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************************************************************************* |
************************************************************************ |
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* functions.f |
* functions.f |
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* |
* |
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include 'commontracker.f' |
include 'commontracker.f' |
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| 68 |
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view = view |
| 69 |
nld=INT((istrip-1)/nstrips_ladder)+1 |
nld=INT((istrip-1)/nstrips_ladder)+1 |
| 70 |
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| 71 |
end |
end |
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| 133 |
end |
end |
| 134 |
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c$$$ |
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c$$$c$$$c------------------------------------------------------------------------ |
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c$$$c$$$ |
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c$$$c$$$c NB: le coordinate in mech_pos.dat sono calcolate a partire da alcuni dati |
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c$$$c$$$c contenuti in commontracker.f. forse si puo' evitare mech_pos.dat e mettere |
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c$$$c$$$c tutto in commontracker.f |
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c$$$c$$$ |
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c$$$c$$$ |
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c$$$c$$$ subroutine mech_sensor !it reads sensors coordinates (in PAMELA reference |
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c$$$c$$$ ! frame) from a text file and it uses them to fill |
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c$$$c$$$ ! x/y/z_mech_sensor variables, taking into account |
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c$$$c$$$ ! last plane inversion |
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c$$$c$$$ |
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c$$$c$$$ include './commontracker.f' |
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c$$$c$$$ include './common_tracks.f' |
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c$$$c$$$ |
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c$$$c$$$ real xvec(nladders_view),yvec(2),zvec(nplanes) |
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c$$$c$$$ |
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c$$$c$$$ integer id !file identifier |
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c$$$c$$$ logical od !.true. if the specified unit is connected to a file |
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c$$$c$$$ |
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c$$$c$$$ do id=20,100,1 !opens the file using a free file id |
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c$$$c$$$ inquire (id, opened=od) |
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c$$$c$$$ if(.not.od) goto 666 |
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c$$$c$$$ enddo |
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c$$$c$$$ 666 continue |
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c$$$c$$$ |
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c$$$c$$$ open(id,FILE='../common/mech_pos.dat') !sensors centres coordinates in mm in |
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c$$$c$$$ ! PAMELA reference frame: |
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c$$$c$$$ ! the first plane is the one with lowest Z (the one |
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c$$$c$$$ ! nearest the calorimeter) |
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c$$$c$$$ ! the first ladder is the one with lowest X (the |
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c$$$c$$$ ! one on which the first X strip is) |
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c$$$c$$$ ! the first sensor is the one with lowest Y (the |
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c$$$c$$$ ! one on which the first Y strip is) for planes |
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c$$$c$$$ ! 2..6. for plane 1 the first sensor has higher Y |
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c$$$c$$$ |
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c$$$c$$$ read(20,*) xvec |
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c$$$c$$$ read(20,*) yvec |
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c$$$c$$$ read(20,*) zvec |
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c$$$c$$$ |
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c$$$c$$$ do i=1,nplanes |
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c$$$c$$$ do j=1,nladders_view |
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c$$$c$$$ do k=1,2 |
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c$$$c$$$ x_mech_sensor(i,j,k)=xvec(j) |
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c$$$c$$$ y_mech_sensor(i,j,k)=yvec(k) |
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c$$$c$$$ z_mech_sensor(i,j,k)=zvec(i) |
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c$$$c$$$ if(i.eq.1) then !y coordinates of first plane (11th view) are |
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c$$$c$$$ y_mech_sensor(i,j,k)=-yvec(k) ! exchanged due to last plane inversion |
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c$$$c$$$ endif |
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c$$$c$$$ enddo |
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c$$$c$$$ enddo |
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c$$$c$$$ enddo |
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c$$$c$$$ |
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c$$$c$$$ close(id) |
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c$$$c$$$ |
