Changeset 4328

Timestamp:

Nov 8, 2022, 3:49:23 PM (2 years ago)

Author:

dcugnet

Message:

• rewrite few routines from "readTracFiles_mod" to avoid crashes with gfortran, in particular "setGeneration" and "addKey".
• make "addKey" routine public and replace "addKey_m" and "addKey_mm" with callings to "addKey_1" in loops to avoid a gfortran-specific crash
• rewrite the "getKey" functions family so that when "tname" is not specified, result is as expected, even for tracers lists with repeated tracers (use index instead of name search).

Location:

LMDZ6/trunk/libf

Files:

• misc/readTracFiles_mod.f90 (modified) (28 diffs)
• phylmd/infotrac_phy.F90 (modified) (1 diff)

LMDZ6/trunk/libf/misc/readTracFiles_mod.f90

@@ -12 +12 @@
   PUBLIC :: trac_type, setGeneration, indexUpdate               !--- TRACERS  DESCRIPTION ASSOCIATED TOOLS
   PUBLIC :: testTracersFiles, readTracersFiles                  !--- TRACERS FILES READING ROUTINES
-  PUBLIC :: getKey, fGetKey, fGetKeys, setDirectKeys            !--- TOOLS TO GET/SET KEYS FROM/TO  tracers & isotopes
+  PUBLIC :: getKey, fGetKey, fGetKeys, addKey, setDirectKeys    !--- TOOLS TO GET/SET KEYS FROM/TO  tracers & isotopes
   PUBLIC :: getKeysDBase,    setKeysDBase                       !--- TOOLS TO GET/SET THE DATABASE (tracers & isotopes)
 
@@ -92 +92 @@
 !------------------------------------------------------------------------------------------------------------------------------
   INTERFACE getKey
-    MODULE PROCEDURE getKeyByName_s1,  getKeyByName_i1,  getKeyByName_r1, &
-                     getKeyByName_sm,  getKeyByName_im,  getKeyByName_rm, &
-                     getKeyByName_s1m, getKeyByName_i1m, getKeyByName_r1m
+    MODULE PROCEDURE getKeyByName_s1, getKeyByName_s1m, getKeyByName_sm, getKey_sm, &
+                     getKeyByName_i1, getKeyByName_i1m, getKeyByName_im, getKey_im, &
+                     getKeyByName_r1, getKeyByName_r1m, getKeyByName_rm, getKey_rm, &
+                     getKeyByName_l1, getKeyByName_l1m, getKeyByName_lm, getKey_lm
   END INTERFACE getKey
 !------------------------------------------------------------------------------------------------------------------------------
@@ -104 +105 @@
   INTERFACE idxAncestor;   MODULE PROCEDURE idxAncestor_1, idxAncestor_m, idxAncestor_mt;    END INTERFACE idxAncestor
   INTERFACE    ancestor;   MODULE PROCEDURE    ancestor_1,    ancestor_m,    ancestor_mt;    END INTERFACE    ancestor
-  INTERFACE      addKey;   MODULE PROCEDURE      addKey_1,      addKey_m,     addKey_mm;     END INTERFACE addKey
+  INTERFACE      addKey;   MODULE PROCEDURE      addKey_1; END INTERFACE addKey!,      addKey_m,     addKey_mm;     END INTERFACE addKey
   INTERFACE    addPhase;   MODULE PROCEDURE   addPhase_s1,   addPhase_sm,   addPhase_i1,   addPhase_im; END INTERFACE addPhase
 !------------------------------------------------------------------------------------------------------------------------------
@@ -196 +197 @@
 
   !--- Required sections + corresponding files names (new style single section case) for tests
-  IF(test(testTracersFiles(modname, type_trac, fType, trac_files, sections), lerr)) RETURN
+  IF(test(testTracersFiles(modname, type_trac, fType, .TRUE., trac_files, sections), lerr)) RETURN
   IF(PRESENT(fTyp)) fTyp = fType
   nsec = SIZE(sections)
@@ -229 +230 @@
         IF(ix /= 0 .AND. lRep) tname = newHNO3(ix)                   !--- Exception for HNO3 (REPROBUS ONLY)
         tracers(it)%name = tname                                     !--- Set %name
-        CALL addKey('name', tname, k)                                !--- Set the name of the tracer
+        CALL addKey_1('name', tname, k)                              !--- Set the name of the tracer
         tracers(it)%keys%name = tname                                !--- Copy tracers names in keys components
 
@@ -236 +237 @@
         IF(ANY([(addPhase('H2O', ip), ip = 1, nphases)] == tname)) cname = 'lmdz'
         tracers(it)%component = cname                                !--- Set %component
-        CALL addKey('component', cname, k)                           !--- Set the name of the model component
+        CALL addKey_1('component', cname, k)                         !--- Set the name of the model component
 
         !=== NAME OF THE PARENT
@@ -246 +247 @@
         END IF
         tracers(it)%parent = pname                                   !--- Set %parent
-        CALL addKey('parent', pname, k)
+        CALL addKey_1('parent', pname, k)
 
