perf: add two more missing b prefixes for Python 3
# skip-blame just two more b prefixes
Differential Revision: https://phab.mercurial-scm.org/D5425
# templater.py - template expansion for output
#
# Copyright 2005, 2006 Matt Mackall <mpm@selenic.com>
#
# This software may be used and distributed according to the terms of the
# GNU General Public License version 2 or any later version.
"""Slightly complicated template engine for commands and hgweb
This module provides low-level interface to the template engine. See the
formatter and cmdutil modules if you are looking for high-level functions
such as ``cmdutil.rendertemplate(ctx, tmpl)``.
Internal Data Types
-------------------
Template keywords and functions take a dictionary of current symbols and
resources (a "mapping") and return result. Inputs and outputs must be one
of the following data types:
bytes
a byte string, which is generally a human-readable text in local encoding.
generator
a lazily-evaluated byte string, which is a possibly nested generator of
values of any printable types, and will be folded by ``stringify()``
or ``flatten()``.
None
sometimes represents an empty value, which can be stringified to ''.
True, False, int, float
can be stringified as such.
wrappedbytes, wrappedvalue
a wrapper for the above printable types.
date
represents a (unixtime, offset) tuple.
hybrid
represents a list/dict of printable values, which can also be converted
to mappings by % operator.
hybriditem
represents a scalar printable value, also supports % operator.
mappinggenerator, mappinglist
represents mappings (i.e. a list of dicts), which may have default
output format.
mappingdict
represents a single mapping (i.e. a dict), which may have default output
format.
mappingnone
represents None of Optional[mappable], which will be mapped to an empty
string by % operation.
mappedgenerator
a lazily-evaluated list of byte strings, which is e.g. a result of %
operation.
"""
from __future__ import absolute_import, print_function
import abc
import os
from .i18n import _
from . import (
config,
encoding,
error,
parser,
pycompat,
templatefilters,
templatefuncs,
templateutil,
util,
)
from .utils import (
stringutil,
)
# template parsing
elements = {
# token-type: binding-strength, primary, prefix, infix, suffix
"(": (20, None, ("group", 1, ")"), ("func", 1, ")"), None),
".": (18, None, None, (".", 18), None),
"%": (15, None, None, ("%", 15), None),
"|": (15, None, None, ("|", 15), None),
"*": (5, None, None, ("*", 5), None),
"/": (5, None, None, ("/", 5), None),
"+": (4, None, None, ("+", 4), None),
"-": (4, None, ("negate", 19), ("-", 4), None),
"=": (3, None, None, ("keyvalue", 3), None),
",": (2, None, None, ("list", 2), None),
")": (0, None, None, None, None),
"integer": (0, "integer", None, None, None),
"symbol": (0, "symbol", None, None, None),
"string": (0, "string", None, None, None),
"template": (0, "template", None, None, None),
"end": (0, None, None, None, None),
}
def tokenize(program, start, end, term=None):
"""Parse a template expression into a stream of tokens, which must end
with term if specified"""
pos = start
program = pycompat.bytestr(program)
while pos < end:
c = program[pos]
if c.isspace(): # skip inter-token whitespace
pass
elif c in "(=,).%|+-*/": # handle simple operators
yield (c, None, pos)
elif c in '"\'': # handle quoted templates
s = pos + 1
