Add WS lines to cbaryon_to_sl

Add WS lines to inclusive Lc/Xic/Oc semi-leptonic decays in cbaron_to_sl.

The following lines are added:

Hlt2Charm_LcpXicpToL0MupNu_DD_WS
Hlt2Charm_LcpXicpToL0MupNu_LL_WS
Hlt2Charm_LcpXicpToPpKmMupNu_WS
Hlt2Charm_LcpXicpToPpPimMupNu_WS
Hlt2Charm_Oc0ToOmMupNu_DDD_WS
Hlt2Charm_Oc0ToOmMupNu_DDL_WS
Hlt2Charm_Oc0ToOmMupNu_LLL_WS
Hlt2Charm_Xic0Oc0ToL0KmMupNu_DD_WS
Hlt2Charm_Xic0Oc0ToL0KmMupNu_LL_WS
Hlt2Charm_Xic0Oc0ToXimMupNu_DDL_WS
Hlt2Charm_Xic0Oc0ToXimMupNu_LLL_WS
Hlt2Charm_XicpToXimPipMupNu_DDL_WS
Hlt2Charm_XicpToXimPipMupNu_LLL_WS

Moreover, according to @padlarso studies, we also modify the selection for the inclusive c-baryon semi-leptonic decays:

• Replace CORRM by MASS
• Add IPCHI2 for pion/proton from Lambda

The latest efficiencies are estimated based on the expected_2024_min_bias_hlt1_filtered_v2 samples:

Hlt2Charm_LcpXicpToL0MupNu_DD        #=100000  Sum=10   Eff=|(0.01000000 +- 0.00316212)%|
Hlt2Charm_LcpXicpToL0MupNu_LL        #=100000  Sum=9    Eff=|(0.009000000 +- 0.00299986)%|
Hlt2Charm_LcpXicpToPpKmMupNu         #=100000  Sum=19   Eff=|(0.01900000 +- 0.00435848)%|
Hlt2Charm_LcpXicpToPpPimMupNu        #=100000  Sum=10   Eff=|(0.01000000 +- 0.00316212)%|
Hlt2Charm_Oc0ToOmMupNu_DDD           #=100000  Sum=0    Eff=|( 0.000000 +- 0.00000 )%|
Hlt2Charm_Oc0ToOmMupNu_DDL           #=100000  Sum=0    Eff=|( 0.000000 +- 0.00000 )%|
Hlt2Charm_Oc0ToOmMupNu_LLL           #=100000  Sum=0    Eff=|( 0.000000 +- 0.00000 )%|
Hlt2Charm_Xic0Oc0ToL0KmMupNu_DD      #=100000  Sum=0    Eff=|( 0.000000 +- 0.00000 )%|
Hlt2Charm_Xic0Oc0ToL0KmMupNu_LL      #=100000  Sum=2    Eff=|(0.002000000 +- 0.00141420)%|
Hlt2Charm_Xic0Oc0ToXimMupNu_DDL      #=100000  Sum=1    Eff=|(0.001000000 +- 0.000999995)%|
Hlt2Charm_Xic0Oc0ToXimMupNu_LLL      #=100000  Sum=0    Eff=|( 0.000000 +- 0.00000 )%|
Hlt2Charm_XicpToXimPipMupNu_DDL      #=100000  Sum=1    Eff=|(0.001000000 +- 0.000999995)%|
Hlt2Charm_XicpToXimPipMupNu_LLL      #=100000  Sum=0    Eff=|( 0.000000 +- 0.00000 )%|

Hlt2Charm_LcpXicpToL0MupNu_DD_WS     #=100000  Sum=13   Eff=|(0.01300000 +- 0.00360532)%|
Hlt2Charm_LcpXicpToL0MupNu_LL_WS     #=100000  Sum=5    Eff=|(0.005000000 +- 0.00223601)%|
Hlt2Charm_LcpXicpToPpKmMupNu_WS      #=100000  Sum=15   Eff=|(0.01500000 +- 0.00387269)%|
Hlt2Charm_LcpXicpToPpPimMupNu_WS     #=100000  Sum=28   Eff=|(0.02800000 +- 0.00529076)%|
Hlt2Charm_Oc0ToOmMupNu_DDD_WS        #=100000  Sum=1    Eff=|(0.001000000 +- 0.000999995)%|
Hlt2Charm_Oc0ToOmMupNu_DDL_WS        #=100000  Sum=0    Eff=|( 0.000000 +- 0.00000 )%|
Hlt2Charm_Oc0ToOmMupNu_LLL_WS        #=100000  Sum=0    Eff=|( 0.000000 +- 0.00000 )%|
Hlt2Charm_Xic0Oc0ToL0KmMupNu_DD_WS   #=100000  Sum=2    Eff=|(0.002000000 +- 0.00141420)%|
Hlt2Charm_Xic0Oc0ToL0KmMupNu_LL_WS   #=100000  Sum=0    Eff=|( 0.000000 +- 0.00000 )%|
Hlt2Charm_Xic0Oc0ToXimMupNu_DDL_WS   #=100000  Sum=2    Eff=|(0.002000000 +- 0.00141420)%|
Hlt2Charm_Xic0Oc0ToXimMupNu_LLL_WS   #=100000  Sum=0    Eff=|( 0.000000 +- 0.00000 )%|
Hlt2Charm_XicpToXimPipMupNu_DDL_WS   #=100000  Sum=0    Eff=|( 0.000000 +- 0.00000 )%|
Hlt2Charm_XicpToXimPipMupNu_LLL_WS   #=100000  Sum=0    Eff=|( 0.000000 +- 0.00000 )%|

The total bandwidth is calculated as 1140kHzX(287K/1024)/100000 = 0.0032 (GB/s)

FYI @padlarso @msaur @mstahl