#ifndef _XBT_CONFIG_HPP_
#define _XBT_CONFIG_HPP_
+#include <cstdlib>
+
#include <functional>
+#include <stdexcept>
#include <string>
#include <type_traits>
+#include <utility>
#include <xbt/base.h>
#include <xbt/config.h>
namespace simgrid {
namespace config {
-/** Get the base type of a e_xbt_cfgelm_type_t
- *
- * * `type` is the type used in the config framework to store
- * the values of this type;
- *
- * * `get()` is used to get such a value from the configuration.
- */
-template<e_xbt_cfgelm_type_t type>
-struct base_type;
-template<> struct base_type<xbt_cfgelm_boolean> {
- typedef bool type;
- static inline bool get(const char* name)
+bool parseBool(const char* value);
+double parseDouble(const char* value);
+long int parseLong(const char* value);
+
+template<class T> struct parse_option {
+ static inline T parse(const char* value)
{
- return xbt_cfg_get_boolean(name) ? true : false;
+ return T(value);
}
};
-template<> struct base_type<xbt_cfgelm_int> {
- typedef int type;
- static inline int get(const char* name)
+
+template<> struct parse_option<std::string> {
+ static inline std::string parse(const char* value)
{
- return xbt_cfg_get_int(name);
+ return std::string(value);
}
};
-template<> struct base_type<xbt_cfgelm_double> {
- typedef double type;
- static inline double get(const char* name)
+
+template<>
+struct parse_option<double> {
+ static inline double parse(const char* value)
{
- return xbt_cfg_get_double(name);
+ return parseDouble(value);
}
};
-template<> struct base_type<xbt_cfgelm_string> {
- typedef std::string type;
- static inline std::string get(const char* name)
+
+template<>
+struct parse_option<int> {
+ static inline double parse(const char* value)
{
- char* value = xbt_cfg_get_string(name);
- return value != nullptr ? value : "";
+ return parseLong(value);
+ }
+};
+
+template<>
+struct parse_option<bool> {
+ static inline bool parse(const char* value)
+ {
+ return parseBool(value);
}
};
-/** Associate the e_xbt_cfgelm_type_t to use for a given type */
-template<class T>
-struct cfgelm_type : public std::integral_constant<e_xbt_cfgelm_type_t,
- std::is_same<T, bool>::value ? xbt_cfgelm_boolean :
- std::is_integral<T>::value ? xbt_cfgelm_int :
- std::is_floating_point<T>::value ? xbt_cfgelm_double :
- xbt_cfgelm_string>
-{};
-
-/** Get a value of a given type from the configuration */
-template<class T> inline
-T get(const char* name)
-{
- return T(base_type<cfgelm_type<T>::value>::get(name));
-}
template<class T> inline
-T get(std::string const& name)
+T parse(const char* value)
{
- return T(base_type<cfgelm_type<T>::value>::get(name.c_str()));
+ return parse_option<T>::parse(value);
}
-inline void setDefault(const char* name, int value)
-{
- xbt_cfg_setdefault_int(name, value);
-}
-inline void setDefault(const char* name, double value)
-{
- xbt_cfg_setdefault_double(name, value);
-}
-inline void setDefault(const char* name, const char* value)
+template<class T> inline
+std::string to_string(T&& value)
{
- xbt_cfg_setdefault_string(name, value);
+ return std::to_string(std::forward<T>(value));
}
-inline void setDefault(const char* name, std::string const& value)
+inline std::string const& to_string(std::string& value)
{
- xbt_cfg_setdefault_string(name, value.c_str());
+ return value;
}
-inline void setDefault(const char* name, bool value)
+inline std::string const& to_string(std::string const& value)
{
- xbt_cfg_setdefault_boolean(name, value ? "yes" : "no");
+ return value;
}
-
-/** Set the default value of a given configuration option */
-template<class T> inline
-void setDefault(const char* name, T value)
+inline std::string to_string(std::string&& value)
{
- setDefault(name, base_type<cfgelm_type<T>::value>::type(value));
+ return std::move(value);
}
// Register:
*
* @param name name of the option
* @param description Description of the option
- * @param type config storage type for the option
- * @param callback called with the option name (expected to use `simgrid::config::get`)
+ * @param callback called with the option value
*/
-XBT_PUBLIC(void) registerConfig(const char* name, const char* description,
- e_xbt_cfgelm_type_t type,
- std::function<void(const char*)> callback);
+XBT_PUBLIC(void) declareFlag(const char* name, const char* description,
+ std::function<void(const char* value)> callback);
/** Bind a variable to configuration flag
*
* @param description Option description
*/
template<class T>
-void declareFlag(T& value, const char* name, const char* description)
