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#include "opt2.h"
#include <util/generic/hash.h>
#include <util/generic/utility.h>
#include <util/generic/yexception.h>
#include <util/str_stl.h>
#include <stdio.h>
#include <errno.h>
#include <ctype.h>
void Opt2::Clear() {
Specs.clear();
memset(SpecsMap, 0, sizeof(SpecsMap));
Pos.clear();
}
void Opt2::Init(int argc, char* const* argv, const char* optspec, IntRange free_args_num, const char* long_alias) {
Clear();
Argc = argc;
Argv = argv;
HasErrors = false, BadPosCount = false, UnknownOption = 0, OptionMissingArg = 0;
UnknownLongOption = nullptr;
OptionWrongArg = 0, RequiredOptionMissing = 0;
EatArgv(optspec, long_alias);
MinArgs = Min<int>(free_args_num.Left, free_args_num.Right);
MaxArgs = Max<int>(free_args_num.Left, free_args_num.Right);
if (!HasErrors && MinArgs != -1 && ((int)Pos.size() < MinArgs || (int)Pos.size() > MaxArgs))
BadPosCount = HasErrors = true;
}
void Opt2::EatArgv(const char* optspec, const char* long_alias) {
// some flags
bool require_order = false;
if (*optspec == '+') {
require_order = true;
optspec++;
}
if (*optspec == '-')
ythrow yexception() << "Flag '-' can not be used in Opt2's optspec";
// step 1 - parse optspec
for (const char* s = optspec; *s; s++) {
if (SpecsMap[(ui8)*s])
ythrow yexception() << "Symbol '" << *s << "' is met twice in Opt2's optspec";
if (*s == '?' || *s == '-')
ythrow yexception() << "Opt2: Symbol '" << *s << "' can not be used in optspec because it is reserved";
Specs.push_back(Opt2Param());
SpecsMap[(ui8)*s] = (ui8)Specs.size(); // actual index + 1
Specs.back().opt = *s;
if (s[1] == ':') {
Specs.back().HasArg = true;
if (s[2] == ':')
ythrow yexception() << "Opt2 does not accept optional parameters (e.g. \"a::\") in optspec";
s++;
}
}
// long_alias has a form "long-name1=A,long-name2=B", etc.
// This implementation is limited to aliasing a single long option
// with single short option (extend it if you really need).
THashMap<const char*, char> long2short;
long2short["help"] = '?';
long_alias = long_alias ? long_alias : "";
alias_copy = long_alias;
for (char* s = alias_copy.begin(); s && *s;) {
char* eq = strchr(s, '=');
char* comma = strchr(s, ',');
if (comma)
*comma = 0;
if (!eq || (comma && comma < eq))
ythrow yexception() << "Opt2, long_alias: '=' is expected after " << s;
*eq++ = 0;
if (!*eq || eq[1])
ythrow yexception() << "Opt2, long_alias: single letter must be assigned to " << s;
if (!SpecsMap[(ui8)*eq])
ythrow yexception() << "Opt2, long_alias: trying to assign unknown option '" << *eq << "' to " << s;
Opt2Param& p = Specs[SpecsMap[(ui8)*eq] - 1];
// If several long options aliased to some letter, only last one is shown in usage
p.LongOptName = s;
if (long2short.find(s) != long2short.end())
ythrow yexception() << "Opt2, long_alias: " << s << " specified twice";
long2short[s] = *eq;
s = comma ? comma + 1 : nullptr;
}
if (Argc < 1) {
HasErrors = true;
return;
}
// step 2 - parse argv
int ind = 1;
for (; ind != Argc; ind++) {
if (*Argv[ind] != '-') {
if (require_order) // everything now goes to Pos
break;
Pos.push_back(Argv[ind]);
continue;
}
const char* s = Argv[ind] + 1;
if (*s == '-') {
if (!*++s) { // `--' terminates the list of options
ind++;
break;
}
// long option always spans one argv (--switch or --option-name=value)
const char* eq = strchr(s, '=');
TString lname(s, eq ? (size_t)(eq - s) : (size_t)strlen(s));
THashMap<const char*, char>::iterator i = long2short.find(lname.data());
if (i == long2short.end()) {
UnknownLongOption = strdup(lname.data()); // free'd in AutoUsage()
HasErrors = true;
return;
}
if (i->second == '?') {
UnknownOption = '?';
HasErrors = true;
continue;
}
Opt2Param& p = Specs[SpecsMap[(ui8)i->second] - 1];
p.IsFound = true;
if (p.HasArg && !eq) {
HasErrors = true;
OptionMissingArg = p.opt; // short option, indeed
return;
}
if (!p.HasArg && eq) {
HasErrors = true;
OptionWrongArg = p.opt; // short option, indeed
return;
}
if (eq)
p.ActualValue.push_back(eq + 1);
continue;
}
for (; *s; s++) {
if (!SpecsMap[(ui8)*s]) {
UnknownOption = *s;
HasErrors = true;
if (*s == '?')
