Struct gemini_engine::elements::view::View

pub struct View {
    pub width: usize,
    pub height: usize,
    pub background_char: ColChar,
    pub coord_numbers_in_render: bool,
    /* private fields */
}

The View struct is the canvas on which you will print all of your ViewElements. In normal use, you would clear the View, blit all your ViewElements to it and then render. The following example demonstrates a piece of code that will render a View of width 9 and height 3, with a single Point in the middle

use gemini_engine::elements::{view::{Wrapping, ColChar}, View, Point, Vec2D};

let mut view = View::new(9, 3, ColChar::BACKGROUND);
let point = Point::new(Vec2D::new(4,1), ColChar::SOLID);

view.blit(&point, Wrapping::Panic);

view.display_render().unwrap();

Fields

width: usize

The width of the View

height: usize

The height of the View

background_char: ColChar

The character that the View will be filled with by default on clear

coord_numbers_in_render: bool

A boolean determining whether the render should contain numbers on the top and left signifying the corresponding pixels’ X/Y value values

Implementations

impl View

pub fn new(width: usize, height: usize, background_char: ColChar) -> View

Create a new View using width, height and background_char parameters

Examples found in repository

examples/quick-start.rs (line 10)

fn main() {
    let mut view = View::new(40, 8, ColChar::BACKGROUND);
    let mut point = Point::new(Vec2D { x: 10, y: 5 }, ColChar::SOLID);

    loop {
        view.clear();

        point.pos.x += 1;

        view.blit(&point, Wrapping::Wrap);
        view.display_render().unwrap();

        gameloop::sleep_fps(FPS, None);
    }
}

examples/spinning-cube.rs (line 10)

fn main() {
    let mut view = View::new(350, 90, ColChar::BACKGROUND);

    let mut viewport = Viewport::new(
        Transform3D::new_tr(Vec3D::new(0.0, 0.0, 5.0), Vec3D::new(-0.5, 0.3, 0.0)),
        FOV,
        view.center(),
    );

    let cube = Mesh3D::default_cube();

    fps_gameloop!(
        {
            view.clear();
            viewport.transform.rotation.y -= 0.05;
        },
        {
            view.blit(
                &viewport.render(vec![&cube], DisplayMode::Solid),
                Wrapping::Ignore,
            );
            view.display_render().unwrap();
        },
        FPS,
        |elapsed: gameloop::Duration, frame_skip| {
            println!(
                "Elapsed: {:.2?}µs | Frame skip: {}",
                elapsed.as_micros(),
                frame_skip
            );
        }
    );
}

examples/multi-movement.rs (line 19)

fn main() {
    let mut view = View::new(50, 12, ColChar::BACKGROUND);

    let mut blocks = vec![
        Rect::new(Vec2D::new(0, 0), BLOCK_SIZE, FILL_CHAR),
        Rect::new(Vec2D::new(0, 2), BLOCK_SIZE, FILL_CHAR),
        Rect::new(Vec2D::new(0, 4), BLOCK_SIZE, FILL_CHAR),
        Rect::new(Vec2D::new(0, 6), BLOCK_SIZE, FILL_CHAR),
        Rect::new(Vec2D::new(0, 8), BLOCK_SIZE, FILL_CHAR),
        Rect::new(Vec2D::new(0, 10), BLOCK_SIZE, FILL_CHAR),
    ];

    let mut i = 0;
    fps_gameloop!(
        {
            i += 1;
            for (j, block) in blocks.iter_mut().enumerate() {
                if i % 2_u32.pow(j as u32) == 0 {
                    block.pos.x += 1;
                }
            }
        },
        {
            view.clear();
            for block in &blocks {
                view.blit(block, Wrapping::Wrap);
            }
            view.display_render().unwrap();

            if blocks.iter().all(|b| b.pos.x % view.width as isize == 0) {
                thread::sleep(Duration::from_secs(2));
            };
        },
        200.0
    );
}

examples/complex-scene.rs (line 13)

fn main() {
    let mut view = View::new(60, 10, BACKGROUND_CHAR);
    view.coord_numbers_in_render = true;

    let mut point = Point::new(Vec2D::from((5u8, 9u8)), FILL_CHAR);

    let mut line = Line::new(Vec2D::new(2, 8), Vec2D::new(28, 7), FILL_CHAR);
    let mut line1_direction = -1;

