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Modifies api to avoid duplicating values when possible

Caleb Fangmeier 7 anos atrás
pai
commit
e8aada8cd3
2 arquivos alterados com 272 adições e 94 exclusões
  1. 147 46
      api.hpp
  2. 125 48
      value.hpp

+ 147 - 46
api.hpp

@@ -40,6 +40,11 @@ namespace fv{
     template<typename T>
     Value<T>* lookup(const std::string& name){
         GenValue* gv = GenValue::get_value(name);
+        if (gv == nullptr){
+            CRITICAL("Could not find alias or value \"" << name << "\"."
+                     <<" I'll tell you the ones I know about." << std::endl
+                     << GenValue::summary(), -1);
+        }
         Value<T>* tv = dynamic_cast<Value<T>*>(gv);
         if(tv == nullptr){
             CRITICAL("Value: \""+gv->get_name() + "\" has improper type.",-1);
@@ -47,6 +52,13 @@ namespace fv{
         return tv;
     }
 
+    template<typename T>
+    bool check_exists(const std::string name){
+        GenValue* gv = GenValue::get_value(name);
+        Value<T>* tv = dynamic_cast<Value<T>*>(gv);
+        return tv != nullptr;
+    }
+
     ObsFilter* lookup_obs_filter(const std::string& name){
         ObsFilter* f =  dynamic_cast<ObsFilter*>(GenValue::get_value(name));
         if(f == nullptr){
@@ -55,161 +67,250 @@ namespace fv{
         return f;
     }
 
+    template <typename T>
+    decltype(auto)
+    wrapper_vector(Value<int>* size, Value<T*>* data, const std::string& alias=""){
+        typedef std::vector<T> type;
+        const std::string& name = WrapperVector<T>::fmt_name(size, data);
+        if (check_exists<type>(name))
+            return lookup<type>(name);
+        else
+            return (Value<type>*)new WrapperVector<T>(size, data, alias);
+    }
+
     template <typename... ArgTypes>
-    Value<std::vector<std::tuple<ArgTypes...>>>*
+    decltype(auto)
     zip(Value<std::vector<ArgTypes>>*... args, const std::string& alias=""){
-        return new Zip<ArgTypes...>(args..., alias);
+        typedef std::vector<std::tuple<ArgTypes...>> type;
+        std::string& name = Zip<ArgTypes...>::fmt_name(args...);
+        if (check_exists<type>(name))
+            return lookup<type>(name);
+        else
+            return (Value<type>*)new Zip<ArgTypes...>(args..., alias);
     }
 
     template <typename Ret, typename... ArgTypes>
-    Value<std::vector<Ret>>*
-    map(Function<Ret(ArgTypes...)>& fn,
-        Value<std::vector<std::tuple<ArgTypes...>>>* arg, const std::string& alias=""){
-        return new Map<Ret(ArgTypes...)>(fn, arg, alias);
+    decltype(auto)
+    map(Function<Ret(ArgTypes...)>& fn, Value<std::vector<std::tuple<ArgTypes...>>>* arg, const std::string& alias=""){
+        typedef std::vector<Ret> type;
+        const std::string& name = Map<Ret(ArgTypes...)>::fmt_name(fn, arg);
+        if (check_exists<type>(name))
+            return lookup<type>(name);
+        else
+            return (Value<type>*)new Map<Ret(ArgTypes...)>(fn, arg, alias);
     }
 
     template <typename... ArgTypes>
-    Value<std::tuple<ArgTypes...>>*
+    decltype(auto)
     tuple(Value<ArgTypes>*... args){
-        return new Tuple<ArgTypes...>(args..., "");
+        typedef std::tuple<ArgTypes...> type;
+        const std::string& name = Tuple<ArgTypes...>::fmt_name(args...);
+        if (check_exists<type>(name))
+            return lookup<type>(name);
+        else
+            return (Value<type>*)new Tuple<ArgTypes...>(args..., "");
     }
 
     template <size_t N, typename... ArgTypes>
-    Value<typename std::tuple_element<N, std::tuple<ArgTypes...>>::type>*
+    decltype(auto)
     detup(Value<std::tuple<ArgTypes...>>* tup, const std::string& alias=""){
-        return new DeTup<N, ArgTypes...>(tup, alias);
+        typedef typename std::tuple_element<N, std::tuple<ArgTypes...>>::type type;
+        const std::string& name = DeTup<N, ArgTypes...>::fmt_name(tup);
+        if (check_exists<type>(name))
+            return lookup<type>(name);
+        else
+            return (Value<type>*)new DeTup<N, ArgTypes...>(tup, alias);
     }
 
