vello/piet-gpu/src/test_scenes.rs

//! Various synthetic scenes for exercising the renderer.

use rand::{Rng, RngCore};

use crate::{Blend, BlendMode, Colrv1RadialGradient, CompositionMode, PietGpuRenderContext};
use piet::kurbo::{Affine, BezPath, Circle, Line, Point, Rect, Shape};
use piet::{
    Color, GradientStop, LinearGradient, Text, TextAttribute, TextLayoutBuilder, UnitPoint,
};

use crate::{PicoSvg, RenderContext, Vec2};

const N_CIRCLES: usize = 0;

pub fn render_blend_test(rc: &mut PietGpuRenderContext, i: usize, blend: Blend) {
    rc.fill(Rect::new(400., 400., 800., 800.), &Color::rgb8(0, 0, 200));
    rc.save().unwrap();
    rc.blend(Rect::new(0., 0., 1000., 1000.), blend);
    rc.transform(Affine::translate(Vec2::new(600., 600.)) * Affine::rotate(0.01 * i as f64));
    rc.fill(Rect::new(0., 0., 400., 400.), &Color::rgba8(255, 0, 0, 255));
    rc.restore().unwrap();
}

pub fn render_svg(rc: &mut impl RenderContext, svg: &PicoSvg) {
    let start = std::time::Instant::now();
    svg.render(rc);
    println!("flattening and encoding time: {:?}", start.elapsed());
}

pub fn render_scene(rc: &mut PietGpuRenderContext) {
    const WIDTH: usize = 2048;
    const HEIGHT: usize = 1536;
    let mut rng = rand::thread_rng();
    for _ in 0..N_CIRCLES {
        let color = Color::from_rgba32_u32(rng.next_u32());
        let center = Point::new(
            rng.gen_range(0.0, WIDTH as f64),
            rng.gen_range(0.0, HEIGHT as f64),
        );
        let radius = rng.gen_range(0.0, 50.0);
        let circle = Circle::new(center, radius);
        rc.fill(circle, &color);
    }
    let _ = rc.save();
    let mut path = BezPath::new();
    path.move_to((200.0, 150.0));
    path.line_to((100.0, 200.0));
    path.line_to((150.0, 250.0));
    path.close_path();
    rc.clip(path);

    let mut path = BezPath::new();
    path.move_to((100.0, 150.0));
    path.line_to((200.0, 200.0));
    path.line_to((150.0, 250.0));
    path.close_path();
    rc.fill(path, &Color::rgb8(128, 0, 128));
    let _ = rc.restore();
    rc.stroke(
        piet::kurbo::Line::new((100.0, 100.0), (200.0, 150.0)),
        &Color::WHITE,
        5.0,
    );
    //render_cardioid(rc);
    render_clip_test(rc);
    render_alpha_test(rc);
    render_gradient_test(rc);
    render_text_test(rc);
    //render_tiger(rc);
}

#[allow(unused)]
fn render_cardioid(rc: &mut impl RenderContext) {
    let n = 601;
    let dth = std::f64::consts::PI * 2.0 / (n as f64);
    let center = Point::new(1024.0, 768.0);
    let r = 750.0;
    let mut path = BezPath::new();
    for i in 1..n {
        let p0 = center + Vec2::from_angle(i as f64 * dth) * r;
        let p1 = center + Vec2::from_angle(((i * 2) % n) as f64 * dth) * r;
        //rc.fill(&Circle::new(p0, 8.0), &Color::WHITE);
        path.move_to(p0);
        path.line_to(p1);
        //rc.stroke(Line::new(p0, p1), &Color::BLACK, 2.0);
    }
    rc.stroke(&path, &Color::BLACK, 2.0);
}

#[allow(unused)]
fn render_clip_test(rc: &mut impl RenderContext) {
    const N: usize = 16;
    const X0: f64 = 50.0;
    const Y0: f64 = 450.0;
    // Note: if it gets much larger, it will exceed the 1MB scratch buffer.
    // But this is a pretty demanding test.
    const X1: f64 = 550.0;
    const Y1: f64 = 950.0;
    let step = 1.0 / ((N + 1) as f64);
    for i in 0..N {
        let t = ((i + 1) as f64) * step;
        rc.save();
        let mut path = BezPath::new();
        path.move_to((X0, Y0));
        path.line_to((X1, Y0));
        path.line_to((X1, Y0 + t * (Y1 - Y0)));
        path.line_to((X1 + t * (X0 - X1), Y1));
        path.line_to((X0, Y1));
        path.close_path();
        rc.clip(path);
    }
    let rect = piet::kurbo::Rect::new(X0, Y0, X1, Y1);
    rc.fill(rect, &Color::BLACK);
    for _ in 0..N {
        rc.restore();
    }
}

