rcompgen package:utils R Documentation _A _C_o_m_p_l_e_t_i_o_n _G_e_n_e_r_a_t_o_r _f_o_r _R _D_e_s_c_r_i_p_t_i_o_n: This package provides a mechanism to generate relevant completions from a partially completed command line. It is not intended to be useful by itself, but rather in conjunction with other mechanisms that use it as a backend. The functions listed in the usage section provide a simple control and query mechanism. The actual interface consists of a few unexported functions described further down. _U_s_a_g_e: rc.settings(ops, ns, args, func, ipck, S3, data, help, argdb, files) rc.status() rc.getOption(name) rc.options(...) _A_r_g_u_m_e_n_t_s: ops, ns, args, func, ipck, S3, data, help, argdb, files: logical, turning some optional completion features on and off. '_o_p_s': activates completion after the '$' and '@' operators '_n_s': controls name space related completions '_a_r_g_s': enables completion of function arguments '_f_u_n_c': enables detection of functions. If enabled, a customizable extension ('"("' by default) is appended to function names. The process of determining whether a potential completion is a function requires evaluation, including for lazy loaded symbols. This is extremely undesirable for large objects, because of potentially wasteful use of memory in addition to the time overhead associated with loading. For this reason, this feature is disabled by default. '_S_3': when 'args=TRUE', activates completion on arguments of all S3 methods (otherwise just the generic, which usually has very few arguments) '_i_p_c_k': enables completion of installed package names inside 'library' and 'require' '_d_a_t_a': enables completion of data sets (including those already visible) inside 'data' '_h_e_l_p': enables completion of help requests starting with a question mark, by looking inside help index files '_a_r_g_d_b': when 'args=TRUE', completion is attempted on function arguments. Generally, the list of valid arguments is determined by dynamic calls to 'args'. While this gives results that are technically correct, the use of the '...' argument often hides some useful arguments. To give more flexibility in this regard, 'rcompgen' internally retains an optional table of valid arguments names for specific functions. Setting 'argdb=TRUE' enables preferential lookup in this internal data base for functions with an entry in it. Of course, this is useful only when the data base contains information about the function of interest. Some functions are included in the package (the maintainer is happy to add more upon request), and more can be added by the user through the unexported function '.addFunctionInfo' (see below). '_f_i_l_e_s': enables filename completion in R code. This is initially set to 'FALSE', in which case the underlying completion front-end can take over (and hopefully do a better job than we would have done). For systems where no such facilities exist, this can be set to 'TRUE' if file name completion is desired. This is currently experimental and may not work very well. All settings are turned on by default except 'ipck', 'func' and 'files'. Turn more off if your CPU cycles are valuable; you will still retain basic completion on names of objects in the search list. See below for additional details. name, ...: user-settable options. Currently valid names are '_f_u_n_c_t_i_o_n._s_u_f_f_i_x': default '"("' '_f_u_n_a_r_g._s_u_f_f_i_x': default '" = "' '_p_a_c_k_a_g_e._s_u_f_f_i_x' default '"::"' See 'options' for detailed usage description _D_e_t_a_i_l_s: There are several types of completion, some of which can be disabled using 'rc.settings'. The most basic level, which can not be turned off once the package is loaded, provides completion on names visible on the search path, along with a few special keywords (e.g. 'TRUE'). This type of completion is not attempted if the partial 'word' (a.k.a. token) being completed is empty (since there would be too many completions). The more advanced types of completion are described below. *_C_o_m_p_l_e_t_i_o_n _a_f_t_e_r _e_x_t_r_a_c_t_o_r_s '$' _a_n_d '@'*: When the 'ops' setting is turned on, completion after '$' and '@' is attempted. This requires the prefix to be evaluated, which is attempted unless it involves an explicit function call (implicit function calls involving the use of '[', '$', etc _do not_ inhibit evaluation). *_C_o_m_p_l_e_t_i_o_n _i_n_s_i_d_e _n_a_m_e _s_p_a_c_e_s*: When the 'ns' setting is turned on, completion inside name spaces is attempted when a token is preceded by the '::' or ':::' operators. Additionally, the basic completion mechanism is extended to include attached name spaces, or more precisely, 'foopkg::' becomes a valid completion of 'foo' if