/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at https://mozilla.org/MPL/2.0/. */
use std::cell::{Cell, Ref};
use std::collections::HashMap;
use base::id::{ImageBitmapId, ImageBitmapIndex};
use constellation_traits::SerializableImageBitmap;
use dom_struct::dom_struct;
use euclid::default::{Point2D, Rect, Size2D};
use snapshot::Snapshot;
use crate::dom::bindings::cell::DomRefCell;
use crate::dom::bindings::codegen::Bindings::ImageBitmapBinding::{
ImageBitmapMethods, ImageBitmapOptions, ImageOrientation, PremultiplyAlpha, ResizeQuality,
};
use crate::dom::bindings::reflector::{Reflector, reflect_dom_object};
use crate::dom::bindings::root::DomRoot;
use crate::dom::bindings::serializable::Serializable;
use crate::dom::bindings::structuredclone::StructuredData;
use crate::dom::bindings::transferable::Transferable;
use crate::dom::globalscope::GlobalScope;
use crate::script_runtime::CanGc;
#[dom_struct]
pub(crate) struct ImageBitmap {
reflector_: Reflector,
/// The actual pixel data of the bitmap
///
/// If this is `None`, then the bitmap data has been released by calling
/// [`close`](https://html.spec.whatwg.org/multipage/#dom-imagebitmap-close)
#[no_trace]
bitmap_data: DomRefCell<Option<Snapshot>>,
origin_clean: Cell<bool>,
}
impl ImageBitmap {
fn new_inherited(bitmap_data: Snapshot) -> ImageBitmap {
ImageBitmap {
reflector_: Reflector::new(),
bitmap_data: DomRefCell::new(Some(bitmap_data)),
origin_clean: Cell::new(true),
}
}
pub(crate) fn new(
global: &GlobalScope,
bitmap_data: Snapshot,
can_gc: CanGc,
) -> DomRoot<ImageBitmap> {
reflect_dom_object(
Box::new(ImageBitmap::new_inherited(bitmap_data)),
global,
can_gc,
)
}
#[allow(dead_code)]
pub(crate) fn bitmap_data(&self) -> Ref<Option<Snapshot>> {
self.bitmap_data.borrow()
}
pub(crate) fn origin_is_clean(&self) -> bool {
self.origin_clean.get()
}
pub(crate) fn set_origin_clean(&self, origin_is_clean: bool) {
self.origin_clean.set(origin_is_clean);
}
/// Return the value of the [`[[Detached]]`](https://html.spec.whatwg.org/multipage/#detached)
/// internal slot
pub(crate) fn is_detached(&self) -> bool {
self.bitmap_data.borrow().is_none()
}
/// <https://html.spec.whatwg.org/multipage/#cropped-to-the-source-rectangle-with-formatting>
pub(crate) fn crop_and_transform_bitmap_data(
input: Snapshot,
mut sx: i32,
mut sy: i32,
sw: Option<i32>,
sh: Option<i32>,
options: &ImageBitmapOptions,
) -> Option<Snapshot> {
let input_size = input.size().to_i32();
// Step 2. If sx, sy, sw and sh are specified, let sourceRectangle be a rectangle whose corners
// are the four points (sx, sy), (sx+sw, sy), (sx+sw, sy+sh), (sx, sy+sh). Otherwise,
// let sourceRectangle be a rectangle whose corners are the four points (0, 0), (width of input, 0),
// (width of input, height of input), (0, height of input). If either sw or sh are negative,
// then the top-left corner of this rectangle will be to the left or above the (sx, sy) point.
let sw = sw.map_or(input_size.width, |width| {
if width < 0 {
sx = sx.saturating_add(width);
width.saturating_abs()
} else {
width
}
});
let sh = sh.map_or(input_size.height, |height| {
if height < 0 {
sy = sy.saturating_add(height);
height.saturating_abs()
} else {
height
}
});
let source_rect = Rect::new(Point2D::new(sx, sy), Size2D::new(sw, sh));
// Whether the byte length of the source bitmap exceeds the supported range.
// In the case the source is too large, we should fail, and that is not defined.