         !=== PHASE AND ADVECTION SCHEMES NUMBERS
         tracers(it)%phase = known_phases(ip:ip)                      !--- Set %phase:  tracer phase (default: "g"azeous)
-        CALL addKey('phase', known_phases(ip:ip), k)                 !--- Set the phase  of the tracer (default: "g"azeous)
-        CALL addKey('hadv', s(1),  k)                                !--- Set the horizontal advection schemes number
-        CALL addKey('vadv', s(2),  k)                                !--- Set the vertical   advection schemes number
+        CALL addKey_1('phase', known_phases(ip:ip), k)               !--- Set the phase  of the tracer (default: "g"azeous)
+        CALL addKey_1('hadv', s(1),  k)                              !--- Set the horizontal advection schemes number
+        CALL addKey_1('vadv', s(2),  k)                              !--- Set the vertical   advection schemes number
       END DO
       CLOSE(90)
       IF(test(setGeneration(tracers), lerr)) RETURN                  !--- Set %iGeneration and %gen0Name
       WHERE(tracers%iGeneration == 2) tracers(:)%type = 'tag'        !--- Set %type:        'tracer' or 'tag'
-      CALL addKey('type', tracers(:)%type, tracers(:)%keys)          !--- Set the type of tracers
+      DO it=1,ntrac
+        CALL addKey_1('type', tracers(it)%type, tracers(it)%keys)    !--- Set the type of tracer
+      END DO
       IF(test(checkTracers(tracers, fname, fname), lerr)) RETURN     !--- Detect orphans and check phases
       IF(test(checkUnique (tracers, fname, fname), lerr)) RETURN     !--- Detect repeated tracers
@@ -268 +271 @@
   END SELECT
   !++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
-
   IF(ALL([2,3] /= fType)) RETURN
 
@@ -286 +288 @@
 
 !==============================================================================================================================
-LOGICAL FUNCTION testTracersFiles(modname, type_trac, fType, tracf, sects) RESULT(lerr)
+LOGICAL FUNCTION testTracersFiles(modname, type_trac, fType, lDisp, tracf, sects) RESULT(lerr)
   CHARACTER(LEN=*),                             INTENT(IN)  :: modname, type_trac
   INTEGER,                                      INTENT(OUT) :: fType
+  LOGICAL,                                      INTENT(IN)  :: lDisp
   CHARACTER(LEN=maxlen), ALLOCATABLE, OPTIONAL, INTENT(OUT) :: tracf(:), sects(:)
   CHARACTER(LEN=maxlen), ALLOCATABLE :: trac_files(:), sections(:)
   LOGICAL, ALLOCATABLE :: ll(:)
   INTEGER :: is, nsec
-  lerr = .FALSE.
 
   !--- PARSE "type_trac" LIST AND DETERMINE THE TRACERS FILES NAMES (FOR CASE 3: MULTIPLE FILES, SINNGLE SECTION PER FILE)
@@ -307 +309 @@
   IF(.NOT.testFile('tracer.def'))                fType = 2           !--- NEW STYLE ; SINGLE  FILE, SEVERAL SECTIONS
   IF(ALL(ll))                                    fType = 3           !--- NEW STYLE ; SEVERAL FILES, SINGLE SECTION USED
+  IF(.NOT.test(lDisp, lerr)) RETURN                                  !--- NO CHECKING/DISPLAY NEEDED: JUST GET type_trac,fType
   IF(ANY(ll) .AND. fType/=3) THEN                                    !--- MISSING FILES
     IF(test(checkList(trac_files, .NOT.ll, 'Failed reading tracers description', 'files', 'missing'), lerr)) RETURN
@@ -523 +526 @@
     tr(it)%type      = fgetKey(it, 'type'  , tr(:)%keys, 'tracer')
     tr(it)%component = sname
-    CALL addKey('component', sname, tr(:)%keys)
+!   CALL addKey_m('component', sname, tr(:)%keys)
+    DO iq=1,SIZE(tr); CALL addKey_1('component', sname, tr(iq)%keys); END DO
 
     !--- Determine the number of tracers and parents ; coherence checking
@@ -552 +556 @@
         ttr(iq)%keys%val  = tr(it)%keys%val
         ttr(iq)%keys%name = ta(itr)
-        ttr(iq)%name      = TRIM(ta(itr));    CALL addKey('name',      ta(itr),          ttr(iq)%keys)
-        ttr(iq)%parent    = TRIM(pa(ipr));    CALL addKey('parent',    pa(ipr),          ttr(iq)%keys)
-        ttr(iq)%type      = tr(it)%type;      CALL addKey('type',      tr(it)%type,      ttr(iq)%keys)
-        ttr(iq)%component = tr(it)%component; CALL addKey('component', tr(it)%component, ttr(iq)%keys)
+        ttr(iq)%name      = TRIM(ta(itr));    CALL addKey_1('name',      ta(itr),          ttr(iq)%keys)
+        ttr(iq)%parent    = TRIM(pa(ipr));    CALL addKey_1('parent',    pa(ipr),          ttr(iq)%keys)
+        ttr(iq)%type      = tr(it)%type;      CALL addKey_1('type',      tr(it)%type,      ttr(iq)%keys)
+        ttr(iq)%component = tr(it)%component; CALL addKey_1('component', tr(it)%component, ttr(iq)%keys)
         iq = iq+1
       END DO
@@ -568 +572 @@
 !==============================================================================================================================
 
