mycpp/mycpp_main.py

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401 lines, 238 significant

1	#!/usr/bin/env python3
2	"""
3	mycpp_main.py - Translate a subset of Python to C++, using MyPy's typed AST.
4	"""
5	from __future__ import print_function
6
7	import optparse
8	import os
9	import sys
10
11	from typing import List, Optional, Tuple
12
13	from mypy.build import build as mypy_build
14	from mypy.build import BuildSource
15	from mypy.main import process_options
16
17	from mycpp import ir_pass
18	from mycpp import const_pass
19	from mycpp import cppgen_pass
20	from mycpp import debug_pass
21	from mycpp import control_flow_pass
22	from mycpp import pass_state
23	from mycpp.util import log
24
25
26	def Options():
27	"""Returns an option parser instance."""
28
29	p = optparse.OptionParser()
30	p.add_option('-v',
31	'--verbose',
32	dest='verbose',
33	action='store_true',
34	default=False,
35	help='Show details about translation')
36
37	p.add_option('--cc-out',
38	dest='cc_out',
39	default=None,
40	help='.cc file to write to')
41
42	p.add_option('--to-header',
43	dest='to_header',
44	action='append',
45	default=[],
46	help='Export this module to a header, e.g. frontend.args')
47
48	p.add_option('--header-out',
49	dest='header_out',
50	default=None,
51	help='Write this header')
52
53	p.add_option(
54	'--stack-roots-warn',
55	dest='stack_roots_warn',
56	default=None,
57	type='int',
58	help='Emit warnings about functions with too many stack roots')
59
60	return p
61
62
63	# Copied from mypyc/build.py
64	def get_mypy_config(
65	paths: List[str], mypy_options: Optional[List[str]]
66	) -> Tuple[List[BuildSource], Options]:
67	"""Construct mypy BuildSources and Options from file and options lists"""
68	# It is kind of silly to do this but oh well
69	mypy_options = mypy_options or []
70	mypy_options.append('--')
71	mypy_options.extend(paths)
72
73	sources, options = process_options(mypy_options)
74
75	options.show_traceback = True
76	# Needed to get types for all AST nodes
77	options.export_types = True
78	# TODO: Support incremental checking
79	options.incremental = False
80	# 10/2019: FIX for MyPy 0.730. Not sure why I need this but I do.
81	options.preserve_asts = True
82
83	# 1/2023: Workaround for conditional import in osh/builtin_comp.py
84	# Same as devtools/types.sh
85	options.warn_unused_ignores = False
86
87	for source in sources:
88	options.per_module_options.setdefault(source.module,
89	{})['mypyc'] = True
90
91	return sources, options
92
93
94	_FIRST = ('asdl.runtime', 'core.vm')
95
96	# should be LAST because they use base classes
97	_LAST = ('builtin.bracket_osh', 'builtin.completion_osh', 'core.shell')
98
99
100	def ModulesToCompile(result, mod_names):
101	# HACK TO PUT asdl/runtime FIRST.
102	#
103	# Another fix is to hoist those to the declaration phase? Not sure if that
104	# makes sense.
105
106	# FIRST files. Somehow the MyPy builder reorders the modules.
107	for name, module in result.files.items():
108	if name in _FIRST:
109	yield name, module
110
111	for name, module in result.files.items():
112	# Only translate files that were mentioned on the command line
113	suffix = name.split('.')[-1]
114	if suffix not in mod_names:
115	continue
116
117	if name in _FIRST: # We already did these
118	continue
119
120	if name in _LAST: # We'll do these later
121	continue
122
123	yield name, module
124
125	# LAST files
126	for name, module in result.files.items():
127	if name in _LAST:
128	yield name, module
129
130
131	def main(argv):
132	# TODO: Put these in the shell script
133	mypy_options = [
134	'--py2',
135	'--strict',
136	'--no-implicit-optional',
137	'--no-strict-optional',
138	# for consistency?
