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tenjin.py
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tenjin.py
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##
## $Release: 1.1.1 $
## $Copyright: copyright(c) 2007-2012 kuwata-lab.com all rights reserved. $
## $License: MIT License $
##
## Permission is hereby granted, free of charge, to any person obtaining
## a copy of this software and associated documentation files (the
## "Software"), to deal in the Software without restriction, including
## without limitation the rights to use, copy, modify, merge, publish,
## distribute, sublicense, and/or sell copies of the Software, and to
## permit persons to whom the Software is furnished to do so, subject to
## the following conditions:
##
## The above copyright notice and this permission notice shall be
## included in all copies or substantial portions of the Software.
##
## THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
## EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
## MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
## NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
## LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION
## OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
## WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
##
"""Very fast and light-weight template engine based embedded Python.
See User's Guide and examples for details.
http://www.kuwata-lab.com/tenjin/pytenjin-users-guide.html
http://www.kuwata-lab.com/tenjin/pytenjin-examples.html
"""
__version__ = "$Release: 1.1.1 $"[10:-2]
__license__ = "$License: MIT License $"[10:-2]
__all__ = ('Template', 'Engine', )
import sys, os, re, time, marshal
from time import time as _time
from os.path import getmtime as _getmtime
from os.path import isfile as _isfile
random = pickle = unquote = None # lazy import
python3 = sys.version_info[0] == 3
python2 = sys.version_info[0] == 2
logger = None
##
## utilities
##
def _write_binary_file(filename, content):
global random
if random is None: from random import random
tmpfile = filename + str(random())[1:]
f = open(tmpfile, 'w+b') # on windows, 'w+b' is preffered than 'wb'
try:
f.write(content)
finally:
f.close()
if os.path.exists(tmpfile):
try:
os.rename(tmpfile, filename)
except:
os.remove(filename) # on windows, existing file should be removed before renaming
os.rename(tmpfile, filename)
def _read_binary_file(filename):
f = open(filename, 'rb')
try:
return f.read()
finally:
f.close()
def _read_text_file(filename, encoding=None):
f = open(filename, encoding=(encoding or 'utf-8'))
try:
return f.read()
finally:
f.close()
def _read_template_file(filename, encoding=None):
s = _read_binary_file(filename) ## binary
return s.decode(encoding or 'utf-8') ## binary to unicode(=str)
_basestring = (str, bytes)
_unicode = str
_bytes = bytes
def _ignore_not_found_error(f, default=None):
try:
return f()
except OSError as ex:
if ex.errno == 2: # error: No such file or directory
return default
raise
def create_module(module_name, dummy_func=None, **kwargs):
"""ex. mod = create_module('tenjin.util')"""
try:
mod = type(sys)(module_name)
except:
# The module creation above does not work for Jython 2.5.2
import imp
mod = imp.new_module(module_name)
mod.__file__ = __file__
mod.__dict__.update(kwargs)
sys.modules[module_name] = mod
if dummy_func:
exec(dummy_func.__code__, mod.__dict__)
return mod
def _raise(exception_class, *args):
raise exception_class(*args)
##
## helper method's module
##
def _dummy():
global unquote
unquote = None
global to_str, escape, echo, new_cycle, generate_tostrfunc
global start_capture, stop_capture, capture_as, captured_as, CaptureContext
global _p, _P, _decode_params
def generate_tostrfunc(decode=None, encode=None):
"""Generate 'to_str' function with encode or decode encoding.
ex. generate to_str() function which encodes unicode(=str) into bytes
to_str = tenjin.generate_tostrfunc(encode='utf-8')
repr(to_str('hoge')) #=> b'hoge' (bytes)
ex. generate to_str() function which decodes bytes into unicode(=str).
to_str = tenjin.generate_tostrfunc(decode='utf-8')
repr(to_str(b'hoge')) #=> 'hoge' (str)
"""
if encode:
if decode:
raise ValueError("can't specify both encode and decode encoding.")
else:
def to_str(val, _str=str, _bytes=bytes, _isa=isinstance, _encode=encode):
"""Convert val into string or return '' if None. Unicode(=str) will be encoded into bytes."""
