const std = @import("std"); const mem = std.mem; const assert = std.debug.assert; const Allocator = std.mem.Allocator; const fs = std.fs; const C = @This(); const build_options = @import("build_options"); const Module = @import("../Module.zig"); const InternPool = @import("../InternPool.zig"); const Alignment = InternPool.Alignment; const Compilation = @import("../Compilation.zig"); const codegen = @import("../codegen/c.zig"); const link = @import("../link.zig"); const trace = @import("../tracy.zig").trace; const Type = @import("../type.zig").Type; const Value = @import("../Value.zig"); const Air = @import("../Air.zig"); const Liveness = @import("../Liveness.zig"); pub const base_tag: link.File.Tag = .c; pub const zig_h = "#include \"zig.h\"\n"; base: link.File, /// This linker backend does not try to incrementally link output C source code. /// Instead, it tracks all declarations in this table, and iterates over it /// in the flush function, stitching pre-rendered pieces of C code together. decl_table: std.AutoArrayHashMapUnmanaged(InternPool.DeclIndex, DeclBlock) = .{}, /// All the string bytes of rendered C code, all squished into one array. /// While in progress, a separate buffer is used, and then when finished, the /// buffer is copied into this one. string_bytes: std.ArrayListUnmanaged(u8) = .{}, /// Tracks all the anonymous decls that are used by all the decls so they can /// be rendered during flush(). anon_decls: std.AutoArrayHashMapUnmanaged(InternPool.Index, DeclBlock) = .{}, /// Sparse set of anon decls that are overaligned. Underaligned anon decls are /// lowered the same as ABI-aligned anon decls. The keys here are a subset of /// the keys of `anon_decls`. aligned_anon_decls: std.AutoArrayHashMapUnmanaged(InternPool.Index, Alignment) = .{}, /// Optimization, `updateDecl` reuses this buffer rather than creating a new /// one with every call. fwd_decl_buf: std.ArrayListUnmanaged(u8) = .{}, /// Optimization, `updateDecl` reuses this buffer rather than creating a new /// one with every call. code_buf: std.ArrayListUnmanaged(u8) = .{}, /// Optimization, `flush` reuses this buffer rather than creating a new /// one with every call. lazy_fwd_decl_buf: std.ArrayListUnmanaged(u8) = .{}, /// Optimization, `flush` reuses this buffer rather than creating a new /// one with every call. lazy_code_buf: std.ArrayListUnmanaged(u8) = .{}, /// A reference into `string_bytes`. const String = extern struct { start: u32, len: u32, const empty: String = .{ .start = 0, .len = 0, }; }; /// Per-declaration data. pub const DeclBlock = struct { code: String = String.empty, fwd_decl: String = String.empty, /// Each `Decl` stores a set of used `CType`s. In `flush()`, we iterate /// over each `Decl` and generate the definition for each used `CType` once. ctypes: codegen.CType.Store = .{}, /// Key and Value storage use the ctype arena. lazy_fns: codegen.LazyFnMap = .{}, fn deinit(db: *DeclBlock, gpa: Allocator) void { db.lazy_fns.deinit(gpa); db.ctypes.deinit(gpa); db.* = undefined; } }; pub fn getString(this: C, s: String) []const u8 { return this.string_bytes.items[s.start..][0..s.len]; } pub fn addString(this: *C, s: []const u8) Allocator.Error!String { const comp = this.base.comp; const gpa = comp.gpa; try this.string_bytes.appendSlice(gpa, s); return .{ .start = @intCast(this.string_bytes.items.len - s.len), .len = @intCast(s.len), }; } pub fn open( arena: Allocator, comp: *Compilation, emit: Compilation.Emit, options: link.File.OpenOptions, ) !