    let rect = Rect::new(
        Vec2D { x: 11, y: 1 },
        Vec2D { x: 9, y: 3 },
        ColChar::SOLID.with_rgb(200, 30, 0),
    );

    let test_image = r"
  ______
 /|_||_\`.__
(   _    _ _\
=`-(_)--(_)-'   ";
    let mut sprite = Sprite::new(
        Vec2D::new(30, 1),
        test_image,
        Modifier::from_rgb(20, 200, 0),
    );

    let mut blit_elapsed = Duration::default();
    let mut render_elapsed = Duration::default();
    fps_gameloop!(
        {
            point.pos.x += 2;
            // loop the position back to the other side. This can be done with `Wrapping::Wrap` but it won't change the element's actual position, so the point position being printed would continue to increase without looping
            point.pos %= view.size();

            line.pos1.y += line1_direction;
            line.pos0.y = 10 - line.pos1.y;
            if line.pos1.y > 7 {
                line1_direction = -1;
            } else if line.pos1.y < 3 {
                line1_direction = 1;
            }

            sprite.pos.x += 1;
        },
        {
            view.clear();

            let now = Instant::now();
            view.blit(&point, Wrapping::Panic);
            view.blit(&line, Wrapping::Panic);
            view.blit(&rect, Wrapping::Panic);
            view.blit(&sprite, Wrapping::Wrap);
            blit_elapsed = now.elapsed();

            let now = Instant::now();
            view.display_render().unwrap();
            render_elapsed = now.elapsed();
        },
        FPS,
        |total_elapsed: Duration, _frame_skip| {
            println!(
                "Blitting: {:.2?} microseconds | Rendering: {:.2?} microseconds| Total: {:.2?}",
                blit_elapsed.as_micros(),
                render_elapsed.as_micros(),
                total_elapsed.as_micros()
            );
            println!("Point position: {}", point.pos);
        }
    );
}

pub fn size(&self) -> Vec2D

Return the size of the View as a Vec2D

Examples found in repository

examples/complex-scene.rs (line 44)

fn main() {
    let mut view = View::new(60, 10, BACKGROUND_CHAR);
    view.coord_numbers_in_render = true;

    let mut point = Point::new(Vec2D::from((5u8, 9u8)), FILL_CHAR);

    let mut line = Line::new(Vec2D::new(2, 8), Vec2D::new(28, 7), FILL_CHAR);
    let mut line1_direction = -1;

    let rect = Rect::new(
        Vec2D { x: 11, y: 1 },
        Vec2D { x: 9, y: 3 },
        ColChar::SOLID.with_rgb(200, 30, 0),
    );

    let test_image = r"
  ______
 /|_||_\`.__
(   _    _ _\
=`-(_)--(_)-'   ";
    let mut sprite = Sprite::new(
        Vec2D::new(30, 1),
        test_image,
        Modifier::from_rgb(20, 200, 0),
    );

    let mut blit_elapsed = Duration::default();
    let mut render_elapsed = Duration::default();
    fps_gameloop!(
        {
            point.pos.x += 2;
            // loop the position back to the other side. This can be done with `Wrapping::Wrap` but it won't change the element's actual position, so the point position being printed would continue to increase without looping
            point.pos %= view.size();

            line.pos1.y += line1_direction;
            line.pos0.y = 10 - line.pos1.y;
            if line.pos1.y > 7 {
                line1_direction = -1;
            } else if line.pos1.y < 3 {
                line1_direction = 1;
            }

            sprite.pos.x += 1;
        },
        {
            view.clear();

            let now = Instant::now();
            view.blit(&point, Wrapping::Panic);
            view.blit(&line, Wrapping::Panic);
            view.blit(&rect, Wrapping::Panic);
            view.blit(&sprite, Wrapping::Wrap);
            blit_elapsed = now.elapsed();

            let now = Instant::now();
            view.display_render().unwrap();
            render_elapsed = now.elapsed();
        },
        FPS,
        |total_elapsed: Duration, _frame_skip| {
            println!(
                "Blitting: {:.2?} microseconds | Rendering: {:.2?} microseconds| Total: {:.2?}",
                blit_elapsed.as_micros(),
                render_elapsed.as_micros(),
                total_elapsed.as_micros()
            );
            println!("Point position: {}", point.pos);
        }
    );
}

