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Xavier Thompson
cython
Commits
3f8fefb0
Commit
3f8fefb0
authored
Jul 22, 2011
by
Mark Florisson
Browse files
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Plain Diff
Tempita support
parent
2cd11fd8
Changes
9
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Showing
9 changed files
with
1479 additions
and
54 deletions
+1479
-54
Cython/Compiler/Code.py
Cython/Compiler/Code.py
+42
-17
Cython/Compiler/ExprNodes.py
Cython/Compiler/ExprNodes.py
+11
-7
Cython/Compiler/MemoryView.py
Cython/Compiler/MemoryView.py
+18
-16
Cython/Tempita/__init__.py
Cython/Tempita/__init__.py
+1183
-0
Cython/Tempita/_looper.py
Cython/Tempita/_looper.py
+163
-0
Cython/Tempita/compat3.py
Cython/Tempita/compat3.py
+45
-0
Cython/Utility/MemoryView_C.c
Cython/Utility/MemoryView_C.c
+12
-13
setup.py
setup.py
+1
-0
tests/run/memslice_indexing.pyx
tests/run/memslice_indexing.pyx
+4
-1
No files found.
Cython/Compiler/Code.py
View file @
3f8fefb0
...
...
@@ -12,6 +12,7 @@ import os
import
re
import
codecs
import
glob
import
Naming
import
Options
import
StringEncoding
...
...
@@ -20,6 +21,7 @@ from Scanning import SourceDescriptor
from
Cython.StringIOTree
import
StringIOTree
import
DebugFlags
import
Errors
from
Cython
import
Tempita
as
tempita
from
Cython.Utils
import
none_or_sub
try
:
...
...
@@ -42,6 +44,9 @@ uncachable_builtins = [
'WindowsError'
,
]
Cython_dir
=
os
.
path
.
dirname
(
os
.
path
.
dirname
(
os
.
path
.
abspath
(
__file__
)))
Utility_dir
=
os
.
path
.
join
(
Cython_dir
,
"Utility"
)
class
UtilityCodeBase
(
object
):
is_cython_utility
=
False
...
...
@@ -69,8 +74,7 @@ class UtilityCodeBase(object):
if
utilities
:
return
utilities
Cython_dir
=
os
.
path
.
dirname
(
os
.
path
.
dirname
(
os
.
path
.
abspath
(
__file__
)))
filename
=
os
.
path
.
join
(
Cython_dir
,
"Utility"
,
path
)
filename
=
os
.
path
.
join
(
Utility_dir
,
path
)
f
=
codecs
.
open
(
filename
,
encoding
=
'UTF-8'
)
_
,
ext
=
os
.
path
.
splitext
(
path
)
...
...
@@ -111,8 +115,8 @@ class UtilityCodeBase(object):
return
utilities
@
classmethod
def
load_utility_from_file
(
cls
,
path
,
util_code_name
,
proto_fmt_dict
=
None
,
impl_fmt_dict
=
None
,
*
args
,
**
kwargs
):
def
load_utility_from_file
(
cls
,
path
,
util_code_name
,
context
=
None
,
**
kwargs
):
"""
Load a utility code from a file specified by path (relative to
Cython/Utility) and name util_code_name.
...
...
@@ -125,37 +129,52 @@ class UtilityCodeBase(object):
for prototypes and implementation respectively. For non-python or
-cython files a // comment should be used instead.
proto_fmt_dict and impl_format_dict can optionally be given to perform
any substitutions.
If context is given, the utility is considered a tempita template.
The context dict (which may be empty) will be unpacked to form
all the variables in the template.
If the @cname decorator is not used and this is a CythonUtilityCode,
one should pass in the 'name' keyword argument to be used for name
mangling of such entries.
"""
proto
,
impl
=
cls
.
load_utility_as_string
(
path
,
util_code_name
)
proto
,
impl
=
cls
.
load_utility_as_string
(
path
,
util_code_name
,
context
)
if
proto
:
if
proto_fmt_dict
:
proto
=
proto
%
proto_fmt_dict
if
proto
is
not
None
:
kwargs
[
'proto'
]
=
proto
if
impl
:
if
impl_fmt_dict
:
impl
=
impl
%
impl_fmt_dict
if
impl
is
not
None
:
kwargs
[
'impl'
]
=
impl
if
'name'
not
in
kwargs
:
kwargs
[
'name'
]
=
os
.
path
.
splitext
(
path
)[
0
]
return
cls
(
*
args
,
*
*
kwargs
)
return
cls
(
**
kwargs
)
@
classmethod
def
load_utility_as_string
(
cls
,
path
,
util_code_name
):
def
load_utility_as_string
(
cls
,
path
,
util_code_name
,
context
=
None
):
"""
Load a utility code as a string. Returns (proto, implementation)
"""
utilities
=
cls
.
load_utilities_from_file
(
path
)
return
utilities
[
util_code_name
]
proto
,
impl
=
utilities
[
util_code_name
]
if
proto
:
if
context
is
not
None
:
proto
=
tempita
.
sub
(
proto
,
**
context
)
if
impl
:
if
context
is
not
None
:
impl
=
tempita
.
sub
(
impl
,
**
context
)
return
proto
,
impl
@
classmethod
def
load_utility
(
cls
,
name
,
context
=
None
,
**
kwargs
):
"Load utility name with context from a utility file name.suffix"
files
=
glob
.
glob
(
os
.
path
.
join
(
Utility_dir
,
name
+
'.*'
))
if
len
(
files
)
!=
1
:
raise
ValueError
(
"Need exactly one utility file"
)
return
cls
.
load_utilities_from_file
(
files
[
0
],
name
,
context
,
**
kwargs
)
def
__str__
(
self
):
return
"<%s(%s)"
%
(
type
(
self
).
__name__
,
self
.
name
)
...
...
@@ -1275,6 +1294,12 @@ class CCodeWriter(object):
elif
fix_indent
:
self
.
level
+=
1
def
putln_tempita
(
self
,
code
,
**
context
):
self
.
putln
(
tempita
.
sub
(
code
,
**
context
))
def
put_tempita
(
self
,
code
,
**
context
):
self
.
put
(
tempita
.
sub
(
code
,
**
context
))
def
increase_indent
(
self
):
self
.
level
=
self
.
level
+
1
...
...
Cython/Compiler/ExprNodes.py
View file @
3f8fefb0
...
...
@@ -2345,8 +2345,12 @@ class IndexNode(ExprNode):
skip_child_analysis
=
False
buffer_access
=
False
# memoryviewslice_access = False
if
self
.
base
.
type
.
is_buffer
or
self
.
base
.
type
.
is_memoryviewslice
:
memoryviewslice_access
=
False
if
(
self
.
base
.
type
.
is_memoryviewslice
and
not
self
.
indices
and
isinstance
(
self
.
index
,
EllipsisNode
)):
memoryviewslice_access
=
True
elif
self
.
base
.
type
.
is_buffer
or
self
.
base
.
type
.
is_memoryviewslice
:
if
self
.
indices
:
indices
=
self
.
indices
else
:
...
...
@@ -2390,11 +2394,11 @@ class IndexNode(ExprNode):
if
self
.
type
.
is_buffer
:
self
.
base
.
entry
.
buffer_aux
.
writable_needed
=
True
#
elif memoryviewslice_access:
#
self.type = self.base.type
#
self.is_memoryviewslice_access = True
#
if getting:
#
error(self.pos, "memoryviews currently support setting only.")
elif
memoryviewslice_access
:
self
.
type
=
self
.
base
.
type
self
.
is_memoryviewslice_access
=
True
if
getting
:
error
(
self
.
pos
,
"memoryviews currently support setting only."
)
else
:
base_type
=
self
.
base
.
type
...
...
Cython/Compiler/MemoryView.py
View file @
3f8fefb0
...
...
