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esl_getopts.c
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esl_getopts.c
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/* Implements a somewhat more powerful command line getopt interface
* than the standard UNIX/POSIX call.
*
* Contents:
* 1. The ESL_GETOPTS object.
* 2. Setting and testing a configuration.
* 3. Retrieving option settings and command line args.
* 4. Formatting option help.
* 5. Private functions.
* 6. Test driver.
* 7. Examples.
*
* xref STL8/p152; STL9/p5.
*/
#include <esl_config.h>
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <ctype.h>
#include "easel.h"
#include "esl_getopts.h"
/* Forward declarations of private functions. */
static int set_option(ESL_GETOPTS *g, int opti, char *optarg,
int setby, int do_alloc);
static int get_optidx_exactly(const ESL_GETOPTS *g, char *optname, int *ret_opti);
static int get_optidx_abbrev(ESL_GETOPTS *g, char *optname, int n,
int *ret_opti);
static int esl_getopts(ESL_GETOPTS *g, int *ret_opti, char **ret_optarg);
static int process_longopt(ESL_GETOPTS *g, int *ret_opti, char **ret_optarg);
static int process_stdopt(ESL_GETOPTS *g, int *ret_opti, char **ret_optarg);
static int verify_type_and_range(ESL_GETOPTS *g, int i, char *val, int setby);
static int verify_integer_range(char *arg, char *range);
static int verify_real_range(char *arg, char *range);
static int verify_char_range(char *arg, char *range);
static int parse_rangestring(char *range, char c, char **ret_lowerp,
int *ret_geq, char **ret_upperp, int *ret_leq);
static int process_optlist(ESL_GETOPTS *g, char **ret_s, int *ret_opti);
/*****************************************************************
*# 1. The <ESL_GETOPTS> object
*****************************************************************/
/* Function: esl_getopts_Create()
* Synopsis: Create a new <ESL_GETOPTS> object.
*
* Purpose: Creates an <ESL_GETOPTS> object, given the
* array of valid options <opt> (NULL-element-terminated).
* Sets default values for all config
* options (as defined in <opt>).
*
* Returns: ptr to the new <ESL_GETOPTS> object.
*
* Throws: NULL on failure, including allocation failures or
* an invalid <ESL_OPTIONS> structure.
*/
ESL_GETOPTS *
esl_getopts_Create(const ESL_OPTIONS *opt)
{
ESL_GETOPTS *g = NULL;
int status;
int i;
ESL_ALLOC(g, sizeof(ESL_GETOPTS));
g->opt = opt;
g->argc = 0;
g->argv = NULL;
g->optind = 1;
g->nfiles = 0;
g->val = NULL;
g->setby = NULL;
g->valloc = NULL;
g->optstring = NULL;
g->spoof = NULL;
g->spoof_argv= NULL;
g->errbuf[0] = '\0';
/* Figure out the number of options.
*
* Using the NULL-terminated structure array is a design decision.
* Alternatively, the caller could provide us with noptions, and use
* a #define noptions (sizeof(options) / sizeof(ESL_GETOPTS)) idiom.
* Note that we can't use sizeof() here, because now <opt> is just a
* pointer.
*
* A drawback of requiring NULL termination is, what happens when
* the caller forgets? Thus the check for a leading '-' on all
* options; if we start straying into memory, that check should
* catch us.
*/
g->nopts = 0;
while (g->opt[g->nopts].name != NULL) {
if (g->opt[g->nopts].name[0] != '-')
ESL_XEXCEPTION(eslEINVAL, "option %d didn't start with '-';\nyou may have forgotten to NULL-terminate the ESL_OPTIONS array", g->nopts);
g->nopts++;
}
/* Set default values for all options.
* Note the valloc[] setting: we only need to dup strings
* into allocated space if the value is volatile memory, and
* that only happens in config files; not in defaults, cmdline,
* or environment.
*/
ESL_ALLOC(g->val, sizeof(char *) * g->nopts);
ESL_ALLOC(g->setby, sizeof(int) * g->nopts);
ESL_ALLOC(g->valloc, sizeof(int) * g->nopts);
for (i = 0; i < g->nopts; i++)
{
g->val[i] = g->opt[i].defval;
g->setby[i] = eslARG_SETBY_DEFAULT;
g->valloc[i] = 0;
}
/* Verify type/range of the defaults, even though it's
* an application error (not user error) if they're invalid.
