forked from anowacki/mineos
-
Notifications
You must be signed in to change notification settings - Fork 0
/
syndat.f
248 lines (247 loc) · 7.8 KB
/
syndat.f
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
c
c MINEOS version 1.0 by Guy Masters, John Woodhouse, and Freeman Gilbert
c
c This program is free software; you can redistribute it and/or modify
c it under the terms of the GNU General Public License as published by
c the Free Software Foundation; either version 2 of the License, or
c (at your option) any later version.
c
c This program is distributed in the hope that it will be useful,
c but WITHOUT ANY WARRANTY; without even the implied warranty of
c MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
c GNU General Public License for more details.
c
c You should have received a copy of the GNU General Public License
c along with this program; if not, write to the Free Software
c Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
c
c**************************************************************************
c
c syndat program makes synthetic seismograms by convolutions of
c Green functions with the seismic moment tensor of the choosen event.
c
c**************************************************************************
program syndat
implicit none
include 'fdb/fdb_wfdisc.h'
include 'fdb/fdb_io.h'
include 'green.h'
c----
real*4 a
common/rcrds/a(6*mseis)
real*8 rh1
common/rhs/rh1(mseis)
real*4 dt,fnorm
integer*4 nscan, itptens, jys, jds, jhs, jms
integer*4 l, i, nfw, ifl, ierr, j, ib, nh, idout
integer*4 iscan, iscan2, np1, isn, kerr,lnblnk
real*8 pi,sss,slat,slon,sdep,tconst,dm0,fscal,ww
real*8 si,df,wr,con,arg,sinc2,frp,dati,fip,datr,sol(6)
real*8 p1(3),p2(3),un(3),us(3)
character*256 efname
character*8 ename
character*2 endian
c--
data pi/3.14159265358979d0/
data fnorm/1.0e-27/
c
c read input parameters
c
c....read in file name within event and moment tensor info
write(*,*) '============== Program syndat =================='
write(*,*) 'enter input CMT file name:'
read(*,'(a256)') fname1
write(*,*) fname1(1:lnblnk(fname1))
c.... setup tensor type: moment/Mo,nodal2/Mo,nodal2
write(*,*) 'enter tensor type: 0 - moment, ',
* '1 - nodal plane 1, 2 - nodal plane 2'
read(*,*) itptens
write(*,*) itptens
c.... i/o database name
write(*,*) 'enter input dbname'
read(*,'(a256)') dbin
write(*,*) dbin(1:lnblnk(dbin))
write(*,*) 'enter output dbname'
read(*,'(a256)') dbout
write(*,*) dbout(1:lnblnk(dbout))
c.... type of output data
write(*,*) 'Enter output datatype: 0: acceleration, 1: velocity,',
* '2: displacement'
read(*,*) idout
if(idout.lt.0.or.idout.gt.2) then
write(*,*) 'WARNING: syndat: wrong output datatype = ',
* idout,', assumed accereration = 0'
idout = 0
endif
write(*,*) idout
c
c read source and moment
c
open(12,file=fname1,status='old')
read(12,*) ename,jys,jds,jhs,jms,sss,slat,slon,sdep,dt,
* tconst,dM0,(sol(l),l=1,6),fscal,(p1(l),l=1,3),
* (p2(l),l=1,3)
close(12)
write(*,1001) ename,jys,jds,jhs,jms,sss,slat,slon,sdep,dt,
* tconst,dM0,(fscal*sol(l),l=1,6),(p1(l),l=1,3),
* (p2(l),l=1,3)
1001 format('syndat: CMT solution:',/
* 'syndat: Event: ',a8,i5,i4,i3,':',i3,':',f5.1,', lat/lon = ',
* f8.2,f9.2,',',/
* 'syndat: depth = ',f6.1,' km, step = ',f8.3,
* ' sec, Duration = ',f5.1, ' sec,',/
* 'syndat: M0 = ',e11.3,','/
* 'syndat: comp: ',6e11.3,/
* 'syndat: plane1: ',3f5.0,' plane2: ',3f5.0)
if(itptens.eq.0) then
do i = 1,6
sol(i) = sol(i)*fscal*fnorm
enddo
else if(itptens.eq.1) then
call udc(p1(1),p1(2),p1(3),un,us,sol)
do i = 1,6
sol(i) = sol(i)*dM0*fnorm
enddo
else
call udc(p2(1),p2(2),p2(3),un,us,sol)
do i = 1,6
sol(i) = sol(i)*dM0*fnorm
enddo
endif
write(*,1002) (sol(l)/fnorm,l=1,6)
1002 format('syndat: Selected moment tensor components:',/
* 'syndat:',6e11.3,//'syndat: Synthetic waveforms: ')
c
c....loop over records
c
c.....read input wfdisc relation
call read_wfdisc
nfw = nrowwfdisc
do 30 ifl=1,nfw
nscan =nsamp_wfdisc(ifl)
write(*,1000) ifl,sta_wfdisc(ifl),chan_wfdisc(ifl),
* 1.0/samprate_wfdisc(ifl), nscan/6
1000 format('syndat: ',i4,1x,a6,1x,a8,1x,f8.3,1x,i7)
call get_wfdisc(ifl,nscan,a,ierr)
nscan = nscan/6
do i=1,nscan
rh1(i) = 0.d0
enddo
do j = 1,6
ib=(j-1)*nscan
do i = 1,nscan
rh1(i)=rh1(i)+a(ib+i)*sol(j)
enddo
enddo
do i=1,nscan
a(i)=rh1(i)
enddo
c
c make correction for halfduratio, if tconst > 0
c convert data to velocity or displacement, if it necessarily
c
if(tconst.le.0.d0.and.idout.eq.0) goto 90
si=dt
nh=(nscan+1)/2
call facdwn(nh)
iscan=2*nh
iscan2=iscan+2
np1=nscan+1
do i=np1,iscan2
a(i)=0.
