ysh/expr_eval.py

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1	#!/usr/bin/env python2
2	"""expr_eval.py."""
3	from __future__ import print_function
4
5	from _devbuild.gen.id_kind_asdl import Id
6	from _devbuild.gen.syntax_asdl import (
7	loc,
8	loc_t,
9	re,
10	re_e,
11	re_t,
12	Token,
13	SimpleVarSub,
14	word_part,
15	SingleQuoted,
16	DoubleQuoted,
17	BracedVarSub,
18	ShArrayLiteral,
19	CommandSub,
20	expr,
21	expr_e,
22	expr_t,
23	y_lhs_e,
24	y_lhs_t,
25	Attribute,
26	Subscript,
27	class_literal_term,
28	class_literal_term_e,
29	class_literal_term_t,
30	char_class_term_t,
31	PosixClass,
32	PerlClass,
33	CharCode,
34	CharRange,
35	ArgList,
36	Eggex,
37	)
38	from _devbuild.gen.runtime_asdl import (
39	coerced_e,
40	coerced_t,
41	scope_e,
42	scope_t,
43	part_value,
44	part_value_t,
45	Piece,
46	)
47	from _devbuild.gen.value_asdl import (value, value_e, value_t, y_lvalue,
48	y_lvalue_e, y_lvalue_t, IntBox, LeftName)
49	from core import error
50	from core.error import e_die, e_die_status
51	from core import num
52	from core import pyutil
53	from core import state
54	from core import ui
55	from core import vm
56	from data_lang import j8
57	from frontend import lexer
58	from frontend import match
59	from frontend import typed_args
60	from osh import braces
61	from mycpp import mops
62	from mycpp.mylib import log, NewDict, switch, tagswitch, print_stderr
63	from ysh import func_proc
64	from ysh import val_ops
65
66	import libc
67
68	from typing import cast, Optional, Dict, List, Tuple, TYPE_CHECKING
69
70	if TYPE_CHECKING:
71	from osh import cmd_eval
72	from osh import word_eval
73	from osh import split
74
75	_ = log
76
77
78	def LookupVar(mem, var_name, which_scopes, var_loc):
79	# type: (state.Mem, str, scope_t, loc_t) -> value_t
80
81	# Lookup WITHOUT dynamic scope.
82	val = mem.GetValue(var_name, which_scopes=which_scopes)
83	if val.tag() == value_e.Undef:
84	e_die('Undefined variable %r' % var_name, var_loc)
85
86	return val
87
88
89	def _ConvertToInt(val, msg, blame_loc):
90	# type: (value_t, str, loc_t) -> mops.BigInt
91	UP_val = val
92	with tagswitch(val) as case:
93	if case(value_e.Int):
94	val = cast(value.Int, UP_val)
95	return val.i
96
97	elif case(value_e.Str):
98	val = cast(value.Str, UP_val)
99	if match.LooksLikeInteger(val.s):
100	# TODO: Handle ValueError
101	return mops.FromStr(val.s)
102
103	raise error.TypeErr(val, msg, blame_loc)
104
105
106	def _ConvertToNumber(val):
107	# type: (value_t) -> Tuple[coerced_t, mops.BigInt, float]
108	UP_val = val
109	with tagswitch(val) as case:
110	if case(value_e.Int):
111	val = cast(value.Int, UP_val)
112	return coerced_e.Int, val.i, -1.0
113
114	elif case(value_e.Float):
115	val = cast(value.Float, UP_val)
116	return coerced_e.Float, mops.MINUS_ONE, val.f
117
118	elif case(value_e.Str):
119	val = cast(value.Str, UP_val)
120	if match.LooksLikeInteger(val.s):
121	# TODO: Handle ValueError
122	return coerced_e.Int, mops.FromStr(val.s), -1.0
123
124	if match.LooksLikeFloat(val.s):
125	return coerced_e.Float, mops.MINUS_ONE, float(val.s)
126
127	return coerced_e.Neither, mops.MINUS_ONE, -1.0
128
129
130	def _ConvertForBinaryOp(left, right):
131	# type: (value_t, value_t) -> Tuple[coerced_t, mops.BigInt, mops.BigInt, float, float]
132	"""
133	Returns one of
134	value_e.Int or value_e.Float
135	2 ints or 2 floats
136
137	To indicate which values the operation should be done on
138	"""
139	c1, i1, f1 = _ConvertToNumber(left)
140	c2, i2, f2 = _ConvertToNumber(right)
141
142	nope = mops.MINUS_ONE
143
144	if c1 == coerced_e.Int and c2 == coerced_e.Int:
145	return coerced_e.Int, i1, i2, -1.0, -1.0
146
147	elif c1 == coerced_e.Int and c2 == coerced_e.Float:
148	return coerced_e.Float, nope, nope, mops.ToFloat(i1), f2
149
150	elif c1 == coerced_e.Float and c2 == coerced_e.Int:
151	return coerced_e.Float, nope, nope, f1, mops.ToFloat(i2)
152
153	elif c1 == coerced_e.Float and c2 == coerced_e.Float:
154	return coerced_e.Float, nope, nope, f1, f2
155
156	else:
157	# No operation is valid
158	return coerced_e.Neither, nope, nope, -1.0, -1.0
159
160
161	class ExprEvaluator(object):
162	"""Shared between arith and bool evaluators.
163
164	They both:
165
166	1. Convert strings to integers, respecting shopt -s strict_arith.
167	2. Look up variables and evaluate words.
