diff --git a/src/homogenization.f90 b/src/homogenization.f90
index f6ca104ae..0cd514c08 100644
--- a/src/homogenization.f90
+++ b/src/homogenization.f90
@@ -287,20 +287,17 @@ subroutine materialpoint_stressAndItsTangent(dt,FEsolving_execIP,FEsolving_execE
                                     .and. NiterationMPstate < num%nMPstate)
         NiterationMPstate = NiterationMPstate + 1
 
+        call mechanical_partition(homogenization_F(1:3,1:3,ce),ce)
+        converged = .true.
+        do co = 1, myNgrains
+          converged = converged .and. crystallite_stress(dt,co,ip,el)
+        enddo
 
-        if (.not. doneAndHappy(1)) then
-          call mechanical_partition(homogenization_F(1:3,1:3,ce),ce)
-          converged = .true.
-          do co = 1, myNgrains
-            converged = converged .and. crystallite_stress(dt,co,ip,el)
-          enddo
-
-          if (.not. converged) then
-            doneAndHappy = [.true.,.false.]
-          else
-            doneAndHappy = mechanical_updateState(dt,homogenization_F(1:3,1:3,ce),ce)
-            converged = all(doneAndHappy)
-          endif
+        if (converged) then
+          doneAndHappy = mechanical_updateState(dt,homogenization_F(1:3,1:3,ce),ce)
+          converged = all(doneAndHappy)
+        else
+          doneAndHappy = [.true.,.false.]
         endif
 
       enddo convergenceLooping
diff --git a/src/phase_mechanical.f90 b/src/phase_mechanical.f90
index e642b22ef..9da8c49ab 100644
--- a/src/phase_mechanical.f90
+++ b/src/phase_mechanical.f90
@@ -561,7 +561,7 @@ function integrateStress(F,subFp0,subFi0,Delta_t,co,ip,el) result(broken)
         cycle LpLoop
       endif
 
-      calculateJacobiLi: if (mod(jacoCounterLp, num%iJacoLpresiduum) == 0) then
+      calculateJacobiLp: if (mod(jacoCounterLp, num%iJacoLpresiduum) == 0) then
         jacoCounterLp = jacoCounterLp + 1
 
         do o=1,3; do p=1,3
@@ -573,7 +573,7 @@ function integrateStress(F,subFp0,subFi0,Delta_t,co,ip,el) result(broken)
         call dgesv(9,1,dRLp_dLp,9,devNull_9,temp_9,9,ierr)                                          ! solve dRLp/dLp * delta Lp = -res for delta Lp
         if (ierr /= 0) return ! error
         deltaLp = - math_9to33(temp_9)
-      endif calculateJacobiLi
+      endif calculateJacobiLp
 
       Lpguess = Lpguess &
               + deltaLp * steplengthLp
@@ -601,7 +601,7 @@ function integrateStress(F,subFp0,subFi0,Delta_t,co,ip,el) result(broken)
       cycle LiLoop
     endif
 
-    calculateJacobiLp: if (mod(jacoCounterLi, num%iJacoLpresiduum) == 0) then
+    calculateJacobiLi: if (mod(jacoCounterLi, num%iJacoLpresiduum) == 0) then
       jacoCounterLi = jacoCounterLi + 1
 
       temp_33 = matmul(matmul(A,B),invFi_current)
@@ -620,7 +620,7 @@ function integrateStress(F,subFp0,subFi0,Delta_t,co,ip,el) result(broken)
       call dgesv(9,1,dRLi_dLi,9,devNull_9,temp_9,9,ierr)                                            ! solve dRLi/dLp * delta Li = -res for delta Li
       if (ierr /= 0) return ! error
       deltaLi = - math_9to33(temp_9)
-    endif calculateJacobiLp
+    endif calculateJacobiLi
 
     Liguess = Liguess &
             + deltaLi * steplengthLi