mirror of
https://github.com/LCPQ/QUESTDB_website.git
synced 2024-07-22 10:47:42 +02:00
replace firstState by initialState
This commit is contained in:
parent
2bb908c042
commit
6f15d73054
@ -6,14 +6,14 @@
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\newcommand{\Td}{\%T_1}
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\begin{dfbOptions}
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\format{exoticcolumn}
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\firstState[\ce{CClF}]{^1A^\prime}
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\firstState[Formylfluoride]{^1A^\prime}
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\firstState[\ce{HCCl}]{^1A^\prime}
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\firstState[\ce{HCF}]{^1A^\prime}
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\firstState[\ce{HCP}]{^1\Sigma^+}
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\firstState[\ce{HPO}]{^1A^\prime}
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\firstState[\ce{HPS}]{^1A^\prime}
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\firstState[\ce{HSiF}]{^1A^\prime}
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\initialState[\ce{CClF}]{^1A^\prime}
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\initialState[Formylfluoride]{^1A^\prime}
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\initialState[\ce{HCCl}]{^1A^\prime}
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\initialState[\ce{HCF}]{^1A^\prime}
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\initialState[\ce{HCP}]{^1\Sigma^+}
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\initialState[\ce{HPO}]{^1A^\prime}
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\initialState[\ce{HPS}]{^1A^\prime}
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\initialState[\ce{HSiF}]{^1A^\prime}
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\end{dfbOptions}
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\begin{tabular}
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@ -1,14 +1,14 @@
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\begin{dfbOptions}
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\format{Column}
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\firstState[Acetaldehyde]{^1A^\prime}
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\firstState[Acetylene]{^1\Sigma_g}
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\firstState[Carbon monoxide]{^1\Sigma^+}
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\firstState[Dinitrogen]{^1\Sigma_g}
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\firstState[Ethylene]{^1A_g}
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\firstState[Formamide]{^1A^\prime}
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\firstState[Hydrogen chloride]{^1\Sigma^+}
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\firstState[Methanimine]{^1A^\prime}
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\firstState[Nitrosomethane]{^1A^\prime}
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\initialState[Acetaldehyde]{^1A^\prime}
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\initialState[Acetylene]{^1\Sigma_g}
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\initialState[Carbon monoxide]{^1\Sigma^+}
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\initialState[Dinitrogen]{^1\Sigma_g}
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\initialState[Ethylene]{^1A_g}
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\initialState[Formamide]{^1A^\prime}
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\initialState[Hydrogen chloride]{^1\Sigma^+}
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\initialState[Methanimine]{^1A^\prime}
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\initialState[Nitrosomethane]{^1A^\prime}
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\end{dfbOptions}
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\begin{tabular}
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@ -35,20 +35,20 @@
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\begin{dfbOptions}
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\format{Column}
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\firstState[Acrolein]{^1A^\prime}
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\firstState[Benzene]{^1A_{1g}}
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\firstState[Butadiene]{^1A_g}
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\firstState[Cyanoacetylene]{^1\Sigma^+}}
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\firstState[Cyanoformaldehyde]{^1A^\prime}
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\firstState[Cyanogen]{^1\Sigma_g^+}
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\firstState[Diacetylene]{^1A^\prime}
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\firstState[Glyoxal]{^1A_g}
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\firstState[Imidazole]{^1A^\prime}
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\firstState[Propynal]{^1A^\prime}
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\firstState[Pyrazine]{^1A_g}
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\firstState[Tetrazine]{^1A_g}
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\firstState[Thiopropynal]{^1A^\prime}
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\firstState[Triazine]{^1A^\prime}
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\initialState[Acrolein]{^1A^\prime}
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\initialState[Benzene]{^1A_{1g}}
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\initialState[Butadiene]{^1A_g}
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\initialState[Cyanoacetylene]{^1\Sigma^+}}
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\initialState[Cyanoformaldehyde]{^1A^\prime}
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\initialState[Cyanogen]{^1\Sigma_g^+}
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\initialState[Diacetylene]{^1A^\prime}
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\initialState[Glyoxal]{^1A_g}
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\initialState[Imidazole]{^1A^\prime}
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\initialState[Propynal]{^1A^\prime}
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\initialState[Pyrazine]{^1A_g}
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\initialState[Tetrazine]{^1A_g}
