// setting strict FP behaviour in the run line below tests that the compiler
// does the right thing for global compound literals (compoundliteral test)
// RUN: %clang_cc1 -triple i386-pc-linux-gnu -ffreestanding -Wno-pointer-to-int-cast -Wno-int-conversion -ffp-exception-behavior=strict -emit-llvm -o - %s | FileCheck %s

#include <stdint.h>

// Brace-enclosed string array initializers
char a[] = { "asdf" };
// CHECK: @a ={{.*}} global [5 x i8] c"asdf\00"

char a2[2][5] = { "asdf" };
// CHECK: @a2 ={{.*}} global [2 x [5 x i8]] {{\[}}[5 x i8] c"asdf\00", [5 x i8] zeroinitializer]

// Double-implicit-conversions of array/functions (not legal C, but
// clang accepts it for gcc compat).
intptr_t b = a;
int c(void);
void *d = c;
intptr_t e = c;

int f, *g = __extension__ &f, *h = (1 != 1) ? &f : &f;

union s2 {
  struct {
    struct { } *f0;
  } f0;
};

int g0 = (int)(&(((union s2 *) 0)->f0.f0) - 0);

// CHECK: @g1x ={{.*}} global { double, double } { double 1.000000e+00{{[0]*}}, double 0.000000e+00{{[0]*}} }
_Complex double g1x = 1.0f;
// CHECK: @g1y ={{.*}} global { double, double } { double 0.000000e+00{{[0]*}}, double 1.000000e+00{{[0]*}} }
_Complex double g1y = 1.0fi;
// CHECK: @g1 ={{.*}} global { i8, i8 } { i8 1, i8 10 }
_Complex char g1 = (char) 1 + (char) 10 * 1i;
// CHECK: @g2 ={{.*}} global { i32, i32 } { i32 1, i32 10 }
_Complex int g2 = 1 + 10i;
// CHECK: @g3 ={{.*}} global { float, float } { float 1.000000e+00{{[0]*}}, float 1.000000e+0{{[0]*}}1 }
_Complex float g3 = 1.0 + 10.0i;
// CHECK: @g4 ={{.*}} global { double, double } { double 1.000000e+00{{[0]*}}, double 1.000000e+0{{[0]*}}1 }
_Complex double g4 = 1.0 + 10.0i;
// CHECK: @g5 ={{.*}} global { i32, i32 } zeroinitializer
_Complex int g5 = (2 + 3i) == (5 + 7i);
// CHECK: @g6 ={{.*}} global { double, double } { double -1.100000e+0{{[0]*}}1, double 2.900000e+0{{[0]*}}1 }
_Complex double g6 = (2.0 + 3.0i) * (5.0 + 7.0i);
// CHECK: @g7 ={{.*}} global i32 1
int g7 = (2 + 3i) * (5 + 7i) == (-11 + 29i);
// CHECK: @g8 ={{.*}} global i32 1
int g8 = (2.0 + 3.0i) * (5.0 + 7.0i) == (-11.0 + 29.0i);
// CHECK: @g9 ={{.*}} global i32 0
int g9 = (2 + 3i) * (5 + 7i) != (-11 + 29i);
// CHECK: @g10 ={{.*}} global i32 0
int g10 = (2.0 + 3.0i) * (5.0 + 7.0i) != (-11.0 + 29.0i);

// PR5108
// CHECK: @gv1 ={{.*}} global %struct.anon <{ i32 0, i8 7 }>, align 1
struct {
  unsigned long a;
  unsigned long b:3;
} __attribute__((__packed__)) gv1  = { .a = 0x0, .b = 7,  };

// PR5118
// CHECK: @gv2 ={{.*}} global %struct.anon.0 <{ i8 1, ptr null }>, align 1
struct {
  unsigned char a;
  char *b;
} __attribute__((__packed__)) gv2 = { 1, (void*)0 };

// Global references
// CHECK: @g11.l0 = internal global i32 ptrtoint (ptr @g11 to i32)
long g11(void) {
  static long l0 = (long) g11;
  return l0;
}

// CHECK: @g12 ={{.*}} global i32 ptrtoint (ptr @g12_tmp to i32)
static char g12_tmp;
long g12 = (long) &g12_tmp;

// CHECK: @g13 ={{.*}} global [1 x %struct.g13_s0] [%struct.g13_s0 { i32 ptrtoint (ptr @g12_tmp to i32) }]
struct g13_s0 {
   long a;
};
struct g13_s0 g13[] = {
   { (long) &g12_tmp }
};

// CHECK: @g14 ={{.*}} global ptr inttoptr (i32 100 to ptr)
void *g14 = (void*) 100;

// CHECK: @g15 ={{.*}} global i32 -1
int g15 = (int) (char) ((void*) 0 + 255);

// CHECK: @g16 ={{.*}} global i64 4294967295
long long g16 = (long long) ((void*) 0xFFFFFFFF);

// CHECK: @g17 ={{.*}} global ptr @g15
int *g17 = (int *) ((long) &g15);

// CHECK: @g18.p = internal global [1 x ptr] [ptr @g19]
void g18(void) {
  extern int g19;
  static int *p[] = { &g19 };
}

