quoracle/examples/tutorial.py

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Python
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2021-02-05 04:59:10 +00:00
from quoracle import *
2021-02-07 20:19:08 +00:00
def main() -> None:
## Quorum Systems
a = Node('a')
b = Node('b')
c = Node('c')
d = Node('d')
e = Node('e')
f = Node('f')
grid = QuorumSystem(reads=a*b*c + d*e*f)
for r in grid.read_quorums():
print(r)
for w in grid.write_quorums():
print(w)
QuorumSystem(writes=(a + b + c) * (d + e + f))
QuorumSystem(reads=a*b*c + d*e*f, writes=(a + b + c) * (d + e + f))
# QuorumSystem(reads=a+b+c, writes=d+e+f)
# ValueError: Not all read quorums intersect all write quorums
print(grid.is_read_quorum({'a', 'b', 'c'})) # True
print(grid.is_read_quorum({'a', 'b', 'c', 'd'})) # True
print(grid.is_read_quorum({'a', 'b', 'd'})) # False
print(grid.is_write_quorum({'a', 'd'})) # True
print(grid.is_write_quorum({'a', 'd', 'd'})) # True
print(grid.is_write_quorum({'a', 'b'})) # False
## Resilience
print(grid.read_resilience()) # 1
print(grid.write_resilience()) # 2
print(grid.resilience()) # 1
## Strategies
# The read quorum strategy.
sigma_r = {
frozenset({'a', 'b', 'c'}): 2.,
frozenset({'d', 'e', 'f'}): 1.,
}
# The write quorum strategy.
sigma_w = {
frozenset({'a', 'd'}): 1.,
frozenset({'b', 'e'}): 1.,
frozenset({'c', 'f'}): 1.,
}
strategy = grid.make_strategy(sigma_r, sigma_w)
print(strategy.get_read_quorum())
print(strategy.get_read_quorum())
print(strategy.get_read_quorum())
print(strategy.get_read_quorum())
print(strategy.get_write_quorum())
print(strategy.get_write_quorum())
print(strategy.get_write_quorum())
print(strategy.get_write_quorum())
## Load and Capacity
print(strategy.load(read_fraction=1)) # 2/3
print(strategy.load(write_fraction=1)) # 1/3
print(strategy.load(read_fraction=0.25)) # 5/12
print(strategy.node_load(a, read_fraction=0.25)) # 5/12
print(strategy.node_load(b, read_fraction=0.25)) # 5/12
print(strategy.node_load(c, read_fraction=0.25)) # 5/12
print(strategy.node_load(d, read_fraction=0.25)) # 1/3
print(strategy.node_load(e, read_fraction=0.25)) # 1/3
print(strategy.node_load(f, read_fraction=0.25)) # 1/3
strategy = grid.strategy(read_fraction=0.25)
print(strategy)
print(strategy.load(read_fraction=0.25)) # 3/8
print(strategy.load(read_fraction=0)) # 1/3
print(strategy.load(read_fraction=0.5)) # 5/12
print(strategy.load(read_fraction=1)) # 1/2
print(grid.load(read_fraction=0.25)) # 3/8
print(grid.capacity(read_fraction=0.25)) # 8/3
## Workload Distributions
distribution = {0.1: 0.5, 0.75: 0.5}
strategy = grid.strategy(read_fraction=distribution)
print(strategy.load(read_fraction=distribution)) # 0.404
## Heterogeneous Node
a = Node('a', capacity=1000)
b = Node('b', capacity=500)
c = Node('c', capacity=1000)
d = Node('d', capacity=500)
e = Node('e', capacity=1000)
f = Node('f', capacity=500)
grid = QuorumSystem(reads=a*b*c + d*e*f)
strategy = grid.strategy(read_fraction=0.75)
print(strategy.load(read_fraction=0.75)) # 0.00075
print(strategy.capacity(read_fraction=0.75)) # 1333
a = Node('a', write_capacity=1000, read_capacity=10000)
b = Node('b', write_capacity=500, read_capacity=5000)
c = Node('c', write_capacity=1000, read_capacity=10000)
d = Node('d', write_capacity=500, read_capacity=5000)
e = Node('e', write_capacity=1000, read_capacity=10000)
f = Node('f', write_capacity=500, read_capacity=5000)
grid = QuorumSystem(reads=a*b*c + d*e*f)
print(grid.capacity(read_fraction=1)) # 10,000
print(grid.capacity(read_fraction=0.5)) # 3913
print(grid.capacity(read_fraction=0)) # 2000
## f-resilient Strategies
strategy = grid.strategy(read_fraction=0.5, f=1)
print(strategy.get_read_quorum())
print(strategy.get_write_quorum())
print(grid.capacity(write_fraction=1, f=0))
print(grid.capacity(write_fraction=1, f=1))
write2 = QuorumSystem(writes=choose(2, [a, b, c, d, e]))
print(write2.capacity(write_fraction=1, f=0))
print(write2.capacity(write_fraction=1, f=1))
## Latency
import datetime
def seconds(x: int) -> datetime.timedelta:
return datetime.timedelta(seconds=x)
a = Node('a', write_capacity=1000, read_capacity=10000, latency=seconds(1))
b = Node('b', write_capacity=500, read_capacity=5000, latency=seconds(2))
c = Node('c', write_capacity=1000, read_capacity=10000, latency=seconds(3))
d = Node('d', write_capacity=500, read_capacity=5000, latency=seconds(4))
e = Node('e', write_capacity=1000, read_capacity=10000, latency=seconds(5))
f = Node('f', write_capacity=500, read_capacity=5000, latency=seconds(6))
grid = QuorumSystem(reads=a*b*c + d*e*f)
sigma = grid.strategy(read_fraction=0.5, optimize='latency')
print(sigma)
print(sigma.latency(read_fraction=1))
print(sigma.latency(read_fraction=0))
print(sigma.latency(read_fraction=0.5))
print(grid.latency(read_fraction=0.5, optimize='latency'))
sigma = grid.strategy(read_fraction=0.5,
optimize='latency',
load_limit=1/1500)
print(sigma)
print(sigma.capacity(read_fraction=0.5))
print(sigma.latency(read_fraction=0.5))
sigma = grid.strategy(read_fraction=0.5,
optimize='load',
latency_limit=seconds(4))
print(sigma)
print(sigma.capacity(read_fraction=0.5))
print(sigma.latency(read_fraction=0.5))
# grid.strategy(read_fraction=0.5,
# optimize='load',
# latency_limit=seconds(1))
# quoracle.quorum_system.NoStrategyFoundError: no strategy satisfies the given constraints
## Network Load
sigma = grid.strategy(read_fraction=0.5, optimize='network')
print(sigma)
print(sigma.network_load(read_fraction=0.5))
print(grid.network_load(read_fraction=0.5, optimize='network'))
sigma = grid.strategy(read_fraction=0.5,
optimize='network',
load_limit=1/2000,
latency_limit=seconds(4))
## Search
qs, sigma = search(nodes=[a, b, c, d, e, f],
resilience=1,
f=1,
read_fraction=0.75,
optimize='load',
latency_limit=seconds(4),
network_limit=4,
timeout=seconds(60))
print(qs)
print(sigma)
print(sigma.capacity(read_fraction=0.75))
print(sigma.latency(read_fraction=0.75))
print(sigma.network_load(read_fraction=0.75))
if __name__ == '__main__':
main()