#!/usr/bin/env python
'''
Created on 13 Jan 2011
@author: charles
'''
__license__ = 'GPL v3'
__copyright__ = '2010, Kovid Goyal <kovid@kovidgoyal.net>'
__docformat__ = 'restructuredtext en'
import inspect
import numbers
import posixpath
import re
import traceback
from contextlib import suppress
from datetime import datetime, timedelta
from enum import Enum, auto
from functools import partial
from math import ceil, floor, modf, trunc
from lxml import html
from calibre import human_readable, prepare_string_for_xml, prints
from calibre.constants import DEBUG
from calibre.db.constants import DATA_DIR_NAME, DATA_FILE_PATTERN
from calibre.db.notes.exim import expand_note_resources, parse_html
from calibre.ebooks.metadata import title_sort
from calibre.ebooks.metadata.book.base import field_metadata
from calibre.utils.config import tweaks
from calibre.utils.date import UNDEFINED_DATE, format_date, now, parse_date
from calibre.utils.icu import capitalize, sort_key, strcmp
from calibre.utils.icu import lower as icu_lower
from calibre.utils.localization import _ as xlated
from calibre.utils.localization import calibre_langcode_to_name, canonicalize_lang
from calibre.utils.titlecase import titlecase
from polyglot.builtins import iteritems, itervalues
UNKNOWN = _('Unknown')
RELATIONAL = _('Relational')
STRING_MANIPULATION = _('String manipulation')
IF_THEN_ELSE = _('If-then-else')
ARITHMETIC = _('Arithmetic')
RECURSION = _('Recursion')
OTHER = _('Other')
LIST_MANIPULATION = _('List manipulation')
LIST_LOOKUP = _('List lookup')
GET_FROM_METADATA = _('Get values from metadata')
ITERATING_VALUES = _('Iterate over values')
BOOLEAN = _('Boolean')
FORMATTING_VALUES = _('Formatting values')
CASE_CHANGES = _('Case changes')
DATE_FUNCTIONS = _('Date functions')
DB_FUNCS = _('Database functions')
# Class and method to save an untranslated copy of translated strings
class TranslatedStringWithRaw(str):
def __new__(cls, raw_english, raw_other, formatted_english, formatted_other):
instance = super().__new__(cls, formatted_other)
instance.raw_english = raw_english
instance.raw_other = raw_other
instance.formatted_english = formatted_english
instance.formatted_other = formatted_other
instance.did_format = False
return instance
def format(self, *args, **kw):
formatted_english = self.raw_english.format(*args, **kw)
formatted_other = self.raw_other.format(*args, **kw)
v = TranslatedStringWithRaw(self.raw_english, self.raw_other,
formatted_english, formatted_other)
v.saved_args = args
v.saved_kwargs = kw
v.did_format = True
return v
def format_again(self, txt):
if self.did_format:
return txt.format(*self.saved_args, **self.saved_kwargs)
return txt
def _(txt):
translated = xlated(txt)
return TranslatedStringWithRaw(txt, translated, txt, translated)
class StoredObjectType(Enum):
PythonFunction = auto()
StoredGPMTemplate = auto()
StoredPythonTemplate = auto()
class FormatterFunctions:
error_function_body = ('def evaluate(self, formatter, kwargs, mi, locals):\n'
'\treturn "' +
_('Duplicate user function name {0}. '
'Change the name or ensure that the functions are identical') + '"')
def __init__(self):
self._builtins = {}
self._functions = {}
self._functions_from_library = {}
def register_builtin(self, func_class):
if not isinstance(func_class, FormatterFunction):
raise ValueError('Class %s is not an instance of FormatterFunction'%(
func_class.__class__.__name__))
name = func_class.name
if name in self._functions:
raise ValueError('Name %s already used'%name)
self._builtins[name] = func_class
self._functions[name] = func_class
for a in func_class.aliases:
self._functions[a] = func_class
def _register_function(self, func_class, replace=False):
if not isinstance(func_class, FormatterFunction):
raise ValueError('Class %s is not an instance of FormatterFunction'%(
func_class.__class__.__name__))
name = func_class.name
if not replace and name in self._functions:
raise ValueError('Name %s already used'%name)
self._functions[name] = func_class
def register_functions(self, library_uuid, funcs):
self._functions_from_library[library_uuid] = funcs
self._register_functions()
def _register_functions(self):
for compiled_funcs in itervalues(self._functions_from_library):
for cls in compiled_funcs:
f = self._functions.get(cls.name, None)
replace = False
if f is not None:
existing_body = f.program_text
new_body = cls.program_text
if new_body != existing_body:
# Change the body of the template function to one that will
# return an error message. Also change the arg count to
# -1 (variable) to avoid template compilation errors
if DEBUG:
print(f'attempt to replace formatter function {f.name} with a different body')
replace = True
func = [cls.name, '', -1, self.error_function_body.format(cls.name)]
cls = compile_user_function(*func)
else:
continue
formatter_functions()._register_function(cls, replace=replace)
def unregister_functions(self, library_uuid):
if library_uuid in self._functions_from_library:
for cls in self._functions_from_library[library_uuid]:
self._functions.pop(cls.name, None)
self._functions_from_library.pop(library_uuid)
self._register_functions()
def get_builtins(self):
return self._builtins
def get_builtins_and_aliases(self):
res = {}
for f in itervalues(self._builtins):
res[f.name] = f
for a in f.aliases:
res[a] = f
return res
def get_functions(self):
return self._functions
def reset_to_builtins(self):
self._functions = {}
for n,c in self._builtins.items():
self._functions[n] = c
for a in c.aliases:
self._functions[a] = c
_ff = FormatterFunctions()
def formatter_functions():
global _ff
return _ff
def only_in_gui_error(name):
raise ValueError(_('The function {} can be used only in the GUI').format(name))
def get_database(mi, name):
proxy = mi.get('_proxy_metadata', None)
if proxy is None:
if name is not None:
only_in_gui_error(name)
return None
wr = proxy.get('_db', None)
if wr is None:
if name is not None:
raise ValueError(_('In function {}: The database has been closed').format(name))
return None
cache = wr()
if cache is None:
if name is not None:
raise ValueError(_('In function {}: The database has been closed').format(name))
return None
wr = getattr(cache, 'library_database_instance', None)
if wr is None:
if name is not None:
only_in_gui_error()
return None
db = wr()
if db is None:
if name is not None:
raise ValueError(_('In function {}: The database has been closed').format(name))
return None
return db
class FormatterFunction:
doc = _('No documentation provided')
name = 'no name provided'
category = UNKNOWN
arg_count = 0
aliases = []
object_type = StoredObjectType.PythonFunction
def evaluate(self, formatter, kwargs, mi, locals, *args):
raise NotImplementedError()
def eval_(self, formatter, kwargs, mi, locals, *args):
ret = self.evaluate(formatter, kwargs, mi, locals, *args)
if isinstance(ret, (bytes, str)):
return ret
if isinstance(ret, list):
return ','.join(ret)
if isinstance(ret, (numbers.Number, bool)):
return str(ret)
def only_in_gui_error(self):
only_in_gui_error(self.name)
def get_database(self, mi):
return get_database(mi, self.name)
class BuiltinFormatterFunction(FormatterFunction):
def __init__(self):
formatter_functions().register_builtin(self)
eval_func = inspect.getmembers(self.__class__,
lambda x: inspect.isfunction(x) and x.__name__ == 'evaluate')
try:
lines = [l[4:] for l in inspect.getsourcelines(eval_func[0][1])[0]]
except:
lines = []
self.program_text = ''.join(lines)
[docs]
class BuiltinStrcmp(BuiltinFormatterFunction):
name = 'strcmp'
arg_count = 5
category = RELATIONAL
__doc__ = doc = _(
r'''
``strcmp(x, y, lt, eq, gt)`` -- does a case-insensitive lexical comparison of
``x`` and ``y``.[/] Returns ``lt`` if ``x < y``, ``eq`` if ``x == y``, otherwise
``gt``. This function can often be replaced by one of the lexical comparison
operators (``==``, ``>``, ``<``, etc.)
''')
def evaluate(self, formatter, kwargs, mi, locals, x, y, lt, eq, gt):
v = strcmp(x, y)
if v < 0:
return lt
if v == 0:
return eq
return gt
[docs]
class BuiltinStrcmpcase(BuiltinFormatterFunction):
name = 'strcmpcase'
arg_count = 5
category = RELATIONAL
__doc__ = doc = _(
r'''
``strcmpcase(x, y, lt, eq, gt)`` -- does a case-sensitive lexical comparison of
``x`` and ``y``.[/] Returns ``lt`` if ``x < y``, ``eq`` if ``x == y``, otherwise
``gt``.
Note: This is NOT the default behavior used by calibre, for example, in the
lexical comparison operators (``==``, ``>``, ``<``, etc.). This function could
cause unexpected results, preferably use ``strcmp()`` whenever possible.
''')
def evaluate(self, formatter, kwargs, mi, locals, x, y, lt, eq, gt):
from calibre.utils.icu import case_sensitive_strcmp as case_strcmp
v = case_strcmp(x, y)
if v < 0:
return lt
if v == 0:
return eq
return gt
[docs]
class BuiltinCmp(BuiltinFormatterFunction):
name = 'cmp'
category = RELATIONAL
arg_count = 5
__doc__ = doc = _(
r'''
``cmp(value, y, lt, eq, gt)`` -- compares ``value`` and ``y`` after converting both to
numbers.[/] Returns ``lt`` if ``value <# y``, ``eq`` if ``value ==# y``, otherwise ``gt``.
This function can usually be replaced with one of the numeric compare operators
(``==#``, ``<#``, ``>#``, etc).
''')
def evaluate(self, formatter, kwargs, mi, locals, value, y, lt, eq, gt):
value = float(value if value and value != 'None' else 0)
y = float(y if y and y != 'None' else 0)
if value < y:
return lt
if value == y:
return eq
return gt
[docs]
class BuiltinFirstMatchingCmp(BuiltinFormatterFunction):
name = 'first_matching_cmp'
category = RELATIONAL
arg_count = -1
__doc__ = doc = _(
r'''
``first_matching_cmp(val, [ cmp, result, ]* else_result)`` -- compares ``val < cmp``
in sequence, returning the associated ``result`` for the first comparison that
succeeds.[/] Returns ``else_result`` if no comparison succeeds.
Example:
[CODE]
i = 10;
first_matching_cmp(i,5,"small",10,"middle",15,"large","giant")
[/CODE]
returns ``"large"``. The same example with a first value of 16 returns ``"giant"``.
''')
def evaluate(self, formatter, kwargs, mi, locals, *args):
if (len(args) % 2) != 0:
raise ValueError(_('first_matching_cmp requires an even number of arguments'))
val = float(args[0] if args[0] and args[0] != 'None' else 0)
for i in range(1, len(args) - 1, 2):
c = float(args[i] if args[i] and args[i] != 'None' else 0)
if val < c:
return args[i+1]
return args[len(args)-1]
[docs]
class BuiltinStrcat(BuiltinFormatterFunction):
name = 'strcat'
arg_count = -1
category = STRING_MANIPULATION
__doc__ = doc = _(
r'''
``strcat(a [, b]*)`` -- returns a string formed by concatenating all the
arguments.[/] Can take any number of arguments. In most cases you can use the
``&`` operator instead of this function.
''')
def evaluate(self, formatter, kwargs, mi, locals, *args):
i = 0
res = ''
for i in range(0, len(args)):
res += args[i]
return res
[docs]
class BuiltinStrlen(BuiltinFormatterFunction):
name = 'strlen'
arg_count = 1
category = STRING_MANIPULATION
__doc__ = doc = _(
r'''
``strlen(value)`` -- Returns the length of the string ``value``.
''')
def evaluate(self, formatter, kwargs, mi, locals, a):
try:
return len(a)
except:
return -1
[docs]
class BuiltinAdd(BuiltinFormatterFunction):
name = 'add'
arg_count = -1
category = ARITHMETIC
__doc__ = doc = _(
'''
``add(x [, y]*)`` -- returns the sum of its arguments.[/] Throws an exception if an
argument is not a number. In most cases you can use the ``+`` operator instead
of this function.
''')
def evaluate(self, formatter, kwargs, mi, locals, *args):
res = 0
for v in args:
v = float(v if v and v != 'None' else 0)
res += v
return str(res)
[docs]
class BuiltinSubtract(BuiltinFormatterFunction):
name = 'subtract'
arg_count = 2
category = ARITHMETIC
__doc__ = doc = _(
r'''
``subtract(x, y)`` -- returns ``x - y``.[/] Throws an exception if either ``x`` or
``y`` are not numbers. This function can usually be replaced by the ``-``
operator.
