X-Git-Url: https://pintos-os.org/cgi-bin/gitweb.cgi?a=blobdiff_plain;f=doc%2Fstatistics.texi;h=1e24c173516bcfa62ebb8d8af0ad432e3d1d9a34;hb=5ce0aa4323a1caafd709713671bae889e8410057;hp=03e4a44e4c387f25196b6da63b187c3a9570d7d4;hpb=3eb4b3858bc911dd79e3da5fdcb96151eeaecd4d;p=pspp diff --git a/doc/statistics.texi b/doc/statistics.texi index 03e4a44e4c..1e24c17351 100644 --- a/doc/statistics.texi +++ b/doc/statistics.texi @@ -8,6 +8,7 @@ far. * DESCRIPTIVES:: Descriptive statistics. * FREQUENCIES:: Frequency tables. * EXAMINE:: Testing data for normality. +* GRAPH:: Plot data. * CORRELATIONS:: Correlation tables. * CROSSTABS:: Crosstabulation tables. * FACTOR:: Factor analysis and Principal Components analysis. @@ -135,9 +136,12 @@ FREQUENCIES [@{FREQ[(@var{y_max})],PERCENT[(@var{y_max})]@}] [@{NONORMAL,NORMAL@}] /PIECHART=[MINIMUM(@var{x_min})] [MAXIMUM(@var{x_max})] [@{FREQ,PERCENT@}] [@{NOMISSING,MISSING@}] + /BARCHART=[MINIMUM(@var{x_min})] [MAXIMUM(@var{x_max})] + [@{FREQ,PERCENT@}] + /ORDER=@{ANALYSIS,VARIABLE@} + (These options are not currently implemented.) - /BARCHART=@dots{} /HBAR=@dots{} /GROUPED=@dots{} @end display @@ -145,9 +149,8 @@ FREQUENCIES The @cmd{FREQUENCIES} procedure outputs frequency tables for specified variables. @cmd{FREQUENCIES} can also calculate and display descriptive statistics -(including median and mode) and percentiles, -@cmd{FREQUENCIES} can also output -histograms and pie charts. +(including median and mode) and percentiles, and various graphical representations +of the frequency distribution. The @subcmd{VARIABLES} subcommand is the only required subcommand. Specify the variables to be analyzed. @@ -194,27 +197,48 @@ For instance, @subcmd{/NTILES=4} would cause quartiles to be reported. The @subcmd{HISTOGRAM} subcommand causes the output to include a histogram for each specified numeric variable. The X axis by default ranges from the minimum to the maximum value observed in the data, but the @subcmd{MINIMUM} -and @subcmd{MAXIMUM} keywords can set an explicit range. Specify @subcmd{NORMAL} to -superimpose a normal curve on the histogram. Histograms are not -created for string variables. +and @subcmd{MAXIMUM} keywords can set an explicit range. +@footnote{The number of +bins is chosen according to the Freedman-Diaconis rule: +@math{2 \times IQR(x)n^{-1/3}}, where @math{IQR(x)} is the interquartile range of @math{x} +and @math{n} is the number of samples. Note that +@cmd{EXAMINE} uses a different algorithm to determine bin sizes.} +Histograms are not created for string variables. + +Specify @subcmd{NORMAL} to superimpose a normal curve on the +histogram. @cindex piechart The @subcmd{PIECHART} subcommand adds a pie chart for each variable to the data. Each slice represents one value, with the size of the slice proportional to the value's frequency. By default, all non-missing values are given -slices. The @subcmd{MINIMUM} and @subcmd{MAXIMUM} keywords can be used to limit the -displayed slices to a given range of values. The @subcmd{MISSING} keyword adds -slices for missing values. - -The @subcmd{FREQ} and @subcmd{PERCENT} options on @subcmd{HISTOGRAM} and @subcmd{PIECHART} are accepted -but not currently honoured. +slices. +The @subcmd{MINIMUM} and @subcmd{MAXIMUM} keywords can be used to limit the +displayed slices to a given range of values. +The keyword @subcmd{NOMISSING} causes missing values to be omitted from the +piechart. This is the default. +If instead, @subcmd{MISSING} is specified, then a single slice +will be included representing all system missing and user-missing cases. + +@cindex bar chart +The @subcmd{BARCHART} subcommand produces a bar chart for each variable. +The @subcmd{MINIMUM} and @subcmd{MAXIMUM} keywords can be used to omit +categories whose counts which lie outside the specified limits. +The @subcmd{FREQ} option (default) causes the ordinate to display the frequency +of each category, whereas the @subcmd{PERCENT} option will display relative +percentages. + +The @subcmd{FREQ} and @subcmd{PERCENT} options on @subcmd{HISTOGRAM} and +@subcmd{PIECHART} are accepted but not currently honoured. + +The @subcmd{ORDER} subcommand is accepted but ignored. @node EXAMINE @section EXAMINE @vindex EXAMINE @cindex Exploratory data analysis -@cindex Normality, testing for +@cindex normality, testing @display EXAMINE @@ -250,7 +274,7 @@ factors which tell @pspp{} how to break down the analysis for each dependent variable. Following the dependent variables, factors may be specified. -The factors (if desired) should be preceeded by a single @subcmd{BY} keyword. +The factors (if desired) should be preceded by a single @subcmd{BY} keyword. The format for each factor is @display @var{factorvar} [BY @var{subfactorvar}]. @@ -287,6 +311,9 @@ The first three can be used to visualise how closely each cell conforms to a normal distribution, whilst the spread vs.