// <https://github.com/whatwg/html/issues/3323>
let Some(source_byte_length) = pixels::compute_rgba8_byte_length_if_within_limit(
source_rect.size.width as usize,
source_rect.size.height as usize,
) else {
log::warn!(
"Failed to allocate bitmap of size {:?}, too large",
source_rect.size
);
return None;
};
// Step 3. Let outputWidth be determined as follows:
// Step 4. Let outputHeight be determined as follows:
let output_size = match (options.resizeWidth, options.resizeHeight) {
(Some(width), Some(height)) => Size2D::new(width, height),
(Some(width), None) => {
let height =
source_rect.size.height as f64 * width as f64 / source_rect.size.width as f64;
Size2D::new(width, height.round() as u32)
},
(None, Some(height)) => {
let width =
source_rect.size.width as f64 * height as f64 / source_rect.size.height as f64;
Size2D::new(width.round() as u32, height)
},
(None, None) => source_rect.size.to_u32(),
};
// Whether the byte length of the output bitmap exceeds the supported range.
// In the case the output is too large, we should fail, and that is not defined.
// <https://github.com/whatwg/html/issues/3323>
let Some(output_byte_length) = pixels::compute_rgba8_byte_length_if_within_limit(
output_size.width as usize,
output_size.height as usize,
) else {
log::warn!(
"Failed to allocate bitmap of size {:?}, too large",
output_size
);
return None;
};
// TODO: Take into account the image orientation (such as EXIF metadata).
// Step 5. Place input on an infinite transparent black grid plane, positioned so that
// its top left corner is at the origin of the plane, with the x-coordinate increasing to the right,
// and the y-coordinate increasing down, and with each pixel in the input image data occupying a cell
// on the plane's grid.
let input_rect = Rect::new(Point2D::zero(), input_size);
let input_rect_cropped = source_rect
.intersection(&input_rect)
.unwrap_or(Rect::zero());
// Early out for empty tranformations.
if input_rect_cropped.is_empty() {
return Some(Snapshot::cleared(output_size));
}
// Step 6. Let output be the rectangle on the plane denoted by sourceRectangle.
let mut source: Snapshot = Snapshot::from_vec(
source_rect.size.cast(),
input.format(),
input.alpha_mode(),
vec![0; source_byte_length],
);
let source_rect_cropped = Rect::new(
Point2D::new(
input_rect_cropped.origin.x - source_rect.origin.x,
input_rect_cropped.origin.y - source_rect.origin.y,
),
input_rect_cropped.size,
);
pixels::copy_rgba8_image(
input.size(),
input_rect_cropped.cast(),
input.data(),
source.size(),
source_rect_cropped.cast(),
source.data_mut(),
);
// Step 7. Scale output to the size specified by outputWidth and outputHeight.
let mut output = if source.size() != output_size {
let quality = match options.resizeQuality {
ResizeQuality::Pixelated => pixels::FilterQuality::None,
ResizeQuality::Low => pixels::FilterQuality::Low,
ResizeQuality::Medium => pixels::FilterQuality::Medium,
ResizeQuality::High => pixels::FilterQuality::High,
};
let Some(output_data) =
pixels::scale_rgba8_image(source.size(), source.data(), output_size, quality)
else {
log::warn!(
"Failed to scale the bitmap of size {:?} to required size {:?}",
source.size(),
output_size
);
return None;
};
debug_assert_eq!(output_data.len(), output_byte_length);
Snapshot::from_vec(
output_size,
source.format(),
source.alpha_mode(),
output_data,
)
} else {
source
};
// Step 8. If the value of the imageOrientation member of options is "flipY",
// output must be flipped vertically, disregarding any image orientation metadata
// of the source (such as EXIF metadata), if any.
if options.imageOrientation == ImageOrientation::FlipY {
pixels::flip_y_rgba8_image_inplace(output.size(), output.data_mut());
}
// TODO: Step 9. If image is an img element or a Blob object, let val be the value
// of the colorSpaceConversion member of options, and then run these substeps:
// Step 10. Let val be the value of premultiplyAlpha member of options,
// and then run these substeps:
// TODO: Preserve the original input pixel format and perform conversion on demand.
match options.premultiplyAlpha {
PremultiplyAlpha::Default | PremultiplyAlpha::Premultiply => {
output.transform(
snapshot::AlphaMode::Transparent {
premultiplied: true,
},
snapshot::PixelFormat::BGRA,
);
},
PremultiplyAlpha::None => {
output.transform(
snapshot::AlphaMode::Transparent {
premultiplied: false,
},
snapshot::PixelFormat::BGRA,
);
},
}
// Step 11. Return output.