     template <size_t N, typename... ArgTypes>
-    Value<std::vector<typename std::tuple_element<N, std::tuple<ArgTypes...>>::type>>*
+    decltype(auto)
     detup_vec(Value<std::vector<std::tuple<ArgTypes...>>>* tup, const std::string& alias=""){
-        return new DeTupVector<N, ArgTypes...>(tup, alias);
+        typedef std::vector<typename std::tuple_element<N, std::tuple<ArgTypes...>>::type> type;
+        const std::string& name = DeTupVector<N, ArgTypes...>::fmt_name(tup);
+        if (check_exists<type>(name))
+            return lookup<type>(name);
+        else
+            return (Value<type>*)new DeTupVector<N, ArgTypes...>(tup, alias);
     }
 
     template <typename Ret, typename... ArgTypes>
-    Value<Ret>*
-    apply(Function<Ret(ArgTypes...)>& fn,
-          Value<std::tuple<ArgTypes...>>* arg, const std::string& alias=""){
-        return new Apply<Ret(ArgTypes...)>(fn, arg, alias);
+    decltype(auto)
+    apply(Function<Ret(ArgTypes...)>& fn, Value<std::tuple<ArgTypes...>>* arg, const std::string& alias=""){
+        typedef Ret type;
+        const std::string& name = Apply<Ret(ArgTypes...)>::fmt_name(fn, arg);
+        if (check_exists<type>(name))
+            return lookup<type>(name);
+        else
+            return (Value<type>*)new Apply<Ret(ArgTypes...)>(fn, arg, alias);
     }
 
     template <typename T1, typename T2>
-    Value<std::pair<T1,T2>>*
+    decltype(auto)
     pair(Value<T1>* val1, Value<T2>* val2, const std::string& alias=""){
-        return new Pair<T1,T2>(val1, val2, alias);
+        typedef std::pair<T1,T2> type;
+        const std::string& name = Pair<T1,T2>::fmt_name(val1, val2);
+        if (check_exists<type>(name))
+            return lookup<type>(name);
+        else
+            return (Value<type>*)new Pair<T1,T2>(val1, val2, alias);
     }
 
     template <typename T1, typename T2>
-    Value<std::pair<T1,T2>>*
+    decltype(auto)
     pair(const std::string& name1, const std::string& name2, const std::string& alias=""){
         return pair<T1,T2>(lookup<T1>(name1), lookup<T2>(name2), alias);
     }
 
 
     template <typename T>
-    Value<T>*
+    decltype(auto)
     max(Value<std::vector<T>>* v, const std::string& alias=""){
-        return new Max<T>(v, alias);
+        typedef T type;
+        const std::string& name = Max<T>::fmt_name(v);
+        if (check_exists<type>(name))
+            return lookup<type>(name);
+        else
+            return (Value<type>*)new Max<T>(v, alias);
     }
 
     template <typename T>
-    Value<T>*
+    decltype(auto)
     max(const std::string& v_name, const std::string& alias=""){
         return max(lookup<std::vector<T>>(v_name), alias);
     }
 
     template <typename T>
-    Value<T>*
+    decltype(auto)
     min(Value<std::vector<T>>* v, const std::string& alias=""){
-        return new Min<T>(v, alias);
+        typedef T type;
+        const std::string& name = Min<T>::fmt_name(v);
+        if (check_exists<type>(name))
+            return lookup<type>(name);
+        else
+            return (Value<type>*)new Min<T>(v, alias);
     }
 
     template <typename T>
-    Value<T>*
+    decltype(auto)
     min(const std::string& v_name, const std::string& alias=""){
         return min(lookup<std::vector<T>>(v_name), alias);
     }
 
     template <typename T>
-    Value<T>*
+    decltype(auto)
     range(Value<std::vector<T>>* v, const std::string& alias=""){
-        return new Range<T>(v, alias);
+        typedef T type;
+        const std::string& name = Range<T>::fmt_name(v);
+        if (check_exists<type>(name))
+            return lookup<type>(name);
+        else
+            return (Value<type>*)new Range<T>(v, alias);
     }
 