if _isa(val, _str): return val.encode(_encode) # unicode(=str) to binary
if val is None: return ''
if _isa(val, _bytes): return val
return _str(val).encode(_encode)
else:
if decode:
def to_str(val, _str=str, _bytes=bytes, _isa=isinstance, _decode=decode):
"""Convert val into string or return '' if None. Bytes will be decoded into unicode(=str)."""
if _isa(val, _str): return val
if val is None: return ''
if _isa(val, _bytes): return val.decode(_decode) # binary to unicode(=str)
return _str(val)
else:
def to_str(val, _str=str, _bytes=bytes, _isa=isinstance):
"""Convert val into string or return '' if None. Both bytes and unicode(=str) will be retruned as-is."""
if _isa(val, _str): return val
if val is None: return ''
if _isa(val, _bytes): return val
return _str(val)
return to_str
to_str = generate_tostrfunc(decode='utf-8')
def echo(string):
"""add string value into _buf. this is equivarent to '#{string}'."""
lvars = sys._getframe(1).f_locals # local variables
lvars['_buf'].append(string)
def new_cycle(*values):
"""Generate cycle object.
ex.
cycle = new_cycle('odd', 'even')
print(cycle()) #=> 'odd'
print(cycle()) #=> 'even'
print(cycle()) #=> 'odd'
print(cycle()) #=> 'even'
"""
def gen(values):
i, n = 0, len(values)
while True:
yield values[i]
i = (i + 1) % n
return gen(values).__next__
class CaptureContext(object):
def __init__(self, name, store_to_context=True, lvars=None):
self.name = name
self.store_to_context = store_to_context
self.lvars = lvars or sys._getframe(1).f_locals
def __enter__(self):
lvars = self.lvars
self._buf_orig = lvars['_buf']
lvars['_buf'] = _buf = []
lvars['_extend'] = _buf.extend
return self
def __exit__(self, *args):
lvars = self.lvars
_buf = lvars['_buf']
lvars['_buf'] = self._buf_orig
lvars['_extend'] = self._buf_orig.extend
lvars[self.name] = self.captured = ''.join(_buf)
if self.store_to_context and '_context' in lvars:
lvars['_context'][self.name] = self.captured
def __iter__(self):
self.__enter__()
yield self
self.__exit__()
def start_capture(varname=None, _depth=1):
"""(obsolete) start capturing with name."""
lvars = sys._getframe(_depth).f_locals
capture_context = CaptureContext(varname, None, lvars)
lvars['_capture_context'] = capture_context
capture_context.__enter__()
def stop_capture(store_to_context=True, _depth=1):
"""(obsolete) stop capturing and return the result of capturing.
if store_to_context is True then the result is stored into _context[varname].
"""
lvars = sys._getframe(_depth).f_locals
capture_context = lvars.pop('_capture_context', None)
if not capture_context:
raise Exception('stop_capture(): start_capture() is not called before.')
capture_context.store_to_context = store_to_context
capture_context.__exit__()
return capture_context.captured
def capture_as(name, store_to_context=True):
"""capture partial of template."""
return CaptureContext(name, store_to_context, sys._getframe(1).f_locals)
def captured_as(name, _depth=1):
"""helper method for layout template.
if captured string is found then append it to _buf and return True,
else return False.