#[allow(unused)]
fn render_alpha_test(rc: &mut impl RenderContext) {
    // Alpha compositing tests.
    rc.fill(
        diamond(Point::new(1024.0, 100.0)),
        &Color::Rgba32(0xff0000ff),
    );
    rc.fill(
        diamond(Point::new(1024.0, 125.0)),
        &Color::Rgba32(0x00ff0080),
    );
    rc.save();
    rc.clip(diamond(Point::new(1024.0, 150.0)));
    rc.fill(
        diamond(Point::new(1024.0, 175.0)),
        &Color::Rgba32(0x0000ff80),
    );
    rc.restore();
}

#[allow(unused)]
fn render_gradient_test(rc: &mut PietGpuRenderContext) {
    let stops = vec![
        GradientStop {
            color: Color::rgb8(0, 255, 0),
            pos: 0.0,
        },
        GradientStop {
            color: Color::BLACK,
            pos: 1.0,
        },
    ];
    let rad = Colrv1RadialGradient {
        center0: Point::new(200.0, 200.0),
        center1: Point::new(250.0, 200.0),
        radius0: 50.0,
        radius1: 100.0,
        stops,
    };
    let brush = rc.radial_gradient_colrv1(&rad);
    //let brush = FixedGradient::Radial(rad);
    //let brush = Color::rgb8(0, 128, 0);
    let transform = Affine::new([1.0, 0.0, 0.0, 0.5, 0.0, 100.0]);
    rc.fill_transform(Rect::new(100.0, 100.0, 300.0, 300.0), &brush, transform);
}

fn diamond(origin: Point) -> impl Shape {
    let mut path = BezPath::new();
    const SIZE: f64 = 50.0;
    path.move_to((origin.x, origin.y - SIZE));
    path.line_to((origin.x + SIZE, origin.y));
    path.line_to((origin.x, origin.y + SIZE));
    path.line_to((origin.x - SIZE, origin.y));
    path.close_path();
    return path;
}

#[allow(unused)]
fn render_text_test(rc: &mut impl RenderContext) {
    rc.save();
    //rc.transform(Affine::new([0.2, 0.0, 0.0, -0.2, 200.0, 800.0]));
    let layout = rc
        .text()
        .new_text_layout("\u{1f600}hello piet-gpu text!")
        .default_attribute(TextAttribute::FontSize(100.0))
        .build()
        .unwrap();
    rc.draw_text(&layout, Point::new(110.0, 600.0));
    rc.draw_text(&layout, Point::new(110.0, 700.0));
    rc.restore();
}

#[allow(unused)]
fn render_tiger(rc: &mut impl RenderContext) {
    let xml_str = std::str::from_utf8(include_bytes!("../Ghostscript_Tiger.svg")).unwrap();
    let start = std::time::Instant::now();
    let svg = PicoSvg::load(xml_str, 8.0).unwrap();
    println!("parsing time: {:?}", start.elapsed());

    let start = std::time::Instant::now();
    svg.render(rc);
    println!("flattening and encoding time: {:?}", start.elapsed());
}