''')
def evaluate(self, formatter, kwargs, mi, locals, x, y):
x = float(x if x and x != 'None' else 0)
y = float(y if y and y != 'None' else 0)
return str(x - y)
[docs]
class BuiltinMultiply(BuiltinFormatterFunction):
name = 'multiply'
arg_count = -1
category = ARITHMETIC
__doc__ = doc = _(
r'''
``multiply(x [, y]*)`` -- returns the product of its arguments.[/] Throws an
exception if any argument is not a number. This function can usually be replaced
by the ``*`` operator.
''')
def evaluate(self, formatter, kwargs, mi, locals, *args):
res = 1
for v in args:
v = float(v if v and v != 'None' else 0)
res *= v
return str(res)
[docs]
class BuiltinDivide(BuiltinFormatterFunction):
name = 'divide'
arg_count = 2
category = ARITHMETIC
__doc__ = doc = _(
r'''
``divide(x, y)`` -- returns ``x / y``.[/] Throws an exception if either ``x`` or
``y`` are not numbers. This function can usually be replaced by the ``/``
operator.
''')
def evaluate(self, formatter, kwargs, mi, locals, x, y):
x = float(x if x and x != 'None' else 0)
y = float(y if y and y != 'None' else 0)
return str(x / y)
[docs]
class BuiltinCeiling(BuiltinFormatterFunction):
name = 'ceiling'
arg_count = 1
category = ARITHMETIC
__doc__ = doc = _(
r'''
``ceiling(value)`` -- returns the smallest integer greater than or equal to ``value``.[/]
Throws an exception if ``value`` is not a number.
''')
def evaluate(self, formatter, kwargs, mi, locals, value):
value = float(value if value and value != 'None' else 0)
return str(int(ceil(value)))
[docs]
class BuiltinFloor(BuiltinFormatterFunction):
name = 'floor'
arg_count = 1
category = ARITHMETIC
__doc__ = doc = _(
r'''
``floor(value)`` -- returns the largest integer less than or equal to ``value``.[/] Throws
an exception if ``value`` is not a number.
''')
def evaluate(self, formatter, kwargs, mi, locals, value):
value = float(value if value and value != 'None' else 0)
return str(int(floor(value)))
[docs]
class BuiltinRound(BuiltinFormatterFunction):
name = 'round'
arg_count = 1
category = ARITHMETIC
__doc__ = doc = _(
r'''
``round(value)`` -- returns the nearest integer to ``value``.[/] Throws an exception if
``value`` is not a number.
''')
def evaluate(self, formatter, kwargs, mi, locals, value):
value = float(value if value and value != 'None' else 0)
return str(int(round(value)))
[docs]
class BuiltinMod(BuiltinFormatterFunction):
name = 'mod'
arg_count = 2
category = ARITHMETIC
__doc__ = doc = _(
r'''
``mod(value, y)`` -- returns the ``floor`` of the remainder of ``value / y``.[/] Throws an
exception if either ``value`` or ``y`` is not a number.
''')
def evaluate(self, formatter, kwargs, mi, locals, value, y):
value = float(value if value and value != 'None' else 0)
y = float(y if y and y != 'None' else 0)
return str(int(value % y))
[docs]
class BuiltinFractionalPart(BuiltinFormatterFunction):
name = 'fractional_part'
arg_count = 1
category = ARITHMETIC
__doc__ = doc = _(
r'''
``fractional_part(value)`` -- returns the part of the value after the decimal
point.[/] For example, ``fractional_part(3.14)`` returns ``0.14``. Throws an
exception if ``value`` is not a number.
''')
def evaluate(self, formatter, kwargs, mi, locals, value):
value = float(value if value and value != 'None' else 0)
return str(modf(value)[0])
[docs]
class BuiltinTemplate(BuiltinFormatterFunction):
name = 'template'
arg_count = 1
category = RECURSION
__doc__ = doc = _(
r'''
``template(x)`` -- evaluates ``x`` as a template.[/] The evaluation is done in its
own context, meaning that variables are not shared between the caller and the
template evaluation. If not using General Program Mode, because the ``{`` and
``}`` characters are special, you must use ``[[`` for the ``{`` character and
``]]`` for the } character; they are converted automatically. For example,
``template(\'[[title_sort]]\')`` will evaluate the template ``{title_sort}`` and return
its value. Note also that prefixes and suffixes (the ``|prefix|suffix`` syntax)
cannot be used in the argument to this function when using template program
mode.
''')
def evaluate(self, formatter, kwargs, mi, locals, template):
template = template.replace('[[', '{').replace(']]', '}')
return formatter.__class__().safe_format(template, kwargs, 'TEMPLATE', mi)
[docs]
class BuiltinEval(BuiltinFormatterFunction):
name = 'eval'
arg_count = 1
category = RECURSION
__doc__ = doc = _(
r'''
``eval(string)`` -- evaluates the string as a program, passing the local
variables.[/] This permits using the template processor to construct complex
results from local variables. In
[URL href="https://manual.calibre-ebook.com/template_lang.html#more-complex-programs-in-template-expressions-template-program-mode"]
Template Program Mode[/URL],
because the ``{`` and ``}`` characters are interpreted before the template is
evaluated you must use ``[[`` for the ``{`` character and ``]]`` for the ``}``
character. They are converted automatically. Note also that prefixes and
suffixes (the ``|prefix|suffix`` syntax) cannot be used in the argument to this
function when using Template Program Mode.
''')
def evaluate(self, formatter, kwargs, mi, locals, template):
from calibre.utils.formatter import EvalFormatter
template = template.replace('[[', '{').replace(']]', '}')
return EvalFormatter().safe_format(template, locals, 'EVAL', None)
[docs]
class BuiltinAssign(BuiltinFormatterFunction):
name = 'assign'
arg_count = 2
category = OTHER
__doc__ = doc = _(
r'''
``assign(id, value)`` -- assigns ``value`` to ``id``[/], then returns ``value``. ``id``
must be an identifier, not an expression. In most cases you can use the ``=``
operator instead of this function.
''')
def evaluate(self, formatter, kwargs, mi, locals, target, value):
locals[target] = value
return value
[docs]
class BuiltinListSplit(BuiltinFormatterFunction):
name = 'list_split'
arg_count = 3
category = LIST_MANIPULATION
__doc__ = doc = _(
r'''
``list_split(list_val, sep, id_prefix)`` -- splits ``list_val`` into separate
values using ``sep``[/], then assigns the values to local variables named
``id_prefix_N`` where N is the position of the value in the list. The first item
has position 0 (zero). The function returns the last element in the list.
Example:
[CODE]
list_split('one:two:foo', ':', 'var')
[/CODE]
is equivalent to:
[CODE]
var_0 = 'one'
var_1 = 'two'
var_2 = 'foo'
[/CODE]
''')
def evaluate(self, formatter, kwargs, mi, locals, list_val, sep, id_prefix):
l = [v.strip() for v in list_val.split(sep)]
res = ''
for i,v in enumerate(l):
res = locals[id_prefix+'_'+str(i)] = v
return res
[docs]
class BuiltinPrint(BuiltinFormatterFunction):
name = 'print'
arg_count = -1
category = OTHER
__doc__ = doc = _(
r'''
``print(a [, b]*)`` -- prints the arguments to standard output.[/] Unless you start
calibre from the command line (``calibre-debug -g``), the output will go into a
black hole. The ``print`` function always returns its first argument.
''')
def evaluate(self, formatter, kwargs, mi, locals, *args):
print(args)
return ''
[docs]
class BuiltinField(BuiltinFormatterFunction):
name = 'field'
arg_count = 1
category = GET_FROM_METADATA
__doc__ = doc = _(
r'''
``field(lookup_name)`` -- returns the value of the metadata field with lookup name ``lookup_name``.[/]
The ``$`` prefix can be used instead of the function, as in ``$tags``.
''')
def evaluate(self, formatter, kwargs, mi, locals, name):
return formatter.get_value(name, [], kwargs)
[docs]
class BuiltinRawField(BuiltinFormatterFunction):
name = 'raw_field'
arg_count = -1
category = GET_FROM_METADATA
__doc__ = doc = _(
r'''
``raw_field(lookup_name [, optional_default])`` -- returns the metadata field
named by ``lookup_name`` without applying any formatting.[/] It evaluates and
returns the optional second argument ``optional_default`` if the field's value
is undefined (``None``). The ``$$`` prefix can be used instead of the function,
as in ``$$pubdate``.
''')
def evaluate(self, formatter, kwargs, mi, locals, name, default=None):
res = getattr(mi, name, None)
if res is None and default is not None:
return default
if isinstance(res, list):
fm = mi.metadata_for_field(name)
if fm is None:
return ', '.join(res)
return fm['is_multiple']['list_to_ui'].join(res)
return str(res)
[docs]
class BuiltinRawList(BuiltinFormatterFunction):
name = 'raw_list'
arg_count = 2
category = GET_FROM_METADATA
__doc__ = doc = _(
r'''
``raw_list(lookup_name, separator)`` -- returns the metadata list named by
``lookup_name`` without applying any formatting or sorting[/], with the items
separated by ``separator``.
''')
def evaluate(self, formatter, kwargs, mi, locals, name, separator):
res = getattr(mi, name, None)
if not isinstance(res, list):
return "%s is not a list" % name
return separator.join(res)
[docs]
class BuiltinSubstr(BuiltinFormatterFunction):
name = 'substr'
arg_count = 3
category = STRING_MANIPULATION
__doc__ = doc = _(
r'''
``substr(value, start, end)`` -- returns the ``start``'th through the ``end``'th
characters of ``value``[/]. The first character in ``value`` is the zero'th character.
If ``end`` is negative then it indicates that many characters counting from the
right. If ``end`` is zero, then it indicates the last character. For example,
``substr('12345', 1, 0)`` returns ``'2345'``, and ``substr('12345', 1, -1)``
returns ``'234'``.
''')
def evaluate(self, formatter, kwargs, mi, locals, value, start_, end_):
return value[int(start_): len(value) if int(end_) == 0 else int(end_)]
[docs]
class BuiltinLookup(BuiltinFormatterFunction):
name = 'lookup'
arg_count = -1
category = ITERATING_VALUES
__doc__ = doc = _(
r'''
``lookup(value, [ pattern, key, ]* else_key)`` -- The patterns will be checked against
the ``value`` in order[/]. If a ``pattern`` matches then the value of the field named by
``key`` is returned. If no pattern matches then the value of the field named by
``else_key`` is returned. See also the :ref:`switch` function.
''')
def evaluate(self, formatter, kwargs, mi, locals, val, *args):
if len(args) == 2: # here for backwards compatibility
if val:
return formatter.vformat('{'+args[0].strip()+'}', [], kwargs)
else:
return formatter.vformat('{'+args[1].strip()+'}', [], kwargs)
if (len(args) % 2) != 1:
raise ValueError(_('lookup requires either 2 or an odd number of arguments'))
i = 0
while i < len(args):
if i + 1 >= len(args):
return formatter.vformat('{' + args[i].strip() + '}', [], kwargs)
if re.search(args[i], val, flags=re.I):
return formatter.vformat('{'+args[i+1].strip() + '}', [], kwargs)
i += 2
[docs]
class BuiltinTest(BuiltinFormatterFunction):
name = 'test'
arg_count = 3
category = STRING_MANIPULATION
__doc__ = doc = _(
r'''
``test(value, text_if_not_empty, text_if_empty)`` -- return ``text_if_not_empty`` if
the value is not empty, otherwise return ``text_if_empty``.
''')
def evaluate(self, formatter, kwargs, mi, locals, val, value_if_set, value_not_set):
if val:
return value_if_set
else:
return value_not_set
[docs]
class BuiltinContains(BuiltinFormatterFunction):
name = 'contains'
arg_count = 4
category = STRING_MANIPULATION
__doc__ = doc = _(
r'''
``contains(value, pattern, text_if_match, text_if_not_match)`` -- checks if the value
is matched by the regular expression ``pattern``[/]. Returns ``text_if_match`` if
the pattern matches the value, otherwise returns ``text_if_not_match``.
