def litter(self) -> Rad:
return Rad(self._contract.functions.litter().call())
def tip(self) -> Rad:
"""Flat fee to suck from vow to incentivize keepers"""
return Rad(self._contract.functions.tip().call())
def test_scenario(self, web3, mcd, collateral, flipper, our_address, other_address, deployment_address):
# Create a vault
kicks_before = flipper.kicks()
ilk = collateral.ilk
ink = Wad.from_number(0.5)
wrap_eth(mcd, deployment_address, ink)
collateral.approve(deployment_address)
assert collateral.adapter.join(deployment_address, ink).transact(
from_address=deployment_address)
frob(mcd, collateral, deployment_address, dink=ink, dart=Wad(0))
dart = max_dart(mcd, collateral, deployment_address) - Wad(1)
frob(mcd, collateral, deployment_address, dink=Wad(0), dart=dart)
# Mint and withdraw all the Dai
mcd.approve_dai(deployment_address)
assert mcd.dai_adapter.exit(deployment_address, dart).transact(from_address=deployment_address)
assert mcd.dai.balance_of(deployment_address) == dart
# Undercollateralize the vault
to_price = Wad(Web3.toInt(collateral.pip.read())) / Wad.from_number(2)
set_collateral_price(mcd, collateral, to_price)
urn = mcd.vat.urn(collateral.ilk, deployment_address)
ilk = mcd.vat.ilk(ilk.name)
assert ilk.rate is not None
assert ilk.spot is not None
safe = Ray(urn.art) * mcd.vat.ilk(ilk.name).rate <= Ray(urn.ink) * ilk.spot
assert not safe
assert len(flipper.active_auctions()) == 0
litter_before = mcd.cat.litter()
# Bite the vault, which moves debt to the vow and kicks the flipper
urn = mcd.vat.urn(collateral.ilk, deployment_address)
assert urn.ink > Wad(0)
art = min(urn.art, Wad(mcd.cat.dunk(ilk))) # Wad
tab = art * ilk.rate # Wad
assert tab == dart
assert mcd.cat.can_bite(ilk, urn)
assert mcd.cat.bite(ilk, urn).transact()
kick = flipper.kicks()
assert kick == kicks_before + 1
urn = mcd.vat.urn(collateral.ilk, deployment_address)
# Check vat, vow, and cat
assert urn.ink == Wad(0)
assert urn.art == dart - art
assert mcd.vat.vice() > Rad(0)
assert mcd.vow.sin() == Rad(tab)
bites = mcd.cat.past_bites(1)
assert len(bites) == 1
last_bite = bites[0]
assert last_bite.tab > Rad(0)
assert last_bite.id == 1
litter_after = mcd.cat.litter()
assert litter_before < litter_after
# Check the flipper
current_bid = flipper.bids(kick)
assert isinstance(current_bid, Flipper.Bid)
assert current_bid.lot > Wad(0)
assert current_bid.tab > Rad(0)
assert current_bid.bid == Rad(0)
