// RUN: %clang_analyze_cc1 -analyzer-checker=debug.DumpCFG %s 2>&1 -fopenmp -fopenmp-version=45 | FileCheck %s // CHECK-LABEL: void xxx(int argc) void xxx(int argc) { // CHECK: [B1] // CHECK-NEXT: 1: int x; // CHECK-NEXT: 2: int cond; // CHECK-NEXT: 3: int fp; // CHECK-NEXT: 4: int rd; // CHECK-NEXT: 5: int lin; // CHECK-NEXT: 6: int step; // CHECK-NEXT: 7: int map; int x, cond, fp, rd, lin, step, map; // CHECK-NEXT: [[#ATOM:]]: x // CHECK-NEXT: [[#ATOM+1]]: [B1.[[#ATOM]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-NEXT: [[#ATOM+2]]: argc // CHECK-NEXT: [[#ATOM+3]]: [B1.[[#ATOM+2]]] = [B1.[[#ATOM+1]]] // CHECK-NEXT: [[#ATOM+4]]: #pragma omp atomic read // CHECK-NEXT: [B1.[[#ATOM+3]]]; #pragma omp atomic read argc = x; // CHECK-NEXT: [[#CRIT:]]: x // CHECK-NEXT: [[#CRIT+1]]: [B1.[[#CRIT]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-NEXT: [[#CRIT+2]]: argc // CHECK-NEXT: [[#CRIT+3]]: [B1.[[#CRIT+2]]] = [B1.[[#CRIT+1]]] // CHECK-NEXT: [[#CRIT+4]]: #pragma omp critical // CHECK-NEXT: [B1.[[#CRIT+3]]]; #pragma omp critical argc = x; // CHECK-NEXT: [[#MASTER:]]: x // CHECK-NEXT: [[#MASTER+1]]: [B1.[[#MASTER]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-NEXT: [[#MASTER+2]]: argc // CHECK-NEXT: [[#MASTER+3]]: [B1.[[#MASTER+2]]] = [B1.[[#MASTER+1]]] // CHECK-NEXT: [[#MASTER+4]]: #pragma omp master // CHECK-NEXT: [B1.[[#MASTER+3]]]; #pragma omp master argc = x; // CHECK-NEXT: [[#PAR:]]: x // CHECK-NEXT: [[#PAR+1]]: [B1.[[#PAR]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-NEXT: [[#PAR+2]]: argc // CHECK-NEXT: [[#PAR+3]]: [B1.[[#PAR+2]]] = [B1.[[#PAR+1]]] // CHECK-NEXT: [[#PAR+4]]: cond // CHECK-NEXT: [[#PAR+5]]: [B1.[[#PAR+4]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-NEXT: [[#PAR+6]]: [B1.[[#PAR+5]]] (ImplicitCastExpr, IntegralToBoolean, _Bool) // CHECK-NEXT: [[#PAR+7]]: fp // CHECK-NEXT: [[#PAR+8]]: rd // CHECK-NEXT: [[#PAR+9]]: #pragma omp parallel if(cond) firstprivate(fp) reduction(min: rd) // CHECK-NEXT: [B1.[[#PAR+3]]]; #pragma omp parallel if(cond) firstprivate(fp) reduction(min:rd) argc = x; // CHECK-NEXT: [[#PSECT:]]: x // CHECK-NEXT: [[#PSECT+1]]: [B1.[[#PSECT]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-NEXT: [[#PSECT+2]]: argc // CHECK-NEXT: [[#PSECT+3]]: [B1.[[#PSECT+2]]] = [B1.[[#PSECT+1]]] // CHECK-NEXT: [[#PSECT+4]]: cond // CHECK-NEXT: [[#PSECT+5]]: [B1.[[#PSECT+4]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-NEXT: [[#PSECT+6]]: [B1.[[#PSECT+5]]] (ImplicitCastExpr, IntegralToBoolean, _Bool) // CHECK-NEXT: [[#PSECT+7]]: fp // CHECK-NEXT: [[#PSECT+8]]: rd // CHECK-NEXT: [[#PSECT+9]]: #pragma omp parallel sections if(cond) firstprivate(fp) reduction(&&: rd) // CHECK-NEXT: { // CHECK-NEXT: [B1.[[#PSECT+3]]]; // CHECK-NEXT: } #pragma omp parallel sections if(cond) firstprivate(fp) reduction(&&:rd) { argc = x; } // CHECK-NEXT: [[#SINGLE:]]: x // CHECK-NEXT: [[#SINGLE+1]]: [B1.[[#SINGLE]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-NEXT: [[#SINGLE+2]]: argc // CHECK-NEXT: [[#SINGLE+3]]: [B1.[[#SINGLE+2]]] = [B1.[[#SINGLE+1]]] // CHECK-NEXT: [[#SINGLE+4]]: #pragma omp single // CHECK-NEXT: [B1.[[#SINGLE+3]]]; #pragma omp single argc = x; // CHECK-NEXT: [[#TARGET:]]: // CHECK-SAME: [B1.[[#TARGET+10]]] // CHECK-NEXT: [[#TARGET+1]]: [B1.[[#TARGET+10]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-NEXT: [[#TARGET+2]]: [B1.[[#TARGET+9]]] // CHECK-NEXT: [[#TARGET+3]]: [B1.[[#TARGET+9]]] = [B1.