[nihav.git] / src / formats.rs

use std::string::*;
use std::fmt;

#[derive(Debug,Copy,Clone)]
pub struct NASoniton {
    bits:       u8,
    be:         bool,
    packed:     bool,
    planar:     bool,
    float:      bool,
    signed:     bool,
}

bitflags! {
    pub flags SonitonFlags: u8 {
        const SONITON_FLAG_BE       = 0x01,
        const SONITON_FLAG_PACKED   = 0x02,
        const SONITON_FLAG_PLANAR   = 0x04,
        const SONITON_FLAG_FLOAT    = 0x08,
        const SONITON_FLAG_SIGNED   = 0x10,
    }
}

pub const SND_U8_FORMAT: NASoniton = NASoniton { bits: 8, be: false, packed: false, planar: false, float: false, signed: false };
pub const SND_S16_FORMAT: NASoniton = NASoniton { bits: 16, be: false, packed: false, planar: false, float: false, signed: true };
pub const SND_F32_FORMAT: NASoniton = NASoniton { bits: 32, be: false, packed: false, planar: false, float: true, signed: true };

impl NASoniton {
    pub fn new(bits: u8, flags: SonitonFlags) -> Self {
        let is_be = (flags.bits & SONITON_FLAG_BE.bits) != 0;
        let is_pk = (flags.bits & SONITON_FLAG_PACKED.bits) != 0;
        let is_pl = (flags.bits & SONITON_FLAG_PLANAR.bits) != 0;
        let is_fl = (flags.bits & SONITON_FLAG_FLOAT.bits) != 0;
        let is_sg = (flags.bits & SONITON_FLAG_SIGNED.bits) != 0;
        NASoniton { bits: bits, be: is_be, packed: is_pk, planar: is_pl, float: is_fl, signed: is_sg }
    }

    pub fn get_bits(&self)  -> u8   { self.bits }
    pub fn is_be(&self)     -> bool { self.be }
    pub fn is_packed(&self) -> bool { self.packed }
    pub fn is_planar(&self) -> bool { self.planar }
    pub fn is_float(&self)  -> bool { self.float }
    pub fn is_signed(&self) -> bool { self.signed }
}

impl fmt::Display for NASoniton {
    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
        let fmt = if self.float { "float" } else if self.signed { "int" } else { "uint" };
        let end = if self.be { "BE" } else { "LE" };
        write!(f, "({} bps, {} planar: {} packed: {} {})", self.bits, end, self.packed, self.planar, fmt)
    }
}

#[derive(Debug,Clone,Copy)]
pub enum NAChannelType {
    C, L, R, Cs, Ls, Rs, Lss, Rss, LFE, Lc, Rc, Lh, Rh, Ch, LFE2, Lw, Rw, Ov, Lhs, Rhs, Chs, Ll, Rl, Cl, Lt, Rt, Lo, Ro
}

impl NAChannelType {
    pub fn is_center(&self) -> bool {
        match *self {
            NAChannelType::C => true,   NAChannelType::Ch => true,
            NAChannelType::Cl => true,  NAChannelType::Ov => true,
            NAChannelType::LFE => true, NAChannelType::LFE2 => true,
            NAChannelType::Cs => true,  NAChannelType::Chs => true,
            _ => false,
        }
    }
    pub fn is_left(&self) -> bool {
        match *self {
            NAChannelType::L   => true, NAChannelType::Ls => true,
            NAChannelType::Lss => true, NAChannelType::Lc => true,
            NAChannelType::Lh  => true, NAChannelType::Lw => true,
            NAChannelType::Lhs => true, NAChannelType::Ll => true,
            NAChannelType::Lt  => true, NAChannelType::Lo => true,
            _ => false,
        }
    }
    pub fn is_right(&self) -> bool {
        match *self {
            NAChannelType::R   => true, NAChannelType::Rs => true,
            NAChannelType::Rss => true, NAChannelType::Rc => true,
            NAChannelType::Rh  => true, NAChannelType::Rw => true,
            NAChannelType::Rhs => true, NAChannelType::Rl => true,
            NAChannelType::Rt  => true, NAChannelType::Ro => true,
            _ => false,
        }
    }
}

