/usr/share/w3af/extlib/xdot/xdot.py is in w3af 1.0-rc3svn3489-1.
This file is owned by root:root, with mode 0o644.
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#
# Copyright 2008 Jose Fonseca
#
# This program is free software: you can redistribute it and/or modify it
# under the terms of the GNU Lesser General Public License as published
# by the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program 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 Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
#
'''Visualize dot graphs via the xdot format.'''
__author__ = "Jose Fonseca"
__version__ = "0.4"
import os
import sys
import subprocess
import math
import colorsys
import time
import re
import gobject
import gtk
import gtk.gdk
import gtk.keysyms
import cairo
import pango
import pangocairo
# See http://www.graphviz.org/pub/scm/graphviz-cairo/plugin/cairo/gvrender_cairo.c
# For pygtk inspiration and guidance see:
# - http://mirageiv.berlios.de/
# - http://comix.sourceforge.net/
class Pen:
"""Store pen attributes."""
def __init__(self):
# set default attributes
self.color = (0.0, 0.0, 0.0, 1.0)
self.fillcolor = (0.0, 0.0, 0.0, 1.0)
self.linewidth = 1.0
self.fontsize = 14.0
self.fontname = "Times-Roman"
self.dash = ()
def copy(self):
"""Create a copy of this pen."""
pen = Pen()
pen.__dict__ = self.__dict__.copy()
return pen
def highlighted(self):
pen = self.copy()
pen.color = (1, 0, 0, 1)
pen.fillcolor = (1, .8, .8, 1)
return pen
class Shape:
"""Abstract base class for all the drawing shapes."""
def __init__(self):
pass
def draw(self, cr, highlight=False):
"""Draw this shape with the given cairo context"""
raise NotImplementedError
def select_pen(self, highlight):
if highlight:
if not hasattr(self, 'highlight_pen'):
self.highlight_pen = self.pen.highlighted()
return self.highlight_pen
else:
return self.pen
class TextShape(Shape):
#fontmap = pangocairo.CairoFontMap()
#fontmap.set_resolution(72)
#context = fontmap.create_context()
LEFT, CENTER, RIGHT = -1, 0, 1
def __init__(self, pen, x, y, j, w, t):
Shape.__init__(self)
self.pen = pen.copy()
self.x = x
self.y = y
self.j = j
self.w = w
self.t = t
def draw(self, cr, highlight=False):
try:
layout = self.layout
except AttributeError:
layout = cr.create_layout()
# set font options
# see http://lists.freedesktop.org/archives/cairo/2007-February/009688.html
context = layout.get_context()
fo = cairo.FontOptions()
fo.set_antialias(cairo.ANTIALIAS_DEFAULT)
fo.set_hint_style(cairo.HINT_STYLE_NONE)
fo.set_hint_metrics(cairo.HINT_METRICS_OFF)
pangocairo.context_set_font_options(context, fo)
# set font
font = pango.FontDescription()
font.set_family(self.pen.fontname)
font.set_absolute_size(self.pen.fontsize*pango.SCALE)
layout.set_font_description(font)
# set text
layout.set_text(self.t)
# cache it
self.layout = layout
else:
cr.update_layout(layout)
descent = 2 # XXX get descender from font metrics
width, height = layout.get_size()
width = float(width)/pango.SCALE
height = float(height)/pango.SCALE
# we know the width that dot thinks this text should have
# we do not necessarily have a font with the same metrics
# scale it so that the text fits inside its box
if width > self.w:
f = self.w / width
width = self.w # equivalent to width *= f
height *= f
descent *= f
else:
f = 1.0
if self.j == self.LEFT:
x = self.x
elif self.j == self.CENTER:
x = self.x - 0.5*width
elif self.j == self.RIGHT:
x = self.x - width
else:
assert 0
y = self.y - height + descent
cr.move_to(x, y)
cr.save()
cr.scale(f, f)
cr.set_source_rgba(*self.select_pen(highlight).color)
cr.show_layout(layout)
cr.restore()
if 0: # DEBUG
# show where dot thinks the text should appear
cr.set_source_rgba(1, 0, 0, .9)
if self.j == self.LEFT:
x = self.x
elif self.j == self.CENTER:
x = self.x - 0.5*self.w
elif self.j == self.RIGHT:
x = self.x - self.w
cr.move_to(x, self.y)
cr.line_to(x+self.w, self.y)
cr.stroke()
class EllipseShape(Shape):
def __init__(self, pen, x0, y0, w, h, filled=False):
Shape.__init__(self)
self.pen = pen.copy()
self.x0 = x0
self.y0 = y0
self.w = w
self.h = h
self.filled = filled
def draw(self, cr, highlight=False):
cr.save()
cr.translate(self.x0, self.y0)
cr.scale(self.w, self.h)
cr.move_to(1.0, 0.0)
cr.arc(0.0, 0.0, 1.0, 0, 2.0*math.pi)
cr.restore()
pen = self.select_pen(highlight)
if self.filled:
cr.set_source_rgba(*pen.fillcolor)
cr.fill()
else:
cr.set_dash(pen.dash)
