// RUN: %clang_analyze_cc1 -analyzer-store=region -analyzer-checker=core,unix.Malloc,debug.ExprInspection -analyzer-output=text -verify %s typedef unsigned int NSUInteger; typedef __typeof__(sizeof(int)) size_t; void *malloc(size_t); void *calloc(size_t nmemb, size_t size); void free(void *); void clang_analyzer_eval(int); struct s { int data; }; struct s global; void g(int); void f4() { int a; if (global.data == 0) a = 3; if (global.data == 0) // When the true branch is feasible 'a = 3'. g(a); // no-warning } // Test uninitialized value due to part of the structure being uninitialized. struct TestUninit { int x; int y; }; struct TestUninit test_uninit_aux(); void test_unit_aux2(int); void test_uninit_pos() { struct TestUninit v1 = { 0, 0 }; struct TestUninit v2 = test_uninit_aux(); int z; // expected-note{{'z' declared without an initial value}} v1.y = z; // expected-warning{{Assigned value is garbage or undefined}} // expected-note@-1{{Assigned value is garbage or undefined}} test_unit_aux2(v2.x + v1.y); } void test_uninit_pos_2() { struct TestUninit v1 = { 0, 0 }; struct TestUninit v2; test_unit_aux2(v2.x + v1.y); // expected-warning{{The left operand of '+' is a garbage value}} // expected-note@-1{{The left operand of '+' is a garbage value}} } void test_uninit_pos_3() { struct TestUninit v1 = { 0, 0 }; struct TestUninit v2; test_unit_aux2(v1.y + v2.x); // expected-warning{{The right operand of '+' is a garbage value}} // expected-note@-1{{The right operand of '+' is a garbage value}} } void test_uninit_neg() { struct TestUninit v1 = { 0, 0 }; struct TestUninit v2 = test_uninit_aux(); test_unit_aux2(v2.x + v1.y); } extern void test_uninit_struct_arg_aux(struct TestUninit arg); void test_uninit_struct_arg() { struct TestUninit x; // expected-note{{'x' initialized here}} test_uninit_struct_arg_aux(x); // expected-warning{{Passed-by-value struct argument contains uninitialized data (e.g., field: 'x')}} // expected-note@-1{{Passed-by-value struct argument contains uninitialized data (e.g., field: 'x')}} } @interface Foo - (void) passVal:(struct TestUninit)arg; @end void testFoo(Foo *o) { struct TestUninit x; // expected-note{{'x' initialized here}} [o passVal:x]; // expected-warning{{Passed-by-value struct argument contains uninitialized data (e.g., field: 'x')}} // expected-note@-1{{Passed-by-value struct argument contains uninitialized data (e.g., field: 'x')}} } // Test case from . That shows an uninitialized value // being used in the LHS of a compound assignment. void rdar_7780304() { typedef struct s_r7780304 { int x; } s_r7780304; s_r7780304 b; b.x |= 1; // expected-warning{{The left expression of the compound assignment is an uninitialized value. The computed value will also be garbage}} // expected-note@-1{{The left expression of the compound assignment is an uninitialized value. The computed value will also be garbage}} } // The flip side of PR10163 -- float arrays that are actually uninitialized void test_PR10163(float); void PR10163 (void) { float x[2]; test_PR10163(x[1]); // expected-warning{{uninitialized value}} // expected-note@-1{{1st function call argument is an uninitialized value}} } // PR10163 -- don't warn for default-initialized float arrays. void PR10163_default_initialized_arrays(void) { float x[2] = {0}; test_PR10163(x[1]); // no-warning } struct MyStr { int x; int y; }; void swap(struct MyStr *To, struct MyStr *From) { // This is not really a swap but close enough for our test. To->x = From->x; To->y = From->y; // expected-note{{Uninitialized value stored to field 'y'}} } int test_undefined_member_assignment_in_swap(struct MyStr *s2) { struct MyStr s1; s1.x = 5; swap(s2, &s1); // expected-note{{Calling 'swap'}} // expected-note@-1{{Returning from 'swap'}} return s2->y; // expected-warning{{Undefined or garbage value returned to caller}} // expected-note@-1{{Undefined or garbage value returned to caller}} } @interface A - (NSUInteger)foo; @end NSUInteger f8(A* x){ const NSUInteger n = [x foo]; int* bogus; if (n > 0) { // tests const cast transfer function logic NSUInteger i; for (i = 0; i < n; ++i) bogus = 0; if (bogus) // no-warning return n+1; } return n; } typedef struct { float x; float y; float z; } Point; typedef struct { Point origin; int size; } Circle; Point makePoint(float x, float y) { Point result; result.x = x; result.y = y; result.z = 0.0; return result; } void PR14765_test() { Circle *testObj = calloc(sizeof(Circle), 1); clang_analyzer_eval(testObj->size == 0); // expected-warning{{TRUE}} // expected-note@-1{{TRUE}} testObj->origin = makePoint(0.0, 0.0); if (testObj->size > 0) { ; } // expected-note{{Assuming field 'size' is <= 0}} // expected-note@-1{{Taking false branch}} // FIXME: Assigning to 'testObj->origin' kills the default binding for the // whole region, meaning that we've forgotten that testObj->size should also // default to 0. Tracked by . // This should be TRUE. clang_analyzer_eval(testObj->size == 0); // expected-warning{{UNKNOWN}} // expected-note@-1{{UNKNOWN}} free(testObj); } void PR14765_argument(Circle *testObj) { int oldSize = testObj->size; clang_analyzer_eval(testObj->size == oldSize); // expected-warning{{TRUE}} // expected-note@-1{{TRUE}} testObj->origin = makePoint(0.0, 0.0); clang_analyzer_eval(testObj->size == oldSize); // expected-warning{{TRUE}} // expected-note@-1{{TRUE}} } typedef struct { int x; int y; int z; } IntPoint; typedef struct { IntPoint origin; int size; } IntCircle; IntPoint makeIntPoint(int x, int y) { IntPoint result; result.x = x; result.y = y; result.z = 0; return result; } void PR14765_test_int() { IntCircle *testObj = calloc(sizeof(IntCircle), 1); clang_analyzer_eval(testObj->size == 0); // expected-warning{{TRUE}} // expected-note@-1{{TRUE}} clang_analyzer_eval(testObj->origin.x == 0); // expected-warning{{TRUE}} // expected-note@-1{{TRUE}} clang_analyzer_eval(testObj->origin.y == 0); // expected-warning{{TRUE}} // expected-note@-1{{TRUE}} clang_analyzer_eval(testObj->origin.z == 0); // expected-warning{{TRUE}} // expected-note@-1{{TRUE}} testObj->origin = makeIntPoint(1, 2); if (testObj->size > 0) { ; } // expected-note{{Assuming field 'size' is <= 0}} // expected-note@-1{{Taking false branch}} // expected-note@-2{{Assuming field 'size' is <= 0}} // expected-note@-3{{Taking false branch}} // expected-note@-4{{Assuming field 'size' is <= 0}} // expected-note@-5{{Taking false branch}} // expected-note@-6{{Assuming field 'size' is <= 0}} // expected-note@-7{{Taking false branch}} // FIXME: Assigning to 'testObj->origin' kills the default binding for the // whole region, meaning that we've forgotten that testObj->size should also // default to 0. Tracked by . // This should be TRUE. clang_analyzer_eval(testObj->size == 0); // expected-warning{{UNKNOWN}} // expected-note@-1{{UNKNOWN}} clang_analyzer_eval(testObj->origin.x == 1); // expected-warning{{TRUE}} // expected-note@-1{{TRUE}} clang_analyzer_eval(testObj->origin.y == 2); // expected-warning{{TRUE}} // expected-note@-1{{TRUE}} clang_analyzer_eval(testObj->origin.z == 0); // expected-warning{{TRUE}} // expected-note@-1{{TRUE}} free(testObj); } void PR14765_argument_int(IntCircle *testObj) { int oldSize = testObj->size; clang_analyzer_eval(testObj->size == oldSize); // expected-warning{{TRUE}} // expected-note@-1{{TRUE}} testObj->origin = makeIntPoint(1, 2); clang_analyzer_eval(testObj->size == oldSize); // expected-warning{{TRUE}} // expected-note@-1{{TRUE}} clang_analyzer_eval(testObj->origin.x == 1); // expected-warning{{TRUE}} // expected-note@-1{{TRUE}} clang_analyzer_eval(testObj->origin.y == 2); // expected-warning{{TRUE}} // expected-note@-1{{TRUE}} clang_analyzer_eval(testObj->origin.z == 0); // expected-warning{{TRUE}} // expected-note@-1{{TRUE}} } void rdar13292559(Circle input) { extern void useCircle(Circle); Circle obj = input; useCircle(obj); // no-warning // This generated an "uninitialized 'size' field" warning for a (short) while. obj.origin = makePoint(0.0, 0.0); useCircle(obj); // no-warning } typedef struct { int x; int y; } IntPoint2D; typedef struct { IntPoint2D origin; int size; } IntCircle2D; IntPoint2D makeIntPoint2D(int x, int y) { IntPoint2D result; result.x = x; result.y = y; return result; } void testSmallStructsCopiedPerField() { IntPoint2D a; a.x = 0; IntPoint2D b = a; extern void useInt(int); useInt(b.x); // no-warning useInt(b.y); // expected-warning{{uninitialized}} // expected-note@-1{{uninitialized}} } void testLargeStructsNotCopiedPerField() { IntPoint a; a.x = 0; IntPoint b = a; extern void useInt(int); useInt(b.x); // no-warning useInt(b.y); // no-warning } void testSmallStructInLargerStruct() { IntCircle2D *testObj = calloc(sizeof(IntCircle2D), 1); clang_analyzer_eval(testObj->size == 0); // expected-warning{{TRUE}} // expected-note@-1{{TRUE}} clang_analyzer_eval(testObj->origin.x == 0); // expected-warning{{TRUE}} // expected-note@-1{{TRUE}} clang_analyzer_eval(testObj->origin.y == 0); // expected-warning{{TRUE}} // expected-note@-1{{TRUE}} testObj->origin = makeIntPoint2D(1, 2); if (testObj->size > 0) { ; } // expected-note{{Field 'size' is <= 0}} // expected-note@-1{{Taking false branch}} // expected-note@-2{{Field 'size' is <= 0}} // expected-note@-3{{Taking false branch}} // expected-note@-4{{Field 'size' is <= 0}} // expected-note@-5{{Taking false branch}} clang_analyzer_eval(testObj->size == 0); // expected-warning{{TRUE}} // expected-note@-1{{TRUE}} clang_analyzer_eval(testObj->origin.x == 1); // expected-warning{{TRUE}} // expected-note@-1{{TRUE}} clang_analyzer_eval(testObj->origin.y == 2); // expected-warning{{TRUE}} // expected-note@-1{{TRUE}} free(testObj); } void testCopySmallStructIntoArgument(IntCircle2D *testObj) { int oldSize = testObj->size; clang_analyzer_eval(testObj->size == oldSize); // expected-warning{{TRUE}} // expected-note@-1{{TRUE}} testObj->origin = makeIntPoint2D(1, 2); clang_analyzer_eval(testObj->size == oldSize); // expected-warning{{TRUE}} // expected-note@-1{{TRUE}} clang_analyzer_eval(testObj->origin.x == 1); // expected-warning{{TRUE}} // expected-note@-1{{TRUE}} clang_analyzer_eval(testObj->origin.y == 2); // expected-warning{{TRUE}} // expected-note@-1{{TRUE}} } void testSmallStructBitfields() { struct { int x : 4; int y : 4; } a, b; a.x = 1; a.y = 2; b = a; clang_analyzer_eval(b.x == 1); // expected-warning{{TRUE}} // expected-note@-1{{TRUE}} clang_analyzer_eval(b.y == 2); // expected-warning{{TRUE}} // expected-note@-1{{TRUE}} } void testSmallStructBitfieldsFirstUndef() { struct { int x : 4; int y : 4; } a, b; a.y = 2; b = a; clang_analyzer_eval(b.y == 2); // expected-warning{{TRUE}} // expected-note@-1{{TRUE}} clang_analyzer_eval(b.x == 1); // expected-warning{{garbage}} // expected-note@-1{{garbage}} } void testSmallStructBitfieldsSecondUndef() { struct { int x : 4; int y : 4; } a, b; a.x = 1; b = a; clang_analyzer_eval(b.x == 1); // expected-warning{{TRUE}} // expected-note@-1{{TRUE}} clang_analyzer_eval(b.y == 2); // expected-warning{{garbage}} // expected-note@-1{{garbage}} } void testSmallStructBitfieldsFirstUnnamed() { struct { int : 4; int y : 4; } a, b, c; // expected-note{{'c' initialized here}} a.y = 2; b = a; clang_analyzer_eval(b.y == 2); // expected-warning{{TRUE}} // expected-note@-1{{TRUE}} b = c; // expected-note{{Uninitialized value stored to 'b.y'}} clang_analyzer_eval(b.y == 2); // expected-warning{{garbage}} // expected-note@-1{{garbage}} } void testSmallStructBitfieldsSecondUnnamed() { struct { int x : 4; int : 4; } a, b, c; // expected-note{{'c' initialized here}} a.x = 1; b = a; clang_analyzer_eval(b.x == 1); // expected-warning{{TRUE}} // expected-note@-1{{TRUE}} b = c; // expected-note{{Uninitialized value stored to 'b.x'}} clang_analyzer_eval(b.x == 1); // expected-warning{{garbage}} // expected-note@-1{{garbage}} }