continue;
return;
}
Opt2Param& p = Specs[SpecsMap[(ui8)*s] - 1];
p.IsFound = true;
if (p.HasArg) {
if (s[1])
p.ActualValue.push_back(s + 1);
else {
ind++;
if (ind == Argc) {
HasErrors = true;
OptionMissingArg = *s;
p.IsFound = false;
return;
}
p.ActualValue.push_back(Argv[ind]);
}
break;
}
}
}
for (; ind != Argc; ind++)
Pos.push_back(Argv[ind]);
}
Opt2Param& Opt2::GetInternal(char opt, const char* defValue, const char* helpUsage, bool requred) {
if (!SpecsMap[(ui8)opt])
ythrow yexception() << "Unspecified option character '" << opt << "' asked from Opt2::Get";
Opt2Param& p = Specs[SpecsMap[(ui8)opt] - 1];
p.DefValue = defValue;
p.HelpUsage = helpUsage;
p.IsRequired = requred;
if (!p.IsFound && requred && !HasErrors) {
RequiredOptionMissing = opt;
HasErrors = true;
}
return p;
}
// For options with parameters
const char* Opt2::Arg(char opt, const char* help, const char* def, bool required) {
Opt2Param& p = GetInternal(opt, def, help, required);
if (!p.HasArg)
ythrow yexception() << "Opt2::Arg called for '" << opt << "' which is an option without argument";
return p.IsFound ? p.ActualValue.empty() ? nullptr : p.ActualValue.back() : def;
}
// For options with parameters
const char* Opt2::Arg(char opt, const char* help, TString def, bool required) {
Opt2Param& p = GetInternal(opt, nullptr, help, required);
if (!p.HasArg)
ythrow yexception() << "Opt2::Arg called for '" << opt << "' which is an option without argument";
p.DefValueStr = def;
p.DefValue = p.DefValueStr.begin();
return p.IsFound ? p.ActualValue.empty() ? nullptr : p.ActualValue.back() : p.DefValue;
}
// Options with parameters that can be specified several times
const TVector<const char*>& Opt2::MArg(char opt, const char* help) {
Opt2Param& p = GetInternal(opt, nullptr, help, false);
p.MultipleUse = true;
if (!p.HasArg)
ythrow yexception() << "Opt2::Arg called for '" << opt << "' which is an option without argument";
return p.ActualValue;
}
/// For options w/o parameters
bool Opt2::Has(char opt, const char* help) {
Opt2Param& p = GetInternal(opt, nullptr, help, false);
if (p.HasArg)
ythrow yexception() << "Opt2::Has called for '" << opt << "' which is an option with argument";
return p.IsFound;
}
// Get() + strtol, may set up HasErrors
long Opt2::Int(char opt, const char* help, long def, bool required) {
Opt2Param& p = GetInternal(opt, (char*)(uintptr_t)def, help, required);
if (!p.HasArg)
ythrow yexception() << "Opt2::Int called for '" << opt << "' which is an option without argument";
