NeededArgFPRs++;
else if (Field2Ty)
NeededArgGPRs++;
- return IsCandidate;
+ return true;
}
// Call getCoerceAndExpand for the two-element flattened struct described by
CharUnits Field2Align =
CharUnits::fromQuantity(getDataLayout().getABITypeAlignment(Field2Ty));
- CharUnits Field1Size =
+ CharUnits Field1End = Field1Off +
CharUnits::fromQuantity(getDataLayout().getTypeStoreSize(Field1Ty));
- CharUnits Field2OffNoPadNoPack = Field1Size.alignTo(Field2Align);
+ CharUnits Field2OffNoPadNoPack = Field1End.alignTo(Field2Align);
CharUnits Padding = CharUnits::Zero();
if (Field2Off > Field2OffNoPadNoPack)
Padding = Field2Off - Field2OffNoPadNoPack;
- else if (Field2Off != Field2Align && Field2Off > Field1Size)
- Padding = Field2Off - Field1Size;
+ else if (Field2Off != Field2Align && Field2Off > Field1End)
+ Padding = Field2Off - Field1End;
bool IsPacked = !Field2Off.isMultipleOf(Field2Align);
struct empty_float2 { struct {}; float f; float g; };
// CHECK: define float @_Z14f_empty_float212empty_float2(float %0, float %1)
-// FIXME: Extraneous padding before the second float
-// CHECK: { [4 x i8], float, [4 x i8], float }
+// CHECK: { [4 x i8], float, float }
float f_empty_float2(empty_float2 a) {
return a.g;
}
struct empty_double2 { struct {}; double f; double g; };
// CHECK: define double @_Z15f_empty_double213empty_double2(double %0, double %1)
-// FIXME: Extraneous padding before the second double
-// CHECK: { [8 x i8], double, [8 x i8], double }
+// CHECK: { [8 x i8], double, double }
double f_empty_double2(empty_double2 a) {
return a.g;
}
struct empty_double_float { struct {}; double f; float g; };
// CHECK: define double @_Z20f_empty_double_float18empty_double_float(double %0, float %1)
-// FIXME: Extraneous padding before the float
-// CHECK: { [8 x i8], double, [8 x i8], float }
+// CHECK: { [8 x i8], double, float }
double f_empty_double_float(empty_double_float a) {
return a.g;
}