[clang] d906ac5 - [clang][AVR] Fix basic type size/alignment values to match avr-gcc. (#111290)

via cfe-commits cfe-commits at lists.llvm.org
Mon Oct 21 03:30:07 PDT 2024


Author: Alex Rønne Petersen
Date: 2024-10-21T12:30:03+02:00
New Revision: d906ac52ab8ee46090a6696f4ffb34c40ee6abb7

URL: https://github.com/llvm/llvm-project/commit/d906ac52ab8ee46090a6696f4ffb34c40ee6abb7
DIFF: https://github.com/llvm/llvm-project/commit/d906ac52ab8ee46090a6696f4ffb34c40ee6abb7.diff

LOG: [clang][AVR] Fix basic type size/alignment values to match avr-gcc. (#111290)

Closes #102172

Added: 
    clang/test/Sema/avr-size-align.c

Modified: 
    clang/include/clang/Basic/TargetInfo.h
    clang/lib/Basic/TargetInfo.cpp
    clang/lib/Basic/Targets/AVR.h
    clang/test/CodeGen/cx-complex-range.c
    clang/test/CodeGen/mdouble.c
    clang/test/Sema/unbounded-array-bounds.c

Removed: 
    


################################################################################
diff  --git a/clang/include/clang/Basic/TargetInfo.h b/clang/include/clang/Basic/TargetInfo.h
index 57783850606290..e7469e1e989128 100644
--- a/clang/include/clang/Basic/TargetInfo.h
+++ b/clang/include/clang/Basic/TargetInfo.h
@@ -87,6 +87,7 @@ enum class FloatModeKind {
 struct TransferrableTargetInfo {
   unsigned char PointerWidth, PointerAlign;
   unsigned char BoolWidth, BoolAlign;
+  unsigned char ShortWidth, ShortAlign;
   unsigned char IntWidth, IntAlign;
   unsigned char HalfWidth, HalfAlign;
   unsigned char BFloat16Width, BFloat16Align;
@@ -497,13 +498,10 @@ class TargetInfo : public TransferrableTargetInfo,
   unsigned getCharWidth() const { return 8; } // FIXME
   unsigned getCharAlign() const { return 8; } // FIXME
 
-  /// Return the size of 'signed short' and 'unsigned short' for this
-  /// target, in bits.
-  unsigned getShortWidth() const { return 16; } // FIXME
-
-  /// Return the alignment of 'signed short' and 'unsigned short' for
-  /// this target.
-  unsigned getShortAlign() const { return 16; } // FIXME
+  /// getShortWidth/Align - Return the size of 'signed short' and
+  /// 'unsigned short' for this target, in bits.
+  unsigned getShortWidth() const { return ShortWidth; }
+  unsigned getShortAlign() const { return ShortAlign; }
 
   /// getIntWidth/Align - Return the size of 'signed int' and 'unsigned int' for
   /// this target, in bits.

diff  --git a/clang/lib/Basic/TargetInfo.cpp b/clang/lib/Basic/TargetInfo.cpp
index 92195333821097..145ca545854da7 100644
--- a/clang/lib/Basic/TargetInfo.cpp
+++ b/clang/lib/Basic/TargetInfo.cpp
@@ -70,6 +70,7 @@ TargetInfo::TargetInfo(const llvm::Triple &T) : Triple(T) {
   HasStrictFP = false;
   PointerWidth = PointerAlign = 32;
   BoolWidth = BoolAlign = 8;
+  ShortWidth = ShortAlign = 16;
   IntWidth = IntAlign = 32;
   LongWidth = LongAlign = 32;
   LongLongWidth = LongLongAlign = 64;
@@ -437,6 +438,7 @@ void TargetInfo::adjust(DiagnosticsEngine &Diags, LangOptions &Opts) {
     // what these normally are for the target.
     // We also define long long and long double here, although the
     // OpenCL standard only mentions these as "reserved".
+    ShortWidth = ShortAlign = 16;
     IntWidth = IntAlign = 32;
     LongWidth = LongAlign = 64;
     LongLongWidth = LongLongAlign = 128;