168	"""
169
170	def __init__(
171	self,
172	mem, # type: state.Mem
173	mutable_opts, # type: state.MutableOpts
174	methods, # type: Dict[int, Dict[str, vm._Callable]]
175	splitter, # type: split.SplitContext
176	errfmt, # type: ui.ErrorFormatter
177	):
178	# type: (...) -> None
179	self.shell_ex = None # type: vm._Executor
180	self.cmd_ev = None # type: cmd_eval.CommandEvaluator
181	self.word_ev = None # type: word_eval.AbstractWordEvaluator
182
183	self.mem = mem
184	self.mutable_opts = mutable_opts
185	self.methods = methods
186	self.splitter = splitter
187	self.errfmt = errfmt
188
189	def CheckCircularDeps(self):
190	# type: () -> None
191	assert self.shell_ex is not None
192	assert self.word_ev is not None
193
194	def _LookupVar(self, name, var_loc):
195	# type: (str, loc_t) -> value_t
196	return LookupVar(self.mem, name, scope_e.LocalOrGlobal, var_loc)
197
198	def EvalAugmented(self, lval, rhs_val, op, which_scopes):
199	# type: (y_lvalue_t, value_t, Token, scope_t) -> None
200	""" setvar x +=1, setvar L[0] -= 1
201
202	Called by CommandEvaluator
203	"""
204	# TODO: It might be nice to do auto d[x] += 1 too
205
206	UP_lval = lval
207	with tagswitch(lval) as case:
208	if case(y_lvalue_e.Local): # setvar x += 1
209	lval = cast(LeftName, UP_lval)
210	lhs_val = self._LookupVar(lval.name, lval.blame_loc)
211	if op.id in (Id.Arith_PlusEqual, Id.Arith_MinusEqual,
212	Id.Arith_StarEqual, Id.Arith_SlashEqual):
213	new_val = self._ArithIntFloat(lhs_val, rhs_val, op)
214	else:
215	new_val = self._ArithIntOnly(lhs_val, rhs_val, op)
216
217	self.mem.SetNamed(lval, new_val, which_scopes)
218
219	elif case(y_lvalue_e.Container): # setvar d.key += 1
220	lval = cast(y_lvalue.Container, UP_lval)
221
222	obj = lval.obj
223	UP_obj = obj
224
225	lhs_val_ = None # type: value_t
226	# Similar to command_e.Mutation
227	with tagswitch(obj) as case:
228	if case(value_e.List):
229	obj = cast(value.List, UP_obj)
230	index = val_ops.ToInt(lval.index,
231	'List index should be Int',
232	loc.Missing)
233	try:
234	lhs_val_ = obj.items[index]
235	except IndexError:
236	raise error.Expr(
237	'List index out of range: %d' % index,
238	loc.Missing)
239
240	elif case(value_e.Dict):
241	obj = cast(value.Dict, UP_obj)
242	index = -1 # silence C++ warning
243	key = val_ops.ToStr(lval.index,
244	'Dict index should be Str',
245	loc.Missing)
246	try:
247	lhs_val_ = obj.d[key]
248	except KeyError:
249	raise error.Expr('Dict entry not found: %r' % key,
250	loc.Missing)
251
252	else:
253	raise error.TypeErr(
254	obj, "obj[index] expected List or Dict",
255	loc.Missing)
256
257	if op.id in (Id.Arith_PlusEqual, Id.Arith_MinusEqual,
258	Id.Arith_StarEqual, Id.Arith_SlashEqual):
259	new_val_ = self._ArithIntFloat(lhs_val_, rhs_val, op)
260	else:
261	new_val_ = self._ArithIntOnly(lhs_val_, rhs_val, op)
262
263	with tagswitch(obj) as case:
264	if case(value_e.List):
265	obj = cast(value.List, UP_obj)
266	assert index != -1, 'Should have been initialized'
267	obj.items[index] = new_val_
268
269	elif case(value_e.Dict):
270	obj = cast(value.Dict, UP_obj)
271	obj.d[key] = new_val_
272
273	else:
274	raise AssertionError()
275
276	def _EvalLeftLocalOrGlobal(self, lhs, which_scopes):
277	# type: (expr_t, scope_t) -> value_t
278	"""Evaluate the LEFT MOST part, respecting setvar/setglobal.
279
280	Consider this statement:
281
282	setglobal g[a[i]] = 42
283
284	- The g is always global, never local. It's the thing to be mutated.
285	- The a can be local or global
286	"""
287	UP_lhs = lhs
288	with tagswitch(lhs) as case:
289	if case(expr_e.Var):
290	lhs = cast(expr.Var, UP_lhs)
291
292	# respect setvar/setglobal with which_scopes
293	return LookupVar(self.mem, lhs.name, which_scopes, lhs.left)
294
295	elif case(expr_e.Subscript):
296	lhs = cast(Subscript, UP_lhs)
297
298	# recursive call
299	obj = self._EvalLeftLocalOrGlobal(lhs.obj, which_scopes)
300	index = self._EvalExpr(lhs.index)
301
302	return self._EvalSubscript(obj, index)
303
304	elif case(expr_e.Attribute):
305	lhs = cast(Attribute, UP_lhs)
306	assert lhs.op.id == Id.Expr_Dot
307
308	# recursive call
309	obj = self._EvalLeftLocalOrGlobal(lhs.obj, which_scopes)
310	return self._EvalDot(lhs, obj)
311
312	else:
313	# Shouldn't happen because of Transformer._CheckLhs
314	raise AssertionError()
315
316	def _EvalLhsExpr(self, lhs, which_scopes):
317	# type: (y_lhs_t, scope_t) -> y_lvalue_t
318	"""
319	Handle setvar x, setvar a[i], ... setglobal x, setglobal a[i]
320	"""
321	UP_lhs = lhs
322	with tagswitch(lhs) as case:
323	if case(y_lhs_e.Var):
324	lhs = cast(Token, UP_lhs)
325	return LeftName(lexer.LazyStr(lhs), lhs)
326
327	elif case(y_lhs_e.Subscript):
328	lhs = cast(Subscript, UP_lhs)
329	# setvar mylist[0] = 42
330	# setvar mydict['key'] = 42
331
332	lval = self._EvalLeftLocalOrGlobal(lhs.obj, which_scopes)
333	index = self._EvalExpr(lhs.index)
334	return y_lvalue.Container(lval, index)
335
336	elif case(y_lhs_e.Attribute):
337	lhs = cast(Attribute, UP_lhs)
338	assert lhs.op.id == Id.Expr_Dot
339
340	# setvar mydict.key = 42
341	lval = self._EvalLeftLocalOrGlobal(lhs.obj, which_scopes)
342
343	attr = value.Str(lhs.attr_name)
344	return y_lvalue.Container(lval, attr)