pub fn render_blend_square(rc: &mut PietGpuRenderContext, blend: Blend) {
    // Inspired by https://developer.mozilla.org/en-US/docs/Web/CSS/mix-blend-mode
    let rect = Rect::new(0., 0., 200., 200.);
    let stops = vec![
        GradientStop {
            color: Color::BLACK,
            pos: 0.0,
        },
        GradientStop {
            color: Color::WHITE,
            pos: 1.0,
        },
    ];
    let linear = LinearGradient::new(UnitPoint::LEFT, UnitPoint::RIGHT, stops);
    rc.fill(rect, &linear);
    const GRADIENTS: &[(f64, f64, Color)] = &[
        (150., 0., Color::rgb8(255, 240, 64)),
        (175., 100., Color::rgb8(255, 96, 240)),
        (125., 200., Color::rgb8(64, 192, 255)),
    ];
    for (x, y, c) in GRADIENTS {
        let stops = vec![
            GradientStop {
                color: c.clone(),
                pos: 0.0,
            },
            GradientStop {
                color: Color::rgba8(0, 0, 0, 0),
                pos: 1.0,
            },
        ];
        let rad = Colrv1RadialGradient {
            center0: Point::new(*x, *y),
            center1: Point::new(*x, *y),
            radius0: 0.0,
            radius1: 100.0,
            stops,
        };
        let brush = rc.radial_gradient_colrv1(&rad);
        rc.fill(Rect::new(0., 0., 200., 200.), &brush);
    }
    const COLORS: &[Color] = &[
        Color::rgb8(255, 0, 0),
        Color::rgb8(0, 255, 0),
        Color::rgb8(0, 0, 255),
    ];
    let _ = rc.with_save(|rc| {
        // Isolation (this can be removed for non-isolated version)
        rc.blend(rect, BlendMode::Normal.into());
        for (i, c) in COLORS.iter().enumerate() {
            let stops = vec![
                GradientStop {
                    color: Color::WHITE,
                    pos: 0.0,
                },
                GradientStop {
                    color: c.clone(),
                    pos: 1.0,
                },
            ];
            // squash the ellipse
            let a = Affine::translate((100., 100.))
                * Affine::rotate(std::f64::consts::FRAC_PI_3 * (i * 2 + 1) as f64)
                * Affine::scale_non_uniform(1.0, 0.357)
                * Affine::translate((-100., -100.));
            let linear = LinearGradient::new(UnitPoint::TOP, UnitPoint::BOTTOM, stops);
            let _ = rc.with_save(|rc| {
                rc.blend(rect, blend);
                rc.transform(a);
                rc.fill(Circle::new((100., 100.), 90.), &linear);
                Ok(())
            });
        }
        Ok(())
    });
}

pub fn render_blend_grid(rc: &mut PietGpuRenderContext) {
    const BLEND_MODES: &[BlendMode] = &[
        BlendMode::Normal,
        BlendMode::Multiply,
        BlendMode::Darken,
        BlendMode::Screen,
        BlendMode::Lighten,
        BlendMode::Overlay,
        BlendMode::ColorDodge,
        BlendMode::ColorBurn,
        BlendMode::HardLight,
        BlendMode::SoftLight,
        BlendMode::Difference,
        BlendMode::Exclusion,
        BlendMode::Hue,
        BlendMode::Saturation,
        BlendMode::Color,
        BlendMode::Luminosity,
    ];
    for (ix, &blend) in BLEND_MODES.iter().enumerate() {
        let _ = rc.with_save(|rc| {
            let i = ix % 4;
            let j = ix / 4;
            rc.transform(Affine::translate((i as f64 * 225., j as f64 * 225.)));
            render_blend_square(rc, blend.into());
            Ok(())
        });
    }
}

pub fn render_anim_frame(rc: &mut impl RenderContext, i: usize) {
    rc.fill(
        Rect::new(0.0, 0.0, 1000.0, 1000.0),
        &Color::rgb8(128, 128, 128),
    );
    let text_size = 60.0 + 40.0 * (0.01 * i as f64).sin();
    rc.save().unwrap();
    //rc.transform(Affine::new([0.2, 0.0, 0.0, -0.2, 200.0, 800.0]));
    let layout = rc
        .text()
        .new_text_layout("\u{1f600}hello piet-gpu text!")
        .default_attribute(TextAttribute::FontSize(text_size))
        .build()
        .unwrap();
    rc.draw_text(&layout, Point::new(110.0, 600.0));
    rc.draw_text(&layout, Point::new(110.0, 700.0));
    rc.restore().unwrap();
    let th = (std::f64::consts::PI / 180.0) * (i as f64);
    let center = Point::new(500.0, 500.0);
    let p1 = center + 400.0 * Vec2::from_angle(th);
    let line = Line::new(center, p1);
    rc.stroke(line, &Color::rgb8(128, 0, 0), 5.0);
}
Animating scene Make the scene dependent on timing. This commit patches the HAL to reuse command buffers; this works well on Vulkan and prevents a leak, but breaks the other back-ends. That will require a solution, possibly including plumbing up the resource lifetime responsibilities to the client. Other things might be hacky as well. 2021-09-01 05:46:28 +10:00			`//! Various synthetic scenes for exercising the renderer.`