data, pos = _parsetemplate(program, s, end, c)
yield ('template', data, s)
pos -= 1
elif c == 'r' and program[pos:pos + 2] in ("r'", 'r"'):
# handle quoted strings
c = program[pos + 1]
s = pos = pos + 2
while pos < end: # find closing quote
d = program[pos]
if d == '\\': # skip over escaped characters
pos += 2
continue
if d == c:
yield ('string', program[s:pos], s)
break
pos += 1
else:
raise error.ParseError(_("unterminated string"), s)
elif c.isdigit():
s = pos
while pos < end:
d = program[pos]
if not d.isdigit():
break
pos += 1
yield ('integer', program[s:pos], s)
pos -= 1
elif (c == '\\' and program[pos:pos + 2] in (br"\'", br'\"')
or c == 'r' and program[pos:pos + 3] in (br"r\'", br'r\"')):
# handle escaped quoted strings for compatibility with 2.9.2-3.4,
# where some of nested templates were preprocessed as strings and
# then compiled. therefore, \"...\" was allowed. (issue4733)
#
# processing flow of _evalifliteral() at 5ab28a2e9962:
# outer template string -> stringify() -> compiletemplate()
# ------------------------ ------------ ------------------
# {f("\\\\ {g(\"\\\"\")}"} \\ {g("\"")} [r'\\', {g("\"")}]
# ~~~~~~~~
# escaped quoted string
if c == 'r':
pos += 1
token = 'string'
else:
token = 'template'
quote = program[pos:pos + 2]
s = pos = pos + 2
while pos < end: # find closing escaped quote
if program.startswith('\\\\\\', pos, end):
pos += 4 # skip over double escaped characters
continue
if program.startswith(quote, pos, end):
# interpret as if it were a part of an outer string
data = parser.unescapestr(program[s:pos])
if token == 'template':
data = _parsetemplate(data, 0, len(data))[0]
yield (token, data, s)
pos += 1
break
pos += 1
else:
raise error.ParseError(_("unterminated string"), s)
elif c.isalnum() or c in '_':
s = pos
pos += 1
while pos < end: # find end of symbol
d = program[pos]
if not (d.isalnum() or d == "_"):
break
pos += 1
sym = program[s:pos]
yield ('symbol', sym, s)
pos -= 1
elif c == term:
yield ('end', None, pos)
return
else:
raise error.ParseError(_("syntax error"), pos)
pos += 1
if term:
raise error.ParseError(_("unterminated template expansion"), start)
yield ('end', None, pos)
def _parsetemplate(tmpl, start, stop, quote=''):
r"""
>>> _parsetemplate(b'foo{bar}"baz', 0, 12)
([('string', 'foo'), ('symbol', 'bar'), ('string', '"baz')], 12)
>>> _parsetemplate(b'foo{bar}"baz', 0, 12, quote=b'"')
([('string', 'foo'), ('symbol', 'bar')], 9)
>>> _parsetemplate(b'foo"{bar}', 0, 9, quote=b'"')
([('string', 'foo')], 4)
>>> _parsetemplate(br'foo\"bar"baz', 0, 12, quote=b'"')
([('string', 'foo"'), ('string', 'bar')], 9)
>>> _parsetemplate(br'foo\\"bar', 0, 10, quote=b'"')
([('string', 'foo\\')], 6)
"""
parsed = []
for typ, val, pos in _scantemplate(tmpl, start, stop, quote):
if typ == 'string':
parsed.append((typ, val))
elif typ == 'template':
parsed.append(val)
elif typ == 'end':
return parsed, pos
else:
raise error.ProgrammingError('unexpected type: %s' % typ)
raise error.ProgrammingError('unterminated scanning of template')
def scantemplate(tmpl, raw=False):
r"""Scan (type, start, end) positions of outermost elements in template
If raw=True, a backslash is not taken as an escape character just like
r'' string in Python. Note that this is different from r'' literal in
template in that no template fragment can appear in r'', e.g. r'{foo}'
is a literal '{foo}', but ('{foo}', raw=True) is a template expression
'foo'.