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c$$$c$$$ |
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c$$$c$$$c$$$ ! *** INIZIO DEBUG *** |
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c$$$c$$$c$$$ do i=1,6 |
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c$$$c$$$c$$$ do j=1,3 |
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c$$$c$$$c$$$ do k=1,2 |
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c$$$c$$$c$$$ c print*,x_mech_sensor(1,j,k) |
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c$$$c$$$c$$$ print*,y_mech_sensor(i,j,k) |
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c$$$c$$$c$$$ c print*,z_mech_sensor(i,j,k) |
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c$$$c$$$c$$$ enddo |
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c$$$c$$$c$$$ enddo |
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c$$$c$$$c$$$ print*,' ' |
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c$$$c$$$c$$$ enddo |
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c$$$c$$$c$$$ ! *** FINE DEBUG *** |
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c$$$c$$$ |
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c$$$c$$$ |
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c$$$c$$$ return |
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c$$$c$$$ end |
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c$$$c------------------------------------------------------------------------ |
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c$$$ |
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c$$$c NB: le coordinate in mech_pos.dat sono calcolate a partire da alcuni dati |
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c$$$c contenuti in commontracker.f. forse si puo' evitare mech_pos.dat e mettere |
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c$$$c tutto in commontracker.f |
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c$$$ |
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c$$$ |
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c$$$ subroutine mech_sensor |
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c$$$c !it reads sensors coordinates (in PAMELA reference |
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c$$$c ! frame) from a text file and it uses them to fill |
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c$$$c ! x/y/z_mech_sensor variables, taking into account |
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c$$$c ! last plane inversion |
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c$$$ |
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c$$$ include './commontracker.f' |
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c$$$ include './common_tracks.f' |
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c$$$ |
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c$$$ real xvec(nladders_view),yvec(2),zvec(nplanes) |
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c$$$ |
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c$$$ integer id !file identifier |
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c$$$ logical od !.true. if the specified unit is connected to a file |
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c$$$ |
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c$$$ do id=20,100,1 !opens the file using a free file id |
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c$$$ inquire (id, opened=od) |
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c$$$ if(.not.od) goto 666 |
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c$$$ enddo |
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c$$$ 666 continue |
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c$$$ |
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c$$$c open(id,FILE='../common/mech_pos.dat') !sensors centres coordinates in mm in |
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c$$$c open(id,FILE='source/common/mech_pos.dat') |
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c$$$c call system('cp $TRK_GRND/source/common/mech_pos.dat .') |
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c$$$ print *,'Opening file: mech_pos.dat' |
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c$$$ open(id,FILE='./bin-aux/mech_pos.dat',IOSTAT=iostat) |
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c$$$c !sensors centres coordinates in mm in |
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c$$$c ! PAMELA reference frame: |
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c$$$c ! the first plane is the one with lowest Z (the one |
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c$$$c ! nearest the calorimeter) |
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c$$$c ! the first ladder is the one with lowest X (the |
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c$$$c ! one on which the first X strip is) |
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c$$$c ! the first sensor is the one with lowest Y (the |
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c$$$c ! one on which the first Y strip is) for planes |
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c$$$c ! 2..6. for plane 1 the first sensor has higher Y |
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c$$$ |
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c$$$ if(iostat.ne.0)then |
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c$$$ print*,'MECH_SENSOR: *** Error in opening file ***' |
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c$$$ return |
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c$$$ endif |
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c$$$ |
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c$$$ read(id,*) xvec |
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c$$$ read(id,*) yvec |
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c$$$ read(id,*) zvec |