@@ -112,7 +112,7 @@ def put_assign_to_memviewslice(lhs_cname, rhs_cname, memviewslicetype, pos, code
for
i
in
range
(
ndim
):
code
.
putln
(
"%s.shape[%d] = %s.shape[%d];"
%
(
lhs_cname
,
i
,
rhs_cname
,
i
))
code
.
putln
(
"%s.strides[%d] = %s.strides[%d];"
%
(
lhs_cname
,
i
,
rhs_cname
,
i
))
#
code.putln("%s.suboffsets[%d] = %s.suboffsets[%d];" % (lhs_cname, i, rhs_cname, i))
code
.
putln
(
"%s.suboffsets[%d] = %s.suboffsets[%d];"
%
(
lhs_cname
,
i
,
rhs_cname
,
i
))
def
get_buf_flag
(
specs
):
is_c_contig
,
is_f_contig
=
is_cf_contig
(
specs
)
...
...
@@ -186,7 +186,7 @@ class MemoryViewSliceBufferEntry(Buffer.BufferEntry):
self
.
buf_ptr_type
=
dtype
def
get_buf_suboffsetvars
(
self
):
return
self
.
_for_all_ndim
(
"%s.
memview->view.
suboffsets[%d]"
)
return
self
.
_for_all_ndim
(
"%s.suboffsets[%d]"
)
def
get_buf_stridevars
(
self
):
return
self
.
_for_all_ndim
(
"%s.strides[%d]"
)
...
...
@@ -267,7 +267,7 @@ static int %s(const __Pyx_memviewslice mvs) {
%(for_loop)s {
#ifdef DEBUG
/* printf("mvs.suboffsets[i] %%d
\
\
n", mvs.suboffsets[i]); */
printf("mvs.suboffsets[i] %%d
\
\
n", mvs.suboffsets[i]);
printf("mvs.strides[i] %%d
\
\
n", mvs.strides[i]);
printf("mvs.shape[i] %%d
\
\
n", mvs.shape[i]);
printf("size %%d
\
\
n", size);
...
...
@@ -275,7 +275,7 @@ static int %s(const __Pyx_memviewslice mvs) {
#endif
#undef DEBUG
if(mvs.
memview->view.
suboffsets[i] >= 0) {
if(mvs.suboffsets[i] >= 0) {
return 0;
}
if(size * itemsize != mvs.strides[i]) {
...
...
@@ -374,13 +374,17 @@ class CopyFuncUtilCode(object):
mode
=
'fortran'
contig_flag
=
"PyBUF_F_CONTIGUOUS"
code
.
put
(
copy_template
%
dict
(
copy_name
=
self
.
copy_func_name
,
mode
=
mode
,
sizeof_dtype
=
"sizeof(%s)"
%
self
.
from_memview
.
dtype
.
declaration_code
(
''
),
contig_flag
=
contig_flag
,
copy_contents_name
=
copy_contents_name
))
context
=
dict
(
copy_name
=
self
.
copy_func_name
,
mode
=
mode
,
sizeof_dtype
=
"sizeof(%s)"
%
self
.
from_memview
.
dtype
.
declaration_code
(
''
),
contig_flag
=
contig_flag
,
copy_contents_name
=
copy_contents_name
)
_
,
copy_code
=
UtilityCode
.
load_utility_as_string
(
"MemoryView_C.c"
,
"MemviewSliceCopyTemplate"
,
context
)
code
.
put
(
copy_code
)
def
get_copy_contents_func
(
from_mvs
,
to_mvs
,
cfunc_name
):
...
...
@@ -744,10 +748,8 @@ def load_memview_c_utility(name, *args, **kwargs):
def
load_memview_c_string
(
name
):
return
UtilityCode
.
load_utility_as_string
(
"MemoryView_C.c"
,
name
)
_
,
copy_template
=
UtilityCode
.
load_utility_as_string
(
"MemoryView_C.c"
,
"MemviewSliceCopyTemplate"
)
fmt_dic
t
=
{
contex
t
=
{
'memview_struct_name'
:
memview_objstruct_cname
,
'max_dims'
:
Options
.
buffer_max_dims
,
'memviewslice_name'
:
memviewslice_cname
,
...
...
@@ -755,10 +757,10 @@ fmt_dict = {
memviewslice_declare_code
=
load_memview_c_utility
(
name
=
"MemviewSliceStruct"
,
proto_block
=
'utility_code_proto_before_types'
,
proto_fmt_dict
=
fmt_dic
t
)
context
=
contex
t
)
memviewslice_init_code
=
load_memview_c_utility
(
name
=
"MemviewSliceInit"
,
proto_fmt_dic
t
=
{
'BUF_MAX_NDIMS'
:
Options
.
buffer_max_dims
},
contex
t
=
{
'BUF_MAX_NDIMS'
:
Options
.
buffer_max_dims
},
requires
=
[
memviewslice_declare_code
],
)
Cython/Tempita/__init__.py
0 → 100644
View file @
3f8fefb0
"""
A small templating language
This implements a small templating language. This language implements
if/elif/else, for/continue/break, expressions, and blocks of Python
code. The syntax is::
{{any expression (function calls etc)}}
{{any expression | filter}}
{{for x in y}}...{{endfor}}
{{if x}}x{{elif y}}y{{else}}z{{endif}}
{{py:x=1}}
{{py:
def foo(bar):
return 'baz'
}}
{{default var = default_value}}
{{# comment}}
You use this with the ``Template`` class or the ``sub`` shortcut.
The ``Template`` class takes the template string and the name of
the template (for errors) and a default namespace. Then (like
``string.Template``) you can call the ``tmpl.substitute(**kw)``
method to make a substitution (or ``tmpl.substitute(a_dict)``).
``sub(content, **kw)`` substitutes the template immediately. You
can use ``__name='tmpl.html'`` to set the name of the template.
If there are syntax errors ``TemplateError`` will be raised.
"""
import
re
import
sys
import
cgi
from
urllib
import
quote
as
url_quote
import
os
import
tokenize
from
cStringIO
import
StringIO
from
Cython.Tempita._looper
import
looper
from
Cython.Tempita.compat3
import
bytes
,
basestring_
,
next
,
is_unicode
,
coerce_text
__all__
=
[
'TemplateError'
,
'Template'
,
'sub'
,
'HTMLTemplate'
,
'sub_html'
,
'html'
,
'bunch'
]
in_re
=
re
.
compile
(
r'\
s+i
n\
s+
')
var_re = re.compile(r'
^
[
a
-
z_
][
a
-
z0
-
9
_
]
*
$
', re.I)
class TemplateError(Exception):
"""Exception raised while parsing a template
"""
def __init__(self, message, position, name=None):
Exception.__init__(self, message)
self.position = position
self.name = name
def __str__(self):
msg = '
'.join(self.args)
if self.position:
msg = '
%
s
at
line
%
s
column
%
s
' % (
msg, self.position[0], self.position[1])
if self.name:
msg += '
in
%
s
' % self.name
return msg
class _TemplateContinue(Exception):
pass
class _TemplateBreak(Exception):
pass
def get_file_template(name, from_template):
path = os.path.join(os.path.dirname(from_template.name), name)
return from_template.__class__.from_filename(
path, namespace=from_template.namespace,
get_template=from_template.get_template)
class Template(object):
default_namespace = {
'
start_braces
': '
{{
',
'
end_braces
': '
}}
',
'
looper
': looper,
}
default_encoding = '
utf8
'
default_inherit = None
def __init__(self, content, name=None, namespace=None, stacklevel=None,
get_template=None, default_inherit=None, line_offset=0,
delimeters=None):
self.content = content
# set delimeters
if delimeters is None:
delimeters = (self.default_namespace['
start_braces
'],
self.default_namespace['
end_braces
'])
else:
assert len(delimeters) == 2 and all([isinstance(delimeter, basestring)
for delimeter in delimeters])
self.default_namespace = self.__class__.default_namespace.copy()
self.default_namespace['
start_braces
'] = delimeters[0]
self.default_namespace['
end_braces
'] = delimeters[1]
self.delimeters = delimeters
self._unicode = is_unicode(content)
if name is None and stacklevel is not None:
try:
caller = sys._getframe(stacklevel)
except ValueError:
pass
else:
globals = caller.f_globals
lineno = caller.f_lineno
if '
__file__
' in globals:
name = globals['
__file__
']
if name.endswith('
.
