//@ assembly-output: emit-asm // FIXME(#114479): LLVM miscompiles loading and storing `f32` and `f64` when SSE is disabled. // There's no compiletest directive to ignore a test on i586 only, so just always explicitly enable // SSE2. // Use the same target CPU as `i686` so that LLVM orders the instructions in the same order. //@ compile-flags: -Ctarget-feature=+sse2 -Ctarget-cpu=pentium4 // Force frame pointers to make ASM more consistent between targets //@ compile-flags: -C force-frame-pointers // At opt-level=3, LLVM can merge two movss into one movsd, and we aren't testing for that. //@ compile-flags: -Copt-level=2 //@ filecheck-flags: --implicit-check-not fld --implicit-check-not fst //@ revisions: linux win //@ add-core-stubs //@[linux] needs-llvm-components: x86 //@[win] needs-llvm-components: x86 //@[linux] compile-flags: --target i686-unknown-linux-gnu //@[win] compile-flags: --target i686-pc-windows-msvc #![crate_type = "lib"] #![feature(f16, f128)] #![feature(no_core)] #![no_core] extern crate minicore; use minicore::*; // Tests that returning `f32` and `f64` with the "Rust" ABI on 32-bit x86 doesn't use the x87 // floating point stack, as loading and storing `f32`s and `f64`s to and from the x87 stack quietens // signalling NaNs. // Returning individual floats // CHECK-LABEL: return_f32: #[no_mangle] pub fn return_f32(x: f32) -> f32 { // CHECK: movss {{.*}}(%ebp), %xmm0 // CHECK-NEXT: popl %ebp // CHECK-NEXT: retl x } // CHECK-LABEL: return_f64: #[no_mangle] pub fn return_f64(x: f64) -> f64 { // CHECK: movsd {{.*}}(%ebp), %xmm0 // CHECK-NEXT: popl %ebp // CHECK-NEXT: retl x } // Returning scalar pairs containing floats // CHECK-LABEL: return_f32_f32: #[no_mangle] pub fn return_f32_f32(x: (f32, f32)) -> (f32, f32) { // CHECK: movl [[#%d,OFFSET:]](%ebp), %[[PTR:.*]] // CHECK-NEXT: movss [[#%d,OFFSET+4]](%ebp), %[[VAL1:.*]] // CHECK-NEXT: movss [[#%d,OFFSET+8]](%ebp), %[[VAL2:.*]] // CHECK-NEXT: movss %[[VAL1]], (%[[PTR]]) // CHECK-NEXT: movss %[[VAL2]], 4(%[[PTR]]) // CHECK: retl x } // CHECK-LABEL: return_f64_f64: #[no_mangle] pub fn return_f64_f64(x: (f64, f64)) -> (f64, f64) { // CHECK: movl [[#%d,OFFSET:]](%ebp), %[[PTR:.*]] // CHECK-NEXT: movsd [[#%d,OFFSET+4]](%ebp), %[[VAL1:.*]] // CHECK-NEXT: movsd [[#%d,OFFSET+12]](%ebp), %[[VAL2:.*]] // CHECK-NEXT: movsd %[[VAL1]], (%[[PTR]]) // CHECK-NEXT: movsd %[[VAL2]], 8(%[[PTR]]) // CHECK: retl x } // CHECK-LABEL: return_f32_f64: #[no_mangle] pub fn return_f32_f64(x: (f32, f64)) -> (f32, f64) { // CHECK: movl [[#%d,OFFSET:]](%ebp), %[[PTR:.