#!/usr/bin/env python
import sys
if sys.version_info[0] >= 3:
    import PySimpleGUIQt as sg
else:
    import PySimpleGUI27 as sg
import psutil

"""
    Desktop floating widget - CPU Cores 
    Uses psutil to display:
        CPU usage on each individual core
    Information is updated once a second and is shown as an area graph that scrolls
"""

GRAPH_WIDTH = 120       # each individual graph size in pixels
GRAPH_HEIGHT = 60
TRANSPARENCY = .8       # how transparent the window looks. 0 = invisible, 1 = normal window
NUM_COLS = 4
POLL_FREQUENCY = 800    # how often to update graphs in milliseconds

colors = ('#23a0a0', '#56d856', '#be45be', '#5681d8', '#d34545', '#BE7C29')

# DashGraph does the drawing of each graph
class DashGraph(object):
    def __init__(self, graph_elem, text_elem, starting_count, color):
        self.graph_current_item = 0
        self.graph_elem = graph_elem
        self.text_elem = text_elem
        self.prev_value = starting_count
        self.max_sent = 1
        self.color = color

    def graph_percentage_abs(self, value):
        self.graph_elem.DrawLine((self.graph_current_item, 0), (self.graph_current_item, value), color=self.color)
        if self.graph_current_item >= GRAPH_WIDTH:
            self.graph_elem.Move(-1,0)
        else:
            self.graph_current_item += 1

    def text_display(self, text):
        self.text_elem.Update(text)

def main():
    # A couple of "Uber Elements" that combine several elements and enable bulk edits
    def Txt(text, **kwargs):
        return(sg.Text(text, font=('Helvetica 8'), **kwargs))

    def GraphColumn(name, key):
        col = sg.Column([[Txt(name, key=key+'_TXT_'), ],
                    [sg.Graph((GRAPH_WIDTH, GRAPH_HEIGHT), (0, 0), (GRAPH_WIDTH, 100), background_color='black',
                              key=key+'_GRAPH_')]], pad=(2, 2))
        return col


    num_cores = len(psutil.cpu_percent(percpu=True))        # get the number of cores in the CPU

    sg.ChangeLookAndFeel('Black')
    sg.SetOptions(element_padding=(0,0), margins=(0,0), border_width=0)

    # ----------------  Create Layout  ----------------
    layout = [[ sg.Button('', image_data=red_x , button_color=('red', 'black'), key='Exit', tooltip='Closes window'),sg.Stretch(),
                sg.Text('     CPU Core Usage'), sg.Stretch()] ]

    # add on the graphs
    for rows in range(num_cores//NUM_COLS+1):
        row = []
        for cols in range(min(num_cores-rows*NUM_COLS, NUM_COLS)):
            row.append(GraphColumn('CPU '+str(rows*NUM_COLS+cols), '_CPU_'+str(rows*NUM_COLS+cols)))
        layout.append(row)

    # ----------------  Create Window  ----------------
    window = sg.Window('PSG System Dashboard',
                       keep_on_top=True,
                       auto_size_buttons=False,
                       grab_anywhere=True,
                       no_titlebar=True,
                       default_button_element_size=(20, 15),
                       return_keyboard_events=True,
                       alpha_channel=TRANSPARENCY,
                       use_default_focus=False,
                       ).Layout(layout)

    # setup graphs & initial values
    graphs = []
    for i in range(num_cores):
        graphs.append(DashGraph(window.FindElement('_CPU_'+str(i)+'_GRAPH_'),
                                window.FindElement('_CPU_'+str(i) + '_TXT_'),
                                0, colors[i%6]))

    # ----------------  main loop  ----------------
    while (True):
        # --------- Read and update window once every Polling Frequency --------
        event, values = window.Read(timeout=POLL_FREQUENCY)
        if event in (None, 'Exit'):         # Be nice and give an exit
            break
        # read CPU for each core
        stats = psutil.cpu_percent(interval=.2, percpu=True)
        # Update each graph
        for i in range(num_cores):
            graphs[i].graph_percentage_abs(stats[i])
            graphs[i].text_display('{} CPU {:2.0f}'.format(i, stats[i]))
    window.Close()

if __name__ == "__main__":
    # the clever Red X graphic
    red_x = b"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"

    main()
    sys.exit(69)