>>> list(scantemplate(b'foo{bar}"baz'))
[('string', 0, 3), ('template', 3, 8), ('string', 8, 12)]
>>> list(scantemplate(b'outer{"inner"}outer'))
[('string', 0, 5), ('template', 5, 14), ('string', 14, 19)]
>>> list(scantemplate(b'foo\\{escaped}'))
[('string', 0, 5), ('string', 5, 13)]
>>> list(scantemplate(b'foo\\{escaped}', raw=True))
[('string', 0, 4), ('template', 4, 13)]
"""
last = None
for typ, val, pos in _scantemplate(tmpl, 0, len(tmpl), raw=raw):
if last:
yield last + (pos,)
if typ == 'end':
return
else:
last = (typ, pos)
raise error.ProgrammingError('unterminated scanning of template')
def _scantemplate(tmpl, start, stop, quote='', raw=False):
"""Parse template string into chunks of strings and template expressions"""
sepchars = '{' + quote
unescape = [parser.unescapestr, pycompat.identity][raw]
pos = start
p = parser.parser(elements)
try:
while pos < stop:
n = min((tmpl.find(c, pos, stop)
for c in pycompat.bytestr(sepchars)),
key=lambda n: (n < 0, n))
if n < 0:
yield ('string', unescape(tmpl[pos:stop]), pos)
pos = stop
break
c = tmpl[n:n + 1]
bs = 0 # count leading backslashes
if not raw:
bs = (n - pos) - len(tmpl[pos:n].rstrip('\\'))
if bs % 2 == 1:
# escaped (e.g. '\{', '\\\{', but not '\\{')
yield ('string', unescape(tmpl[pos:n - 1]) + c, pos)
pos = n + 1
continue
if n > pos:
yield ('string', unescape(tmpl[pos:n]), pos)
if c == quote:
yield ('end', None, n + 1)
return
parseres, pos = p.parse(tokenize(tmpl, n + 1, stop, '}'))
if not tmpl.startswith('}', pos):
raise error.ParseError(_("invalid token"), pos)
yield ('template', parseres, n)
pos += 1
if quote:
raise error.ParseError(_("unterminated string"), start)
except error.ParseError as inst:
if len(inst.args) > 1: # has location
loc = inst.args[1]
# Offset the caret location by the number of newlines before the
# location of the error, since we will replace one-char newlines
# with the two-char literal r'\n'.
offset = tmpl[:loc].count('\n')
tmpl = tmpl.replace('\n', br'\n')
# We want the caret to point to the place in the template that
# failed to parse, but in a hint we get a open paren at the
# start. Therefore, we print "loc + 1" spaces (instead of "loc")
# to line up the caret with the location of the error.
inst.hint = (tmpl + '\n'
+ ' ' * (loc + 1 + offset) + '^ ' + _('here'))
raise
yield ('end', None, pos)
def _unnesttemplatelist(tree):
"""Expand list of templates to node tuple
>>> def f(tree):
... print(pycompat.sysstr(prettyformat(_unnesttemplatelist(tree))))
>>> f((b'template', []))
(string '')
>>> f((b'template', [(b'string', b'foo')]))
(string 'foo')
>>> f((b'template', [(b'string', b'foo'), (b'symbol', b'rev')]))
(template
(string 'foo')
(symbol 'rev'))
>>> f((b'template', [(b'symbol', b'rev')])) # template(rev) -> str
(template
(symbol 'rev'))
>>> f((b'template', [(b'template', [(b'string', b'foo')])]))
(string 'foo')
"""
if not isinstance(tree, tuple):
return tree
op = tree[0]
if op != 'template':
return (op,) + tuple(_unnesttemplatelist(x) for x in tree[1:])
assert len(tree) == 2
xs = tuple(_unnesttemplatelist(x) for x in tree[1])
if not xs:
return ('string', '') # empty template ""
elif len(xs) == 1 and xs[0][0] == 'string':
return xs[0] # fast path for string with no template fragment "x"
else:
return (op,) + xs
def parse(tmpl):
"""Parse template string into tree"""
parsed, pos = _parsetemplate(tmpl, 0, len(tmpl))
assert pos == len(tmpl), 'unquoted template should be consumed'
return _unnesttemplatelist(('template', parsed))
def _parseexpr(expr):
"""Parse a template expression into tree
>>> _parseexpr(b'"foo"')
('string', 'foo')
>>> _parseexpr(b'foo(bar)')
('func', ('symbol', 'foo'), ('symbol', 'bar'))
>>> _parseexpr(b'foo(')
Traceback (most recent call last):
...