cr.set_line_width(pen.linewidth)
cr.set_source_rgba(*pen.color)
cr.stroke()
class PolygonShape(Shape):
def __init__(self, pen, points, filled=False):
Shape.__init__(self)
self.pen = pen.copy()
self.points = points
self.filled = filled
def draw(self, cr, highlight=False):
x0, y0 = self.points[-1]
cr.move_to(x0, y0)
for x, y in self.points:
cr.line_to(x, y)
cr.close_path()
pen = self.select_pen(highlight)
if self.filled:
cr.set_source_rgba(*pen.fillcolor)
cr.fill_preserve()
cr.fill()
else:
cr.set_dash(pen.dash)
cr.set_line_width(pen.linewidth)
cr.set_source_rgba(*pen.color)
cr.stroke()
class LineShape(Shape):
def __init__(self, pen, points):
Shape.__init__(self)
self.pen = pen.copy()
self.points = points
def draw(self, cr, highlight=False):
x0, y0 = self.points[0]
cr.move_to(x0, y0)
for x1, y1 in self.points[1:]:
cr.line_to(x1, y1)
pen = self.select_pen(highlight)
cr.set_dash(pen.dash)
cr.set_line_width(pen.linewidth)
cr.set_source_rgba(*pen.color)
cr.stroke()
class BezierShape(Shape):
def __init__(self, pen, points):
Shape.__init__(self)
self.pen = pen.copy()
self.points = points
def draw(self, cr, highlight=False):
x0, y0 = self.points[0]
cr.move_to(x0, y0)
for i in xrange(1, len(self.points), 3):
x1, y1 = self.points[i]
x2, y2 = self.points[i + 1]
x3, y3 = self.points[i + 2]
cr.curve_to(x1, y1, x2, y2, x3, y3)
pen = self.select_pen(highlight)
cr.set_dash(pen.dash)
cr.set_line_width(pen.linewidth)
cr.set_source_rgba(*pen.color)
cr.stroke()
class CompoundShape(Shape):
def __init__(self, shapes):
Shape.__init__(self)
self.shapes = shapes
def draw(self, cr, highlight=False):
for shape in self.shapes:
shape.draw(cr, highlight=highlight)
class Url(object):
def __init__(self, item, url, highlight=None):
self.item = item
self.url = url
if highlight is None:
highlight = set([item])
self.highlight = highlight
class Jump(object):
def __init__(self, item, x, y, highlight=None):
self.item = item
self.x = x
self.y = y
if highlight is None:
highlight = set([item])
self.highlight = highlight
class Element(CompoundShape):
"""Base class for graph nodes and edges."""
def __init__(self, shapes):
CompoundShape.__init__(self, shapes)
def get_url(self, x, y):
return None
def get_jump(self, x, y):
return None
class Node(Element):
def __init__(self, x, y, w, h, shapes, url):
Element.__init__(self, shapes)
self.x = x
self.y = y
self.x1 = x - 0.5*w
self.y1 = y - 0.5*h
self.x2 = x + 0.5*w
self.y2 = y + 0.5*h
self.url = url
def is_inside(self, x, y):
return self.x1 <= x and x <= self.x2 and self.y1 <= y and y <= self.y2
def get_url(self, x, y):
if self.url is None:
return None
#print (x, y), (self.x1, self.y1), "-", (self.x2, self.y2)
if self.is_inside(x, y):
return Url(self, self.url)
return None
def get_jump(self, x, y):
if self.is_inside(x, y):
return Jump(self, self.x, self.y)
return None
def square_distance(x1, y1, x2, y2):
deltax = x2 - x1
deltay = y2 - y1
return deltax*deltax + deltay*deltay
class Edge(Element):
def __init__(self, src, dst, points, shapes):
Element.__init__(self, shapes)
self.src = src
self.dst = dst
self.points = points
RADIUS = 10
def get_jump(self, x, y):
if square_distance(x, y, *self.points[0]) <= self.RADIUS*self.RADIUS:
return Jump(self, self.dst.x, self.dst.y, highlight=set([self, self.dst]))
if square_distance(x, y, *self.points[-1]) <= self.RADIUS*self.RADIUS:
return Jump(self, self.src.x, self.src.y, highlight=set([self, self.src]))
return None
class Graph(Shape):
def __init__(self, width=1, height=1, nodes=(), edges=()):
Shape.__init__(self)
self.width = width
self.height = height
self.nodes = nodes
self.edges = edges
def get_size(self):
return self.width, self.height
def draw(self, cr, highlight_items=None):
if highlight_items is None:
highlight_items = ()
cr.set_source_rgba(0.0, 0.0, 0.0, 1.0)
cr.set_line_cap(cairo.LINE_CAP_BUTT)
cr.set_line_join(cairo.LINE_JOIN_MITER)
for edge in self.edges:
edge.draw(cr, highlight=(edge in highlight_items))
for node in self.nodes:
node.draw(cr, highlight=(node in highlight_items))
def get_url(self, x, y):
for node in self.nodes:
url = node.get_url(x, y)
if url is not None:
return url
return None
def get_jump(self, x, y):
for edge in self.edges:
jump = edge.get_jump(x, y)
if jump is not None:
return jump
for node in self.nodes:
jump = node.get_jump(x, y)
if jump is not None:
return jump
return None
class XDotAttrParser:
"""Parser for xdot drawing attributes.
