/*! Backend functions that export shader [`Module`](super::Module)s into binary and text formats. */ #![allow(dead_code)] // can be dead if none of the enabled backends need it #[cfg(feature = "dot-out")] pub mod dot; #[cfg(feature = "glsl-out")] pub mod glsl; #[cfg(feature = "hlsl-out")] pub mod hlsl; #[cfg(feature = "msl-out")] pub mod msl; #[cfg(feature = "spv-out")] pub mod spv; #[cfg(feature = "wgsl-out")] pub mod wgsl; const COMPONENTS: &[char] = &['x', 'y', 'z', 'w']; const INDENT: &str = " "; const BAKE_PREFIX: &str = "_e"; type NeedBakeExpressions = crate::FastHashSet>; #[derive(Clone, Copy)] struct Level(usize); impl Level { const fn next(&self) -> Self { Level(self.0 + 1) } } impl std::fmt::Display for Level { fn fmt(&self, formatter: &mut std::fmt::Formatter<'_>) -> Result<(), std::fmt::Error> { (0..self.0).try_for_each(|_| formatter.write_str(INDENT)) } } /// Stores the current function type (either a regular function or an entry point) /// /// Also stores data needed to identify it (handle for a regular function or index for an entry point) enum FunctionType { /// A regular function and it's handle Function(crate::Handle), /// A entry point and it's index EntryPoint(crate::proc::EntryPointIndex), } impl FunctionType { fn is_compute_entry_point(&self, module: &crate::Module) -> bool { match *self { FunctionType::EntryPoint(index) => { module.entry_points[index as usize].stage == crate::ShaderStage::Compute } FunctionType::Function(_) => false, } } } /// Helper structure that stores data needed when writing the function struct FunctionCtx<'a> { /// The current function being written ty: FunctionType, /// Analysis about the function info: &'a crate::valid::FunctionInfo, /// The expression arena of the current function being written expressions: &'a crate::Arena, /// Map of expressions that have associated variable names named_expressions: &'a crate::NamedExpressions, } impl FunctionCtx<'_> { /// Helper method that generates a [`NameKey`](crate::proc::NameKey) for a local in the current function const fn name_key(&self, local: crate::Handle) -> crate::proc::NameKey { match self.ty { FunctionType::Function(handle) => crate::proc::NameKey::FunctionLocal(handle, local), FunctionType::EntryPoint(idx) => crate::proc::NameKey::EntryPointLocal(idx, local), } } /// Helper method that generates a [`NameKey`](crate::proc::NameKey) for a function argument. /// /// # Panics /// - If the function arguments are less or equal to `arg` const fn argument_key(&self, arg: u32) -> crate::proc::NameKey { match self.ty { FunctionType::Function(handle) => crate::proc::NameKey::FunctionArgument(handle, arg), FunctionType::EntryPoint(ep_index) => { crate::proc::NameKey::EntryPointArgument(ep_index, arg) } } } // Returns true if the given expression points to a fixed-function pipeline input. fn is_fixed_function_input( &self, mut expression: crate::Handle, module: &crate::Module, ) -> Option { let ep_function = match self.ty { FunctionType::Function(_) => return None, FunctionType::EntryPoint(ep_index) => &module.entry_points[ep_index as usize].function, }; let mut built_in = None; loop { match self.expressions[expression] { crate::Expression::FunctionArgument(arg_index) => { return match ep_function.arguments[arg_index as usize].binding { Some(crate::Binding::BuiltIn(bi)) => Some(bi), _ => built_in, }; } crate::Expression::AccessIndex { base, index } => { match *self.info[base].ty.inner_with(&module.types) { crate::TypeInner::Struct { ref members, .. } => { if let Some(crate::Binding::BuiltIn(bi)) = members[index as