U cMI@sXddlmZddlZddlmZddlZddlZddlm Z m Z ddl m Z ddl mZmZddlmZddlmZddlmmZdd lmZddlmmZdd lmZmZdd l m!Z!dd l"m#Z#dd l$m%Z%ddl&m'Z'erddl(m)Z)e e%ddddd%ddddddZ*e dddd&ddddddZ+d'dd!d!dd"d#d$Z,dS)() annotationsN) TYPE_CHECKING)Appenderdeprecate_kwarg)find_stack_level)is_extension_array_dtype is_list_like) concat_compat)notna) Categorical)Index MultiIndex)concat) tile_compat) _shared_docs) to_numeric) DataFramemeltz pd.melt(df, zDataFrame.melt)ZcallerothervalueTrbool)frame ignore_indexreturncCst|jtrdd|jD}n t|j}||jkrDtjdttd|dk rt|s\|g}qt|jtr|t|ts|t dqt|}t t | |}|jstdt|ng}|dk rrt|s|g}nVt|jtrt|tst dn6t|}t t | |}|js&tdt||dk rH|j|||} nt|j||} |jdd| f}n|}|dk r|j||_|dkr t|jtrt|jjtt|jjkr|jj}nd dtt|jjD}n|jjdk r|jjnd g}t|tr|g}|j\} } | t|8} i} |D]f} || }t|r| d krpt |g| d d }nt!|g|j|j"d}nt#$|j%| }|| | <q:|||g}|j%&d| |<t'|D]&\}} t#(|j)|*| | | <q|j+| |d}|st,|j-| |_-|S)NcSsg|]}|D]}|q qSr).0cxrr3szmelt..zThis dataframe has a column name that matches the 'value_name' column name of the resulting Dataframe. In the future this will raise an error, please set the 'value_name' parameter of DataFrame.melt to a unique name.) stacklevelz>id_vars must be a list of tuples when columns are a MultiIndexz:The following 'id_vars' are not present in the DataFrame: zAvalue_vars must be a list of tuples when columns are a MultiIndexz=The following 'value_vars' are not present in the DataFrame: cSsg|]}d|qS)Z variable_r)rirrrrwsvariablerT)r)namedtypeFcolumns). isinstancer'r listwarningswarn FutureWarningrr ValueErrorr comflatten differenceemptyKeyErrorZget_level_valuesZ get_indexeralgosuniqueZget_indexer_forZiloccopylennamessetranger#strshapepoprrtyper$nptile_valuesZravel enumerateZ asanyarrayZ_get_level_valuesrepeat _constructorrindex)rid_vars value_varsvar_name value_nameZ col_levelrcolsmissingidxNKmdatacolZid_dataZmcolumnsr!resultrrrr&s                     label)Z old_arg_nameZ new_arg_name)datadropnarcsTt|tr$t|}t|}n t|\}}ttjdd|D}tj |}t |d}|D]} t | |krht dqhi} g} t||D]0\} } fdd| D}t || | <| | q|D]}t|j|| |<q|rBtjt | | dtd| D]}t| |Mq sBfdd | D} j| || d S) a Reshape wide-format data to long. Generalized inverse of DataFrame.pivot. Accepts a dictionary, ``groups``, in which each key is a new column name and each value is a list of old column names that will be "melted" under the new column name as part of the reshape. Parameters ---------- data : DataFrame The wide-format DataFrame. groups : dict {new_name : list_of_columns}. dropna : bool, default True Do not include columns whose entries are all NaN. label : None Not used. .. deprecated:: 1.0.0 Returns ------- DataFrame Reshaped DataFrame. See Also -------- melt : Unpivot a DataFrame from wide to long format, optionally leaving identifiers set. pivot : Create a spreadsheet-style pivot table as a DataFrame. DataFrame.pivot : Pivot without aggregation that can handle non-numeric data. DataFrame.pivot_table : Generalization of pivot that can handle duplicate values for one index/column pair. DataFrame.unstack : Pivot based on the index values instead of a column. wide_to_long : Wide panel to long format. Less flexible but more user-friendly than melt. Examples -------- >>> data = pd.DataFrame({'hr1': [514, 573], 'hr2': [545, 526], ... 