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[inlinedocs] Diff of /pkg/inlinedocs/R/parsers.R
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Diff of /pkg/inlinedocs/R/parsers.R

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revision 115, Fri Jun 18 10:35:11 2010 UTC revision 162, Wed Nov 10 09:18:20 2010 UTC
# Line 28  Line 28 
28  ### String without prefixes or newlines.  ### String without prefixes or newlines.
29  }  }
30    
31    forall <- function
32  ### For each object in the package that satisfies the criterion  ### For each object in the package that satisfies the criterion
33  ### checked by subfun, parse source using FUN and return the resulting  ### checked by subfun, parse source using FUN and return the resulting
34  ### documentation list.  ### documentation list.
 forall <- function  
35  (FUN,  (FUN,
36  ### Function to apply to each element in the package.  ### Function to apply to each element in the package.
37   subfun=function(x)TRUE   subfun=function(x)TRUE
# Line 39  Line 39 
39  ### is.function. subfun(x)==TRUE means FUN will be applied to x and  ### is.function. subfun(x)==TRUE means FUN will be applied to x and
40  ### the result will be returned.  ### the result will be returned.
41   ){   ){
42    function(objs,docs,...){    FUN <- FUN
43      f <- function(objs,docs,...){
44      objs <- objs[sapply(objs,subfun)]      objs <- objs[sapply(objs,subfun)]
45      L <- list()      L <- list()
46        on.exit(cat(sprintf("Parser Function failed on %s\n",N)))
47      for(N in names(docs)){      for(N in names(docs)){
48        o <- objs[[N]]        o <- objs[[N]]
49        L[[N]] <- FUN(src=attr(o,"source"),        L[[N]] <- FUN(src=attr(o,"source"),
50                      name=N,objs=objs,o=o,docs=docs,doc=docs[[N]],...)                      name=N,objs=objs,o=o,docs=docs,doc=docs[[N]],...)
51      }      }
52        on.exit()## remove warning message
53      L      L
54    }    }
55      class(f) <- c("allfun","function")
56      f
57  ### A Parser Function.  ### A Parser Function.
58  }  }
59    
60    ### Print method for functions constructed using forall.
61    print.allfun <- function(x,...){
62      e <- environment(x)
63      cat("Function to apply to every element.\nselector:")
64      print(e$subfun)
65      cat("processor:")
66      print(e$FUN)
67    }
68    
69  ### For each function in the package, do something.  ### For each function in the package, do something.
70  forfun <- function(FUN)forall(FUN,is.function)  forfun <- function(FUN)forall(FUN,is.function)
71    
72  ### Parsers for each object/function that are constructed  examples.after.return <- function
73  ### automatically. This is a named list, each element is a list of 2  ### Get examples from inline definitions after return()
74  ### elements: forfun/forall, then a parser function for an individual  ### PhG: this does not work well! Think of these situations:
75  ### object.  ### 1) You have multiple return() in the code of your function,
76  forall.parsers <-  ### 2) You have return() appearing is some example code, ...
77    list(## Extract lots of info from normal functions.  ### I can hardly propose a hack here. The whole code of the function
78         parsefun=list(forfun,function(src,name,...){  ### must be parsed, and one must determine which one is the last line
79           extract.docs.fun(src,name)  ### of code that is actually executed.
80         }),  ###
81         ## Fill in author from DESCRIPTION and titles.  ### I make two propositions here
82         author.from.description=list(forall,function(desc,...){  ### 1) to keep the same mechanism that has the advantage of simplicity
83           list(author=desc[,"Maintainer"])  ###    but to use a special tag
84         }),  ###    ##examples<< or #{{{examples to separate
85         ## The format section sometimes causes problems, so erase it.  ###    function code from examples explicitly, and
86         erase.format=list(forall,function(...){  ### 2) to place the example in an "ex" attribute
87           list(format="")  ###    attached to the function
88         }),  ###    (see next parser). That solution will be also interesting for
89         ## Convert the function name to a title.  ###    documenting datasets, something not done yet by inlinedocs!