pyc
') or name.endswith('
.
pyo
'):
name = name[:-1]
elif '
__name__
' in globals:
name = globals['
__name__
']
else:
name = '
<
string
>
'
if lineno:
name += '
:
%
s
' % lineno
self.name = name
self._parsed = parse(content, name=name, line_offset=line_offset, delimeters=self.delimeters)
if namespace is None:
namespace = {}
self.namespace = namespace
self.get_template = get_template
if default_inherit is not None:
self.default_inherit = default_inherit
def from_filename(cls, filename, namespace=None, encoding=None,
default_inherit=None, get_template=get_file_template):
f = open(filename, 'rb')
c = f.read()
f.close()
if encoding:
c = c.decode(encoding)
return cls(content=c, name=filename, namespace=namespace,
default_inherit=default_inherit, get_template=get_template)
from_filename = classmethod(from_filename)
def __repr__(self):
return '
<%
s
%
s
name
=%
r
>
' % (
self.__class__.__name__,
hex(id(self))[2:], self.name)
def substitute(self, *args, **kw):
if args:
if kw:
raise TypeError(
"You can only give positional *or* keyword arguments")
if len(args) > 1:
raise TypeError(
"You can only give one positional argument")
if not hasattr(args[0], '
items
'):
raise TypeError(
"If you pass in a single argument, you must pass in a dictionary-like object (with a .items() method); you gave %r"
% (args[0],))
kw = args[0]
ns = kw
ns['
__template_name__
'] = self.name
if self.namespace:
ns.update(self.namespace)
result, defs, inherit = self._interpret(ns)
if not inherit:
inherit = self.default_inherit
if inherit:
result = self._interpret_inherit(result, defs, inherit, ns)
return result
def _interpret(self, ns):
__traceback_hide__ = True
parts = []
defs = {}
self._interpret_codes(self._parsed, ns, out=parts, defs=defs)
if '
__inherit__
' in defs:
inherit = defs.pop('
__inherit__
')
else:
inherit = None
return ''.join(parts), defs, inherit
def _interpret_inherit(self, body, defs, inherit_template, ns):
__traceback_hide__ = True
if not self.get_template:
raise TemplateError(
'
You
cannot
use
inheritance
without
passing
in
get_template
',
position=None, name=self.name)
templ = self.get_template(inherit_template, self)
self_ = TemplateObject(self.name)
for name, value in defs.iteritems():
setattr(self_, name, value)
self_.body = body
ns = ns.copy()
ns['
self
'] = self_
return templ.substitute(ns)
def _interpret_codes(self, codes, ns, out, defs):
__traceback_hide__ = True
for item in codes:
if isinstance(item, basestring_):
out.append(item)
else:
self._interpret_code(item, ns, out, defs)
def _interpret_code(self, code, ns, out, defs):
__traceback_hide__ = True
name, pos = code[0], code[1]
if name == '
py
':
self._exec(code[2], ns, pos)
elif name == '
continue
':
raise _TemplateContinue()
elif name == '
break
':
raise _TemplateBreak()
elif name == '
for
':
vars, expr, content = code[2], code[3], code[4]
expr = self._eval(expr, ns, pos)
self._interpret_for(vars, expr, content, ns, out, defs)
elif name == '
cond
':
parts = code[2:]
self._interpret_if(parts, ns, out, defs)
elif name == '
expr
':
parts = code[2].split('
|
')
base = self._eval(parts[0], ns, pos)
for part in parts[1:]:
func = self._eval(part, ns, pos)
base = func(base)
out.append(self._repr(base, pos))
elif name == '
default
':
var, expr = code[2], code[3]
if var not in ns:
result = self._eval(expr, ns, pos)
ns[var] = result
elif name == '
inherit
':
expr = code[2]
value = self._eval(expr, ns, pos)
defs['
__inherit__
'] = value
elif name == '
def
':
name = code[2]
signature = code[3]
parts = code[4]
ns[name] = defs[name] = TemplateDef(self, name, signature, body=parts, ns=ns,
pos=pos)
elif name == '
comment
':
return
else:
assert 0, "Unknown code: %r" % name
def _interpret_for(self, vars, expr, content, ns, out, defs):
__traceback_hide__ = True
for item in expr:
if len(vars) == 1:
ns[vars[0]] = item
else:
if len(vars) != len(item):
raise ValueError(
'
Need
%
i
items
to
unpack
(
got
%
i
items
)
'
% (len(vars), len(item)))
for name, value in zip(vars, item):
ns[name] = value
try:
self._interpret_codes(content, ns, out, defs)
except _TemplateContinue:
continue
except _TemplateBreak:
break
def _interpret_if(self, parts, ns, out, defs):
__traceback_hide__ = True
# @@: if/else/else gets through
for part in parts:
assert not isinstance(part, basestring_)
name, pos = part[0], part[1]
if name == '
else
':
result = True
else:
result = self._eval(part[2], ns, pos)
if result:
self._interpret_codes(part[3], ns, out, defs)
break
def _eval(self, code, ns, pos):
__traceback_hide__ = True
try:
try:
value = eval(code, self.default_namespace, ns)
except SyntaxError, e:
raise SyntaxError(
'
invalid
syntax
in
expression
:
%
s
' % code)
return value
except:
exc_info = sys.exc_info()
e = exc_info[1]
if getattr(e, '
args
', None):
arg0 = e.args[0]
else:
arg0 = coerce_text(e)
e.args = (self._add_line_info(arg0, pos),)
raise exc_info[0], e, exc_info[2]
def _exec(self, code, ns, pos):
__traceback_hide__ = True
try:
exec code in self.default_namespace, ns
except:
exc_info = sys.exc_info()
e = exc_info[1]
if e.args:
e.args = (self._add_line_info(e.args[0], pos),)
else:
e.args = (self._add_line_info(None, pos),)
raise exc_info[0], e, exc_info[2]
def _repr(self, value, pos):
__traceback_hide__ = True
try:
if value is None:
return ''
if self._unicode:
try:
value = unicode(value)
except UnicodeDecodeError:
value = bytes(value)
else:
if not isinstance(value, basestring_):
value = coerce_text(value)
if (is_unicode(value)
and self.default_encoding):
value = value.encode(self.default_encoding)
except:
exc_info = sys.exc_info()
e = exc_info[1]
e.args = (self._add_line_info(e.args[0], pos),)
raise exc_info[0], e, exc_info[2]
else:
if self._unicode and isinstance(value, bytes):
if not self.default_encoding:
raise UnicodeDecodeError(
'
Cannot
decode
bytes
value
%
r
into
unicode
'
'
(
no
default_encoding
provided
)
' % value)
try:
value = value.decode(self.default_encoding)
except UnicodeDecodeError, e:
raise UnicodeDecodeError(
e.encoding,
e.object,
e.start,
e.end,
e.reason + '
in
string
%
r' % value)
elif not self._unicode and is_unicode(value):
if not self.default_encoding:
raise UnicodeEncodeError(
'
Cannot
encode
unicode
value
%
r
into
bytes
'
'
(
no
default_encoding
provided
)
' % value)
value = value.encode(self.default_encoding)
return value
def _add_line_info(self, msg, pos):
msg = "%s at line %s column %s" % (
msg, pos[0], pos[1])
if self.name:
msg += " in file %s" % self.name
return msg
def sub(content, delimeters=None, **kw):
name = kw.get('
__name
')
tmpl = Template(content, name=name, delimeters=delimeters)
return tmpl.substitute(kw)
def paste_script_template_renderer(content, vars, filename=None):
tmpl = Template(content, name=filename)
return tmpl.substitute(vars)
class bunch(dict):
def __init__(self, **kw):
for name, value in kw.iteritems():
setattr(self, name, value)
def __setattr__(self, name, value):