# Cat doesn't incorporate the liquidation penalty (chop), but the kicker includes it.
# Awaiting word from @dc why this is so.
#assert last_bite.tab == current_bid.tab
log = self.last_log(flipper)
assert isinstance(log, Flipper.KickLog)
assert log.id == kick
assert log.lot == current_bid.lot
assert log.bid == current_bid.bid
assert log.tab == current_bid.tab
assert log.usr == deployment_address
assert log.gal == mcd.vow.address
# Allow the auction to expire, and then resurrect it
time_travel_by(web3, flipper.tau()+1)
assert flipper.tick(kick).transact()
# Wrap some eth and handle approvals before bidding
eth_required = Wad(current_bid.tab / Rad(ilk.spot)) * Wad.from_number(1.13)
wrap_eth(mcd, other_address, eth_required)
collateral.approve(other_address)
assert collateral.adapter.join(other_address, eth_required).transact(from_address=other_address)
wrap_eth(mcd, our_address, eth_required)
collateral.approve(our_address)
assert collateral.adapter.join(our_address, eth_required).transact(from_address=our_address)
# Test the _tend_ phase of the auction
flipper.approve(mcd.vat.address, approval_function=hope_directly(from_address=other_address))
# Add Wad(1) to counter precision error converting tab from Rad to Wad
frob(mcd, collateral, other_address, dink=eth_required, dart=Wad(current_bid.tab) + Wad(1))
urn = mcd.vat.urn(collateral.ilk, other_address)
assert Rad(urn.art) >= current_bid.tab
# Bid the tab to instantly transition to dent stage
TestFlipper.tend(flipper, kick, other_address, current_bid.lot, current_bid.tab)
current_bid = flipper.bids(kick)
assert current_bid.guy == other_address
assert current_bid.bid == current_bid.tab
assert len(flipper.active_auctions()) == 1
check_active_auctions(flipper)
log = self.last_log(flipper)
assert isinstance(log, Flipper.TendLog)
assert log.guy == current_bid.guy
assert log.id == current_bid.id
assert log.lot == current_bid.lot
assert log.bid == current_bid.bid
# Test the _dent_ phase of the auction
flipper.approve(mcd.vat.address, approval_function=hope_directly(from_address=our_address))
frob(mcd, collateral, our_address, dink=eth_required, dart=Wad(current_bid.tab) + Wad(1))
lot = current_bid.lot - Wad.from_number(0.3)
assert flipper.beg() * lot <= current_bid.lot
TestFlipper.dent(flipper, kick, our_address, lot, current_bid.tab)
current_bid = flipper.bids(kick)
assert current_bid.guy == our_address
assert current_bid.bid == current_bid.tab
assert current_bid.lot == lot
log = self.last_log(flipper)
assert isinstance(log, Flipper.DentLog)
assert log.guy == current_bid.guy
assert log.id == current_bid.id
assert log.lot == current_bid.lot
assert log.bid == current_bid.bid
# Exercise _deal_ after bid has expired
time_travel_by(web3, flipper.ttl()+1)
now = datetime.now().timestamp()
assert 0 < current_bid.tic < now or current_bid.end < now
assert flipper.deal(kick).transact(from_address=our_address)
assert len(flipper.active_auctions()) == 0
log = self.last_log(flipper)
assert isinstance(log, Flipper.DealLog)
assert log.usr == our_address
# Grab our collateral
collateral_before = collateral.gem.balance_of(our_address)
assert collateral.adapter.exit(our_address, current_bid.lot).transact(from_address=our_address)
collateral_after = collateral.gem.balance_of(our_address)
assert collateral_before < collateral_after
# Cleanup
set_collateral_price(mcd, collateral, Wad.from_number(230))