90         title.from.name=list(forall,function(name,doc,...){  (src,name="",...) {
91           if("title"%in%names(doc))list() else    ## Look for the examples mark
92           list(title=gsub("[._]"," ",name))    m <- grep("^\\s*(##examples<<|#\\{\\{\\{examples)", src)
        }),  
        # PhG: it is tests/FUN.R!!! I would like more flexibility here  
            # please, let me choose which dir to use for examples!  
            ## Get examples for FUN from the file tests/FUN.R  
        examples.from.testfile=list(forfun,function(name,...){  
          tsubdir <- getOption("inlinedocs.exdir")  
                  if (is.null(tsubdir)) tsubdir <- "tests"       # Default value  
                  tfile <- file.path("..",tsubdir,paste(name,".R",sep=""))  
          if(file.exists(tfile))  
            list(examples=paste(readLines(tfile),collapse="\n"))  
          else list()  
        }),  
        ## Get examples from inline definitions after return()  
            # PhG: this does not work well! Think at these situations:  
            # 1) You have multiple return() in the code of your function,  
            # 2) You have return() appearing is some example code, ...  
            # I can hardly propose a hack here. The whole code of the function  
            # must be parsed, and one must determine which one is the last line  
            # of code that is actually executed.  
            #  
            # I make two propositions here  
            # 1) to keep the same mechanism that has the advantage of simplicity  
            #    but to use a special tag ##examples<< or #{{{examples to separate  
            #    function code from examples explicitly, and  
            # 2) to place the example in an "ex" attribute attached to the function  
            #    (see next parser). That solution will be also interesting for  
            #    documenting datasets, something not done yet by inlinedocs!  
            examples.after.return = list(forfun, function(name, src, ...) {  
                         # Look for the examples mark  
                         m <- grep("##examples<<|#\\{\\{\\{examples", src)  
93                          if (!length(m)) return(list())                          if (!length(m)) return(list())
94                          if (length(m) > 1)                          if (length(m) > 1)
95                                  warning("More than one examples tag for ", name, ". Taking the last one")      warning("More than one examples tag for ", name,
96                ". Taking the last one")
97                          m <- m[length(m)]                          m <- m[length(m)]
98                          # Look for the lines containing return value comments just before    ## Look for the lines containing return value comments just before
99                          r <- grep("\\s*### ", src[1:(m-1)])                          r <- grep("\\s*### ", src[1:(m-1)])
100                          if (!length(r)) {                          if (!length(r)) {
101                                  value <- NULL                                  value <- NULL
102                          } else {                          } else {
103                                  # Only take consecutive lines before the mark        ## Only take consecutive lines before the mark
104                                  keep <- rev((m - rev(r)) == 1:length(r))                                  keep <- rev((m - rev(r)) == 1:length(r))
105                                  if (!any(keep)) {                                  if (!any(keep)) {
106                                          value <- NULL                                          value <- NULL
# Line 123  Line 108 
108                                          value <- decomment(src[r[keep]])                                          value <- decomment(src[r[keep]])
109                                  }                                  }
110                          }                          }
111                          # Collect now the example code beneath the mark    ## Collect now the example code beneath the mark
112                          ex <- src[(m + 1):(length(src) - 1)]                          ex <- src[(m + 1):(length(src) - 1)]
113                          # Possibly eliminate a #}}} tag    ## Possibly eliminate a #}}} tag
114                          ex <- ex[!grepl("#}}}", ex)]                          ex <- ex[!grepl("#}}}", ex)]
115                          # Eliminate leading tabulations or four spaces    ## Eliminate leading tabulations or four spaces