[[#TARGET+1]]] // CHECK-NEXT: [[#TARGET+4]]: cond // CHECK-NEXT: [[#TARGET+5]]: [B1.[[#TARGET+4]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-NEXT: [[#TARGET+6]]: [B1.[[#TARGET+5]]] (ImplicitCastExpr, IntegralToBoolean, _Bool) // CHECK-NEXT: [[#TARGET+7]]: fp // CHECK-NEXT: [[#TARGET+8]]: rd // CHECK-NEXT: [[#TARGET+9]]: argc // CHECK-NEXT: [[#TARGET+10]]: x // CHECK-NEXT: [[#TARGET+11]]: #pragma omp target depend(in : argc) if(cond) firstprivate(fp) reduction(-: rd) // CHECK-NEXT: [B1.[[#TARGET+3]]]; #pragma omp target depend(in \ : argc) if(cond) firstprivate(fp) reduction(-:rd) argc = x; // CHECK-NEXT: [[#TP:]]: // CHECK-SAME: [B1.[[#TP+11]]] // CHECK-NEXT: [[#TP+1]]: [B1.[[#TP+11]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-NEXT: [[#TP+2]]: [B1.[[#TP+10]]] // CHECK-NEXT: [[#TP+3]]: [B1.[[#TP+10]]] = [B1.[[#TP+1]]] // CHECK-NEXT: [[#TP+4]]: cond // CHECK-NEXT: [[#TP+5]]: [B1.[[#TP+4]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-NEXT: [[#TP+6]]: [B1.[[#TP+5]]] (ImplicitCastExpr, IntegralToBoolean, _Bool) // CHECK-NEXT: [[#TP+7]]: fp // CHECK-NEXT: [[#TP+8]]: rd // CHECK-NEXT: [[#TP+9]]: map // CHECK-NEXT: [[#TP+10]]: argc // CHECK-NEXT: [[#TP+11]]: x // CHECK-NEXT: [[#TP+12]]: #pragma omp target parallel if(cond) firstprivate(fp) reduction(+: rd) map(to: map) // CHECK-NEXT: [B1.[[#TP+3]]]; #pragma omp target parallel if(cond) firstprivate(fp) reduction(+:rd) map(to:map) argc = x; // CHECK-NEXT: [[#TT:]]: // CHECK-SAME: [B1.[[#TT+11]]] // CHECK-NEXT: [[#TT+1]]: [B1.[[#TT+11]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-NEXT: [[#TT+2]]: [B1.[[#TT+10]]] // CHECK-NEXT: [[#TT+3]]: [B1.[[#TT+10]]] = [B1.[[#TT+1]]] // CHECK-NEXT: [[#TT+4]]: cond // CHECK-NEXT: [[#TT+5]]: [B1.[[#TT+4]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-NEXT: [[#TT+6]]: [B1.[[#TT+5]]] (ImplicitCastExpr, IntegralToBoolean, _Bool) // CHECK-NEXT: [[#TT+7]]: fp // CHECK-NEXT: [[#TT+8]]: rd // CHECK-NEXT: [[#TT+9]]: map // CHECK-NEXT: [[#TT+10]]: argc // CHECK-NEXT: [[#TT+11]]: x // CHECK-NEXT: [[#TT+12]]: #pragma omp target teams if(cond) firstprivate(fp) reduction(+: rd) map(tofrom: map) // CHECK-NEXT: [B1.[[#TT+3]]]; #pragma omp target teams if(cond) firstprivate(fp) reduction(+:rd) map(tofrom:map) argc = x; // CHECK-NEXT: [[#TU:]]: cond // CHECK-NEXT: [[#TU+1]]: [B1.[[#TU]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-NEXT: [[#TU+2]]: [B1.[[#TU+1]]] (ImplicitCastExpr, IntegralToBoolean, _Bool) // CHECK-NEXT: [[#TU+3]]: #pragma omp target update to(x) if(target update: cond) #pragma omp target update to(x) if(target update:cond) // CHECK-NEXT: [[#TASK:]]: // CHECK-SAME: [B1.[[#TASK+9]]] // CHECK-NEXT: [[#TASK+1]]: [B1.[[#TASK+9]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-NEXT: [[#TASK+2]]: [B1.[[#TASK+8]]] // CHECK-NEXT: [[#TASK+3]]: [B1.[[#TASK+8]]] = [B1.[[#TASK+1]]] // CHECK-NEXT: [[#TASK+4]]: cond // CHECK-NEXT: [[#TASK+5]]: [B1.[[#TASK+4]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-NEXT: [[#TASK+6]]: [B1.[[#TASK+5]]] (ImplicitCastExpr, IntegralToBoolean, _Bool) // CHECK-NEXT: [[#TASK+7]]: fp // CHECK-NEXT: [[#TASK+8]]: argc // CHECK-NEXT: [[#TASK+9]]: x // CHECK-NEXT: [[#TASK+10]]: #pragma omp task if(cond) firstprivate(fp) // CHECK-NEXT: [B1.[[#TASK+3]]]; #pragma omp task if(cond) firstprivate(fp) argc = x; // CHECK-NEXT: [[#TG:]]: x // CHECK-NEXT: [[#TG+1]]: [B1.[[#TG]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-NEXT: [[#TG+2]]: argc // CHECK-NEXT: [[#TG+3]]: [B1.