*/
for (i = 0; i < g->nopts; i++)
if (verify_type_and_range(g, i, g->val[i], eslARG_SETBY_DEFAULT) != eslOK)
ESL_XEXCEPTION(eslEINVAL, "%s\n", g->errbuf);
return g;
ERROR:
esl_getopts_Destroy(g);
return NULL;
}
/* Function: esl_getopts_CreateDefaultApp()
* Synopsis: Initialize a standard Easel application.
*
* Purpose: Carry out the usual sequence of events in initializing a
* small Easel-based application: parses the command line,
* process the <-h> option to produce a (single-sectioned)
* help page, and check that the number of command line
* options is right.
*
* <options> is an array of <ESL_OPTIONS> structures describing
* the options, terminated by an all-<NULL> structure.
*
* <nargs> is the number of commandline arguments
* expected. If the number of commandline arguments isn't
* equal to this, an error message is printed, with the
* <usage> string, and <exit()> is called. If <nargs> is
* -1, this check isn't done; if your program deliberately
* has a variable number of commandline arguments (i.e.
* if the number is unknown at compile time), pass -1
* for <nargs>.
*
* <argc> and <argv> are the command line
* arguments (number and pointer array) from <main()>.
*
* <banner> is an optional one-line description of the
* program's function, such as <"compare RNA structures">.
* When the <-h> help option is selected, this description
* will be combined with the program's name (the tail of
* <argv[0]>) and Easel's copyright and license information
* to give a header like:
*
* \begin{cchunk}
* # esl-compstruct :: compare RNA structures
* # Easel 0.1 (February 2005)
* # Copyright (C) 2004-2007 HHMI Janelia Farm Research Campus
* # Freely licensed under the Janelia Software License.
* # - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
* \end{cchunk}
*
* <usage> is an optional one-line description of command
* line usage (without the command name), such as
* \begin{cchunk}
* [options] <trusted file> <test file>
* \end{cchunk}
* On errors, or
* on the help page, this usage string is combined with
* the program's name to give a usage line like:
*
* \begin{cchunk}
* Usage: esl-compstruct [options] <trusted file> <test file>
* \end{cchunk}
*
* <banner> and <usage> are optional, meaning that either
* can be provided as <NULL> and they won't be shown.
*
* Returns: a pointer to a new <ESL_GETOPTS> object, which contains
* all the option settings and command line arguments.
*
* On command line errors, this routine exits with abnormal
* (1) status.
*
* If the <-h> help option is seen, this routine exits with
* normal (0) status after printing a help page.
*
*/
ESL_GETOPTS *
esl_getopts_CreateDefaultApp(const ESL_OPTIONS *options, int nargs, int argc, char **argv, char *banner, char *usage)
{
ESL_GETOPTS *go = NULL;
go = esl_getopts_Create(options);
if (esl_opt_ProcessCmdline(go, argc, argv) != eslOK ||
esl_opt_VerifyConfig(go) != eslOK)
{
printf("Failed to parse command line: %s\n", go->errbuf);
if (usage != NULL) esl_usage(stdout, argv[0], usage);
printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
exit(1);
}
if (esl_opt_GetBoolean(go, "-h") == TRUE)
{
if (banner != NULL) esl_banner(stdout, argv[0], banner);
if (usage != NULL) esl_usage (stdout, argv[0], usage);
puts("\nOptions:");
esl_opt_DisplayHelp(stdout, go, 0, 2, 80);
exit(0);
}
if (nargs != -1 && esl_opt_ArgNumber(go) != nargs)
{
puts("Incorrect number of command line arguments.");
esl_usage(stdout, argv[0], usage);
printf("\nTo see more help on available options, do %s -h\n\n", argv[0]);
exit(1);
}
return go;
}
/* Function: esl_getopts_Reuse()
* Synopsis: Reset application state to default.
*
* Purpose: Reset application configuration <g> to initial defaults,
* as if it were newly created (before any
* processing of environment, config files, or
* command line).
*
* Returns: <eslOK> on success.
*
* Throws: (no abnormal error conditions)
*
* Xref: J4/24.
