camera/docs/metadata_helpers.py - platform/system/media - Git at Google

 #
 # Copyright (C) 2012 The Android Open Source Project
 #
 # Licensed under the Apache License, Version 2.0 (the "License");
 # you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at
 #
 #      http://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an "AS IS" BASIS,
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.
 #

 """
 A set of helpers for rendering Mako templates with a Metadata model.
 """

 import metadata_model
 from collections import OrderedDict

 _context_buf = None

 def _is_sec_or_ins(x):
   return isinstance(x, metadata_model.Section) or    \
          isinstance(x, metadata_model.InnerNamespace)

 ##
 ## Metadata Helpers
 ##

 def find_all_sections(root):
   """
   Find all descendants that are Section or InnerNamespace instances.

   Args:
     root: a Metadata instance

   Returns:
     A list of Section/InnerNamespace instances

   Remarks:
     These are known as "sections" in the generated C code.
   """
   return root.find_all(_is_sec_or_ins)

 def find_parent_section(entry):
   """
   Find the closest ancestor that is either a Section or InnerNamespace.

   Args:
     entry: an Entry or Clone node

   Returns:
     An instance of Section or InnerNamespace
   """
   return entry.find_parent_first(_is_sec_or_ins)

 # find uniquely named entries (w/o recursing through inner namespaces)
 def find_unique_entries(node):
   """
   Find all uniquely named entries, without recursing through inner namespaces.

   Args:
     node: a Section or InnerNamespace instance

   Yields:
     A sequence of MergedEntry nodes representing an entry

   Remarks:
     This collapses multiple entries with the same fully qualified name into
     one entry (e.g. if there are multiple entries in different kinds).
   """
   if not isinstance(node, metadata_model.Section) and    \
      not isinstance(node, metadata_model.InnerNamespace):
       raise TypeError("expected node to be a Section or InnerNamespace")

   d = OrderedDict()
   # remove the 'kinds' from the path between sec and the closest entries
   # then search the immediate children of the search path
   search_path = isinstance(node, metadata_model.Section) and node.kinds \
                 or [node]
   for i in search_path:
       for entry in i.entries:
           d[entry.name] = entry

   for k,v in d.iteritems():
       yield v.merge()

 def path_name(node):
   """
   Calculate a period-separated string path from the root to this element,
   by joining the names of each node and excluding the Metadata/Kind nodes
   from the path.

   Args:
     node: a Node instance

   Returns:
     A string path
   """

   isa = lambda x,y: isinstance(x, y)
   fltr = lambda x: not isa(x, metadata_model.Metadata) and \
                    not isa(x, metadata_model.Kind)

   path = node.find_parents(fltr)
   path = list(path)
   path.reverse()
   path.append(node)

   return ".".join((i.name for i in path))

 ##
 ## Filters
 ##

 # abcDef.xyz -> ABC_DEF_XYZ
 def csym(name):
   """
   Convert an entry name string into an uppercase C symbol.

   Returns:
     A string

   Example:
     csym('abcDef.xyz') == 'ABC_DEF_XYZ'
   """
   newstr = name
   newstr = "".join([i.isupper() and ("_" + i) or i for i in newstr]).upper()
   newstr = newstr.replace(".", "_")
   return newstr

 # abcDef.xyz -> abc_def_xyz
 def csyml(name):
   """
   Convert an entry name string into a lowercase C symbol.

   Returns:
     A string

   Example:
     csyml('abcDef.xyz') == 'abc_def_xyz'
   """
   return csym(name).lower()

 # pad with spaces to make string len == size. add new line if too big
 def ljust(size, indent=4):
   """
   Creates a function that given a string will pad it with spaces to make
   the string length == size. Adds a new line if the string was too big.

   Args:
     size: an integer representing how much spacing should be added
     indent: an integer representing the initial indendation level

   Returns:
     A function that takes a string and returns a string.

