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https://opencores.org/ocsvn/wb_lcd/wb_lcd/trunk
Subversion Repositories wb_lcd
[/] [wb_lcd/] [trunk/] [myhdl/] [wb_lcd_workspace_ramless/] [workspace/] [.metadata/] [.plugins/] [org.eclipse.core.resources/] [.history/] [e0/] [00f00650cd29001e105494278c3b862d] - Rev 2
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from myhdl import *
t_TxState = enum('tx_high_setup', 'tx_high_hold', 'tx_oneus', 'tx_low_setup', 'tx_low_hold', 'tx_fortyus', 'tx_done');
t_State = enum('display_init', 'init_fifteenms', 'init_one', 'init_two', 'init_three', 'init_four', 'init_five', 'init_six', 'init_seven', 'init_eight', 'display_function_set', 'display_entry_set', 'display_set_display', 'display_clr_display', 'display_pause_setup', 'display_pause', 'display_done', 'display_set_addr', 'display_char_write')
def delayCounter(clk, reset, count, load, done, width = 13):
counter = Signal(intbv(0)[width:0])
@always_comb
def done_logic():
done.next = (counter == 0)
@always(clk.posedge)
def countdown_logic():
if load:
counter.next = count
else: #elif not done:
counter.next = counter - 1
return instances()
def lcd(clk, reset, dat, addr, we, repaint, busy, SF_D, LCD_E, LCD_RS, LCD_RW):
state = Signal(t_State.display_init)
tx_state = Signal(t_TxState.tx_done)
tx_byte = Signal(intbv(0)[8:0])
tx_init = Signal(bool())
tx_done = Signal(bool())
LCD_E0 = Signal(bool())
SF_D0 = Signal(intbv(0)[4:0])
LCD_E1 = Signal(bool())
SF_D1 = Signal(intbv(0)[4:0])
@always_comb
def busy_and_rw_handlers():
busy.next = (state != t_State.display_done)
LCD_RW.next = 0
#Delay counter
main_delay_load = Signal(bool())
main_delay_value = Signal(intbv(0)[20:0])
tx_delay_load = Signal(bool())
main_delay_load = Signal(bool())
delay_load = Signal(bool())
tx_delay_value = Signal(intbv(0)[20:0])
main_delay_value = Signal(intbv(0)[20:0])
delay_value = Signal(intbv(0)[20:0])
delay_done = Signal(bool())
output_selector = Signal(bool())
counter = delayCounter(clk, reset, delay_value, delay_load, delay_done, width = 21)
@always_comb
def conunter_sharing_load():
delay_load.next = tx_delay_load or main_delay_load
@always_comb
def conunter_sharing_value():
if tx_delay_load:
delay_value.next = tx_delay_value
else:
delay_value.next = main_delay_value
# SF_D and LCD_E management for sharing between Init and TX phases.
@always_comb
def output_tx_or_init_select(): # 0 tx; 1 init
output_selector.next = (state == t_State.display_init) | (state == t_State.init_fifteenms) | (state == t_State.init_one) | (state == t_State.init_two) | (state == t_State.init_three) | (state == t_State.init_four) | (state == t_State.init_five) | (state == t_State.init_six) | (state == t_State.init_seven) | (state == t_State.init_eight)
@always_comb
def output_tx_or_init_mux():
if output_selector: # Init
SF_D.next = SF_D1
LCD_E.next = LCD_E1
else: # TX
SF_D.next = SF_D0
LCD_E.next = LCD_E0
@always_comb
def init_transmissions():
tx_init.next = (~tx_done) & ((state == t_State.display_function_set) | (state == t_State.display_entry_set) | (state == t_State.display_set_display) | (state == t_State.display_clr_display) | (state == t_State.display_set_addr) | (state == t_State.display_char_write))
LCD_RS.next = ~(bool(state == t_State.display_function_set) | (state == t_State.display_entry_set) | (state == t_State.display_set_display) | (state == t_State.display_clr_display) | (state == t_State.display_set_addr))
@always(clk.posedge, reset.posedge)
def DisplayFSM():
if reset == 1:
state.next = t_State.display_init
main_delay_load.next = 0
main_delay_value.next = 0
SF_D1.next = 0
LCD_E1.next = 0
tx_byte.next = 0
else:
main_delay_load.next = 0;
main_delay_value.next = 0;
if state == t_State.display_init:
tx_byte.next = 0 #00000000
state.next = t_State.init_fifteenms
main_delay_load.next = 1
main_delay_value.next = 750000
elif state == t_State.init_fifteenms:
main_delay_load.next = 0
if delay_done:
state.next = t_State.init_one;
main_delay_load.next = 1
main_delay_value.next = 11
elif state == t_State.init_one:
main_delay_load.next = 0
SF_D1.next = 3
LCD_E1.next = 1
if delay_done:
state.next = t_State.init_two;
main_delay_load.next = 1
main_delay_value.next = 205000
elif state == t_State.init_two:
main_delay_load.next = 0
LCD_E1.next = 0
if delay_done:
state.next = t_State.init_three;