"""
lvars = sys._getframe(_depth).f_locals # local variables
if name in lvars:
_buf = lvars['_buf']
_buf.append(lvars[name])
return True
return False
def _p(arg):
"""ex. '/show/'+_p("item['id']") => "/show/#{item['id']}" """
return '<`#%s#`>' % arg # decoded into #{...} by preprocessor
def _P(arg):
"""ex. '<b>%s</b>' % _P("item['id']") => "<b>${item['id']}</b>" """
return '<`$%s$`>' % arg # decoded into ${...} by preprocessor
def _decode_params(s):
"""decode <`#...#`> and <`$...$`> into #{...} and ${...}"""
global unquote
if unquote is None:
from urllib.parse import unquote
dct = { 'lt':'<', 'gt':'>', 'amp':'&', 'quot':'"', '#039':"'", }
def unescape(s):
#return s.replace('<', '<').replace('>', '>').replace('"', '"').replace(''', "'").replace('&', '&')
return re.sub(r'&(lt|gt|quot|amp|#039);', lambda m: dct[m.group(1)], s)
s = to_str(s)
s = re.sub(r'%3C%60%23(.*?)%23%60%3E', lambda m: '#{%s}' % unquote(m.group(1)), s)
s = re.sub(r'%3C%60%24(.*?)%24%60%3E', lambda m: '${%s}' % unquote(m.group(1)), s)
s = re.sub(r'<`#(.*?)#`>', lambda m: '#{%s}' % unescape(m.group(1)), s)
s = re.sub(r'<`\$(.*?)\$`>', lambda m: '${%s}' % unescape(m.group(1)), s)
s = re.sub(r'<`#(.*?)#`>', r'#{\1}', s)
s = re.sub(r'<`\$(.*?)\$`>', r'${\1}', s)
return s
helpers = create_module('tenjin.helpers', _dummy, sys=sys, re=re)
helpers.__all__ = ['to_str', 'escape', 'echo', 'new_cycle', 'generate_tostrfunc',
'start_capture', 'stop_capture', 'capture_as', 'captured_as',
'not_cached', 'echo_cached', 'cache_as',
'_p', '_P', '_decode_params',
]
generate_tostrfunc = helpers.generate_tostrfunc
##
## escaped module
##
def _dummy():
global is_escaped, as_escaped, to_escaped
global Escaped, EscapedStr, EscapedBytes
global __all__
__all__ = ('is_escaped', 'as_escaped', 'to_escaped', ) #'Escaped', 'EscapedStr',
class Escaped(object):
"""marking class that object is already escaped."""
pass
def is_escaped(value):
"""return True if value is marked as escaped, else return False."""
return isinstance(value, Escaped)
class EscapedStr(str, Escaped):
"""string class which is marked as escaped."""
pass
class EscapedBytes(bytes, Escaped):
"""bytes class which is marked as escaped."""
pass
def as_escaped(s):
"""mark string as escaped, without escaping. accepts only string."""
if isinstance(s, str): return EscapedStr(s)
if isinstance(s, bytes): return EscapedBytes(s)
raise TypeError("as_escaped(%r): expected str or bytes." % (s, ))
def to_escaped(value):
"""convert any value into string and escape it.
if value is already marked as escaped, don't escape it."""
if hasattr(value, '__html__'):
value = value.__html__()
if is_escaped(value):
#return value # EscapedUnicode should be convered into EscapedStr
return as_escaped(_helpers.to_str(value))
#if isinstance(value, _basestring):
# return as_escaped(_helpers.escape(value))
return as_escaped(_helpers.escape(_helpers.to_str(value)))
escaped = create_module('tenjin.escaped', _dummy, _helpers=helpers)
##
## module for html
##
def _dummy():
global escape_html, escape_xml, escape, tagattr, tagattrs, _normalize_attrs
global checked, selected, disabled, nl2br, text2html, nv, js_link
#_escape_table = { '&': '&', '<': '<', '>': '>', '"': '"', "'": ''' }
#_escape_pattern = re.compile(r'[&<>"]')
##_escape_callable = lambda m: _escape_table[m.group(0)]
##_escape_callable = lambda m: _escape_table.__get__(m.group(0))
#_escape_get = _escape_table.__getitem__
#_escape_callable = lambda m: _escape_get(m.group(0))
#_escape_sub = _escape_pattern.sub
#def escape_html(s):
# return s # 3.02
#def escape_html(s):
# return _escape_pattern.sub(_escape_callable, s) # 6.31
#def escape_html(s):
# return _escape_sub(_escape_callable, s) # 6.01
#def escape_html(s, _p=_escape_pattern, _f=_escape_callable):
# return _p.sub(_f, s) # 6.27
#def escape_html(s, _sub=_escape_pattern.sub, _callable=_escape_callable):
# return _sub(_callable, s) # 6.04
#def escape_html(s):
# s = s.replace('&', '&')
# s = s.replace('<', '<')
# s = s.replace('>', '>')
# s = s.replace('"', '"')
# return s # 5.83
def escape_html(s):
"""Escape '&', '<', '>', '"' into '&', '<', '>', '"'."""
return s.replace('&', '&').replace('<', '<').replace('>', '>').replace('"', '"').replace("'", ''') # 5.72
escape_xml = escape_html # for backward compatibility
def tagattr(name, expr, value=None, escape=True):
"""(experimental) Return ' name="value"' if expr is true value, else '' (empty string).