''')
def evaluate(self, formatter, kwargs, mi, locals,
val, test, value_if_present, value_if_not):
if re.search(test, val, flags=re.I):
return value_if_present
else:
return value_if_not
[docs]
class BuiltinSwitch(BuiltinFormatterFunction):
name = 'switch'
arg_count = -1
category = ITERATING_VALUES
__doc__ = doc = _(
r'''
``switch(value, [patternN, valueN,]+ else_value)`` -- for each ``patternN, valueN`` pair,
checks if the ``value`` matches the regular expression ``patternN``[/] and if so returns
the associated ``valueN``. If no ``patternN`` matches, then ``else_value`` is
returned. You can have as many ``patternN, valueN`` pairs as you wish. The first
match is returned.
''')
def evaluate(self, formatter, kwargs, mi, locals, val, *args):
if (len(args) % 2) != 1:
raise ValueError(_('switch requires an even number of arguments'))
i = 0
while i < len(args):
if i + 1 >= len(args):
return args[i]
if re.search(args[i], val, flags=re.I):
return args[i+1]
i += 2
[docs]
class BuiltinSwitchIf(BuiltinFormatterFunction):
name = 'switch_if'
arg_count = -1
category = ITERATING_VALUES
__doc__ = doc = _(
r'''
``switch_if([test_expression, value_expression,]+ else_expression)`` -- for each
``test_expression, value_expression`` pair, checks if ``test_expression`` is
True (non-empty) and if so returns the result of ``value_expression``.[/] If no
``test_expression`` is True then the result of ``else_expression`` is returned.
You can have as many ``test_expression, value_expression`` pairs as you want.
''')
def evaluate(self, formatter, kwargs, mi, locals, *args):
if (len(args) % 2) != 1:
raise ValueError(_('switch_if requires an odd number of arguments'))
# We shouldn't get here because the function is inlined. However, someone
# might call it directly.
i = 0
while i < len(args):
if i + 1 >= len(args):
return args[i]
if args[i]:
return args[i+1]
i += 2
[docs]
class BuiltinStrcatMax(BuiltinFormatterFunction):
name = 'strcat_max'
arg_count = -1
category = STRING_MANIPULATION
__doc__ = doc = _(
r'''
``strcat_max(max, string1 [, prefix2, string2]*)`` -- Returns a string formed by
concatenating the arguments.[/] The returned value is initialized to ``string1``.
Strings made from ``prefix, string`` pairs are added to the end of the value as
long as the resulting string length is less than ``max``. Prefixes can be empty.
Returns ``string1`` even if ``string1`` is longer than ``max``. You can pass as
many ``prefix, string`` pairs as you wish.
''')
def evaluate(self, formatter, kwargs, mi, locals, *args):
if len(args) < 2:
raise ValueError(_('strcat_max requires 2 or more arguments'))
if (len(args) % 2) != 0:
raise ValueError(_('strcat_max requires an even number of arguments'))
try:
max = int(args[0])
except:
raise ValueError(_('first argument to strcat_max must be an integer'))
i = 2
result = args[1]
try:
while i < len(args):
if (len(result) + len(args[i]) + len(args[i+1])) > max:
break
result = result + args[i] + args[i+1]
i += 2
except:
pass
return result.strip()
[docs]
class BuiltinInList(BuiltinFormatterFunction):
name = 'list_contains'
arg_count = -1
category = LIST_LOOKUP
__doc__ = doc = _(
r'''
``list_contains(value, separator, [ pattern, found_val, ]* not_found_val)`` -- interpret the
``value`` as a list of items separated by ``separator``, checking the ``pattern``
against each item in the list.[/] If the ``pattern`` matches an item then return
``found_val``, otherwise return ``not_found_val``. The pair ``pattern`` and
``found_value`` can be repeated as many times as desired, permitting returning
different values depending on the item's value. The patterns are checked in
order, and the first match is returned.
Aliases: in_list(), list_contains()
''')
aliases = ['in_list']
def evaluate(self, formatter, kwargs, mi, locals, val, sep, *args):
if (len(args) % 2) != 1:
raise ValueError(_('in_list requires an odd number of arguments'))
l = [v.strip() for v in val.split(sep) if v.strip()]
i = 0
while i < len(args):
if i + 1 >= len(args):
return args[i]
sf = args[i]
fv = args[i+1]
if l:
for v in l:
if re.search(sf, v, flags=re.I):
return fv
i += 2
[docs]
class BuiltinStrInList(BuiltinFormatterFunction):
name = 'str_in_list'
arg_count = -1
category = LIST_LOOKUP
__doc__ = doc = _(
r'''
``str_in_list(value, separator, [ string, found_val, ]+ not_found_val)`` -- interpret
the ``value`` as a list of items separated by ``separator`` then compare ``string``
against each value in the list.[/] The ``string`` is not a regular expression. If
``string`` is equal to any item (ignoring case) then return the corresponding
``found_val``. If ``string`` contains ``separators`` then it is also treated as
a list and each subvalue is checked. The ``string`` and ``found_value`` pairs
can be repeated as many times as desired, permitting returning different values
depending on string's value. If none of the strings match then
``not_found_value`` is returned. The strings are checked in order. The first
match is returned.
''')
def evaluate(self, formatter, kwargs, mi, locals, val, sep, *args):
if (len(args) % 2) != 1:
raise ValueError(_('str_in_list requires an odd number of arguments'))
l = [v.strip() for v in val.split(sep) if v.strip()]
i = 0
while i < len(args):
if i + 1 >= len(args):
return args[i]
sf = args[i]
fv = args[i+1]
c = [v.strip() for v in sf.split(sep) if v.strip()]
if l:
for v in l:
for t in c:
if strcmp(t, v) == 0:
return fv
i += 2
[docs]
class BuiltinIdentifierInList(BuiltinFormatterFunction):
name = 'identifier_in_list'
arg_count = -1
category = LIST_LOOKUP
__doc__ = doc = _(
r'''
``identifier_in_list(val, id_name [, found_val, not_found_val])`` -- treat
``val`` as a list of identifiers separated by commas. An identifier has the
format ``id_name:value``.[/] The ``id_name`` parameter is the id_name text to
search for, either ``id_name`` or ``id_name:regexp``. The first case matches if
there is any identifier matching that id_name. The second case matches if
id_name matches an identifier and the regexp matches the identifier's value. If
``found_val`` and ``not_found_val`` are provided then if there is a match then
return ``found_val``, otherwise return ``not_found_val``. If ``found_val`` and
``not_found_val`` are not provided then if there is a match then return the
``identifier:value`` pair, otherwise the empty string (``''``).
''')
def evaluate(self, formatter, kwargs, mi, locals, val, ident, *args):
if len(args) == 0:
fv_is_id = True
nfv = ''
elif len(args) == 2:
fv_is_id = False
fv = args[0]
nfv = args[1]
else:
raise ValueError(_("{} requires 2 or 4 arguments").format(self.name))
l = [v.strip() for v in val.split(',') if v.strip()]
(id_, __, regexp) = ident.partition(':')
if not id_:
return nfv
for candidate in l:
i, __, v = candidate.partition(':')
if v and i == id_:
if not regexp or re.search(regexp, v, flags=re.I):
return candidate if fv_is_id else fv
return nfv
[docs]
class BuiltinRe(BuiltinFormatterFunction):
name = 're'
arg_count = 3
category = STRING_MANIPULATION
__doc__ = doc = _(
r'''
``re(value, pattern, replacement)`` -- return the ``value`` after applying the regular
expression.[/] All instances of ``pattern`` in the value are replaced with
``replacement``. The template language uses case insensitive
[URL href="https://docs.python.org/3/library/re.html"]Python regular
expressions[/URL].
''')
def evaluate(self, formatter, kwargs, mi, locals, val, pattern, replacement):
return re.sub(pattern, replacement, val, flags=re.I)
[docs]
class BuiltinReGroup(BuiltinFormatterFunction):
name = 're_group'
arg_count = -1
category = STRING_MANIPULATION
__doc__ = doc = _(
r'''
``re_group(value, pattern [, template_for_group]*)`` -- return a string made by
applying the regular expression ``pattern`` to ``value`` and replacing each matched
instance[/] with the value returned by the corresponding template. In
[URL href="https://manual.calibre-ebook.com/template_lang.html#more-complex-programs-in-template-expressions-template-program-mode"]
Template Program Mode[/URL], like for the ``template`` and the
``eval`` functions, you use ``[[`` for ``{`` and ``]]`` for ``}``.
The following example looks for a series with more than one word and uppercases the first word:
[CODE]
program: re_group(field('series'), "(\S* )(.*)", "{$:uppercase()}", "{$}")'}
[/CODE]
''')
def evaluate(self, formatter, kwargs, mi, locals, val, pattern, *args):
from calibre.utils.formatter import EvalFormatter
def repl(mo):
res = ''
if mo and mo.lastindex:
for dex in range(0, mo.lastindex):
gv = mo.group(dex+1)
if gv is None:
continue
if len(args) > dex:
template = args[dex].replace('[[', '{').replace(']]', '}')
res += EvalFormatter().safe_format(template, {'$': gv},
'EVAL', None, strip_results=False)
else:
res += gv
return res
return re.sub(pattern, repl, val, flags=re.I)
[docs]
class BuiltinSwapAroundComma(BuiltinFormatterFunction):
name = 'swap_around_comma'
arg_count = 1
category = STRING_MANIPULATION
__doc__ = doc = _(
r'''
``swap_around_comma(value)`` -- given a ``value`` of the form ``B, A``, return ``A B``.[/]
This is most useful for converting names in LN, FN format to FN LN. If there is
no comma in the ``value`` then the function returns the value unchanged.
''')
def evaluate(self, formatter, kwargs, mi, locals, val):
return re.sub(r'^(.*?),\s*(.*$)', r'\2 \1', val, flags=re.I).strip()
[docs]
class BuiltinIfempty(BuiltinFormatterFunction):
name = 'ifempty'
arg_count = 2
category = STRING_MANIPULATION
__doc__ = doc = _(
r'''
``ifempty(value, text_if_empty)`` -- if the ``value`` is not empty then return that ``value``,
otherwise return ``text_if_empty``.
''')
def evaluate(self, formatter, kwargs, mi, locals, val, value_if_empty):
if val:
return val
else:
return value_if_empty
[docs]
class BuiltinShorten(BuiltinFormatterFunction):
name = 'shorten'
arg_count = 4
category = STRING_MANIPULATION
__doc__ = doc = _(
r'''
``shorten(value, left_chars, middle_text, right_chars)`` -- Return a shortened version
of the ``value``[/], consisting of ``left_chars`` characters from the beginning of the
``value``, followed by ``middle_text``, followed by ``right_chars`` characters from
the end of the ``value``. ``left_chars`` and ``right_chars`` must be non-negative
integers.
Example: assume you want to display the title with a length of at most
15 characters in length. One template that does this is
``{title:shorten(9,-,5)}``. For a book with the title `Ancient English Laws in
the Times of Ivanhoe` the result will be `Ancient E-anhoe`: the first 9
characters of the title, a ``-``, then the last 5 characters. If the value's
length is less than ``left chars`` + ``right chars`` + the length of ``middle text``
then the value will be returned unchanged. For example, the title `The
Dome` would not be changed.
''')
def evaluate(self, formatter, kwargs, mi, locals,
val, leading, center_string, trailing):
l = max(0, int(leading))
t = max(0, int(trailing))
if len(val) > l + len(center_string) + t:
return val[0:l] + center_string + ('' if t == 0 else val[-t:])
else:
return val
[docs]
class BuiltinCount(BuiltinFormatterFunction):
name = 'list_count'
arg_count = 2
category = LIST_MANIPULATION
aliases = ['count']
__doc__ = doc = _(
r'''
``list_count(value, separator)`` -- interprets the value as a list of items separated by
``separator`` and returns the number of items in the list.[/] Most lists use
a comma as the separator, but ``authors`` uses an ampersand (&).
Examples: ``{tags:list_count(,)}``, ``{authors:list_count(&)}``.
