def test_fw_1():
cc = AvrGcc(mcu=mcu)
cc.build('int main(){}')
fw = Firmware(cc.output)
avr = Avr(mcu=mcu, firmware=fw, f_cpu=8000000)
eq_(avr.f_cpu, 8000000)
eq_(avr.mcu, 'atmega48')
def run_sim(vcdfile='lcd.vcd', speed=0.1, fps=20, timeout=0.0, visible=1, image_file=''):
firmware = Firmware(path(__file__).dirname() / 'lcd.elf')
avr = Avr(firmware, f_cpu=16000000)
lcd = Lcd(avr)
ledrow = LedRow(avr, size=7)
# period=1000 -> vcd error
vcd = VcdFile(avr, period=10, filename=vcdfile)
def state_func(i):
return (ledrow.pinstate(i), ledrow.reset_dirty(i))
led_game = LedRowGame(state_func=state_func,
labels='D4 D5 D6 D7 RS E RW'.split()
)
ac = Ac(avr)
connect_pins_by_rule('''
avr.B0 <=> lcd.D4 -> vcd
avr.B1 <=> lcd.D5 -> vcd
avr.B2 <=> lcd.D6 -> vcd
avr.B3 <=> lcd.D7 -> vcd
avr.B4 ==> lcd.RS -> vcd
avr.B5 ==> lcd.E -> vcd
avr.B6 ==> lcd.RW -> vcd
vcd <- ac.OUT -> avr.D2
lcd.D4 -> led.0
lcd.D5 -> led.1
lcd.D6 -> led.2
lcd.D7 -> led.3
lcd.RS -> led.4
lcd.E -> led.5
lcd.RW -> led.6
''',
dict(
avr=avr,
led=ledrow,
lcd=lcd,
ac=ac
),
vcd=vcd,
)
dev = CompositeGame([
CompositeGame(
[LcdGame(
lambda x, y:lcd.get_char(x, y), (20, 2)),
led_game,
],
align=1),
InfoGame(avr),
])
scrshot_by_exit = [(dev, image_file)] if image_file else None
AvrSimMain(
avr, dev, vcd, speed=speed, fps=fps, visible=visible, timeout=timeout,
scrshot_by_exit=scrshot_by_exit).run_game()
def test_background_thread():
cc = AvrGcc(mcu=mcu)
cc.build('int main(){}')
fw = Firmware(cc.output)
avr = Avr(mcu=mcu, firmware=fw, f_cpu=8000000)
eq_(avr.state, cpu_Running, "mcu is not running")
avr.goto_cycle(100)
eq_(avr.state, cpu_Running, "mcu is not running")
avr.terminate()
def test_fw_3():
cc = AvrGcc(mcu=mcu)
cc.build('int main(){}')
fw = Firmware(cc.output)
avr = Avr(mcu=mcu, f_cpu=8000000)
avr.load_firmware(fw)
eq_(avr.f_cpu, 8000000)
eq_(avr.frequency, avr.f_cpu)
eq_(avr.mcu, 'atmega48')
avr.terminate()
def run_sim(vcdfile='ledramp.vcd',
speed=0.1,
fps=20,
timeout=0.0,
visible=1,
image_file=''):
firmware = Firmware(path(__file__).dirname() / 'ledramp.elf')
avr = Avr(firmware, f_cpu=8000000, mcu='atmega48')
vcd = VcdFile(avr, period=1000, filename=vcdfile)
ledrow = LedRow(avr)
connect_pins_by_rule(
'''
avr.B0 ==> led.0 -> vcd
avr.B1 ==> led.1 -> vcd
avr.B2 ==> led.2 -> vcd
avr.B3 ==> led.3 -> vcd
avr.B4 ==> led.4 -> vcd
avr.B5 ==> led.5 -> vcd
avr.B6 ==> led.6 -> vcd
avr.B7 ==> led.7 -> vcd
''',
dict(
avr=avr,
led=ledrow,
),
vcd=vcd,
)
def state_func(i):
return (ledrow.pinstate(i), ledrow.reset_dirty(i))
led_game = LedRowGame(state_func=state_func,
labels=['B' + str(x) for x in range(8)])
dev = CompositeGame([
led_game,
InfoGame(avr),
])