cleanup_urn(mcd, collateral, other_address)
def test_kiss(self, mcd):
assert mcd.vow.kiss(Rad(0)).transact()
def create_debt(web3: Web3, mcd: DssDeployment, our_address: Address,
deployment_address: Address):
assert isinstance(web3, Web3)
assert isinstance(mcd, DssDeployment)
assert isinstance(our_address, Address)
assert isinstance(deployment_address, Address)
# Create a vault
collateral = mcd.collaterals['ETH-A']
ilk = collateral.ilk
ink = Wad.from_number(10)
wrap_eth(mcd, deployment_address, ink)
collateral.approve(deployment_address)
assert collateral.adapter.join(
deployment_address, ink).transact(from_address=deployment_address)
frob(mcd, collateral, deployment_address, dink=ink, dart=Wad(0))
dart = max_dart(mcd, collateral, deployment_address) - Wad(1)
frob(mcd, collateral, deployment_address, dink=Wad(0), dart=dart)
assert not mcd.cat.can_bite(
ilk, mcd.vat.urn(collateral.ilk, deployment_address))
# Undercollateralize by dropping the spot price, and then bite the vault
to_price = Wad(Web3.toInt(collateral.pip.read())) / Wad.from_number(2)
set_collateral_price(mcd, collateral, to_price)
urn = mcd.vat.urn(collateral.ilk, deployment_address)
assert urn.ink is not None and urn.art is not None
assert ilk.spot is not None
safe = Ray(urn.art) * mcd.vat.ilk(ilk.name).rate <= Ray(urn.ink) * ilk.spot
assert not safe
assert mcd.cat.can_bite(collateral.ilk, urn)
assert mcd.cat.bite(collateral.ilk, urn).transact()
flip_kick = collateral.flipper.kicks()
# Generate some Dai, submit a zero bid to win the flip auction without covering all the debt
wrap_eth(mcd, our_address, Wad.from_number(10))
collateral.approve(our_address)
assert collateral.adapter.join(
our_address, Wad.from_number(10)).transact(from_address=our_address)
web3.eth.defaultAccount = our_address.address
frob(mcd, collateral, our_address, dink=Wad.from_number(10), dart=Wad(1))
collateral.flipper.approve(mcd.vat.address,
approval_function=hope_directly())
current_bid = collateral.flipper.bids(flip_kick)
TestFlipper.tend(collateral.flipper, flip_kick, our_address,
current_bid.lot, Rad(1))
mcd.vat.can(our_address, collateral.flipper.address)
time_travel_by(web3, collateral.flipper.ttl() + 1)
assert collateral.flipper.deal(flip_kick).transact()
# Raise debt from the queue (note that vow.wait is 0 on our testchain)
assert mcd.vow.wait() == 0
bites = mcd.cat.past_bites(100)
assert len(bites) > 0
for bite in bites:
era_bite = bite.era(web3)
assert era_bite > int(datetime.now().timestamp()) - 120
assert mcd.vow.sin_of(era_bite) > Rad(0)
assert mcd.vow.flog(era_bite).transact()
assert mcd.vow.sin_of(era_bite) == Rad(0)
# Cancel out surplus and debt
dai_vow = mcd.vat.dai(mcd.vow.address)
# FIXME: too much surplus
assert dai_vow <= mcd.vow.woe()
assert mcd.vow.heal(dai_vow).transact()
assert mcd.vow.woe() >= mcd.vow.sump()
def test_dai(self, mcd, urn):
dai = mcd.vat.dai(urn.address)
assert dai >= Rad(0)
def test_debt(self, mcd):
debt = mcd.vat.debt()
assert debt >= Rad(0)
assert debt < mcd.vat.line()
def lot_implies_price(self, kick: int, price: Wad) -> bool:
return round(Rad(self.flopper.bids(kick).lot),
2) == round(self.sump / Rad(price), 2)
def add_tab(self):
x = Rad(0)
for value in self.auction_tab.values():
x = x + value
return x
def create_debt(web3: Web3, mcd: DssDeployment, our_address: Address,
deployment_address: Address):
assert isinstance(web3, Web3)
assert isinstance(mcd, DssDeployment)