     template <typename T>
-    Value<T>*
+    decltype(auto)
     range(const std::string& v_name, const std::string& alias=""){
         return range(lookup<std::vector<T>>(v_name), alias);
     }
 
     template <typename T>
-    Value<T>*
+    decltype(auto)
     mean(Value<std::vector<T>>* v, const std::string& alias=""){
-        return new Mean<T>(v, alias);
+        typedef T type;
+        const std::string& name = Mean<T>::fmt_name(v);
+        if (check_exists<type>(name))
+            return lookup<type>(name);
+        else
+            return (Value<type>*)new Mean<T>(v, alias);
     }
 
     template <typename T>
-    Value<T>*
+    decltype(auto)
     mean(const std::string& v_name, const std::string& alias=""){
         return mean(lookup<std::vector<T>>(v_name), alias);
     }
 
     template <typename T>
-    Value<int>*
+    decltype(auto)
     count(Function<bool(T)>& selector, Value<std::vector<T>>* v, const std::string& alias=""){
-        return new Count<T>(selector, v, alias);
+        typedef int type;
+        const std::string& name = Count<T>::fmt_name(selector, v);
+        if (check_exists<type>(name))
+            return lookup<type>(name);
+        else
+            return (Value<type>*)new Count<T>(selector, v, alias);
     }
 
     template <typename T>
-    Value<int>*
+    decltype(auto)
     count(Function<bool(T)>& selector, const std::string& v_name, const std::string& alias=""){
         return count<T>(selector, lookup<std::vector<T>>(v_name), alias);
     }
 
     template <typename FST, typename SND>
-    Value<std::vector<std::tuple<FST,SND>>>*
+    decltype(auto)
     cart_product(Value<std::vector<FST>>* val1, Value<std::vector<SND>>* val2, const std::string& alias=""){
-        return new CartProduct<FST, SND>(val1, val2, alias);
+        typedef std::vector<std::tuple<FST,SND>> type;
+        const std::string& name = CartProduct<FST, SND>::fmt_name(val1, val2);
+        if (check_exists<type>(name))
+            return lookup<type>(name);
+        else
+            return (Value<type>*)new CartProduct<FST, SND>(val1, val2, alias);
     }
 
     template <typename FST, typename SND>
-    Value<std::vector<std::tuple<FST,SND>>>*
+    decltype(auto)
     cart_product(const std::string& val1_name, const std::string& val2_name, const std::string& alias=""){
         return cart_product<FST,SND>(lookup<std::vector<FST>>(val1_name), lookup<std::vector<SND>>(val2_name), alias);
     }
 
     template <typename T, int Size>
-    Value<std::vector<typename HomoTuple<T,Size>::type>>*
+    decltype(auto)
     combinations(Value<std::vector<T>>* val, const std::string& alias=""){
-        return new Combinations<T, Size>(val, alias);
+        typedef std::vector<typename HomoTuple<T,Size>::type> type;
+        const std::string& name = Combinations<T, Size>::fmt_name(val);
+        if (check_exists<type>(name))
+            return lookup<type>(name);
+        else
+            return (Value<type>*)new Combinations<T, Size>(val, alias);
     }
 
     template <typename T, int Size>
-    Value<std::vector<typename HomoTuple<T,Size>::type>>*
+    decltype(auto)
     combinations(const std::string& val_name, const std::string alias = ""){
         return combinations<T, Size>(lookup<std::vector<T>>(val_name), alias);
     }
 
     template <typename T>
-    Value<std::vector<T>>*
+    decltype(auto)
     filter(Function<bool(T)>& filter, Value<std::vector<T>>* val, const std::string alias=""){
-        return new Filter<T>(filter, val, alias);
+        typedef std::vector<T> type;
+        const std::string& name = Filter<T>::fmt_name(filter, val);
+        if (check_exists<type>(name))
+            return lookup<type>(name);
+        else
+            return (Value<type>*)new Filter<T>(filter, val, alias);
     }
 
     template <typename T>
-    Value<std::vector<T>>*
+    decltype(auto)
     filter(Function<bool(T)>& filter_func, const std::string& val_name, const std::string alias=""){
         return filter<T>(filter_func, lookup<std::vector<T>>(val_name), alias);
     }
 