Aliases: ``count()``, ``list_count()``
''')
def evaluate(self, formatter, kwargs, mi, locals, val, sep):
return str(len([v for v in val.split(sep) if v]))
[docs]
class BuiltinListCountMatching(BuiltinFormatterFunction):
name = 'list_count_matching'
arg_count = 3
category = LIST_MANIPULATION
aliases = ['count_matching']
__doc__ = doc = _(
r'''
``list_count_matching(value, pattern, separator)`` -- interprets ``value`` as a
list of items separated by ``separator``, returning the number of items in the
list that match the regular expression ``pattern``.[/]
Aliases: ``list_count_matching()``, ``count_matching()``
''')
def evaluate(self, formatter, kwargs, mi, locals, value, pattern, sep):
res = 0
for v in [x.strip() for x in value.split(sep) if x.strip()]:
if re.search(pattern, v, flags=re.I):
res += 1
return str(res)
[docs]
class BuiltinListitem(BuiltinFormatterFunction):
name = 'list_item'
arg_count = 3
category = LIST_LOOKUP
__doc__ = doc = _(
r'''
``list_item(value, index, separator)`` -- interpret the ``value`` as a list of items
separated by ``separator``, returning the 'index'th item.[/] The first item is
number zero. The last item has the index ``-1`` as in
``list_item(-1,separator)``. If the item is not in the list, then the empty
string is returned. The separator has the same meaning as in the count function,
usually comma but is ampersand for author-like lists.
''')
def evaluate(self, formatter, kwargs, mi, locals, val, index, sep):
if not val:
return ''
index = int(index)
val = val.split(sep)
try:
return val[index].strip()
except:
return ''
[docs]
class BuiltinSelect(BuiltinFormatterFunction):
name = 'select'
arg_count = 2
category = LIST_LOOKUP
__doc__ = doc = _(
r'''
``select(value, key)`` -- interpret the ``value`` as a comma-separated list of items with
each item having the form ``id:id_value`` (the calibre ``identifier`` format).[/] The
function finds the first pair with the id equal to ``key`` and returns the
corresponding ``id_value``. If no id matches then the function returns the empty
string.
''')
def evaluate(self, formatter, kwargs, mi, locals, val, key):
if not val:
return ''
vals = [v.strip() for v in val.split(',')]
tkey = key+':'
for v in vals:
if v.startswith(tkey):
return v[len(tkey):]
return ''
[docs]
class BuiltinHumanReadable(BuiltinFormatterFunction):
name = 'human_readable'
arg_count = 1
category = FORMATTING_VALUES
__doc__ = doc = _(
r'''
``human_readable(value)`` -- expects the ``value`` to be a number and returns a string
representing that number in KB, MB, GB, etc.
''')
def evaluate(self, formatter, kwargs, mi, locals, val):
try:
return human_readable(round(float(val)))
except:
return ''
[docs]
class BuiltinSublist(BuiltinFormatterFunction):
name = 'sublist'
arg_count = 4
category = LIST_MANIPULATION
__doc__ = doc = _(
r'''
``sublist(value, start_index, end_index, separator)`` -- interpret the ``value`` as a
list of items separated by ``separator``, returning a new list made from the
items from ``start_index`` to ``end_index``.[/] The first item is number zero. If
an index is negative, then it counts from the end of the list. As a special
case, an end_index of zero is assumed to be the length of the list.
Examples assuming that the tags column (which is comma-separated) contains "A, B ,C":
[LIST]
[*]``{tags:sublist(0,1,\,)}`` returns "A"
[*]``{tags:sublist(-1,0,\,)}`` returns "C"
[*]``{tags:sublist(0,-1,\,)}`` returns "A, B"
[/LIST]
''')
def evaluate(self, formatter, kwargs, mi, locals, val, start_index, end_index, sep):
if not val:
return ''
si = int(start_index)
ei = int(end_index)
# allow empty list items so counts are what the user expects
val = [v.strip() for v in val.split(sep)]
if sep == ',':
sep = ', '
try:
if ei == 0:
return sep.join(val[si:])
else:
return sep.join(val[si:ei])
except:
return ''
[docs]
class BuiltinSubitems(BuiltinFormatterFunction):
name = 'subitems'
arg_count = 3
category = LIST_MANIPULATION
__doc__ = doc = _(
r'''
``subitems(value, start_index, end_index)`` -- This function breaks apart lists of
tag-like hierarchical items such as genres.[/] It interprets the ``value`` as a comma-
separated list of tag-like items, where each item is a period-separated list. It
returns a new list made by extracting from each item the components from
``start_index`` to ``end_index``, then merging the results back together.
Duplicates are removed. The first subitem in a period-separated list has an
index of zero. If an index is negative then it counts from the end of the list.
As a special case, an ``end_index`` of zero is assumed to be the length of the list.
Examples:
[LIST]
[*]Assuming a #genre column containing "A.B.C":
[LIST]
[*]``{#genre:subitems(0,1)}`` returns "A"
[*]``{#genre:subitems(0,2)}`` returns "A.B"
[*]``{#genre:subitems(1,0)}`` returns "B.C"
[/LIST]
[*]Assuming a #genre column containing "A.B.C, D.E":
[LIST]
[*]``{#genre:subitems(0,1)}`` returns "A, D"
[*]``{#genre:subitems(0,2)}`` returns "A.B, D.E"
[/LIST]
[/LIST]
''')
period_pattern = re.compile(r'(?<=[^\.\s])\.(?=[^\.\s])', re.U)
def evaluate(self, formatter, kwargs, mi, locals, val, start_index, end_index):
if not val:
return ''
si = int(start_index)
ei = int(end_index)
has_periods = '.' in val
items = [v.strip() for v in val.split(',') if v.strip()]
rv = set()
for item in items:
if has_periods and '.' in item:
components = self.period_pattern.split(item)
else:
components = [item]
try:
if ei == 0:
t = '.'.join(components[si:]).strip()
else:
t = '.'.join(components[si:ei]).strip()
if t:
rv.add(t)
except:
pass
return ', '.join(sorted(rv, key=sort_key))
[docs]
class BuiltinUppercase(BuiltinFormatterFunction):
name = 'uppercase'
arg_count = 1
category = CASE_CHANGES
__doc__ = doc = _(
r'''
``uppercase(value)`` -- returns the ``value`` in upper case.
''')
def evaluate(self, formatter, kwargs, mi, locals, val):
return val.upper()
[docs]
class BuiltinLowercase(BuiltinFormatterFunction):
name = 'lowercase'
arg_count = 1
category = CASE_CHANGES
__doc__ = doc = _(
r'''
``lowercase(value)`` -- returns the ``value`` in lower case.
''')
def evaluate(self, formatter, kwargs, mi, locals, val):
return val.lower()
[docs]
class BuiltinTitlecase(BuiltinFormatterFunction):
name = 'titlecase'
arg_count = 1
category = CASE_CHANGES
__doc__ = doc = _(
r'''
``titlecase(value)`` -- returns the ``value`` in title case.
''')
def evaluate(self, formatter, kwargs, mi, locals, val):
return titlecase(val)
[docs]
class BuiltinCapitalize(BuiltinFormatterFunction):
name = 'capitalize'
arg_count = 1
category = CASE_CHANGES
__doc__ = doc = _(
r'''
``capitalize(value)`` -- returns the ``value`` with the first letter in upper case and the rest lower case.
''')
def evaluate(self, formatter, kwargs, mi, locals, val):
return capitalize(val)
[docs]
class BuiltinBooksize(BuiltinFormatterFunction):
name = 'booksize'
arg_count = 0
category = GET_FROM_METADATA
__doc__ = doc = _(
r'''
``booksize()`` -- returns the value of the calibre ``size`` field. Returns '' if the book has no formats.[/]
This function works only in the GUI. If you want to use this value in save-to-disk
or send-to-device templates then you must make a custom "Column built from
other columns", use the function in that column's template, and use that
column's value in your save/send templates
''')
def evaluate(self, formatter, kwargs, mi, locals):
if hasattr(mi, '_proxy_metadata'):
try:
v = mi._proxy_metadata.book_size
if v is not None:
return str(mi._proxy_metadata.book_size)
return ''
except:
pass
return ''
self.only_in_gui_error()
[docs]
class BuiltinOndevice(BuiltinFormatterFunction):
name = 'ondevice'
arg_count = 0
category = GET_FROM_METADATA
__doc__ = doc = _(
r'''
``ondevice()`` -- return the string ``'Yes'`` if ``ondevice`` is set, otherwise
return the empty string.[/] This function works only in the GUI. If you want to use
this value in save-to-disk or send-to-device templates then you must make a
custom "Column built from other columns", use the function in that column\'s
template, and use that column\'s value in your save/send templates.
''')
def evaluate(self, formatter, kwargs, mi, locals):
if hasattr(mi, '_proxy_metadata'):
if mi._proxy_metadata.ondevice_col:
return _('Yes')
return ''
self.only_in_gui_error()
[docs]
class BuiltinAnnotationCount(BuiltinFormatterFunction):
name = 'annotation_count'
arg_count = 0
category = GET_FROM_METADATA
__doc__ = doc = _(
r'''
``annotation_count()`` -- return the total number of annotations of all types
attached to the current book.[/] This function works only in the GUI.
''')
def evaluate(self, formatter, kwargs, mi, locals):
c = self.get_database(mi).new_api.annotation_count_for_book(mi.id)
return '' if c == 0 else str(c)
[docs]
class BuiltinIsMarked(BuiltinFormatterFunction):
name = 'is_marked'
arg_count = 0
category = GET_FROM_METADATA
__doc__ = doc = _(
r'''
``is_marked()`` -- check whether the book is `marked` in calibre.[/] If it is then
return the value of the mark, either ``'true'`` (lower case) or a comma-separated
list of named marks. Returns ``''`` (the empty string) if the book is
not marked. This function works only in the GUI.
''')
def evaluate(self, formatter, kwargs, mi, locals):
c = self.get_database(mi).data.get_marked(mi.id)
return c if c else ''
[docs]
class BuiltinSeriesSort(BuiltinFormatterFunction):
name = 'series_sort'
arg_count = 0
category = GET_FROM_METADATA
__doc__ = doc = _(
r'''
``series_sort()`` -- returns the series sort value.
''')
def evaluate(self, formatter, kwargs, mi, locals):
if mi.series:
langs = mi.languages
lang = langs[0] if langs else None
return title_sort(mi.series, lang=lang)
return ''
[docs]
class BuiltinHasCover(BuiltinFormatterFunction):
name = 'has_cover'
arg_count = 0
category = GET_FROM_METADATA
__doc__ = doc = _(
r'''
``has_cover()`` -- return ``'Yes'`` if the book has a cover, otherwise the empty string.
''')
def evaluate(self, formatter, kwargs, mi, locals):
if mi.has_cover:
return _('Yes')
return ''
[docs]
class BuiltinFirstNonEmpty(BuiltinFormatterFunction):
name = 'first_non_empty'
arg_count = -1
category = ITERATING_VALUES
__doc__ = doc = _(
r'''
``first_non_empty(value [, value]*)`` -- returns the first ``value`` that is not
empty.[/] If all values are empty, then the empty string is returned. You can have
as many values as you want.
''')
def evaluate(self, formatter, kwargs, mi, locals, *args):
i = 0
while i < len(args):
if args[i]:
return args[i]
i += 1
return ''
[docs]
class BuiltinAnd(BuiltinFormatterFunction):
name = 'and'
arg_count = -1
category = BOOLEAN
__doc__ = doc = _(
r'''
``and(value [, value]*)`` -- returns the string ``'1'`` if all values are not empty,
otherwise returns the empty string.[/] You can have as many values as you want. In
most cases you can use the ``&&`` operator instead of this function. One reason
not to replace ``and()`` with ``&&`` is when short-circuiting can change the results
because of side effects. For example, ``and(a='',b=5)`` will always do both
assignments, where the ``&&`` operator won't do the second.
''')
def evaluate(self, formatter, kwargs, mi, locals, *args):
i = 0
while i < len(args):
if not args[i]:
return ''
i += 1
return '1'
[docs]
class BuiltinOr(BuiltinFormatterFunction):
name = 'or'
arg_count = -1
category = BOOLEAN
__doc__ = doc = _(
r'''
``or(value [, value]*)`` -- returns the string ``'1'`` if any value is not
empty, otherwise returns the empty string.[/] You can have as many values as you
want. This function can usually be replaced by the ``||`` operator. A reason it
cannot be replaced is if short-circuiting will change the results because of
side effects.
''')
def evaluate(self, formatter, kwargs, mi, locals, *args):
i = 0
while i < len(args):
if args[i]:
return '1'
i += 1
return ''
[docs]
class BuiltinNot(BuiltinFormatterFunction):
name = 'not'
arg_count = 1
category = BOOLEAN
__doc__ = doc = _(
r'''
``not(value)`` -- returns the string ``'1'`` if the value is empty, otherwise
returns the empty string.[/] This function can usually be replaced with the unary
not (``!``) operator.
