Merge pull request #3278 from LemonBoy/struct-gen

A few steps towards AArch64 & ARM passing the behavior tests

src/analyze.cpp

@@ -7633,6 +7633,11 @@ static void resolve_llvm_types_slice(CodeGen *g, ZigType *type, ResolveStatus wa
     type->data.structure.resolve_status = ResolveStatusLLVMFull;
 }
 
+static LLVMTypeRef get_llvm_array_type(unsigned byte_size) {
+    return byte_size == 1 ?
+        LLVMInt8Type() : LLVMArrayType(LLVMInt8Type(), byte_size);
+}
+
 static void resolve_llvm_types_struct(CodeGen *g, ZigType *struct_type, ResolveStatus wanted_resolve_status,
         ZigType *async_frame_type)
 {
@@ -7730,9 +7735,8 @@ static void resolve_llvm_types_struct(CodeGen *g, ZigType *struct_type, ResolveS
                 size_t full_abi_size = get_abi_size_bytes(full_bit_count, g->pointer_size_bytes);
                 if (full_abi_size * 8 == full_bit_count) {
                     // next field recovers ABI alignment
-                    element_types[gen_field_index] = LLVMIntType((unsigned)(full_bit_count));
+                    element_types[gen_field_index] = get_llvm_array_type(full_abi_size);
                     gen_field_index += 1;
-
                     first_packed_bits_offset_misalign = SIZE_MAX;
                 }
             } else if (get_abi_size_bytes(field_type->size_in_bits, g->pointer_size_bytes) * 8 != field_size_in_bits) {
@@ -7740,6 +7744,8 @@ static void resolve_llvm_types_struct(CodeGen *g, ZigType *struct_type, ResolveS
             } else {
                 // This is a byte-aligned field (both start and end) in a packed struct.
                 element_types[gen_field_index] = get_llvm_type(g, field_type);
+                assert(get_abi_size_bytes(field_type->size_in_bits, g->pointer_size_bytes) ==
+                       LLVMStoreSizeOfType(g->target_data_ref, element_types[gen_field_index]));
                 gen_field_index += 1;
             }
             packed_bits_offset = next_packed_bits_offset;
@@ -7802,11 +7808,12 @@ static void resolve_llvm_types_struct(CodeGen *g, ZigType *struct_type, ResolveS
     if (first_packed_bits_offset_misalign != SIZE_MAX) {
         size_t full_bit_count = packed_bits_offset - first_packed_bits_offset_misalign;
         size_t full_abi_size = get_abi_size_bytes(full_bit_count, g->pointer_size_bytes);
-        element_types[gen_field_index] = LLVMIntType((unsigned)full_abi_size * 8);
+        element_types[gen_field_index] = get_llvm_array_type(full_abi_size);
         gen_field_index += 1;
     }
 
     if (type_has_bits(struct_type)) {
+        assert(struct_type->data.structure.gen_field_count == gen_field_index);
         LLVMStructSetBody(struct_type->llvm_type, element_types,
                 (unsigned)struct_type->data.structure.gen_field_count, packed);
     }

src/codegen.cpp

@@ -1644,7 +1644,9 @@ static void gen_assign_raw(CodeGen *g, LLVMValueRef ptr, ZigType *ptr_type,
 
     bool big_endian = g->is_big_endian;
 
-    LLVMValueRef containing_int = gen_load(g, ptr, ptr_type, "");
+    LLVMTypeRef int_ptr_ty = LLVMPointerType(LLVMIntType(host_int_bytes * 8), 0);
+    LLVMValueRef int_ptr = LLVMBuildBitCast(g->builder, ptr, int_ptr_ty, "");
+    LLVMValueRef containing_int = gen_load(g, int_ptr, ptr_type, "");
     uint32_t host_bit_count = LLVMGetIntTypeWidth(LLVMTypeOf(containing_int));
     assert(host_bit_count == host_int_bytes * 8);
     uint32_t size_in_bits = type_size_bits(g, child_type);
@@ -1668,7 +1670,7 @@ static void gen_assign_raw(CodeGen *g, LLVMValueRef ptr, ZigType *ptr_type,
     LLVMValueRef shifted_value = LLVMBuildShl(g->builder, extended_value, shift_amt_val, "");
     LLVMValueRef ored_value = LLVMBuildOr(g->builder, shifted_value, anded_containing_int, "");
 