'team': ['Red Sox', 'Yankees'], ... 'year1': [2007, 2007], 'year2': [2008, 2008]}) >>> data hr1 hr2 team year1 year2 0 514 545 Red Sox 2007 2008 1 573 526 Yankees 2007 2008 >>> pd.lreshape(data, {'year': ['year1', 'year2'], 'hr': ['hr1', 'hr2']}) team year hr 0 Red Sox 2007 514 1 Yankees 2007 573 2 Red Sox 2008 545 3 Yankees 2008 526 css|]}t|VqdSN)r8)rrrrr szlreshape..rz$All column lists must be same lengthcsg|]}|jqSr)r@rrO)rRrrrszlreshape..)r$csi|]\}}||qSrr)rkv)maskrr szlreshape..r&)r(dictr)keysvalueszipr8unionr'r0r6r-r appendr>r?r@Zonesrr allitemsrC)rRgroupsrSrQr\r]Zall_colsZid_colsrMseqrNZ pivot_colstargetr7Z to_concatrOrr)rRrYrlreshapes2:         rf\d+r:)dfsepsuffixrc sPddddddddddddts4gnttfd d jDr\td tslgntrtd fd dD}dd|D}ttj|}fddt |D} | dj | dddd} t dkr*|  | } | S|j | d g} | S)ax Unpivot a DataFrame from wide to long format. Less flexible but more user-friendly than melt. With stubnames ['A', 'B'], this function expects to find one or more group of columns with format A-suffix1, A-suffix2,..., B-suffix1, B-suffix2,... You specify what you want to call this suffix in the resulting long format with `j` (for example `j='year'`) Each row of these wide variables are assumed to be uniquely identified by `i` (can be a single column name or a list of column names) All remaining variables in the data frame are left intact. Parameters ---------- df : DataFrame The wide-format DataFrame. stubnames : str or list-like The stub name(s). The wide format variables are assumed to start with the stub names. i : str or list-like Column(s) to use as id variable(s). j : str The name of the sub-observation variable. What you wish to name your suffix in the long format. sep : str, default "" A character indicating the separation of the variable names in the wide format, to be stripped from the names in the long format. For example, if your column names are A-suffix1, A-suffix2, you can strip the hyphen by specifying `sep='-'`. suffix : str, default '\\d+' A regular expression capturing the wanted suffixes. '\\d+' captures numeric suffixes. Suffixes with no numbers could be specified with the negated character class '\\D+'. You can also further disambiguate suffixes, for example, if your wide variables are of the form A-one, B-two,.., and you have an unrelated column A-rating, you can ignore the last one by specifying `suffix='(!?one|two)'`. When all suffixes are numeric, they are cast to int64/float64. Returns ------- DataFrame A DataFrame that contains each stub name as a variable, with new index (i, j). See Also -------- melt : Unpivot a DataFrame from wide to long format, optionally leaving identifiers set. pivot : Create a spreadsheet-style pivot table as a DataFrame. DataFrame.pivot : Pivot without aggregation that can handle non-numeric data. DataFrame.pivot_table : Generalization of pivot that can handle duplicate values for one index/column pair. DataFrame.unstack : Pivot based on the index values instead of a column. Notes ----- All extra variables are left untouched. This simply uses `pandas.melt` under the hood, but is hard-coded to "do the right