cgmath/src/funs/exp.rs

/**
 * Exponential Functions
 */
use num::cast::*;
use vec::{Vec2, Vec3, Vec4};

pub trait Exp {
    pure fn pow<N:NumCast>(n: &N) -> self;
    pure fn exp()      -> self;
    pure fn log_()     -> self;
    pure fn exp2()     -> self;
    pure fn log2()     -> self;
    pure fn sqrt()     -> self;
    pure fn inv_sqrt() -> self;
}

#[inline(always)] pub pure fn pow<T:Exp, N:NumCast>(x: &T, n: &N) -> T { x.pow(n) }
#[inline(always)] pub pure fn exp<T:Exp>(x: &T)      -> T { x.exp() }
#[inline(always)] pub pure fn log_<T:Exp>(x: &T)     -> T { x.log_() }
#[inline(always)] pub pure fn exp2<T:Exp>(x: &T)     -> T { x.exp2() }
#[inline(always)] pub pure fn log2<T:Exp>(x: &T)     -> T { x.log2() }
#[inline(always)] pub pure fn sqrt<T:Exp>(x: &T)     -> T { x.sqrt() }
#[inline(always)] pub pure fn inv_sqrt<T:Exp>(x: &T) -> T { x.inv_sqrt() }

pub impl f32: Exp {
    #[inline(always)] pure fn pow<N:NumCast>(n: &N) -> f32 { f32::pow(self, n.cast()) }
    #[inline(always)] pure fn exp()      -> f32 { f32::exp(self) }
    #[inline(always)] pure fn log_()     -> f32 { f32::ln(self) }
    #[inline(always)] pure fn exp2()     -> f32 { f32::exp2(self) }
    #[inline(always)] pure fn log2()     -> f32 { f32::log2(self) }
    #[inline(always)] pure fn sqrt()     -> f32 { f32::sqrt(self) }
    #[inline(always)] pure fn inv_sqrt() -> f32 { 1f32 / self.sqrt() }  // TODO: optimise? need a wizard
}

pub impl f64: Exp {
    #[inline(always)] pure fn pow<N:NumCast>(n: &N) -> f64 { f64::pow(self, n.cast()) }
    #[inline(always)] pure fn exp()      -> f64 { f64::exp(self) }
    #[inline(always)] pure fn log_()     -> f64 { f64::ln(self) }
    #[inline(always)] pure fn exp2()     -> f64 { f64::exp2(self) }
    #[inline(always)] pure fn log2()     -> f64 { f64::log2(self) }
    #[inline(always)] pure fn sqrt()     -> f64 { f64::sqrt(self) }
    #[inline(always)] pure fn inv_sqrt() -> f64 { 1f64 / self.sqrt() }  // TODO: optimise? need a wizard
}

pub impl float: Exp {
    #[inline(always)] pure fn pow<N:NumCast>(n: &N) -> float { cast(float::pow(cast(self), n.cast())) }
    #[inline(always)] pure fn exp()      -> float { cast(float::exp(cast(self))) }
    #[inline(always)] pure fn log_()     -> float { cast(float::ln(cast(self))) }
    #[inline(always)] pure fn exp2()     -> float { cast(float::exp2(cast(self))) }
    #[inline(always)] pure fn log2()     -> float { cast(float::log2(cast(self))) }
    #[inline(always)] pure fn sqrt()     -> float { cast(float::sqrt(cast(self))) }
    #[inline(always)] pure fn inv_sqrt() -> float { 1f / self.sqrt() }  // TODO: optimise? need a wizard
}

pub impl<T:Copy Exp> Vec2<T>: Exp {
    #[inline(always)]
    pure fn pow<N:NumCast>(n: &N) -> Vec2<T> {
        Vec2::new(pow(&self[0], n),
                  pow(&self[1], n))
    }
    
    #[inline(always)]
    pure fn exp() -> Vec2<T> {
        Vec2::new(exp(&self[0]),
                  exp(&self[1]))
    }
    
    #[inline(always)]
    pure fn log_() -> Vec2<T> {
        Vec2::new(log_(&self[0]),
                  log_(&self[1]))
    }
    
    #[inline(always)]
    pure fn exp2() -> Vec2<T> {
        Vec2::new(exp2(&self[0]),
                  exp2(&self[1]))
    }
    
    #[inline(always)]
    pure fn log2() -> Vec2<T> {
        Vec2::new(log2(&self[0]),
                  log2(&self[1]))
    }
    
    #[inline(always)]
    pure fn sqrt() -> Vec2<T> {
        Vec2::new(sqrt(&self[0]),
                  sqrt(&self[1]))
    }
    