-    gen_store(g, ored_value, ptr, ptr_type);
+    gen_store(g, ored_value, int_ptr, ptr_type);
 }
 
 static void gen_var_debug_decl(CodeGen *g, ZigVar *var) {
@@ -3396,7 +3398,10 @@ static LLVMValueRef ir_render_load_ptr(CodeGen *g, IrExecutable *executable, IrI
 
     bool big_endian = g->is_big_endian;
 
-    LLVMValueRef containing_int = gen_load(g, ptr, ptr_type, "");
+    LLVMTypeRef int_ptr_ty = LLVMPointerType(LLVMIntType(host_int_bytes * 8), 0);
+    LLVMValueRef int_ptr = LLVMBuildBitCast(g->builder, ptr, int_ptr_ty, "");
+    LLVMValueRef containing_int = gen_load(g, int_ptr, ptr_type, "");
+
     uint32_t host_bit_count = LLVMGetIntTypeWidth(LLVMTypeOf(containing_int));
     assert(host_bit_count == host_int_bytes * 8);
     uint32_t size_in_bits = type_size_bits(g, child_type);
@@ -3722,7 +3727,8 @@ static LLVMValueRef get_new_stack_addr(CodeGen *g, LLVMValueRef new_stack) {
 
     LLVMValueRef ptr_addr = LLVMBuildPtrToInt(g->builder, ptr_value, LLVMTypeOf(len_value), "");
     LLVMValueRef end_addr = LLVMBuildNUWAdd(g->builder, ptr_addr, len_value, "");
-    LLVMValueRef align_amt = LLVMConstInt(LLVMTypeOf(end_addr), get_abi_alignment(g, g->builtin_types.entry_usize), false);
+    const unsigned alignment_factor = ZigLLVMDataLayoutGetStackAlignment(g->target_data_ref);
+    LLVMValueRef align_amt = LLVMConstInt(LLVMTypeOf(end_addr), alignment_factor, false);
     LLVMValueRef align_adj = LLVMBuildURem(g->builder, end_addr, align_amt, "");
     return LLVMBuildNUWSub(g->builder, end_addr, align_adj, "");
 }
@@ -6723,8 +6729,10 @@ check: switch (const_val->special) {
                             make_unnamed_struct = make_unnamed_struct || is_llvm_value_unnamed_type(g, field_val->type, val);
                         } else {
                             bool is_big_endian = g->is_big_endian; // TODO get endianness from struct type
-                            LLVMTypeRef big_int_type_ref = LLVMStructGetTypeAtIndex(get_llvm_type(g, type_entry),
+                            LLVMTypeRef field_ty = LLVMStructGetTypeAtIndex(get_llvm_type(g, type_entry),
                                     (unsigned)type_struct_field->gen_index);
+                            const size_t size_in_bytes = LLVMStoreSizeOfType(g->target_data_ref, field_ty);
+                            LLVMTypeRef big_int_type_ref = LLVMIntType(size_in_bytes * 8);
                             LLVMValueRef val = LLVMConstInt(big_int_type_ref, 0, false);
                             size_t used_bits = 0;
                             for (size_t i = src_field_index; i < src_field_index_end; i += 1) {
@@ -6747,7 +6755,22 @@ check: switch (const_val->special) {
                                     used_bits += packed_bits_size;
                                 }
                             }
-                            fields[type_struct_field->gen_index] = val;
+                            if (LLVMGetTypeKind(field_ty) != LLVMArrayTypeKind) {
+                                assert(LLVMGetTypeKind(field_ty) == LLVMIntegerTypeKind);
+                                fields[type_struct_field->gen_index] = val;
+                            } else {
+                                const LLVMValueRef MASK = LLVMConstInt(LLVMInt8Type(), 255, false);
+                                const LLVMValueRef AMT = LLVMConstInt(LLVMInt8Type(), 8, false);
+
+                                LLVMValueRef *values = allocate<LLVMValueRef>(size_in_bytes);
+                                for (size_t i = 0; i < size_in_bytes; i++) {
+                                    const size_t idx = is_big_endian ? size_in_bytes - 1 - i : i;
+                                    values[idx] = LLVMConstTruncOrBitCast(LLVMConstAnd(val, MASK), LLVMInt8Type());
+                                    val = LLVMConstLShr(val, AMT);
+                                }
+
+                                fields[type_struct_field->gen_index] = LLVMConstArray(LLVMInt8Type(), values, size_in_bytes);
+                            }
                         }
 
