use freetype::{ bitmap::PixelMode, face::{KerningMode, LoadFlag}, ffi::{FT_Err_Ok, FT_Set_Var_Design_Coordinates, FT_GLYPH_BBOX_PIXELS}, Bitmap, BitmapGlyph, Face, FtResult, Glyph, StrokerLineCap, StrokerLineJoin, }; use image::GenericImage; use num::traits::Euclid; use crate::{assets::FREETYPE_LIB, context::Error}; // {{{ Color #[derive(Debug, Clone, Copy)] pub struct Color(pub u8, pub u8, pub u8, pub u8); impl Color { pub const BLACK: Self = Self::from_rgb_int(0x000000); pub const WHITE: Self = Self::from_rgb_int(0xffffff); #[inline] pub const fn from_rgba_int(i: u32) -> Self { Self( (i >> 24) as u8, ((i >> 16) & 0xff) as u8, ((i >> 8) & 0xff) as u8, (i & 0xff) as u8, ) } #[inline] pub const fn from_rgb_int(i: u32) -> Self { Self::from_rgba_int((i << 8) + 0xff) } #[inline] pub fn alpha(mut self, a: u8) -> Self { self.3 = a; self } } // }}} // {{{ Rect #[derive(Debug, Clone, Copy)] pub struct Rect { pub x: i32, pub y: i32, pub width: u32, pub height: u32, } impl Rect { #[inline] pub fn new(x: i32, y: i32, width: u32, height: u32) -> Self { Self { x, y, width, height, } } #[inline] pub fn from_extremes(x_min: i32, y_min: i32, x_max: i32, y_max: i32) -> Self { Self::new(x_min, y_min, (x_max - x_min) as u32, (y_max - y_min) as u32) } #[inline] pub fn from_image(image: &impl GenericImage) -> Self { Self::new(0, 0, image.width(), image.height()) } #[inline] pub fn align(&self, alignment: (Align, Align), pos: Position) -> Position { ( pos.0 - alignment.0.scale(self.width) as i32, pos.1 - alignment.1.scale(self.height) as i32, ) } #[inline] pub fn align_whole(&self, alignment: (Align, Align), pos: Position) -> Self { let pos = self.align(alignment, pos); Self::new(pos.0, pos.1, self.width, self.height) } #[inline] pub fn center(&self) -> Position { ( self.x + self.width as i32 / 2, self.y + self.height as i32 / 2, ) } #[inline] pub fn top_left(&self) -> Position { (self.x, self.y) } } // }}} // {{{ Align #[allow(dead_code)] #[derive(Debug, Clone, Copy)] pub enum Align { Start, Center, End, } impl Align { #[inline] pub fn scale(self, dist: u32) -> u32 { match self { Self::Start => 0, Self::Center => dist / 2, Self::End => dist, } } } // }}} // {{{ Other types pub type Position = (i32, i32); fn float_to_ft_fixed(f: f32) -> i64 { (f * 64.0) as i64 } #[derive(Debug, Clone, Copy)] pub struct TextStyle { pub size: u32, pub weight: u32, pub color: Color, pub align: (Align, Align), pub stroke: Option<(Color, f32)>, pub drop_shadow: Option<(Color, Position)>, } // }}} // {{{ BitmapCanvas pub struct BitmapCanvas { pub buffer: Box<[u8]>, pub width: u32, } impl BitmapCanvas { // {{{ Draw pixel pub fn set_pixel(&mut self, pos: (u32, u32), color: Color) { let index = 3 * (pos.1 * self.width + pos.0) as usize; let alpha = color.3 as u32; self.buffer[index + 0] = ((alpha * color.0 as u32 + (255 - alpha) * self.buffer[index + 0] as u32) / 255) as u8; self.buffer[index + 1] = ((alpha * color.1 as u32 + (255 - alpha) * self.buffer[index + 1] as u32) / 255) as u8; self.buffer[index + 2] = ((alpha * color.2 as u32 + (255 - alpha) * self.buffer[index + 2] as u32) / 255) as u8; } // }}} // {{{ Draw RBG image /// Draws a bitmap image pub fn blit_rbg(&mut self, pos: Position, (iw, ih): (u32, u32), src: &[u8]) { let height = self.buffer.len() as u32 / 3 / self.width; for dx in 0..iw { for dy in 0..ih { let x = pos.0 + dx as i32; let y = pos.1 + dy as i32; if x >= 0 && (x as u32) < self.width && y >= 0 && (y as u32) < height { let r = src[(dx + dy * iw) as usize * 3]; let g = src[(dx + dy * iw) as usize * 3 + 1]; let b = src[(dx + dy * iw) as usize * 3 + 