zeroes function uses type transformation, drops direct ratio dep from zeroes

fixed_wide/Cargo.toml

@@ -4,10 +4,10 @@ version = "0.1.0"
 edition = "2021"
 
 [features]
-default=["zeroes","wide-mul"]
+default=["ratio","zeroes","wide-mul"]
 ratio=[]
 wide-mul=[]
-zeroes=["ratio","dep:arrayvec"]
+zeroes=["dep:arrayvec"]
 
 [dependencies]
 bnum = "0.11.0"

fixed_wide/src/fixed.rs

@@ -408,11 +408,12 @@ macro_rules! impl_not_const_generic{
 				let mut result=Self::ZERO;
 
 				//multiply by one to make the types match (hack)
-				let wide_self=self.[<wide_mul_ $n _ $n>](Self::ONE);
+				//TODO: use resize method
+				let wide_self:<Self as core::ops::Mul>::Output=self*Self::ONE;
 				//descend down the bits and check if flipping each bit would push the square over the input value
 				for shift in (0..=max_shift).rev(){
 					let new_result=result|Self::from_bits(BInt::from_bits(bnum::BUint::power_of_two(shift)));
-					if new_result.[<wide_mul_ $n _ $n>](new_result)<=wide_self{
+					if new_result*new_result<=wide_self{
 						result=new_result;
 					}
 				}

fixed_wide/src/zeroes.rs

@@ -1,5 +1,4 @@
 use crate::fixed::Fixed;
-use crate::ratio::Ratio;
 
 use arrayvec::ArrayVec;
 use std::cmp::Ordering;
@@ -7,36 +6,38 @@ macro_rules! impl_zeroes{
 	($n:expr)=>{
 		impl Fixed<$n,{$n*32}>{
 			#[inline]
-			pub fn zeroes2(a0:Self,a1:Self,a2:Self)->ArrayVec<Ratio<Self,Self>,2>{
+			pub fn zeroes2(a0:Self,a1:Self,a2:Self)->ArrayVec<<Self as core::ops::Div>::Output,2>{
 				let a2pos=match a2.cmp(&Self::ZERO){
 					Ordering::Greater=>true,
 					Ordering::Equal=>return ArrayVec::from_iter(Self::zeroes1(a0,a1).into_iter()),
 					Ordering::Less=>true,
 				};
 				paste::item!{
-				let radicand=a1.[<wide_mul_ $n _ $n>](a1)-a2.[<wide_mul_ $n _ $n>](a0)*4;
+				let radicand=a1*a1-a2*a0*4;
 				}
-				match radicand.cmp(&Fixed::<{$n*2},{$n*2*32}>::ZERO){
+				match radicand.cmp(&<Self as core::ops::Mul>::Output::ZERO){
 					Ordering::Greater=>{
-						let planar_radicand=radicand.sqrt().halve_precision();
+						//TODO: use resize method
+						let planar_radicand:Self=radicand.sqrt().halve_precision();
 						//sort roots ascending and avoid taking the difference of large numbers
-						match (a2pos,Self::ZERO<a1){
-							(true, true )=>[Ratio::new(-a1-planar_radicand,a2*2),Ratio::new(a0*2,-a1-planar_radicand)].into(),
-							(true, false)=>[Ratio::new(a0*2,-a1+planar_radicand),Ratio::new(-a1+planar_radicand,a2*2)].into(),
-							(false,true )=>[Ratio::new(a0*2,-a1-planar_radicand),Ratio::new(-a1-planar_radicand,a2*2)].into(),
-							(false,false)=>[Ratio::new(-a1+planar_radicand,a2*2),Ratio::new(a0*2,-a1+planar_radicand)].into(),
-						}
+						let zeroes=match (a2pos,Self::ZERO<a1){
+							(true, true )=>[(-a1-planar_radicand)/(a2*2),(a0*2)/(-a1-planar_radicand)],
+							(true, false)=>[(a0*2)/(-a1+planar_radicand),(-a1+planar_radicand)/(a2*2)],
+							(false,true )=>[(a0*2)/(-a1-planar_radicand),(-a1-planar_radicand)/(a2*2)],
+							(false,false)=>[(-a1+planar_radicand)/(a2*2),(a0*2)/(-a1+planar_radicand)],
+						};
+						ArrayVec::from_iter(zeroes)
 					},
-					Ordering::Equal=>ArrayVec::from_iter([Ratio::new(a1,a2*-2)]),
+					Ordering::Equal=>ArrayVec::from_iter([(a1)/(a2*-2)]),
 					Ordering::Less=>ArrayVec::new_const(),
 				}
 			}
 			#[inline]
-			pub fn zeroes1(a0:Self,a1:Self)->ArrayVec<Ratio<Self,Self>,1>{
+			pub fn zeroes1(a0:Self,a1:Self)->ArrayVec<<Self as core::ops::Div>::Output,1>{
 				if a1==Self::ZERO{
 					ArrayVec::new_const()
 				}else{
-					ArrayVec::from_iter([Ratio::new(-a0,a1)])
+					ArrayVec::from_iter([(-a0)/(a1)])
 				}
 			}
 		}