third_party/rust_crates/vendor/png/src/common.rs - fuchsia - Git at Google

 //! Common types shared between the encoder and decoder
 extern crate deflate;
 use filter;

 #[derive(Debug, Clone, Copy, PartialEq, Eq)]
 #[repr(u8)]
 pub enum ColorType {
     Grayscale = 0,
     RGB = 2,
     Indexed = 3,
     GrayscaleAlpha = 4,
     RGBA = 6
 }

 impl ColorType {
     /// Returns the number of samples used per pixel of `ColorType`
     pub fn samples(&self) -> usize {
         use self::ColorType::*;
         match *self {
             Grayscale | Indexed => 1,
             RGB => 3,
             GrayscaleAlpha => 2,
             RGBA => 4
         }
     }

     /// u8 -> Self. Temporary solution until Rust provides a canonical one.
     pub fn from_u8(n: u8) -> Option<ColorType> {
         match n {
             0 => Some(ColorType::Grayscale),
             2 => Some(ColorType::RGB),
             3 => Some(ColorType::Indexed),
             4 => Some(ColorType::GrayscaleAlpha),
             6 => Some(ColorType::RGBA),
             _ => None
         }
     }
 }

 /// Bit depth of the png file
 #[derive(Debug, Clone, Copy, PartialEq, Eq)]
 #[repr(u8)]
 pub enum BitDepth {
     One     = 1,
     Two     = 2,
     Four    = 4,
     Eight   = 8,
     Sixteen = 16,
 }

 impl BitDepth {
     /// u8 -> Self. Temporary solution until Rust provides a canonical one.
     pub fn from_u8(n: u8) -> Option<BitDepth> {
         match n {
             1 => Some(BitDepth::One),
             2 => Some(BitDepth::Two),
             4 => Some(BitDepth::Four),
             8 => Some(BitDepth::Eight),
             16 => Some(BitDepth::Sixteen),
             _ => None
         }
     }
 }

 /// Pixel dimensions information
 #[derive(Clone, Copy, Debug)]
 pub struct PixelDimensions {
     /// Pixels per unit, X axis
     pub xppu: u32,
     /// Pixels per unit, Y axis
     pub yppu: u32,
     /// Either *Meter* or *Unspecified*
     pub unit: Unit,
 }

 #[derive(Debug, Clone, Copy, PartialEq, Eq)]
 #[repr(u8)]
 /// Physical unit of the pixel dimensions
 pub enum Unit {
     Unspecified = 0,
     Meter = 1,
 }

 impl Unit {
     /// u8 -> Self. Temporary solution until Rust provides a canonical one.
     pub fn from_u8(n: u8) -> Option<Unit> {
         match n {
             0 => Some(Unit::Unspecified),
             1 => Some(Unit::Meter),
             _ => None
         }
     }
 }

 /// Frame control information
 #[derive(Clone, Debug)]
 pub struct FrameControl {
     /// Sequence number of the animation chunk, starting from 0
     pub sequence_number: u32,
     /// Width of the following frame
     pub width: u32,
     /// Height of the following frame
     pub height: u32,
     /// X position at which to render the following frame
     pub x_offset: u32,
     /// Y position at which to render the following frame
     pub y_offset: u32,
     /// Frame delay fraction numerator
     pub delay_num: u16,
     /// Frame delay fraction denominator
     pub delay_den: u16,
     /// Type of frame area disposal to be done after rendering this frame
     pub dispose_op: u8,
     /// Type of frame area rendering for this frame
     pub blend_op: u8,
 }

 /// Animation control information
 #[derive(Clone, Copy, Debug)]
 pub struct AnimationControl {
     /// Number of frames
     pub num_frames: u32,
     /// Number of times to loop this APNG.  0 indicates infinite looping.
     pub num_plays: u32,
 }

