I am currently performing some cross-compiling tests for Raspberry Pi on my Ubuntu machine. My current understanding is that Raspberry Pi supports hardware floating point and the default Raspbian OS image was built with hardware floating point (armhf). Correct?
If I build my application using the "arm-linux-gnueabi" toolchain (without specifying any ARM flags), then my application will use soft float ABI. Correct?
In this case, all my dependencies also have to use the same ABI in order to be able to link correctly. Correct?
If my application uses soft float ABI, then my application surely was linked to a soft float ABI shared standard library. When I run my application on my Raspberry Pi everything works as expected. How can this be, if Raspbian uses hard float ABI (and I'm guessing the shared standard library also does)?
FYI: my default arm-linux-gnueabi is configured with:
And I'm compiling my application like this:
arm-linux-gnueabi-g++ test.cpp -o test
My program does include floating point calculations:
double test = (123.456 + 789.123) * 1.23; printf("%f\n", test); // prints: 1122.472170 printf("%f\n", std::floor(test)); // prints: 1122.000000