116                          ex <- sub("^\t|    ", "", ex)    prefixes <- gsub("(\\s*).*","\\1",ex,perl=TRUE)[grep("\\w",ex)]
117                          # Add an empty line before and after example    FIND <- prefixes[which.min(nchar(prefixes))]
118      ex <- sub(FIND,"",ex)
119      ## Add an empty line before and after example
120                          ex <- c("", ex, "")                          ex <- c("", ex, "")
121                          # Return examples and value    ## Return examples and value
122                          list(examples = paste(ex, collapse = "\n"), value = value)                          list(examples = paste(ex, collapse = "\n"), value = value)
            }),  
            # PhG: here is what I propose for examples code in the 'ex' attribute  
            examples.in.attr = list(forfun, function (name, o, ...) {  
                         ex <- attr(o, "ex")  
                         if (!is.null(ex)) {  
                                 # Special case for code contained in a function  
                                 if (inherits(ex, "function")) {  
                                         # If source is available, start from there  
                                         src <- attr(ex, "source")  
                                         if (!is.null(src)) {  
                                                 ex <- src  
                                         } else { # Use the body of the function  
                                                 ex <- deparse(body(ex))  
                                         }  
                                         # Eliminate leading and trailing code  
                                         ex <- ex[-c(1, length(ex))]  
                                         # Eliminate leading tabulations or four spaces  
                                         ex <- sub("^\t|    ", "", ex)  
                                         # Add an empty line before and after example  
                                         ex <- c("", ex, "")  
                                 }  
                                 list(examples = paste(ex, collapse = "\n"))  
                         } else list()  
            }))  
   
 ### List of parser functions that operate on single objects. This list  
 ### is useful for testing these functions, ie  
 ### lonely$parsefun(attr(extract.docs.file,"source"),"extract.docs.file")  
 lonely <- sapply(forall.parsers,function(L)L[[2]])  
   
 extra.code.docs <- function # Extract documentation from code chunks  
 ### Parse R code to extract inline documentation from comments around  
 ### each function. These are not able to be retreived simply by  
 ### looking at the "source" attribute. This is a Parser Function that  
 ### can be used in the parser list of package.skeleton.dx(). TODO:  
 ### Modularize this into separate Parsers Functions for S4 classes,  
 ### prefixes, ##<<blocks, etc. Right now it is not very clean!  
 (code,  
 ### Code lines in a character vector containing multiple R objects to  
 ### parse for documentation.  
  objs,  
 ### The objects defined in the code.  
  ...  
 ### ignored  
  ){  
   parsed <- extract.file.parse(code)  
   extract.docs.try <- function(o,on)  
     {  
       ## Note: we could use parsed information here too, but that  
       ## would produce different results for setMethodS3 etc.  
       doc <- list()  
       if ( !is.null(parsed[[on]]) ){  
         if ( !is.na(parsed[[on]]@code[1]) ){ # no code given for generics  
           doc$definition <- paste(parsed[[on]]@code,collapse="\n")  
         }  
         if(!"description"%in%names(doc) && !is.na(parsed[[on]]@description) ){  
           doc$description <- parsed[[on]]@description  
         }  
         if ( "setMethodS3" == parsed[[on]]@created ){  
           # PhG: this may be wrong! It does not catch correctly how the method  
                   # must be splitted in case of methods containing dots. for instance,  
                   # as.data.frame.matrix must be split into: m1 = as.data.frame and  
                   # m2 = matrix... here you got m1 = as, and m2 = data.frame.matrix!!!  
                   pattern <- "^([^\\.]+)\\.(.*)$"  
           doc$s3method=c(m1 <- gsub(pattern,"\\1",on,perl=TRUE),  
               m2 <- gsub(pattern,"\\2",on,perl=TRUE))  
           if ( 0 < length(grep("\\W",m1,perl=TRUE)) ){  
                           m1 <- paste("`",m1,"`",sep="")  
           }  
           cat("S3method(",m1,",",m2,")\n",sep="")  
