pathfinder/renderer/src/scene.rs

// pathfinder/renderer/src/scene.rs
//
// Copyright © 2019 The Pathfinder Project Developers.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.

//! A set of paths to be rendered.

use crate::builder::SceneBuilder;
use crate::concurrent::executor::Executor;
use crate::options::{BuildOptions, PreparedBuildOptions};
use crate::options::{PreparedRenderTransform, RenderCommandListener};
use crate::paint::{Paint, PaintId, PaintInfo, Palette};
use pathfinder_color::ColorU;
use pathfinder_geometry::vector::Vector2F;
use pathfinder_geometry::rect::RectF;
use pathfinder_geometry::transform2d::Transform2F;
use pathfinder_content::outline::Outline;

#[derive(Clone)]
pub struct Scene {
    pub(crate) paths: Vec<DrawPath>,
    palette: Palette,
    bounds: RectF,
    view_box: RectF,
}

impl Scene {
    #[inline]
    pub fn new() -> Scene {
        Scene {
            paths: vec![],
            palette: Palette::new(),
            bounds: RectF::default(),
            view_box: RectF::default(),
        }
    }

    pub fn push_path(&mut self, path: DrawPath) {
        self.bounds = self.bounds.union_rect(path.outline.bounds());
        self.paths.push(path);
    }

    #[inline]
    pub fn build_paint_info(&self) -> PaintInfo {
        self.palette.build_paint_info(self.view_box.size().to_i32())
    }

    #[allow(clippy::trivially_copy_pass_by_ref)]
    pub fn push_paint(&mut self, paint: &Paint) -> PaintId {
        self.palette.push_paint(paint)
    }

    #[inline]
    pub fn path_count(&self) -> usize {
        self.paths.len()
    }

    #[inline]
    pub fn bounds(&self) -> RectF {
        self.bounds
    }

    #[inline]
    pub fn set_bounds(&mut self, new_bounds: RectF) {
        self.bounds = new_bounds;
    }

    #[inline]
    pub fn view_box(&self) -> RectF {
        self.view_box
    }

    #[inline]
    pub fn set_view_box(&mut self, new_view_box: RectF) {
        self.view_box = new_view_box;
    }

    pub(crate) fn apply_render_options(
        &self,
        original_outline: &Outline,
        options: &PreparedBuildOptions,
    ) -> Outline {
        let effective_view_box = self.effective_view_box(options);

        let mut outline;
        match options.transform {
            PreparedRenderTransform::Perspective {
                ref perspective,
                ref clip_polygon,
                ..
            } => {
                if original_outline.is_outside_polygon(clip_polygon) {
                    outline = Outline::new();
                } else {
                    outline = (*original_outline).clone();
                    outline.clip_against_polygon(clip_polygon);
                    outline.apply_perspective(perspective);

                    // TODO(pcwalton): Support subpixel AA in 3D.
                }
            }
            _ => {
                // TODO(pcwalton): Short circuit.
                outline = (*original_outline).clone();
                if options.transform.is_2d() || options.subpixel_aa_enabled {
                    let mut transform = match options.transform {
                        PreparedRenderTransform::Transform2D(transform) => transform,
                        PreparedRenderTransform::None => Transform2F::default(),
                        PreparedRenderTransform::Perspective { .. } => unreachable!(),
                    };
                    if options.subpixel_aa_enabled {
                        transform *= Transform2F::from_scale(Vector2F::new(3.0, 1.0))
                    }
                    outline.transform(&transform);
                }
                outline.clip_against_rect(effective_view_box);
            }
        }

        if !options.dilation.is_zero() {
            outline.dilate(options.dilation);
        }

        // TODO(pcwalton): Fold this into previous passes to avoid unnecessary clones during
        // monotonic conversion.
        outline.prepare_for_tiling(self.effective_view_box(options));
        outline
    }

    pub fn monochrome_color(&self) -> Option<ColorU> {
        if self.paths.is_empty() {
            return None;
        }

        let first_paint_id = self.paths[0].paint;
        if self
            .paths
            .iter()
            .skip(1)
            .any(|path_object| path_object.paint != first_paint_id) {
            return None;
        }

        match self.palette.paints[first_paint_id.0 as usize] {
            Paint::Color(color) => Some(color),
            Paint::Gradient(_) => None,
            Paint::Pattern(_) => None,
        }
    }