impl fmt::Display for NAChannelType {
    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
        let name = match *self {
            NAChannelType::C    => "C".to_string(),
            NAChannelType::L    => "L".to_string(),
            NAChannelType::R    => "R".to_string(),
            NAChannelType::Cs   => "Cs".to_string(),
            NAChannelType::Ls   => "Ls".to_string(),
            NAChannelType::Rs   => "Rs".to_string(),
            NAChannelType::Lss  => "Lss".to_string(),
            NAChannelType::Rss  => "Rss".to_string(),
            NAChannelType::LFE  => "LFE".to_string(),
            NAChannelType::Lc   => "Lc".to_string(),
            NAChannelType::Rc   => "Rc".to_string(),
            NAChannelType::Lh   => "Lh".to_string(),
            NAChannelType::Rh   => "Rh".to_string(),
            NAChannelType::Ch   => "Ch".to_string(),
            NAChannelType::LFE2 => "LFE2".to_string(),
            NAChannelType::Lw   => "Lw".to_string(),
            NAChannelType::Rw   => "Rw".to_string(),
            NAChannelType::Ov   => "Ov".to_string(),
            NAChannelType::Lhs  => "Lhs".to_string(),
            NAChannelType::Rhs  => "Rhs".to_string(),
            NAChannelType::Chs  => "Chs".to_string(),
            NAChannelType::Ll   => "Ll".to_string(),
            NAChannelType::Rl   => "Rl".to_string(),
            NAChannelType::Cl   => "Cl".to_string(),
            NAChannelType::Lt   => "Lt".to_string(),
            NAChannelType::Rt   => "Rt".to_string(),
            NAChannelType::Lo   => "Lo".to_string(),
            NAChannelType::Ro   => "Ro".to_string(),
        };
        write!(f, "{}", name)
    }
}

pub struct NAChannelMap {
    ids: Vec<NAChannelType>,
}

impl NAChannelMap {
    pub fn new() -> Self { NAChannelMap { ids: Vec::new() } }
    pub fn add_channel(&mut self, ch: NAChannelType) {
        self.ids.push(ch);
    }
    pub fn num_channels(&self) -> usize {
        self.ids.len()
    }
    pub fn get_channel(&self, idx: usize) -> NAChannelType {
        self.ids[idx]
    }
    pub fn find_channel_id(&self, t: NAChannelType) -> Option<u8> {
        for i in 0..self.ids.len() {
            if self.ids[i] as i32 == t as i32 { return Some(i as u8); }
        }
        None
    }
}

#[derive(Debug,Clone,Copy)]
pub enum RGBSubmodel {
    RGB,
    SRGB,
}

impl fmt::Display for RGBSubmodel {
    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
        let name = match *self {
            RGBSubmodel::RGB  => "RGB".to_string(),
            RGBSubmodel::SRGB => "sRGB".to_string(),
        };
        write!(f, "{}", name)
    }
}

#[derive(Debug,Clone,Copy)]
pub enum YUVSubmodel {
    YCbCr,
    YIQ,
    YUVJ,
}

impl fmt::Display for YUVSubmodel {
    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
        let name = match *self {
            YUVSubmodel::YCbCr => "YCbCr".to_string(),
            YUVSubmodel::YIQ   => "YIQ".to_string(),
            YUVSubmodel::YUVJ  => "YUVJ".to_string(),
        };
        write!(f, "{}", name)
    }
}

#[derive(Debug, Clone,Copy)]
pub enum ColorModel {
    RGB(RGBSubmodel),
    YUV(YUVSubmodel),
    CMYK,
    HSV,
    LAB,
    XYZ,
}

impl ColorModel {
    pub fn get_default_components(&self) -> usize {
        match *self {
            ColorModel::CMYK => 4,
            _                => 3,
        }
    }
}

impl fmt::Display for ColorModel {
    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
        let name = match *self {
            ColorModel::RGB(fmt) => format!("RGB({})", fmt).to_string(),
            ColorModel::YUV(fmt) => format!("YUV({})", fmt).to_string(),
            ColorModel::CMYK     => "CMYK".to_string(),
            ColorModel::HSV      => "HSV".to_string(),
            ColorModel::LAB      => "LAB".to_string(),
            ColorModel::XYZ      => "XYZ".to_string(),
        };
        write!(f, "{}", name)
    }
}