assert isinstance(our_address, Address)
assert isinstance(deployment_address, Address)
# Create a CDP
collateral = mcd.collaterals['ETH-A']
ilk = collateral.ilk
wrap_eth(mcd, deployment_address, Wad.from_number(1))
collateral.approve(deployment_address)
assert collateral.adapter.join(
deployment_address,
Wad.from_number(1)).transact(from_address=deployment_address)
frob(mcd,
collateral,
deployment_address,
dink=Wad.from_number(1),
dart=Wad(0))
dart = max_dart(mcd, collateral, deployment_address) - Wad(1)
frob(mcd, collateral, deployment_address, dink=Wad(0), dart=dart)
# Undercollateralize and bite the CDP
to_price = Wad(Web3.toInt(collateral.pip.read())) / Wad.from_number(2)
set_collateral_price(mcd, collateral, to_price)
urn = mcd.vat.urn(collateral.ilk, deployment_address)
ilk = mcd.vat.ilk(ilk.name)
safe = Ray(urn.art) * mcd.vat.ilk(ilk.name).rate <= Ray(urn.ink) * ilk.spot
assert not safe
simulate_bite(mcd, collateral, deployment_address)
assert mcd.cat.bite(collateral.ilk, Urn(deployment_address)).transact()
flip_kick = collateral.flipper.kicks()
# Generate some Dai, bid on and win the flip auction without covering all the debt
wrap_eth(mcd, our_address, Wad.from_number(10))
collateral.approve(our_address)
assert collateral.adapter.join(
our_address, Wad.from_number(10)).transact(from_address=our_address)
web3.eth.defaultAccount = our_address.address
frob(mcd,
collateral,
our_address,
dink=Wad.from_number(10),
dart=Wad.from_number(200))
collateral.flipper.approve(mcd.vat.address,
approval_function=hope_directly())
current_bid = collateral.flipper.bids(flip_kick)
urn = mcd.vat.urn(collateral.ilk, our_address)
assert Rad(urn.art) > current_bid.tab
bid = Rad.from_number(6)
TestFlipper.tend(collateral.flipper, flip_kick, our_address,
current_bid.lot, bid)
mcd.vat.can(our_address, collateral.flipper.address)
wait(mcd, our_address, collateral.flipper.ttl() + 1)
assert collateral.flipper.deal(flip_kick).transact()
# Raise debt from the queue (note that vow.wait is 0 on our testchain)
bites = mcd.cat.past_bites(100)
for bite in bites:
era_bite = bite.era(web3)
assert era_bite > int(datetime.now().timestamp()) - 120
assert mcd.vow.sin_of(era_bite) > Rad(0)
assert mcd.vow.flog(era_bite).transact()
assert mcd.vow.sin_of(era_bite) == Rad(0)
# Cancel out surplus and debt
dai_vow = mcd.vat.dai(mcd.vow.address)
assert dai_vow <= mcd.vow.woe()
assert mcd.vow.heal(dai_vow).transact()
assert mcd.vow.woe() >= mcd.vow.sump()
def wipe_debt(mcd: DssDeployment, collateral: Collateral, address: Address):
urn = mcd.vat.urn(collateral.ilk, address)
assert Rad(urn.art) >= mcd.vat.dai(address)
dink = Ray(mcd.vat.dai(address)) / mcd.vat.ilk(collateral.ilk.name).rate
frob(mcd, collateral, address, Wad(0), Wad(dink) * -1) #because there is residual state on the testchain
assert mcd.vat.dai(address) <= Rad(Wad(1)) # pesky dust amount in Dai amount
def dog_dirt(self) -> Rad:
return Rad(self._contract.functions.Dirt().call())
def dog_hole(self) -> Rad:
return Rad(self._contract.functions.Hole().call())
def dirt(self, ilk: Ilk) -> Rad:
assert isinstance(ilk, Ilk)
(clip, chop, hole,
dirt) = self._contract.functions.ilks(ilk.toBytes()).call()
return Rad(dirt)
def ash(self) -> Rad:
return Rad(self._contract.call().Ash())
def ilk(self, name: str) -> Ilk:
assert isinstance(name, str)
b32_ilk = Ilk(name).toBytes()
(art, rate, spot, line, dust) = self._contract.call().ilks(b32_ilk)