    #[inline]
    pub(crate) fn effective_view_box(&self, render_options: &PreparedBuildOptions) -> RectF {
        if render_options.subpixel_aa_enabled {
            self.view_box.scale_xy(Vector2F::new(3.0, 1.0))
        } else {
            self.view_box
        }
    }

    #[inline]
    pub fn build<E>(&self,
                    options: BuildOptions,
                    listener: Box<dyn RenderCommandListener>,
                    executor: &E)
                    where E: Executor {
        let prepared_options = options.prepare(self.bounds);
        SceneBuilder::new(self, &prepared_options, listener).build(executor)
    }
    
    pub fn paths<'a>(&'a self) -> PathIter {
        PathIter {
            scene: self,
            pos: 0
        }
    }
}

pub struct PathIter<'a> {
    scene: &'a Scene,
    pos: usize
}

impl<'a> Iterator for PathIter<'a> {
    type Item = (&'a Paint, &'a Outline, &'a str);
    fn next(&mut self) -> Option<Self::Item> {
        let item = self.scene.paths.get(self.pos).map(|path_object| {
            (
                self.scene.palette.paints.get(path_object.paint.0 as usize).unwrap(),
                &path_object.outline,
                &*path_object.name
            )
        });
        self.pos += 1;
        item
    }
}

#[derive(Clone, Debug)]
pub struct DrawPath {
    outline: Outline,
    paint: PaintId,
    name: String,
}

impl DrawPath {
    #[inline]
    pub fn new(outline: Outline, paint: PaintId, name: String) -> DrawPath {
        DrawPath { outline, paint, name }
    }

    #[inline]
    pub fn outline(&self) -> &Outline {
        &self.outline
    }

    #[inline]
    pub(crate) fn paint(&self) -> PaintId {
        self.paint
    }
}
Factor renderer and SVG code out into separate crates 2019-01-14 17:20:36 -05:00			`// pathfinder/renderer/src/scene.rs`
			`//`
			`// Copyright © 2019 The Pathfinder Project Developers.`
			`//`
			`// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or`
			`// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license`
			`// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your`
			`// option. This file may not be copied, modified, or distributed`
			`// except according to those terms.`

