Rational Developer for System z
Enterprise PL/I for z/OS, Version 3.8, Messages and Codes Manual

Condition codes 1701 through 1750

1701
Computational error; during exponentiation for a complex extended floating-point base with a complex extended floating-point exponent, imaginary parts of both complex arguments are not valid IEEE numbers.
1702
Computational error; during exponentiation for a complex short floating-point base with a complex short floating-point exponent, real part of first complex argument and imaginary part of second complex argument are not valid IEEE numbers.
1703
Computational error; during exponentiation for a complex long floating-point base with a complex long floating-point exponent, real part of first complex argument and imaginary part of second complex argument are not valid IEEE numbers.
1704
Computational error; during exponentiation for a complex extended floating-point base with a complex extended floating-point exponent, real part of first complex argument and imaginary part of second complex argument are not valid IEEE numbers.
1705
Computational error; during exponentiation for a complex short floating-point base with a complex short floating-point exponent, imaginary part of first complex argument and real part of second complex argument are not valid IEEE numbers.
1706
Computational error; during exponentiation for a complex long floating-point base with a complex long floating-point exponent, imaginary part of first complex argument and real part of second complex argument are not valid IEEE numbers.
1707
Computational error; during exponentiation for a complex extended floating-point base with a complex extended floating-point exponent, imaginary part of first complex argument and real part of second complex argument are not valid IEEE numbers.
1708
Computational error; during exponentiation for a complex short floating-point base with a complex short floating-point exponent, real part of first complex argument was the only valid IEEE number.
1709
Computational error; during exponentiation for a complex long floating-point base with a complex long floating-point exponent, real part of first complex argument was the only valid IEEE number.
1710
Computational error; during exponentiation for a complex extended floating-point base with a complex extended floating-point exponent, real part of first complex argument was the only valid IEEE number.
1711
Computational error; during exponentiation for a complex short floating-point base with a complex short floating-point exponent, imaginary part of first complex argument was the only valid IEEE number.
1712
Computational error; during exponentiation for a complex long floating-point base with a complex long floating-point exponent, imaginary part of first complex argument was the only valid IEEE number.
1713
Computational error; during exponentiation for a complex extended floating-point base with a complex extended floating-point exponent, imaginary part of first complex argument was the only valid IEEE number.
1714
Computational error; during exponentiation for a complex short floating-point base with a complex short floating-point exponent, real part of second complex argument was the only valid IEEE number.
1715
Computational error; during exponentiation for a complex long floating-point base with a complex long floating-point exponent, real part of second complex argument was the only valid IEEE number.
1716
Computational error; during exponentiation for a complex extended floating-point base with a complex extended floating-point exponent, real part of second complex argument was the only valid IEEE number.
1717
Computational error; during exponentiation for a complex short floating-point base with a complex short floating-point exponent, imaginary part of second complex argument was the only valid IEEE number.
1718
Computational error; during exponentiation for a complex long floating-point base with a complex long floating-point exponent, imaginary part of second complex argument was the only valid IEEE number.
1719
Computational error; during exponentiation for a complex extended floating-point base with a complex extended floating-point exponent, imaginary part of second complex argument was the only valid IEEE number.
1720
Computational error; during exponentiation for a complex short floating-point base with a complex short floating-point exponent, both parts of both complex arguments were not valid IEEE numbers.
1721
Computational error; during exponentiation for a complex long floating-point base with a complex long floating-point exponent, both parts of both complex arguments were not valid IEEE numbers.
1722
Computational error; during exponentiation for a complex extended floating-point base with a complex extended floating-point exponent, both parts of both complex arguments were not valid IEEE numbers.
1723
Computational error; during exponentiation, real short floating-point base plus or minus infinity and real short floating-point exponent is an invalid 32-bit integer.
1724
Computational error; during exponentiation, real long floating-point base is plus or minus infinity and real long floating-point exponent is an invalid 32-bit integer.
1725
Computational error; during exponentiation, real extended floating-point base plus or minus infinity and real extended floating-point exponent is an invalid 32-bit integer.
1726
Computational error; during exponentiation, real short floating-point base plus 1 and real short floating-point exponent is plus or minus infinity.
1727
Computational error; during exponentiation, real long floating-point base is +1 and real long floating-point exponent is plus or minus infinity.
1728
Computational error; during exponentiation, real extended floating-point base is +1 and real extended floating-point exponent is plus or minus infinity.
1729
Computational error; during exponentiation, real short floating-point base is zero and real short floating-point exponent is not positive or zero.
1730
Computational error; during exponentiation, real long floating-point base is zero and real long floating-point exponent is not positive or zero.
1731
Computational error; during exponentiation, real short floating-point base plus or minus infinity and real short floating-point exponent is zero.
1750
Computational error; the first real short floating-point argument for SCALE was not a valid IEEE number.

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