   Example:
     ljust(8)("hello") == 'hello   '

   Remarks:
     Deprecated. Use pad instead since it works for non-first items in a
     Mako template.
   """
   def inner(what):
     newstr = what.ljust(size)
     if len(newstr) > size:
       return what + "\n" + "".ljust(indent + size)
     else:
       return newstr
   return inner

 def _find_new_line():

   if _context_buf is None:
     raise ValueError("Context buffer was not set")

   buf = _context_buf
   x = -1 # since the first read is always ''
   cur_pos = buf.tell()
   while buf.tell() > 0 and buf.read(1) != '\n':
     buf.seek(cur_pos - x)
     x = x + 1

   buf.seek(cur_pos)

   return int(x)

 # Pad the string until the buffer reaches the desired column.
 # If string is too long, insert a new line with 'col' spaces instead
 def pad(col):
   """
   Create a function that given a string will pad it to the specified column col.
   If the string overflows the column, put the string on a new line and pad it.

   Args:
     col: an integer specifying the column number

   Returns:
     A function that given a string will produce a padded string.

   Example:
     pad(8)("hello") == 'hello   '

   Remarks:
     This keeps track of the line written by Mako so far, so it will always
     align to the column number correctly.
   """
   def inner(what):
     wut = int(col)
     current_col = _find_new_line()

     if len(what) > wut - current_col:
       return what + "\n".ljust(col)
     else:
       return what.ljust(wut - current_col)
   return inner

 # int32 -> TYPE_INT32, byte -> TYPE_BYTE, etc. note that enum -> TYPE_INT32
 def ctype_enum(what):
   """
   Generate a camera_metadata_type_t symbol from a type string.

   Args:
     what: a type string

   Returns:
     A string representing the camera_metadata_type_t

   Example:
     ctype_enum('int32') == 'TYPE_INT32'
     ctype_enum('int64') == 'TYPE_INT64'
     ctype_enum('float') == 'TYPE_FLOAT'
     ctype_enum('enum')  == 'TYPE_BYTE'

   Remarks:
     An enum is coerced to a byte since the rest of the camera_metadata
     code doesn't support enums directly yet.
   """
   if what == 'enum':
       return 'TYPE_BYTE'
   return 'TYPE_%s' %(what.upper())
	#
	# Copyright (C) 2012 The Android Open Source Project
	#
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.
	#

	"""
	A set of helpers for rendering Mako templates with a Metadata model.
	"""

	import metadata_model
	from collections import OrderedDict

	_context_buf = None

	def _is_sec_or_ins(x):
	return isinstance(x, metadata_model.Section) or \
	isinstance(x, metadata_model.InnerNamespace)

	##
	## Metadata Helpers
	##

	def find_all_sections(root):
	"""
	Find all descendants that are Section or InnerNamespace instances.

	Args:
	root: a Metadata instance

	Returns:
	A list of Section/InnerNamespace instances

	Remarks:
	These are known as "sections" in the generated C code.
	"""
	return root.find_all(_is_sec_or_ins)

	def find_parent_section(entry):
	"""
	Find the closest ancestor that is either a Section or InnerNamespace.

	Args:
	entry: an Entry or Clone node

	Returns:
	An instance of Section or InnerNamespace
	"""
	return entry.find_parent_first(_is_sec_or_ins)

	# find uniquely named entries (w/o recursing through inner namespaces)
	def find_unique_entries(node):
	"""
	Find all uniquely named entries, without recursing through inner namespaces.

	Args:
	node: a Section or InnerNamespace instance

	Yields:
	A sequence of MergedEntry nodes representing an entry

	Remarks:
	This collapses multiple entries with the same fully qualified name into
	one entry (e.g. if there are multiple entries in different kinds).
	"""
	if not isinstance(node, metadata_model.Section) and \
	not isinstance(node, metadata_model.InnerNamespace):
	raise TypeError("expected node to be a Section or InnerNamespace")

	d = OrderedDict()
	# remove the 'kinds' from the path between sec and the closest entries
	# then search the immediate children of the search path
	search_path = isinstance(node, metadata_model.Section) and node.kinds \
	or [node]
	for i in search_path:
	for entry in i.entries:
	d[entry.name] = entry

	for k,v in d.iteritems():
	yield v.merge()

	def path_name(node):
	"""
	Calculate a period-separated string path from the root to this element,
	by joining the names of each node and excluding the Metadata/Kind nodes
	from the path.

