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programmer's documentation
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Variables | |
integer | ndim |
number of extended (real + ghost of the 'halo') cells. See Note 1: ghost cells - (halos) More... | |
integer, save | ncelet |
number of real cells in the mesh More... | |
integer, save | ncel |
number of internal faces (see Note 2: internal faces) More... | |
integer, save | nfac |
number of boundary faces (see Note 2: internal faces) More... | |
integer, save | nfabor |
number of vertices in the mesh More... | |
integer, save | nnod |
number of cells with at least one boundary More... | |
integer, save | ncelbr |
size of the array nodfac of internal faces - nodes connectivity (see Note 3: faces-nodes connectivity) More... | |
integer, save | lndfac |
size of the array nodfbr of boundary faces - nodes connectivity (see Note 3: faces-nodes connectivity) More... | |
integer, save | lndfbr |
Number of referenced families of entities (boundary faces, elements, ...) More... | |
integer, save | nfml |
Index-numbers of the two (only) neighbouring cells for each internal face. More... | |
integer, dimension(:,:), pointer | ifacel |
integer, dimension(:), pointer | ifabor |
index-number of the (unique) neighbouring cell for each boundary face More... | |
integer, dimension(:), pointer | ipnfac |
position of the first node of the each internal face in the array nodfac (see Note 3: faces-nodes connectivity) More... | |
integer, dimension(:), pointer | nodfac |
index-numbers of the nodes of each internal face (see Note 3: faces-nodes connectivity) More... | |
integer, dimension(:), pointer | ipnfbr |
position of the first node of the each boundary face in the array nodfbr (see Note 3: faces-nodes connectivity) More... | |
integer, dimension(:), pointer | nodfbr |
index-numbers of the nodes of each boundary face (see Note 3: faces-nodes connectivity) More... | |
integer, dimension(:), pointer | ifmfbr |
family number of the boundary faces. See Note 1: ghost cells - (halos) More... | |
integer, dimension(:), pointer | ifmcel |
family number of the elements. See Note 1: ghost cells - (halos) More... | |
integer, dimension(:), pointer | icelbr |
list of cells having at least one boundary face More... | |
integer, dimension(:), pointer | isympa |
integer to mark out the "symmetry" (itypfb=isymet) boundary faces where the mass flow has to be canceled when the ALE module is switched off (these faces are impermeable). For instance, if the face ifac is symmetry face, isympa(ifac)=0, otherwise isympa(ifac)=1. More... | |
double precision, dimension(:,:), pointer | xyzcen |
coordinate of the cell centers More... | |
double precision, dimension(:,:), pointer | surfac |
surface vector of the internal faces. Its norm is the surface of the face and it is oriented from ifacel (1,.) to ifacel (2,.) More... | |
double precision, dimension(:,:), pointer | surfbo |
surface vector of the boundary faces. Its norm is the surface of the face and it is oriented outwards More... | |
double precision, dimension(:,:), pointer | cdgfac |
coordinates of the centres of the internal faces More... | |
double precision, dimension(:,:), pointer | cdgfbo |
coordinates of the centres of the boundary faces More... | |
double precision, dimension(:,:), pointer | xyznod |
coordinates of the mesh vertices More... | |
double precision, dimension(:), pointer | volume |
volume of each cell More... | |
double precision, dimension(:), pointer | surfan |
norm of the surface vector of the internal faces More... | |
double precision, dimension(:), pointer | surfbn |
norm of the surface of the boundary faces More... | |
double precision, dimension(:), pointer | dist |
distance IJ.Nij for every internal face, dot product of the vectors ![]() ![]() ![]() | |
double precision, dimension(:), pointer | distb |
distance IF.N for boundary faces For every boundary face, dot product between the vectors ![]() ![]() ![]() | |
double precision, dimension(:), pointer | pond |
weighting (Aij=pond Ai+(1-pond)Aj) for every internal face, ![]() | |
double precision, dimension(:,:), pointer | dijpf |
vector I'J' for interior faces for every internal face, the three components of the vector ![]() | |
double precision, dimension(:,:), pointer | diipb |
vector II' for interior faces for every boundary face, the three components of the vector ![]() | |
double precision, dimension(:,:), pointer | dofij |
vector OF for interior faces for every internal face, the three components of the vector ![]() | |
double precision, dimension(:,:), pointer cdgfac |
coordinates of the centres of the internal faces