''')
def evaluate(self, formatter, kwargs, mi, locals, val):
return '' if val else '1'
[docs]
class BuiltinListJoin(BuiltinFormatterFunction):
name = 'list_join'
arg_count = -1
category = LIST_MANIPULATION
__doc__ = doc = _(
r'''
``list_join(with_separator, list1, separator1 [, list2, separator2]*)`` --
return a list made by joining the items in the source lists[/] (``list1`` etc)
using ``with_separator`` between the items in the result list. Items in each
source ``list[123...]`` are separated by the associated ``separator[123...]``. A
list can contain zero values. It can be a field like ``publisher`` that is
single-valued, effectively a one-item list. Duplicates are removed using a
case-insensitive comparison. Items are returned in the order they appear in the
source lists. If items on lists differ only in letter case then the last is
used. All separators can be more than one character.
Example:
[CODE]
program:
list_join('#@#', $authors, '&', $tags, ',')
[/CODE]
You can use ``list_join`` on the results of previous calls to ``list_join`` as follows:
[CODE]
program:
a = list_join('#@#', $authors, '&', $tags, ',');
b = list_join('#@#', a, '#@#', $#genre, ',', $#people, '&', 'some value', ',')
[/CODE]
You can use expressions to generate a list. For example, assume you want items
for ``authors`` and ``#genre``, but with the genre changed to the word "Genre: "
followed by the first letter of the genre, i.e. the genre "Fiction" becomes
"Genre: F". The following will do that:
[CODE]
program:
list_join('#@#', $authors, '&', list_re($#genre, ',', '^(.).*$', 'Genre: \1'), ',')
[/CODE]
''')
def evaluate(self, formatter, kwargs, mi, locals, with_separator, *args):
if len(args) % 2 != 0:
raise ValueError(
_("Invalid 'List, separator' pairs. Every list must have one "
"associated separator"))
# Starting in python 3.7 dicts preserve order so we don't need OrderedDict
result = dict()
i = 0
while i < len(args):
lst = [v.strip() for v in args[i].split(args[i+1]) if v.strip()]
result.update({item.lower():item for item in lst})
i += 2
return with_separator.join(result.values())
[docs]
class BuiltinListUnion(BuiltinFormatterFunction):
name = 'list_union'
arg_count = 3
category = LIST_MANIPULATION
__doc__ = doc = _(
r'''
``list_union(list1, list2, separator)`` -- return a list made by merging the
items in ``list1`` and ``list2``[/], removing duplicate items using a case-insensitive
comparison. If items differ in case, the one in ``list1`` is used.
The items in ``list1`` and ``list2`` are separated by ``separator``, as are the
items in the returned list. Aliases: ``merge_lists()``, ``list_union()``
''')
aliases = ['merge_lists']
def evaluate(self, formatter, kwargs, mi, locals, list1, list2, separator):
res = {icu_lower(l.strip()): l.strip() for l in list2.split(separator) if l.strip()}
res.update({icu_lower(l.strip()): l.strip() for l in list1.split(separator) if l.strip()})
if separator == ',':
separator = ', '
return separator.join(res.values())
[docs]
class BuiltinRange(BuiltinFormatterFunction):
name = 'range'
arg_count = -1
category = LIST_MANIPULATION
__doc__ = doc = _(
r'''
``range(start, stop, step, limit)`` -- returns a list of numbers generated by
looping over the range specified by the parameters ``start``, ``stop``, and ``step``,
with a maximum length of ``limit``.[/] The first value produced is 'start'. Subsequent values
``next_v = current_v + step``. The loop continues while ``next_v < stop``
assuming ``step`` is positive, otherwise while ``next_v > stop``. An empty list
is produced if ``start`` fails the test: ``start >= stop`` if ``step`` is
positive. The ``limit`` sets the maximum length of the list and has a default of
1000. The parameters ``start``, ``step``, and ``limit`` are optional. Calling
``range()`` with one argument specifies ``stop``. Two arguments specify
``start`` and ``stop``. Three arguments specify ``start``, ``stop``, and
``step``. Four arguments specify ``start``, ``stop``, ``step`` and ``limit``.
Examples:
[CODE]
range(5) -> '0, 1, 2, 3, 4'
range(0, 5) -> '0, 1, 2, 3, 4'
range(-1, 5) -> '-1, 0, 1, 2, 3, 4'
range(1, 5) -> '1, 2, 3, 4'
range(1, 5, 2) -> '1, 3'
range(1, 5, 2, 5) -> '1, 3'
range(1, 5, 2, 1) -> error(limit exceeded)
[/CODE]
''')
def evaluate(self, formatter, kwargs, mi, locals, *args):
limit_val = 1000
start_val = 0
step_val = 1
if len(args) == 1:
stop_val = int(args[0] if args[0] and args[0] != 'None' else 0)
elif len(args) == 2:
start_val = int(args[0] if args[0] and args[0] != 'None' else 0)
stop_val = int(args[1] if args[1] and args[1] != 'None' else 0)
elif len(args) >= 3:
start_val = int(args[0] if args[0] and args[0] != 'None' else 0)
stop_val = int(args[1] if args[1] and args[1] != 'None' else 0)
step_val = int(args[2] if args[2] and args[2] != 'None' else 0)
if len(args) > 3:
limit_val = int(args[3] if args[3] and args[3] != 'None' else 0)
r = range(start_val, stop_val, step_val)
if len(r) > limit_val:
raise ValueError(
_("{0}: length ({1}) longer than limit ({2})").format(
'range', len(r), str(limit_val)))
return ', '.join([str(v) for v in r])
[docs]
class BuiltinListRemoveDuplicates(BuiltinFormatterFunction):
name = 'list_remove_duplicates'
arg_count = 2
category = LIST_MANIPULATION
__doc__ = doc = _(
r'''
``list_remove_duplicates(list, separator)`` -- return a list made by removing
duplicate items in ``list``.[/] If items differ only in case then the last is
returned. The items in ``list`` are separated by ``separator``, as are the items
in the returned list.
''')
def evaluate(self, formatter, kwargs, mi, locals, list_, separator):
res = {icu_lower(l.strip()): l.strip() for l in list_.split(separator) if l.strip()}
if separator == ',':
separator = ', '
return separator.join(res.values())
[docs]
class BuiltinListDifference(BuiltinFormatterFunction):
name = 'list_difference'
arg_count = 3
category = LIST_MANIPULATION
__doc__ = doc = _(
r'''
``list_difference(list1, list2, separator)`` -- return a list made by removing
from ``list1`` any item found in ``list2``[/] using a case-insensitive comparison.
The items in ``list1`` and ``list2`` are separated by ``separator``, as are the
items in the returned list.
''')
def evaluate(self, formatter, kwargs, mi, locals, list1, list2, separator):
l1 = [l.strip() for l in list1.split(separator) if l.strip()]
l2 = {icu_lower(l.strip()) for l in list2.split(separator) if l.strip()}
res = []
for i in l1:
if icu_lower(i) not in l2 and i not in res:
res.append(i)
if separator == ',':
return ', '.join(res)
return separator.join(res)
[docs]
class BuiltinListIntersection(BuiltinFormatterFunction):
name = 'list_intersection'
arg_count = 3
category = LIST_MANIPULATION
__doc__ = doc = _(
r'''
``list_intersection(list1, list2, separator)`` -- return a list made by removing
from ``list1`` any item not found in ``list2``[/], using a case-insensitive
comparison. The items in ``list1`` and ``list2`` are separated by ``separator``, as
are the items in the returned list.
''')
def evaluate(self, formatter, kwargs, mi, locals, list1, list2, separator):
l1 = [l.strip() for l in list1.split(separator) if l.strip()]
l2 = {icu_lower(l.strip()) for l in list2.split(separator) if l.strip()}
res = []
for i in l1:
if icu_lower(i) in l2 and i not in res:
res.append(i)
if separator == ',':
return ', '.join(res)
return separator.join(res)
[docs]
class BuiltinListSort(BuiltinFormatterFunction):
name = 'list_sort'
arg_count = 3
category = LIST_MANIPULATION
__doc__ = doc = _(
r'''
``list_sort(value, direction, separator)`` -- return ``value`` sorted using a
case-insensitive lexical sort.[/] If ``direction`` is zero (number or character),
``value`` is sorted ascending, otherwise descending. The list items are separated
by ``separator``, as are the items in the returned list.
''')
def evaluate(self, formatter, kwargs, mi, locals, value, direction, separator):
res = [l.strip() for l in value.split(separator) if l.strip()]
if separator == ',':
return ', '.join(sorted(res, key=sort_key, reverse=direction != "0"))
return separator.join(sorted(res, key=sort_key, reverse=direction != "0"))
[docs]
class BuiltinListEquals(BuiltinFormatterFunction):
name = 'list_equals'
arg_count = 6
category = LIST_MANIPULATION
__doc__ = doc = _(
r'''
``list_equals(list1, sep1, list2, sep2, yes_val, no_val)`` -- return ``yes_val``
if ``list1`` and ``list2`` contain the same items, otherwise return ``no_val``.[/]
The items are determined by splitting each list using the appropriate separator
character (``sep1`` or ``sep2``). The order of items in the lists is not
relevant. The comparison is case-insensitive.
''')
def evaluate(self, formatter, kwargs, mi, locals, list1, sep1, list2, sep2, yes_val, no_val):
s1 = {icu_lower(l.strip()) for l in list1.split(sep1) if l.strip()}
s2 = {icu_lower(l.strip()) for l in list2.split(sep2) if l.strip()}
if s1 == s2:
return yes_val
return no_val
[docs]
class BuiltinListRe(BuiltinFormatterFunction):
name = 'list_re'
arg_count = 4
category = LIST_MANIPULATION
__doc__ = doc = _(
r'''
``list_re(src_list, separator, include_re, opt_replace)`` -- Construct a list by
first separating ``src_list`` into items using the ``separator`` character.[/] For
each item in the list, check if it matches ``include_re``. If it does then add
it to the list to be returned. If ``opt_replace`` is not the empty string then
apply the replacement before adding the item to the returned list.
''')
def evaluate(self, formatter, kwargs, mi, locals, src_list, separator, include_re, opt_replace):
l = [l.strip() for l in src_list.split(separator) if l.strip()]
res = []
for item in l:
if re.search(include_re, item, flags=re.I) is not None:
if opt_replace:
item = re.sub(include_re, opt_replace, item)
for i in [t.strip() for t in item.split(separator) if t.strip()]:
if i not in res:
res.append(i)
if separator == ',':
return ', '.join(res)
return separator.join(res)
[docs]
class BuiltinListReGroup(BuiltinFormatterFunction):
name = 'list_re_group'
arg_count = -1
category = LIST_MANIPULATION
__doc__ = doc = _(
r'''
``list_re_group(src_list, separator, include_re, search_re [,template_for_group]*)``
-- Like list_re except replacements are not optional.[/] It
uses ``re_group(item, search_re, template ...)`` when doing the replacements.
''')
def evaluate(self, formatter, kwargs, mi, locals, src_list, separator, include_re,
search_re, *args):
from calibre.utils.formatter import EvalFormatter
l = [l.strip() for l in src_list.split(separator) if l.strip()]
res = []
for item in l:
def repl(mo):
newval = ''
if mo and mo.lastindex:
for dex in range(0, mo.lastindex):
gv = mo.group(dex+1)
if gv is None:
continue
if len(args) > dex:
template = args[dex].replace('[[', '{').replace(']]', '}')
newval += EvalFormatter().safe_format(template, {'$': gv},
'EVAL', None, strip_results=False)
else:
newval += gv
return newval
if re.search(include_re, item, flags=re.I) is not None:
item = re.sub(search_re, repl, item, flags=re.I)
for i in [t.strip() for t in item.split(separator) if t.strip()]:
if i not in res:
res.append(i)
if separator == ',':
return ', '.join(res)
return separator.join(res)
[docs]
class BuiltinToday(BuiltinFormatterFunction):
name = 'today'
arg_count = 0
category = DATE_FUNCTIONS
__doc__ = doc = _(
r'''
``today()`` -- return a date+time string for today (now).[/] This value is designed
for use in ``format_date`` or ``days_between``, but can be manipulated like any
other string. The date is in [URL href="https://en.wikipedia.org/wiki/ISO_8601"]ISO[/URL]
date/time format.