 #[derive(Debug, Clone)]
 pub enum Compression {
     /// Default level
     Default,
     /// Fast minimal compression
     Fast,
     /// Higher compression level
     ///
     /// Best in this context isn't actually the highest possible level
     /// the encoder can do, but is meant to emulate the `Best` setting in the `Flate2`
     /// library.
     Best,
     Huffman,
     Rle,
 }

 impl From<deflate::Compression> for Compression {
     fn from(c: deflate::Compression) -> Self {
         match c {
             deflate::Compression::Default => Compression::Default,
             deflate::Compression::Fast => Compression::Fast,
             deflate::Compression::Best => Compression::Best,
         }
     }
 }

 impl From<Compression> for deflate::CompressionOptions {
     fn from(c: Compression) -> Self {
         match c {
             Compression::Default => deflate::CompressionOptions::default(),
             Compression::Fast => deflate::CompressionOptions::fast(),
             Compression::Best => deflate::CompressionOptions::high(),
             Compression::Huffman => deflate::CompressionOptions::huffman_only(),
             Compression::Rle => deflate::CompressionOptions::rle(),
         }
     }
 }

 /// PNG info struct
 #[derive(Debug)]
 pub struct Info {
     pub width: u32,
     pub height: u32,
     pub bit_depth: BitDepth,
     pub color_type: ColorType,
     pub interlaced: bool,
     pub trns: Option<Vec<u8>>,
     pub pixel_dims: Option<PixelDimensions>,
     pub palette: Option<Vec<u8>>,
     pub frame_control: Option<FrameControl>,
     pub animation_control: Option<AnimationControl>,
     pub compression: Compression,
     pub filter: filter::FilterType,
 }

 impl Default for Info {
     fn default() -> Info {
         Info {
             width: 0,
             height: 0,
             bit_depth: BitDepth::Eight,
             color_type: ColorType::Grayscale,
             interlaced: false,
             palette: None,
             trns: None,
             pixel_dims: None,
             frame_control: None,
             animation_control: None,
             // Default to `deflate::Compresion::Fast` and `filter::FilterType::Sub`
             // to maintain backward compatible output.
             compression: deflate::Compression::Fast.into(),
             filter: filter::FilterType::Sub,
         }
     }
 }

 impl Info {
     /// Size of the image
     pub fn size(&self) -> (u32, u32) {
         (self.width, self.height)
     }

     /// Returns true if the image is an APNG image.
     pub fn is_animated(&self) -> bool {
         self.frame_control.is_some() && self.animation_control.is_some()
     }

     /// Returns the frame control information of the image
     pub fn animation_control(&self) -> Option<&AnimationControl> {
         self.animation_control.as_ref()
     }

     /// Returns the frame control information of the current frame
     pub fn frame_control(&self) -> Option<&FrameControl> {
         self.frame_control.as_ref()
     }

     /// Returns the bits per pixel
     pub fn bits_per_pixel(&self) -> usize {
         self.color_type.samples() * self.bit_depth as usize
     }

     /// Returns the bytes per pixel
     pub fn bytes_per_pixel(&self) -> usize {
         self.color_type.samples() * ((self.bit_depth as usize + 7) >> 3)
     }

     /// Returns the number of bytes needed for one deinterlaced image
     pub fn raw_bytes(&self) -> usize {
         self.height as usize * self.raw_row_length()
     }

     /// Returns the number of bytes needed for one deinterlaced row
     pub fn raw_row_length(&self) -> usize {
         let bits = self.width as usize * self.color_type.samples() * self.bit_depth as usize;
         let extra = bits % 8;
         bits/8
         + match extra { 0 => 0, _ => 1 }
         + 1 // filter method
     }

