scripts/kconfig/kconfigfunctions.py - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 # Copyright (c) 2018-2019 Linaro
 # Copyright (c) 2019 Nordic Semiconductor ASA
 #
 # SPDX-License-Identifier: Apache-2.0

 import os
 import sys

 ZEPHYR_BASE = os.environ.get("ZEPHYR_BASE")
 sys.path.insert(0, os.path.join(ZEPHYR_BASE, "scripts/dts"))

 import edtlib

 # Types we support
 # 'string', 'int', 'hex', 'bool'

 doc_mode = os.environ.get('KCONFIG_DOC_MODE') == "1"

 dt_defines = {}
 if not doc_mode:
     DTS_POST_CPP = os.environ["DTS_POST_CPP"]
     BINDINGS_DIRS = os.environ.get("DTS_ROOT_BINDINGS")

     # if a board port doesn't use DTS than these might not be set
     if os.path.isfile(DTS_POST_CPP) and BINDINGS_DIRS is not None:
         edt = edtlib.EDT(DTS_POST_CPP, BINDINGS_DIRS.split("?"))
     else:
         edt = None

     # The env. var DEVICETREE_CONF must be set unless we are in doc mode
     DEVICETREE_CONF = os.environ['DEVICETREE_CONF']
     if os.path.isfile(DEVICETREE_CONF):
         with open(DEVICETREE_CONF, 'r', encoding='utf-8') as fd:
             for line in fd:
                 if '=' in line:
                     define, val = line.split('=', 1)
                     dt_defines[define] = val.strip()


 def _warn(kconf, msg):
     print("{}:{}: WARNING: {}".format(kconf.filename, kconf.linenr, msg))


 def _dt_units_to_scale(unit):
     if not unit:
         return 0
     if unit in {'k', 'K'}:
         return 10
     if unit in {'m', 'M'}:
         return 20
     if unit in {'g', 'G'}:
         return 30

 def dt_int_val(kconf, _, name, unit=None):
     """
     This function looks up 'name' in the DTS generated "conf" style database
     (devicetree.conf in <build_dir>/zephyr/include/generated/) and if it's
     found it will return the value as an decimal integer.  The function will
     divide the value based on 'unit':
         None        No division
         'k' or 'K'  divide by 1024 (1 << 10)
         'm' or 'M'  divide by 1,048,576 (1 << 20)
         'g' or 'G'  divide by 1,073,741,824 (1 << 30)
     """
     if doc_mode or name not in dt_defines:
         return "0"

     _warn(kconf, "dt_int_val is deprecated.")

     d = dt_defines[name]
     if d.startswith(('0x', '0X')):
         d = int(d, 16)
     else:
         d = int(d)
     d >>= _dt_units_to_scale(unit)

     return str(d)

 def dt_hex_val(kconf, _, name, unit=None):
     """
     This function looks up 'name' in the DTS generated "conf" style database
     (devicetree.conf in <build_dir>/zephyr/include/generated/) and if it's
     found it will return the value as an hex integer.  The function will divide
     the value based on 'unit':
         None        No division
         'k' or 'K'  divide by 1024 (1 << 10)
         'm' or 'M'  divide by 1,048,576 (1 << 20)
         'g' or 'G'  divide by 1,073,741,824 (1 << 30)
     """
     if doc_mode or name not in dt_defines:
         return "0x0"

     _warn(kconf, "dt_hex_val is deprecated.")

     d = dt_defines[name]
     if d.startswith(('0x', '0X')):
         d = int(d, 16)
     else:
         d = int(d)
     d >>= _dt_units_to_scale(unit)

     return hex(d)

 def dt_str_val(kconf, _, name):
     """
     This function looks up 'name' in the DTS generated "conf" style database
     (devicetree.conf in <build_dir>/zephyr/include/generated/) and if it's
     found it will return the value as string.  If it's not found we return an
     empty string.
     """
     if doc_mode or name not in dt_defines:
         return ""

     _warn(kconf, "dt_str_val is deprecated.")