2]; let color = Color(r, g, b, 0xff); self.set_pixel((x as u32, y as u32), color); } } } } // }}} // {{{ Draw RGBA image /// Draws a bitmap image taking care of the alpha channel. pub fn blit_rbga(&mut self, pos: Position, (iw, ih): (u32, u32), src: &[u8]) { let height = self.buffer.len() as u32 / 3 / self.width; for dx in 0..iw { for dy in 0..ih { let x = pos.0 + dx as i32; let y = pos.1 + dy as i32; if x >= 0 && (x as u32) < self.width && y >= 0 && (y as u32) < height { let r = src[(dx + dy * iw) as usize * 4]; let g = src[(dx + dy * iw) as usize * 4 + 1]; let b = src[(dx + dy * iw) as usize * 4 + 2]; let a = src[(dx + dy * iw) as usize * 4 + 3]; let color = Color(r, g, b, a); self.set_pixel((x as u32, y as u32), color); } } } } // }}} // {{{ Fill /// Fill with solid color pub fn fill(&mut self, pos: Position, (iw, ih): (u32, u32), color: Color) { let height = self.buffer.len() as u32 / 3 / self.width; for dx in 0..iw { for dy in 0..ih { let x = pos.0 + dx as i32; let y = pos.1 + dy as i32; if x >= 0 && (x as u32) < self.width && y >= 0 && (y as u32) < height { self.set_pixel((x as u32, y as u32), color); } } } } // }}} // {{{ Draw text pub fn plan_text_rendering( &mut self, pos: Position, face: &mut Face, style: TextStyle, text: &str, ) -> Result<(Position, Rect, Vec<(i64, Glyph)>), Error> { // {{{ Control weight unsafe { let raw = face.raw_mut() as *mut _; let slice = [(style.weight as i64) << 16]; // {{{ Debug logging // let mut amaster = 0 as *mut FT_MM_Var; // FT_Get_MM_Var(raw, &mut amaster as *mut _); // println!("{:?}", *amaster); // println!("{:?}", *(*amaster).axis); // println!("{:?}", *(*amaster).namedstyle); // }}} // Set variable weight let err = FT_Set_Var_Design_Coordinates(raw, 3, slice.as_ptr()); if err != FT_Err_Ok { let err: FtResult<_> = Err(err.into()); err?; } } // }}} face.set_char_size((style.size << 6) as isize, 0, 0, 0)?; // {{{ Compute layout let mut pen_x = 0; let kerning = face.has_kerning(); let mut previous = None; let mut data = Vec::new(); for c in text.chars() { let glyph_index = face .get_char_index(c as usize) .ok_or_else(|| format!("Could not get glyph index for char {:?}", c))?; if let Some(previous) = previous && kerning { let delta = face.get_kerning(previous, glyph_index, KerningMode::KerningDefault)?; pen_x += delta.x >> 6; // we shift to get rid of sub-pixel accuracy } face.load_glyph(glyph_index, LoadFlag::DEFAULT)?; data.push((pen_x, face.glyph().get_glyph()?)); pen_x += face.glyph().advance().x >> 6; previous = Some(glyph_index); } // }}} // {{{ Find bounding box let mut x_min = 32000; let mut y_min = 32000; let mut x_max = -32000; let mut y_max = -32000; for (pen_x, glyph) in &data { let mut bbox = glyph.get_cbox(FT_GLYPH_BBOX_PIXELS); bbox.xMin += pen_x; bbox.xMax += pen_x; if bbox.xMin < x_min { x_min = bbox.xMin } if bbox.xMax > x_max { x_max = bbox.xMax } if bbox.yMin < y_min { y_min = bbox.yMin } if bbox.yMax > y_max { y_max = bbox.yMax } } // Check that we really grew the string bbox if x_min > x_max { x_min = 0; x_max = 0; y_min = 0; y_max = 0; } let bbox = Rect::from_extremes(x_min as i32, y_min as i32, x_max as i32, y_max as i32); let pos = bbox.align(style.align, pos); // }}} Ok((pos, bbox, data)) } /// Render text pub fn text( &mut self, pos: Position, face: &mut Face, style: TextStyle, text: &str, ) -> Result<(), Error> { let (pos, bbox, data) = self.plan_text_rendering(pos, face, style, text)?; // {{{ Render glyphs for (pos_x, glyph) in &data { let b_glyph = glyph.to_bitmap(freetype::RenderMode::Normal, None)?; let bitmap = b_glyph.bitmap(); let pixel_mode = bitmap.pixel_mode()?; assert_eq!