The values of $\Delta \langle p^{2}_{\rm T}\rangle$ as a function of centrality at backward ($-4.46 < y_{\rm cms} < -2.96$) and forward ($2.03 < y_{\rm cms} < 3.53$) centre-of-mass rapidity. The first uncertainty is statistical, the second and third ones are the systematic uncertainties. The third is related to the uncertainty on the $\langle p^{2}_{\rm T} \rangle$ in pp collisions and is correlated over centrality.

The nuclear modification factor ($Q_{\rm pPb}$) of inclusive J/$\psi$ as function of $\langle N_{\rm coll} \rangle$ at backward ($-4.46 < y_{\rm cms} < -2.96$) and forward ($2.03 < y_{\rm cms} < 3.53$) centre-of-mass rapidity. The first uncertainty is statistical, the second and third ones are the systematic uncertainties. The third uncertainty is fully correlated over centrality.

The $p_{\rm T}$-differential inclusive J/$\psi$ $Q_{\rm pPb}$ for six centrality classes at backward ($-4.46 < y_{\rm cms} < -2.96$) centre-of-mass rapidity. The first uncertainty is statistical, the second one and the third ones are the uncorrelated and correlated systematic uncertainties, respectively. The third uncertainty is fully correlated over $p_{\rm T}$. The fourth uncertainty is the correlated systematic which is common for all centrality classes. In Figure 7 correlated systematic uncertainties are added in quadrature.

The $p_{\rm T}$-differential inclusive J/$\psi$ $Q_{\rm pPb}$ for six centrality classes at forward ($2.03 < y_{\rm cms} < 3.53$) centre-of-mass rapidity. The first uncertainty is statistical, the second one and the third ones are the uncorrelated and correlated systematic uncertainties, respectively. The third uncertainty is fully correlated over $p_{\rm T}$. The fourth uncertainty is the correlated systematic which is common for all centrality classes. In Figure 8 correlated systematic uncertainties are added in quadrature.

The ratio of inclusive J/$\psi$ $Q_{\rm pPb}$ between peripheral to central collisions ($Q_{\rm PC}$) as function of $p_{\rm T}$ for six centrality classes at backward ($-4.46 < y_{\rm cms} < -2.96$) centre-of-mass rapidity. The first uncertainty is statistical, the second one and the third ones are the systematic uncertainties. The third uncertainty is fully correlated over $p_{\rm T}$.

The ratio of inclusive J/$\psi$ $Q_{\rm pPb}$ between peripheral to central collisions ($Q_{\rm PC}$) as a function of $p_{\rm T}$ for six centrality classes at forward ($2.03 < y_{\rm cms} < 3.53$) centre-of-mass rapidity. The first uncertainty is statistical, the second and the third ones are the systematic uncertainties. The third uncertainty is fully correlated over $p_{\rm T}$.

B.R.$_{\psi(\rm 2S)\rightarrow\mu^{+}\mu^{-}}{\sigma_{\psi(\rm 2S)}}$/B.R.$_{J/\psi\rightarrow\mu^{+}\mu^{-}}{\sigma_{\rm J/\psi}}$ as a function of $\langle N_{\rm coll} \rangle$ at backward ($-4.46 < y_{\rm cms} < -2.96$) centre-of-mass rapidity. The first uncertainty is statistical, the second and the third ones are the systematic uncertainties. The third uncertainty is fully correlated over centrality.

B.R.$_{\psi(\rm 2S)\rightarrow\mu^{+}\mu^{-}}{\sigma_{\psi(\rm 2S)}}$/B.R.$_{J/\psi\rightarrow\mu^{+}\mu^{-}}{\sigma_{\rm J/\psi}}$ as a function of $\langle N_{\rm coll} \rangle$ at forward ($2.03 < y_{\rm cms} < 3.53$) centre-of-mass rapidity. The first uncertainty is statistical, the second and the third ones are the systematic uncertainties. The third uncertainty is fully correlated over centrality.

