// RUN: %clang_analyze_cc1 -analyzer-checker=core,unix.Malloc -fblocks -verify %s

int* f1(void) {
  int x = 0;
  return &x; // expected-warning{{Address of stack memory associated with local variable 'x' returned}} expected-warning{{address of stack memory associated with local variable 'x' returned}}
}

int* f2(int y) {
  return &y;  // expected-warning{{Address of stack memory associated with local variable 'y' returned}} expected-warning{{address of stack memory associated with parameter 'y' returned}}
}

int* f3(int x, int *y) {
  int w = 0;
  
  if (x)
    y = &w;
    
  return y; // expected-warning{{Address of stack memory associated with local variable 'w' returned to caller}}
}

void* compound_literal(int x, int y) {
  if (x)
    return &(unsigned short){((unsigned short)0x22EF)};
  // expected-warning-re@-1{{Address of stack memory associated with a compound literal declared on line {{[0-9]+}} returned to caller [core.StackAddressEscape]}}
  // expected-warning@-2{{address of stack memory}}

  int* array[] = {};
  struct s { int z; double y; int w; };
  
  if (y)
    return &((struct s){ 2, 0.4, 5 * 8 });
  // expected-warning-re@-1{{Address of stack memory associated with a compound literal declared on line {{[0-9]+}} returned to caller [core.StackAddressEscape]}}
  // expected-warning@-2{{address of stack memory}}
  
  void* p = &((struct s){ 42, 0.4, x ? 42 : 0 });
  return p;
  // expected-warning-re@-1{{Address of stack memory associated with a compound literal declared on line {{[0-9]+}} returned to caller [core.StackAddressEscape]}}
}

void* alloca_test(void) {
  void* p = __builtin_alloca(10);
  return p; // expected-warning{{Address of stack memory}}
}

int array_test(int x[2]) {
  return x[0]; // no-warning
}

struct baz {
  int x;
  int y[2];
};

int struct_test(struct baz byVal, int flag) {
  if (flag)  
    return byVal.x; // no-warning
  else {
    return byVal.y[0]; // no-warning
  }
}

typedef int (^ComparatorBlock)(int a, int b);
ComparatorBlock test_return_block(void) {
  // This block is a global since it has no captures.
  ComparatorBlock b = ^int(int a, int b){ return a > b; };
  return b; // no-warning
}

ComparatorBlock test_return_block_with_capture(int x) {
  // This block is stack allocated because it has captures.
  ComparatorBlock b = ^int(int a, int b){ return a > b + x; };
  return b; // expected-warning{{Address of stack-allocated block}}
}

ComparatorBlock test_return_block_neg_aux(void);
ComparatorBlock test_return_block_neg(void) {
  ComparatorBlock b = test_return_block_neg_aux();
  return b; // no-warning
}

int *rdar_7523821_f2(void) {
  int a[3];
  return a; // expected-warning 2 {{ddress of stack memory associated with local variable 'a' returned}}
};

// Handle blocks that have no captures or are otherwise declared 'static'.
typedef int (^RDar10348049)(int value);
RDar10348049 test_rdar10348049(void) {
  static RDar10348049 b = ^int(int x) {
    return x + 2;
  };
  return b; // no-warning
}

void testRegister(register const char *reg) {
    if (reg) (void)reg[0];
}
void callTestRegister(void) {
    char buf[20];
    testRegister(buf); // no-warning
}

void top_level_leaking(int **out) {
  int local = 42;
  *out = &local; // expected-warning{{Address of stack memory associated with local variable 'local' is still referred to by the caller variable 'out'}}
}

void callee_leaking_via_param(int **out) {
  int local = 1;
  *out = &local;
  // expected-warning@-1{{Address of stack memory associated with local variable 'local' is still referred to by the caller variable 'ptr'}}
}

void caller_for_leaking_callee() {
  int *ptr = 0;
  callee_leaking_via_param(&ptr);
}

void callee_nested_leaking(int **out) {
  int local = 1;
  *out = &local;
  // expected-warning@-1{{Address of stack memory associated with local variable 'local' is still referred to by the caller variable 'ptr'}}
}

void caller_mid_for_nested_leaking(int **mid) {
  callee_nested_leaking(mid);
}

void caller_for_nested_leaking() {
  int *ptr = 0;
  caller_mid_for_nested_leaking(&ptr);
}

// This used to crash StackAddrEscapeChecker because
// it features a symbol conj_$1{struct c *, LC1, S763, #1}
// that has no origin region.
struct a {
  int member;
};

struct c {
  struct a *nested_ptr;
};
void opaque(struct c*);
struct c* get_c(void);
void no_crash_for_symbol_without_origin_region(void) {
  struct c *ptr = get_c();
  opaque(ptr);
  ptr->nested_ptr->member++;
} // No crash at the end of the function