ParseError: ('not a prefix: end', 4)
>>> _parseexpr(b'"foo" "bar"')
Traceback (most recent call last):
...
ParseError: ('invalid token', 7)
"""
p = parser.parser(elements)
tree, pos = p.parse(tokenize(expr, 0, len(expr)))
if pos != len(expr):
raise error.ParseError(_('invalid token'), pos)
return _unnesttemplatelist(tree)
def prettyformat(tree):
return parser.prettyformat(tree, ('integer', 'string', 'symbol'))
def compileexp(exp, context, curmethods):
"""Compile parsed template tree to (func, data) pair"""
if not exp:
raise error.ParseError(_("missing argument"))
t = exp[0]
return curmethods[t](exp, context)
# template evaluation
def getsymbol(exp):
if exp[0] == 'symbol':
return exp[1]
raise error.ParseError(_("expected a symbol, got '%s'") % exp[0])
def getlist(x):
if not x:
return []
if x[0] == 'list':
return getlist(x[1]) + [x[2]]
return [x]
def gettemplate(exp, context):
"""Compile given template tree or load named template from map file;
returns (func, data) pair"""
if exp[0] in ('template', 'string'):
return compileexp(exp, context, methods)
if exp[0] == 'symbol':
# unlike runsymbol(), here 'symbol' is always taken as template name
# even if it exists in mapping. this allows us to override mapping
# by web templates, e.g. 'changelogtag' is redefined in map file.
return context._load(exp[1])
raise error.ParseError(_("expected template specifier"))
def _runrecursivesymbol(context, mapping, key):
raise error.Abort(_("recursive reference '%s' in template") % key)
def buildtemplate(exp, context):
ctmpl = [compileexp(e, context, methods) for e in exp[1:]]
return (templateutil.runtemplate, ctmpl)
def buildfilter(exp, context):
n = getsymbol(exp[2])
if n in context._filters:
filt = context._filters[n]
arg = compileexp(exp[1], context, methods)
return (templateutil.runfilter, (arg, filt))
if n in context._funcs:
f = context._funcs[n]
args = _buildfuncargs(exp[1], context, methods, n, f._argspec)
return (f, args)
raise error.ParseError(_("unknown function '%s'") % n)
def buildmap(exp, context):
darg = compileexp(exp[1], context, methods)
targ = gettemplate(exp[2], context)
return (templateutil.runmap, (darg, targ))
def buildmember(exp, context):
darg = compileexp(exp[1], context, methods)
memb = getsymbol(exp[2])
return (templateutil.runmember, (darg, memb))
def buildnegate(exp, context):
arg = compileexp(exp[1], context, exprmethods)
return (templateutil.runnegate, arg)
def buildarithmetic(exp, context, func):
left = compileexp(exp[1], context, exprmethods)
right = compileexp(exp[2], context, exprmethods)
return (templateutil.runarithmetic, (func, left, right))
def buildfunc(exp, context):
n = getsymbol(exp[1])
if n in context._funcs:
f = context._funcs[n]
args = _buildfuncargs(exp[2], context, exprmethods, n, f._argspec)
return (f, args)
if n in context._filters:
args = _buildfuncargs(exp[2], context, exprmethods, n, argspec=None)
if len(args) != 1:
raise error.ParseError(_("filter %s expects one argument") % n)
f = context._filters[n]
return (templateutil.runfilter, (args[0], f))
raise error.ParseError(_("unknown function '%s'") % n)
def _buildfuncargs(exp, context, curmethods, funcname, argspec):
"""Compile parsed tree of function arguments into list or dict of
(func, data) pairs
>>> context = engine(lambda t: (templateutil.runsymbol, t))
>>> def fargs(expr, argspec):
... x = _parseexpr(expr)
... n = getsymbol(x[1])
... return _buildfuncargs(x[2], context, exprmethods, n, argspec)
>>> list(fargs(b'a(l=1, k=2)', b'k l m').keys())
['l', 'k']
>>> args = fargs(b'a(opts=1, k=2)', b'**opts')
>>> list(args.keys()), list(args[b'opts'].keys())