*/
int
esl_getopts_Reuse(ESL_GETOPTS *g)
{
int i;
/* Restore defaults for all options */
for (i = 0; i < g->nopts; i++)
{
if (g->valloc[i] > 0) { free(g->val[i]); }
g->val[i] = g->opt[i].defval;
g->setby[i] = eslARG_SETBY_DEFAULT;
g->valloc[i] = 0;
}
if (g->spoof != NULL) free(g->spoof);
if (g->spoof_argv != NULL) free(g->spoof_argv);
g->argc = 0;
g->argv = NULL;
g->optind = 1;
g->nfiles = 0;
g->optstring = NULL;
g->spoof = NULL;
g->spoof_argv = NULL;
g->errbuf[0] = '\0';
return eslOK;
}
/* Function: esl_getopts_Destroy()
* Synopsis: Destroys an <ESL_GETOPTS> object.
*
* Purpose: Free's a created <ESL_GETOPTS> object.
*
* Returns: void.
*/
void
esl_getopts_Destroy(ESL_GETOPTS *g)
{
int i;
if (g != NULL)
{
if (g->val != NULL)
{
/* A few of our vals may have been allocated.
*/
for (i = 0; i < g->nopts; i++)
if (g->valloc[i] > 0)
free(g->val[i]);
free(g->val);
}
if (g->setby != NULL) free(g->setby);
if (g->valloc != NULL) free(g->valloc);
if (g->spoof != NULL) free(g->spoof);
if (g->spoof_argv != NULL) free(g->spoof_argv);
free(g);
}
}
/* Function: esl_getopts_Dump()
* Synopsis: Dumps a summary of a <ESL_GETOPTS> configuration.
*
* Purpose: Dump the state of <g> to an output stream
* <ofp>, often stdout or stderr.
*/
void
esl_getopts_Dump(FILE *ofp, ESL_GETOPTS *g)
{
int i, j;
if (g->argv != NULL)
{
fprintf(ofp, "argv[0]: %s\n", g->argv[0]);
for (i = 1, j = g->optind; j < g->argc; j++, i++)
fprintf(ofp, "argument %2d (argv[%2d]): %s\n", i, j, g->argv[j]);
fputc('\n', ofp);
}
fprintf(ofp, "%12s %12s %9s\n", "Option", "Setting", "Set by");
fprintf(ofp, "------------ ------------ ---------\n");
for (i = 0; i < g->nopts; i++)
{
fprintf(ofp, "%-12s ", g->opt[i].name);
if (g->opt[i].type == eslARG_NONE) fprintf(ofp, "%-12s ", g->val[i] == NULL ? "off" : "on");
else fprintf(ofp, "%-12s ", g->val[i]);
if (g->setby[i] == eslARG_SETBY_DEFAULT) fprintf(ofp, "(default) ");
else if (g->setby[i] == eslARG_SETBY_CMDLINE) fprintf(ofp, "cmdline ");
else if (g->setby[i] == eslARG_SETBY_ENV) fprintf(ofp, "environ ");
else if (g->setby[i] >= eslARG_SETBY_CFGFILE) fprintf(ofp, "cfgfile ");
fprintf(ofp, "\n");
}
return;
}
/* Function: esl_getopts_CreateOptsline()
*
* Synopsis: Creates a string that contains a set of command-line
* options that could be provided to the original program to
* generate an equivalent getopts object as the one
* passed to <esl_getopts_CreateOptsLine()>. This command line
* will contain text to set all options in the getopts object
* that were not at their default value, regardless of how
* those options were set (command-line argument, environment
* variable, or in a config file). It may thus differ from the
* actual command line that was passed to the program.
*
* Purpose: This function is ussed within hmmclient/hmmserver to generate
* commandline equivalents that can be passed from machine to
* machine to re-create the user's desired configuration.