#[derive(Clone,Copy)]
pub struct NAPixelChromaton {
    h_ss:           u8,
    v_ss:           u8,
    packed:         bool,
    depth:          u8,
    shift:          u8,
    comp_offs:      u8,
    next_elem:      u8,
}

bitflags! {
    pub flags FormatonFlags: u8 {
        const FORMATON_FLAG_BE       = 0x01,
        const FORMATON_FLAG_ALPHA    = 0x02,
        const FORMATON_FLAG_PALETTE  = 0x04,
    }
}


#[derive(Clone,Copy)]
pub struct NAPixelFormaton {
    model:      ColorModel,
    components: u8,
    comp_info:  [Option<NAPixelChromaton>; 5],
    elem_size:  u8,
    be:         bool,
    alpha:      bool,
    palette:    bool,
}

macro_rules! chromaton {
    ($hs: expr, $vs: expr, $pck: expr, $d: expr, $sh: expr, $co: expr, $ne: expr) => ({
        Some(NAPixelChromaton{ h_ss: $hs, v_ss: $vs, packed: $pck, depth: $d, shift: $sh, comp_offs: $co, next_elem: $ne })
    });
    (yuv8; $hs: expr, $vs: expr, $co: expr) => ({
        Some(NAPixelChromaton{ h_ss: $hs, v_ss: $vs, packed: false, depth: 8, shift: 0, comp_offs: $co, next_elem: 1 })
    });
    (packrgb; $d: expr, $s: expr, $co: expr, $ne: expr) => ({
        Some(NAPixelChromaton{ h_ss: 0, v_ss: 0, packed: true, depth: $d, shift: $s, comp_offs: $co, next_elem: $ne })
    });
    (pal8; $co: expr) => ({
        Some(NAPixelChromaton{ h_ss: 0, v_ss: 0, packed: true, depth: 8, shift: 0, comp_offs: $co, next_elem: 3 })
    });
}

pub const YUV420_FORMAT: NAPixelFormaton = NAPixelFormaton { model: ColorModel::YUV(YUVSubmodel::YUVJ), components: 3,
                                        comp_info: [
                                            chromaton!(0, 0, false, 8, 0, 0, 1),
                                            chromaton!(yuv8; 1, 1, 1),
                                            chromaton!(yuv8; 1, 1, 2),
                                            None, None],
                                        elem_size: 0, be: false, alpha: false, palette: false };

pub const PAL8_FORMAT: NAPixelFormaton = NAPixelFormaton { model: ColorModel::RGB(RGBSubmodel::RGB), components: 3,
                                        comp_info: [
                                            chromaton!(pal8; 0),
                                            chromaton!(pal8; 1),
                                            chromaton!(pal8; 2),
                                            None, None],
                                        elem_size: 3, be: false, alpha: false, palette: true };

pub const RGB565_FORMAT: NAPixelFormaton = NAPixelFormaton { model: ColorModel::RGB(RGBSubmodel::RGB), components: 3,
                                        comp_info: [
                                            chromaton!(packrgb; 5, 11, 0, 2),
                                            chromaton!(packrgb; 6,  5, 0, 2),
                                            chromaton!(packrgb; 5,  0, 0, 2),
                                            None, None],
                                        elem_size: 2, be: false, alpha: false, palette: false };

impl NAPixelChromaton {
    pub fn get_subsampling(&self) -> (u8, u8) { (self.h_ss, self.v_ss) }
    pub fn is_packed(&self) -> bool { self.packed }
    pub fn get_depth(&self) -> u8   { self.depth }
    pub fn get_shift(&self) -> u8   { self.shift }
    pub fn get_offset(&self) -> u8  { self.comp_offs }
    pub fn get_step(&self)  -> u8   { self.next_elem }
}