[[#TG+2]]] = [B1.[[#TG+1]]] // CHECK-NEXT: [[#TG+4]]: #pragma omp taskgroup // CHECK-NEXT: [B1.[[#TG+3]]]; #pragma omp taskgroup argc = x; // CHECK-NEXT: [[#TEAMS:]]: x // CHECK-NEXT: [[#TEAMS+1]]: [B1.[[#TEAMS]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-NEXT: [[#TEAMS+2]]: argc // CHECK-NEXT: [[#TEAMS+3]]: [B1.[[#TEAMS+2]]] = [B1.[[#TEAMS+1]]] // CHECK-NEXT: [[#TEAMS+4]]: [B1.[[#TEAMS+7]]] // CHECK-NEXT: [[#TEAMS+5]]: [B1.[[#TEAMS+8]]] // CHECK-NEXT: [[#TEAMS+6]]: #pragma omp teams firstprivate(fp) reduction(+: rd) // CHECK-NEXT: [B1.[[#TEAMS+3]]]; // CHECK-NEXT: [[#TEAMS+7]]: fp // CHECK-NEXT: [[#TEAMS+8]]: rd // CHECK-NEXT: [[#TEAMS+9]]: argc // CHECK-NEXT: [[#TEAMS+10]]: x // CHECK-NEXT: [[#TEAMS+11]]: #pragma omp target #pragma omp target #pragma omp teams firstprivate(fp) reduction(+:rd) argc = x; // CHECK-NEXT: [B1.[[#TEAMS+6]]] Preds } // CHECK-LABEL: void dpf(int argc) void dpf(int argc) { int x, cond, fp, rd, lin, step, map; // CHECK-DAG: [B3] // CHECK-DAG: [[#DPFB:]]: x // CHECK-DAG: [[#DPFB+1]]: [B3.[[#DPFB]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#DPFB+2]]: argc // CHECK-DAG: [[#DPFB+3]]: [B3.[[#DPFB+2]]] = [B3.[[#DPFB+1]]] // CHECK-DAG: [B1] // CHECK-DAG: [[#DPF:]]: cond // CHECK-DAG: [[#DPF+1]]: [B1.[[#DPF]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#DPF+2]]: [B1.[[#DPF+1]]] (ImplicitCastExpr, IntegralToBoolean, _Bool) // CHECK-DAG: [[#DPF+3]]: fp // CHECK-DAG: [[#DPF+4]]: rd // CHECK-DAG: [[#DPF+5]]: #pragma omp distribute parallel for if(parallel: cond) firstprivate(fp) reduction(+: rd) // CHECK-DAG: for (int i = 0; // CHECK-DAG: [B3.[[#DPFB+3]]]; #pragma omp distribute parallel for if(parallel:cond) firstprivate(fp) reduction(+:rd) for (int i = 0; i < 10; ++i) argc = x; } // CHECK-LABEL: void dpfs(int argc) void dpfs(int argc) { int x, cond, fp, rd, lin, step, map; // CHECK-DAG: [B3] // CHECK-DAG: [[#DPFSB:]]: x // CHECK-DAG: [[#DPFSB+1]]: [B3.[[#DPFSB]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#DPFSB+2]]: argc // CHECK-DAG: [[#DPFSB+3]]: [B3.[[#DPFSB+2]]] = [B3.[[#DPFSB+1]]] // CHECK-DAG: [B1] // CHECK-DAG: [[#DPFS:]]: cond // CHECK-DAG: [[#DPFS+1]]: [B1.[[#DPFS]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#DPFS+2]]: [B1.[[#DPFS+1]]] (ImplicitCastExpr, IntegralToBoolean, _Bool) // CHECK-DAG: [[#DPFS+3]]: fp // CHECK-DAG: [[#DPFS+4]]: rd // CHECK-DAG: [[#DPFS+5]]: #pragma omp distribute parallel for simd if(cond) firstprivate(fp) reduction(-: rd) // CHECK-DAG: for (int i = 0; // CHECK-DAG: [B3.[[#DPFSB+3]]]; #pragma omp distribute parallel for simd if(cond) firstprivate(fp) reduction(-:rd) for (int i = 0; i < 10; ++i) argc = x; } // CHECK-LABEL: void ds(int argc) void ds(int argc) { int x, cond, fp, rd, lin, step, map; // CHECK-DAG: [B3] // CHECK-DAG: [[#DSB:]]: x // CHECK-DAG: [[#DSB+1]]: [B3.[[#DSB]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#DSB+2]]: argc // CHECK-DAG: [[#DSB+3]]: [B3.[[#DSB+2]]] = [B3.[[#DSB+1]]] // CHECK-DAG: [B1] // CHECK-DAG: [[#DS:]]: #pragma omp distribute simd // CHECK-DAG: for (int i = 0; // CHECK-DAG: [B3.[[#DSB+3]]]; #pragma omp distribute simd for (int i = 0; i < 10; ++i) argc = x; } // CHECK-LABEL: void for_fn(int argc) void for_fn(int argc) { int x, cond, fp, rd, lin, step, map; // CHECK-DAG: [B3] // CHECK-DAG: [[#FORB:]]: x // CHECK-DAG: [[#FORB+1]]: [B3.[[#FORB]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#FORB+2]]: argc // CHECK-DAG: [[#FORB+3]]: [B3.