*
* Returns: The generated string, or NULL if it was unable to create one
*/
char *
esl_getopts_CreateOptsLine(ESL_GETOPTS *g)
{
char *ret_string = (char *) malloc(256); // will grow/realloc as needed
char quotemark[2];
quotemark[0] = 34; //brutal hack to get a quotation mark into a string without the escape character
quotemark[1] = '\0';
if (ret_string == NULL) return(NULL);
int ret_length =256;
int used = 1;
ret_string[0] = '\0'; // Set this to a null string in case we don't find any commandiline arguments to return
int i, optsize;
for (i=0; i < g->nopts; i++){
if (g->setby[i] != eslARG_SETBY_DEFAULT && !((g->opt[i].type == eslARG_NONE) && (g->val[i] == 0))){
// We need to handle this option because it has a non-default value and isn't false
// Unless this is an option that doesn't take an argument and has a value of FALSE. In that case, it must have been
// toggled false by some other argument, so ignore it
optsize = strlen(g->opt[i].name) +2; //+1 for space after option name
if(g->opt[i].type != eslARG_NONE){ //Need an argument to the option
optsize+=(strlen(g->val[i])) + 1; // +1 for space after name or terminator character
if(g->opt[i].type ==eslARG_STRING){
optsize += 2; //quotes around strings
}
}
while(used + optsize > ret_length){
ret_string = realloc(ret_string, ret_length *2);
ret_length *=2;
if(ret_string == 0){
return(NULL);
}
}
//Now that we know we have space, add the options string for this option and its value to the commandline
strcat(ret_string, " ");
strcat(ret_string, g->opt[i].name);
if(g->opt[i].type != eslARG_NONE){
strcat(ret_string, " ");
if(g->opt[i].type== eslARG_STRING){
strcat(ret_string, quotemark);
}
strcat(ret_string, g->val[i]);
if(g->opt[i].type== eslARG_STRING){
strcat(ret_string, quotemark);
}
}
used += optsize;
}
}
return(ret_string);
}
/*****************************************************************
*# 2. Setting and testing a configuration
*****************************************************************/
/* Function: esl_opt_ProcessConfigfile()
* Synopsis: Parses options in a config file.
*
* Purpose: Given an open configuration file <fp> (and
* its name <filename>, for error reporting),
* parse it and set options in <g> accordingly.
* Anything following a <\#> in the file is a
* comment. Blank (or all-comment) lines are
* ignored. Data lines contain one option and
* its optional argument: for example <--foo arg>
* or <-a>. All option arguments are type and
* range checked, as specified in <g>.
*
* Returns: <eslOK> on success.
*
* Returns <eslESYNTAX> on parse or format error in the
* file, or f option argument fails a type or range check,
* or if an option is set twice by the same config file.
* In any of these "normal" (user) error cases, <g->errbuf>
* is set to a useful error message to indicate the error.
*
* Throws: <eslEMEM> on allocation problem.
*/
int
esl_opt_ProcessConfigfile(ESL_GETOPTS *g, char *filename, FILE *fp)
{
char *buf = NULL;
int n = 0;
char *s;
char *optname; /* tainted: from user's input file */
char *optarg; /* tainted: from user's input file */
char *comment;
int line;
int opti;
int status;
line = 0;
while ((status = esl_fgets(&buf, &n, fp)) != eslEOF)
{
if (status != eslOK) return status; /* esl_fgets() failed (EMEM) */
line++;
optname = NULL;
optarg = NULL;
/* First token is the option, e.g. "--foo"
*/
s = buf;
esl_strtok(&s, " \t\n", &optname);
if (optname == NULL) continue; /* blank line */
if (*optname == '#') continue; /* comment line */
if (*optname != '-')
ESL_FAIL(eslESYNTAX, g->errbuf,
"Parse failed at line %d of cfg file %.24s (saw %.24s, not an option)\n",
line, filename, optname);
/* Second token, if present, is the arg
*/
if (*s == '"') esl_strtok(&s, "\"", &optarg); /* quote-delimited arg */
else esl_strtok(&s, " \t\n", &optarg); /* space-delimited arg */
/* Anything else on the line had better be a comment
*/
esl_strtok(&s, " \t\n", &comment);
if (comment != NULL && *comment != '#')
ESL_FAIL(eslESYNTAX, g->errbuf,
"Parse failed at line %d of cfg file %.24s (saw %.24s, not a comment)\n",
line, filename, comment);
/* Now we've got an optname and an optional optarg;
* figure out what option this is.
*/
if (get_optidx_exactly(g, optname, &opti) != eslOK)
ESL_FAIL(eslESYNTAX, g->errbuf,
"%.24s is not a recognized option (config file %.24s, line %d)\n",
optname, filename, line);
/* Set that option.
* Pass TRUE to set_option's do_alloc flag, because our buffer
* is volatile memory that's going away soon - set_option needs
* to strdup the arg, not just point to it.