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c$$$ |
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c$$$ do i=1,nplanes |
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c$$$ do j=1,nladders_view |
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c$$$ do k=1,2 |
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c$$$ x_mech_sensor(i,j,k)=xvec(j) |
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c$$$ y_mech_sensor(i,j,k)=yvec(k) |
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c$$$ z_mech_sensor(i,j,k)=zvec(i) |
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c$$$ if(i.eq.1) then !y coordinates of first plane (11th view) are |
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c$$$ y_mech_sensor(i,j,k)=-yvec(k) ! exchanged due to last plane inversion |
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c$$$ endif |
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c$$$ enddo |
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c$$$ enddo |
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c$$$ enddo |
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c$$$ |
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c$$$ close(id) |
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c$$$c call system('rm -f mech_pos.dat') |
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c$$$ |
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c$$$c$$$ ! *** INIZIO DEBUG *** |
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c$$$c$$$ do i=1,6 |
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c$$$c$$$c do j=1,3 |
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c$$$c$$$ do k=1,2 |
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c$$$c$$$ j=1 |
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c$$$c$$$c print*,x_mech_sensor(1,j,k) |
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c$$$c$$$ print*,y_mech_sensor(i,j,k) |
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c$$$c$$$c print*,z_mech_sensor(i,j,k) |
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c$$$c$$$ enddo |
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c$$$c$$$c enddo |
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c$$$c$$$ print*,' ' |
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c$$$c$$$ enddo |
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c$$$c$$$ ! *** FINE DEBUG *** |
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c$$$ |
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c$$$ |
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c$$$ return |
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c$$$ end |
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c$$$ |
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c$$$ |
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c$$$c------------------------------------------------------------------------ |
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c------------------------------------------------------------------------ |
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function coordsi(istrip,view) |
function coordsi(istrip,view) |
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* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * |
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * |
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if(mod(view,2).eq.0) then !X view |
if(mod(view,2).eq.0) then !X view |
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if((is.le.3).or.(is.ge.1022)) then !X has 1018 strips... |
c if((is.le.3).or.(is.ge.1022)) then !X has 1018 strips... |
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print*,'functions: WARNING: false X strip: strip ',is |
c print*,'functions: WARNING: false X strip: strip ',is |
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endif |
c endif |
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is=is-3 !4 =< is =< 1021 --> 1 =< is =< 1018 |
is=is-3 !4 =< is =< 1021 --> 1 =< is =< 1018 |
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if(mod(view,2).eq.0) then !X view |
if(mod(view,2).eq.0) then !X view |
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if((is.le.3).or.(is.ge.1022)) then !X has 1018 strips... |
c if((is.le.3).or.(is.ge.1022)) then !X has 1018 strips... |
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print*,'functions: WARNING: false X strip: strip ',is |
c print*,'functions: WARNING: false X strip: strip ',is |
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endif |
c endif |
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is=is-3 !4 =< is =< 1021 --> 1 =< is =< 1018 |
is=is-3 !4 =< is =< 1021 --> 1 =< is =< 1018 |
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c------------------------------------------------------------------------ |
c------------------------------------------------------------------------ |
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double precision function dcoordsi(rstrip,view) |
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* |
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* same as COORDSI, but accept a real value of strip!!! |
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* and gives a double precision output |
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* |
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* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * |
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* it gives the strip coordinate in micrometers, |
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* knowing the strip number (1..3072) and the view |
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* number. the origin of the coordinate is on the |
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* centre of the sensor the strip belongs to. |
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* the axes directions are the same as in the PAMELA |