			`//! A set of paths to be rendered.`

Factor the scene thread out of the demo and into the renderer proper. This simplifies Pathfinder's API considerably. Now users get off-main-thread scene building "for free". 2019-04-30 22:13:28 -04:00			`use crate::builder::SceneBuilder;`
			`use crate::concurrent::executor::Executor;`
Add Metal support. This commit substantially reworks the `pathfinder_gpu` API to better support modern APIs like Metal. It should open the door to `gfx-rs`, `wgpu`, Vulkan, and D3D12 backends relatively straightforwardly. A new example, `canvas_metal_minimal`, has been added. Note that the new Metal shaders require a patched version of `spirv-cross` to build properly. An upstream patch is forthcoming. 2019-06-05 17:35:46 -04:00			`use crate::options::{BuildOptions, PreparedBuildOptions};`
			`use crate::options::{PreparedRenderTransform, RenderCommandListener};`
Add an API for gradients to the canvas frontend, not implemented yet 2020-02-05 22:59:40 -05:00			`use crate::paint::{Paint, PaintId, PaintInfo, Palette};`
Split colors out into their own crate. A lot of downstream consumers of `pathfinder_gpu` want to use colors without the path stuff. 2020-01-31 03:16:34 -05:00			`use pathfinder_color::ColorU;`
Rename `pathfinder_geometry::basic` to simply `pathfinder_geometry`, and move the remaining code in that crate to a new crate, `pathfinder_content` The old hierarchy was confusing. 2019-06-21 13:06:19 -04:00			`use pathfinder_geometry::vector::Vector2F;`
			`use pathfinder_geometry::rect::RectF;`
Rename `Transform2DF` to `Transform2F` and `Transform3DF` to `Transform4F` 2019-07-11 17:35:06 -04:00			`use pathfinder_geometry::transform2d::Transform2F;`
Rename `pathfinder_geometry::basic` to simply `pathfinder_geometry`, and move the remaining code in that crate to a new crate, `pathfinder_content` The old hierarchy was confusing. 2019-06-21 13:06:19 -04:00			`use pathfinder_content::outline::Outline;`
Factor renderer and SVG code out into separate crates 2019-01-14 17:20:36 -05:00
Allow scenes to be dumped as SVG (untested) and make 3D mode optional in the demo 2019-01-29 17:50:15 -05:00			`#[derive(Clone)]`
Factor renderer and SVG code out into separate crates 2019-01-14 17:20:36 -05:00			`pub struct Scene {`
Rename `PathObject` to `DrawPath` to differentiate it from a clip path 2020-02-15 15:39:15 -05:00			`pub(crate) paths: Vec<DrawPath>,`
Add an API for gradients to the canvas frontend, not implemented yet 2020-02-05 22:59:40 -05:00			`palette: Palette,`
Change the `F32` and `I32` suffixes to `F` and `I` to match the C API. They're shorter and less noisy. 2019-05-29 22:13:42 -04:00			`bounds: RectF,`
			`view_box: RectF,`
Factor renderer and SVG code out into separate crates 2019-01-14 17:20:36 -05:00			`}`

			`impl Scene {`
			`#[inline]`
			`pub fn new() -> Scene {`
			`Scene {`
Rename "object" to "path" in preparation for image objects 2019-05-10 15:03:38 -04:00			`paths: vec![],`
Add an API for gradients to the canvas frontend, not implemented yet 2020-02-05 22:59:40 -05:00			`palette: Palette::new(),`
Change the `F32` and `I32` suffixes to `F` and `I` to match the C API. They're shorter and less noisy. 2019-05-29 22:13:42 -04:00			`bounds: RectF::default(),`
			`view_box: RectF::default(),`
Factor renderer and SVG code out into separate crates 2019-01-14 17:20:36 -05:00			`}`
			`}`

Rename `PathObject` to `DrawPath` to differentiate it from a clip path 2020-02-15 15:39:15 -05:00			`pub fn push_path(&mut self, path: DrawPath) {`
Rename "object" to "path" in preparation for image objects 2019-05-10 15:03:38 -04:00			`self.bounds = self.bounds.union_rect(path.outline.bounds());`
			`self.paths.push(path);`
Factor the scene thread out of the demo and into the renderer proper. This simplifies Pathfinder's API considerably. Now users get off-main-thread scene building "for free". 2019-04-30 22:13:28 -04:00			`}`

Add an API for gradients to the canvas frontend, not implemented yet 2020-02-05 22:59:40 -05:00			`#[inline]`
			`pub fn build_paint_info(&self) -> PaintInfo {`
Implement basic linear gradients. This is not a very efficient implementation yet, but it seems to work. 2020-02-07 14:46:20 -05:00			`self.palette.build_paint_info(self.view_box.size().to_i32())`
Add an API for gradients to the canvas frontend, not implemented yet 2020-02-05 22:59:40 -05:00			`}`

Factor renderer and SVG code out into separate crates 2019-01-14 17:20:36 -05:00			`#[allow(clippy::trivially_copy_pass_by_ref)]`
			`pub fn push_paint(&mut self, paint: &Paint) -> PaintId {`
Add an API for gradients to the canvas frontend, not implemented yet 2020-02-05 22:59:40 -05:00			`self.palette.push_paint(paint)`
Factor renderer and SVG code out into separate crates 2019-01-14 17:20:36 -05:00			`}`