*/
status = set_option(g, opti, optarg,
eslARG_SETBY_CFGFILE+g->nfiles,
TRUE);
if (status != eslOK) return status;
}
if (buf != NULL) free(buf);
g->nfiles++;
return eslOK;
}
/* Function: esl_opt_ProcessEnvironment()
* Synopsis: Parses options in the environment.
*
* Purpose: For any option defined in <g> that can be modified
* by an environment variable, check the environment
* and set that option accordingly. The value provided
* by the environment is type and range checked.
* When an option is turned on that has other options
* toggle-tied to it, those options are turned off.
* An option's state may only be changed once by the
* environment (even indirectly thru toggle-tying);
* else an error is generated.
*
* Returns: <eslOK> on success, and <g> is loaded with all
* options specified in the environment.
*
* Returns <eslEINVAL> on user input problems,
* including type/range check failures, and
* sets <g->errbuf> to a useful error message.
*
* Throws: <eslEMEM> on allocation problem.
*/
int
esl_opt_ProcessEnvironment(ESL_GETOPTS *g)
{
int i;
char *optarg;
int status;
for (i = 0; i < g->nopts; i++)
if (g->opt[i].envvar != NULL &&
(optarg = getenv(g->opt[i].envvar)) != NULL)
{
status = set_option(g, i, optarg, eslARG_SETBY_ENV, FALSE);
if (status != eslOK) return status;
}
return eslOK;
}
/* Function: esl_opt_ProcessCmdline()
* Synopsis: Parses options from the command line.
*
* Purpose: Process a command line (<argc> and <argv>), parsing out
* and setting application options in <g>. Option arguments
* are type and range checked before they are set, if type
* and range information was set when <g> was created.
* When an option is set, if it has any other options
* "toggle-tied" to it, those options are also turned off.
*
* Any given option can only change state (on/off) once
* per command line; trying to set the same option more than
* once generates an error.
*
* On successful return, <g> contains settings of all
* command line options and their option arguments, for
* subsequent retrieval by <esl_opt_Get*()>
* functions. <g> also contains an <optind> state variable
* pointing to the next <argv[]> element that is not an
* option. <esl_opt_GetArg()> needs this to know
* where the options end and command line arguments begin
* in <argv[0]>.
*
* The parser starts with <argv[1]> and reads <argv[]> elements
* in order until it reaches an element that is not an option;
* at this point, all subsequent <argv[]> elements are
* interpreted as arguments to the application.
*
* Any <argv[]> element encountered in the command line that
* starts with <- > is an option, except <- > or <-- > by
* themselves. <- > by itself is interpreted as a command
* line argument (usually meaning ``read from stdin instead
* of a filename''). <-- > by itself is interpreted as
* ``end of options''; all subsequent <argv[]> elements are
* interpreted as command-line arguments even if they
* begin with <- >.
*
* Returns: <eslOK> on success. <g> is loaded with
* all option settings specified on the cmdline.
* Returns <eslEINVAL> on any cmdline parsing problem,
* including option argument type/range check failures,
* and sets <g->errbuf> to a useful error message for
* the user.
*
* Throws: <eslEMEM> on allocation problem.
*/
int
esl_opt_ProcessCmdline(ESL_GETOPTS *g, int argc, char **argv)
{
int opti;
char *optarg;
int status, setstatus;
g->argc = argc;
g->argv = argv;
g->optind = 1; /* start at argv[1] */
g->optstring = NULL; /* not in a -abc optstring yet */
/* Walk through each option in the command line using esl_getopts(),
* which advances g->optind as the index of the next argv element we need
* to look at.
*/
while ((status = esl_getopts(g, &opti, &optarg)) == eslOK)
{
setstatus = set_option(g, opti, optarg, eslARG_SETBY_CMDLINE, FALSE);
if (setstatus != eslOK) return setstatus;
}
if (status == eslEOD) return eslOK;
else return status;
}
/* Function: esl_opt_ProcessSpoof()
* Synopsis: Parses a string as if it were a command line.
*
* Purpose: Process the string <cmdline> as if it were a
* complete command line.
*
* Essentially the same as <esl_opt_ProcessCmdline()>
* except that whitespace-delimited tokens first need to be
* identified in the <cmdline> first, then passed as
* <argc>,<argv> to <esl_opt_ProcessCmdline()>.
*
* Returns: <eslOK> on success, and <g> is loaded with the
* application configuration.
*
* Returns <eslEINVAL> on any parsing problem, and sets
* <g->errbuf> to an informative error message.