    #[inline(always)]
    pure fn inv_sqrt() -> Vec2<T> {
        Vec2::new(inv_sqrt(&self[0]),
                  inv_sqrt(&self[1]))
    }
}

pub impl<T:Copy Exp> Vec3<T>: Exp {
    #[inline(always)]
    pure fn pow<N:NumCast>(n: &N) -> Vec3<T> {
        Vec3::new(pow(&self[0], n),
                  pow(&self[1], n),
                  pow(&self[2], n))
    }
    
    #[inline(always)]
    pure fn exp() -> Vec3<T> {
        Vec3::new(exp(&self[0]),
                  exp(&self[1]),
                  exp(&self[2]))
    }
    
    #[inline(always)]
    pure fn log_() -> Vec3<T> {
        Vec3::new(log_(&self[0]),
                  log_(&self[1]),
                  log_(&self[2]))
    }
    
    #[inline(always)]
    pure fn exp2() -> Vec3<T> {
        Vec3::new(exp2(&self[0]),
                  exp2(&self[1]),
                  exp2(&self[2]))
    }
    
    #[inline(always)]
    pure fn log2() -> Vec3<T> {
        Vec3::new(log2(&self[0]),
                  log2(&self[1]),
                  log2(&self[2]))
    }
    
    #[inline(always)]
    pure fn sqrt() -> Vec3<T> {
        Vec3::new(sqrt(&self[0]),
                  sqrt(&self[1]),
                  sqrt(&self[2]))
    }
    
    #[inline(always)]
    pure fn inv_sqrt() -> Vec3<T> {
        Vec3::new(inv_sqrt(&self[0]),
                  inv_sqrt(&self[1]),
                  inv_sqrt(&self[2]))
    }
}

pub impl<T:Copy Exp> Vec4<T>: Exp {
    #[inline(always)]
    pure fn pow<N:NumCast>(n: &N) -> Vec4<T> {
        Vec4::new(pow(&self[0], n),
                  pow(&self[1], n),
                  pow(&self[2], n),
                  pow(&self[3], n))
    }
    
    #[inline(always)]
    pure fn exp() -> Vec4<T> {
        Vec4::new(exp(&self[0]),
                  exp(&self[1]),
                  exp(&self[2]),
                  exp(&self[3]))
    }
    
    #[inline(always)]
    pure fn log_() -> Vec4<T> {
        Vec4::new(log_(&self[0]),
                  log_(&self[1]),
                  log_(&self[2]),
                  log_(&self[3]))
    }
    
    #[inline(always)]
    pure fn exp2() -> Vec4<T> {
        Vec4::new(exp2(&self[0]),
                  exp2(&self[1]),
                  exp2(&self[2]),
                  exp2(&self[3]))
    }
    
    #[inline(always)]
    pure fn log2() -> Vec4<T> {
        Vec4::new(log2(&self[0]),
                  log2(&self[1]),
                  log2(&self[2]),
                  log2(&self[3]))
    }
    
    #[inline(always)]
    pure fn sqrt() -> Vec4<T> {
        Vec4::new(sqrt(&self[0]),
                  sqrt(&self[1]),
                  sqrt(&self[2]),
                  sqrt(&self[3]))
    }
    
    #[inline(always)]
    pure fn inv_sqrt() -> Vec4<T> {
        Vec4::new(inv_sqrt(&self[0]),
                  inv_sqrt(&self[1]),
                  inv_sqrt(&self[2]),
                  inv_sqrt(&self[3]))
    }
}
Move functions to funs module. Add additional functions as per the GLSL spec 2012-11-06 01:57:15 +00:00			`/**`
			`* Exponential Functions`
			`*/`
Move numeric-specific modules to num module, clean up imports 2012-11-15 00:31:35 +00:00			`use num::cast::*;`
Rename modules to short, idiomatic names 2012-11-15 02:23:39 +00:00			`use vec::{Vec2, Vec3, Vec4};`
Move functions to funs module. Add additional functions as per the GLSL spec 2012-11-06 01:57:15 +00:00
			`pub trait Exp {`
Implemented exponential functions for each vector type 2012-11-08 04:09:15 +00:00			`pure fn pow<N:NumCast>(n: &N) -> self;`
			`pure fn exp() -> self;`
			`pure fn log_() -> self;`
			`pure fn exp2() -> self;`
			`pure fn log2() -> self;`
			`pure fn sqrt() -> self;`
			`pure fn inv_sqrt() -> self;`
Move functions to funs module. Add additional functions as per the GLSL spec 2012-11-06 01:57:15 +00:00			`}`