pub fn center(&self) -> Vec2D

Return a Vec2D representing the centre of the View

Examples found in repository

examples/spinning-cube.rs (line 15)

fn main() {
    let mut view = View::new(350, 90, ColChar::BACKGROUND);

    let mut viewport = Viewport::new(
        Transform3D::new_tr(Vec3D::new(0.0, 0.0, 5.0), Vec3D::new(-0.5, 0.3, 0.0)),
        FOV,
        view.center(),
    );

    let cube = Mesh3D::default_cube();

    fps_gameloop!(
        {
            view.clear();
            viewport.transform.rotation.y -= 0.05;
        },
        {
            view.blit(
                &viewport.render(vec![&cube], DisplayMode::Solid),
                Wrapping::Ignore,
            );
            view.display_render().unwrap();
        },
        FPS,
        |elapsed: gameloop::Duration, frame_skip| {
            println!(
                "Elapsed: {:.2?}µs | Frame skip: {}",
                elapsed.as_micros(),
                frame_skip
            );
        }
    );
}

pub fn clear(&mut self)

Clear the View of all pixels

Examples found in repository

examples/quick-start.rs (line 14)

fn main() {
    let mut view = View::new(40, 8, ColChar::BACKGROUND);
    let mut point = Point::new(Vec2D { x: 10, y: 5 }, ColChar::SOLID);

    loop {
        view.clear();

        point.pos.x += 1;

        view.blit(&point, Wrapping::Wrap);
        view.display_render().unwrap();

        gameloop::sleep_fps(FPS, None);
    }
}

examples/spinning-cube.rs (line 22)

fn main() {
    let mut view = View::new(350, 90, ColChar::BACKGROUND);

    let mut viewport = Viewport::new(
        Transform3D::new_tr(Vec3D::new(0.0, 0.0, 5.0), Vec3D::new(-0.5, 0.3, 0.0)),
        FOV,
        view.center(),
    );

    let cube = Mesh3D::default_cube();

    fps_gameloop!(
        {
            view.clear();
            viewport.transform.rotation.y -= 0.05;
        },
        {
            view.blit(
                &viewport.render(vec![&cube], DisplayMode::Solid),
                Wrapping::Ignore,
            );
            view.display_render().unwrap();
        },
        FPS,
        |elapsed: gameloop::Duration, frame_skip| {
            println!(
                "Elapsed: {:.2?}µs | Frame skip: {}",
                elapsed.as_micros(),
                frame_skip
            );
        }
    );
}

examples/multi-movement.rs (line 41)

fn main() {
    let mut view = View::new(50, 12, ColChar::BACKGROUND);

    let mut blocks = vec![
        Rect::new(Vec2D::new(0, 0), BLOCK_SIZE, FILL_CHAR),
        Rect::new(Vec2D::new(0, 2), BLOCK_SIZE, FILL_CHAR),
        Rect::new(Vec2D::new(0, 4), BLOCK_SIZE, FILL_CHAR),
        Rect::new(Vec2D::new(0, 6), BLOCK_SIZE, FILL_CHAR),
        Rect::new(Vec2D::new(0, 8), BLOCK_SIZE, FILL_CHAR),
        Rect::new(Vec2D::new(0, 10), BLOCK_SIZE, FILL_CHAR),
    ];

    let mut i = 0;
    fps_gameloop!(
        {
            i += 1;
            for (j, block) in blocks.iter_mut().enumerate() {
                if i % 2_u32.pow(j as u32) == 0 {
                    block.pos.x += 1;
                }
            }
        },
        {
            view.clear();
            for block in &blocks {
                view.blit(block, Wrapping::Wrap);
            }
            view.display_render().unwrap();

            if blocks.iter().all(|b| b.pos.x % view.width as isize == 0) {
                thread::sleep(Duration::from_secs(2));
            };
        },
        200.0
    );
}

examples/complex-scene.rs (line 57)

fn main() {
    let mut view = View::new(60, 10, BACKGROUND_CHAR);
    view.coord_numbers_in_render = true;

    let mut point = Point::new(Vec2D::from((5u8, 9u8)), FILL_CHAR);

    let mut line = Line::new(Vec2D::new(2, 8), Vec2D::new(28, 7), FILL_CHAR);
    let mut line1_direction = -1;

