| //! Platform-specific, assembly instructions to avoid |
| //! intermediate rounding on architectures with FPUs. |
| |
| pub use fpu_precision::set_precision; |
| |
| // On x86, the x87 FPU is used for float operations if the SSE/SSE2 extensions are not available. |
| // The x87 FPU operates with 80 bits of precision by default, which means that operations will |
| // round to 80 bits causing double rounding to happen when values are eventually represented as |
| // 32/64 bit float values. To overcome this, the FPU control word can be set so that the |
| // computations are performed in the desired precision. |
| #[cfg(all(target_arch = "x86", not(target_feature = "sse2")))] |
| mod fpu_precision { |
| use core::arch::asm; |
| use core::mem::size_of; |
| |
| /// A structure used to preserve the original value of the FPU control word, so that it can be |
| /// restored when the structure is dropped. |
| /// |
| /// The x87 FPU is a 16-bits register whose fields are as follows: |
| /// |
| /// | 12-15 | 10-11 | 8-9 | 6-7 | 5 | 4 | 3 | 2 | 1 | 0 | |
| /// |------:|------:|----:|----:|---:|---:|---:|---:|---:|---:| |
| /// | | RC | PC | | PM | UM | OM | ZM | DM | IM | |
| /// |
| /// The documentation for all of the fields is available in the IA-32 Architectures Software |
| /// Developer's Manual (Volume 1). |
| /// |
| /// The only field which is relevant for the following code is PC, Precision Control. This |
| /// field determines the precision of the operations performed by the FPU. It can be set to: |
| /// - 0b00, single precision i.e., 32-bits |
| /// - 0b10, double precision i.e., 64-bits |
| /// - 0b11, double extended precision i.e., 80-bits (default state) |
| /// The 0b01 value is reserved and should not be used. |
| pub struct FPUControlWord(u16); |
| |
| fn set_cw(cw: u16) { |
| // SAFETY: the `fldcw` instruction has been audited to be able to work correctly with |
| // any `u16` |
| unsafe { |
| asm!( |
| "fldcw word ptr [{}]", |
| in(reg) &cw, |
| options(nostack), |
| ) |
| } |
| } |
| |
| /// Sets the precision field of the FPU to `T` and returns a `FPUControlWord`. |
| pub fn set_precision<T>() -> FPUControlWord { |
| let mut cw = 0_u16; |
| |
| // Compute the value for the Precision Control field that is appropriate for `T`. |
| let cw_precision = match size_of::<T>() { |
| 4 => 0x0000, // 32 bits |
| 8 => 0x0200, // 64 bits |
| _ => 0x0300, // default, 80 bits |
| }; |
| |
| // Get the original value of the control word to restore it later, when the |
| // `FPUControlWord` structure is dropped |
| // SAFETY: the `fnstcw` instruction has been audited to be able to work correctly with |
| // any `u16` |
| unsafe { |
| asm!( |
| "fnstcw word ptr [{}]", |
| in(reg) &mut cw, |
| options(nostack), |
| ) |
| } |
| |
| // Set the control word to the desired precision. This is achieved by masking away the old |
| // precision (bits 8 and 9, 0x300) and replacing it with the precision flag computed above. |
| set_cw((cw & 0xFCFF) | cw_precision); |
| |
| FPUControlWord(cw) |
| } |
| |
| impl Drop for FPUControlWord { |
| fn drop(&mut self) { |
| set_cw(self.0) |
| } |
| } |
| } |
| |
| // In most architectures, floating point operations have an explicit bit size, therefore the |
| // precision of the computation is determined on a per-operation basis. |
| #[cfg(any(not(target_arch = "x86"), target_feature = "sse2"))] |
| mod fpu_precision { |
| pub fn set_precision<T>() {} |
| } |