See also:
- http://www.graphviz.org/doc/info/output.html#d:xdot
"""
def __init__(self, parser, buf):
self.parser = parser
self.buf = self.unescape(buf)
self.pos = 0
def __nonzero__(self):
return self.pos < len(self.buf)
def unescape(self, buf):
buf = buf.replace('\\"', '"')
buf = buf.replace('\\n', '\n')
return buf
def read_code(self):
pos = self.buf.find(" ", self.pos)
res = self.buf[self.pos:pos]
self.pos = pos + 1
while self.pos < len(self.buf) and self.buf[self.pos].isspace():
self.pos += 1
return res
def read_number(self):
return int(self.read_code())
def read_float(self):
return float(self.read_code())
def read_point(self):
x = self.read_number()
y = self.read_number()
return self.transform(x, y)
def read_text(self):
num = self.read_number()
pos = self.buf.find("-", self.pos) + 1
self.pos = pos + num
res = self.buf[pos:self.pos]
while self.pos < len(self.buf) and self.buf[self.pos].isspace():
self.pos += 1
return res
def read_polygon(self):
n = self.read_number()
p = []
for i in range(n):
x, y = self.read_point()
p.append((x, y))
return p
def read_color(self, fallback=(0,0,0,1)):
# See http://www.graphviz.org/doc/info/attrs.html#k:color
c = self.read_text()
c1 = c[:1]
if c1 == '#':
hex2float = lambda h: float(int(h, 16)/255.0)
r = hex2float(c[1:3])
g = hex2float(c[3:5])
b = hex2float(c[5:7])
try:
a = hex2float(c[7:9])
except (IndexError, ValueError):
a = 1.0
return r, g, b, a
elif c1.isdigit() or c1 == ".":
# "H,S,V" or "H S V" or "H, S, V" or any other variation
h, s, v = map(float, c.replace(",", " ").split())
r, g, b = colorsys.hsv_to_rgb(h, s, v)
a = 1.0
return r, g, b, a
else:
try:
color = gtk.gdk.color_parse(c)
except ValueError:
sys.stderr.write("unknown color '%s'\n" % c)
return fallback
s = 1.0/65535.0
r = color.red*s
g = color.green*s
b = color.blue*s
a = 1.0
return r, g, b, a
def parse(self):
shapes = []
pen = Pen()
s = self
while s:
op = s.read_code()
if op == "c":
pen.color = s.read_color(fallback=pen.color)
elif op == "C":
pen.fillcolor = s.read_color(fallback=pen.fillcolor)
elif op == "S":
style = s.read_text()
if style.startswith("setlinewidth("):
lw = style.split("(")[1].split(")")[0]
pen.linewidth = float(lw)
elif style == "solid":
pen.dash = ()
elif style == "dashed":
pen.dash = (6, ) # 6pt on, 6pt off
elif op == "F":
pen.fontsize = s.read_float()
pen.fontname = s.read_text()
elif op == "T":
x, y = s.read_point()
j = s.read_number()
w = s.read_number()
t = s.read_text()
shapes.append(TextShape(pen, x, y, j, w, t))
elif op == "E":
x0, y0 = s.read_point()
w = s.read_number()
h = s.read_number()
# xdot uses this to mean "draw a filled shape with an outline"
shapes.append(EllipseShape(pen, x0, y0, w, h, filled=True))
shapes.append(EllipseShape(pen, x0, y0, w, h))
elif op == "e":
x0, y0 = s.read_point()
w = s.read_number()
h = s.read_number()
shapes.append(EllipseShape(pen, x0, y0, w, h))
elif op == "L":
p = self.read_polygon()
shapes.append(LineShape(pen, p))
elif op == "B":
p = self.read_polygon()
shapes.append(BezierShape(pen, p))
elif op == "P":
p = self.read_polygon()
# xdot uses this to mean "draw a filled shape with an outline"
shapes.append(PolygonShape(pen, p, filled=True))
shapes.append(PolygonShape(pen, p))
elif op == "p":
p = self.read_polygon()
shapes.append(PolygonShape(pen, p))
else:
sys.stderr.write("unknown xdot opcode '%s'\n" % op)
break
return shapes
def transform(self, x, y):
return self.parser.transform(x, y)
EOF = -1
SKIP = -2
class ParseError(Exception):
def __init__(self, msg=None, filename=None, line=None, col=None):
self.msg = msg
self.filename = filename
self.line = line
self.col = col
def __str__(self):
return ':'.join([str(part) for part in (self.filename, self.line, self.col, self.msg) if part != None])
class Scanner:
"""Stateless scanner."""
# should be overriden by derived classes
tokens = []
symbols = {}
literals = {}
ignorecase = False
def __init__(self):
flags = re.DOTALL
if self.ignorecase:
flags |= re.IGNORECASE
self.tokens_re = re.compile(
'|'.join(['(' + regexp + ')' for type, regexp, test_lit in self.tokens]),
flags
)
def next(self, buf, pos):
if pos >= len(buf):
return EOF, '', pos
mo = self.tokens_re.match(buf, pos)
if mo:
text = mo.group()
type, regexp, test_lit = self.tokens[mo.lastindex - 1]
pos = mo.end()
if test_lit:
type = self.literals.get(text, type)
return type, text, pos
else:
c = buf[pos]
return self.symbols.get(c, None), c, pos + 1
class Token:
def __init__(self, type, text, line, col):
self.type = type
self.text = text
self.line = line
