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Diffstat (limited to 'Source/kwsys/CommandLineArguments.hxx.in')
| -rw-r--r-- | Source/kwsys/CommandLineArguments.hxx.in | 270 |
1 files changed, 270 insertions, 0 deletions
diff --git a/Source/kwsys/CommandLineArguments.hxx.in b/Source/kwsys/CommandLineArguments.hxx.in new file mode 100644 index 0000000..7db9015 --- /dev/null +++ b/Source/kwsys/CommandLineArguments.hxx.in @@ -0,0 +1,270 @@ +/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying + file Copyright.txt or https://cmake.org/licensing#kwsys for details. */ +#ifndef @KWSYS_NAMESPACE@_CommandLineArguments_hxx +#define @KWSYS_NAMESPACE@_CommandLineArguments_hxx + +#include <@KWSYS_NAMESPACE@/Configure.h> +#include <@KWSYS_NAMESPACE@/Configure.hxx> + +#include <string> +#include <vector> + +namespace @KWSYS_NAMESPACE@ { + +class CommandLineArgumentsInternal; +struct CommandLineArgumentsCallbackStructure; + +/** \class CommandLineArguments + * \brief Command line arguments processing code. + * + * Find specified arguments with optional options and execute specified methods + * or set given variables. + * + * The two interfaces it knows are callback based and variable based. For + * callback based, you have to register callback for particular argument using + * AddCallback method. When that argument is passed, the callback will be + * called with argument, value, and call data. For boolean (NO_ARGUMENT) + * arguments, the value is "1". If the callback returns 0 the argument parsing + * will stop with an error. + * + * For the variable interface you associate variable with each argument. When + * the argument is specified, the variable is set to the specified value casted + * to the appropriate type. For boolean (NO_ARGUMENT), the value is "1". + * + * Both interfaces can be used at the same time. + * + * Possible argument types are: + * NO_ARGUMENT - The argument takes no value : --A + * CONCAT_ARGUMENT - The argument takes value after no space : --Aval + * SPACE_ARGUMENT - The argument takes value after space : --A val + * EQUAL_ARGUMENT - The argument takes value after equal : --A=val + * MULTI_ARGUMENT - The argument takes values after space : --A val1 val2 + * val3 ... + * + * Example use: + * + * kwsys::CommandLineArguments arg; + * arg.Initialize(argc, argv); + * typedef kwsys::CommandLineArguments argT; + * arg.AddArgument("--something", argT::EQUAL_ARGUMENT, &some_variable, + * "This is help string for --something"); + * if ( !arg.Parse() ) + * { + * std::cerr << "Problem parsing arguments" << std::endl; + * res = 1; + * } + * + */ + +class @KWSYS_NAMESPACE@_EXPORT CommandLineArguments +{ +public: + CommandLineArguments(); + ~CommandLineArguments(); + + CommandLineArguments(const CommandLineArguments&) = delete; + CommandLineArguments& operator=(const CommandLineArguments&) = delete; + + /** + * Various argument types. + */ + enum ArgumentTypeEnum + { + NO_ARGUMENT, + CONCAT_ARGUMENT, + SPACE_ARGUMENT, + EQUAL_ARGUMENT, + MULTI_ARGUMENT + }; + + /** + * Various variable types. When using the variable interface, this specifies + * what type the variable is. + */ + enum VariableTypeEnum + { + NO_VARIABLE_TYPE = 0, // The variable is not specified + INT_TYPE, // The variable is integer (int) + BOOL_TYPE, // The variable is boolean (bool) + DOUBLE_TYPE, // The variable is float (double) + STRING_TYPE, // The variable is string (char*) + STL_STRING_TYPE, // The variable is string (char*) + VECTOR_INT_TYPE, // The variable is integer (int) + VECTOR_BOOL_TYPE, // The variable is boolean (bool) + VECTOR_DOUBLE_TYPE, // The variable is float (double) + VECTOR_STRING_TYPE, // The variable is string (char*) + VECTOR_STL_STRING_TYPE, // The variable is string (char*) + LAST_VARIABLE_TYPE + }; + + /** + * Prototypes for callbacks for callback interface. + */ + typedef int (*CallbackType)(const char* argument, const char* value, + void* call_data); + typedef int (*ErrorCallbackType)(const char* argument, void* client_data); + + /** + * Initialize internal data structures. This should be called before parsing. + */ + void Initialize(int argc, const char* const argv[]); + void Initialize(int argc, char* argv[]); + + /** + * Initialize internal data structure and pass arguments one by one. This is + * convenience method for use from scripting languages where argc and argv + * are not available. + */ + void Initialize(); + void ProcessArgument(const char* arg); + + /** + * This method will parse arguments and call appropriate methods. + */ + int Parse(); + + /** + * This method will add a callback for a specific argument. The arguments to + * it are argument, argument type, callback method, and call data. The + * argument help specifies the help string used with this option. The + * callback and call_data can be skipped. + */ + void AddCallback(const char* argument, ArgumentTypeEnum type, + CallbackType callback, void* call_data, const char* help); + + /** + * Add handler for