Factor the scene thread out of the demo and into the renderer proper. This simplifies Pathfinder's API considerably. Now users get off-main-thread scene building "for free". 2019-04-30 22:13:28 -04:00			`#[inline]`
Rename "object" to "path" in preparation for image objects 2019-05-10 15:03:38 -04:00			`pub fn path_count(&self) -> usize {`
			`self.paths.len()`
Factor the scene thread out of the demo and into the renderer proper. This simplifies Pathfinder's API considerably. Now users get off-main-thread scene building "for free". 2019-04-30 22:13:28 -04:00			`}`

			`#[inline]`
Change the `F32` and `I32` suffixes to `F` and `I` to match the C API. They're shorter and less noisy. 2019-05-29 22:13:42 -04:00			`pub fn bounds(&self) -> RectF {`
Factor the scene thread out of the demo and into the renderer proper. This simplifies Pathfinder's API considerably. Now users get off-main-thread scene building "for free". 2019-04-30 22:13:28 -04:00			`self.bounds`
			`}`

			`#[inline]`
Change the `F32` and `I32` suffixes to `F` and `I` to match the C API. They're shorter and less noisy. 2019-05-29 22:13:42 -04:00			`pub fn set_bounds(&mut self, new_bounds: RectF) {`
Factor the scene thread out of the demo and into the renderer proper. This simplifies Pathfinder's API considerably. Now users get off-main-thread scene building "for free". 2019-04-30 22:13:28 -04:00			`self.bounds = new_bounds;`
			`}`

			`#[inline]`
Change the `F32` and `I32` suffixes to `F` and `I` to match the C API. They're shorter and less noisy. 2019-05-29 22:13:42 -04:00			`pub fn view_box(&self) -> RectF {`
Factor the scene thread out of the demo and into the renderer proper. This simplifies Pathfinder's API considerably. Now users get off-main-thread scene building "for free". 2019-04-30 22:13:28 -04:00			`self.view_box`
			`}`

			`#[inline]`
Change the `F32` and `I32` suffixes to `F` and `I` to match the C API. They're shorter and less noisy. 2019-05-29 22:13:42 -04:00			`pub fn set_view_box(&mut self, new_view_box: RectF) {`
Factor the scene thread out of the demo and into the renderer proper. This simplifies Pathfinder's API considerably. Now users get off-main-thread scene building "for free". 2019-04-30 22:13:28 -04:00			`self.view_box = new_view_box;`
Reenable the tile and fill counts in the debug display 2019-04-18 18:09:37 -04:00			`}`

Run `rustfmt` on the renderer crate 2019-04-29 19:45:29 -04:00			`pub(crate) fn apply_render_options(`
			`&self,`
			`original_outline: &Outline,`
Add Metal support. This commit substantially reworks the `pathfinder_gpu` API to better support modern APIs like Metal. It should open the door to `gfx-rs`, `wgpu`, Vulkan, and D3D12 backends relatively straightforwardly. A new example, `canvas_metal_minimal`, has been added. Note that the new Metal shaders require a patched version of `spirv-cross` to build properly. An upstream patch is forthcoming. 2019-06-05 17:35:46 -04:00			`options: &PreparedBuildOptions,`
Run `rustfmt` on the renderer crate 2019-04-29 19:45:29 -04:00			`) -> Outline {`
Get subpixel AA and gamma correction working in 2D 2019-03-25 19:13:56 -04:00			`let effective_view_box = self.effective_view_box(options);`

