_bt1886(vec3 c) {
c = clamp(c, 0.0, 1.0);
float a1 = cm_inv_eotf_args.arg1;
float a2 = cm_inv_eotf_args.arg2;
float a3 = cm_inv_eotf_args.arg3;
float a4 = cm_inv_eotf_args.arg4;
return a1 * (pow(a2 * c + a3, vec3(1.0 / 2.4)) - a4);
}
vec3 eotf_st2084_pq(vec3 c) { vec3 eotf_st2084_pq(vec3 c) {
c = clamp(c, 0.0, 1.0); c = clamp(c, 0.0, 1.0);
@ -84,13 +105,15 @@ vec3 apply_eotf(vec3 c) {
switch (eotf) { switch (eotf) {
case TF_LINEAR: return c; case TF_LINEAR: return c;
case TF_ST2084_PQ: return eotf_st2084_pq(c); case TF_ST2084_PQ: return eotf_st2084_pq(c);
case TF_GAMMA24: return sign(c) * pow(abs(c), vec3(2.4)); case TF_BT1886: return eotf_bt1886(c);
case TF_GAMMA22: return sign(c) * pow(abs(c), vec3(2.2)); case TF_GAMMA22: return sign(c) * pow(abs(c), vec3(2.2));
case TF_GAMMA24: return sign(c) * pow(abs(c), vec3(2.4));
case TF_GAMMA28: return sign(c) * pow(abs(c), vec3(2.8)); case TF_GAMMA28: return sign(c) * pow(abs(c), vec3(2.8));
case TF_ST240: return eotf_st240(c); case TF_ST240: return eotf_st240(c);
case TF_LOG100: return eotf_log100(c); case TF_LOG100: return eotf_log100(c);
case TF_LOG316: return eotf_log316(c); case TF_LOG316: return eotf_log316(c);
case TF_ST428: return eotf_st428(c); case TF_ST428: return eotf_st428(c);
case TF_POW: return sign(c) * pow(abs(c), vec3(cm_eotf_args.arg1));
default: return c; default: return c;
} }
} }
@ -99,13 +122,15 @@ vec3 apply_inv_eotf(vec3 c) {
switch (inv_eotf) { switch (inv_eotf) {
case TF_LINEAR: return c; case TF_LINEAR: return c;
case TF_ST2084_PQ: return inv_eotf_st2084_pq(c); case TF_ST2084_PQ: return inv_eotf_st2084_pq(c);
case TF_GAMMA24: return sign(c) * pow(abs(c), vec3(1.0 / 2.4)); case TF_BT1886: return inv_eotf_bt1886(c);
case TF_GAMMA22: return sign(c) * pow(abs(c), vec3(1.0 / 2.2)); case TF_GAMMA22: return sign(c) * pow(abs(c), vec3(1.0 / 2.2));
case TF_GAMMA24: return sign(c) * pow(abs(c), vec3(1.0 / 2.4));
case TF_GAMMA28: return sign(c) * pow(abs(c), vec3(1.0 / 2.8)); case TF_GAMMA28: return sign(c) * pow(abs(c), vec3(1.0 / 2.8));
case TF_ST240: return inv_eotf_st240(c); case TF_ST240: return inv_eotf_st240(c);
case TF_LOG100: return inv_eotf_log100(c); case TF_LOG100: return inv_eotf_log100(c);
case TF_LOG316: return inv_eotf_log316(c); case TF_LOG316: return inv_eotf_log316(c);
case TF_ST428: return inv_eotf_st428(c); case TF_ST428: return inv_eotf_st428(c);
case TF_POW: return sign(c) * pow(abs(c), vec3(cm_inv_eotf_args.arg1));
default: return c; default: return c;
} }
} }

15
src/gfx_apis/vulkan/shaders/out.frag
View file

@ -3,18 +3,17 @@
#extension GL_EXT_samplerless_texture_functions : require #extension GL_EXT_samplerless_texture_functions : require
#extension GL_EXT_scalar_block_layout : require #extension GL_EXT_scalar_block_layout : require
#include "frag_spec_const.glsl" #define TEX_SET 0
#include "eotfs.glsl"
#include "out.common.glsl" #include "frag_spec_const.glsl"
#include "out.common.glsl"
#include "tex_set.glsl"
#include "eotfs.glsl"
layout(set = 0, binding = 0) uniform texture2D in_color;
layout(set = 0, binding = 1, row_major, std430) uniform ColorManagementData {
mat4x4 matrix;
} cm_data;
layout(location = 0) out vec4 out_color; layout(location = 0) out vec4 out_color;
void main() { void main() {
vec4 c = texelFetch(in_color, ivec2(gl_FragCoord.xy), 0); vec4 c = texelFetch(tex, ivec2(gl_FragCoord.xy), 0);
if (eotf != inv_eotf || has_matrix) { if (eotf != inv_eotf || has_matrix) {
vec3 rgb = c.rgb; vec3 rgb = c.rgb;
rgb /= mix(c.a, 1.0, c.a == 0.0); rgb /= mix(c.a, 1.0, c.a == 0.0);

