// RUN: rm -rf %t && mkdir %t // RUN: mkdir -p %t/ctudir2 // RUN: %clang_cc1 -triple x86_64-pc-linux-gnu \ // RUN: -emit-pch -o %t/ctudir2/ctu-other.c.ast %S/Inputs/ctu-other.c // RUN: cp %S/Inputs/ctu-other.c.externalDefMap.ast-dump.txt %t/ctudir2/externalDefMap.txt // RUN: %clang_cc1 -triple x86_64-pc-linux-gnu -fsyntax-only -std=c89 -analyze \ // RUN: -analyzer-checker=core,debug.ExprInspection \ // RUN: -analyzer-config eagerly-assume=false \ // RUN: -analyzer-config experimental-enable-naive-ctu-analysis=true \ // RUN: -analyzer-config ctu-dir=%t/ctudir2 \ // RUN: -analyzer-config ctu-phase1-inlining=none \ // RUN: -verify=newctu %s // Simulate the behavior of the previous CTU implementation by inlining all // functions during the first phase. This way, the second phase is a noop. // RUN: %clang_cc1 -triple x86_64-pc-linux-gnu -fsyntax-only -std=c89 -analyze \ // RUN: -analyzer-checker=core,debug.ExprInspection \ // RUN: -analyzer-config eagerly-assume=false \ // RUN: -analyzer-config experimental-enable-naive-ctu-analysis=true \ // RUN: -analyzer-config ctu-dir=%t/ctudir2 \ // RUN: -analyzer-config ctu-phase1-inlining=all \ // RUN: -verify=oldctu %s void clang_analyzer_eval(int); // A function that's definition is unknown both for single-tu (stu) and ctu // mode. int unknown(int); void test_unknown() { int res = unknown(6); clang_analyzer_eval(res == 6); // newctu-warning{{UNKNOWN}} // oldctu-warning@-1{{UNKNOWN}} } // Test typedef and global variable in function. typedef struct { int a; int b; } FooBar; extern FooBar fb; int f(int); void testGlobalVariable() { clang_analyzer_eval(f(5) == 1); // newctu-warning{{TRUE}} ctu // newctu-warning@-1{{UNKNOWN}} stu // oldctu-warning@-2{{TRUE}} } // Test enums. int enumCheck(void); enum A { x, y, z }; void testEnum(void) { clang_analyzer_eval(x == 0); // newctu-warning{{TRUE}} // oldctu-warning@-1{{TRUE}} clang_analyzer_eval(enumCheck() == 42); // newctu-warning{{TRUE}} ctu // newctu-warning@-1{{UNKNOWN}} stu // oldctu-warning@-2{{TRUE}} } // Test that asm import does not fail. int inlineAsm(void); int testInlineAsm(void) { return inlineAsm(); } // Test reporting error in a macro. struct S; int g(struct S *); void testMacro(void) { g(0); // newctu-warning@Inputs/ctu-other.c:29 {{Access to field 'a' results in a dereference of a null pointer (loaded from variable 'ctx')}} // oldctu-warning@Inputs/ctu-other.c:29 {{Access to field 'a' results in a dereference of a null pointer (loaded from variable 'ctx')}} } // The external function prototype is incomplete. // warning:implicit functions are prohibited by c99 void testImplicit(void) { int res = identImplicit(6); // external implicit functions are not inlined clang_analyzer_eval(res == 6); // newctu-warning{{TRUE}} ctu // newctu-warning@-1{{UNKNOWN}} stu // oldctu-warning@-2{{TRUE}} // Call something with uninitialized from the same function in which the implicit was called. // This is necessary to reproduce a special bug in NoStoreFuncVisitor. int uninitialized; h(uninitialized); // newctu-warning{{1st function call argument is an uninitialized value}} // oldctu-warning@-1{{1st function call argument is an uninitialized value}} } // Tests the import of functions that have a struct parameter // defined in its prototype. struct DataType { int a; int b; }; int structInProto(struct DataType *d); void testStructDefInArgument(void) { struct DataType d; d.a = 1; d.b = 0; // Not imported, thus remains unknown both in stu and ctu. clang_analyzer_eval(structInProto(&d) == 0); // newctu-warning{{UNKNOWN}} // oldctu-warning@-1{{UNKNOWN}} } int switchWithoutCases(int); void testSwitchStmtCrash(int x) { switchWithoutCases(x); }