139	'--follow-imports=silent',
140	#'--verbose',
141	]
142
143	o = Options()
144	opts, argv = o.parse_args(argv)
145
146	paths = argv[1:] # e.g. asdl/typed_arith_parse.py
147
148	log('\tmycpp: LOADING %s', ' '.join(paths))
149	#log('\tmycpp: MYPYPATH = %r', os.getenv('MYPYPATH'))
150
151	if 0:
152	print(opts)
153	print(paths)
154	return
155
156	# e.g. asdl/typed_arith_parse.py -> 'typed_arith_parse'
157	mod_names = [os.path.basename(p) for p in paths]
158	mod_names = [os.path.splitext(name)[0] for name in mod_names]
159
160	# Ditto
161	to_header = opts.to_header
162	#if to_header:
163	if 0:
164	to_header = [os.path.basename(p) for p in to_header]
165	to_header = [os.path.splitext(name)[0] for name in to_header]
166
167	#log('to_header %s', to_header)
168
169	sources, options = get_mypy_config(paths, mypy_options)
170	if 0:
171	for source in sources:
172	log('source %s', source)
173	log('')
174	#log('options %s', options)
175
176	#result = emitmodule.parse_and_typecheck(sources, options)
177	import time
178	start_time = time.time()
179	result = mypy_build(sources=sources, options=options)
180	#log('elapsed 1: %f', time.time() - start_time)
181
182	if result.errors:
183	log('')
184	log('-' * 80)
185	for e in result.errors:
186	log(e)
187	log('-' * 80)
188	log('')
189	return 1
190
191	# Important functions in mypyc/build.py:
192	#
193	# generate_c (251 lines)
194	# parse_and_typecheck
195	# compile_modules_to_c
196
197	# mypyc/emitmodule.py (487 lines)
198	# def compile_modules_to_c(result: BuildResult, module_names: List[str],
199	# class ModuleGenerator:
200	# # This generates a whole bunch of textual code!
201
202	# literals, modules, errors = genops.build_ir(file_nodes, result.graph,
203	# result.types)
204
205	# TODO: Debug what comes out of here.
206	#build.dump_graph(result.graph)
207	#return
208
209	# no-op
210	if 0:
211	for name in result.graph:
212	log('result %s %s', name, result.graph[name])
213	log('')
214
215	# GLOBAL Constant pass over all modules. We want to collect duplicate
216	# strings together. And have globally unique IDs str0, str1, ... strN.
217	const_lookup = {} # Dict {StrExpr node => string name}
218	const_code = []
219	pass1 = const_pass.Collect(result.types, const_lookup, const_code)
220
221	to_compile = list(ModulesToCompile(result, mod_names))
222
223	# HACK: Why do I get oil.asdl.tdop in addition to asdl.tdop?
224	#names = set(name for name, _ in to_compile)
225
226	filtered = []
227	seen = set()
228	for name, module in to_compile:
229	if name.startswith('oil.'):
230	name = name[4:]
231
232	# ditto with testpkg.module1
233	if name.startswith('mycpp.'):
234	name = name[6:]
235
236	if name not in seen: # remove dupe
237	filtered.append((name, module))
238	seen.add(name)
239
240	to_compile = filtered
241
242	#import pickle
243	if 0:
244	for name, module in to_compile:
245	log('to_compile %s', name)
246	log('')
247
248	# can't pickle but now I see deserialize() nodes and stuff
249	#s = pickle.dumps(module)
250	#log('%d pickle', len(s))
251
252	# Print the tree for debugging
253	if 0:
254	for name, module in to_compile:
255	builder = debug_pass.Print(result.types)
256	builder.visit_mypy_file(module)
257	return
258
259	if opts.cc_out:
260	f = open(opts.cc_out, 'w')
261	else:
262	f = sys.stdout
263
264	f.write("""\
265	// BEGIN mycpp output
266
267	#include "mycpp/runtime.h"
268
269	""")
270
271	# Convert the mypy AST into our own IR.
272	dot_exprs = {} # module name -> {expr node -> access type}
273	log('\tmycpp pass: IR')
274	for _, module in to_compile:
275	p = ir_pass.Build(result.types)
276	p.visit_mypy_file(module)
277	dot_exprs[module.path] = p.dot_exprs
278
279	# Collect constants and then emit code.