+
 !==============================================================================================================================
 LOGICAL FUNCTION setGeneration(tr) RESULT(lerr)
@@ -574 +579 @@
 !   * %iGeneration: the generation number 
 !   * %gen0Name:    the generation 0 ancestor name
+!          Check also for orphan tracers (tracers not descending on "tran0").
 !------------------------------------------------------------------------------------------------------------------------------
   TYPE(trac_type),     INTENT(INOUT) :: tr(:)                        !--- Tracer derived type vector
-  INTEGER                            :: iq, nq, ig
-  CHARACTER(LEN=maxlen), ALLOCATABLE :: parent(:), prn(:)
-  CHARACTER(LEN=maxlen) :: gen0(SIZE(tr))
-  INTEGER               :: iGen(SIZE(tr))
-  LOGICAL               ::   lg(SIZE(tr))
-!------------------------------------------------------------------------------------------------------------------------------
-  iGen(:) = -1                                                       !--- error if -1
-  nq = SIZE(tr, DIM=1)                                               !--- Number of tracers lines
-  IF(test(fmsg('missing "parent" attribute', 'setGeneration', getKey('parent', parent, ky=tr(:)%keys)), lerr)) RETURN
-  WHERE(parent == tran0) iGen(:) = 0
-
-  !=== Determine generation for each tracer
-  ig=-1; prn = [tran0]
-  DO                                                                 !--- Update current generation flag
-    IF(ig/=-1) prn = PACK( tr(:)%name, MASK = iGen == ig)
-    lg(:) = [(ANY(prn(:) == parent(iq)), iq=1, nq)]                  !--- Current generation tracers flag
-    IF( ALL( .NOT. lg ) ) EXIT                                       !--- Empty current generation
-    ig = ig+1; WHERE(lg) iGen(:) = ig
-  END DO
-  tr%iGeneration = iGen; CALL addKey_mm('iGeneration', int2str(iGen(:)), tr(:)%keys)
-  CALL ancestor(tr, gen0)                                            !--- First generation ancestor name
-  tr%gen0Name    = gen0; CALL addKey_mm('gen0Name',    gen0,             tr(:)%keys)
-
+  INTEGER                            :: iq, jq, ig
+  CHARACTER(LEN=maxlen), ALLOCATABLE :: parent(:)
+!------------------------------------------------------------------------------------------------------------------------------
+  CHARACTER(LEN=maxlen) :: modname
+  modname = 'setGeneration'
+  IF(test(fmsg('missing "parent" attribute', modname, getKey('parent', parent, ky=tr(:)%keys)), lerr)) RETURN
+  DO iq = 1, SIZE(tr)
+    jq = iq; ig = 0
+    DO WHILE(parent(jq) /= tran0)
+      jq = strIdx(tr(:)%name, parent(iq))
+      IF(test(fmsg('Orphan tracer "'//TRIM(tr(iq)%name)//'"', modname, jq == 0), lerr)) RETURN
+      ig = ig + 1
+    END DO
+    tr(iq)%gen0Name = tr(jq)%name; CALL addKey_1('gen0Name',    tr(iq)%gen0Name,   tr(iq)%keys)
+    tr(iq)%iGeneration = ig;       CALL addKey_1('iGeneration', TRIM(int2str(ig)), tr(iq)%keys)
+  END DO
 END FUNCTION setGeneration
 !==============================================================================================================================
+
 
 !==============================================================================================================================
@@ -634 +634 @@
 END FUNCTION checkTracers
 !==============================================================================================================================
+
 
 !==============================================================================================================================
@@ -673 +674 @@
 END FUNCTION checkUnique
 !==============================================================================================================================
+
 
 !==============================================================================================================================
@@ -720 +722 @@
         ttr(it)%keys%name = TRIM(nam)                                !--- Name inside the keys decriptor
         ttr(it)%phase     = p                                        !--- Single phase entry
-        CALL addKey('name', nam, ttr(it)%keys)
-        CALL addKey('phase', p,  ttr(it)%keys)
+        CALL addKey_1('name', nam, ttr(it)%keys)
+        CALL addKey_1('phase', p,  ttr(it)%keys)
         IF(lExt .AND. tr(iq)%iGeneration>0) THEN
           ttr(it)%parent   = addPhase(tr(iq)%parent,   p)
           ttr(it)%gen0Name = addPhase(tr(iq)%gen0Name, p)
-          CALL addKey('parent',   ttr(it)%parent,   ttr(it)%keys)
-          CALL addKey('gen0Name', ttr(it)%gen0Name, ttr(it)%keys)
+          CALL addKey_1('parent',   ttr(it)%parent,   ttr(it)%keys)
+          CALL addKey_1('gen0Name', ttr(it)%gen0Name, ttr(it)%keys)
         END IF
         it = it+1
@@ -738 +740 @@
 END SUBROUTINE expandPhases
 !==============================================================================================================================
+
 