     template <typename... ArgTypes>
-    Value<std::vector<std::tuple<ArgTypes...>>>*
+    decltype(auto)
     tup_filter(Function<bool(ArgTypes...)>& filter, Value<std::vector<std::tuple<ArgTypes...>>>* val, const std::string alias=""){
-        return new TupFilter<ArgTypes...>(filter, val, alias);
+        typedef std::vector<std::tuple<ArgTypes...>> type;
+        const std::string& name = TupFilter<ArgTypes...>::fmt_name(filter, val);
+        if (check_exists<type>(name))
+            return lookup<type>(name);
+        else
+            return (Value<type>*)new TupFilter<ArgTypes...>(filter, val, alias);
     }
 
     template <typename... ArgTypes>
-    Value<std::vector<std::tuple<ArgTypes...>>>*
+    decltype(auto)
     tup_filter(Function<bool(ArgTypes...)>& filter, const std::string& val_name, const std::string alias=""){
         return tup_filter<ArgTypes...>(filter, lookup<std::vector<std::tuple<ArgTypes...>>>(val_name), alias);
     }

+ 125 - 48
value.hpp

@@ -290,13 +290,11 @@ class GenValue{
          * all GenValue objects when reset is called.
          */
         bool value_valid;
+
         void _reset(){
-            /* if (this->logging_enabled){ */
-            /*     std::cout <<  "Resetting validity for " << this->get_name() << std::endl; */
-            /* } */
-            /* std::cout <<  "Resetting validity for " << this->get_name() << std::endl; */
             this->value_valid = false;
         }
+
         /**
          * A static mapping containing all created Value objects.
          * Every value object must have a unique name, and this name is used as
@@ -305,6 +303,7 @@ class GenValue{
          * pointers.
          */
         inline static std::map<const std::string, GenValue*> values;
+
         /**
          * Composite value names are typically nested. This makes complex
          * values have rather unwieldy names. Therefore, one can declare
@@ -337,6 +336,12 @@ class GenValue{
             values[name] = this;
         }
 
+        /**
+         * If logging is enabled for this value, this function should be
+         * implemented to format the value to a string and place it as an INFO
+         * entry in the log file. Useful for debugging, but may produce alot of
+         * output.
+         */
         virtual void log() = 0;
 
         static void reset(){
@@ -350,13 +355,8 @@ class GenValue{
         static GenValue* get_value(const std::string& name){
             if (aliases[name] != nullptr)
                 return aliases[name];
-            else if (values[name] != nullptr)
+            else
                 return values[name];
-            else{
-                ERROR("Could not find alias or value \"" << name << "\". I'll tell you the ones I know about." << std::endl
-                        << summary());
-                CRITICAL("Aborting... :(",-1);
-            }
         }
 
         static void alias(const std::string& name, GenValue* value){
@@ -403,7 +403,7 @@ std::ostream& operator<<(std::ostream& os, GenValue& gv){
 
 
 /**
- * A generic value.
+ * A templated value.
  * In order to facilitate run-time creation of analysis routines, it is
  * necessary to have some ability to get and store *values*. Values can either
  * be directly taken from some original data source (i.e. ObservedValue), or
@@ -460,6 +460,10 @@ class ObservedValue : public Value<T>{
             }
         }
 
+        static std::string fmt_name(const std::string& name){
+            return name;
+        }
+
         T& get_value(){
             if (!this->value_valid){
                 this->value_valid = true;
@@ -548,8 +552,12 @@ class WrapperVector : public DerivedValue<std::vector<T> >{
         }
 
     public:
+        static std::string fmt_name(Value<int>* size, Value<T*>* data){
+            return "wrapper_vector("+size->get_name()+","+data->get_name()+")";
+        }
+
         WrapperVector(Value<int>* size, Value<T*>* data, const std::string& alias="")
-          :DerivedValue<std::vector<T> >("vectorOf("+size->get_name()+","+data->get_name()+")", alias),
+          :DerivedValue<std::vector<T> >(fmt_name(size,data), alias),
            size(size), data(data){ }
 };
 