(['opts'], ['opts', 'k'])
"""
def compiledict(xs):
return util.sortdict((k, compileexp(x, context, curmethods))
for k, x in xs.iteritems())
def compilelist(xs):
return [compileexp(x, context, curmethods) for x in xs]
if not argspec:
# filter or function with no argspec: return list of positional args
return compilelist(getlist(exp))
# function with argspec: return dict of named args
_poskeys, varkey, _keys, optkey = argspec = parser.splitargspec(argspec)
treeargs = parser.buildargsdict(getlist(exp), funcname, argspec,
keyvaluenode='keyvalue', keynode='symbol')
compargs = util.sortdict()
if varkey:
compargs[varkey] = compilelist(treeargs.pop(varkey))
if optkey:
compargs[optkey] = compiledict(treeargs.pop(optkey))
compargs.update(compiledict(treeargs))
return compargs
def buildkeyvaluepair(exp, content):
raise error.ParseError(_("can't use a key-value pair in this context"))
def buildlist(exp, context):
raise error.ParseError(_("can't use a list in this context"),
hint=_('check place of comma and parens'))
# methods to interpret function arguments or inner expressions (e.g. {_(x)})
exprmethods = {
"integer": lambda e, c: (templateutil.runinteger, e[1]),
"string": lambda e, c: (templateutil.runstring, e[1]),
"symbol": lambda e, c: (templateutil.runsymbol, e[1]),
"template": buildtemplate,
"group": lambda e, c: compileexp(e[1], c, exprmethods),
".": buildmember,
"|": buildfilter,
"%": buildmap,
"func": buildfunc,
"keyvalue": buildkeyvaluepair,
"list": buildlist,
"+": lambda e, c: buildarithmetic(e, c, lambda a, b: a + b),
"-": lambda e, c: buildarithmetic(e, c, lambda a, b: a - b),
"negate": buildnegate,
"*": lambda e, c: buildarithmetic(e, c, lambda a, b: a * b),
"/": lambda e, c: buildarithmetic(e, c, lambda a, b: a // b),
}
# methods to interpret top-level template (e.g. {x}, {x|_}, {x % "y"})
methods = exprmethods.copy()
methods["integer"] = exprmethods["symbol"] # '{1}' as variable
class _aliasrules(parser.basealiasrules):
"""Parsing and expansion rule set of template aliases"""
_section = _('template alias')
_parse = staticmethod(_parseexpr)
@staticmethod
def _trygetfunc(tree):
"""Return (name, args) if tree is func(...) or ...|filter; otherwise
None"""
if tree[0] == 'func' and tree[1][0] == 'symbol':
return tree[1][1], getlist(tree[2])
if tree[0] == '|' and tree[2][0] == 'symbol':
return tree[2][1], [tree[1]]
def expandaliases(tree, aliases):
"""Return new tree of aliases are expanded"""
aliasmap = _aliasrules.buildmap(aliases)
return _aliasrules.expand(aliasmap, tree)
# template engine
def unquotestring(s):
'''unwrap quotes if any; otherwise returns unmodified string'''
if len(s) < 2 or s[0] not in "'\"" or s[0] != s[-1]:
return s
return s[1:-1]
class resourcemapper(object):
"""Mapper of internal template resources"""
__metaclass__ = abc.ABCMeta
@abc.abstractmethod
def availablekeys(self, mapping):
"""Return a set of available resource keys based on the given mapping"""
@abc.abstractmethod
def knownkeys(self):
"""Return a set of supported resource keys"""
@abc.abstractmethod
def lookup(self, mapping, key):
"""Return a resource for the key if available; otherwise None"""
@abc.abstractmethod
def populatemap(self, context, origmapping, newmapping):
"""Return a dict of additional mapping items which should be paired
with the given new mapping"""
class nullresourcemapper(resourcemapper):
def availablekeys(self, mapping):
return set()
def knownkeys(self):
return set()
def lookup(self, mapping, key):
return None
def populatemap(self, context, origmapping, newmapping):
return {}
class engine(object):
'''template expansion engine.