scrshot_by_exit = [(dev, image_file)] if image_file else None
AvrSimMain(avr,
dev,
vcd,
speed=speed,
fps=fps,
visible=visible,
timeout=timeout,
scrshot_by_exit=scrshot_by_exit).run_game()
def run_test(f_cpu, mcu, timeout, gdb, testfile):
avr = Avr(mcu=mcu, f_cpu=f_cpu)
fw = Firmware(testfile)
avr.load_firmware(fw)
if gdb:
avr.gdb_port = 1234
avr_gdb_init(avr.backend)
avr.state = cpu_Stopped
t_start = time.time()
while not avr.peek(GPIOR0) & TEST_COMPLETE:
if timeout and time.time() - t_start > timeout:
raise click.ClickException('Timeout')
avr.step(100)
if avr.uart.buffer:
print(''.join(avr.uart.buffer))
sys.exit(0 if avr.peek(GPIOR0) & TEST_SUCCESS else 1)
def run_sim(vcdfile='spk.vcd',
speed=0.5,
fps=20,
timeout=0.0,
visible=1,
image_file='',
rate=11025):
firmware = Firmware(path(__file__).dirname() / 'spk.elf')
avr = Avr(
firmware=firmware,
mcu="atmega168",
f_cpu=16000000,
)
ledrow = LedRow(avr, size=1)
# period=1000 -> vcd error
vcd = VcdFile(avr, period=10, filename=vcdfile)
spk = Spk(avr, rate=rate, speed=speed)
connect_pins_by_rule(
'''
led.0 <-- avr.B5 --> spk.IN -> vcd
''',
dict(
avr=avr,
spk=spk,
led=ledrow,
),
vcd=vcd,
)
#################################### )
# GUI
def spk_func(size):
return spk.read()
spk_game = SpkGame(spk_func, rate=rate)
def state_func(i):
return (ledrow.pinstate(i), ledrow.reset_dirty(i))
led_game = LedRowGame(state_func=state_func, labels=['SPK'])
dev = CompositeGame([
CompositeGame([
led_game,
], align=1),
InfoGame(avr),
])
scrshot_by_exit = [(dev, image_file)] if image_file else None
AvrSimMain(avr,
dev,
vcd,
speed=speed,
fps=fps,
visible=visible,
timeout=timeout,
scrshot_by_exit=scrshot_by_exit).run_game()
spk_game.terminate()
from pysimavr.avr import Avr
from pysimavr.firmware import Firmware
from pysimavr.button import Button
from pysimavr.swig.simavr import avr_gdb_init, cpu_Done, cpu_Crashed, cpu_Stopped
import time
import logging
from os import path
if __name__ == '__main__':
print("Start")
# logging.basicConfig(level=logging.DEBUG)
logging.basicConfig(level=logging.INFO)
# Load firmware from ./avr/Button/Debug/Button.elf
modulePath = path.dirname(path.realpath(__file__))
fw = Firmware(path.join(modulePath, "avr", "Button", "Debug",
"Button.elf"))
# fw = Firmware(path.join(modulePath, "avr", "Button", "Release", "Button.elf")
print("Loading {}".format(fw.filename))
avr = Avr(firmware=fw) # The Button.elf has mcu and freq info embedded
# avr = Avr(firmware=fw, mcu='atmega2560', f_cpu=8000000)
# avr = Avr(firmware=fw, mcu='attiny2313', f_cpu=8000000)
print("Fw loaded")
# Set the GDB port and start simavr GDB
avr.gdb_port = 1234
avr_gdb_init(avr.backend)
