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segypy.py
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segypy.py
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"""
A Python module for reading/writing/manipulating
SEG-Y formatted files
segypy.read_segy : Read SEGY file
segypy.read_reel_header : Get SEGY header
segypy.read_trace_header : Get SEGY Trace header
segypy.read_all_trace_headers : Get all SEGY Trace headers
segypy.get_default_segy_header :
segypy.get_default_segy_trace_headers :
segypy.write_segy : Write a data to a SEGY file
segypy.write_segy_structure : Writes a segpy data structure to a SEGY file
segypy.read_binary_value : Get a value from a binary string
segypy.ibm2ieee : Convert IBM floats to IEEE
segypy.version : The version of SegyPY
segypy.verbose : Amount of verbose information to the screen
"""
#
# segpy : A Python module for reading and writing SEG-Y formatted data
#
# Forked by Robert Smallshire from the original segypy by
#
# (C) Thomas Mejer Hansen, 2005-2006
#
# with contributions from Pete Forman and Andrew Squelch 2007
#
# ++ modified by aadm, january 2015, to make it a single file
# ++ segypy.py now includes header_definition.py, ibm_float.py, revisions.py, trace_header_definition.py
import os
import sys
import struct
import logging
from numpy import (transpose, reshape, zeros, arange)
# from revisions import canonicalize_revision
SEGY_REVISION_0 = 0x0000
SEGY_REVISION_1 = 0x0100
VARIANTS = {SEGY_REVISION_0: SEGY_REVISION_0,
SEGY_REVISION_1: SEGY_REVISION_1,
100: SEGY_REVISION_1,
256: SEGY_REVISION_1}
class SegYRevisionError(Exception):
pass
def canonicalize_revision(revision):
"""Canonicalize a SEG Y revision.
Various SEG Y revisions are seen in the wild; this function canonicalizes the supplies revision
to either SEGY_REVISION_0 or SEGY_REVISION_1.
Args:
revision: Any object representing a SEG Y revision.
Returns:
Either SEGY_REVISION_0 or SEGY_REVISION_1.
Raises:
SegYRevisionError: If the revision is not known.
"""
try:
return VARIANTS[revision]
except KeyError:
raise SegYRevisionError("Unknown SEG Y Revision {!r}".format(revision))
# from header_definition import HEADER_DEF
HEADER_DEF = {"Job": {"pos": 3200, "type": "int32", "def": 0}}
HEADER_DEF["Line"] = {"pos": 3204, "type": "int32", "def": 0}
HEADER_DEF["Reel"] = {"pos": 3208, "type": "int32", "def": 0}
HEADER_DEF["DataTracePerEnsemble"] = {"pos": 3212, "type": "int16", "def": 0}
HEADER_DEF["AuxiliaryTracePerEnsemble"] = {"pos": 3214, "type": "int16", "def": 0}
HEADER_DEF["dt"] = {"pos": 3216, "type": "uint16", "def": 1000}
HEADER_DEF["dtOrig"] = {"pos": 3218, "type": "uint16", "def": 1000}
HEADER_DEF["ns"] = {"pos": 3220, "type": "uint16", "def": 0}
HEADER_DEF["nsOrig"] = {"pos": 3222, "type": "uint16", "def": 0}
HEADER_DEF["DataSampleFormat"] = {"pos": 3224, "type": "int16", "def": 5}
HEADER_DEF["DataSampleFormat"]["descr"] = {SEGY_REVISION_0: {
1: "IBM Float",
2: "32 bit Integer",
3: "16 bit Integer",
8: "8 bit Integer"}}
HEADER_DEF["DataSampleFormat"]["descr"][SEGY_REVISION_1] = {
1: "IBM Float",
2: "32 bit Integer",
3: "16 bit Integer",
5: "IEEE",