Implemented exponential functions for each vector type 2012-11-08 04:09:15 +00:00			`#[inline(always)] pub pure fn pow<T:Exp, N:NumCast>(x: &T, n: &N) -> T { x.pow(n) }`
			`#[inline(always)] pub pure fn exp<T:Exp>(x: &T) -> T { x.exp() }`
			`#[inline(always)] pub pure fn log_<T:Exp>(x: &T) -> T { x.log_() }`
			`#[inline(always)] pub pure fn exp2<T:Exp>(x: &T) -> T { x.exp2() }`
			`#[inline(always)] pub pure fn log2<T:Exp>(x: &T) -> T { x.log2() }`
			`#[inline(always)] pub pure fn sqrt<T:Exp>(x: &T) -> T { x.sqrt() }`
			`#[inline(always)] pub pure fn inv_sqrt<T:Exp>(x: &T) -> T { x.inv_sqrt() }`
Move functions to funs module. Add additional functions as per the GLSL spec 2012-11-06 01:57:15 +00:00
			`pub impl f32: Exp {`
Implemented exponential functions for each vector type 2012-11-08 04:09:15 +00:00			`#[inline(always)] pure fn pow<N:NumCast>(n: &N) -> f32 { f32::pow(self, n.cast()) }`
			`#[inline(always)] pure fn exp() -> f32 { f32::exp(self) }`
			`#[inline(always)] pure fn log_() -> f32 { f32::ln(self) }`
			`#[inline(always)] pure fn exp2() -> f32 { f32::exp2(self) }`
			`#[inline(always)] pure fn log2() -> f32 { f32::log2(self) }`
			`#[inline(always)] pure fn sqrt() -> f32 { f32::sqrt(self) }`
			`#[inline(always)] pure fn inv_sqrt() -> f32 { 1f32 / self.sqrt() } // TODO: optimise? need a wizard`
Move functions to funs module. Add additional functions as per the GLSL spec 2012-11-06 01:57:15 +00:00			`}`

			`pub impl f64: Exp {`
Implemented exponential functions for each vector type 2012-11-08 04:09:15 +00:00			`#[inline(always)] pure fn pow<N:NumCast>(n: &N) -> f64 { f64::pow(self, n.cast()) }`
			`#[inline(always)] pure fn exp() -> f64 { f64::exp(self) }`
			`#[inline(always)] pure fn log_() -> f64 { f64::ln(self) }`
			`#[inline(always)] pure fn exp2() -> f64 { f64::exp2(self) }`
			`#[inline(always)] pure fn log2() -> f64 { f64::log2(self) }`
			`#[inline(always)] pure fn sqrt() -> f64 { f64::sqrt(self) }`
			`#[inline(always)] pure fn inv_sqrt() -> f64 { 1f64 / self.sqrt() } // TODO: optimise? need a wizard`
Move functions to funs module. Add additional functions as per the GLSL spec 2012-11-06 01:57:15 +00:00			`}`

			`pub impl float: Exp {`
Implemented exponential functions for each vector type 2012-11-08 04:09:15 +00:00			`#[inline(always)] pure fn pow<N:NumCast>(n: &N) -> float { cast(float::pow(cast(self), n.cast())) }`
			`#[inline(always)] pure fn exp() -> float { cast(float::exp(cast(self))) }`
			`#[inline(always)] pure fn log_() -> float { cast(float::ln(cast(self))) }`
			`#[inline(always)] pure fn exp2() -> float { cast(float::exp2(cast(self))) }`
			`#[inline(always)] pure fn log2() -> float { cast(float::log2(cast(self))) }`
			`#[inline(always)] pure fn sqrt() -> float { cast(float::sqrt(cast(self))) }`
			`#[inline(always)] pure fn inv_sqrt() -> float { 1f / self.sqrt() } // TODO: optimise? need a wizard`
OCD formatting 2012-11-08 03:46:01 +00:00			`}`
Implemented exponential functions for each vector type 2012-11-08 04:09:15 +00:00
			`pub impl<T:Copy Exp> Vec2<T>: Exp {`
			`#[inline(always)]`
			`pure fn pow<N:NumCast>(n: &N) -> Vec2<T> {`
			`Vec2::new(pow(&self[0], n),`
			`pow(&self[1], n))`
			`}`

			`#[inline(always)]`
			`pure fn exp() -> Vec2<T> {`
			`Vec2::new(exp(&self[0]),`
			`exp(&self[1]))`
			`}`