# avr.state = cpu_Stopped #To let simavr wait on the first instruction for GDB to connect.
# Get the AVR A3 input pin.
def simulate(self):
if not self.external_elf:
elf = self.cc.output
else:
elf = self.external_elf
# run
firmware = Firmware(elf)
avr = Avr(mcu=self.cc.mcu, f_cpu=self.cc.f_cpu)
avr.uart.char_logger = self.serial_char_logger
avr.uart.line_logger = self.serial_line_logger
avr.load_firmware(firmware)
# udpReader = UdpReader()
# udp = Udp(avr)
# udp.connect()
# udpReader.start()
simvcd = None
if self.vcd:
simvcd = VcdFile(avr, period=1000, filename=self.vcd)
connect_pins_by_rule(
'''
avr.D0 ==> vcd
avr.D1 ==> vcd
avr.D2 ==> vcd
avr.D3 ==> vcd
avr.D4 ==> vcd
avr.D5 ==> vcd
avr.D6 ==> vcd
avr.D7 ==> vcd
avr.B0 ==> vcd
avr.B1 ==> vcd
avr.B2 ==> vcd
avr.B3 ==> vcd
avr.B4 ==> vcd
avr.B5 ==> vcd
''',
dict(avr=avr, ),
vcd=simvcd,
)
simvcd.start()
# not working
# if self.serial_in:
# avr.uart.send_string(self.serial_in)
if self.fps:
dt_real = 1. / self.fps
dt_mcu = dt_real * self.speed
count = int(self.timespan * self.fps / self.speed)
for _ in range(count):
time.sleep(dt_real)
avr.goto_time(self.timespan)
while avr.time_passed() < self.timespan * 0.99:
time.sleep(0.05)
if simvcd:
simvcd.terminate()
# udpReader.terminate()
log.debug('cycles=%s' % avr.cycle)
log.debug('mcu time=%s' % avr.time_passed())
# time.sleep(1)
self.serial_data = avr.uart.buffer
self.serial = ''.join(self.serial_data)
avr.terminate()
def upload_firmware(self, fw_path):
self.fw_path = fw_path
fw = Firmware(fw_path)
self.mcu.load_firmware(fw)
def run_sim(vcdfile='sgm7.vcd', speed=0.001, fps=20, timeout=0.0, visible=1, image_file=''):
firmware = Firmware(path(__file__).dirname() / 'sgm7.elf')
firmware.f_cpu = 8000000
firmware.mcu = "atmega168"
avr = Avr(firmware)
vcd = VcdFile(avr, period=1000, filename=vcdfile)
####################################################
# ledrow
ledrow = LedRow(avr, size=12)
####################################################
# ledrow game
def state_func_seg(i):
return (ledrow.pinstate(i), ledrow.reset_dirty(i))
led_game_seg = LedRowGame(state_func=state_func_seg,
disp_size=8,
labels=['B' + str(x) for x in range(8)]
)
def state_func_dig(i):
return (ledrow.pinstate(i + 8), ledrow.reset_dirty(i + 8))
led_game_dig = LedRowGame(state_func=state_func_dig,
disp_size=4,
labels=['C' + str(x) for x in range(4)])
####################################################
# sgm7
sgm7 = Sgm7(avr, size=4)
inv = [Inverter(avr) for x in range(4)]
connect_pins_by_rule('''
ledrow.0 <== avr.B0 ==> sgm7.A -> vcd
ledrow.1 <== avr.B1 ==> sgm7.B -> vcd
ledrow.2 <== avr.B2 ==> sgm7.C -> vcd
ledrow.3 <== avr.B3 ==> sgm7.D -> vcd
ledrow.4 <== avr.B4 ==> sgm7.E -> vcd
ledrow.5 <== avr.B5 ==> sgm7.F -> vcd
ledrow.6 <== avr.B6 ==> sgm7.G -> vcd
ledrow.7 <== avr.B7 ==> sgm7.P -> vcd
ledrow.8 <== avr.C0 ==> inv0.IN | inv0.OUT -> sgm7.D0 -> vcd
ledrow.9 <== avr.C1 ==> inv1.IN | inv1.OUT -> sgm7.D1 -> vcd
ledrow.10<== avr.C2 ==> inv2.IN | inv2.OUT -> sgm7.D2 -> vcd
ledrow.11<== avr.C3 ==> inv3.IN | inv3.OUT -> sgm7.D3 -> vcd
''',
dict(
avr=avr,
sgm7=sgm7,
ledrow=ledrow,
inv0=inv[0],
inv1=inv[1],
inv2=inv[2],
inv3=inv[3],
),
vcd=vcd,
)
####################################################
# sgm7 game
def segments_func(digit_index):
return (sgm7.digit_segments(digit_index), sgm7.reset_dirty(digit_index))
sgm7_game = Sgm7Game(segments_func=segments_func, disp_size=4)
####################################################
# compose game
dev = CompositeGame([