			`use rand::{Rng, RngCore};`

More blend mode fixes Adds a test to visualize the blend modes. Fixes a dumb bug in blend.h and also a more subtle issue where default blending is not the same as clipping, as the former needs to always push a blend group (to cause isolation) and the latter does not. This might be something we need to get back to. This should fix the rendering, so it fairly closely resembles the Mozilla reference image. There's also a compile-time switch to disable sRGB conversion, which is (sadly) needed for compatible rendering. 2022-05-18 07:34:14 +10:00			`use crate::{Blend, BlendMode, Colrv1RadialGradient, CompositionMode, PietGpuRenderContext};`
Initial implementation of blend modes * Add blend and composition mode enums to API * Mirror these in the shaders * Add new public blend function to PietGpuRenderContext that mirrors clip * Plumb the modes through the pipeline from scene to kernel4 2022-03-01 04:38:14 +11:00			`use piet::kurbo::{Affine, BezPath, Circle, Line, Point, Rect, Shape};`
Cargo fmt 2021-09-07 03:19:55 +10:00			`use piet::{`
More blend mode fixes Adds a test to visualize the blend modes. Fixes a dumb bug in blend.h and also a more subtle issue where default blending is not the same as clipping, as the former needs to always push a blend group (to cause isolation) and the latter does not. This might be something we need to get back to. This should fix the rendering, so it fairly closely resembles the Mozilla reference image. There's also a compile-time switch to disable sRGB conversion, which is (sadly) needed for compatible rendering. 2022-05-18 07:34:14 +10:00			`Color, GradientStop, LinearGradient, Text, TextAttribute, TextLayoutBuilder, UnitPoint,`
Cargo fmt 2021-09-07 03:19:55 +10:00			`};`
Animating scene Make the scene dependent on timing. This commit patches the HAL to reuse command buffers; this works well on Vulkan and prevents a leak, but breaks the other back-ends. That will require a solution, possibly including plumbing up the resource lifetime responsibilities to the client. Other things might be hacky as well. 2021-09-01 05:46:28 +10:00
Cargo fmt 2021-09-07 03:19:55 +10:00			`use crate::{PicoSvg, RenderContext, Vec2};`
Animating scene Make the scene dependent on timing. This commit patches the HAL to reuse command buffers; this works well on Vulkan and prevents a leak, but breaks the other back-ends. That will require a solution, possibly including plumbing up the resource lifetime responsibilities to the client. Other things might be hacky as well. 2021-09-01 05:46:28 +10:00
			`const N_CIRCLES: usize = 0;`

Initial implementation of blend modes * Add blend and composition mode enums to API * Mirror these in the shaders * Add new public blend function to PietGpuRenderContext that mirrors clip * Plumb the modes through the pipeline from scene to kernel4 2022-03-01 04:38:14 +11:00			`pub fn render_blend_test(rc: &mut PietGpuRenderContext, i: usize, blend: Blend) {`
Fix missing blend/clip logic We always do BeginClip/EndClip if it's a solid tile and the blend mode is not default. Also fix missing entry in pipeline layout (affects Vulkan but not Metal). 2022-03-17 08:40:58 +11:00			`rc.fill(Rect::new(400., 400., 800., 800.), &Color::rgb8(0, 0, 200));`
Initial implementation of blend modes * Add blend and composition mode enums to API * Mirror these in the shaders * Add new public blend function to PietGpuRenderContext that mirrors clip * Plumb the modes through the pipeline from scene to kernel4 2022-03-01 04:38:14 +11:00			`rc.save().unwrap();`
			`rc.blend(Rect::new(0., 0., 1000., 1000.), blend);`
			`rc.transform(Affine::translate(Vec2::new(600., 600.)) * Affine::rotate(0.01 * i as f64));`
			`rc.fill(Rect::new(0., 0., 400., 400.), &Color::rgba8(255, 0, 0, 255));`
			`rc.restore().unwrap();`
			`}`