     /// Returns the number of bytes needed for one deinterlaced row of width `width`
     pub fn raw_row_length_from_width(&self, width: u32) -> usize {
         let bits = width as usize * self.color_type.samples() * self.bit_depth as usize;
         let extra = bits % 8;
         bits/8
         + match extra { 0 => 0, _ => 1 }
         + 1 // filter method
     }
 }


 bitflags! {
     /// # Output transformations
     ///
     /// Only `IDENTITY` and `TRANSFORM_EXPAND | TRANSFORM_STRIP_ALPHA` can be used at the moment.
     pub struct Transformations: u32 {
         /// No transformation
         const IDENTITY            = 0x0000; // read and write */
         /// Strip 16-bit samples to 8 bits
         const STRIP_16            = 0x0001; // read only */
         /// Discard the alpha channel
         const STRIP_ALPHA         = 0x0002; // read only */
         /// Expand 1; 2 and 4-bit samples to bytes
         const PACKING             = 0x0004; // read and write */
         /// Change order of packed pixels to LSB first
         const PACKSWAP            = 0x0008; // read and write */
         /// Expand paletted images to RGB; expand grayscale images of
         /// less than 8-bit depth to 8-bit depth; and expand tRNS chunks
         /// to alpha channels.
         const EXPAND              = 0x0010; // read only */
         /// Invert monochrome images
         const INVERT_MONO         = 0x0020; // read and write */
         /// Normalize pixels to the sBIT depth
         const SHIFT               = 0x0040; // read and write */
         /// Flip RGB to BGR; RGBA to BGRA
         const BGR                 = 0x0080; // read and write */
         /// Flip RGBA to ARGB or GA to AG
         const SWAP_ALPHA          = 0x0100; // read and write */
         /// Byte-swap 16-bit samples
         const SWAP_ENDIAN         = 0x0200; // read and write */
         /// Change alpha from opacity to transparency
         const INVERT_ALPHA        = 0x0400; // read and write */
         const STRIP_FILLER        = 0x0800; // write only */
         const STRIP_FILLER_BEFORE = 0x0800; // write only
         const STRIP_FILLER_AFTER  = 0x1000; // write only */
         const GRAY_TO_RGB         = 0x2000; // read only */
         const EXPAND_16           = 0x4000; // read only */
         const SCALE_16            = 0x8000; // read only */
     }
 }
	//! Common types shared between the encoder and decoder
	extern crate deflate;
	use filter;

	#[derive(Debug, Clone, Copy, PartialEq, Eq)]
	#[repr(u8)]
	pub enum ColorType {
	Grayscale = 0,
	RGB = 2,
	Indexed = 3,
	GrayscaleAlpha = 4,
	RGBA = 6
	}

	impl ColorType {
	/// Returns the number of samples used per pixel of `ColorType`
	pub fn samples(&self) -> usize {
	use self::ColorType::*;
	match *self {
	Grayscale \| Indexed => 1,
	RGB => 3,
	GrayscaleAlpha => 2,
	RGBA => 4
	}
	}

	/// u8 -> Self. Temporary solution until Rust provides a canonical one.
	pub fn from_u8(n: u8) -> Option<ColorType> {
	match n {
	0 => Some(ColorType::Grayscale),
	2 => Some(ColorType::RGB),
	3 => Some(ColorType::Indexed),
	4 => Some(ColorType::GrayscaleAlpha),
	6 => Some(ColorType::RGBA),
	_ => None
	}
	}
	}

	/// Bit depth of the png file
	#[derive(Debug, Clone, Copy, PartialEq, Eq)]
	#[repr(u8)]
	pub enum BitDepth {
	One = 1,
	Two = 2,
	Four = 4,
	Eight = 8,
	Sixteen = 16,
	}

	impl BitDepth {
	/// u8 -> Self. Temporary solution until Rust provides a canonical one.
	pub fn from_u8(n: u8) -> Option<BitDepth> {
	match n {
	1 => Some(BitDepth::One),
	2 => Some(BitDepth::Two),
	4 => Some(BitDepth::Four),
	8 => Some(BitDepth::Eight),
	16 => Some(BitDepth::Sixteen),
	_ => None
	}
	}
	}