''')
def evaluate(self, formatter, kwargs, mi, locals):
return format_date(now(), 'iso')
[docs]
class BuiltinDaysBetween(BuiltinFormatterFunction):
name = 'days_between'
arg_count = 2
category = DATE_FUNCTIONS
__doc__ = doc = _(
r'''
``days_between(date1, date2)`` -- return the number of days between ``date1``
and ``date2``.[/] The number is positive if ``date1`` is greater than ``date2``,
otherwise negative. If either ``date1`` or ``date2`` are not dates, the function
returns the empty string.
''')
def evaluate(self, formatter, kwargs, mi, locals, date1, date2):
try:
d1 = parse_date(date1)
if d1 == UNDEFINED_DATE:
return ''
d2 = parse_date(date2)
if d2 == UNDEFINED_DATE:
return ''
except:
return ''
i = d1 - d2
return '%.1f'%(i.days + (i.seconds/(24.0*60.0*60.0)))
[docs]
class BuiltinDateArithmetic(BuiltinFormatterFunction):
name = 'date_arithmetic'
arg_count = -1
category = DATE_FUNCTIONS
__doc__ = doc = _(
r'''
``date_arithmetic(value, calc_spec, fmt)`` -- Calculate a new date from ``value``
using ``calc_spec``.[/] Return the new date formatted according to optional
``fmt``: if not supplied then the result will be in ISO format. The ``calc_spec`` is
a string formed by concatenating pairs of ``vW`` (``valueWhat``) where ``v`` is
a possibly-negative number and W is one of the following letters:
[LIST]
[*]``s``: add ``v`` seconds to ``date``
[*]``m``: add ``v`` minutes to ``date``
[*]``h``: add ``v`` hours to ``date``
[*]``d``: add ``v`` days to ``date``
[*]``w``: add ``v`` weeks to ``date``
[*]``y``: add ``v`` years to ``date``, where a year is 365 days.
[/LIST]
Example: ``'1s3d-1m'`` will add 1 second, add 3 days, and subtract 1 minute from ``date``.
''')
calc_ops = {
's': lambda v: timedelta(seconds=v),
'm': lambda v: timedelta(minutes=v),
'h': lambda v: timedelta(hours=v),
'd': lambda v: timedelta(days=v),
'w': lambda v: timedelta(weeks=v),
'y': lambda v: timedelta(days=v * 365),
}
def evaluate(self, formatter, kwargs, mi, locals, value, calc_spec, fmt=None):
try:
d = parse_date(value)
if d == UNDEFINED_DATE:
return ''
while calc_spec:
mo = re.match(r'([-+\d]+)([smhdwy])', calc_spec)
if mo is None:
raise ValueError(
_("{0}: invalid calculation specifier '{1}'").format(
'date_arithmetic', calc_spec))
d += self.calc_ops[mo[2]](int(mo[1]))
calc_spec = calc_spec[len(mo[0]):]
return format_date(d, fmt if fmt else 'iso')
except ValueError as e:
raise e
except Exception as e:
traceback.print_exc()
raise ValueError(_("{0}: error: {1}").format('date_arithmetic', str(e)))
[docs]
class BuiltinLanguageStrings(BuiltinFormatterFunction):
name = 'language_strings'
arg_count = 2
category = GET_FROM_METADATA
__doc__ = doc = _(
r'''
``language_strings(value, localize)`` -- return the
language names for the language codes
([URL href="https://www.loc.gov/standards/iso639-2/php/code_list.php"]
see here for names and codes[/URL])
passed in ``value``.[/] Example: ``{languages:language_strings()}``.
If ``localize`` is zero, return the strings in English. If ``localize`` is not zero,
return the strings in the language of the current locale. ``lang_codes`` is a comma-separated list.
''')
def evaluate(self, formatter, kwargs, mi, locals, lang_codes, localize):
retval = []
for c in [c.strip() for c in lang_codes.split(',') if c.strip()]:
try:
n = calibre_langcode_to_name(c, localize != '0')
if n:
retval.append(n)
except:
pass
return ', '.join(retval)
[docs]
class BuiltinLanguageCodes(BuiltinFormatterFunction):
name = 'language_codes'
arg_count = 1
category = GET_FROM_METADATA
__doc__ = doc = _(
r'''
``language_codes(lang_strings)`` -- return the
[URL href="https://www.loc.gov/standards/iso639-2/php/code_list.php"]language codes[/URL] for the language
names passed in ``lang_strings``.[/] The strings must be in the language of the
current locale. ``lang_strings`` is a comma-separated list.
''')
def evaluate(self, formatter, kwargs, mi, locals, lang_strings):
retval = []
for c in [c.strip() for c in lang_strings.split(',') if c.strip()]:
try:
cv = canonicalize_lang(c)
if cv:
retval.append(canonicalize_lang(cv))
except:
pass
return ', '.join(retval)
[docs]
class BuiltinCurrentLibraryName(BuiltinFormatterFunction):
name = 'current_library_name'
arg_count = 0
category = GET_FROM_METADATA
__doc__ = doc = _(
r'''
``current_library_name()`` -- return the last name on the path to the current calibre library.
''')
def evaluate(self, formatter, kwargs, mi, locals):
from calibre.library import current_library_name
return current_library_name()
[docs]
class BuiltinCurrentLibraryPath(BuiltinFormatterFunction):
name = 'current_library_path'
arg_count = 0
category = GET_FROM_METADATA
__doc__ = doc = _(
r'''
``current_library_path()`` -- return the full path to the current calibre
library.
''')
def evaluate(self, formatter, kwargs, mi, locals):
from calibre.library import current_library_path
return current_library_path()
[docs]
class BuiltinVirtualLibraries(BuiltinFormatterFunction):
name = 'virtual_libraries'
arg_count = 0
category = GET_FROM_METADATA
__doc__ = doc = _(
r'''
``virtual_libraries()`` -- return a comma-separated list of Virtual libraries that
contain this book.[/] This function works only in the GUI. If you want to use these
values in save-to-disk or send-to-device templates then you must make a custom
"Column built from other columns", use the function in that column's template,
and use that column's value in your save/send templates.
''')
def evaluate(self, formatter, kwargs, mi, locals_):
db = self.get_database(mi)
try:
a = db.data.get_virtual_libraries_for_books((mi.id,))
return ', '.join(a[mi.id])
except ValueError as v:
return str(v)
[docs]
class BuiltinCurrentVirtualLibraryName(BuiltinFormatterFunction):
name = 'current_virtual_library_name'
arg_count = 0
category = GET_FROM_METADATA
__doc__ = doc = _(
r'''
``current_virtual_library_name()`` -- return the name of the current
virtual library if there is one, otherwise the empty string.[/] Library name case
is preserved. Example:
[CODE]
program: current_virtual_library_name()
[/CODE]
This function works only in the GUI.
''')
def evaluate(self, formatter, kwargs, mi, locals):
return self.get_database(mi).data.get_base_restriction_name()
[docs]
class BuiltinUserCategories(BuiltinFormatterFunction):
name = 'user_categories'
arg_count = 0
category = GET_FROM_METADATA
__doc__ = doc = _(
r'''
``user_categories()`` -- return a comma-separated list of the user categories that
contain this book.[/] This function works only in the GUI. If you want to use these
values in save-to-disk or send-to-device templates then you must make a custom
`Column built from other columns`, use the function in that column's template,
and use that column's value in your save/send templates
''')
def evaluate(self, formatter, kwargs, mi, locals_):
if hasattr(mi, '_proxy_metadata'):
cats = {k for k, v in iteritems(mi._proxy_metadata.user_categories) if v}
cats = sorted(cats, key=sort_key)
return ', '.join(cats)
self.only_in_gui_error()
[docs]
class BuiltinTransliterate(BuiltinFormatterFunction):
name = 'transliterate'
arg_count = 1
category = STRING_MANIPULATION
__doc__ = doc = _(
r'''
``transliterate(value)`` -- Return a string in a latin alphabet formed by
approximating the sound of the words in ``value``.[/] For example, if ``value``
is ``{0}`` this function returns ``{1}``.
''').format('Фёдор Миха́йлович Достоевский', 'Fiodor Mikhailovich Dostoievskii')
def evaluate(self, formatter, kwargs, mi, locals, source):
from calibre.utils.filenames import ascii_text
return ascii_text(source)
[docs]
class BuiltinGetLink(BuiltinFormatterFunction):
name = 'get_link'
arg_count = 2
category = DB_FUNCS
__doc__ = doc = _(
r'''
``get_link(field_name, field_value)`` -- fetch the link for field ``field_name``
with value ``field_value``.[/] If there is no attached link, return the empty
string. Examples:
[LIST]
[*]The following returns the link attached to the tag ``Fiction``:
[CODE]
get_link('tags', 'Fiction')
[/CODE]
[*]This template makes a list of the links for all the tags associated with a
book in the form ``value:link, ...``:
[CODE]
program:
ans = '';
for t in $tags:
l = get_link('tags', t);
if l then
ans = list_join(', ', ans, ',', t & ':' & get_link('tags', t), ',')
fi
rof;
ans
[/CODE]
[/LIST]
''')
def evaluate(self, formatter, kwargs, mi, locals, field_name, field_value):
db = self.get_database(mi).new_api
try:
link = None
item_id = db.get_item_id(field_name, field_value, case_sensitive=True)
if item_id is not None:
link = db.link_for(field_name, item_id)
return link if link is not None else ''
except Exception as e:
traceback.print_exc()
raise ValueError(e)
[docs]
class BuiltinAuthorLinks(BuiltinFormatterFunction):
name = 'author_links'
arg_count = 2
category = GET_FROM_METADATA
__doc__ = doc = _(
r'''
``author_links(val_separator, pair_separator)`` -- returns a string containing a
list of authors and those authors' link values[/] in the form:
``author1 val_separator author1_link pair_separator author2 val_separator author2_link`` etc.
An author is separated from its link value by the ``val_separator`` string
with no added spaces. Assuming the ``val_separator`` is a colon,
``author:link value`` pairs are separated by the
``pair_separator`` string argument with no added spaces. It is up to you to
choose separators that do not occur in author names or links. An author
is included even if the author link is empty.
''')
def evaluate(self, formatter, kwargs, mi, locals, val_sep, pair_sep):
if hasattr(mi, '_proxy_metadata'):
link_data = mi._proxy_metadata.link_maps
if not link_data:
return ''
link_data = link_data.get('authors')
if not link_data:
return ''
names = sorted(link_data.keys(), key=sort_key)
return pair_sep.join(n + val_sep + link_data[n] for n in names)
self.only_in_gui_error()
[docs]
class BuiltinAuthorSorts(BuiltinFormatterFunction):
name = 'author_sorts'
arg_count = 1
category = GET_FROM_METADATA
__doc__ = doc = _(
r'''
``author_sorts(val_separator)`` -- returns a string containing a list of
author's sort values for the authors of the book.[/] The sort is the one in the
author metadata information, which can be different from the author_sort in books. The
returned list has the form ``author sort 1`` ``val_separator`` ``author sort 2``
etc. with no added spaces. The author sort values in this list are in the same
order as the authors of the book. If you want spaces around ``val_separator``
then include them in the ``val_separator`` string.
''')
def evaluate(self, formatter, kwargs, mi, locals, val_sep):
sort_data = mi.author_sort_map
if not sort_data:
return ''
names = [sort_data.get(n) for n in mi.authors if n.strip()]
return val_sep.join(n for n in names)
[docs]
class BuiltinConnectedDeviceName(BuiltinFormatterFunction):
name = 'connected_device_name'
arg_count = 1
category = GET_FROM_METADATA
__doc__ = doc = _(
r'''
``connected_device_name(storage_location_key)`` -- if a device is connected then
return the device name, otherwise return the empty string.[/] Each storage location
on a device has its own device name. The ``storage_location_key`` names are
``'main'``, ``'carda'`` and ``'cardb'``. This function works only in the GUI.
''')
def evaluate(self, formatter, kwargs, mi, locals, storage_location):
# We can't use get_database() here because we need the device manager.
# In other words, the function really does need the GUI
with suppress(Exception):
# Do the import here so that we don't entangle the GUI when using
# command line functions
from calibre.gui2.ui import get_gui
info = get_gui().device_manager.get_current_device_information()
if info is None:
return ''
try:
if storage_location not in {'main', 'carda', 'cardb'}:
raise ValueError(
_('connected_device_name: invalid storage location "{}"'
.format(storage_location)))
info = info['info'][4]
if storage_location not in info:
return ''
return info[storage_location]['device_name']
except Exception:
traceback.print_exc()
raise
self.only_in_gui_error()
[docs]
class BuiltinConnectedDeviceUUID(BuiltinFormatterFunction):
name = 'connected_device_uuid'
arg_count = 1
category = GET_FROM_METADATA
__doc__ = doc = _(
r'''
``connected_device_uuid(storage_location_key)`` -- if a device is connected then
return the device uuid (unique id), otherwise return the empty string.[/] Each
storage location on a device has a different uuid. The ``storage_location_key``
location names are ``'main'``, ``'carda'`` and ``'cardb'``. This function works
only in the GUI.