the return value of 'search()' includes the string '"package:foopkg"'. The completion of package name spaces applies only to attached packages, i.e. if 'MASS' is not attached (whether or not it is loaded), 'MAS' will not complete to 'MASS::'. However, attempted completion _inside_ an apparent name space will attempt to load the name space if it is not already loaded, e.g. trying to complete on 'MASS::fr' will load 'MASS' (but not necessarily attach it) even if it is not already loaded. *_C_o_m_p_l_e_t_i_o_n _o_f _f_u_n_c_t_i_o_n _a_r_g_u_m_e_n_t_s*: When the 'args' setting is turned on, completion on function arguments is attempted whenever deemed appropriate. The mechanism used will currently fail if the relevant function (at the point where completion is requested) was entered on a previous prompt (which implies in particular that the current line is being typed in response to a continuation prompt, usually '+'). Note that separation by newlines is fine. The list of possible argument completions that is generated can be misleading. There is no problem for non-generic functions (except that '...' is listed as a completion; this is intentional as it signals the fact that the function can accept further arguments). However, for generic functions, it is practically impossible to give a reliable argument list without evaluating arguments (and not even then, in some cases), which is risky (in addition to being difficult to code, which is the real reason it hasn't even been tried), especially when that argument is itself an inline function call. Our compromise is to consider arguments of _all_ currently available methods of that generic. This has two drawbacks. First, not all listed completions may be appropriate in the call currently being constructed. Second, for generics with many methods (like 'print' and 'plot'), many matches will need to be considered, which may take a noticeable amount of time. Despite these drawbacks, we believe this behaviour to be more useful than the only other practical alternative, which is to list arguments of the generic only. Only S3 methods are currently supported in this fashion, and that can be turned off using the 'S3' setting. Since arguments can be unnamed in R function calls, other types of completion are also appropriate whenever argument completion is. Since there are usually many many more visible objects than formal arguments of any particular function, possible argument completions are often buried in a bunch of other possibilities. However, recall that basic completion is suppressed for blank tokens. This can be useful to list possible arguments of a function. For example, trying to complete 'seq([TAB]' and 'seq(from = 1, [TAB])' will both list only the arguments of 'seq' (or any of its methods), whereas trying to complete 'seq(length[TAB]' will list both the 'length.out' argument and the 'length(' function as possible completions. Note that no attempt is made to remove arguments already supplied, as that would incur a further speed penalty. *_S_p_e_c_i_a_l _f_u_n_c_t_i_o_n_s*: For a few special functions ('library', 'data', etc), the first argument is treated specially, in the sense that normal completion is suppressed, and some function specific completions are enabled if so requested by the settings. The 'ipck' setting, which controls whether 'library' and 'require' will complete on _installed packages_, is disabled by default because the first call to 'installed.packages' is potentially time consuming (e.g. when packages are installed on a remote network file server). Note, however, that the results of a call to 'installed.packages' is cached, so subsequent calls are usually fast, so turning this option on is not particularly onerous even in such situations. _V_a_l_u_e: 'rc.status' returns, as a list, the contents of an internal (unexported) environment that is used to record the results of the last completion attempt. This can be useful for debugging. For such use, one must resist the temptation to use completion when typing the call to 'rc.status' itself, as that then becomes the last attempt by the time the call is executed. The items of primary interest in the returned list are: comps: the possible completions generated by the last call to '.completeToken', as a character vector token: the token that was (or, is to be) completed, as set by the last call to '.assignToken' (possibly inside a call to '.guessTokenFromLine') linebuffer: the full line, as set by the last call to '.assignLinebuffer' start: the start position of the token in the line buffer, as set by the last call to '.assignStart' end: the end position of the token in the line buffer, as set by the last call to '.assignEnd' fileName: logical, indicating whether the cursor is currently inside quotes. If so, no completion is attempted. A reasonable default behaviour for the backend in that case is to fall back to filename completion. fguess: the name of the function 'rcompgen' thinks the cursor is currently inside isFirstArg: logical. If cursor is inside a function, is it the first argument? In addition, the components 'settings' and 'options' give the current values of settings and options respectively. 