	/// Pixel dimensions information
	#[derive(Clone, Copy, Debug)]
	pub struct PixelDimensions {
	/// Pixels per unit, X axis
	pub xppu: u32,
	/// Pixels per unit, Y axis
	pub yppu: u32,
	/// Either Meter or Unspecified
	pub unit: Unit,
	}

	#[derive(Debug, Clone, Copy, PartialEq, Eq)]
	#[repr(u8)]
	/// Physical unit of the pixel dimensions
	pub enum Unit {
	Unspecified = 0,
	Meter = 1,
	}

	impl Unit {
	/// u8 -> Self. Temporary solution until Rust provides a canonical one.
	pub fn from_u8(n: u8) -> Option<Unit> {
	match n {
	0 => Some(Unit::Unspecified),
	1 => Some(Unit::Meter),
	_ => None
	}
	}
	}

	/// Frame control information
	#[derive(Clone, Debug)]
	pub struct FrameControl {
	/// Sequence number of the animation chunk, starting from 0
	pub sequence_number: u32,
	/// Width of the following frame
	pub width: u32,
	/// Height of the following frame
	pub height: u32,
	/// X position at which to render the following frame
	pub x_offset: u32,
	/// Y position at which to render the following frame
	pub y_offset: u32,
	/// Frame delay fraction numerator
	pub delay_num: u16,
	/// Frame delay fraction denominator
	pub delay_den: u16,
	/// Type of frame area disposal to be done after rendering this frame
	pub dispose_op: u8,
	/// Type of frame area rendering for this frame
	pub blend_op: u8,
	}

	/// Animation control information
	#[derive(Clone, Copy, Debug)]
	pub struct AnimationControl {
	/// Number of frames
	pub num_frames: u32,
	/// Number of times to loop this APNG. 0 indicates infinite looping.
	pub num_plays: u32,
	}

	#[derive(Debug, Clone)]
	pub enum Compression {
	/// Default level
	Default,
	/// Fast minimal compression
	Fast,
	/// Higher compression level
	///
	/// Best in this context isn't actually the highest possible level
	/// the encoder can do, but is meant to emulate the `Best` setting in the `Flate2`
	/// library.
	Best,
	Huffman,
	Rle,
	}

	impl From<deflate::Compression> for Compression {
	fn from(c: deflate::Compression) -> Self {
	match c {
	deflate::Compression::Default => Compression::Default,
	deflate::Compression::Fast => Compression::Fast,
	deflate::Compression::Best => Compression::Best,
	}
	}
	}

	impl From<Compression> for deflate::CompressionOptions {
	fn from(c: Compression) -> Self {
	match c {
	Compression::Default => deflate::CompressionOptions::default(),
	Compression::Fast => deflate::CompressionOptions::fast(),
	Compression::Best => deflate::CompressionOptions::high(),
	Compression::Huffman => deflate::CompressionOptions::huffman_only(),
	Compression::Rle => deflate::CompressionOptions::rle(),
	}
	}
	}

	/// PNG info struct
	#[derive(Debug)]
	pub struct Info {
	pub width: u32,
	pub height: u32,
	pub bit_depth: BitDepth,
	pub color_type: ColorType,
	pub interlaced: bool,
	pub trns: Option<Vec<u8>>,
	pub pixel_dims: Option<PixelDimensions>,
	pub palette: Option<Vec<u8>>,
	pub frame_control: Option<FrameControl>,
	pub animation_control: Option<AnimationControl>,
	pub compression: Compression,
	pub filter: filter::FilterType,
	}

	impl Default for Info {
	fn default() -> Info {
	Info {
	width: 0,
	height: 0,
	bit_depth: BitDepth::Eight,
	color_type: ColorType::Grayscale,
	interlaced: false,
	palette: None,
	trns: None,
	pixel_dims: None,
	frame_control: None,
	animation_control: None,
	// Default to `deflate::Compresion::Fast` and `filter::FilterType::Sub`
	// to maintain backward compatible output.
	compression: deflate::Compression::Fast.into(),
	filter: filter::FilterType::Sub,
	}
	}
	}

	impl Info {
	/// Size of the image
	pub fn size(&self) -> (u32, u32) {
	(self.width, self.height)
	}