@: level plot can be useful to visualise how the variance of differs between factors. Boxplots will also show you the outliers and extreme values. +@footnote{@subcmd{HISTOGRAM} uses Sturges' rule to determine the number of +bins, as approximately @math{1 + \log2(n)}, where @math{n} is the number of samples. +Note that @cmd{FREQUENCIES} uses a different algorithm to find the bin size.} The @subcmd{SPREADLEVEL} plot displays the interquartile range versus the median. It takes an optional parameter @var{t}, which specifies how the data @@ -309,10 +336,10 @@ If the @subcmd{/COMPARE} subcommand is omitted, then @pspp{} behaves as if The @subcmd{ID} subcommand is relevant only if @subcmd{/PLOT=BOXPLOT} or @subcmd{/STATISTICS=EXTREME} has been given. -If given, it shoule provide the name of a variable which is to be used +If given, it should provide the name of a variable which is to be used to labels extreme values and outliers. Numeric or string variables are permissible. -If the @subcmd{ID} subcommand is not given, then the casenumber will be used for +If the @subcmd{ID} subcommand is not given, then the case number will be used for labelling. The @subcmd{CINTERVAL} subcommand specifies the confidence interval to use in @@ -375,6 +402,53 @@ specified for which there are many distinct values, then @cmd{EXAMINE} will produce a very large quantity of output. +@node GRAPH +@section GRAPH + +@vindex GRAPH +@cindex Exploratory data analysis +@cindex normality, testing + +@display +GRAPH + /HISTOGRAM = @var{var} + /SCATTERPLOT [(BIVARIATE)] = @var{var1} WITH @var{var2} [BY @var{var3}] + [ /MISSING=@{LISTWISE, VARIABLE@} [@{EXCLUDE, INCLUDE@}] ] + [@{NOREPORT,REPORT@}] + +@end display + +The @cmd{GRAPH} produces graphical plots of data. Only one of the subcommands +@subcmd{HISTOGRAM} or @subcmd{SCATTERPLOT} can be specified, i.e. only one plot +can be produced per call of @cmd{GRAPH}. The @subcmd{MISSING} is optional. + +@cindex scatterplot + +The subcommand @subcmd{SCATTERPLOT} produces an xy plot of the data. The different +values of the optional third variable @var{var3} will result in different colours and/or +markers for the plot. The following is an example for producing a scatterplot. + +@example +GRAPH + /SCATTERPLOT = @var{height} WITH @var{weight} BY @var{gender}. +@end example + +This example will produce a scatterplot where @var{height} is plotted versus @var{weight}. Depending +on the value of the @var{gender} variable, the colour of the datapoint is different. With +this plot it is possible to analyze gender differences for @var{height} vs.@: @var{weight} relation. + +@cindex histogram + +The subcommand @subcmd{HISTOGRAM} produces a histogram. Only one variable is allowed for +the histogram plot. +For an alternative method to produce histograms @pxref{EXAMINE}. The +following example produces a histogram plot for the variable @var{weight}. + +@example +GRAPH + /HISTOGRAM = @var{weight}. +@end example + @node CORRELATIONS @section CORRELATIONS @@ -456,6 +530,7 @@ CROSSTABS ASRESIDUAL,ALL,NONE@} /STATISTICS=@{CHISQ,PHI,CC,LAMBDA,UC,BTAU,CTAU,RISK,GAMMA,D, KAPPA,ETA,CORR,ALL,NONE@} + /BARCHART (Integer mode.) /VARIABLES=@var{var_list} (@var{low},@var{high})@dots{} @@ -500,7 +575,7 @@ The @subcmd{FORMAT} subcommand controls the characteristics of the crosstabulation tables to be displayed. It has a number of possible settings: -@itemize @asis +@itemize @w{} @item @subcmd{TABLES}, the default, causes crosstabulation tables to be output. @subcmd{NOTABLES} suppresses them. @@ -598,24 +673,24 @@ some statistics are calculated only in integer mode. @samp{/STATISTICS} without any settings selects CHISQ. If the @subcmd{STATISTICS} subcommand is not given, no statistics are calculated. +@cindex bar chart +The @samp{/BARCHART} subcommand produces a clustered bar chart for the first two +variables on each table. +If a table has more than two variables, the counts for the third and subsequent levels +will be aggregated and the chart will be produces as if there were only two variables. + + @strong{Please note:} Currently the implementation of @cmd{CROSSTABS} has the -followings bugs: +following limitations: @itemize @bullet @item -Pearson's R (but not Spearman) is off a little. -@item -T values for Spearman's R and Pearson's R are wrong. -@item -Significance of symmetric and directional measures is not calculated. +Significance of some symmetric and directional measures is not calculated. @item -Asymmetric ASEs