[[#FORB+2]]] = [B3.[[#FORB+1]]] // CHECK-DAG: [B1] // CHECK-DAG: [[#FOR:]]: lin // CHECK-DAG: [[#FOR+1]]: step // CHECK-DAG: [[#FOR+2]]: [B1.[[#FOR+1]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#FOR+3]]: #pragma omp for linear(lin: step) // CHECK-DAG: for (int i = 0; // CHECK-DAG: [B3.[[#FORB+3]]]; #pragma omp for linear(lin : step) for (int i = 0; i < 10; ++i) argc = x; } // CHECK-LABEL: void fs(int argc) void fs(int argc) { int x, cond, fp, rd, lin, step, map; // CHECK-DAG: [B3] // CHECK-DAG: [[#FSB:]]: x // CHECK-DAG: [[#FSB+1]]: [B3.[[#FSB]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#FSB+2]]: argc // CHECK-DAG: [[#FSB+3]]: [B3.[[#FSB+2]]] = [B3.[[#FSB+1]]] // CHECK-DAG: [B1] // CHECK-DAG: [[#FS:]]: lin // CHECK-DAG: [[#FS+1]]: step // CHECK-DAG: [[#FS+2]]: [B1.[[#FS+1]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#FS+3]]: #pragma omp for simd linear(lin: step) // CHECK-DAG: for (int i = 0; // CHECK-DAG: [B3.[[#FSB+3]]]; #pragma omp for simd linear(lin: step) for (int i = 0; i < 10; ++i) argc = x; } // CHECK-LABEL: void ord(int argc) void ord(int argc) { int x, cond, fp, rd, lin, step, map; // CHECK-DAG: [B3] // CHECK-DAG: [[#ORDB:]]: x // CHECK-DAG: [[#ORDB+1]]: [B3.[[#ORDB]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#ORDB+2]]: argc // CHECK-DAG: [[#ORDB+3]]: [B3.[[#ORDB+2]]] = [B3.[[#ORDB+1]]] // CHECK-DAG: [[#ORDB+4]]: #pragma omp ordered // CHECK-DAG: [B3.[[#ORDB+3]]]; // CHECK-DAG: [B1] // CHECK-DAG: [[#ORD:]]: #pragma omp for ordered // CHECK-DAG: for (int i = 0 // CHECK-DAG:[B3.[[#ORDB+4]]] } #pragma omp for ordered for (int i = 0; i < 10; ++i) { #pragma omp ordered argc = x; } } // CHECK-LABEL: void pf(int argc) void pf(int argc) { int x, cond, fp, rd, lin, step, map; // CHECK-DAG: [B3] // CHECK-DAG: [[#PFB:]]: x // CHECK-DAG: [[#PFB+1]]: [B3.[[#PFB]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#PFB+2]]: argc // CHECK-DAG: [[#PFB+3]]: [B3.[[#PFB+2]]] = [B3.[[#PFB+1]]] // CHECK-DAG: [B1] // CHECK-DAG: [[#PF:]]: cond // CHECK-DAG: [[#PF+1]]: [B1.[[#PF]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#PF+2]]: [B1.[[#PF+1]]] (ImplicitCastExpr, IntegralToBoolean, _Bool) // CHECK-DAG: [[#PF+3]]: fp // CHECK-DAG: [[#PF+4]]: rd // CHECK-DAG: [[#PF+5]]: lin // CHECK-DAG: [[#PF+6]]: step // CHECK-DAG: [[#PF+7]]: [B1.[[#PF+6]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#PF+8]]: #pragma omp parallel for if(cond) firstprivate(fp) reduction(&: rd) linear(lin: step) // CHECK-DAG: for (int i = 0; // CHECK-DAG: [B3.[[#PFB+3]]]; #pragma omp parallel for if(cond) firstprivate(fp) reduction(&:rd) linear(lin: step) for (int i = 0; i < 10; ++i) argc = x; } // CHECK-LABEL: void pfs(int argc) void pfs(int argc) { int x, cond, fp, rd, lin, step, map; // CHECK-DAG: [B3] // CHECK-DAG: [[#PFSB:]]: x // CHECK-DAG: [[#PFSB+1]]: [B3.[[#PFSB]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#PFSB+2]]: argc // CHECK-DAG: [[#PFSB+3]]: [B3.[[#PFSB+2]]] = [B3.[[#PFSB+1]]] // CHECK-DAG: [B1] // CHECK-DAG: [[#PFS:]]: cond // CHECK-DAG: [[#PFS+1]]: [B1.[[#PFS]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#PFS+2]]: [B1.[[#PFS+1]]] (ImplicitCastExpr, IntegralToBoolean, _Bool) // CHECK-DAG: [[#PFS+3]]: fp // CHECK-DAG: [[#PFS+4]]: rd // CHECK-DAG: [[#PFS+5]]: lin // CHECK-DAG: [[#PFS+6]]: step // CHECK-DAG: [[#PFS+7]]: [B1.[[#PFS+6]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#PFS+8]]: #pragma omp parallel for simd if(cond) firstprivate(fp) reduction(|: rd) linear(lin: step) // CHECK-DAG: for (int i = 0; // CHECK-DAG: [B3.