CompositeGame(
[
sgm7_game,
led_game_seg,
led_game_dig,
],
align=1),
InfoGame(avr),
])
scrshot_by_exit = [(dev, image_file)] if image_file else None
AvrSimMain(
avr, dev, vcd, speed=speed, fps=fps, visible=visible, timeout=timeout,
scrshot_by_exit=scrshot_by_exit).run_game()
def run_sim(vcdfile='sgm7.vcd',
speed=0.001,
fps=20,
timeout=0.0,
visible=1,
image_file=''):
firmware = Firmware(path(__file__).dirname() / 'sgm7.elf')
firmware.f_cpu = 8000000
firmware.mcu = "atmega168"
avr = Avr(firmware)
vcd = VcdFile(avr, period=1000, filename=vcdfile)
####################################################
# ledrow
ledrow = LedRow(avr, size=12)
####################################################
# ledrow game
def state_func_seg(i):
return (ledrow.pinstate(i), ledrow.reset_dirty(i))
led_game_seg = LedRowGame(state_func=state_func_seg,
disp_size=8,
labels=['B' + str(x) for x in range(8)])
def state_func_dig(i):
return (ledrow.pinstate(i + 8), ledrow.reset_dirty(i + 8))
led_game_dig = LedRowGame(state_func=state_func_dig,
disp_size=4,
labels=['C' + str(x) for x in range(4)])
####################################################
# sgm7
sgm7 = Sgm7(avr, size=4)
inv = [Inverter(avr) for x in range(4)]
connect_pins_by_rule(
'''
ledrow.0 <== avr.B0 ==> sgm7.A -> vcd
ledrow.1 <== avr.B1 ==> sgm7.B -> vcd
ledrow.2 <== avr.B2 ==> sgm7.C -> vcd
ledrow.3 <== avr.B3 ==> sgm7.D -> vcd
ledrow.4 <== avr.B4 ==> sgm7.E -> vcd
ledrow.5 <== avr.B5 ==> sgm7.F -> vcd
ledrow.6 <== avr.B6 ==> sgm7.G -> vcd
ledrow.7 <== avr.B7 ==> sgm7.P -> vcd
ledrow.8 <== avr.C0 ==> inv0.IN | inv0.OUT -> sgm7.D0 -> vcd
ledrow.9 <== avr.C1 ==> inv1.IN | inv1.OUT -> sgm7.D1 -> vcd
ledrow.10<== avr.C2 ==> inv2.IN | inv2.OUT -> sgm7.D2 -> vcd
ledrow.11<== avr.C3 ==> inv3.IN | inv3.OUT -> sgm7.D3 -> vcd
''',
dict(
avr=avr,
sgm7=sgm7,
ledrow=ledrow,
inv0=inv[0],
inv1=inv[1],
inv2=inv[2],
inv3=inv[3],
),
vcd=vcd,
)
####################################################
# sgm7 game
def segments_func(digit_index):
return (sgm7.digit_segments(digit_index),
sgm7.reset_dirty(digit_index))
sgm7_game = Sgm7Game(segments_func=segments_func, disp_size=4)
####################################################
# compose game
dev = CompositeGame([
CompositeGame([
sgm7_game,
led_game_seg,
led_game_dig,
], align=1),
InfoGame(avr),
])
scrshot_by_exit = [(dev, image_file)] if image_file else None
AvrSimMain(avr,
dev,
vcd,
speed=speed,
fps=fps,
visible=visible,
timeout=timeout,
scrshot_by_exit=scrshot_by_exit).run_game()
def arduino_sim(
elf='',
mcu='atmega328',
f_cpu=16000000,
vcdfile='arduino.vcd',
speed=0.5,
fps=20,
timeout=0.0,
visible=1,
image_file='',
rate=11025,
buttons_enable=1,
vcd_enable=0,
spk_enable=0,
# udp_enable=1,
avcc=5000,
vcc=5000,
code=None,
):
'''
MCU:
- atmega168 OK
- atmega328p OK
- atmega2560 NO
- atmega1280 NO
:param mcu:
:param avcc: AVcc in mV
:param vcc: Vcc in mV
'''
if code and pyavrutils:
cc = pyavrutils.Arduino()
cc.build(code)
elf = cc.output
if not elf:
elf = find_elf()
firmware = Firmware(elf)
avr = Avr(mcu=mcu, f_cpu=f_cpu, vcc=vcc / 1000.0, avcc=avcc / 1000.0)
avr.load_firmware(firmware)
# udpReader = UdpReader()
# if udp_enable:
# udp = Udp(avr)
# udp.connect()
# udpReader.start()
lcd = Lcd(avr)
vcd = VcdFile(avr, period=1000, filename=vcdfile) if vcd_enable else None
ledrow = LedRow(avr, size=14)
buttons = [Button(avr, pullup=0)
for x in range(14)] if buttons_enable else 14 * [None]
spk = Spk(avr, rate=rate, speed=speed) if spk_enable else None