9
src/gfx_apis/vulkan/shaders/tex.frag
View file

@ -2,15 +2,14 @@
#extension GL_EXT_scalar_block_layout : require #extension GL_EXT_scalar_block_layout : require
#define TEX_SET 1
#include "frag_spec_const.glsl" #include "frag_spec_const.glsl"
#include "eotfs.glsl"
#include "tex.common.glsl" #include "tex.common.glsl"
#include "tex_set.glsl"
#include "eotfs.glsl"
layout(set = 0, binding = 0) uniform sampler sam; layout(set = 0, binding = 0) uniform sampler sam;
layout(set = 1, binding = 0) uniform texture2D tex;
layout(set = 1, binding = 1, row_major, std430) uniform ColorManagementData {
mat4x4 matrix;
} cm_data;
layout(location = 0) in vec2 tex_pos; layout(location = 0) in vec2 tex_pos;
layout(location = 0) out vec4 out_color; layout(location = 0) out vec4 out_color;

21
src/gfx_apis/vulkan/shaders/tex_set.glsl Normal file
View file

@ -0,0 +1,21 @@
#ifndef TEX_SET_GLSL
#define TEX_SET_GLSL
layout(set = TEX_SET, binding = 0) uniform texture2D tex;
layout(set = TEX_SET, binding = 1, row_major, std430) uniform ColorManagementData {
mat4x4 matrix;
} cm_data;
layout(set = TEX_SET, binding = 2, row_major, std430) uniform EotfArgs {
float arg1;
float arg2;
float arg3;
float arg4;
} cm_eotf_args;
layout(set = TEX_SET, binding = 3, row_major, std430) uniform InvEotfArgs {
float arg1;
float arg2;
float arg3;
float arg4;
} cm_inv_eotf_args;
#endif

2
src/ifs/color_management/wp_color_manager_v1.rs
View file

@ -5,6 +5,7 @@ use {
ifs::{ ifs::{
color_management::{ color_management::{
FEATURE_EXTENDED_TARGET_VOLUME, FEATURE_SET_MASTERING_DISPLAY_PRIMARIES, FEATURE_EXTENDED_TARGET_VOLUME, FEATURE_SET_MASTERING_DISPLAY_PRIMARIES,
FEATURE_SET_TF_POWER,
consts::{ consts::{
FEATURE_PARAMETRIC, FEATURE_SET_LUMINANCES, FEATURE_SET_PRIMARIES, FEATURE_PARAMETRIC, FEATURE_SET_LUMINANCES, FEATURE_SET_PRIMARIES,
FEATURE_WINDOWS_SCRGB, PRIMARIES_ADOBE_RGB, PRIMARIES_BT2020, FEATURE_WINDOWS_SCRGB, PRIMARIES_ADOBE_RGB, PRIMARIES_BT2020,
@ -79,6 +80,7 @@ impl WpColorManagerV1 {
self.send_supported_feature(FEATURE_SET_PRIMARIES); self.send_supported_feature(FEATURE_SET_PRIMARIES);
self.send_supported_feature(FEATURE_SET_LUMINANCES); self.send_supported_feature(FEATURE_SET_LUMINANCES);
self.send_supported_feature(FEATURE_SET_MASTERING_DISPLAY_PRIMARIES); self.send_supported_feature(FEATURE_SET_MASTERING_DISPLAY_PRIMARIES);
self.send_supported_feature(FEATURE_SET_TF_POWER);
self.send_supported_feature(FEATURE_EXTENDED_TARGET_VOLUME); self.send_supported_feature(FEATURE_EXTENDED_TARGET_VOLUME);
self.send_supported_feature(FEATURE_WINDOWS_SCRGB); self.send_supported_feature(FEATURE_WINDOWS_SCRGB);
self.send_supported_tf_named(TRANSFER_FUNCTION_BT1886); self.send_supported_tf_named(TRANSFER_FUNCTION_BT1886);