			`#[inline(always)]`
			`pure fn log_() -> Vec2<T> {`
			`Vec2::new(log_(&self[0]),`
			`log_(&self[1]))`
			`}`

			`#[inline(always)]`
			`pure fn exp2() -> Vec2<T> {`
			`Vec2::new(exp2(&self[0]),`
			`exp2(&self[1]))`
			`}`

			`#[inline(always)]`
			`pure fn log2() -> Vec2<T> {`
			`Vec2::new(log2(&self[0]),`
			`log2(&self[1]))`
			`}`

			`#[inline(always)]`
			`pure fn sqrt() -> Vec2<T> {`
			`Vec2::new(sqrt(&self[0]),`
			`sqrt(&self[1]))`
			`}`

			`#[inline(always)]`
			`pure fn inv_sqrt() -> Vec2<T> {`
			`Vec2::new(inv_sqrt(&self[0]),`
			`inv_sqrt(&self[1]))`
			`}`
			`}`

			`pub impl<T:Copy Exp> Vec3<T>: Exp {`
			`#[inline(always)]`
			`pure fn pow<N:NumCast>(n: &N) -> Vec3<T> {`
			`Vec3::new(pow(&self[0], n),`
			`pow(&self[1], n),`
			`pow(&self[2], n))`
			`}`

			`#[inline(always)]`
			`pure fn exp() -> Vec3<T> {`
			`Vec3::new(exp(&self[0]),`
			`exp(&self[1]),`
			`exp(&self[2]))`
			`}`

			`#[inline(always)]`
			`pure fn log_() -> Vec3<T> {`
			`Vec3::new(log_(&self[0]),`
			`log_(&self[1]),`
			`log_(&self[2]))`
			`}`

			`#[inline(always)]`
			`pure fn exp2() -> Vec3<T> {`
			`Vec3::new(exp2(&self[0]),`
			`exp2(&self[1]),`
			`exp2(&self[2]))`
			`}`

			`#[inline(always)]`
			`pure fn log2() -> Vec3<T> {`
			`Vec3::new(log2(&self[0]),`
			`log2(&self[1]),`
			`log2(&self[2]))`
			`}`

			`#[inline(always)]`
			`pure fn sqrt() -> Vec3<T> {`
			`Vec3::new(sqrt(&self[0]),`
			`sqrt(&self[1]),`
			`sqrt(&self[2]))`
			`}`

			`#[inline(always)]`
			`pure fn inv_sqrt() -> Vec3<T> {`
			`Vec3::new(inv_sqrt(&self[0]),`
			`inv_sqrt(&self[1]),`
			`inv_sqrt(&self[2]))`
			`}`
			`}`

			`pub impl<T:Copy Exp> Vec4<T>: Exp {`
			`#[inline(always)]`
			`pure fn pow<N:NumCast>(n: &N) -> Vec4<T> {`
			`Vec4::new(pow(&self[0], n),`
			`pow(&self[1], n),`
			`pow(&self[2], n),`
			`pow(&self[3], n))`
			`}`

			`#[inline(always)]`
			`pure fn exp() -> Vec4<T> {`
			`Vec4::new(exp(&self[0]),`
			`exp(&self[1]),`
			`exp(&self[2]),`
			`exp(&self[3]))`
			`}`

			`#[inline(always)]`
			`pure fn log_() -> Vec4<T> {`
			`Vec4::new(log_(&self[0]),`
			`log_(&self[1]),`
			`log_(&self[2]),`
			`log_(&self[3]))`
			`}`

			`#[inline(always)]`
			`pure fn exp2() -> Vec4<T> {`
			`Vec4::new(exp2(&self[0]),`
			`exp2(&self[1]),`
			`exp2(&self[2]),`
			`exp2(&self[3]))`
			`}`

			`#[inline(always)]`
			`pure fn log2() -> Vec4<T> {`
			`Vec4::new(log2(&self[0]),`
			`log2(&self[1]),`
			`log2(&self[2]),`
			`log2(&self[3]))`
			`}`

			`#[inline(always)]`
			`pure fn sqrt() -> Vec4<T> {`
			`Vec4::new(sqrt(&self[0]),`
			`sqrt(&self[1]),`
			`sqrt(&self[2]),`
			`sqrt(&self[3]))`
			`}`

			`#[inline(always)]`
			`pure fn inv_sqrt() -> Vec4<T> {`
			`Vec4::new(inv_sqrt(&self[0]),`
			`inv_sqrt(&self[1]),`
			`inv_sqrt(&self[2]),`
			`inv_sqrt(&self[3]))`
			`}`
			`}`