self[name] = value
def __getattr__(self, name):
try:
return self[name]
except KeyError:
raise AttributeError(name)
def __getitem__(self, key):
if '
default
' in self:
try:
return dict.__getitem__(self, key)
except KeyError:
return dict.__getitem__(self, '
default
')
else:
return dict.__getitem__(self, key)
def __repr__(self):
items = [
(k, v) for k, v in self.iteritems()]
items.sort()
return '
<%
s
%
s
>
' % (
self.__class__.__name__,
'
'.join(['
%
s
=%
r' % (k, v) for k, v in items]))
############################################################
## HTML Templating
############################################################
class html(object):
def __init__(self, value):
self.value = value
def __str__(self):
return self.value
def __html__(self):
return self.value
def __repr__(self):
return '
<%
s
%
r
>
' % (
self.__class__.__name__, self.value)
def html_quote(value, force=True):
if not force and hasattr(value, '
__html__
'):
return value.__html__()
if value is None:
return ''
if not isinstance(value, basestring_):
value = coerce_text(value)
if sys.version >= "3" and isinstance(value, bytes):
value = cgi.escape(value.decode('
latin1
'), 1)
value = value.encode('
latin1
')
else:
value = cgi.escape(value, 1)
if sys.version < "3":
if is_unicode(value):
value = value.encode('
ascii
', '
xmlcharrefreplace
')
return value
def url(v):
v = coerce_text(v)
if is_unicode(v):
v = v.encode('
utf8
')
return url_quote(v)
def attr(**kw):
kw = list(kw.iteritems())
kw.sort()
parts = []
for name, value in kw:
if value is None:
continue
if name.endswith('
_
'):
name = name[:-1]
parts.append('
%
s
=
"%s"' % (html_quote(name), html_quote(value)))
return html('
'.join(parts))
class HTMLTemplate(Template):
default_namespace = Template.default_namespace.copy()
default_namespace.update(dict(
html=html,
attr=attr,
url=url,
html_quote=html_quote,
))
def _repr(self, value, pos):
if hasattr(value, '
__html__
'):
value = value.__html__()
quote = False
else:
quote = True
plain = Template._repr(self, value, pos)
if quote:
return html_quote(plain)
else:
return plain
def sub_html(content, **kw):
name = kw.get('
__name
')
tmpl = HTMLTemplate(content, name=name)
return tmpl.substitute(kw)
class TemplateDef(object):
def __init__(self, template, func_name, func_signature,
body, ns, pos, bound_self=None):
self._template = template
self._func_name = func_name
self._func_signature = func_signature
self._body = body
self._ns = ns
self._pos = pos
self._bound_self = bound_self
def __repr__(self):
return '
<
tempita
function
%
s
(
%
s
)
at
%
s
:
%
s
>
' % (
self._func_name, self._func_signature,
self._template.name, self._pos)
def __str__(self):
return self()
def __call__(self, *args, **kw):
values = self._parse_signature(args, kw)
ns = self._ns.copy()
ns.update(values)
if self._bound_self is not None:
ns['
self
'] = self._bound_self
out = []
subdefs = {}
self._template._interpret_codes(self._body, ns, out, subdefs)
return ''.join(out)
def __get__(self, obj, type=None):
if obj is None:
return self
return self.__class__(
self._template, self._func_name, self._func_signature,
self._body, self._ns, self._pos, bound_self=obj)
def _parse_signature(self, args, kw):
values = {}
sig_args, var_args, var_kw, defaults = self._func_signature
extra_kw = {}
for name, value in kw.iteritems():
if not var_kw and name not in sig_args:
raise TypeError(
'
Unexpected
argument
%
s
' % name)
if name in sig_args:
values[sig_args] = value
else:
extra_kw[name] = value
args = list(args)
sig_args = list(sig_args)
while args:
while sig_args and sig_args[0] in values:
sig_args.pop(0)
if sig_args:
name = sig_args.pop(0)
values[name] = args.pop(0)
elif var_args:
values[var_args] = tuple(args)
break
else:
raise TypeError(
'
Extra
position
arguments
:
%
s
'
% '
,
'.join(repr(v) for v in args))
for name, value_expr in defaults.iteritems():
if name not in values:
values[name] = self._template._eval(
value_expr, self._ns, self._pos)
for name in sig_args:
if name not in values:
raise TypeError(
'
Missing
argument
:
%
s
' % name)
if var_kw:
values[var_kw] = extra_kw
return values
class TemplateObject(object):
def __init__(self, name):
self.__name = name
self.get = TemplateObjectGetter(self)
def __repr__(self):
return '
<%
s
%
s
>
' % (self.__class__.__name__, self.__name)
class TemplateObjectGetter(object):
def __init__(self, template_obj):
self.__template_obj = template_obj
def __getattr__(self, attr):
return getattr(self.__template_obj, attr, Empty)
def __repr__(self):
return '
<%
s
around
%
r
>
' % (self.__class__.__name__, self.__template_obj)
class _Empty(object):
def __call__(self, *args, **kw):
return self
def __str__(self):
return ''
def __repr__(self):
return '
Empty
'
def __unicode__(self):
return u''
def __iter__(self):
return iter(())
def __bool__(self):
return False
if sys.version < "3":
__nonzero__ = __bool__
Empty = _Empty()
del _Empty
############################################################
## Lexing and Parsing
############################################################
def lex(s, name=None, trim_whitespace=True, line_offset=0, delimeters=None):
"""
Lex a string into chunks:
>>> lex('
hey
')
['
hey
']
>>> lex('
hey
{{
you
}}
')
['
hey
', ('
you
', (1, 7))]
>>> lex('
hey
{{
')
Traceback (most recent call last):
...
TemplateError: No }} to finish last expression at line 1 column 7
>>> lex('
hey
}}
')
Traceback (most recent call last):
...
TemplateError: }} outside expression at line 1 column 7
>>> lex('
hey
{{
{{
')
Traceback (most recent call last):
...
TemplateError: {{ inside expression at line 1 column 10
"""
if delimeters is None:
delimeters = ( Template.default_namespace['
start_braces
'],
Template.default_namespace['
end_braces
'] )
in_expr = False
chunks = []
last = 0
last_pos = (1, 1)
token_re = re.compile(r'
%
s
|%
s
' % (re.escape(delimeters[0]),
re.escape(delimeters[1])))
for match in token_re.finditer(s):
expr = match.group(0)
pos = find_position(s, match.end(), line_offset)
if expr == delimeters[0] and in_expr:
raise TemplateError('
%
s
inside
expression
' % delimeters[0],
position=pos,
name=name)
elif expr == delimeters[1] and not in_expr:
raise TemplateError('
%
s
outside
expression
' % delimeters[1],
position=pos,
name=name)
if expr == delimeters[0]:
part = s[last:match.start()]
if part:
chunks.append(part)
in_expr = True
else:
chunks.append((s[last:match.start()], last_pos))
in_expr = False
last = match.end()
last_pos = pos
if in_expr:
raise TemplateError('
No
%
s
to
finish
last
expression
' % delimeters[1],
name=name, position=last_pos)
part = s[last:]
if part:
chunks.append(part)
if trim_whitespace:
chunks = trim_lex(chunks)
return chunks
statement_re = re.compile(r'
^
(
?
:
if
|
elif
|
for
|
def
|
inherit
|
default
|
py
:)
')
single_statements = ['
else
', '
endif
', '
endfor
', '
enddef
', '
continue
', '
break
']
trail_whitespace_re = re.compile(r'
\
n
\
r
?