@@ -566,8 +574,12 @@ class Pair : public DerivedValue<std::pair<T1, T2> >{
         }
 
     public:
+        static std::string fmt_name(Value<T1> *value1, Value<T2> *value2){
+            return "pair("+value1->get_name()+","+value2->get_name()+")";
+        }
+
         Pair(Value<T1> *value1, Value<T2> *value2, const std::string alias="")
-          :DerivedValue<std::pair<T1, T2> >("pair("+value1->get_name()+","+value2->get_name()+")", alias),
+          :DerivedValue<std::pair<T1, T2> >(fmt_name(value1, value2), alias),
            value_pair(value1, value2){ }
 };
 
@@ -620,6 +632,21 @@ class _Zip<Head, Tail...> : private _Zip<Tail...> {
             head(head) { }
 };
 
+namespace impl {
+    std::string zip_fmt_name(){
+        return "";
+    }
+
+    template<typename Head>
+    std::string zip_fmt_name(Value<std::vector<Head>>* head){
+        return head->get_name();
+    }
+
+    template<typename Head1, typename Head2, typename... Tail>
+    std::string zip_fmt_name(Value<std::vector<Head1>>* head1, Value<std::vector<Head2>>* head2, Value<std::vector<Tail>>*... tail){
+        return head1->get_name() + "," + zip_fmt_name<Head2, Tail...>(head2, tail...);
+    }
+}
 /**
  * Zips a series of vectors together. Can be combined with Map to
  * yield a Value whose elements are individually a function of the
@@ -647,16 +674,14 @@ class Zip : public DerivedValue<std::vector<std::tuple<ArgTypes...>>>,
             }
         }
 
-        std::string _get_name(){
-            return "zip("+_Zip<ArgTypes...>::_get_name()+")";
+    public:
+        static std::string fmt_name(Value<std::vector<ArgTypes>>*... args){
+            return "zip("+zip_fmt_name(args...)+")";
         }
 
-    public:
         Zip(Value<std::vector<ArgTypes>>*... args, const std::string& alias)
-          :DerivedValue<std::vector<std::tuple<ArgTypes...>>>("", alias),
-           _Zip<ArgTypes...>(args...) {
-            this->set_name(_get_name());
-        }
+          :DerivedValue<std::vector<std::tuple<ArgTypes...>>>(fmt_name(args...), alias),
+           _Zip<ArgTypes...>(args...) { }
 };
 
 template<typename> class Map; // undefined
@@ -682,8 +707,12 @@ class Map<Ret(ArgTypes...)> : public DerivedValue<std::vector<Ret>>{
         }
 
     public:
+        static std::string fmt_name(Function<Ret(ArgTypes...)>& fn, arg_type* arg){
+            return "map("+fn.get_name()+":"+arg->get_name()+")";
+        }
+
         Map(Function<Ret(ArgTypes...)>& fn, arg_type* arg, const std::string& alias)
-          :DerivedValue<std::vector<Ret>>("map("+fn.get_name()+":"+arg->get_name()+")", alias),
+          :DerivedValue<std::vector<Ret>>(fmt_name(fn, arg), alias),
            fn(fn), arg(arg){ }
 
 };
@@ -697,10 +726,6 @@ class _Tuple<> {
             return std::make_tuple();
         }
 
-        std::string _get_name(){
-            return "";
-        }
-
     public:
         _Tuple() { }
 };
@@ -715,11 +740,6 @@ class _Tuple<Head, Tail...> : private _Tuple<Tail...> {
             return std::tuple_cat(std::make_tuple(head->get_value()),tail_tuple);
         }
 
-
-        std::string _get_name(){
-            return head->get_name()+","+_Tuple<Tail...>::_get_name();
-        }
-
     public:
         _Tuple() { }
 
@@ -728,6 +748,22 @@ class _Tuple<Head, Tail...> : private _Tuple<Tail...> {
             head(head) { }
 };
 
+namespace impl {
+    std::string tuple_fmt_name(){
+        return "";
+    }
+
+    template<typename Head>
+    std::string tuple_fmt_name(Value<Head>* head){
+        return head->get_name();
+    }
+
+    template<typename Head1, typename Head2, typename... Tail>
+    std::string tuple_fmt_name(Value<Head1>* head1, Value<Head2>* head2, Value<Tail>*... tail){
+        return head1->get_name() + "," + tuple_fmt_name<Head2, Tail...>(head2, tail...);
+    }
+}
+
 /**
  * Takes a series of Value objects and bundles them together into a std::tuple
  * object. Typically, this is most usefull when one wants to apply a function
@@ -742,16 +778,14 @@ class Tuple : public DerivedValue<std::tuple<ArgTypes...>>,
             this->value = _Tuple<ArgTypes...>::_get_value();
         }
 
