// WARNING: This file is machine generated by fidlgen.

#![warn(clippy::all)]
#![allow(unused_parens, unused_mut, unused_imports, nonstandard_style)]

use {
    bitflags::bitflags,
    fidl::{
        client::QueryResponseFut,
        endpoints::{ControlHandle as _, Responder as _},
    },
    fuchsia_zircon_status as zx_status,
    futures::future::{self, MaybeDone, TryFutureExt},
};

#[cfg(target_os = "fuchsia")]
use fuchsia_zircon as zx;

/// Represents a color without alpha channel. Range per channel is usually
/// between 0.0 and 1.0.
#[derive(Clone, Copy, Debug, PartialEq, PartialOrd)]
pub struct ColorRgb {
    pub red: f32,
    pub green: f32,
    pub blue: f32,
}

impl fidl::Persistable for ColorRgb {}

/// Represents a color. Interfaces that use this struct should document whether
/// or not the floats have been premultiplied by alpha. Range per channel is
/// usually between 0.0 and 1.0.
#[derive(Clone, Copy, Debug, PartialEq, PartialOrd)]
pub struct ColorRgba {
    pub red: f32,
    pub green: f32,
    pub blue: f32,
    pub alpha: f32,
}

impl fidl::Persistable for ColorRgba {}

mod internal {
    use super::*;

    unsafe impl fidl::encoding::TypeMarker for ColorRgb {
        type Owned = Self;

        #[inline(always)]
        fn inline_align(_context: fidl::encoding::Context) -> usize {
            4
        }

        #[inline(always)]
        fn inline_size(_context: fidl::encoding::Context) -> usize {
            12
        }
    }
    impl fidl::encoding::ValueTypeMarker for ColorRgb {
        type Borrowed<'a> = &'a Self;
        fn borrow<'a>(
            value: &'a <Self as fidl::encoding::TypeMarker>::Owned,
        ) -> Self::Borrowed<'a> {
            value
        }
    }

    unsafe impl fidl::encoding::Encode<ColorRgb> for &ColorRgb {
        #[inline]
        unsafe fn encode(
            self,
            encoder: &mut fidl::encoding::Encoder<'_>,
            offset: usize,
            _depth: fidl::encoding::Depth,
        ) -> fidl::Result<()> {
            encoder.debug_check_bounds::<ColorRgb>(offset);
            // Delegate to tuple encoding.
            fidl::encoding::Encode::<ColorRgb>::encode(
                (
                    <f32 as fidl::encoding::ValueTypeMarker>::borrow(&self.red),
                    <f32 as fidl::encoding::ValueTypeMarker>::borrow(&self.green),
                    <f32 as fidl::encoding::ValueTypeMarker>::borrow(&self.blue),
                ),
                encoder,
                offset,
                _depth,
            )
        }
    }
    unsafe impl<
            T0: fidl::encoding::Encode<f32>,
            T1: fidl::encoding::Encode<f32>,
            T2: fidl::encoding::Encode<f32>,
        > fidl::encoding::Encode<ColorRgb> for (T0, T1, T2)
    {
        #[inline]
        unsafe fn encode(
            self,
            encoder: &mut fidl::encoding::Encoder<'_>,
            offset: usize,
            depth: fidl::encoding::Depth,
        ) -> fidl::Result<()> {
            encoder.debug_check_bounds::<ColorRgb>(offset);
            // Zero out padding regions. There's no need to apply masks
            // because the unmasked parts will be overwritten by fields.
            // Write the fields.
            self.0.encode(encoder, offset + 0, depth)?;
            self.1.encode(encoder, offset + 4, depth)?;
            self.2.encode(encoder, offset + 8, depth)?;
            Ok(())
        }
    }

    impl fidl::encoding::Decode<Self> for ColorRgb {
        #[inline(always)]
        fn new_empty() -> Self {
            Self {
                red: fidl::new_empty!(f32),
                green: fidl::new_empty!(f32),
                blue: fidl::new_empty!(f32),
            }
        }

