/usr/lib/python2.7/dist-packages/chaco/tools/pan_tool2.py is in python-chaco 4.4.1-1.2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 | from numpy import inf
from enable.api import Pointer
from enable.tools.drag_tool import DragTool
from traits.api import Bool, Enum, Float, Tuple
class PanTool(DragTool):
""" An implementation of a pan tool based on the DragTool instead of
a bare BaseTool
"""
# The cursor to use when panning.
drag_pointer = Pointer("hand")
# Scaling factor on the panning "speed".
speed = Float(1.0)
# The modifier key that, if depressed when the drag is initiated, constrains
# the panning to happen in the only direction of largest initial motion.
# It is possible to permanently restrict this tool to always drag along one
# direction. To do so, set constrain=True, constrain_key=None, and
# constrain_direction to the desired direction.
constrain_key = Enum(None, "shift", "control", "alt")
# Constrain the panning to one direction?
constrain = Bool(False)
# The direction of constrained draw. A value of None means that the user
# has initiated the drag and pressed the constrain_key, but hasn't moved
# the mouse yet; the magnitude of the components of the next mouse_move
# event will determine the constrain_direction.
constrain_direction = Enum(None, "x", "y")
# Restrict to the bounds of the plot data
restrict_to_data = Bool(False)
# (x,y) of the point where the mouse button was pressed.
_original_xy = Tuple
# Data coordinates of **_original_xy**. This may be either (index,value)
# or (value,index) depending on the component's orientation.
_original_data = Tuple
# Was constrain=True triggered by the **contrain_key**? If False, it was
# set programmatically.
_auto_constrain = Bool(False)
#------------------------------------------------------------------------
# Inherited BaseTool traits
#------------------------------------------------------------------------
# The tool does not have a visual representation (overrides
# BaseTool).
draw_mode = "none"
# The tool is not visible (overrides BaseTool).
visible = False
# The possible event states of this tool (overrides enable.Interactor).
#event_state = Enum("normal", "panning")
def drag_start(self, event):
""" Called when the drag operation starts """
self._start_pan(event)
def dragging(self, event):
plot = self.component
if self._auto_constrain and self.constrain_direction is None:
# Determine the constraint direction
if abs(event.x - self._original_xy[0]) > abs(event.y - self._original_xy[1]):
self.constrain_direction = "x"
else:
self.constrain_direction = "y"
for direction, bound_name, ndx in [("x","width",0), ("y","height",1)]:
if not self.constrain or self.constrain_direction == direction:
mapper = getattr(plot, direction + "_mapper")
range = mapper.range
domain_min, domain_max = mapper.domain_limits
eventpos = getattr(event, direction)
origpos = self._original_xy[ndx]
screenlow, screenhigh = mapper.screen_bounds
screendelta = self.speed * (eventpos - origpos)
#if getattr(plot, direction + "_direction", None) == "flipped":
# screendelta = -screendelta
newlow = mapper.map_data(screenlow - screendelta)
newhigh = mapper.map_data(screenhigh - screendelta)
# Don't set the range in this dimension if the panning
# would exceed the domain limits.
# To do this offset properly, we would need to iteratively
# solve for a root using map_data on successive trial
# values. As a first approximation, we're just going to
# use a linear approximation, which works perfectly for
# linear mappers (which is used 99% of the time).
if domain_min is None:
if self.restrict_to_data:
domain_min = min([source.get_data().min() for source in range.sources])
else:
domain_min = -inf
if domain_max is None:
if self.restrict_to_data:
domain_max = max([source.get_data().max() for source in range.sources])
else:
domain_max = inf
if (newlow <= domain_min) and (newhigh >= domain_max):
# Don't do anything; effectively, freeze the pan
continue
if newlow <= domain_min:
delta = newhigh - newlow
newlow = domain_min
# Don't let the adjusted newhigh exceed domain_max; this
# can happen with a nonlinear mapper.
newhigh = min(domain_max, domain_min + delta)
elif newhigh >= domain_max:
delta = newhigh - newlow
newhigh = domain_max
# Don't let the adjusted newlow go below domain_min; this
# can happen with a nonlinear mapper.
newlow = max(domain_min, domain_max - delta)
# Use .set_bounds() so that we don't generate two range_changed
# events on the DataRange
range.set_bounds(newlow, newhigh)
event.handled = True
self._original_xy = (event.x, event.y)
plot.request_redraw()
return
def drag_cancel(self, event):
# We don't do anything for "cancelling" of the drag event because its
# transient states during the drag are generally valid and useful
# terminal states unto themselves.
pass
def drag_end(self, event):
return self._end_pan(event)
def _start_pan(self, event, capture_mouse=True):
self._original_xy = (event.x, event.y)
if self.constrain_key is not None:
if getattr(event, self.constrain_key + "_down"):
self.constrain = True
self._auto_constrain = True
self.constrain_direction = None
self.event_state = "panning"
if capture_mouse:
event.window.set_pointer(self.drag_pointer)
event.window.set_mouse_owner(self, event.net_transform())
event.handled = True
return
def _end_pan(self, event):
if self._auto_constrain:
self.constrain = False
self.constrain_direction = None
self.event_state = "normal"
event.window.set_pointer("arrow")
if event.window.mouse_owner == self:
event.window.set_mouse_owner(None)
event.handled = True
return
|