On 02/02/2018 04:10 PM, Marco van de Voort wrote:
On Wed, Jan 31, 2018 at 07:31:56PM +0100, zeljko via Lazarus wrote:
Using binary floats, there are just too many values that can't be
represented 100%, regardless of the length of the mantissa.
https://en.wikipedia.org/wiki/Floating-point_arithmetic#Accuracy_problems
Thanks Ralf, I know what is floating point arithmetic, but something is
changed between 3.0.2 and 3.0.4 and I want to know what it is.
It could be as simple as slightly different codegeneration that eliminates a
temporary variable or adds it.
The x87 CPU calculates with 80-bits, but storing it into a double variable
(e.g. a local variable on the stack) will round it to 64-bit double. This
can cause small precision fluctuations, and, as with all regular float
comparison issues, it is something of all times and all compilers.
Today I've found exact where's problem.
It's zeoslib 7.2.1 which uses fastcode (ZFastCode) implementation and
results of StrToFloatDef() are bit different than results which is given
by fpc's StrToFloatDef().
Changed code to use fpc functions and everything is correct now :)
Thanks for your time ppl
zeljko
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