def load_kps_event_list(filename):
elist = []
f = open(filename, 'r')
for line in f:
toks = line.split()
if len(toks) < 7: continue
tim = util.ctimegm(toks[0] + ' ' + toks[1])
lat, lon, depth, magnitude = [float(x) for x in toks[2:6]]
duration = float(toks[10])
region = toks[-1]
name = util.gmctime_fn(tim)
e = Event(lat,
lon,
tim,
name=name,
depth=depth,
magnitude=magnitude,
duration=duration,
region=region)
elist.append(e)
f.close()
return elist
def loadf(self, file):
d = {}
try:
for line in file:
if line.lstrip().startswith('#'):
continue
toks = line.split(' = ', 1)
if len(toks) == 2:
k, v = toks[0].strip(), toks[1].strip()
if k in ('name', 'region', 'catalog'):
d[k] = v
if k in (
'latitude longitude magnitude depth duration mnn mee mdd mne mnd med strike1 dip1 rake1 strike2 dip2 rake2 duration'
.split()):
d[k] = float(v)
if k == 'time':
d[k] = util.ctimegm(v[:19])
if line.startswith('---'):
d['have_separator'] = True
break
except Exception, e:
raise FileParseError(e)
def loadf(self, file):
d = {}
try:
for line in file:
if line.lstrip().startswith("#"):
continue
toks = line.split(" = ", 1)
if len(toks) == 2:
k, v = toks[0].strip(), toks[1].strip()
if k in ("name", "region", "catalog"):
d[k] = v
if k in (
"latitude longitude magnitude depth duration mnn mee mdd mne mnd med strike1 dip1 rake1 strike2 dip2 rake2 duration".split()
):
d[k] = float(v)
if k == "time":
d[k] = util.ctimegm(v[:19])
if line.startswith("---"):
d["have_separator"] = True
break
except Exception, e:
raise FileParseError(e)
def read(self, filename, get_data=True):
'''Read SAC file.
filename -- Name of KAN file.
get_data -- If True, the data is read, otherwise only read headers.
'''
nbh = KanFile.nbytes_header
# read in all data
f = open(filename, 'rb')
if get_data:
filedata = f.read()
else:
filedata = f.read(nbh)
f.close()
if len(filedata) < nbh:
raise KanError('File too short to be a KAN file.')
header_records = int(filedata[0:8])
npts = int(filedata[8:20])
leven = int(filedata[20:28])
datatype = int(filedata[28:36])
rate = float(filedata[36:50])
offset = float(filedata[50:64])
byte_sex = ('little', 'big')[int(filedata[382:390])]
assert header_records == 1
assert leven == 1
assert datatype == 2
assert offset == 0.0
date = filedata[393:405].strip()
tim = filedata[405:415].strip()
microseconds = int(filedata[415:423])
ref_time = util.ctimegm('%s %s' % (date, tim)) + microseconds / 1.0e6
stationname = os.path.basename(filename).replace('.kan', '').replace(
'.KAN', '')
self.npts = npts
self.delta = 1.0 / rate
self.kstnm = stationname
self.ref_time = ref_time
if get_data:
if byte_sex == 'little':
dtype = '<i4'
else:
dtype = '>i4'
self.data = num.fromstring(filedata[nbh:], dtype=dtype)
assert self.data.size == self.npts
else:
self.data = None
def read(self, filename, get_data=True):
"""Read SAC file.
filename -- Name of KAN file.
get_data -- If True, the data is read, otherwise only read headers.
"""
nbh = KanFile.nbytes_header
# read in all data
f = open(filename, "rb")
if get_data:
filedata = f.read()
else:
filedata = f.read(nbh)
f.close()
if len(filedata) < nbh:
raise KanError("File too short to be a KAN file.")
header_records = int(filedata[0:8])
npts = int(filedata[8:20])
leven = int(filedata[20:28])
datatype = int(filedata[28:36])
rate = float(filedata[36:50])
offset = float(filedata[50:64])
byte_sex = ("little", "big")[int(filedata[382:390])]
assert header_records == 1
assert leven == 1
assert datatype == 2
assert offset == 0.0
date = filedata[393:405].strip()
tim = filedata[405:415].strip()
microseconds = int(filedata[415:423])
ref_time = util.ctimegm("%s %s" % (date, tim)) + microseconds / 1.0e6
stationname = os.path.basename(filename).replace(".kan", "").replace(".KAN", "")
self.npts = npts
self.delta = 1.0 / rate
self.kstnm = stationname
self.ref_time = ref_time
if get_data:
if byte_sex == "little":
dtype = "<i4"
else:
dtype = ">i4"
self.data = num.fromstring(filedata[nbh:], dtype=dtype)
assert self.data.size == self.npts
else:
self.data = None
def read(self, filename, load_data=True):
'''Read SAC file.
filename -- Name of KAN file.
load_data -- If True, the data is read, otherwise only read headers.
'''
nbh = KanFile.nbytes_header
# read in all data
f = open(filename,'rb')
if load_data:
filedata = f.read()
else:
filedata = f.read(nbh)
f.close()
if len(filedata) < nbh:
raise KanError('File too short to be a KAN file.')
header_records = int(filedata[0:8])
npts = int(filedata[8:20])
leven = int(filedata[20:28])
datatype = int(filedata[28:36])
rate = float(filedata[36:50])
offset = float(filedata[50:64])
byte_sex = ('little', 'big')[int(filedata[382:390])]
assert header_records == 1
assert leven == 1
assert datatype == 2
assert offset == 0.0
date = filedata[393:405].strip()
tim = filedata[405:415].strip()
microseconds = int(filedata[415:423])
ref_time = util.ctimegm('%s %s' % (date,tim)) + microseconds/1.0e6
stationname = os.path.basename(filename).replace('.kan','').replace('.KAN','')
self.npts = npts
self.delta = 1.0/rate
self.kstnm = stationname
self.ref_time = ref_time
if load_data:
if byte_sex == 'little':
dtype = '<i4'
else:
dtype = '>i4'
self.data = num.fromstring(filedata[nbh:], dtype=dtype)
assert self.data.size == self.npts
else:
self.data = None
def load_kps_event_list(filename):
elist =[]
f = open(filename, 'r')
for line in f:
toks = line.split()
if len(toks) < 7: continue
tim = util.ctimegm(toks[0]+' '+toks[1])
lat, lon, depth, magnitude = [ float(x) for x in toks[2:6] ]
duration = float(toks[10])
region = toks[-1]
name = util.gmctime_fn(tim)
e = Event(lat, lon, tim, name=name, depth=depth, magnitude=magnitude, duration=duration, region=region)
elist.append(e)
f.close()
return elist
def loadf(self, file):
d = {}
try:
for line in file:
if line.lstrip().startswith('#'):
continue
toks = line.split(' = ',1)
if len(toks) == 2:
k,v = toks[0].strip(), toks[1].strip()
if k in ('name', 'region', 'catalog'):
d[k] = v
if k in ('latitude longitude magnitude depth duration mnn mee mdd mne mnd med strike1 dip1 rake1 strike2 dip2 rake2 duration'.split()):
d[k] = float(v)
if k == 'time':
d[k] = util.ctimegm(v[:19])
if line.startswith('---'):
d['have_separator'] = True
break
except Exception, e:
raise FileParseError(e)
