const std = @import("std"); const Allocator = mem.Allocator; const mem = std.mem; const ast = std.zig.ast; const Visib = @import("visib.zig").Visib; const event = std.event; const Value = @import("value.zig").Value; const Token = std.zig.Token; const errmsg = @import("errmsg.zig"); const Scope = @import("scope.zig").Scope; const Compilation = @import("compilation.zig").Compilation; pub const Decl = struct { id: Id, name: []const u8, visib: Visib, resolution: event.Future(Compilation.BuildError!void), parent_scope: *Scope, // TODO when we destroy the decl, deref the tree scope tree_scope: *Scope.AstTree, pub const Table = std.HashMap([]const u8, *Decl, mem.hash_slice_u8, mem.eql_slice_u8); pub fn cast(base: *Decl, comptime T: type) ?*T { if (base.id != @field(Id, @typeName(T))) return null; return @fieldParentPtr(T, "base", base); } pub fn isExported(base: *const Decl, tree: *ast.Tree) bool { switch (base.id) { Id.Fn => { const fn_decl = @fieldParentPtr(Fn, "base", base); return fn_decl.isExported(tree); }, else => return false, } } pub fn getSpan(base: *const Decl) errmsg.Span { switch (base.id) { Id.Fn => { const fn_decl = @fieldParentPtr(Fn, "base", base); const fn_proto = fn_decl.fn_proto; const start = fn_proto.fn_token; const end = fn_proto.name_token orelse start; return errmsg.Span{ .first = start, .last = end + 1, }; }, else => @panic("TODO"), } } pub fn findRootScope(base: *const Decl) *Scope.Root { return base.parent_scope.findRoot(); } pub const Id = enum { Var, Fn, CompTime, }; pub const Var = struct { base: Decl, }; pub const Fn = struct { base: Decl, value: Val, fn_proto: *ast.Node.FnProto, // TODO https://github.com/ziglang/zig/issues/683 and then make this anonymous pub const Val = union(enum) { Unresolved: void, Fn: *Value.Fn, FnProto: *Value.FnProto, }; pub fn externLibName(self: Fn, tree: *ast.Tree) ?[]const u8 { return if (self.fn_proto.extern_export_inline_token) |tok_index| x: { const token = tree.tokens.at(tok_index); break :x switch (token.id) { Token.Id.Extern => tree.tokenSlicePtr(token), else => null, }; } else null; } pub fn isExported(self: Fn, tree: *ast.Tree) bool { if (self.fn_proto.extern_export_inline_token) |tok_index| { const token = tree.tokens.at(tok_index); return token.id == Token.Id.Keyword_export; } else { return false; } } }; pub const CompTime = struct { base: Decl, }; }; pub const info_zen = \\ \\ * Communicate intent precisely. \\ * Edge cases matter. \\ * Favor reading code over writing code. \\ * Only one obvious way to do things. \\ * Runtime crashes are better than bugs. \\ * Compile errors are better than runtime crashes. \\ * Incremental improvements. \\ * Avoid local maximums. \\ * Reduce the amount one must remember. \\ * Minimize energy spent on coding style. \\ * Together we serve end users. \\ \\ ; fn cmdZen(allocator: *Allocator, args: []const []const u8) !void { try stdout.write(info_zen); } const usage_internal = \\usage: zig internal [subcommand] \\ \\Sub-Commands: \\ build-info Print static compiler build-info \\ \\ ; fn cmdInternal(allocator: *Allocator, args: []const []const u8) !void { if (args.len == 0) { try stderr.write(usage_internal); os.exit(1); } const sub_commands = []Command{Command{ .name = "build-info", .exec = cmdInternalBuildInfo, }}; for (sub_commands) |sub_command| { if (mem.eql(u8, sub_command.name, args[0])) { try sub_command.exec(allocator, args[1..]); return; } } try stderr.print("unknown sub command: {}\n\n", args[0]); try stderr.write(usage_internal); } fn cmdInternalBuildInfo(allocator: *Allocator, args: []const []const u8) !void { try stdout.print( \\ZIG_CMAKE_BINARY_DIR {} \\ZIG_CXX_COMPILER {} \\ZIG_LLVM_CONFIG_EXE {} \\ZIG_LLD_INCLUDE_PATH {} \\ZIG_LLD_LIBRARIES {} \\ZIG_STD_FILES {} \\ZIG_C_HEADER_FILES {} \\ZIG_DIA_GUIDS_LIB {} \\ , std.cstr.toSliceConst(c.ZIG_CMAKE_BINARY_DIR), std.cstr.toSliceConst(c.ZIG_CXX_COMPILER), std.cstr.toSliceConst(c.ZIG_LLVM_CONFIG_EXE), std.cstr.toSliceConst(c.ZIG_LLD_INCLUDE_PATH), std.cstr.toSliceConst(c.ZIG_LLD_LIBRARIES), std.cstr.toSliceConst(c.ZIG_STD_FILES), std.cstr.toSliceConst(c.ZIG_C_HEADER_FILES), std.cstr.toSliceConst(c.ZIG_DIA_GUIDS_LIB), ); } fn test__floatuntisf(a: u128, expected: f32) void { const x = __floatuntisf(a); testing.expect(x == expected); } test "floatuntisf" { test__floatuntisf(0, 0.0); test__floatuntisf(1, 1.0); test__floatuntisf(2, 2.0); test__floatuntisf(20, 20.0); test__floatuntisf(0x7FFFFF8000000000, 0x1.FFFFFEp+62); test__floatuntisf(0x7FFFFF0000000000, 0x1.FFFFFCp+62); test__floatuntisf(make_ti(0x8000008000000000, 0), 0x1.000001p+127); test__floatuntisf(make_ti(0x8000000000000800, 0), 0x1.0p+127); test__floatuntisf(make_ti(0x8000010000000000, 0), 0x1.000002p+127); test__floatuntisf(make_ti(0x8000000000000000, 0), 0x1.000000p+127); test__floatuntisf(0x0007FB72E8000000, 0x1.FEDCBAp+50); test__floatuntisf(0x0007FB72EA000000, 0x1.FEDCBA8p+50); test__floatuntisf(0x0007FB72EB000000, 0x1.FEDCBACp+50); test__floatuntisf(0x0007FB72EC000000, 0x1.FEDCBBp+50); test__floatuntisf(0x0007FB72E6000000, 0x1.FEDCB98p+50); test__floatuntisf(0x0007FB72E7000000, 0x1.FEDCB9Cp+50); test__floatuntisf(0x0007FB72E4000000, 0x1.FEDCB9p+50); test__floatuntisf(0xFFFFFFFFFFFFFFFE, 0x1p+64); test__floatuntisf(0xFFFFFFFFFFFFFFFF, 0x1p+64); test__floatuntisf(0x0007FB72E8000000, 0x1.FEDCBAp+50); test__floatuntisf(0x0007FB72EA000000, 0x1.FEDCBAp+50); test__floatuntisf(0x0007FB72EB000000, 0x1.FEDCBAp+50); test__floatuntisf(0x0007FB72EBFFFFFF, 0x1.FEDCBAp+50); test__floatuntisf(0x0007FB72EC000000, 0x1.FEDCBCp+50); test__floatuntisf(0x0007FB72E8000001, 0x1.FEDCBAp+50); test__floatuntisf(0x0007FB72E6000000, 0x1.FEDCBAp+50); test__floatuntisf(0x0007FB72E7000000, 0x1.FEDCBAp+50); test__floatuntisf(0x0007FB72E7FFFFFF, 0x1.FEDCBAp+50); test__floatuntisf(0x0007FB72E4000001, 0x1.FEDCBAp+50); test__floatuntisf(0x0007FB72E4000000, 0x1.FEDCB8p+50); test__floatuntisf(make_ti(0x0000000000001FED, 0xCB90000000000001), 0x1.FEDCBAp+76); test__floatuntisf(make_ti(0x0000000000001FED, 0xCBA0000000000000), 0x1.FEDCBAp+76); test__floatuntisf(make_ti(0x0000000000001FED, 0xCBAFFFFFFFFFFFFF), 0x1.FEDCBAp+76); test__floatuntisf(make_ti(0x0000000000001FED, 0xCBB0000000000000), 0x1.FEDCBCp+76); test__floatuntisf(make_ti(0x0000000000001FED, 0xCBB0000000000001), 0x1.FEDCBCp+76); test__floatuntisf(make_ti(0x0000000000001FED, 0xCBBFFFFFFFFFFFFF), 0x1.FEDCBCp+76); test__floatuntisf(make_ti(0x0000000000001FED, 0xCBC0000000000000), 0x1.FEDCBCp+76); test__floatuntisf(make_ti(0x0000000000001FED, 0xCBC0000000000001), 0x1.FEDCBCp+76); test__floatuntisf(make_ti(0x0000000000001FED, 0xCBD0000000000000), 0x1.FEDCBCp+76); test__floatuntisf(make_ti(0x0000000000001FED, 0xCBD0000000000001), 0x1.FEDCBEp+76); test__floatuntisf(make_ti(0x0000000000001FED, 0xCBDFFFFFFFFFFFFF), 0x1.FEDCBEp+76); test__floatuntisf(make_ti(0x0000000000001FED, 0xCBE0000000000000), 0x1.FEDCBEp+76); } fn trimStart(slice: []const u8, ch: u8) []const u8 { var i: usize = 0; const test_string = "test\"string"; for (slice) |b| { if (b == '\xa3') break; if (b == '\ua3d3') break; if (b == '\Ua3d3d3') break; if (b == '\t') break; if (b == '\n') break; if (b == '\\') break; if (b == '\'') break; if (b == '"') break; if (b != 'n') break; if (b != '-') break; i += 1; } return slice[i..]; }