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\initialState[Thiopropynal]{^1A^\prime}
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\initialState[Triazine]{^1A^\prime}
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\end{dfbOptions}
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\begin{tabular}
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@ -26,14 +26,14 @@
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\newcommand{\DAVPZ}{d-aug-cc-pV5Z}
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\begin{dfbOptions}
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\format{exoticcolumn}
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\firstState[\ce{CClF}]{^1A^\prime}
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\firstState[Formylfluoride]{^1A^\prime}
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\firstState[\ce{HCCl}]{^1A^\prime}
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\firstState[\ce{HCF}]{^1A^\prime}
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\firstState[\ce{HCP}]{^1\Sigma^+}
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\firstState[\ce{HPO}]{^1A^\prime}
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\firstState[\ce{HPS}]{^1A^\prime}
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\firstState[\ce{HSiF}]{^1A^\prime}
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\initialState[\ce{CClF}]{^1A^\prime}
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\initialState[Formylfluoride]{^1A^\prime}
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\initialState[\ce{HCCl}]{^1A^\prime}
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\initialState[\ce{HCF}]{^1A^\prime}
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\initialState[\ce{HCP}]{^1\Sigma^+}
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\initialState[\ce{HPO}]{^1A^\prime}
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\initialState[\ce{HPS}]{^1A^\prime}
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\initialState[\ce{HSiF}]{^1A^\prime}
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\end{dfbOptions}
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@ -26,14 +26,14 @@
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\newcommand{\DAVPZ}{d-aug-cc-pV5Z}
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\begin{dfbOptions}
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\format{exoticcolumn}
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\firstState[\ce{CClF}]{^1A^\prime}
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\firstState[Formylfluoride]{^1A^\prime}
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\firstState[\ce{HCCl}]{^1A^\prime}
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\firstState[\ce{HCF}]{^1A^\prime}
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\firstState[\ce{HCP}]{^1\Sigma^+}
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\firstState[\ce{HPO}]{^1A^\prime}
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\firstState[\ce{HPS}]{^1A^\prime}
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\firstState[\ce{HSiF}]{^1A^\prime}
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\initialState[\ce{CClF}]{^1A^\prime}
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\initialState[Formylfluoride]{^1A^\prime}
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\initialState[\ce{HCCl}]{^1A^\prime}
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\initialState[\ce{HCF}]{^1A^\prime}
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\initialState[\ce{HCP}]{^1\Sigma^+}
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\initialState[\ce{HPO}]{^1A^\prime}
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\initialState[\ce{HPS}]{^1A^\prime}
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\initialState[\ce{HSiF}]{^1A^\prime}
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\end{dfbOptions}
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\begin{tabular}
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@ -26,29 +26,29 @@
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\newcommand{\DAVPZ}{d-aug-cc-pV5Z}
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\begin{dfbOptions}
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\format{exoticcolumn}
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\firstState{^2A_1}
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\firstState[Allyl]{^2A_2}
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\firstState[\ce{BeF}]{^2\Sigma^+}
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\firstState[\ce{BeF}]{^2\Sigma^+}
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\firstState[\ce{BeH}]{^2\Sigma^+}
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\firstState[\ce{CH}]{^2\Pi}
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\firstState[\ce{CH3}]{^2A_2^{\prime\prime}}
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\firstState[\ce{CN}]{^2\Sigma^+}
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\firstState[\ce{CNO}]{^2\Sigma^+}
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\firstState[\ce{CO+}]{^2\Sigma^+}
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\firstState[\ce{F2BO}]{^2B_2}
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\firstState[\ce{H2BO}]{^2B_2}
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\firstState[\ce{HCO}]{^2A^\prime}
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\firstState[\ce{HOC}]{^2A^\prime}
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\firstState[\ce{H2PO}]{^2A^\prime}
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\firstState[\ce{H2PS}]{^2A^\prime}
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\firstState[\ce{NCO}]{^2\Pi}
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\firstState[\ce{NH2}]{^2B_1}
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\firstState[Nitromethyl]{^2B_1}
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\firstState[\ce{NO}]{^2B_1}
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\firstState[\ce{OH}]{^2\Pi}
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\firstState[\ce{PH2}]{^2B_1}
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\firstState[Vinyl]{^2A^{\prime\prime}}
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\initialState{^2A_1}
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\initialState[Allyl]{^2A_2}