If value is not specified, expr is used as value instead."""
if not expr and expr != 0: return _escaped.as_escaped('')
if value is None: value = expr
if escape: value = _escaped.to_escaped(value)
return _escaped.as_escaped(' %s="%s"' % (name, value))
def tagattrs(**kwargs):
"""(experimental) built html tag attribtes.
ex.
>>> tagattrs(klass='main', size=20)
' class="main" size="20"'
>>> tagattrs(klass='', size=0)
''
"""
kwargs = _normalize_attrs(kwargs)
esc = _escaped.to_escaped
s = ''.join([ ' %s="%s"' % (k, esc(v)) for k, v in kwargs.items() if v or v == 0 ])
return _escaped.as_escaped(s)
def _normalize_attrs(kwargs):
if 'klass' in kwargs: kwargs['class'] = kwargs.pop('klass')
if 'checked' in kwargs: kwargs['checked'] = kwargs.pop('checked') and 'checked' or None
if 'selected' in kwargs: kwargs['selected'] = kwargs.pop('selected') and 'selected' or None
if 'disabled' in kwargs: kwargs['disabled'] = kwargs.pop('disabled') and 'disabled' or None
return kwargs
def checked(expr):
"""return ' checked="checked"' if expr is true."""
return _escaped.as_escaped(expr and ' checked="checked"' or '')
def selected(expr):
"""return ' selected="selected"' if expr is true."""
return _escaped.as_escaped(expr and ' selected="selected"' or '')
def disabled(expr):
"""return ' disabled="disabled"' if expr is true."""
return _escaped.as_escaped(expr and ' disabled="disabled"' or '')
def nl2br(text):
"""replace "\n" to "<br />\n" and return it."""
if not text:
return _escaped.as_escaped('')
return _escaped.as_escaped(text.replace('\n', '<br />\n'))
def text2html(text, use_nbsp=True):
"""(experimental) escape xml characters, replace "\n" to "<br />\n", and return it."""
if not text:
return _escaped.as_escaped('')
s = _escaped.to_escaped(text)
if use_nbsp: s = s.replace(' ', ' ')
#return nl2br(s)
s = s.replace('\n', '<br />\n')
return _escaped.as_escaped(s)
def nv(name, value, sep=None, **kwargs):
"""(experimental) Build name and value attributes.
ex.
>>> nv('rank', 'A')
'name="rank" value="A"'
>>> nv('rank', 'A', '.')
'name="rank" value="A" id="rank.A"'
>>> nv('rank', 'A', '.', checked=True)
'name="rank" value="A" id="rank.A" checked="checked"'
>>> nv('rank', 'A', '.', klass='error', style='color:red')
'name="rank" value="A" id="rank.A" class="error" style="color:red"'
"""
name = _escaped.to_escaped(name)
value = _escaped.to_escaped(value)
s = sep and 'name="%s" value="%s" id="%s"' % (name, value, name+sep+value) \
or 'name="%s" value="%s"' % (name, value)
html = kwargs and s + tagattrs(**kwargs) or s
return _escaped.as_escaped(html)
def js_link(label, onclick, **kwargs):
s = kwargs and tagattrs(**kwargs) or ''
html = '<a href="javascript:undefined" onclick="%s;return false"%s>%s</a>' % \
(_escaped.to_escaped(onclick), s, _escaped.to_escaped(label))
return _escaped.as_escaped(html)
html = create_module('tenjin.html', _dummy, helpers=helpers, _escaped=escaped)
helpers.escape = html.escape_html
helpers.html = html # for backward compatibility
sys.modules['tenjin.helpers.html'] = html
##
## utility function to set default encoding of template files
##
_template_encoding = (None, 'utf-8') # encodings for decode and encode
def set_template_encoding(decode=None, encode=None):
"""Set default encoding of template files.
This should be called before importing helper functions.
ex.