template expansion works like this. a map file contains key=value
pairs. if value is quoted, it is treated as string. otherwise, it
is treated as name of template file.
templater is asked to expand a key in map. it looks up key, and
looks for strings like this: {foo}. it expands {foo} by looking up
foo in map, and substituting it. expansion is recursive: it stops
when there is no more {foo} to replace.
expansion also allows formatting and filtering.
format uses key to expand each item in list. syntax is
{key%format}.
filter uses function to transform value. syntax is
{key|filter1|filter2|...}.'''
def __init__(self, loader, filters=None, defaults=None, resources=None):
self._loader = loader
if filters is None:
filters = {}
self._filters = filters
self._funcs = templatefuncs.funcs # make this a parameter if needed
if defaults is None:
defaults = {}
if resources is None:
resources = nullresourcemapper()
self._defaults = defaults
self._resources = resources
self._cache = {} # key: (func, data)
self._tmplcache = {} # literal template: (func, data)
def overlaymap(self, origmapping, newmapping):
"""Create combined mapping from the original mapping and partial
mapping to override the original"""
# do not copy symbols which overrides the defaults depending on
# new resources, so the defaults will be re-evaluated (issue5612)
knownres = self._resources.knownkeys()
newres = self._resources.availablekeys(newmapping)
mapping = {k: v for k, v in origmapping.iteritems()
if (k in knownres # not a symbol per self.symbol()
or newres.isdisjoint(self._defaultrequires(k)))}
mapping.update(newmapping)
mapping.update(
self._resources.populatemap(self, origmapping, newmapping))
return mapping
def _defaultrequires(self, key):
"""Resource keys required by the specified default symbol function"""
v = self._defaults.get(key)
if v is None or not callable(v):
return ()
return getattr(v, '_requires', ())
def symbol(self, mapping, key):
"""Resolve symbol to value or function; None if nothing found"""
v = None
if key not in self._resources.knownkeys():
v = mapping.get(key)
if v is None:
v = self._defaults.get(key)
return v
def availableresourcekeys(self, mapping):
"""Return a set of available resource keys based on the given mapping"""
return self._resources.availablekeys(mapping)
def knownresourcekeys(self):
"""Return a set of supported resource keys"""
return self._resources.knownkeys()
def resource(self, mapping, key):
"""Return internal data (e.g. cache) used for keyword/function
evaluation"""
v = self._resources.lookup(mapping, key)
if v is None:
raise templateutil.ResourceUnavailable(
_('template resource not available: %s') % key)
return v
def _load(self, t):
'''load, parse, and cache a template'''
if t not in self._cache:
x = self._loader(t)
# put poison to cut recursion while compiling 't'
self._cache[t] = (_runrecursivesymbol, t)
try:
self._cache[t] = compileexp(x, self, methods)
except: # re-raises
del self._cache[t]
raise
return self._cache[t]
def _parse(self, tmpl):
"""Parse and cache a literal template"""
if tmpl not in self._tmplcache:
x = parse(tmpl)
self._tmplcache[tmpl] = compileexp(x, self, methods)
return self._tmplcache[tmpl]
def preload(self, t):
"""Load, parse, and cache the specified template if available"""
try:
self._load(t)
return True
except templateutil.TemplateNotFound:
return False
def process(self, t, mapping):
'''Perform expansion. t is name of map element to expand.
mapping contains added elements for use during expansion. Is a
generator.'''
func, data = self._load(t)
return self._expand(func, data, mapping)
def expand(self, tmpl, mapping):
"""Perform expansion over a literal template
No user aliases will be expanded since this is supposed to be called
with an internal template string.