	Args:
	node: a Node instance

	Returns:
	A string path
	"""

	isa = lambda x,y: isinstance(x, y)
	fltr = lambda x: not isa(x, metadata_model.Metadata) and \
	not isa(x, metadata_model.Kind)

	path = node.find_parents(fltr)
	path = list(path)
	path.reverse()
	path.append(node)

	return ".".join((i.name for i in path))

	##
	## Filters
	##

	# abcDef.xyz -> ABC_DEF_XYZ
	def csym(name):
	"""
	Convert an entry name string into an uppercase C symbol.

	Returns:
	A string

	Example:
	csym('abcDef.xyz') == 'ABC_DEF_XYZ'
	"""
	newstr = name
	newstr = "".join([i.isupper() and ("_" + i) or i for i in newstr]).upper()
	newstr = newstr.replace(".", "_")
	return newstr

	# abcDef.xyz -> abc_def_xyz
	def csyml(name):
	"""
	Convert an entry name string into a lowercase C symbol.

	Returns:
	A string

	Example:
	csyml('abcDef.xyz') == 'abc_def_xyz'
	"""
	return csym(name).lower()

	# pad with spaces to make string len == size. add new line if too big
	def ljust(size, indent=4):
	"""
	Creates a function that given a string will pad it with spaces to make
	the string length == size. Adds a new line if the string was too big.

	Args:
	size: an integer representing how much spacing should be added
	indent: an integer representing the initial indendation level

	Returns:
	A function that takes a string and returns a string.

	Example:
	ljust(8)("hello") == 'hello '

	Remarks:
	Deprecated. Use pad instead since it works for non-first items in a
	Mako template.
	"""
	def inner(what):
	newstr = what.ljust(size)
	if len(newstr) > size:
	return what + "\n" + "".ljust(indent + size)
	else:
	return newstr
	return inner

	def _find_new_line():

	if _context_buf is None:
	raise ValueError("Context buffer was not set")

	buf = _context_buf
	x = -1 # since the first read is always ''
	cur_pos = buf.tell()
	while buf.tell() > 0 and buf.read(1) != '\n':
	buf.seek(cur_pos - x)
	x = x + 1

	buf.seek(cur_pos)

	return int(x)

	# Pad the string until the buffer reaches the desired column.
	# If string is too long, insert a new line with 'col' spaces instead
	def pad(col):
	"""
	Create a function that given a string will pad it to the specified column col.
	If the string overflows the column, put the string on a new line and pad it.

	Args:
	col: an integer specifying the column number

	Returns:
	A function that given a string will produce a padded string.

	Example:
	pad(8)("hello") == 'hello '

	Remarks:
	This keeps track of the line written by Mako so far, so it will always
	align to the column number correctly.
	"""
	def inner(what):
	wut = int(col)
	current_col = _find_new_line()

	if len(what) > wut - current_col:
	return what + "\n".ljust(col)
	else:
	return what.ljust(wut - current_col)
	return inner

	# int32 -> TYPE_INT32, byte -> TYPE_BYTE, etc. note that enum -> TYPE_INT32
	def ctype_enum(what):
	"""
	Generate a camera_metadata_type_t symbol from a type string.

	Args:
	what: a type string

	Returns:
	A string representing the camera_metadata_type_t

	Example:
	ctype_enum('int32') == 'TYPE_INT32'
	ctype_enum('int64') == 'TYPE_INT64'
	ctype_enum('float') == 'TYPE_FLOAT'
	ctype_enum('enum') == 'TYPE_BYTE'

	Remarks:
	An enum is coerced to a byte since the rest of the camera_metadata
	code doesn't support enums directly yet.
	"""
	if what == 'enum':
	return 'TYPE_BYTE'
	return 'TYPE_%s' %(what.upper())