## I like template files to be unicode-base like Django.
import tenjin
tenjin.set_template_encoding('utf-8') # should be called before importing helpers
from tenjin.helpers import *
"""
global _template_encoding
if _template_encoding == (decode, encode):
return
if decode and encode:
raise ValueError("set_template_encoding(): cannot specify both decode and encode.")
if not decode and not encode:
raise ValueError("set_template_encoding(): decode or encode should be specified.")
if decode:
Template.encoding = decode # unicode base template
helpers.to_str = helpers.generate_tostrfunc(decode=decode)
else:
Template.encoding = None # binary base template
helpers.to_str = helpers.generate_tostrfunc(encode=encode)
_template_encoding = (decode, encode)
##
## Template class
##
class TemplateSyntaxError(SyntaxError):
def build_error_message(self):
ex = self
if not ex.text:
return self.args[0]
return ''.join([
"%s:%s:%s: %s\n" % (ex.filename, ex.lineno, ex.offset, ex.msg, ),
"%4d: %s\n" % (ex.lineno, ex.text.rstrip(), ),
" %s^\n" % (' ' * ex.offset, ),
])
class Template(object):
"""Convert and evaluate embedded python string.
See User's Guide and examples for details.
http://www.kuwata-lab.com/tenjin/pytenjin-users-guide.html
http://www.kuwata-lab.com/tenjin/pytenjin-examples.html
"""
## default value of attributes
filename = None
encoding = None
escapefunc = 'escape'
tostrfunc = 'to_str'
indent = 4
preamble = None # "_buf = []; _expand = _buf.expand; _to_str = to_str; _escape = escape"
postamble = None # "print ''.join(_buf)"
smarttrim = None
args = None
timestamp = None
trace = False # if True then '<!-- begin: file -->' and '<!-- end: file -->' are printed
def __init__(self, filename=None, encoding=None, input=None, escapefunc=None, tostrfunc=None,
indent=None, preamble=None, postamble=None, smarttrim=None, trace=None):
"""Initailizer of Template class.
filename:str (=None)
Filename to convert (optional). If None, no convert.
encoding:str (=None)
Encoding name. If specified, template string is converted into
unicode object internally.
Template.render() returns str object if encoding is None,
else returns unicode object if encoding name is specified.
input:str (=None)
Input string. In other words, content of template file.
Template file will not be read if this argument is specified.
escapefunc:str (='escape')
Escape function name.
tostrfunc:str (='to_str')
'to_str' function name.
indent:int (=4)
Indent width.
preamble:str or bool (=None)
Preamble string which is inserted into python code.
If true, '_buf = []; ' is used insated.
postamble:str or bool (=None)
Postamble string which is appended to python code.
If true, 'print("".join(_buf))' is used instead.
smarttrim:bool (=None)
If True then "<div>\\n#{_context}\\n</div>" is parsed as
"<div>\\n#{_context}</div>".
"""
if encoding is not None: self.encoding = encoding
if escapefunc is not None: self.escapefunc = escapefunc
if tostrfunc is not None: self.tostrfunc = tostrfunc
if indent is not None: self.indent = indent
if preamble is not None: self.preamble = preamble
if postamble is not None: self.postamble = postamble
if smarttrim is not None: self.smarttrim = smarttrim
if trace is not None: self.trace = trace
#
if preamble is True: self.preamble = "_buf = []"
if postamble is True: self.postamble = "print(''.join(_buf))"
if input:
self.convert(input, filename)
self.timestamp = False # False means 'file not exist' (= Engine should not check timestamp of file)
elif filename:
self.convert_file(filename)
else:
self._reset()
def _reset(self, input=None, filename=None):
self.script = None
self.bytecode = None
self.input = input
self.filename = filename
if input != None:
i = input.find("\n")
if i < 0:
self.newline = "\n" # or None
elif len(input) >= 2 and input[i-1] == "\r":
self.newline = "\r\n"
else:
self.newline = "\n"
self._localvars_assignments_added = False
def _localvars_assignments(self):
return "_extend=_buf.extend;_to_str=%s;_escape=%s; " % (self.tostrfunc, self.escapefunc)
def before_convert(self, buf):
if self.preamble:
eol = self.input.startswith('<?py') and "\n" or "; "
buf.append(self.preamble + eol)
def after_convert(self, buf):
if self.postamble:
if buf and not buf[-1].endswith("\n"):
buf.append("\n")
buf.append(self.postamble + "\n")
def convert_file(self, filename):
"""Convert file into python script and return it.