diff  --git a/clang/lib/Basic/Targets/AVR.h b/clang/lib/Basic/Targets/AVR.h
index feeb04f37eeba7..0a2f51747f8a7f 100644
--- a/clang/lib/Basic/Targets/AVR.h
+++ b/clang/lib/Basic/Targets/AVR.h
@@ -29,6 +29,8 @@ class LLVM_LIBRARY_VISIBILITY AVRTargetInfo : public TargetInfo {
     TLSSupported = false;
     PointerWidth = 16;
     PointerAlign = 8;
+    ShortWidth = 16;
+    ShortAlign = 8;
     IntWidth = 16;
     IntAlign = 8;
     LongWidth = 32;
@@ -65,6 +67,8 @@ class LLVM_LIBRARY_VISIBILITY AVRTargetInfo : public TargetInfo {
     return std::nullopt;
   }
 
+  bool allowsLargerPreferedTypeAlignment() const override { return false; }
+
   BuiltinVaListKind getBuiltinVaListKind() const override {
     return TargetInfo::VoidPtrBuiltinVaList;
   }

diff  --git a/clang/test/CodeGen/cx-complex-range.c b/clang/test/CodeGen/cx-complex-range.c
index d83d4d02ac1991..b2259031d75639 100644
--- a/clang/test/CodeGen/cx-complex-range.c
+++ b/clang/test/CodeGen/cx-complex-range.c
@@ -1264,24 +1264,24 @@ _Complex float mulf(_Complex float a, _Complex float b) {
 // AVRFP32-SAME: float noundef [[A_COERCE0:%.*]], float noundef [[A_COERCE1:%.*]], float noundef [[B_COERCE0:%.*]], float noundef [[B_COERCE1:%.*]]) addrspace(1) #[[ATTR0]] {
 // AVRFP32-NEXT:  entry:
 // AVRFP32-NEXT:    [[RETVAL:%.*]] = alloca { float, float }, align 1
-// AVRFP32-NEXT:    [[A:%.*]] = alloca { float, float }, align 4
-// AVRFP32-NEXT:    [[B:%.*]] = alloca { float, float }, align 4
+// AVRFP32-NEXT:    [[A:%.*]] = alloca { float, float }, align 1
+// AVRFP32-NEXT:    [[B:%.*]] = alloca { float, float }, align 1
 // AVRFP32-NEXT:    [[TMP0:%.*]] = getelementptr inbounds nuw { float, float }, ptr [[A]], i32 0, i32 0
-// AVRFP32-NEXT:    store float [[A_COERCE0]], ptr [[TMP0]], align 4
+// AVRFP32-NEXT:    store float [[A_COERCE0]], ptr [[TMP0]], align 1
 // AVRFP32-NEXT:    [[TMP1:%.*]] = getelementptr inbounds nuw { float, float }, ptr [[A]], i32 0, i32 1
-// AVRFP32-NEXT:    store float [[A_COERCE1]], ptr [[TMP1]], align 4
+// AVRFP32-NEXT:    store float [[A_COERCE1]], ptr [[TMP1]], align 1
 // AVRFP32-NEXT:    [[TMP2:%.*]] = getelementptr inbounds nuw { float, float }, ptr [[B]], i32 0, i32 0
-// AVRFP32-NEXT:    store float [[B_COERCE0]], ptr [[TMP2]], align 4
+// AVRFP32-NEXT:    store float [[B_COERCE0]], ptr [[TMP2]], align 1
 // AVRFP32-NEXT:    [[TMP3:%.*]] = getelementptr inbounds nuw { float, float }, ptr [[B]], i32 0, i32 1
-// AVRFP32-NEXT:    store float [[B_COERCE1]], ptr [[TMP3]], align 4
+// AVRFP32-NEXT:    store float [[B_COERCE1]], ptr [[TMP3]], align 1
 // AVRFP32-NEXT:    [[A_REALP:%.*]] = getelementptr inbounds nuw { float, float }, ptr [[A]], i32 0, i32 0
-// AVRFP32-NEXT:    [[A_REAL:%.*]] = load float, ptr [[A_REALP]], align 4
+// AVRFP32-NEXT:    [[A_REAL:%.*]] = load float, ptr [[A_REALP]], align 1
 // AVRFP32-NEXT:    [[A_IMAGP:%.*]] = getelementptr inbounds nuw { float, float }, ptr [[A]], i32 0, i32 1
-// AVRFP32-NEXT:    [[A_IMAG:%.*]] = load float, ptr [[A_IMAGP]], align 4
+// AVRFP32-NEXT:    [[A_IMAG:%.*]] = load float, ptr [[A_IMAGP]], align 1
 // AVRFP32-NEXT:    [[B_REALP:%.*]] = getelementptr inbounds nuw { float, float }, ptr [[B]], i32 0, i32 0