[
\
t
]
*
$
')
lead_whitespace_re = re.compile(r'
^
[
\
t
]
*
\
n
')
def trim_lex(tokens):
r"""
Takes a lexed set of tokens, and removes whitespace when there is
a directive on a line by itself:
>>> tokens = lex('
{{
if
x
}}
\
nx
\
n
{{
endif
}}
\
ny
', trim_whitespace=False)
>>> tokens
[('
if
x
', (1, 3)), '
\
nx
\
n
', ('
endif
', (3, 3)), '
\
ny
']
>>> trim_lex(tokens)
[('
if
x
', (1, 3)), '
x
\
n
', ('
endif
', (3, 3)), '
y
']
"""
last_trim = None
for i in range(len(tokens)):
current = tokens[i]
if isinstance(tokens[i], basestring_):
# we don'
t
trim
this
continue
item
=
current
[
0
]
if
not
statement_re
.
search
(
item
)
and
item
not
in
single_statements
:
continue
if
not
i
:
prev
=
''
else
:
prev
=
tokens
[
i
-
1
]
if
i
+
1
>=
len
(
tokens
):
next_chunk
=
''
else
:
next_chunk
=
tokens
[
i
+
1
]
if
(
not
isinstance
(
next_chunk
,
basestring_
)
or
not
isinstance
(
prev
,
basestring_
)):
continue
prev_ok
=
not
prev
or
trail_whitespace_re
.
search
(
prev
)
if
i
==
1
and
not
prev
.
strip
():
prev_ok
=
True
if
last_trim
is
not
None
and
last_trim
+
2
==
i
and
not
prev
.
strip
():
prev_ok
=
'last'
if
(
prev_ok
and
(
not
next_chunk
or
lead_whitespace_re
.
search
(
next_chunk
)
or
(
i
==
len
(
tokens
)
-
2
and
not
next_chunk
.
strip
()))):
if
prev
:
if
((
i
==
1
and
not
prev
.
strip
())
or
prev_ok
==
'last'
):
tokens
[
i
-
1
]
=
''
else
:
m
=
trail_whitespace_re
.
search
(
prev
)
# +1 to leave the leading \n on:
prev
=
prev
[:
m
.
start
()
+
1
]
tokens
[
i
-
1
]
=
prev
if
next_chunk
:
last_trim
=
i
if
i
==
len
(
tokens
)
-
2
and
not
next_chunk
.
strip
():
tokens
[
i
+
1
]
=
''
else
:
m
=
lead_whitespace_re
.
search
(
next_chunk
)
next_chunk
=
next_chunk
[
m
.
end
():]
tokens
[
i
+
1
]
=
next_chunk
return
tokens
def
find_position
(
string
,
index
,
line_offset
):
"""Given a string and index, return (line, column)"""
leading
=
string
[:
index
].
splitlines
()
return
(
len
(
leading
)
+
line_offset
,
len
(
leading
[
-
1
])
+
1
)
def
parse
(
s
,
name
=
None
,
line_offset
=
0
,
delimeters
=
None
):
r"""
Parses a string into a kind of AST
>>> parse('{{x}}')
[('expr', (1, 3), 'x')]
>>> parse('foo')
['foo']
>>> parse('{{if x}}test{{endif}}')
[('cond', (1, 3), ('if', (1, 3), 'x', ['test']))]
>>> parse('series->{{for x in y}}x={{x}}{{endfor}}')
['series->', ('for', (1, 11), ('x',), 'y', ['x=', ('expr', (1, 27), 'x')])]
>>> parse('{{for x, y in z:}}{{continue}}{{endfor}}')
[('for', (1, 3), ('x', 'y'), 'z', [('continue', (1, 21))])]
>>> parse('{{py:x=1}}')
[('py', (1, 3), 'x=1')]
>>> parse('{{if x}}a{{elif y}}b{{else}}c{{endif}}')
[('cond', (1, 3), ('if', (1, 3), 'x', ['a']), ('elif', (1, 12), 'y', ['b']), ('else', (1, 23), None, ['c']))]
Some exceptions::
>>> parse('{{continue}}')
Traceback (most recent call last):
...
TemplateError: continue outside of for loop at line 1 column 3
>>> parse('{{if x}}foo')
Traceback (most recent call last):
...
TemplateError: No {{endif}} at line 1 column 3
>>> parse('{{else}}')
Traceback (most recent call last):
...
TemplateError: else outside of an if block at line 1 column 3
>>> parse('{{if x}}{{for x in y}}{{endif}}{{endfor}}')
Traceback (most recent call last):
...
TemplateError: Unexpected endif at line 1 column 25
>>> parse('{{if}}{{endif}}')
Traceback (most recent call last):
...
TemplateError: if with no expression at line 1 column 3
>>> parse('{{for x y}}{{endfor}}')
Traceback (most recent call last):
...
TemplateError: Bad for (no "in") in 'x y' at line 1 column 3
>>> parse('{{py:x=1\ny=2}}')
Traceback (most recent call last):
...
TemplateError: Multi-line py blocks must start with a newline at line 1 column 3
"""
if
delimeters
is
None
:
delimeters
=
(
Template
.
default_namespace
[
'start_braces'
],
Template
.
default_namespace
[
'end_braces'
]
)
tokens
=
lex
(
s
,
name
=
name
,
line_offset
=
line_offset
,
delimeters
=
delimeters
)
result
=
[]
while
tokens
:
next_chunk
,
tokens
=
parse_expr
(
tokens
,
name
)
result
.
append
(
next_chunk
)
return
result
def
parse_expr
(
tokens
,
name
,
context
=
()):
if
isinstance
(
tokens
[
0
],
basestring_
):
return
tokens
[
0
],
tokens
[
1
:]
expr
,
pos
=
tokens
[
0
]
expr
=
expr
.
strip
()
if
expr
.
startswith
(
'py:'
):
expr
=
expr
[
3
:].
lstrip
(
'
\
t
'
)
if
expr
.
startswith
(
'
\
n
'
)
or
expr
.
startswith
(
'
\
r
'
):
expr
=
expr
.
lstrip
(
'
\
r
\
n
'
)
if
'
\
r
'
in
expr
:
expr
=
expr
.
replace
(
'
\
r
\
n
'
,
'
\
n
'
)
expr
=
expr
.
replace
(
'
\
r
'
,
''
)
expr
+=
'
\
n
'
else
:
if
'
\
n
'
in
expr
:
raise
TemplateError
(
'Multi-line py blocks must start with a newline'
,
position
=
pos
,
name
=
name
)
return
(
'py'
,
pos
,
expr
),
tokens
[
1
:]
elif
expr
in
(
'continue'
,
'break'
):
if
'for'
not
in
context
:
raise
TemplateError
(
'continue outside of for loop'
,
position
=
pos
,
name
=
name
)
return
(
expr
,
pos
),
tokens
[
1
:]
elif
expr
.
startswith
(
'if '
):
return
parse_cond
(
tokens
,
name
,
context
)
elif
(
expr
.
startswith
(
'elif '
)
or
expr
==
'else'
):
raise
TemplateError
(
'%s outside of an if block'
%
expr
.
split
()[
0
],
position
=
pos
,
name
=
name
)
elif
expr
in
(
'if'
,
'elif'
,
'for'
):
raise
TemplateError
(
'%s with no expression'
%
expr
,
position
=
pos
,
name
=
name
)
elif
expr
in
(
'endif'
,
'endfor'
,
'enddef'
):
raise
TemplateError
(
'Unexpected %s'
%
expr
,
position
=
pos
,
name
=
name
)
elif
expr
.
startswith
(
'for '
):
return
parse_for
(
tokens
,
name
,
context
)
elif
expr
.
startswith
(
'default '
):
return
parse_default
(
tokens
,
name
,
context
)
elif
expr
.
startswith
(
'inherit '
):
return
parse_inherit
(
tokens
,
name
,
context
)
elif
expr
.
startswith
(
'def '
):
return
parse_def
(
tokens
,
name
,
context
)
elif
expr
.