impl fmt::Display for NAPixelChromaton {
    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
        let pfmt = if self.packed {
            let mask = ((1 << self.depth) - 1) << self.shift;
            format!("packed(+{},{:X}, step {})", self.comp_offs, mask, self.next_elem)
        } else {
            format!("planar({},{})", self.comp_offs, self.next_elem)
        };
        write!(f, "({}x{}, {})", self.h_ss, self.v_ss, pfmt)
    }
}

impl NAPixelFormaton {
    pub fn new(model: ColorModel,
               comp1: Option<NAPixelChromaton>,
               comp2: Option<NAPixelChromaton>,
               comp3: Option<NAPixelChromaton>,
               comp4: Option<NAPixelChromaton>,
               comp5: Option<NAPixelChromaton>,
               flags: FormatonFlags, elem_size: u8) -> Self {
        let mut chromatons: [Option<NAPixelChromaton>; 5] = [None; 5];
        let mut ncomp = 0;
        let be      = (flags.bits & FORMATON_FLAG_BE.bits)      != 0;
        let alpha   = (flags.bits & FORMATON_FLAG_ALPHA.bits)   != 0;
        let palette = (flags.bits & FORMATON_FLAG_PALETTE.bits) != 0;
        if let Some(c) = comp1 { chromatons[0] = Some(c); ncomp += 1; }
        if let Some(c) = comp2 { chromatons[1] = Some(c); ncomp += 1; }
        if let Some(c) = comp3 { chromatons[2] = Some(c); ncomp += 1; }
        if let Some(c) = comp4 { chromatons[3] = Some(c); ncomp += 1; }
        if let Some(c) = comp5 { chromatons[4] = Some(c); ncomp += 1; }
        NAPixelFormaton { model: model,
                          components: ncomp,
                          comp_info: chromatons,
                          elem_size: elem_size,
                         be: be, alpha: alpha, palette: palette }
    }

    pub fn get_model(&self) -> ColorModel { self.model }
    pub fn get_num_comp(&self) -> u8 { self.components }
    pub fn get_chromaton(&self, idx: usize) -> Option<NAPixelChromaton> {
        if idx < self.comp_info.len() { return self.comp_info[idx]; }
        None
    }
    pub fn is_be(&self) -> bool { self.be }
    pub fn has_alpha(&self) -> bool { self.alpha }
    pub fn is_paletted(&self) -> bool { self.palette }
    pub fn get_elem_size(&self) -> u8 { self.elem_size }
}

impl fmt::Display for NAPixelFormaton {
    fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
        let end = if self.be { "BE" } else { "LE" };
        let palstr = if self.palette { "palette " } else { "" };
        let astr = if self.alpha { "alpha " } else { "" };
        let mut str = format!("Formaton for {} ({}{}elem {} size {}): ", self.model, palstr, astr,end, self.elem_size);
        for i in 0..self.comp_info.len() {
            if let Some(chr) = self.comp_info[i] {
                str = format!("{} {}", str, chr);
            }
        }
        write!(f, "[{}]", str)
    }
}

#[cfg(test)]
mod test {
    use super::*;

