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// This file was generated by gir (https://github.com/gtk-rs/gir)
// from gir-files (https://github.com/gtk-rs/gir-files)
// DO NOT EDIT
use crate::{Vec2, Vec3};
use glib::translate::*;
glib::wrapper! {
/// A structure capable of holding a vector with four dimensions: x, y, z, and w.
///
/// The contents of the [`Vec4`][crate::Vec4] structure are private and should
/// never be accessed directly.
pub struct Vec4(BoxedInline<ffi::graphene_vec4_t>);
match fn {
copy => |ptr| glib::gobject_ffi::g_boxed_copy(ffi::graphene_vec4_get_type(), ptr as *mut _) as *mut ffi::graphene_vec4_t,
free => |ptr| glib::gobject_ffi::g_boxed_free(ffi::graphene_vec4_get_type(), ptr as *mut _),
type_ => || ffi::graphene_vec4_get_type(),
}
}
impl Vec4 {
/// Adds each component of the two given vectors.
/// ## `b`
/// a [`Vec4`][crate::Vec4]
///
/// # Returns
///
///
/// ## `res`
/// return location for the resulting vector
#[doc(alias = "graphene_vec4_add")]
#[must_use]
pub fn add(&self, b: &Vec4) -> Vec4 {
unsafe {
let mut res = Vec4::uninitialized();
ffi::graphene_vec4_add(
self.to_glib_none().0,
b.to_glib_none().0,
res.to_glib_none_mut().0,
);
res
}
}
/// Divides each component of the first operand `self` by the corresponding
/// component of the second operand `b`, and places the results into the
/// vector `res`.
/// ## `b`
/// a [`Vec4`][crate::Vec4]
///
/// # Returns
///
///
/// ## `res`
/// return location for the resulting vector
#[doc(alias = "graphene_vec4_divide")]
#[must_use]
pub fn divide(&self, b: &Vec4) -> Vec4 {
unsafe {
let mut res = Vec4::uninitialized();
ffi::graphene_vec4_divide(
self.to_glib_none().0,
b.to_glib_none().0,
res.to_glib_none_mut().0,
);
res
}
}
/// Computes the dot product of the two given vectors.
/// ## `b`
/// a [`Vec4`][crate::Vec4]
///
/// # Returns
///
/// the value of the dot product
#[doc(alias = "graphene_vec4_dot")]
pub fn dot(&self, b: &Vec4) -> f32 {
unsafe { ffi::graphene_vec4_dot(self.to_glib_none().0, b.to_glib_none().0) }
}
#[doc(alias = "graphene_vec4_equal")]
fn equal(&self, v2: &Vec4) -> bool {
unsafe { ffi::graphene_vec4_equal(self.to_glib_none().0, v2.to_glib_none().0) }
}
/// Retrieves the value of the fourth component of the given [`Vec4`][crate::Vec4].
///
/// # Returns
///
/// the value of the fourth component
#[doc(alias = "graphene_vec4_get_w")]
#[doc(alias = "get_w")]
pub fn w(&self) -> f32 {
unsafe { ffi::graphene_vec4_get_w(self.to_glib_none().0) }
}
/// Retrieves the value of the first component of the given [`Vec4`][crate::Vec4].
///
/// # Returns
///
/// the value of the first component
#[doc(alias = "graphene_vec4_get_x")]
#[doc(alias = "get_x")]
pub fn x(&self) -> f32 {
unsafe { ffi::graphene_vec4_get_x(self.to_glib_none().0) }
}
/// Creates a [`Vec2`][crate::Vec2] that contains the first two components
/// of the given [`Vec4`][crate::Vec4].
///
/// # Returns
///
///
/// ## `res`
/// return location for a [`Vec2`][crate::Vec2]
#[doc(alias = "graphene_vec4_get_xy")]
#[doc(alias = "get_xy")]
pub fn xy(&self) -> Vec2 {
unsafe {
let mut res = Vec2::uninitialized();
ffi::graphene_vec4_get_xy(self.to_glib_none().0, res.to_glib_none_mut().0);
res
}
}
/// Creates a [`Vec3`][crate::Vec3] that contains the first three components
/// of the given [`Vec4`][crate::Vec4].
