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ipy_leo.mkbutton creates buttons on button bar
ipy_leo.mkbutton creates buttons on button bar
Ville M. Vainio - - Load All Authors

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ipy_leo.py
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/ IPython / Extensions / ipy_leo.py
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""" ILeo - Leo plugin for IPython
"""
import IPython.ipapi
import IPython.genutils
import IPython.generics
from IPython.hooks import CommandChainDispatcher
import re
import UserDict
from IPython.ipapi import TryNext
import IPython.macro
import IPython.Shell
_leo_push_history = set()
wb = None
def init_ipython(ipy):
""" This will be run by _ip.load('ipy_leo')
Leo still needs to run update_commander() after this.
"""
global ip
ip = ipy
IPython.Shell.hijack_tk()
ip.set_hook('complete_command', mb_completer, str_key = '%mb')
ip.expose_magic('mb',mb_f)
ip.expose_magic('lee',lee_f)
ip.expose_magic('leoref',leoref_f)
ip.expose_magic('lleo',lleo_f)
ip.expose_magic('lshadow', lshadow_f)
ip.expose_magic('lno', lno_f)
# Note that no other push command should EVER have lower than 0
expose_ileo_push(push_mark_req, -1)
expose_ileo_push(push_cl_node,100)
# this should be the LAST one that will be executed, and it will never raise TryNext
expose_ileo_push(push_ipython_script, 1000)
expose_ileo_push(push_plain_python, 100)
expose_ileo_push(push_ev_node, 100)
ip.set_hook('pre_prompt_hook', ileo_pre_prompt_hook)
global wb
wb = LeoWorkbook()
ip.user_ns['wb'] = wb
first_launch = True
c,g = None, None
def update_commander(new_leox):
""" Set the Leo commander to use
This will be run every time Leo does ipython-launch; basically,
when the user switches the document he is focusing on, he should do
ipython-launch to tell ILeo what document the commands apply to.
"""
global first_launch
if first_launch:
show_welcome()
first_launch = False
global c,g
c,g = new_leox.c, new_leox.g
print "Set Leo Commander:",c.frame.getTitle()
# will probably be overwritten by user, but handy for experimentation early on
ip.user_ns['c'] = c
ip.user_ns['g'] = g
ip.user_ns['_leo'] = new_leox
new_leox.push = push_position_from_leo
run_leo_startup_node()
ip.user_ns['_prompt_title'] = 'ileo'
from IPython.external.simplegeneric import generic
import pprint
def es(s):
g.es(s, tabName = 'IPython')
pass
@generic
def format_for_leo(obj):
""" Convert obj to string representiation (for editing in Leo)"""
return pprint.pformat(obj)
# Just an example - note that this is a bad to actually do!
#@format_for_leo.when_type(list)
#def format_list(obj):
# return "\n".join(str(s) for s in obj)
attribute_re = re.compile('^[a-zA-Z_][a-zA-Z0-9_]*$')
def valid_attribute(s):
return attribute_re.match(s)
_rootnode = None
def rootnode():
""" Get ileo root node (@ipy-root)
if node has become invalid or has not been set, return None
Note that the root is the *first* @ipy-root item found
"""
global _rootnode
if _rootnode is None:
return None
if c.positionExists(_rootnode.p):
return _rootnode
_rootnode = None
return None
def all_cells():
global _rootnode
d = {}
r = rootnode()
if r is not None:
nodes = r.p.children_iter()
else:
nodes = c.allNodes_iter()
for p in nodes:
h = p.headString()
if h.strip() == '@ipy-root':
# update root node (found it for the first time)
_rootnode = LeoNode(p)
# the next recursive call will use the children of new root
return all_cells()
if h.startswith('@a '):
d[h.lstrip('@a ').strip()] = p.parent().copy()
elif not valid_attribute(h):
continue
d[h] = p.copy()
return d
def eval_node(n):
body = n.b
if not body.startswith('@cl'):
# plain python repr node, just eval it
return ip.ev(n.b)
# @cl nodes deserve special treatment - first eval the first line (minus cl), then use it to call the rest of body
first, rest = body.split('\n',1)
tup = first.split(None, 1)
# @cl alone SPECIAL USE-> dump var to user_ns
if len(tup) == 1:
val = ip.ev(rest)
ip.user_ns[n.h] = val
es("%s = %s" % (n.h, repr(val)[:20] ))
return val
cl, hd = tup
xformer = ip.ev(hd.strip())
es('Transform w/ %s' % repr(xformer))
return xformer(rest, n)
class LeoNode(object, UserDict.DictMixin):
""" Node in Leo outline
Most important attributes (getters/setters available:
.v - evaluate node, can also be alligned
.b, .h - body string, headline string
.l - value as string list
Also supports iteration,
setitem / getitem (indexing):
wb.foo['key'] = 12
assert wb.foo['key'].v == 12
Note the asymmetry on setitem and getitem! Also other
dict methods are available.