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* reference frame (i.e.: the 11th view coordinate |
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* direction has to be inverted here) |
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* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * |
| 292 |
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c integer is,view,istrip |
| 294 |
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integer view,is,istrip |
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real rstrip |
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double precision strip,stripladder,p |
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double precision edge,dim |
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double precision coord1 |
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| 301 |
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include 'commontracker.f' |
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c NB mettere il 1024 nel commontracker...!??? |
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| 306 |
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strip=DBLE(rstrip) |
| 307 |
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| 308 |
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istrip = int(strip+0.5) !istrip stores the closest integer to strip |
| 309 |
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| 310 |
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is=istrip !it stores istrip number |
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is=mod(is-1,1024)+1 !it puts all clusters on a single ladder |
| 312 |
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| 313 |
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dcoordsi=0. |
| 314 |
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| 315 |
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if(mod(view,2).eq.0) then !X view |
| 316 |
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| 317 |
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c if((is.le.3).or.(is.ge.1022)) then !X has 1018 strips... |
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c print*,'functions: WARNING: false X strip: strip ',is |
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c endif |
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| 321 |
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is=is-3 !4 =< is =< 1021 --> 1 =< is =< 1018 |
| 322 |
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| 323 |
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edge=edgeX |
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dim=SiDimX |
| 325 |
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| 326 |
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elseif(mod(view,2).eq.1) then !Y view |
| 327 |
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edge=edgeY |
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dim=SiDimY |
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c$$$ if(view.eq.11) then !INVERSIONE!??? |
| 332 |
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c$$$ is=1025-is |
| 333 |
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c$$$ endif |
| 334 |
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| 335 |
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endif |
| 336 |
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| 337 |
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| 338 |
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stripladder = DBLE(is)+(strip-DBLE(istrip))!cluster position relative to ladder |
| 339 |
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p=pitch(view) |
| 340 |
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| 341 |
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ccccc coord1=(is-1)*p !referred to 1st sensor strip |
| 342 |
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coord1=(stripladder-1)*p !referred to 1st sensor strip |
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coord1=coord1+edge !referred to sensor edge |
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dcoordsi=coord1-dim/2 !referred to the centre of the sensor |
| 345 |
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| 346 |
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if(view.eq.11) then !INVERSION: it puts y axis in the same direction for all views |
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dcoordsi=-dcoordsi |
| 348 |
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endif |
| 349 |
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end |
| 351 |
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| 353 |
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| 354 |
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c------------------------------------------------------------------------ |
| 355 |
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| 356 |
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| 357 |
function coord(coordsi,view,ladder,sen) |
function coord(coordsi,view,ladder,sen) |
| 358 |
* it gives the coordinate in |
* it gives the coordinate in |
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* micrometers, knowing the coordinate in the sensor |
* micrometers, knowing the coordinate in the sensor |
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| 439 |
dcoord=0. |
dcoord=0. |
| 440 |
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| 441 |
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if( |
| 442 |
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$ ladder.lt.1.or. |
| 443 |
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$ ladder.gt.nladders_view.or. |
| 444 |
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$ sen.lt.1.or. |
| 445 |
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$ sen.gt.2.or. |
| 446 |
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$ view.lt.1.or. |