*]] // CHECK-NEXT: movss [[#%d,OFFSET+4]](%ebp), %[[VAL1:.*]] // CHECK-NEXT: movsd [[#%d,OFFSET+8]](%ebp), %[[VAL2:.*]] // CHECK-NEXT: movss %[[VAL1]], (%[[PTR]]) // CHECK-NEXT: movsd %[[VAL2]], {{4|8}}(%[[PTR]]) // CHECK: retl x } // CHECK-LABEL: return_f64_f32: #[no_mangle] pub fn return_f64_f32(x: (f64, f32)) -> (f64, f32) { // CHECK: movl [[#%d,OFFSET:]](%ebp), %[[PTR:.*]] // CHECK-NEXT: movsd [[#%d,OFFSET+4]](%ebp), %[[VAL1:.*]] // CHECK-NEXT: movss [[#%d,OFFSET+12]](%ebp), %[[VAL2:.*]] // CHECK-NEXT: movsd %[[VAL1]], (%[[PTR]]) // CHECK-NEXT: movss %[[VAL2]], 8(%[[PTR]]) // CHECK: retl x } // CHECK-LABEL: return_f32_other: #[no_mangle] pub fn return_f32_other(x: (f32, usize)) -> (f32, usize) { // CHECK: movl [[#%d,OFFSET:]](%ebp), %[[PTR:.*]] // CHECK-NEXT: movss [[#%d,OFFSET+4]](%ebp), %[[VAL1:.*]] // CHECK-NEXT: movl [[#%d,OFFSET+8]](%ebp), %[[VAL2:.*]] // CHECK-NEXT: movss %[[VAL1]], (%[[PTR]]) // CHECK-NEXT: movl %[[VAL2]], 4(%[[PTR]]) // CHECK: retl x } // CHECK-LABEL: return_f64_other: #[no_mangle] pub fn return_f64_other(x: (f64, usize)) -> (f64, usize) { // CHECK: movl [[#%d,OFFSET:]](%ebp), %[[PTR:.*]] // CHECK-NEXT: movsd [[#%d,OFFSET+4]](%ebp), %[[VAL1:.*]] // CHECK-NEXT: movl [[#%d,OFFSET+12]](%ebp), %[[VAL2:.*]] // CHECK-NEXT: movsd %[[VAL1]], (%[[PTR]]) // CHECK-NEXT: movl %[[VAL2]], 8(%[[PTR]]) // CHECK: retl x } // CHECK-LABEL: return_other_f32: #[no_mangle] pub fn return_other_f32(x: (usize, f32)) -> (usize, f32) { // CHECK: movl [[#%d,OFFSET:]](%ebp), %[[PTR:.*]] // CHECK-NEXT: movl [[#%d,OFFSET+4]](%ebp), %[[VAL1:.*]] // CHECK-NEXT: movss [[#%d,OFFSET+8]](%ebp), %[[VAL2:.*]] // CHECK-NEXT: movl %[[VAL1]], (%[[PTR]]) // CHECK-NEXT: movss %[[VAL2]], 4(%[[PTR]]) // CHECK: retl x } // CHECK-LABEL: return_other_f64: #[no_mangle] pub fn return_other_f64(x: (usize, f64)) -> (usize, f64) { // CHECK: movl [[#%d,OFFSET:]](%ebp), %[[PTR:.*]] // CHECK-NEXT: movl [[#%d,OFFSET+4]](%ebp), %[[VAL1:.*]] // CHECK-NEXT: movsd [[#%d,OFFSET+8]](%ebp), %[[VAL2:.*]] // CHECK-NEXT: movl %[[VAL1]], (%[[PTR]]) // CHECK-NEXT: movsd %[[VAL2]], {{4|8}}(%[[PTR]]) // CHECK: retl x } // Calling functions returning floats // CHECK-LABEL: call_f32: #[no_mangle] pub unsafe fn call_f32(x: &mut f32) { extern "Rust" { fn get_f32() -> f32; } // CHECK: movl {{.*}}(%ebp), %[[PTR:.