38
src/ifs/color_management/wp_image_description_creator_params_v1.rs
View file

@ -2,7 +2,7 @@ use {
crate::{ crate::{
client::{Client, ClientError}, client::{Client, ClientError},
cmm::{ cmm::{
cmm_eotf::Eotf, cmm_eotf::{Eotf, EotfPow},
cmm_luminance::{Luminance, TargetLuminance}, cmm_luminance::{Luminance, TargetLuminance},
cmm_primaries::{NamedPrimaries, Primaries}, cmm_primaries::{NamedPrimaries, Primaries},
}, },
@ -21,7 +21,7 @@ use {
}, },
leaks::Tracker, leaks::Tracker,
object::{Object, Version}, object::{Object, Version},
utils::ordered_float::F64, utils::ordered_float::{F32, F64},
wire::{ wire::{
WpImageDescriptionCreatorParamsV1Id, WpImageDescriptionCreatorParamsV1Id,
wp_image_description_creator_params_v1::{ wp_image_description_creator_params_v1::{
@ -53,14 +53,14 @@ impl WpImageDescriptionCreatorParamsV1RequestHandler for WpImageDescriptionCreat
type Error = WpImageDescriptionCreatorParamsV1Error; type Error = WpImageDescriptionCreatorParamsV1Error;
fn create(&self, req: Create, _slf: &Rc<Self>) -> Result<(), Self::Error> { fn create(&self, req: Create, _slf: &Rc<Self>) -> Result<(), Self::Error> {
let Some(eotf) = self.tf.get() else { let Some(mut eotf) = self.tf.get() else {
return Err(WpImageDescriptionCreatorParamsV1Error::TfNotSet); return Err(WpImageDescriptionCreatorParamsV1Error::TfNotSet);
}; };
let Some((named_primaries, primaries)) = self.primaries.get() else { let Some((named_primaries, primaries)) = self.primaries.get() else {
return Err(WpImageDescriptionCreatorParamsV1Error::PrimariesNotSet); return Err(WpImageDescriptionCreatorParamsV1Error::PrimariesNotSet);
}; };
let default_luminance = match eotf { let default_luminance = match eotf {
Eotf::Bt1886 => Luminance::BT1886, Eotf::Bt1886 { .. } => Luminance::BT1886,
Eotf::St2084Pq => Luminance::ST2084_PQ, Eotf::St2084Pq => Luminance::ST2084_PQ,
_ => Luminance::SRGB, _ => Luminance::SRGB,
}; };
@ -71,6 +71,13 @@ impl WpImageDescriptionCreatorParamsV1RequestHandler for WpImageDescriptionCreat
if luminance.max.0 <= luminance.min.0 || luminance.white.0 <= luminance.min.0 { if luminance.max.0 <= luminance.min.0 || luminance.white.0 <= luminance.min.0 {
return Err(WpImageDescriptionCreatorParamsV1Error::MinLuminanceTooLow); return Err(WpImageDescriptionCreatorParamsV1Error::MinLuminanceTooLow);
} }
if let Eotf::Bt1886(c) = &mut eotf {
if luminance.min.0 == 0.0 {
eotf = Eotf::Gamma24;
} else {
c.0 = (luminance.min.0 / luminance.max.0) as f32;
}
}
let target_primaries = self.mastering_primaries.get().unwrap_or(primaries); let target_primaries = self.mastering_primaries.get().unwrap_or(primaries);
let target_luminance = self let target_luminance = self
.mastering_luminance .mastering_luminance
@ -102,7 +109,7 @@ impl WpImageDescriptionCreatorParamsV1RequestHandler for WpImageDescriptionCreat
fn set_tf_named(&self, req: SetTfNamed, _slf: &Rc<Self>) -> Result<(), Self::Error> { fn set_tf_named(&self, req: SetTfNamed, _slf: &Rc<Self>) -> Result<(), Self::Error> {
let tf = match req.tf { let tf = match req.tf {
TRANSFER_FUNCTION_BT1886 => Eotf::Bt1886, TRANSFER_FUNCTION_BT1886 => Eotf::Bt1886(F32(0.0)),
TRANSFER_FUNCTION_GAMMA22 => Eotf::Gamma22, TRANSFER_FUNCTION_GAMMA22 => Eotf::Gamma22,
TRANSFER_FUNCTION_GAMMA28 => Eotf::Gamma28, TRANSFER_FUNCTION_GAMMA28 => Eotf::Gamma28,
TRANSFER_FUNCTION_ST240 => Eotf::St240, TRANSFER_FUNCTION_ST240 => Eotf::St240,
@ -125,8 +132,21 @@ impl WpImageDescriptionCreatorParamsV1RequestHandler for WpImageDescriptionCreat
Ok(()) Ok(())
} }
fn set_tf_power(&self, _req: SetTfPower, _slf: &Rc<Self>) -> Result<(), Self::Error> { fn set_tf_power(&self, req: SetTfPower, _slf: &Rc<Self>) -> Result<(), Self::Error> {
Err(WpImageDescriptionCreatorParamsV1Error::SetTfPowerNotSupported) let pow = EotfPow(req.eexp);
if pow < EotfPow::MIN || pow > EotfPow::MAX {
return Err(WpImageDescriptionCreatorParamsV1Error::SetTfPowerOutOfBounds);
}
let tf = match pow {
EotfPow::LINEAR => Eotf::Linear,
EotfPow::GAMMA22 => Eotf::Gamma22,
EotfPow::GAMMA28 => Eotf::Gamma28,
_ => Eotf::Pow(pow),
};
if self.tf.replace(Some(tf)).is_some() {
return Err(WpImageDescriptionCreatorParamsV1Error::TfAlreadySet);
}
Ok(())
} }
fn set_primaries_named( fn set_primaries_named(
@ -259,8 +279,8 @@ pub enum WpImageDescriptionCreatorParamsV1Error {
ClientError(Box<ClientError>), ClientError(Box<ClientError>),
#[error("{} is not a supported named primary", .0)] #[error("{} is not a supported named primary", .0)]
UnsupportedPrimaries(u32), UnsupportedPrimaries(u32),
#[error("set_tf_power is not supported")] #[error("The exponent is out of bounds")]
SetTfPowerNotSupported, SetTfPowerOutOfBounds,
#[error("{} is not a supported named EOTF", .0)] #[error("{} is not a supported named EOTF", .0)]
UnsupportedTf(u32), UnsupportedTf(u32),
#[error("The EOTF has already been set")] #[error("The EOTF has already been set")]