-// AVRFP32-NEXT:    [[B_REAL:%.*]] = load float, ptr [[B_REALP]], align 4
+// AVRFP32-NEXT:    [[B_REAL:%.*]] = load float, ptr [[B_REALP]], align 1
 // AVRFP32-NEXT:    [[B_IMAGP:%.*]] = getelementptr inbounds nuw { float, float }, ptr [[B]], i32 0, i32 1
-// AVRFP32-NEXT:    [[B_IMAG:%.*]] = load float, ptr [[B_IMAGP]], align 4
+// AVRFP32-NEXT:    [[B_IMAG:%.*]] = load float, ptr [[B_IMAGP]], align 1
 // AVRFP32-NEXT:    [[TMP4:%.*]] = call addrspace(1) float @llvm.fabs.f32(float [[B_REAL]])
 // AVRFP32-NEXT:    [[TMP5:%.*]] = call addrspace(1) float @llvm.fabs.f32(float [[B_IMAG]])
 // AVRFP32-NEXT:    [[ABS_CMP:%.*]] = fcmp ugt float [[TMP4]], [[TMP5]]
@@ -1321,24 +1321,24 @@ _Complex float mulf(_Complex float a, _Complex float b) {
 // AVRFP64-LABEL: define dso_local void @divd(
 // AVRFP64-SAME: ptr dead_on_unwind noalias writable sret({ double, double }) align 1 [[AGG_RESULT:%.*]], double noundef [[A_COERCE0:%.*]], double noundef [[A_COERCE1:%.*]], double noundef [[B_COERCE0:%.*]], double noundef [[B_COERCE1:%.*]]) addrspace(1) #[[ATTR0]] {
 // AVRFP64-NEXT:  entry:
-// AVRFP64-NEXT:    [[A:%.*]] = alloca { double, double }, align 8
-// AVRFP64-NEXT:    [[B:%.*]] = alloca { double, double }, align 8
+// AVRFP64-NEXT:    [[A:%.*]] = alloca { double, double }, align 1
+// AVRFP64-NEXT:    [[B:%.*]] = alloca { double, double }, align 1
 // AVRFP64-NEXT:    [[TMP0:%.*]] = getelementptr inbounds nuw { double, double }, ptr [[A]], i32 0, i32 0
-// AVRFP64-NEXT:    store double [[A_COERCE0]], ptr [[TMP0]], align 8
+// AVRFP64-NEXT:    store double [[A_COERCE0]], ptr [[TMP0]], align 1
 // AVRFP64-NEXT:    [[TMP1:%.*]] = getelementptr inbounds nuw { double, double }, ptr [[A]], i32 0, i32 1
-// AVRFP64-NEXT:    store double [[A_COERCE1]], ptr [[TMP1]], align 8
+// AVRFP64-NEXT:    store double [[A_COERCE1]], ptr [[TMP1]], align 1
 // AVRFP64-NEXT:    [[TMP2:%.*]] = getelementptr inbounds nuw { double, double }, ptr [[B]], i32 0, i32 0
-// AVRFP64-NEXT:    store double [[B_COERCE0]], ptr [[TMP2]], align 8
+// AVRFP64-NEXT:    store double [[B_COERCE0]], ptr [[TMP2]], align 1
 // AVRFP64-NEXT:    [[TMP3:%.*]] = getelementptr inbounds nuw { double, double }, ptr [[B]], i32 0, i32 1
-// AVRFP64-NEXT:    store double [[B_COERCE1]], ptr [[TMP3]], align 8
+// AVRFP64-NEXT:    store double [[B_COERCE1]], ptr [[TMP3]], align 1
 // AVRFP64-NEXT:    [[A_REALP:%.*]] = getelementptr inbounds nuw { double, double }, ptr [[A]], i32 0, i32 0
-// AVRFP64-NEXT:    [[A_REAL:%.*]] = load double, ptr [[A_REALP]], align 8
+// AVRFP64-NEXT:    [[A_REAL:%.*]] = load double, ptr [[A_REALP]], align 1
 // AVRFP64-NEXT:    [[A_IMAGP:%.*]] = getelementptr inbounds nuw { double, double }, ptr [[A]], i32 0, i32 1
-// AVRFP64-NEXT:    [[A_IMAG:%.*]] = load double, ptr [[A_IMAGP]], align 8
+// AVRFP64-NEXT:    [[A_IMAG:%.*]] = load double, ptr [[A_IMAGP]], align 1
 // AVRFP64-NEXT:    [[B_REALP:%.*]] = getelementptr inbounds nuw { double, double }, ptr [[B]], i32 0, i32 0
-// AVRFP64-NEXT:    [[B_REAL:%.*]] = load double, ptr [[B_REALP]], align 8
+// AVRFP64-NEXT:    [[B_REAL:%.*]] = load double, ptr [[B_REALP]], align 1