self.col = col
class Lexer:
# should be overriden by derived classes
scanner = None
tabsize = 8
newline_re = re.compile(r'\r\n?|\n')
def __init__(self, buf = None, pos = 0, filename = None, fp = None):
if fp is not None:
try:
fileno = fp.fileno()
length = os.path.getsize(fp.name)
import mmap
except:
# read whole file into memory
buf = fp.read()
pos = 0
else:
# map the whole file into memory
if length:
# length must not be zero
buf = mmap.mmap(fileno, length, access = mmap.ACCESS_READ)
pos = os.lseek(fileno, 0, 1)
else:
buf = ''
pos = 0
if filename is None:
try:
filename = fp.name
except AttributeError:
filename = None
self.buf = buf
self.pos = pos
self.line = 1
self.col = 1
self.filename = filename
def next(self):
while True:
# save state
pos = self.pos
line = self.line
col = self.col
type, text, endpos = self.scanner.next(self.buf, pos)
assert pos + len(text) == endpos
self.consume(text)
type, text = self.filter(type, text)
self.pos = endpos
if type == SKIP:
continue
elif type is None:
msg = 'unexpected char '
if text >= ' ' and text <= '~':
msg += "'%s'" % text
else:
msg += "0x%X" % ord(text)
raise ParseError(msg, self.filename, line, col)
else:
break
return Token(type = type, text = text, line = line, col = col)
def consume(self, text):
# update line number
pos = 0
for mo in self.newline_re.finditer(text, pos):
self.line += 1
self.col = 1
pos = mo.end()
# update column number
while True:
tabpos = text.find('\t', pos)
if tabpos == -1:
break
self.col += tabpos - pos
self.col = ((self.col - 1)//self.tabsize + 1)*self.tabsize + 1
pos = tabpos + 1
self.col += len(text) - pos
class Parser:
def __init__(self, lexer):
self.lexer = lexer
self.lookahead = self.lexer.next()
def match(self, type):
if self.lookahead.type != type:
raise ParseError(
msg = 'unexpected token %r' % self.lookahead.text,
filename = self.lexer.filename,
line = self.lookahead.line,
col = self.lookahead.col)
def skip(self, type):
while self.lookahead.type != type:
self.consume()
def consume(self):
token = self.lookahead
self.lookahead = self.lexer.next()
return token
ID = 0
STR_ID = 1
HTML_ID = 2
EDGE_OP = 3
LSQUARE = 4
RSQUARE = 5
LCURLY = 6
RCURLY = 7
COMMA = 8
COLON = 9
SEMI = 10
EQUAL = 11
PLUS = 12
STRICT = 13
GRAPH = 14
DIGRAPH = 15
NODE = 16
EDGE = 17
SUBGRAPH = 18
class DotScanner(Scanner):
# token regular expression table
tokens = [
# whitespace and comments
(SKIP,
r'[ \t\f\r\n\v]+|'
r'//[^\r\n]*|'
r'/\*.*?\*/|'
r'#[^\r\n]*',
False),
# Alphanumeric IDs
(ID, r'[a-zA-Z_\x80-\xff][a-zA-Z0-9_\x80-\xff]*', True),
# Numeric IDs
(ID, r'-?(?:\.[0-9]+|[0-9]+(?:\.[0-9]*)?)', False),
# String IDs
(STR_ID, r'"[^"\\]*(?:\\.[^"\\]*)*"', False),
# HTML IDs
(HTML_ID, r'<[^<>]*(?:<[^<>]*>[^<>]*)*>', False),
# Edge operators
(EDGE_OP, r'-[>-]', False),
]
# symbol table
symbols = {
'[': LSQUARE,
']': RSQUARE,
'{': LCURLY,
'}': RCURLY,
',': COMMA,
':': COLON,
';': SEMI,
'=': EQUAL,
'+': PLUS,
}
# literal table
literals = {
'strict': STRICT,
'graph': GRAPH,
'digraph': DIGRAPH,
'node': NODE,
'edge': EDGE,
'subgraph': SUBGRAPH,
}
ignorecase = True
class DotLexer(Lexer):
scanner = DotScanner()
def filter(self, type, text):
# TODO: handle charset
if type == STR_ID:
text = text[1:-1]
# line continuations
text = text.replace('\\\r\n', '')
text = text.replace('\\\r', '')
text = text.replace('\\\n', '')
text = text.replace('\\r', '\r')
text = text.replace('\\n', '\n')
text = text.replace('\\t', '\t')
text = text.replace('\\', '')
type = ID
elif type == HTML_ID:
text = text[1:-1]
type = ID
return type, text
class DotParser(Parser):
def __init__(self, lexer):
Parser.__init__(self, lexer)
self.graph_attrs = {}
self.node_attrs = {}
self.edge_attrs = {}
def parse(self):
self.parse_graph()
self.match(EOF)
def parse_graph(self):
if self.lookahead.type == STRICT:
self.consume()
self.skip(LCURLY)
self.consume()
while self.lookahead.type != RCURLY:
self.parse_stmt()
self.consume()
def parse_subgraph(self):
id = None
if self.lookahead.type == SUBGRAPH:
self.consume()
if self.lookahead.type == ID:
id = self.lookahead.text
self.consume()
if self.lookahead.type == LCURLY:
self.consume()
while self.lookahead.type != RCURLY:
self.parse_stmt()
self.consume()
return id
def parse_stmt(self):
if self.lookahead.type == GRAPH:
self.consume()
attrs = self.parse_attrs()
self.graph_attrs.update(attrs)
self.handle_graph(attrs)
elif self.lookahead.type == NODE:
self.consume()
self.node_attrs.update(self.parse_attrs())
elif self.lookahead.type == EDGE:
self.consume()
self.edge_attrs.update(self.parse_attrs())