argument which is going to set the variable to the + * specified value. If the argument is specified, the option is casted to the + * appropriate type. + */ + void AddArgument(const char* argument, ArgumentTypeEnum type, bool* variable, + const char* help); + void AddArgument(const char* argument, ArgumentTypeEnum type, int* variable, + const char* help); + void AddArgument(const char* argument, ArgumentTypeEnum type, + double* variable, const char* help); + void AddArgument(const char* argument, ArgumentTypeEnum type, + char** variable, const char* help); + void AddArgument(const char* argument, ArgumentTypeEnum type, + std::string* variable, const char* help); + + /** + * Add handler for argument which is going to set the variable to the + * specified value. If the argument is specified, the option is casted to the + * appropriate type. This will handle the multi argument values. + */ + void AddArgument(const char* argument, ArgumentTypeEnum type, + std::vector<bool>* variable, const char* help); + void AddArgument(const char* argument, ArgumentTypeEnum type, + std::vector<int>* variable, const char* help); + void AddArgument(const char* argument, ArgumentTypeEnum type, + std::vector<double>* variable, const char* help); + void AddArgument(const char* argument, ArgumentTypeEnum type, + std::vector<char*>* variable, const char* help); + void AddArgument(const char* argument, ArgumentTypeEnum type, + std::vector<std::string>* variable, const char* help); + + /** + * Add handler for boolean argument. The argument does not take any option + * and if it is specified, the value of the variable is true/1, otherwise it + * is false/0. + */ + void AddBooleanArgument(const char* argument, bool* variable, + const char* help); + void AddBooleanArgument(const char* argument, int* variable, + const char* help); + void AddBooleanArgument(const char* argument, double* variable, + const char* help); + void AddBooleanArgument(const char* argument, char** variable, + const char* help); + void AddBooleanArgument(const char* argument, std::string* variable, + const char* help); + + /** + * Set the callbacks for error handling. + */ + void SetClientData(void* client_data); + void SetUnknownArgumentCallback(ErrorCallbackType callback); + + /** + * Get remaining arguments. It allocates space for argv, so you have to call + * delete[] on it. + */ + void GetRemainingArguments(int* argc, char*** argv); + void DeleteRemainingArguments(int argc, char*** argv); + + /** + * If StoreUnusedArguments is set to true, then all unknown arguments will be + * stored and the user can access the modified argc, argv without known + * arguments. + */ + void StoreUnusedArguments(bool val) { this->StoreUnusedArgumentsFlag = val; } + void GetUnusedArguments(int* argc, char*** argv); + + /** + * Return string containing help. If the argument is specified, only return + * help for that argument. + */ + const char* GetHelp() { return this->Help.c_str(); } + const char* GetHelp(const char* arg); + + /** + * Get / Set the help line length. This length is used when generating the + * help page. Default length is 80. + */ + void SetLineLength(unsigned int); + unsigned int GetLineLength(); + + /** + * Get the executable name (argv0). This is only available when using + * Initialize with argc/argv. + */ + const char* GetArgv0(); + + /** + * Get index of the last argument parsed. This is the last argument that was + * parsed ok in the original argc/argv list. + */ + unsigned int GetLastArgument(); + +protected: + void GenerateHelp(); + + //! This is internal method that registers variable with argument + void AddArgument(const char* argument, ArgumentTypeEnum type, + VariableTypeEnum vtype, void* variable, const char* help); + + bool GetMatchedArguments(std::vector<std::string>* matches, + const std::string& arg); + + //! Populate individual variables + bool PopulateVariable(CommandLineArgumentsCallbackStructure* cs, + const char* value); + + //! Populate individual variables of type ... + void PopulateVariable(bool* variable, const std::string& value); + void PopulateVariable(int* variable, const std::string& value); + void PopulateVariable(double* variable, const std::string& value); + void PopulateVariable(char** variable, const std::string& value); + void PopulateVariable(std::string* variable, const std::string& value); + void PopulateVariable(std::vector<bool>* variable, const std::string& value); + void PopulateVariable(std::vector<int>* variable, const std::string& value); + void PopulateVariable(std::vector<double>* variable, + const std::string& value); + void PopulateVariable(std::vector<char*>* variable, + const std::string& value); + void PopulateVariable(std::vector<std::string>* variable, + const std::string& value); + + typedef CommandLineArgumentsInternal Internal; + Internal* Internals; + std::string Help; + + unsigned int LineLength; + + bool StoreUnusedArgumentsFlag; +}; + +} // namespace @KWSYS_NAMESPACE@ + +#endif |