 // AVRFP64-NEXT:    [[B_IMAGP:%.*]] = getelementptr inbounds nuw { double, double }, ptr [[B]], i32 0, i32 1
-// AVRFP64-NEXT:    [[B_IMAG:%.*]] = load double, ptr [[B_IMAGP]], align 8
+// AVRFP64-NEXT:    [[B_IMAG:%.*]] = load double, ptr [[B_IMAGP]], align 1
 // AVRFP64-NEXT:    [[TMP4:%.*]] = call addrspace(1) double @llvm.fabs.f64(double [[B_REAL]])
 // AVRFP64-NEXT:    [[TMP5:%.*]] = call addrspace(1) double @llvm.fabs.f64(double [[B_IMAG]])
 // AVRFP64-NEXT:    [[ABS_CMP:%.*]] = fcmp ugt double [[TMP4]], [[TMP5]]
@@ -1862,24 +1862,24 @@ _Complex double divd(_Complex double a, _Complex double b) {
 // AVRFP32-SAME: float noundef [[A_COERCE0:%.*]], float noundef [[A_COERCE1:%.*]], float noundef [[B_COERCE0:%.*]], float noundef [[B_COERCE1:%.*]]) addrspace(1) #[[ATTR0]] {
 // AVRFP32-NEXT:  entry:
 // AVRFP32-NEXT:    [[RETVAL:%.*]] = alloca { float, float }, align 1
-// AVRFP32-NEXT:    [[A:%.*]] = alloca { float, float }, align 4
-// AVRFP32-NEXT:    [[B:%.*]] = alloca { float, float }, align 4
+// AVRFP32-NEXT:    [[A:%.*]] = alloca { float, float }, align 1
+// AVRFP32-NEXT:    [[B:%.*]] = alloca { float, float }, align 1
 // AVRFP32-NEXT:    [[TMP0:%.*]] = getelementptr inbounds nuw { float, float }, ptr [[A]], i32 0, i32 0
-// AVRFP32-NEXT:    store float [[A_COERCE0]], ptr [[TMP0]], align 4
+// AVRFP32-NEXT:    store float [[A_COERCE0]], ptr [[TMP0]], align 1
 // AVRFP32-NEXT:    [[TMP1:%.*]] = getelementptr inbounds nuw { float, float }, ptr [[A]], i32 0, i32 1
-// AVRFP32-NEXT:    store float [[A_COERCE1]], ptr [[TMP1]], align 4
+// AVRFP32-NEXT:    store float [[A_COERCE1]], ptr [[TMP1]], align 1
 // AVRFP32-NEXT:    [[TMP2:%.*]] = getelementptr inbounds nuw { float, float }, ptr [[B]], i32 0, i32 0
-// AVRFP32-NEXT:    store float [[B_COERCE0]], ptr [[TMP2]], align 4
+// AVRFP32-NEXT:    store float [[B_COERCE0]], ptr [[TMP2]], align 1
 // AVRFP32-NEXT:    [[TMP3:%.*]] = getelementptr inbounds nuw { float, float }, ptr [[B]], i32 0, i32 1
-// AVRFP32-NEXT:    store float [[B_COERCE1]], ptr [[TMP3]], align 4
+// AVRFP32-NEXT:    store float [[B_COERCE1]], ptr [[TMP3]], align 1
 // AVRFP32-NEXT:    [[A_REALP:%.*]] = getelementptr inbounds nuw { float, float }, ptr [[A]], i32 0, i32 0
-// AVRFP32-NEXT:    [[A_REAL:%.*]] = load float, ptr [[A_REALP]], align 4
+// AVRFP32-NEXT:    [[A_REAL:%.*]] = load float, ptr [[A_REALP]], align 1
 // AVRFP32-NEXT:    [[A_IMAGP:%.*]] = getelementptr inbounds nuw { float, float }, ptr [[A]], i32 0, i32 1
-// AVRFP32-NEXT:    [[A_IMAG:%.*]] = load float, ptr [[A_IMAGP]], align 4
+// AVRFP32-NEXT:    [[A_IMAG:%.*]] = load float, ptr [[A_IMAGP]], align 1
 // AVRFP32-NEXT:    [[B_REALP:%.*]] = getelementptr inbounds nuw { float, float }, ptr [[B]], i32 0, i32 0
-// AVRFP32-NEXT:    [[B_REAL:%.*]] = load float, ptr [[B_REALP]], align 4
+// AVRFP32-NEXT:    [[B_REAL:%.*]] = load float, ptr [[B_REALP]], align 1
 // AVRFP32-NEXT:    [[B_IMAGP:%.*]] = getelementptr inbounds nuw { float, float }, ptr [[B]], i32 0, i32 1
-// AVRFP32-NEXT:    [[B_IMAG:%.*]] = load float, ptr [[B_IMAGP]], align 4
+// AVRFP32-NEXT:    [[B_IMAG:%.*]] = load float, ptr [[B_IMAGP]], align 1
