"""
Copyright 2008-2011 Free Software Foundation, Inc.
This file is part of GNU Radio
GNU Radio Companion is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; either version 2
of the License, or (at your option) any later version.
GNU Radio Companion is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
"""
import sys
import os
from .Block import Block as _Block
from .Connection import Connection as _Connection
from .Constants import BLOCK_TREE_DTD, FLOW_GRAPH_DTD, DOMAIN_DTD
from .Element import Element as _Element
from .FlowGraph import FlowGraph as _FlowGraph
from .Param import Param as _Param
from .Port import Port as _Port
from . import ParseXML, odict
class Platform(_Element):
def __init__(self, name, version, key,
block_paths, block_dtd, default_flow_graph, generator,
license='', website=None, colors=None):
"""
Make a platform from the arguments.
Args:
name: the platform name
version: the version string
key: the unique platform key
block_paths: the file paths to blocks in this platform
block_dtd: the dtd validator for xml block wrappers
default_flow_graph: the default flow graph file path
generator: the generator class for this platform
colors: a list of title, color_spec tuples
license: a multi-line license (first line is copyright)
website: the website url for this platform
Returns:
a platform object
"""
_Element.__init__(self)
self._name = name
# Save the verion string to the first
self._version = version[0]
self._version_major = version[1]
self._version_api = version[2]
self._version_minor = version[3]
self._version_short = version[1] + "." + version[2] + "." + version[3]
self._key = key
self._license = license
self._website = website
self._block_paths = list(set(block_paths))
self._block_dtd = block_dtd
self._default_flow_graph = default_flow_graph
self._generator = generator
self._colors = colors or []
#create a dummy flow graph for the blocks
self._flow_graph = _Element(self)
self._blocks = None
self._blocks_n = None
self._category_trees_n = None
self._domains = dict()
self._connection_templates = dict()
self.load_blocks()
def load_blocks(self):
"""load the blocks and block tree from the search paths"""
# reset
self._blocks = odict()
self._blocks_n = odict()
self._category_trees_n = list()
self._domains.clear()
self._connection_templates.clear()
ParseXML.xml_failures.clear()
# try to parse and load blocks
for xml_file in self.iter_xml_files():
try:
if xml_file.endswith("block_tree.xml"):
self.load_category_tree_xml(xml_file)
elif xml_file.endswith('domain.xml'):
self.load_domain_xml(xml_file)
else:
self.load_block_xml(xml_file)
except ParseXML.XMLSyntaxError as e:
# print >> sys.stderr, 'Warning: Block validation failed:\n\t%s\n\tIgnoring: %s' % (e, xml_file)
pass
except Exception as e:
print >> sys.stderr, 'Warning: XML parsing failed:\n\t%r\n\tIgnoring: %s' % (e, xml_file)
def iter_xml_files(self):
"""Iterator for block descriptions and category trees"""
get_path = lambda x: os.path.abspath(os.path.expanduser(x))
for block_path in map(get_path, self._block_paths):
if os.path.isfile(block_path):
yield block_path
elif os.path.isdir(block_path):
for dirpath, dirnames, filenames in os.walk(block_path):
for filename in sorted(filter(lambda f: f.endswith('.xml'), filenames)):
yield os.path.join(dirpath, filename)
def load_block_xml(self, xml_file):
"""Load block description from xml file"""
# validate and import
ParseXML.validate_dtd(xml_file, self._block_dtd)
n = ParseXML.from_file(xml_file).find('block')
n['block_wrapper_path'] = xml_file # inject block wrapper path
# get block instance and add it to the list of blocks
block = self.Block(self._flow_graph, n)
key = block.get_key()
if key in self._blocks:
print >> sys.stderr, 'Warning: Block with key "%s" already exists.\n\tIgnoring: %s' % (key, xml_file)
else: # store the block
self._blocks[key] = block
self._blocks_n[key] = n
return block
def load_category_tree_xml(self, xml_file):
"""Validate and parse category tree file and add it to list"""
ParseXML.validate_dtd(xml_file, BLOCK_TREE_DTD)
n = ParseXML.from_file(xml_file).find('cat')
self._category_trees_n.append(n)
def load_domain_xml(self, xml_file):
"""Load a domain properties and connection templates from XML"""
ParseXML.validate_dtd(xml_file, DOMAIN_DTD)
n = ParseXML.from_file(xml_file).find('domain')
key = n.find('key')
if not key:
print >> sys.stderr, 'Warning: Domain with emtpy key.\n\tIgnoring: %s' % xml_file