Double ratio $[\sigma_{\psi(\rm 2S)}/\sigma_{\rm J/\psi}]_{\rm pPb}/[\sigma_{\psi(\rm 2S)}/\sigma_{\rm J/\psi}]_{\rm pp}$ as a function of $\langle N_{\rm coll} \rangle$ at backward ($-4.46 < y_{\rm cms} < -2.96$) centre-of-mass rapidity. The first uncertainty is statistical, the second and the third ones are the systematic uncertainties. The third uncertainty is fully correlated over centrality.

Double ratio $[\sigma_{\psi(\rm 2S)}/\sigma_{\rm J/\psi}]_{\rm pPb}/[\sigma_{\psi(\rm 2S)}/\sigma_{\rm J/\psi}]_{\rm pp}$ as a function of $\langle N_{\rm coll} \rangle$ at forward ($2.03 < y_{\rm cms} < 3.53$) centre-of-mass rapidity. The first uncertainty is statistical, the second and the third ones are the systematic uncertainties. The third uncertainty is fully correlated over centrality.

Inclusive $\psi$(2S) $Q_{\rm pPb}$ as a function of $\langle N_{\rm coll} \rangle$ at backward ($-4.46 < y_{\rm cms} < -2.96$) centre-of-mass rapidity. The first uncertainty is statistical, the second is the uncorrelated systematic, the third is the correlated systematic for $\psi$(2S) or J/$\psi$ only while the fourth one is the correlated systematic shared among $\psi$(2S) and J/$\psi$.

Inclusive $\psi$(2S) $Q_{\rm pPb}$ as a function of $\langle N_{\rm coll} \rangle$ at forward ($2.03 < y_{\rm cms} < 3.53$) centre-of-mass rapidity. The first uncertainty is statistical, the second is the uncorrelated systematic, the third is the correlated systematic for $\psi$(2S) or J/$\psi$ only while the fourth one is the correlated systematic shared among $\psi$(2S) and J/$\psi$.

Inclusive J/$\psi$ cross sections extrapolated from existing measurements at backward ($-4.46 < y < -2.96$) and forward ($2.03 < y < 3.53$) rapidity in pp collisions. The first and the second uncertainties are the uncorrelated and correlated systematic uncertainties, respectively. The correlated uncertainty is correlated over rapidity. This table refers to Fig. 1 of ALICE-PUBLIC-2020-007.

Inclusive $\psi$(2S) cross sections extrapolated from existing measurements at backward ($-4.46 < y < -2.96$) and forward ($2.03 < y < 3.53$) rapidity in pp collisions . The first and the second uncertainties are the uncorrelated and correlated systematic uncertainties, respectively. The correlated uncertainty is fully correlated over rapidity. This table refers Fig. 1 of ALICE-PUBLIC-2020-007.

The rapidity differential inclusive J/$\psi$ cross sections extrapolated from existing measurements for backward ($-4.46 < y < -2.96$) rapidity interval in pp collisions. The first and the second uncertainties are the uncorrelated and correlated systematic uncertainties, respectively. The correlated uncertainty is correlated over rapidity. This table refers Fig. 2 of ALICE-PUBLIC-2020-007.

The rapidity differential inclusive J/$\psi$ cross sections extrapolated from existing measurements for forward ($2.03 < y < 3.53$) rapidity interval in pp collisions. The first and the second uncertainties are the uncorrelated and correlated systematic uncertainties, respectively. The correlated uncertainty is correlated over rapidity. This table refers Fig. 2 of ALICE-PUBLIC-2020-007.

The $p_{\rm T}$-differential inclusive J/$\psi$ cross sections extrapolated from existing measurements at backward ($-4.46 < y < -2.96$) rapidity in pp collisions. The first and the second uncertainties are the uncorrelated and correlated systematic uncertainties, respectively. The correlated uncertainty is fully correlated over $p_{\rm T}$. This table refers Fig. 3 of ALICE-PUBLIC-2020-007.

The $p_{\rm T}$-differential inclusive J/$\psi$ cross sections extrapolated from existing measurements at forward ($2.03 < y < 3.53$) rapidity in pp collisions. The first and the second uncertainties are the uncorrelated and correlated systematic uncertainties, respectively. The correlated uncertainty is fully correlated over $p_{\rm T}$. This table refers Fig. 3 of ALICE-PUBLIC-2020-007.