345
346	else:
347	raise AssertionError()
348
349	def EvalExpr(self, node, blame_loc):
350	# type: (expr_t, loc_t) -> value_t
351	"""Public API for _EvalExpr to ensure command_sub_errexit"""
352	self.mem.SetLocationForExpr(blame_loc)
353	# Pure C++ won't need to catch exceptions
354	with state.ctx_YshExpr(self.mutable_opts):
355	val = self._EvalExpr(node)
356	return val
357
358	def EvalLhsExpr(self, lhs, which_scopes):
359	# type: (y_lhs_t, scope_t) -> y_lvalue_t
360	"""Public API for _EvalLhsExpr to ensure command_sub_errexit"""
361	with state.ctx_YshExpr(self.mutable_opts):
362	lval = self._EvalLhsExpr(lhs, which_scopes)
363	return lval
364
365	def EvalExprSub(self, part):
366	# type: (word_part.ExprSub) -> part_value_t
367
368	val = self.EvalExpr(part.child, part.left)
369
370	with switch(part.left.id) as case:
371	if case(Id.Left_DollarBracket): # $[join(x)]
372	s = val_ops.Stringify(val, loc.WordPart(part))
373	return Piece(s, False, False)
374
375	elif case(Id.Lit_AtLBracket): # @[split(x)]
376	strs = val_ops.ToShellArray(val,
377	loc.WordPart(part),
378	prefix='Expr splice ')
379	return part_value.Array(strs)
380
381	else:
382	raise AssertionError(part.left)
383
384	def PluginCall(self, func_val, pos_args):
385	# type: (value.Func, List[value_t]) -> value_t
386	"""For renderPrompt()
387
388	Similar to
389	- WordEvaluator.EvalForPlugin(), which evaluates $PS1 outside main loop
390	- ReadlineCallback.__call__, which executes shell outside main loop
391	"""
392	with state.ctx_YshExpr(self.mutable_opts):
393	with state.ctx_Registers(self.mem): # to sandbox globals
394	named_args = {} # type: Dict[str, value_t]
395	arg_list = ArgList.CreateNull() # There's no call site
396	rd = typed_args.Reader(pos_args, named_args, None, arg_list)
397
398	try:
399	val = func_proc.CallUserFunc(func_val, rd, self.mem,
400	self.cmd_ev)
401	except error.FatalRuntime as e:
402	val = value.Str('<Runtime error: %s>' %
403	e.UserErrorString())
404
405	except (IOError, OSError) as e:
406	val = value.Str('<I/O error: %s>' % pyutil.strerror(e))
407
408	except KeyboardInterrupt:
409	val = value.Str('<Ctrl-C>')
410
411	return val
412
413	def CallConvertFunc(self, func_val, arg, convert_tok, call_loc):
414	# type: (value_t, value_t, Token, loc_t) -> value_t
415	""" For Eggex captures """
416	with state.ctx_YshExpr(self.mutable_opts):
417	pos_args = [arg]
418	named_args = {} # type: Dict[str, value_t]
419	arg_list = ArgList.CreateNull() # There's no call site
420	rd = typed_args.Reader(pos_args, named_args, None, arg_list)
421	rd.SetFallbackLocation(convert_tok)
422	try:
423	val = self._CallFunc(func_val, rd)
424	except error.FatalRuntime as e:
425	func_name = lexer.TokenVal(convert_tok)
426	self.errfmt.Print_(
427	'Fatal error calling Eggex conversion func %r from this Match accessor'
428	% func_name, call_loc)
429	print_stderr('')
430	raise
431
432	return val
433
434	def SpliceValue(self, val, part):
435	# type: (value_t, word_part.Splice) -> List[str]
436	""" write -- @myvar """
437	return val_ops.ToShellArray(val, loc.WordPart(part), prefix='Splice ')
438
439	def _EvalConst(self, node):
440	# type: (expr.Const) -> value_t
441	return node.val
442
443	def _EvalUnary(self, node):
444	# type: (expr.Unary) -> value_t
445
446	val = self._EvalExpr(node.child)
447
448	with switch(node.op.id) as case:
449	if case(Id.Arith_Minus):
450	c1, i1, f1 = _ConvertToNumber(val)
451	if c1 == coerced_e.Int:
452	return value.Int(mops.Negate(i1))
453	if c1 == coerced_e.Float:
454	return value.Float(-f1)
455	raise error.TypeErr(val, 'Negation expected Int or Float',
456	node.op)
457
458	elif case(Id.Arith_Tilde):
459	i = _ConvertToInt(val, '~ expected Int', node.op)
460	return value.Int(mops.BitNot(i))
461
462	elif case(Id.Expr_Not):
463	b = val_ops.ToBool(val)
464	return value.Bool(False if b else True)
465
466	# &s &a[0] &d.key &d.nested.other
467	elif case(Id.Arith_Amp):
468	# Only 3 possibilities:
469	# - expr.Var
470	# - expr.Attribute with `.` operator (d.key)
471	# - expr.SubScript
472	#
473	# See _EvalLhsExpr, which gives you y_lvalue
474
475	# TODO: &x, &a[0], &d.key, creates a value.Place?
476	# If it's Attribute or SubScript, you don't evaluate them.
477	# y_lvalue_t -> place_t
478
479	raise NotImplementedError(node.op)
480
481	else:
482	raise AssertionError(node.op)
483
484	raise AssertionError('for C++ compiler')
485
486	def _ArithIntFloat(self, left, right, op):
487	# type: (value_t, value_t, Token) -> value_t
488	"""
489	Note: may be replaced with arithmetic on tagged integers, e.g. 60 bit
490	with overflow detection
491	"""
492	c, i1, i2, f1, f2 = _ConvertForBinaryOp(left, right)
493
494	op_id = op.id
495
496	if c == coerced_e.Int:
497	with switch(op_id) as case:
498	if case(Id.Arith_Plus, Id.Arith_PlusEqual):
499	return value.Int(mops.Add(i1, i2))
500	elif case(Id.Arith_Minus, Id.Arith_MinusEqual):
501	return value.Int(mops.Sub(i1, i2))
502	elif case(Id.Arith_Star, Id.Arith_StarEqual):
503	return value.Int(mops.Mul(i1, i2))
504	elif case(Id.Arith_Slash, Id.Arith_SlashEqual):
505	if mops.Equal(i2, mops.ZERO):
506	raise error.Expr('Divide by zero', op)
507	return value.Float(mops.ToFloat(i1) / mops.ToFloat(i2))
