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gyb.py
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gyb.py
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#!/usr/bin/env python
# GYB: Generate Your Boilerplate (improved names welcome; at least
# this one's short). See -h output for instructions
import os
import re
import sys
import textwrap
import tokenize
from bisect import bisect
from io import StringIO
def get_line_starts(s):
"""Return a list containing the start index of each line in s.
The list also contains a sentinel index for the end of the string,
so there will be one more element in the list than there are lines
in the string
"""
starts = [0]
for line in s.split('\n'):
starts.append(starts[-1] + len(line) + 1)
starts[-1] -= 1
return starts
def strip_trailing_nl(s):
"""If s ends with a newline, drop it; else return s intact"""
return s[:-1] if s.endswith('\n') else s
def split_lines(s):
"""Split s into a list of lines, each of which has a trailing newline
If the lines are later concatenated, the result is s, possibly
with a single appended newline.
"""
return [l + '\n' for l in s.split('\n')]
# text on a line up to the first '$$', '${', or '%%'
literalText = r'(?: [^$\n%] | \$(?![${]) | %(?!%) )*'
# The part of an '%end' line that follows the '%' sign
linesClose = r'[\ \t]* end [\ \t]* (?: \# .* )? $'
# Note: Where "# Absorb" appears below, the regexp attempts to eat up
# through the end of ${...} and %{...}% constructs. In reality we
# handle this with the Python tokenizer, which avoids mis-detections
# due to nesting, comments and strings. This extra absorption in the
# regexp facilitates testing the regexp on its own, by preventing the
# interior of some of these constructs from being treated as literal
# text.
tokenize_re = re.compile(
r'''
# %-lines and %{...}-blocks
# \n? # absorb one preceding newline
^
(?:
(?P<gybLines>
(?P<_indent> [\ \t]* % (?! [{%] ) [\ \t]* ) (?! [\ \t] | ''' +
linesClose + r''' ) .*
( \n (?P=_indent) (?! ''' + linesClose + r''' ) .* ) *
)
| (?P<gybLinesClose> [\ \t]* % [ \t]* ''' + linesClose + r''' )
| [\ \t]* (?P<gybBlockOpen> %\{ )
(?: [^}]| \} (?!%) )* \}% # Absorb
)
\n? # absorb one trailing newline
# Substitutions
| (?P<substitutionOpen> \$\{ )
[^}]* \} # Absorb
# %% and $$ are literal % and $ respectively
| (?P<symbol>[$%]) (?P=symbol)
# Literal text
| (?P<literal> ''' + literalText + r'''
(?:
# newline that doesn't precede space+%
(?: \n (?! [\ \t]* %[^%] ) )
''' + literalText + r'''
)*
\n?
)
''', re.VERBOSE | re.MULTILINE)
gyb_block_close = re.compile(r'\}%[ \t]*\n?')
def token_pos_to_index(token_pos, start, line_starts):
"""Translate a tokenize (line, column) pair into an absolute
position in source text given the position where we started
tokenizing and a list that maps lines onto their starting
character indexes.
"""
relative_token_line_plus1, token_col = token_pos
# line number where we started tokenizing
start_line_num = bisect(line_starts, start) - 1
# line number of the token in the whole text
abs_token_line = relative_token_line_plus1 - 1 + start_line_num
# if found in the first line, adjust the end column to account
# for the extra text
if relative_token_line_plus1 == 1:
token_col += start - line_starts[start_line_num]
# Sometimes tokenizer errors report a line beyond the last one
if abs_token_line >= len(line_starts):
return line_starts[-1]
return line_starts[abs_token_line] + token_col
def tokenize_python_to_unmatched_close_curly(source_text, start, line_starts):
"""Apply Python's tokenize to source_text starting at index start
while matching open and close curly braces. When an unmatched
close curly brace is found, return its index. If not found,
return len(source_text). If there's a tokenization error, return
the position of the error.
"""
stream = StringIO(source_text)
stream.seek(start)
nesting = 0
try:
for kind, text, token_start, token_end, line_text \
in tokenize.generate_tokens(stream.readline):
if text == '{':
nesting += 1
elif text == '}':
nesting -= 1
if nesting < 0:
return token_pos_to_index(token_start, start, line_starts)
except tokenize.TokenError as error:
(message, error_pos) = error.args
return token_pos_to_index(error_pos, start, line_starts)
return len(source_text)
def tokenize_template(template_text):
r"""Given the text of a template, returns an iterator over
(tokenType, token, match) tuples.