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\initialState[\ce{BeF}]{^2\Sigma^+}
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\initialState[\ce{BeF}]{^2\Sigma^+}
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\initialState[\ce{BeH}]{^2\Sigma^+}
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\initialState[\ce{CH}]{^2\Pi}
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\initialState[\ce{CH3}]{^2A_2^{\prime\prime}}
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\initialState[\ce{CN}]{^2\Sigma^+}
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\initialState[\ce{CNO}]{^2\Sigma^+}
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\initialState[\ce{CO+}]{^2\Sigma^+}
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\initialState[\ce{F2BO}]{^2B_2}
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\initialState[\ce{H2BO}]{^2B_2}
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\initialState[\ce{HCO}]{^2A^\prime}
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\initialState[\ce{HOC}]{^2A^\prime}
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\initialState[\ce{H2PO}]{^2A^\prime}
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\initialState[\ce{H2PS}]{^2A^\prime}
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\initialState[\ce{NCO}]{^2\Pi}
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\initialState[\ce{NH2}]{^2B_1}
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\initialState[Nitromethyl]{^2B_1}
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\initialState[\ce{NO}]{^2B_1}
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\initialState[\ce{OH}]{^2\Pi}
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\initialState[\ce{PH2}]{^2B_1}
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\initialState[Vinyl]{^2A^{\prime\prime}}
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\end{dfbOptions}
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\begin{tabular}
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@ -30,15 +30,15 @@
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\begin{dfbOptions}
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\format{TBE}
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\firstState[Acetaldehyde]{^1A^\prime}
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\firstState[Acetylene]{^1\Sigma_g}
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\firstState[Carbon monoxyde]{^1\Sigma^+}
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\firstState[Dinitrogen]{^1\Sigma^+}
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\firstState[Ethylene]{^1A_g}
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\firstState[Formamide]{^1A^\prime}
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\firstState[Hydrogen chloride]{^1A^\prime}
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\firstState[Methanimine]{^1A^\prime}
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\firstState[Nitrosomethane]{^1A^\prime}
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\initialState[Acetaldehyde]{^1A^\prime}
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\initialState[Acetylene]{^1\Sigma_g}
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\initialState[Carbon monoxyde]{^1\Sigma^+}
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\initialState[Dinitrogen]{^1\Sigma^+}
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\initialState[Ethylene]{^1A_g}
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\initialState[Formamide]{^1A^\prime}
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\initialState[Hydrogen chloride]{^1A^\prime}
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\initialState[Methanimine]{^1A^\prime}
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\initialState[Nitrosomethane]{^1A^\prime}
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\end{dfbOptions}
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\begin{tabular}{llcccccc}
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& & & & TBE(FC)& \multicolumn{3}{c}{Corrected TBE} \\
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@ -17,7 +17,7 @@ args = parser.parse_args()
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lines=args.file.readlines()
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soup=TexSoup(lines)
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opt=soup.dfbOptions
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dfb_Opt= {"defaultType":DataType.ABS,"format":Format.LINE,"suffix":None,"firstStates":defaultdict(lambda : state(1,1,"A_1"))}
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dfb_Opt= {"defaultType":DataType.ABS,"format":Format.LINE,"suffix":None,"initialStates":defaultdict(lambda : state(1,1,"A_1"))}
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dfbDefaultTypeNode=opt.defaultType
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if dfbDefaultTypeNode!=None:
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dfbDefaultType=dfbDefaultTypeNode.expr
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@ -35,18 +35,18 @@ if dfbSuffixNode!=None:
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dfbSuffix=dfbSuffixNode.expr
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if type(dfbSuffix) is TexCmd:
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dfb_Opt["suffix"]=dfbSuffix.args[0].value
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dfbFirstStateNodes=list(opt.find_all("firstState"))
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for node in dfbFirstStateNodes:
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firstState=node.expr
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if type(firstState) is TexCmd:
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vRArgs=[arg.value for arg in firstState.args if arg.type=="required"]
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vOArgs=[arg.value for arg in firstState.args if arg.type=="optional"]
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dfbInitialStateNodes=list(opt.find_all("initialState"))
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for node in dfbInitialStateNodes:
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initialState=node.expr
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if type(initialState) is TexCmd:
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vRArgs=[arg.value for arg in initialState.args if arg.type=="required"]
