# Tests corresponding to the texinfo node `Arithmetic Evaluation' %test integer light there (( light = 42 )) && let 'there = light' && print $(( there )) 0:basic integer arithmetic >42 float light there integer rnd (( light = 3.1415 )) && let 'there = light' && print -- $(( rnd = there * 10000 )) # save rounding problems by converting to integer 0:basic floating point arithmetic >31415. print $(( 0x10 + 0X01 + 2#1010 )) 0:base input >27 float light (( light = 4 )) print $light typeset -F light print $light 0:conversion to float >4.000000000e+00 >4.0000000000 integer i (( i = 32.5 )) print $i 0:conversion to int >32 integer i (( i = 4 - - 3 * 7 << 1 & 7 ^ 1 | 16 ** 2 )) print $i 0:precedence (arithmetic) >1591 print $(( 1 < 2 || 2 < 2 && 3 > 4 )) 0:precedence (logical) >1 print $(( 1 + 4 ? 3 + 2 ? 4 + 3 ? 5 + 6 ? 4 * 8 : 0 : 0 : 0 : 0 )) 0:precedence (ternary) >32 print $(( 3 ? 2 )) 1:parsing ternary (1) ?(eval):1: ':' expected print $(( 3 ? 2 : 1 : 4 )) 1:parsing ternary (2) ?(eval):1: ':' without '?' print $(( 0, 4 ? 3 : 1, 5 )) 0:comma operator >5 foo=000 print $(( ##A + ##\C-a + #foo + $#foo )) 0:#, ## and $# >117 integer i (( i = 3 + 5 * 1.75 )) print $i 0:promotion to float >11 typeset x && (( x = 3.5 )) && print $x && (( x = 4 )) && print $x 0:use of scalars to store integers and floats >3.5 >4 (( newarray[unsetvar]++ )) (( newarray[unsetvar]++ )) print ${(t)newarray} ${#newarray} ${newarray[1]} 0:setting array elements in math context >array 1 2 print $(( 13 = 42 )) 1:bad lvalue ?(eval):1: lvalue required x=/bar (( x = 32 )) print $x 0:assigning to scalar which contains non-math string >32 print $(( )) 0:empty math parse e.g. $(( )) acts like a zero >0