return
if key in self.get_domains(): # test against repeated keys
print >> sys.stderr, 'Warning: Domain with key "%s" already exists.\n\tIgnoring: %s' % (key, xml_file)
return
to_bool = lambda s, d: d if s is None else \
s.lower() not in ('false', 'off', '0', '')
color = n.find('color') or ''
try:
import gtk # ugly but handy
gtk.gdk.color_parse(color)
except (ValueError, ImportError):
if color: # no color is okay, default set in GUI
print >> sys.stderr, 'Warning: Can\'t parse color code "%s" for domain "%s" ' % (color, key)
color = None
self._domains[key] = dict(
name=n.find('name') or key,
multiple_sinks=to_bool(n.find('multiple_sinks'), True),
multiple_sources=to_bool(n.find('multiple_sources'), False),
color=color
)
for connection_n in n.findall('connection'):
key = (connection_n.find('source_domain'), connection_n.find('sink_domain'))
if not all(key):
print >> sys.stderr, 'Warning: Empty domain key(s) in connection template.\n\t%s' % xml_file
elif key in self._connection_templates:
print >> sys.stderr, 'Warning: Connection template "%s" already exists.\n\t%s' % (key, xml_file)
else:
self._connection_templates[key] = connection_n.find('make') or ''
def parse_flow_graph(self, flow_graph_file):
"""
Parse a saved flow graph file.
Ensure that the file exists, and passes the dtd check.
Args:
flow_graph_file: the flow graph file
Returns:
nested data
@throws exception if the validation fails
"""
flow_graph_file = flow_graph_file or self._default_flow_graph
open(flow_graph_file, 'r') # test open
ParseXML.validate_dtd(flow_graph_file, FLOW_GRAPH_DTD)
return ParseXML.from_file(flow_graph_file)
def load_block_tree(self, block_tree):
"""
Load a block tree with categories and blocks.
Step 1: Load all blocks from the xml specification.
Step 2: Load blocks with builtin category specifications.
Args:
block_tree: the block tree object
"""
#recursive function to load categories and blocks
def load_category(cat_n, parent=None):
#add this category
parent = (parent or []) + [cat_n.find('name')]
block_tree.add_block(parent)
#recursive call to load sub categories
map(lambda c: load_category(c, parent), cat_n.findall('cat'))
#add blocks in this category
for block_key in cat_n.findall('block'):
if block_key not in self.get_block_keys():
print >> sys.stderr, 'Warning: Block key "%s" not found when loading category tree.' % (block_key)
continue
block = self.get_block(block_key)
#if it exists, the block's category shall not be overridden by the xml tree
if not block.get_category():
block.set_category(parent)
# recursively load the category trees and update the categories for each block
for category_tree_n in self._category_trees_n:
load_category(category_tree_n)
#add blocks to block tree
for block in self.get_blocks():
#blocks with empty categories are hidden
if not block.get_category(): continue
block_tree.add_block(block.get_category(), block)
def __str__(self): return 'Platform - %s(%s)'%(self.get_key(), self.get_name())
def is_platform(self): return True
def get_new_flow_graph(self): return self.FlowGraph(platform=self)
def get_generator(self): return self._generator
##############################################
# Access Blocks
##############################################
def get_block_keys(self): return self._blocks.keys()
def get_block(self, key): return self._blocks[key]
def get_blocks(self): return self._blocks.values()
def get_new_block(self, flow_graph, key):
return self.Block(flow_graph, n=self._blocks_n[key])
def get_domains(self): return self._domains
def get_domain(self, key): return self._domains.get(key)
def get_connection_templates(self): return self._connection_templates
def get_name(self): return self._name
def get_version(self): return self._version
def get_version_major(self): return self._version_major
def get_version_api(self): return self._version_api
def get_version_minor(self): return self._version_minor
def get_version_short(self): return self._version_short
def get_key(self): return self._key
def get_license(self): return self._license
def get_website(self): return self._website
def get_colors(self): return self._colors
def get_block_paths(self): return self._block_paths
##############################################
# Constructors
##############################################
FlowGraph = _FlowGraph
Connection = _Connection
Block = _Block
Port = _Port
Param = _Param