OpenSceneGraph/src/osg/ArgumentParser.cpp

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#include <osg/ArgumentParser>
#include <osg/ApplicationUsage>
#include <osg/Notify>
#include <set>
#include <iostream>
using namespace osg;
bool ArgumentParser::isOption(const char* str)
{
return str && str[0]=='-';
}
bool ArgumentParser::isString(const char* str)
{
if (!str) return false;
return true;
//return !isOption(str);
}
bool ArgumentParser::isNumber(const char* str)
{
if (!str) return false;
bool hadPlusMinus = false;
bool hadDecimalPlace = false;
bool hadExponent = false;
bool couldBeInt = true;
bool couldBeFloat = true;
int noZeroToNine = 0;
const char* ptr = str;
// check if could be a hex number.
if (strncmp(ptr,"0x",2)==0)
{
// skip over leading 0x, and then go through rest of string
// checking to make sure all values are 0...9 or a..f.
ptr+=2;
while (
*ptr!=0 &&
((*ptr>='0' && *ptr<='9') ||
(*ptr>='a' && *ptr<='f') ||
(*ptr>='A' && *ptr<='F'))
)
{
++ptr;
}
// got to end of string without failure, therefore must be a hex integer.
if (*ptr==0) return true;
}
ptr = str;
// check if a float or an int.
while (*ptr!=0 && couldBeFloat)
{
if (*ptr=='+' || *ptr=='-')
{
if (hadPlusMinus)
{
couldBeInt = false;
couldBeFloat = false;
} else hadPlusMinus = true;
}
else if (*ptr>='0' && *ptr<='9')
{
noZeroToNine++;
}
else if (*ptr=='.')
{
if (hadDecimalPlace)
{
couldBeInt = false;
couldBeFloat = false;
}
else
{
hadDecimalPlace = true;
couldBeInt = false;
}
}
else if (*ptr=='e' || *ptr=='E')
{
if (hadExponent || noZeroToNine==0)
{
couldBeInt = false;
couldBeFloat = false;
}
else
{
hadExponent = true;
couldBeInt = false;
hadDecimalPlace = false;
hadPlusMinus = false;
noZeroToNine=0;
}
}
else
{
couldBeInt = false;
couldBeFloat = false;
}
++ptr;
}
if (couldBeInt && noZeroToNine>0) return true;
if (couldBeFloat && noZeroToNine>0) return true;
return false;
}
bool ArgumentParser::Parameter::valid(const char* str) const
{
switch(_type)
{
case Parameter::FLOAT_PARAMETER: return isNumber(str); break;
case Parameter::DOUBLE_PARAMETER: return isNumber(str); break;
case Parameter::INT_PARAMETER: return isNumber(str); break;
case Parameter::UNSIGNED_INT_PARAMETER: return isNumber(str); break;
case Parameter::STRING_PARAMETER: return isString(str); break;
}
return false;
}
bool ArgumentParser::Parameter::assign(const char* str)
{
if (valid(str))
{
switch(_type)
{
case Parameter::FLOAT_PARAMETER: *_value._float = atof(str); break;
case Parameter::DOUBLE_PARAMETER: *_value._double = atof(str); break;
case Parameter::INT_PARAMETER: *_value._int = atoi(str); break;
case Parameter::UNSIGNED_INT_PARAMETER: *_value._uint = atoi(str); break;
case Parameter::STRING_PARAMETER: *_value._string = str; break;
}
return true;
}
else
{
return false;
}
}
ArgumentParser::ArgumentParser(int* argc,char **argv):
_argc(argc),
_argv(argv),
_usage(ApplicationUsage::instance())
{
}
std::string ArgumentParser::getApplicationName() const
{
if (_argc && *_argc>0 ) return std::string(_argv[0]);
return "";
}
bool ArgumentParser::isOption(int pos) const
{
return pos<*_argc && isOption(_argv[pos]);
}
bool ArgumentParser::isString(int pos) const
{
return pos < *_argc && isString(_argv[pos]);
}
bool ArgumentParser::isNumber(int pos) const
{
return pos < *_argc && isNumber(_argv[pos]);
}
int ArgumentParser::find(const std::string& str) const
{
for(int pos=1;pos<*_argc;++pos)
{
if (str==_argv[pos])
{
return pos;
}
}
return 0;
}
bool ArgumentParser::match(int pos, const std::string& str) const
{
return pos<*_argc && str==_argv[pos];
}
bool ArgumentParser::containsOptions() const
{
for(int pos=1;pos<*_argc;++pos)
{
if (isOption(pos)) return true;
}
return false;
}
void ArgumentParser::remove(int pos,int num)
{
if (num==0) return;
for(;pos+num<*_argc;++pos)
{
_argv[pos]=_argv[pos+num];
}
for(;pos<*_argc;++pos)
{
_argv[pos]=0;
}
*_argc-=num;
}
bool ArgumentParser::read(const std::string& str)
{
int pos=find(str);
if (pos<=0) return false;
remove(pos);
return true;
}
bool ArgumentParser::read(const std::string& str, Parameter value1)
{
int pos=find(str);
if (pos<=0) return false;
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return read(pos,str,value1);
}
bool ArgumentParser::read(const std::string& str, Parameter value1, Parameter value2)
{
int pos=find(str);