*C { return createEmpty(arena, comp, emit, options); } pub fn createEmpty( arena: Allocator, comp: *Compilation, emit: Compilation.Emit, options: link.File.OpenOptions, ) !*C { const target = comp.root_mod.resolved_target.result; assert(target.ofmt == .c); const optimize_mode = comp.root_mod.optimize_mode; const use_lld = build_options.have_llvm and comp.config.use_lld; const use_llvm = comp.config.use_llvm; const output_mode = comp.config.output_mode; // These are caught by `Compilation.Config.resolve`. assert(!use_lld); assert(!use_llvm); const file = try emit.directory.handle.createFile(emit.sub_path, .{ // Truncation is done on `flush`. .truncate = false, }); errdefer file.close(); const c_file = try arena.create(C); c_file.* = .{ .base = .{ .tag = .c, .comp = comp, .emit = emit, .gc_sections = options.gc_sections orelse (optimize_mode != .Debug and output_mode != .Obj), .print_gc_sections = options.print_gc_sections, .stack_size = options.stack_size orelse 16777216, .allow_shlib_undefined = options.allow_shlib_undefined orelse false, .file = file, .disable_lld_caching = options.disable_lld_caching, .build_id = options.build_id, .rpath_list = options.rpath_list, }, }; return c_file; } pub fn deinit(self: *C) void { const gpa = self.base.comp.gpa; for (self.decl_table.values()) |*db| { db.deinit(gpa); } self.decl_table.deinit(gpa); for (self.anon_decls.values()) |*db| { db.deinit(gpa); } self.anon_decls.deinit(gpa); self.aligned_anon_decls.deinit(gpa); self.string_bytes.deinit(gpa); self.fwd_decl_buf.deinit(gpa); self.code_buf.deinit(gpa); self.lazy_fwd_decl_buf.deinit(gpa); self.lazy_code_buf.deinit(gpa); } pub fn freeDecl(self: *C, decl_index: InternPool.DeclIndex) void { const gpa = self.base.comp.gpa; if (self.decl_table.fetchSwapRemove(decl_index)) |kv| { var decl_block = kv.value; decl_block.deinit(gpa); } } pub fn updateFunc( self: *C, module: *Module, func_index: InternPool.Index, air: Air, liveness: Liveness, ) !void { const gpa = self.base.comp.gpa; const func = module.funcInfo(func_index); const decl_index = func.owner_decl; const decl = module.declPtr(decl_index); const gop = try self.decl_table.getOrPut(gpa, decl_index); if (!gop.found_existing) gop.value_ptr.* = .{}; const ctypes = &gop.value_ptr.ctypes; const lazy_fns = &gop.value_ptr.lazy_fns; const fwd_decl = &self.fwd_decl_buf; const code = &self.code_buf; ctypes.clearRetainingCapacity(gpa); lazy_fns.clearRetainingCapacity(); fwd_decl.clearRetainingCapacity(); code.clearRetainingCapacity(); var function: codegen.Function = .{ .value_map = codegen.CValueMap.init(gpa), .air = air, .liveness = liveness, .func_index = func_index, .object = .{ .dg = .{ .gpa = gpa, .module = module, .error_msg = null, .pass = .{ .decl = decl_index }, .is_naked_fn = decl.ty.fnCallingConvention(module) == .Naked, .fwd_decl = fwd_decl.toManaged(gpa), .ctypes = ctypes.*, .anon_decl_deps = self.anon_decls, .aligned_anon_decls = self.aligned_anon_decls, }, .code = code.toManaged(gpa), .indent_writer = undefined, // set later so we can get a pointer to object.code }, .lazy_fns = lazy_fns.*, }; function.object.indent_writer = .{ .underlying_writer = function.object.code.writer() }; defer { self.anon_decls = function.object.dg.anon_decl_deps; self.aligned_anon_decls = function.object.dg.aligned_anon_decls; fwd_decl.