Factored out file loading on render tick for winit bin 2022-04-05 06:09:24 +10:00			`pub fn render_svg(rc: &mut impl RenderContext, svg: &PicoSvg) {`
Animating scene Make the scene dependent on timing. This commit patches the HAL to reuse command buffers; this works well on Vulkan and prevents a leak, but breaks the other back-ends. That will require a solution, possibly including plumbing up the resource lifetime responsibilities to the client. Other things might be hacky as well. 2021-09-01 05:46:28 +10:00			`let start = std::time::Instant::now();`
			`svg.render(rc);`
			`println!("flattening and encoding time: {:?}", start.elapsed());`
			`}`

Radial gradients This patch adds radial gradients, including both the piet API and some new methods specifically to support COLRv1, including the ability to transform the gradient separately from the path. 2022-03-18 09:00:08 +11:00			`pub fn render_scene(rc: &mut PietGpuRenderContext) {`
Animating scene Make the scene dependent on timing. This commit patches the HAL to reuse command buffers; this works well on Vulkan and prevents a leak, but breaks the other back-ends. That will require a solution, possibly including plumbing up the resource lifetime responsibilities to the client. Other things might be hacky as well. 2021-09-01 05:46:28 +10:00			`const WIDTH: usize = 2048;`
			`const HEIGHT: usize = 1536;`
			`let mut rng = rand::thread_rng();`
			`for _ in 0..N_CIRCLES {`
			`let color = Color::from_rgba32_u32(rng.next_u32());`
			`let center = Point::new(`
			`rng.gen_range(0.0, WIDTH as f64),`
			`rng.gen_range(0.0, HEIGHT as f64),`
			`);`
			`let radius = rng.gen_range(0.0, 50.0);`
			`let circle = Circle::new(center, radius);`
			`rc.fill(circle, &color);`
			`}`
			`let _ = rc.save();`
			`let mut path = BezPath::new();`
			`path.move_to((200.0, 150.0));`
			`path.line_to((100.0, 200.0));`
			`path.line_to((150.0, 250.0));`
			`path.close_path();`
			`rc.clip(path);`

			`let mut path = BezPath::new();`
			`path.move_to((100.0, 150.0));`
			`path.line_to((200.0, 200.0));`
			`path.line_to((150.0, 250.0));`
			`path.close_path();`
			`rc.fill(path, &Color::rgb8(128, 0, 128));`
			`let _ = rc.restore();`
			`rc.stroke(`
			`piet::kurbo::Line::new((100.0, 100.0), (200.0, 150.0)),`
			`&Color::WHITE,`
			`5.0,`
			`);`
			`//render_cardioid(rc);`
			`render_clip_test(rc);`
			`render_alpha_test(rc);`
			`render_gradient_test(rc);`
			`render_text_test(rc);`
			`//render_tiger(rc);`
			`}`

			`#[allow(unused)]`
			`fn render_cardioid(rc: &mut impl RenderContext) {`
			`let n = 601;`
			`let dth = std::f64::consts::PI * 2.0 / (n as f64);`
			`let center = Point::new(1024.0, 768.0);`
			`let r = 750.0;`
			`let mut path = BezPath::new();`
			`for i in 1..n {`
			`let p0 = center + Vec2::from_angle(i as f64 * dth) * r;`
			`let p1 = center + Vec2::from_angle(((i * 2) % n) as f64 * dth) * r;`
			`//rc.fill(&Circle::new(p0, 8.0), &Color::WHITE);`
			`path.move_to(p0);`
			`path.line_to(p1);`
			`//rc.stroke(Line::new(p0, p1), &Color::BLACK, 2.0);`
			`}`
			`rc.stroke(&path, &Color::BLACK, 2.0);`
			`}`

			`#[allow(unused)]`
			`fn render_clip_test(rc: &mut impl RenderContext) {`
			`const N: usize = 16;`
			`const X0: f64 = 50.0;`
			`const Y0: f64 = 450.0;`
			`// Note: if it gets much larger, it will exceed the 1MB scratch buffer.`
			`// But this is a pretty demanding test.`
			`const X1: f64 = 550.0;`
			`const Y1: f64 = 950.0;`
			`let step = 1.0 / ((N + 1) as f64);`
			`for i in 0..N {`
			`let t = ((i + 1) as f64) * step;`
			`rc.save();`
			`let mut path = BezPath::new();`
			`path.move_to((X0, Y0));`
			`path.line_to((X1, Y0));`
			`path.line_to((X1, Y0 + t * (Y1 - Y0)));`
			`path.line_to((X1 + t * (X0 - X1), Y1));`
			`path.line_to((X0, Y1));`
			`path.close_path();`
			`rc.clip(path);`
			`}`
			`let rect = piet::kurbo::Rect::new(X0, Y0, X1, Y1);`
			`rc.fill(rect, &Color::BLACK);`
			`for _ in 0..N {`
			`rc.restore();`
			`}`
			`}`