 !==============================================================================================================================
@@ -998 +1001 @@
   INTEGER :: iq, ig, ng, igen, ngen, ix(SIZE(tr))
   tr(:)%iqParent = strIdx( tr(:)%name, tr(:)%parent )                !--- Parent index
-  CALL addKey('iqParent', int2str(tr%iqParent), tr(:)%keys)
+  DO iq = 1, SIZE(tr); CALL addKey_1('iqParent', int2str(tr(iq)%iqParent), tr(iq)%keys); END DO
   ngen = MAXVAL(tr(:)%iGeneration, MASK=.TRUE.)
   DO iq = 1, SIZE(tr)
@@ -1010 +1013 @@
       IF(igen == ig+1) THEN
         tr(iq)%nqChildren = tr(iq)%nqDescen
-        CALL addKey('nqChildren', int2str(tr(iq)%nqChildren), tr(iq)%keys)
+        CALL addKey_1('nqChildren', int2str(tr(iq)%nqChildren), tr(iq)%keys)
       END IF
     END DO
-    CALL addKey('iqDescen', strStack(int2str(tr(iq)%iqDescen)), tr(iq)%keys)
-  END DO
-  CALL addKey('nqDescen', int2str(tr(:)%nqDescen), tr(:)%keys)
+    CALL addKey_1('iqDescen', strStack(int2str(tr(iq)%iqDescen)), tr(iq)%keys)
+    CALL addKey_1('nqDescen',          int2str(tr(iq)%nqDescen) , tr(iq)%keys)
+  END DO
+print*,'coin9'
 END SUBROUTINE indexUpdate
 !==============================================================================================================================
@@ -1308 +1312 @@
   IF(iky == 0) THEN
     nky = SIZE(ky%key)
-    IF(nky == 0) THEN; ky%key = [key]; ky%val = [val]; ELSE; ky%key = [ky%key, key]; ky%val = [ky%val, val]; END IF
+    ALLOCATE(k(nky+1)); k(1:nky) = ky%key; k(nky+1) = key; ky%key = k
+    ALLOCATE(v(nky+1)); v(1:nky) = ky%val; v(nky+1) = val; ky%val = v
   ELSE IF(lo) THEN
     ky%key(iky) = key; ky%val(iky) = val
@@ -1320 +1325 @@
 !------------------------------------------------------------------------------------------------------------------------------
   INTEGER :: itr
-  DO itr = 1, SIZE(ky); CALL addKey_1(key, val, ky(itr), lOverWrite); END DO
+  DO itr = 1, SIZE(ky)
+    CALL addKey_1(key, val, ky(itr), lOverWrite)
+  PRINT*,'COINCOINCOIN '//TRIM(key)//', '//TRIM(val)//', '//TRIM(ky(itr)%name)
+  END DO
+  print*,'COINCOINCOINCOIN'
 END SUBROUTINE addKey_m
 !==============================================================================================================================
@@ -1458 +1467 @@
 END FUNCTION getKeyByName_s1
 !==============================================================================================================================
-LOGICAL FUNCTION getKeyByName_sm(keyn, val, tname, ky, nam) RESULT(lerr)
-  CHARACTER(LEN=*),                             INTENT(IN)  :: keyn
-  CHARACTER(LEN=maxlen), ALLOCATABLE,           INTENT(OUT) :: val(:)
-  CHARACTER(LEN=*),           TARGET, OPTIONAL, INTENT(IN)  :: tname(:)
-  TYPE(keys_type),            TARGET, OPTIONAL, INTENT(IN)  :: ky(:)
-  CHARACTER(LEN=maxlen), ALLOCATABLE, OPTIONAL, INTENT(OUT) :: nam(:)
-!------------------------------------------------------------------------------------------------------------------------------
-  CHARACTER(LEN=maxlen), ALLOCATABLE :: names(:)
-  TYPE(keys_type),       POINTER     ::  keys(:)
-  LOGICAL :: lk, lt, li, ll
-  INTEGER :: iq, nq
-
-  !--- DETERMINE THE DATABASE TO BE USED (ky, tracers or isotope)
-  lk = PRESENT(ky)
-  lt = .NOT.lk .AND. ALLOCATED(tracers);  IF(lt) lt = SIZE(tracers)  /= 0; IF(lt) lt = ANY(tracers(1)%keys%key(:) == keyn)
-  li = .NOT.lt .AND. ALLOCATED(isotopes); IF(li) li = SIZE(isotopes) /= 0; IF(li) li = ANY(isotope%keys(1)%key(:) == keyn)
-
-  IF(test(.NOT.ANY([lk,lt,li]), lerr)) RETURN
-  IF(lk) keys => ky(:)
-  IF(lt) keys => tracers(:)%keys
-  IF(li) keys => isotope%keys(:)
-
-  !--- DETERMINE THE NAMES
-  IF(PRESENT(tname)) THEN
-    ALLOCATE(names(SIZE(tname))); names(:) = tname(:)
-  ELSE
-    ALLOCATE(names(SIZE(keys)));  names(:) = keys(:)%name
-  END IF
-  nq = SIZE(names); ALLOCATE(val(nq)); IF(PRESENT(nam)) THEN; ALLOCATE(nam(nq)); nam(:) = names(:); END IF
-
-  !--- GET THE DATA
-  lerr = ANY([(getKeyByName_s1(keyn, val(iq), names(iq), keys(:)), iq=1, nq)])
-
-END FUNCTION getKeyByName_sm
-!==============================================================================================================================
 LOGICAL FUNCTION getKeyByName_s1m(keyn, val, tname, ky) RESULT(lerr)
   CHARACTER(LEN=*),                   INTENT(IN)  :: keyn
@@ -1504 +1478 @@
   lerr = strParse(sval, ',', val)
 END FUNCTION getKeyByName_s1m