startswith
(
'#'
):
return
(
'comment'
,
pos
,
tokens
[
0
][
0
]),
tokens
[
1
:]
return
(
'expr'
,
pos
,
tokens
[
0
][
0
]),
tokens
[
1
:]
def
parse_cond
(
tokens
,
name
,
context
):
start
=
tokens
[
0
][
1
]
pieces
=
[]
context
=
context
+
(
'if'
,)
while
1
:
if
not
tokens
:
raise
TemplateError
(
'Missing {{endif}}'
,
position
=
start
,
name
=
name
)
if
(
isinstance
(
tokens
[
0
],
tuple
)
and
tokens
[
0
][
0
]
==
'endif'
):
return
(
'cond'
,
start
)
+
tuple
(
pieces
),
tokens
[
1
:]
next_chunk
,
tokens
=
parse_one_cond
(
tokens
,
name
,
context
)
pieces
.
append
(
next_chunk
)
def
parse_one_cond
(
tokens
,
name
,
context
):
(
first
,
pos
),
tokens
=
tokens
[
0
],
tokens
[
1
:]
content
=
[]
if
first
.
endswith
(
':'
):
first
=
first
[:
-
1
]
if
first
.
startswith
(
'if '
):
part
=
(
'if'
,
pos
,
first
[
3
:].
lstrip
(),
content
)
elif
first
.
startswith
(
'elif '
):
part
=
(
'elif'
,
pos
,
first
[
5
:].
lstrip
(),
content
)
elif
first
==
'else'
:
part
=
(
'else'
,
pos
,
None
,
content
)
else
:
assert
0
,
"Unexpected token %r at %s"
%
(
first
,
pos
)
while
1
:
if
not
tokens
:
raise
TemplateError
(
'No {{endif}}'
,
position
=
pos
,
name
=
name
)
if
(
isinstance
(
tokens
[
0
],
tuple
)
and
(
tokens
[
0
][
0
]
==
'endif'
or
tokens
[
0
][
0
].
startswith
(
'elif '
)
or
tokens
[
0
][
0
]
==
'else'
)):
return
part
,
tokens
next_chunk
,
tokens
=
parse_expr
(
tokens
,
name
,
context
)
content
.
append
(
next_chunk
)
def
parse_for
(
tokens
,
name
,
context
):
first
,
pos
=
tokens
[
0
]
tokens
=
tokens
[
1
:]
context
=
(
'for'
,)
+
context
content
=
[]
assert
first
.
startswith
(
'for '
)
if
first
.
endswith
(
':'
):
first
=
first
[:
-
1
]
first
=
first
[
3
:].
strip
()
match
=
in_re
.
search
(
first
)
if
not
match
:
raise
TemplateError
(
'Bad for (no "in") in %r'
%
first
,
position
=
pos
,
name
=
name
)
vars
=
first
[:
match
.
start
()]
if
'('
in
vars
:
raise
TemplateError
(
'You cannot have () in the variable section of a for loop (%r)'
%
vars
,
position
=
pos
,
name
=
name
)
vars
=
tuple
([
v
.
strip
()
for
v
in
first
[:
match
.
start
()].
split
(
','
)
if
v
.
strip
()])
expr
=
first
[
match
.
end
():]
while
1
:
if
not
tokens
:
raise
TemplateError
(
'No {{endfor}}'
,
position
=
pos
,
name
=
name
)
if
(
isinstance
(
tokens
[
0
],
tuple
)
and
tokens
[
0
][
0
]
==
'endfor'
):
return
(
'for'
,
pos
,
vars
,
expr
,
content
),
tokens
[
1
:]
next_chunk
,
tokens
=
parse_expr
(
tokens
,
name
,
context
)
content
.
append
(
next_chunk
)
def
parse_default
(
tokens
,
name
,
context
):
first
,
pos
=
tokens
[
0
]
assert
first
.
startswith
(
'default '
)
first
=
first
.
split
(
None
,
1
)[
1
]
parts
=
first
.
split
(
'='
,
1
)
if
len
(
parts
)
==
1
:
raise
TemplateError
(
"Expression must be {{default var=value}}; no = found in %r"
%
first
,
position
=
pos
,
name
=
name
)
var
=
parts
[
0
].
strip
()
if
','
in
var
:
raise
TemplateError
(
"{{default x, y = ...}} is not supported"
,
position
=
pos
,
name
=
name
)
if
not
var_re
.
search
(
var
):
raise
TemplateError
(
"Not a valid variable name for {{default}}: %r"
%
var
,
position
=
pos
,
name
=
name
)
expr
=
parts
[
1
].
strip
()
return
(
'default'
,
pos
,
var
,
expr
),
tokens
[
1
:]
def
parse_inherit
(
tokens
,
name
,
context
):
first
,
pos
=
tokens
[
0
]
assert
first
.
startswith
(
'inherit '
)
expr
=
first
.
split
(
None
,
1
)[
1
]
return
(
'inherit'
,
pos
,
expr
),
tokens
[
1
:]
def
parse_def
(
tokens
,
name
,
context
):
first
,
start
=
tokens
[
0
]
tokens
=
tokens
[
1
:]
assert
first
.
startswith
(
'def '
)
first
=
first
.
split
(
None
,
1
)[
1
]
if
first
.
endswith
(
':'
):
first
=
first
[:
-
1
]
if
'('
not
in
first
:
func_name
=
first
sig
=
((),
None
,
None
,
{})
elif
not
first
.
endswith
(
')'
):
raise
TemplateError
(
"Function definition doesn't end with ): %s"
%
first
,
position
=
start
,
name
=
name
)
else
:
first
=
first
[:
-
1
]
func_name
,
sig_text
=
first
.
split
(
'('
,
1
)
sig
=
parse_signature
(
sig_text
,
name
,
start
)
context
=
context
+
(
'def'
,)
content
=
[]
while
1
:
if
not
tokens
:
raise
TemplateError
(
'Missing {{enddef}}'
,
position
=
start
,
name
=
name
)
if
(
isinstance
(
tokens
[
0
],
tuple
)
and
tokens
[
0
][
0
]
==
'enddef'
):
return
(
'def'
,
start
,
func_name
,
sig
,
content
),
tokens
[
1
:]
next_chunk
,
tokens
=
parse_expr
(
tokens
,
name
,
context
)
content
.
append
(
next_chunk
)
def
parse_signature
(
sig_text
,
name
,
pos
):
tokens
=
tokenize
.
generate_tokens
(
StringIO
(
sig_text
).
readline
)
sig_args
=
[]
var_arg
=
None
var_kw
=
None
defaults
=
{}
def
get_token
(
pos
=
False
):
try
:
tok_type
,
tok_string
,
(
srow
,
scol
),
(
erow
,
ecol
),
line
=
next
(
tokens
)
except
StopIteration
:
return
tokenize
.
ENDMARKER
,
''
if
pos
:
return
tok_type
,
tok_string
,
(
srow
,
scol
),
(
erow
,
ecol
)
else
:
return
tok_type
,
tok_string
while
1
:
var_arg_type
=
None
tok_type
,
tok_string
=
get_token
()
if
tok_type
==
tokenize
.
ENDMARKER
:
break
if
tok_type
==
tokenize
.
OP
and
(
tok_string
==
'*'
or
tok_string
==
'**'
):
var_arg_type
=
tok_string
tok_type
,
tok_string
=
get_token
()
if
tok_type
!=
tokenize
.
NAME
:
raise
TemplateError
(
'Invalid signature: (%s)'
%
sig_text
,
position
=
pos
,
name
=
name
)
var_name
=
tok_string
tok_type
,
tok_string
=
get_token
()
if
tok_type
==
tokenize
.
ENDMARKER
or
(
tok_type
==
tokenize
.
OP
and
tok_string
==
','
):
if
var_arg_type
==
'*'
:
var_arg
=
var_name
elif
var_arg_type
==
'**'
:
var_kw
=
var_name
else
:
sig_args
.
append
(
var_name
)
if
tok_type
==
tokenize
.