Add a quick check to skip clipping when an outline is entirely inside or outside the clip area 2019-02-09 22:24:30 -05:00			`let mut outline;`
Add window resizing support to the demo 2019-02-06 21:09:37 -05:00			`match options.transform {`
Run `rustfmt` on the renderer crate 2019-04-29 19:45:29 -04:00			`PreparedRenderTransform::Perspective {`
			`ref perspective,`
			`ref clip_polygon,`
			`..`
			`} => {`
Add a quick check to skip clipping when an outline is entirely inside or outside the clip area 2019-02-09 22:24:30 -05:00			`if original_outline.is_outside_polygon(clip_polygon) {`
			`outline = Outline::new();`
			`} else {`
			`outline = (*original_outline).clone();`
			`outline.clip_against_polygon(clip_polygon);`
			`outline.apply_perspective(perspective);`
Add basic barrel distortion support for VR 2019-03-20 16:40:48 -04:00
Get subpixel AA and gamma correction working in 2D 2019-03-25 19:13:56 -04:00			`// TODO(pcwalton): Support subpixel AA in 3D.`
Add a quick check to skip clipping when an outline is entirely inside or outside the clip area 2019-02-09 22:24:30 -05:00			`}`
Display timing info in the demo 2019-01-30 17:42:06 -05:00			`}`
Get subpixel AA and gamma correction working in 2D 2019-03-25 19:13:56 -04:00			`_ => {`
Add a quick check to skip clipping when an outline is entirely inside or outside the clip area 2019-02-09 22:24:30 -05:00			`// TODO(pcwalton): Short circuit.`
			`outline = (*original_outline).clone();`
Get subpixel AA and gamma correction working in 2D 2019-03-25 19:13:56 -04:00			`if options.transform.is_2d() \|\| options.subpixel_aa_enabled {`
			`let mut transform = match options.transform {`
			`PreparedRenderTransform::Transform2D(transform) => transform,`
Rename `Transform2DF` to `Transform2F` and `Transform3DF` to `Transform4F` 2019-07-11 17:35:06 -04:00			`PreparedRenderTransform::None => Transform2F::default(),`
Get subpixel AA and gamma correction working in 2D 2019-03-25 19:13:56 -04:00			`PreparedRenderTransform::Perspective { .. } => unreachable!(),`
			`};`
			`if options.subpixel_aa_enabled {`
Fix incorrect definition of 2D transform multiplication 2019-07-12 14:26:09 -04:00			`transform *= Transform2F::from_scale(Vector2F::new(3.0, 1.0))`
Get subpixel AA and gamma correction working in 2D 2019-03-25 19:13:56 -04:00			`}`
			`outline.transform(&transform);`
			`}`
			`outline.clip_against_rect(effective_view_box);`
Do scene building just-in-time on a per-outline basis as part of tiling 2019-02-02 14:36:42 -05:00			`}`
Display timing info in the demo 2019-01-30 17:42:06 -05:00			`}`
Add window resizing support to the demo 2019-02-06 21:09:37 -05:00
			`if !options.dilation.is_zero() {`
			`outline.dilate(options.dilation);`
			`}`