8: "8 bit Integer"}
HEADER_DEF["DataSampleFormat"]["bps"] = {SEGY_REVISION_0: {
1: 4,
2: 4,
3: 2,
8: 1}}
HEADER_DEF["DataSampleFormat"]["bps"][SEGY_REVISION_1] = {
1: 4,
2: 4,
3: 2,
5: 4,
8: 1}
HEADER_DEF["DataSampleFormat"]["datatype"] = {SEGY_REVISION_0: {
1: 'ibm',
2: 'l',
3: 'h',
8: 'B'}}
HEADER_DEF["DataSampleFormat"]["datatype"][SEGY_REVISION_1] = {
1: 'ibm',
2: 'l',
3: 'h',
# 5: 'float',
5: 'f',
8: 'B'}
HEADER_DEF["EnsembleFold"] = {"pos": 3226, "type": "int16", "def": 0}
HEADER_DEF["TraceSorting"] = {"pos": 3228, "type": "int16", "def": 0}
HEADER_DEF["VerticalSumCode"] = {"pos": 3230, "type": "int16", "def": 0}
HEADER_DEF["SweepFrequencyEnd"] = {"pos": 3234, "type": "int16", "def": 0}
HEADER_DEF["SweepLength"] = {"pos": 3236, "type": "int16", "def": 0}
HEADER_DEF["SweepType"] = {"pos": 3238, "type": "int16", "def": 0}
HEADER_DEF["SweepChannel"] = {"pos": 3240, "type": "int16", "def": 0}
HEADER_DEF["SweepTaperLengthStart"] = {"pos": 3242, "type": "int16", "def": 0}
HEADER_DEF["SweepTaperLengthEnd"] = {"pos": 3244, "type": "int16", "def": 0}
HEADER_DEF["TaperType"] = {"pos": 3246, "type": "int16", "def": 0}
HEADER_DEF["CorrelatedDataTraces"] = {"pos": 3248, "type": "int16", "def": 0}
HEADER_DEF["BinaryGain"] = {"pos": 3250, "type": "int16", "def": 0}
HEADER_DEF["AmplitudeRecoveryMethod"] = {"pos": 3252, "type": "int16", "def": 0}
HEADER_DEF["MeasurementSystem"] = {"pos": 3254, "type": "int16", "def": 0}
HEADER_DEF["ImpulseSignalPolarity"] = {"pos": 3256, "type": "int16", "def": 0}
HEADER_DEF["VibratoryPolarityCode"] = {"pos": 3258, "type": "int16", "def": 0}
HEADER_DEF["Unassigned1"] = {"pos": 3260, "type": "int16", "n": 120, "def": 0}
HEADER_DEF["SegyFormatRevisionNumber"] = {
"pos": 3500, "type": "uint16", "def": 100}
HEADER_DEF["FixedLengthTraceFlag"] = {"pos": 3502, "type": "uint16", "def": 0}
HEADER_DEF["NumberOfExtTextualHeaders"] = {"pos": 3504, "type": "uint16", "def": 0}
HEADER_DEF["Unassigned2"] = {"pos": 3506, "type": "int16", "n": 47, "def": 0}
# from trace_header_definition import TRACE_HEADER_DEF
TRACE_HEADER_DEF = {"TraceSequenceLine": {"pos": 0, "type": "int32"}}
TRACE_HEADER_DEF["TraceSequenceFile"] = {"pos": 4, "type": "int32"}
TRACE_HEADER_DEF["FieldRecord"] = {"pos": 8, "type": "int32"}
TRACE_HEADER_DEF["TraceNumber"] = {"pos": 12, "type": "int32"}
TRACE_HEADER_DEF["EnergySourcePoint"] = {"pos": 16, "type": "int32"}
TRACE_HEADER_DEF["cdp"] = {"pos": 20, "type": "int32"}
TRACE_HEADER_DEF["cdpTrace"] = {"pos": 24, "type": "int32"}
TRACE_HEADER_DEF["TraceIdentificationCode"] = {"pos": 28, "type": "int16"}
TRACE_HEADER_DEF["TraceIdentificationCode"]["descr"] = {SEGY_REVISION_0: {
1: "Seismic data",
2: "Dead",
3: "Dummy",
4: "Time Break",
5: "Uphole",
6: "Sweep",
7: "Timing",
8: "Water Break"}}
TRACE_HEADER_DEF["TraceIdentificationCode"]["descr"][SEGY_REVISION_1] = {
-1: "Other",
0: "Unknown",
1: "Seismic data",
2: "Dead",
3: "Dummy",
4: "Time break",
5: "Uphole",
6: "Sweep",
7: "Timing",
8: "Waterbreak",
9: "Near-field gun signature",
10: "Far-field gun signature",
11: "Seismic pressure sensor",
12: "Multicomponent seismic sensor - Vertical component",