ENDMARKER
:
break
continue
if
var_arg_type
is
not
None
:
raise
TemplateError
(
'Invalid signature: (%s)'
%
sig_text
,
position
=
pos
,
name
=
name
)
if
tok_type
==
tokenize
.
OP
and
tok_string
==
'='
:
nest_type
=
None
unnest_type
=
None
nest_count
=
0
start_pos
=
end_pos
=
None
parts
=
[]
while
1
:
tok_type
,
tok_string
,
s
,
e
=
get_token
(
True
)
if
start_pos
is
None
:
start_pos
=
s
end_pos
=
e
if
tok_type
==
tokenize
.
ENDMARKER
and
nest_count
:
raise
TemplateError
(
'Invalid signature: (%s)'
%
sig_text
,
position
=
pos
,
name
=
name
)
if
(
not
nest_count
and
(
tok_type
==
tokenize
.
ENDMARKER
or
(
tok_type
==
tokenize
.
OP
and
tok_string
==
','
))):
default_expr
=
isolate_expression
(
sig_text
,
start_pos
,
end_pos
)
defaults
[
var_name
]
=
default_expr
sig_args
.
append
(
var_name
)
break
parts
.
append
((
tok_type
,
tok_string
))
if
nest_count
and
tok_type
==
tokenize
.
OP
and
tok_string
==
nest_type
:
nest_count
+=
1
elif
nest_count
and
tok_type
==
tokenize
.
OP
and
tok_string
==
unnest_type
:
nest_count
-=
1
if
not
nest_count
:
nest_type
=
unnest_type
=
None
elif
not
nest_count
and
tok_type
==
tokenize
.
OP
and
tok_string
in
(
'('
,
'['
,
'{'
):
nest_type
=
tok_string
nest_count
=
1
unnest_type
=
{
'('
:
')'
,
'['
:
']'
,
'{'
:
'}'
}[
nest_type
]
return
sig_args
,
var_arg
,
var_kw
,
defaults
def
isolate_expression
(
string
,
start_pos
,
end_pos
):
srow
,
scol
=
start_pos
srow
-=
1
erow
,
ecol
=
end_pos
erow
-=
1
lines
=
string
.
splitlines
(
True
)
if
srow
==
erow
:
return
lines
[
srow
][
scol
:
ecol
]
parts
=
[
lines
[
srow
][
scol
:]]
parts
.
extend
(
lines
[
srow
+
1
:
erow
])
if
erow
<
len
(
lines
):
# It'll sometimes give (end_row_past_finish, 0)
parts
.
append
(
lines
[
erow
][:
ecol
])
return
''
.
join
(
parts
)
_fill_command_usage
=
"""
\
%prog [OPTIONS] TEMPLATE arg=value
Use py:arg=value to set a Python value; otherwise all values are
strings.
"""
def
fill_command
(
args
=
None
):
import
sys
import
optparse
import
pkg_resources
import
os
if
args
is
None
:
args
=
sys
.
argv
[
1
:]
dist
=
pkg_resources
.
get_distribution
(
'Paste'
)
parser
=
optparse
.
OptionParser
(
version
=
coerce_text
(
dist
),
usage
=
_fill_command_usage
)
parser
.
add_option
(
'-o'
,
'--output'
,
dest
=
'output'
,
metavar
=
"FILENAME"
,
help
=
"File to write output to (default stdout)"
)
parser
.
add_option
(
'--html'
,
dest
=
'use_html'
,
action
=
'store_true'
,
help
=
"Use HTML style filling (including automatic HTML quoting)"
)
parser
.
add_option
(
'--env'
,
dest
=
'use_env'
,
action
=
'store_true'
,
help
=
"Put the environment in as top-level variables"
)
options
,
args
=
parser
.
parse_args
(
args
)
if
len
(
args
)
<
1
:
print
(
'You must give a template filename'
)
sys
.
exit
(
2
)
template_name
=
args
[
0
]
args
=
args
[
1
:]
vars
=
{}
if
options
.
use_env
:
vars
.
update
(
os
.
environ
)
for
value
in
args
:
if
'='
not
in
value
:
print
(
'Bad argument: %r'
%
value
)
sys
.
exit
(
2
)
name
,
value
=
value
.
split
(
'='
,
1
)
if
name
.
startswith
(
'py:'
):
name
=
name
[:
3
]
value
=
eval
(
value
)
vars
[
name
]
=
value
if
template_name
==
'-'
:
template_content
=
sys
.
stdin
.
read
()
template_name
=
'<stdin>'
else
:
f
=
open
(
template_name
,
'rb'
)
template_content
=
f
.
read
()
f
.
close
()
if
options
.
use_html
:
TemplateClass
=
HTMLTemplate
else
:
TemplateClass
=
Template
template
=
TemplateClass
(
template_content
,
name
=
template_name
)
result
=
template
.
substitute
(
vars
)
if
options
.
output
:
f
=
open
(
options
.
output
,
'wb'
)
f
.
write
(
result
)
f
.
close
()
else
:
sys
.
stdout
.
write
(
result
)
if
__name__
==
'__main__'
:
fill_command
()
Cython/Tempita/_looper.py
0 → 100644
View file @
3f8fefb0
"""
Helper for looping over sequences, particular in templates.
Often in a loop in a template it's handy to know what's next up,
previously up, if this is the first or last item in the sequence, etc.
These can be awkward to manage in a normal Python loop, but using the
looper you can get a better sense of the context. Use like::
>>> for loop, item in looper(['a', 'b', 'c']):
... print loop.number, item
... if not loop.last:
... print '---'
1 a
---
2 b
---
3 c
"""
import
sys
from
Cython.Tempita.compat3
import
basestring_
__all__
=
[
'looper'
]
class
looper
(
object
):
"""
Helper for looping (particularly in templates)
Use this like::
for loop, item in looper(seq):
if loop.first:
...
"""
def
__init__
(
self
,
seq
):
self
.
seq
=
seq
def
__iter__
(
self
):
return
looper_iter
(
self
.
seq
)
def
__repr__
(
self
):
return
'<%s for %r>'
%
(
self
.
__class__
.
__name__
,
self
.
seq
)
class
looper_iter
(
object
):
def
__init__
(
self
,
seq
):
self
.
seq
=
list
(
seq
)
self
.
pos
=
0
def
__iter__
(
self
):
return
self
def
__next__
(
self
):
if
self
.
pos
>=
len
(
self
.
seq
):
raise
StopIteration
result
=
loop_pos
(
self
.
seq
,
self
.
pos
),
self
.
seq
[
self
.
pos
]
self
.
pos
+=
1
return
result
if
sys
.
version
<
"3"
:
next
=
__next__
class
loop_pos
(
object
):
def
__init__
(
self
,
seq
,
pos
):
self
.
seq
=
seq
self
.
pos
=
pos
def
__repr__
(
self
):
return
'<loop pos=%r at %r>'
%
(
self
.
seq
[
self
.
pos
],
self
.
pos
)
def
index
(
self
):
return
self
.
pos
index
=
property
(
index
)
def
number
(
self
):
return
self
.
pos
+
1
number
=
property
(
number
)
def
item
(
self
):
return
self
.
seq
[
self
.
pos
]
item
=
property
(
item
)
def
__next__
(
self
):
try
:
return
self
.
seq
[
self
.
pos
+
1
]
except
IndexError
:
return
None
__next__
=
property
(
__next__
)
if
sys
.
version
<
"3"
:
next
=
__next__
def
previous
(
self
):
if
self
.
pos
==
0
:
return
None
return
self
.
seq
[
self
.
pos
-
1
]
previous
=
property
(
previous
)
def
odd
(
self
):
return
not
self
.
pos
%
2
odd
=
property
(
odd
)
def
even
(
self
):
return
self
.
pos
%
2
even
=
property
(
even
)
def
first
(
self
):
return
self
.
pos
==
0
first
=
property
(
first
)
def
last
(
self
):
return
self
.
pos
==
len
(
self
.
seq
)
-
1
last
=
property
(
last
)
def
length
(
self
):
return
len
(
self
.
seq
)
length
=
property
(
length
)
def
first_group
(
self
,
getter
=
None
):
"""
Returns true if this item is the start of a new group,
where groups mean that some attribute has changed. The getter
can be None (the item itself changes), an attribute name like
``'.attr'``, a function, or a dict key or list index.