(pixel_mode, PixelMode::Gray); let char_pos = ( pos.0 + *pos_x as i32 - bbox.x, pos.1 + bbox.height as i32 + bbox.y, ); if let Some((shadow_color, offset)) = style.drop_shadow { let char_pos = (char_pos.0 + offset.0, char_pos.1 + offset.1); self.blit_glyph(&b_glyph, &bitmap, char_pos, shadow_color); } if let Some((stroke_color, stroke_width)) = style.stroke { // {{{ Create stroke let stroker = FREETYPE_LIB.with(|lib| lib.new_stroker())?; stroker.set( float_to_ft_fixed(stroke_width), StrokerLineCap::Round, StrokerLineJoin::Round, 0, ); let sglyph = glyph.stroke(&stroker)?; let sb_glyph = sglyph.to_bitmap(freetype::RenderMode::Normal, None)?; let sbitmap = sb_glyph.bitmap(); let spixel_mode = sbitmap.pixel_mode()?; assert_eq!(spixel_mode, PixelMode::Gray); // }}} self.blit_glyph(&sb_glyph, &sbitmap, char_pos, stroke_color); } self.blit_glyph(&b_glyph, &bitmap, char_pos, style.color); } // }}} Ok(()) } // }}} // {{{ Blit glyph pub fn blit_glyph( &mut self, b_glyph: &BitmapGlyph, bitmap: &Bitmap, pos: Position, color: Color, ) { let iw = bitmap.width(); let ih = bitmap.rows(); let height = self.buffer.len() as u32 / 3 / self.width; let src = bitmap.buffer(); for dx in 0..iw { for dy in 0..ih { let x = pos.0 + dx as i32 + b_glyph.left(); let y = pos.1 + dy as i32 - b_glyph.top(); // TODO: gamma correction if x >= 0 && (x as u32) < self.width && y >= 0 && (y as u32) < height { let gray = src[(dx + dy * iw) as usize]; let r = color.0; let g = color.1; let b = color.2; let a = ((color.3 as u32 * gray as u32) / 0xff) as u8; let color = Color(r, g, b, a); self.set_pixel((x as u32, y as u32), color); } } } } // }}} #[inline] pub fn new(width: u32, height: u32) -> Self { let buffer = vec![u8::MAX; 8 * 3 * (width * height) as usize].into_boxed_slice(); Self { buffer, width } } } // }}} // {{{ Layout types #[derive(Clone, Copy, Debug)] pub struct LayoutBox { relative_to: Option<(LayoutBoxId, i32, i32)>, pub width: u32, pub height: u32, } #[derive(Clone, Copy, PartialEq, Eq, Debug)] pub struct LayoutBoxId(usize); #[derive(Default, Debug)] pub struct LayoutManager { boxes: Vec, } pub struct LayoutDrawer { pub layout: LayoutManager, pub canvas: BitmapCanvas, } impl LayoutManager { // {{{ Trivial box creation pub fn make_box(&mut self, width: u32, height: u32) -> LayoutBoxId { let id = self.boxes.len(); self.boxes.push(LayoutBox { relative_to: None, width, height, }); LayoutBoxId(id) } pub fn make_relative_box( &mut self, to: LayoutBoxId, x: i32, y: i32, width: u32, height: u32, ) -> LayoutBoxId { let id = self.make_box(width, height); self.edit_to_relative(id, to, x, y); id } // }}} // {{{ Chage box to be relative pub fn edit_to_relative( &mut self, id: LayoutBoxId, id_relative_to: LayoutBoxId, x: i32, y: i32, ) { let current = self.boxes[id.0]; if let Some((current_points_to, dx, dy)) = current.relative_to && current_points_to != id_relative_to { self.edit_to_relative(current_points_to, id_relative_to, x - dx, y - dy); } else { self.boxes[id.0].relative_to = Some((id_relative_to, x, y)); } { let a = self.lookup(id); let b = self.lookup(id_relative_to); assert_eq!