**Note**: this is template syntax tokenization, not Python
tokenization.
When a non-literal token is matched, a client may call
iter.send(pos) on the iterator to reset the position in
template_text at which scanning will resume.
This function provides a base level of tokenization which is
then refined by ParseContext.token_generator.
>>> from pprint import *
>>> pprint(list((kind, text) for kind, text, _ in tokenize_template(
... '%for x in range(10):\n% print x\n%end\njuicebox')))
[('gybLines', '%for x in range(10):\n% print x'),
('gybLinesClose', '%end'),
('literal', 'juicebox')]
>>> pprint(list((kind, text) for kind, text, _ in tokenize_template(
... '''Nothing
... % if x:
... % for i in range(3):
... ${i}
... % end
... % else:
... THIS SHOULD NOT APPEAR IN THE OUTPUT
... ''')))
[('literal', 'Nothing\n'),
('gybLines', '% if x:\n% for i in range(3):'),
('substitutionOpen', '${'),
('literal', '\n'),
('gybLinesClose', '% end'),
('gybLines', '% else:'),
('literal', 'THIS SHOULD NOT APPEAR IN THE OUTPUT\n')]
>>> for kind, text, _ in tokenize_template('''
... This is $some$ literal stuff containing a ${substitution}
... followed by a %{...} block:
... %{
... # Python code
... }%
... and here $${are} some %-lines:
... % x = 1
... % y = 2
... % if z == 3:
... % print '${hello}'
... % end
... % for x in zz:
... % print x
... % # different indentation
... % twice
... and some lines that literally start with a %% token
... %% first line
... %% second line
... '''):
... print((kind, text.strip().split('\n',1)[0]))
('literal', 'This is $some$ literal stuff containing a')
('substitutionOpen', '${')
('literal', 'followed by a %{...} block:')
('gybBlockOpen', '%{')
('literal', 'and here ${are} some %-lines:')
('gybLines', '% x = 1')
('gybLinesClose', '% end')
('gybLines', '% for x in zz:')
('gybLines', '% # different indentation')
('gybLines', '% twice')
('literal', 'and some lines that literally start with a % token')
"""
pos = 0
end = len(template_text)
saved_literal = []
literal_first_match = None
while pos < end:
m = tokenize_re.match(template_text, pos, end)
# pull out the one matched key (ignoring internal patterns starting
# with _)
((kind, text), ) = (
(kind, text) for (kind, text) in list(m.groupdict().items())
if text is not None and kind[0] != '_')
if kind in ('literal', 'symbol'):
if len(saved_literal) == 0:
literal_first_match = m
# literals and symbols get batched together
saved_literal.append(text)
pos = None
else:
# found a non-literal. First yield any literal we've accumulated
if saved_literal != []:
yield 'literal', ''.join(saved_literal), literal_first_match
saved_literal = []
# Then yield the thing we found. If we get a reply, it's
# the place to resume tokenizing
pos = yield kind, text, m
# If we were not sent a new position by our client, resume
# tokenizing at the end of this match.
if pos is None:
pos = m.end(0)
else:
# Client is not yet ready to process next token
yield
if saved_literal != []:
yield 'literal', ''.join(saved_literal), literal_first_match
def split_gyb_lines(source_lines):
r"""Return a list of lines at which to split the incoming source
These positions represent the beginnings of python line groups that
will require a matching %end construct if they are to be closed.