# We could get "ink" from the urn, but caller must provide an address.
return Ilk(name, rate=Ray(rate), ink=Wad(0), art=Wad(art), spot=Ray(spot), line=Rad(line), dust=Rad(dust))
def hump(self) -> Rad:
return Rad(self._contract.call().hump())
def sin(self, urn: Address) -> Rad:
assert isinstance(urn, Address)
return Rad(self._contract.call().sin(urn.address))
def test_sin(self, mcd, urn):
sin = mcd.vat.sin(urn.address)
assert isinstance(sin, Rad)
assert sin == Rad(0)
def debt(self) -> Rad:
return Rad(self._contract.call().debt())
def test_heal(self, mcd):
assert mcd.vow.heal(Rad(0)).transact()
def vice(self) -> Rad:
return Rad(self._contract.call().vice())
def test_healthy_cdp(self, web3, mcd, our_address):
collateral = mcd.collaterals['ETH-B']
ilk = collateral.ilk
TestVat.ensure_clean_urn(mcd, collateral, our_address)
initial_dai = mcd.vat.dai(our_address)
wrap_eth(mcd, our_address, Wad.from_number(9))
# Ensure our collateral enters the urn
collateral_balance_before = collateral.gem.balance_of(our_address)
collateral.approve(our_address)
assert collateral.adapter.join(our_address,
Wad.from_number(9)).transact()
assert collateral.gem.balance_of(
our_address) == collateral_balance_before - Wad.from_number(9)
# Add collateral without generating Dai
frob(mcd,
collateral,
our_address,
dink=Wad.from_number(3),
dart=Wad(0))
print(
f"After adding collateral: {mcd.vat.urn(ilk, our_address)}"
)
assert mcd.vat.urn(ilk, our_address).ink == Wad.from_number(3)
assert mcd.vat.urn(ilk, our_address).art == Wad(0)
assert mcd.vat.gem(ilk,
our_address) == Wad.from_number(9) - mcd.vat.urn(
ilk, our_address).ink
assert mcd.vat.dai(our_address) == initial_dai
# Generate some Dai
frob(mcd,
collateral,
our_address,
dink=Wad(0),
dart=Wad.from_number(153))
print(
f"After generating dai: {mcd.vat.urn(ilk, our_address)}"
)
assert mcd.vat.urn(ilk, our_address).ink == Wad.from_number(3)
assert mcd.vat.urn(ilk, our_address).art == Wad.from_number(153)
assert mcd.vat.dai(our_address) == initial_dai + Rad.from_number(153)
# Add collateral and generate some more Dai
frob(mcd,
collateral,
our_address,
dink=Wad.from_number(6),
dart=Wad.from_number(180))
print(
f"After adding collateral and dai: {mcd.vat.urn(ilk, our_address)}"
)
assert mcd.vat.urn(ilk, our_address).ink == Wad.from_number(9)
assert mcd.vat.gem(ilk, our_address) == Wad(0)
assert mcd.vat.urn(ilk, our_address).art == Wad.from_number(333)
assert mcd.vat.dai(our_address) == initial_dai + Rad.from_number(333)
# Mint and withdraw our Dai
dai_balance_before = mcd.dai.balance_of(our_address)
mcd.approve_dai(our_address)
assert isinstance(mcd.dai_adapter, DaiJoin)
assert mcd.dai_adapter.exit(our_address,
Wad.from_number(333)).transact()
assert mcd.dai.balance_of(
our_address) == dai_balance_before + Wad.from_number(333)
assert mcd.vat.dai(our_address) == initial_dai
assert mcd.vat.debt() >= initial_dai + Rad.from_number(333)
# Repay (and burn) our Dai
assert mcd.dai_adapter.join(our_address,
Wad.from_number(333)).transact()
assert mcd.dai.balance_of(our_address) == Wad(0)
assert mcd.vat.dai(our_address) == initial_dai + Rad.from_number(333)
# Withdraw our collateral
frob(mcd,
collateral,
our_address,
dink=Wad(0),
dart=Wad.from_number(-333))
frob(mcd,
collateral,
our_address,
dink=Wad.from_number(-9),
dart=Wad(0))
assert mcd.vat.gem(ilk, our_address) == Wad.from_number(9)
assert collateral.adapter.exit(our_address,
Wad.from_number(9)).transact()
collateral_balance_after = collateral.gem.balance_of(our_address)
assert collateral_balance_before == collateral_balance_after
# Cleanup
cleanup_urn(mcd, collateral, our_address)