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$ view.gt.nviews.or. |
| 448 |
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$ .false.)then |
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print*,'dcoord ---> wrong input: ladder ',ladder |
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$ ,' sensor ',sen |
| 451 |
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$ ,' view ',view |
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return |
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endif |
| 454 |
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| 455 |
sx=ladder |
sx=ladder |
| 456 |
sy=sen |
sy=sen |
| 457 |
sz=npl(view) |
sz=npl(view) |
| 458 |
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| 459 |
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| 460 |
if(mod(view,2).eq.0) then !X view |
if(mod(view,2).eq.0) then !X view |
| 461 |
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| 462 |
trasl=x_mech_sensor(sz,sx,sy) !in mm |
trasl=x_mech_sensor(sz,sx,sy) !in mm |
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| 478 |
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| 479 |
c------------------------------------------------------------------------ |
c------------------------------------------------------------------------ |
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integer function nsatstrips(ic) |
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*-------------------------------------------------------------- |
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* this function returns the number of saturated strips |
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* inside a cluster |
| 484 |
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*-------------------------------------------------------------- |
| 485 |
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include 'commontracker.f' |
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include 'level1.f' |
| 487 |
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include 'calib.f' |
| 488 |
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| 489 |
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| 490 |
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| 491 |
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integer nsat |
| 492 |
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nsat = 0 |
| 493 |
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iv=VIEW(ic) |
| 494 |
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if(mod(iv,2).eq.1)incut=incuty |
| 495 |
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if(mod(iv,2).eq.0)incut=incutx |
| 496 |
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istart = INDSTART(IC) |
| 497 |
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istop = TOTCLLENGTH |
| 498 |
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if(ic.lt.NCLSTR1)istop=INDSTART(IC+1)-1 |
| 499 |
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do i = INDMAX(IC),istart,-1 |
| 500 |
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c cut = incut*CLSIGMA(i) |
| 501 |
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c if(CLSIGNAL(i).ge.cut)then |
| 502 |
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if( (mod(iv,2).eq.1.and.CLADC(i).lt.ADCsatx) |
| 503 |
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$ .or. |
| 504 |
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$ (mod(iv,2).eq.0.and.CLADC(i).gt.ADCsaty) )then |
| 505 |
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nsat = nsat +1 |
| 506 |
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else |
| 507 |
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goto 10 |
| 508 |
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endif |
| 509 |
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enddo |
| 510 |
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10 continue |
| 511 |
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do i = INDMAX(IC)+1,istop |
| 512 |
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c cut = incut*CLSIGMA(i) |
| 513 |
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c if(CLSIGNAL(i).ge.cut)then |
| 514 |
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if( (mod(iv,2).eq.1.and.CLADC(i).lt.ADCsatx) |
| 515 |
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$ .or. |
| 516 |
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$ (mod(iv,2).eq.0.and.CLADC(i).gt.ADCsaty) )then |
| 517 |
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nsat = nsat +1 |
| 518 |
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else |
| 519 |
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goto 20 |
| 520 |
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endif |
| 521 |
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enddo |
| 522 |
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20 continue |
| 523 |
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| 524 |
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nsatstrips = nsat |
| 525 |
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return |
| 526 |
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end |
| 527 |
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| 528 |
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c------------------------------------------------------------------------ |
| 529 |
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integer function nbadstrips(ncog,ic) |
| 530 |
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*-------------------------------------------------------------- |
| 531 |
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* this function returns the number of BAD strips |
| 532 |
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* inside a cluster: |
| 533 |
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* - if NCOG=0, the number BAD strips inside the whole cluster |