     return dt_defines[name].strip('"')


 def dt_chosen_label(kconf, _, chosen):
     """
     This function takes a 'chosen' property and treats that property as a path
     to an EDT node.  If it finds an EDT node, it will look to see if that node
     has a "label" property and return the value of that "label", if not we
     return an empty string.
     """
     if doc_mode or edt is None:
         return ""

     node = edt.chosen_node(chosen)
     if not node:
         return ""

     if "label" not in node.props:
         return ""

     return node.props["label"].val


 def dt_chosen_enabled(kconf, _, chosen):
     """
     This function returns "y" if /chosen contains a property named 'chosen'
     that points to an enabled node, and "n" otherwise
     """
     if doc_mode or edt is None:
         return "n"

     node = edt.chosen_node(chosen)
     return "y" if node and node.enabled else "n"


 def dt_nodelabel_enabled(kconf, _, label):
     """
     This function takes a 'label' and returns "y" if we find an "enabled"
     node that has a 'nodelabel' of 'label' in the EDT otherwise we return "n"
     """
     if doc_mode or edt is None:
         return "n"

     for node in edt.nodes:
         if label in node.labels and node.enabled:
             return "y"

     return "n"


 def _node_reg_addr(node, index, unit):
     if not node:
         return 0

     if not node.regs:
         return 0

     if int(index) >= len(node.regs):
         return 0

     if node.regs[int(index)].addr is None:
         return 0

     return node.regs[int(index)].addr >> _dt_units_to_scale(unit)


 def _node_reg_size(node, index, unit):
     if not node:
         return 0

     if not node.regs:
         return 0

     if int(index) >= len(node.regs):
         return 0

     if node.regs[int(index)].size is None:
         return 0

     return node.regs[int(index)].size >> _dt_units_to_scale(unit)


 def _node_int_prop(node, prop):
     if not node:
         return 0

     if prop not in node.props:
         return 0

     if node.props[prop].type != "int":
         return 0

     return node.props[prop].val


 def _dt_chosen_reg_addr(kconf, chosen, index=0, unit=None):
     """
     This function takes a 'chosen' property and treats that property as a path
     to an EDT node.  If it finds an EDT node, it will look to see if that
     nodnode has a register at the given 'index' and return the address value of
     that reg, if not we return 0.

     The function will divide the value based on 'unit':
         None        No division
         'k' or 'K'  divide by 1024 (1 << 10)
         'm' or 'M'  divide by 1,048,576 (1 << 20)
         'g' or 'G'  divide by 1,073,741,824 (1 << 30)
     """
     if doc_mode or edt is None:
         return 0

     node = edt.chosen_node(chosen)

     return _node_reg_addr(node, index, unit)


 def _dt_chosen_reg_size(kconf, chosen, index=0, unit=None):
     """
     This function takes a 'chosen' property and treats that property as a path
     to an EDT node.  If it finds an EDT node, it will look to see if that node
     has a register at the given 'index' and return the size value of that reg,
     if not we return 0.

     The function will divide the value based on 'unit':
         None        No division
         'k' or 'K'  divide by 1024 (1 << 10)
         'm' or 'M'  divide by 1,048,576 (1 << 20)
         'g' or 'G'  divide by 1,073,741,824 (1 << 30)
     """
     if doc_mode or edt is None:
         return 0

     node = edt.chosen_node(chosen)

     return _node_reg_size(node, index, unit)


 def dt_chosen_reg(kconf, name, chosen, index=0, unit=None):
     """
     This function just routes to the proper function and converts
     the result to either a string int or string hex value.
     """
     if name == "dt_chosen_reg_size_int":
         return str(_dt_chosen_reg_size(kconf, chosen, index, unit))
     if name == "dt_chosen_reg_size_hex":
         return hex(_dt_chosen_reg_size(kconf, chosen, index, unit))
     if name == "dt_chosen_reg_addr_int":
         return str(_dt_chosen_reg_addr(kconf, chosen, index, unit))
     if name == "dt_chosen_reg_addr_hex":
         return hex(_dt_chosen_reg_addr(kconf, chosen, index, unit))


 def _dt_node_reg_addr(kconf, path, index=0, unit=None):
     """
     This function takes a 'path' and looks for an EDT node at that path. If it
     finds an EDT node, it will look to see if that node has a register at the
     given 'index' and return the address value of that reg, if not we return 0.