+void bindFlag(T& value, const char* name, const char* description)
{
- registerConfig(name, description, cfgelm_type<T>::value,
- [&value](const char* name) {
- value = simgrid::config::get<T>(name);
- });
- setDefault(name, value);
+ using namespace std;
+ declareFlag(name, description, [&value](const char* val) {
+ value = simgrid::config::parse<T>(val);
+ });
+ xbt_cfg_setdefault_string(name, simgrid::config::to_string(value).c_str());
}
/** Bind a variable to configuration flag
*
- * @param value Bound variable
- * @param name Flag name
- * @param description Option description
- * @f Callback (called with the option name) providing the value
+ * <pre><code>
+ * static int x;
+ * simgrid::config::bindFlag(a, "x", [](const char* value) {
+ * return simgrid::config::parse(value);
+ * }
+ * </pre><code>
+ */
+// F is a parser, F : const char* -> T
+template<class T, class F>
+typename std::enable_if<std::is_same<
+ T,
+ typename std::remove_cv< decltype(
+ std::declval<F>()(std::declval<const char*>())
+ ) >::type
+>::value, void>::type
+bindFlag(T& value, const char* name, const char* description,
+ F callback)
+{
+ declareFlag(name, description, [&value,callback](const char* val) {
+ value = callback(val);
+ });
+ xbt_cfg_setdefault_string(name, to_string(value).c_str());
+}
+
+/** Bind a variable to configuration flag
+ *
+ * <pre><code>
+ * static int x;
+ * simgrid::config::bindFlag(a, "x", [](int x) {
+ * if (x < x_min || x => x_max)
+ * throw std::range_error("must be in [x_min, x_max)")
+ * });
+ * </pre><code>
*/
+// F is a checker, F : T& -> ()
template<class T, class F>
-void declareFlag(T& value, const char* name, const char* description, F f)
+typename std::enable_if<std::is_same<
+ void,
+ decltype( std::declval<F>()(std::declval<const T&>()) )
+>::value, void>::type
+bindFlag(T& value, const char* name, const char* description,
+ F callback)
{
- registerConfig(name, description, cfgelm_type<T>::value,
- [&value,f](const char* name) {
- value = f(name);
- });
- setDefault(name, value);
+ declareFlag(name, description, [&value,callback](const char* val) {
+ T res = parse<T>(val);
+ callback(res);
+ value = std::move(res);
+ });
+ xbt_cfg_setdefault_string(name, to_string(value).c_str());
+}
+
+/** Bind a variable to configuration flag
+ *
+ * <pre><code>
+ * static int x;
+ * simgrid::config::bindFlag(a, "x", [](int x) { return return x > 0; });
+ * </pre><code>
+ */
+// F is a predicate, F : T const& -> bool
+template<class T, class F>
+typename std::enable_if<std::is_same<
+ bool,
+ decltype( std::declval<F>()(std::declval<const T&>()) )
+>::value, void>::type
+bindFlag(T& value, const char* name, const char* description,
+ F callback)
+{
+ declareFlag(name, description, [&value,callback](const char* val) {
+ T res = parse<T>(val);
+ if (!callback(res))
+ throw std::range_error("invalid value");
+ value = std::move(res);
+ });
+ xbt_cfg_setdefault_string(name, to_string(value).c_str());
}
/** A variable bound to a CLI option
* </code></pre>
*/
template<class T>
-class flag {
+class Flag {
T value_;
public:
* @param desc Flag description
* @param value Flag initial/default value
*/
- flag(const char* name, const char* desc, T value) : value_(value)
+ Flag(const char* name, const char* desc, T value) : value_(value)
{
- declareFlag(value_, name, desc);
+ simgrid::config::bindFlag(value_, name, desc);
+ }
+
+ template<class F>
+ Flag(const char* name, const char* desc, T value, F callback) : value_(value)
+ {
+ simgrid::config::bindFlag(value_, name, desc, std::move(callback));
}
// No copy:
- flag(flag const&) = delete;
- flag& operator=(flag const&) = delete;
+ Flag(Flag const&) = delete;
+ Flag& operator=(Flag const&) = delete;
// Get the underlying value:
T& get() { return value_; }
// Implicit conversion to the underlying type:
operator T&() { return value_; }
operator T const&() const{ return value_; }
+
+ // Basic interop with T:
+ Flag& operator=(T const& that) { value_ = that; return *this; }
+ Flag& operator=(T && that) { value_ = that; return *this; }
+ bool operator==(T const& that) const { return value_ == that; }
+ bool operator!=(T const& that) const { return value_ != that; }
+ bool operator<(T const& that) const { return value_ < that; }
+ bool operator>(T const& that) const { return value_ > that; }
+ bool operator<=(T const& that) const { return value_ <= that; }
+ bool operator>=(T const& that) const { return value_ >= that; }
};
}