Integer conversion without precision loss for literal function inputs

AB
20 Nov. 2025
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Aktualisiert 19 Dez. 2025
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The function uint64 can take a literal input that is not representable by double and convert without precision loss, like
uint64(7725400999518902274)
ans = uint64 7725400999518902274
Unfortunately, this functionality does not seem to extend to a function with an argument block and type validation.
function test(a)
arguments
a (1,1) uint64
end
disp(a)
end
test(7725400999518902274)
7725400999518902272
I would have to do
test(uint64(7725400999518902274))
7725400999518902274
Does anyone know if there is a trick to get this functionality or I am otherwise missing something?

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Chuguang Pan
Chuguang Pan am 20 Nov. 2025
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@AB. In the argument block, the variable a is a double number, it is converted to uint64.
uint64(double(7725400999518902274))
ans = uint64 7725400999518902272
uint64(7725400999518902274)
ans = uint64 7725400999518902274
Matt J
Matt J am 20 Nov. 2025
Bearbeitet: Matt J am 20 Nov. 2025
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Unfortunately, this functionality does not seem to extend to a function with an argument block and type validation.
The argument block isn't the issue. Here's the same problem without it:
test(7725400999518902274)
7725400999518902272
function test(a)
a=uint64(a);
disp(a)
end
Dyuman Joshi
Dyuman Joshi am 20 Nov. 2025
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"The function uint64 can take a literal input that is not representable by double and convert without precision loss"
That is not true, it can do that within [0, 2^64-1]
uint64(123456789012345678901)
ans = uint64 18446744073709551615
uint64(2^64-1)
ans = uint64 18446744073709551615
uint64(2^64+1)
ans = uint64 18446744073709551615
AB
AB am 20 Nov. 2025
Thanks everyone for the discussion, this might have been a bit of an unfair question without an answer beyond "no, there isn't".
To clarify, uint64 provides a special execution path that allows a literal that is not representable by a double but is representable by a uint64 to be created as a uint64 without precision loss, and I was hoping there might be a similar special handling that utilizes the arguments block.

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 Akzeptierte Antwort

Matt J
Matt J am 20 Nov. 2025
Bearbeitet: Matt J am 20 Nov. 2025
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test 7725400999518902274
a = uint64 7725400999518902274
function test(a)
arguments
a (1,:) string
end
a=eval("uint64("+ a + ")"),
end

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Dyuman Joshi
Dyuman Joshi am 20 Nov. 2025
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Matt - You are providing a string as an input, however OP is providing a double value.
The same problem resurfaces when providing the input as double -
test(7725400999518902274)
a = uint64 7725400999518902272
function test(a)
arguments
a (1,:) string
end
a=eval("uint64("+ a + ")"),
end
Matt J
Matt J am 20 Nov. 2025
Bearbeitet: Matt J am 20 Nov. 2025
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@Dyuman Joshi
No, the OP is providing the number as a literal. The Matlab parser clearly does not interpret literal input to uint64 as a double, since,
A=uint64(7725400999518902274);
B=uint64(double(7725400999518902274));
isequal(A,B)
ans = logical
0
AB
AB am 20 Nov. 2025
This might actually be an ok solution for some use cases, just letting us specify a string with a literal. You could hit it with an sscanf though instead of the eval. I'll accept since this is probably the best we can do right now. Thanks!
Dyuman Joshi
Dyuman Joshi am 20 Nov. 2025
@Matt J - Yes, you are right. That was an oversight by me.
Walter Roberson
Walter Roberson am 19 Dez. 2025
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I wondered whether uint64() of a string object could work, but unfortunately it does not.
ABC="7725400999518902274"
ABC = "7725400999518902274"
double(ABC)
ans = 7.7254e+18
uint64(ABC)
Error using uint64
Conversion to uint64 from string is not possible.
Paul
Paul am 19 Dez. 2025
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Is there any reason to prefer command syntax? Function syntax seems to work fine.
test 7725400999518902274
a = uint64 7725400999518902274
test("7725400999518902274")
a = uint64 7725400999518902274
function test(a)
arguments
a (1,:) string
end
a=eval("uint64("+ a + ")"),
end
Matt J
Matt J am 19 Dez. 2025
@Paul
Fewer keystrokes?

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Walter Roberson
Walter Roberson am 21 Nov. 2025

2 Stimmen

Does anyone know if there is a trick to get this functionality
There is no way of doing that.
Any way of doing that would have to affect the inputs at parse time. However, arguement blocks do not affect parse time. Arguement blocks apply conversions to whatever input was passed in. By the time the arguement block processing is applied, the parameter has already been parsed as double precision.

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Gefragt:

AB
AB
am 20 Nov. 2025

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Matt J
Matt J
am 19 Dez. 2025

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