508	else:
509	raise AssertionError()
510
511	elif c == coerced_e.Float:
512	with switch(op_id) as case:
513	if case(Id.Arith_Plus, Id.Arith_PlusEqual):
514	return value.Float(f1 + f2)
515	elif case(Id.Arith_Minus, Id.Arith_MinusEqual):
516	return value.Float(f1 - f2)
517	elif case(Id.Arith_Star, Id.Arith_StarEqual):
518	return value.Float(f1 * f2)
519	elif case(Id.Arith_Slash, Id.Arith_SlashEqual):
520	if f2 == 0.0:
521	raise error.Expr('Divide by zero', op)
522	return value.Float(f1 / f2)
523	else:
524	raise AssertionError()
525
526	else:
527	raise error.TypeErrVerbose(
528	'Binary operator expected numbers, got %s and %s (OILS-ERR-201)'
529	% (ui.ValType(left), ui.ValType(right)), op)
530
531	def _ArithIntOnly(self, left, right, op):
532	# type: (value_t, value_t, Token) -> value_t
533
534	i1 = _ConvertToInt(left, 'Left operand should be Int', op)
535	i2 = _ConvertToInt(right, 'Right operand should be Int', op)
536
537	with switch(op.id) as case:
538
539	# a % b setvar a %= b
540	if case(Id.Arith_Percent, Id.Arith_PercentEqual):
541	if mops.Equal(i2, mops.ZERO):
542	raise error.Expr('Divide by zero', op)
543	if mops.Greater(mops.ZERO, i2):
544	# Disallow this to remove confusion between modulus and remainder
545	raise error.Expr("Divisor can't be negative", op)
546
547	return value.Int(num.IntRemainder(i1, i2))
548
549	# a // b setvar a //= b
550	elif case(Id.Expr_DSlash, Id.Expr_DSlashEqual):
551	if mops.Equal(i2, mops.ZERO):
552	raise error.Expr('Divide by zero', op)
553	return value.Int(num.IntDivide(i1, i2))
554
555	# a b setvar a = b (ysh only)
556	elif case(Id.Arith_DStar, Id.Expr_DStarEqual):
557	# Same as sh_expr_eval.py
558	if mops.Greater(mops.ZERO, i2):
559	raise error.Expr("Exponent can't be a negative number", op)
560	return value.Int(num.Exponent(i1, i2))
561
562	# Bitwise
563	elif case(Id.Arith_Amp, Id.Arith_AmpEqual): # &
564	return value.Int(mops.BitAnd(i1, i2))
565
566	elif case(Id.Arith_Pipe, Id.Arith_PipeEqual): # \|
567	return value.Int(mops.BitOr(i1, i2))
568
569	elif case(Id.Arith_Caret, Id.Arith_CaretEqual): # ^
570	return value.Int(mops.BitXor(i1, i2))
571
572	elif case(Id.Arith_DGreat, Id.Arith_DGreatEqual): # >>
573	return value.Int(mops.RShift(i1, i2))
574
575	elif case(Id.Arith_DLess, Id.Arith_DLessEqual): # <<
576	return value.Int(mops.LShift(i1, i2))
577
578	else:
579	raise AssertionError(op.id)
580
581	def _Concat(self, left, right, op):
582	# type: (value_t, value_t, Token) -> value_t
583	UP_left = left
584	UP_right = right
585
586	if left.tag() == value_e.Str and right.tag() == value_e.Str:
587	left = cast(value.Str, UP_left)
588	right = cast(value.Str, UP_right)
589
590	return value.Str(left.s + right.s)
591
592	elif left.tag() == value_e.List and right.tag() == value_e.List:
593	left = cast(value.List, UP_left)
594	right = cast(value.List, UP_right)
595
596	c = list(left.items) # mycpp rewrite of L1 + L2
597	c.extend(right.items)
598	return value.List(c)
599
600	else:
601	raise error.TypeErrVerbose(
602	'Expected Str ++ Str or List ++ List, got %s ++ %s' %
603	(ui.ValType(left), ui.ValType(right)), op)
604
605	def _EvalBinary(self, node):
606	# type: (expr.Binary) -> value_t
607
608	left = self._EvalExpr(node.left)
609
610	# Logical and/or lazily evaluate
611	with switch(node.op.id) as case:
612	if case(Id.Expr_And):
613	if val_ops.ToBool(left): # no errors
614	return self._EvalExpr(node.right)
615	else:
616	return left
617
618	elif case(Id.Expr_Or):
619	if val_ops.ToBool(left):
620	return left
621	else:
622	return self._EvalExpr(node.right)
623
624	# These operators all eagerly evaluate
625	right = self._EvalExpr(node.right)
626
627	with switch(node.op.id) as case:
628	if case(Id.Arith_DPlus): # a ++ b to concat Str or List
629	return self._Concat(left, right, node.op)
630
631	elif case(Id.Arith_Plus, Id.Arith_Minus, Id.Arith_Star,
632	Id.Arith_Slash):
633	return self._ArithIntFloat(left, right, node.op)
634
635	else:
636	return self._ArithIntOnly(left, right, node.op)
637
638	def _CompareNumeric(self, left, right, op):
639	# type: (value_t, value_t, Token) -> bool
640	c, i1, i2, f1, f2 = _ConvertForBinaryOp(left, right)
641
642	if c == coerced_e.Int:
643	with switch(op.id) as case:
644	if case(Id.Arith_Less):
645	return mops.Greater(i2, i1)
646	elif case(Id.Arith_Great):
647	return mops.Greater(i1, i2)
648	elif case(Id.Arith_LessEqual):
649	return mops.Greater(i2, i1) or mops.Equal(i1, i2)
650	elif case(Id.Arith_GreatEqual):
651	return mops.Greater(i1, i2) or mops.Equal(i1, i2)
652	else:
653	raise AssertionError()
654
655	elif c == coerced_e.Float:
656	with switch(op.id) as case:
657	if case(Id.Arith_Less):
658	return f1 < f2
659	elif case(Id.Arith_Great):
660	return f1 > f2
661	elif case(Id.Arith_LessEqual):
662	return f1 <= f2
663	elif case(Id.Arith_GreatEqual):
664	return f1 >= f2
665	else:
666	raise AssertionError()
667
668	else:
669	raise error.TypeErrVerbose(
670	'Comparison operator expected numbers, got %s and %s' %
671	(ui.ValType(left), ui.ValType(right)), op)
672
673	def _EvalCompare(self, node):
674	# type: (expr.Compare) -> value_t
675
676	left = self._EvalExpr(node.left)