* = function.object.dg.fwd_decl.moveToUnmanaged(); code.* = function.object.code.moveToUnmanaged(); function.deinit(); } codegen.genFunc(&function) catch |err| switch (err) { error.AnalysisFail => { try module.failed_decls.put(gpa, decl_index, function.object.dg.error_msg.?); return; }, else => |e| return e, }; ctypes.* = function.object.dg.ctypes.move(); lazy_fns.* = function.lazy_fns.move(); // Free excess allocated memory for this Decl. ctypes.shrinkAndFree(gpa, ctypes.count()); lazy_fns.shrinkAndFree(gpa, lazy_fns.count()); gop.value_ptr.code = try self.addString(function.object.code.items); gop.value_ptr.fwd_decl = try self.addString(function.object.dg.fwd_decl.items); } fn updateAnonDecl(self: *C, module: *Module, i: usize) !void { const gpa = self.base.comp.gpa; const anon_decl = self.anon_decls.keys()[i]; const fwd_decl = &self.fwd_decl_buf; const code = &self.code_buf; fwd_decl.clearRetainingCapacity(); code.clearRetainingCapacity(); var object: codegen.Object = .{ .dg = .{ .gpa = gpa, .module = module, .error_msg = null, .pass = .{ .anon = anon_decl }, .is_naked_fn = false, .fwd_decl = fwd_decl.toManaged(gpa), .ctypes = .{}, .anon_decl_deps = self.anon_decls, .aligned_anon_decls = self.aligned_anon_decls, }, .code = code.toManaged(gpa), .indent_writer = undefined, // set later so we can get a pointer to object.code }; object.indent_writer = .{ .underlying_writer = object.code.writer() }; defer { self.anon_decls = object.dg.anon_decl_deps; self.aligned_anon_decls = object.dg.aligned_anon_decls; object.dg.ctypes.deinit(object.dg.gpa); fwd_decl.* = object.dg.fwd_decl.moveToUnmanaged(); code.* = object.code.moveToUnmanaged(); } const tv: @import("../TypedValue.zig") = .{ .ty = Type.fromInterned(module.intern_pool.typeOf(anon_decl)), .val = Value.fromInterned(anon_decl), }; const c_value: codegen.CValue = .{ .constant = anon_decl }; const alignment: Alignment = self.aligned_anon_decls.get(anon_decl) orelse .none; codegen.genDeclValue(&object, tv, false, c_value, alignment, .none) catch |err| switch (err) { error.AnalysisFail => { @panic("TODO: C backend AnalysisFail on anonymous decl"); //try module.failed_decls.put(gpa, decl_index, object.dg.error_msg.?); //return; }, else => |e| return e, }; // Free excess allocated memory for this Decl. object.dg.ctypes.shrinkAndFree(gpa, object.dg.ctypes.count()); object.dg.anon_decl_deps.values()[i] = .{ .code = try self.addString(object.code.items), .fwd_decl = try self.addString(object.dg.fwd_decl.items), .ctypes = object.dg.ctypes.move(), }; } pub fn updateDecl(self: *C, module: *Module, decl_index: InternPool.DeclIndex) !void { const tracy = trace(@src()); defer tracy.end(); const gpa = self.base.comp.gpa; const gop = try self.decl_table.getOrPut(gpa, decl_index); if (!gop.found_existing) { gop.value_ptr.* = .{}; } const ctypes = &gop.value_ptr.ctypes; const fwd_decl = &self.fwd_decl_buf; const code = &self.code_buf; ctypes.clearRetainingCapacity(gpa); fwd_decl.clearRetainingCapacity(); code.clearRetainingCapacity(); var object: codegen.Object = .{ .dg = .{ .gpa = gpa, .module = module, .error_msg = null, .pass = .{ .decl = decl_index }, .is_naked_fn = false, .fwd_decl = fwd_decl.toManaged(gpa), .ctypes = ctypes.*, .anon_decl_deps = self.anon_decls, .aligned_anon_decls = self.aligned_anon_decls, }, .code = code.toManaged(gpa), .indent_writer = undefined, // set later so we can get a pointer to object.code }; object.indent_writer = .