This is equivarent to convert(open(filename).read(), filename).
"""
input = _read_template_file(filename)
return self.convert(input, filename)
def convert(self, input, filename=None):
"""Convert string in which python code is embedded into python script and return it.
input:str
Input string to convert into python code.
filename:str (=None)
Filename of input. this is optional but recommended to report errors.
"""
pass
self._reset(input, filename)
buf = []
self.before_convert(buf)
self.parse_stmts(buf, input)
self.after_convert(buf)
script = ''.join(buf)
self.script = script
return script
STMT_PATTERN = (r'<\?py( |\t|\r?\n)(.*?) ?\?>([ \t]*\r?\n)?', re.S)
def stmt_pattern(self):
pat = self.STMT_PATTERN
if isinstance(pat, tuple):
pat = self.__class__.STMT_PATTERN = re.compile(*pat)
return pat
def parse_stmts(self, buf, input):
if not input: return
rexp = self.stmt_pattern()
is_bol = True
index = 0
for m in rexp.finditer(input):
mspace, code, rspace = m.groups()
#mspace, close, rspace = m.groups()
#code = input[m.start()+4+len(mspace):m.end()-len(close)-(rspace and len(rspace) or 0)]
text = input[index:m.start()]
index = m.end()
## detect spaces at beginning of line
lspace = None
if text == '':
if is_bol:
lspace = ''
elif text[-1] == '\n':
lspace = ''
else:
rindex = text.rfind('\n')
if rindex < 0:
if is_bol and text.isspace():
lspace, text = text, ''
else:
s = text[rindex+1:]
if s.isspace():
lspace, text = s, text[:rindex+1]
#is_bol = rspace is not None
## add text, spaces, and statement
self.parse_exprs(buf, text, is_bol)
is_bol = rspace is not None
#if mspace == "\n":
if mspace and mspace.endswith("\n"):
code = "\n" + (code or "")
#if rspace == "\n":
if rspace and rspace.endswith("\n"):
code = (code or "") + "\n"
if code:
code = self.statement_hook(code)
m = self._match_to_args_declaration(code)
if m:
self._add_args_declaration(buf, m)
else:
self.add_stmt(buf, code)
rest = input[index:]
if rest:
self.parse_exprs(buf, rest)
self._arrange_indent(buf)
def statement_hook(self, stmt):
"""expand macros and parse '#@ARGS' in a statement."""
return stmt.replace("\r\n", "\n") # Python can't handle "\r\n" in code
def _match_to_args_declaration(self, stmt):
if self.args is not None:
return None
args_pattern = r'^ *#@ARGS(?:[ \t]+(.*?))?$'
return re.match(args_pattern, stmt)
def _add_args_declaration(self, buf, m):
arr = (m.group(1) or '').split(',')
args = []; declares = []
for s in arr:
arg = s.strip()
if not s: continue
if not re.match('^[a-zA-Z_]\w*$', arg):
raise ValueError("%r: invalid template argument." % arg)
args.append(arg)
declares.append("%s = _context.get('%s'); " % (arg, arg))
self.args = args
#nl = stmt[m.end():]
#if nl: declares.append(nl)
buf.append(''.join(declares) + "\n")
s = '(?:\{.*?\}.*?)*'
EXPR_PATTERN = (r'#\{(.*?'+s+r')\}|\$\{(.*?'+s+r')\}|\{=(?:=(.*?)=|(.*?))=\}', re.S)
del s
def expr_pattern(self):
pat = self.EXPR_PATTERN
if isinstance(pat, tuple):
self.__class__.EXPR_PATTERN = pat = re.compile(*pat)
return pat
def get_expr_and_flags(self, match):
expr1, expr2, expr3, expr4 = match.groups()
if expr1 is not None: return expr1, (False, True) # not escape, call to_str
if expr2 is not None: return expr2, (True, True) # call escape, call to_str
if expr3 is not None: return expr3, (False, True) # not escape, call to_str