     The function will divide the value based on 'unit':
         None        No division
         'k' or 'K'  divide by 1024 (1 << 10)
         'm' or 'M'  divide by 1,048,576 (1 << 20)
         'g' or 'G'  divide by 1,073,741,824 (1 << 30)
     """
     if doc_mode or edt is None:
         return 0

     try:
         node = edt.get_node(path)
     except edtlib.EDTError:
         return 0

     return _node_reg_addr(node, index, unit)


 def _dt_node_reg_size(kconf, path, index=0, unit=None):
     """
     This function takes a 'path' and looks for an EDT node at that path. If it
     finds an EDT node, it will look to see if that node has a register at the
     given 'index' and return the size value of that reg, if not we return 0.

     The function will divide the value based on 'unit':
         None        No division
         'k' or 'K'  divide by 1024 (1 << 10)
         'm' or 'M'  divide by 1,048,576 (1 << 20)
         'g' or 'G'  divide by 1,073,741,824 (1 << 30)
     """
     if doc_mode or edt is None:
         return 0

     try:
         node = edt.get_node(path)
     except edtlib.EDTError:
         return 0

     return _node_reg_size(node, index, unit)


 def dt_node_reg(kconf, name, path, index=0, unit=None):
     """
     This function just routes to the proper function and converts
     the result to either a string int or string hex value.
     """
     if name == "dt_node_reg_size_int":
         return str(_dt_node_reg_size(kconf, path, index, unit))
     if name == "dt_node_reg_size_hex":
         return hex(_dt_node_reg_size(kconf, path, index, unit))
     if name == "dt_node_reg_addr_int":
         return str(_dt_node_reg_addr(kconf, path, index, unit))
     if name == "dt_node_reg_addr_hex":
         return hex(_dt_node_reg_addr(kconf, path, index, unit))


 def dt_node_has_bool_prop(kconf, _, path, prop):
     """
     This function takes a 'path' and looks for an EDT node at that path. If it
     finds an EDT node, it will look to see if that node has a boolean property
     by the name of 'prop'.  If the 'prop' exists it will return "y" otherwise
     we return "n".
     """
     if doc_mode or edt is None:
         return "n"

     try:
         node = edt.get_node(path)
     except edtlib.EDTError:
         return "n"

     if prop not in node.props:
         return "n"

     if node.props[prop].type != "boolean":
         return "n"

     if node.props[prop].val:
         return "y"

     return "n"


 def dt_node_int_prop(kconf, name, path, prop):
     """
     This function takes a 'path' and property name ('prop') looks for an EDT
     node at that path. If it finds an EDT node, it will look to see if that
     node has a property called 'prop' and if that 'prop' is an integer type
     will return the value of the property 'prop' as either a string int or
     string hex value, if not we return 0.
     """

     if doc_mode or edt is None:
         return "0"

     try:
         node = edt.get_node(path)
     except edtlib.EDTError:
         return "0"

     if name == "dt_node_int_prop_int":
         return str(_node_int_prop(node, prop))
     if name == "dt_node_int_prop_hex":
         return hex(_node_int_prop(node, prop))


 def dt_compat_enabled(kconf, _, compat):
     """
     This function takes a 'compat' and returns "y" if we find an "enabled"
     compatible node in the EDT otherwise we return "n"
     """
     if doc_mode or edt is None:
         return "n"

     for node in edt.nodes:
         if compat in node.compats and node.enabled:
             return "y"

     return "n"


 def dt_nodelabel_has_compat(kconf, _, label, compat):
     """
     This function takes a 'label' and returns "y" if an "enabled" node with
     such label can be found in the EDT and that node is compatible with the
     provided 'compat', otherwise it returns "n".
     """
     if doc_mode or edt is None:
         return "n"

     for node in edt.compat2enabled[compat]:
         if label in node.labels:
             return "y"

     return "n"