 // AVRFP32-NEXT:    [[MUL_AC:%.*]] = fmul float [[A_REAL]], [[B_REAL]]
 // AVRFP32-NEXT:    [[MUL_BD:%.*]] = fmul float [[A_IMAG]], [[B_IMAG]]
 // AVRFP32-NEXT:    [[MUL_AD:%.*]] = fmul float [[A_REAL]], [[B_IMAG]]
@@ -1896,24 +1896,24 @@ _Complex double divd(_Complex double a, _Complex double b) {
 // AVRFP64-LABEL: define dso_local void @muld(
 // AVRFP64-SAME: ptr dead_on_unwind noalias writable sret({ double, double }) align 1 [[AGG_RESULT:%.*]], double noundef [[A_COERCE0:%.*]], double noundef [[A_COERCE1:%.*]], double noundef [[B_COERCE0:%.*]], double noundef [[B_COERCE1:%.*]]) addrspace(1) #[[ATTR0]] {
 // AVRFP64-NEXT:  entry:
-// AVRFP64-NEXT:    [[A:%.*]] = alloca { double, double }, align 8
-// AVRFP64-NEXT:    [[B:%.*]] = alloca { double, double }, align 8
+// AVRFP64-NEXT:    [[A:%.*]] = alloca { double, double }, align 1
+// AVRFP64-NEXT:    [[B:%.*]] = alloca { double, double }, align 1
 // AVRFP64-NEXT:    [[TMP0:%.*]] = getelementptr inbounds nuw { double, double }, ptr [[A]], i32 0, i32 0
-// AVRFP64-NEXT:    store double [[A_COERCE0]], ptr [[TMP0]], align 8
+// AVRFP64-NEXT:    store double [[A_COERCE0]], ptr [[TMP0]], align 1
 // AVRFP64-NEXT:    [[TMP1:%.*]] = getelementptr inbounds nuw { double, double }, ptr [[A]], i32 0, i32 1
-// AVRFP64-NEXT:    store double [[A_COERCE1]], ptr [[TMP1]], align 8
+// AVRFP64-NEXT:    store double [[A_COERCE1]], ptr [[TMP1]], align 1
 // AVRFP64-NEXT:    [[TMP2:%.*]] = getelementptr inbounds nuw { double, double }, ptr [[B]], i32 0, i32 0
-// AVRFP64-NEXT:    store double [[B_COERCE0]], ptr [[TMP2]], align 8
+// AVRFP64-NEXT:    store double [[B_COERCE0]], ptr [[TMP2]], align 1
 // AVRFP64-NEXT:    [[TMP3:%.*]] = getelementptr inbounds nuw { double, double }, ptr [[B]], i32 0, i32 1
-// AVRFP64-NEXT:    store double [[B_COERCE1]], ptr [[TMP3]], align 8
+// AVRFP64-NEXT:    store double [[B_COERCE1]], ptr [[TMP3]], align 1
 // AVRFP64-NEXT:    [[A_REALP:%.*]] = getelementptr inbounds nuw { double, double }, ptr [[A]], i32 0, i32 0
-// AVRFP64-NEXT:    [[A_REAL:%.*]] = load double, ptr [[A_REALP]], align 8
+// AVRFP64-NEXT:    [[A_REAL:%.*]] = load double, ptr [[A_REALP]], align 1
 // AVRFP64-NEXT:    [[A_IMAGP:%.*]] = getelementptr inbounds nuw { double, double }, ptr [[A]], i32 0, i32 1
-// AVRFP64-NEXT:    [[A_IMAG:%.*]] = load double, ptr [[A_IMAGP]], align 8
+// AVRFP64-NEXT:    [[A_IMAG:%.*]] = load double, ptr [[A_IMAGP]], align 1
 // AVRFP64-NEXT:    [[B_REALP:%.*]] = getelementptr inbounds nuw { double, double }, ptr [[B]], i32 0, i32 0
-// AVRFP64-NEXT:    [[B_REAL:%.*]] = load double, ptr [[B_REALP]], align 8
+// AVRFP64-NEXT:    [[B_REAL:%.*]] = load double, ptr [[B_REALP]], align 1
 // AVRFP64-NEXT:    [[B_IMAGP:%.*]] = getelementptr inbounds nuw { double, double }, ptr [[B]], i32 0, i32 1
-// AVRFP64-NEXT:    [[B_IMAG:%.*]] = load double, ptr [[B_IMAGP]], align 8
+// AVRFP64-NEXT:    [[B_IMAG:%.*]] = load double, ptr [[B_IMAGP]], align 1
 // AVRFP64-NEXT:    [[MUL_AC:%.*]] = fmul double [[A_REAL]], [[B_REAL]]
 // AVRFP64-NEXT:    [[MUL_BD:%.*]] = fmul double [[A_IMAG]], [[B_IMAG]]
 // AVRFP64-NEXT:    [[MUL_AD:%.*]] = fmul double [[A_REAL]], [[B_IMAG]]