.ipush() - run push-to-ipython
Minibuffer command access (tab completion works):
mb save-to-file
"""
def __init__(self,p):
self.p = p.copy()
def __str__(self):
return "<LeoNode %s>" % str(self.p)
__repr__ = __str__
def __get_h(self): return self.p.headString()
def __set_h(self,val):
c.setHeadString(self.p,val)
LeoNode.last_edited = self
c.redraw()
h = property( __get_h, __set_h, doc = "Node headline string")
def __get_b(self): return self.p.bodyString()
def __set_b(self,val):
c.setBodyString(self.p, val)
LeoNode.last_edited = self
c.redraw()
b = property(__get_b, __set_b, doc = "Nody body string")
def __set_val(self, val):
self.b = format_for_leo(val)
v = property(lambda self: eval_node(self), __set_val, doc = "Node evaluated value")
def __set_l(self,val):
self.b = '\n'.join(val )
l = property(lambda self : IPython.genutils.SList(self.b.splitlines()),
__set_l, doc = "Node value as string list")
def __iter__(self):
""" Iterate through nodes direct children """
return (LeoNode(p) for p in self.p.children_iter())
def __children(self):
d = {}
for child in self:
head = child.h
tup = head.split(None,1)
if len(tup) > 1 and tup[0] == '@k':
d[tup[1]] = child
continue
if not valid_attribute(head):
d[head] = child
continue
return d
def keys(self):
d = self.__children()
return d.keys()
def __getitem__(self, key):
""" wb.foo['Some stuff'] Return a child node with headline 'Some stuff'
If key is a valid python name (e.g. 'foo'), look for headline '@k foo' as well
"""
key = str(key)
d = self.__children()
return d[key]
def __setitem__(self, key, val):
""" You can do wb.foo['My Stuff'] = 12 to create children
This will create 'My Stuff' as a child of foo (if it does not exist), and
do .v = 12 assignment.
Exception:
wb.foo['bar'] = 12
will create a child with headline '@k bar', because bar is a valid python name
and we don't want to crowd the WorkBook namespace with (possibly numerous) entries
"""
key = str(key)
d = self.__children()
if key in d:
d[key].v = val
return
if not valid_attribute(key):
head = key
else:
head = '@k ' + key
p = c.createLastChildNode(self.p, head, '')
LeoNode(p).v = val
def __delitem__(self, key):
""" Remove child
Allows stuff like wb.foo.clear() to remove all children
"""
self[key].p.doDelete()
c.redraw()
def ipush(self):
""" Does push-to-ipython on the node """
push_from_leo(self)
def go(self):
""" Set node as current node (to quickly see it in Outline) """
c.setCurrentPosition(self.p)
# argh, there should be another way
c.redraw()
s = self.p.bodyString()
c.setBodyString(self.p,s)
def append(self):
""" Add new node as the last child, return the new node """
p = self.p.insertAsLastChild()
return LeoNode(p)
def script(self):
""" Method to get the 'tangled' contents of the node
(parse @others, << section >> references etc.)