*
* Throws: <eslEMEM> on allocation failure.
*
* Xref: J4/24.
*/
int
esl_opt_ProcessSpoof(ESL_GETOPTS *g, const char *cmdline)
{
int argc = 0;
char *s = NULL;
void *p;
char *tok;
int status;
if (g->spoof != NULL || g->spoof_argv != NULL)
ESL_XFAIL(eslEINVAL, g->errbuf, "cannot process more than one spoofed command line");
if ((status = esl_strdup(cmdline, -1, &(g->spoof))) != eslOK) goto ERROR;
s = g->spoof;
/* old version
while (esl_strtok(&s, " \t\n", &tok) == eslOK)
{
argc++;
ESL_RALLOC(g->spoof_argv, p, sizeof(char *) * argc);
g->spoof_argv[argc-1] = tok;
}
*/
while(*s != '\0'){
int status2;
if(*s == '\"'){ //token begins with a quote, must end with one or EOL
status2 = esl_strtok(&s, "\"", &tok);
}
else{
status2 = esl_strtok(&s, " \t\n", &tok);
}
if(status2 != eslOK){
break; // done parsing tokens
}
argc++;
ESL_RALLOC(g->spoof_argv, p, sizeof(char *) * argc);
g->spoof_argv[argc-1] = tok;
}
status = esl_opt_ProcessCmdline(g, argc, g->spoof_argv);
return status;
ERROR:
if (g->spoof != NULL) { free(g->spoof); g->spoof = NULL; }
if (g->spoof_argv != NULL) { free(g->spoof_argv); g->spoof_argv = NULL; }
return status;
}
/* Function: esl_opt_VerifyConfig()
* Synopsis: Validates configuration after options are set.
*
* Purpose: Given a <g> that we think is fully configured now --
* from config file(s), environment, and command line --
* verify that the configuration is self-consistent:
* for every option that is set, make sure that any
* required options are also set, and that no
* incompatible options are set. ``Set'' means
* the configured value is non-default and non-NULL (including booleans),
* and ``not set'' means the value is default or NULL. (That is,
* we don't go solely by <setby>, which refers to who
* determined the state of an option, even if
* it is turned off.)
*
* Returns: <eslOK> on success.
* <eslESYNTAX> if a required option is not set, or
* if an incompatible option is set; in this case, sets
* <g->errbuf> to contain a useful error message for
* the user.
*
* Throws: <eslEINVAL> if something's wrong with the <ESL_OPTIONS>
* structure itself -- a coding error in the application.
*/
int
esl_opt_VerifyConfig(ESL_GETOPTS *g)
{
int i,reqi,incompati;
char *s;
int status;
/* For all options that are set (not in default configuration,
* and turned on with non-NULL vals),
* verify that all their required_opts are set.
*/
for (i = 0; i < g->nopts; i++)
{
if (g->setby[i] != eslARG_SETBY_DEFAULT && g->val[i] != NULL)
{
s = g->opt[i].required_opts;
while ((status = process_optlist(g, &s, &reqi)) != eslEOD)
{
if (status != eslOK) ESL_EXCEPTION(eslEINVAL, "something's wrong with format of optlist: %s\n", s);
if (g->val[reqi] == NULL)
{
if (g->setby[i] >= eslARG_SETBY_CFGFILE)
ESL_FAIL(eslESYNTAX, g->errbuf, "Option %.24s (set by cfg file %d) requires (or has no effect without) option(s) %.24s",
g->opt[i].name, g->setby[i]-2, g->opt[i].required_opts);
else if (g->setby[i] == eslARG_SETBY_ENV)
ESL_FAIL(eslESYNTAX, g->errbuf, "Option %.24s (set by env var %s) requires (or has no effect without) option(s) %.24s",
g->opt[i].name, g->opt[i].envvar, g->opt[i].required_opts);
else
ESL_FAIL(eslESYNTAX, g->errbuf, "Option %.24s requires (or has no effect without) option(s) %.24s",
g->opt[i].name, g->opt[i].required_opts);
}
}
}
}
/* For all options that are set (turned on with non-NULL vals),
* verify that no incompatible options are set to non-default
* values (notice the setby[incompati] check)
*/
for (i = 0; i < g->nopts; i++)
{