13: "Multicomponent seismic sensor - Cross-line component",
14: "Multicomponent seismic sensor - In-line component",
15: "Rotated multicomponent seismic sensor - Vertical component",
16: "Rotated multicomponent seismic sensor - Transverse component",
17: "Rotated multicomponent seismic sensor - Radial component",
18: "Vibrator reaction mass",
19: "Vibrator baseplate",
20: "Vibrator estimated ground force",
21: "Vibrator reference",
22: "Time-velocity pairs"}
TRACE_HEADER_DEF["NSummedTraces"] = {"pos": 30, "type": "int16"}
TRACE_HEADER_DEF["NStackedTraces"] = {"pos": 32, "type": "int16"}
TRACE_HEADER_DEF["DataUse"] = {"pos": 34, "type": "int16"}
TRACE_HEADER_DEF["DataUse"]["descr"] = {0: {
1: "Production",
2: "Test"}}
TRACE_HEADER_DEF["DataUse"]["descr"][1] = TRACE_HEADER_DEF["DataUse"]["descr"][0]
TRACE_HEADER_DEF["offset"] = {"pos": 36, "type": "int32"}
TRACE_HEADER_DEF["ReceiverGroupElevation"] = {"pos": 40, "type": "int32"}
TRACE_HEADER_DEF["SourceSurfaceElevation"] = {"pos": 44, "type": "int32"}
TRACE_HEADER_DEF["SourceDepth"] = {"pos": 48, "type": "int32"}
TRACE_HEADER_DEF["ReceiverDatumElevation"] = {"pos": 52, "type": "int32"}
TRACE_HEADER_DEF["SourceDatumElevation"] = {"pos": 56, "type": "int32"}
TRACE_HEADER_DEF["SourceWaterDepth"] = {"pos": 60, "type": "int32"}
TRACE_HEADER_DEF["GroupWaterDepth"] = {"pos": 64, "type": "int32"}
TRACE_HEADER_DEF["ElevationScalar"] = {"pos": 68, "type": "int16"}
TRACE_HEADER_DEF["SourceGroupScalar"] = {"pos": 70, "type": "int16"}
TRACE_HEADER_DEF["SourceX"] = {"pos": 72, "type": "int32"}
TRACE_HEADER_DEF["SourceY"] = {"pos": 76, "type": "int32"}
TRACE_HEADER_DEF["GroupX"] = {"pos": 80, "type": "int32"}
TRACE_HEADER_DEF["GroupY"] = {"pos": 84, "type": "int32"}
TRACE_HEADER_DEF["CoordinateUnits"] = {"pos": 88, "type": "int16"}
TRACE_HEADER_DEF["CoordinateUnits"]["descr"] = {SEGY_REVISION_0: {
1: "Length (meters or feet)",
2: "Seconds of arc"}}
TRACE_HEADER_DEF["CoordinateUnits"]["descr"][SEGY_REVISION_1] = {
1: "Length (meters or feet)",
2: "Seconds of arc",
3: "Decimal degrees",
4: "Degrees, minutes, seconds (DMS)"}
TRACE_HEADER_DEF["WeatheringVelocity"] = {"pos": 90, "type": "int16"}
TRACE_HEADER_DEF["SubWeatheringVelocity"] = {"pos": 92, "type": "int16"}
TRACE_HEADER_DEF["SourceUpholeTime"] = {"pos": 94, "type": "int16"}
TRACE_HEADER_DEF["GroupUpholeTime"] = {"pos": 96, "type": "int16"}
TRACE_HEADER_DEF["SourceStaticCorrection"] = {"pos": 98, "type": "int16"}
TRACE_HEADER_DEF["GroupStaticCorrection"] = {"pos": 100, "type": "int16"}
TRACE_HEADER_DEF["TotalStaticApplied"] = {"pos": 102, "type": "int16"}
TRACE_HEADER_DEF["LagTimeA"] = {"pos": 104, "type": "int16"}
TRACE_HEADER_DEF["LagTimeB"] = {"pos": 106, "type": "int16"}
TRACE_HEADER_DEF["DelayRecordingTime"] = {"pos": 108, "type": "int16"}
TRACE_HEADER_DEF["MuteTimeStart"] = {"pos": 110, "type": "int16"}
TRACE_HEADER_DEF["MuteTimeEND"] = {"pos": 112, "type": "int16"}
TRACE_HEADER_DEF["ns"] = {"pos": 114, "type": "uint16"}
TRACE_HEADER_DEF["dt"] = {"pos": 116, "type": "uint16"}
TRACE_HEADER_DEF["GainType"] = {"pos": 118, "type": "int16"}