double precision, dimension(:,:), pointer cdgfbo |
coordinates of the centres of the boundary faces
double precision, dimension(:,:), pointer diipb |
vector II' for interior faces for every boundary face, the three components of the vector . I' is the orthogonal projection of I, center of the neighbouring cell, on the straight line perpendicular to the face and passign through its center
double precision, dimension(:,:), pointer dijpf |
vector I'J' for interior faces for every internal face, the three components of the vector , where I' and J' are respectively the orthogonal projections of the neighbouring cell centres I and J on a straight line orthogonal to the face and passing through its center
double precision, dimension(:), pointer dist |
distance IJ.Nij for every internal face, dot product of the vectors and
. I and J are respectively the centres of the first and the second neighbouring cell. The vector
is the unit vector normal to the face and oriented from the first to the second cell
double precision, dimension(:), pointer distb |
distance IF.N for boundary faces For every boundary face, dot product between the vectors and
. I is the center of the neighbouring cell. F is the face center. The vector
is the unit vector normal to the face and oriented to the exterior of the domain
double precision, dimension(:,:), pointer dofij |
vector OF for interior faces for every internal face, the three components of the vector . O is the intersection point between the face and the straight line joining the centres of the two neighbouring cells. F is the face center
integer, dimension(:), pointer icelbr |
list of cells having at least one boundary face
integer, dimension(:), pointer ifabor |
index-number of the (unique) neighbouring cell for each boundary face
integer, dimension(:,:), pointer ifacel |
integer, dimension(:), pointer ifmcel |
family number of the elements. See Note 1: ghost cells - (halos)
integer, dimension(:), pointer ifmfbr |
family number of the boundary faces. See Note 1: ghost cells - (halos)
integer, dimension(:), pointer ipnfac |
position of the first node of the each internal face in the array nodfac (see Note 3: faces-nodes connectivity)
integer, dimension(:), pointer ipnfbr |
position of the first node of the each boundary face in the array nodfbr (see Note 3: faces-nodes connectivity)
integer, dimension(:), pointer isympa |
integer to mark out the "symmetry" (itypfb=isymet) boundary faces where the mass flow has to be canceled when the ALE module is switched off (these faces are impermeable). For instance, if the face ifac is symmetry face, isympa(ifac)=0, otherwise isympa(ifac)=1.
integer, save lndfac |
size of the array nodfbr
of boundary faces - nodes connectivity (see Note 3: faces-nodes connectivity)
integer, save lndfbr |
Number of referenced families of entities (boundary faces, elements, ...)
integer, save ncel |
number of internal faces (see Note 2: internal faces)
integer, save ncelbr |
size of the array nodfac
of internal faces - nodes connectivity (see Note 3: faces-nodes connectivity)
integer, save ncelet |
number of real cells in the mesh
integer ndim |
number of extended (real + ghost of the 'halo') cells. See Note 1: ghost cells - (halos)
integer, save nfabor |
number of vertices in the mesh
integer, save nfac |
number of boundary faces (see Note 2: internal faces)
integer, save nfml |
Index-numbers of the two (only) neighbouring cells for each internal face.
integer, save nnod |
number of cells with at least one boundary
integer, dimension(:), pointer nodfac |
index-numbers of the nodes of each internal face (see Note 3: faces-nodes connectivity)
integer, dimension(:), pointer nodfbr |
index-numbers of the nodes of each boundary face (see Note 3: faces-nodes connectivity)
double precision, dimension(:), pointer pond |
weighting (Aij=pond Ai+(1-pond)Aj) for every internal face, . With regard to the mesh quality, its ideal value is 0.5
double precision, dimension(:,:), pointer surfac |
surface vector of the internal faces. Its norm is the surface of the face and it is oriented from ifacel
(1,.) to ifacel
(2,.)
double precision, dimension(:), pointer surfan |
norm of the surface vector of the internal faces
double precision, dimension(:), pointer surfbn |
norm of the surface of the boundary faces
double precision, dimension(:,:), pointer surfbo |
surface vector of the boundary faces. Its norm is the surface of the face and it is oriented outwards
double precision, dimension(:), pointer volume |
volume of each cell
double precision, dimension(:,:), pointer xyzcen |
coordinate of the cell centers
double precision, dimension(:,:), pointer xyznod |
coordinates of the mesh vertices