elif self.lookahead.type in (SUBGRAPH, LCURLY):
self.parse_subgraph()
else:
id = self.parse_node_id()
if self.lookahead.type == EDGE_OP:
self.consume()
node_ids = [id, self.parse_node_id()]
while self.lookahead.type == EDGE_OP:
node_ids.append(self.parse_node_id())
attrs = self.parse_attrs()
for i in range(0, len(node_ids) - 1):
self.handle_edge(node_ids[i], node_ids[i + 1], attrs)
elif self.lookahead.type == EQUAL:
self.consume()
self.parse_id()
else:
attrs = self.parse_attrs()
self.handle_node(id, attrs)
if self.lookahead.type == SEMI:
self.consume()
def parse_attrs(self):
attrs = {}
while self.lookahead.type == LSQUARE:
self.consume()
while self.lookahead.type != RSQUARE:
name, value = self.parse_attr()
attrs[name] = value
if self.lookahead.type == COMMA:
self.consume()
self.consume()
return attrs
def parse_attr(self):
name = self.parse_id()
if self.lookahead.type == EQUAL:
self.consume()
value = self.parse_id()
else:
value = 'true'
return name, value
def parse_node_id(self):
node_id = self.parse_id()
if self.lookahead.type == COLON:
self.consume()
port = self.parse_id()
if self.lookahead.type == COLON:
self.consume()
compass_pt = self.parse_id()
else:
compass_pt = None
else:
port = None
compass_pt = None
# XXX: we don't really care about port and compass point values when parsing xdot
return node_id
def parse_id(self):
self.match(ID)
id = self.lookahead.text
self.consume()
return id
def handle_graph(self, attrs):
pass
def handle_node(self, id, attrs):
pass
def handle_edge(self, src_id, dst_id, attrs):
pass
class XDotParser(DotParser):
def __init__(self, xdotcode):
lexer = DotLexer(buf = xdotcode)
DotParser.__init__(self, lexer)
self.nodes = []
self.edges = []
self.node_by_name = {}
def handle_graph(self, attrs):
try:
bb = attrs['bb']
except KeyError:
return
xmin, ymin, xmax, ymax = map(int, bb.split(","))
self.xoffset = -xmin
self.yoffset = -ymax
self.xscale = 1.0
self.yscale = -1.0
# FIXME: scale from points to pixels
self.width = xmax - xmin
self.height = ymax - ymin
def handle_node(self, id, attrs):
try:
pos = attrs['pos']
except KeyError:
return
x, y = self.parse_node_pos(pos)
w = float(attrs['width'])*72
h = float(attrs['height'])*72
shapes = []
for attr in ("_draw_", "_ldraw_"):
if attr in attrs:
parser = XDotAttrParser(self, attrs[attr])
shapes.extend(parser.parse())
url = attrs.get('URL', None)
node = Node(x, y, w, h, shapes, url)
self.node_by_name[id] = node
if shapes:
self.nodes.append(node)
def handle_edge(self, src_id, dst_id, attrs):
try:
pos = attrs['pos']
except KeyError:
return
points = self.parse_edge_pos(pos)
shapes = []
for attr in ("_draw_", "_ldraw_", "_hdraw_", "_tdraw_", "_hldraw_", "_tldraw_"):
if attr in attrs:
parser = XDotAttrParser(self, attrs[attr])
shapes.extend(parser.parse())
if shapes:
src = self.node_by_name[src_id]
dst = self.node_by_name[dst_id]
self.edges.append(Edge(src, dst, points, shapes))
def parse(self):
DotParser.parse(self)
return Graph(self.width, self.height, self.nodes, self.edges)
def parse_node_pos(self, pos):
x, y = pos.split(",")
return self.transform(float(x), float(y))
def parse_edge_pos(self, pos):
points = []
for entry in pos.split(' '):
fields = entry.split(',')
try:
x, y = fields
except ValueError:
# TODO: handle start/end points
continue
else:
points.append(self.transform(float(x), float(y)))
return points
def transform(self, x, y):
# XXX: this is not the right place for this code
x = (x + self.xoffset)*self.xscale
y = (y + self.yoffset)*self.yscale
return x, y
class Animation(object):
step = 0.03 # seconds
def __init__(self, dot_widget):
self.dot_widget = dot_widget
self.timeout_id = None
def start(self):
self.timeout_id = gobject.timeout_add(int(self.step * 1000), self.tick)
def stop(self):
self.dot_widget.animation = NoAnimation(self.dot_widget)
if self.timeout_id is not None:
gobject.source_remove(self.timeout_id)
self.timeout_id = None
def tick(self):
self.stop()
class NoAnimation(Animation):
def start(self):
pass
def stop(self):
pass
class LinearAnimation(Animation):
duration = 0.6
def start(self):
self.started = time.time()
Animation.start(self)
def tick(self):
t = (time.time() - self.started) / self.duration
self.animate(max(0, min(t, 1)))
return (t < 1)
def animate(self, t):
pass
class MoveToAnimation(LinearAnimation):
def __init__(self, dot_widget, target_x, target_y):
Animation.__init__(self, dot_widget)
self.source_x = dot_widget.x
self.source_y = dot_widget.y
self.target_x = target_x
self.target_y = target_y