TRACE_HEADER_DEF["GainType"]["descr"] = {SEGY_REVISION_0: {
1: "Fixes",
2: "Binary",
3: "Floating point"}}
TRACE_HEADER_DEF["GainType"]["descr"][SEGY_REVISION_1] = TRACE_HEADER_DEF[
"GainType"]["descr"][SEGY_REVISION_0]
TRACE_HEADER_DEF["InstrumentGainConstant"] = {"pos": 120, "type": "int16"}
TRACE_HEADER_DEF["InstrumentInitialGain"] = {"pos": 122, "type": "int16"}
TRACE_HEADER_DEF["Correlated"] = {"pos": 124, "type": "int16"}
TRACE_HEADER_DEF["Correlated"]["descr"] = {SEGY_REVISION_0: {
1: "No",
2: "Yes"}}
TRACE_HEADER_DEF["Correlated"]["descr"][SEGY_REVISION_1] = TRACE_HEADER_DEF[
"Correlated"]["descr"][SEGY_REVISION_0]
TRACE_HEADER_DEF["SweepFrequencyStart"] = {"pos": 126, "type": "int16"}
TRACE_HEADER_DEF["SweepFrequencyEnd"] = {"pos": 128, "type": "int16"}
TRACE_HEADER_DEF["SweepLength"] = {"pos": 130, "type": "int16"}
TRACE_HEADER_DEF["SweepType"] = {"pos": 132, "type": "int16"}
TRACE_HEADER_DEF["SweepType"]["descr"] = {SEGY_REVISION_0: {
1: "linear",
2: "parabolic",
3: "exponential",
4: "other"}}
TRACE_HEADER_DEF["SweepType"]["descr"][SEGY_REVISION_1] = TRACE_HEADER_DEF[
"SweepType"]["descr"][SEGY_REVISION_0]
TRACE_HEADER_DEF["SweepTraceTaperLengthStart"] = {"pos": 134, "type": "int16"}
TRACE_HEADER_DEF["SweepTraceTaperLengthEnd"] = {"pos": 136, "type": "int16"}
TRACE_HEADER_DEF["TaperType"] = {"pos": 138, "type": "int16"}
TRACE_HEADER_DEF["TaperType"]["descr"] = {SEGY_REVISION_0: {
1: "linear",
2: "cos2c",
3: "other"}}
TRACE_HEADER_DEF["TaperType"]["descr"][SEGY_REVISION_1] = TRACE_HEADER_DEF[
"TaperType"]["descr"][SEGY_REVISION_0]
TRACE_HEADER_DEF["AliasFilterFrequency"] = {"pos": 140, "type": "int16"}
TRACE_HEADER_DEF["AliasFilterSlope"] = {"pos": 142, "type": "int16"}
TRACE_HEADER_DEF["NotchFilterFrequency"] = {"pos": 144, "type": "int16"}
TRACE_HEADER_DEF["NotchFilterSlope"] = {"pos": 146, "type": "int16"}
TRACE_HEADER_DEF["LowCutFrequency"] = {"pos": 148, "type": "int16"}
TRACE_HEADER_DEF["HighCutFrequency"] = {"pos": 150, "type": "int16"}
TRACE_HEADER_DEF["LowCutSlope"] = {"pos": 152, "type": "int16"}
TRACE_HEADER_DEF["HighCutSlope"] = {"pos": 154, "type": "int16"}
TRACE_HEADER_DEF["YearDataRecorded"] = {"pos": 156, "type": "int16"}
TRACE_HEADER_DEF["DayOfYear"] = {"pos": 158, "type": "int16"}
TRACE_HEADER_DEF["HourOfDay"] = {"pos": 160, "type": "int16"}
TRACE_HEADER_DEF["MinuteOfHour"] = {"pos": 162, "type": "int16"}
TRACE_HEADER_DEF["SecondOfMinute"] = {"pos": 164, "type": "int16"}
TRACE_HEADER_DEF["TimeBaseCode"] = {"pos": 166, "type": "int16"}
TRACE_HEADER_DEF["TimeBaseCode"]["descr"] = {SEGY_REVISION_0: {
1: "Local",
2: "GMT",
3: "Other"}}
TRACE_HEADER_DEF["TimeBaseCode"]["descr"][SEGY_REVISION_1] = {
1: "Local",
2: "GMT",
3: "Other",
4: "UTC"}
TRACE_HEADER_DEF["TraceWeightingFactor"] = {"pos": 168, "type": "int16"}
TRACE_HEADER_DEF["GeophoneGroupNumberRoll1"] = {"pos": 170, "type": "int16"}
TRACE_HEADER_DEF["GeophoneGroupNumberFirstTraceOrigField"] = {
"pos": 172, "type": "int16"}
TRACE_HEADER_DEF["GeophoneGroupNumberLastTraceOrigField"] = {
"pos": 174, "type": "int16"}
TRACE_HEADER_DEF["GapSize"] = {"pos": 176, "type": "int16"}