+!==============================================================================================================================
+LOGICAL FUNCTION getKeyByName_sm(keyn, val, tname, ky, nam) RESULT(lerr)
+  CHARACTER(LEN=*),                             INTENT(IN)  :: keyn
+  CHARACTER(LEN=maxlen),           ALLOCATABLE, INTENT(OUT) :: val(:)
+  CHARACTER(LEN=*),                             INTENT(IN)  :: tname(:)
+  TYPE(keys_type),       OPTIONAL, TARGET,      INTENT(IN)  :: ky(:)
+  CHARACTER(LEN=maxlen), OPTIONAL, ALLOCATABLE, INTENT(OUT) :: nam(:)
+!------------------------------------------------------------------------------------------------------------------------------
+  TYPE(keys_type), POINTER ::  keys(:)
+  LOGICAL :: lk, lt, li, ll
+  INTEGER :: iq, nq
+
+  !--- DETERMINE THE DATABASE TO BE USED (ky, tracers or isotope)
+  lk = PRESENT(ky)
+  lt = .NOT.lk .AND. ALLOCATED(tracers);  IF(lt) lt = SIZE(tracers)  /= 0; IF(lt) lt = ANY(tracers(1)%keys%key(:) == keyn)
+  li = .NOT.lt .AND. ALLOCATED(isotopes); IF(li) li = SIZE(isotopes) /= 0; IF(li) li = ANY(isotope%keys(1)%key(:) == keyn)
+
+  !--- LINK "keys" TO THE RIGHT DATABASE
+  IF(test(.NOT.ANY([lk,lt,li]), lerr)) RETURN
+  IF(lk) keys => ky(:)
+  IF(lt) keys => tracers(:)%keys
+  IF(li) keys => isotope%keys(:)
+
+  !--- GET THE DATA
+  nq = SIZE(tname)
+  ALLOCATE(val(nq))
+  lerr = ANY([(getKeyByName_s1(keyn, val(iq), tname(iq), keys(:)), iq=1, nq)])
+  IF(PRESENT(nam)) nam = tname(:)
+
+END FUNCTION getKeyByName_sm
+!==============================================================================================================================
+LOGICAL FUNCTION getKey_sm(keyn, val, ky, nam) RESULT(lerr)
+  CHARACTER(LEN=*),                             INTENT(IN)  :: keyn
+  CHARACTER(LEN=maxlen),           ALLOCATABLE, INTENT(OUT) :: val(:)
+  TYPE(keys_type),       OPTIONAL,              INTENT(IN)  :: ky(:)
+  CHARACTER(LEN=maxlen), OPTIONAL, ALLOCATABLE, INTENT(OUT) :: nam(:)
+!------------------------------------------------------------------------------------------------------------------------------
+! Note: if names are repeated, getKeyByName_sm can't be used ; this routine, using indexes, must be used instead.
+  IF(PRESENT(ky)) THEN                                                                   !=== KEY FROM "ky"
+    val = fgetKeys(keyn, ky, lerr=lerr)
+    IF(PRESENT(nam)) nam = ky(:)%name
+  ELSE
+    IF(         .NOT.test(.NOT.ALLOCATED(tracers ), lerr)) lerr = SIZE(tracers ) == 0    !=== KEY FROM "tracers"
+    IF(.NOT.lerr) val = fgetKeys(keyn, tracers%keys, lerr=lerr)
+    IF(.NOT.lerr.AND.PRESENT(nam)) nam = tracers(:)%keys%name
+    IF(lerr.AND..NOT.test(.NOT.ALLOCATED(isotopes), lerr)) lerr = SIZE(isotopes) == 0    !=== KEY FROM "isotope"
+    IF(.NOT.lerr) val = fgetKeys(keyn, isotope%keys, lerr=lerr)
+    IF(.NOT.lerr.AND.PRESENT(nam)) nam = isotope%keys(:)%name
+  END IF
+END FUNCTION getKey_sm
 !==============================================================================================================================
 LOGICAL FUNCTION getKeyByName_i1(keyn, val, tname, ky) RESULT(lerr)
@@ -1519 +1543 @@
 END FUNCTION getKeyByName_i1
 !==============================================================================================================================
-LOGICAL FUNCTION getKeyByName_im(keyn, val, tname, ky) RESULT(lerr)
-  CHARACTER(LEN=*),                   INTENT(IN)  :: keyn
-  INTEGER,               ALLOCATABLE, INTENT(OUT) ::   val(:)
-  CHARACTER(LEN=*), OPTIONAL, TARGET, INTENT(IN)  :: tname(:)
-  TYPE(keys_type),  OPTIONAL, TARGET, INTENT(IN)  ::    ky(:)
-!------------------------------------------------------------------------------------------------------------------------------
-  CHARACTER(LEN=maxlen), ALLOCATABLE :: sval(:), nam(:)
-  INTEGER :: ierr, iq
-  IF(test(getKeyByName_sm(keyn, sval, tname, ky, nam), lerr)) RETURN
-  ALLOCATE(val(SIZE(sval)))
-  DO iq = 1, SIZE(sval)                                              !--- CONVERT THE KEYS TO INTEGERS
-    READ(sval(iq), *, IOSTAT=ierr) val(iq)
-    IF(test(fmsg('key "'//TRIM(keyn)//'" of "'//TRIM(nam(iq))//'" is not an integer', modname, ierr/=0), lerr)) RETURN
-  END DO
-END FUNCTION getKeyByName_im
-!==============================================================================================================================
 LOGICAL FUNCTION getKeyByName_i1m(keyn, val, tname, ky) RESULT(lerr)