connect_pins_by_rule(
'''
but0 .OUT ==> avr.D0 ==> dig.0 -> vcd
but1 .OUT ==> avr.D1 ==> dig.1 -> vcd
but2 .OUT ==> avr.D2 ==> dig.2 -> vcd
but3 .OUT ==> avr.D3 ==> dig.3 -> vcd
but4 .OUT ==> avr.D4 ==> dig.4 -> vcd
but5 .OUT ==> avr.D5 ==> dig.5 -> vcd
but6 .OUT ==> avr.D6 ==> dig.6 -> vcd
but7 .OUT ==> avr.D7 ==> dig.7 -> vcd
but8 .OUT ==> avr.B0 ==> dig.8 -> vcd
but9 .OUT ==> avr.B1 ==> dig.9 -> vcd
but10.OUT ==> avr.B2 ==> dig.10 -> vcd
but11.OUT ==> avr.B3 ==> dig.11 -> vcd
but12.OUT ==> avr.B4 ==> dig.12 -> vcd
but13.OUT ==> avr.B5 ==> dig.13 -> vcd
dig.13 --> spk.IN -> vcd
dig.5 <=> lcd.D4 -> vcd
dig.4 <=> lcd.D5 -> vcd
dig.3 <=> lcd.D6 -> vcd
dig.2 <=> lcd.D7 -> vcd
dig.12 ==> lcd.RS -> vcd
dig.11 ==> lcd.RW -> vcd
dig.10 ==> lcd.E -> vcd
''',
dict(avr=avr,
dig=ledrow,
lcd=lcd,
spk=spk,
**dict([('but' + str(i), b) for i, b in enumerate(buttons)])),
vcd=vcd,
)
#################
# GUI
#################
if spk_enable:
def spk_func(size):
return spk.read()
spk_game = SpkGame(spk_func, rate=rate)
def state_func(i):
return (ledrow.pinstate(i), ledrow.reset_dirty(i))
led_game = LedRowGame(
state_func=state_func,
labels=[str(x) for x in range(14)],
align=1,
)
but_guis = [
ButtonGame(
label=label,
shortcut=shortcut,
hook=dict(up=x.up, down=x.down) if x else {},
size=(50, 30),
) for x, label, shortcut in zip(
buttons,
'0 1 2 3 4 5 6 7 8 9 10 11 12 13'.split(),
'0 1 2 3 4 5 6 7 8 9 a b c d'.split(),
)
]
info = InfoGame(avr)
def reload_firmware():
firmware = Firmware(find_elf())
avr.load_firmware(firmware)
lcd.reset()
info.reload()
class MyFloat(object):
def __init__(self, value=0.0):
self.value = value
def __float__(self):
return float(self.value)
def inc(self):
self.value *= 10.0
def dec(self):
self.value /= 10.0
speed = MyFloat(speed)
# def udp_read():
# if not hasattr(udp_read, 'display'):
# udp_read.display = ''
# if not hasattr(udp_read, 'lastline'):
# udp_read.lastline = ''
# s = udpReader.read()
# if s:
# sys.stdout.write(s)
# udp_read.lastline += s
# udp_read.lastline = lastline(udp_read.lastline)
# udp_read.display = udp_read.lastline.replace(
# '\n', '\\n').replace('\r', '\\r')
# return udp_read.display
def uart_read():
return avr.uart.last_line.replace('\n', '\\n').replace('\r', '\\r')
dev = CompositeGame([
CompositeGame([
led_game,
CompositeGame(but_guis, align=1),
], align=0), info,
CompositeGame([
CompositeGame([
ButtonGame(label='reload',
shortcut='r',
hook=dict(down=reload_firmware)),
ButtonGame(
label='speed up', shortcut='+', hook=dict(down=speed.inc)),
ButtonGame(label='speed down',
shortcut='-',
hook=dict(down=speed.dec)),
TextGame((lambda: "speed set= %fx" % float(speed))),
],
align=1),
LcdGame(lambda x, y: lcd.get_char(x, y), (16, 2)),
TextGame((lambda: 'ser=' + uart_read())),
],
align=1)
])
scrshot_by_exit = [(dev, image_file)] if image_file else None
class ArduinoMain(AvrSimMain):
bufpos = 0
def cb_loop(self):
AvrSimMain.cb_loop(self)
# if len(udpReader.buffer) > self.bufpos:
# sys.stdout.write(''.join(udpReader.buffer[self.bufpos:]))
# self.bufpos = len(udpReader.buffer)
sim = ArduinoMain(avr,
dev,
vcd,
speed=speed,
fps=fps,
visible=visible,
timeout=timeout,
scrshot_by_exit=scrshot_by_exit)
sim.run_game()
time.sleep(1)
if spk_enable:
spk_game.terminate()
def reload_firmware():
firmware = Firmware(find_elf())
avr.load_firmware(firmware)
lcd.reset()
info.reload()
def _create_avr(mcu, f_cpu, code):
cc = AvrGcc(mcu=mcu)
cc.build(code)
fw = Firmware(cc.output)
return Avr(mcu=mcu, firmware=fw, f_cpu=f_cpu)