"""
func, data = self._parse(tmpl)
return self._expand(func, data, mapping)
def _expand(self, func, data, mapping):
# populate additional items only if they don't exist in the given
# mapping. this is slightly different from overlaymap() because the
# initial 'revcache' may contain pre-computed items.
extramapping = self._resources.populatemap(self, {}, mapping)
if extramapping:
extramapping.update(mapping)
mapping = extramapping
return templateutil.flatten(self, mapping, func(self, mapping, data))
def stylelist():
paths = templatepaths()
if not paths:
return _('no templates found, try `hg debuginstall` for more info')
dirlist = os.listdir(paths[0])
stylelist = []
for file in dirlist:
split = file.split(".")
if split[-1] in ('orig', 'rej'):
continue
if split[0] == "map-cmdline":
stylelist.append(split[1])
return ", ".join(sorted(stylelist))
def _readmapfile(mapfile):
"""Load template elements from the given map file"""
if not os.path.exists(mapfile):
raise error.Abort(_("style '%s' not found") % mapfile,
hint=_("available styles: %s") % stylelist())
base = os.path.dirname(mapfile)
conf = config.config(includepaths=templatepaths())
conf.read(mapfile, remap={'': 'templates'})
cache = {}
tmap = {}
aliases = []
val = conf.get('templates', '__base__')
if val and val[0] not in "'\"":
# treat as a pointer to a base class for this style
path = util.normpath(os.path.join(base, val))
# fallback check in template paths
if not os.path.exists(path):
for p in templatepaths():
p2 = util.normpath(os.path.join(p, val))
if os.path.isfile(p2):
path = p2
break
p3 = util.normpath(os.path.join(p2, "map"))
if os.path.isfile(p3):
path = p3
break
cache, tmap, aliases = _readmapfile(path)
for key, val in conf['templates'].items():
if not val:
raise error.ParseError(_('missing value'),
conf.source('templates', key))
if val[0] in "'\"":
if val[0] != val[-1]:
raise error.ParseError(_('unmatched quotes'),
conf.source('templates', key))
cache[key] = unquotestring(val)
elif key != '__base__':
tmap[key] = os.path.join(base, val)
aliases.extend(conf['templatealias'].items())
return cache, tmap, aliases
class loader(object):
"""Load template fragments optionally from a map file"""
def __init__(self, cache, aliases):
if cache is None:
cache = {}
self.cache = cache.copy()
self._map = {}
self._aliasmap = _aliasrules.buildmap(aliases)
def __contains__(self, key):
return key in self.cache or key in self._map
def load(self, t):
"""Get parsed tree for the given template name. Use a local cache."""
if t not in self.cache:
try:
self.cache[t] = util.readfile(self._map[t])
except KeyError as inst:
raise templateutil.TemplateNotFound(
_('"%s" not in template map') % inst.args[0])
except IOError as inst:
reason = (_('template file %s: %s')
% (self._map[t],
stringutil.forcebytestr(inst.args[1])))
raise IOError(inst.args[0], encoding.strfromlocal(reason))
return self._parse(self.cache[t])
def _parse(self, tmpl):
x = parse(tmpl)
if self._aliasmap:
x = _aliasrules.expand(self._aliasmap, x)
return x
def _findsymbolsused(self, tree, syms):
if not tree:
return
op = tree[0]
if op == 'symbol':
s = tree[1]
if s in syms[0]:
return # avoid recursion: s -> cache[s] -> s
syms[0].add(s)
if s in self.cache or s in self._map:
# s may be a reference for named template
self._findsymbolsused(self.load(s), syms)
return
if op in {'integer', 'string'}:
return
# '{arg|func}' == '{func(arg)}'
if op == '|':
syms[1].add(getsymbol(tree[2]))
self._findsymbolsused(tree[1], syms)
return
if op == 'func':
syms[1].add(getsymbol(tree[1]))
self._findsymbolsused(tree[2], syms)
return
for x in tree[1:]:
self._findsymbolsused(x, syms)
def symbolsused(self, t):
"""Look up (keywords, filters/functions) referenced from the name
template 't'
This may load additional templates from the map file.