    #[test]
    fn test_fmt() {
        println!("{}", SND_S16_FORMAT);
        println!("{}", SND_U8_FORMAT);
        println!("{}", SND_F32_FORMAT);
        println!("formaton yuv- {}", YUV420_FORMAT);
        println!("formaton pal- {}", PAL8_FORMAT);
        println!("formaton rgb565- {}", RGB565_FORMAT);
    }
}
Commit	Line	Data
fba6f8e4 KS	1	use std::string::*;
	2	use std::fmt;
	3
	4	#[derive(Debug,Copy,Clone)]
	5	pub struct NASoniton {
	6	bits: u8,
	7	be: bool,
	8	packed: bool,
	9	planar: bool,
	10	float: bool,
	11	signed: bool,
	12	}
	13
	14	bitflags! {
	15	pub flags SonitonFlags: u8 {
	16	const SONITON_FLAG_BE = 0x01,
	17	const SONITON_FLAG_PACKED = 0x02,
	18	const SONITON_FLAG_PLANAR = 0x04,
	19	const SONITON_FLAG_FLOAT = 0x08,
	20	const SONITON_FLAG_SIGNED = 0x10,
	21	}
	22	}
	23
	24	pub const SND_U8_FORMAT: NASoniton = NASoniton { bits: 8, be: false, packed: false, planar: false, float: false, signed: false };
	25	pub const SND_S16_FORMAT: NASoniton = NASoniton { bits: 16, be: false, packed: false, planar: false, float: false, signed: true };
	26	pub const SND_F32_FORMAT: NASoniton = NASoniton { bits: 32, be: false, packed: false, planar: false, float: true, signed: true };
	27
	28	impl NASoniton {
	29	pub fn new(bits: u8, flags: SonitonFlags) -> Self {
	30	let is_be = (flags.bits & SONITON_FLAG_BE.bits) != 0;
	31	let is_pk = (flags.bits & SONITON_FLAG_PACKED.bits) != 0;
	32	let is_pl = (flags.bits & SONITON_FLAG_PLANAR.bits) != 0;
	33	let is_fl = (flags.bits & SONITON_FLAG_FLOAT.bits) != 0;
	34	let is_sg = (flags.bits & SONITON_FLAG_SIGNED.bits) != 0;
	35	NASoniton { bits: bits, be: is_be, packed: is_pk, planar: is_pl, float: is_fl, signed: is_sg }
	36	}
	37
	38	pub fn get_bits(&self) -> u8 { self.bits }
	39	pub fn is_be(&self) -> bool { self.be }
	40	pub fn is_packed(&self) -> bool { self.packed }
	41	pub fn is_planar(&self) -> bool { self.planar }
	42	pub fn is_float(&self) -> bool { self.float }
	43	pub fn is_signed(&self) -> bool { self.signed }
	44	}
	45
	46	impl fmt::Display for NASoniton {
	47	fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
	48	let fmt = if self.float { "float" } else if self.signed { "int" } else { "uint" };
	49	let end = if self.be { "BE" } else { "LE" };
	50	write!(f, "({} bps, {} planar: {} packed: {} {})", self.bits, end, self.packed, self.planar, fmt)
	51	}
	52	}
	53
	54	#[derive(Debug,Clone,Copy)]
	55	pub enum NAChannelType {
	56	C, L, R, Cs, Ls, Rs, Lss, Rss, LFE, Lc, Rc, Lh, Rh, Ch, LFE2, Lw, Rw, Ov, Lhs, Rhs, Chs, Ll, Rl, Cl, Lt, Rt, Lo, Ro
	57	}
	58
	59	impl NAChannelType {
	60	pub fn is_center(&self) -> bool {
	61	match *self {
	62	NAChannelType::C => true, NAChannelType::Ch => true,
	63	NAChannelType::Cl => true, NAChannelType::Ov => true,
	64	NAChannelType::LFE => true, NAChannelType::LFE2 => true,
65	NAChannelType::Cs => true, NAChannelType::Chs => true,
66	_ => false,
67	}
68	}
69	pub fn is_left(&self) -> bool {
70	match *self {
71	NAChannelType::L => true, NAChannelType::Ls => true,
72	NAChannelType::Lss => true, NAChannelType::Lc => true,
73	NAChannelType::Lh => true, NAChannelType::Lw => true,
74	NAChannelType::Lhs => true, NAChannelType::Ll => true,
