mirror of
https://github.com/ziglang/zig.git
synced 2024-11-15 08:33:06 +00:00
8139c5a516
Reverted #1628 and changed the grammar+parser of the language to not allow certain expr where types are expected
452 lines
16 KiB
Zig
452 lines
16 KiB
Zig
const std = @import("std");
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const builtin = @import("builtin");
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const Compilation = @import("compilation.zig").Compilation;
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const llvm = @import("llvm.zig");
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const c = @import("c.zig");
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const ir = @import("ir.zig");
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const Value = @import("value.zig").Value;
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const Type = @import("type.zig").Type;
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const Scope = @import("scope.zig").Scope;
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const event = std.event;
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const assert = std.debug.assert;
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const DW = std.dwarf;
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const maxInt = std.math.maxInt;
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pub async fn renderToLlvm(comp: *Compilation, fn_val: *Value.Fn, code: *ir.Code) !void {
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fn_val.base.ref();
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defer fn_val.base.deref(comp);
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defer code.destroy(comp.gpa());
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var output_path = try await (async comp.createRandomOutputPath(comp.target.objFileExt()) catch unreachable);
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errdefer output_path.deinit();
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const llvm_handle = try comp.zig_compiler.getAnyLlvmContext();
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defer llvm_handle.release(comp.zig_compiler);
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const context = llvm_handle.node.data;
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const module = llvm.ModuleCreateWithNameInContext(comp.name.ptr(), context) orelse return error.OutOfMemory;
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defer llvm.DisposeModule(module);
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llvm.SetTarget(module, comp.llvm_triple.ptr());
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llvm.SetDataLayout(module, comp.target_layout_str);
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if (comp.target.getObjectFormat() == builtin.ObjectFormat.coff) {
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llvm.AddModuleCodeViewFlag(module);
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} else {
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llvm.AddModuleDebugInfoFlag(module);
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}
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const builder = llvm.CreateBuilderInContext(context) orelse return error.OutOfMemory;
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defer llvm.DisposeBuilder(builder);
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const dibuilder = llvm.CreateDIBuilder(module, true) orelse return error.OutOfMemory;
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defer llvm.DisposeDIBuilder(dibuilder);
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// Don't use ZIG_VERSION_STRING here. LLVM misparses it when it includes
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// the git revision.
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const producer = try std.Buffer.allocPrint(
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&code.arena.allocator,
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"zig {}.{}.{}",
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u32(c.ZIG_VERSION_MAJOR),
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u32(c.ZIG_VERSION_MINOR),
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u32(c.ZIG_VERSION_PATCH),
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);
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const flags = c"";
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const runtime_version = 0;
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const compile_unit_file = llvm.CreateFile(
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dibuilder,
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comp.name.ptr(),
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comp.root_package.root_src_dir.ptr(),
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) orelse return error.OutOfMemory;
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const is_optimized = comp.build_mode != builtin.Mode.Debug;
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const compile_unit = llvm.CreateCompileUnit(
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dibuilder,
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DW.LANG_C99,
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compile_unit_file,
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producer.ptr(),
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is_optimized,
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flags,
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runtime_version,
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c"",
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0,
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!comp.strip,
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) orelse return error.OutOfMemory;
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var ofile = ObjectFile{
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.comp = comp,
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.module = module,
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.builder = builder,
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.dibuilder = dibuilder,
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.context = context,
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.lock = event.Lock.init(comp.loop),
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.arena = &code.arena.allocator,
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};
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try renderToLlvmModule(&ofile, fn_val, code);
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// TODO module level assembly
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//if (buf_len(&g->global_asm) != 0) {
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// LLVMSetModuleInlineAsm(g->module, buf_ptr(&g->global_asm));
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//}
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llvm.DIBuilderFinalize(dibuilder);
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if (comp.verbose_llvm_ir) {
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std.debug.warn("raw module:\n");
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llvm.DumpModule(ofile.module);
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}
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// verify the llvm module when safety is on