 def shields_list_contains(kconf, _, shield):
     """
     Return "n" if cmake environment variable 'SHIELD_AS_LIST' doesn't exist.
     Return "y" if 'shield' is present list obtained after 'SHIELD_AS_LIST'
     has been split using ";" as a separator and "n" otherwise.
     """
     try:
         list = os.environ['SHIELD_AS_LIST']
     except KeyError:
         return "n"

     return "y" if shield in list.split(";") else "n"


 functions = {
         "dt_int_val": (dt_int_val, 1, 2),
         "dt_hex_val": (dt_hex_val, 1, 2),
         "dt_str_val": (dt_str_val, 1, 1),
         "dt_compat_enabled": (dt_compat_enabled, 1, 1),
         "dt_chosen_label": (dt_chosen_label, 1, 1),
         "dt_chosen_enabled": (dt_chosen_enabled, 1, 1),
         "dt_nodelabel_enabled": (dt_nodelabel_enabled, 1, 1),
         "dt_chosen_reg_addr_int": (dt_chosen_reg, 1, 3),
         "dt_chosen_reg_addr_hex": (dt_chosen_reg, 1, 3),
         "dt_chosen_reg_size_int": (dt_chosen_reg, 1, 3),
         "dt_chosen_reg_size_hex": (dt_chosen_reg, 1, 3),
         "dt_node_reg_addr_int": (dt_node_reg, 1, 3),
         "dt_node_reg_addr_hex": (dt_node_reg, 1, 3),
         "dt_node_reg_size_int": (dt_node_reg, 1, 3),
         "dt_node_reg_size_hex": (dt_node_reg, 1, 3),
         "dt_node_has_bool_prop": (dt_node_has_bool_prop, 2, 2),
         "dt_node_int_prop_int": (dt_node_int_prop, 2, 2),
         "dt_node_int_prop_hex": (dt_node_int_prop, 2, 2),
         "dt_nodelabel_has_compat": (dt_nodelabel_has_compat, 2, 2),
         "shields_list_contains": (shields_list_contains, 1, 1),
 }
	# Copyright (c) 2018-2019 Linaro
	# Copyright (c) 2019 Nordic Semiconductor ASA
	#
	# SPDX-License-Identifier: Apache-2.0

	import os
	import sys

	ZEPHYR_BASE = os.environ.get("ZEPHYR_BASE")
	sys.path.insert(0, os.path.join(ZEPHYR_BASE, "scripts/dts"))

	import edtlib

	# Types we support
	# 'string', 'int', 'hex', 'bool'

	doc_mode = os.environ.get('KCONFIG_DOC_MODE') == "1"

	dt_defines = {}
	if not doc_mode:
	DTS_POST_CPP = os.environ["DTS_POST_CPP"]
	BINDINGS_DIRS = os.environ.get("DTS_ROOT_BINDINGS")

	# if a board port doesn't use DTS than these might not be set
	if os.path.isfile(DTS_POST_CPP) and BINDINGS_DIRS is not None:
	edt = edtlib.EDT(DTS_POST_CPP, BINDINGS_DIRS.split("?"))
	else:
	edt = None

	# The env. var DEVICETREE_CONF must be set unless we are in doc mode
	DEVICETREE_CONF = os.environ['DEVICETREE_CONF']
	if os.path.isfile(DEVICETREE_CONF):
	with open(DEVICETREE_CONF, 'r', encoding='utf-8') as fd:
	for line in fd:
	if '=' in line:
	define, val = line.split('=', 1)
	dt_defines[define] = val.strip()


	def _warn(kconf, msg):
	print("{}:{}: WARNING: {}".format(kconf.filename, kconf.linenr, msg))


	def _dt_units_to_scale(unit):
	if not unit:
	return 0
	if unit in {'k', 'K'}:
	return 10
	if unit in {'m', 'M'}:
	return 20
	if unit in {'g', 'G'}:
	return 30

	def dt_int_val(kconf, _, name, unit=None):
	"""
	This function looks up 'name' in the DTS generated "conf" style database
	(devicetree.conf in <build_dir>/zephyr/include/generated/) and if it's
	found it will return the value as an decimal integer. The function will
	divide the value based on 'unit':
	None No division
	'k' or 'K' divide by 1024 (1 << 10)
	'm' or 'M' divide by 1,048,576 (1 << 20)
	'g' or 'G' divide by 1,073,741,824 (1 << 30)
	"""
	if doc_mode or name not in dt_defines:
	return "0"