>>> src = split_lines('''\
... if x:
... print x
... if y: # trailing comment
... print z
... if z: # another comment\
... ''')
>>> s = split_gyb_lines(src)
>>> len(s)
2
>>> src[s[0]]
' print z\n'
>>> s[1] - len(src)
0
>>> src = split_lines('''\
... if x:
... if y: print 1
... if z:
... print 2
... pass\
... ''')
>>> s = split_gyb_lines(src)
>>> len(s)
1
>>> src[s[0]]
' if y: print 1\n'
>>> src = split_lines('''\
... if x:
... if y:
... print 1
... print 2
... ''')
>>> s = split_gyb_lines(src)
>>> len(s)
2
>>> src[s[0]]
' if y:\n'
>>> src[s[1]]
' print 1\n'
"""
last_token_text, last_token_kind = None, None
unmatched_indents = []
dedents = 0
try:
for token_kind, token_text, token_start, \
(token_end_line, token_end_col), line_text \
in tokenize.generate_tokens(lambda i=iter(source_lines):
next(i)):
if token_kind in (tokenize.COMMENT, tokenize.ENDMARKER):
continue
if token_text == '\n' and last_token_text == ':':
unmatched_indents.append(token_end_line)
# The tokenizer appends dedents at EOF; don't consider
# those as matching indentations. Instead just save them
# up...
if last_token_kind == tokenize.DEDENT:
dedents += 1
# And count them later, when we see something real.
if token_kind != tokenize.DEDENT and dedents > 0:
unmatched_indents = unmatched_indents[:-dedents]
dedents = 0
last_token_text, last_token_kind = token_text, token_kind
except tokenize.TokenError:
# Let the later compile() call report the error
return []
if last_token_text == ':':
unmatched_indents.append(len(source_lines))
return unmatched_indents
def code_starts_with_dedent_keyword(source_lines):
r"""Return True iff the incoming Python source_lines begin with "else",
"elif", "except", or "finally".
Initial comments and whitespace are ignored.
>>> code_starts_with_dedent_keyword(split_lines('if x in y: pass'))
False
>>> code_starts_with_dedent_keyword(split_lines('except ifSomethingElse:'))
True
>>> code_starts_with_dedent_keyword(
... split_lines('\n# comment\nelse: # yes'))
True
"""
token_text = None
for token_kind, token_text, _, _, _ \
in tokenize.generate_tokens(lambda i=iter(source_lines): next(i)):
if token_kind != tokenize.COMMENT and token_text.strip() != '':
break
return token_text in ('else', 'elif', 'except', 'finally')
class ParseContext(object):
"""State carried through a parse of a template"""
filename = ''
template = ''
line_starts = []
code_start_line = -1
code_text = None
tokens = None # The rest of the tokens
close_lines = False
def __init__(self, filename, template=None):
self.filename = os.path.abspath(filename)
if sys.platform == 'win32':
self.filename = self.filename.replace('\\', '/')
if template is None:
with open(filename) as f:
self.template = f.read()
else:
self.template = template
self.line_starts = get_line_starts(self.template)
self.tokens = self.token_generator(tokenize_template(self.template))
self.next_token()
def pos_to_line(self, pos):
return bisect(self.line_starts, pos) - 1
def token_generator(self, base_tokens):
r"""Given an iterator over (kind, text, match) triples (see
tokenize_template above), return a refined iterator over
token_kinds.
Among other adjustments to the elements found by base_tokens,
this refined iterator tokenizes python code embedded in
template text to help determine its true extent. The
expression "base_tokens.send(pos)" is used to reset the index at
which base_tokens resumes scanning the underlying text.
>>> ctx = ParseContext('dummy', '''
... %for x in y:
... % print x
... % end
... literally
... ''')
>>> while ctx.token_kind:
... print((ctx.token_kind, ctx.code_text or ctx.token_text))
... ignored = ctx.next_token()
('literal', '\n')
('gybLinesOpen', 'for x in y:\n')
('gybLines', ' print x\n')
('gybLinesClose', '% end')
('literal', 'literally\n')
>>> ctx = ParseContext('dummy',
... '''Nothing
... % if x:
... % for i in range(3):
... ${i}
... % end
... % else:
... THIS SHOULD NOT APPEAR IN THE OUTPUT
... ''')
>>> while ctx.token_kind:
... print((ctx.token_kind, ctx.code_text or ctx.token_text))
... ignored = ctx.next_token()
('literal', 'Nothing\n')
('gybLinesOpen', 'if x:\n')
('gybLinesOpen', ' for i in range(3):\n')
('substitutionOpen', 'i')
('literal', '\n')
('gybLinesClose', '% end')
('gybLinesOpen', 'else:\n')
('literal', 'THIS SHOULD NOT APPEAR IN THE OUTPUT\n')
>>> ctx = ParseContext('dummy',
... '''% for x in [1, 2, 3]:
... % if x == 1:
... literal1
... % elif x > 1: # add output line here to fix bug
... % if x == 2:
... literal2
... % end
... % end
... % end
... ''')
>>> while ctx.token_kind:
... print((ctx.token_kind, ctx.code_text or ctx.token_text))
... ignored = ctx.next_token()
('gybLinesOpen', 'for x in [1, 2, 3]:\n')
('gybLinesOpen', ' if x == 1:\n')
('literal', 'literal1\n')
('gybLinesOpen', 'elif x > 1: # add output line here to fix bug\n')
('gybLinesOpen', ' if x == 2:\n')
('literal', 'literal2\n')
('gybLinesClose', '% end')
('gybLinesClose', '% end')
('gybLinesClose', '% end')
"""
for self.token_kind, self.token_text, self.token_match in base_tokens:
kind = self.token_kind
self.code_text = None
# Do we need to close the current lines?
self.close_lines = kind == 'gybLinesClose'
# %{...}% and ${...} constructs
if kind.endswith('Open'):
# Tokenize text that follows as Python up to an unmatched '}'
code_start = self.token_match.end(kind)
self.code_start_line = self.pos_to_line(code_start)
close_pos = tokenize_python_to_unmatched_close_curly(
self.template, code_start, self.line_starts)
self.code_text = self.template[code_start:close_pos]
yield kind
if (kind == 'gybBlockOpen'):
# Absorb any '}% <optional-comment> \n'
m2 = gyb_block_close.match(self.template, close_pos)
if not m2:
raise ValueError("Invalid block closure")
next_pos = m2.end(0)
else:
assert kind == 'substitutionOpen'
# skip past the closing '}'
next_pos = close_pos + 1
# Resume tokenizing after the end of the code.
base_tokens.send(next_pos)
elif kind == 'gybLines':
self.code_start_line = self.pos_to_line(
self.token_match.start('gybLines'))
indentation = self.token_match.group('_indent')
# Strip off the leading indentation and %-sign
source_lines = re.split(
'^' + re.escape(indentation),
self.token_match.group('gybLines') + '\n',
flags=re.MULTILINE)[1:]
if code_starts_with_dedent_keyword(source_lines):
self.close_lines = True
last_split = 0
for line in split_gyb_lines(source_lines):
self.token_kind = 'gybLinesOpen'
self.code_text = ''.join(source_lines[last_split:line])
yield self.token_kind
last_split = line
self.code_start_line += line - last_split
self.close_lines = False
self.code_text = ''.join(source_lines[last_split:])
if self.code_text:
self.token_kind = 'gybLines'
yield self.token_kind
else:
yield self.token_kind
def next_token(self):
"""Move to the next token"""
for kind in self.tokens:
return self.token_kind
self.token_kind = None
_default_line_directive = \
'// ###sourceLocation(file: "%(file)s", line: %(line)d)'
class ExecutionContext(object):
"""State we pass around during execution of a template"""
def __init__(self, line_directive=_default_line_directive,
**local_bindings):
self.local_bindings = local_bindings
self.line_directive = line_directive
self.local_bindings['__context__'] = self
self.result_text = []
self.last_file_line = None
def append_text(self, text, file, line):
# see if we need to inject a line marker
if self.line_directive:
if (file, line) != self.last_file_line:
# We can only insert the line directive at a line break
if len(self.result_text) == 0 \
or self.result_text[-1].endswith('\n'):
substitutions = {'file': file, 'line': line + 1}
format_str = self.line_directive + '\n'
self.result_text.append(format_str % substitutions)
# But if the new text contains any line breaks, we can create
# one
elif '\n' in text:
i = text.find('\n')
self.result_text.append(text[:i + 1])
# and try again
self.append_text(text[i + 1:], file, line + 1)
return
self.result_text.append(text)
self.last_file_line = (file, line + text.count('\n'))
class ASTNode(object):
"""Abstract base class for template AST nodes"""
def __init__(self):
raise NotImplementedError("ASTNode.__init__ is not implemented.")
def execute(self, context):
raise NotImplementedError("ASTNode.execute is not implemented.")
def __str__(self, indent=''):
raise NotImplementedError("ASTNode.__str__ is not implemented.")