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if (std.debug.runtime_safety) {
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var error_ptr: ?[*]u8 = null;
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_ = llvm.VerifyModule(ofile.module, llvm.AbortProcessAction, &error_ptr);
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}
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assert(comp.emit_file_type == Compilation.Emit.Binary); // TODO support other types
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const is_small = comp.build_mode == builtin.Mode.ReleaseSmall;
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const is_debug = comp.build_mode == builtin.Mode.Debug;
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var err_msg: [*]u8 = undefined;
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// TODO integrate this with evented I/O
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if (llvm.TargetMachineEmitToFile(
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comp.target_machine,
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module,
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output_path.ptr(),
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llvm.EmitBinary,
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&err_msg,
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is_debug,
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is_small,
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)) {
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if (std.debug.runtime_safety) {
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std.debug.panic("unable to write object file {}: {s}\n", output_path.toSliceConst(), err_msg);
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}
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return error.WritingObjectFileFailed;
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}
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//validate_inline_fns(g); TODO
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fn_val.containing_object = output_path;
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if (comp.verbose_llvm_ir) {
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std.debug.warn("optimized module:\n");
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llvm.DumpModule(ofile.module);
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}
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if (comp.verbose_link) {
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std.debug.warn("created {}\n", output_path.toSliceConst());
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}
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}
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pub const ObjectFile = struct {
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comp: *Compilation,
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module: llvm.ModuleRef,
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builder: llvm.BuilderRef,
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dibuilder: *llvm.DIBuilder,
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context: llvm.ContextRef,
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lock: event.Lock,
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arena: *std.mem.Allocator,
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fn gpa(self: *ObjectFile) *std.mem.Allocator {
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return self.comp.gpa();
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}
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};
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pub fn renderToLlvmModule(ofile: *ObjectFile, fn_val: *Value.Fn, code: *ir.Code) !void {
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// TODO audit more of codegen.cpp:fn_llvm_value and port more logic
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const llvm_fn_type = try fn_val.base.typ.getLlvmType(ofile.arena, ofile.context);
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const llvm_fn = llvm.AddFunction(
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ofile.module,
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fn_val.symbol_name.ptr(),
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llvm_fn_type,
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) orelse return error.OutOfMemory;
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const want_fn_safety = fn_val.block_scope.?.safety.get(ofile.comp);
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if (want_fn_safety and ofile.comp.haveLibC()) {
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try addLLVMFnAttr(ofile, llvm_fn, "sspstrong");
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try addLLVMFnAttrStr(ofile, llvm_fn, "stack-protector-buffer-size", "4");
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}
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// TODO
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//if (fn_val.align_stack) |align_stack| {
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// try addLLVMFnAttrInt(ofile, llvm_fn, "alignstack", align_stack);
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//}
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const fn_type = fn_val.base.typ.cast(Type.Fn).?;
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const fn_type_normal = &fn_type.key.data.Normal;
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try addLLVMFnAttr(ofile, llvm_fn, "nounwind");
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//add_uwtable_attr(g, fn_table_entry->llvm_value);
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try addLLVMFnAttr(ofile, llvm_fn, "nobuiltin");
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//if (g->build_mode == BuildModeDebug && fn_table_entry->fn_inline != FnInlineAlways) {
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// ZigLLVMAddFunctionAttr(fn_table_entry->llvm_value, "no-frame-pointer-elim", "true");
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// ZigLLVMAddFunctionAttr(fn_table_entry->llvm_value, "no-frame-pointer-elim-non-leaf", nullptr);
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//}
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//if (fn_table_entry->section_name) {
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// LLVMSetSection(fn_table_entry->llvm_value, buf_ptr(fn_table_entry->section_name));
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//}
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//if (fn_table_entry->align_bytes > 0) {
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// LLVMSetAlignment(fn_table_entry->llvm_value, (unsigned)fn_table_entry->align_bytes);
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//} else {
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// // We'd like to set the best alignment for the function here, but on Darwin LLVM gives
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// // "Cannot getTypeInfo() on a type that is unsized!" assertion failure when calling
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// // any of the functions for getting alignment. Not specifying the alignment should
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// // use the ABI alignment, which is fine.