75	NAChannelType::Lt => true, NAChannelType::Lo => true,
76	_ => false,
77	}
78	}
79	pub fn is_right(&self) -> bool {
80	match *self {
81	NAChannelType::R => true, NAChannelType::Rs => true,
82	NAChannelType::Rss => true, NAChannelType::Rc => true,
83	NAChannelType::Rh => true, NAChannelType::Rw => true,
84	NAChannelType::Rhs => true, NAChannelType::Rl => true,
85	NAChannelType::Rt => true, NAChannelType::Ro => true,
86	_ => false,
87	}
88	}
89	}
90
91	impl fmt::Display for NAChannelType {
92	fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
93	let name = match *self {
94	NAChannelType::C => "C".to_string(),
95	NAChannelType::L => "L".to_string(),
96	NAChannelType::R => "R".to_string(),
97	NAChannelType::Cs => "Cs".to_string(),
98	NAChannelType::Ls => "Ls".to_string(),
99	NAChannelType::Rs => "Rs".to_string(),
100	NAChannelType::Lss => "Lss".to_string(),
101	NAChannelType::Rss => "Rss".to_string(),
102	NAChannelType::LFE => "LFE".to_string(),
103	NAChannelType::Lc => "Lc".to_string(),
104	NAChannelType::Rc => "Rc".to_string(),
105	NAChannelType::Lh => "Lh".to_string(),
106	NAChannelType::Rh => "Rh".to_string(),
107	NAChannelType::Ch => "Ch".to_string(),
108	NAChannelType::LFE2 => "LFE2".to_string(),
109	NAChannelType::Lw => "Lw".to_string(),
110	NAChannelType::Rw => "Rw".to_string(),
111	NAChannelType::Ov => "Ov".to_string(),
112	NAChannelType::Lhs => "Lhs".to_string(),
113	NAChannelType::Rhs => "Rhs".to_string(),
114	NAChannelType::Chs => "Chs".to_string(),
115	NAChannelType::Ll => "Ll".to_string(),
116	NAChannelType::Rl => "Rl".to_string(),
117	NAChannelType::Cl => "Cl".to_string(),
118	NAChannelType::Lt => "Lt".to_string(),
119	NAChannelType::Rt => "Rt".to_string(),
120	NAChannelType::Lo => "Lo".to_string(),
121	NAChannelType::Ro => "Ro".to_string(),
122	};
123	write!(f, "{}", name)
124	}
125	}
126
127	pub struct NAChannelMap {
128	ids: Vec<NAChannelType>,
129	}
130
131	impl NAChannelMap {
132	pub fn new() -> Self { NAChannelMap { ids: Vec::new() } }
133	pub fn add_channel(&mut self, ch: NAChannelType) {
134	self.ids.push(ch);
135	}
136	pub fn num_channels(&self) -> usize {
137	self.ids.len()
138	}
139	pub fn get_channel(&self, idx: usize) -> NAChannelType {
140	self.ids[idx]
141	}
142	pub fn find_channel_id(&self, t: NAChannelType) -> Option<u8> {
143	for i in 0..self.ids.len() {
144	if self.ids[i] as i32 == t as i32 { return Some(i as u8); }
145	}
146	None
147	}
148	}
149
150	#[derive(Debug,Clone,Copy)]
151	pub enum RGBSubmodel {
152	RGB,
153	SRGB,
154	}
155
156	impl fmt::Display for RGBSubmodel {
157	fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
158	let name = match *self {
159	RGBSubmodel::RGB => "RGB".to_string(),
160	RGBSubmodel::SRGB => "sRGB".to_string(),
161	};
162	write!(f, "{}", name)
163	}
164	}
165
166	#[derive(Debug,Clone,Copy)]
167	pub enum YUVSubmodel {
168	YCbCr,
169	YIQ,
170	YUVJ,
171	}
172
173	impl fmt::Display for YUVSubmodel {
174	fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
175	let name = match *self {
176	YUVSubmodel::YCbCr => "YCbCr".to_string(),
177	YUVSubmodel::YIQ => "YIQ".to_string(),
178	YUVSubmodel::YUVJ => "YUVJ".to_string(),
179	};
180	write!(f, "{}", name)
181	}
182	}
