Hot answers tagged

45

The short answer is, magic :-). This is to say that automatic deriving is baked into the Haskell spec, and every compiler can choose to implement it in its own way. There's lots of work on how to make it extensible however. Derive is a tool for Haskell to let you write your own deriving mechanisms. GHC used to provide a derivable type class extension ...


11

First, not all data types can be shown, for instance functions cannot be shown, so not all data types can be shown (nor read). The original Haskell definition specified that if no deriving clause was given then as many derived classes as is possible would be derived. This made it difficult to know what classes were actually derived, so the Haskell ...


10

Why is Show separate from Read I don't know why this was originally, but feel it should persist because some (very few) types can be shown, or have a placeholder string shown, but not read back in. Functions are the typical example. Another way to think about it: It's very easy to place things in separate classes but very hard to deal with too many ...


10

It is possible to hide a field of a record, or a constructor of any data type, although not at the declaration site. The idea is to simply choose not to export that constructor and/or field from the module, like so: module MyModule (DT(C1, int, mStr)) where data DT = C1 -- visible { int :: Int, -- visible str :: ...


9

From the Haskell 98 report: The only classes in the Prelude for which derived instances are allowed are Eq, Ord, Enum, Bounded, Show, and Read... Here's the description of how to derive these type classes: http://www.haskell.org/onlinereport/derived.html#derived-appendix


8

You want the compiler to regard mat(:)%c as a 2 x 4 matrix? It doesn't work that way. mat and c are different objects and their ranks don't merge into a single array. mat is a user-defined type and c is a real matrix. Just because you are only using the c-component of mat doesn't mean the compiler will promote c to a higher dimensional real array, ...


8

Choose the implementation which minimises the conceptual distance that your mind has to leap between the problem in your head and the solution in your code. The force of this approach increases with age, both the age of your code (good conceptual design is a solid foundation for future development) and your own age (the less effort understanding your code ...


7

Not every type is serializable. How can you establish an isomorphism between String -> String and String? If you give me Read and Show instances for String -> String, I can find a function which isn't serialisable like this: evil :: String -> String evil s = map succ (read s s ++ " evil") Suppose read (show evil) = evil We get evil (show evil)...


7

This should work. data Month = January | February | March | April | May | June | July | August |September | October | November | December deriving (Eq, Ord, Show, Read, Bounded, Enum) type Year = Int isLeapYear :: Year -> Bool isLeapYear year = year `mod` 4 == 0 && (year `mod` 100 /= 0 || year `mod` 400 == 0) ...


6

No, there is no shortcut. You'll have to derive from all dependent typeclasses explicitly, but can easily find these by typing :i Integral in ghci.


6

The comment is incorrect: pmfn and pmd are not "derived types" at all (they are not even types!). They are pointers to members.


6

All it's doing is declaring an array of car's of dimension (m,n,q,r). Those dimensions aren't defined by your example code though. mercedes_ay(1,1,1,1) is the first car in the array. So mercedes_ay(1,1,1,1)%x is the x position of the first car. mercedes_ay(1,1,1,1)%uvw_0(1) is the initial u of the first car. Etc.. mercedes(1,1,1,1) is impossible because it ...


6

The best way to solve your problem would be to use a bang-up-to-date Fortran 2003 compliant compiler and use a parameterised derived type. If memory serves me well only the Cray and IBM compilers currently support this feature. It would allow you to define a type like this type mydata(sz) integer, len :: sz real, dimension(sz) :: x end type mydata ...


5

Why do you need Month to be an Enum? It seems to me that you are trying to force an OO style in your code, which is not a good idea. The Java object oriented style of writing code does not cleanly translate to functional languages like Haskell. Where in OO, you would bundle the data structure and all associated operations on that data in a class, in FP, you ...


5

According to the Standard, it is not allowed. The component attribute specifier may only be pointer, and dimension for Fortran 90/95 (section 4.4.1), additionally allocatable in Fortran 2003 (Section 4.5.3), and additionally codimension, and contiguousfor Fortran 2008 (section 4.5.4.1). You can get the documents here. I ran into a similar problem with the ...


