rfid_people_following::all_sim_capture Namespace Reference

Classes
class	request
Functions
def	has_item
Variables
tuple	cmp_func = lambdax,y:cmp(d_func(x),d_func(y))
dictionary	d
tuple	d_func = lambdalst:( lst[0] - 7 )
tuple	f = open( 'trajectory_caps/resutls.pkl', 'w' )
string	fname = 'trajectory_caps/'
list	remaining = [ x for x in d['desired_pts'] if not has_item( d['capture_pts'], x )]
tuple	sc = sim_capture.SimCapture()
tuple	xy = np.column_stack([ X.flatten(), Y.flatten() ])
list	xya = []

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Function Documentation

def rfid_people_following.all_sim_capture.has_item	(		lst,
			item
	)

Definition at line 14 of file all_sim_capture.py.

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Variable Documentation

tuple rfid_people_following::all_sim_capture::cmp_func = lambdax,y:cmp(d_func(x),d_func(y))

Definition at line 28 of file all_sim_capture.py.

tuple rfid_people_following::all_sim_capture::d

Initial value:

{ 'desired_pts': xya,
          'capture_pts': [],
          'captures': []
          }

Definition at line 38 of file all_sim_capture.py.

tuple rfid_people_following::all_sim_capture::d_func = lambdalst:( lst[0] - 7 )

Definition at line 27 of file all_sim_capture.py.

tuple rfid_people_following::all_sim_capture::f = open( 'trajectory_caps/resutls.pkl', 'w' )

Definition at line 42 of file all_sim_capture.py.

string rfid_people_following::all_sim_capture::fname = 'trajectory_caps/'

Definition at line 57 of file all_sim_capture.py.

list rfid_people_following::all_sim_capture::remaining = [ x for x in d['desired_pts'] if not has_item( d['capture_pts'], x )]

Definition at line 51 of file all_sim_capture.py.

tuple rfid_people_following::all_sim_capture::sc = sim_capture.SimCapture()

Definition at line 54 of file all_sim_capture.py.

tuple rfid_people_following::all_sim_capture::xy = np.column_stack([ X.flatten(), Y.flatten() ])

Definition at line 23 of file all_sim_capture.py.

list rfid_people_following::all_sim_capture::xya = []

Definition at line 31 of file all_sim_capture.py.