-        std::string _get_name(){
-            return "tuple("+_Tuple<ArgTypes...>::_get_name()+")";
+    public:
+        static std::string fmt_name(Value<ArgTypes>*... args){
+            return "tuple("+impl::tuple_fmt_name(args...)+")";
         }
 
-    public:
         Tuple(Value<ArgTypes>*... args, const std::string& alias)
-          :DerivedValue<std::tuple<ArgTypes...>>("", alias),
-           _Tuple<ArgTypes...>(args...) {
-            this->set_name(_get_name());
-        }
+          :DerivedValue<std::tuple<ArgTypes...>>(fmt_name(args...), alias),
+           _Tuple<ArgTypes...>(args...) { }
 };
 
 /**
@@ -766,8 +800,12 @@ class DeTup : public DerivedValue<typename std::tuple_element<N, std::tuple<ArgT
         }
 
     public:
+        static std::string fmt_name(Value<std::tuple<ArgTypes...>>* tup){
+            return "detup("+tup->get_name()+")";
+        }
+
         DeTup(Value<std::tuple<ArgTypes...>>* tup, const std::string& alias)
-          :DerivedValue<typename std::tuple_element<N, std::tuple<ArgTypes...>>::type>("detup("+tup->get_name()+")", alias),
+          :DerivedValue<typename std::tuple_element<N, std::tuple<ArgTypes...>>::type>(fmt_name(tup), alias),
            tup(tup) { }
 };
 
@@ -787,8 +825,12 @@ class DeTupVector : public DerivedValue<std::vector<typename std::tuple_element<
         }
 
     public:
+        static std::string fmt_name(Value<std::vector<std::tuple<ArgTypes...>>>* tup){
+            return "detup_vec("+tup->get_name()+")";
+        }
+
         DeTupVector(Value<std::vector<std::tuple<ArgTypes...>>>* tup, const std::string& alias)
-          :DerivedValue<std::vector<typename std::tuple_element<N, std::tuple<ArgTypes...>>::type>>("detup("+tup->get_name()+")", alias),
+          :DerivedValue<std::vector<typename std::tuple_element<N, std::tuple<ArgTypes...>>::type>>(fmt_name(tup), alias),
            tup(tup) { }
 };
 
@@ -809,8 +851,12 @@ class Apply<Ret(ArgTypes...)> : public DerivedValue<Ret>{
         }
 
     public:
+        static std::string fmt_name(Function<Ret(ArgTypes...)>& fn, Value<std::tuple<ArgTypes...>>* arg){
+            return "apply("+fn.get_name()+":"+arg->get_name()+")";
+        }
+
         Apply(Function<Ret(ArgTypes...)>& fn, Value<std::tuple<ArgTypes...>>* arg, const std::string& alias)
-          :DerivedValue<Ret>("apply("+fn.get_name()+":"+arg->get_name()+")", alias),
+          :DerivedValue<Ret>(fmt_name(fn,arg), alias),
            fn(fn), arg(arg){ }
 
 };
@@ -833,8 +879,12 @@ class Count : public DerivedValue<int>{
         }
 
     public:
+        static std::string fmt_name(Function<bool(T)>& selector, Value<std::vector<T>>* v){
+            return "count("+selector.get_name()+":"+v->get_name()+")";
+        }
+
         Count(Function<bool(T)>& selector, Value<std::vector<T>>* v, const std::string alias)
-          :DerivedValue<int>("count("+selector.get_name()+":"+v->get_name()+")", alias),
+          :DerivedValue<int>(fmt_name(selector,v), alias),
            selector(selector), v(v) { }
 };
 
@@ -856,8 +906,12 @@ class Filter : public DerivedValue<std::vector<T>>{
         }
 
     public:
+        static std::string fmt_name(Function<bool(T)>& filter, Value<std::vector<T>>* v){
+            return "filter("+filter.get_name()+":"+v->get_name()+")";
+        }
+
         Filter(Function<bool(T)>& filter, Value<std::vector<T>>* v, const std::string alias)
-          :DerivedValue<std::vector<T>>("filter("+filter.get_name()+":"+v->get_name()+")", alias),
+          :DerivedValue<std::vector<T>>(fmt_name(filter,v), alias),
            filter(filter), v(v) { }
 };
 