''')
def evaluate(self, formatter, kwargs, mi, locals, storage_location):
# We can't use get_database() here because we need the device manager.
# In other words, the function really does need the GUI
with suppress(Exception):
# Do the import here so that we don't entangle the GUI when using
# command line functions
from calibre.gui2.ui import get_gui
info = get_gui().device_manager.get_current_device_information()
if info is None:
return ''
try:
if storage_location not in {'main', 'carda', 'cardb'}:
raise ValueError(
_('connected_device_name: invalid storage location "{}"'
.format(storage_location)))
info = info['info'][4]
if storage_location not in info:
return ''
return info[storage_location]['device_store_uuid']
except Exception:
traceback.print_exc()
raise
self.only_in_gui_error()
[docs]
class BuiltinCheckYesNo(BuiltinFormatterFunction):
name = 'check_yes_no'
arg_count = 4
category = STRING_MANIPULATION
__doc__ = doc = _(
r'''
``check_yes_no(field_name, is_undefined, is_false, is_true)`` -- checks if the
value of the yes/no field named by the lookup name ``field_name`` is one of the
values specified by the parameters[/], returning ``'Yes'`` if a match is found
otherwise returning the empty string. Set the parameter ``is_undefined``,
``is_false``, or ``is_true`` to 1 (the number) to check that condition,
otherwise set it to 0.
Example: ``check_yes_no("#bool", 1, 0, 1)`` returns ``'Yes'`` if the yes/no field
``#bool`` is either True or undefined (neither True nor False).
More than one of ``is_undefined``, ``is_false``, or ``is_true`` can be set to 1.
''')
def evaluate(self, formatter, kwargs, mi, locals, field, is_undefined, is_false, is_true):
# 'field' is a lookup name, not a value
if field not in self.get_database(mi).field_metadata:
raise ValueError(_("The column {} doesn't exist").format(field))
res = getattr(mi, field, None)
if res is None:
if is_undefined == '1':
return 'Yes'
return ""
if not isinstance(res, bool):
raise ValueError(_('check_yes_no requires the field be a Yes/No custom column'))
if is_false == '1' and not res:
return 'Yes'
if is_true == '1' and res:
return 'Yes'
return ""
[docs]
class BuiltinRatingToStars(BuiltinFormatterFunction):
name = 'rating_to_stars'
arg_count = 2
category = FORMATTING_VALUES
__doc__ = doc = _(
r'''
``rating_to_stars(value, use_half_stars)`` -- Returns the ``value`` as string of star
(``{}``) characters.[/] The value must be a number between ``0`` and ``5``. Set
``use_half_stars`` to ``1`` if you want half star characters for fractional numbers
available with custom ratings columns.
''').format('★')
def evaluate(self, formatter, kwargs, mi, locals, value, use_half_stars):
if not value:
return ''
err_msg = _('The rating must be a number between 0 and 5')
try:
v = float(value) * 2
except:
raise ValueError(err_msg)
if v < 0 or v > 10:
raise ValueError(err_msg)
from calibre.ebooks.metadata import rating_to_stars
return rating_to_stars(v, use_half_stars == '1')
[docs]
class BuiltinSwapAroundArticles(BuiltinFormatterFunction):
name = 'swap_around_articles'
arg_count = 2
category = STRING_MANIPULATION
__doc__ = doc = _(
r'''
``swap_around_articles(value, separator)`` -- returns the ``value`` with articles moved to
the end.[/] The ``value`` can be a list, in which case each item in the list is
processed. If the ``value`` is a list then you must provide the ``separator``. If no
``separator`` is provided then the ``value`` is treated as being a single value, not
a list. The `articles` are those used by calibre to generate the ``title_sort``.
''')
def evaluate(self, formatter, kwargs, mi, locals, val, separator):
if not val:
return ''
if not separator:
return title_sort(val).replace(',', ';')
result = []
try:
for v in [x.strip() for x in val.split(separator)]:
result.append(title_sort(v).replace(',', ';'))
except:
traceback.print_exc()
return separator.join(sorted(result, key=sort_key))
[docs]
class BuiltinArguments(BuiltinFormatterFunction):
name = 'arguments'
arg_count = -1
category = OTHER
__doc__ = doc = _(
r'''
``arguments(id[=expression] [, id[=expression]]*)`` -- Used in a stored
template to retrieve the arguments passed in the call.[/] It both declares and
initializes local variables with the supplied names, the ``id``s, making them
effectively parameters. The variables are positional; they get the value of
the argument given in the call in the same position. If the corresponding
argument is not provided in the call then ``arguments()`` assigns that variable
the provided default value. If there is no default value then the variable
is set to the empty string.
''')
def evaluate(self, formatter, kwargs, mi, locals, *args):
# The arguments function is implemented in-line in the formatter
raise NotImplementedError()
[docs]
class BuiltinGlobals(BuiltinFormatterFunction):
name = 'globals'
arg_count = -1
category = OTHER
__doc__ = doc = _(
r'''
``globals(id[=expression] [, id[=expression]]*)`` -- Retrieves "global variables"
that can be passed into the formatter.[/] The name ``id`` is the name of the global
variable. It both declares and initializes local variables with the names of the
global variables passed in (the ``id`` parameters. If the corresponding variable is not
provided in the globals then it assigns that variable the provided default
value. If there is no default value then the variable is set to the empty
string.)
''')
def evaluate(self, formatter, kwargs, mi, locals, *args):
# The globals function is implemented in-line in the formatter
raise NotImplementedError()
[docs]
class BuiltinSetGlobals(BuiltinFormatterFunction):
name = 'set_globals'
arg_count = -1
category = OTHER
__doc__ = doc = _(
r'''
``set_globals(id[=expression] [, id[=expression]]*)`` -- Sets `global
variables` that can be passed into the formatter.[/] The globals are given the name
of the ``id`` passed in. The value of the ``id`` is used unless an expression is
provided.
''')
def evaluate(self, formatter, kwargs, mi, locals, *args):
# The globals function is implemented in-line in the formatter
raise NotImplementedError()
[docs]
class BuiltinFieldExists(BuiltinFormatterFunction):
name = 'field_exists'
arg_count = 1
category = STRING_MANIPULATION
__doc__ = doc = _(
r'''
``field_exists(lookup_name)`` -- checks if a field (column) with the lookup name
``lookup_name`` exists, returning ``'1'`` if so and the empty string if not.
''')
def evaluate(self, formatter, kwargs, mi, locals, field_name):
if field_name.lower() in mi.all_field_keys():
return '1'
return ''
[docs]
class BuiltinCharacter(BuiltinFormatterFunction):
name = 'character'
arg_count = 1
category = STRING_MANIPULATION
__doc__ = doc = _(
r'''
``character(character_name)`` -- returns the character named by character_name.[/]
For example, ``character('newline')`` returns a newline character (``'\n'``).
The supported character names are ``newline``, ``return``, ``tab``, and
``backslash``. This function is used to put these characters into the output
of templates.
''')
def evaluate(self, formatter, kwargs, mi, locals, character_name):
# The globals function is implemented in-line in the formatter
raise NotImplementedError()
[docs]
class BuiltinToHex(BuiltinFormatterFunction):
name = 'to_hex'
arg_count = 1
category = STRING_MANIPULATION
__doc__ = doc = _(
r'''
``to_hex(val)`` -- returns the string ``val`` encoded into hex.[/] This is useful
when constructing calibre URLs.
''')
def evaluate(self, formatter, kwargs, mi, locals, val):
return val.encode().hex()
[docs]
class BuiltinUrlsFromIdentifiers(BuiltinFormatterFunction):
name = 'urls_from_identifiers'
arg_count = 2
category = FORMATTING_VALUES
__doc__ = doc = _(
r'''
``urls_from_identifiers(identifiers, sort_results)`` -- given a comma-separated
list of ``identifiers``, where an ``identifier`` is a colon-separated pair of
values (``id_name:id_value``), returns a comma-separated list of HTML URLs
generated from the identifiers.[/] The list not sorted if ``sort_results`` is ``0``
(character or number), otherwise it is sorted alphabetically by the identifier
name. The URLs are generated in the same way as the built-in identifiers column
when shown in Book Details.
''')
def evaluate(self, formatter, kwargs, mi, locals, identifiers, sort_results):
from calibre.ebooks.metadata.sources.identify import urls_from_identifiers
try:
v = {}
for id_ in identifiers.split(','):
if id_:
pair = id_.split(':', maxsplit=1)
if len(pair) == 2:
l = pair[0].strip()
r = pair[1].strip()
if l and r:
v[l] = r
urls = urls_from_identifiers(v, sort_results=str(sort_results) != '0')
p = prepare_string_for_xml
a = partial(prepare_string_for_xml, attribute=True)
links = [f'<a href="{a(url)}" title="{a(id_typ)}:{a(id_val)}">{p(name)}</a>'
for name, id_typ, id_val, url in urls]
return ', '.join(links)
except Exception as e:
return str(e)
[docs]
class BuiltinBookCount(BuiltinFormatterFunction):
name = 'book_count'
arg_count = 2
category = DB_FUNCS
__doc__ = doc = _(
r'''
``book_count(query, use_vl)`` -- returns the count of books found by searching
for ``query``.[/] If ``use_vl`` is ``0`` (zero) then virtual libraries are ignored.
This function and its companion ``book_values()`` are particularly useful in
template searches, supporting searches that combine information from many books
such as looking for series with only one book. It cannot be used in composite
columns unless the tweak ``allow_template_database_functions_in_composites`` is
set to True. It can be used only in the GUI.
For example this template search uses this function and its companion to find all series with only one book:
[LIST]
[*]Define a stored template (using :guilabel:`Preferences->Advanced->Template functions`)
named ``series_only_one_book`` (the name is arbitrary). The template
is:
[CODE]
program:
vals = globals(vals='');
if !vals then
all_series = book_values('series', 'series:true', ',', 0);
for series in all_series:
if book_count('series:="' & series & '"', 0) == 1 then
vals = list_join(',', vals, ',', series, ',')
fi
rof;
set_globals(vals)
fi;
str_in_list(vals, ',', $series, 1, '')
[/CODE]
The first time the template runs (the first book checked) it stores the results
of the database lookups in a ``global`` template variable named ``vals``. These
results are used to check subsequent books without redoing the lookups.
[*] Use the stored template in a template search:
[CODE]
template:"program: series_only_one_book()#@#:n:1"
[/CODE]
Using a stored template instead of putting the template into the search
eliminates problems caused by the requirement to escape quotes in search
expressions.
[/LIST]
''')
def evaluate(self, formatter, kwargs, mi, locals, query, use_vl):
from calibre.db.fields import rendering_composite_name
if (not tweaks.get('allow_template_database_functions_in_composites', False) and
formatter.global_vars.get(rendering_composite_name, None)):
raise ValueError(_('The book_count() function cannot be used in a composite column'))
db = self.get_database(mi)
try:
ids = db.search_getting_ids(query, None, use_virtual_library=use_vl != '0')
return len(ids)
except Exception:
traceback.print_exc()
[docs]
class BuiltinBookValues(BuiltinFormatterFunction):
name = 'book_values'
arg_count = 4
category = DB_FUNCS
__doc__ = doc = _(
r'''
``book_values(column, query, sep, use_vl)`` -- returns a list of the unique
values contained in the column ``column`` (a lookup name), separated by ``sep``,
in the books found by searching for ``query``.[/] If ``use_vl`` is ``0`` (zero)
then virtual libraries are ignored. This function and its companion
``book_count()`` are particularly useful in template searches, supporting
searches that combine information from many books such as looking for series
with only one book. It cannot be used in composite columns unless the tweak
``allow_template_database_functions_in_composites`` is set to True. It can be
used only in the GUI.