    let rect = Rect::new(
        Vec2D { x: 11, y: 1 },
        Vec2D { x: 9, y: 3 },
        ColChar::SOLID.with_rgb(200, 30, 0),
    );

    let test_image = r"
  ______
 /|_||_\`.__
(   _    _ _\
=`-(_)--(_)-'   ";
    let mut sprite = Sprite::new(
        Vec2D::new(30, 1),
        test_image,
        Modifier::from_rgb(20, 200, 0),
    );

    let mut blit_elapsed = Duration::default();
    let mut render_elapsed = Duration::default();
    fps_gameloop!(
        {
            point.pos.x += 2;
            // loop the position back to the other side. This can be done with `Wrapping::Wrap` but it won't change the element's actual position, so the point position being printed would continue to increase without looping
            point.pos %= view.size();

            line.pos1.y += line1_direction;
            line.pos0.y = 10 - line.pos1.y;
            if line.pos1.y > 7 {
                line1_direction = -1;
            } else if line.pos1.y < 3 {
                line1_direction = 1;
            }

            sprite.pos.x += 1;
        },
        {
            view.clear();

            let now = Instant::now();
            view.blit(&point, Wrapping::Panic);
            view.blit(&line, Wrapping::Panic);
            view.blit(&rect, Wrapping::Panic);
            view.blit(&sprite, Wrapping::Wrap);
            blit_elapsed = now.elapsed();

            let now = Instant::now();
            view.display_render().unwrap();
            render_elapsed = now.elapsed();
        },
        FPS,
        |total_elapsed: Duration, _frame_skip| {
            println!(
                "Blitting: {:.2?} microseconds | Rendering: {:.2?} microseconds| Total: {:.2?}",
                blit_elapsed.as_micros(),
                render_elapsed.as_micros(),
                total_elapsed.as_micros()
            );
            println!("Point position: {}", point.pos);
        }
    );
}

pub fn plot(&mut self, pos: Vec2D, c: ColChar, wrapping: Wrapping)

Plot a pixel to the View. Accepts a Vec2D (the position of the pixel), ColChar (what the pixel should look like/what colour it should be), and a Wrapping enum variant (Please see the Wrapping documentation for more info)

pub fn blit(&mut self, element: &impl ViewElement, wrapping: Wrapping)

Blit a struct implementing ViewElement to the View

Examples found in repository

examples/quick-start.rs (line 18)

fn main() {
    let mut view = View::new(40, 8, ColChar::BACKGROUND);
    let mut point = Point::new(Vec2D { x: 10, y: 5 }, ColChar::SOLID);

    loop {
        view.clear();

        point.pos.x += 1;

        view.blit(&point, Wrapping::Wrap);
        view.display_render().unwrap();

        gameloop::sleep_fps(FPS, None);
    }
}

examples/spinning-cube.rs (lines 26-29)

fn main() {
    let mut view = View::new(350, 90, ColChar::BACKGROUND);

    let mut viewport = Viewport::new(
        Transform3D::new_tr(Vec3D::new(0.0, 0.0, 5.0), Vec3D::new(-0.5, 0.3, 0.0)),
        FOV,
        view.center(),
    );

    let cube = Mesh3D::default_cube();

    fps_gameloop!(
        {
            view.clear();
            viewport.transform.rotation.y -= 0.05;
        },
        {
            view.blit(
                &viewport.render(vec![&cube], DisplayMode::Solid),
                Wrapping::Ignore,
            );
            view.display_render().unwrap();
        },
        FPS,
        |elapsed: gameloop::Duration, frame_skip| {
            println!(
                "Elapsed: {:.2?}µs | Frame skip: {}",
                elapsed.as_micros(),
                frame_skip
            );
        }
    );
}

examples/multi-movement.rs (line 43)

fn main() {
    let mut view = View::new(50, 12, ColChar::BACKGROUND);

    let mut blocks = vec![
        Rect::new(Vec2D::new(0, 0), BLOCK_SIZE, FILL_CHAR),
        Rect::new(Vec2D::new(0, 2), BLOCK_SIZE, FILL_CHAR),
        Rect::new(Vec2D::new(0, 4), BLOCK_SIZE, FILL_CHAR),
        Rect::new(Vec2D::new(0, 6), BLOCK_SIZE, FILL_CHAR),
        Rect::new(Vec2D::new(0, 8), BLOCK_SIZE, FILL_CHAR),
        Rect::new(Vec2D::new(0, 10), BLOCK_SIZE, FILL_CHAR),
    ];