if expr4 is not None: return expr4, (True, True) # call escape, call to_str
def parse_exprs(self, buf, input, is_bol=False):
buf2 = []
self._parse_exprs(buf2, input, is_bol)
if buf2:
buf.append(''.join(buf2))
def _parse_exprs(self, buf, input, is_bol=False):
if not input: return
self.start_text_part(buf)
rexp = self.expr_pattern()
smarttrim = self.smarttrim
nl = self.newline
nl_len = len(nl)
pos = 0
for m in rexp.finditer(input):
start = m.start()
text = input[pos:start]
pos = m.end()
expr, flags = self.get_expr_and_flags(m)
#
if text:
self.add_text(buf, text)
self.add_expr(buf, expr, *flags)
#
if smarttrim:
flag_bol = text.endswith(nl) or not text and (start > 0 or is_bol)
if flag_bol and not flags[0] and input[pos:pos+nl_len] == nl:
pos += nl_len
buf.append("\n")
if smarttrim:
if buf and buf[-1] == "\n":
buf.pop()
rest = input[pos:]
if rest:
self.add_text(buf, rest, True)
self.stop_text_part(buf)
if input[-1] == '\n':
buf.append("\n")
def start_text_part(self, buf):
self._add_localvars_assignments_to_text(buf)
#buf.append("_buf.extend((")
buf.append("_extend((")
def _add_localvars_assignments_to_text(self, buf):
if not self._localvars_assignments_added:
self._localvars_assignments_added = True
buf.append(self._localvars_assignments())
def stop_text_part(self, buf):
buf.append("));")
def _quote_text(self, text):
text = re.sub(r"(['\\\\])", r"\\\1", text)
text = text.replace("\r\n", "\\r\n")
return text
def add_text(self, buf, text, encode_newline=False):
if not text: return
use_unicode = self.encoding and python2
buf.append(use_unicode and "'''" or "'''")
text = self._quote_text(text)
if not encode_newline: buf.extend((text, "''', "))
elif text.endswith("\r\n"): buf.extend((text[0:-2], "\\r\\n''', "))
elif text.endswith("\n"): buf.extend((text[0:-1], "\\n''', "))
else: buf.extend((text, "''', "))
_add_text = add_text
def add_expr(self, buf, code, *flags):
if not code or code.isspace(): return
flag_escape, flag_tostr = flags
if not self.tostrfunc: flag_tostr = False
if not self.escapefunc: flag_escape = False
if flag_tostr and flag_escape: s1, s2 = "_escape(_to_str(", ")), "
elif flag_tostr: s1, s2 = "_to_str(", "), "
elif flag_escape: s1, s2 = "_escape(", "), "
else: s1, s2 = "(", "), "
buf.extend((s1, code, s2, ))
def add_stmt(self, buf, code):
if not code: return
lines = code.splitlines(True) # keep "\n"
if lines[-1][-1] != "\n":
lines[-1] = lines[-1] + "\n"
buf.extend(lines)
self._add_localvars_assignments_to_stmts(buf)
def _add_localvars_assignments_to_stmts(self, buf):
if self._localvars_assignments_added:
return
for index, stmt in enumerate(buf):
if not re.match(r'^[ \t]*(?:\#|_buf ?= ?\[\]|from __future__)', stmt):
break
else:
return
self._localvars_assignments_added = True
if re.match(r'^[ \t]*(if|for|while|def|with|class)\b', stmt):
buf.insert(index, self._localvars_assignments() + "\n")
else:
buf[index] = self._localvars_assignments() + buf[index]
_START_WORDS = dict.fromkeys(('for', 'if', 'while', 'def', 'try:', 'with', 'class'), True)
_END_WORDS = dict.fromkeys(('#end', '#endfor', '#endif', '#endwhile', '#enddef', '#endtry', '#endwith', '#endclass'), True)
_CONT_WORDS = dict.fromkeys(('elif', 'else:', 'except', 'except:', 'finally:'), True)
_WORD_REXP = re.compile(r'\S+')