///
/// # Returns
///
///
/// ## `res`
/// return location for a graphene_vec3_t
#[doc(alias = "graphene_vec4_get_xyz")]
#[doc(alias = "get_xyz")]
pub fn xyz(&self) -> Vec3 {
unsafe {
let mut res = Vec3::uninitialized();
ffi::graphene_vec4_get_xyz(self.to_glib_none().0, res.to_glib_none_mut().0);
res
}
}
/// Retrieves the value of the second component of the given [`Vec4`][crate::Vec4].
///
/// # Returns
///
/// the value of the second component
#[doc(alias = "graphene_vec4_get_y")]
#[doc(alias = "get_y")]
pub fn y(&self) -> f32 {
unsafe { ffi::graphene_vec4_get_y(self.to_glib_none().0) }
}
/// Retrieves the value of the third component of the given [`Vec4`][crate::Vec4].
///
/// # Returns
///
/// the value of the third component
#[doc(alias = "graphene_vec4_get_z")]
#[doc(alias = "get_z")]
pub fn z(&self) -> f32 {
unsafe { ffi::graphene_vec4_get_z(self.to_glib_none().0) }
}
/// Linearly interpolates `self` and `v2` using the given `factor`.
/// ## `v2`
/// a [`Vec4`][crate::Vec4]
/// ## `factor`
/// the interpolation factor
///
/// # Returns
///
///
/// ## `res`
/// the interpolated vector
#[doc(alias = "graphene_vec4_interpolate")]
#[must_use]
pub fn interpolate(&self, v2: &Vec4, factor: f64) -> Vec4 {
unsafe {
let mut res = Vec4::uninitialized();
ffi::graphene_vec4_interpolate(
self.to_glib_none().0,
v2.to_glib_none().0,
factor,
res.to_glib_none_mut().0,
);
res
}
}
/// Computes the length of the given [`Vec4`][crate::Vec4].
///
/// # Returns
///
/// the length of the vector
#[doc(alias = "graphene_vec4_length")]
pub fn length(&self) -> f32 {
unsafe { ffi::graphene_vec4_length(self.to_glib_none().0) }
}
/// Compares each component of the two given vectors and creates a
/// vector that contains the maximum values.
/// ## `b`
/// a [`Vec4`][crate::Vec4]
///
/// # Returns
///
///
/// ## `res`
/// return location for the result vector
#[doc(alias = "graphene_vec4_max")]
#[must_use]
pub fn max(&self, b: &Vec4) -> Vec4 {
unsafe {
let mut res = Vec4::uninitialized();
ffi::graphene_vec4_max(
self.to_glib_none().0,
b.to_glib_none().0,
res.to_glib_none_mut().0,
);
res
}
}
/// Compares each component of the two given vectors and creates a
/// vector that contains the minimum values.
/// ## `b`
/// a [`Vec4`][crate::Vec4]
///
/// # Returns
///
///
/// ## `res`
/// return location for the result vector
#[doc(alias = "graphene_vec4_min")]
#[must_use]
pub fn min(&self, b: &Vec4) -> Vec4 {
unsafe {
let mut res = Vec4::uninitialized();
ffi::graphene_vec4_min(
self.to_glib_none().0,
b.to_glib_none().0,
res.to_glib_none_mut().0,
);
res
}
}
/// Multiplies each component of the two given vectors.
/// ## `b`
/// a [`Vec4`][crate::Vec4]
///
/// # Returns
///
///
/// ## `res`
/// return location for the resulting vector
#[doc(alias = "graphene_vec4_multiply")]
#[must_use]
pub fn multiply(&self, b: &Vec4) -> Vec4 {
unsafe {
let mut res = Vec4::uninitialized();
ffi::graphene_vec4_multiply(
self.to_glib_none().0,
b.to_glib_none().0,
res.to_glib_none_mut().0,
);
res
}
}
/// Compares the two given [`Vec4`][crate::Vec4] vectors and checks
/// whether their values are within the given `epsilon`.
/// ## `v2`
/// a [`Vec4`][crate::Vec4]
/// ## `epsilon`
/// the threshold between the two vectors
///
/// # Returns
///
/// `true` if the two vectors are near each other
#[doc(alias = "graphene_vec4_near")]
pub fn near(&self, v2: &Vec4, epsilon: f32) -> bool {
unsafe { ffi::graphene_vec4_near(self.to_glib_none().0, v2.to_glib_none().0, epsilon) }
}
/// Negates the given [`Vec4`][crate::Vec4].