         }  
       }  
       if("title" %in% names(doc) && !"description" %in% names(doc) ){  
         ## For short functions having both would duplicate, but a  
         ## description is required. Therefore automatically copy title  
         ## across to avoid errors at package build time.  
         doc$description <- doc$title  
       }  
       doc  
     }  
   extract.docs <- function(on){  
     res <- try({o <- objs[[on]]  
                 extract.docs.try(o, on)},FALSE)  
     if(class(res)=="try-error"){  
       cat("Failed to extract docs for: ",on,"\n\n")  
       list()  
     } else if(0 == length(res) && inherits(objs[[on]],"standardGeneric")){  
       NULL  
     } else if(0 == length(res) && "function" %in% class(o)  
               && 1 == length(osource <- attr(o,"source"))  
               && 1 == length(grep(paste("UseMethod(",on,")",sep="\""),osource))  
               ){  
       ## phew - this should only pick up R.oo S3 generic definitions like:  
       ## attr(*, "source")= chr "function(...) UseMethod(\"select\")"  
       NULL  
     } else res  
123    }    }
   doc.names <- names(objs)  
   res <- sapply(doc.names,extract.docs,simplify=FALSE)  
   ## Special processing for S4 classes as they do not appear in normal ls()  
   for ( nn in names(parsed) ){  
     if ( parsed[[nn]]@created == "setClass" ){  
       S4class.docs <- extract.docs.setClass(parsed[[nn]])  
       docname <- paste(nn,"class",sep="-")  
       if ( is.null(res[[docname]]) ){  
         res[[docname]] <- S4class.docs  
         doc.names <- c(doc.names,docname)  
       } else {  
         stop(nn," appears as both S4 class and some other definition")  
       }  
     }  
   }  
   inherit.docs <- function(on){  
     in.res <- res[[on]]  
     if ( !is.null(parsed[[on]]) ){  
       for ( parent in parsed[[on]]@parent ){  
         if ( !is.na(parent) ){  
           if ( is.null(in.res) ){  
             in.res <- res[[parent]]  
           } else if ( parent %in% names(res) ){  
             parent.docs <- res[[parent]]  
             for ( nn in names(parent.docs) ){  
               if ( !nn %in% names(in.res) ){  
                 in.res[[nn]] <- parent.docs[[nn]]  
               }  
             }  
           }  
         }  
       }  
     }  
     invisible(in.res)  
   }  
   all.done <- FALSE  
   while ( !all.done ){  
     res1 <- sapply(doc.names,inherit.docs,simplify=FALSE)  
     all.done <- identical(res1,res)  
     res <- res1  
   }  
   ## now strip out any generics (which have value NULL in res):  
   res.not.null <- sapply(res,function(x){!is.null(x)})  
   if ( 0 < length(res.not.null) && length(res.not.null) < length(res) ){  
     res <- res[res.not.null]  
   }  
   res  
 ### named list of lists, one for each object to document.  
 }  
   
 ### List of parsers to use by default with package.skeleton.dx.  
 default.parsers <-  
   c(extra.code.docs=extra.code.docs,  
     sapply(forall.parsers,function(L)L[[1]](L[[2]])),  
     edit.package.file=function(desc,...){  
       in.details <- setdiff(colnames(desc),"Description")  
       details <- paste(paste(in.details,": \\tab ",desc[,in.details],"\\cr",  
                              sep=""),collapse="\n")  
       L <-  
         list(list(title=desc[,"Title"],  
                   description=desc[,"Description"],  
                   `tabular{ll}`=details,  
                   author=desc[,"Maintainer"]))  
       names(L) <- paste(desc[,"Package"],"-package",sep="")  
       L  
     })  
124    
125  extract.docs.fun <- function # Extract documentation from a function  prefixed.lines <- function(src,...){
126  ### Given source code of a function, return a list describing inline  ### The primary mechanism of inline documentation is via consecutive
127  ### documentation in that source code.  ### groups of lines matching the specified prefix regular expression
128  (code,  ### "\code{^### }" (i.e. lines beginning with "\code{### }") are
129  ### The function to examine.  ### collected as follows into documentation sections:\describe{
130   name.fun  ### \item{description}{group starting at line 2 in the code}
131  ### The name of the function/chunk to use in warning messages.  ### \item{arguments}{group following each function argument}
132   ){  ### \item{value}{group ending at the penultimate line of the code}}
133    res <- list()  ### These may be added to by use of the \code{##<<} constructs
134    clines <- grep(prefix,code)  ### described below.
135    if(length(grep("#",code[1]))){    clines <- grep(prefix,src)
136      res$title <- gsub("[^#]*#\\s*(.*)","\\1",code[1],perl=TRUE)    if(length(clines)==0)return(list())