183
184	#[derive(Debug, Clone,Copy)]
185	pub enum ColorModel {
186	RGB(RGBSubmodel),
187	YUV(YUVSubmodel),
188	CMYK,
189	HSV,
190	LAB,
191	XYZ,
192	}
193
194	impl ColorModel {
195	pub fn get_default_components(&self) -> usize {
196	match *self {
197	ColorModel::CMYK => 4,
198	_ => 3,
199	}
200	}
201	}
202
203	impl fmt::Display for ColorModel {
204	fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
205	let name = match *self {
206	ColorModel::RGB(fmt) => format!("RGB({})", fmt).to_string(),
207	ColorModel::YUV(fmt) => format!("YUV({})", fmt).to_string(),
208	ColorModel::CMYK => "CMYK".to_string(),
209	ColorModel::HSV => "HSV".to_string(),
210	ColorModel::LAB => "LAB".to_string(),
211	ColorModel::XYZ => "XYZ".to_string(),
212	};
213	write!(f, "{}", name)
214	}
215	}
216
217	#[derive(Clone,Copy)]
218	pub struct NAPixelChromaton {
219	h_ss: u8,
220	v_ss: u8,
221	packed: bool,
222	depth: u8,
223	shift: u8,
224	comp_offs: u8,
225	next_elem: u8,
226	}
227
228	bitflags! {
229	pub flags FormatonFlags: u8 {
230	const FORMATON_FLAG_BE = 0x01,
231	const FORMATON_FLAG_ALPHA = 0x02,
232	const FORMATON_FLAG_PALETTE = 0x04,
233	}
234	}
235
236
237	#[derive(Clone,Copy)]
238	pub struct NAPixelFormaton {
239	model: ColorModel,
240	components: u8,
241	comp_info: [Option<NAPixelChromaton>; 5],
242	elem_size: u8,
243	be: bool,
244	alpha: bool,
245	palette: bool,
246	}
247
248	macro_rules! chromaton {
249	($hs: expr, $vs: expr, $pck: expr, $d: expr, $sh: expr, $co: expr, $ne: expr) => ({
250	Some(NAPixelChromaton{ h_ss: $hs, v_ss: $vs, packed: $pck, depth: $d, shift: $sh, comp_offs: $co, next_elem: $ne })
251	});
252	(yuv8; $hs: expr, $vs: expr, $co: expr) => ({
253	Some(NAPixelChromaton{ h_ss: $hs, v_ss: $vs, packed: false, depth: 8, shift: 0, comp_offs: $co, next_elem: 1 })
254	});
255	(packrgb; $d: expr, $s: expr, $co: expr, $ne: expr) => ({
256	Some(NAPixelChromaton{ h_ss: 0, v_ss: 0, packed: true, depth: $d, shift: $s, comp_offs: $co, next_elem: $ne })
257	});
258	(pal8; $co: expr) => ({
259	Some(NAPixelChromaton{ h_ss: 0, v_ss: 0, packed: true, depth: 8, shift: 0, comp_offs: $co, next_elem: 3 })
260	});
261	}
262
263	pub const YUV420_FORMAT: NAPixelFormaton = NAPixelFormaton { model: ColorModel::YUV(YUVSubmodel::YUVJ), components: 3,
264	comp_info: [
265	chromaton!(0, 0, false, 8, 0, 0, 1),
266	chromaton!(yuv8; 1, 1, 1),
267	chromaton!(yuv8; 1, 1, 2),
268	None, None],
269	elem_size: 0, be: false, alpha: false, palette: false };
270
271	pub const PAL8_FORMAT: NAPixelFormaton = NAPixelFormaton { model: ColorModel::RGB(RGBSubmodel::RGB), components: 3,
272	comp_info: [
273	chromaton!(pal8; 0),
274	chromaton!(pal8; 1),
275	chromaton!(pal8; 2),
276	None, None],
277	elem_size: 3, be: false, alpha: false, palette: true };
278
279	pub const RGB565_FORMAT: NAPixelFormaton = NAPixelFormaton { model: ColorModel::RGB(RGBSubmodel::RGB), components: 3,
280	comp_info: [
281	chromaton!(packrgb; 5, 11, 0, 2),
282	chromaton!(packrgb; 6, 5, 0, 2),
283	chromaton!(packrgb; 5, 0, 0, 2),
284	None, None],
285	elem_size: 2, be: false, alpha: false, palette: false };
286
287	impl NAPixelChromaton {
288	pub fn get_subsampling(&self) -> (u8, u8) { (self.h_ss, self.v_ss) }
