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Suppose you have a namespace

approvedParams {
   std::string s1 = "my_string_input_1";
   std::string s2 = "my_string_input_2";

Outside the scope of approvedParams there exists a function myfun(std::string parm1)

Is it possible to constrain myfun signature to only accept fields of type std::string from the approvedParams namespace?

That is:

myfun("my_string_input_1") will not compile.

myfun(approvedParams::s1) will compile.

I was considering an implementation with enum. However I ultimately want use approvedParams::s1 and s2 when I am parsing key-value configuration files. enum must be of an integral type. I am not interested in adding another unnecessary layer with map<int,std::string> to connect the enum integers with std::string.

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Use enums instead? –  Jesus Ramos Apr 25 '13 at 22:00
To my knowledge enums must be of type int. I need s1 and s2 to ultimately contain strings. –  bartonm Apr 25 '13 at 22:01
Use the enum value as an index to the string in an array. –  Jesus Ramos Apr 25 '13 at 22:03

3 Answers 3

up vote 4 down vote accepted

The type of s1 and s2 do not carry information about the namespace they were declared in.

You could rather easily wrap a custom type though.

namespace approvedParams
   struct keytype { std::string val; };
   keytype s1 = { "my_string_input_1" };
   keytype s2 = { "my_string_input_2" };

void approvedParams( approvedParams::keytype );
share|improve this answer
So used to C I forgot you could wrap the values in a namespace :P –  Jesus Ramos Apr 25 '13 at 22:05
Why are you using std::string for the members? –  0x499602D2 Apr 25 '13 at 22:06
I like this implementation. Though struct string { std::string val; } seems to misleading. Perhaps... struct keytype { std::string val; } –  bartonm Apr 25 '13 at 22:11
@bartonm I'm easygoing... :) You have that added benefit of naming your type something more understandable. –  Drew Dormann Apr 25 '13 at 22:12
This doesn't really enforce anything, it just makes it marginally harder to pass unapproved parameters. One still can write myfun(approvedParams::keytype{"unapproved param"}) and get away with it. –  syam Apr 25 '13 at 22:22

Create an enum of approved parameter values

enum approvedParams {
    val1 = 0,
    val2, ...

And just create an array with the string using these indexes

std::string[] approvedParamValues = { "my_string_input_1", ... };
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Here's my take at it, reusing @DrewDormann's idea of a wrapper type but in a way that actually enforces its usage.

The idea is basically a variant of the named constructor idiom, but only with static variables instead of fully-fledged factory functions (does this pattern have a name?).

// Declaration in .h
class ApprovedParam
  static const ApprovedParam foo;
  static const ApprovedParam bar;

  const std::string& value() const { return m_value; }

  std::string m_value;

  ApprovedParam(const char* value) : m_value(value) {}
  ApprovedParam(std::string&& value) : m_value(std::move(value)) {}
  ApprovedParam(const std::string& value) : m_value(value) {}

  // IMPORTANT: the user must not be able to default construct an ApprovedParam
  ApprovedParam() = delete;

// Definitions in .cpp
const ApprovedParam ApprovedParam::foo = "foo";
const ApprovedParam ApprovedParam::bar = "bar";

Now the user can copy/move/assign ApprovedParam objects but he has only a limited set of (immutable) instances to choose from and he will not be able to create completely new ones.

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