if (g->setby[i] != eslARG_SETBY_DEFAULT && g->val[i] != NULL)
{
s = g->opt[i].incompat_opts;
while ((status = process_optlist(g, &s, &incompati)) != eslEOD)
{
if (status != eslOK) ESL_EXCEPTION(eslEINVAL, "something's wrong with format of optlist: %s\n", s);
if (incompati != i && (g->setby[incompati] != eslARG_SETBY_DEFAULT && g->val[incompati] != NULL))
{
if (g->setby[i] >= eslARG_SETBY_CFGFILE)
ESL_FAIL(eslESYNTAX, g->errbuf, "Option %.24s (set by cfg file %d) is incompatible with option(s) %.24s",
g->opt[i].name, g->setby[i]-2, g->opt[i].incompat_opts);
else if (g->setby[i] == eslARG_SETBY_ENV)
ESL_FAIL(eslESYNTAX, g->errbuf, "Option %.24s (set by env var %s) is incompatible with option(s) %.24s",
g->opt[i].name, g->opt[i].envvar, g->opt[i].incompat_opts);
else
ESL_FAIL(eslESYNTAX, g->errbuf, "Option %.24s is incompatible with option(s) %.24s",
g->opt[i].name, g->opt[i].incompat_opts);
}
}
}
}
return eslOK;
}
/* Function: esl_opt_ArgNumber()
* Synopsis: Returns number of command line arguments.
*
* Purpose: Returns the number of command line arguments.
*
* Caller must have already called
* <esl_opt_ProcessCmdline()>, in order for all the options
* to be parsed first. Everything left on the command line
* is taken to be an argument.
*/
int
esl_opt_ArgNumber(const ESL_GETOPTS *g)
{
return ((g)->argc - (g)->optind);
}
/* Function: esl_opt_SpoofCmdline()
* Synopsis: Create faux command line from current option configuration.
*
* Purpose: Given the current configuration state of the application
* <g>, create a command line that would recreate the same
* state by itself (without any environment or config file
* settings), and return it in <*ret_cmdline>.
*
* Returns: <eslOK> on success. The <*ret_cmdline> is allocated here,
* and caller is responsible for freeing it.
*
* Throws: <eslEMEM> on allocation error, and <*ret_cmdline> is <NULL>.
*
* Xref: J4/24
*/
int
esl_opt_SpoofCmdline(const ESL_GETOPTS *g, char **ret_cmdline)
{
char *cmdline = NULL;
char *p = NULL;
int ntot = 0;
int n;
int i, j;
int status;
/* Application name/path */
ntot = strlen(g->argv[0]) + 1; // +1 for the space
ESL_ALLOC(cmdline, sizeof(char) * (ntot+1)); // +1 for the \0
snprintf(cmdline, ntot+1, "%s ", g->argv[0]);
/* Options */
for (i = 0; i < g->nopts; i++)
if (g->setby[i] != eslARG_SETBY_DEFAULT)
{
if (g->opt[i].type == eslARG_NONE) n = strlen(g->opt[i].name) + 1;
else n = (strlen(g->opt[i].name) + strlen(g->val[i])) + 2;
ESL_RALLOC(cmdline, p, sizeof(char) * (ntot + n + 1));
if (g->opt[i].type == eslARG_NONE) snprintf(cmdline + ntot, n+1, "%s ", g->opt[i].name);
else snprintf(cmdline + ntot, n+1, "%s %s ", g->opt[i].name, g->val[i]);
ntot += n;
}
/* Arguments */
for (j = g->optind; j < g->argc; j++)
{
n = strlen(g->argv[j]) + 1;
ESL_RALLOC(cmdline, p, sizeof(char) * (ntot + n + 1));
snprintf(cmdline + ntot, n+1, "%s ", g->argv[j]);
ntot += n;
}
/* Terminate */
cmdline[ntot] = '\0';
*ret_cmdline = cmdline;
return eslOK;
ERROR:
if (cmdline != NULL) free(cmdline);
*ret_cmdline = NULL;
return status;
}
/*****************************************************************
*# 3. Retrieving option settings and command line args
*****************************************************************/
/* Function: esl_opt_IsDefault()
* Synopsis: Returns <TRUE> if option remained at default setting.
*
* Purpose: Returns <TRUE> if option <optname> is in its
* default state; returns <FALSE> if <optname> was
* changed on the command line, in the environment, or in
* a configuration file.