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vOArgs=[arg.value for arg in initialState.args if arg.type=="optional"]
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if len(vOArgs)==0:
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defaultstate=state.fromString("1 "+vRArgs[0])
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dfb_Opt["firstStates"].default_factory=lambda : defaultstate
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dfb_Opt["initialStates"].default_factory=lambda : defaultstate
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else:
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mystate=state.fromString("1 "+vRArgs[0])
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dfb_Opt["firstStates"][vOArgs[0]]=mystate
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dfb_Opt["initialStates"][vOArgs[0]]=mystate
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commands=[LaTeX.newCommand(cmd) for cmd in soup.find_all("newcommand")]
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dat=LaTeX.tabularToData(soup.tabular,commands)
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scriptpath=Path(sys.argv[0]).resolve()
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@ -55,6 +55,6 @@ if args.debug:
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datapath=datapath/"test"
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if not datapath.exists():
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datapath.mkdir()
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datalst=dataFileBase.readFromTable(dat,dfb_Opt["firstStates"],format=dfb_Opt["format"],default=dfb_Opt["defaultType"],commands=commands)
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datalst=dataFileBase.readFromTable(dat,dfb_Opt["initialStates"],format=dfb_Opt["format"],default=dfb_Opt["defaultType"],commands=commands)
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for data in datalst:
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data.toFile(datapath,dfb_Opt["suffix"])
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@ -43,7 +43,7 @@ class dataFileBase(object):
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pass
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@staticmethod
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def convertState(StateTablelist,firstState,default=DataType.ABS,commands=[]):
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def convertState(StateTablelist,initialState,default=DataType.ABS,commands=[]):
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tmplst=[]
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for TexState in StateTablelist:
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math=TexState.find("$")
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@ -70,14 +70,14 @@ class dataFileBase(object):
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tmplst.append((mul,symm,trsp,tygrp))
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lst=[]
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for index,item in enumerate(tmplst):
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unformfirststate=(firstState.multiplicity,firstState.symetry)
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countlst=[unformfirststate]+[(it[0],it[1]) for it in tmplst[:index+1]]
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unforminitialstate=(initialState.multiplicity,initialState.symetry)
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countlst=[unforminitialstate]+[(it[0],it[1]) for it in tmplst[:index+1]]
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countitem=(item[0],item[1])
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count=countlst.count(countitem)
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lst.append((state(count,item[0],item[1]),item[2],item[3]))
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return lst
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@staticmethod
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def readFromTable(table,firstStates,format=Format.LINE,default=DataType.ABS, commands=[]):
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def readFromTable(table,initialStates,format=Format.LINE,default=DataType.ABS, commands=[]):
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def getSubtableIndex(table,firstindex=2,column=0,count=1):
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subtablesindex=list()
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i=firstindex+count
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@ -101,8 +101,8 @@ class dataFileBase(object):
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col=table[:,col]
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mymolecule=str(col[0])
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mymethod=method(str(col[2]),str(col[1]))
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firstState=firstStates[mymolecule]
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finsts=dataFileBase.convertState(table[3:,0],firstState,default=default,commands=commands)
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initialState=initialStates[mymolecule]
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finsts=dataFileBase.convertState(table[3:,0],initialState,default=default,commands=commands)
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datacls=dict()
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for index,cell in enumerate(col[3:]):
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if str(cell)!="":
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@ -117,7 +117,7 @@ class dataFileBase(object):
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datacls[dt]=data
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data.molecule=mymolecule
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data.method=mymethod
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data.excitations.append(excitationValue(firstState,finst[0],val,type=finst[2],isUnsafe=unsafe))
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data.excitations.append(excitationValue(initialState,finst[0],val,type=finst[2],isUnsafe=unsafe))
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for value in datacls.values():
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datalist.append(value)
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return datalist
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@ -128,9 +128,9 @@ class dataFileBase(object):