-  CHARACTER(LEN=*),           INTENT(IN)  :: keyn
-  INTEGER,       ALLOCATABLE, INTENT(OUT) :: val(:)
-  CHARACTER(LEN=*),           INTENT(IN)  :: tname
-  TYPE(keys_type),  OPTIONAL, INTENT(IN)  ::  ky(:)
-!------------------------------------------------------------------------------------------------------------------------------
-  CHARACTER(LEN=maxlen), ALLOCATABLE :: v(:)
-  INTEGER :: ierr, iq
-  IF(test(getKeyByName_s1m(keyn, v, tname, ky), lerr)) RETURN
-  ALLOCATE(val(SIZE(v)))
-  lerr = .FALSE.; DO iq=1, SIZE(v); READ(v(iq), *, IOSTAT=ierr) val(iq); lerr = lerr .OR. ierr /= 0; END DO
+  CHARACTER(LEN=*),          INTENT(IN)  :: keyn
+  INTEGER,      ALLOCATABLE, INTENT(OUT) :: val(:)
+  CHARACTER(LEN=*),          INTENT(IN)  :: tname
+  TYPE(keys_type), OPTIONAL, INTENT(IN)  ::  ky(:)
+!------------------------------------------------------------------------------------------------------------------------------
+  CHARACTER(LEN=maxlen), ALLOCATABLE :: sval(:)
+  INTEGER :: ierr, iq, nq
+  IF(test(getKeyByName_s1m(keyn, sval, tname, ky), lerr)) RETURN
+  nq = SIZE(sval); ALLOCATE(val(nq))
+  lerr = .FALSE.; DO iq=1, nq; READ(sval(iq), *, IOSTAT=ierr) val(iq); lerr = lerr .OR. ierr /= 0; END DO
   IF(test(fmsg('key "'//TRIM(keyn)//'" of tracer "'//TRIM(tname)//'" is not an integer', modname, lerr), lerr)) RETURN
 END FUNCTION getKeyByName_i1m
+!==============================================================================================================================
+LOGICAL FUNCTION getKeyByName_im(keyn, val, tname, ky, nam) RESULT(lerr)
+  CHARACTER(LEN=*),                             INTENT(IN)  ::  keyn
+  INTEGER,                         ALLOCATABLE, INTENT(OUT) ::   val(:)
+  CHARACTER(LEN=*),                             INTENT(IN)  :: tname(:)
+  TYPE(keys_type),       OPTIONAL,              INTENT(IN)  ::    ky(:)
+  CHARACTER(LEN=maxlen), OPTIONAL, ALLOCATABLE, INTENT(OUT) ::   nam(:)
+!------------------------------------------------------------------------------------------------------------------------------
+  CHARACTER(LEN=maxlen), ALLOCATABLE :: sval(:), names(:)
+  INTEGER :: ierr, iq, nq
+  IF(test(getKeyByName_sm(keyn, sval, tname, ky, names), lerr)) RETURN
+  nq = SIZE(sval); ALLOCATE(val(nq))
+  DO iq = 1, nq                                                      !--- CONVERT THE KEYS TO INTEGERS
+    READ(sval(iq), *, IOSTAT=ierr) val(iq)
+    IF(test(fmsg('key "'//TRIM(keyn)//'" of tracer "'//TRIM(names(iq))//'" is not an integer', modname, ierr/=0), lerr)) RETURN
+  END DO
+END FUNCTION getKeyByName_im
+!==============================================================================================================================
+LOGICAL FUNCTION getKey_im(keyn, val, ky, nam) RESULT(lerr)
+  CHARACTER(LEN=*),                             INTENT(IN)  :: keyn
+  INTEGER,                         ALLOCATABLE, INTENT(OUT) ::  val(:)
+  TYPE(keys_type),       OPTIONAL,              INTENT(IN)  ::   ky(:)
+  CHARACTER(LEN=maxlen), OPTIONAL, ALLOCATABLE, INTENT(OUT) ::  nam(:)
+!------------------------------------------------------------------------------------------------------------------------------
+  CHARACTER(LEN=maxlen), ALLOCATABLE :: sval(:), names(:)
+  INTEGER :: ierr, iq, nq
+  IF(test(getKey_sm(keyn, sval, ky, names), lerr)) RETURN
+  nq = SIZE(sval); ALLOCATE(val(nq))
+  DO iq = 1, nq
+    READ(sval(iq), *, IOSTAT=ierr) val(iq)
+    IF(test(fmsg('key "'//TRIM(keyn)//'" of tracer "'//TRIM(names(iq))//'" is not an integer', modname, ierr/=0), lerr)) RETURN
+  END DO
+  IF(PRESENT(nam)) nam = names
+END FUNCTION getKey_im
 !==============================================================================================================================
 LOGICAL FUNCTION getKeyByName_r1(keyn, val, tname, ky) RESULT(lerr)
@@ -1563 +1605 @@
 END FUNCTION getKeyByName_r1
 !==============================================================================================================================
-LOGICAL FUNCTION getKeyByName_rm(keyn, val, tname, ky) RESULT(lerr)
-  CHARACTER(LEN=*),           INTENT(IN)  :: keyn
-  REAL,          ALLOCATABLE, INTENT(OUT) ::   val(:)
-  CHARACTER(LEN=*), OPTIONAL, INTENT(IN)  :: tname(:)
-  TYPE(keys_type),  OPTIONAL, INTENT(IN)  ::    ky(:)
-!------------------------------------------------------------------------------------------------------------------------------