enddo
isn=-1
call fftl(a,iscan,isn,kerr)
df=2.d0*pi/(iscan*si)
j=0
do i=3,iscan2,2
j=j+1
wr=j*df
if(tconst.ge.0.d0) then
con=0.5d0*tconst*wr
arg=0.5d0*con
sinc2=(dsin(arg)/arg)**2
frp=sinc2*dcos(con)
fip=-sinc2*dsin(con)
datr=a(i)*frp-a(i+1)*fip
dati=a(i)*fip+a(i+1)*frp
a(i)=datr
a(i+1)=dati
endif
c convert from acceleration to velocity
if(idout.gt.0) then
ww = a(i)
a(i) = a(i+1)/wr
a(i+1) = -ww/wr
endif
c convert from velocity to displacement
if(idout.gt.1) then
ww = a(i)
a(i) = a(i+1)/wr
a(i+1) = -ww/wr
endif
enddo
isn=-2
call fftl(a,iscan,isn,kerr)
90 continue
c write new wfdisc relation
nrowwfdisc = 1
sta_wfdisc(1) = sta_wfdisc(ifl)
chan_wfdisc(1) = chan_wfdisc(ifl)
time_wfdisc(1) = time_wfdisc(ifl)
wfid_wfdisc(1) = ifl
jdate_wfdisc(1) = jdate_wfdisc(ifl)
endtime_wfdisc(1) = time_wfdisc(ifl)+(nscan-1)/
* samprate_wfdisc(ifl)
nsamp_wfdisc(1) = nscan
chanid_wfdisc(1) = chanid_wfdisc(ifl)
samprate_wfdisc(1) = samprate_wfdisc(ifl)
segtype_wfdisc(1) = 'w'
foff_wfdisc(1) = 0
dir_wfdisc(1) = '.'
write(efname,'("w.",i5)') ifl
do i = 1,7
if(efname(i:i).eq.' ') efname(i:i) = '0'
enddo
dfile_wfdisc(1) = efname
calper_wfdisc(1) = 20.0
calib_wfdisc(1) = 1.0
datatype_wfdisc(1) = endian()
do i = 1,nscan
a(i) = a(i)*1.0e9
enddo
call put_wfdisc(1,nscan,a,ierr)
call write_wfdisc
30 continue
end
c*********************************************************************
c udc computes the unit normal, unit slip and unit moment tensor
c given strike(sig), dip(del) and slip(gam) in degrees.
c*********************************************************************
subroutine udc(sig,del,gam,un,us,f)
implicit real*8(a-h,o-z)
dimension un(*),us(*),f(*)
data rad/57.29578/
s=sig/rad
d=del/rad
g=gam/rad
cs=dcos(s)
ss=dsin(s)
cd=dcos(d)
sd=dsin(d)
cg=dcos(g)
sg=dsin(g)
un(1)=cd
un(2)=sd*ss
un(3)=sd*cs
us(1)=sg*sd
us(2)=-sg*cd*ss-cg*cs
us(3)=-sg*cd*cs+cg*ss
f(1)=2.*un(1)*us(1)
f(2)=2.*un(2)*us(2)
f(3)=2.*un(3)*us(3)
f(4)=un(1)*us(2)+us(1)*un(2)
f(5)=un(1)*us(3)+us(1)*un(3)
f(6)=un(2)*us(3)+us(2)*un(3)
return
end