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//! Mock display for use in tests. //! //! [`MockDisplay`] can be used to replace a real display in tests. The internal //! framebuffer wraps the color values in `Option` to be able to test which //! pixels were modified by drawing operations. //! //! The [`from_pattern`] method provides a convenient way of creating expected //! test results. The same patterns are used by the implementation of `Debug` //! and will be shown in failing tests. //! //! The display is internally capped at 64x64px. //! //! # Assertions //! //! [`MockDisplay`] provides the [`assert_eq`] and [`assert_pattern`] methods to check if the //! display is in the correct state after some drawing operations were executed. It's recommended //! to use these methods instead of the standard `assert_eq!` macro, because they provide an //! optional improved debug output for failing tests. If the `EG_FANCY_PANIC` environment variable //! is set to `1` at compile time a graphic representation of the display content and a diff of the //! display and the expected output will be shown: //! //! ```bash //! EG_FANCY_PANIC=1 cargo test //! ``` //! //! Enabling the advanced test output requires a terminal that supports 24 BPP colors and a font //! that includes the upper half block character `'\u{2580}'`. //! //! The color code used to show the difference between the display and the expected output is shown //! in the documentation of the [`diff`] method. //! //! # Additional out of bounds and overdraw checks //! //! [`MockDisplay`] implements additional checks during drawing operations that will cause a panic if //! any pixel is drawn outside the framebuffer or if a pixel is drawn more than once. These //! stricter checks were added to help with testing and shouldn't be implemented by normal //! [`DrawTarget`]s. //! //! If a test relies on out of bounds drawing or overdrawing the additional checks can explicitly //! be disabled by using [`set_allow_out_of_bounds_drawing`] and [`set_allow_overdraw`]. //! //! # Characters used in `BinaryColor` patterns //! //! The following mappings are available for [`BinaryColor`]: //! //! | Character | Color | Description | //! |-----------|--------------------------|-----------------------------------------| //! | `' '` | `None` | No drawing operation changed the pixel | //! | `'.'` | `Some(BinaryColor::Off)` | Pixel was changed to `BinaryColor::Off` | //! | `'#'` | `Some(BinaryColor::On)` | Pixel was changed to `BinaryColor::On` | //! //! # Characters used in [`Gray2`] patterns //! //! The following mappings are available for [`Gray2`]: //! //! | Character | Color | Description | //! |-----------|--------------------------|-----------------------------------------| //! | `' '` | `None` | No drawing operation changed the pixel | //! | `'0'` | `Some(Gray2::new(0x0))` | Pixel was changed to `Gray2::new(0x0)` | //! | `'1'` | `Some(Gray2::new(0x1))` | Pixel was changed to `Gray2::new(0x1)` | //! | `'2'` | `Some(Gray2::new(0x2))` | Pixel was changed to `Gray2::new(0x2)` | //! | `'3'` | `Some(Gray2::new(0x3))` | Pixel was changed to `Gray2::new(0x3)` | //! //! # Characters used in [`Gray4`] patterns //! //! The following mappings are available for [`Gray4`]: //! //! | Character | Color | Description | //! |-----------|--------------------------|-----------------------------------------| //! | `' '` | `None` | No drawing operation changed the pixel | //! | `'0'` | `Some(Gray4::new(0x0))` | Pixel was changed to `Gray4::new(0x0)` | //! | `'1'` | `Some(Gray4::new(0x1))` | Pixel was changed to `Gray4::new(0x1)` | //! | ⋮ | ⋮ | ⋮ | //! | `'E'` | `Some(Gray4::new(0xE))` | Pixel was changed to `Gray4::new(0xE)` | //! | `'F'` | `Some(Gray4::new(0xF))` | Pixel was changed to `Gray4::new(0xF)` | //! //! # Characters used in [`Gray8`] patterns //! //! The following mappings are available for [`Gray8`]: //! //! | Character | Color | Description | //! |-----------|--------------------------|-----------------------------------------| //! | `' '` | `None` | No drawing operation changed the pixel | //! | `'0'` | `Some(Gray8::new(0x00))` | Pixel was changed to `Gray8::new(0x00)` | //! | `'1'` | `Some(Gray8::new(0x11))` | Pixel was changed to `Gray8::new(0x11)` | //! | ⋮ | ⋮ | ⋮ | //! | `'E'` | `Some(Gray8::new(0xEE))` | Pixel was changed to `Gray8::new(0xEE)` | //! | `'F'` | `Some(Gray8::new(0xFF))` | Pixel was changed to `Gray8::new(0xFF)` | //! //! Note: `Gray8` uses a different mapping than `Gray2` and `Gray4`, by duplicating the pattern //! value into the high and low nibble. This allows using a single digit to test luma values ranging //! from 0 to 255. //! //! # Characters used in RGB color patterns //! //! The following mappings are available for all RGB color types in the [`pixelcolor`] module, //! like [`Rgb565`] or [`Rgb888`]: //! //! | Character | Color | Description | //! |-----------|--------------------------|-----------------------------------------| //! | `' '` | `None` | No drawing operation changed the pixel | //! | `'K'` | `Some(C::BLACK)` | Pixel was changed to `C::BLACK` | //! | `'R'` | `Some(C::RED)` | Pixel was changed to `C::RED` | //! | `'G'` | `Some(C::GREEN)` | Pixel was changed to `C::GREEN` | //! | `'B'` | `Some(C::BLUE)` | Pixel was changed to `C::BLUE` | //! | `'Y'` | `Some(C::YELLOW)` | Pixel was changed to `C::YELLOW` | //! | `'M'` | `Some(C::MAGENTA)` | Pixel was changed to `C::MAGENTA` | //! | `'C'` | `Some(C::CYAN)` | Pixel was changed to `C::CYAN` | //! | `'W'` | `Some(C::WHITE)` | Pixel was changed to `C::WHITE` | //! //! Note: The table used `C` as a placeholder for the actual color type, like `Rgb565::BLACK`. //! //! # Examples //! //! ## Assert that a modified display matches the expected value //! //! This example sets three pixels on the display and checks that they're turned on. //! //! ```rust //! use embedded_graphics::{mock_display::MockDisplay, pixelcolor::BinaryColor, prelude::*}; //! //! let mut display = MockDisplay::new(); //! //! Pixel(Point::new(0, 0), BinaryColor::On).draw(&mut display); //! Pixel(Point::new(2, 1), BinaryColor::On).draw(&mut display); //! Pixel(Point::new(1, 2), BinaryColor::On).draw(&mut display); //! //! display.assert_pattern(&[ //! "# ", // //! " #", // //! " # ", // //! ]); //! ``` //! //! ## Load and validate a 16BPP image //! //! This example loads the following test image (scaled 10x to make it visible) and tests the //! returned pixels against an expected pattern. //! //! ![Test image, scaled 1000%](data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAACgAAAAUCAIAAABwJOjsAAAAMUlEQVRIx2NkwAv+45Vl/E++XiaGAQKjFo9aPGrx0LeYhVAJMxrUoxaPWjxq8aCzGAAVwwQnmlfSgwAAAABJRU5ErkJggg==) //! //! ```rust //! use embedded_graphics::{ //! image::{Image, ImageRaw, ImageRawBE}, //! mock_display::MockDisplay, //! pixelcolor::{Rgb565, RgbColor}, //! prelude::*, //! }; //! //! let data = [ //! 0x00, 0x00, 0xF8, 0x00, 0x07, 0xE0, 0xFF, 0xE0, // //! 0x00, 0x1F, 0x07, 0xFF, 0xF8, 0x1F, 0xFF, 0xFF, // //! ]; //! //! let raw: ImageRawBE<Rgb565> = ImageRaw::new(&data, 4); //! //! let image = Image::new(&raw, Point::zero()); //! //! let mut display: MockDisplay<Rgb565> = MockDisplay::new(); //! //! image.draw(&mut display); //! //! display.assert_pattern(&[ //! "KRGY", // //! "BCMW", // //! ]); //! ``` //! //! [`pixelcolor`]: ../pixelcolor/index.html#structs //! [`BinaryColor`]: ../pixelcolor/enum.BinaryColor.html //! [`Gray2`]: ../pixelcolor/struct.Gray2.html //! [`Gray4`]: ../pixelcolor/struct.Gray4.html //! [`Gray8`]: ../pixelcolor/struct.Gray8.html //! [`Rgb565`]: ../pixelcolor/struct.Rgb565.html //! [`Rgb888`]: ../pixelcolor/struct.Rgb888.html //! [`DrawTarget`]: ../draw_target/trait.DrawTarget.html //! [`MockDisplay`]: struct.MockDisplay.html //! [`assert_eq`]: struct.MockDisplay.html#method.assert_eq //! [`assert_pattern`]: struct.MockDisplay.html#method.assert_pattern //! [`diff`]: struct.MockDisplay.html#method.diff //! [`from_pattern`]: struct.MockDisplay.html#method.from_pattern //! [`set_allow_overdraw`]: struct.MockDisplay.html#method.set_allow_overdraw //! [`set_allow_out_of_bounds_drawing`]: struct.MockDisplay.html#method.set_allow_out_of_bounds_drawing mod color_mapping; mod fancy_panic; use crate::{ draw_target::DrawTarget, geometry::{Dimensions, OriginDimensions, Point, Size}, pixelcolor::{PixelColor, Rgb888, RgbColor}, primitives::{PointsIter, Rectangle}, Pixel, }; pub use color_mapping::ColorMapping; use core::{ fmt::{self, Write}, iter, }; use fancy_panic::FancyPanic; const SIZE: usize = 64; const DISPLAY_AREA: Rectangle = Rectangle::new(Point::zero(), Size::new_equal(SIZE as u32)); /// Mock display struct /// /// See the [module documentation](./index.html) for usage and examples. #[derive(Clone)] pub struct MockDisplay<C> where C: PixelColor, { pixels: [Option<C>; SIZE * SIZE], allow_overdraw: bool, allow_out_of_bounds_drawing: bool, } impl<C> MockDisplay<C> where C: PixelColor, { /// Creates a new empty mock display. pub fn new() -> Self { Self::default() } /// Create a mock display from an iterator of [`Point`]s. /// /// This method can be used to create a mock display from the iterator produced by the /// [`PointsIter::points`] method. /// /// # Panics /// /// This method will panic if the iterator returns a point that is outside the display bounding /// box. /// /// # Examples /// /// ```rust /// use embedded_graphics::{prelude::*, pixelcolor::BinaryColor, primitives::Circle, mock_display::MockDisplay}; /// /// let circle = Circle::new(Point::new(0, 0), 4); /// /// let mut display = MockDisplay::from_points(circle.points(), BinaryColor::On); /// /// display.assert_pattern(&[ /// " ## ", /// "####", /// "####", /// " ## ", /// ]); /// ``` /// /// [`Point`]: ../geometry/struct.Point.html /// [`PointsIter::points`]: ../primitives/trait.PointsIter.html#tymethod.points /// [`map`]: #method.map /// [`BinaryColor`]: ../pixelcolor/enum.BinaryColor.html pub fn from_points<I>(points: I, color: C) -> Self where I: IntoIterator<Item = Point>, { let mut display = Self::new(); display.set_pixels(points, Some(color)); display } /// Sets if out of bounds drawing is allowed. /// /// If this is set to `true` the bounds checks during drawing are disabled. pub fn set_allow_out_of_bounds_drawing(&mut self, value: bool) { self.allow_out_of_bounds_drawing = value; } /// Sets if overdrawing is allowed. /// /// If this is set to `true` the overdrawing is allowed. pub fn set_allow_overdraw(&mut self, value: bool) { self.allow_overdraw = value; } /// Returns the color of a pixel. pub fn get_pixel(&self, p: Point) -> Option<C> { let Point { x, y } = p; self.pixels[x as usize + y as usize * SIZE] } /// Changes the value of a pixel without bounds checking. /// /// # Panics /// /// This method will panic if `point` is outside the display bounding box. pub fn set_pixel(&mut self, point: Point, color: Option<C>) { assert!( point.x >= 0 && point.y >= 0 && point.x < SIZE as i32 && point.y < SIZE as i32, "point must be inside display bounding box: {:?}", point ); let i = point.x + point.y * SIZE as i32; self.pixels[i as usize] = color; } /// Changes the value of a pixel without bounds checking. /// /// # Panics /// /// This method will panic if `point` is outside the display bounding box. fn set_pixel_unchecked(&mut self, point: Point, color: Option<C>) { let i = point.x + point.y * SIZE as i32; self.pixels[i as usize] = color; } /// Sets the points in an iterator to the given color. /// /// # Panics /// /// This method will panic if the iterator returns points outside the display bounding box. pub fn set_pixels(&mut self, points: impl IntoIterator<Item = Point>, color: Option<C>) { for point in points { self.set_pixel(point, color); } } /// Returns the area that was affected by drawing operations. pub fn affected_area(&self) -> Rectangle { let (tl, br) = self .bounding_box() .points() .zip(self.pixels.iter()) .filter_map(|(point, color)| color.map(|_| point)) .fold( (None, None), |(tl, br): (Option<Point>, Option<Point>), point| { ( tl.map(|tl| tl.component_min(point)).or(Some(point)), br.map(|br| br.component_max(point)).or(Some(point)), ) }, ); if let (Some(tl), Some(br)) = (tl, br) { Rectangle::with_corners(tl, br) } else { Rectangle::zero() } } /// Returns the `affected_area` with the top left corner extended to `(0, 0)`. fn affected_area_origin(&self) -> Rectangle { self.affected_area() .bottom_right() .map(|bottom_right| Rectangle::with_corners(Point::zero(), bottom_right)) .unwrap_or_default() } /// Changes the color of a pixel. /// /// # Panics /// /// If out of bounds draw checking is enabled (default), this method will panic if the point /// lies outside the display area. This behavior can be disabled by calling /// [`set_allow_out_of_bounds_drawing(true)`]. /// /// Similarly, overdraw is checked by default and will panic if a point is drawn to the same /// coordinate twice. This behavior can be disabled by calling [`set_allow_overdraw(true)`]. /// /// [`set_allow_out_of_bounds_drawing(true)`]: #method.set_allow_out_of_bounds_drawing /// [`set_allow_overdraw(true)`]: #method.set_allow_overdraw pub fn draw_pixel(&mut self, point: Point, color: C) { if !DISPLAY_AREA.contains(point) { if !self.allow_out_of_bounds_drawing { panic!( "tried to draw pixel outside the display area (x: {}, y: {})", point.x, point.y ); } else { return; } } if !self.allow_overdraw && self.get_pixel(point).is_some() { panic!("tried to draw pixel twice (x: {}, y: {})", point.x, point.y); } self.set_pixel_unchecked(point, Some(color)); } /// Returns a copy of with the content mirrored by swapping x and y. /// /// # Examples /// /// ``` /// use embedded_graphics::{mock_display::MockDisplay, pixelcolor::BinaryColor}; /// /// let display: MockDisplay<BinaryColor> = MockDisplay::from_pattern(&[ /// "#### ####", /// "# # ", /// "### # ##", /// "# # #", /// "#### ####", /// ]); /// /// let mirrored = display.swap_xy(); /// mirrored.assert_pattern(&[ /// "#####", /// "# # #", /// "# # #", /// "# #", /// " ", /// "#####", /// "# #", /// "# # #", /// "# ###", /// ]); /// ``` pub fn swap_xy(&self) -> MockDisplay<C> { let mut mirrored = MockDisplay::new(); for point in self.bounding_box().points() { mirrored.set_pixel_unchecked(point, self.get_pixel(Point::new(point.y, point.x))); } mirrored } /// Maps a `MockDisplay<C>' to a `MockDisplay<CT>` by applying a function /// to each pixel. /// /// # Examples /// /// Invert a `MockDisplay` by applying [`BinaryColor::invert`] to the color of each pixel. /// /// [`BinaryColor::invert`]: ../pixelcolor/enum.BinaryColor.html#method.invert /// /// ``` /// use embedded_graphics::{mock_display::MockDisplay, pixelcolor::BinaryColor}; /// /// let display: MockDisplay<BinaryColor> = MockDisplay::from_pattern(&[ /// "####", /// "# .", /// "....", /// ]); /// /// let inverted = display.map(|c| c.invert()); /// inverted.assert_pattern(&[ /// "....", /// ". #", /// "####", /// ]); /// ``` pub fn map<CT, F>(&self, f: F) -> MockDisplay<CT> where CT: PixelColor, F: Fn(C) -> CT + Copy, { let mut target = MockDisplay::new(); for point in self.bounding_box().points() { target.set_pixel_unchecked(point, self.get_pixel(point).map(f)) } target } /// Compares the display to another display. /// /// The following color code is used to show the difference between the displays: /// /// | Color | Description | /// |---------------------|---------------------------------------------------------------| /// | None | The color of the pixel is equal in both displays. | /// | Some(Rgb888::GREEN) | The pixel was only set in `self` | /// | Some(Rgb888::RED) | The pixel was only set in `other` | /// | Some(Rgb888::BLUE) | The pixel was set to a different colors in `self` and `other` | pub fn diff(&self, other: &MockDisplay<C>) -> MockDisplay<Rgb888> { let mut display = MockDisplay::new(); for point in display.bounding_box().points() { let self_color = self.get_pixel(point); let other_color = other.get_pixel(point); let diff_color = match (self_color, other_color) { (Some(_), None) => Some(Rgb888::GREEN), (None, Some(_)) => Some(Rgb888::RED), (Some(s), Some(o)) if s != o => Some(Rgb888::BLUE), _ => None, }; display.set_pixel_unchecked(point, diff_color); } display } } impl<C: PixelColor> PartialEq for MockDisplay<C> { fn eq(&self, other: &Self) -> bool { self.pixels.iter().eq(other.pixels.iter()) } } impl<C> MockDisplay<C> where C: PixelColor + ColorMapping, { /// Creates a new mock display from a character pattern. /// /// The color pattern is specified by a slice of string slices. Each string /// slice represents a row of pixels and every character a single pixel. /// /// A space character in the pattern represents a pixel which wasn't /// modified by any drawing routine and is left in the default state. /// All other characters are converted by implementations of the /// [`ColorMapping`] trait. /// /// [`ColorMapping`]: trait.ColorMapping.html pub fn from_pattern(pattern: &[&str]) -> MockDisplay<C> { // Check pattern dimensions. let pattern_width = pattern.first().map_or(0, |row| row.len()); let pattern_height = pattern.len(); assert!( pattern_width <= SIZE, "Test pattern must not be wider than {} columns", SIZE ); assert!( pattern_height <= SIZE, "Test pattern must not be taller than {} rows", SIZE ); for (row_idx, row) in pattern.iter().enumerate() { assert_eq!( row.len(), pattern_width, "Row #{} is {} characters wide (must be {} characters to match previous rows)", row_idx + 1, row.len(), pattern_width ); } // Convert pattern to colors and pad pattern with None. let pattern_colors = pattern .iter() .flat_map(|row| { row.chars() .map(|c| match c { ' ' => None, _ => Some(C::char_to_color(c)), }) .chain(iter::repeat(None)) .take(SIZE) }) .chain(iter::repeat(None)) .take(SIZE * SIZE); // Copy pattern to display. let mut display = MockDisplay::new(); for (i, color) in pattern_colors.enumerate() { display.pixels[i] = color; } display } /// Checks if the displays are equal. /// /// An advanced output for failing tests can be enabled by setting the environment variable /// `EG_FANCY_PANIC=1`. See the [module-level documentation] for more details. /// /// # Panics /// /// Panics if the displays aren't equal. /// /// [module-level documentation]: index.html#assertions // MSRV: add track_caller attribute to get better error messages for rust >= 1.46.0 // #[track_caller] pub fn assert_eq(&self, other: &MockDisplay<C>) { if !self.eq(other) { if option_env!("EG_FANCY_PANIC") == Some("1") { let fancy_panic = FancyPanic::new(self, other, 30); panic!("\n{}", fancy_panic); } else { panic!("\ndisplay\n{:?}\nexpected\n{:?}", self, other); } } } /// Checks if the displays are equal. /// /// An advanced output for failing tests can be enabled by setting the environment variable /// `EG_FANCY_PANIC=1`. See the [module-level documentation] for more details. /// /// The output of the `msg` function will be prepended to the output if the assertion fails. /// /// # Panics /// /// Panics if the displays aren't equal. /// /// [module-level documentation]: index.html#assertions // MSRV: add track_caller attribute to get better error messages for rust >= 1.46.0 // #[track_caller] pub fn assert_eq_with_message<F>(&self, other: &MockDisplay<C>, msg: F) where F: Fn(&mut fmt::Formatter<'_>) -> fmt::Result, { if !self.eq(other) { if option_env!("EG_FANCY_PANIC") == Some("1") { let fancy_panic = FancyPanic::new(self, other, 30); panic!("\n{}\n\n{}", MessageWrapper(msg), fancy_panic); } else { panic!( "\n{}\n\ndisplay:\n{:?}\nexpected:\n{:?