*/
int
esl_opt_IsDefault(const ESL_GETOPTS *g, char *optname)
{
int opti;
if (get_optidx_exactly(g, optname, &opti) != eslOK) esl_fatal("no such option %s\n", optname);
if (g->setby[opti] == eslARG_SETBY_DEFAULT) return TRUE;
if (g->val[opti] == NULL && g->opt[opti].defval == NULL) return TRUE;
if (esl_strcmp(g->opt[opti].defval, g->val[opti]) == 0) return TRUE; /* option may have been set but restored to original default value */
return FALSE;
}
/* Function: esl_opt_IsOn()
* Synopsis: Returns <TRUE> if option is set to a non-<NULL> value.
*
* Purpose: Returns <TRUE> if option is on (set to a non-<NULL>
* value).
*
* This is most useful when using integer-, real-, char-,
* or string-valued options also as boolean switches, where
* they can either be OFF, or they can be turned ON by
* having a value. Caller can test <esl_opt_IsOn()> to see
* if the option's active at all, then use
* <esl_opt_GetString()> or whatever to extract the option
* value.
*
* For a boolean option, the result is identical to
* <esl_opt_GetBoolean()>.
*
* Xref: J4/83.
*/
int
esl_opt_IsOn(const ESL_GETOPTS *g, char *optname)
{
int opti;
if (get_optidx_exactly(g, optname, &opti) != eslOK) esl_fatal("no such option %s\n", optname);
if (g->val[opti] == NULL) return FALSE;
else return TRUE;
}
/* Function: esl_opt_IsUsed()
* Synopsis: Returns <TRUE> if option is on, and this is not the default.
*
* Purpose: Returns <TRUE> if option <optname> is in use: it has been
* set to a non-default value, and that value correspond to
* the option being "on" (a non-<NULL> value).
*
* This is used in printing application headers, where
* we want to report all the options that are in effect that
* weren't already on by default.
*
* Xref: J4/83
*/
int
esl_opt_IsUsed(const ESL_GETOPTS *g, char *optname)
{
int opti;
if (get_optidx_exactly(g, optname, &opti) != eslOK) esl_fatal("no such option %s\n", optname);
if (esl_opt_IsDefault(g, optname)) return FALSE;
if (g->val[opti] == NULL) return FALSE;
return TRUE;
}
/* Function: esl_opt_GetSetter()
* Synopsis: Returns code for who set this option.
*
* Purpose: For a processed options object <g>, return the code
* for who set option <optname>. This code is <eslARG_SETBY_DEFAULT>,
* <eslARG_SETBY_CMDLINE>, <eslARG_SETBY_ENV>, or it
* is $\geq$ <eslARG_SETBY_CFGFILE>. If the option
* was configured by a config file, the file number (the order
* of <esl_opt_ProcessConfigFile()> calls) is encoded in codes
* $\geq <eslARG_SETBY_CFGFILE>$ as
* file number $=$ <code> - <eslARG_SETBY_CFGFILE> + 1.
*/
int
esl_opt_GetSetter(const ESL_GETOPTS *g, char *optname)
{
int opti;
if (get_optidx_exactly(g, optname, &opti) != eslOK) esl_fatal("no such option %s\n", optname);
return g->setby[opti];
}
/* Function: esl_opt_GetBoolean()
* Synopsis: Retrieve <TRUE>/<FALSE> for a boolean option.
*
* Purpose: Retrieves the configured TRUE/FALSE value for option <optname>
* from <g>.
*/
int
esl_opt_GetBoolean(const ESL_GETOPTS *g, char *optname)
{
int opti;
if (get_optidx_exactly(g, optname, &opti) == eslENOTFOUND)
esl_fatal("no such option %s\n", optname);
if (g->opt[opti].type != eslARG_NONE)
esl_fatal("option %s is not a boolean; code called _GetBoolean", optname);
if (g->val[opti] == NULL) return FALSE;
else return TRUE;
}
/* Function: esl_opt_GetInteger()
* Synopsis: Retrieve value of an integer option.
*
* Purpose: Retrieves the configured value for option <optname>
* from <g>.
*/
int
esl_opt_GetInteger(const ESL_GETOPTS *g, char *optname)
{
int opti;
if (get_optidx_exactly(g, optname, &opti) == eslENOTFOUND)
esl_fatal("no such option %s\n", optname);