void tune_remap(const Ivector& in_values, Ivector& out_values) { if (pInput->iGetAsyncKeyState(DIK_LSHIFT) || pInput->iGetAsyncKeyState(DIK_RSHIFT)) { out_values = in_values; }else if( pInput->iGetAsyncKeyState(DIK_Z) ) { //strict by X out_values.x = in_values.y; out_values.y = 0; out_values.z = 0; }else if( pInput->iGetAsyncKeyState(DIK_X) ) { //strict by Y out_values.x = 0; out_values.y = in_values.y; out_values.z = 0; }else if( pInput->iGetAsyncKeyState(DIK_C) ) { //strict by Z out_values.x = 0; out_values.y = 0; out_values.z = in_values.y; }else { out_values.set(0,0,0); } }
Ivector vpack (Fvector src) { Fvector _v; int bx = fpack (src.x); int by = fpack (src.y); int bz = fpackZ(src.z); // dumb test float e_best = flt_max; int r=bx,g=by,b=bz; #ifdef DEBUG int d=0; #else int d=3; #endif for (int x=_max(bx-d,0); x<=_min(bx+d,255); x++) for (int y=_max(by-d,0); y<=_min(by+d,255); y++) for (int z=_max(bz-d,0); z<=_min(bz+d,255); z++) { _v = vunpack(x,y,z); float m = _v.magnitude(); float me = _abs(m-1.f); if (me>0.03f) continue; _v.div (m); float e = _abs(src.dotproduct(_v)-1.f); if (e<e_best) { e_best = e; r=x,g=y,b=z; } } Ivector ipck; ipck.set (r,g,b); return ipck; }