package float32

file_number 0 "/inputs/subtree/xls/dslx/stdlib/apfloat.x"
file_number 1 "/inputs/subtree/xls/dslx/stdlib/float32.x"

fn __apfloat__zero__8_23(sign: bits[1] id=1) -> (bits[1], bits[8], bits[23]) {
  literal.4: bits[8] = literal(value=0, id=4, pos=[(0,131,47)])
  literal.5: bits[23] = literal(value=0, id=5, pos=[(0,131,73)])
  EXP_SZ: bits[32] = literal(value=8, id=2, pos=[(0,130,12)])
  FRACTION_SZ: bits[32] = literal(value=23, id=3, pos=[(0,130,25)])
  ret tuple.6: (bits[1], bits[8], bits[23]) = tuple(sign, literal.4, literal.5, id=6, pos=[(0,131,33)])
}

top fn __float32__zero(sign: bits[1] id=7) -> (bits[1], bits[8], bits[23]) {
  F32_EXP_SZ: bits[32] = literal(value=8, id=8, pos=[(1,18,23)])
  F32_FRACTION_SZ: bits[32] = literal(value=23, id=9, pos=[(1,19,28)])
  ret invoke.10: (bits[1], bits[8], bits[23]) = invoke(sign, to_apply=__apfloat__zero__8_23, id=10, pos=[(1,39,44)])
}