c_bindings.rs - mozsearch

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use crate::{filled_circle_with_path_builder, PathBuilder, Point, StrokeStyle, Stroker};

type OutputVertex = crate::Vertex;

#[repr(C)]

pub struct VertexBuffer {

    data: *const OutputVertex,

    len: usize

#[no_mangle]

pub extern "C" fn aa_stroke_new(

    style: &StrokeStyle,

    output_ptr: *mut OutputVertex,

    output_capacity: usize,

) -> *mut Stroker {

    let mut s = Stroker::new(style);

    if output_ptr != std::ptr::null_mut() {

        let slice = unsafe { std::slice::from_raw_parts_mut(output_ptr, output_capacity) };

        s.set_output_buffer(slice);

    Box::into_raw(Box::new(s))

#[no_mangle]

pub extern "C" fn aa_stroke_move_to(s: &mut Stroker, x: f32, y: f32, closed: bool) {

    s.move_to(Point::new(x, y), closed);

#[no_mangle]

pub extern "C" fn aa_stroke_line_to(s: &mut Stroker, x: f32, y: f32, end: bool) {

    if end {

        s.line_to_capped(Point::new(x, y))

    } else {

        s.line_to(Point::new(x, y));

#[no_mangle]

pub extern "C" fn aa_stroke_curve_to(s: &mut Stroker, c1x: f32, c1y: f32, c2x: f32, c2y: f32, x: f32, y: f32, end: bool) {

    if end {

        s.curve_to_capped(Point::new(c1x, c1y), Point::new(c2x, c2y), Point::new(x, y));

    } else {

        s.curve_to(Point::new(c1x, c1y), Point::new(c2x, c2y), Point::new(x, y));

/*

#[no_mangle]

pub extern "C" fn aa_stroke_quad_to(s: &mut Stroker, cx: f32, cy: f32, x: f32, y: f32) {

    s.quad_to(cx, cy, x, y);

}*/

#[no_mangle]

pub extern "C" fn aa_stroke_close(s: &mut Stroker) {

    s.close();

#[no_mangle]

pub extern "C" fn aa_stroke_finish(s: &mut Stroker) -> VertexBuffer {

    let stroked_path = s.get_stroked_path();

    if let Some(output_buffer_size) = stroked_path.get_output_buffer_size() {

        // if let Some(output_buffer) = stroked_path.output_buffer {

        //     dbg!(&output_buffer[0..output_buffer_size]);

        // }

        VertexBuffer {

            data: std::ptr::null(),

            len: output_buffer_size,

    } else {

        let result = s.finish();

        let len = result.len();

        let vb = VertexBuffer { data: Box::leak(result).as_ptr(), len };

vb

#[no_mangle]

pub extern "C" fn aa_stroke_vertex_buffer_release(vb: VertexBuffer)

    if vb.data != std::ptr::null() {

        unsafe {

            drop(Box::from_raw(std::slice::from_raw_parts_mut(vb.data as *mut OutputVertex, vb.len)));

#[no_mangle]

pub unsafe extern "C" fn aa_stroke_release(s: *mut Stroker) {

    drop(Box::from_raw(s));

#[no_mangle]

pub extern "C" fn aa_stroke_filled_circle(

    cx: f32, cy: f32, radius: f32, output_ptr: *mut OutputVertex, output_capacity: usize

) -> VertexBuffer {

    let mut path_builder = PathBuilder::new(1.);

    if output_ptr != std::ptr::null_mut() {

        let slice = unsafe { std::slice::from_raw_parts_mut(output_ptr, output_capacity) };

        path_builder.set_output_buffer(slice);

    filled_circle_with_path_builder(&mut path_builder, Point::new(cx, cy), radius);

    if let Some(output_buffer_size) = path_builder.get_output_buffer_size() {

        VertexBuffer {

            data: std::ptr::null(),

            len: output_buffer_size,

    } else {

        let result = path_builder.finish();

        let len = result.len();

        let vb = VertexBuffer { data: Box::leak(result).as_ptr(), len };

vb

#[test]

fn simple() {

    let style = StrokeStyle::default();

    let s = unsafe { &mut *aa_stroke_new(&style, std::ptr::null_mut(), 0) } ;

    aa_stroke_move_to(s, 10., 10., false);

    aa_stroke_line_to(s, 100., 100., false);

    aa_stroke_line_to(s, 100., 10., true);

    let vb = aa_stroke_finish(s);

    aa_stroke_vertex_buffer_release(vb);

    unsafe { aa_stroke_release(s) } ;

#[test]

fn output_buffer() {

    let style = StrokeStyle::default();

    let mut output = Vec::new();

    output.resize_with(1000, || OutputVertex{x: 0., y: 0., coverage: 0.});

    let s = unsafe { &mut *aa_stroke_new(&style, output.as_mut_ptr(), output.len()) } ;

    aa_stroke_move_to(s, 10., 10., false);

    aa_stroke_line_to(s, 100., 100., false);

    aa_stroke_line_to(s, 100., 10., true);

    let vb = aa_stroke_finish(s);

    assert_ne!(vb.len, 0);

    assert_eq!(vb.data, std::ptr::null());

    aa_stroke_vertex_buffer_release(vb);

    unsafe { aa_stroke_release(s) } ;

#[test]

fn filled_circle_output_buffer() {

    use crate::Vertex;

    let mut output = Vec::new();

    output.resize_with(1000, || OutputVertex{x: 0., y: 0., coverage: 0.});

    let center = Point::new(100., 100.);

    let radius = 33.;

    let vb = aa_stroke_filled_circle(center.x, center.y, radius, output.as_mut_ptr(), output.len());

    assert_ne!(vb.len, 0);

    assert_eq!(vb.data, std::ptr::null());

    let result = &output[0..vb.len];

    let min_x  = result.iter().map(|v: &Vertex| v.x).reduce(|a, b| a.min(b)).unwrap();

    let max_x  = result.iter().map(|v: &Vertex| v.x).reduce(|a, b| a.max(b)).unwrap();

    let min_y  = result.iter().map(|v: &Vertex| v.y).reduce(|a, b| a.min(b)).unwrap();

    let max_y  = result.iter().map(|v: &Vertex| v.y).reduce(|a, b| a.max(b)).unwrap();

    assert_eq!(min_x, center.x - (radius + 0.5));

    assert_eq!(max_x, center.x + (radius + 0.5));

    assert_eq!(min_y, center.y - (radius + 0.5));

    assert_eq!(max_y, center.y + (radius + 0.5));