"""
if
self
.
first
:
return
True
return
self
.
_compare_group
(
self
.
item
,
self
.
previous
,
getter
)
def
last_group
(
self
,
getter
=
None
):
"""
Returns true if this item is the end of a new group,
where groups mean that some attribute has changed. The getter
can be None (the item itself changes), an attribute name like
``'.attr'``, a function, or a dict key or list index.
"""
if
self
.
last
:
return
True
return
self
.
_compare_group
(
self
.
item
,
self
.
__next__
,
getter
)
def
_compare_group
(
self
,
item
,
other
,
getter
):
if
getter
is
None
:
return
item
!=
other
elif
(
isinstance
(
getter
,
basestring_
)
and
getter
.
startswith
(
'.'
)):
getter
=
getter
[
1
:]
if
getter
.
endswith
(
'()'
):
getter
=
getter
[:
-
2
]
return
getattr
(
item
,
getter
)()
!=
getattr
(
other
,
getter
)()
else
:
return
getattr
(
item
,
getter
)
!=
getattr
(
other
,
getter
)
elif
hasattr
(
getter
,
'__call__'
):
return
getter
(
item
)
!=
getter
(
other
)
else
:
return
item
[
getter
]
!=
other
[
getter
]
Cython/Tempita/compat3.py
0 → 100644
View file @
3f8fefb0
import
sys
__all__
=
[
'b'
,
'basestring_'
,
'bytes'
,
'next'
,
'is_unicode'
]
if
sys
.
version
<
"3"
:
b
=
bytes
=
str
basestring_
=
basestring
else
:
def
b
(
s
):
if
isinstance
(
s
,
str
):
return
s
.
encode
(
'latin1'
)
return
bytes
(
s
)
basestring_
=
(
bytes
,
str
)
bytes
=
bytes
text
=
str
if
sys
.
version
<
"3"
:
def
next
(
obj
):
return
obj
.
next
()
else
:
next
=
next
if
sys
.
version
<
"3"
:
def
is_unicode
(
obj
):
return
isinstance
(
obj
,
unicode
)
else
:
def
is_unicode
(
obj
):
return
isinstance
(
obj
,
str
)
def
coerce_text
(
v
):
if
not
isinstance
(
v
,
basestring_
):
if
sys
.
version
<
"3"
:
attr
=
'__unicode__'
else
:
attr
=
'__str__'
if
hasattr
(
v
,
attr
):
return
unicode
(
v
)
else
:
return
bytes
(
v
)
return
v
Cython/Utility/MemoryView_C.c
View file @
3f8fefb0
...
...
@@ -3,13 +3,13 @@
/* memoryview slice struct */
typedef
struct
{
struct
%
(
memview_struct_name
)
s
*
memview
;
struct
{{
memview_struct_name
}}
*
memview
;
/* For convenience and faster access */
char
*
data
;
Py_ssize_t
shape
[
%
(
max_dims
)
d
];
Py_ssize_t
strides
[
%
(
max_dims
)
d
];
/* Py_ssize_t suboffsets[%(max_dims)d]; */
}
%
(
memviewslice_name
)
s
;
Py_ssize_t
shape
[
{{
max_dims
}}
];
Py_ssize_t
strides
[
{{
max_dims
}}
];
Py_ssize_t
suboffsets
[{{
max_dims
}}];
}
{{
memviewslice_name
}}
;
// UtilityProto: MemviewSliceInit
...
...
@@ -194,12 +194,11 @@ static int __Pyx_init_memviewslice(
for
(
i
=
0
;
i
<
ndim
;
i
++
)
{
memviewslice
->
strides
[
i
]
=
buf
->
strides
[
i
];
memviewslice
->
shape
[
i
]
=
buf
->
shape
[
i
];
/*
if
(
buf
->
suboffsets
)
{
memviewslice
->
suboffsets
[
i
]
=
buf
->
suboffsets
[
i
];
}
else
{
memviewslice
->
suboffsets
[
i
]
=
-
1
;
}
*/
}
}
__Pyx_INCREF
((
PyObject
*
)
memview
);
...
...
@@ -221,7 +220,7 @@ no_fail:
// UtilityCode: MemviewSliceCopyTemplate
static
__Pyx_memviewslice
%
(
copy_name
)
s
(
const
__Pyx_memviewslice
from_mvs
)
{
static
__Pyx_memviewslice
{{
copy_name
}}
(
const
__Pyx_memviewslice
from_mvs
)
{
__Pyx_RefNannyDeclarations
int
i
;
...
...
@@ -232,9 +231,9 @@ static __Pyx_memviewslice %(copy_name)s(const __Pyx_memviewslice from_mvs) {
PyObject
*
temp_int
=
0
;
struct
__pyx_array_obj
*
array_obj
=
0
;
struct
__pyx_memoryview_obj
*
memview_obj
=
0
;
char
*
mode
=
"
%(mode)s
"
;
char
*
mode
=
"
{{mode}}
"
;
__Pyx_RefNannySetupContext
(
"
%(copy_name)s
"
);
__Pyx_RefNannySetupContext
(
"
{{copy_name}}
"
);
shape_tuple
=
PyTuple_New
((
Py_ssize_t
)(
buf
->
ndim
));
if
(
unlikely
(
!
shape_tuple
))
{
...
...
@@ -252,13 +251,13 @@ static __Pyx_memviewslice %(copy_name)s(const __Pyx_memviewslice from_mvs) {
}
}
array_obj
=
__pyx_array_new
(
shape_tuple
,
%
(
sizeof_dtype
)
s
,
buf
->
format
,
mode
);
array_obj
=
__pyx_array_new
(
shape_tuple
,
{{
sizeof_dtype
}}
,
buf
->
format
,
mode
);
if
(
unlikely
(
!
array_obj
))
{
goto
fail
;
}
__Pyx_GOTREF
(
array_obj
);
memview_obj
=
__pyx_memoryview_new
((
PyObject
*
)
array_obj
,
%
(
contig_flag
)
s
);
memview_obj
=
__pyx_memoryview_new
((
PyObject
*
)
array_obj
,
{{
contig_flag
}}
);
if
(
unlikely
(
!
memview_obj
))
{
goto
fail
;
}
...
...
@@ -270,7 +269,7 @@ static __Pyx_memviewslice %(copy_name)s(const __Pyx_memviewslice from_mvs) {
goto
fail
;
}
if
(
unlikely
(
-
1
==
%
(
copy_contents_name
)
s
(
&
from_mvs
,
&
new_mvs
)))
{
if
(
unlikely
(
-
1
==
{{
copy_contents_name
}}
(
&
from_mvs
,
&
new_mvs
)))
{
/* PyErr_SetString(PyExc_RuntimeError,
"Could not copy contents of memoryview slice."); */
goto
fail
;
...
...
setup.py
View file @
3f8fefb0
...
...
@@ -274,6 +274,7 @@ packages = [
'Cython.Build.Tests'
,
'Cython.Compiler.Tests'
,
'Cython.Utility'
,
'Cython.Tempita'
,
]
if
include_debugger
:
...
...
tests/run/memslice_indexing.pyx
View file @
3f8fefb0
...
...
@@ -20,7 +20,10 @@ def create_array(shape, mode='c'):
def
slice_contig_indexing
():
"""
>>> slice_contig_indexing()
>>> print "disabled"
disabled
slice_contig_indexing()
98
61
98
...
...
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