[[#PFSB+3]]]; #pragma omp parallel for simd if(cond) firstprivate(fp) reduction(|:rd) linear(lin: step) for (int i = 0; i < 10; ++i) argc = x; } // CHECK-LABEL: void simd(int argc) void simd(int argc) { int x, cond, fp, rd, lin, step, map; // CHECK-DAG: [B3] // CHECK-DAG: [[#SIMDB:]]: x // CHECK-DAG: [[#SIMDB+1]]: [B3.[[#SIMDB]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#SIMDB+2]]: argc // CHECK-DAG: [[#SIMDB+3]]: [B3.[[#SIMDB+2]]] = [B3.[[#SIMDB+1]]] // CHECK-DAG: [B1] // CHECK-DAG: [[#SIMD:]]: lin // CHECK-DAG: [[#SIMD+1]]: step // CHECK-DAG: [[#SIMD+2]]: [B1.[[#SIMD+1]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#SIMD+3]]: #pragma omp simd linear(lin: step) // CHECK-DAG: for (int i = 0; // CHECK-DAG: [B3.[[#SIMDB+3]]]; #pragma omp simd linear(lin: step) for (int i = 0; i < 10; ++i) argc = x; } // CHECK-LABEL: void tpf(int argc) void tpf(int argc) { int x, cond, fp, rd, lin, step, map; // CHECK-DAG: [B3] // CHECK-DAG: [[#TPFB:]]: x // CHECK-DAG: [[#TPFB+1]]: [B3.[[#TPFB]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#TPFB+2]]: argc // CHECK-DAG: [[#TPFB+3]]: [B3.[[#TPFB+2]]] = [B3.[[#TPFB+1]]] // CHECK-DAG: [B1] // CHECK-DAG: [[#TPF:]]: cond // CHECK-DAG: [[#TPF+1]]: [B1.[[#TPF]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#TPF+2]]: [B1.[[#TPF+1]]] (ImplicitCastExpr, IntegralToBoolean, _Bool) // CHECK-DAG: [[#TPF+3]]: fp // CHECK-DAG: [[#TPF+4]]: rd // CHECK-DAG: [[#TPF+5]]: lin // CHECK-DAG: [[#TPF+6]]: step // CHECK-DAG: [[#TPF+7]]: [B1.[[#TPF+6]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#TPF+8]]: map // CHECK-DAG: [[#TPF+9]]: [B3.[[#TPFB+2]]] // CHECK-DAG: [[#TPF+10]]: [B3.[[#TPFB]]] // CHECK-DAG: [[#TPF+11]]: #pragma omp target parallel for if(parallel: cond) firstprivate(fp) reduction(max: rd) linear(lin: step) map(tofrom: map) // CHECK-DAG: for (int i = 0; // CHECK-DAG: [B3.[[#TPFB+3]]]; #pragma omp target parallel for if(parallel:cond) firstprivate(fp) reduction(max:rd) linear(lin: step) map(map) for (int i = 0; i < 10; ++i) argc = x; } // CHECK-LABEL: void tpfs(int argc) void tpfs(int argc) { int x, cond, fp, rd, lin, step, map; // CHECK-DAG: [B3] // CHECK-DAG: [[#TPFSB:]]: x // CHECK-DAG: [[#TPFSB+1]]: [B3.[[#TPFSB]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#TPFSB+2]]: argc // CHECK-DAG: [[#TPFSB+3]]: [B3.[[#TPFSB+2]]] = [B3.[[#TPFSB+1]]] // CHECK-DAG: [B1] // CHECK-DAG: [[#TPFS:]]: cond // CHECK-DAG: [[#TPFS+1]]: [B1.[[#TPFS]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#TPFS+2]]: [B1.[[#TPFS+1]]] (ImplicitCastExpr, IntegralToBoolean, _Bool) // CHECK-DAG: [[#TPFS+3]]: fp // CHECK-DAG: [[#TPFS+4]]: rd // CHECK-DAG: [[#TPFS+5]]: lin // CHECK-DAG: [[#TPFS+6]]: step // CHECK-DAG: [[#TPFS+7]]: [B1.[[#TPFS+6]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#TPFS+8]]: map // CHECK-DAG: [[#TPFS+9]]: [B3.[[#TPFSB+2]]] // CHECK-DAG: [[#TPFS+10]]: [B3.[[#TPFSB]]] // CHECK-DAG: [[#TPFS+11]]: #pragma omp target parallel for simd if(target: cond) firstprivate(fp) reduction(*: rd) linear(lin: step) map(tofrom: map) // CHECK-DAG: for (int i = 0; // CHECK-DAG: [B3.[[#TPFSB+3]]]; #pragma omp target parallel for simd if(target:cond) firstprivate(fp) reduction(*:rd) linear(lin: step) map(tofrom:map) for (int i = 0; i < 10; ++i) argc = x; } // CHECK-LABEL: void ts(int argc) void ts(int argc) { int x, cond, fp, rd, lin, step, map; // CHECK-DAG: [B3] // CHECK-DAG: [[#TSB:]]: x // CHECK-DAG: [[#TSB+1]]: [B3.