   }  
   if(length(clines) > 0){  
     ##details<<  
     ## The primary mechanism is that consecutive groups of lines matching  
     ## the specified prefix regular expression "\code{^### }" (i.e. lines  
     ## beginning with "\code{### }") are collected  
     ## as follows into documentation sections:\describe{  
     ## \item{description}{group starting at line 2 in the code}  
     ## \item{arguments}{group following each function argument}  
     ## \item{value}{group ending at the penultimate line of the code}}  
     ## These may be added to by use of the \code{##<<} constructs described  
     ## below.  
137      bounds <- which(diff(clines)!=1)      bounds <- which(diff(clines)!=1)
138      starts <- c(1,bounds+1)      starts <- c(1,bounds+1)
139      ends <- c(bounds,length(clines))      ends <- c(bounds,length(clines))
140      ## detect body of function using paren matching
141      code <- gsub("#.*","",src)
142      f <- function(ch)cumsum(nchar(gsub(sprintf("[^%s]",ch),"",code)))
143      parens <- f("(")-f(")")
144      body.begin <- which(diff(parens)<0 & parens[-1]==0)+2
145      is.arg <- function(){
146        gres <- grep("^\\s*#",src[start-1],perl=TRUE)
147        0 == length(gres) && start<=body.begin
148      }
149      res <- list()
150      for(i in seq_along(starts)){      for(i in seq_along(starts)){
151        start <- clines[starts[i]]        start <- clines[starts[i]]
152        end <- clines[ends[i]]        end <- clines[ends[i]]
153        lab <- if(end+1==length(code))"value"      lab <- if(end+1==length(src))"value"
154        else if(start==2)"description"        else if(start==2)"description"
155        else if ( 0 == length(grep("^\\s*#",code[start-1],perl=TRUE)) ){      else if(is.arg()){
156           #arg <- gsub("^[ (]*","",code[start-1])        ##twutz: strip leading white spaces and brackets and ,
157           #arg <- gsub("^([^=,]*)[=,].*","\\1",arg)        arg <- gsub("^[ \t(,]*", "", src[start - 1])
          #arg <- gsub("...","\\dots",arg,fix=TRUE) ##special case for dots  
                  arg <- gsub("^[ \t(,]*", "", code[start - 1])  #twutz: strip leading white spaces and brackets and ,  
158                   arg <- gsub("^([^=,]*)[=,].*", "\\1", arg)                   arg <- gsub("^([^=,]*)[=,].*", "\\1", arg)
159                   arg <- gsub("^([^ \t]*)([ \t]+)$","\\1",arg)   #twutz: remove trailing whitespaces        ##twutz: remove trailing whitespaces
160          arg <- gsub("^([^ \t]*)([ \t]+)$","\\1",arg)
161                   arg <- gsub("...", "\\dots", arg, fix = TRUE)                   arg <- gsub("...", "\\dots", arg, fix = TRUE)
162           paste("item{",arg,"}",sep="")           paste("item{",arg,"}",sep="")
163         } else {         } else {
164           next;           next;
165         }         }
166        res[[lab]] <- decomment(code[start:end])      res[[lab]] <- decomment(src[start:end])
167      }      }
168      res
169    }    }
170    
171    extract.xxx.chunks <- function # Extract documentation from a function
172    ### Given source code of a function, return a list describing inline
173    ### documentation in that source code.
174    (src,
175    ### The source lines of the function to examine, as a character
176    ### vector.
177     name.fun="(unnamed function)",
178    ### The name of the function/chunk to use in warning messages.
179     ...
180    ### ignored.
181     ){
182      res <- list()
183    ##details<< For simple functions/arguments, the argument may also be    ##details<< For simple functions/arguments, the argument may also be
184    ## documented by appending \code{##<<} comments on the same line as the    ## documented by appending \code{##<<} comments on the same line as the
185    ## argument name. Mixing this mechanism with \code{###} comment lines for    ## argument name. Mixing this mechanism with \code{###} comment lines for
# Line 422  Line 258 
258            else paste(res[[field]], payload, sep=chunk.sep)            else paste(res[[field]], payload, sep=chunk.sep)
259        invisible(chunk.res)        invisible(chunk.res)
260      }      }
261    while ( k <= length(code) ){    while ( k <= length(src) ){
262      line <- code[k]      line <- src[k]
263      if ( 0 < length(grep(extra.regexp,line,perl=TRUE) ) ){      if ( 0 < length(grep(extra.regexp,line,perl=TRUE) ) ){
264        ## we have a new extra chunk - first get field name and any payload        ## we have a new extra chunk - first get field name and any payload
265        new.field <- gsub(extra.regexp,"\\1",line,perl=TRUE)        new.field <- gsub(extra.regexp,"\\1",line,perl=TRUE)
# Line 576  Line 412 
412  ### with the string in this list (implemented in modify.Rd.file).  ### with the string in this list (implemented in modify.Rd.file).