{ .underlying_writer = object.code.writer() }; defer { self.anon_decls = object.dg.anon_decl_deps; self.aligned_anon_decls = object.dg.aligned_anon_decls; object.dg.ctypes.deinit(object.dg.gpa); fwd_decl.* = object.dg.fwd_decl.moveToUnmanaged(); code.* = object.code.moveToUnmanaged(); } codegen.genDecl(&object) catch |err| switch (err) { error.AnalysisFail => { try module.failed_decls.put(gpa, decl_index, object.dg.error_msg.?); return; }, else => |e| return e, }; ctypes.* = object.dg.ctypes.move(); // Free excess allocated memory for this Decl. ctypes.shrinkAndFree(gpa, ctypes.count()); gop.value_ptr.code = try self.addString(object.code.items); gop.value_ptr.fwd_decl = try self.addString(object.dg.fwd_decl.items); } pub fn updateDeclLineNumber(self: *C, module: *Module, decl_index: InternPool.DeclIndex) !void { // The C backend does not have the ability to fix line numbers without re-generating // the entire Decl. _ = self; _ = module; _ = decl_index; } pub fn flush(self: *C, arena: Allocator, prog_node: *std.Progress.Node) !void { return self.flushModule(arena, prog_node); } fn abiDefines(self: *C, target: std.Target) !std.ArrayList(u8) { const gpa = self.base.comp.gpa; var defines = std.ArrayList(u8).init(gpa); errdefer defines.deinit(); const writer = defines.writer(); switch (target.abi) { .msvc => try writer.writeAll("#define ZIG_TARGET_ABI_MSVC\n"), else => {}, } try writer.print("#define ZIG_TARGET_MAX_INT_ALIGNMENT {d}\n", .{target.maxIntAlignment()}); return defines; } pub fn flushModule(self: *C, arena: Allocator, prog_node: *std.Progress.Node) !void { _ = arena; // Has the same lifetime as the call to Compilation.update. const tracy = trace(@src()); defer tracy.end(); var sub_prog_node = prog_node.start("Flush Module", 0); sub_prog_node.activate(); defer sub_prog_node.end(); const comp = self.base.comp; const gpa = comp.gpa; const module = self.base.comp.module.?; { var i: usize = 0; while (i < self.anon_decls.count()) : (i += 1) { try updateAnonDecl(self, module, i); } } // This code path happens exclusively with -ofmt=c. The flush logic for // emit-h is in `flushEmitH` below. var f: Flush = .{}; defer f.deinit(gpa); const abi_defines = try self.abiDefines(module.getTarget()); defer abi_defines.deinit(); // Covers defines, zig.h, ctypes, asm, lazy fwd. try f.all_buffers.ensureUnusedCapacity(gpa, 5); f.appendBufAssumeCapacity(abi_defines.items); f.appendBufAssumeCapacity(zig_h); const ctypes_index = f.all_buffers.items.len; f.all_buffers.items.len += 1; { var asm_buf = f.asm_buf.toManaged(gpa); defer f.asm_buf = asm_buf.moveToUnmanaged(); try codegen.genGlobalAsm(module, asm_buf.writer()); f.appendBufAssumeCapacity(asm_buf.items); } const lazy_index = f.all_buffers.items.len; f.all_buffers.items.len += 1; self.lazy_fwd_decl_buf.clearRetainingCapacity(); self.lazy_code_buf.clearRetainingCapacity(); try self.flushErrDecls(&f.lazy_ctypes); // Unlike other backends, the .c code we are emitting has order-dependent decls. // `CType`s, forward decls, and non-functions first. { var export_names: std.AutoHashMapUnmanaged(InternPool.NullTerminatedString, void) = .