[[#TSB]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#TSB+2]]: argc // CHECK-DAG: [[#TSB+3]]: [B3.[[#TSB+2]]] = [B3.[[#TSB+1]]] // CHECK-DAG: [B1] // CHECK-DAG: [[#TS:]]: cond // CHECK-DAG: [[#TS+1]]: [B1.[[#TS]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#TS+2]]: [B1.[[#TS+1]]] (ImplicitCastExpr, IntegralToBoolean, _Bool) // CHECK-DAG: [[#TS+3]]: fp // CHECK-DAG: [[#TS+4]]: rd // CHECK-DAG: [[#TS+5]]: lin // CHECK-DAG: [[#TS+6]]: step // CHECK-DAG: [[#TS+7]]: [B1.[[#TS+6]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#TS+8]]: [B3.[[#TSB+2]]] // CHECK-DAG: [[#TS+9]]: [B3.[[#TSB]]] // CHECK-DAG: [[#TS+10]]: #pragma omp target simd if(cond) firstprivate(fp) reduction(+: rd) linear(lin: step) map(alloc: map) // CHECK-DAG: for (int i = 0; // CHECK-DAG: [B3.[[#TSB+3]]]; #pragma omp target simd if(cond) firstprivate(fp) reduction(+:rd) linear(lin: step) map(alloc:map) for (int i = 0; i < 10; ++i) argc = x; } // CHECK-LABEL: void ttd(int argc) void ttd(int argc) { int x, cond, fp, rd, lin, step, map; // CHECK-DAG: [B3] // CHECK-DAG: [[#TTDB:]]: x // CHECK-DAG: [[#TTDB+1]]: [B3.[[#TTDB]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#TTDB+2]]: argc // CHECK-DAG: [[#TTDB+3]]: [B3.[[#TTDB+2]]] = [B3.[[#TTDB+1]]] // CHECK-DAG: [B1] // CHECK-DAG: [[#TTD:]]: cond // CHECK-DAG: [[#TTD+1]]: [B1.[[#TTD]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#TTD+2]]: [B1.[[#TTD+1]]] (ImplicitCastExpr, IntegralToBoolean, _Bool) // CHECK-DAG: [[#TTD+3]]: fp // CHECK-DAG: [[#TTD+4]]: rd // CHECK-DAG: [[#TTD+5]]: [B3.[[#TTDB+2]]] // CHECK-DAG: [[#TTD+6]]: [B3.[[#TTDB]]] // CHECK-DAG: [[#TTD+7]]: #pragma omp target teams distribute if(cond) firstprivate(fp) reduction(+: rd) map(alloc: map) // CHECK-DAG: for (int i = 0; // CHECK-DAG: [B3.[[#TTDB+3]]]; #pragma omp target teams distribute if(cond) firstprivate(fp) reduction(+:rd) map(alloc:map) for (int i = 0; i < 10; ++i) argc = x; } // CHECK-LABEL: void ttdpf(int argc) void ttdpf(int argc) { int x, cond, fp, rd, lin, step, map; // CHECK-DAG: [B3] // CHECK-DAG: [[#TTDPFB:]]: x // CHECK-DAG: [[#TTDPFB+1]]: [B3.[[#TTDPFB]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#TTDPFB+2]]: argc // CHECK-DAG: [[#TTDPFB+3]]: [B3.[[#TTDPFB+2]]] = [B3.[[#TTDPFB+1]]] // CHECK-DAG: [B1] // CHECK-DAG: [[#TTDPF:]]: cond // CHECK-DAG: [[#TTDPF+1]]: [B1.[[#TTDPF]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#TTDPF+2]]: [B1.[[#TTDPF+1]]] (ImplicitCastExpr, IntegralToBoolean, _Bool) // CHECK-DAG: [[#TTDPF+3]]: fp // CHECK-DAG: [[#TTDPF+4]]: rd // CHECK-DAG: [[#TTDPF+5]]: [B3.[[#TTDPFB+2]]] // CHECK-DAG: [[#TTDPF+6]]: [B3.[[#TTDPFB]]] // CHECK-DAG: [[#TTDPF+7]]: #pragma omp target teams distribute parallel for if(cond) firstprivate(fp) reduction(+: rd) map(alloc: map) // CHECK-DAG: for (int i = 0; // CHECK-DAG: [B3.[[#TTDPFB+3]]]; #pragma omp target teams distribute parallel for if(cond) firstprivate(fp) reduction(+:rd) map(alloc:map) for (int i = 0; i < 10; ++i) argc = x; } // CHECK-LABEL: void ttdpfs(int argc) void ttdpfs(int argc) { int x, cond, fp, rd, lin, step, map; // CHECK-DAG: [B3] // CHECK-DAG: [[#TTDPFSB:]]: x // CHECK-DAG: [[#TTDPFSB+1]]: [B3.[[#TTDPFSB]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#TTDPFSB+2]]: argc // CHECK-DAG: [[#TTDPFSB+3]]: [B3.[[#TTDPFSB+2]]] = [B3.[[#TTDPFSB+1]]] // CHECK-DAG: [B1] // CHECK-DAG: [[#TTDPFS:]]: cond // CHECK-DAG: [[#TTDPFS+1]]: [B1.