from core import ui from core.id_kind import Id from osh import ast_ as ast from osh import parse_lib assign_op_e = ast.assign_op_e A1 = completion.WordsAction(['foo.py', 'foo', 'bar.py']) C1 = completion.ChainedCompleter([A1]) status_lines = [ui.TestStatusLine()] * 10 # A bunch of dummies mem = state.Mem('', [], {}, None) exec_opts = state.ExecOpts(mem) STATUS = completion.StatusOutput(status_lines, exec_opts) V1 = completion.WordsAction(['$var1', '$var2', '$another_var']) EMPTY = completion.WordsAction(['grep', 'sed', 'test']) FIRST = completion.WordsAction(['grep', 'sed', 'test']) class CompletionTest(unittest.TestCase): def testLookup(self): c = completion.CompletionLookup() c.RegisterName('grep', C1) print(c.GetCompleterForName('grep')) print(c.GetCompleterForName('/usr/bin/grep')) c.RegisterGlob('*.py', C1)
def OshMain(argv0, argv, login_shell): spec = args.FlagsAndOptions() spec.ShortFlag('-c', args.Str, quit_parsing_flags=True) # command string spec.ShortFlag('-i') # interactive # TODO: -h too spec.LongFlag('--help') spec.LongFlag('--version') spec.LongFlag( '--ast-format', ['text', 'abbrev-text', 'html', 'abbrev-html', 'oheap', 'none'], default='abbrev-text') spec.LongFlag('--show-ast') # execute and show spec.LongFlag('--fix') spec.LongFlag('--debug-spans') # For oshc translate spec.LongFlag('--print-status') spec.LongFlag( '--trace', ['cmd-parse', 'word-parse', 'lexer']) # NOTE: can only trace one now spec.LongFlag('--hijack-shebang') # For benchmarks/*.sh spec.LongFlag('--parser-mem-dump', args.Str) spec.LongFlag('--runtime-mem-dump', args.Str) builtin.AddOptionsToArgSpec(spec) try: opts, opt_index = spec.Parse(argv) except args.UsageError as e: util.usage(str(e)) return 2 if opts.help: loader = util.GetResourceLoader() builtin.Help(['osh-usage'], loader) return 0 if opts.version: # OSH version is the only binary in Oil right now, so it's all one version. _ShowVersion() return 0 trace_state = util.TraceState() if 'cmd-parse' == opts.trace: util.WrapMethods(cmd_parse.CommandParser, trace_state) if 'word-parse' == opts.trace: util.WrapMethods(word_parse.WordParser, trace_state) if 'lexer' == opts.trace: util.WrapMethods(lexer.Lexer, trace_state) if opt_index == len(argv): dollar0 = argv0 else: dollar0 = argv[opt_index] # the script name, or the arg after -c # TODO: Create a --parse action or 'osh parse' or 'oil osh-parse' # osh-fix # It uses a different memory-management model. It's a batch program and not # an interactive program. pool = alloc.Pool() arena = pool.NewArena() # TODO: Maybe wrap this initialization sequence up in an oil_State, like # lua_State. status_lines = ui.MakeStatusLines() mem = state.Mem(dollar0, argv[opt_index + 1:], os.environ, arena) funcs = {} # Passed to Executor for 'complete', and passed to completion.Init if completion: comp_lookup = completion.CompletionLookup() else: # TODO: NullLookup? comp_lookup = None exec_opts = state.ExecOpts(mem) builtin.SetExecOpts(exec_opts, opts.opt_changes) fd_state = process.FdState() ex = cmd_exec.Executor(mem, fd_state, status_lines, funcs, readline, completion, comp_lookup, exec_opts, arena) # NOTE: The rc file can contain both commands and functions... ideally we # would only want to save nodes/lines for the functions. try: rc_path = 'oilrc' arena.PushSource(rc_path) with open(rc_path) as f: rc_line_reader = reader.FileLineReader(f, arena) _, rc_c_parser = parse_lib.MakeParser(rc_line_reader, arena) try: rc_node = rc_c_parser.ParseWholeFile() if not rc_node: err = rc_c_parser.Error() ui.PrintErrorStack(err, arena, sys.stderr) return 2 # parse