if (pos<=0) return false;
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return read(pos,str,value1, value2);
}
bool ArgumentParser::read(const std::string& str, Parameter value1, Parameter value2, Parameter value3)
{
int pos=find(str);
if (pos<=0) return false;
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return read(pos,str,value1, value2, value3);
}
bool ArgumentParser::read(const std::string& str, Parameter value1, Parameter value2, Parameter value3, Parameter value4)
{
int pos=find(str);
if (pos<=0) return false;
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return read(pos,str,value1, value2, value3, value4);
}
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bool ArgumentParser::read(const std::string& str, Parameter value1, Parameter value2, Parameter value3, Parameter value4, Parameter value5)
{
int pos=find(str);
if (pos<=0) return false;
return read(pos,str,value1, value2, value3, value4, value5);
}
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bool ArgumentParser::read(const std::string& str, Parameter value1, Parameter value2, Parameter value3, Parameter value4, Parameter value5, Parameter value6)
{
int pos=find(str);
if (pos<=0) return false;
return read(pos,str,value1, value2, value3, value4, value5, value6);
}
bool ArgumentParser::read(const std::string& str, Parameter value1, Parameter value2, Parameter value3, Parameter value4, Parameter value5, Parameter value6, Parameter value7)
{
int pos=find(str);
if (pos<=0) return false;
return read(pos,str,value1, value2, value3, value4, value5, value6, value7);
}
bool ArgumentParser::read(const std::string& str, Parameter value1, Parameter value2, Parameter value3, Parameter value4, Parameter value5, Parameter value6, Parameter value7, Parameter value8)
{
int pos=find(str);
if (pos<=0) return false;
return read(pos,str,value1, value2, value3, value4, value5, value6, value7, value8);
}
/** if the argument value at the position pos matches specified string, and subsequent
* Parameters are also matched then set the Parameter values and remove the from the list of arguments.*/
bool ArgumentParser::read(int pos, const std::string& str)
{
if (match(pos,str))
{
remove(pos,1);
return true;
}
else
{
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reportError("argument to `"+str+"` is missing");
return false;
}
}
bool ArgumentParser::read(int pos, const std::string& str, Parameter value1)
{
if (match(pos,str) &&
value1.valid(_argv[pos+1]))
{
value1.assign(_argv[pos+1]);
remove(pos,2);
return true;
}
else
{
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reportError("argument to `"+str+"` is missing");
return false;
}
}
bool ArgumentParser::read(int pos, const std::string& str, Parameter value1, Parameter value2)
{
if (match(pos,str) &&
value1.valid(_argv[pos+1]) &&
value2.valid(_argv[pos+2]))
{
value1.assign(_argv[pos+1]);
value2.assign(_argv[pos+2]);
remove(pos,3);
return true;
}
else
{
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reportError("argument to `"+str+"` is missing");
return false;
}
}
bool ArgumentParser::read(int pos, const std::string& str, Parameter value1, Parameter value2, Parameter value3)
{
if (match(pos,str) &&
value1.valid(_argv[pos+1]) &&
value2.valid(_argv[pos+2]) &&
value3.valid(_argv[pos+3]))
{
value1.assign(_argv[pos+1]);
value2.assign(_argv[pos+2]);
value3.assign(_argv[pos+3]);
remove(pos,4);
return true;
}
else
{
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reportError("argument to `"+str+"` is missing");
return false;
}
}
bool ArgumentParser::read(int pos, const std::string& str, Parameter value1, Parameter value2, Parameter value3, Parameter value4)
{
if (match(pos,str) &&
value1.valid(_argv[pos+1]) &&
value2.valid(_argv[pos+2]) &&
value3.valid(_argv[pos+3]) &&
value4.valid(_argv[pos+4]))
{
value1.assign(_argv[pos+1]);
value2.assign(_argv[pos+2]);
value3.assign(_argv[pos+3]);
value4.assign(_argv[pos+4]);
remove(pos,5);
return true;
}
else
{
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reportError("argument to `"+str+"` is missing");
return false;
}
}
bool ArgumentParser::read(int pos, const std::string& str, Parameter value1, Parameter value2, Parameter value3, Parameter value4, Parameter value5)
{
if (match(pos,str) &&
value1.valid(_argv[pos+1]) &&
value2.valid(_argv[pos+2]) &&