{}; defer export_names.deinit(gpa); try export_names.ensureTotalCapacity(gpa, @intCast(module.decl_exports.entries.len)); for (module.decl_exports.values()) |exports| for (exports.items) |@"export"| try export_names.put(gpa, @"export".opts.name, {}); for (self.anon_decls.values()) |*decl_block| { try self.flushDeclBlock(&f, decl_block, export_names, .none); } for (self.decl_table.keys(), self.decl_table.values()) |decl_index, *decl_block| { assert(module.declPtr(decl_index).has_tv); const decl = module.declPtr(decl_index); const extern_symbol_name = if (decl.isExtern(module)) decl.name.toOptional() else .none; try self.flushDeclBlock(&f, decl_block, export_names, extern_symbol_name); } } { // We need to flush lazy ctypes after flushing all decls but before flushing any decl ctypes. // This ensures that every lazy CType.Index exactly matches the global CType.Index. assert(f.ctypes.count() == 0); try self.flushCTypes(&f, .flush, f.lazy_ctypes); for (self.anon_decls.keys(), self.anon_decls.values()) |anon_decl, decl_block| { try self.flushCTypes(&f, .{ .anon = anon_decl }, decl_block.ctypes); } for (self.decl_table.keys(), self.decl_table.values()) |decl_index, decl_block| { try self.flushCTypes(&f, .{ .decl = decl_index }, decl_block.ctypes); } } f.all_buffers.items[ctypes_index] = .{ .iov_base = if (f.ctypes_buf.items.len > 0) f.ctypes_buf.items.ptr else "", .iov_len = f.ctypes_buf.items.len, }; f.file_size += f.ctypes_buf.items.len; const lazy_fwd_decl_len = self.lazy_fwd_decl_buf.items.len; f.all_buffers.items[lazy_index] = .{ .iov_base = if (lazy_fwd_decl_len > 0) self.lazy_fwd_decl_buf.items.ptr else "", .iov_len = lazy_fwd_decl_len, }; f.file_size += lazy_fwd_decl_len; // Now the code. const anon_decl_values = self.anon_decls.values(); const decl_values = self.decl_table.values(); try f.all_buffers.ensureUnusedCapacity(gpa, 1 + anon_decl_values.len + decl_values.len); f.appendBufAssumeCapacity(self.lazy_code_buf.items); for (anon_decl_values) |db| f.appendBufAssumeCapacity(self.getString(db.code)); for (decl_values) |db| f.appendBufAssumeCapacity(self.getString(db.code)); const file = self.base.file.?; try file.setEndPos(f.file_size); try file.pwritevAll(f.all_buffers.items, 0); } const Flush = struct { ctypes: codegen.CType.Store = .{}, ctypes_map: std.ArrayListUnmanaged(codegen.CType.Index) = .{}, ctypes_buf: std.ArrayListUnmanaged(u8) = .{}, lazy_ctypes: codegen.CType.Store = .{}, lazy_fns: LazyFns = .{}, asm_buf: std.ArrayListUnmanaged(u8) = .{}, /// We collect a list of buffers to write, and write them all at once with pwritev 😎 all_buffers: std.ArrayListUnmanaged(std.os.iovec_const) = .{}, /// Keeps track of the total bytes of `all_buffers`. file_size: u64 = 0, const LazyFns = std.AutoHashMapUnmanaged(codegen.LazyFnKey, void); fn appendBufAssumeCapacity(f: *Flush, buf: []const u8) void { if (buf.len == 0) return; f.all_buffers.appendAssumeCapacity(.{ .iov_base = buf.ptr, .iov_len = buf.len }); f.file_size += buf.len; } fn deinit(f: *Flush, gpa: Allocator) void { f.all_buffers.deinit(gpa); f.asm_buf.deinit(gpa); f.lazy_fns.deinit(gpa); f.lazy_ctypes.deinit(gpa); f.ctypes_buf.deinit(gpa); f.ctypes_map.deinit(gpa); f.ctypes.deinit(gpa); } }; const FlushDeclError = error{ OutOfMemory, }; fn flushCTypes( self: *C, f: *Flush, pass: codegen.DeclGen.Pass, decl_ctypes: codegen.CType.Store, ) FlushDeclError!void { const gpa = self.base.comp.gpa; const mod = self.base.comp.module.?; const decl_ctypes_len = decl_ctypes.count(); f.ctypes_map.clearRetainingCapacity(); try f.ctypes_map.ensureTotalCapacity(gpa, decl_ctypes_len); var global_ctypes = f.ctypes.promote(gpa); defer f.ctypes.demote(global_ctypes); var ctypes_buf = f.ctypes_buf.toManaged(gpa); defer f.ctypes_buf = ctypes_buf.moveToUnmanaged(); const writer = ctypes_buf.writer(); const slice = decl_ctypes.set.map.entries.slice(); for (slice.items(.key), 0..) |decl_cty, decl_i| { const Context = struct { arena: Allocator, ctypes_map: []codegen.CType.Index, cached_hash: codegen.CType.Store.Set.Map.Hash, idx: codegen.CType.Index, pub fn hash(ctx: @This(), _: codegen.CType) codegen.CType.Store.Set.Map.Hash { return ctx.cached_hash; } pub fn eql(ctx: @This(), lhs: codegen.CType, rhs: codegen.CType, _: usize) bool { return lhs.eqlContext(rhs, ctx); } pub fn eqlIndex( ctx: @This(), lhs_idx: codegen.CType.Index, rhs_idx: codegen.CType.Index, ) bool { if (lhs_idx < codegen.CType.Tag.no_payload_count or rhs_idx < codegen.CType.Tag.no_payload_count) return lhs_idx == rhs_idx; const lhs_i = lhs_idx - codegen.CType.Tag.no_payload_count; if (lhs_i >= ctx.ctypes_map.len) return false; return ctx.ctypes_map[lhs_i] == rhs_idx; } pub fn copyIndex(ctx: @This(), idx: codegen.CType.Index) codegen.CType.Index { if (idx < codegen.CType.Tag.no_payload_count) return idx; return ctx.ctypes_map[idx - codegen.CType.Tag.no_payload_count]; } }; const decl_idx = @as(codegen.CType.Index, @intCast(codegen.CType.Tag.no_payload_count + decl_i)); const ctx = Context{ .arena = global_ctypes.arena.allocator(), .ctypes_map = f.ctypes_map.items, .cached_hash = decl_ctypes.indexToHash(decl_idx), .idx = decl_idx, }; const gop = try global_ctypes.set.map.getOrPutContextAdapted(gpa, decl_cty, ctx, .{ .store = &global_ctypes.set, }); const global_idx = @as(codegen.CType.Index, @intCast(codegen.CType.Tag.no_payload_count + gop.index)); f.ctypes_map.appendAssumeCapacity(global_idx); if (!gop.found_existing) { errdefer _ = global_ctypes.set.map.pop(); gop.key_ptr.* = try decl_cty.copyContext(ctx); } if (std.debug.runtime_safety) { const global_cty = &global_ctypes.set.map.entries.items(.key)[gop.index]; assert(global_cty == gop.key_ptr); assert(decl_cty.eqlContext(global_cty.*, ctx)); assert(decl_cty.hash(decl_ctypes.set) == global_cty.hash(global_ctypes.set)); } try codegen.genTypeDecl( mod, writer, global_ctypes.set, global_idx, pass, decl_ctypes.set, decl_idx, gop.found_existing, ); } } fn flushErrDecls(self: *C, ctypes: *codegen.CType.Store) FlushDeclError!void { const gpa = self.base.comp.gpa; const fwd_decl = &self.lazy_fwd_decl_buf; const code = &self.lazy_code_buf; var object = codegen.Object{ .dg = .{ .gpa = gpa, .module = self.base.comp.module.?, .error_msg = null, .pass = .flush, .is_naked_fn = false, .fwd_decl = fwd_decl.toManaged(gpa), .ctypes = ctypes.*, .anon_decl_deps = self.anon_decls, .aligned_anon_decls = self.aligned_anon_decls, }, .code = code.toManaged(gpa), .indent_writer = undefined, // set later so we can get a pointer to object.code }; object.indent_writer = .{ .underlying_writer = object.code.writer() }; defer { self.anon_decls = object.dg.anon_decl_deps; self.aligned_anon_decls = object.dg.aligned_anon_decls; object.dg.ctypes.deinit(gpa); fwd_decl.* = object.dg.fwd_decl.moveToUnmanaged(); code.* = object.code.moveToUnmanaged(); } codegen.genErrDecls(&object) catch |err| switch (err) { error.AnalysisFail => unreachable, else => |e| return e, }; ctypes.