error is code 2 finally: arena.PopSource() status = ex.Execute(rc_node) #print('oilrc:', status, cflow, file=sys.stderr) # Ignore bad status? except IOError as e: if e.errno != errno.ENOENT: raise if opts.c is not None: arena.PushSource('<command string>') line_reader = reader.StringLineReader(opts.c, arena) if opts.i: # -c and -i can be combined exec_opts.interactive = True elif opts.i: # force interactive arena.PushSource('<stdin -i>') line_reader = reader.InteractiveLineReader(OSH_PS1, arena) exec_opts.interactive = True else: try: script_name = argv[opt_index] except IndexError: if sys.stdin.isatty(): arena.PushSource('<interactive>') line_reader = reader.InteractiveLineReader(OSH_PS1, arena) exec_opts.interactive = True else: arena.PushSource('<stdin>') line_reader = reader.FileLineReader(sys.stdin, arena) else: arena.PushSource(script_name) try: f = fd_state.Open(script_name) except OSError as e: util.error("Couldn't open %r: %s", script_name, os.strerror(e.errno)) return 1 line_reader = reader.FileLineReader(f, arena) # TODO: assert arena.NumSourcePaths() == 1 # TODO: .rc file needs its own arena. w_parser, c_parser = parse_lib.MakeParser(line_reader, arena) if exec_opts.interactive: # NOTE: We're using a different evaluator here. The completion system can # also run functions... it gets the Executor through Executor._Complete. if HAVE_READLINE: splitter = legacy.SplitContext(mem) ev = word_eval.CompletionWordEvaluator(mem, exec_opts, splitter) status_out = completion.StatusOutput(status_lines, exec_opts) completion.Init(pool, builtin.BUILTIN_DEF, mem, funcs, comp_lookup, status_out, ev) return InteractiveLoop(opts, ex, c_parser, w_parser, line_reader) else: # Parse the whole thing up front #print('Parsing file') _tlog('ParseWholeFile') # TODO: Do I need ParseAndEvalLoop? How is it different than # InteractiveLoop? try: node = c_parser.ParseWholeFile() except util.ParseError as e: ui.PrettyPrintError(e, arena, sys.stderr) print('parse error: %s' % e.UserErrorString(), file=sys.stderr) return 2 else: # TODO: Remove this older form of error handling. if not node: err = c_parser.Error() assert err, err # can't be empty ui.PrintErrorStack(err, arena, sys.stderr) return 2 # parse error is code 2 do_exec = True if opts.fix: #log('SPANS: %s', arena.spans) osh2oil.PrintAsOil(arena, node, opts.debug_spans) do_exec = False if exec_opts.noexec: do_exec = False # Do this after parsing the entire file. There could be another option to # do it before exiting runtime? if opts.parser_mem_dump: # This might be superstition, but we want to let the value stabilize # after parsing. bash -c 'cat /proc/$$/status' gives different results # with a sleep. time.sleep(0.001) input_path = '/proc/%d/status' % os.getpid() with open(input_path) as f, open(opts.parser_mem_dump, 'w') as f2: contents = f.read() f2.write(contents) log('Wrote %s to %s (--parser-mem-dump)', input_path, opts.parser_mem_dump) # -n prints AST, --show-ast prints and executes if exec_opts.noexec or opts.show_ast: if opts.ast_format == 'none': print('AST not printed.', file=sys.stderr) elif opts.ast_format == 'oheap': # TODO: Make this a separate flag? if sys.stdout.isatty(): raise RuntimeError( 'ERROR: Not dumping binary data to a TTY.') f = sys.stdout enc = encode.Params() out = encode.BinOutput(f) encode.EncodeRoot(node, enc, out) else: # text output f = sys.stdout if opts.ast_format in ('text', 'abbrev-text'): ast_f = fmt.DetectConsoleOutput(f) elif opts.ast_format in ('html', 'abbrev-html'): ast_f = fmt.HtmlOutput(f) else: raise AssertionError abbrev_hook = (ast_lib.AbbreviateNodes if 'abbrev-' in opts.ast_format else None) tree = fmt.MakeTree(node, abbrev_hook=abbrev_hook) ast_f.FileHeader() fmt.PrintTree(tree, ast_f) ast_f.FileFooter() ast_f.write('\n') #util.log("Execution skipped because 'noexec' is on ") status = 0 if do_exec: _tlog('Execute(node)') status = ex.ExecuteAndRunExitTrap(node) # NOTE: 'exit 1' is ControlFlow and gets here, but subshell/commandsub # don't because they call sys.exit(). if opts.runtime_mem_dump: # This might be superstition, but we want to let the value stabilize # after parsing. bash -c 'cat /proc/$$/status' gives different results # with a sleep. time.sleep(0.001) input_path = '/proc/%d/status' % os.getpid() with open(input_path) as f, open(opts.runtime_mem_dump, 'w') as f2: contents = f.read() f2.write(contents) log('Wrote %s to %s (--runtime-mem-dump)', input_path, opts.runtime_mem_dump) else: status = 0 return status
def OshMain(argv, login_shell): spec = args.FlagsAndOptions() spec.ShortFlag('-c', args.Str, quit_parsing_flags=True) # command string spec.ShortFlag('-i') # interactive # TODO: -h too spec.LongFlag('--help') spec.LongFlag('--version') spec.LongFlag('--ast-format', ['text', 'abbrev-text', 'html', 'abbrev-html', 'oheap'], default='abbrev-text') spec.LongFlag('--show-ast') # execute and show spec.LongFlag('--fix') spec.LongFlag('--debug-spans') spec.LongFlag('--print-status') spec.LongFlag( '--trace', ['cmd-parse', 'word-parse', 'lexer']) # NOTE: can only trace one now spec.LongFlag('--hijack-shebang') builtin.AddOptionsToArgSpec(spec) try: opts, opt_index = spec.Parse(argv) except args.UsageError as e: util.usage(str(e)) return 2 if opts.help: loader = util.GetResourceLoader() # TOOD: Use Global builtin.Help(['osh-usage'], loader) return 0 if opts.version: # OSH version is the only binary in Oil right now, so it's all one version. _ShowVersion() return 0 trace_state = util.TraceState() if 'cmd-parse' == opts.trace: util.WrapMethods(cmd_parse.CommandParser, trace_state) if 'word-parse' == opts.trace: util.WrapMethods(word_parse.WordParser, trace_state) if 'lexer' == opts.trace: util.WrapMethods(lexer.Lexer, trace_state) if opt_index == len(argv): dollar0 = sys.argv[0] # e.g. bin/osh else: dollar0 = argv[opt_index] # the script name, or the arg after -c # TODO: Create a --parse action or 'osh parse' or 'oil osh-parse' # osh-fix # It uses a different memory-management model. It's a batch program and not # an interactive program. pool = alloc.Pool() arena = pool.NewArena() # TODO: Maybe wrap this initialization sequence up in an oil_State, like # lua_State. status_lines = ui.MakeStatusLines() mem = state.Mem(dollar0, argv[opt_index + 1:], os.environ) funcs = {} # Passed to Executor for 'complete', and passed to completion.Init if completion: comp_lookup = completion.CompletionLookup() else: # TODO: NullLookup? comp_lookup = None exec_opts = state.ExecOpts() builtin.SetExecOpts(exec_opts, opts.opt_changes) # TODO: How to get a handle to initialized builtins here? # tokens.py has it. I think you just make a separate table, with # metaprogramming. ex = cmd_exec.Executor(mem, status_lines, funcs, completion, comp_lookup, exec_opts, arena) # NOTE: The rc file can contain both commands and functions... ideally we # would only want to save nodes/lines for the functions. try: rc_path = 'oilrc' arena.PushSource(rc_path) with open(rc_path) as f: rc_line_reader = reader.FileLineReader(f, arena=arena) _, rc_c_parser = parse_lib.MakeParser(rc_line_reader, arena) try: rc_node = rc_c_parser.ParseWholeFile() if not rc_node: # TODO: Error should return a