usize].binding { built_in = Some(bi); } } _ => return None, } expression = base; } _ => return None, } } } } impl crate::Expression { /// Returns the ref count, upon reaching which this expression /// should be considered for baking. /// /// Note: we have to cache any expressions that depend on the control flow, /// or otherwise they may be moved into a non-uniform control flow, accidentally. /// See the [module-level documentation][emit] for details. /// /// [emit]: index.html#expression-evaluation-time const fn bake_ref_count(&self) -> usize { match *self { // accesses are never cached, only loads are crate::Expression::Access { .. } | crate::Expression::AccessIndex { .. } => usize::MAX, // sampling may use the control flow, and image ops look better by themselves crate::Expression::ImageSample { .. } | crate::Expression::ImageLoad { .. } => 1, // derivatives use the control flow crate::Expression::Derivative { .. } => 1, // TODO: We need a better fix for named `Load` expressions // More info - https://github.com/gfx-rs/naga/pull/914 // And https://github.com/gfx-rs/naga/issues/910 crate::Expression::Load { .. } => 1, // cache expressions that are referenced multiple times _ => 2, } } } /// Helper function that returns the string corresponding to the [`BinaryOperator`](crate::BinaryOperator) /// # Notes /// Used by `glsl-out`, `msl-out`, `wgsl-out`, `hlsl-out`. const fn binary_operation_str(op: crate::BinaryOperator) -> &'static str { use crate::BinaryOperator as Bo; match op { Bo::Add => "+", Bo::Subtract => "-", Bo::Multiply => "*", Bo::Divide => "/", Bo::Modulo => "%", Bo::Equal => "==", Bo::NotEqual => "!=", Bo::Less => "<", Bo::LessEqual => "<=", Bo::Greater => ">", Bo::GreaterEqual => ">=", Bo::And => "&", Bo::ExclusiveOr => "^", Bo::InclusiveOr => "|", Bo::LogicalAnd => "&&", Bo::LogicalOr => "||", Bo::ShiftLeft => "<<", Bo::ShiftRight => ">>", } } /// Helper function that returns the string corresponding to the [`VectorSize`](crate::VectorSize) /// # Notes /// Used by `msl-out`, `wgsl-out`, `hlsl-out`. const fn vector_size_str(size: crate::VectorSize) -> &'static str { match size { crate::VectorSize::Bi => "2", crate::VectorSize::Tri => "3", crate::VectorSize::Quad => "4", } } impl crate::TypeInner { const fn is_handle(&self) -> bool { match *self { crate::TypeInner::Image { .. } | crate::TypeInner::Sampler { .. } => true, _ => false, } } } impl crate::Statement { /// Returns true if the statement directly terminates the current block. /// /// Used to decide whether case blocks require a explicit `break`. pub const fn is_terminator(&self) -> bool { match *self { crate::Statement::Break | crate::Statement::Continue | crate::Statement::Return { .. } | crate::Statement::Kill => true, _ => false, } } } bitflags::bitflags! { /// Ray flags, for a [`RayDesc`]'s `flags` field. /// /// Note that these exactly correspond to the SPIR-V "Ray Flags" mask, and /// the SPIR-V backend passes them directly through to the /// `OpRayQueryInitializeKHR` instruction. (We have to choose something, so /// we might as well make one back end's life easier.) /// /// [`RayDesc`]: crate::Module::generate_ray_desc_type #[derive(Default)] pub struct RayFlag: u32 { const OPAQUE = 0x01; const NO_OPAQUE = 0x02; const TERMINATE_ON_FIRST_HIT = 0x04; const SKIP_CLOSEST_HIT_SHADER = 0x08; const CULL_BACK_FACING = 0x10; const CULL_FRONT_FACING = 0x20; const CULL_OPAQUE = 0x40; const CULL_NO_OPAQUE = 0x80; const SKIP_TRIANGLES = 0x100; const SKIP_AABBS = 0x200; } } #[repr(u32)] enum RayIntersectionType { Triangle = 1, BoundingBox = 4, }