((a.x - b.x, a.y - b.y), (x, y)); } } // }}} // {{{ Margins #[inline] pub fn margin(&mut self, id: LayoutBoxId, t: i32, r: i32, b: i32, l: i32) -> LayoutBoxId { let inner = self.boxes[id.0]; let out = self.make_box( (inner.width as i32 + l + r) as u32, (inner.height as i32 + t + b) as u32, ); self.edit_to_relative(id, out, l, t); out } #[inline] pub fn margin_xy(&mut self, inner: LayoutBoxId, x: i32, y: i32) -> LayoutBoxId { self.margin(inner, y, x, y, x) } #[inline] pub fn margin_uniform(&mut self, inner: LayoutBoxId, amount: i32) -> LayoutBoxId { self.margin(inner, amount, amount, amount, amount) } // }}} // {{{ Glueing #[inline] pub fn glue_horizontally( &mut self, first_id: LayoutBoxId, second_id: LayoutBoxId, ) -> LayoutBoxId { let first = self.boxes[first_id.0]; let second = self.boxes[second_id.0]; let id = self.make_box(first.width.max(second.width), first.height + second.height); self.edit_to_relative(first_id, id, 0, 0); self.edit_to_relative(second_id, id, 0, first.height as i32); id } #[inline] pub fn glue_vertically( &mut self, first_id: LayoutBoxId, second_id: LayoutBoxId, ) -> LayoutBoxId { let first = self.boxes[first_id.0]; let second = self.boxes[second_id.0]; let id = self.make_box(first.width + second.width, first.height.max(second.height)); self.edit_to_relative(first_id, id, 0, 0); self.edit_to_relative(second_id, id, first.width as i32, 0); id } // }}} // {{{ Repeating pub fn repeated_evenly( &mut self, id: LayoutBoxId, amount: (u32, u32), ) -> (LayoutBoxId, impl Iterator) { let inner = self.boxes[id.0]; let outer_id = self.make_box(inner.width * amount.0, inner.height * amount.1); self.edit_to_relative(id, outer_id, 0, 0); ( outer_id, (0..amount.0 * amount.1).into_iter().map(move |i| { let (y, x) = i.div_rem_euclid(&amount.0); ((x * inner.width) as i32, (y * inner.height) as i32) }), ) } // }}} // {{{ Lookup box pub fn lookup(&self, id: LayoutBoxId) -> Rect { let current = self.boxes[id.0]; if let Some((to, dx, dy)) = current.relative_to { let r = self.lookup(to); Rect::new(r.x + dx, r.y + dy, current.width, current.height) } else { Rect::new(0, 0, current.width, current.height) } } #[inline] pub fn width(&self, id: LayoutBoxId) -> u32 { self.boxes[id.0].width } #[inline] pub fn height(&self, id: LayoutBoxId) -> u32 { self.boxes[id.0].height } // }}} // {{{ Alignment #[inline] pub fn position_relative_to(&self, id: LayoutBoxId, pos: Position) -> Position { let current = self.lookup(id); ((pos.0 as i32 + current.x), (pos.1 as i32 + current.y)) } #[inline] pub fn align(&self, id: LayoutBoxId, align: (Align, Align), pos: Position) -> Position { self.lookup(id).align(align, pos) } // }}} } impl LayoutDrawer { pub fn new(layout: LayoutManager, canvas: BitmapCanvas) -> Self { Self { layout, canvas } } // {{{ Drawing // {{{ Draw pixel pub fn set_pixel(&mut self, id: LayoutBoxId, pos: (u32, u32), color: Color) { let pos = self .layout .position_relative_to(id, (pos.0 as i32, pos.1 as i32)); self.canvas.set_pixel((pos.0 as u32, pos.1 as u32), color); } // }}} // {{{ Draw RGB image /// Draws a bitmap image pub fn blit_rbg(&mut self, id: LayoutBoxId, pos: Position, dims: (u32, u32), src: &[u8]) { let pos = self.layout.position_relative_to(id, pos); self.canvas.blit_rbg(pos, dims, src); } // }}} // {{{ Draw RGBA image /// Draws a bitmap image taking care of the alpha channel. pub fn blit_rbga(&mut self, id: LayoutBoxId, pos: Position, dims: (u32, u32), src: &[u8]) { let pos = self.layout.position_relative_to(id, pos); self.canvas.blit_rbga(pos, dims, src); } // }}} // {{{ Fill /// Fills with solid color pub fn fill(&mut self, id: LayoutBoxId, color: Color) { let current = self.layout.lookup(id); self.canvas.fill( (current.x, current.y), (current.width, current.height), color, ); } // }}} // {{{ Draw text /// Render text pub fn text( &mut self, id: LayoutBoxId, pos: Position, face: &mut Face, style: TextStyle, text: &str, ) -> Result<(), Error> { let pos = self.layout.position_relative_to(id, pos); self.canvas.text(pos, face, style, text) } // }}} // }}} } // }}}