"""
syms = (set(), set())
self._findsymbolsused(self.load(t), syms)
return syms
class templater(object):
def __init__(self, filters=None, defaults=None, resources=None,
cache=None, aliases=(), minchunk=1024, maxchunk=65536):
"""Create template engine optionally with preloaded template fragments
- ``filters``: a dict of functions to transform a value into another.
- ``defaults``: a dict of symbol values/functions; may be overridden
by a ``mapping`` dict.
- ``resources``: a resourcemapper object to look up internal data
(e.g. cache), inaccessible from user template.
- ``cache``: a dict of preloaded template fragments.
- ``aliases``: a list of alias (name, replacement) pairs.
self.cache may be updated later to register additional template
fragments.
"""
allfilters = templatefilters.filters.copy()
if filters:
allfilters.update(filters)
self._loader = loader(cache, aliases)
self._proc = engine(self._loader.load, allfilters, defaults, resources)
self._minchunk, self._maxchunk = minchunk, maxchunk
@classmethod
def frommapfile(cls, mapfile, filters=None, defaults=None, resources=None,
cache=None, minchunk=1024, maxchunk=65536):
"""Create templater from the specified map file"""
t = cls(filters, defaults, resources, cache, [], minchunk, maxchunk)
cache, tmap, aliases = _readmapfile(mapfile)
t._loader.cache.update(cache)
t._loader._map = tmap
t._loader._aliasmap = _aliasrules.buildmap(aliases)
return t
def __contains__(self, key):
return key in self._loader
@property
def cache(self):
return self._loader.cache
# for highlight extension to insert one-time 'colorize' filter
@property
def _filters(self):
return self._proc._filters
@property
def defaults(self):
return self._proc._defaults
def load(self, t):
"""Get parsed tree for the given template name. Use a local cache."""
return self._loader.load(t)
def symbolsuseddefault(self):
"""Look up (keywords, filters/functions) referenced from the default
unnamed template
This may load additional templates from the map file.
"""
return self.symbolsused('')
def symbolsused(self, t):
"""Look up (keywords, filters/functions) referenced from the name
template 't'
This may load additional templates from the map file.
"""
return self._loader.symbolsused(t)
def renderdefault(self, mapping):
"""Render the default unnamed template and return result as string"""
return self.render('', mapping)
def render(self, t, mapping):
"""Render the specified named template and return result as string"""
return b''.join(self.generate(t, mapping))
def generate(self, t, mapping):
"""Return a generator that renders the specified named template and
yields chunks"""
stream = self._proc.process(t, mapping)
if self._minchunk:
stream = util.increasingchunks(stream, min=self._minchunk,
max=self._maxchunk)
return stream
def templatepaths():
'''return locations used for template files.'''
pathsrel = ['templates']
paths = [os.path.normpath(os.path.join(util.datapath, f))
for f in pathsrel]
return [p for p in paths if os.path.isdir(p)]
def templatepath(name):
'''return location of template file. returns None if not found.'''
for p in templatepaths():
f = os.path.join(p, name)
if os.path.exists(f):
return f
return None
def stylemap(styles, paths=None):
"""Return path to mapfile for a given style.
Searches mapfile in the following locations:
1. templatepath/style/map
2. templatepath/map-style
3. templatepath/map
"""
if paths is None:
paths = templatepaths()
elif isinstance(paths, bytes):
paths = [paths]
if isinstance(styles, bytes):
styles = [styles]
for style in styles:
# only plain name is allowed to honor template paths
if (not style
or style in (pycompat.oscurdir, pycompat.ospardir)
or pycompat.ossep in style
or pycompat.osaltsep and pycompat.osaltsep in style):
continue
locations = [os.path.join(style, 'map'), 'map-' + style]
locations.append('map')
for path in paths:
for location in locations:
mapfile = os.path.join(path, location)
if os.path.isfile(mapfile):
return style, mapfile
raise RuntimeError("No hgweb templates found in %r" % paths)