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datacls=dict()
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col=table[:,col]
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mymolecule=str(table[first,0])
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firstState=firstStates[mymolecule]
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initialState=initialStates[mymolecule]
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mymethod=method(str(col[1]),str(col[0]))
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finsts=dataFileBase.convertState(table[first:last+1,1],firstState,default=default,commands=commands)
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finsts=dataFileBase.convertState(table[first:last+1,1],initialState,default=default,commands=commands)
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for index,cell in enumerate(col[first:last+1]):
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if str(cell)!="":
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val,unsafe=getValFromCell(cell)
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@ -144,7 +144,7 @@ class dataFileBase(object):
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data.molecule=mymolecule
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data.method=mymethod
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datacls[dt]=data
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data.excitations.append(excitationValue(firstState,finst[0],val,type=finst[2]))
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data.excitations.append(excitationValue(initialState,finst[0],val,type=finst[2]))
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for value in datacls.values():
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datalist.append(value)
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return datalist
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@ -209,7 +209,7 @@ class dataFileBase(object):
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for first, last in subtablesindex:
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valDic=dict()
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mymolecule=str(table[first,0])
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firstState=firstStates[mymolecule]
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initialState=initialStates[mymolecule]
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for col in range(2,np.size(table,1)):
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col=table[:,col]
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basis=str(col[0])
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@ -228,7 +228,7 @@ class dataFileBase(object):
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methodname=str(methtex)
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mymethod=method(methodname,basis)
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methkey=json.dumps(mymethod.__dict__)
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finsts=dataFileBase.convertState(table[first:last+1,1],firstState,default=default,commands=commands)
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finsts=dataFileBase.convertState(table[first:last+1,1],initialState,default=default,commands=commands)
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for index,cell in enumerate(col[first:last+1]):
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if str(cell)!="":
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val,unsafe=getValFromCell(cell)
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@ -249,7 +249,7 @@ class dataFileBase(object):
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dataDic[exkey][kind]=(val,unsafe)
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else:
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dataDic[exkey][kind]=val
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#data.excitations.append(excitationValue(firstState,finst[0],val,type=finst[2]))
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#data.excitations.append(excitationValue(initialState,finst[0],val,type=finst[2]))
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for dt,methdic in valDic.items():
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for methstring,exdic in methdic.items():
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data=switcher[dt]()
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@ -263,7 +263,7 @@ class dataFileBase(object):
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T1=values["\\%T_1"] if "\\%T_1" in values else None
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oF= values["f"] if "f" in values else None
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val,unsafe=values[""]
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data.excitations.append(excitationValue(firstState,st,val,type=ty,T1=T1,isUnsafe=unsafe,oscilatorForces=oF))
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data.excitations.append(excitationValue(initialState,st,val,type=ty,T1=T1,isUnsafe=unsafe,oscilatorForces=oF))
|
||||
datalist.append(data)
|
||||
return datalist
|
||||
elif format==Format.TBE:
|
||||
@ -271,9 +271,9 @@ class dataFileBase(object):
|
||||
for first, last in subtablesindex:
|
||||
datacls=dict()
|
||||
mymolecule=str(table[first,0])
|
||||
firstState=firstStates[mymolecule]
|
||||
initialState=initialStates[mymolecule]
|
||||
mymethod=(method("TBE(FC)"),method("TBE"))
|
||||
finsts=dataFileBase.convertState(table[first:last+1,1],firstState,default=default,commands=commands)
|
||||
finsts=dataFileBase.convertState(table[first:last+1,1],initialState,default=default,commands=commands)
|
||||
for index,row in enumerate(table[first:last+1,]):
|
||||
oscilatorForces=checkFloat(str(row[2]))
|
||||
T1 = checkFloat(str(row[3]))
|
||||
@ -295,7 +295,7 @@ class dataFileBase(object):
|
||||
vs=[val,corr]
|
||||
uns=[unsafe,unsafecorr]
|
||||
for i in range(2):
|
||||
datamtbe[i].excitations.append(excitationValue(firstState,finst[0],vs[i],type=finst[2],T1=T1,oscilatorForces=oscilatorForces,isUnsafe=uns[i]))
|
||||
datamtbe[i].excitations.append(excitationValue(initialState,finst[0],vs[i],type=finst[2],T1=T1,oscilatorForces=oscilatorForces,isUnsafe=uns[i]))
|
||||
for value in datacls.values():
|
||||
for dat in value:
|
||||
datalist.append(dat)
|
||||
|
||||
Loading…
Reference in New Issue
Block a user