-  CHARACTER(LEN=maxlen), ALLOCATABLE :: sval(:), nam(:)
-  INTEGER :: ierr, iq
-  IF(test(getKeyByName_sm(keyn, sval, tname, ky, nam), lerr)) RETURN
-  ALLOCATE(val(SIZE(sval)))
-  DO iq = 1, SIZE(sval)                                              !--- CONVERT THE KEYS TO INTEGERS
-    READ(sval(iq), *, IOSTAT=ierr) val(iq)
-    IF(test(fmsg('key "'//TRIM(keyn)//'" of "'//TRIM(nam(iq))//'" is not a real', modname, ierr/=0), lerr)) RETURN
-  END DO
-END FUNCTION getKeyByName_rm
-!==============================================================================================================================
 LOGICAL FUNCTION getKeyByName_r1m(keyn, val, tname, ky) RESULT(lerr)
   CHARACTER(LEN=*),           INTENT(IN)  :: keyn
@@ -1585 +1611 @@
   TYPE(keys_type),  OPTIONAL, INTENT(IN)  ::  ky(:)
 !------------------------------------------------------------------------------------------------------------------------------
-  CHARACTER(LEN=maxlen), ALLOCATABLE :: v(:)
-  INTEGER :: ierr, iq
-  IF(     PRESENT(ky)) lerr = getKeyByName_s1m(keyn, v, tname, ky)
-  IF(.NOT.PRESENT(ky)) lerr = getKeyByName_s1m(keyn, v, tname)
-  ALLOCATE(val(SIZE(v)))
-  lerr = .FALSE.; DO iq=1, SIZE(v); READ(v(iq), *, IOSTAT=ierr) val(iq); lerr = lerr .OR. ierr /= 0; END DO
-  IF(test(fmsg('key "'//TRIM(keyn)//'" of tracer "'//TRIM(tname)//'" is not a real', modname, lerr), lerr)) RETURN
+  CHARACTER(LEN=maxlen), ALLOCATABLE :: sval(:)
+  INTEGER :: ierr, iq, nq
+  IF(test(getKeyByName_s1m(keyn, sval, tname, ky), lerr)) RETURN
+  nq = SIZE(sval); ALLOCATE(val(nq))
+  lerr = .FALSE.; DO iq=1, nq; READ(sval(iq), *, IOSTAT=ierr) val(iq); lerr = lerr .OR. ierr /= 0; END DO
+  IF(test(fmsg('key "'//TRIM(keyn)//'" of tracer "'//TRIM(tname)//'" is not a vector of reals', modname, lerr), lerr)) RETURN
 END FUNCTION getKeyByName_r1m
+!==============================================================================================================================
+LOGICAL FUNCTION getKeyByName_rm(keyn, val, tname, ky, nam) RESULT(lerr)
+  CHARACTER(LEN=*),                             INTENT(IN)  ::  keyn
+  REAL,                            ALLOCATABLE, INTENT(OUT) ::   val(:)
+  CHARACTER(LEN=*),                             INTENT(IN)  :: tname(:)
+  TYPE(keys_type),       OPTIONAL,              INTENT(IN)  ::    ky(:)
+  CHARACTER(LEN=maxlen), OPTIONAL, ALLOCATABLE, INTENT(OUT) ::   nam(:)
+!------------------------------------------------------------------------------------------------------------------------------
+  CHARACTER(LEN=maxlen), ALLOCATABLE :: sval(:), names(:)
+  INTEGER :: ierr, iq, nq
+  IF(test(getKeyByName_sm(keyn, sval, tname, ky, names), lerr)) RETURN
+  nq = SIZE(sval); ALLOCATE(val(nq))
+  DO iq = 1, nq                                                      !--- CONVERT THE KEYS TO INTEGERS
+    READ(sval(iq), *, IOSTAT=ierr) val(iq)
+    IF(test(fmsg('key "'//TRIM(keyn)//'" of tracer "'//TRIM(names(iq))//'" is not a real', modname, ierr/=0), lerr)) RETURN
+  END DO
+  IF(PRESENT(nam)) nam = names
+END FUNCTION getKeyByName_rm
+!==============================================================================================================================
+LOGICAL FUNCTION getKey_rm(keyn, val, ky, nam) RESULT(lerr)
+  CHARACTER(LEN=*),                             INTENT(IN)  :: keyn
+  REAL,                            ALLOCATABLE, INTENT(OUT) ::  val(:)
+  TYPE(keys_type),       OPTIONAL,              INTENT(IN)  ::   ky(:)
+  CHARACTER(LEN=maxlen), OPTIONAL, ALLOCATABLE, INTENT(OUT) ::  nam(:)
+!------------------------------------------------------------------------------------------------------------------------------
+  CHARACTER(LEN=maxlen), ALLOCATABLE :: sval(:), names(:)
+  INTEGER :: ierr, iq, nq
+  IF(test(getKey_sm(keyn, sval, ky, names), lerr)) RETURN
+  nq = SIZE(sval); ALLOCATE(val(nq))
+  DO iq = 1, nq                                                      !--- CONVERT THE KEYS TO INTEGERS
+    READ(sval(iq), *, IOSTAT=ierr) val(iq)
+    IF(test(fmsg('key "'//TRIM(keyn)//'" of tracer "'//TRIM(names(iq))//'" is not a real', modname, ierr/=0), lerr)) RETURN
+  END DO
+  IF(PRESENT(nam)) nam = names
+END FUNCTION getKey_rm
+!==============================================================================================================================
+LOGICAL FUNCTION getKeyByName_l1(keyn, val, tname, ky) RESULT(lerr)
+  USE strings_mod, ONLY: str2bool