// CHECK: @g20.l0 = internal global %struct.g20_s1 { ptr null, ptr @g20.l0 }
struct g20_s0;
struct g20_s1 {
  struct g20_s0 *f0, **f1;
};
void *g20(void) {
  static struct g20_s1 l0 = { ((void*) 0), &l0.f0 };
  return l0.f1;
}

// PR4108
struct g21 {int g21;};
const struct g21 g21 = (struct g21){1};

// PR5474
struct g22 {int x;} __attribute((packed));
struct g23 {char a; short b; char c; struct g22 d;};
struct g23 g24 = {1,2,3,4};

// CHECK: @g25.g26 = internal global ptr @[[FUNC:.*]], align 4
// CHECK: @[[FUNC]] = private unnamed_addr constant [4 x i8] c"g25\00"
int g25(void) {
  static const char *g26 = __func__;
  return *g26;
}

// CHECK: @g27.x = internal global ptr @g27.x, align 4
void g27(void) { // PR8073
  static void *x = &x;
}

void g28(void) {
  typedef long long v1i64 __attribute((vector_size(8)));
  typedef short v12i16 __attribute((vector_size(24)));
  typedef long double v2f80 __attribute((vector_size(24)));
  // CHECK: @g28.a = internal global <1 x i64> <i64 10>
  // @g28.b = internal global <12 x i16> <i16 0, i16 0, i16 0, i16 -32768, i16 16383, i16 0, i16 0, i16 0, i16 0, i16 -32768, i16 16384, i16 0>
  // @g28.c = internal global <2 x x86_fp80> <x86_fp80 0xK3FFF8000000000000000, x86_fp80 0xK40008000000000000000>, align 32
  static v1i64 a = (v1i64)10LL;
  //FIXME: support constant bitcast between vectors of x86_fp80
  //static v12i16 b = (v12i16)(v2f80){1,2};
  //static v2f80 c = (v2f80)(v12i16){0,0,0,-32768,16383,0,0,0,0,-32768,16384,0};
}

// PR13643
void g29(void) {
  typedef char DCC_PASSWD[2];
  typedef struct
  {
      DCC_PASSWD passwd;
  } DCC_SRVR_NM;
  // CHECK: @g29.a = internal global %struct.DCC_SRVR_NM { [2 x i8] c"@\00" }, align 1
  // CHECK: @g29.b = internal global [1 x i32] [i32 ptrtoint (ptr @.str.1 to i32)], align 4
  // CHECK: @g29.c = internal global [1 x i32] [i32 97], align 4
  static DCC_SRVR_NM a = { {"@"} };
  static int b[1] = { "asdf" };
  static int c[1] = { L"a" };
}

// PR21300
void g30(void) {
#pragma pack(1)
  static struct {
    int : 1;
    int x;
  } a = {};
  // CHECK: @g30.a = internal global %struct.anon.1 <{ i8 undef, i32 0 }>, align 1
#pragma pack()
}

void g31(void) {
#pragma pack(4)
  static struct {
    short a;
    long x;
    short z;
  } a = {23122, -12312731, -312};
#pragma pack()
  // CHECK: @g31.a = internal global %struct.anon.2 { i16 23122, i32 -12312731, i16 -312 }, align 4
}

// Clang should evaluate this in constant context, so floating point mode should
// have no effect.
// CHECK: @.compoundliteral = internal global [1 x float] [float 0x3FB99999A0000000], align 4
struct { const float *floats; } compoundliteral = {
  (float[1]) { 0.1, },
};

struct PR4517_foo {
  int x;
};
struct PR4517_bar {
  struct PR4517_foo foo;
};
const struct PR4517_foo my_foo = {.x = 42};
struct PR4517_bar my_bar = {.foo = my_foo};
struct PR4517_bar my_bar2 = (struct PR4517_bar){.foo = my_foo};
struct PR4517_bar my_bar3 = {my_foo};
struct PR4517_bar my_bar4 = (struct PR4517_bar){my_foo};
// CHECK: @my_foo = constant %struct.PR4517_foo { i32 42 }, align 4
// CHECK: @my_bar = global %struct.PR4517_bar { %struct.PR4517_foo { i32 42 } }, align 4
// CHECK: @my_bar2 = global %struct.PR4517_bar { %struct.PR4517_foo { i32 42 } }, align 4
// CHECK: @my_bar3 = global %struct.PR4517_bar { %struct.PR4517_foo { i32 42 } }, align 4
// CHECK: @my_bar4 = global %struct.PR4517_bar { %struct.PR4517_foo { i32 42 } }, align 4
const int PR4517_arrc[2] = {41, 42};
int PR4517_x = PR4517_arrc[1];
const int PR4517_idx = 1;
int PR4517_x2 = PR4517_arrc[PR4517_idx];
// CHECK: @PR4517_arrc = constant [2 x i32] [i32 41, i32 42], align 4
// CHECK: @PR4517_x = global i32 42, align 4
// CHECK: @PR4517_idx = constant i32 1, align 4
// CHECK: @PR4517_x2 = global i32 42, align 4