TRACE_HEADER_DEF["OverTravel"] = {"pos": 178, "type": "int16"}
TRACE_HEADER_DEF["OverTravel"]["descr"] = {SEGY_REVISION_0: {
1: "down (or behind)",
2: "up (or ahead)",
3: "other"}}
TRACE_HEADER_DEF["OverTravel"]["descr"][SEGY_REVISION_1] = TRACE_HEADER_DEF[
"OverTravel"]["descr"][SEGY_REVISION_0]
TRACE_HEADER_DEF["cdpX"] = {"pos": 180, "type": "int32"}
TRACE_HEADER_DEF["cdpY"] = {"pos": 184, "type": "int32"}
TRACE_HEADER_DEF["Inline3D"] = {"pos": 188, "type": "int32"}
TRACE_HEADER_DEF["Crossline3D"] = {"pos": 192, "type": "int32"}
TRACE_HEADER_DEF["ShotPoint"] = {"pos": 196, "type": "int32"}
TRACE_HEADER_DEF["ShotPointScalar"] = {"pos": 200, "type": "int16"}
TRACE_HEADER_DEF["TraceValueMeasurementUnit"] = {"pos": 202, "type": "int16"}
TRACE_HEADER_DEF["TraceValueMeasurementUnit"]["descr"] = {SEGY_REVISION_1: {
-1: "Other",
0: "Unknown (should be described in Data Sample "
"Measurement Units Stanza)",
1: "Pascal (Pa)",
2: "Volts (V)",
3: "Millivolts (v)",
4: "Amperes (A)",
5: "Meters (m)",
6: "Meters Per Second (m/s)",
7: "Meters Per Second squared (m/&s2)Other",
8: "Newton (N)",
9: "Watt (W)"}}
TRACE_HEADER_DEF["TransductionConstantMantissa"] = {"pos": 204, "type": "int32"}
TRACE_HEADER_DEF["TransductionConstantPower"] = {"pos": 208, "type": "int16"}
TRACE_HEADER_DEF["TransductionUnit"] = {"pos": 210, "type": "int16"}
TRACE_HEADER_DEF["TransductionUnit"]["descr"] = TRACE_HEADER_DEF[
"TraceValueMeasurementUnit"]["descr"]
TRACE_HEADER_DEF["TraceIdentifier"] = {"pos": 212, "type": "int16"}
TRACE_HEADER_DEF["ScalarTraceHeader"] = {"pos": 214, "type": "int16"}
TRACE_HEADER_DEF["SourceType"] = {"pos": 216, "type": "int16"}
TRACE_HEADER_DEF["SourceType"]["descr"] = {SEGY_REVISION_1: {
-1: "Other (should be described in Source Type/Orientation stanza)",
0: "Unknown",
1: "Vibratory - Vertical orientation",
2: "Vibratory - Cross-line orientation",
3: "Vibratory - In-line orientation",
4: "Impulsive - Vertical orientation",
5: "Impulsive - Cross-line orientation",
6: "Impulsive - In-line orientation",
7: "Distributed Impulsive - Vertical orientation",
8: "Distributed Impulsive - Cross-line orientation",
9: "Distributed Impulsive - In-line orientation"}}
TRACE_HEADER_DEF["SourceEnergyDirectionMantissa"] = {"pos": 218, "type": "int32"}
TRACE_HEADER_DEF["SourceEnergyDirectionExponent"] = {"pos": 222, "type": "int16"}
TRACE_HEADER_DEF["SourceMeasurementMantissa"] = {"pos": 224, "type": "int32"}
TRACE_HEADER_DEF["SourceMeasurementExponent"] = {"pos": 228, "type": "int16"}
TRACE_HEADER_DEF["SourceMeasurementUnit"] = {"pos": 230, "type": "int16"}
TRACE_HEADER_DEF["SourceMeasurementUnit"]["descr"] = {1: {
-1: "Other (should be described in Source Measurement Unit stanza)",
0: "Unknown",
1: "Joule (J)",
2: "Kilowatt (kW)",
3: "Pascal (Pa)",
4: "Bar (Bar)",
5: "Newton (N)",
6: "Kilograms (kg)"}}
TRACE_HEADER_DEF["UnassignedInt1"] = {"pos": 232, "type": "int32"}
TRACE_HEADER_DEF["UnassignedInt2"] = {"pos": 236, "type": "int32"}
# from ibm_float import ibm2ieee2
def ibm2ieee2(ibm_float):
"""
ibm2ieee2(ibm_float)
Used by permission
(C) Secchi Angelo
with thanks to Howard Lightstone and Anton Vredegoor.