                         src_field_index = src_field_index_end;

src/zig_llvm.cpp

@@ -149,6 +149,10 @@ LLVMTargetMachineRef ZigLLVMCreateTargetMachine(LLVMTargetRef T, const char *Tri
     return reinterpret_cast<LLVMTargetMachineRef>(TM);
 }
 
+unsigned ZigLLVMDataLayoutGetStackAlignment(LLVMTargetDataRef TD) {
+    return unwrap(TD)->getStackAlignment();
+}
+
 bool ZigLLVMTargetMachineEmitToFile(LLVMTargetMachineRef targ_machine_ref, LLVMModuleRef module_ref,
         const char *filename, ZigLLVM_EmitOutputType output_type, char **error_message, bool is_debug,
         bool is_small, bool time_report)

src/zig_llvm.h

@@ -469,4 +469,6 @@ ZIG_EXTERN_C void ZigLLVMGetNativeTarget(enum ZigLLVM_ArchType *arch_type, enum
         enum ZigLLVM_VendorType *vendor_type, enum ZigLLVM_OSType *os_type, enum ZigLLVM_EnvironmentType *environ_type,
         enum ZigLLVM_ObjectFormatType *oformat);
 
+ZIG_EXTERN_C unsigned ZigLLVMDataLayoutGetStackAlignment(LLVMTargetDataRef TD);
+
 #endif

test/stage1/behavior.zig

@@ -72,7 +72,9 @@ comptime {
     _ = @import("behavior/misc.zig");
     _ = @import("behavior/muladd.zig");
     _ = @import("behavior/namespace_depends_on_compile_var.zig");
-    _ = @import("behavior/new_stack_call.zig");
+    // See #3268
+    if (@import("builtin").arch != .aarch64)
+        _ = @import("behavior/new_stack_call.zig");
     _ = @import("behavior/null.zig");
     _ = @import("behavior/optional.zig");
     _ = @import("behavior/pointers.zig");

test/stage1/behavior/error.zig

@@ -361,7 +361,8 @@ test "nested catch" {
 test "implicit cast to optional to error union to return result loc" {
     const S = struct {
         fn entry() void {
-            if (func(undefined)) |opt| {
+            var x: Foo = undefined;
+            if (func(&x)) |opt| {
                 expect(opt != null);
             } else |_| @panic("expected non error");
         }

test/stage1/behavior/struct.zig

@@ -658,3 +658,15 @@ test "struct field init with catch" {
     S.doTheTest();
     comptime S.doTheTest();
 }
+
+test "packed struct with non-ABI-aligned field" {
+    const S = packed struct {
+        x: u9,
+        y: u183,
+    };
+    var s: S = undefined;
+    s.x = 1;
+    s.y = 42;
+    expect(s.x == 1);
+    expect(s.y == 42);
+}

test/stage1/behavior/widening.zig

@@ -23,5 +23,7 @@ test "float widening" {
     var b: f32 = a;
     var c: f64 = b;
     var d: f128 = c;
-    expect(d == a);
+    expect(a == b);
+    expect(b == c);
+    expect(c == d);
 }