5

It's been a while since this question was asked. For future reference, myConnection.Start() method needs to be called after creating the proxy, like this myConnection = new HubConnection(endpoint); proxy = _conn.CreateHubProxy("DataHub"); proxy.On<string>("ServerEvent", ClientHandler); myConnection.Start(); proxy.Invoke("hubMethod", ...);


5

You've forgotten the error status flags in the last 3 subroutines (i.e. the last argument, ierr) that you have shared. I'll wager that you have made use of the Fortran include header file mpif.h rather than using the mpi module. If you had done the latter you would have automatic checking of the number of arguments and received an error message along the ...


4

Subarray lets you describe a single block/slice of a larger multidimensional array. If every MPI task has a single slice/block of a large global array, (or if you are communicating chunks of local arrays between tasks) then MPI_Type_create_subarray is the way to go; the syntax is very straightforward. For solving things like PDEs on regular meshes, this ...


4

I don't think they're "adding types" to the class. They seem to be just defining types of pointers to member functions and member data of the class, and then using those to access the member function and data member. Similar to how you'd declare types to non-member functions, but being members of the class the syntax differs. From this site here ...


4

Below is a solution that includes a specific GetHeartbeatAlarm function to retrieve a HeartbeatAlarm object as well as a generic GetAlarm function to return an alarm whose type is determined by the generic parameter. At the bottom there is some example code showing how this would be called: enum AlarmTypes { Heartbeat, AnotherAlarm, // ... } ...


4

For the array case, instead of passing in arguments array and index i, you could pass in the single argument array (i). When you switch to having the derived type, similarly you could pass in variable_of_type % element rather than passing in the entire variable_of_type and somehow instructing the procedure which subelement it is supposed to work on. If ...


4

A dummy argument in a Fortran procedure with the BIND(C) attribute that doesn't have the VALUE argument is equivalent on the C side to a pointer parameter (this is broadly consistent with the usual Fortran convention of things being passed by reference). So if on the Fortran side you have INTEGER(C_INT) :: a (no value attribute), that's equivalent on the C ...


4

The array of derived type is stored in the same column-major order. You may wonder where are the individual components stored. Their offset from the address of the array element is unspecified, the order can differ from the order of declaration and there may be various gaps between them. But once you establish the value of the offset (by calling loc() or ...


4

You can write some interoperable accessor procedures in Fortran that operate on the derived type and expose the necessary variables to the C++ code. This is very similar to how general C++ code interacts with private member variables of a class. You can use the C address of an object of type SIMPLEF as an opaque handle in the C++ code - the type in Fortran ...


4

The answer to the question "is it possible?" is yes, it is possible. Just put a 2d array into your type: type four_by_four_matrix real(rp) :: arr(4,4) contains procedure :: inv => four_by_four_matrix_inv end type contains subroutine four_by_four_matrix_inv(self) class(four_by_four_matrix), intent(inout) :: self .... !somehow ...


3

You can't multiply nonsquare matrices by themselves. You have to transpose one of them. You also mix reals and integers. Your matrices are supposed to be real and your result is integer. It's possible to reference the matrix with a small FORTRAN STYLE hack (equivalence and sequence, assuming same storage size for default integer and real). This one ...


3

It's definitely a scoping problem. MPI_MSGINSTALLP is just a plain old variable of type MPI_Datatype, not a special literal that you can use anywhere once committed (which is basically the way you're trying to use it). Since the variable is temporary within Add_MPI_Types(), it long ceased to exist by the time run() is called. Personally, I would move the ...


3

Your best bet would be to make Alarm an interface, or if that's not possible, create an IAlarm interface, and inherit from this interface for both Alarm and HeartbeatAlarm. AlarmFactory.GetAlarm should return an IAlarm instance. Likewise, HeartbeatAlarm.GetAlarm() should return an IAlarm instance. This should eliminate any compiler errors, plus the upside ...


3

Yes, you can certainly do this: the problem with your code hanging on the MPI_Isend()/MPI_Irecv() is that you're sending to/receiving from the wrong process; you want 1 to send to 0, and 0 to send to 1, not 1 to send to 1 and 0 to receive from 0. 0 is never receiving that phantom message (since it doesn't exist), and you're hanging. if ( iproc == 1 ) ...


3

The problem here is that an MPI_Datatype object such as PEDGE is not itself the new datatype, merely an opaque handle to some implementation-specific entity that MPI can interpret as a datatype. As such, sizeof() will not be able to return its accurate size. Use MPI_Type_size() instead. As for the sends failing, I can't say much without seeing your code, ...



Only top voted, non community-wiki answers of a minimum length are eligible