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//}
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//if (!type_has_bits(return_type)) {
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// // nothing to do
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//} else if (type_is_codegen_pointer(return_type)) {
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// addLLVMAttr(fn_table_entry->llvm_value, 0, "nonnull");
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//} else if (handle_is_ptr(return_type) &&
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// calling_convention_does_first_arg_return(fn_type->data.fn.fn_type_id.cc))
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//{
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// addLLVMArgAttr(fn_table_entry->llvm_value, 0, "sret");
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// addLLVMArgAttr(fn_table_entry->llvm_value, 0, "nonnull");
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//}
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// TODO set parameter attributes
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// TODO
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//uint32_t err_ret_trace_arg_index = get_err_ret_trace_arg_index(g, fn_table_entry);
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//if (err_ret_trace_arg_index != UINT32_MAX) {
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// addLLVMArgAttr(fn_table_entry->llvm_value, (unsigned)err_ret_trace_arg_index, "nonnull");
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//}
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const cur_ret_ptr = if (fn_type_normal.return_type.handleIsPtr()) llvm.GetParam(llvm_fn, 0) else null;
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// build all basic blocks
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for (code.basic_block_list.toSlice()) |bb| {
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bb.llvm_block = llvm.AppendBasicBlockInContext(
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ofile.context,
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llvm_fn,
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bb.name_hint,
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) orelse return error.OutOfMemory;
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}
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const entry_bb = code.basic_block_list.at(0);
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llvm.PositionBuilderAtEnd(ofile.builder, entry_bb.llvm_block);
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llvm.ClearCurrentDebugLocation(ofile.builder);
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// TODO set up error return tracing
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// TODO allocate temporary stack values
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const var_list = fn_type.non_key.Normal.variable_list.toSliceConst();
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// create debug variable declarations for variables and allocate all local variables
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for (var_list) |var_scope, i| {
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const var_type = switch (var_scope.data) {
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Scope.Var.Data.Const => unreachable,
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Scope.Var.Data.Param => |param| param.typ,
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};
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// if (!type_has_bits(var->value->type)) {
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// continue;
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// }
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// if (ir_get_var_is_comptime(var))
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// continue;
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// if (type_requires_comptime(var->value->type))
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// continue;
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// if (var->src_arg_index == SIZE_MAX) {
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// var->value_ref = build_alloca(g, var->value->type, buf_ptr(&var->name), var->align_bytes);
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// var->di_loc_var = ZigLLVMCreateAutoVariable(g->dbuilder, get_di_scope(g, var->parent_scope),
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// buf_ptr(&var->name), import->di_file, (unsigned)(var->decl_node->line + 1),
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// var->value->type->di_type, !g->strip_debug_symbols, 0);
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// } else {
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// it's a parameter
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// assert(var->gen_arg_index != SIZE_MAX);
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// TypeTableEntry *gen_type;
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// FnGenParamInfo *gen_info = &fn_table_entry->type_entry->data.fn.gen_param_info[var->src_arg_index];
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if (var_type.handleIsPtr()) {
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// if (gen_info->is_byval) {
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// gen_type = var->value->type;
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// } else {
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// gen_type = gen_info->type;
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// }
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var_scope.data.Param.llvm_value = llvm.GetParam(llvm_fn, @intCast(c_uint, i));
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} else {
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// gen_type = var->value->type;
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var_scope.data.Param.llvm_value = try renderAlloca(ofile, var_type, var_scope.name, Type.Pointer.Align.Abi);
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}
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// if (var->decl_node) {
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// var->di_loc_var = ZigLLVMCreateParameterVariable(g->dbuilder, get_di_scope(g, var->parent_scope),
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// buf_ptr(&var->name), import->di_file,
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// (unsigned)(var->decl_node->line + 1),
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// gen_type->di_type, !g->strip_debug_symbols, 0, (unsigned)(var->gen_arg_index + 1));
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// }
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// }
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}
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// TODO finishing error return trace setup. we have to do this after all the allocas.