token, and then the token should have a # arena index, and then look that up in the arena. err = rc_c_parser.Error() ui.PrintErrorStack(err, arena, sys.stderr) return 2 # parse error is code 2 finally: arena.PopSource() status = ex.Execute(rc_node) #print('oilrc:', status, cflow, file=sys.stderr) # Ignore bad status? except IOError as e: if e.errno != errno.ENOENT: raise if opts.c is not None: arena.PushSource('<command string>') line_reader = reader.StringLineReader(opts.c, arena=arena) interactive = False elif opts.i: # force interactive arena.PushSource('<stdin -i>') line_reader = reader.InteractiveLineReader(OSH_PS1, arena=arena) interactive = True else: try: script_name = argv[opt_index] except IndexError: if sys.stdin.isatty(): arena.PushSource('<interactive>') line_reader = reader.InteractiveLineReader(OSH_PS1, arena=arena) interactive = True else: arena.PushSource('<stdin>') line_reader = reader.FileLineReader(sys.stdin, arena=arena) interactive = False else: arena.PushSource(script_name) # TODO: Does this open file descriptor need to be moved beyond 3..9 ? # Yes! See dash input.c setinputfile. It calls savefd(). # TODO: It also needs to be closed later. try: f = open(script_name) except IOError as e: util.error("Couldn't open %r: %s", script_name, os.strerror(e.errno)) return 1 line_reader = reader.FileLineReader(f, arena=arena) interactive = False # TODO: assert arena.NumSourcePaths() == 1 # TODO: .rc file needs its own arena. w_parser, c_parser = parse_lib.MakeParser(line_reader, arena) if interactive: # NOTE: We're using a different evaluator here. The completion system can # also run functions... it gets the Executor through Executor._Complete. if HAVE_READLINE: ev = word_eval.CompletionWordEvaluator(mem, exec_opts) status_out = completion.StatusOutput(status_lines, exec_opts) completion.Init(builtin.BUILTIN_DEF, mem, funcs, comp_lookup, status_out, ev) # TODO: Could instantiate "printer" instead of showing ops InteractiveLoop(opts, ex, c_parser, w_parser, line_reader) status = 0 # TODO: set code else: # Parse the whole thing up front #print('Parsing file') tlog('ParseWholeFile') # TODO: Do I need ParseAndEvalLoop? How is it different than # InteractiveLoop? try: node = c_parser.ParseWholeFile() except util.ParseError as e: ui.PrettyPrintError(e, arena, sys.stderr) print('parse error: %s' % e.UserErrorString(), file=sys.stderr) return 2 else: # TODO: Remove this older form of error handling. if not node: err = c_parser.Error() ui.PrintErrorStack(err, arena, sys.stderr) return 2 # parse error is code 2 do_exec = True if opts.fix: osh2oil.PrintAsOil(arena, node, opts.debug_spans) do_exec = False if exec_opts.noexec: do_exec = False if exec_opts.noexec or opts.show_ast: # -n shows the AST if opts.ast_format == 'oheap': # TODO: Make this a separate flag? if sys.stdout.isatty(): raise RuntimeError( 'ERROR: Not dumping binary data to a TTY.') f = sys.stdout enc = encode.Params() out = encode.BinOutput(f) encode.EncodeRoot(node, enc, out) else: # text output f = sys.stdout if opts.ast_format in ('text', 'abbrev-text'): ast_f = fmt.DetectConsoleOutput(f) elif opts.ast_format in ('html', 'abbrev-html'): ast_f = fmt.HtmlOutput(f) else: raise AssertionError abbrev_hook = (ast.AbbreviateNodes if 'abbrev-' in opts.ast_format else None) tree = fmt.MakeTree(node, abbrev_hook=abbrev_hook) ast_f.FileHeader() fmt.PrintTree(tree, ast_f) ast_f.FileFooter() ast_f.write('\n') #util.log("Execution skipped because 'noexec' is on ") status = 0 if do_exec: tlog('Execute(node)') status = ex.Execute(node) else: status = 0 return status