289	pub fn is_packed(&self) -> bool { self.packed }
290	pub fn get_depth(&self) -> u8 { self.depth }
291	pub fn get_shift(&self) -> u8 { self.shift }
292	pub fn get_offset(&self) -> u8 { self.comp_offs }
293	pub fn get_step(&self) -> u8 { self.next_elem }
294	}
295
296	impl fmt::Display for NAPixelChromaton {
297	fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
298	let pfmt = if self.packed {
299	let mask = ((1 << self.depth) - 1) << self.shift;
300	format!("packed(+{},{:X}, step {})", self.comp_offs, mask, self.next_elem)
301	} else {
302	format!("planar({},{})", self.comp_offs, self.next_elem)
303	};
304	write!(f, "({}x{}, {})", self.h_ss, self.v_ss, pfmt)
305	}
306	}
307
308	impl NAPixelFormaton {
309	pub fn new(model: ColorModel,
310	comp1: Option<NAPixelChromaton>,
311	comp2: Option<NAPixelChromaton>,
312	comp3: Option<NAPixelChromaton>,
313	comp4: Option<NAPixelChromaton>,
314	comp5: Option<NAPixelChromaton>,
315	flags: FormatonFlags, elem_size: u8) -> Self {
316	let mut chromatons: [Option<NAPixelChromaton>; 5] = [None; 5];
317	let mut ncomp = 0;
318	let be = (flags.bits & FORMATON_FLAG_BE.bits) != 0;
319	let alpha = (flags.bits & FORMATON_FLAG_ALPHA.bits) != 0;
320	let palette = (flags.bits & FORMATON_FLAG_PALETTE.bits) != 0;
321	if let Some(c) = comp1 { chromatons[0] = Some(c); ncomp += 1; }
322	if let Some(c) = comp2 { chromatons[1] = Some(c); ncomp += 1; }
323	if let Some(c) = comp3 { chromatons[2] = Some(c); ncomp += 1; }
324	if let Some(c) = comp4 { chromatons[3] = Some(c); ncomp += 1; }
325	if let Some(c) = comp5 { chromatons[4] = Some(c); ncomp += 1; }
326	NAPixelFormaton { model: model,
327	components: ncomp,
328	comp_info: chromatons,
329	elem_size: elem_size,
330	be: be, alpha: alpha, palette: palette }
331	}
332
333	pub fn get_model(&self) -> ColorModel { self.model }
334	pub fn get_num_comp(&self) -> u8 { self.components }
335	pub fn get_chromaton(&self, idx: usize) -> Option<NAPixelChromaton> {
336	if idx < self.comp_info.len() { return self.comp_info[idx]; }
337	None
338	}
339	pub fn is_be(&self) -> bool { self.be }
340	pub fn has_alpha(&self) -> bool { self.alpha }
341	pub fn is_paletted(&self) -> bool { self.palette }
342	pub fn get_elem_size(&self) -> u8 { self.elem_size }
343	}
344
345	impl fmt::Display for NAPixelFormaton {
346	fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
347	let end = if self.be { "BE" } else { "LE" };
348	let palstr = if self.palette { "palette " } else { "" };
349	let astr = if self.alpha { "alpha " } else { "" };
350	let mut str = format!("Formaton for {} ({}{}elem {} size {}): ", self.model, palstr, astr,end, self.elem_size);
351	for i in 0..self.comp_info.len() {
352	if let Some(chr) = self.comp_info[i] {
353	str = format!("{} {}", str, chr);
354	}
355	}
356	write!(f, "[{}]", str)
357	}
358	}
359
360	#[cfg(test)]
361	mod test {
362	use super::*;
363
364	#[test]
365	fn test_fmt() {
366	println!("{}", SND_S16_FORMAT);
367	println!("{}", SND_U8_FORMAT);
368	println!("{}", SND_F32_FORMAT);
369	println!("formaton yuv- {}", YUV420_FORMAT);
370	println!("formaton pal- {}", PAL8_FORMAT);
371	println!("formaton rgb565- {}", RGB565_FORMAT);
372	}
373	}