280	log('\tmycpp pass: CONST')
281	for name, module in to_compile:
282	pass1.visit_mypy_file(module)
283
284	# Instead of top-level code, should we generate a function and call it from
285	# main?
286	for line in const_code:
287	f.write('%s\n' % line)
288	f.write('\n')
289
290	# Note: doesn't take into account module names!
291	virtual = pass_state.Virtual()
292
293	if opts.header_out:
294	header_f = open(opts.header_out, 'w') # Not closed
295
296	log('\tmycpp pass: FORWARD DECL')
297
298	# Forward declarations first.
299	# class Foo; class Bar;
300	for name, module in to_compile:
301	#log('forward decl name %s', name)
302	if name in to_header:
303	out_f = header_f
304	else:
305	out_f = f
306	p2 = cppgen_pass.Generate(result.types,
307	const_lookup,
308	out_f,
309	virtual=virtual,
310	forward_decl=True,
311	dot_exprs=dot_exprs[module.path])
312
313	p2.visit_mypy_file(module)
314	MaybeExitWithErrors(p2)
315
316	# After seeing class and method names in the first pass, figure out which
317	# ones are virtual. We use this info in the second pass.
318	virtual.Calculate()
319	if 0:
320	log('virtuals %s', virtual.virtuals)
321	log('has_vtable %s', virtual.has_vtable)
322
323	local_vars = {} # FuncDef node -> (name, c_type) list
324	ctx_member_vars = {
325	} # Dict[ClassDef node for ctx_Foo, Dict[member_name: str, Type]]
326
327	log('\tmycpp pass: PROTOTYPES')
328
329	# First generate ALL C++ declarations / "headers".
330	# class Foo { void method(); }; class Bar { void method(); };
331	for name, module in to_compile:
332	#log('decl name %s', name)
333	if name in to_header:
334	out_f = header_f
335	else:
336	out_f = f
337	p3 = cppgen_pass.Generate(result.types,
338	const_lookup,
339	out_f,
340	local_vars=local_vars,
341	ctx_member_vars=ctx_member_vars,
342	virtual=virtual,
343	decl=True,
344	dot_exprs=dot_exprs[module.path])
345
346	p3.visit_mypy_file(module)
347	MaybeExitWithErrors(p3)
348
349	if 0:
350	log('\tctx_member_vars')
351	from pprint import pformat
352	print(pformat(ctx_member_vars), file=sys.stderr)
353
354	log('\tmycpp pass: CONTROL FLOW')
355
356	cfgs = {} # fully qualified function name -> control flow graph
357	for name, module in to_compile:
358	cfg_pass = control_flow_pass.Build(result.types, virtual, local_vars,
359	dot_exprs[module.path])
360	cfg_pass.visit_mypy_file(module)
361	cfgs.update(cfg_pass.cfgs)
362
363	pass_state.DumpControlFlowGraphs(cfgs)
364
365	log('\tmycpp pass: IMPL')
366
367	# Now the definitions / implementations.
368	# void Foo:method() { ... }
369	# void Bar:method() { ... }
370	for name, module in to_compile:
371	p4 = cppgen_pass.Generate(result.types,
372	const_lookup,
373	f,
374	local_vars=local_vars,
375	ctx_member_vars=ctx_member_vars,
376	stack_roots_warn=opts.stack_roots_warn,
377	dot_exprs=dot_exprs[module.path])
378	p4.visit_mypy_file(module)
379	MaybeExitWithErrors(p4)
380
381	return 0 # success
382
383
384	def MaybeExitWithErrors(p):
385	# Check for errors we collected
386	num_errors = len(p.errors_keep_going)
387	if num_errors != 0:
388	log('')
389	log('%s: %d translation errors (after type checking)', sys.argv[0],
390	num_errors)
391
392	# A little hack to tell the test-invalid-examples harness how many errors we had
393	sys.exit(min(num_errors, 255))
394
395
396	if __name__ == '__main__':
397	try:
398	sys.exit(main(sys.argv))
399	except RuntimeError as e:
400	print('FATAL: %s' % e, file=sys.stderr)
401	sys.exit(1)