[[#TTDPFS]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#TTDPFS+2]]: [B1.[[#TTDPFS+1]]] (ImplicitCastExpr, IntegralToBoolean, _Bool) // CHECK-DAG: [[#TTDPFS+3]]: fp // CHECK-DAG: [[#TTDPFS+4]]: rd // CHECK-DAG: [[#TTDPFS+5]]: [B3.[[#TTDPFSB+2]]] // CHECK-DAG: [[#TTDPFS+6]]: [B3.[[#TTDPFSB]]] // CHECK-DAG: [[#TTDPFS+7]]: #pragma omp target teams distribute parallel for simd if(parallel: cond) firstprivate(fp) reduction(+: rd) map(from: map) // CHECK-DAG: for (int i = 0; // CHECK-DAG: [B3.[[#TTDPFSB+3]]]; #pragma omp target teams distribute parallel for simd if(parallel:cond) firstprivate(fp) reduction(+:rd) map(from:map) for (int i = 0; i < 10; ++i) argc = x; } // CHECK-LABEL: void ttds(int argc) void ttds(int argc) { int x, cond, fp, rd, lin, step, map; // CHECK-DAG: [B3] // CHECK-DAG: [[#TTDSB:]]: x // CHECK-DAG: [[#TTDSB+1]]: [B3.[[#TTDSB]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#TTDSB+2]]: argc // CHECK-DAG: [[#TTDSB+3]]: [B3.[[#TTDSB+2]]] = [B3.[[#TTDSB+1]]] // CHECK-DAG: [B1] // CHECK-DAG: [[#TTDS:]]: cond // CHECK-DAG: [[#TTDS+1]]: [B1.[[#TTDS]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#TTDS+2]]: [B1.[[#TTDS+1]]] (ImplicitCastExpr, IntegralToBoolean, _Bool) // CHECK-DAG: [[#TTDS+3]]: fp // CHECK-DAG: [[#TTDS+4]]: rd // CHECK-DAG: [[#TTDS+5]]: map // CHECK-DAG: [[#TTDS+6]]: [B3.[[#TTDSB+2]]] // CHECK-DAG: [[#TTDS+7]]: [B3.[[#TTDSB]]] // CHECK-DAG: [[#TTDS+8]]: #pragma omp target teams distribute simd if(cond) firstprivate(fp) reduction(+: rd) map(tofrom: map) // CHECK-DAG: for (int i = 0; // CHECK-DAG: [B3.[[#TTDPFSB+3]]]; #pragma omp target teams distribute simd if(cond) firstprivate(fp) reduction(+:rd) map(map) for (int i = 0; i < 10; ++i) argc = x; } // CHECK-LABEL: void tl(int argc) void tl(int argc) { int x, cond, fp, rd, lin, step, map; // CHECK-DAG: [B3] // CHECK-DAG: [[#TLB:]]: x // CHECK-DAG: [[#TLB+1]]: [B3.[[#TLB]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#TLB+2]]: argc // CHECK-DAG: [[#TLB+3]]: [B3.[[#TLB+2]]] = [B3.[[#TLB+1]]] // CHECK-DAG: [B1] // CHECK-DAG: [[#TL:]]: cond // CHECK-DAG: [[#TL+1]]: [B1.[[#TL]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#TL+2]]: [B1.[[#TL+1]]] (ImplicitCastExpr, IntegralToBoolean, _Bool) // CHECK-DAG: [[#TL+3]]: fp // CHECK-DAG: [[#TL+4]]: rd // CHECK-DAG: [[#TL+5]]: [B3.[[#TLB+2]]] // CHECK-DAG: [[#TL+6]]: [B3.[[#TLB]]] // CHECK-DAG: [[#TL+7]]: #pragma omp taskloop if(cond) firstprivate(fp) reduction(+: rd) // CHECK-DAG: for (int i = 0; // CHECK-DAG: [B3.[[#TLB+3]]]; #pragma omp taskloop if(cond) firstprivate(fp) reduction(+:rd) for (int i = 0; i < 10; ++i) argc = x; } // CHECK-LABEL: void tls(int argc) void tls(int argc) { int x, cond, fp, rd, lin, step, map; // CHECK-DAG: [B3] // CHECK-DAG: [[#TLSB:]]: x // CHECK-DAG: [[#TLSB+1]]: [B3.[[#TLSB]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#TLSB+2]]: argc // CHECK-DAG: [[#TLSB+3]]: [B3.[[#TLSB+2]]] = [B3.[[#TLSB+1]]] // CHECK-DAG: [B1] // CHECK-DAG: [[#TLS:]]: cond // CHECK-DAG: [[#TLS+1]]: [B1.[[#TLS]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#TLS+2]]: [B1.[[#TLS+1]]] (ImplicitCastExpr, IntegralToBoolean, _Bool) // CHECK-DAG: [[#TLS+3]]: fp // CHECK-DAG: [[#TLS+4]]: rd // CHECK-DAG: [[#TLS+5]]: lin // CHECK-DAG: [[#TLS+6]]: step // CHECK-DAG: [[#TLS+7]]: [B1.[[#TLS+6]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#TLS+8]]: [B3.[[#TLSB+2]]] // CHECK-DAG: [[#TLS+9]]: [B3.