#![feature(test)] extern crate test; use fimg::*; use test::Bencher; #[bench] fn overlay_3on3at(bench: &mut Bencher) { let mut v = vec![0u8; 3 * 64 * 64]; let mut a: Image<_, 3> = Image::new( 64.try_into().unwrap(), 64.try_into().unwrap(), v.as_mut_slice(), ); let b = Image::<&[u8], 3>::new( 4.try_into().unwrap(), 4.try_into().unwrap(), *&include_bytes!("3_4x4.imgbuf"), ); bench.iter(|| unsafe { for x in 0..16 { for y in 0..16 { a.overlay_at(&b, x * 4, y * 4); } } }); assert_eq!(a.as_ref().buffer, include_bytes!("3x3_at_out.imgbuf")); } #[bench] fn overlay_4on3at(bench: &mut Bencher) { let mut a: Image<_, 3> = Image::alloc(64, 64); let b = Image::<&[u8], 4>::new( 4.try_into().unwrap(), 4.try_into().unwrap(), *&include_bytes!("4_4x4.imgbuf"), ); bench.iter(|| unsafe { for x in 0..16 { for y in 0..16 { a.as_mut().overlay_at(&b, x * 4, y * 4); } } }); assert_eq!(a.as_ref().buffer, include_bytes!("4x3_at_out.imgbuf")); } #[bench] fn overlay_4on4at(bench: &mut Bencher) { let mut a: Image<_, 4> = Image::alloc(64, 64); let b = Image::<&[u8], 4>::new( 4.try_into().unwrap(), 4.try_into().unwrap(), *&include_bytes!("4_4x4.imgbuf"), ); bench.iter(|| unsafe { for x in 0..16 { for y in 0..16 { a.as_mut().overlay_at(&b, x * 4, y * 4); } } }); assert_eq!(a.as_ref().buffer, include_bytes!("4x4_at_out.imgbuf")); }