diff  --git a/clang/test/CodeGen/mdouble.c b/clang/test/CodeGen/mdouble.c
index 6c73bd7b15901e..dab0c5f834bc32 100644
--- a/clang/test/CodeGen/mdouble.c
+++ b/clang/test/CodeGen/mdouble.c
@@ -6,8 +6,7 @@
 double x = 0;
 int size = sizeof(x);
 
-// FIXME: the double should have an alignment of 1 on AVR, not 4 or 8.
-// AVR-FP64: @x ={{.*}} global double {{.*}}, align 8
+// AVR-FP64: @x ={{.*}} global double {{.*}}, align 1
 // AVR-FP64: @size ={{.*}} global i16 8
-// AVR-FP32: @x ={{.*}} global float {{.*}}, align 4
+// AVR-FP32: @x ={{.*}} global float {{.*}}, align 1
 // AVR-FP32: @size ={{.*}} global i16 4

diff  --git a/clang/test/Sema/avr-size-align.c b/clang/test/Sema/avr-size-align.c
new file mode 100644
index 00000000000000..9fe94410c91c49
--- /dev/null
+++ b/clang/test/Sema/avr-size-align.c
@@ -0,0 +1,49 @@
+// RUN: %clang_cc1 %s -triple avr -fsyntax-only
+
+_Static_assert(sizeof(char) == 1, "sizeof(char) == 1");
+_Static_assert(_Alignof(char) == 1, "_Alignof(char) == 1");
+_Static_assert(__alignof(char) == 1, "__alignof(char) == 1");
+
+_Static_assert(sizeof(short) == 2, "sizeof(short) == 2");
+_Static_assert(_Alignof(short) == 1, "_Alignof(short) == 1");
+_Static_assert(__alignof(short) == 1, "__alignof(short) == 1");
+
+_Static_assert(sizeof(unsigned short) == 2, "sizeof(unsigned short) == 2");
+_Static_assert(_Alignof(unsigned short) == 1, "_Alignof(unsigned short) == 1");
+_Static_assert(__alignof(unsigned short) == 1, "__alignof(unsigned short) == 1");
+
+_Static_assert(sizeof(int) == 2, "sizeof(int) == 2");
+_Static_assert(_Alignof(int) == 1, "_Alignof(int) == 1");
+_Static_assert(__alignof(int) == 1, "__alignof(int) == 1");
+
+_Static_assert(sizeof(unsigned int) == 2, "sizeof(unsigned int) == 2");
+_Static_assert(_Alignof(unsigned int) == 1, "_Alignof(unsigned int) == 1");
+_Static_assert(__alignof(unsigned int) == 1, "__alignof(unsigned int) == 1");
+
+_Static_assert(sizeof(long) == 4, "sizeof(long) == 4");
+_Static_assert(_Alignof(long) == 1, "_Alignof(long) == 1");
+_Static_assert(__alignof(long) == 1, "__alignof(long) == 1");
+
+_Static_assert(sizeof(unsigned long) == 4, "sizeof(unsigned long) == 4");
+_Static_assert(_Alignof(unsigned long) == 1, "_Alignof(unsigned long) == 1");
+_Static_assert(__alignof(unsigned long) == 1, "__alignof(unsigned long) == 1");
+
+_Static_assert(sizeof(long long) == 8, "sizeof(long long) == 8");
+_Static_assert(_Alignof(long long) == 1, "_Alignof(long long) == 1");
+_Static_assert(__alignof(long long) == 1, "__alignof(long long) == 1");
+
+_Static_assert(sizeof(unsigned long long) == 8, "sizeof(unsigned long long) == 8");
+_Static_assert(_Alignof(unsigned long long) == 1, "_Alignof(unsigned long long) == 1");
+_Static_assert(__alignof(unsigned long long) == 1, "__alignof(unsigned long long) == 1");
+
+_Static_assert(sizeof(float) == 4, "sizeof(float) == 4");
+_Static_assert(_Alignof(float) == 1, "_Alignof(float) == 1");
+_Static_assert(__alignof(float) == 1, "__alignof(float) == 1");
+
+_Static_assert(sizeof(double) == 4, "sizeof(double) == 4");
+_Static_assert(_Alignof(double) == 1, "_Alignof(double) == 1");
+_Static_assert(__alignof(double) == 1, "__alignof(double) == 1");
+
+_Static_assert(sizeof(long double) == 4, "sizeof(long double) == 4");
+_Static_assert(_Alignof(long double) == 1, "_Alignof(long double) == 1");
+_Static_assert(__alignof(long double) == 1, "__alignof(long double) == 1");