| 534 |
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* are given, according to the cluster multiplicity |
| 535 |
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* |
| 536 |
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* - if NCOG>0, the number BAD strips is evaluated using NCOG |
| 537 |
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* strips, even if they have a negative signal (according to Landi) |
| 538 |
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*-------------------------------------------------------------- |
| 539 |
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include 'commontracker.f' |
| 540 |
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include 'level1.f' |
| 541 |
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include 'calib.f' |
| 542 |
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| 543 |
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integer nbad |
| 544 |
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nbad = 0 |
| 545 |
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| 546 |
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if (ncog.gt.0) then |
| 547 |
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| 548 |
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* --> signal of the central strip |
| 549 |
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sc = CLSIGNAL(INDMAX(ic)) !center |
| 550 |
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* signal of adjacent strips |
| 551 |
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sl1 = -100000 !left 1 |
| 552 |
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if( |
| 553 |
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$ (INDMAX(ic)-1).ge.INDSTART(ic) |
| 554 |
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$ ) |
| 555 |
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$ sl1 = CLSIGNAL(INDMAX(ic)-1) |
| 556 |
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| 557 |
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sl2 = -100000 !left 2 |
| 558 |
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if( |
| 559 |
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$ (INDMAX(ic)-2).ge.INDSTART(ic) |
| 560 |
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$ ) |
| 561 |
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$ sl2 = CLSIGNAL(INDMAX(ic)-2) |
| 562 |
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| 563 |
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sr1 = -100000 !right 1 |
| 564 |
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if( |
| 565 |
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$ (ic.ne.NCLSTR1.and.(INDMAX(ic)+1).lt.INDSTART(ic+1)) |
| 566 |
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$ .or. |
| 567 |
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$ (ic.eq.NCLSTR1.and.(INDMAX(ic)+1).le.TOTCLLENGTH) |
| 568 |
|
$ ) |
| 569 |
|
$ sr1 = CLSIGNAL(INDMAX(ic)+1) |
| 570 |
|
|
| 571 |
|
sr2 = -100000 !right 2 |
| 572 |
|
if( |
| 573 |
|
$ (ic.ne.NCLSTR1.and.(INDMAX(ic)+2).lt.INDSTART(ic+1)) |
| 574 |
|
$ .or. |
| 575 |
|
$ (ic.eq.NCLSTR1.and.(INDMAX(ic)+2).le.TOTCLLENGTH) |
| 576 |
|
$ ) |
| 577 |
|
$ sr2 = CLSIGNAL(INDMAX(ic)+2) |
| 578 |
|
|
| 579 |
|
if(ncog.ge.1)nbad = nbad+1-CLBAD(INDMAX(ic)) |
| 580 |
|
|
| 581 |
|
if(ncog.ge.2)then |
| 582 |
|
if(sl1.gt.sr1.and.(INDMAX(ic)-1).ge.1)then |
| 583 |
|
nbad=nbad+1-CLBAD(INDMAX(ic)-1) |
| 584 |
|
elseif(sl1.le.sr1.and.(INDMAX(ic)+1).le.NCLSTR1)then |
| 585 |
|
nbad=nbad+1-CLBAD(INDMAX(ic)+1) |
| 586 |
|
endif |
| 587 |
|
endif |
| 588 |
|
|
| 589 |
|
if(ncog.ge.3)then |
| 590 |
|
if(sl1.gt.sr1.and.(INDMAX(ic)+1).le.NCLSTR1)then |
| 591 |
|
nbad=nbad+1-CLBAD(INDMAX(ic)+1) |
| 592 |
|
elseif(sl1.le.sr1.and.(INDMAX(ic)-1).ge.1)then |
| 593 |
|
c if(INDMAX(ic)-1.eq.0) |
| 594 |
|
c $ print*,' ======= ',sl2,sl1,sc,sr1,sr2 |
| 595 |
|
nbad=nbad+1-CLBAD(INDMAX(ic)-1) |
| 596 |
|
endif |
| 597 |
|
endif |
| 598 |
|
|
| 599 |
|
if(ncog.ge.4)then |
| 600 |
|
if(sl2.gt.sr2.and.(INDMAX(ic)-2).ge.1)then |
| 601 |
|
nbad=nbad+1-CLBAD(INDMAX(ic)-2) |
| 602 |
|
elseif(sl2.le.sr2.and.(INDMAX(ic)+2).le.NCLSTR1)then |
| 603 |
|
nbad=nbad+1-CLBAD(INDMAX(ic)+2) |
| 604 |
|
endif |
| 605 |
|
endif |
| 606 |
|
|
| 607 |
|
c if(ncog.ge.5)then |
| 608 |
|
c print*,'function CLBAD(NCOG,IC) ==> WARNING!! NCOG=',NCOG |
| 609 |
|
c $ ,' not implemented' |
| 610 |
|
c endif |
| 611 |
|
|
| 612 |
|
elseif(ncog.eq.0)then |
| 613 |
|
* ========================= |
| 614 |
|
* COG computation |
| 615 |
|
* ========================= |
| 616 |
|
|
| 617 |
|
|
| 618 |
|
|
| 619 |
|
iv=VIEW(ic) |
| 620 |
|
if(mod(iv,2).eq.1)incut=incuty |
| 621 |
|
if(mod(iv,2).eq.0)incut=incutx |
| 622 |
|
|
| 623 |
|
istart = INDSTART(IC) |
| 624 |
|
istop = TOTCLLENGTH |
| 625 |
|
if(ic.lt.NCLSTR1)istop=INDSTART(IC+1)-1 |
| 626 |
|
nbad = 0 |
| 627 |
|
c$$$ do i=istart,istop |
| 628 |
|
c$$$ cut = incut*CLSIGMA(i) |
| 629 |
|
c$$$ if(CLSIGNAL(i).ge.cut)nbad = nbad +1 -CLBAD(i) |
| 630 |
|
c$$$ enddo |
| 631 |
|
do i = INDMAX(IC),istart,-1 |
| 632 |
|
cut = incut*CLSIGMA(i) |
| 633 |
|
if(CLSIGNAL(i).ge.cut)then |
| 634 |
|
nbad = nbad +1 -CLBAD(i) |
| 635 |
|
else |
| 636 |
|
goto 10 |
| 637 |
|
endif |
| 638 |
|
enddo |
| 639 |
|
10 continue |
| 640 |
|
do i = INDMAX(IC)+1,istop |
| 641 |
|
cut = incut*CLSIGMA(i) |
| 642 |
|
if(CLSIGNAL(i).ge.cut)then |
| 643 |
|
nbad = nbad +1 -CLBAD(i) |
| 644 |
|
else |
| 645 |
|
goto 20 |
| 646 |
|
endif |
| 647 |
|
enddo |
| 648 |
|
20 continue |
| 649 |
|
|
| 650 |
|
else |
| 651 |
|
|
| 652 |
|
c print*,'function CLBAD(NCOG,IC) ==> WARNING!! NCOG=',NCOG |
| 653 |
|
c $ ,' not implemented' |
| 654 |
|
|
| 655 |
|
|
| 656 |
|
endif |
| 657 |
|
|
| 658 |
|
nbadstrips = nbad |
| 659 |
|
|
| 660 |
|
return |
| 661 |
|
end |
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