+  CHARACTER(LEN=*),          INTENT(IN)  :: keyn
+  LOGICAL,                   INTENT(OUT) :: val
+  CHARACTER(LEN=*),          INTENT(IN)  :: tname
+  TYPE(keys_type), OPTIONAL, INTENT(IN)  :: ky(:)
+!------------------------------------------------------------------------------------------------------------------------------
+  CHARACTER(LEN=maxlen) :: sval
+  INTEGER :: ierr
+  lerr = getKeyByName_s1(keyn, sval, tname, ky)
+  IF(test(fmsg('key "'//TRIM(keyn)//'" or tracer "'//TRIM(tname)//'" is missing', modname, lerr), lerr)) RETURN
+  val = str2bool(sval)
+END FUNCTION getKeyByName_l1
+!==============================================================================================================================
+LOGICAL FUNCTION getKeyByName_l1m(keyn, val, tname, ky) RESULT(lerr)
+  USE strings_mod, ONLY: str2bool
+  CHARACTER(LEN=*),           INTENT(IN)  :: keyn
+  LOGICAL,       ALLOCATABLE, INTENT(OUT) :: val(:)
+  CHARACTER(LEN=*),           INTENT(IN)  :: tname
+  TYPE(keys_type),  OPTIONAL, INTENT(IN)  ::  ky(:)
+!------------------------------------------------------------------------------------------------------------------------------
+  CHARACTER(LEN=maxlen), ALLOCATABLE :: sval(:)
+  INTEGER :: ierr, iq, nq
+  IF(test(getKeyByName_s1m(keyn, sval, tname, ky), lerr)) RETURN
+  nq = SIZE(sval); ALLOCATE(val(nq))
+  lerr = .FALSE.; DO iq=1, nq; val(iq)=str2bool(sval(iq)); END DO
+END FUNCTION getKeyByName_l1m
+!==============================================================================================================================
+LOGICAL FUNCTION getKeyByName_lm(keyn, val, tname, ky, nam) RESULT(lerr)
+  USE strings_mod, ONLY: str2bool
+  CHARACTER(LEN=*),                             INTENT(IN)  ::  keyn
+  LOGICAL,                         ALLOCATABLE, INTENT(OUT) ::   val(:)
+  CHARACTER(LEN=*),                             INTENT(IN)  :: tname(:)
+  TYPE(keys_type),       OPTIONAL,              INTENT(IN)  ::    ky(:)
+  CHARACTER(LEN=maxlen), OPTIONAL, ALLOCATABLE, INTENT(OUT) ::   nam(:)
+!------------------------------------------------------------------------------------------------------------------------------
+  CHARACTER(LEN=maxlen), ALLOCATABLE :: sval(:)
+  INTEGER :: ierr, iq, nq
+  IF(test(getKeyByName_sm(keyn, sval, tname, ky, nam), lerr)) RETURN
+  nq = SIZE(sval); ALLOCATE(val(nq))
+  lerr = .FALSE.; DO iq=1, nq; val(iq)=str2bool(sval(iq)); END DO
+END FUNCTION getKeyByName_lm
+!==============================================================================================================================
+LOGICAL FUNCTION getKey_lm(keyn, val, ky, nam) RESULT(lerr)
+  USE strings_mod, ONLY: str2bool
+  CHARACTER(LEN=*),                             INTENT(IN)  :: keyn
+  LOGICAL,                         ALLOCATABLE, INTENT(OUT) ::  val(:)
+  TYPE(keys_type),       OPTIONAL,              INTENT(IN)  ::   ky(:)
+  CHARACTER(LEN=maxlen), OPTIONAL, ALLOCATABLE, INTENT(OUT) ::  nam(:)
+!------------------------------------------------------------------------------------------------------------------------------
+  CHARACTER(LEN=maxlen), ALLOCATABLE :: sval(:)
+  INTEGER :: ierr, iq, nq
+  IF(test(getKey_sm(keyn, sval, ky, nam), lerr)) RETURN
+  nq = SIZE(sval); ALLOCATE(val(nq))
+  lerr = .FALSE.; DO iq=1, nq; val(iq)=str2bool(sval(iq)); END DO
+END FUNCTION getKey_lm
 !==============================================================================================================================
 
@@ -1609 +1726 @@
   IF(PRESENT(isotopes_)) THEN; isotopes = isotopes_; ELSE; ALLOCATE(isotopes(0)); END IF
   IF(PRESENT(isotope_ )) THEN
-    ix = strIdx(isotopes(:)%parent, isotope%parent)
+    ix = strIdx(isotopes(:)%parent, isotope_%parent)
     IF(ix /= 0) THEN
       isotopes(ix) = isotope_

LMDZ6/trunk/libf/phylmd/infotrac_phy.F90

@@ -251 +251 @@
      IF(readTracersFiles(type_trac,  fType,  lRepr)) CALL abort_gcm(modname, 'problem with tracers file(s)',1)
    ELSE
-     IF(testTracersFiles(modname, type_trac, fType)) CALL abort_gcm(modname, 'problem with tracers file(s)',1)
+     CALL msg('No tracers description file(s) reading needed: already done in the dynamics', modname)
+     IF(testTracersFiles(modname, type_trac, fType, .FALSE.)) CALL abort_gcm(modname, 'problem with tracers file(s)',1)
    END IF
 !##############################################################################################################################