Why does fprintf attach a negative sign to a zero?

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Matt J
Matt J on 4 Dec 2025 at 22:08
Commented: Walter Roberson about 6 hours ago
Ran in:
Here is some code to set up the demonstration,
load data
fid = fopen('runsim.py','w');
rotation=[0,0,-GantryAngles(1)];
This next line verifies that rotation(3) is exactly equal to zero,
isZero = (rotation(3)==0)
isZero = logical
1
Nevertheless, when I do a formatted file print, the 3rd zero ends up printed to the file with a negative sign attached:
fprintf(fid, "vN_%d.set_rotation(%g, %g, %g, 'deg')\n",1, rotation);
type runsim.py
vN_1.set_rotation(0, 0, -0, 'deg')
Why does this happen?

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Accepted Answer

dpb
dpb on 4 Dec 2025 at 22:49
Moved: dpb on 4 Dec 2025 at 22:49
Ran in:
load data
%fid = fopen('runsim.py','w');
rotation=[0,0,-GantryAngles(1)];
fprintf("vN_%d.set_rotation(%g, %g, %g, 'deg')\n",1, rotation)
vN_1.set_rotation(0, 0, -0, 'deg')
rotation=[0,0,GantryAngles(1)];
fprintf("vN_%d.set_rotation(%g, %g, %g, 'deg')\n",1, rotation)
vN_1.set_rotation(0, 0, 0, 'deg')
MATLAB keeps signed zero internally and the various C i/o formatting honors it whereas the default command line format short is a prettified output that removes the minus.
There is a "+" flag that can be added to a format specifier to force the sign, but there isn't one to remove the minus; you would have to preprocess as does the internal command line output formatting to remove it.
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Stephen23
Stephen23 about 1 hour ago
"if I want to ensure that I'm writing .txt files with agnostic 0, I have to expend overhead in M-code doing things like..."
It is simpler to add zero:
writematrix(0+A)
Walter Roberson
Walter Roberson 10 minutes ago
Ran in:
I agree with @Stephen23 that adding 0 is easier.
format long g
A = -0
A =
0
fprintf('%g %g\n', A, A+0)
-0 0

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More Answers (2)

Walter Roberson
Walter Roberson about 5 hours ago
Ran in:
fprintf('%g %g\n', 0, -0)
0 -0
Negative zero is represented differently than non-negative zero, This is because it is mathematically different:
fprintf('%g %g\n', 1/0, 1/-0)
Inf -Inf
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Steven Lord
Steven Lord 13 minutes ago
Ran in:
Also see the Wikipedia page for "signed zero".
Note that there is at least one behavior described in the Arithmetic section on that page where MATLAB differs from IEEE. As stated in the IEEE Compliance section on the sqrt page:
format hex
negativeZero = -0 % note the sign bit
negativeZero =
8000000000000000
positiveZero = 0
positiveZero =
0000000000000000
x = sqrt(negativeZero) % matches positiveZero not negativeZero
x =
0000000000000000
FYI the hypot, atan2, and power documentation pages also have IEEE Compliance sections. Hypot's involves combinations of NaN and Inf, atan2's involves combinations of +0 and -0, and power's involves some NaN cases.
Paul
Paul 10 minutes ago
Ran in:
Checking out sqrt I discovered realsqrt, which I'd never known about.
The error message for a real, negative input
try
realsqrt(-1)
catch ME
ME.message
end
ans = 'Realsqrt produced complex result.'
suggests realsqrt actually did a computation but caught the error on the result.
OTOH, with a complex input
try
realsqrt(-1+1i)
catch ME
ME.message
end
ans = 'Invalid argument at position 1. Value must be real.'
it seems like realsqrt does error checking on the input.

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John
John 11 minutes ago
I'll add that negative zero is part of the IEEE 754 spec for floating point numbers. This is not MATLAB-specific.

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