def format_children(self, indent):
if not self.children:
return ' []'
return '\n'.join(
['', indent + '['] +
[x.__str__(indent + 4 * ' ') for x in self.children] +
[indent + ']'])
class Block(ASTNode):
"""A sequence of other AST nodes, to be executed in order"""
children = []
def __init__(self, context):
self.children = []
while context.token_kind and not context.close_lines:
if context.token_kind == 'literal':
node = Literal
else:
node = Code
self.children.append(node(context))
def execute(self, context):
for x in self.children:
x.execute(context)
def __str__(self, indent=''):
return indent + 'Block:' + self.format_children(indent)
class Literal(ASTNode):
"""An AST node that generates literal text"""
def __init__(self, context):
self.text = context.token_text
start_position = context.token_match.start(context.token_kind)
self.start_line_number = context.pos_to_line(start_position)
self.filename = context.filename
context.next_token()
def execute(self, context):
context.append_text(self.text, self.filename, self.start_line_number)
def __str__(self, indent=''):
return '\n'.join(
[indent + x for x in ['Literal:'] +
strip_trailing_nl(self.text).split('\n')])
class Code(ASTNode):
"""An AST node that is evaluated as Python"""
code = None
children = ()
kind = None
def __init__(self, context):
source = ''
source_line_count = 0
def accumulate_code():
s = source + (context.code_start_line - source_line_count) * '\n' \
+ textwrap.dedent(context.code_text)
line_count = context.code_start_line + \
context.code_text.count('\n')
context.next_token()
return s, line_count
eval_exec = 'exec'
if context.token_kind.startswith('substitution'):
eval_exec = 'eval'
source, source_line_count = accumulate_code()
source = '(' + source.strip() + ')'
else:
while context.token_kind == 'gybLinesOpen':
source, source_line_count = accumulate_code()
source += ' __children__[%d].execute(__context__)\n' % len(
self.children)
source_line_count += 1
self.children += (Block(context),)
if context.token_kind == 'gybLinesClose':
context.next_token()
if context.token_kind == 'gybLines':
source, source_line_count = accumulate_code()
# Only handle a substitution as part of this code block if
# we don't already have some %-lines.
elif context.token_kind == 'gybBlockOpen':
# Opening ${...} and %{...}% constructs
source, source_line_count = accumulate_code()
self.filename = context.filename
self.start_line_number = context.code_start_line
self.code = compile(source, context.filename, eval_exec)
self.source = source
def execute(self, context):
# Save __children__ from the local bindings
save_children = context.local_bindings.get('__children__')
# Execute the code with our __children__ in scope
context.local_bindings['__children__'] = self.children
context.local_bindings['__file__'] = self.filename
result = eval(self.code, context.local_bindings)
if context.local_bindings['__children__'] is not self.children:
raise ValueError("The code is not allowed to mutate __children__")
# Restore the bindings
context.local_bindings['__children__'] = save_children
# If we got a result, the code was an expression, so append
# its value
if result is not None \
or (isinstance(result, str) and result != ''):
from numbers import Number, Integral
result_string = None
if isinstance(result, Number) and not isinstance(result, Integral):
result_string = repr(result)
else:
result_string = str(result)
context.append_text(
result_string, self.filename, self.start_line_number)
def __str__(self, indent=''):
source_lines = re.sub(r'^\n', '', strip_trailing_nl(
self.source), flags=re.MULTILINE).split('\n')
if len(source_lines) == 1:
s = indent + 'Code: {' + source_lines[0] + '}'
else:
s = indent + 'Code:\n' + indent + '{\n' + '\n'.join(
indent + 4 * ' ' + l for l in source_lines
) + '\n' + indent + '}'
return s + self.format_children(indent)
def expand(filename, line_directive=_default_line_directive, **local_bindings):
r"""Return the contents of the given template file, executed with the given
local bindings.
>>> from tempfile import NamedTemporaryFile
>>> # On Windows, the name of a NamedTemporaryFile cannot be used to open
>>> # the file for a second time if delete=True. Therefore, we have to
>>> # manually handle closing and deleting this file to allow us to open
>>> # the file by its name across all platforms.