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// create debug variable declarations for parameters
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// rely on the first variables in the variable_list being parameters.
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//size_t next_var_i = 0;
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for (fn_type.key.data.Normal.params) |param, i| {
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//FnGenParamInfo *info = &fn_table_entry->type_entry->data.fn.gen_param_info[param_i];
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//if (info->gen_index == SIZE_MAX)
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// continue;
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const scope_var = var_list[i];
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//assert(variable->src_arg_index != SIZE_MAX);
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//next_var_i += 1;
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//assert(variable);
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//assert(variable->value_ref);
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if (!param.typ.handleIsPtr()) {
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//clear_debug_source_node(g);
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const llvm_param = llvm.GetParam(llvm_fn, @intCast(c_uint, i));
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_ = renderStoreUntyped(
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ofile,
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llvm_param,
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scope_var.data.Param.llvm_value,
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Type.Pointer.Align.Abi,
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Type.Pointer.Vol.Non,
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);
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}
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//if (variable->decl_node) {
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// gen_var_debug_decl(g, variable);
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//}
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}
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for (code.basic_block_list.toSlice()) |current_block| {
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llvm.PositionBuilderAtEnd(ofile.builder, current_block.llvm_block);
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for (current_block.instruction_list.toSlice()) |instruction| {
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if (instruction.ref_count == 0 and !instruction.hasSideEffects()) continue;
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instruction.llvm_value = try instruction.render(ofile, fn_val);
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}
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current_block.llvm_exit_block = llvm.GetInsertBlock(ofile.builder);
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}
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}
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fn addLLVMAttr(
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ofile: *ObjectFile,
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val: llvm.ValueRef,
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attr_index: llvm.AttributeIndex,
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attr_name: []const u8,
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) !void {
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const kind_id = llvm.GetEnumAttributeKindForName(attr_name.ptr, attr_name.len);
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assert(kind_id != 0);
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const llvm_attr = llvm.CreateEnumAttribute(ofile.context, kind_id, 0) orelse return error.OutOfMemory;
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llvm.AddAttributeAtIndex(val, attr_index, llvm_attr);
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}
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fn addLLVMAttrStr(
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ofile: *ObjectFile,
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val: llvm.ValueRef,
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attr_index: llvm.AttributeIndex,
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attr_name: []const u8,
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attr_val: []const u8,
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) !void {
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const llvm_attr = llvm.CreateStringAttribute(
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ofile.context,
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attr_name.ptr,
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@intCast(c_uint, attr_name.len),
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attr_val.ptr,
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@intCast(c_uint, attr_val.len),
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) orelse return error.OutOfMemory;
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llvm.AddAttributeAtIndex(val, attr_index, llvm_attr);
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}
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fn addLLVMAttrInt(
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val: llvm.ValueRef,
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attr_index: llvm.AttributeIndex,
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attr_name: []const u8,
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attr_val: u64,
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) !void {
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const kind_id = llvm.GetEnumAttributeKindForName(attr_name.ptr, attr_name.len);
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assert(kind_id != 0);
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const llvm_attr = llvm.CreateEnumAttribute(ofile.context, kind_id, attr_val) orelse return error.OutOfMemory;
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llvm.AddAttributeAtIndex(val, attr_index, llvm_attr);
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}
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fn addLLVMFnAttr(ofile: *ObjectFile, fn_val: llvm.ValueRef, attr_name: []const u8) !void {