			`#[allow(unused)]`
			`fn render_alpha_test(rc: &mut impl RenderContext) {`
			`// Alpha compositing tests.`
			`rc.fill(`
			`diamond(Point::new(1024.0, 100.0)),`
			`&Color::Rgba32(0xff0000ff),`
			`);`
			`rc.fill(`
			`diamond(Point::new(1024.0, 125.0)),`
			`&Color::Rgba32(0x00ff0080),`
			`);`
			`rc.save();`
			`rc.clip(diamond(Point::new(1024.0, 150.0)));`
			`rc.fill(`
			`diamond(Point::new(1024.0, 175.0)),`
			`&Color::Rgba32(0x0000ff80),`
			`);`
			`rc.restore();`
			`}`

			`#[allow(unused)]`
Radial gradients This patch adds radial gradients, including both the piet API and some new methods specifically to support COLRv1, including the ability to transform the gradient separately from the path. 2022-03-18 09:00:08 +11:00			`fn render_gradient_test(rc: &mut PietGpuRenderContext) {`
Animating scene Make the scene dependent on timing. This commit patches the HAL to reuse command buffers; this works well on Vulkan and prevents a leak, but breaks the other back-ends. That will require a solution, possibly including plumbing up the resource lifetime responsibilities to the client. Other things might be hacky as well. 2021-09-01 05:46:28 +10:00			`let stops = vec![`
			`GradientStop {`
			`color: Color::rgb8(0, 255, 0),`
			`pos: 0.0,`
			`},`
			`GradientStop {`
			`color: Color::BLACK,`
			`pos: 1.0,`
			`},`
			`];`
Radial gradients This patch adds radial gradients, including both the piet API and some new methods specifically to support COLRv1, including the ability to transform the gradient separately from the path. 2022-03-18 09:00:08 +11:00			`let rad = Colrv1RadialGradient {`
			`center0: Point::new(200.0, 200.0),`
			`center1: Point::new(250.0, 200.0),`
			`radius0: 50.0,`
			`radius1: 100.0,`
Animating scene Make the scene dependent on timing. This commit patches the HAL to reuse command buffers; this works well on Vulkan and prevents a leak, but breaks the other back-ends. That will require a solution, possibly including plumbing up the resource lifetime responsibilities to the client. Other things might be hacky as well. 2021-09-01 05:46:28 +10:00			`stops,`
			`};`
Radial gradients This patch adds radial gradients, including both the piet API and some new methods specifically to support COLRv1, including the ability to transform the gradient separately from the path. 2022-03-18 09:00:08 +11:00			`let brush = rc.radial_gradient_colrv1(&rad);`
			`//let brush = FixedGradient::Radial(rad);`
Animating scene Make the scene dependent on timing. This commit patches the HAL to reuse command buffers; this works well on Vulkan and prevents a leak, but breaks the other back-ends. That will require a solution, possibly including plumbing up the resource lifetime responsibilities to the client. Other things might be hacky as well. 2021-09-01 05:46:28 +10:00			`//let brush = Color::rgb8(0, 128, 0);`
Radial gradients This patch adds radial gradients, including both the piet API and some new methods specifically to support COLRv1, including the ability to transform the gradient separately from the path. 2022-03-18 09:00:08 +11:00			`let transform = Affine::new([1.0, 0.0, 0.0, 0.5, 0.0, 100.0]);`
			`rc.fill_transform(Rect::new(100.0, 100.0, 300.0, 300.0), &brush, transform);`
Animating scene Make the scene dependent on timing. This commit patches the HAL to reuse command buffers; this works well on Vulkan and prevents a leak, but breaks the other back-ends. That will require a solution, possibly including plumbing up the resource lifetime responsibilities to the client. Other things might be hacky as well. 2021-09-01 05:46:28 +10:00			`}`