        #[inline]
        unsafe fn decode(
            &mut self,
            decoder: &mut fidl::encoding::Decoder<'_>,
            offset: usize,
            _depth: fidl::encoding::Depth,
        ) -> fidl::Result<()> {
            decoder.debug_check_bounds::<Self>(offset);
            // Verify that padding bytes are zero.
            fidl::decode!(f32, &mut self.red, decoder, offset + 0, _depth)?;
            fidl::decode!(f32, &mut self.green, decoder, offset + 4, _depth)?;
            fidl::decode!(f32, &mut self.blue, decoder, offset + 8, _depth)?;
            Ok(())
        }
    }

    unsafe impl fidl::encoding::TypeMarker for ColorRgba {
        type Owned = Self;

        #[inline(always)]
        fn inline_align(_context: fidl::encoding::Context) -> usize {
            4
        }

        #[inline(always)]
        fn inline_size(_context: fidl::encoding::Context) -> usize {
            16
        }
    }
    impl fidl::encoding::ValueTypeMarker for ColorRgba {
        type Borrowed<'a> = &'a Self;
        fn borrow<'a>(
            value: &'a <Self as fidl::encoding::TypeMarker>::Owned,
        ) -> Self::Borrowed<'a> {
            value
        }
    }

    unsafe impl fidl::encoding::Encode<ColorRgba> for &ColorRgba {
        #[inline]
        unsafe fn encode(
            self,
            encoder: &mut fidl::encoding::Encoder<'_>,
            offset: usize,
            _depth: fidl::encoding::Depth,
        ) -> fidl::Result<()> {
            encoder.debug_check_bounds::<ColorRgba>(offset);
            // Delegate to tuple encoding.
            fidl::encoding::Encode::<ColorRgba>::encode(
                (
                    <f32 as fidl::encoding::ValueTypeMarker>::borrow(&self.red),
                    <f32 as fidl::encoding::ValueTypeMarker>::borrow(&self.green),
                    <f32 as fidl::encoding::ValueTypeMarker>::borrow(&self.blue),
                    <f32 as fidl::encoding::ValueTypeMarker>::borrow(&self.alpha),
                ),
                encoder,
                offset,
                _depth,
            )
        }
    }
    unsafe impl<
            T0: fidl::encoding::Encode<f32>,
            T1: fidl::encoding::Encode<f32>,
            T2: fidl::encoding::Encode<f32>,
            T3: fidl::encoding::Encode<f32>,
        > fidl::encoding::Encode<ColorRgba> for (T0, T1, T2, T3)
    {
        #[inline]
        unsafe fn encode(
            self,
            encoder: &mut fidl::encoding::Encoder<'_>,
            offset: usize,
            depth: fidl::encoding::Depth,
        ) -> fidl::Result<()> {
            encoder.debug_check_bounds::<ColorRgba>(offset);
            // Zero out padding regions. There's no need to apply masks
            // because the unmasked parts will be overwritten by fields.
            // Write the fields.
            self.0.encode(encoder, offset + 0, depth)?;
            self.1.encode(encoder, offset + 4, depth)?;
            self.2.encode(encoder, offset + 8, depth)?;
            self.3.encode(encoder, offset + 12, depth)?;
            Ok(())
        }
    }

    impl fidl::encoding::Decode<Self> for ColorRgba {
        #[inline(always)]
        fn new_empty() -> Self {
            Self {
                red: fidl::new_empty!(f32),
                green: fidl::new_empty!(f32),
                blue: fidl::new_empty!(f32),
                alpha: fidl::new_empty!(f32),
            }
        }

        #[inline]
        unsafe fn decode(
            &mut self,
            decoder: &mut fidl::encoding::Decoder<'_>,
            offset: usize,
            _depth: fidl::encoding::Depth,
        ) -> fidl::Result<()> {
            decoder.debug_check_bounds::<Self>(offset);
            // Verify that padding bytes are zero.
            fidl::decode!(f32, &mut self.red, decoder, offset + 0, _depth)?;
            fidl::decode!(f32, &mut self.green, decoder, offset + 4, _depth)?;
            fidl::decode!(f32, &mut self.blue, decoder, offset + 8, _depth)?;
            fidl::decode!(f32, &mut self.alpha, decoder, offset + 12, _depth)?;
            Ok(())
        }
    }
}