'rc.getOption' and 'rc.options' behave much like 'getOption' and 'options' respectively. _U_n_e_x_p_o_r_t_e_d _A_P_I: There are several unexported functions in the package. Of these, a few are special because they provide the API through which other mechanisms can make use of the facilities provided by this package (they are unexported because they are not meant to be called directly by users). The usage of these functions are: .assignToken(text) .assignLinebuffer(line) .assignStart(start) .assignEnd(end) .completeToken() .retrieveCompletions() .getFileComp() .guessTokenFromLine() .win32consoleCompletion(linebuffer, cursorPosition, check.repeat = TRUE, minlength = -1) .addFunctionInfo(...) The first four functions set up a completion attempt by specifying the token to be completed ('text'), and indicating where ('start' and 'end', which should be integers) the token is placed within the complete line typed so far ('line'). Potenial completions of the token are generated by '.completeToken', and the completions can be retrieved as an R character vector using '.retrieveCompletions'. If the cursor is inside quotes, no completion is attempted. The function '.getFileComp' can be used after a call to '.completeToken' to determine if this is the case (returns 'TRUE'), and alternative completions generated as deemed useful. In most cases, filename completion is a reasonable fallback. The '.guessTokenFromLine' function is provided for use with backends that do not already break a line into tokens. It requires the linebuffer and endpoint (cursor position) to be already set, and itself sets the token and the start position. It returns the token as a character string. (This is used by the ESS completion hook example given in the 'examples/altesscomp.el' file.) The '.win32consoleCompletion' is similar in spirit, but is more geared towards the Windows GUI (or rather, any front-end that has no completion facilities of its own). It requires the linebuffer and cursor position as arguments, and returns a list with three components, 'addition', 'possible' and 'comps'. If there is an unambiguous extension at the current position, 'addition' contains the additional text that should be inserted at the cursor. If there is more than one possibility, these are available either as a character vector of preformatted strings in 'possible', or as a single string in 'comps'. 'possible' consists of lines formatted using the current 'width' option, so that printing them on the console one line at a time will be a reasonable way to list them. 'comps' is a space separated (collapsed) list of the same completions, in case the front-end wishes to display it in some other fashion. The 'minlength' argument can be used to suppress completion when the token is too short (which can be useful if the front-end is set up to try completion on every keypress). If 'check.repeat' is 'TRUE', it is detected if the same completion is being requested more than once in a row, and ambiguous completions are returned only in that case. This is an attempt to emulate GNU Readline behaviour, where a single TAB completes upto any unambiguous part, and multiple possibilities are reported only on two consecutive TABs. As the various front-end interfaces evolve, the details of these functions are likely to change as well. The function '.addFunctionInfo' can be used to add information about the permitted argument names for specific functions. Multiple named arguments are allowed in calls to it, where the tags are names of functions and values are character vectors representing valid arguments. When the 'argdb' setting is 'TRUE', these are used as a source of valid argument names for the relevant functions. _N_o_t_e: If you are uncomfortable with unsolicited evaluation of pieces of code, you should set 'ops = FALSE'. Otherwise, trying to complete 'foo@ba' will evaluate 'foo', trying to complete 'foo[i,1:10]$ba' will evaluate 'foo[i,1:10]', etc. This should not be too bad, as explicit function calls (involving parentheses) are not evaluated in this manner. However, this _will_ affect lazy loaded symbols (and presumably other promise type thingies). _A_u_t_h_o_r(_s): Deepayan Sarkar, deepayan.sarkar@r-project.org