45
src/ifs/color_management/wp_image_description_info_v1.rs
View file

@ -1,7 +1,11 @@
use { use {
crate::{ crate::{
client::Client, client::Client,
cmm::{cmm_description::ColorDescription, cmm_eotf::Eotf, cmm_primaries::NamedPrimaries}, cmm::{
cmm_description::ColorDescription,
cmm_eotf::{Eotf, EotfPow},
cmm_primaries::NamedPrimaries,
},
ifs::color_management::{ ifs::color_management::{
MIN_LUM_MUL, PRIMARIES_ADOBE_RGB, PRIMARIES_BT2020, PRIMARIES_CIE1931_XYZ, MIN_LUM_MUL, PRIMARIES_ADOBE_RGB, PRIMARIES_BT2020, PRIMARIES_CIE1931_XYZ,
PRIMARIES_DCI_P3, PRIMARIES_DISPLAY_P3, PRIMARIES_GENERIC_FILM, PRIMARIES_MUL, PRIMARIES_DCI_P3, PRIMARIES_DISPLAY_P3, PRIMARIES_GENERIC_FILM, PRIMARIES_MUL,
@ -28,17 +32,28 @@ pub struct WpImageDescriptionInfoV1 {
impl WpImageDescriptionInfoV1 { impl WpImageDescriptionInfoV1 {
pub fn send_description(&self, d: &ColorDescription) { pub fn send_description(&self, d: &ColorDescription) {
let tf = match d.eotf { 'tf: {
Eotf::Linear => TRANSFER_FUNCTION_EXT_LINEAR, let tf = match d.eotf {
Eotf::St2084Pq => TRANSFER_FUNCTION_ST2084_PQ, Eotf::Linear => TRANSFER_FUNCTION_EXT_LINEAR,
Eotf::Bt1886 => TRANSFER_FUNCTION_BT1886, Eotf::St2084Pq => TRANSFER_FUNCTION_ST2084_PQ,
Eotf::Gamma22 => TRANSFER_FUNCTION_GAMMA22, Eotf::Bt1886 { .. } => TRANSFER_FUNCTION_BT1886,
Eotf::Gamma28 => TRANSFER_FUNCTION_GAMMA28, Eotf::Gamma22 => TRANSFER_FUNCTION_GAMMA22,
Eotf::St240 => TRANSFER_FUNCTION_ST240, Eotf::Gamma24 => {
Eotf::Log100 => TRANSFER_FUNCTION_LOG_100, self.send_tf_power(EotfPow::GAMMA24);
Eotf::Log316 => TRANSFER_FUNCTION_LOG_316, break 'tf;
Eotf::St428 => TRANSFER_FUNCTION_ST428, }
}; Eotf::Gamma28 => TRANSFER_FUNCTION_GAMMA28,
Eotf::St240 => TRANSFER_FUNCTION_ST240,
Eotf::Log100 => TRANSFER_FUNCTION_LOG_100,
Eotf::Log316 => TRANSFER_FUNCTION_LOG_316,
Eotf::St428 => TRANSFER_FUNCTION_ST428,
Eotf::Pow(e) => {
self.send_tf_power(e);
break 'tf;
}
};
self.send_tf_named(tf);
}
self.send_primaries(&d.linear.primaries); self.send_primaries(&d.linear.primaries);
if let Some(n) = d.named_primaries { if let Some(n) = d.named_primaries {
let n = match n { let n = match n {
@ -55,7 +70,6 @@ impl WpImageDescriptionInfoV1 {
}; };
self.send_primaries_named(n); self.send_primaries_named(n);
} }
self.send_tf_named(tf);
self.send_luminances(&d.linear.luminance); self.send_luminances(&d.linear.luminance);
self.send_target_primaries(&d.linear.target_primaries); self.send_target_primaries(&d.linear.target_primaries);
self.send_target_luminances(&d.linear.target_luminance); self.send_target_luminances(&d.linear.target_luminance);
@ -103,11 +117,10 @@ impl WpImageDescriptionInfoV1 {
}); });
} }
#[expect(dead_code)] pub fn send_tf_power(&self, e: EotfPow) {
