; REQUIRES: asserts ; RUN: opt -S -loop-vectorize -force-vector-width=4 -force-vector-interleave=1 -enable-interleaved-mem-accesses=true -debug-only=loop-accesses < %s 2>&1 | FileCheck %s target datalayout = "e-m:e-i64:64-f80:128-n8:16:32:64-S128" ; Check that the compile-time-unknown depenendece-distance is resolved ; statically. Due to the non-unit stride of the accesses in this testcase ; we are currently not able to create runtime dependence checks, and therefore ; if we don't resolve the dependence statically we cannot vectorize the loop. ; ; Specifically in this example, during dependence analysis we get 6 unknown ; dependence distances between the 8 real/imaginary accesses below: ; dist = 8*D, 4+8*D, -4+8*D, -8*D, 4-8*D, -4-8*D. ; At compile time we can prove for all of the above that |dist|>loopBound*step ; (where the step is 8bytes, and the loopBound is D-1), and thereby conclude ; that there are no dependencies (without runtime tests): ; |8*D|>8*D-8, |4+8*D|>8*D-8, |-4+8*D|>8*D-8, etc. ; #include ; class Complex { ; private: ; float real_; ; float imaginary_; ; ; public: ; Complex() : real_(0), imaginary_(0) { } ; Complex(float real, float imaginary) : real_(real), imaginary_(imaginary) { } ; Complex(const Complex &rhs) : real_(rhs.real()), imaginary_(rhs.imaginary()) { } ; ; inline float real() const { return real_; } ; inline float imaginary() const { return imaginary_; } ; ; Complex operator+(const Complex& rhs) const ; { ; return Complex(real_ + rhs.real_, imaginary_ + rhs.imaginary_); ; } ; ; Complex operator-(const Complex& rhs) const ; { ; return Complex(real_ - rhs.real_, imaginary_ - rhs.imaginary_); ; } ; }; ; ; void Test(Complex *out, size_t size) ; { ; size_t D = size / 2; ; for (size_t offset = 0; offset < D; ++offset) ; { ; Complex t0 = out[offset]; ; Complex t1 = out[offset + D]; ; out[offset] = t1 + t0; ; out[offset + D] = t0 - t1; ; } ; } ; CHECK-LABEL: Test ; CHECK: LAA: No unsafe dependent memory operations in loop. We don't need runtime memory checks. ; CHECK: vector.body: ; CHECK: <4 x i32> %class.Complex = type { float, float } define void @Test(%class.Complex* nocapture %out, i64 %size) local_unnamed_addr { entry: %div = lshr i64 %size, 1 %cmp47 = icmp eq i64 %div, 0 br i1 %cmp47, label %for.cond.cleanup, label %for.body.preheader for.body.preheader: br label %for.body for.cond.cleanup.loopexit: br label %for.cond.cleanup for.cond.cleanup: ret void for.body: %offset.048 = phi i64 [ %inc, %for.body ], [ 0, %for.body.preheader ] %0 = getelementptr inbounds %class.Complex, %class.Complex* %out, i64 %offset.048, i32 0 %1 = load float, float* %0, align 4 %imaginary_.i.i = getelementptr inbounds %class.Complex, %class.Complex* %out, i64 %offset.048, i32 1 %2 = load float, float* %imaginary_.i.i, align 4 %add = add nuw i64 %offset.048, %div %3 = getelementptr inbounds %class.Complex, %class.Complex* %out, i64 %add, i32 0 %4 = load float, float* %3, align 4 %imaginary_.i.i28 = getelementptr inbounds %class.Complex, %class.Complex* %out, i64 %add, i32 1 %5 = load float, float* %imaginary_.i.i28, align 4 %add.i = fadd fast float %4, %1 %add4.i = fadd fast float %5, %2 store float %add.i, float* %0, align 4 store float %add4.i, float* %imaginary_.i.i, align 4 %sub.i = fsub fast float %1, %4 %sub4.i = fsub fast float %2, %5 store float %sub.i, float* %3, align 4 store float %sub4.i, float* %imaginary_.i.i28, align 4 %inc = add nuw nsw i64 %offset.048, 1 %exitcond = icmp eq i64 %inc, %div br i1 %exitcond, label %for.cond.cleanup.loopexit, label %for.body }