cpal/src/samples_formats.rs

use std::mem;

/// Format that each sample has.
#[deriving(Clone, Copy, Show, PartialEq, Eq)]
pub enum SampleFormat {
    /// The value 0 corresponds to 0.
    I16,
    /// The value 0 corresponds to 32768.
    U16,
    F32,
}

impl SampleFormat {
    pub fn get_sample_size(&self) -> uint {
        match self {
            &SampleFormat::I16 => mem::size_of::<i16>(),
            &SampleFormat::U16 => mem::size_of::<u16>(),
            &SampleFormat::F32 => mem::size_of::<f32>(),
        }
    }
}

/// Trait for containers that contain PCM data.
#[unstable = "Will be rewritten with associated types"]
pub trait Sample: Copy {
    fn get_format(Option<Self>) -> SampleFormat;

    /// Turns the data into a `Vec<i16>` where each element is a sample.
    fn to_vec_i16(&[Self]) -> Vec<i16>;
    /// Turns the data into a `Vec<u16>` where each element is a sample.
    fn to_vec_u16(&[Self]) -> Vec<u16>;
    /// Turns the data into a `Vec<f32>` where each element is a sample.
    fn to_vec_f32(&[Self]) -> Vec<f32>;
}

impl Sample for u16 {
    fn get_format(_: Option<u16>) -> SampleFormat {
        SampleFormat::U16
    }

    fn to_vec_i16(input: &[u16]) -> Vec<i16> {
        input.iter().map(|&value| {
            if value >= 32768 {
                (value - 32768) as i16
            } else {
                (value as i16) - 32767
            }
        }).collect()
    }

    fn to_vec_u16(input: &[u16]) -> Vec<u16> {
        input.to_vec()
    }

    fn to_vec_f32(input: &[u16]) -> Vec<f32> {
        Sample::to_vec_f32(Sample::to_vec_i16(input).as_slice())
    }
}

impl Sample for i16 {
    fn get_format(_: Option<i16>) -> SampleFormat {
        SampleFormat::I16
    }

    fn to_vec_i16(input: &[i16]) -> Vec<i16> {
        input.to_vec()
    }

    fn to_vec_u16(input: &[i16]) -> Vec<u16> {
        input.iter().map(|&value| {
            if value < 0 {
                (value + 32767) as u16
            } else {
                (value as u16) + 32768
            }
        }).collect()
    }

    fn to_vec_f32(input: &[i16]) -> Vec<f32> {
        input.iter().map(|&value| {
            value as f32 / 32768.0
        }).collect()
    }
}

impl Sample for f32 {
    fn get_format(_: Option<f32>) -> SampleFormat {
        SampleFormat::F32
    }

    fn to_vec_i16(input: &[f32]) -> Vec<i16> {
        unimplemented!()
    }

    fn to_vec_u16(input: &[f32]) -> Vec<u16> {
        unimplemented!()
    }

    fn to_vec_f32(input: &[f32]) -> Vec<f32> {
        input.to_vec()
    }
}
Implement all samples formats 2014-12-17 07:47:19 +00:00			`use std::mem;`

			`/// Format that each sample has.`
			`#[deriving(Clone, Copy, Show, PartialEq, Eq)]`
			`pub enum SampleFormat {`
			`/// The value 0 corresponds to 0.`
			`I16,`
			`/// The value 0 corresponds to 32768.`
			`U16,`
			`F32,`
			`}`

			`impl SampleFormat {`
			`pub fn get_sample_size(&self) -> uint {`
			`match self {`
			`&SampleFormat::I16 => mem::size_of::<i16>(),`
			`&SampleFormat::U16 => mem::size_of::<u16>(),`
			`&SampleFormat::F32 => mem::size_of::<f32>(),`
			`}`
			`}`
			`}`

			`/// Trait for containers that contain PCM data.`
			`#[unstable = "Will be rewritten with associated types"]`
			`pub trait Sample: Copy {`
			`fn get_format(Option<Self>) -> SampleFormat;`

			/// Turns the data into a `Vec<i16>` where each element is a sample.
			`fn to_vec_i16(&[Self]) -> Vec<i16>;`
			/// Turns the data into a `Vec<u16>` where each element is a sample.
			`fn to_vec_u16(&[Self]) -> Vec<u16>;`
			/// Turns the data into a `Vec<f32>` where each element is a sample.
			`fn to_vec_f32(&[Self]) -> Vec<f32>;`
			`}`

			`impl Sample for u16 {`
			`fn get_format(_: Option<u16>) -> SampleFormat {`
			`SampleFormat::U16`
			`}`

			`fn to_vec_i16(input: &[u16]) -> Vec<i16> {`
			`input.iter().map(\|&value\| {`
			`if value >= 32768 {`
			`(value - 32768) as i16`
			`} else {`
			`(value as i16) - 32767`
			`}`
			`}).collect()`
			`}`

			`fn to_vec_u16(input: &[u16]) -> Vec<u16> {`
			`input.to_vec()`
			`}`

			`fn to_vec_f32(input: &[u16]) -> Vec<f32> {`
			`Sample::to_vec_f32(Sample::to_vec_i16(input).as_slice())`
			`}`
			`}`

			`impl Sample for i16 {`
			`fn get_format(_: Option<i16>) -> SampleFormat {`
			`SampleFormat::I16`
			`}`

			`fn to_vec_i16(input: &[i16]) -> Vec<i16> {`
			`input.to_vec()`
			`}`

			`fn to_vec_u16(input: &[i16]) -> Vec<u16> {`
			`input.iter().map(\|&value\| {`
			`if value < 0 {`
			`(value + 32767) as u16`
			`} else {`
			`(value as u16) + 32768`
			`}`
			`}).collect()`
			`}`

			`fn to_vec_f32(input: &[i16]) -> Vec<f32> {`
			`input.iter().map(\|&value\| {`
			`value as f32 / 32768.0`
			`}).collect()`
			`}`
			`}`

			`impl Sample for f32 {`
			`fn get_format(_: Option<f32>) -> SampleFormat {`
			`SampleFormat::F32`
			`}`

			`fn to_vec_i16(input: &[f32]) -> Vec<i16> {`
			`unimplemented!()`
			`}`

			`fn to_vec_u16(input: &[f32]) -> Vec<u16> {`
			`unimplemented!()`
			`}`

			`fn to_vec_f32(input: &[f32]) -> Vec<f32> {`
			`input.to_vec()`
			`}`
			`}`