use icrate::Metal::{ MTLCompareFunctionNever, MTLDevice, MTLSamplerAddressMode, MTLSamplerBorderColorTransparentBlack, MTLSamplerDescriptor, MTLSamplerMinMagFilter, MTLSamplerState, }; use librashader_common::map::FastHashMap; use librashader_common::{FilterMode, WrapMode}; use objc2::rc::Id; use objc2::runtime::ProtocolObject; use crate::error::{FilterChainError, Result}; pub struct SamplerSet { // todo: may need to deal with differences in mip filter. samplers: FastHashMap<(WrapMode, FilterMode, FilterMode), Id>>, } impl SamplerSet { #[inline(always)] pub fn get( &self, wrap: WrapMode, filter: FilterMode, mipmap: FilterMode, ) -> &ProtocolObject { // eprintln!("{wrap}, {filter}, {mip}"); // SAFETY: the sampler set is complete for the matrix // wrap x filter x mipmap let id: &Id> = unsafe { self.samplers .get(&(wrap, filter, mipmap)) .unwrap_unchecked() }; id.as_ref() } pub fn new(device: &ProtocolObject) -> Result { let mut samplers = FastHashMap::default(); let wrap_modes = &[ WrapMode::ClampToBorder, WrapMode::ClampToEdge, WrapMode::Repeat, WrapMode::MirroredRepeat, ]; for wrap_mode in wrap_modes { for filter_mode in &[FilterMode::Linear, FilterMode::Nearest] { for mipmap_filter in &[FilterMode::Linear, FilterMode::Nearest] { let descriptor = MTLSamplerDescriptor::new(); descriptor.setRAddressMode(MTLSamplerAddressMode::from(*wrap_mode)); descriptor.setSAddressMode(MTLSamplerAddressMode::from(*wrap_mode)); descriptor.setTAddressMode(MTLSamplerAddressMode::from(*wrap_mode)); descriptor.setMagFilter(MTLSamplerMinMagFilter::from(*filter_mode)); descriptor.setMinFilter(MTLSamplerMinMagFilter::from(*filter_mode)); descriptor.setMipFilter(filter_mode.mtl_mip(*mipmap_filter)); descriptor.setLodMinClamp(0.0); descriptor.setLodMaxClamp(1000.0); descriptor.setCompareFunction(MTLCompareFunctionNever); descriptor.setMaxAnisotropy(1); descriptor.setBorderColor(MTLSamplerBorderColorTransparentBlack); descriptor.setNormalizedCoordinates(true); let Some(sampler_state) = device.newSamplerStateWithDescriptor(&descriptor) else { return Err(FilterChainError::SamplerError( *wrap_mode, *filter_mode, *mipmap_filter, )); }; samplers.insert((*wrap_mode, *filter_mode, *mipmap_filter), sampler_state); } } } // assert all samplers were created. assert_eq!(samplers.len(), wrap_modes.len() * 2 * 2); Ok(SamplerSet { samplers }) } }