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return addLLVMAttr(ofile, fn_val, maxInt(llvm.AttributeIndex), attr_name);
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}
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fn addLLVMFnAttrStr(ofile: *ObjectFile, fn_val: llvm.ValueRef, attr_name: []const u8, attr_val: []const u8) !void {
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return addLLVMAttrStr(ofile, fn_val, maxInt(llvm.AttributeIndex), attr_name, attr_val);
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}
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fn addLLVMFnAttrInt(ofile: *ObjectFile, fn_val: llvm.ValueRef, attr_name: []const u8, attr_val: u64) !void {
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return addLLVMAttrInt(ofile, fn_val, maxInt(llvm.AttributeIndex), attr_name, attr_val);
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}
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fn renderLoadUntyped(
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ofile: *ObjectFile,
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ptr: llvm.ValueRef,
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alignment: Type.Pointer.Align,
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vol: Type.Pointer.Vol,
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name: [*]const u8,
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) !llvm.ValueRef {
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const result = llvm.BuildLoad(ofile.builder, ptr, name) orelse return error.OutOfMemory;
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switch (vol) {
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Type.Pointer.Vol.Non => {},
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Type.Pointer.Vol.Volatile => llvm.SetVolatile(result, 1),
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}
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llvm.SetAlignment(result, resolveAlign(ofile, alignment, llvm.GetElementType(llvm.TypeOf(ptr))));
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return result;
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}
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fn renderLoad(ofile: *ObjectFile, ptr: llvm.ValueRef, ptr_type: *Type.Pointer, name: [*]const u8) !llvm.ValueRef {
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return renderLoadUntyped(ofile, ptr, ptr_type.key.alignment, ptr_type.key.vol, name);
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}
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pub fn getHandleValue(ofile: *ObjectFile, ptr: llvm.ValueRef, ptr_type: *Type.Pointer) !?llvm.ValueRef {
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const child_type = ptr_type.key.child_type;
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if (!child_type.hasBits()) {
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return null;
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}
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if (child_type.handleIsPtr()) {
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return ptr;
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}
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return try renderLoad(ofile, ptr, ptr_type, c"");
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}
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pub fn renderStoreUntyped(
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ofile: *ObjectFile,
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value: llvm.ValueRef,
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ptr: llvm.ValueRef,
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alignment: Type.Pointer.Align,
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vol: Type.Pointer.Vol,
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) !llvm.ValueRef {
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const result = llvm.BuildStore(ofile.builder, value, ptr) orelse return error.OutOfMemory;
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switch (vol) {
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Type.Pointer.Vol.Non => {},
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Type.Pointer.Vol.Volatile => llvm.SetVolatile(result, 1),
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}
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llvm.SetAlignment(result, resolveAlign(ofile, alignment, llvm.TypeOf(value)));
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return result;
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}
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pub fn renderStore(
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ofile: *ObjectFile,
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value: llvm.ValueRef,
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ptr: llvm.ValueRef,
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ptr_type: *Type.Pointer,
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) !llvm.ValueRef {
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return renderStoreUntyped(ofile, value, ptr, ptr_type.key.alignment, ptr_type.key.vol);
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}
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pub fn renderAlloca(
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ofile: *ObjectFile,
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var_type: *Type,
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name: []const u8,
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alignment: Type.Pointer.Align,
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) !llvm.ValueRef {
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const llvm_var_type = try var_type.getLlvmType(ofile.arena, ofile.context);
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const name_with_null = try std.cstr.addNullByte(ofile.arena, name);
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const result = llvm.BuildAlloca(ofile.builder, llvm_var_type, name_with_null.ptr) orelse return error.OutOfMemory;
|
|
llvm.SetAlignment(result, resolveAlign(ofile, alignment, llvm_var_type));
|
|
return result;
|
|
}
|
|
|
|
pub fn resolveAlign(ofile: *ObjectFile, alignment: Type.Pointer.Align, llvm_type: llvm.TypeRef) u32 {
|
|
return switch (alignment) {
|
|
Type.Pointer.Align.Abi => return llvm.ABIAlignmentOfType(ofile.comp.target_data_ref, llvm_type),
|
|
Type.Pointer.Align.Override => |a| a,
|
|
};
|
|
}
|