677	result = True # Implicit and
678	for i, op in enumerate(node.ops):
679	right_expr = node.comparators[i]
680
681	right = self._EvalExpr(right_expr)
682
683	if op.id in (Id.Arith_Less, Id.Arith_Great, Id.Arith_LessEqual,
684	Id.Arith_GreatEqual):
685	result = self._CompareNumeric(left, right, op)
686
687	elif op.id == Id.Expr_TEqual:
688	result = val_ops.ExactlyEqual(left, right, op)
689	elif op.id == Id.Expr_NotDEqual:
690	result = not val_ops.ExactlyEqual(left, right, op)
691
692	elif op.id == Id.Expr_In:
693	result = val_ops.Contains(left, right)
694	elif op.id == Id.Node_NotIn:
695	result = not val_ops.Contains(left, right)
696
697	elif op.id == Id.Expr_Is:
698	if left.tag() != right.tag():
699	raise error.TypeErrVerbose('Mismatched types', op)
700	result = left is right
701
702	elif op.id == Id.Node_IsNot:
703	if left.tag() != right.tag():
704	raise error.TypeErrVerbose('Mismatched types', op)
705	result = left is not right
706
707	elif op.id == Id.Expr_DTilde:
708	# no extglob in Oil language; use eggex
709	if left.tag() != value_e.Str:
710	raise error.TypeErrVerbose('LHS must be Str', op)
711
712	if right.tag() != value_e.Str:
713	raise error.TypeErrVerbose('RHS must be Str', op)
714
715	UP_left = left
716	UP_right = right
717	left = cast(value.Str, UP_left)
718	right = cast(value.Str, UP_right)
719	return value.Bool(libc.fnmatch(right.s, left.s))
720
721	elif op.id == Id.Expr_NotDTilde:
722	if left.tag() != value_e.Str:
723	raise error.TypeErrVerbose('LHS must be Str', op)
724
725	if right.tag() != value_e.Str:
726	raise error.TypeErrVerbose('RHS must be Str', op)
727
728	UP_left = left
729	UP_right = right
730	left = cast(value.Str, UP_left)
731	right = cast(value.Str, UP_right)
732	return value.Bool(not libc.fnmatch(right.s, left.s))
733
734	elif op.id == Id.Expr_TildeDEqual:
735	# Approximate equality
736	UP_left = left
737	if left.tag() != value_e.Str:
738	e_die('~== expects a string on the left', op)
739
740	left = cast(value.Str, UP_left)
741	left2 = left.s.strip()
742
743	UP_right = right
744	with tagswitch(right) as case:
745	if case(value_e.Str):
746	right = cast(value.Str, UP_right)
747	return value.Bool(left2 == right.s)
748
749	elif case(value_e.Bool):
750	right = cast(value.Bool, UP_right)
751	left2 = left2.lower()
752	lb = False
753	if left2 == 'true':
754	lb = True
755	elif left2 == 'false':
756	lb = False
757	else:
758	return value.Bool(False)
759
760	#log('left %r left2 %r', left, left2)
761	return value.Bool(lb == right.b)
762
763	elif case(value_e.Int):
764	right = cast(value.Int, UP_right)
765	if not left2.isdigit():
766	return value.Bool(False)
767
768	eq = mops.Equal(mops.FromStr(left2), right.i)
769	return value.Bool(eq)
770
771	e_die('~== expects Str, Int, or Bool on the right', op)
772
773	else:
774	try:
775	if op.id == Id.Arith_Tilde:
776	result = val_ops.MatchRegex(left, right, self.mem)
777
778	elif op.id == Id.Expr_NotTilde:
779	# don't pass self.mem to not set a match
780	result = not val_ops.MatchRegex(left, right, None)
781
782	else:
783	raise AssertionError(op)
784	except ValueError as e:
785	# Status 2 indicates a regex parse error, as with [[ in OSH
786	e_die_status(2, e.message, op)
787
788	if not result:
789	return value.Bool(result)
790
791	left = right
792
793	return value.Bool(result)
794
795	def _CallFunc(self, to_call, rd):
796	# type: (value_t, typed_args.Reader) -> value_t
797
798	# Now apply args to either builtin or user-defined function
799	UP_to_call = to_call
800	with tagswitch(to_call) as case:
801	if case(value_e.Func):
802	to_call = cast(value.Func, UP_to_call)
803
804	return func_proc.CallUserFunc(to_call, rd, self.mem,
805	self.cmd_ev)
806
807	elif case(value_e.BuiltinFunc):
808	to_call = cast(value.BuiltinFunc, UP_to_call)
809
810	# C++ cast to work around ASDL 'any'
811	f = cast(vm._Callable, to_call.callable)
812	return f.Call(rd)
813	else:
814	raise AssertionError("Shouldn't have been bound")
815
816	def _EvalFuncCall(self, node):
817	# type: (expr.FuncCall) -> value_t
818
819	func = self._EvalExpr(node.func)
820	UP_func = func
821
822	# The () operator has a 2x2 matrix of
823	# (free, bound) x (builtin, user-defined)
824
825	# Eval args first
826	with tagswitch(func) as case:
827	if case(value_e.Func, value_e.BuiltinFunc):
828	to_call = func
829	pos_args, named_args = func_proc._EvalArgList(self, node.args)
830	rd = typed_args.Reader(pos_args, named_args, None, node.args)
831
832	elif case(value_e.BoundFunc):
833	func = cast(value.BoundFunc, UP_func)
834
835	to_call = func.func
836	pos_args, named_args = func_proc._EvalArgList(self,
837	node.args,
838	me=func.me)
839	rd = typed_args.Reader(pos_args,
840	named_args,
841	None,
842	node.args,
843	is_bound=True)
844	else:
845	raise error.TypeErr(func, 'Expected a function or method',
846	node.args.left)
847
848	return self._CallFunc(to_call, rd)
849
850	def _EvalSubscript(self, obj, index):
851	# type: (value_t, value_t) -> value_t
852
853	UP_obj = obj
854	UP_index = index
855
856	with tagswitch(obj) as case:
857	if case(value_e.Str):
858	# Note: s[i] and s[i:j] are like Go, on bytes. We may provide
859	# s->numBytes(), s->countRunes(), and iteration over runes.