def animate(self, t):
sx, sy = self.source_x, self.source_y
tx, ty = self.target_x, self.target_y
self.dot_widget.x = tx * t + sx * (1-t)
self.dot_widget.y = ty * t + sy * (1-t)
self.dot_widget.queue_draw()
class ZoomToAnimation(MoveToAnimation):
def __init__(self, dot_widget, target_x, target_y):
MoveToAnimation.__init__(self, dot_widget, target_x, target_y)
self.source_zoom = dot_widget.zoom_ratio
self.target_zoom = self.source_zoom
self.extra_zoom = 0
middle_zoom = 0.5 * (self.source_zoom + self.target_zoom)
distance = math.hypot(self.source_x - self.target_x,
self.source_y - self.target_y)
rect = self.dot_widget.get_allocation()
visible = min(rect.width, rect.height) / self.dot_widget.zoom_ratio
visible *= 0.9
if distance > 0:
desired_middle_zoom = visible / distance
self.extra_zoom = min(0, 4 * (desired_middle_zoom - middle_zoom))
def animate(self, t):
a, b, c = self.source_zoom, self.extra_zoom, self.target_zoom
self.dot_widget.zoom_ratio = c*t + b*t*(1-t) + a*(1-t)
self.dot_widget.zoom_to_fit_on_resize = False
MoveToAnimation.animate(self, t)
class DragAction(object):
def __init__(self, dot_widget):
self.dot_widget = dot_widget
def on_button_press(self, event):
self.startmousex = self.prevmousex = event.x
self.startmousey = self.prevmousey = event.y
self.start()
def on_motion_notify(self, event):
deltax = self.prevmousex - event.x
deltay = self.prevmousey - event.y
self.drag(deltax, deltay)
self.prevmousex = event.x
self.prevmousey = event.y
def on_button_release(self, event):
self.stopmousex = event.x
self.stopmousey = event.y
self.stop()
def draw(self, cr):
pass
def start(self):
pass
def drag(self, deltax, deltay):
pass
def stop(self):
pass
def abort(self):
pass
class NullAction(DragAction):
def on_motion_notify(self, event):
dot_widget = self.dot_widget
item = dot_widget.get_url(event.x, event.y)
if item is None:
item = dot_widget.get_jump(event.x, event.y)
if item is not None:
dot_widget.window.set_cursor(gtk.gdk.Cursor(gtk.gdk.HAND2))
dot_widget.set_highlight(item.highlight)
else:
dot_widget.window.set_cursor(gtk.gdk.Cursor(gtk.gdk.ARROW))
dot_widget.set_highlight(None)
class PanAction(DragAction):
def start(self):
self.dot_widget.window.set_cursor(gtk.gdk.Cursor(gtk.gdk.FLEUR))
def drag(self, deltax, deltay):
self.dot_widget.x += deltax / self.dot_widget.zoom_ratio
self.dot_widget.y += deltay / self.dot_widget.zoom_ratio
self.dot_widget.queue_draw()
def stop(self):
self.dot_widget.window.set_cursor(gtk.gdk.Cursor(gtk.gdk.ARROW))
abort = stop
class ZoomAction(DragAction):
def drag(self, deltax, deltay):
self.dot_widget.zoom_ratio *= 1.005 ** (deltax + deltay)
self.dot_widget.zoom_to_fit_on_resize = False
self.dot_widget.queue_draw()
def stop(self):
self.dot_widget.queue_draw()
class ZoomAreaAction(DragAction):
def drag(self, deltax, deltay):
self.dot_widget.queue_draw()
def draw(self, cr):
cr.save()
cr.set_source_rgba(.5, .5, 1.0, 0.25)
cr.rectangle(self.startmousex, self.startmousey,
self.prevmousex - self.startmousex,
self.prevmousey - self.startmousey)
cr.fill()
cr.set_source_rgba(.5, .5, 1.0, 1.0)
cr.set_line_width(1)
cr.rectangle(self.startmousex - .5, self.startmousey - .5,
self.prevmousex - self.startmousex + 1,
self.prevmousey - self.startmousey + 1)
cr.stroke()
cr.restore()
def stop(self):
x1, y1 = self.dot_widget.window2graph(self.startmousex,
self.startmousey)
x2, y2 = self.dot_widget.window2graph(self.stopmousex,
self.stopmousey)
self.dot_widget.zoom_to_area(x1, y1, x2, y2)
def abort(self):
self.dot_widget.queue_draw()
class DotWidget(gtk.DrawingArea):
"""PyGTK widget that draws dot graphs."""
__gsignals__ = {
'expose-event': 'override',
'clicked' : (gobject.SIGNAL_RUN_LAST, gobject.TYPE_NONE, (gobject.TYPE_STRING, gtk.gdk.Event))
}
filter = 'dot'
def __init__(self):
gtk.DrawingArea.__init__(self)
self.graph = Graph()
self.set_flags(gtk.CAN_FOCUS)
self.add_events(gtk.gdk.BUTTON_PRESS_MASK | gtk.gdk.BUTTON_RELEASE_MASK)
self.connect("button-press-event", self.on_area_button_press)
self.connect("button-release-event", self.on_area_button_release)
self.add_events(gtk.gdk.POINTER_MOTION_MASK | gtk.gdk.POINTER_MOTION_HINT_MASK | gtk.gdk.BUTTON_RELEASE_MASK)
self.connect("motion-notify-event", self.on_area_motion_notify)
self.connect("scroll-event", self.on_area_scroll_event)
self.connect("size-allocate", self.on_area_size_allocate)
self.connect('key-press-event', self.on_key_press_event)
self.x, self.y = 0.0, 0.0
self.zoom_ratio = 1.0
self.zoom_to_fit_on_resize = False
self.animation = NoAnimation(self)
