# runs are executed in the same order as in this file
# the second field tells which test should be run in order to compare with the last available output
# e.g. 0 means do not compare anything, running is enough
#      1 compares the last total energy in the file
#      for details see cp2k/tools/do_regtest
H2O-MNDO.inp       3
c2h4.inp           3
ch2o.inp           3
ch4.inp            3
ch4-restart.inp    3
h2o.inp            3
h2o_lsd.inp        3  
h2op.inp           3
hcn.inp            3
hf.inp             3
nh4.inp            3
st.inp             3
# test the initial adaptation to OT
ch4-ot.inp         3
h2o_lsd-ot.inp     3
# tests for high-spin ROKS
O-ROKS.inp         3
O2-ROKS.inp        3
NO2-ROKS.inp       3
#RM1 Model
c2h4_rm1.inp       3
h2op_2.inp         3
h2po4.inp          3
geom.inp           3
b2h6_pm6.inp       3
ch2o_pm6.inp       3
hcn_pm6.inp        3
# MNDOd (non-d element)
H2O-MNDOD.inp      3
hcl.inp            3
brcl.inp           3
sih_x.inp          3
sih_y.inp          3
tio.inp            3
# integrals in-core
H2O-MNDO-si.inp    3
H2O-MNDO-si-nc.inp 3
# SCP NDDO
dimer.inp          3
dimer2.inp          3
dimer3.inp          3
dimer4.inp          3
# GKS INTEGRALS
h2o_gks.inp        3
h2o_gks_p.inp      3
# GKS INTEGRALS + EWALD
h2o_gks_e.inp      3
# SCP ice
ice-scp-ewald.inp 3
ice-scp-ewald_gks.inp 3
# ewald with a molecular topology defined
ice-ewald-mol.inp 3
ice-ewald-nomol.inp 3
ice-ewald-r_cut.inp 3
# Atprop energy
dimer_atprop.inp 3
