obspy.core.stream.read
- read(pathname_or_url=None, format=None, headonly=False, starttime=None, endtime=None, nearest_sample=True, dtype=None, apply_calib=False, check_compression=True, **kwargs)[source]
Read waveform files into an ObsPy
Stream
object.The
read()
function opens either one or multiple waveform files given via file name or URL using thepathname_or_url
attribute.The format of the waveform file will be automatically detected if not given. See the Supported Formats section below for available formats.
This function returns an ObsPy
Stream
object, alist
-like object of multiple ObsPyTrace
objects.- Parameters:
pathname_or_url (str, io.BytesIO, or pathlib.Path, optional) – String containing a file name or a URL, a Path object, or a open file-like object. Wildcards are allowed for a file name. If this attribute is omitted, an example
Stream
object will be returned.format (str, optional) – Format of the file to read (e.g.
"MSEED"
). See the Supported Formats section below for a list of supported formats. If format is set toNone
it will be automatically detected which results in a slightly slower reading. If a format is specified, no further format checking is done.headonly (bool, optional) – If set to
True
, read only the data header. This is most useful for scanning available meta information of huge data sets.starttime (
UTCDateTime
, optional) – Specify the start time to read.endtime (
UTCDateTime
, optional) – Specify the end time to read.nearest_sample (bool, optional) – Only applied if starttime or endtime is given. Select nearest sample or the one containing the specified time. For more info, see
trim()
.dtype (
numpy.dtype
, optional) – Convert data of all traces into given numpy.dtype.apply_calib (bool, optional) – Automatically applies the calibration factor
trace.stats.calib
for each trace, if set. Defaults toFalse
.check_compression (bool, optional) – Check for compression on file and decompress if needed. This may be disabled for a moderate speed up.
kwargs – Additional keyword arguments passed to the underlying waveform reader method.
- Returns:
An ObsPy
Stream
object.
Basic Usage
In most cases a filename is specified as the only argument to
read()
. For a quick start you may omit all arguments and ObsPy will create and return a basic example seismogram. Further usages of theread()
function can be seen in the Further Examples section underneath.>>> from obspy import read >>> st = read() >>> print(st) 3 Trace(s) in Stream: BW.RJOB..EHZ | 2009-08-24T00:20:03.000000Z - ... | 100.0 Hz, 3000 samples BW.RJOB..EHN | 2009-08-24T00:20:03.000000Z - ... | 100.0 Hz, 3000 samples BW.RJOB..EHE | 2009-08-24T00:20:03.000000Z - ... | 100.0 Hz, 3000 samples
Supported Formats
Additional ObsPy modules extend the functionality of the
read()
function. The following table summarizes all known file formats currently supported by ObsPy. The table order also reflects the order of the autodetection routine if no format option is specified.Please refer to the Linked Function Call of each module for any extra options available at the import stage.
Format
Used Module
Linked Function Call
AH
CSS
DMX
GCF
GSE1
GSE2
KINEMETRICS_EVT
KNET
obspy.io.nied
MSEED
NNSA_KB_CORE
PDAS
PICKLE
Q
REFTEK130
RG16
SAC
SACXY
SEG2
SEGY
SEISAN
SH_ASC
SLIST
SU
TSPAIR
WAV
WIN
Y
Next to the
read()
function thewrite()
method of the returnedStream
object can be used to export the data to the file system.Further Examples
Example waveform files may be retrieved via https://examples.obspy.org.
Reading multiple local files using wildcards.
The following code uses wildcards, in this case it matches two files. Both files are then read into a single
Stream
object.>>> from obspy import read >>> st = read("/path/to/loc_R*.z") >>> print(st) 2 Trace(s) in Stream: .RJOB..Z | 2005-08-31T02:33:49.850000Z - ... | 200.0 Hz, 12000 samples .RNON..Z | 2004-06-09T20:05:59.850000Z - ... | 200.0 Hz, 12000 samples
Reading a local file without format detection.
Using the
format
parameter disables the automatic detection and enforces reading a file in a given format.>>> from obspy import read >>> st = read("/path/to/loc_RJOB20050831023349.z", format="GSE2") >>> print(st) 1 Trace(s) in Stream: .RJOB..Z | 2005-08-31T02:33:49.850000Z - ... | 200.0 Hz, 12000 samples
Reading a remote file via HTTP protocol.
>>> from obspy import read >>> st = read("https://examples.obspy.org/loc_RJOB20050831023349.z") >>> print(st) 1 Trace(s) in Stream: .RJOB..Z | 2005-08-31T02:33:49.850000Z - ... | 200.0 Hz, 12000 samples
Reading a compressed files.
>>> from obspy import read >>> st = read("/path/to/tspair.ascii.gz") >>> print(st) 1 Trace(s) in Stream: XX.TEST..BHZ | 2008-01-15T00:00:00.025000Z - ... | 40.0 Hz, 635 samples
>>> st = read("https://examples.obspy.org/slist.ascii.bz2") >>> print(st) 1 Trace(s) in Stream: XX.TEST..BHZ | 2008-01-15T00:00:00.025000Z - ... | 40.0 Hz, 635 samples
Reading a file-like object.
>>> import requests >>> import io >>> example_url = "https://examples.obspy.org/loc_RJOB20050831023349.z" >>> stringio_obj = io.BytesIO(requests.get(example_url).content) >>> st = read(stringio_obj) >>> print(st) 1 Trace(s) in Stream: .RJOB..Z | 2005-08-31T02:33:49.850000Z - ... | 200.0 Hz, 12000 samples
Using ‘starttime’ and ‘endtime’ parameters
>>> from obspy import read >>> dt = UTCDateTime("2005-08-31T02:34:00") >>> st = read("https://examples.obspy.org/loc_RJOB20050831023349.z", ... starttime=dt, endtime=dt+10) >>> print(st) 1 Trace(s) in Stream: .RJOB..Z | 2005-08-31T02:34:00.000000Z - ... | 200.0 Hz, 2001 samples