	/// Returns true if the image is an APNG image.
	pub fn is_animated(&self) -> bool {
	self.frame_control.is_some() && self.animation_control.is_some()
	}

	/// Returns the frame control information of the image
	pub fn animation_control(&self) -> Option<&AnimationControl> {
	self.animation_control.as_ref()
	}

	/// Returns the frame control information of the current frame
	pub fn frame_control(&self) -> Option<&FrameControl> {
	self.frame_control.as_ref()
	}

	/// Returns the bits per pixel
	pub fn bits_per_pixel(&self) -> usize {
	self.color_type.samples() * self.bit_depth as usize
	}

	/// Returns the bytes per pixel
	pub fn bytes_per_pixel(&self) -> usize {
	self.color_type.samples() * ((self.bit_depth as usize + 7) >> 3)
	}

	/// Returns the number of bytes needed for one deinterlaced image
	pub fn raw_bytes(&self) -> usize {
	self.height as usize * self.raw_row_length()
	}

	/// Returns the number of bytes needed for one deinterlaced row
	pub fn raw_row_length(&self) -> usize {
	let bits = self.width as usize * self.color_type.samples() * self.bit_depth as usize;
	let extra = bits % 8;
	bits/8
	+ match extra { 0 => 0, _ => 1 }
	+ 1 // filter method
	}

	/// Returns the number of bytes needed for one deinterlaced row of width `width`
	pub fn raw_row_length_from_width(&self, width: u32) -> usize {
	let bits = width as usize * self.color_type.samples() * self.bit_depth as usize;
	let extra = bits % 8;
	bits/8
	+ match extra { 0 => 0, _ => 1 }
	+ 1 // filter method
	}
	}


	bitflags! {
	/// # Output transformations
	///
	/// Only `IDENTITY` and `TRANSFORM_EXPAND \| TRANSFORM_STRIP_ALPHA` can be used at the moment.
	pub struct Transformations: u32 {
	/// No transformation
	const IDENTITY = 0x0000; // read and write */
	/// Strip 16-bit samples to 8 bits
	const STRIP_16 = 0x0001; // read only */
	/// Discard the alpha channel
	const STRIP_ALPHA = 0x0002; // read only */
	/// Expand 1; 2 and 4-bit samples to bytes
	const PACKING = 0x0004; // read and write */
	/// Change order of packed pixels to LSB first
	const PACKSWAP = 0x0008; // read and write */
	/// Expand paletted images to RGB; expand grayscale images of
	/// less than 8-bit depth to 8-bit depth; and expand tRNS chunks
	/// to alpha channels.
	const EXPAND = 0x0010; // read only */
	/// Invert monochrome images
	const INVERT_MONO = 0x0020; // read and write */
	/// Normalize pixels to the sBIT depth
	const SHIFT = 0x0040; // read and write */
	/// Flip RGB to BGR; RGBA to BGRA
	const BGR = 0x0080; // read and write */
	/// Flip RGBA to ARGB or GA to AG
	const SWAP_ALPHA = 0x0100; // read and write */
	/// Byte-swap 16-bit samples
	const SWAP_ENDIAN = 0x0200; // read and write */
	/// Change alpha from opacity to transparency
	const INVERT_ALPHA = 0x0400; // read and write */
	const STRIP_FILLER = 0x0800; // write only */
	const STRIP_FILLER_BEFORE = 0x0800; // write only
	const STRIP_FILLER_AFTER = 0x1000; // write only */
	const GRAY_TO_RGB = 0x2000; // read only */
	const EXPAND_16 = 0x4000; // read only */
	const SCALE_16 = 0x8000; // read only */
	}
	}