Exemplo n.º 1
0
 def BTND_released(self, args):
     global lock
     self.BTND.configure(image=button_off)
     self.BTND.grid()
     BTND_state = 0
     states = {}
     all_states = {"T10":SW0_state, "T9":SW1_state, "V9":SW2_state, "M8":SW3_state, "N8":SW4_state,\
             "U8":SW5_state, "V8":SW6_state, "T5":SW7_state, "A8":BTNU_state, "C4":BTNL_state, "B8":BTNS_state,\
             "D9":BTNR_state, "C9":BTND_state, "V10":CLK}
     for elem in inputs:
         states[elem] = all_states[ucf[elem]]
     (out_vals, null) = fpga.execute(inputs, states, outputs, ops, lock)
     rep_output(out_vals, lock)
Exemplo n.º 2
0
 def SW7_toggle(self, args):
     global SW7_state
     global lock
     SW7_state ^= 1
     self.SW7.configure(image=switch_on if SW7_state else switch_off)
     self.SW7.grid()
     states = {}
     all_states = {"T10":SW0_state, "T9":SW1_state, "V9":SW2_state, "M8":SW3_state, "N8":SW4_state,\
             "U8":SW5_state, "V8":SW6_state, "T5":SW7_state, "A8":BTNU_state, "C4":BTNL_state, "B8":BTNS_state,\
             "D9":BTNR_state, "C9":BTND_state, "V10":CLK}
     for elem in inputs:
         states[elem] = all_states[ucf[elem]]
     (out_vals, null) = fpga.execute(inputs, states, outputs, ops, lock)
     rep_output(out_vals, lock)
Exemplo n.º 3
0
def clock_pulse():
    global clk_id
    global lock
    clk_id = app.after(4, clock_pulse)
    if lock == 1: return
    global CLK
    global ops
    CLK ^= 1
    states = {}
    all_states = {"T10":SW0_state, "T9":SW1_state, "V9":SW2_state, "M8":SW3_state, "N8":SW4_state,\
            "U8":SW5_state, "V8":SW6_state, "T5":SW7_state, "A8":BTNU_state, "C4":BTNL_state, "B8":BTNS_state,\
            "D9":BTNR_state, "C9":BTND_state, "V10":CLK}
    for elem in inputs:
        states[elem] = all_states[ucf[elem]]
    (out_vals, ops) = fpga.execute(inputs, states, outputs, ops, lock)
    rep_output(out_vals, lock)
Exemplo n.º 4
0
def open_file():
    global clk_id
    global lock
    if clk_id != -1: app.after_cancel(clk_id)
    global inputs
    global outputs
    global ops
    global ucf
    global seg
    global AN_state
    global CLK
    global AN0_id
    global AN1_id
    global AN2_id
    global AN3_id
    inputs = []
    outputs = []
    ops = []
    ucf = {}
    seg = 0
    AN_state = [1, 1, 1, 1]
    CLK = 0
    AN0_id = -1
    AN1_id = -1
    AN2_id = -1
    AN3_id = -1
    (inputs, outputs, ops, ucf) = fpga.interpret_file(
        filedialog.askopenfilename(initialdir=".",
                                   title="Open Schematic",
                                   filetypes=[("Schematic files", "*.sch")]),
        "main")
    states = {}
    all_states = {"T10":SW0_state, "T9":SW1_state, "V9":SW2_state, "M8":SW3_state, "N8":SW4_state,\
            "U8":SW5_state, "V8":SW6_state, "T5":SW7_state, "A8":BTNU_state, "C4":BTNL_state, "B8":BTNS_state,\
            "D9":BTNR_state, "C9":BTND_state, "V10":CLK}
    for elem in inputs:
        states[elem] = all_states[ucf[elem]]
    (out_vals, ops) = fpga.execute(inputs, states, outputs, ops, lock)
    rep_output(out_vals, lock)
    if any(ucf[elem] == "V10" for elem in inputs):
        clk_id = app.after(4, clock_pulse)