thing" in a typical case. Examples -------- >>> np.random.seed(123) >>> df = pd.DataFrame({"A1970" : {0 : "a", 1 : "b", 2 : "c"}, ... "A1980" : {0 : "d", 1 : "e", 2 : "f"}, ... "B1970" : {0 : 2.5, 1 : 1.2, 2 : .7}, ... "B1980" : {0 : 3.2, 1 : 1.3, 2 : .1}, ... "X" : dict(zip(range(3), np.random.randn(3))) ... }) >>> df["id"] = df.index >>> df A1970 A1980 B1970 B1980 X id 0 a d 2.5 3.2 -1.085631 0 1 b e 1.2 1.3 0.997345 1 2 c f 0.7 0.1 0.282978 2 >>> pd.wide_to_long(df, ["A", "B"], i="id", j="year") ... # doctest: +NORMALIZE_WHITESPACE X A B id year 0 1970 -1.085631 a 2.5 1 1970 0.997345 b 1.2 2 1970 0.282978 c 0.7 0 1980 -1.085631 d 3.2 1 1980 0.997345 e 1.3 2 1980 0.282978 f 0.1 With multiple id columns >>> df = pd.DataFrame({ ... 'famid': [1, 1, 1, 2, 2, 2, 3, 3, 3], ... 'birth': [1, 2, 3, 1, 2, 3, 1, 2, 3], ... 'ht1': [2.8, 2.9, 2.2, 2, 1.8, 1.9, 2.2, 2.3, 2.1], ... 'ht2': [3.4, 3.8, 2.9, 3.2, 2.8, 2.4, 3.3, 3.4, 2.9] ... }) >>> df famid birth ht1 ht2 0 1 1 2.8 3.4 1 1 2 2.9 3.8 2 1 3 2.2 2.9 3 2 1 2.0 3.2 4 2 2 1.8 2.8 5 2 3 1.9 2.4 6 3 1 2.2 3.3 7 3 2 2.3 3.4 8 3 3 2.1 2.9 >>> l = pd.wide_to_long(df, stubnames='ht', i=['famid', 'birth'], j='age') >>> l ... # doctest: +NORMALIZE_WHITESPACE ht famid birth age 1 1 1 2.8 2 3.4 2 1 2.9 2 3.8 3 1 2.2 2 2.9 2 1 1 2.0 2 3.2 2 1 1.8 2 2.8 3 1 1.9 2 2.4 3 1 1 2.2 2 3.3 2 1 2.3 2 3.4 3 1 2.1 2 2.9 Going from long back to wide just takes some creative use of `unstack` >>> w = l.unstack() >>> w.columns = w.columns.map('{0[0]}{0[1]}'.format) >>> w.reset_index() famid birth ht1 ht2 0 1 1 2.8 3.4 1 1 2 2.9 3.8 2 1 3 2.2 2.9 3 2 1 2.0 3.2 4 2 2 1.8 2.8 5 2 3 1.9 2.4 6 3 1 2.2 3.3 7 3 2 2.3 3.4 8 3 3 2.1 2.9 Less wieldy column names are also handled >>> np.random.seed(0) >>> df = pd.DataFrame({'A(weekly)-2010': np.random.rand(3), ... 'A(weekly)-2011': np.random.rand(3), ... 'B(weekly)-2010': np.random.rand(3), ... 'B(weekly)-2011': np.random.rand(3), ... 'X' : np.random.randint(3, size=3)}) >>> df['id'] = df.index >>> df # doctest: +NORMALIZE_WHITESPACE, +ELLIPSIS A(weekly)-2010 A(weekly)-2011 B(weekly)-2010 B(weekly)-2011 X id 0 0.548814 0.544883 0.437587 0.383442 0 0 1 0.715189 0.423655 0.891773 0.791725 1 1 2 0.602763 0.645894 0.963663 0.528895 1 2 >>> pd.wide_to_long(df, ['A(weekly)', 'B(weekly)'], i='id', ... j='year', sep='-') ... # doctest: +NORMALIZE_WHITESPACE X A(weekly) B(weekly) id year 0 2010 0 0.548814 0.437587 1 2010 1 0.715189 0.891773 2 2010 1 0.602763 0.963663 0 2011 0 0.544883 0.383442 1 2011 1 0.423655 0.791725 2 2011 1 0.645894 0.528895 If we have many columns, we could also use a regex to find our stubnames and pass that list on to wide_to_long >>> stubnames = sorted( ... set([match[0] for match in df.columns.str.findall( ... r'[A-B]\(.*\)').values if match != []]) ... ) >>> list(stubnames) ['A(weekly)', 'B(weekly)'] All of the above examples have integers as suffixes. It is possible to have non-integers as suffixes. >>> df = pd.DataFrame({ ... 'famid': [1, 1, 1, 2, 2, 2, 3, 3, 3], ... 'birth': [1, 2, 3, 1, 2, 3, 1, 2, 3], ... 'ht_one': [2.8, 2.9, 2.2, 2, 1.8, 1.9, 2.2, 2.3, 2.1], ... 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