"""
return g.getScript(c,self.p,useSelectedText=False,useSentinels=False)
def __get_uA(self):
p = self.p
# Create the uA if necessary.
if not hasattr(p.v.t,'unknownAttributes'):
p.v.t.unknownAttributes = {}
d = p.v.t.unknownAttributes.setdefault('ipython', {})
return d
uA = property(__get_uA, doc = "Access persistent unknownAttributes of node")
class LeoWorkbook:
""" class for 'advanced' node access
Has attributes for all "discoverable" nodes. Node is discoverable if it
either
- has a valid python name (Foo, bar_12)
- is a parent of an anchor node (if it has a child '@a foo', it is visible as foo)
"""
def __getattr__(self, key):
if key.startswith('_') or key == 'trait_names' or not valid_attribute(key):
raise AttributeError
cells = all_cells()
p = cells.get(key, None)
if p is None:
return add_var(key)
return LeoNode(p)
def __str__(self):
return "<LeoWorkbook>"
def __setattr__(self,key, val):
raise AttributeError("Direct assignment to workbook denied, try wb.%s.v = %s" % (key,val))
__repr__ = __str__
def __iter__(self):
""" Iterate all (even non-exposed) nodes """
cells = all_cells()
return (LeoNode(p) for p in c.allNodes_iter())
current = property(lambda self: LeoNode(c.currentPosition()), doc = "Currently selected node")
def match_h(self, regex):
cmp = re.compile(regex)
for node in self:
if re.match(cmp, node.h, re.IGNORECASE):
yield node
return
def require(self, req):
""" Used to control node push dependencies
Call this as first statement in nodes. If node has not been pushed, it will be pushed before proceeding
E.g. wb.require('foo') will do wb.foo.ipush() if it hasn't been done already
"""
if req not in _leo_push_history:
es('Require: ' + req)
getattr(self,req).ipush()
@IPython.generics.complete_object.when_type(LeoWorkbook)
def workbook_complete(obj, prev):
return all_cells().keys() + [s for s in prev if not s.startswith('_')]
def add_var(varname):
r = rootnode()
try:
if r is None:
p2 = g.findNodeAnywhere(c,varname)
else:
p2 = g.findNodeInChildren(c, r.p, varname)
if p2:
return LeoNode(p2)
if r is not None:
p2 = r.p.insertAsLastChild()
else:
p2 = c.currentPosition().insertAfter()
c.setHeadString(p2,varname)
return LeoNode(p2)
finally:
c.redraw()
def add_file(self,fname):
p2 = c.currentPosition().insertAfter()
push_from_leo = CommandChainDispatcher()
def expose_ileo_push(f, prio = 0):
push_from_leo.add(f, prio)
def push_ipython_script(node):
""" Execute the node body in IPython, as if it was entered in interactive prompt """
try:
ohist = ip.IP.output_hist
hstart = len(ip.IP.input_hist)
script = node.script()
# The current node _p needs to handle wb.require() and recursive ipushes
old_p = ip.user_ns.get('_p',None)
ip.user_ns['_p'] = node
ip.runlines(script)
ip.user_ns['_p'] = old_p
if old_p is None:
del ip.user_ns['_p']
has_output = False
for idx in range(hstart,len(ip.IP.input_hist)):
val = ohist.get(idx,None)
if val is None:
continue
has_output = True
inp = ip.IP.input_hist[idx]
if inp.strip():
es('In: %s' % (inp[:40], ))
es('<%d> %s' % (idx, pprint.pformat(ohist[idx],width = 40)))
if not has_output:
es('ipy run: %s (%d LL)' %( node.h,len(script)))
finally:
c.redraw()
def eval_body(body):
try:
val = ip.ev(body)
except:
# just use stringlist if it's not completely legal python expression
val = IPython.genutils.SList(body.splitlines())
return val
def push_plain_python(node):
if not node.h.endswith('P'):
raise TryNext
script = node.script()
lines = script.count('\n')
try:
exec script in ip.user_ns
except:
print " -- Exception in script:\n"+script + "\n --"
raise
es('ipy plain: %s (%d LL)' % (node.h,lines))
def push_cl_node(node):
""" If node starts with @cl, eval it
The result is put as last child of @ipy-results node, if it exists
"""
if not node.b.startswith('@cl'):
raise TryNext
p2 = g.findNodeAnywhere(c,'@ipy-results')
val = node.v
if p2:
es("=> @ipy-results")
LeoNode(p2).v = val
es(val)
def push_ev_node(node):
""" If headline starts with @ev, eval it and put result in body """
if not node.h.startswith('@ev '):
raise TryNext
expr = node.h.lstrip('@ev ')
es('ipy eval ' + expr)
res = ip.ev(expr)
node.v = res
def push_mark_req(node):
""" This should be the first one that gets called.