The values of $\langle p_{\rm T} \rangle$ and $\langle p^{2}_{\rm T} \rangle$ of inclusive J/$\psi$ at backward ($-4.46 < y < -2.96$) and forward ($2.03 < y < 3.53$) rapidity calculated from extrapolated cross sections in pp collisions. The uncertainty is the systematic uncertainty. The systematic uncertainty is obtained as the quadratic sum of the uncorrelated and correlated systematic uncertainties. This table refers Fig. 4 of ALICE-PUBLIC-2020-007.

Ratio of inclusive $\psi(2{\rm S})$ over J/$\psi$ yields times their branching ratios as a function of $y_{\rm cms}$ in p--Pb collisions at $\sqrt{s_{\rm NN}}$ = 8.16 TeV .The first uncertainty is statistical, while the second is the systematic.

Ratio of inclusive $\psi(2{\rm S})$ over J/$\psi$ yields times their branching ratios as a function of $p_{\rm T}$ in p--Pb collisions at $\sqrt{s_{\rm NN}}$ = 8.16 TeV at forward rapidity.The first uncertainty is statistical, while the second is the systematic.

Ratio of inclusive $\psi(2{\rm S})$ over J/$\psi$ yields times their branching ratios as a function of $p_{\rm T}$ in p--Pb collisions at $\sqrt{s_{\rm NN}}$ = 8.16 TeV at backward rapidity.The first uncertainty is statistical, while the second is the systematic.

Inclusive $\psi(2{\rm S})$ $R_{\rm pPb}$ values as a function of $y_{\rm {cms}}$ at $\sqrt{s_{\rm NN}}$ = 8.16 TeV. The first uncertainty is statistical, the second is the uncorrelated systematic, while the third one is a correlated systematic uncertainty.

Inclusive $\psi(2{\rm S})$ $R_{\rm pPb}$ values as a function of $p_{\rm T}$ at $\sqrt{s_{\rm NN}}$ = 8.16 TeV at forward rapidity. The first uncertainty is statistical, the second is the uncorrelated systematic, while the third one is a correlated systematic uncertainty.

Inclusive $\psi(2{\rm S})$ $R_{\rm pPb}$ values as a function of $p_{\rm T}$ at $\sqrt{s_{\rm NN}}$ = 8.16 TeV at backward rapidity. The first uncertainty is statistical, the second is the uncorrelated systematic, while the third one is a correlated systematic uncertainty.

Double ratio of $\psi$(2S) and J/$\psi$ cross sections in p--Pb and pp collisions as a function of rapidity, at $\sqrt{s_{\mathrm{NN}}} = 8.16$ TeV. The first uncertainty is statistical, while the second is the systematic.

Double ratio of $\psi$(2S) and J/$\psi$ cross sections in p--Pb and pp collisions as a function of $p_{\rm T}$, at $\sqrt{s_{\mathrm{NN}}} = 8.16$ TeV at forward rapidity. The first uncertainty is statistical, while the second is the systematic.

Double ratio of $\psi$(2S) and J/$\psi$ cross sections in p--Pb and pp collisions as a function of $p_{\rm T}$, at $\sqrt{s_{\mathrm{NN}}} = 8.16$ TeV at backward rapidity. The first uncertainty is statistical, while the second is the systematic.

Inclusive $\psi(2{\rm S})$ cross section times branching ratio for backward and forward rapidity, in p--Pb collisions at $\sqrt{s_{\rm NN}}$ = 8.16 TeV. The first uncertainty is statistical, the second is the uncorrelated systematic, while the third one is a correlated systematic uncertainty.

Inclusive $\psi(2{\rm S})$ $R_{\rm pPb}$ values for backward and forward rapidity at $\sqrt{s_{\rm NN}}$ = 8.16 TeV. The first uncertainty is statistical, the second is the uncorrelated systematic, while the third one is a correlated systematic uncertainty.