			`fn diamond(origin: Point) -> impl Shape {`
			`let mut path = BezPath::new();`
			`const SIZE: f64 = 50.0;`
			`path.move_to((origin.x, origin.y - SIZE));`
			`path.line_to((origin.x + SIZE, origin.y));`
			`path.line_to((origin.x, origin.y + SIZE));`
			`path.line_to((origin.x - SIZE, origin.y));`
			`path.close_path();`
			`return path;`
			`}`

			`#[allow(unused)]`
			`fn render_text_test(rc: &mut impl RenderContext) {`
			`rc.save();`
			`//rc.transform(Affine::new([0.2, 0.0, 0.0, -0.2, 200.0, 800.0]));`
			`let layout = rc`
			`.text()`
			`.new_text_layout("\u{1f600}hello piet-gpu text!")`
			`.default_attribute(TextAttribute::FontSize(100.0))`
			`.build()`
			`.unwrap();`
			`rc.draw_text(&layout, Point::new(110.0, 600.0));`
			`rc.draw_text(&layout, Point::new(110.0, 700.0));`
			`rc.restore();`
			`}`

			`#[allow(unused)]`
			`fn render_tiger(rc: &mut impl RenderContext) {`
			`let xml_str = std::str::from_utf8(include_bytes!("../Ghostscript_Tiger.svg")).unwrap();`
			`let start = std::time::Instant::now();`
			`let svg = PicoSvg::load(xml_str, 8.0).unwrap();`
			`println!("parsing time: {:?}", start.elapsed());`

			`let start = std::time::Instant::now();`
			`svg.render(rc);`
			`println!("flattening and encoding time: {:?}", start.elapsed());`
			`}`

More blend mode fixes Adds a test to visualize the blend modes. Fixes a dumb bug in blend.h and also a more subtle issue where default blending is not the same as clipping, as the former needs to always push a blend group (to cause isolation) and the latter does not. This might be something we need to get back to. This should fix the rendering, so it fairly closely resembles the Mozilla reference image. There's also a compile-time switch to disable sRGB conversion, which is (sadly) needed for compatible rendering. 2022-05-18 07:34:14 +10:00			`pub fn render_blend_square(rc: &mut PietGpuRenderContext, blend: Blend) {`
			`// Inspired by https://developer.mozilla.org/en-US/docs/Web/CSS/mix-blend-mode`
			`let rect = Rect::new(0., 0., 200., 200.);`
			`let stops = vec![`
			`GradientStop {`
			`color: Color::BLACK,`
			`pos: 0.0,`
			`},`
			`GradientStop {`
			`color: Color::WHITE,`
			`pos: 1.0,`
			`},`
			`];`
			`let linear = LinearGradient::new(UnitPoint::LEFT, UnitPoint::RIGHT, stops);`
			`rc.fill(rect, &linear);`
			`const GRADIENTS: &[(f64, f64, Color)] = &[`
			`(150., 0., Color::rgb8(255, 240, 64)),`
			`(175., 100., Color::rgb8(255, 96, 240)),`
			`(125., 200., Color::rgb8(64, 192, 255)),`
			`];`
			`for (x, y, c) in GRADIENTS {`
			`let stops = vec![`
			`GradientStop {`
			`color: c.clone(),`
			`pos: 0.0,`
			`},`
			`GradientStop {`
			`color: Color::rgba8(0, 0, 0, 0),`
			`pos: 1.0,`
			`},`
			`];`
			`let rad = Colrv1RadialGradient {`
			`center0: Point::new(x, y),`
			`center1: Point::new(x, y),`
			`radius0: 0.0,`
			`radius1: 100.0,`
			`stops,`
			`};`
			`let brush = rc.radial_gradient_colrv1(&rad);`
			`rc.fill(Rect::new(0., 0., 200., 200.), &brush);`
			`}`
			`const COLORS: &[Color] = &[`
			`Color::rgb8(255, 0, 0),`
			`Color::rgb8(0, 255, 0),`
			`Color::rgb8(0, 0, 255),`
			`];`
			`let _ = rc.with_save(\|rc\| {`
			`// Isolation (this can be removed for non-isolated version)`
			`rc.blend(rect, BlendMode::Normal.into());`
			`for (i, c) in COLORS.iter().enumerate() {`
			`let stops = vec![`
			`GradientStop {`
			`color: Color::WHITE,`
			`pos: 0.0,`
			`},`
			`GradientStop {`
			`color: c.clone(),`
			`pos: 1.0,`
			`},`
			`];`
			`// squash the ellipse`
			`let a = Affine::translate((100., 100.))`
			`* Affine::rotate(std::f64::consts::FRAC_PI_3 * (i * 2 + 1) as f64)`
			`* Affine::scale_non_uniform(1.0, 0.357)`
			`* Affine::translate((-100., -100.));`
			`let linear = LinearGradient::new(UnitPoint::TOP, UnitPoint::BOTTOM, stops);`
			`let _ = rc.with_save(\|rc\| {`
			`rc.blend(rect, blend);`
			`rc.transform(a);`
			`rc.fill(Circle::new((100., 100.), 90.), &linear);`
			`Ok(())`
			`});`
			`}`
			`Ok(())`
			`});`
			`}`