* = object.dg.ctypes.move(); } fn flushLazyFn( self: *C, ctypes: *codegen.CType.Store, lazy_fn: codegen.LazyFnMap.Entry, ) FlushDeclError!void { const gpa = self.base.comp.gpa; const fwd_decl = &self.lazy_fwd_decl_buf; const code = &self.lazy_code_buf; var object = codegen.Object{ .dg = .{ .gpa = gpa, .module = self.base.comp.module.?, .error_msg = null, .pass = .flush, .is_naked_fn = false, .fwd_decl = fwd_decl.toManaged(gpa), .ctypes = ctypes.*, .anon_decl_deps = .{}, .aligned_anon_decls = .{}, }, .code = code.toManaged(gpa), .indent_writer = undefined, // set later so we can get a pointer to object.code }; object.indent_writer = .{ .underlying_writer = object.code.writer() }; defer { // If this assert trips just handle the anon_decl_deps the same as // `updateFunc()` does. assert(object.dg.anon_decl_deps.count() == 0); assert(object.dg.aligned_anon_decls.count() == 0); object.dg.ctypes.deinit(gpa); fwd_decl.* = object.dg.fwd_decl.moveToUnmanaged(); code.* = object.code.moveToUnmanaged(); } codegen.genLazyFn(&object, lazy_fn) catch |err| switch (err) { error.AnalysisFail => unreachable, else => |e| return e, }; ctypes.* = object.dg.ctypes.move(); } fn flushLazyFns(self: *C, f: *Flush, lazy_fns: codegen.LazyFnMap) FlushDeclError!void { const gpa = self.base.comp.gpa; try f.lazy_fns.ensureUnusedCapacity(gpa, @intCast(lazy_fns.count())); var it = lazy_fns.iterator(); while (it.next()) |entry| { const gop = f.lazy_fns.getOrPutAssumeCapacity(entry.key_ptr.*); if (gop.found_existing) continue; gop.value_ptr.* = {}; try self.flushLazyFn(&f.lazy_ctypes, entry); } } fn flushDeclBlock( self: *C, f: *Flush, decl_block: *DeclBlock, export_names: std.AutoHashMapUnmanaged(InternPool.NullTerminatedString, void), extern_symbol_name: InternPool.OptionalNullTerminatedString, ) FlushDeclError!void { const gpa = self.base.comp.gpa; try self.flushLazyFns(f, decl_block.lazy_fns); try f.all_buffers.ensureUnusedCapacity(gpa, 1); fwd_decl: { if (extern_symbol_name.unwrap()) |name| { if (export_names.contains(name)) break :fwd_decl; } f.appendBufAssumeCapacity(self.getString(decl_block.fwd_decl)); } } pub fn flushEmitH(module: *Module) !void { const tracy = trace(@src()); defer tracy.end(); const emit_h = module.emit_h orelse return; // We collect a list of buffers to write, and write them all at once with pwritev 😎 const num_buffers = emit_h.decl_table.count() + 1; var all_buffers = try std.ArrayList(std.os.iovec_const).initCapacity(module.gpa, num_buffers); defer all_buffers.deinit(); var file_size: u64 = zig_h.len; if (zig_h.len != 0) { all_buffers.appendAssumeCapacity(.{ .iov_base = zig_h, .iov_len = zig_h.len, }); } for (emit_h.decl_table.keys()) |decl_index| { const decl_emit_h = emit_h.declPtr(decl_index); const buf = decl_emit_h.fwd_decl.items; if (buf.len != 0) { all_buffers.appendAssumeCapacity(.{ .iov_base = buf.ptr, .iov_len = buf.len, }); file_size += buf.len; } } const directory = emit_h.loc.directory orelse module.comp.local_cache_directory; const file = try directory.handle.createFile(emit_h.loc.basename, .{ // We set the end position explicitly below; by not truncating the file, we possibly // make it easier on the file system by doing 1 reallocation instead of two. .truncate = false, }); defer file.close(); try file.setEndPos(file_size); try file.pwritevAll(all_buffers.items, 0); } pub fn updateExports( self: *C, module: *Module, exported: Module.Exported, exports: []const *Module.Export, ) !void { _ = exports; _ = exported; _ = module; _ = self; }