// RUN: %clang_pgogen -mllvm -pgo-function-entry-coverage %s -o %t.out // RUN: env LLVM_PROFILE_FILE=%t.profraw %run %t.out // RUN: llvm-profdata merge -o %t.profdata %t.profraw // RUN: llvm-profdata show --covered %t.profdata | FileCheck %s --implicit-check-not goo // We deliberately merge the raw profile twice to test that internal counts can // grow larger than one. Technically, accumulating coverage values is different // than accumulating counts, but this helps discriminate cold functions from hot // functions when the number of raw profiles is large. // RUN: llvm-profdata merge -o %t2.profdata %t.profraw %t.profraw // RUN: llvm-profdata show %t2.profdata | FileCheck %s --check-prefix=COUNTS // RUN: %clang_cspgogen -O1 -mllvm -pgo-function-entry-coverage %s -o %t.cs.out // RUN: env LLVM_PROFILE_FILE=%t.csprofraw %run %t.cs.out // RUN: llvm-profdata merge -o %t.csprofdata %t.csprofraw // RUN: llvm-profdata show --covered %t.csprofdata --showcs | FileCheck %s --implicit-check-not goo // RUN: llvm-profdata merge -o %t2.csprofdata %t.csprofraw %t.csprofraw // RUN: llvm-profdata show --showcs %t2.csprofdata | FileCheck %s --check-prefix=COUNTS void markUsed(int a) { volatile int g; g = a; } __attribute__((noinline)) int foo(int i) { return 4 * i + 1; } __attribute__((noinline)) int bar(int i) { return 4 * i + 2; } __attribute__((noinline)) int goo(int i) { return 4 * i + 3; } int main(int argc, char *argv[]) { markUsed(foo(5)); markUsed(argc ? bar(6) : goo(7)); return 0; } // CHECK-DAG: main // CHECK-DAG: foo // CHECK-DAG: bar // COUNTS: Maximum function count: 2