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// Take a look at the license at the top of the repository in the LICENSE file.

use std::fmt;

use glib::translate::*;

use crate::{Euler, EulerOrder, Matrix, Quaternion, Vec3};

impl Euler {
    /// Initializes a [`Euler`][crate::Euler] using the given angles.
    ///
    /// The order of the rotations is [`EulerOrder::Default`][crate::EulerOrder::Default].
    /// ## `x`
    /// rotation angle on the X axis, in degrees
    /// ## `y`
    /// rotation angle on the Y axis, in degrees
    /// ## `z`
    /// rotation angle on the Z axis, in degrees
    ///
    /// # Returns
    ///
    /// the initialized [`Euler`][crate::Euler]
    #[doc(alias = "graphene_euler_init")]
    pub fn new(x: f32, y: f32, z: f32) -> Self {
        assert_initialized_main_thread!();
        unsafe {
            let mut eul = Self::uninitialized();
            ffi::graphene_euler_init(eul.to_glib_none_mut().0, x, y, z);
            eul
        }
    }

    /// Initializes a [`Euler`][crate::Euler] using the given rotation matrix.
    ///
    /// If the [`Matrix`][crate::Matrix] `m` is [`None`], the [`Euler`][crate::Euler] will
    /// be initialized with all angles set to 0.
    /// ## `m`
    /// a rotation matrix
    /// ## `order`
    /// the order used to apply the rotations
    ///
    /// # Returns
    ///
    /// the initialized [`Euler`][crate::Euler]
    #[doc(alias = "graphene_euler_init_from_matrix")]
    #[doc(alias = "init_from_matrix")]
    pub fn from_matrix(m: Option<&Matrix>, order: EulerOrder) -> Self {
        assert_initialized_main_thread!();
        unsafe {
            let mut eul = Self::uninitialized();
            ffi::graphene_euler_init_from_matrix(
                eul.to_glib_none_mut().0,
                m.to_glib_none().0,
                order.into_glib(),
            );
            eul
        }
    }

    /// Initializes a [`Euler`][crate::Euler] using the given normalized quaternion.
    ///
    /// If the [`Quaternion`][crate::Quaternion] `q` is [`None`], the [`Euler`][crate::Euler] will
    /// be initialized with all angles set to 0.
    /// ## `q`
    /// a normalized [`Quaternion`][crate::Quaternion]
    /// ## `order`
    /// the order used to apply the rotations
    ///
    /// # Returns
    ///
    /// the initialized [`Euler`][crate::Euler]
    #[doc(alias = "graphene_euler_init_from_quaternion")]
    #[doc(alias = "init_from_quaternion")]
    pub fn from_quaternion(q: Option<&Quaternion>, order: EulerOrder) -> Self {
        assert_initialized_main_thread!();
        unsafe {
            let mut eul = Self::uninitialized();
            ffi::graphene_euler_init_from_quaternion(
                eul.to_glib_none_mut().0,
                q.to_glib_none().0,
                order.into_glib(),
            );
            eul
        }
    }

    /// Initializes a [`Euler`][crate::Euler] using the given angles
    /// and order of rotation.
    /// ## `x`
    /// rotation angle on the X axis, in radians
    /// ## `y`
    /// rotation angle on the Y axis, in radians
    /// ## `z`
    /// rotation angle on the Z axis, in radians
    /// ## `order`
    /// order of rotations
    ///
    /// # Returns
    ///
    /// the initialized [`Euler`][crate::Euler]
    #[doc(alias = "graphene_euler_init_from_radians")]
    #[doc(alias = "init_from_radians")]
    pub fn from_radians(x: f32, y: f32, z: f32, order: EulerOrder) -> Self {
        unsafe {
            let mut eul = Self::uninitialized();
            ffi::graphene_euler_init_from_radians(
                eul.to_glib_none_mut().0,
                x,
                y,
                z,
                order.into_glib(),
            );
            eul
        }
    }

    /// Initializes a [`Euler`][crate::Euler] using the angles contained in a
    /// [`Vec3`][crate::Vec3].
    ///
    /// If the [`Vec3`][crate::Vec3] `v` is [`None`], the [`Euler`][crate::Euler] will be
    /// initialized with all angles set to 0.
    /// ## `v`
    /// a [`Vec3`][crate::Vec3] containing the rotation
    ///  angles in degrees
    /// ## `order`
    /// the order used to apply the rotations
    ///
    /// # Returns
    ///
    /// the initialized [`Euler`][crate::Euler]
    #[doc(alias = "graphene_euler_init_from_vec3")]
    #[doc(alias = "init_from_vec3")]
    pub fn from_vec3(v: Option<&Vec3>, order: EulerOrder) -> Self {
        assert_initialized_main_thread!();
        unsafe {
            let mut eul = Self::uninitialized();
            ffi::graphene_euler_init_from_vec3(
                eul.to_glib_none_mut().0,
                v.to_glib_none().0,
                order.into_glib(),
            );
            eul
        }
    }

    /// Initializes a [`Euler`][crate::Euler] with the given angles and `order`.
    /// ## `x`
    /// rotation angle on the X axis, in degrees
    /// ## `y`
    /// rotation angle on the Y axis, in degrees
    /// ## `z`
    /// rotation angle on the Z axis, in degrees
    /// ## `order`
    /// the order used to apply the rotations
    ///
    /// # Returns
    ///
    /// the initialized [`Euler`][crate::Euler]
    #[doc(alias = "graphene_euler_init_with_order")]
    #[doc(alias = "init_with_order")]
    pub fn with_order(x: f32, y: f32, z: f32, order: EulerOrder) -> Self {
        assert_initialized_main_thread!();
        unsafe {
            let mut eul = Self::uninitialized();
            ffi::graphene_euler_init_with_order(
                eul.to_glib_none_mut().0,
                x,
                y,
                z,
                order.into_glib(),
            );
            eul
        }
    }
}

impl fmt::Debug for Euler {
    fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
        f.debug_struct("Euler")
            .field("order", &self.order())
            .field("alpha", &self.alpha())
            .field("beta", &self.beta())
            .field("gamma", &self.gamma())
            .finish()
    }
}