    let mut i = 0;
    fps_gameloop!(
        {
            i += 1;
            for (j, block) in blocks.iter_mut().enumerate() {
                if i % 2_u32.pow(j as u32) == 0 {
                    block.pos.x += 1;
                }
            }
        },
        {
            view.clear();
            for block in &blocks {
                view.blit(block, Wrapping::Wrap);
            }
            view.display_render().unwrap();

            if blocks.iter().all(|b| b.pos.x % view.width as isize == 0) {
                thread::sleep(Duration::from_secs(2));
            };
        },
        200.0
    );
}

examples/complex-scene.rs (line 60)

fn main() {
    let mut view = View::new(60, 10, BACKGROUND_CHAR);
    view.coord_numbers_in_render = true;

    let mut point = Point::new(Vec2D::from((5u8, 9u8)), FILL_CHAR);

    let mut line = Line::new(Vec2D::new(2, 8), Vec2D::new(28, 7), FILL_CHAR);
    let mut line1_direction = -1;

    let rect = Rect::new(
        Vec2D { x: 11, y: 1 },
        Vec2D { x: 9, y: 3 },
        ColChar::SOLID.with_rgb(200, 30, 0),
    );

    let test_image = r"
  ______
 /|_||_\`.__
(   _    _ _\
=`-(_)--(_)-'   ";
    let mut sprite = Sprite::new(
        Vec2D::new(30, 1),
        test_image,
        Modifier::from_rgb(20, 200, 0),
    );

    let mut blit_elapsed = Duration::default();
    let mut render_elapsed = Duration::default();
    fps_gameloop!(
        {
            point.pos.x += 2;
            // loop the position back to the other side. This can be done with `Wrapping::Wrap` but it won't change the element's actual position, so the point position being printed would continue to increase without looping
            point.pos %= view.size();

            line.pos1.y += line1_direction;
            line.pos0.y = 10 - line.pos1.y;
            if line.pos1.y > 7 {
                line1_direction = -1;
            } else if line.pos1.y < 3 {
                line1_direction = 1;
            }

            sprite.pos.x += 1;
        },
        {
            view.clear();

            let now = Instant::now();
            view.blit(&point, Wrapping::Panic);
            view.blit(&line, Wrapping::Panic);
            view.blit(&rect, Wrapping::Panic);
            view.blit(&sprite, Wrapping::Wrap);
            blit_elapsed = now.elapsed();

            let now = Instant::now();
            view.display_render().unwrap();
            render_elapsed = now.elapsed();
        },
        FPS,
        |total_elapsed: Duration, _frame_skip| {
            println!(
                "Blitting: {:.2?} microseconds | Rendering: {:.2?} microseconds| Total: {:.2?}",
                blit_elapsed.as_micros(),
                render_elapsed.as_micros(),
                total_elapsed.as_micros()
            );
            println!("Point position: {}", point.pos);
        }
    );
}

pub fn display_render(&self) -> Result<()>

Display the View. View implements the Display trait and so can be rendered in many ways (such as println!("{view}");), but this is intended to be the fastest way possible.

Examples found in repository

examples/quick-start.rs (line 19)

fn main() {
    let mut view = View::new(40, 8, ColChar::BACKGROUND);
    let mut point = Point::new(Vec2D { x: 10, y: 5 }, ColChar::SOLID);

    loop {
        view.clear();

        point.pos.x += 1;

        view.blit(&point, Wrapping::Wrap);
        view.display_render().unwrap();

        gameloop::sleep_fps(FPS, None);
    }
}

examples/spinning-cube.rs (line 30)

fn main() {
    let mut view = View::new(350, 90, ColChar::BACKGROUND);

    let mut viewport = Viewport::new(
        Transform3D::new_tr(Vec3D::new(0.0, 0.0, 5.0), Vec3D::new(-0.5, 0.3, 0.0)),
        FOV,
        view.center(),
    );

    let cube = Mesh3D::default_cube();