"""
dividend = float(16 ** 6)
if ibm_float == 0:
return 0.0
istic, a, b, c = struct.unpack('>BBBB', ibm_float)
if istic >= 128:
sign = -1.0
istic -= 128
else:
sign = 1.0
mant = float(a << 16) + float(b << 8) + float(c)
return sign * 16 ** (istic - 64) * (mant / dividend)
FORMAT = '%(asctime)-15s %(levelname)s %(message)s'
logging.basicConfig(level=logging.INFO, format=FORMAT)
logger = logging.getLogger('segpy.segypy')
version = '0.3.1'
REEL_HEADER_NUM_BYTES = 3600
TRACE_HEADER_NUM_BYTES = 240
l_char = struct.calcsize('c')
l_uchar = struct.calcsize('B')
l_float = struct.calcsize('f')
DATA_SAMPLE_FORMAT = {1: 'ibm',
2: 'l',
3: 'h',
5: 'f',
8: 'B'}
CTYPES = {'l': 'l', 'long': 'l', 'int32': 'l',
'L': 'L', 'ulong': 'L', 'uint32': 'L',
'h': 'h', 'short': 'h', 'int16': 'h',
'H': 'H', 'ushort': 'H', 'uint16': 'H',
'c': 'c', 'char': 'c',
'B': 'B', 'uchar': 'B',
'f': 'f', 'float': 'f',
'ibm': 'ibm'}
# TODO This is redundant with data in the SH_def below
CTYPE_DESCRIPTION = {'ibm': 'IBM float',
'l': '32 bit integer',
'h': '16 bit integer',
'f': 'IEEE float',
'B': '8 bit char'}
def size_in_bytes(ctype):
if ctype == 'l' and struct.calcsize(ctype) == 8:
return 4 # 64-bit issue?
return struct.calcsize(ctype) if ctype != 'ibm' else struct.calcsize('f')
def get_default_segy_header(ntraces=100, ns=100):
"""
header = getDefaultSegyHeader()
"""
# TraceSequenceLine
header = {'Job': {'pos': 3200, 'type': 'int32', 'def': 0}}
for key in HEADER_DEF:
header[key] = HEADER_DEF[key].get('def', 0)
header['ntraces'] = ntraces
header['ns'] = ns
return header
def get_default_segy_trace_headers(ntraces=100, ns=100, dt=1000):
"""
SH = getDefaultSegyTraceHeader()
"""
# INITIALIZE DICTIONARY
trace_header = {'TraceSequenceLine': {'pos': 0, 'type': 'int32'}}
for key in TRACE_HEADER_DEF:
trace_header[key] = zeros(ntraces)
for a in range(ntraces):
trace_header['TraceSequenceLine'][a] = a + 1
trace_header['TraceSequenceFile'][a] = a + 1
trace_header['FieldRecord'][a] = 1000
trace_header['TraceNumber'][a] = a + 1
trace_header['ns'][a] = ns
trace_header['dt'][a] = dt
return trace_header
def read_trace_header(f, reel_header, trace_header_name='cdp', endian='>'):
"""
read_trace_header(reel_header, TraceHeaderName)
"""
bps = get_byte_per_sample(reel_header)
# MAKE SOME LOOKUP TABLE THAT HOLDS THE LOCATION OF HEADERS
trace_header_pos = TRACE_HEADER_DEF[trace_header_name]['pos']
# TODO: Be consistent between 'type' and 'format' here.
trace_header_format = TRACE_HEADER_DEF[trace_header_name]['type']
ntraces = reel_header['ntraces']
trace_header_values = zeros(ntraces)
binary_reader = create_binary_reader(f, trace_header_format, endian)
start_pos = trace_header_pos + REEL_HEADER_NUM_BYTES
stride = reel_header['ns'] * bps + TRACE_HEADER_NUM_BYTES
end_pos = start_pos + (ntraces - 1) * stride + 1
for i, pos in enumerate(xrange(start_pos, end_pos, stride)):
trace_header_values[i] = binary_reader(pos)
return trace_header_values
# TODO: Get the parameter ordering of reel_header and f to be consistent
def read_all_trace_headers(f, reel_header):
trace_headers = {'filename': reel_header['filename']}
logger.debug('read_all_trace_headers : '
'trying to get all segy trace headers')
for key in TRACE_HEADER_DEF.keys():
trace_header = read_trace_header(f, reel_header, key)
trace_headers[key] = trace_header
logger.info("read_all_trace_headers : " + key)
return trace_headers
def file_length(f):
pos = f.tell()
f.seek(0, os.SEEK_END)
file_size = f.tell()
f.seek(pos, os.SEEK_SET)
return file_size
def _filename(f):
return f.name if hasattr(f, 'name') else '<unknown>'
def read_segy(f, endian='>'):
"""
data, header, trace_headers = read_reel_header(f)
"""
file_size = file_length(f)
logger.debug("read_segy : Length of data : {0}".format(file_size))
reel_header = read_reel_header(f, endian) # modified by A Squelch
# GET TRACE
index = REEL_HEADER_NUM_BYTES
bytes_per_sample = get_byte_per_sample(reel_header)
num_data = (file_size - REEL_HEADER_NUM_BYTES) / bytes_per_sample
data, reel_header, trace_headers = read_traces(f,
reel_header,
num_data,
bytes_per_sample,
index,
endian)
logger.debug("read_segy : Read segy data") # modified by A Squelch
return data, reel_header, trace_headers
def read_traces(f,
reel_header,
num_data,
bytes_per_sample,
index,
endian='>'): # added by A Squelch
"""Read the trace data.