[[#TLSB]]] // CHECK-DAG: [[#TLS+10]]: #pragma omp taskloop simd if(cond) firstprivate(fp) reduction(+: rd) linear(lin: step) // CHECK-DAG: for (int i = 0; // CHECK-DAG: [B3.[[#TLSB+3]]]; #pragma omp taskloop simd if(cond) firstprivate(fp) reduction(+:rd) linear(lin: step) for (int i = 0; i < 10; ++i) argc = x; } // CHECK-LABEL: void tdpf(int argc) void tdpf(int argc) { int x, cond, fp, rd, lin, step, map; // CHECK-DAG: [B1] // CHECK-DAG: [[#TDPF:]]: cond // CHECK-DAG: [[#TDPF+1]]: [B1.[[#TDPF]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#TDPF+2]]: [B1.[[#TDPF+1]]] (ImplicitCastExpr, IntegralToBoolean, _Bool) // CHECK-DAG: [[#TDPF+3]]: [B1.[[#TDPF+6]]] // CHECK-DAG: [[#TDPF+4]]: [B1.[[#TDPF+7]]] // CHECK-DAG: [[#TDPF+5]]: #pragma omp teams distribute parallel for if(cond) firstprivate(fp) reduction(+: rd) // CHECK-DAG: for (int i = 0; // CHECK-DAG: [B3.[[#TDPFB:]]]; // CHECK-DAG: [[#TDPF+6]]: fp // CHECK-DAG: [[#TDPF+7]]: rd // CHECK-DAG: [[#TDPF+8]]: argc // CHECK-DAG: [[#TDPF+9]]: x // CHECK-DAG: [[#TDPF+10]]: cond // CHECK-DAG: [[#TDPF+11]]: #pragma omp target // CHECK-DAG: [B3] // CHECK-DAG: [[#TDPFB-3]]: x // CHECK-DAG: [[#TDPFB-2]]: [B3.[[#TDPFB-3]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#TDPFB-1]]: argc // CHECK-DAG: [[#TDPFB]]: [B3.[[#TDPFB-1]]] = [B3.[[#TDPFB-2]]] #pragma omp target #pragma omp teams distribute parallel for if(cond) firstprivate(fp) reduction(+:rd) for (int i = 0; i < 10; ++i) argc = x; } // CHECK-LABEL: void tdpfs(int argc) void tdpfs(int argc) { int x, cond, fp, rd, lin, step, map; // CHECK-DAG: [B1] // CHECK-DAG: [[#TDPFS:]]: cond // CHECK-DAG: [[#TDPFS+1]]: [B1.[[#TDPFS]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#TDPFS+2]]: [B1.[[#TDPFS+1]]] (ImplicitCastExpr, IntegralToBoolean, _Bool) // CHECK-DAG: [[#TDPFS+3]]: [B1.[[#TDPFS+6]]] // CHECK-DAG: [[#TDPFS+4]]: [B1.[[#TDPFS+7]]] // CHECK-DAG: [[#TDPFS+5]]: #pragma omp teams distribute parallel for simd if(cond) firstprivate(fp) reduction(+: rd) // CHECK-DAG: for (int i = 0; // CHECK-DAG: [B3.[[#TDPFSB:]]]; // CHECK-DAG: [[#TDPFS+6]]: fp // CHECK-DAG: [[#TDPFS+7]]: rd // CHECK-DAG: [[#TDPFS+8]]: argc // CHECK-DAG: [[#TDPFS+9]]: x // CHECK-DAG: [[#TDPFS+10]]: cond // CHECK-DAG: [[#TDPFS+11]]: #pragma omp target // CHECK-DAG: [B3] // CHECK-DAG: [[#TDPFSB-3]]: x // CHECK-DAG: [[#TDPFSB-2]]: [B3.[[#TDPFSB-3]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#TDPFSB-1]]: argc // CHECK-DAG: [[#TDPFSB]]: [B3.[[#TDPFSB-1]]] = [B3.[[#TDPFSB-2]]] #pragma omp target #pragma omp teams distribute parallel for simd if(cond) firstprivate(fp) reduction(+:rd) for (int i = 0; i < 10; ++i) argc = x; } // CHECK-LABEL: void tds(int argc) void tds(int argc) { int x, cond, fp, rd, lin, step, map; // CHECK-DAG: [B1] // CHECK-DAG: [[#TDS:]]: #pragma omp teams distribute simd firstprivate(fp) reduction(+: rd) // CHECK-DAG: [[#TDS-2]]: [B1.[[#TDS+1]]] // CHECK-DAG: [[#TDS-1]]: [B1.[[#TDS+2]]] // CHECK-DAG: for (int i = 0; // CHECK-DAG: [B3.[[#TDSB:]]]; // CHECK-DAG: [[#TDS+1]]: fp // CHECK-DAG: [[#TDS+2]]: rd // CHECK-DAG: [[#TDS+3]]: argc // CHECK-DAG: [[#TDS+4]]: x // CHECK-DAG: [[#TDS+5]]: #pragma omp target // CHECK-DAG: [B3] // CHECK-DAG: [[#TDSB-3]]: x // CHECK-DAG: [[#TDSB-2]]: [B3.[[#TDSB-3]]] (ImplicitCastExpr, LValueToRValue, int) // CHECK-DAG: [[#TDSB-1]]: argc // CHECK-DAG: [[#TDSB]]: [B3.[[#TDSB-1]]] = [B3.[[#TDSB-2]]] #pragma omp target #pragma omp teams distribute simd firstprivate(fp) reduction(+:rd) for (int i = 0; i < 10; ++i) argc = x; }