depth = -1
##
## ex.
## input = r"""
## if items:
## _buf.extend(('<ul>\n', ))
## i = 0
## for item in items:
## i += 1
## _buf.extend(('<li>', to_str(item), '</li>\n', ))
## #endfor
## _buf.extend(('</ul>\n', ))
## #endif
## """[1:]
## lines = input.splitlines(True)
## block = self.parse_lines(lines)
## #=> [ "if items:\n",
## [ "_buf.extend(('<ul>\n', ))\n",
## "i = 0\n",
## "for item in items:\n",
## [ "i += 1\n",
## "_buf.extend(('<li>', to_str(item), '</li>\n', ))\n",
## ],
## "#endfor\n",
## "_buf.extend(('</ul>\n', ))\n",
## ],
## "#endif\n",
## ]
def parse_lines(self, lines):
block = []
try:
self._parse_lines(lines.__iter__(), False, block, 0)
except StopIteration:
if self.depth > 0:
fname, linenum, colnum, linetext = self.filename, len(lines), None, None
raise TemplateSyntaxError("unexpected EOF.", (fname, linenum, colnum, linetext))
else:
pass
return block
def _parse_lines(self, lines_iter, end_block, block, linenum):
if block is None: block = []
_START_WORDS = self._START_WORDS
_END_WORDS = self._END_WORDS
_CONT_WORDS = self._CONT_WORDS
_WORD_REXP = self._WORD_REXP
get_line = lines_iter.__next__
while True:
line = get_line()
linenum += line.count("\n")
m = _WORD_REXP.search(line)
if not m:
block.append(line)
continue
word = m.group(0)
if word in _END_WORDS:
if word != end_block and word != '#end':
if end_block is False:
msg = "'%s' found but corresponding statement is missing." % (word, )
else:
msg = "'%s' expected but got '%s'." % (end_block, word)
colnum = m.start() + 1
raise TemplateSyntaxError(msg, (self.filename, linenum, colnum, line))
return block, line, None, linenum
elif line.endswith(':\n') or line.endswith(':\r\n'):
if word in _CONT_WORDS:
return block, line, word, linenum
elif word in _START_WORDS:
block.append(line)
self.depth += 1
cont_word = None
try:
child_block, line, cont_word, linenum = \
self._parse_lines(lines_iter, '#end'+word, [], linenum)
block.extend((child_block, line, ))
while cont_word: # 'elif' or 'else:'
child_block, line, cont_word, linenum = \
self._parse_lines(lines_iter, '#end'+word, [], linenum)
block.extend((child_block, line, ))
except StopIteration:
msg = "'%s' is not closed." % (cont_word or word)
colnum = m.start() + 1
raise TemplateSyntaxError(msg, (self.filename, linenum, colnum, line))
self.depth -= 1
else:
block.append(line)
else:
block.append(line)
assert "unreachable"
def _join_block(self, block, buf, depth):
indent = ' ' * (self.indent * depth)
for line in block:
if isinstance(line, list):
self._join_block(line, buf, depth+1)
elif line.isspace():
buf.append(line)
else:
buf.append(indent + line.lstrip())
def _arrange_indent(self, buf):
"""arrange indentation of statements in buf"""
block = self.parse_lines(buf)
buf[:] = []
self._join_block(block, buf, 0)
def render(self, context=None, globals=None, _buf=None):
"""Evaluate python code with context dictionary.
If _buf is None then return the result of evaluation as str,
else return None.
context:dict (=None)
Context object to evaluate. If None then new dict is created.
globals:dict (=None)
Global object. If None then globals() is used.
_buf:list (=None)
If None then new list is created.
"""
if context is None:
locals = context = {}
elif self.args is None:
locals = context.copy()
else:
locals = {}
if '_engine' in context:
context.get('_engine').hook_context(locals)
locals['_context'] = context
if globals is None:
globals = sys._getframe(1).f_globals
bufarg = _buf
if _buf is None:
_buf = []
locals['_buf'] = _buf
if not self.bytecode:
self.compile()
if self.trace:
_buf.append("<!-- ***** begin: %s ***** -->\n" % self.filename)
exec(self.bytecode, globals, locals)
_buf.append("<!-- ***** end: %s ***** -->\n" % self.filename)
else:
exec(self.bytecode, globals, locals)
if bufarg is not None:
return bufarg
elif not logger:
return ''.join(_buf)
else:
try:
return ''.join(_buf)
except UnicodeDecodeError as ex:
logger.error("[tenjin.Template] " + str(ex))
logger.error("[tenjin.Template] (_buf=%r)" % (_buf, ))
raise
def compile(self):
"""compile self.script into self.bytecode"""
self.bytecode = compile(self.script, self.filename or '(tenjin)', 'exec')
##
## preprocessor class