    fps_gameloop!(
        {
            view.clear();
            viewport.transform.rotation.y -= 0.05;
        },
        {
            view.blit(
                &viewport.render(vec![&cube], DisplayMode::Solid),
                Wrapping::Ignore,
            );
            view.display_render().unwrap();
        },
        FPS,
        |elapsed: gameloop::Duration, frame_skip| {
            println!(
                "Elapsed: {:.2?}µs | Frame skip: {}",
                elapsed.as_micros(),
                frame_skip
            );
        }
    );
}

examples/multi-movement.rs (line 45)

fn main() {
    let mut view = View::new(50, 12, ColChar::BACKGROUND);

    let mut blocks = vec![
        Rect::new(Vec2D::new(0, 0), BLOCK_SIZE, FILL_CHAR),
        Rect::new(Vec2D::new(0, 2), BLOCK_SIZE, FILL_CHAR),
        Rect::new(Vec2D::new(0, 4), BLOCK_SIZE, FILL_CHAR),
        Rect::new(Vec2D::new(0, 6), BLOCK_SIZE, FILL_CHAR),
        Rect::new(Vec2D::new(0, 8), BLOCK_SIZE, FILL_CHAR),
        Rect::new(Vec2D::new(0, 10), BLOCK_SIZE, FILL_CHAR),
    ];

    let mut i = 0;
    fps_gameloop!(
        {
            i += 1;
            for (j, block) in blocks.iter_mut().enumerate() {
                if i % 2_u32.pow(j as u32) == 0 {
                    block.pos.x += 1;
                }
            }
        },
        {
            view.clear();
            for block in &blocks {
                view.blit(block, Wrapping::Wrap);
            }
            view.display_render().unwrap();

            if blocks.iter().all(|b| b.pos.x % view.width as isize == 0) {
                thread::sleep(Duration::from_secs(2));
            };
        },
        200.0
    );
}

examples/complex-scene.rs (line 67)

fn main() {
    let mut view = View::new(60, 10, BACKGROUND_CHAR);
    view.coord_numbers_in_render = true;

    let mut point = Point::new(Vec2D::from((5u8, 9u8)), FILL_CHAR);

    let mut line = Line::new(Vec2D::new(2, 8), Vec2D::new(28, 7), FILL_CHAR);
    let mut line1_direction = -1;

    let rect = Rect::new(
        Vec2D { x: 11, y: 1 },
        Vec2D { x: 9, y: 3 },
        ColChar::SOLID.with_rgb(200, 30, 0),
    );

    let test_image = r"
  ______
 /|_||_\`.__
(   _    _ _\
=`-(_)--(_)-'   ";
    let mut sprite = Sprite::new(
        Vec2D::new(30, 1),
        test_image,
        Modifier::from_rgb(20, 200, 0),
    );

    let mut blit_elapsed = Duration::default();
    let mut render_elapsed = Duration::default();
    fps_gameloop!(
        {
            point.pos.x += 2;
            // loop the position back to the other side. This can be done with `Wrapping::Wrap` but it won't change the element's actual position, so the point position being printed would continue to increase without looping
            point.pos %= view.size();

            line.pos1.y += line1_direction;
            line.pos0.y = 10 - line.pos1.y;
            if line.pos1.y > 7 {
                line1_direction = -1;
            } else if line.pos1.y < 3 {
                line1_direction = 1;
            }

            sprite.pos.x += 1;
        },
        {
            view.clear();

            let now = Instant::now();
            view.blit(&point, Wrapping::Panic);
            view.blit(&line, Wrapping::Panic);
            view.blit(&rect, Wrapping::Panic);
            view.blit(&sprite, Wrapping::Wrap);
            blit_elapsed = now.elapsed();

            let now = Instant::now();
            view.display_render().unwrap();
            render_elapsed = now.elapsed();
        },
        FPS,
        |total_elapsed: Duration, _frame_skip| {
            println!(
                "Blitting: {:.2?} microseconds | Rendering: {:.2?} microseconds| Total: {:.2?}",
                blit_elapsed.as_micros(),
                render_elapsed.as_micros(),
                total_elapsed.as_micros()
            );
            println!("Point position: {}", point.pos);
        }
    );
}

Trait Implementations

impl Clone for View

fn clone(&self) -> View

Returns a copy of the value.

fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source.

impl Debug for View

fn fmt(&self, f: &mut Formatter<'_>) -> Result

Formats the value using the given formatter.

impl Display for View

fn fmt(&self, f: &mut Formatter<'_>) -> Result

Formats the value using the given formatter.