	_warn(kconf, "dt_int_val is deprecated.")

	d = dt_defines[name]
	if d.startswith(('0x', '0X')):
	d = int(d, 16)
	else:
	d = int(d)
	d >>= _dt_units_to_scale(unit)

	return str(d)

	def dt_hex_val(kconf, _, name, unit=None):
	"""
	This function looks up 'name' in the DTS generated "conf" style database
	(devicetree.conf in <build_dir>/zephyr/include/generated/) and if it's
	found it will return the value as an hex integer. The function will divide
	the value based on 'unit':
	None No division
	'k' or 'K' divide by 1024 (1 << 10)
	'm' or 'M' divide by 1,048,576 (1 << 20)
	'g' or 'G' divide by 1,073,741,824 (1 << 30)
	"""
	if doc_mode or name not in dt_defines:
	return "0x0"

	_warn(kconf, "dt_hex_val is deprecated.")

	d = dt_defines[name]
	if d.startswith(('0x', '0X')):
	d = int(d, 16)
	else:
	d = int(d)
	d >>= _dt_units_to_scale(unit)

	return hex(d)

	def dt_str_val(kconf, _, name):
	"""
	This function looks up 'name' in the DTS generated "conf" style database
	(devicetree.conf in <build_dir>/zephyr/include/generated/) and if it's
	found it will return the value as string. If it's not found we return an
	empty string.
	"""
	if doc_mode or name not in dt_defines:
	return ""

	_warn(kconf, "dt_str_val is deprecated.")

	return dt_defines[name].strip('"')


	def dt_chosen_label(kconf, _, chosen):
	"""
	This function takes a 'chosen' property and treats that property as a path
	to an EDT node. If it finds an EDT node, it will look to see if that node
	has a "label" property and return the value of that "label", if not we
	return an empty string.
	"""
	if doc_mode or edt is None:
	return ""

	node = edt.chosen_node(chosen)
	if not node:
	return ""

	if "label" not in node.props:
	return ""

	return node.props["label"].val


	def dt_chosen_enabled(kconf, _, chosen):
	"""
	This function returns "y" if /chosen contains a property named 'chosen'
	that points to an enabled node, and "n" otherwise
	"""
	if doc_mode or edt is None:
	return "n"

	node = edt.chosen_node(chosen)
	return "y" if node and node.enabled else "n"


	def dt_nodelabel_enabled(kconf, _, label):
	"""
	This function takes a 'label' and returns "y" if we find an "enabled"
	node that has a 'nodelabel' of 'label' in the EDT otherwise we return "n"
	"""
	if doc_mode or edt is None:
	return "n"

	for node in edt.nodes:
	if label in node.labels and node.enabled:
	return "y"

	return "n"


	def _node_reg_addr(node, index, unit):
	if not node:
	return 0

	if not node.regs:
	return 0

	if int(index) >= len(node.regs):
	return 0

	if node.regs[int(index)].addr is None:
	return 0

	return node.regs[int(index)].addr >> _dt_units_to_scale(unit)


	def _node_reg_size(node, index, unit):
	if not node:
	return 0

	if not node.regs:
	return 0

	if int(index) >= len(node.regs):
	return 0

	if node.regs[int(index)].size is None:
	return 0

	return node.regs[int(index)].size >> _dt_units_to_scale(unit)


	def _node_int_prop(node, prop):
	if not node:
	return 0

	if prop not in node.props:
	return 0

	if node.props[prop].type != "int":
	return 0

	return node.props[prop].val


	def _dt_chosen_reg_addr(kconf, chosen, index=0, unit=None):
	"""
	This function takes a 'chosen' property and treats that property as a path
	to an EDT node. If it finds an EDT node, it will look to see if that
	nodnode has a register at the given 'index' and return the address value of
	that reg, if not we return 0.