Add a TODO about monotonic conversion 2019-02-12 11:57:49 -05:00			`// TODO(pcwalton): Fold this into previous passes to avoid unnecessary clones during`
			`// monotonic conversion.`
Get subpixel AA and gamma correction working in 2D 2019-03-25 19:13:56 -04:00			`outline.prepare_for_tiling(self.effective_view_box(options));`
Do scene building just-in-time on a per-outline basis as part of tiling 2019-02-02 14:36:42 -05:00			`outline`
Basic perspective support 2019-01-16 19:53:10 -05:00			`}`
Only show the "Text Effects" button when a monochrome SVG is loaded 2019-03-06 22:35:57 -05:00
Create separate shaders for monochrome and multicolor tiles. This is preparation for fixing subpixel AA. 2019-03-22 17:28:18 -04:00			`pub fn monochrome_color(&self) -> Option<ColorU> {`
Rename "object" to "path" in preparation for image objects 2019-05-10 15:03:38 -04:00			`if self.paths.is_empty() {`
Create separate shaders for monochrome and multicolor tiles. This is preparation for fixing subpixel AA. 2019-03-22 17:28:18 -04:00			`return None;`
Only show the "Text Effects" button when a monochrome SVG is loaded 2019-03-06 22:35:57 -05:00			`}`
Rename "object" to "path" in preparation for image objects 2019-05-10 15:03:38 -04:00
			`let first_paint_id = self.paths[0].paint;`
Run `rustfmt` on the renderer crate 2019-04-29 19:45:29 -04:00			`if self`
Rename "object" to "path" in preparation for image objects 2019-05-10 15:03:38 -04:00			`.paths`
Run `rustfmt` on the renderer crate 2019-04-29 19:45:29 -04:00			`.iter()`
			`.skip(1)`
Rename "object" to "path" in preparation for image objects 2019-05-10 15:03:38 -04:00			`.any(\|path_object\| path_object.paint != first_paint_id) {`
Create separate shaders for monochrome and multicolor tiles. This is preparation for fixing subpixel AA. 2019-03-22 17:28:18 -04:00			`return None;`
			`}`
Add an API for gradients to the canvas frontend, not implemented yet 2020-02-05 22:59:40 -05:00
			`match self.palette.paints[first_paint_id.0 as usize] {`
			`Paint::Color(color) => Some(color),`
			`Paint::Gradient(_) => None,`
Implement basic support for non-repeating image patterns. 2020-02-11 20:20:21 -05:00			`Paint::Pattern(_) => None,`
Add an API for gradients to the canvas frontend, not implemented yet 2020-02-05 22:59:40 -05:00			`}`
Only show the "Text Effects" button when a monochrome SVG is loaded 2019-03-06 22:35:57 -05:00			`}`
Get subpixel AA and gamma correction working in 2D 2019-03-25 19:13:56 -04:00
			`#[inline]`
Add Metal support. This commit substantially reworks the `pathfinder_gpu` API to better support modern APIs like Metal. It should open the door to `gfx-rs`, `wgpu`, Vulkan, and D3D12 backends relatively straightforwardly. A new example, `canvas_metal_minimal`, has been added. Note that the new Metal shaders require a patched version of `spirv-cross` to build properly. An upstream patch is forthcoming. 2019-06-05 17:35:46 -04:00			`pub(crate) fn effective_view_box(&self, render_options: &PreparedBuildOptions) -> RectF {`
Get subpixel AA and gamma correction working in 2D 2019-03-25 19:13:56 -04:00			`if render_options.subpixel_aa_enabled {`
Rename `Point2DF` to `Vector2F`, `Point3DF` to `Vector4F`, and `LineSegmentF` to `LineSegment2F`. Straw poll on Twitter suggested that these names were preferred. 2019-06-03 15:39:29 -04:00			`self.view_box.scale_xy(Vector2F::new(3.0, 1.0))`
Get subpixel AA and gamma correction working in 2D 2019-03-25 19:13:56 -04:00			`} else {`
			`self.view_box`
			`}`
			`}`
Factor the scene thread out of the demo and into the renderer proper. This simplifies Pathfinder's API considerably. Now users get off-main-thread scene building "for free". 2019-04-30 22:13:28 -04:00
			`#[inline]`
			`pub fn build<E>(&self,`
Add Metal support. This commit substantially reworks the `pathfinder_gpu` API to better support modern APIs like Metal. It should open the door to `gfx-rs`, `wgpu`, Vulkan, and D3D12 backends relatively straightforwardly. A new example, `canvas_metal_minimal`, has been added. Note that the new Metal shaders require a patched version of `spirv-cross` to build properly. An upstream patch is forthcoming. 2019-06-05 17:35:46 -04:00			`options: BuildOptions,`
Factor the scene thread out of the demo and into the renderer proper. This simplifies Pathfinder's API considerably. Now users get off-main-thread scene building "for free". 2019-04-30 22:13:28 -04:00			`listener: Box<dyn RenderCommandListener>,`
			`executor: &E)`
			`where E: Executor {`
Start a simple HTML canvas-like API, and add a minimal example to show how to use it. 2019-05-03 15:35:19 -04:00			`let prepared_options = options.prepare(self.bounds);`
			`SceneBuilder::new(self, &prepared_options, listener).build(executor)`
Factor the scene thread out of the demo and into the renderer proper. This simplifies Pathfinder's API considerably. Now users get off-main-thread scene building "for free". 2019-04-30 22:13:28 -04:00			`}`
add PS export as well. also rename svg2pdf into convert and add PS export to it 2019-06-24 15:41:34 -04:00
add a simple PDF export 2019-06-15 10:50:25 -04:00			`pub fn paths<'a>(&'a self) -> PathIter {`
			`PathIter {`
			`scene: self,`
			`pos: 0`
			`}`
			`}`
			`}`
Split colors out into their own crate. A lot of downstream consumers of `pathfinder_gpu` want to use colors without the path stuff. 2020-01-31 03:16:34 -05:00
add a simple PDF export 2019-06-15 10:50:25 -04:00			`pub struct PathIter<'a> {`
			`scene: &'a Scene,`
			`pos: usize`
			`}`
Split colors out into their own crate. A lot of downstream consumers of `pathfinder_gpu` want to use colors without the path stuff. 2020-01-31 03:16:34 -05:00
add a simple PDF export 2019-06-15 10:50:25 -04:00			`impl<'a> Iterator for PathIter<'a> {`
Move all scene exports into the export crate. SVG, PDF and PS can now be created with Scene::export. 2019-06-25 04:26:37 -04:00			`type Item = (&'a Paint, &'a Outline, &'a str);`
add a simple PDF export 2019-06-15 10:50:25 -04:00			`fn next(&mut self) -> Option<Self::Item> {`
			`let item = self.scene.paths.get(self.pos).map(\|path_object\| {`
Move all scene exports into the export crate. SVG, PDF and PS can now be created with Scene::export. 2019-06-25 04:26:37 -04:00			`(`
Add an API for gradients to the canvas frontend, not implemented yet 2020-02-05 22:59:40 -05:00			`self.scene.palette.paints.get(path_object.paint.0 as usize).unwrap(),`
Move all scene exports into the export crate. SVG, PDF and PS can now be created with Scene::export. 2019-06-25 04:26:37 -04:00			`&path_object.outline,`
			`&*path_object.name`
			`)`
add a simple PDF export 2019-06-15 10:50:25 -04:00			`});`
			`self.pos += 1;`
			`item`
			`}`
Allow scenes to be dumped as SVG (untested) and make 3D mode optional in the demo 2019-01-29 17:50:15 -05:00			`}`
Split colors out into their own crate. A lot of downstream consumers of `pathfinder_gpu` want to use colors without the path stuff. 2020-01-31 03:16:34 -05:00
wip 2019-01-15 14:42:25 -05:00			`#[derive(Clone, Debug)]`
Rename `PathObject` to `DrawPath` to differentiate it from a clip path 2020-02-15 15:39:15 -05:00			`pub struct DrawPath {`
Factor renderer and SVG code out into separate crates 2019-01-14 17:20:36 -05:00			`outline: Outline,`
			`paint: PaintId,`
			`name: String,`
			`}`

