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clang-p2996/clang/test/CodeGen/const-init.c
Eli Friedman 3f82f9e127 [CodeGen] Always use string computed in Sema for PredefinedExpr 
We can't use any other string, anyway, because its type wouldn't
match the type of the PredefinedExpr.

With this change, we don't compute a "nice" name for the __func__ global
when it's used in the initializer for a constant. This doesn't seem like
a great loss, and I'm not sure how to fix it without either storing more
information in the AST, or somehow threading through the information
from ExprConstant.cpp.

This could break some situations involving BlockDecl; currently,
CodeGenFunction::EmitPredefinedLValue has some logic to intentionally
emit a string different from what Sema computed.  This code skips that
logic... but that logic can't work correctly in general anyway.  (For
example, sizeof(__func__) returns the wrong result.) Hopefully this
doesn't affect practical code.

Fixes https://bugs.llvm.org/show_bug.cgi?id=40313 .

Differential Revision: https://reviews.llvm.org/D56821

llvm-svn: 351766
2019-01-22 00:11:17 +00:00

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// RUN: %clang_cc1 -triple i386-pc-linux-gnu -ffreestanding -verify -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; // expected-warning {{incompatible pointer to integer conversion}}
int c();
void *d = c;
intptr_t e = c; // expected-warning {{incompatible pointer to integer conversion}}
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, i8* null }>, align 1
struct {
unsigned char a;
char *b;
} __attribute__((__packed__)) gv2 = { 1, (void*)0 };
// Global references
// CHECK: @g11.l0 = internal global i32 ptrtoint (i32 ()* @g11 to i32)
long g11() {
static long l0 = (long) g11;
return l0;
}
// CHECK: @g12 = global i32 ptrtoint (i8* @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 (i8* @g12_tmp to i32) }]
struct g13_s0 {
long a;
};
struct g13_s0 g13[] = {
{ (long) &g12_tmp }
};
// CHECK: @g14 = global i8* inttoptr (i32 100 to i8*)
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 i32* @g15
int *g17 = (int *) ((long) &g15);
// CHECK: @g18.p = internal global [1 x i32*] [i32* @g19]
void g18(void) {
extern int g19;
static int *p[] = { &g19 };
}
// CHECK: @g20.l0 = internal global %struct.g20_s1 { %struct.g20_s0* null, %struct.g20_s0** getelementptr inbounds (%struct.g20_s1, %struct.g20_s1* @g20.l0, i32 0, i32 0) }
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 i8* getelementptr inbounds ([4 x i8], [4 x i8]* @[[FUNC:.*]], i32 0, i32 0)
// CHECK: @[[FUNC]] = private unnamed_addr constant [4 x i8] c"g25\00"
int g25() {
static const char *g26 = __func__;
return *g26;
}
// CHECK: @g27.x = internal global i8* bitcast (i8** @g27.x to i8*), align 4
void g27() { // PR8073
static void *x = &x;
}
void g28() {
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>
// CHECK: @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>
// CHECK: @g28.c = internal global <2 x x86_fp80> <x86_fp80 0xK3FFF8000000000000000, x86_fp80 0xK40008000000000000000>, align 32
static v1i64 a = (v1i64)10LL;
static v12i16 b = (v2f80){1,2};
static v2f80 c = (v12i16){0,0,0,-32768,16383,0,0,0,0,-32768,16384,0};
}
// PR13643
void g29() {
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 ([5 x i8]* @.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" }; // expected-warning {{incompatible pointer to integer conversion initializing 'int' with an expression of type 'char [5]'}}
static int c[1] = { L"a" };
}
// PR21300
void g30() {
#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() {
#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
}
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