Some(output)
}
}
impl Serializable for ImageBitmap {
type Index = ImageBitmapIndex;
type Data = SerializableImageBitmap;
/// <https://html.spec.whatwg.org/multipage/#the-imagebitmap-interface:serialization-steps>
fn serialize(&self) -> Result<(ImageBitmapId, Self::Data), ()> {
// Step 1. If value's origin-clean flag is not set, then throw a "DataCloneError" DOMException.
if !self.origin_is_clean() {
return Err(());
}
// If value has a [[Detached]] internal slot whose value is true,
// then throw a "DataCloneError" DOMException.
if self.is_detached() {
return Err(());
}
// Step 2. Set serialized.[[BitmapData]] to a copy of value's bitmap data.
let serialized = SerializableImageBitmap {
bitmap_data: self.bitmap_data.borrow().clone().unwrap(),
};
Ok((ImageBitmapId::new(), serialized))
}
/// <https://html.spec.whatwg.org/multipage/#the-imagebitmap-interface:deserialization-steps>
fn deserialize(
owner: &GlobalScope,
serialized: Self::Data,
can_gc: CanGc,
) -> Result<DomRoot<Self>, ()> {
// Step 1. Set value's bitmap data to serialized.[[BitmapData]].
Ok(ImageBitmap::new(owner, serialized.bitmap_data, can_gc))
}
fn serialized_storage<'a>(
data: StructuredData<'a, '_>,
) -> &'a mut Option<HashMap<ImageBitmapId, Self::Data>> {
match data {
StructuredData::Reader(r) => &mut r.image_bitmaps,
StructuredData::Writer(w) => &mut w.image_bitmaps,
}
}
}
impl Transferable for ImageBitmap {
type Index = ImageBitmapIndex;
type Data = SerializableImageBitmap;
fn can_transfer(&self) -> bool {
if !self.origin_is_clean() || self.is_detached() {
return false;
}
true
}
/// <https://html.spec.whatwg.org/multipage/#the-imagebitmap-interface:transfer-steps>
fn transfer(&self) -> Result<(ImageBitmapId, SerializableImageBitmap), ()> {
// Step 1. If value's origin-clean flag is not set, then throw a "DataCloneError" DOMException.
if !self.origin_is_clean() {
return Err(());
}
// If value has a [[Detached]] internal slot whose value is true,
// then throw a "DataCloneError" DOMException.
if self.is_detached() {
return Err(());
}
// Step 2. Set dataHolder.[[BitmapData]] to value's bitmap data.
// Step 3. Unset value's bitmap data.
let serialized = SerializableImageBitmap {
bitmap_data: self.bitmap_data.borrow_mut().take().unwrap(),
};
Ok((ImageBitmapId::new(), serialized))
}
/// <https://html.spec.whatwg.org/multipage/#the-imagebitmap-interface:transfer-receiving-steps>
fn transfer_receive(
owner: &GlobalScope,
_: ImageBitmapId,
serialized: SerializableImageBitmap,
) -> Result<DomRoot<Self>, ()> {
// Step 1. Set value's bitmap data to serialized.[[BitmapData]].
Ok(ImageBitmap::new(
owner,
serialized.bitmap_data,
CanGc::note(),
))
}
fn serialized_storage<'a>(
data: StructuredData<'a, '_>,
) -> &'a mut Option<HashMap<ImageBitmapId, Self::Data>> {
match data {
StructuredData::Reader(r) => &mut r.transferred_image_bitmaps,
StructuredData::Writer(w) => &mut w.transferred_image_bitmaps,
}
}
}
impl ImageBitmapMethods<crate::DomTypeHolder> for ImageBitmap {
/// <https://html.spec.whatwg.org/multipage/#dom-imagebitmap-height>
fn Height(&self) -> u32 {
// Step 1. If this's [[Detached]] internal slot's value is true, then return 0.
if self.is_detached() {
return 0;
}
// Step 2. Return this's height, in CSS pixels.
self.bitmap_data
.borrow()
.as_ref()
.unwrap()
.size()
.cast()
.height
}
/// <https://html.spec.whatwg.org/multipage/#dom-imagebitmap-width>
fn Width(&self) -> u32 {
// Step 1. If this's [[Detached]] internal slot's value is true, then return 0.
if self.is_detached() {
return 0;
}
// Step 2. Return this's width, in CSS pixels.
self.bitmap_data
.borrow()
.as_ref()
.unwrap()
.size()
.cast()
.width
}
/// <https://html.spec.whatwg.org/multipage/#dom-imagebitmap-close>
fn Close(&self) {
// Step 1. Set this's [[Detached]] internal slot value to true.
// Step 2. Unset this's bitmap data.
// NOTE: The existence of the bitmap data is the internal slot in our implementation
self.bitmap_data.borrow_mut().take();
}
}