Expression 10: "y" equals "a" plus "x" * ( "b" minus "a" ) left brace, 0 less than "x" less than 1 , right bracey=a+x*(b−a)0<x<1
10
t = ${t} left parenthesis, "t" , 0 , right parenthesist,0
Label:
equals=
left parenthesis, 0.8 , 0 , right parenthesis0.8,0
11
Expression 12: "x" equals "t" left brace, min left parenthesis, 0 , "r" Subscript, "e" , Baseline , right parenthesis less than "y" less than max left parenthesis, 0 , "r" Subscript, "e" , Baseline , right parenthesis , right bracex=tmin0,re<y<max0,re
12
Expression 13: "y" equals "r" Subscript, "e" , Baseline left brace, min left parenthesis, 0 , "t" , right parenthesis less than "x" less than max left parenthesis, 0 , "t" , right parenthesis , right bracey=remin0,t<x<max0,t
13
${r_e} left parenthesis, 0 , "r" Subscript, "e" , Baseline , right parenthesis0,re
Label:
equals=
left parenthesis, 0 , 0.7 , right parenthesis0,0.7
14
float a = ${a}f; left parenthesis, negative 1.3 5 , 0.9 5 , right parenthesis−1.35,0.95
Label:
15
float b = ${b}f; left parenthesis, negative 1.3 5 , 0.7 5 , right parenthesis−1.35,0.75
Label:
16
float t = ${t}f; left parenthesis, negative 1.3 5 , 0.5 5 , right parenthesis−1.35,0.55
Label:
17
float result = Mathf.Lerp(a, b, t); left parenthesis, 1.0 , negative 0.3 5 , right parenthesis1.0,−0.35
Label:
18
// result = ${r_e}f: left parenthesis, 1.0 , negative 0.5 5 , right parenthesis1.0,−0.55
