# -*- coding: utf-8 -*-
REVISION = None

### import all the goodies and add some helper functions for easy CLI use

## 'Qt' is a local module; it is intended mainly to cover up the differences
## between PyQt4 and PySide.
from .Qt import QtGui

## not really safe--If we accidentally create another QApplication, the process hangs (and it is very difficult to trace the cause)
#if QtGui.QApplication.instance() is None:
    #app = QtGui.QApplication([])

import os, sys

## check python version
## Allow anything >= 2.7
if sys.version_info[0] < 2 or (sys.version_info[0] == 2 and sys.version_info[1] < 7):
    raise Exception("Pyqtgraph requires Python version 2.7 (this is %d.%d)" % (sys.version_info[0], sys.version_info[1]))

## helpers for 2/3 compatibility
from . import python2_3

    
## in general openGL is poorly supported with Qt+GraphicsView.
## we only enable it where the performance benefit is critical.
## Note this only applies to 2D graphics; 3D graphics always use OpenGL.
if 'linux' in sys.platform:  ## linux has numerous bugs in opengl implementation
    useOpenGL = False
elif 'darwin' in sys.platform: ## openGL can have a major impact on mac, but also has serious bugs
    useOpenGL = True
else:
    useOpenGL = False  ## on windows there's a more even performance / bugginess tradeoff. 
                
CONFIG_OPTIONS = {
    'useOpenGL': useOpenGL, ## by default, this is platform-dependent (see widgets/GraphicsView). Set to True or False to explicitly enable/disable opengl.
    'leftButtonPan': True,  ## if false, left button drags a rubber band for zooming in viewbox
    'foreground': (150, 150, 150),  ## default foreground color for axes, labels, etc.
    'background': (0, 0, 0),        ## default background for GraphicsWidget
    'antialias': False,
    'editorCommand': None,  ## command used to invoke code editor from ConsoleWidgets
} 


def setConfigOption(opt, value):
    CONFIG_OPTIONS[opt] = value

def getConfigOption(opt):
    return CONFIG_OPTIONS[opt]


def systemInfo():
    print("sys.platform: %s" % sys.platform)
    print("sys.version: %s" % sys.version)
    from .Qt import VERSION_INFO
    print("qt bindings: %s" % VERSION_INFO)
    
    global REVISION
    if REVISION is None:  ## this code was probably checked out from bzr; look up the last-revision file
        lastRevFile = os.path.join(os.path.dirname(__file__), '.bzr', 'branch', 'last-revision')
        if os.path.exists(lastRevFile):
            REVISION = open(lastRevFile, 'r').read().strip()
    
    print("pyqtgraph: %s" % REVISION)
    print("config:")
    import pprint
    pprint.pprint(CONFIG_OPTIONS)

## Rename orphaned .pyc files. This is *probably* safe :)

def renamePyc(startDir):
    ### Used to rename orphaned .pyc files
    ### When a python file changes its location in the repository, usually the .pyc file
    ### is left behind, possibly causing mysterious and difficult to track bugs. 
    
    printed = False
    startDir = os.path.abspath(startDir)
    for path, dirs, files in os.walk(startDir):
        if '__pycache__' in path:
            continue
        for f in files:
            fileName = os.path.join(path, f)
            base, ext = os.path.splitext(fileName)
            py = base + ".py"
            if ext == '.pyc' and not os.path.isfile(py):
                if not printed:
                    print("NOTE: Renaming orphaned .pyc files:")
                    printed = True
                n = 1
                while True:
                    name2 = fileName + ".renamed%d" % n
                    if not os.path.exists(name2):
                        break
                    n += 1
                print("  " + fileName + "  ==>")
                print("  " + name2)
                os.rename(fileName, name2)
                
import os
path = os.path.split(__file__)[0]
renamePyc(path)


## Import almost everything to make it available from a single namespace
## don't import the more complex systems--canvas, parametertree, flowchart, dockarea
## these must be imported separately.

def importAll(path, excludes=()):
    d = os.path.join(os.path.split(__file__)[0], path)
    files = []
    for f in os.listdir(d):
        if os.path.isdir(os.path.join(d, f)) and f != '__pycache__':
            files.append(f)
        elif f[-3:] == '.py' and f != '__init__.py':
            files.append(f[:-3])
        
    for modName in files:
        if modName in excludes:
            continue
        mod = __import__(path+"."+modName, globals(), locals(), fromlist=['*'])
        if hasattr(mod, '__all__'):
            names = mod.__all__
        else:
            names = [n for n in dir(mod) if n[0] != '_']
        for k in names:
            if hasattr(mod, k):
                globals()[k] = getattr(mod, k)

importAll('graphicsItems')
importAll('widgets', excludes=['MatplotlibWidget', 'RemoteGraphicsView'])

from .imageview import *
from .WidgetGroup import *
from .Point import Point
from .Vector import Vector
from .SRTTransform import SRTTransform
from .SRTTransform3D import SRTTransform3D
from .functions import *
from .graphicsWindows import *
from .SignalProxy import *
from .ptime import time


## Workaround for Qt exit crash:
## ALL QGraphicsItems must have a scene before they are deleted.
## This is potentially very expensive, but preferred over crashing.
import atexit
def cleanup():
    if QtGui.QApplication.instance() is None:
        return
    import gc
    s = QtGui.QGraphicsScene()
    for o in gc.get_objects():
        try:
            if isinstance(o, QtGui.QGraphicsItem) and o.scene() is None:
                s.addItem(o)
        except RuntimeError:  ## occurs if a python wrapper no longer has its underlying C++ object
            continue
atexit.register(cleanup)



## Convenience functions for command-line use

plots = []
images = []
QAPP = None

def plot(*args, **kargs):
    """
    Create and return a :class:`PlotWindow <pyqtgraph.PlotWindow>` 
    (this is just a window with :class:`PlotWidget <pyqtgraph.PlotWidget>` inside), plot data in it.
    Accepts a *title* argument to set the title of the window.
    All other arguments are used to plot data. (see :func:`PlotItem.plot() <pyqtgraph.PlotItem.plot>`)
    """
    mkQApp()
    #if 'title' in kargs:
        #w = PlotWindow(title=kargs['title'])
        #del kargs['title']
    #else:
        #w = PlotWindow()
    #if len(args)+len(kargs) > 0:
        #w.plot(*args, **kargs)
        
    pwArgList = ['title', 'label', 'name', 'left', 'right', 'top', 'bottom']
    pwArgs = {}
    dataArgs = {}
    for k in kargs:
        if k in pwArgList:
            pwArgs[k] = kargs[k]
        else:
            dataArgs[k] = kargs[k]
        
    w = PlotWindow(**pwArgs)
    w.plot(*args, **dataArgs)
    plots.append(w)
    w.show()
    return w
    
def image(*args, **kargs):
    """
    Create and return an :class:`ImageWindow <pyqtgraph.ImageWindow>` 
    (this is just a window with :class:`ImageView <pyqtgraph.ImageView>` widget inside), show image data inside.
    Will show 2D or 3D image data.
    Accepts a *title* argument to set the title of the window.
    All other arguments are used to show data. (see :func:`ImageView.setImage() <pyqtgraph.ImageView.setImage>`)
    """
    mkQApp()
    w = ImageWindow(*args, **kargs)
    images.append(w)
    w.show()
    return w
show = image  ## for backward compatibility
    
    
def mkQApp():
    global QAPP
    inst = QtGui.QApplication.instance()
    if inst is None:
        QAPP = QtGui.QApplication([])
    else:
        QAPP = inst
    return QAPP