860	obj = cast(value.Str, UP_obj)
861	with tagswitch(index) as case2:
862	if case2(value_e.Slice):
863	index = cast(value.Slice, UP_index)
864
865	lower = index.lower.i if index.lower else 0
866	upper = index.upper.i if index.upper else len(obj.s)
867	return value.Str(obj.s[lower:upper])
868
869	elif case2(value_e.Int):
870	index = cast(value.Int, UP_index)
871	i = mops.BigTruncate(index.i)
872	try:
873	return value.Str(obj.s[i])
874	except IndexError:
875	# TODO: expr.Subscript has no error location
876	raise error.Expr('index out of range', loc.Missing)
877
878	else:
879	raise error.TypeErr(index,
880	'Str index expected Int or Slice',
881	loc.Missing)
882
883	elif case(value_e.List):
884	obj = cast(value.List, UP_obj)
885	with tagswitch(index) as case2:
886	if case2(value_e.Slice):
887	index = cast(value.Slice, UP_index)
888
889	lower = index.lower.i if index.lower else 0
890	upper = index.upper.i if index.upper else len(
891	obj.items)
892	return value.List(obj.items[lower:upper])
893
894	elif case2(value_e.Int):
895	index = cast(value.Int, UP_index)
896	i = mops.BigTruncate(index.i)
897	try:
898	return obj.items[i]
899	except IndexError:
900	# TODO: expr.Subscript has no error location
901	raise error.Expr('List index out of range: %d' % i,
902	loc.Missing)
903
904	else:
905	raise error.TypeErr(
906	index, 'List index expected Int or Slice',
907	loc.Missing)
908
909	elif case(value_e.Dict):
910	obj = cast(value.Dict, UP_obj)
911	if index.tag() != value_e.Str:
912	raise error.TypeErr(index, 'Dict index expected Str',
913	loc.Missing)
914
915	index = cast(value.Str, UP_index)
916	try:
917	return obj.d[index.s]
918	except KeyError:
919	# TODO: expr.Subscript has no error location
920	raise error.Expr('Dict entry not found: %r' % index.s,
921	loc.Missing)
922
923	raise error.TypeErr(obj, 'Subscript expected Str, List, or Dict',
924	loc.Missing)
925
926	def _EvalDot(self, node, obj):
927	# type: (Attribute, value_t) -> value_t
928	""" obj.attr on RHS or LHS
929
930	setvar x = obj.attr
931	setglobal g[obj.attr] = 42
932	"""
933	UP_obj = obj
934	with tagswitch(obj) as case:
935	if case(value_e.Dict):
936	obj = cast(value.Dict, UP_obj)
937	attr_name = node.attr_name
938	try:
939	result = obj.d[attr_name]
940	except KeyError:
941	raise error.Expr('Dict entry %r not found' % attr_name,
942	node.op)
943
944	else:
945	raise error.TypeErr(obj, 'Dot operator expected Dict', node.op)
946
947	return result
948
949	def _EvalAttribute(self, node):
950	# type: (Attribute) -> value_t
951
952	o = self._EvalExpr(node.obj)
953	UP_o = o
954
955	with switch(node.op.id) as case:
956	# Right now => is a synonym for ->
957	# Later we may enforce that => is pure, and -> is for mutation and
958	# I/O.
959	if case(Id.Expr_RArrow, Id.Expr_RDArrow):
960	name = node.attr_name
961	# Look up builtin methods
962	type_methods = self.methods.get(o.tag())
963	vm_callable = (type_methods.get(name)
964	if type_methods is not None else None)
965	if vm_callable:
966	func_val = value.BuiltinFunc(vm_callable)
967	return value.BoundFunc(o, func_val)
968
969	# If the operator is ->, fail because we don't have any
970	# user-defined methods
971	if node.op.id == Id.Expr_RArrow:
972	raise error.TypeErrVerbose(
973	'Method %r does not exist on type %s' %
974	(name, ui.ValType(o)), node.attr)
975
976	# Operator is =>, so try function chaining.
977
978	# Instead of str(f()) => upper()
979	# or str(f()).upper() as in Pythohn
980	#
981	# It's more natural to write
982	# f() => str() => upper()
983
984	# Could improve error message: may give "Undefined variable"
985	val = self._LookupVar(name, node.attr)
986
987	with tagswitch(val) as case2:
988	if case2(value_e.Func, value_e.BuiltinFunc):
989	return value.BoundFunc(o, val)
990	else:
991	raise error.TypeErr(
992	val, 'Fat arrow => expects method or function',
993	node.attr)
994
995	elif case(Id.Expr_Dot): # d.key is like d['key']
996	return self._EvalDot(node, o)
997
998	else:
999	raise AssertionError(node.op)
1000
1001	def _EvalExpr(self, node):
1002	# type: (expr_t) -> value_t
1003	"""Turn an expression into a value."""
1004	if 0:
1005	print('_EvalExpr()')
1006	node.PrettyPrint()
1007	print('')
1008
1009	UP_node = node
1010	with tagswitch(node) as case:
1011	if case(expr_e.Const):
1012	node = cast(expr.Const, UP_node)
1013	return self._EvalConst(node)
1014
1015	elif case(expr_e.Var):
1016	node = cast(expr.Var, UP_node)
1017	return self._LookupVar(node.name, node.left)
1018
1019	elif case(expr_e.Place):
1020	node = cast(expr.Place, UP_node)
1021	frame = self.mem.TopNamespace()
1022	return value.Place(LeftName(node.var_name, node.blame_tok),
1023	frame)
1024
1025	elif case(expr_e.CommandSub):
1026	node = cast(CommandSub, UP_node)
1027
1028	id_ = node.left_token.id
1029	if id_ == Id.Left_CaretParen: # ^(echo block literal)
1030	# TODO: Propgate location info?
1031	return value.Command(node.child)
1032	else:
1033	stdout_str = self.shell_ex.RunCommandSub(node)
1034	if id_ == Id.Left_AtParen: # @(seq 3)
1035	# YSH splitting algorithm: does not depend on IFS
1036	try:
1037	strs = j8.SplitJ8Lines(stdout_str)
1038	except error.Decode as e:
1039	# status code 4 is special, for encode/decode errors.
1040	raise error.Structured(4, e.Message(),
1041	node.left_token)
1042
1043	#strs = self.splitter.SplitForWordEval(stdout_str)
1044
1045	items = [value.Str(s)
1046	for s in strs] # type: List[value_t]
1047	return value.List(items)
1048	else:
1049	return value.Str(stdout_str)
1050
1051	elif case(expr_e.ShArrayLiteral): # var x = :\| foo *.py \|
1052	node = cast(ShArrayLiteral, UP_node)
1053	words = braces.BraceExpandWords(node.words)
1054	strs = self.word_ev.EvalWordSequence(words)
1055	#log('ARRAY LITERAL EVALUATED TO -> %s', strs)
1056	#return value.BashArray(strs)
1057
1058	# It's equivalent to ['foo', 'bar']
1059	items = [value.Str(s) for s in strs]
1060	return value.List(items)
1061
1062	elif case(expr_e.DoubleQuoted):
1063	node = cast(DoubleQuoted, UP_node)
1064	# In an ideal world, YSH would statically disallow:
1065	#
1066	# - "$@" and "${array[@]}"
1067	# - backticks like `echo hi`
1068	# - $(( 1+2 )) and $[] -- although useful for refactoring
1069	# - not sure: ${x%%} -- could disallow this
1070	# - these enters the ArgDQ state: "${a:-foo bar}" ?
1071	#
1072	# But that would complicate the parser/evaluator. So just rely
1073	# on runtime strict_array to disallow the bad parts.