It will mark the node as 'pushed', for wb.require.
"""
_leo_push_history.add(node.h)
raise TryNext
def push_position_from_leo(p):
try:
push_from_leo(LeoNode(p))
except AttributeError,e:
if e.args == ("Commands instance has no attribute 'frame'",):
es("Error: ILeo not associated with .leo document")
es("Press alt+shift+I to fix!")
else:
raise
@generic
def edit_object_in_leo(obj, varname):
""" Make it @cl node so it can be pushed back directly by alt+I """
node = add_var(varname)
formatted = format_for_leo(obj)
if not formatted.startswith('@cl'):
formatted = '@cl\n' + formatted
node.b = formatted
node.go()
@edit_object_in_leo.when_type(IPython.macro.Macro)
def edit_macro(obj,varname):
bod = '_ip.defmacro("""\\\n' + obj.value + '""")'
node = add_var('Macro_' + varname)
node.b = bod
node.go()
def get_history(hstart = 0):
res = []
ohist = ip.IP.output_hist
for idx in range(hstart, len(ip.IP.input_hist)):
val = ohist.get(idx,None)
has_output = True
inp = ip.IP.input_hist_raw[idx]
if inp.strip():
res.append('In [%d]: %s' % (idx, inp))
if val:
res.append(pprint.pformat(val))
res.append('\n')
return ''.join(res)
def lee_f(self,s):
""" Open file(s)/objects in Leo
- %lee hist -> open full session history in leo
- Takes an object. l = [1,2,"hello"]; %lee l. Alt+I in leo pushes the object back
- Takes an mglob pattern, e.g. '%lee *.cpp' or %lee 'rec:*.cpp'
- Takes input history indices: %lee 4 6-8 10 12-47
"""
import os
try:
if s == 'hist':
wb.ipython_history.b = get_history()
wb.ipython_history.go()
return
if s and s[0].isdigit():
# numbers; push input slices to leo
lines = self.extract_input_slices(s.strip().split(), True)
v = add_var('stored_ipython_input')
v.b = '\n'.join(lines)
return
# try editing the object directly
obj = ip.user_ns.get(s, None)
if obj is not None:
edit_object_in_leo(obj,s)
return
# if it's not object, it's a file name / mglob pattern
from IPython.external import mglob
files = (os.path.abspath(f) for f in mglob.expand(s))
for fname in files:
p = g.findNodeAnywhere(c,'@auto ' + fname)
if not p:
p = c.currentPosition().insertAfter()
p.setHeadString('@auto ' + fname)
if os.path.isfile(fname):
c.setBodyString(p,open(fname).read())
c.selectPosition(p)
print "Editing file(s), press ctrl+shift+w in Leo to write @auto nodes"
finally:
c.redraw()
def leoref_f(self,s):
""" Quick reference for ILeo """
import textwrap
print textwrap.dedent("""\
%lee file/object - open file / object in leo
%lleo Launch leo (use if you started ipython first!)