@@ -882,8 +936,12 @@ class TupFilter : public DerivedValue<std::vector<std::tuple<ArgTypes...>>>{
         }
 
     public:
+        static std::string fmt_name(Function<bool(ArgTypes...)>& filter, Value<value_type>* arg){
+            return "tup_filter("+filter.get_name()+":"+arg->get_name()+")";
+        }
+
         TupFilter(Function<bool(ArgTypes...)>& filter, Value<value_type>* arg, const std::string alias)
-          :DerivedValue<value_type>("tupfilter("+filter.get_name()+":"+arg->get_name()+")", alias),
+          :DerivedValue<value_type>(fmt_name(filter, arg), alias),
            filter(filter), arg(arg) { }
 };
 
@@ -917,6 +975,10 @@ class Reduce : public DerivedValue<T>{
 template <typename T>
 class Max : public Reduce<T>{
     public:
+        static std::string fmt_name(Value<std::vector<T>>* v){
+            return "max("+v->get_name()+")";
+        }
+
         Max(Value<std::vector<T>>* v, const std::string alias)
           :Reduce<T>(GenFunction::register_function<T(std::vector<T>)>("max",
                       FUNC(([](std::vector<T> vec){
@@ -930,6 +992,10 @@ class Max : public Reduce<T>{
 template <typename T>
 class Min : public Reduce<T>{
     public:
+        static std::string fmt_name(Value<std::vector<T>>* v){
+            return "min("+v->get_name()+")";
+        }
+
         Min(Value<std::vector<T>>* v, const std::string alias)
           :Reduce<T>(GenFunction::register_function<T(std::vector<T>)>("min",
                       FUNC(([](std::vector<T> vec){
@@ -943,6 +1009,10 @@ class Min : public Reduce<T>{
 template <typename T>
 class Mean : public Reduce<T>{
     public:
+        static std::string fmt_name(Value<std::vector<T>>* v){
+            return "mean("+v->get_name()+")";
+        }
+
         Mean(Value<std::vector<T>>* v, const std::string alias)
           :Reduce<T>(GenFunction::register_function<T(std::vector<T>)>("mean",
                       FUNC(([](std::vector<T> vec){
@@ -958,6 +1028,10 @@ class Mean : public Reduce<T>{
 template <typename T>
 class Range : public Reduce<T>{
     public:
+        static std::string fmt_name(Value<std::vector<T>>* v){
+            return "range("+v->get_name()+")";
+        }
+
         Range(Value<std::vector<T>>* v, const std::string alias)
           :Reduce<T>(GenFunction::register_function<T(std::vector<T>)>("range",
                       FUNC(([](std::vector<T> vec){
@@ -1057,15 +1131,15 @@ class Combinations : public DerivedValue<std::vector<typename HomoTuple<T,Size>:
             } while(std::prev_permutation(selector.begin(), selector.end()));
         }
 
-        static std::string calc_name(Value<std::vector<T>>* val){
+    public:
+        static std::string fmt_name(Value<std::vector<T>>* val){
             std::stringstream ss;
             ss << "combinations(" << Size << "," << val->get_name() << ")";
             return ss.str();
         }
 
-    public:
         Combinations(Value<std::vector<T>>* val, const std::string alias="")
-          :DerivedValue<std::vector<tuple_type>>(calc_name(val), alias),
+          :DerivedValue<std::vector<tuple_type>>(fmt_name(val), alias),
            val(val) { }
 
 };
@@ -1099,10 +1173,13 @@ class CartProduct : public DerivedValue<std::vector<std::tuple<FST,SND>>>{
         }
 
     public:
+        static std::string fmt_name(Value<std::vector<FST>>* val1, Value<std::vector<SND>>* val2){
+            return "cartProduct("+val1->get_name()+", "+val2->get_name()+")";
+        }
+
         CartProduct(Value<std::vector<FST>>* val1, Value<std::vector<SND>>* val2, const std::string alias="")
           :DerivedValue<std::vector<std::tuple<FST,SND>>>(calc_name(val1, val2), alias),
-           val1(val1),
-           val2(val2) { }
+           val1(val1), val2(val2) { }
 };
 
 /**