413  }  }
414    
415    ### Parsers for each function that are constructed automatically. This
416    ### is a named list, and each element is a parser function for an
417    ### individual object.
418    forfun.parsers <-
419      list(prefixed.lines=prefixed.lines,
420           examples.after.return=examples.after.return,
421           extract.xxx.chunks=extract.xxx.chunks,
422           ## title from first line of function def
423           title.from.firstline=function(src,name,code,...){
424             if(length(grep("#",src[1]))){
425               list(title=gsub("[^#]*#\\s*(.*)","\\1",src[1],perl=TRUE))
426             } else list()
427           },
428           ## PhG: it is tests/FUN.R!!! I would like more flexibility here
429           ## please, let me choose which dir to use for examples!
430           ## Get examples for FUN from the file tests/FUN.R
431           examples.from.testfile=function(name,...){
432             tsubdir <- getOption("inlinedocs.exdir")
433             if (is.null(tsubdir)) tsubdir <- "tests"       # Default value
434             tfile <- file.path("..",tsubdir,paste(name,".R",sep=""))
435             if(file.exists(tfile))
436               list(examples=paste(readLines(tfile),collapse="\n"))
437             else list()
438           },
439           definition.from.source=function(doc,src,...){
440             def <- doc$definition
441             is.empty <- function(x)is.null(x)||x==""
442             if(is.empty(def) && !is.empty(src))
443               list(definition=paste(src,collapse="\n"))
444             else list()
445           })
446    
447    ### List of Parser Functions that can be applied to any object.
448    forall.parsers <-
449      list(## Fill in author from DESCRIPTION and titles.
450           author.from.description=function(desc,...){
451             list(author=desc[,"Maintainer"])
452           },
453           ## The format section sometimes causes problems, so erase it.
454           erase.format=function(...){
455             list(format="")
456           },
457           ## Convert the function name to a title.
458           title.from.name=function(name,doc,...){
459             if("title"%in%names(doc))list() else
460             list(title=gsub("[._]"," ",name))
461           },
462           ## PhG: here is what I propose for examples code in the 'ex' attribute
463           examples.in.attr =  function (name, o, ...) {
464             ex <- attr(o, "ex")
465             if (!is.null(ex)) {
466               ## Special case for code contained in a function
467               if (inherits(ex, "function")) {
468                 ## If source is available, start from there
469                 src <- attr(ex, "source")
470                 if (!is.null(src)) {
471                   ex <- src
472                 } else { ## Use the body of the function
473                   ex <- deparse(body(ex))
474                 }
475                 ## Eliminate leading and trailing code
476                 ex <- ex[-c(1, length(ex))]
477                 ## Eliminate leading tabulations or 2/4 spaces
478                 ex <- sub("^\t|    |  ", "", ex)
479                 ## Add an empty line before and after example
480                 ex <- c("", ex, "")
481               }
482               list(examples = paste(ex, collapse = "\n"))
483             } else list()
484           })
485    
486    ### List of parser functions that operate on single objects. This list
487    ### is useful for testing these functions.
488    lonely <- c(forall.parsers,forfun.parsers)
489    attr(lonely,"ex") <- function(){
490      f <- function # title
491    ### description
492      (x, ##<< arg x
493       y
494    ### arg y
495       ){
496        ##value<< a list with elements
497        list(x=x, ##<< original x value
498             y=y, ##<< original y value
499             sum=x+y) ##<< their sum
500        ##end<<
501      }
502      src <- attr(f,"source")
503      lonely$extract.xxx.chunks(src)
504      lonely$prefixed.lines(src)
505    }
506    
507    extra.code.docs <- function # Extract documentation from code chunks
508    ### Parse R code to extract inline documentation from comments around
509    ### each function. These are not able to be retreived simply by
510    ### looking at the "source" attribute. This is a Parser Function that
511    ### can be used in the parser list of package.skeleton.dx(). TODO:
512    ### Modularize this into separate Parsers Functions for S4 classes,
513    ### prefixes, ##<<blocks, etc. Right now it is not very clean!
