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f_o_vec

this is a small library that handles vectors in javascript, at least as good as it can be done UwU

instanciate vectors

            var o = new O_vec4();
            f_assert_equals(o.toString(),'(0,0,0,0)');
            var o = new O_vec4(1);
            f_assert_equals(o.toString(),'(1,1,1,1)');
            var o = new O_vec4(1,2);
            f_assert_equals(o.toString(),'(1,2,2,2)');
            var o = new O_vec4(1,2,3);
            f_assert_equals(o.toString(),'(1,2,3,3)');
            var o = new O_vec4(1,2,3, 4);
            f_assert_equals(o.toString(),'(1,2,3,4)');

access vector components

            var o = new O_vec4(2,3,4,5);
            f_assert_equals(o.x, 2)
            f_assert_equals(o.n_x, 2)
            f_assert_equals(o[0], 2)

            f_assert_equals(o.y, 3)
            f_assert_equals(o.n_y, 3)
            f_assert_equals(o[1], 3)

            f_assert_equals(o.z, 4)
            f_assert_equals(o.n_z, 4)
            f_assert_equals(o[2], 4)

            f_assert_equals(o.w, 5)
            f_assert_equals(o.n_w, 5)
            f_assert_equals(o[3], 5)

access components as array of numbers a_n_comp

            f_assert_equals(o.a_n_comp, [2,3,4,5])

            //set components
            var o = new O_vec4(0);
            f_assert_equals(o.x+=1, 1)
            f_assert_equals(o.n_x+=1, 2)
            f_assert_equals(o[0]+=1, 3)

Vector swizzling

            var o = new O_vec4(2,3,4,5);

            f_assert_equals(o.xxxx.toString(), '(2,2,2,2)')
            f_assert_equals(o.xxxz.toString(), '(2,2,2,4)')
            f_assert_equals(o.xxxw.toString(), '(2,2,2,5)')
            f_assert_equals(o.xyxy.toString(), '(2,3,2,3)')
            f_assert_equals(o.wzyx.toString(), '(5,4,3,2)')

vector operations

every operation results in a new vector but can be done directly on the current vector by calling the operation with a suffix of ‘eq’ a+b => a.add(b) a+=b => a.addeq(b)

add

            var o_vec = new O_vec4(1,2,3,4);
            f_assert_equals(
                o_vec
                 .add(3,-2, 10, -10)
                 .toString(),
                '(4,0,13,-6)'
            )

            o_vec.addeq(3,-2, 10, -10)

            f_assert_equals(
                o_vec
                 .toString(),
                 '(4,0,13,-6)'
            )

sub

            
            var o_vec = new O_vec4(1,2,3,4);
            f_assert_equals(
                o_vec
                    .sub(3,-2, 10, -10)
                    .toString(),
                '(-2,4,-7,14)'
            )

            o_vec.subeq(3,-2, 10, -10)

            f_assert_equals(
                o_vec
                    .toString(),
                '(-2,4,-7,14)'
            )

mul

            var o_vec = new O_vec4(1,2,3,4);
            f_assert_equals(
                o_vec
                    .mul(3,-2, 10, -10)
                    .toString(),
                '(3,-4,30,-40)'
            )

            o_vec.muleq(3,-2, 10, -10)

            f_assert_equals(
                o_vec
                    .toString(),
                '(3,-4,30,-40)'
            )

div

            var o_vec = new O_vec4(1,-2, 9, -12);
            f_assert_equals(
                o_vec
                    .div(1,2,3,4)
                    .toString(),
                '(1,-1,3,-3)'
            )

            o_vec.diveq(1,2,3,4)
            f_assert_equals(
                o_vec.toString(),
                '(1,-1,3,-3)'
            )
            // md: ## other manipulations

length

            f_assert_equals(new O_vec2(3,4).length(),5)
            f_assert_equals(new O_vec3(8,11,16).length(),21)   

unfortunately there is no pythagorean quituple

            f_assert_equals(new O_vec4(2,3,6,7).length(),9.899494936611665)  

normalize

            f_assert_equals(new O_vec3(1,2,3).normalize().toString(),`(0.2672612419124244,0.5345224838248488,0.8017837257372732)`)
            var o = new O_vec3(1,2,3);
            o.normalizeeq();
            f_assert_equals(o.toString(),`(0.2672612419124244,0.5345224838248488,0.8017837257372732)`)

fract (get part after decimal point)

            let o = new O_vec2(12.8291214, 0.5534)
            o.fracteq()
            f_assert_equals(o.toString(),`(0.8291214,0.5534)`)

components operated on each other

            var n = new O_vec3(1,2,3).compsadd()
            f_assert_equals(n,6)//`1+2+3
            var n = new O_vec3(1,2,3).compssub()
            f_assert_equals(n,-6)//`-1-2-3
            var n = new O_vec3(1,2,3).compsmul()
            f_assert_equals(n,6)//`1*2*3
            var n = new O_vec3(1,2,3).compsdiv()
            f_assert_equals(n,0.16666666666666666)//`(1/2)/3

dot / dot product

            let n = new O_vec2(2,3).dot(4,5)
            f_assert_equals(n,23)//`(2*4+3*5)=>(8+15)=>(23)`)

            //dot product with multiple vectors
            let n2 = new O_vec2(2,3)
                .mul(4,5)
                .mul(10,20)
                .compsadd()
            f_assert_equals(n2,380)//`(2*4*10+3*5*20)=>(8*10+15*20)=>(80+300)=>(380)`)

dot / dot product

            var o = new O_vec3(2,3,4).cross(5,6,7)
            f_assert_equals(o.toString(),'(-3,6,-3)')
            var o = new O_vec3(2,3,4);
            o.crosseq(5,6,7)
            f_assert_equals(o.toString(),'(-3,6,-3)')
            // var o = new O_vec3(2,3,4);
                // o.crosseq(1)
                // f_assert_equals(o.toString(),'(-1,2,-1)')

sangle (smallest angle) between two vectors using the (dot/length*length) formula

            var n_ang = new O_vec3(2,3,4).sangle(-5,6,-7)
            f_assert_equals(n_ang,1.9327554742236706)
            var n_ang_deg = new O_vec3(2,3,4).sangle_deg(-5,6,-7)
            f_assert_equals(n_ang_deg,110.73873150382231)

the horizontal angle between two vectors

            // f_assert_equals(f_o_vec2(0,0).hangle(0,1),Math.PI);
            f_assert_equals(new O_vec2(0,0).hangle(0,1),((Math.PI*2)/4)*2);
            f_assert_equals(new O_vec2(0,0).hangle(1,0),-((Math.PI*2)/4)*1);
            f_assert_equals(new O_vec2(0,0).hangle(0,-1),-((Math.PI*2)/4)*0);
            f_assert_equals(new O_vec2(0,0).hangle(-1,0),((Math.PI*2)/4)*1);