def line(self) -> Rad:
""" Total debt ceiling """
return Rad(self._contract.call().Line())
def debt(self) -> Rad:
"""total outstanding dai following processing"""
return Rad(self._contract.functions.debt().call())
def sin(self) -> Rad:
return Rad(self._contract.call().Sin())
def chost(self) -> Rad:
"""Ilk dust times the ilk chop"""
return Rad(self._contract.functions.chost().call())
def sin_of(self, era: int) -> Rad:
return Rad(self._contract.call().sin(era))
def test_scenario(self, web3, mcd, collateral, clipper, our_address, other_address, deployment_address):
dirt_before = mcd.dog.dog_dirt()
vice_before = mcd.vat.vice()
sin_before = mcd.vow.sin()
# Create a vault
ilk = collateral.ilk
ink = Wad.from_number(1)
wrap_eth(mcd, deployment_address, ink)
collateral.approve(deployment_address)
assert collateral.adapter.join(deployment_address, ink).transact(
from_address=deployment_address)
frob(mcd, collateral, deployment_address, dink=ink, dart=Wad(0))
dart = max_dart(mcd, collateral, deployment_address) - Wad(1)
frob(mcd, collateral, deployment_address, dink=Wad(0), dart=dart)
# Mint and withdraw all the Dai
mcd.approve_dai(deployment_address)
assert mcd.dai_adapter.exit(deployment_address, dart).transact(from_address=deployment_address)
# Undercollateralize the vault
to_price = Wad(Web3.toInt(collateral.pip.read())) / Wad.from_number(2)
set_collateral_price(mcd, collateral, to_price)
urn = mcd.vat.urn(collateral.ilk, deployment_address)
ilk = mcd.vat.ilk(ilk.name)
safe = Ray(urn.art) * mcd.vat.ilk(ilk.name).rate <= Ray(urn.ink) * ilk.spot
assert not safe
assert clipper.active_count() == 0
# Bark the vault, which moves debt to the vow and kicks the clipper
dai_before_bark: Rad = mcd.vat.dai(our_address)
urn = mcd.vat.urn(collateral.ilk, deployment_address)
assert urn.ink > Wad(0)
tab = urn.art * ilk.rate # Wad
assert tab == dart
assert mcd.dog.bark(ilk, urn).transact()
barks = mcd.dog.past_barks(1)
assert len(barks) == 1
last_bite = barks[0]
assert last_bite.due > Rad(0)
assert clipper.active_count() == 1
kick = clipper.kicks()
assert kick == 1
assert len(clipper.active_auctions()) == 1
assert clipper.active_auctions()[0].id == 1
assert mcd.active_auctions()['clips']['ETH-B'][0].id == 1
urn = mcd.vat.urn(collateral.ilk, deployment_address)
(needs_redo, price, lot, tab) = clipper.status(kick)
assert not needs_redo
assert price == Ray.from_number(172.5)
assert lot == ink
assert float(tab) == 105.0
# Check vat, vow, and dog
assert urn.ink == Wad(0)
assert vice_before < mcd.vat.vice()
assert sin_before < mcd.vow.sin()
assert dirt_before < mcd.dog.dog_dirt()
# Check the clipper
current_sale = clipper.sales(kick)
assert isinstance(current_sale, Clipper.Sale)
assert current_sale.pos == 0
assert float(current_sale.tab) == 105.0
assert current_sale.lot == ink
assert current_sale.usr == deployment_address
assert current_sale.tic > 0
assert round(current_sale.top, 1) == price
coin = Rad(clipper.tip() + (current_sale.tab * clipper.chip()))
# Confirm we received our liquidation reward
dai_after_bark: Rad = mcd.vat.dai(our_address)
assert dai_after_bark == dai_before_bark + coin
kick_log = self.last_log(clipper)
assert isinstance(kick_log, Clipper.KickLog)
assert kick_log.id == kick
assert kick_log.top == current_sale.top
assert kick_log.tab == current_sale.tab
assert kick_log.lot == current_sale.lot
assert kick_log.usr == deployment_address
assert kick_log.kpr == our_address
assert kick_log.coin == coin
# Wrap some eth and handle approvals before bidding
eth_required = Wad(current_sale.tab / Rad(ilk.spot)) * Wad.from_number(1.1)