>>> f = NamedTemporaryFile(delete=False)
>>> f.write(
... r'''---
... % for i in range(int(x)):
... a pox on ${i} for epoxy
... % end
... ${120 +
...
... 3}
... abc
... ${"w\nx\nX\ny"}
... z
... ''')
>>> f.flush()
>>> result = expand(
... f.name,
... line_directive='//#sourceLocation(file: "%(file)s", ' + \
... 'line: %(line)d)',
... x=2
... ).replace(
... '"%s"' % f.name.replace('\\', '/'), '"dummy.file"')
>>> print(result, end='')
//#sourceLocation(file: "dummy.file", line: 1)
---
//#sourceLocation(file: "dummy.file", line: 3)
a pox on 0 for epoxy
//#sourceLocation(file: "dummy.file", line: 3)
a pox on 1 for epoxy
//#sourceLocation(file: "dummy.file", line: 5)
123
//#sourceLocation(file: "dummy.file", line: 8)
abc
w
x
X
y
//#sourceLocation(file: "dummy.file", line: 10)
z
>>> f.close()
>>> os.remove(f.name)
"""
with open(filename) as f:
t = parse_template(filename, f.read())
d = os.getcwd()
os.chdir(os.path.dirname(os.path.abspath(filename)))
try:
return execute_template(
t, line_directive=line_directive, **local_bindings)
finally:
os.chdir(d)
def parse_template(filename, text=None):
r"""Return an AST corresponding to the given template file.
If text is supplied, it is assumed to be the contents of the file,
as a string.
>>> print(parse_template('dummy.file', text=
... '''% for x in [1, 2, 3]:
... % if x == 1:
... literal1
... % elif x > 1: # add output line after this line to fix bug
... % if x == 2:
... literal2
... % end
... % end
... % end
... '''))
Block:
[
Code:
{
for x in [1, 2, 3]:
__children__[0].execute(__context__)
}
[
Block:
[
Code:
{
if x == 1:
__children__[0].execute(__context__)
elif x > 1: # add output line after this line to fix bug
__children__[1].execute(__context__)
}
[
Block:
[
Literal:
literal1
]
Block:
[
Code:
{
if x == 2:
__children__[0].execute(__context__)
}
[
Block:
[
Literal:
literal2
]
]
]
]
]
]
]
>>> print(parse_template(
... 'dummy.file',
... text='%for x in range(10):\n% print(x)\n%end\njuicebox'))
Block:
[
Code:
{
for x in range(10):
__children__[0].execute(__context__)
}
[
Block:
[
Code: {print(x)} []
]
]
Literal:
juicebox
]
>>> print(parse_template('/dummy.file', text=
... '''Nothing
... % if x:
... % for i in range(3):
... ${i}
... % end
... % else:
... THIS SHOULD NOT APPEAR IN THE OUTPUT
... '''))
Block:
[
Literal:
Nothing
Code:
{
if x:
__children__[0].execute(__context__)
else:
__children__[1].execute(__context__)
}
[
Block:
[
Code:
{
for i in range(3):
__children__[0].execute(__context__)
}
[
Block:
[
Code: {(i)} []
Literal:
<BLANKLINE>
]
]
]
Block:
[
Literal:
THIS SHOULD NOT APPEAR IN THE OUTPUT
]
]
]
>>> print(parse_template('dummy.file', text='''%
... %for x in y:
... % print(y)
... '''))
Block:
[
Code:
{
for x in y:
__children__[0].execute(__context__)
}
[
Block:
[
Code: {print(y)} []
]
]
]
>>> print(parse_template('dummy.file', text='''%
... %if x:
... % print(y)
... AAAA
... %else:
... BBBB
... '''))
Block:
[
Code:
{
if x:
__children__[0].execute(__context__)
else:
__children__[1].execute(__context__)
}
[
Block:
[
Code: {print(y)} []
Literal:
AAAA
]
Block:
[
Literal:
BBBB
]
]
]
>>> print(parse_template('dummy.file', text='''%
... %if x:
... % print(y)
... AAAA
... %# This is a comment
... %else:
... BBBB
... '''))
Block:
[
Code:
{
if x:
__children__[0].execute(__context__)
# This is a comment
else:
__children__[1].execute(__context__)
}
[
Block:
[
Code: {print(y)} []