pub fn send_tf_power(&self, eexp: f64) {
self.client.event(TfPower { self.client.event(TfPower {
self_id: self.id, self_id: self.id,
eexp: (eexp * 10_000.0) as u32, eexp: e.0,
}); });
} }

29
src/theme.rs
View file

@ -1,7 +1,10 @@
#![expect(clippy::excessive_precision)] #![expect(clippy::excessive_precision)]
use { use {
crate::{cmm::cmm_eotf::Eotf, utils::clonecell::CloneCell}, crate::{
cmm::cmm_eotf::{Eotf, bt1886_eotf_args, bt1886_inv_eotf_args},
utils::clonecell::CloneCell,
},
num_traits::Float, num_traits::Float,
std::{cell::Cell, cmp::Ordering, ops::Mul, sync::Arc}, std::{cell::Cell, cmp::Ordering, ops::Mul, sync::Arc},
}; };
@ -114,13 +117,23 @@ impl Color {
match eotf { match eotf {
Eotf::Linear => convert!(linear), Eotf::Linear => convert!(linear),
Eotf::St2084Pq => convert!(st2084_pq), Eotf::St2084Pq => convert!(st2084_pq),
Eotf::Bt1886 => convert!(gamma24), Eotf::Bt1886(c) => {
let [a1, a2, a3, a4] = bt1886_eotf_args(c);
let bt1886 = |c: f32| -> f32 { a1 * ((a2 * c + a3).powf(2.4) - a4) };
convert!(bt1886)
}
Eotf::Gamma22 => convert!(gamma22), Eotf::Gamma22 => convert!(gamma22),
Eotf::Gamma24 => convert!(gamma24),
Eotf::Gamma28 => convert!(gamma28), Eotf::Gamma28 => convert!(gamma28),
Eotf::St240 => convert!(st240), Eotf::St240 => convert!(st240),
Eotf::Log100 => convert!(log100), Eotf::Log100 => convert!(log100),
Eotf::Log316 => convert!(log316), Eotf::Log316 => convert!(log316),
Eotf::St428 => convert!(st428), Eotf::St428 => convert!(st428),
Eotf::Pow(n) => {
let e = n.eotf_f32();
let pow = |c: f32| -> f32 { c.signum() * c.abs().powf(e) };
convert!(pow)
}
} }
Self { r, g, b, a: 1.0 } Self { r, g, b, a: 1.0 }
} }
@ -239,13 +252,23 @@ impl Color {
match eotf { match eotf {
Eotf::Linear => convert!(linear), Eotf::Linear => convert!(linear),
Eotf::St2084Pq => convert!(st2084_pq), Eotf::St2084Pq => convert!(st2084_pq),
Eotf::Bt1886 => convert!(gamma24), Eotf::Bt1886(c) => {
let [a1, a2, a3, a4] = bt1886_inv_eotf_args(c);
let bt1886 = |c: f32| -> f32 { a1 * ((a2 * c + a3).powf(1.0 / 2.4) - a4) };
convert!(bt1886)
}
Eotf::Gamma22 => convert!(gamma22), Eotf::Gamma22 => convert!(gamma22),
Eotf::Gamma24 => convert!(gamma24),
Eotf::Gamma28 => convert!(gamma28), Eotf::Gamma28 => convert!(gamma28),
Eotf::St240 => convert!(st240), Eotf::St240 => convert!(st240),
Eotf::Log100 => convert!(log100), Eotf::Log100 => convert!(log100),
Eotf::Log316 => convert!(log316), Eotf::Log316 => convert!(log316),
Eotf::St428 => convert!(st428), Eotf::St428 => convert!(st428),
Eotf::Pow(n) => {
let e = n.inv_eotf_f32();
let pow = |c: f32| -> f32 { c.signum() * c.abs().powf(e) };
convert!(pow)
}
} }
if self.a < 1.0 { if self.a < 1.0 {
for c in &mut res[..3] { for c in &mut res[..3] {