wrap_eth(mcd, our_address, eth_required)
collateral.approve(our_address)
assert collateral.adapter.join(our_address, eth_required).transact(from_address=our_address)
clipper.approve(mcd.vat.address, approval_function=hope_directly(from_address=our_address))
# Ensure we cannot take collateral below the current price
(needs_redo, price, lot, tab) = clipper.status(kick)
with pytest.raises(AssertionError):
clipper.validate_take(kick, ink, price - Ray.from_number(1))
assert not clipper.take(kick, ink, Ray.from_number(140)).transact(from_address=our_address)
# Take some collateral with max above the top price
clipper.validate_take(kick, Wad.from_number(0.07), Ray.from_number(180))
assert web3.eth.defaultAccount == our_address.address
assert clipper.take(kick, Wad.from_number(0.07), Ray.from_number(180)).transact(from_address=our_address)
(needs_redo, price, lot, tab) = clipper.status(kick)
assert not needs_redo
current_sale = clipper.sales(kick)
assert current_sale.lot > Wad(0)
assert current_sale.top > price
assert Rad(0) < current_sale.tab < kick_log.tab
first_take_log = self.last_log(clipper)
assert first_take_log.id == 1
assert first_take_log.max == Ray.from_number(180)
assert first_take_log.price == price
assert first_take_log.lot == current_sale.lot
assert first_take_log.usr == deployment_address
assert first_take_log.sender == our_address
assert round(first_take_log.owe, 18) == round(Rad.from_number(0.07) * Rad(price), 18)
# Allow the auction to expire, and then resurrect it
# TODO: If abaci contract is ever wrapped, read tau from it
time_travel_by(web3, 24)
(needs_redo, price, lot, tab) = clipper.status(kick)
assert needs_redo
assert len(clipper.active_auctions()) == clipper.active_count()
assert clipper.redo(kick, our_address).transact()
(needs_redo, price, lot, tab) = clipper.status(kick)
assert not needs_redo
current_sale = clipper.sales(kick)
assert current_sale.lot > Wad(0)
redo_log = self.last_log(clipper)
assert isinstance(redo_log, Clipper.RedoLog)
assert redo_log.id == kick
assert redo_log.top == current_sale.top
assert redo_log.tab == current_sale.tab
assert redo_log.lot == current_sale.lot
assert redo_log.usr == deployment_address
assert redo_log.kpr == our_address
coin = Rad(clipper.tip() + (current_sale.tab * clipper.chip()))
assert round(float(redo_log.coin), 18) == round(float(coin), 18)
# Sleep until price has gone down enough to bid with remaining Dai
dai = mcd.vat.dai(our_address)
last_price = price
print(f"Bid cost={float(price * Ray(current_sale.lot))}, Dai balance={float(dai)}")
while price * Ray(current_sale.lot) > Ray(dai):
print(f"Bid cost {price * Ray(current_sale.lot)} exceeds Dai balance {dai}")
time_travel_by(web3, 2)
(needs_redo, price, lot, tab) = clipper.status(kick)
assert price < last_price
assert not needs_redo
last_price = price
clipper.validate_take(kick, current_sale.lot, price)
assert clipper.take(kick, current_sale.lot, price).transact(from_address=our_address)
current_sale = clipper.sales(kick)
assert current_sale.lot == Wad(0)
assert current_sale.tab == Rad(0)
assert clipper.active_count() == 0
assert len(clipper.active_auctions()) == 0
# Ensure we can retrieve our collateral
collateral_before = collateral.gem.balance_of(our_address)
assert collateral.adapter.exit(our_address, ink).transact(from_address=our_address)
collateral_after = collateral.gem.balance_of(our_address)
assert collateral_before < collateral_after
# Cleanup
set_collateral_price(mcd, collateral, Wad.from_number(230))
cleanup_urn(mcd, collateral, our_address)
def box(self) -> Rad:
return Rad(self._contract.functions.box().call())