p.IsNumeric = true;
if (!p.IsFound || p.ActualValue.empty() || !p.ActualValue.back())
return def;
char* e;
long rv = strtol(p.ActualValue.back(), &e, 10);
if (e == p.ActualValue.back() || *e) {
OptionWrongArg = opt;
HasErrors = true;
}
return rv;
}
// Get() + strtoul, may set up HasErrors
unsigned long Opt2::UInt(char opt, const char* help, unsigned long def, bool required) {
Opt2Param& p = GetInternal(opt, (char*)(uintptr_t)def, help, required);
if (!p.HasArg)
ythrow yexception() << "Opt2::UInt called for '" << opt << "' which is an option without argument";
p.IsNumeric = true;
if (!p.IsFound || p.ActualValue.empty() || !p.ActualValue.back())
return def;
char* e;
unsigned long rv = strtoul(p.ActualValue.back(), &e, 10);
if (e == p.ActualValue.back() || *e) {
OptionWrongArg = opt;
HasErrors = true;
}
return rv;
}
// Add user defined error message and set error flag
void Opt2::AddError(const char* message) {
HasErrors = true;
if (message)
UserErrorMessages.push_back(message);
}
int Opt2::AutoUsage(const char* free_arg_names) {
if (!HasErrors)
return 0;
FILE* where = UnknownOption == '?' ? stdout : stderr;
char req_str[256], nreq_str[256];
int req = 0, nreq = 0;
for (int n = 0; n < (int)Specs.size(); n++)
if (Specs[n].IsRequired)
req_str[req++] = Specs[n].opt;
else
nreq_str[nreq++] = Specs[n].opt;
req_str[req] = 0, nreq_str[nreq] = 0;
const char* prog = strrchr(Argv[0], LOCSLASH_C);
prog = prog ? prog + 1 : Argv[0];
fprintf(where, "Usage: %s%s%s%s%s%s%s%s\n", prog, req ? " -" : "", req_str,
nreq ? " [-" : "", nreq_str, nreq ? "]" : "",
free_arg_names && *free_arg_names ? " " : "", free_arg_names);
for (auto& spec : Specs) {
const char* hlp = !spec.HelpUsage.empty() ? spec.HelpUsage.data() : spec.HasArg ? "<arg>" : "";
if (!spec.HasArg || spec.IsRequired)
fprintf(where, " -%c %s\n", spec.opt, hlp);
else if (!spec.IsNumeric)
fprintf(where, " -%c %s [Default: %s]\n", spec.opt, hlp, spec.DefValue);
else
fprintf(where, " -%c %s [Def.val: %li]\n", spec.opt, hlp, (long)(uintptr_t)spec.DefValue);
if (spec.LongOptName)
fprintf(where, " --%s%s - same as -%c\n", spec.LongOptName, spec.HasArg ? "=<argument>" : "", spec.opt);
}
if (OptionMissingArg)
fprintf(where, " *** Option '%c' is missing required argument\n", OptionMissingArg);
if (OptionWrongArg)
fprintf(where, " *** Incorrect argument for option '%c'\n", OptionWrongArg);
if (UnknownOption && UnknownOption != '?')