121
src/utils/ordered_float.rs
View file

@ -4,64 +4,71 @@ use std::{
ops::{Add, Div, Mul, Sub}, ops::{Add, Div, Mul, Sub},
}; };
#[derive(Copy, Clone)] macro_rules! define {
#[repr(transparent)] ($big:ident, $little:ty) => {
pub struct F64(pub f64); #[derive(Copy, Clone)]
#[repr(transparent)]
pub struct $big(pub $little);
impl Eq for F64 {} impl Eq for $big {}
impl PartialEq for F64 { impl PartialEq for $big {
fn eq(&self, other: &Self) -> bool { fn eq(&self, other: &Self) -> bool {
self.0.to_bits() == other.0.to_bits() self.0.to_bits() == other.0.to_bits()
} }
}
impl Hash for $big {
fn hash<H: Hasher>(&self, state: &mut H) {
self.0.to_bits().hash(state);
}
}
impl Add<Self> for $big {
type Output = Self;
fn add(self, rhs: $big) -> Self::Output {
Self(self.0 + rhs.0)
}
}
impl Sub<Self> for $big {
type Output = Self;
fn sub(self, rhs: Self) -> Self::Output {
Self(self.0 - rhs.0)
}
}
impl Mul<Self> for $big {
type Output = Self;
fn mul(self, rhs: Self) -> Self::Output {
Self(self.0 * rhs.0)
}
}
impl Div<Self> for $big {
type Output = Self;
fn div(self, rhs: Self) -> Self::Output {
Self(self.0 / rhs.0)
}
}
impl Display for $big {
fn fmt(&self, f: &mut Formatter<'_>) -> std::fmt::Result {
Display::fmt(&self.0, f)
}
}
impl Debug for $big {
fn fmt(&self, f: &mut Formatter<'_>) -> std::fmt::Result {
Debug::fmt(&self.0, f)
}
}
};
} }
impl Hash for F64 { define!(F64, f64);
fn hash<H: Hasher>(&self, state: &mut H) { define!(F32, f32);
self.0.to_bits().hash(state);
}
}
impl Add<F64> for F64 {
type Output = Self;
fn add(self, rhs: F64) -> Self::Output {
Self(self.0 + rhs.0)
}
}
impl Sub<F64> for F64 {
type Output = Self;
fn sub(self, rhs: F64) -> Self::Output {
Self(self.0 - rhs.0)
}
}
impl Mul<F64> for F64 {
type Output = Self;
fn mul(self, rhs: F64) -> Self::Output {
Self(self.0 * rhs.0)
}
}
impl Div<F64> for F64 {
type Output = Self;
fn div(self, rhs: F64) -> Self::Output {
Self(self.0 / rhs.0)
}
}
impl Display for F64 {
fn fmt(&self, f: &mut Formatter<'_>) -> std::fmt::Result {
Display::fmt(&self.0, f)
}
}
impl Debug for F64 {
fn fmt(&self, f: &mut Formatter<'_>) -> std::fmt::Result {
Debug::fmt(&self.0, f)
}
}