	The function will divide the value based on 'unit':
	None No division
	'k' or 'K' divide by 1024 (1 << 10)
	'm' or 'M' divide by 1,048,576 (1 << 20)
	'g' or 'G' divide by 1,073,741,824 (1 << 30)
	"""
	if doc_mode or edt is None:
	return 0

	node = edt.chosen_node(chosen)

	return _node_reg_addr(node, index, unit)


	def _dt_chosen_reg_size(kconf, chosen, index=0, unit=None):
	"""
	This function takes a 'chosen' property and treats that property as a path
	to an EDT node. If it finds an EDT node, it will look to see if that node
	has a register at the given 'index' and return the size value of that reg,
	if not we return 0.

	The function will divide the value based on 'unit':
	None No division
	'k' or 'K' divide by 1024 (1 << 10)
	'm' or 'M' divide by 1,048,576 (1 << 20)
	'g' or 'G' divide by 1,073,741,824 (1 << 30)
	"""
	if doc_mode or edt is None:
	return 0

	node = edt.chosen_node(chosen)

	return _node_reg_size(node, index, unit)


	def dt_chosen_reg(kconf, name, chosen, index=0, unit=None):
	"""
	This function just routes to the proper function and converts
	the result to either a string int or string hex value.
	"""
	if name == "dt_chosen_reg_size_int":
	return str(_dt_chosen_reg_size(kconf, chosen, index, unit))
	if name == "dt_chosen_reg_size_hex":
	return hex(_dt_chosen_reg_size(kconf, chosen, index, unit))
	if name == "dt_chosen_reg_addr_int":
	return str(_dt_chosen_reg_addr(kconf, chosen, index, unit))
	if name == "dt_chosen_reg_addr_hex":
	return hex(_dt_chosen_reg_addr(kconf, chosen, index, unit))


	def _dt_node_reg_addr(kconf, path, index=0, unit=None):
	"""
	This function takes a 'path' and looks for an EDT node at that path. If it
	finds an EDT node, it will look to see if that node has a register at the
	given 'index' and return the address value of that reg, if not we return 0.

	The function will divide the value based on 'unit':
	None No division
	'k' or 'K' divide by 1024 (1 << 10)
	'm' or 'M' divide by 1,048,576 (1 << 20)
	'g' or 'G' divide by 1,073,741,824 (1 << 30)
	"""
	if doc_mode or edt is None:
	return 0

	try:
	node = edt.get_node(path)
	except edtlib.EDTError:
	return 0

	return _node_reg_addr(node, index, unit)


	def _dt_node_reg_size(kconf, path, index=0, unit=None):
	"""
	This function takes a 'path' and looks for an EDT node at that path. If it
	finds an EDT node, it will look to see if that node has a register at the
	given 'index' and return the size value of that reg, if not we return 0.

	The function will divide the value based on 'unit':
	None No division
	'k' or 'K' divide by 1024 (1 << 10)
	'm' or 'M' divide by 1,048,576 (1 << 20)
	'g' or 'G' divide by 1,073,741,824 (1 << 30)
	"""
	if doc_mode or edt is None:
	return 0

	try:
	node = edt.get_node(path)
	except edtlib.EDTError:
	return 0

	return _node_reg_size(node, index, unit)


	def dt_node_reg(kconf, name, path, index=0, unit=None):
	"""
	This function just routes to the proper function and converts
	the result to either a string int or string hex value.
	"""
	if name == "dt_node_reg_size_int":
	return str(_dt_node_reg_size(kconf, path, index, unit))
	if name == "dt_node_reg_size_hex":
	return hex(_dt_node_reg_size(kconf, path, index, unit))
	if name == "dt_node_reg_addr_int":
	return str(_dt_node_reg_addr(kconf, path, index, unit))
	if name == "dt_node_reg_addr_hex":
	return hex(_dt_node_reg_addr(kconf, path, index, unit))