''')
def evaluate(self, formatter, kwargs, mi, locals, column, query, sep, use_vl):
from calibre.db.fields import rendering_composite_name
if (not tweaks.get('allow_template_database_functions_in_composites', False) and
formatter.global_vars.get(rendering_composite_name, None)):
raise ValueError(_('The book_values() function cannot be used in a composite column'))
db = self.get_database(mi)
if column not in db.field_metadata:
raise ValueError(_("The column {} doesn't exist").format(column))
try:
ids = db.search_getting_ids(query, None, use_virtual_library=use_vl != '0')
s = set()
for id_ in ids:
f = db.new_api.get_proxy_metadata(id_).get(column, None)
if isinstance(f, (tuple, list)):
s.update(f)
elif f is not None:
s.add(str(f))
return sep.join(s)
except Exception as e:
raise ValueError(e)
[docs]
class BuiltinGetNote(BuiltinFormatterFunction):
name = 'get_note'
arg_count = 3
category = DB_FUNCS
__doc__ = doc = _(
r'''
``get_note(field_name, field_value, plain_text)`` -- fetch the note for field
``field_name`` with value ``field_value``.[/] If ``plain_text`` is empty, return the
note's HTML including images. If ``plain_text`` is ``1`` (or ``'1'``), return the
note's plain text. If the note doesn't exist, return the empty string in both
cases. Example:
[LIST]
[*]Return the HTML of the note attached to the tag `Fiction`:
[CODE]
program:
get_note('tags', 'Fiction', '')
[/CODE]
[*]Return the plain text of the note attached to the author `Isaac Asimov`:
[CODE]
program:
get_note('authors', 'Isaac Asimov', 1)
[/CODE]
[/LIST]
''')
def evaluate(self, formatter, kwargs, mi, locals, field_name, field_value, plain_text):
db = self.get_database(mi).new_api
try:
note = None
item_id = db.get_item_id(field_name, field_value, case_sensitive=True)
if item_id is not None:
note = db.notes_data_for(field_name, item_id)
if note is not None:
if plain_text == '1':
note = note['searchable_text'].partition('\n')[2]
else:
# Return the full HTML of the note, including all images
# as data: URLs. Reason: non-exported note html contains
# "calres://" URLs for images. These images won't render
# outside the context of the library where the note
# "lives". For example, they don't work in book jackets
# and book details from a different library. They also
# don't work in tooltips.
# This code depends on the note being wrapped in <body>
# tags by parse_html. The body is changed to a <div>.
# That means we often end up with <div><div> or some
# such, but that is OK
root = parse_html(note['doc'])
# There should be only one <body>
root = root.xpath('//body')[0]
# Change the body to a div
root.tag = 'div'
# Expand all the resources in the note
root = expand_note_resources(root, db.get_notes_resource)
note = html.tostring(root, encoding='unicode')
return '' if note is None else note
except Exception as e:
traceback.print_exc()
raise ValueError(e)
[docs]
class BuiltinHasNote(BuiltinFormatterFunction):
name = 'has_note'
arg_count = 2
category = DB_FUNCS
__doc__ = doc = _(
r'''
``has_note(field_name, field_value)``. Check if a field has a note.[/]
This function has two variants:
[LIST]
[*]if ``field_value`` is not ``''`` (the empty string) return ``'1'`` if the
value ``field_value`` in the field ``field_name`` has a note, otherwise ``''``.
Example: ``has_note('tags', 'Fiction')`` returns ``'1'`` if the tag ``fiction`` has an attached note, otherwise ``''``.
[*]If ``field_value`` is ``''`` then return a list of values in ``field_name``
that have a note. If no item in the field has a note, return ``''``. This
variant is useful for showing column icons if any value in the field has a note,
rather than a specific value.
Example: ``has_note('authors', '')`` returns a list of authors that have notes, or
``''`` if no author has a note.
[/LIST]
You can test if all the values in ``field_name`` have a note by comparing the
list length of this function's return value against the list length of the
values in ``field_name``. Example:
[CODE]
list_count(has_note('authors', ''), '&') ==# list_count_field('authors')
[/CODE]
''')
def evaluate(self, formatter, kwargs, mi, locals, field_name, field_value):
db = self.get_database(mi).new_api
if field_value:
note = None
try:
item_id = db.get_item_id(field_name, field_value, case_sensitive=True)
if item_id is not None:
note = db.notes_data_for(field_name, item_id)
except Exception as e:
traceback.print_exc()
raise ValueError(str(e))
return '1' if note is not None else ''
try:
notes_for_book = db.items_with_notes_in_book(mi.id)
values = [v for v in notes_for_book.get(field_name, {}).values()]
return db.field_metadata[field_name]['is_multiple'].get('list_to_ui', ', ').join(values)
except Exception as e:
traceback.print_exc()
raise ValueError(str(e))
[docs]
class BuiltinIsDarkMode(BuiltinFormatterFunction):
name = 'is_dark_mode'
arg_count = 0
category = OTHER
__doc__ = doc = _(
r'''
``is_dark_mode()`` -- returns ``'1'`` if calibre is running in dark mode, ``''``
(the empty string) otherwise.[/] This function can be used in advanced color and
icon rules to choose different colors/icons according to the mode. Example:
[CODE]
if is_dark_mode() then 'dark.png' else 'light.png' fi
[/CODE]
''')
def evaluate(self, formatter, kwargs, mi, locals):
try:
# Import this here so that Qt isn't referenced unless this function is used.
from calibre.gui2 import is_dark_theme
return '1' if is_dark_theme() else ''
except Exception:
only_in_gui_error('is_dark_mode')
[docs]
class BuiltinFieldListCount(BuiltinFormatterFunction):
name = 'list_count_field'
arg_count = 0
category = LIST_MANIPULATION
__doc__ = doc = _(
r'''
``list_count_field(lookup_name)``-- returns the count of items in the field with
the lookup name ``lookup_name``.[/] The field must be multi-valued such as
``authors`` or ``tags``, otherwise the function raises an error. This function
is much faster than ``list_count()`` because it operates directly on calibre
data without converting it to a string first. Example: ``list_count_field('tags')``.
''')
def evaluate(self, formatter, kwargs, mi, locals, *args):
# The globals function is implemented in-line in the formatter
raise NotImplementedError()
_formatter_builtins = [
BuiltinAdd(), BuiltinAnd(), BuiltinApproximateFormats(), BuiltinArguments(),
BuiltinAssign(),
BuiltinAuthorLinks(), BuiltinAuthorSorts(), BuiltinBookCount(),
BuiltinBookValues(), BuiltinBooksize(),
BuiltinCapitalize(), BuiltinCharacter(), BuiltinCheckYesNo(), BuiltinCeiling(),
BuiltinCmp(), BuiltinConnectedDeviceName(), BuiltinConnectedDeviceUUID(), BuiltinContains(),
BuiltinCount(), BuiltinCurrentLibraryName(), BuiltinCurrentLibraryPath(),
BuiltinCurrentVirtualLibraryName(), BuiltinDateArithmetic(),
BuiltinDaysBetween(), BuiltinDivide(), BuiltinEval(),
BuiltinExtraFileNames(), BuiltinExtraFileSize(), BuiltinExtraFileModtime(),
BuiltinFieldListCount(), BuiltinFirstNonEmpty(), BuiltinField(), BuiltinFieldExists(),
BuiltinFinishFormatting(), BuiltinFirstMatchingCmp(), BuiltinFloor(),
BuiltinFormatDate(), BuiltinFormatDateField(), BuiltinFormatNumber(), BuiltinFormatsModtimes(),
BuiltinFormatsPaths(), BuiltinFormatsSizes(), BuiltinFractionalPart(),
BuiltinGetLink(),
BuiltinGetNote(), BuiltinGlobals(), BuiltinHasCover(), BuiltinHasExtraFiles(),
BuiltinHasNote(), BuiltinHumanReadable(), BuiltinIdentifierInList(),
BuiltinIfempty(), BuiltinIsDarkMode(), BuiltinLanguageCodes(), BuiltinLanguageStrings(),
BuiltinInList(), BuiltinIsMarked(), BuiltinListCountMatching(),
BuiltinListDifference(), BuiltinListEquals(), BuiltinListIntersection(),
BuiltinListitem(), BuiltinListJoin(), BuiltinListRe(),
BuiltinListReGroup(), BuiltinListRemoveDuplicates(), BuiltinListSort(),
BuiltinListSplit(), BuiltinListUnion(),BuiltinLookup(),
BuiltinLowercase(), BuiltinMod(), BuiltinMultiply(), BuiltinNot(), BuiltinOndevice(),
BuiltinOr(), BuiltinPrint(), BuiltinRatingToStars(), BuiltinRange(),
BuiltinRawField(), BuiltinRawList(),
BuiltinRe(), BuiltinReGroup(), BuiltinRound(), BuiltinSelect(), BuiltinSeriesSort(),
BuiltinSetGlobals(), BuiltinShorten(), BuiltinStrcat(), BuiltinStrcatMax(),
BuiltinStrcmp(), BuiltinStrcmpcase(), BuiltinStrInList(), BuiltinStrlen(), BuiltinSubitems(),
BuiltinSublist(),BuiltinSubstr(), BuiltinSubtract(), BuiltinSwapAroundArticles(),
BuiltinSwapAroundComma(), BuiltinSwitch(), BuiltinSwitchIf(),
BuiltinTemplate(), BuiltinTest(), BuiltinTitlecase(), BuiltinToday(),
BuiltinToHex(), BuiltinTransliterate(), BuiltinUppercase(), BuiltinUrlsFromIdentifiers(),
BuiltinUserCategories(), BuiltinVirtualLibraries(), BuiltinAnnotationCount()
]
class FormatterUserFunction(FormatterFunction):
def __init__(self, name, doc, arg_count, program_text, object_type):
self.object_type = object_type
self.name = name
self.doc = doc
self.arg_count = arg_count
self.program_text = program_text
self.cached_compiled_text = None
# Keep this for external code compatibility. Set it to True if we have a
# python template function, otherwise false. This might break something
# if the code depends on stored templates being in GPM.
self.is_python = True if object_type is StoredObjectType.PythonFunction else False
def to_pref(self):
return [self.name, self.doc, self.arg_count, self.program_text]
tabs = re.compile(r'^\t*')
def function_object_type(thing):
# 'thing' can be a preference instance, program text, or an already-compiled function
if isinstance(thing, FormatterUserFunction):
return thing.object_type
if isinstance(thing, list):
text = thing[3]
else:
text = thing
if text.startswith('def'):
return StoredObjectType.PythonFunction
if text.startswith('program'):
return StoredObjectType.StoredGPMTemplate
if text.startswith('python'):
return StoredObjectType.StoredPythonTemplate
raise ValueError('Unknown program type in formatter function pref')
def function_pref_name(pref):
return pref[0]
def compile_user_function(name, doc, arg_count, eval_func):
typ = function_object_type(eval_func)
if typ is not StoredObjectType.PythonFunction:
return FormatterUserFunction(name, doc, arg_count, eval_func, typ)
def replace_func(mo):
return mo.group().replace('\t', ' ')
func = ' ' + '\n '.join([tabs.sub(replace_func, line)
for line in eval_func.splitlines()])
prog = '''
from calibre.utils.formatter_functions import FormatterUserFunction
from calibre.utils.formatter_functions import formatter_functions
class UserFunction(FormatterUserFunction):
''' + func
locals_ = {}
if DEBUG and tweaks.get('enable_template_debug_printing', False):
print(prog)
exec(prog, locals_)
cls = locals_['UserFunction'](name, doc, arg_count, eval_func, typ)
return cls
def compile_user_template_functions(funcs):
compiled_funcs = {}
for func in funcs:
try:
# Force a name conflict to test the logic
# if func[0] == 'myFunc2':
# func[0] = 'myFunc3'
# Compile the function so that the tab processing is done on the
# source. This helps ensure that if the function already is defined
# then white space differences don't cause them to compare differently
cls = compile_user_function(*func)
cls.object_type = function_object_type(func)
compiled_funcs[cls.name] = cls
except Exception:
try:
func_name = func[0]
except Exception:
func_name = 'Unknown'
prints('**** Compilation errors in user template function "%s" ****' % func_name)
traceback.print_exc(limit=10)
prints('**** End compilation errors in %s "****"' % func_name)
return compiled_funcs
def load_user_template_functions(library_uuid, funcs, precompiled_user_functions=None):
unload_user_template_functions(library_uuid)
if precompiled_user_functions:
compiled_funcs = precompiled_user_functions
else:
compiled_funcs = compile_user_template_functions(funcs)
formatter_functions().register_functions(library_uuid, list(compiled_funcs.values()))
def unload_user_template_functions(library_uuid):
formatter_functions().unregister_functions(library_uuid)