Python match示例

编程语言: Python

命名空间/包名称: libgem

方法/功能: match

hotexamples.com的示例: 4

Python match - 已找到4个示例。这些是从开源项目中提取的最受好评的libgem.match现实Python示例。您可以评价示例，以帮助我们提高示例质量。

示例#1

显示文件

文件： distances.py 项目： gravitino/gem

def gem(query, subject, St0=2, St1=2, E=0.01, symmetric=False, squared=True):
    """GEM local similarity measure"""

    # enable openmp support
    omp = False

    N = lgem.TimeSeries(query)
    H = lgem.TimeSeries(subject)
    R = lgem.Result()

    lgem.match(N, H, R, St0, St1, E, omp, squared)
    dist = R[0].penalty

    if (symmetric):
        R = lgem.Result()
        lgem.match(H, N, R, St0, St1, E, omp, squared)
        dist = min(dist, R[0].penalty)
    
    return dist

示例#2

显示文件

def gem(query, subject, St0=2, St1=2, E=0.01, symmetric=False, squared=True):
    """GEM local similarity measure"""

    # enable openmp support
    omp = False

    N = lgem.TimeSeries(query)
    H = lgem.TimeSeries(subject)
    R = lgem.Result()

    lgem.match(N, H, R, St0, St1, E, omp, squared)
    dist = R[0].penalty

    if (symmetric):
        R = lgem.Result()
        lgem.match(H, N, R, St0, St1, E, omp, squared)
        dist = min(dist, R[0].penalty)

    return dist

示例#3

显示文件

H = gem.TimeSeries(S[1000:])

print len(N), len(H)

# matching parameters
St0, St1, E = 2, 2, 0.01

R = gem.Result()
t = time.time()
gemc.cuda_match(N, H, R, St0, St1, E, True)
print "time needed:", time.time(
) - t, "best match:", R[0].penalty, R[0].left, R[0].right

R = gem.Result()
t = time.time()
gem.match(N, H, R, St0, St1, E, True, True)
print "time needed:", time.time(
) - t, "best match:", R[0].penalty, R[0].left, R[0].right

pl.plot(np.array(N) + 1)
pl.plot(H, c="lightgrey")

for item in R[:10]:
    L = gem.TimeSeries()
    X = gem.TimeCoords()
    Y = gem.TimeSeries()

    gem.backtrace(N, H, item, L, X, Y, St0, St1, E, False, True)
    pl.plot(X, Y, color="r")
    pl.plot(X, L, color="b")

示例#4

显示文件

文件： example.py 项目： gravitino/gem

N = gem.TimeSeries(S[:1000])
H = gem.TimeSeries(S[1000:])

print len(N), len(H)

# matching parameters
St0, St1, E = 2, 2, 0.01

R = gem.Result()
t=time.time()
gemc.cuda_match(N, H, R, St0, St1, E, True)
print "time needed:", time.time()-t, "best match:", R[0].penalty, R[0].left, R[0].right

R = gem.Result()
t=time.time()
gem.match(N, H, R, St0, St1, E, True, True)
print "time needed:", time.time()-t, "best match:", R[0].penalty, R[0].left, R[0].right

pl.plot(np.array(N) + 1)
pl.plot(H, c = "lightgrey")

for item in R[:10]:
    L = gem.TimeSeries()
    X = gem.TimeCoords()
    Y = gem.TimeSeries()
    
 
    gem.backtrace(N, H, item, L, X, Y, St0, St1, E, False, True)
    pl.plot(X, Y, color="r")
    pl.plot(X, L, color="b")