}", MessageWrapper(msg), self, other ); } } } /// Checks if the display is equal to the given pattern. /// /// An advanced output for failing tests can be enabled, see the [module-level documentation] /// for more details. /// /// # Panics /// /// Panics if the display content isn't equal to the pattern. /// /// [module-level documentation]: index.html#assertions // MSRV: add track_caller attribute to get better error messages for rust >= 1.46.0 // #[track_caller] pub fn assert_pattern(&self, pattern: &[&str]) { let other = MockDisplay::<C>::from_pattern(pattern); self.assert_eq(&other); } /// Checks if the display is equal to the given pattern. /// /// An advanced output for failing tests can be enabled, see the [module-level documentation] /// for more details. /// /// The output of the `msg` function will be prepended to the output if the assertion fails. /// /// # Panics /// /// Panics if the display content isn't equal to the pattern. /// /// [module-level documentation]: index.html#assertions // MSRV: add track_caller attribute to get better error messages for rust >= 1.46.0 // #[track_caller] pub fn assert_pattern_with_message<F>(&self, pattern: &[&str], msg: F) where F: Fn(&mut fmt::Formatter<'_>) -> fmt::Result, { let other = MockDisplay::<C>::from_pattern(pattern); self.assert_eq_with_message(&other, msg); } } impl<C> Default for MockDisplay<C> where C: PixelColor, { fn default() -> Self { Self { pixels: [None; SIZE * SIZE], allow_overdraw: false, allow_out_of_bounds_drawing: false, } } } impl<C> fmt::Debug for MockDisplay<C> where C: PixelColor + ColorMapping, { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { let empty_rows = self .pixels .rchunks(SIZE) .take_while(|row| row.iter().all(Option::is_none)) .count(); writeln!(f, "MockDisplay[")?; for row in self.pixels.chunks(SIZE).take(SIZE - empty_rows) { for color in row { f.write_char(color.map_or(' ', C::color_to_char))?; } writeln!(f)?; } if empty_rows > 0 { writeln!(f, "({} empty rows skipped)", empty_rows)?; } writeln!(f, "]")?; Ok(()) } } impl<C> DrawTarget for MockDisplay<C> where C: PixelColor, { type Color = C; type Error = core::convert::Infallible; fn draw_iter<I>(&mut self, pixels: I) -> Result<(), Self::Error> where I: IntoIterator<Item = Pixel<Self::Color>>, { for pixel in pixels.into_iter() { let Pixel(point, color) = pixel; self.draw_pixel(point, color); } Ok(()) } } impl<C> OriginDimensions for MockDisplay<C> where C: PixelColor, { fn size(&self) -> Size { DISPLAY_AREA.size } } /// Wrapper to implement `Display` for formatting function. struct MessageWrapper<F>(F); impl<F> fmt::Display for MessageWrapper<F> where F: Fn(&mut fmt::Formatter<'_>) -> fmt::Result, { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { self.0(f) } } #[cfg(test)] mod tests { use super::*; use crate::{ pixelcolor::{BinaryColor, Rgb565}, Drawable, }; #[test] #[should_panic(expected = "tried to draw pixel outside the display area (x: 65, y: 0)")] fn panic_on_out_of_bounds_drawing() { let mut display = MockDisplay::new(); Pixel(Point::new(65, 0), BinaryColor::On) .draw(&mut display) .unwrap(); } #[test] fn allow_out_of_bounds_drawing() { let mut display = MockDisplay::new(); display.set_allow_out_of_bounds_drawing(true); Pixel(Point::new(65, 0), BinaryColor::On) .draw(&mut display) .unwrap(); } #[test] #[should_panic(expected = "tried to draw pixel twice (x: 1, y: 2)")] fn panic_on_overdraw() { let mut display = MockDisplay::new(); let p = Pixel(Point::new(1, 2), BinaryColor::On); p.draw(&mut display).unwrap(); p.draw(&mut display).unwrap(); } #[test] fn allow_overdraw() { let mut display = MockDisplay::new(); display.set_allow_overdraw(true); let p = Pixel(Point::new(1, 2), BinaryColor::On); p.draw(&mut display).unwrap(); p.draw(&mut display).unwrap(); } #[test] fn zero_sized_affected_area() { let disp: MockDisplay<BinaryColor> = MockDisplay::new(); assert!(disp.affected_area().is_zero_sized(),); } #[test] fn diff() { let display1 = MockDisplay::<Rgb565>::from_pattern(&[" R RR"]); let display2 = MockDisplay::<Rgb565>::from_pattern(&[" RR B"]); let expected = MockDisplay::<Rgb888>::from_pattern(&[" RGB"]); display1.diff(&display2).assert_eq(&expected); } }