*]] // CHECK: calll {{()|_}}get_f32 // CHECK-NEXT: movss %xmm0, (%[[PTR]]) *x = get_f32(); } // CHECK-LABEL: call_f64: #[no_mangle] pub unsafe fn call_f64(x: &mut f64) { extern "Rust" { fn get_f64() -> f64; } // CHECK: movl {{.*}}(%ebp), %[[PTR:.*]] // CHECK: calll {{()|_}}get_f64 // CHECK-NEXT: movlps %xmm0, (%[[PTR]]) *x = get_f64(); } // Calling functions returning scalar pairs containing floats // CHECK-LABEL: call_f32_f32: #[no_mangle] pub unsafe fn call_f32_f32(x: &mut (f32, f32)) { extern "Rust" { fn get_f32_f32() -> (f32, f32); } // CHECK: movl {{.*}}(%ebp), %[[PTR:.*]] // CHECK: calll {{()|_}}get_f32_f32 // CHECK: movss [[#%d,OFFSET:]](%ebp), %[[VAL1:.*]] // CHECK-NEXT: movss [[#%d,OFFSET+4]](%ebp), %[[VAL2:.*]] // CHECK-NEXT: movss %[[VAL1]], (%[[PTR]]) // CHECK-NEXT: movss %[[VAL2]], 4(%[[PTR]]) *x = get_f32_f32(); } // CHECK-LABEL: call_f64_f64: #[no_mangle] pub unsafe fn call_f64_f64(x: &mut (f64, f64)) { extern "Rust" { fn get_f64_f64() -> (f64, f64); } // CHECK: movl {{.*}}(%ebp), %[[PTR:.*]] // CHECK: calll {{()|_}}get_f64_f64 // linux: movsd [[#%d,OFFSET:]](%ebp), %[[VAL1:.*]] // linux-NEXT: movsd [[#%d,OFFSET+8]](%ebp), %[[VAL2:.*]] // win: movsd (%esp), %[[VAL1:.*]] // win-NEXT: movsd 8(%esp), %[[VAL2:.*]] // CHECK-NEXT: movsd %[[VAL1]], (%[[PTR]]) // CHECK-NEXT: movsd %[[VAL2]], 8(%[[PTR]]) *x = get_f64_f64(); } // CHECK-LABEL: call_f32_f64: #[no_mangle] pub unsafe fn call_f32_f64(x: &mut (f32, f64)) { extern "Rust" { fn get_f32_f64() -> (f32, f64); } // CHECK: movl {{.*}}(%ebp), %[[PTR:.*]] // CHECK: calll {{()|_}}get_f32_f64 // linux: movss [[#%d,OFFSET:]](%ebp), %[[VAL1:.*]] // linux-NEXT: movsd [[#%d,OFFSET+4]](%ebp), %[[VAL2:.*]] // win: movss (%esp), %[[VAL1:.*]] // win-NEXT: movsd 8(%esp), %[[VAL2:.*]] // CHECK-NEXT: movss %[[VAL1]], (%[[PTR]]) // linux-NEXT: movsd %[[VAL2]], 4(%[[PTR]]) // win-NEXT: movsd %[[VAL2]], 8(%[[PTR]]) *x = get_f32_f64(); } // CHECK-LABEL: call_f64_f32: #[no_mangle] pub unsafe fn call_f64_f32(x: &mut (f64, f32)) { extern "Rust" { fn get_f64_f32() -> (f64, f32); } // CHECK: movl {{.*}}(%ebp), %[[PTR:.*]] // CHECK: calll {{()|_}}get_f64_f32 // linux: movsd [[#%d,OFFSET:]](%ebp), %[[VAL1:.*]] // linux-NEXT: movss [[#%d,OFFSET+8]](%ebp), %[[VAL2:.*]] // win: movsd (%esp), %[[VAL1:.*]] // win-NEXT: movss 8(%esp), %[[VAL2:.*]] // CHECK-NEXT: movsd %[[VAL1]], (%[[PTR]]) // CHECK-NEXT: movss %[[VAL2]], 8(%[[PTR]]) *x = get_f64_f32(); } // CHECK-LABEL: call_f32_other: #[no_mangle] pub unsafe fn call_f32_other(x: &mut (f32, usize)) { extern "Rust" { fn get_f32_other() -> (f32, usize); } // CHECK: movl {{.