514    (code,
515    ### Code lines in a character vector containing multiple R objects to
516    ### parse for documentation.
517     objs,
518    ### The objects defined in the code.
519     ...
520    ### ignored
521     ){
522      parsed <- extract.file.parse(code)
523      extract.docs.try <- function(o,on)
524        {
525          ## Note: we could use parsed information here too, but that
526          ## would produce different results for setMethodS3 etc.
527          doc <- list()
528          if ( !is.null(parsed[[on]]) ){
529            if ( !is.na(parsed[[on]]@code[1]) ){ # no code given for generics
530              doc$definition <- paste(parsed[[on]]@code,collapse="\n")
531            }
532            if(!"description"%in%names(doc) && !is.na(parsed[[on]]@description) ){
533              doc$description <- parsed[[on]]@description
534            }
535            if ( "setMethodS3" == parsed[[on]]@created ){
536              # PhG: this may be wrong! It does not catch correctly how the method
537              # must be splitted in case of methods containing dots. for instance,
538              # as.data.frame.matrix must be split into: m1 = as.data.frame and
539              # m2 = matrix... here you got m1 = as, and m2 = data.frame.matrix!!!
540                      pattern <- "^([^\\.]+)\\.(.*)$"
541              doc$s3method=c(m1 <- gsub(pattern,"\\1",on,perl=TRUE),
542                  m2 <- gsub(pattern,"\\2",on,perl=TRUE))
543              if ( 0 < length(grep("\\W",m1,perl=TRUE)) ){
544                              m1 <- paste("`",m1,"`",sep="")
545              }
546              cat("S3method(",m1,",",m2,")\n",sep="")
547            }
548          }
549          if("title" %in% names(doc) && !"description" %in% names(doc) ){
550            ## For short functions having both would duplicate, but a
551            ## description is required. Therefore automatically copy title
552            ## across to avoid errors at package build time.
553            doc$description <- doc$title
554          }
555          doc
556        }
557      extract.docs <- function(on){
558        res <- try({o <- objs[[on]]
559                    extract.docs.try(o, on)},FALSE)
560        if(class(res)=="try-error"){
561          cat("Failed to extract docs for: ",on,"\n\n")
562          list()
563        } else if(0 == length(res) && inherits(objs[[on]],"standardGeneric")){
564          NULL
565        } else if(0 == length(res) && "function" %in% class(o)
566                  && 1 == length(osource <- attr(o,"source"))
567                  && 1 == length(grep(paste("UseMethod(",on,")",sep="\""),osource))
568                  ){
569          ## phew - this should only pick up R.oo S3 generic definitions like:
570          ## attr(*, "source")= chr "function(...) UseMethod(\"select\")"
571          NULL
572        } else res
573      }
574      doc.names <- names(objs)
575      res <- sapply(doc.names,extract.docs,simplify=FALSE)
576      ## Special processing for S4 classes as they do not appear in normal ls()
577      for ( nn in names(parsed) ){
578        if ( parsed[[nn]]@created == "setClass" ){
579          S4class.docs <- extract.docs.setClass(parsed[[nn]])
580          docname <- paste(nn,"class",sep="-")
581          if ( is.null(res[[docname]]) ){
582            res[[docname]] <- S4class.docs
583            doc.names <- c(doc.names,docname)
584          } else {
585            stop(nn," appears as both S4 class and some other definition")
586          }
587        }
588      }
589      inherit.docs <- function(on){
590        in.res <- res[[on]]
591        if ( !is.null(parsed[[on]]) ){
592          for ( parent in parsed[[on]]@parent ){
593            if ( !is.na(parent) ){
594              if ( is.null(in.res) ){
595                in.res <- res[[parent]]
596              } else if ( parent %in% names(res) ){
597                parent.docs <- res[[parent]]
598                for ( nn in names(parent.docs) ){
599                  if ( !nn %in% names(in.res) ){
600                    in.res[[nn]] <- parent.docs[[nn]]
601                  }
602                }
603              }
604            }
605          }
606        }
607        invisible(in.res)
608      }
609      all.done <- FALSE
610      while ( !all.done ){
611        res1 <- sapply(doc.names,inherit.docs,simplify=FALSE)
612        all.done <- identical(res1,res)
613        res <- res1
614      }
615      ## now strip out any generics (which have value NULL in res):
616      res.not.null <- sapply(res,function(x){!is.null(x)})
617      if ( 0 < length(res.not.null) && length(res.not.null) < length(res) ){
618        res <- res[res.not.null]
619      }
620      res
621    ### named list of lists, one for each object to document.