values, SegyHeader, SegyTraceHeaders = read_traces(data,
reel_header,
num_data,
bytes_per_sample,
index)
"""
# Calculate number of dummy samples needed to account for Trace Headers
num_dummy_samples = TRACE_HEADER_NUM_BYTES / bytes_per_sample
logger.debug("read_traces : num_dummy_samples = " + str(num_dummy_samples))
# READ ALL SEGY TRACE HEADERS
trace_headers = read_all_trace_headers(f, reel_header)
logger.info("read_traces : Reading segy data")
dsf = reel_header['DataSampleFormat']
ctype = DATA_SAMPLE_FORMAT[dsf]
description = CTYPE_DESCRIPTION[ctype]
logger.debug("read_traces : Assuming DSF = {0}, {1}".format(
dsf, description))
values, _ = read_binary_value(f, index, ctype, endian, num_data)
logger.debug("read_traces : - reshaping")
values = reshape(values,
(reel_header['ntraces'],
reel_header['ns'] + num_dummy_samples))
logger.debug("read_traces : - stripping header dummy data")
values = values[:, num_dummy_samples:
(reel_header['ns'] + num_dummy_samples)]
logger.debug("read_traces : - transposing")
values = transpose(values)
# SOMEONE NEEDS TO IMPLEMENT A NICER WAY DO DEAL WITH DSF = 8
if reel_header['DataSampleFormat'] == 8:
for i in arange(reel_header['ntraces']):
for j in arange(reel_header['ns']):
if values[i][j] > 128:
values[i][j] = values[i][j] - 256
logger.debug("read_traces : Finished reading segy data")
return values, reel_header, trace_headers
def read_reel_header(f, endian='>'):
"""
reel_header = read_reel_header(file_handle)
"""
filename = _filename(f)
reel_header = {'filename': filename}
for key in HEADER_DEF.keys():
pos = HEADER_DEF[key]['pos']
format = HEADER_DEF[key]['type']
reel_header[key], index = read_binary_value(f, pos, format, endian)
logger.debug(str(pos) + " " +
str(format) +
" Reading " + key +
"=" + str(reel_header[key]))
# SET NUMBER OF BYTES PER DATA SAMPLE
bps = get_byte_per_sample(reel_header)
file_size = file_length(f)
ntraces = (file_size - REEL_HEADER_NUM_BYTES) / \
(reel_header['ns'] * bps + TRACE_HEADER_NUM_BYTES)
reel_header['ntraces'] = ntraces
logger.debug('read_reel_header : successfully read ' + filename)
return reel_header
def write_segy(filename, data, dt=1000, trace_header_in=None, header_in=None):
"""
write_segy(filename, data, dt)
Write SEGY
See also read_segy
(c) 2005, Thomas Mejer Hansen
MAKE OPTIONAL INPUT FOR ALL SEGYHTRACEHEADER VALUES
"""
if header_in is None:
header_in = {}
if trace_header_in is None:
trace_header_in = {}
logger.debug("write_segy : Trying to write " + filename)
shape = data.shape
ns = shape[0]
ntraces = shape[1]
print ntraces, ns
header = get_default_segy_header(ntraces, ns)
trace_header = get_default_segy_trace_headers(ntraces, ns, dt)
# Add trace_header_in, if exists...
for key in trace_header_in.keys():
print key
for a in range(ntraces):
trace_header[key] = trace_header_in[key][a]