main_delay_load.next = 1
main_delay_value.next = 11
elif state == t_State.init_three:
main_delay_load.next = 0
SF_D1.next = 3
LCD_E1.next = 1
if delay_done:
state.next = t_State.init_four;
main_delay_load.next = 1
main_delay_value.next = 5000
elif state == t_State.init_four:
main_delay_load.next = 0
LCD_E1.next = 0
if delay_done:
state.next = t_State.init_five;
main_delay_load.next = 1
main_delay_value.next = 11
elif state == t_State.init_five:
main_delay_load.next = 0
SF_D1.next = 3
LCD_E1.next = 1
if delay_done:
state.next = t_State.init_six;
main_delay_load.next = 1
main_delay_value.next = 2000
elif state == t_State.init_six:
main_delay_load.next = 0
LCD_E1.next = 0
if delay_done:
state.next = t_State.init_seven;
main_delay_load.next = 1
main_delay_value.next = 11
elif state == t_State.init_seven:
main_delay_load.next = 0
SF_D1.next = 2
LCD_E1.next = 1
if delay_done:
state.next = t_State.init_eight;
main_delay_load.next = 1
main_delay_value.next = 2000
elif state == t_State.init_eight:
main_delay_load.next = 0
LCD_E1.next = 0
if delay_done:
state.next = t_State.display_function_set;
elif state == t_State.display_function_set:
tx_byte.next = 40 #00101000
if tx_done:
state.next = t_State.display_entry_set
elif state == t_State.display_entry_set:
tx_byte.next = 6 #00000110
if tx_done:
state.next = t_State.display_set_display
elif state == t_State.display_set_display:
tx_byte.next = 12 #00001100
if tx_done:
state.next = t_State.display_clr_display
elif state == t_State.display_clr_display:
tx_byte.next = 1 #00000001
if tx_done:
state.next = t_State.display_pause_setup
main_delay_load.next = 1
main_delay_value.next = 82000
elif state == t_State.display_pause_setup:
state.next = t_State.display_pause
elif state == t_State.display_pause:
tx_byte.next = 0 #00000000
if delay_done:
state.next = t_State.display_done;
elif state == t_State.display_done:
tx_byte.next = 0 #00000000
if we:
state.next = t_State.display_function_set
else:
state.next = t_State.display_done
elif state == t_State.display_set_addr:
tx_byte.next = 128+adr #10000000
if tx_done:
state.next = t_State.display_char_write
elif state == t_State.display_char_write:
tx_byte.next = dat
if tx_done:
state.next = t_State.display_done;
# else:
# raise ValueError("Undefined Display state")
@always(clk.posedge, reset.posedge)
def TxFSM():
if reset == 1:
tx_state.next = t_TxState.tx_done
SF_D0.next = 0
LCD_E0.next = 0
else:
tx_delay_load.next = 0;
tx_delay_value.next = 0;
if tx_state == t_TxState.tx_high_setup:
LCD_E0.next = 0
SF_D0.next = tx_byte[8 : 4]
tx_delay_load.next = 0
if delay_done:
tx_state.next = t_TxState.tx_high_hold
tx_delay_load.next = 1
tx_delay_value.next = 12
elif tx_state == t_TxState.tx_high_hold:
LCD_E0.next = 1
SF_D0.next = tx_byte[8 : 4]
tx_delay_load.next = 0
if delay_done:
tx_state.next = t_TxState.tx_oneus
tx_delay_load.next = 1
tx_delay_value.next = 50
elif tx_state == t_TxState.tx_oneus:
LCD_E0.next = 0
tx_delay_load.next = 0
if delay_done:
tx_state.next = t_TxState.tx_low_setup
tx_delay_load.next = 1
tx_delay_value.next = 2
elif tx_state == t_TxState.tx_low_setup:
LCD_E0.next = 0
SF_D0.next = tx_byte[4 : 0]
tx_delay_load.next = 0
if delay_done:
tx_state.next = t_TxState.tx_low_hold
tx_delay_load.next = 1
tx_delay_value.next = 12
elif tx_state == t_TxState.tx_low_hold:
LCD_E0.next = 1
SF_D0.next = tx_byte[4 : 0]
tx_delay_load.next = 0
if delay_done:
tx_state.next = t_TxState.tx_fortyus
tx_delay_load.next = 1
tx_delay_value.next = 2000
elif tx_state == t_TxState.tx_fortyus:
LCD_E0.next = 0
tx_delay_load.next = 0
if delay_done:
tx_state.next = t_TxState.tx_done
tx_done.next = 1
elif tx_state == t_TxState.tx_done:
LCD_E0.next = 0
tx_done.next = 0
tx_delay_load.next = 0
if tx_init:
tx_state.next = t_TxState.tx_high_setup
tx_delay_load.next = 1
tx_delay_value.next = 2
# else:
# raise ValueError("Undefined TX state")
return instances()
def main():
width = 20
count = Signal(intbv(0)[width:0])
clk, reset, we, repaint, busy, LCD_E, LCD_RS, LCD_RW = [Signal(bool(0)) for i in range(8)]
dat = Signal(intbv(0)[32:0])
addr = Signal(intbv(0)[7:0])
SF_D = Signal(intbv(0)[4:0])
#toVerilog(lcd, clk, reset, dat, addr, we, repaint, busy, SF_D, LCD_E, LCD_RS, LCD_RW)
toVHDL(lcd, clk, reset, dat, addr, we, repaint, busy, SF_D, LCD_E, LCD_RS, LCD_RW)
if __name__ == '__main__':
main()