622    }
623    
624    ### List of parsers to use by default with package.skeleton.dx.
625    default.parsers <-
626      c(extra.code.docs=extra.code.docs, ## TODO: cleanup!
627        sapply(forfun.parsers,forfun),
628        sapply(forall.parsers,forall),
629        edit.package.file=function(desc,...){
630          in.details <- setdiff(colnames(desc),"Description")
631          details <- paste(paste(in.details,": \\tab ",desc[,in.details],"\\cr",
632                                 sep=""),collapse="\n")
633          L <-
634            list(list(title=desc[,"Title"],
635                      description=desc[,"Description"],
636                      `tabular{ll}`=details,
637                      author=desc[,"Maintainer"]))
638          names(L) <- paste(desc[,"Package"],"-package",sep="")
639          L
640        })
641    
642  setClass("DocLink", # Link documentation among related functions  setClass("DocLink", # Link documentation among related functions
643  ### The \code{.DocLink} class provides the basis for hooking together  ### The \code{.DocLink} class provides the basis for hooking together
644  ### documentation of related classes/functions/objects. The aim is that  ### documentation of related classes/functions/objects. The aim is that
# Line 714  Line 777 
777    ## the same line or \code{### } comments at the beginning of the    ## the same line or \code{### } comments at the beginning of the
778    ## following line.    ## following line.
779    f.n <- paste(class.name,"class",sep="-")    f.n <- paste(class.name,"class",sep="-")
780    docs <- extract.docs.fun(chunk.source,f.n)    docs <- extract.xxx.chunks(chunk.source,f.n)
781      ## also apply source parsing functions that I separated out into
782      ## separate functions
783      docs <- combine(docs,lonely$prefixed.lines(chunk.source))
784      docs$title <- lonely$title.from.firstline(chunk.source)
785    ##details<<    ##details<<
786    ## The class definition skeleton includes an \code{Objects from the Class}    ## The class definition skeleton includes an \code{Objects from the Class}
787    ## section, to which any \code{##details<<} documentation chunks are    ## section, to which any \code{##details<<} documentation chunks are
# Line 755  Line 822 
822    old <- options(keep.source=TRUE)    old <- options(keep.source=TRUE)
823    on.exit(options(old))    on.exit(options(old))
824    exprs <- parse(text=code)    exprs <- parse(text=code)
825    for (i in exprs) eval(i, e)    for (i in exprs){
826        tryCatch(eval(i, e),error=function(e){
827          ##print(e)
828        })
829      }
830    objs <- sapply(ls(e),get,e,simplify=FALSE)    objs <- sapply(ls(e),get,e,simplify=FALSE)
831    
832    docs <- list()    docs <- list()
# Line 796  Line 867 
867  ### A list of extracted documentation from code.  ### A list of extracted documentation from code.
868  }  }
869    
870    ### Names of Parser Functions that operate on the desc arg.
871    descfile.names <- c("author.from.description","edit.package.file")
872    
873    ### Names of Parser Functions that do NOT use the desc arg.
874    non.descfile.names <-
875      names(default.parsers)[!names(default.parsers)%in%descfile.names]
876    
877    ### Parsers that operate only on R code, independently of the
878    ### description file.
879    nondesc.parsers <- default.parsers[non.descfile.names]
880    
881  extract.docs.file <- function  extract.docs.file <- function
882  ### Apply all parsers relevant to extract info from just 1 code file.  ### Apply all parsers relevant to extract info from just 1 code file.
883  (f,  (f,
884  ### File name of R code to read and parse.  ### File name of R code to read and parse.
885   parsers=list(extra.code.docs,default.parsers$parsefun),   parsers=nondesc.parsers,
886  ### Parser Functions to use to parse the code and extract  ### Parser Functions to use to parse the code and extract
887  ### documentation.  ### documentation.
888   ...   ...

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