wb.foo.v - eval node foo (i.e. headstring is 'foo' or '@ipy foo')
wb.foo.v = 12 - assign to body of node foo
wb.foo.b - read or write the body of node foo
wb.foo.l - body of node foo as string list
for el in wb.foo:
print el.v
"""
)
def mb_f(self, arg):
""" Execute leo minibuffer commands
Example:
mb save-to-file
"""
c.executeMinibufferCommand(arg)
def mb_completer(self,event):
""" Custom completer for minibuffer """
cmd_param = event.line.split()
if event.line.endswith(' '):
cmd_param.append('')
if len(cmd_param) > 2:
return ip.IP.Completer.file_matches(event.symbol)
cmds = c.commandsDict.keys()
cmds.sort()
return cmds
def ileo_pre_prompt_hook(self):
# this will fail if leo is not running yet
try:
c.outerUpdate()
except (NameError, AttributeError):
pass
raise TryNext
def show_welcome():
print "------------------"
print "Welcome to Leo-enabled IPython session!"
print "Try %leoref for quick reference."
import IPython.platutils
IPython.platutils.set_term_title('ILeo')
IPython.platutils.freeze_term_title()
def run_leo_startup_node():
p = g.findNodeAnywhere(c,'@ipy-startup')
if p:
print "Running @ipy-startup nodes"
for n in LeoNode(p):
push_from_leo(n)
def lleo_f(selg, args):
""" Launch leo from within IPython
This command will return immediately when Leo has been
launched, leaving a Leo session that is connected
with current IPython session (once you press alt+I in leo)
Usage::
lleo foo.leo
lleo
"""
import shlex, sys,os
argv = shlex.split(args)
# when run without args, leo will open ipython_notebook for
# quick note taking / experimentation
if not argv:
argv = [os.path.join(ip.options.ipythondir,'ipython_notebook.leo')]
sys.argv = ['leo'] + argv
# if this var exists and is true, leo will "launch" (connect)
# ipython immediately when it's started
global _request_immediate_connect
_request_immediate_connect = True
import leo.core.runLeo
leo.core.runLeo.run()
def lno_f(self, arg):
""" %lno [note text]
Gather quick notes to leo notebook
"""
import time
try:
scr = wb.Scratch
except AttributeError:
print "No leo yet, attempt launch of notebook..."
lleo_f(self,'')
scr = wb.Scratch
child = scr.get(arg, None)
if child is None:
scr[arg] = time.asctime()
child = scr[arg]
child.go()
def lshadow_f(self, arg):
""" lshadow [path]
Create shadow nodes for path (default .)
"""
if not arg.split():
arg = '.'
p = c.currentPosition().insertAfter()
c.setCurrentPosition(p)
shadow_walk(arg)
c.redraw()
def shadow_walk(directory, parent=None, isroot=True):
""" source: http://leo.zwiki.org/CreateShadows
"""
from os import listdir
from os.path import join, abspath, basename, normpath, isfile
from fnmatch import fnmatch
RELATIVE_PATHS = False
patterns_to_ignore = ['*.pyc', '*.leo', '*.gif', '*.png', '*.jpg', '*.json']
match = lambda s: any(fnmatch(s, p) for p in patterns_to_ignore)
is_ignorable = lambda s: any([ s.startswith('.'), match(s) ])
p = c.currentPosition()
if not RELATIVE_PATHS: directory = abspath(directory)
if isroot:
body = "@path %s" % normpath(directory)
c.setHeadString(p, body)
for name in listdir(directory):
if is_ignorable(name):
continue
path = join(directory, name)
if isfile(path):
g.es('file:', path)
headline = '@shadow %s' % basename(path)
if parent:
node = parent
else:
node = p
child = node.insertAsLastChild()
child.initHeadString(headline)
else:
g.es('dir:', path)
headline = basename(path)
body = "@path %s" % normpath(path)
if parent:
node = parent
else:
node = p
child = node.insertAsLastChild()
child.initHeadString(headline)
child.initBodyString(body)
shadow_walk(path, parent=child, isroot=False)
def mkbutton(text, node_to_push):
ib = c.frame.getIconBarObject()
ib.add(text = text, command = node_to_push.ipush)