# Add header_in, if exists...
for key in header_in.keys():
print key
header[key] = header_in[key]
write_segy_structure(filename, data, header, trace_header)
def write_segy_structure(filename,
data,
header,
trace_header,
endian='>'): # modified by A Squelch
"""
writeSegyStructure(filename, data, header, trace_header)
Write SEGY file using SegyPy data structures
See also readSegy
(c) 2005, Thomas Mejer Hansen
"""
logger.debug("writeSegyStructure : Trying to write " + filename)
f = open(filename, 'wb')
# VERBOSE INF
revision = canonicalize_revision(header['SegyFormatRevisionNumber'])
dsf = header['DataSampleFormat']
try: # block added by A Squelch
data_descriptor = HEADER_DEF['DataSampleFormat']['descr'][revision][dsf]
except KeyError:
logging.critical(" An error has occurred interpreting a SEGY binary"
"header key")
logging.critical(" Please check the Endian setting for this "
"file: {0}".format(header["filename"]))
sys.exit()
logger.debug("writeSegyStructure : SEG-Y revision = " + str(revision))
logger.debug("writeSegyStructure : DataSampleFormat = " +
str(dsf) +
"(" + data_descriptor + ")")
# WRITE SEGY HEADER
for key in HEADER_DEF.keys():
pos = HEADER_DEF[key]["pos"]
format = HEADER_DEF[key]["type"]
value = header[key]
put_value(value, f, pos, format, endian)
# SEGY TRACES
ctype = HEADER_DEF['DataSampleFormat']['datatype'][revision][dsf]
bps = HEADER_DEF['DataSampleFormat']['bps'][revision][dsf]
sizeT = TRACE_HEADER_NUM_BYTES + header['ns'] * bps
for itrace in range(header['ntraces']):
index = REEL_HEADER_NUM_BYTES + itrace * sizeT
logger.debug('Writing Trace #' +
str(itrace + 1) +
'/' + str(header['ntraces']))
# WRITE SEGY TRACE HEADER
for key in TRACE_HEADER_DEF.keys():
pos = index + TRACE_HEADER_DEF[key]['pos']
format = TRACE_HEADER_DEF[key]['type']
value = trace_header[key][itrace]
logger.debug(str(pos) + " " +
str(format) +
" Writing " + key +
"=" + str(value))
put_value(value, f, pos, format, endian)
# Write Data
cformat = endian + ctype
for s in range(header['ns']):
strVal = struct.pack(cformat, data[s, itrace])
f.seek(index +
TRACE_HEADER_NUM_BYTES +
s * struct.calcsize(cformat))
f.write(strVal)
f.close()
def put_value(value, fileid, index, ctype='l', endian='>', number=1):
"""
putValue(data, index, ctype, endian, number)
"""
ctype = CTYPES[ctype]
cformat = endian + ctype*number
logger.debug('putValue : cformat : ' + cformat + ' ctype = ' + ctype)
str_val = struct.pack(cformat, value)
fileid.seek(index)
fileid.write(str_val)
return 1
def create_binary_reader(f, ctype='l', endian='>'):
"""Create a unary callable which reads a given binary data type from a file.
"""
ctype = CTYPES[ctype]
size = size_in_bytes(ctype)
cformat = endian + ctype
def reader(index):
f.seek(index, os.SEEK_SET)
data = f.read(size)
# TODO: Check the content of data before proceeding
value = struct.unpack(cformat, data)
return value[0]
return reader
def read_binary_value(f, index, ctype='l', endian='>', number=1):
"""
read_binary_value(data, index, ctype, endian, number)
"""
ctype = CTYPES[ctype]
size = size_in_bytes(ctype)
cformat = endian + ctype * number
logger.debug('read_binary_value : cformat : ' + cformat)
index_end = index + size * number
f.seek(index, os.SEEK_SET)
data = f.read(size * number)
if ctype == 'ibm':
# ASSUME IBM FLOAT DATA
value = range(number)
for i in arange(number):
index_ibm = i * 4
value[i] = ibm2ieee2(data[index_ibm: index_ibm + 4])
# this returns an array as opposed to a tuple
else:
# TODO: Check the content of data before proceeding
value = struct.unpack(cformat, data)
if ctype == 'B':
logger.warning('read_binary_value : '
'Inefficient use of 1 byte Integer...', 1)
logger.debug('read_binary_value : ' +
'start = ' + str(index) +
' size = ' + str(size) +
' number = ' + str(number) +
' value = ' + str(value) +
' cformat = ' + str(cformat))
if number == 1:
return value[0], index_end
else:
return value, index_end
def get_byte_per_sample(header):
revision = canonicalize_revision(header["SegyFormatRevisionNumber"])
dsf = header["DataSampleFormat"]
try: # block added by A Squelch
bps = HEADER_DEF["DataSampleFormat"]["bps"][revision][dsf]
except KeyError:
# TODO: This should not be a critical failure - should just convert
# exception
logging.critical(" An error has occurred interpreting a SEGY "
"binary header key")
logging.critical("Please check the Endian setting for "
"this file: {0}".format(header["filename"]))
sys.exit()
logger.debug("getBytePerSample : bps = " + str(bps))
return bps
def main():
filename = r'C:\Users\rjs\opendtectroot\Blake_Ridge_Hydrates_3D' \
r'\stack_final_scaled50_int8.sgy'
with open(filename, 'rb') as segy:
data, header, trace_header = read_segy(segy)
if __name__ == '__main__':
main()