Rename `PathObject` to `DrawPath` to differentiate it from a clip path 2020-02-15 15:39:15 -05:00			`impl DrawPath {`
Factor renderer and SVG code out into separate crates 2019-01-14 17:20:36 -05:00			`#[inline]`
Rename `PathObject` to `DrawPath` to differentiate it from a clip path 2020-02-15 15:39:15 -05:00			`pub fn new(outline: Outline, paint: PaintId, name: String) -> DrawPath {`
			`DrawPath { outline, paint, name }`
Factor renderer and SVG code out into separate crates 2019-01-14 17:20:36 -05:00			`}`
Allow scenes to be dumped as SVG (untested) and make 3D mode optional in the demo 2019-01-29 17:50:15 -05:00
			`#[inline]`
			`pub fn outline(&self) -> &Outline {`
			`&self.outline`
			`}`
Explicitly specify color texture coordinates for alpha and solid tiles. This is groundwork for gradients and images. This commit also refactors the interface for vertex attributes to use named parameters (via structs), for clarity. 2019-05-14 17:28:21 -04:00
			`#[inline]`
			`pub(crate) fn paint(&self) -> PaintId {`
			`self.paint`
			`}`
Factor renderer and SVG code out into separate crates 2019-01-14 17:20:36 -05:00			`}`