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I have been trying to write a Matrix class which used a one dimensional vector in order to build up a two-dimensional matrix. My main goal is to be able to add row or column to my Matrix, using this class, in addition of being able to do normal matrix operations. My current issue is how to add/subtract/multiply element by element of two matrices? I'd like to use vector properties in order to solve this problem by applying the idea of this answer. But so far I wasn't successful. How can I use transform and plus/minus for element-wise two vectors operations??

from libcpp.vector cimport vector
import cython
import numpy as np
import ctypes
cimport numpy as np
cimport cython                                               

cdef extern from "<algorithm>" namespace "std" nogil:    
     OutputIter copy[InputIter,OutputIter](InputIter,InputIter,OutputIter)
     #http://en.cppreference.com/w/cpp/algorithm/transform
     OutputIter transform[InputIter, OutputIter, UnaryOperation]( InputIter,InputIter,OutputIter, UnaryOperation )


cdef struct plus:
    T operator[] (T& x, T& y): 
      return x+y
cdef class Matrix:
     cdef vector[double] matrix   
     cdef int _rows
     cdef int _columns

     def __cinit__(self, int rows=0, int columns=0, bint Identity=False):
         self._rows=rows
         self._columns=columns
         self.matrix.resize(rows*columns)
         if Identity:
            self._IdentityMatrix()

     property rows:
        def __get__(self):
            return self._rows
        def __set__(self, int x):
            self._rows = x    
     property columns:
        def __get__(self):
            return self._columns
        def __set__(self, int y):
            self._columns = y    


     cpdef double getVal(self, int r, int c):
           return self.matrix[r*self._columns+c]

     cpdef void setVal(self, int r, int c, double v): 
           self.matrix[r*self._columns+c] = v

     cpdef void AddRow(self, vector[double] row):
           cdef int i
           if (row.size()!=self._columns):
              raise Exception('The size of appended row is wrong!')
           else:
              self._rows+=1
              for i from 0 <= i <self._columns:
                  self.matrix.push_back(row[i])

     cpdef void AddColumn(self, vector[double] col):
           cdef int i
           if (col.size()!=self._rows):
              raise Exception('The size of appended column is wrong!')

           else:

              for i from 0 <= i <self._rows:
                  self.matrix.insert(self.matrix.begin()+i+(i+1)*self._columns, col[i])

              self._columns+=1 
     cpdef Matrix transpose(self):
           cdef int i,j 
           cdef Matrix m = Matrix(self._columns,self._rows)
           for i from 0 <= i <self._columns:
               for j from 0 <= j <self._rows:
                   m.setVal(i,j,self.getVal(j,i))
           return m

     cdef void _IdentityMatrix(self):
          cdef int i 
          if (self._rows!=self._columns):
             raise Exception('In order to generate identity matrix, the number of rows and columns must be equal')
          else:
             for i from 0 <= i <self._columns:
                 self.setVal(i,i,1.0)

     cpdef void add(self, Matrix m):
           if ((self._rows!=m._rows) or (self._columns!=m._columns)):
              raise Exception('In order to add two matrices, they must have equal number of rows and columns')
           else:
              transform(self.begin( ), m.begin( ), self.begin( ),plus())

I will appreciate if I get answer to solve just this problem.

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  • A quick pointer: I think plus should have operator() rather than operator[]. It's also probably easier to define it for double rather than trying to make a template function.
    – DavidW
    Dec 10, 2017 at 15:06
  • @DaivdW How should it be done? I changed it to cdef struct plus: double operator() (double x, double y): return x+y and got this error:double operator() (double x, double y): ^ ------------------------------------------------------------ matrix.pyx:16:43: C function definition not allowed here
    – Dalek
    Dec 10, 2017 at 15:15
  • @DavidW Well, how about using plus from here? How should I get the header from c++ library? Thanks again :)
    – Dalek
    Dec 10, 2017 at 15:19
  • Try changing cdef struct plus to cdef cppclass plus to define it in Cython (I'm not able to test it currently though). Don't know about getting it from the standard library right now.
    – DavidW
    Dec 10, 2017 at 15:25
  • @DavidW I got more error messages:double operator() (double x, double y): ^ ------------------------------------------------------------ matrix.pyx:16:24: Compiler crash in ControlFlowAnalysis ModuleNode.body = StatListNode(matrix.pyx:1:0) CppClassNode.attributes[0] = CFuncDefNode(matrix.pyx:16:5, args = [...]/2, modifiers = [...]/0, visibility = u'private') Compiler crash traceback from this point on:
    – Dalek
    Dec 10, 2017 at 15:32

1 Answer 1

1
+50

A big part of your problem is that you've misunderstood the documentation for the C++ transform function and are calling the "UnaryOperation" variant of it (where the function takes only one argument).

Instead you need to call the "BinaryOperation" version. Note that for the container range needs a begin and end iterator (the second input and output are assumed to be of equal length).

Here's a minimal working example:

from libcpp.vector cimport vector

cdef extern from "<algorithm>" namespace "std":    
     #http://en.cppreference.com/w/cpp/algorithm/transform
     OutputIter transform[InputIter1, InputIter2, OutputIter, BinaryOperation]( InputIter1,InputIter1,InputIter2,OutputIter, BinaryOperation)

cdef extern from "<functional>" namespace "std":
     cdef cppclass plus[T]:
         plus()

def example():
    cdef vector[double] v1=[1,2,3]
    cdef vector[double] v2=[2,3,4]

    transform(v1.begin(),v1.end(), 
              v2.begin(),
              v1.begin(),
              plus[double]())

    print(v1)

A small detail of your code that I noticed is that you allow assignment to the rows and columns properties. This is a bad idea because it lets you put the Matrix in an inconsistent state, where Python believes it's bigger than the storage allocated.

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  • Thanks a lot for the answer! would you elaborate what do you mean by you allow assignment to the rows and columns properties. This is a bad idea because it lets you put the Matrix in an inconsistent state, where Python believes it's bigger than the storage allocated
    – Dalek
    Dec 10, 2017 at 21:25
  • For example getVal and setVal use the result of self._columns to decide which element to pick. However, the columns property has a setter, so a user could assign self._columns to any value. It just seems like something they shouldn't be able to change when there's methods for adding rows and columns properly.
    – DavidW
    Dec 10, 2017 at 21:37
  • Thanks again for the useful answer. Can I ask another question, more and less related to this one?
    – Dalek
    Dec 11, 2017 at 11:19
  • I was trying to implement scaling of the parameters of the matrix using transform, bind1st and multiplies by writing these lines:cdef extern from "<functional>" namespace "std" nogil: cdef cppclass multiplies[T]: multiplies() cdef cppclass bind1st[Fun,T]: binder1st<multiplies<double>>bind1st(multiplies[double], double) and transform(self.matrix.begin( ), self.matrix.end(), self.matrix.begin( ), bind1st(multiplies[double](),c)) but I guess I did not wrap bind1st correctly. Would you please give a hint how it should be done?
    – Dalek
    Dec 11, 2017 at 14:25
  • Cython isn't really very good at templates and this looks complicated. I'd be tempted to write this code in C++ - create a C++ function multiply_by_constant(std::vector<double> v, double c) and then wrap that with Cython instead. I don't think I can make this work in Cython alone.
    – DavidW
    Dec 11, 2017 at 18:01

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