1074	return value.Str(self.word_ev.EvalDoubleQuotedToString(node))
1075
1076	elif case(expr_e.SingleQuoted):
1077	node = cast(SingleQuoted, UP_node)
1078	return value.Str(node.sval)
1079
1080	elif case(expr_e.BracedVarSub):
1081	node = cast(BracedVarSub, UP_node)
1082	return value.Str(self.word_ev.EvalBracedVarSubToString(node))
1083
1084	elif case(expr_e.SimpleVarSub):
1085	node = cast(SimpleVarSub, UP_node)
1086	return value.Str(self.word_ev.EvalSimpleVarSubToString(node))
1087
1088	elif case(expr_e.Unary):
1089	node = cast(expr.Unary, UP_node)
1090	return self._EvalUnary(node)
1091
1092	elif case(expr_e.Binary):
1093	node = cast(expr.Binary, UP_node)
1094	return self._EvalBinary(node)
1095
1096	elif case(expr_e.Slice): # a[:0]
1097	node = cast(expr.Slice, UP_node)
1098
1099	lower = None # type: Optional[IntBox]
1100	upper = None # type: Optional[IntBox]
1101
1102	if node.lower:
1103	msg = 'Slice begin should be Int'
1104	i = val_ops.ToInt(self._EvalExpr(node.lower), msg,
1105	loc.Missing)
1106	lower = IntBox(i)
1107
1108	if node.upper:
1109	msg = 'Slice end should be Int'
1110	i = val_ops.ToInt(self._EvalExpr(node.upper), msg,
1111	loc.Missing)
1112	upper = IntBox(i)
1113
1114	return value.Slice(lower, upper)
1115
1116	elif case(expr_e.Range):
1117	node = cast(expr.Range, UP_node)
1118
1119	assert node.lower is not None
1120	assert node.upper is not None
1121
1122	msg = 'Range begin should be Int'
1123	i = val_ops.ToInt(self._EvalExpr(node.lower), msg, loc.Missing)
1124
1125	msg = 'Range end should be Int'
1126	j = val_ops.ToInt(self._EvalExpr(node.upper), msg, loc.Missing)
1127
1128	return value.Range(i, j)
1129
1130	elif case(expr_e.Compare):
1131	node = cast(expr.Compare, UP_node)
1132	return self._EvalCompare(node)
1133
1134	elif case(expr_e.IfExp):
1135	node = cast(expr.IfExp, UP_node)
1136	b = val_ops.ToBool(self._EvalExpr(node.test))
1137	if b:
1138	return self._EvalExpr(node.body)
1139	else:
1140	return self._EvalExpr(node.orelse)
1141
1142	elif case(expr_e.List):
1143	node = cast(expr.List, UP_node)
1144	items = [self._EvalExpr(e) for e in node.elts]
1145	return value.List(items)
1146
1147	elif case(expr_e.Tuple):
1148	node = cast(expr.Tuple, UP_node)
1149	# YSH language: Tuple syntax evaluates to LIST !
1150	items = [self._EvalExpr(e) for e in node.elts]
1151	return value.List(items)
1152
1153	elif case(expr_e.Dict):
1154	node = cast(expr.Dict, UP_node)
1155
1156	kvals = [self._EvalExpr(e) for e in node.keys]
1157	values = [] # type: List[value_t]
1158
1159	for i, value_expr in enumerate(node.values):
1160	if value_expr.tag() == expr_e.Implicit: # {key}
1161	# Enforced by parser. Key is expr.Const
1162	assert kvals[i].tag() == value_e.Str, kvals[i]
1163	key = cast(value.Str, kvals[i])
1164	v = self._LookupVar(key.s, loc.Missing)
1165	else:
1166	v = self._EvalExpr(value_expr)
1167
1168	values.append(v)
1169
1170	d = NewDict() # type: Dict[str, value_t]
1171	for i, kval in enumerate(kvals):
1172	k = val_ops.ToStr(kval, 'Dict keys must be strings',
1173	loc.Missing)
1174	d[k] = values[i]
1175
1176	return value.Dict(d)
1177
1178	elif case(expr_e.ListComp):
1179	e_die_status(
1180	2, 'List comprehension reserved but not implemented')
1181
1182	elif case(expr_e.GeneratorExp):
1183	e_die_status(
1184	2, 'Generator expression reserved but not implemented')
1185
1186	elif case(expr_e.Literal): # ^[1 + 2]
1187	node = cast(expr.Literal, UP_node)
1188	return value.Expr(node.inner)
1189
1190	elif case(expr_e.Lambda): # \|x\| x+1 syntax is reserved
1191	# TODO: Location information for \|, or func
1192	# Note: anonymous functions also evaluate to a Lambda, but they shouldn't
1193	e_die_status(2, 'Lambda reserved but not implemented')
1194
1195	elif case(expr_e.FuncCall):
1196	node = cast(expr.FuncCall, UP_node)
1197	return self._EvalFuncCall(node)
1198
1199	elif case(expr_e.Subscript):
1200	node = cast(Subscript, UP_node)
1201	obj = self._EvalExpr(node.obj)
1202	index = self._EvalExpr(node.index)
1203	return self._EvalSubscript(obj, index)
1204
1205	elif case(expr_e.Attribute): # obj->method or mydict.key
1206	node = cast(Attribute, UP_node)
1207	return self._EvalAttribute(node)
1208
1209	elif case(expr_e.Eggex):
1210	node = cast(Eggex, UP_node)
1211	return self.EvalEggex(node)
1212
1213	else:
1214	raise NotImplementedError(node.__class__.__name__)
1215
1216	def EvalEggex(self, node):
1217	# type: (Eggex) -> value.Eggex
1218
1219	# Splice, check flags consistency, and accumulate convert_funcs indexed
1220	# by capture group
1221	ev = EggexEvaluator(self.mem, node.canonical_flags)
1222	spliced = ev.EvalE(node.regex)
1223
1224	# as_ere and capture_names filled by ~ operator or Str method
1225	return value.Eggex(spliced, node.canonical_flags, ev.convert_funcs,
1226	ev.convert_toks, None, [])
1227
1228
1229	class EggexEvaluator(object):
1230
1231	def __init__(self, mem, canonical_flags):
1232	# type: (state.Mem, str) -> None
1233	self.mem = mem
1234	self.canonical_flags = canonical_flags
1235	self.convert_funcs = [] # type: List[Optional[value_t]]
1236	self.convert_toks = [] # type: List[Optional[Token]]
1237
1238	def _LookupVar(self, name, var_loc):
1239	# type: (str, loc_t) -> value_t
1240	"""
1241	Duplicated from ExprEvaluator
1242	"""
1243	return LookupVar(self.mem, name, scope_e.LocalOrGlobal, var_loc)
1244
1245	def _EvalClassLiteralTerm(self, term, out):
1246	# type: (class_literal_term_t, List[char_class_term_t]) -> None
1247	UP_term = term
1248
1249	# These 2 vars will be initialized if we don't return early
1250	s = None # type: str
1251	char_code_tok = None # type: Token
1252
1253	with tagswitch(term) as case:
1254
1255	if case(class_literal_term_e.CharCode):
1256	term = cast(CharCode, UP_term)
1257
1258	# What about \0? At runtime, ERE should disallow it. But we
1259	# can also disallow it here.