*}}(%ebp), %[[PTR:.*]] // CHECK: calll {{()|_}}get_f32_other // CHECK: movss [[#%d,OFFSET:]](%ebp), %[[VAL1:.*]] // CHECK-NEXT: movl [[#%d,OFFSET+4]](%ebp), %[[VAL2:.*]] // CHECK-NEXT: movss %[[VAL1]], (%[[PTR]]) // CHECK-NEXT: movl %[[VAL2]], 4(%[[PTR]]) *x = get_f32_other(); } // CHECK-LABEL: call_f64_other: #[no_mangle] pub unsafe fn call_f64_other(x: &mut (f64, usize)) { extern "Rust" { fn get_f64_other() -> (f64, usize); } // CHECK: movl {{.*}}(%ebp), %[[PTR:.*]] // CHECK: calll {{()|_}}get_f64_other // linux: movsd [[#%d,OFFSET:]](%ebp), %[[VAL1:.*]] // linux-NEXT: movl [[#%d,OFFSET+8]](%ebp), %[[VAL2:.*]] // win: movsd (%esp), %[[VAL1:.*]] // win-NEXT: movl 8(%esp), %[[VAL2:.*]] // CHECK-NEXT: movsd %[[VAL1]], (%[[PTR]]) // CHECK-NEXT: movl %[[VAL2]], 8(%[[PTR]]) *x = get_f64_other(); } // CHECK-LABEL: call_other_f32: #[no_mangle] pub unsafe fn call_other_f32(x: &mut (usize, f32)) { extern "Rust" { fn get_other_f32() -> (usize, f32); } // CHECK: movl {{.*}}(%ebp), %[[PTR:.*]] // CHECK: calll {{()|_}}get_other_f32 // CHECK: movl [[#%d,OFFSET:]](%ebp), %[[VAL1:.*]] // CHECK-NEXT: movss [[#%d,OFFSET+4]](%ebp), %[[VAL2:.*]] // CHECK-NEXT: movl %[[VAL1]], (%[[PTR]]) // CHECK-NEXT: movss %[[VAL2]], 4(%[[PTR]]) *x = get_other_f32(); } // CHECK-LABEL: call_other_f64: #[no_mangle] pub unsafe fn call_other_f64(x: &mut (usize, f64)) { extern "Rust" { fn get_other_f64() -> (usize, f64); } // CHECK: movl {{.*}}(%ebp), %[[PTR:.*]] // CHECK: calll {{()|_}}get_other_f64 // linux: movl [[#%d,OFFSET:]](%ebp), %[[VAL1:.*]] // linux-NEXT: movsd [[#%d,OFFSET+4]](%ebp), %[[VAL2:.*]] // win: movl (%esp), %[[VAL1:.*]] // win-NEXT: movsd 8(%esp), %[[VAL2:.*]] // CHECK-NEXT: movl %[[VAL1]], (%[[PTR]]) // linux-NEXT: movsd %[[VAL2]], 4(%[[PTR]]) // win-NEXT: movsd %[[VAL2]], 8(%[[PTR]]) *x = get_other_f64(); } // The "C" ABI for `f16` and `f128` on x86 has never used the x87 floating point stack. Do some // basic checks to ensure this remains the case for the "Rust" ABI. // CHECK-LABEL: return_f16: #[no_mangle] pub fn return_f16(x: f16) -> f16 { // CHECK: pushl %ebp // CHECK-NEXT: movl %esp, %ebp // CHECK-NEXT: pinsrw $0, 8(%ebp), %xmm0 // CHECK-NEXT: popl %ebp // CHECK-NEXT: retl x } // CHECK-LABEL: return_f128: #[no_mangle] pub fn return_f128(x: f128) -> f128 { // CHECK: pushl %ebp // CHECK-NEXT: movl %esp, %ebp // linux-NEXT: movaps 8(%ebp), %xmm0 // win-NEXT: movups 8(%ebp), %xmm0 // CHECK-NEXT: popl %ebp // CHECK-NEXT: retl x }