diff  --git a/clang/test/Sema/unbounded-array-bounds.c b/clang/test/Sema/unbounded-array-bounds.c
index 41d1972cf59553..b22261a3eaeb5b 100644
--- a/clang/test/Sema/unbounded-array-bounds.c
+++ b/clang/test/Sema/unbounded-array-bounds.c
@@ -14,11 +14,11 @@ struct S s[]; // expected-warning {{tentative array definition}} expected-note {
 void f1(void) {
   ++s[3].a;
   ++s[7073650413200313099].b;
-  // addr16-warning at -1 {{array index 7073650413200313099 refers past the last possible element for an array in 16-bit address space containing 160-bit (20-byte) elements (max possible 3276 elements)}}
+  // addr16-warning at -1 {{array index 7073650413200313099 refers past the last possible element for an array in 16-bit address space containing 152-bit (19-byte) elements (max possible 3449 elements)}}
   // addr32-warning at -2 {{array index 7073650413200313099 refers past the last possible element for an array in 32-bit address space containing 192-bit (24-byte) elements (max possible 178956970 elements)}}
   // addr64-warning at -3 {{array index 7073650413200313099 refers past the last possible element for an array in 64-bit address space containing 256-bit (32-byte) elements (max possible 576460752303423488 elements)}}
   ++s[7073650].c;
-  // addr16-warning at -1 {{array index 7073650 refers past the last possible element for an array in 16-bit address space containing 160-bit (20-byte) elements (max possible 3276 elements)}}
+  // addr16-warning at -1 {{array index 7073650 refers past the last possible element for an array in 16-bit address space containing 152-bit (19-byte) elements (max possible 3449 elements)}}
 }
 