fprintf(where, " *** Unknown option '%c'\n", UnknownOption);
if (UnknownLongOption) {
fprintf(where, " *** Unknown long option '%s'\n", UnknownLongOption);
free(UnknownLongOption);
UnknownLongOption = nullptr;
}
if (RequiredOptionMissing)
fprintf(where, " *** Required option '%c' missing\n", RequiredOptionMissing);
if (BadPosCount && MinArgs != MaxArgs)
fprintf(where, " *** %i free argument(s) supplied, expected %i to %i\n", (int)Pos.size(), MinArgs, MaxArgs);
if (BadPosCount && MinArgs == MaxArgs)
fprintf(where, " *** %i free argument(s) supplied, expected %i\n", (int)Pos.size(), MinArgs);
for (const auto& userErrorMessage : UserErrorMessages)
fprintf(where, " *** %s\n", userErrorMessage.data());
return UnknownOption == '?' ? 1 : 2;
}
void Opt2::AutoUsageErr(const char* free_arg_names) {
if (AutoUsage(free_arg_names))
exit(1);
}
#ifdef OPT2_TEST
// TODO: convert it to unittest
bool opt2_ut_fail = false, opt_ut_verbose = false;
const char* ut_optspec;
int ut_real(TString args, bool err_exp, const char* A_exp, int b_exp, bool a_exp, const char* p1_exp, const char* p2_exp) {
char* argv[32];
int argc = sf(' ', argv, args.begin());
Opt2 opt(argc, argv, ut_optspec, 2, "option-1=A,option-2=a,");
const char* A = opt.Arg('A', "<qqq> - blah");
int b = opt.Int('b', "<rrr> - blah", 2);
bool a = opt.Has('a', "- blah");
/*const char *C = */ opt.Arg('C', "<ccc> - blah", 0);
if (opt_ut_verbose)
opt.AutoUsage("");
if (opt.HasErrors != err_exp)
return 1;
if (err_exp)
return false;
if (!A && A_exp || A && !A_exp || A && A_exp && strcmp(A, A_exp))
return 2;
if (b != b_exp)
return 3;
if (a != a_exp)
return 4;
if (strcmp(opt.Pos[0], p1_exp))
return 5;
if (strcmp(opt.Pos[1], p2_exp))
return 6;
return false;
}
void ut(const char* args, bool err_exp, const char* A_exp, int b_exp, bool a_exp, const char* p1_exp, const char* p2_exp) {
if (opt_ut_verbose)
fprintf(stderr, "Testing: %s\n", args);
if (int rv = ut_real(args, err_exp, A_exp, b_exp, a_exp, p1_exp, p2_exp)) {
opt2_ut_fail = true;
fprintf(stderr, "Test %i failed for: %s\n", rv, args);
} else {
if (opt_ut_verbose)
fprintf(stderr, "OK\n");
}
}
int main(int argc, char* argv[]) {
Opt2 opt(argc, argv, "v", 0);
opt_ut_verbose = opt.Has('v', "- some verboseness");
opt.AutoUsageErr("");
ut_optspec = "A:ab:C:";
ut("prog -A argA -a -b 22 -C argC Pos1 Pos2", false, "argA", 22, true, "Pos1", "Pos2");
ut("prog Pos1 -A argA -a -C argC Pos2", false, "argA", 2, true, "Pos1", "Pos2");
ut("prog -A argA Pos1 -b22 Pos2 -C argC", false, "argA", 22, false, "Pos1", "Pos2");
ut("prog -A argA Pos1 -b 22 Pos2 -C", true, "argA", 22, false, "Pos1", "Pos2");
ut("prog -A argA -a -b 22 -C Pos1 Pos2", true, "argA", 22, true, "Pos1", "Pos2");
ut("prog -A argA -a -b two -C argC Pos1 Pos2", true, "argA", 2, true, "Pos1", "Pos2");
ut("prog -a -b 22 -C argC Pos1 Pos2", true, "argA", 22, true, "Pos1", "Pos2");
ut("prog Pos1 --option-1=argA -a -C argC Pos2", false, "argA", 2, true, "Pos1", "Pos2");
ut("prog Pos1 -A argA --option-1 -a -C argC Pos2", true, "argA", 2, true, "Pos1", "Pos2");
ut("prog -A argA --option-2 -b -22 -C argC Pos1 Pos2", false, "argA", -22, true, "Pos1", "Pos2");
ut("prog -A argA --option-2 -b -22 -- -C argC", false, "argA", -22, true, "-C", "argC");
ut("prog -A argA --option-2=1 -b -22 -C argC Pos1 Pos2", true, "argA", -22, true, "Pos1", "Pos2");
ut_optspec = "+A:ab:C:";
ut("prog -A argA --option-2 v1 -C", false, "argA", 2, true, "v1", "-C");
ut("prog -A argA --option-2 v1 -C argC", true, "argA", 2, true, "v1", "-C");
if (!opt2_ut_fail)
fprintf(stderr, "All OK\n");
return opt2_ut_fail;
}
#endif // OPT2_TEST
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