value3.valid(_argv[pos+3]) &&
value4.valid(_argv[pos+4]) &&
value5.valid(_argv[pos+5]))
{
value1.assign(_argv[pos+1]);
value2.assign(_argv[pos+2]);
value3.assign(_argv[pos+3]);
value4.assign(_argv[pos+4]);
value5.assign(_argv[pos+5]);
remove(pos,6);
return true;
}
else
{
reportError("argument to `"+str+"` is missing");
return false;
}
}
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bool ArgumentParser::read(int pos, const std::string& str, Parameter value1, Parameter value2, Parameter value3, Parameter value4, Parameter value5, Parameter value6)
{
if (match(pos,str) &&
value1.valid(_argv[pos+1]) &&
value2.valid(_argv[pos+2]) &&
value3.valid(_argv[pos+3]) &&
value4.valid(_argv[pos+4]) &&
value5.valid(_argv[pos+5]) &&
value6.valid(_argv[pos+6]))
{
value1.assign(_argv[pos+1]);
value2.assign(_argv[pos+2]);
value3.assign(_argv[pos+3]);
value4.assign(_argv[pos+4]);
value5.assign(_argv[pos+5]);
value6.assign(_argv[pos+6]);
remove(pos,7);
return true;
}
else
{
reportError("argument to `"+str+"` is missing");
return false;
}
}
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bool ArgumentParser::read(int pos, const std::string& str, Parameter value1, Parameter value2, Parameter value3, Parameter value4, Parameter value5, Parameter value6, Parameter value7)
{
if (match(pos,str) &&
value1.valid(_argv[pos+1]) &&
value2.valid(_argv[pos+2]) &&
value3.valid(_argv[pos+3]) &&
value4.valid(_argv[pos+4]) &&
value5.valid(_argv[pos+5]) &&
value6.valid(_argv[pos+6]) &&
value7.valid(_argv[pos+7]))
{
value1.assign(_argv[pos+1]);
value2.assign(_argv[pos+2]);
value3.assign(_argv[pos+3]);
value4.assign(_argv[pos+4]);
value5.assign(_argv[pos+5]);
value6.assign(_argv[pos+6]);
value7.assign(_argv[pos+7]);
remove(pos,8);
return true;
}
else
{
reportError("argument to `"+str+"` is missing");
return false;
}
}
bool ArgumentParser::read(int pos, const std::string& str, Parameter value1, Parameter value2, Parameter value3, Parameter value4, Parameter value5, Parameter value6, Parameter value7, Parameter value8)
{
if (match(pos,str) &&
value1.valid(_argv[pos+1]) &&
value2.valid(_argv[pos+2]) &&
value3.valid(_argv[pos+3]) &&
value4.valid(_argv[pos+4]) &&
value5.valid(_argv[pos+5]) &&
value6.valid(_argv[pos+6]) &&
value7.valid(_argv[pos+7]) &&
value8.valid(_argv[pos+8]))
{
value1.assign(_argv[pos+1]);
value2.assign(_argv[pos+2]);
value3.assign(_argv[pos+3]);
value4.assign(_argv[pos+4]);
value5.assign(_argv[pos+5]);
value6.assign(_argv[pos+6]);
value7.assign(_argv[pos+7]);
value8.assign(_argv[pos+8]);
remove(pos,9);
return true;
}
else
{
reportError("argument to `"+str+"` is missing");
return false;
}
}
bool ArgumentParser::errors(ErrorSeverity severity) const
{
for(ErrorMessageMap::const_iterator itr=_errorMessageMap.begin();
itr!=_errorMessageMap.end();
++itr)
{
if (itr->second>=severity) return true;
}
return false;
}
void ArgumentParser::reportError(const std::string& message,ErrorSeverity severity)
{
_errorMessageMap[message]=severity;
}
void ArgumentParser::reportRemainingOptionsAsUnrecognized(ErrorSeverity severity)
{
std::set<std::string> options;
if (_usage)
{
// parse the usage options to get all the option that the application can potential handle.
for(ApplicationUsage::UsageMap::const_iterator itr=_usage->getCommandLineOptions().begin();
itr!=_usage->getCommandLineOptions().end();
++itr)
{
const std::string& option = itr->first;
std::string::size_type prevpos = 0, pos = 0;
while ((pos=option.find(' ',prevpos))!=std::string::npos)
{
if (option[prevpos]=='-')
{
options.insert(std::string(option,prevpos,pos-prevpos));
}
prevpos=pos+1;
}
if (option[prevpos]=='-')
{
options.insert(std::string(option,prevpos,std::string::npos));
}
}
}
for(int pos=1;pos<argc();++pos)
{
// if an option and havn't been previous querried for report as unrecognized.
if (isOption(pos) && options.find(_argv[pos])==options.end())
{
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reportError(getApplicationName() +": unrecognized option "+_argv[pos],severity);
}
}
}
void ArgumentParser::writeErrorMessages(std::ostream& output,ErrorSeverity severity)
{
for(ErrorMessageMap::iterator itr=_errorMessageMap.begin();
itr!=_errorMessageMap.end();
++itr)
{
if (itr->second>=severity)
{
output<< getApplicationName() << ": " << itr->first << std::endl;
}
}
}