 long long ll[]; // expected-warning {{tentative array definition}} expected-note {{declared here}} addr16-note {{declared here}} addr32-note {{declared here}}
@@ -37,21 +37,21 @@ void f2(void) {
 void f3(struct S p[]) { // expected-note {{declared here}} addr16-note {{declared here}}
   ++p[3].a;
   ++p[7073650413200313099].b;
-  // addr16-warning at -1 {{array index 7073650413200313099 refers past the last possible element for an array in 16-bit address space containing 160-bit (20-byte) elements (max possible 3276 elements)}}
+  // addr16-warning at -1 {{array index 7073650413200313099 refers past the last possible element for an array in 16-bit address space containing 152-bit (19-byte) elements (max possible 3449 elements)}}
   // addr32-warning at -2 {{array index 7073650413200313099 refers past the last possible element for an array in 32-bit address space containing 192-bit (24-byte) elements (max possible 178956970 elements)}}
   // addr64-warning at -3 {{array index 7073650413200313099 refers past the last possible element for an array in 64-bit address space containing 256-bit (32-byte) elements (max possible 576460752303423488 elements)}}
   ++p[7073650].c;
-  // addr16-warning at -1 {{array index 7073650 refers past the last possible element for an array in 16-bit address space containing 160-bit (20-byte) elements (max possible 3276 elements)}}
+  // addr16-warning at -1 {{array index 7073650 refers past the last possible element for an array in 16-bit address space containing 152-bit (19-byte) elements (max possible 3449 elements)}}
 }
 
 void f4(struct S *p) { // expected-note {{declared here}} addr16-note {{declared here}}
   p += 3;
   p += 7073650413200313099;
-  // addr16-warning at -1 {{the pointer incremented by 7073650413200313099 refers past the last possible element for an array in 16-bit address space containing 160-bit (20-byte) elements (max possible 3276 elements)}}
+  // addr16-warning at -1 {{the pointer incremented by 7073650413200313099 refers past the last possible element for an array in 16-bit address space containing 152-bit (19-byte) elements (max possible 3449 elements)}}
   // addr32-warning at -2 {{the pointer incremented by 7073650413200313099 refers past the last possible element for an array in 32-bit address space containing 192-bit (24-byte) elements (max possible 178956970 elements)}}
   // addr64-warning at -3 {{the pointer incremented by 7073650413200313099 refers past the last possible element for an array in 64-bit address space containing 256-bit (32-byte) elements (max possible 576460752303423488 elements)}}
   p += 7073650;
-  // addr16-warning at -1 {{the pointer incremented by 7073650 refers past the last possible element for an array in 16-bit address space containing 160-bit (20-byte) elements (max possible 3276 elements)}}
+  // addr16-warning at -1 {{the pointer incremented by 7073650 refers past the last possible element for an array in 16-bit address space containing 152-bit (19-byte) elements (max possible 3449 elements)}}
 }
 
 struct BQ {
@@ -63,7 +63,7 @@ struct BQ bq[]; // expected-warning {{tentative array definition}} addr16-note {
 void f5(void) {
   ++bq[0].bigblock[0].a;
   ++bq[1].bigblock[0].a;
-  // addr16-warning at -1 {{array index 1 refers past the last possible element for an array in 16-bit address space containing 524160-bit (65520-byte) elements (max possible 1 element)}}
+  // addr16-warning at -1 {{array index 1 refers past the last possible element for an array in 16-bit address space containing 497952-bit (62244-byte) elements (max possible 1 element)}}
 }
 
 void f6(void) {


        


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