			`pub fn render_blend_grid(rc: &mut PietGpuRenderContext) {`
			`const BLEND_MODES: &[BlendMode] = &[`
			`BlendMode::Normal,`
			`BlendMode::Multiply,`
			`BlendMode::Darken,`
			`BlendMode::Screen,`
			`BlendMode::Lighten,`
			`BlendMode::Overlay,`
			`BlendMode::ColorDodge,`
			`BlendMode::ColorBurn,`
			`BlendMode::HardLight,`
			`BlendMode::SoftLight,`
			`BlendMode::Difference,`
			`BlendMode::Exclusion,`
			`BlendMode::Hue,`
			`BlendMode::Saturation,`
			`BlendMode::Color,`
			`BlendMode::Luminosity,`
			`];`
			`for (ix, &blend) in BLEND_MODES.iter().enumerate() {`
			`let _ = rc.with_save(\|rc\| {`
			`let i = ix % 4;`
			`let j = ix / 4;`
			`rc.transform(Affine::translate((i as f64 * 225., j as f64 * 225.)));`
			`render_blend_square(rc, blend.into());`
			`Ok(())`
			`});`
			`}`
			`}`

Animating scene Make the scene dependent on timing. This commit patches the HAL to reuse command buffers; this works well on Vulkan and prevents a leak, but breaks the other back-ends. That will require a solution, possibly including plumbing up the resource lifetime responsibilities to the client. Other things might be hacky as well. 2021-09-01 05:46:28 +10:00			`pub fn render_anim_frame(rc: &mut impl RenderContext, i: usize) {`
Cargo fmt 2021-09-07 03:19:55 +10:00			`rc.fill(`
			`Rect::new(0.0, 0.0, 1000.0, 1000.0),`
			`&Color::rgb8(128, 128, 128),`
			`);`
Animating scene Make the scene dependent on timing. This commit patches the HAL to reuse command buffers; this works well on Vulkan and prevents a leak, but breaks the other back-ends. That will require a solution, possibly including plumbing up the resource lifetime responsibilities to the client. Other things might be hacky as well. 2021-09-01 05:46:28 +10:00			`let text_size = 60.0 + 40.0 * (0.01 * i as f64).sin();`
			`rc.save().unwrap();`
			`//rc.transform(Affine::new([0.2, 0.0, 0.0, -0.2, 200.0, 800.0]));`
			`let layout = rc`
			`.text()`
			`.new_text_layout("\u{1f600}hello piet-gpu text!")`
			`.default_attribute(TextAttribute::FontSize(text_size))`
			`.build()`
			`.unwrap();`
			`rc.draw_text(&layout, Point::new(110.0, 600.0));`
			`rc.draw_text(&layout, Point::new(110.0, 700.0));`
			`rc.restore().unwrap();`
			`let th = (std::f64::consts::PI / 180.0) * (i as f64);`
			`let center = Point::new(500.0, 500.0);`
			`let p1 = center + 400.0 * Vec2::from_angle(th);`
			`let line = Line::new(center, p1);`
			`rc.stroke(line, &Color::rgb8(128, 0, 0), 5.0);`
Cargo fmt 2021-09-07 03:19:55 +10:00			`}`