///
/// # Returns
///
///
/// ## `res`
/// return location for the result vector
#[doc(alias = "graphene_vec4_negate")]
#[must_use]
pub fn negate(&self) -> Vec4 {
unsafe {
let mut res = Vec4::uninitialized();
ffi::graphene_vec4_negate(self.to_glib_none().0, res.to_glib_none_mut().0);
res
}
}
/// Normalizes the given [`Vec4`][crate::Vec4].
///
/// # Returns
///
///
/// ## `res`
/// return location for the normalized
/// vector
#[doc(alias = "graphene_vec4_normalize")]
#[must_use]
pub fn normalize(&self) -> Vec4 {
unsafe {
let mut res = Vec4::uninitialized();
ffi::graphene_vec4_normalize(self.to_glib_none().0, res.to_glib_none_mut().0);
res
}
}
/// Multiplies all components of the given vector with the given scalar `factor`.
/// ## `factor`
/// the scalar factor
///
/// # Returns
///
///
/// ## `res`
/// return location for the result vector
#[doc(alias = "graphene_vec4_scale")]
#[must_use]
pub fn scale(&self, factor: f32) -> Vec4 {
unsafe {
let mut res = Vec4::uninitialized();
ffi::graphene_vec4_scale(self.to_glib_none().0, factor, res.to_glib_none_mut().0);
res
}
}
/// Subtracts from each component of the first operand `self` the
/// corresponding component of the second operand `b` and places
/// each result into the components of `res`.
/// ## `b`
/// a [`Vec4`][crate::Vec4]
///
/// # Returns
///
///
/// ## `res`
/// return location for the resulting vector
#[doc(alias = "graphene_vec4_subtract")]
#[must_use]
pub fn subtract(&self, b: &Vec4) -> Vec4 {
unsafe {
let mut res = Vec4::uninitialized();
ffi::graphene_vec4_subtract(
self.to_glib_none().0,
b.to_glib_none().0,
res.to_glib_none_mut().0,
);
res
}
}
/// Retrieves a pointer to a [`Vec4`][crate::Vec4] with all its
/// components set to 1.
///
/// # Returns
///
/// a constant vector
#[doc(alias = "graphene_vec4_one")]
pub fn one() -> Vec4 {
assert_initialized_main_thread!();
unsafe { from_glib_none(ffi::graphene_vec4_one()) }
}
/// Retrieves a pointer to a [`Vec4`][crate::Vec4] with its
/// components set to (0, 0, 0, 1).
///
/// # Returns
///
/// a constant vector
#[doc(alias = "graphene_vec4_w_axis")]
pub fn w_axis() -> Vec4 {
assert_initialized_main_thread!();
unsafe { from_glib_none(ffi::graphene_vec4_w_axis()) }
}
/// Retrieves a pointer to a [`Vec4`][crate::Vec4] with its
/// components set to (1, 0, 0, 0).
///
/// # Returns
///
/// a constant vector
#[doc(alias = "graphene_vec4_x_axis")]
pub fn x_axis() -> Vec4 {
assert_initialized_main_thread!();
unsafe { from_glib_none(ffi::graphene_vec4_x_axis()) }
}
/// Retrieves a pointer to a [`Vec4`][crate::Vec4] with its
/// components set to (0, 1, 0, 0).
///
/// # Returns
///
/// a constant vector
#[doc(alias = "graphene_vec4_y_axis")]
pub fn y_axis() -> Vec4 {
assert_initialized_main_thread!();
unsafe { from_glib_none(ffi::graphene_vec4_y_axis()) }
}
/// Retrieves a pointer to a [`Vec4`][crate::Vec4] with its
/// components set to (0, 0, 1, 0).
///
/// # Returns
///
/// a constant vector
#[doc(alias = "graphene_vec4_z_axis")]
pub fn z_axis() -> Vec4 {
assert_initialized_main_thread!();
unsafe { from_glib_none(ffi::graphene_vec4_z_axis()) }
}
/// Retrieves a pointer to a [`Vec4`][crate::Vec4] with all its
/// components set to 0.
///
/// # Returns
///
/// a constant vector
#[doc(alias = "graphene_vec4_zero")]
pub fn zero() -> Vec4 {
assert_initialized_main_thread!();
unsafe { from_glib_none(ffi::graphene_vec4_zero()) }
}
}
impl PartialEq for Vec4 {
#[inline]
fn eq(&self, other: &Self) -> bool {
self.equal(other)
}
}
impl Eq for Vec4 {}