and T values for lambda are wrong. +Asymptotic standard error is not calculated for +Goodman and Kruskal's tau or symmetric Somers' d. @item -ASE of Goodman and Kruskal's tau is not calculated. -@item -ASE of symmetric somers' d is wrong. -@item -Approximate T of uncertainty coefficient is wrong. +Approximate T is not calculated for symmetric uncertainty coefficient. @end itemize Fixes for any of these deficiencies would be welcomed. @@ -634,9 +709,11 @@ FACTOR VARIABLES=@var{var_list} [ /METHOD = @{CORRELATION, COVARIANCE@} ] + [ /ANALYSIS=@var{var_list} ] + [ /EXTRACTION=@{PC, PAF@}] - [ /ROTATION=@{VARIMAX, EQUAMAX, QUARTIMAX, NOROTATE@}] + [ /ROTATION=@{VARIMAX, EQUAMAX, QUARTIMAX, PROMAX[(@var{k})], NOROTATE@}] [ /PRINT=[INITIAL] [EXTRACTION] [ROTATION] [UNIVARIATE] [CORRELATION] [COVARIANCE] [DET] [KMO] [SIG] [ALL] [DEFAULT] ] @@ -652,7 +729,10 @@ FACTOR VARIABLES=@var{var_list} The @cmd{FACTOR} command performs Factor Analysis or Principal Axis Factoring on a dataset. It may be used to find common factors in the data or for data reduction purposes. -The @subcmd{VARIABLES} subcommand is required. It lists the variables which are to partake in the analysis. +The @subcmd{VARIABLES} subcommand is required. It lists the variables +which are to partake in the analysis. (The @subcmd{ANALYSIS} +subcommand may optionally further limit the variables that +participate; it is not useful and implemented only for compatibility.) The @subcmd{/EXTRACTION} subcommand is used to specify the way in which factors (components) are extracted from the data. If @subcmd{PC} is specified, then Principal Components Analysis is used. @@ -660,9 +740,13 @@ If @subcmd{PAF} is specified, then Principal Axis Factoring is used. By default Principal Components Analysis will be used. The @subcmd{/ROTATION} subcommand is used to specify the method by which the extracted solution will be rotated. -Three methods are available: @subcmd{VARIMAX} (which is the default), @subcmd{EQUAMAX}, and @subcmd{QUARTIMAX}. -If don't want any rotation to be performed, the word @subcmd{NOROTATE} will prevent the command from performing any -rotation on the data. Oblique rotations are not supported. +Three orthogonal rotation methods are available: +@subcmd{VARIMAX} (which is the default), @subcmd{EQUAMAX}, and @subcmd{QUARTIMAX}. +There is one oblique rotation method, @i{viz}: @subcmd{PROMAX}. +Optionally you may enter the power of the promax rotation @var{k}, which must be enclosed in parentheses. +The default value of @var{k} is 5. +If you don't want any rotation to be performed, the word @subcmd{NOROTATE} will prevent the command from performing any +rotation on the data. The @subcmd{/METHOD} subcommand should be used to determine whether the covariance matrix or the correlation matrix of the data is to be analysed. By default, the correlation matrix is analysed. @@ -1085,7 +1169,7 @@ outside the specified range are excluded from the analysis. The @subcmd{/EXPECTED} subcommand specifies the expected values of each category. There must be exactly one non-zero expected value, for each observed -category, or the @subcmd{EQUAL} keywork must be specified. +category, or the @subcmd{EQUAL} keyword must be specified. You may use the notation @subcmd{@var{n}*@var{f}} to specify @var{n} consecutive expected categories all taking a frequency of @var{f}. The frequencies given are proportions, not absolute frequencies. The @@ -1336,7 +1420,7 @@ of variable preceding @code{WITH} against variable following The @subcmd{/WILCOXON} subcommand tests for differences between medians of the variables listed. The test does not make any assumptions about the variances of the samples. -It does however assume that the distribution is symetrical. +It does however assume that the distribution is symmetrical. If the @subcmd{WITH} keyword is omitted, then tests for all combinations of the listed variables are performed. @@ -1500,7 +1584,7 @@ The list of variables must be followed by the @subcmd{BY} keyword and the name of the independent (or factor) variable. You can use the @subcmd{STATISTICS} subcommand to tell @pspp{} to display -ancilliary information. The options accepted are: +ancillary information. The options accepted are: @itemize @item DESCRIPTIVES Displays descriptive statistics about the groups factored by the independent @@ -1672,7 +1756,7 @@ RELIABILITY @end display @cindex Cronbach's Alpha -The @cmd{RELIABILTY} command performs reliability analysis on the data. +The @cmd{RELIABILITY} command performs reliability analysis on the data. The @subcmd{VARIABLES} subcommand is required. It determines the set of variables upon which analysis is to be performed.