1260	out.append(term)
1261	return
1262
1263	elif case(class_literal_term_e.CharRange):
1264	term = cast(CharRange, UP_term)
1265	out.append(term)
1266	return
1267
1268	elif case(class_literal_term_e.PosixClass):
1269	term = cast(PosixClass, UP_term)
1270	out.append(term)
1271	return
1272
1273	elif case(class_literal_term_e.PerlClass):
1274	term = cast(PerlClass, UP_term)
1275	out.append(term)
1276	return
1277
1278	elif case(class_literal_term_e.SingleQuoted):
1279	term = cast(SingleQuoted, UP_term)
1280
1281	s = term.sval
1282	char_code_tok = term.left
1283
1284	elif case(class_literal_term_e.Splice):
1285	term = cast(class_literal_term.Splice, UP_term)
1286
1287	val = self._LookupVar(term.var_name, term.name)
1288	s = val_ops.ToStr(val, 'Eggex char class splice expected Str',
1289	term.name)
1290	char_code_tok = term.name
1291
1292	assert s is not None, term
1293	for ch in s:
1294	char_int = ord(ch)
1295	if char_int >= 128:
1296	# / [ '\x7f\xff' ] / is better written as / [ \x7f \xff ] /
1297	e_die(
1298	"Use unquoted char literal for byte %d, which is >= 128"
1299	" (avoid confusing a set of bytes with a sequence)" %
1300	char_int, char_code_tok)
1301	out.append(CharCode(char_code_tok, char_int, False))
1302
1303	def EvalE(self, node):
1304	# type: (re_t) -> re_t
1305	"""Resolve references and eval constants in an Eggex
1306
1307	Rules:
1308	Splice => re_t # like Hex and @const in / Hex '.' @const /
1309	Speck/Token (syntax) => Primitive (logical)
1310	Chars and Strings => LiteralChars
1311	"""
1312	UP_node = node
1313
1314	with tagswitch(node) as case:
1315	if case(re_e.Seq):
1316	node = cast(re.Seq, UP_node)
1317	new_children = [self.EvalE(child) for child in node.children]
1318	return re.Seq(new_children)
1319
1320	elif case(re_e.Alt):
1321	node = cast(re.Alt, UP_node)
1322	new_children = [self.EvalE(child) for child in node.children]
1323	return re.Alt(new_children)
1324
1325	elif case(re_e.Repeat):
1326	node = cast(re.Repeat, UP_node)
1327	return re.Repeat(self.EvalE(node.child), node.op)
1328
1329	elif case(re_e.Group):
1330	node = cast(re.Group, UP_node)
1331
1332	# placeholder for non-capturing group
1333	self.convert_funcs.append(None)
1334	self.convert_toks.append(None)
1335	return re.Group(self.EvalE(node.child))
1336
1337	elif case(re_e.Capture): # Identical to Group
1338	node = cast(re.Capture, UP_node)
1339	convert_func = None # type: Optional[value_t]
1340	convert_tok = None # type: Optional[Token]
1341	if node.func_name:
1342	func_name = lexer.LazyStr(node.func_name)
1343	func_val = self.mem.GetValue(func_name)
1344	with tagswitch(func_val) as case:
1345	if case(value_e.Func, value_e.BuiltinFunc):
1346	convert_func = func_val
1347	convert_tok = node.func_name
1348	else:
1349	raise error.TypeErr(
1350	func_val,
1351	"Expected %r to be a func" % func_name,
1352	node.func_name)
1353
1354	self.convert_funcs.append(convert_func)
1355	self.convert_toks.append(convert_tok)
1356	return re.Capture(self.EvalE(node.child), node.name,
1357	node.func_name)
1358
1359	elif case(re_e.CharClassLiteral):
1360	node = cast(re.CharClassLiteral, UP_node)
1361
1362	new_terms = [] # type: List[char_class_term_t]
1363	for t in node.terms:
1364	# can get multiple char_class_term.CharCode for a
1365	# class_literal_term_t
1366	self._EvalClassLiteralTerm(t, new_terms)
1367	return re.CharClass(node.negated, new_terms)
1368
1369	elif case(re_e.SingleQuoted):
1370	node = cast(SingleQuoted, UP_node)
1371
1372	s = node.sval
1373	return re.LiteralChars(node.left, s)
1374
1375	elif case(re_e.Splice):
1376	node = cast(re.Splice, UP_node)
1377
1378	val = self._LookupVar(node.var_name, node.name)
1379	UP_val = val
1380	with tagswitch(val) as case:
1381	if case(value_e.Str):
1382	val = cast(value.Str, UP_val)
1383	to_splice = re.LiteralChars(node.name,
1384	val.s) # type: re_t
1385
1386	elif case(value_e.Eggex):
1387	val = cast(value.Eggex, UP_val)
1388
1389	# Splicing means we get the conversion funcs too.
1390	self.convert_funcs.extend(val.convert_funcs)
1391	self.convert_toks.extend(val.convert_toks)
1392
1393	# Splicing requires flags to match. This check is
1394	# transitive.
1395	to_splice = val.spliced
1396
1397	if val.canonical_flags != self.canonical_flags:
1398	e_die(
1399	"Expected eggex flags %r, but got %r" %
1400	(self.canonical_flags, val.canonical_flags),
1401	node.name)
1402
1403	else:
1404	raise error.TypeErr(
1405	val, 'Eggex splice expected Str or Eggex',
1406	node.name)
1407	return to_splice
1408
1409	else:
1410	# These are evaluated at translation time
1411
1412	# case(re_e.Primitive)
1413	# case(re_e.PosixClass)
1414	# case(re_e.PerlClass)
1415	return node
1416
1417
1418	# vim: sw=4