self.drag_action = NullAction(self)
self.presstime = None
self.highlight = None
def set_filter(self, filter):
self.filter = filter
def set_dotcode(self, dotcode, filename='<stdin>'):
p = subprocess.Popen(
[self.filter, '-Txdot'],
stdin=subprocess.PIPE,
stdout=subprocess.PIPE,
shell=False,
universal_newlines=True
)
xdotcode = p.communicate(dotcode)[0]
try:
self.set_xdotcode(xdotcode)
except ParseError, ex:
error_dlg = gtk.MessageDialog(type=gtk.MESSAGE_ERROR,
message_format=str(ex),
buttons=gtk.BUTTONS_OK)
error_dlg.set_title('Dot Viewer')
error_dlg.run()
error_dlg.destroy()
return False
else:
return True
def set_xdotcode(self, xdotcode):
#print xdotcode
parser = XDotParser(xdotcode)
self.graph = parser.parse()
self.zoom_image(self.zoom_ratio, center=True)
def do_expose_event(self, event):
cr = self.window.cairo_create()
# set a clip region for the expose event
cr.rectangle(
event.area.x, event.area.y,
event.area.width, event.area.height
)
cr.clip()
cr.set_source_rgba(1.0, 1.0, 1.0, 1.0)
cr.paint()
cr.save()
rect = self.get_allocation()
cr.translate(0.5*rect.width, 0.5*rect.height)
cr.scale(self.zoom_ratio, self.zoom_ratio)
cr.translate(-self.x, -self.y)
self.graph.draw(cr, highlight_items=self.highlight)
cr.restore()
self.drag_action.draw(cr)
return False
def get_current_pos(self):
return self.x, self.y
def set_current_pos(self, x, y):
self.x = x
self.y = y
self.queue_draw()
def set_highlight(self, items):
if self.highlight != items:
self.highlight = items
self.queue_draw()
def zoom_image(self, zoom_ratio, center=False, pos=None):
if center:
self.x = self.graph.width/2
self.y = self.graph.height/2
elif pos is not None:
rect = self.get_allocation()
x, y = pos
x -= 0.5*rect.width
y -= 0.5*rect.height
self.x += x / self.zoom_ratio - x / zoom_ratio
self.y += y / self.zoom_ratio - y / zoom_ratio
self.zoom_ratio = zoom_ratio
self.zoom_to_fit_on_resize = False
self.queue_draw()
def zoom_to_area(self, x1, y1, x2, y2):
rect = self.get_allocation()
width = abs(x1 - x2)
height = abs(y1 - y2)
self.zoom_ratio = min(
float(rect.width)/float(width),
float(rect.height)/float(height)
)
self.zoom_to_fit_on_resize = False
self.x = (x1 + x2) / 2
self.y = (y1 + y2) / 2
self.queue_draw()
def zoom_to_fit(self):
rect = self.get_allocation()
rect.x += self.ZOOM_TO_FIT_MARGIN
rect.y += self.ZOOM_TO_FIT_MARGIN
rect.width -= 2 * self.ZOOM_TO_FIT_MARGIN
rect.height -= 2 * self.ZOOM_TO_FIT_MARGIN
zoom_ratio = min(
float(rect.width)/float(self.graph.width),
float(rect.height)/float(self.graph.height)
)
self.zoom_image(zoom_ratio, center=True)
self.zoom_to_fit_on_resize = True
ZOOM_INCREMENT = 1.25
ZOOM_TO_FIT_MARGIN = 12
def on_zoom_in(self, action):
self.zoom_image(self.zoom_ratio * self.ZOOM_INCREMENT)
def on_zoom_out(self, action):
self.zoom_image(self.zoom_ratio / self.ZOOM_INCREMENT)
def on_zoom_fit(self, action):
self.zoom_to_fit()
def on_zoom_100(self, action):
self.zoom_image(1.0)
POS_INCREMENT = 100
def on_key_press_event(self, widget, event):
if event.keyval == gtk.keysyms.Left:
self.x -= self.POS_INCREMENT/self.zoom_ratio
self.queue_draw()
return True
if event.keyval == gtk.keysyms.Right:
self.x += self.POS_INCREMENT/self.zoom_ratio
self.queue_draw()
return True
if event.keyval == gtk.keysyms.Up:
self.y -= self.POS_INCREMENT/self.zoom_ratio
self.queue_draw()
return True
if event.keyval == gtk.keysyms.Down:
self.y += self.POS_INCREMENT/self.zoom_ratio
self.queue_draw()
return True
if event.keyval == gtk.keysyms.Page_Up:
self.zoom_image(self.zoom_ratio * self.ZOOM_INCREMENT)
self.queue_draw()
return True
if event.keyval == gtk.keysyms.Page_Down:
self.zoom_image(self.zoom_ratio / self.ZOOM_INCREMENT)
self.queue_draw()
return True
if event.keyval == gtk.keysyms.Escape:
self.drag_action.abort()
self.drag_action = NullAction(self)
return True
return False
def get_drag_action(self, event):
state = event.state
if event.button in (1, 2): # left or middle button
if state & gtk.gdk.CONTROL_MASK:
return ZoomAction
elif state & gtk.gdk.SHIFT_MASK:
return ZoomAreaAction
else:
return PanAction
return NullAction
def on_area_button_press(self, area, event):
self.animation.stop()
self.drag_action.abort()
action_type = self.get_drag_action(event)
self.drag_action = action_type(self)
self.drag_action.on_button_press(event)
self.presstime = time.time()
self.pressx = event.x
self.pressy = event.y
return False
def is_click(self, event, click_fuzz=4, click_timeout=1.0):
assert event.type == gtk.gdk.BUTTON_RELEASE
if self.presstime is None:
# got a button release without seeing the press?
return False
# XXX instead of doing this complicated logic, shouldn't we listen
# for gtk's clicked event instead?
deltax = self.pressx - event.x
deltay = self.pressy - event.y
return (time.time() < self.presstime + click_timeout
and math.hypot(deltax, deltay) < click_fuzz)
def on_area_button_release(self, area, event):
self.drag_action.on_button_release(event)
self.drag_action = NullAction(self)
if event.button == 1 and self.is_click(event):
x, y = int(event.x), int(event.y)
url = self.get_url(x, y)
if url is not None:
self.emit('clicked', unicode(url.url), event)
else:
jump = self.get_jump(x, y)
if jump is not None:
self.animate_to(jump.x, jump.y)
return True
if event.button == 1 or event.button == 2:
return True
return False
def on_area_scroll_event(self, area, event):
if event.direction == gtk.gdk.SCROLL_UP:
self.zoom_image(self.zoom_ratio * self.ZOOM_INCREMENT,
pos=(event.x, event.y))
return True
if event.direction == gtk.gdk.SCROLL_DOWN:
self.zoom_image(self.zoom_ratio / self.ZOOM_INCREMENT,
pos=(event.x, event.y))
return True
return False
def on_area_motion_notify(self, area, event):
self.drag_action.on_motion_notify(event)
return True
def on_area_size_allocate(self, area, allocation):
if self.zoom_to_fit_on_resize:
self.zoom_to_fit()
def animate_to(self, x, y):
self.animation = ZoomToAnimation(self, x, y)
self.animation.start()
def window2graph(self, x, y):
rect = self.get_allocation()
x -= 0.5*rect.width
y -= 0.5*rect.height
x /= self.zoom_ratio
y /= self.zoom_ratio
x += self.x
y += self.y
return x, y
def get_url(self, x, y):
x, y = self.window2graph(x, y)
return self.graph.get_url(x, y)
def get_jump(self, x, y):
x, y = self.window2graph(x, y)
return self.graph.get_jump(x, y)
class DotWindow(gtk.Window):
ui = '''
<ui>
<toolbar name="ToolBar">
<toolitem action="Open"/>
<separator/>
<toolitem action="ZoomIn"/>
<toolitem action="ZoomOut"/>
<toolitem action="ZoomFit"/>
<toolitem action="Zoom100"/>
</toolbar>
</ui>
'''
def __init__(self):
gtk.Window.__init__(self)
self.graph = Graph()
window = self
window.set_title('Dot Viewer')
window.set_default_size(512, 512)
vbox = gtk.VBox()
window.add(vbox)
self.widget = DotWidget()
# Create a UIManager instance
uimanager = self.uimanager = gtk.UIManager()
# Add the accelerator group to the toplevel window
accelgroup = uimanager.get_accel_group()
window.add_accel_group(accelgroup)
# Create an ActionGroup
actiongroup = gtk.ActionGroup('Actions')
self.actiongroup = actiongroup
# Create actions
actiongroup.add_actions((
('Open', gtk.STOCK_OPEN, None, None, None, self.on_open),
('ZoomIn', gtk.STOCK_ZOOM_IN, None, None, None, self.widget.on_zoom_in),
('ZoomOut', gtk.STOCK_ZOOM_OUT, None, None, None, self.widget.on_zoom_out),
('ZoomFit', gtk.STOCK_ZOOM_FIT, None, None, None, self.widget.on_zoom_fit),
('Zoom100', gtk.STOCK_ZOOM_100, None, None, None, self.widget.on_zoom_100),
))
# Add the actiongroup to the uimanager
uimanager.insert_action_group(actiongroup, 0)
# Add a UI descrption
uimanager.add_ui_from_string(self.ui)
# Create a Toolbar
toolbar = uimanager.get_widget('/ToolBar')
vbox.pack_start(toolbar, False)
vbox.pack_start(self.widget)
self.set_focus(self.widget)
self.show_all()
def set_filter(self, filter):
self.widget.set_filter(filter)
def set_dotcode(self, dotcode, filename='<stdin>'):
if self.widget.set_dotcode(dotcode, filename):
self.set_title(os.path.basename(filename) + ' - Dot Viewer')
self.widget.zoom_to_fit()
def set_xdotcode(self, xdotcode, filename='<stdin>'):
if self.widget.set_xdotcode(xdotcode):
self.set_title(os.path.basename(filename) + ' - Dot Viewer')
self.widget.zoom_to_fit()
def open_file(self, filename):
try:
fp = file(filename, 'rt')
self.set_dotcode(fp.read(), filename)
fp.close()
except IOError:
# TODO: show an error message
pass
def on_open(self, action):
chooser = gtk.FileChooserDialog(title="Open dot File",
action=gtk.FILE_CHOOSER_ACTION_OPEN,
buttons=(gtk.STOCK_CANCEL,
gtk.RESPONSE_CANCEL,
gtk.STOCK_OPEN,
gtk.RESPONSE_OK))
chooser.set_default_response(gtk.RESPONSE_OK)
filter = gtk.FileFilter()
filter.set_name("Graphviz dot files")
filter.add_pattern("*.dot")
chooser.add_filter(filter)
filter = gtk.FileFilter()
filter.set_name("All files")
filter.add_pattern("*")
chooser.add_filter(filter)
if chooser.run() == gtk.RESPONSE_OK:
filename = chooser.get_filename()
chooser.destroy()
self.open_file(filename)
else:
chooser.destroy()
def main():
import optparse
parser = optparse.OptionParser(
usage='\n\t%prog [file]',
version='%%prog %s' % __version__)
parser.add_option(
'-f', '--filter',
type='choice', choices=('dot', 'neato', 'twopi', 'circo', 'fdp'),
dest='filter', default='dot',
help='graphviz filter: dot, neato, twopi, circo, or fdp [default: %default]')
(options, args) = parser.parse_args(sys.argv[1:])
if len(args) > 1:
parser.error('incorrect number of arguments')
win = DotWindow()
win.connect('destroy', gtk.main_quit)
win.set_filter(options.filter)
if len(args) >= 1:
if args[0] == '-':
win.set_dotcode(sys.stdin.read())
else:
win.open_file(args[0])
gtk.main()
if __name__ == '__main__':
main()
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