	def dt_node_has_bool_prop(kconf, _, path, prop):
	"""
	This function takes a 'path' and looks for an EDT node at that path. If it
	finds an EDT node, it will look to see if that node has a boolean property
	by the name of 'prop'. If the 'prop' exists it will return "y" otherwise
	we return "n".
	"""
	if doc_mode or edt is None:
	return "n"

	try:
	node = edt.get_node(path)
	except edtlib.EDTError:
	return "n"

	if prop not in node.props:
	return "n"

	if node.props[prop].type != "boolean":
	return "n"

	if node.props[prop].val:
	return "y"

	return "n"


	def dt_node_int_prop(kconf, name, path, prop):
	"""
	This function takes a 'path' and property name ('prop') looks for an EDT
	node at that path. If it finds an EDT node, it will look to see if that
	node has a property called 'prop' and if that 'prop' is an integer type
	will return the value of the property 'prop' as either a string int or
	string hex value, if not we return 0.
	"""

	if doc_mode or edt is None:
	return "0"

	try:
	node = edt.get_node(path)
	except edtlib.EDTError:
	return "0"

	if name == "dt_node_int_prop_int":
	return str(_node_int_prop(node, prop))
	if name == "dt_node_int_prop_hex":
	return hex(_node_int_prop(node, prop))


	def dt_compat_enabled(kconf, _, compat):
	"""
	This function takes a 'compat' and returns "y" if we find an "enabled"
	compatible node in the EDT otherwise we return "n"
	"""
	if doc_mode or edt is None:
	return "n"

	for node in edt.nodes:
	if compat in node.compats and node.enabled:
	return "y"

	return "n"


	def dt_nodelabel_has_compat(kconf, _, label, compat):
	"""
	This function takes a 'label' and returns "y" if an "enabled" node with
	such label can be found in the EDT and that node is compatible with the
	provided 'compat', otherwise it returns "n".
	"""
	if doc_mode or edt is None:
	return "n"

	for node in edt.compat2enabled[compat]:
	if label in node.labels:
	return "y"

	return "n"


	def shields_list_contains(kconf, _, shield):
	"""
	Return "n" if cmake environment variable 'SHIELD_AS_LIST' doesn't exist.
	Return "y" if 'shield' is present list obtained after 'SHIELD_AS_LIST'
	has been split using ";" as a separator and "n" otherwise.
	"""
	try:
	list = os.environ['SHIELD_AS_LIST']
	except KeyError:
	return "n"

	return "y" if shield in list.split(";") else "n"


	functions = {
	"dt_int_val": (dt_int_val, 1, 2),
	"dt_hex_val": (dt_hex_val, 1, 2),
	"dt_str_val": (dt_str_val, 1, 1),
	"dt_compat_enabled": (dt_compat_enabled, 1, 1),
	"dt_chosen_label": (dt_chosen_label, 1, 1),
	"dt_chosen_enabled": (dt_chosen_enabled, 1, 1),
	"dt_nodelabel_enabled": (dt_nodelabel_enabled, 1, 1),
	"dt_chosen_reg_addr_int": (dt_chosen_reg, 1, 3),
	"dt_chosen_reg_addr_hex": (dt_chosen_reg, 1, 3),
	"dt_chosen_reg_size_int": (dt_chosen_reg, 1, 3),
	"dt_chosen_reg_size_hex": (dt_chosen_reg, 1, 3),
	"dt_node_reg_addr_int": (dt_node_reg, 1, 3),
	"dt_node_reg_addr_hex": (dt_node_reg, 1, 3),
	"dt_node_reg_size_int": (dt_node_reg, 1, 3),
	"dt_node_reg_size_hex": (dt_node_reg, 1, 3),
	"dt_node_has_bool_prop": (dt_node_has_bool_prop, 2, 2),
	"dt_node_int_prop_int": (dt_node_int_prop, 2, 2),
	"dt_node_int_prop_hex": (dt_node_int_prop, 2, 2),
	"dt_nodelabel_has_compat": (dt_nodelabel_has_compat, 2, 2),
	"shields_list_contains": (shields_list_contains, 1, 1),
	}