Exemple #1
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    def time_stepping(self):
        """
        generate time index variable for time stepping
        e.g. for 2nd order time-accurate scheme, varibales are t0, t1
        for 4th order time-accurate scheme, variables are t0, t1, t2, t3
        the variables are used to address the field arrays
        e.g. in 2nd order scheme, U[t1] will be updated using U[t0]
        the variables are calculated by taking mod with time periodicity
        return generated code as string
        """

        _ti = Symbol('_ti')
        body = []

        for i in range(len(self.time)):
            lhs = self.time[i].name
            if i == 0:
                rhs = ccode(_ti % self.tp)
            else:
                rhs = ccode((self.time[i-1]+1) % self.tp)
            body.append(cgen.Assign(lhs, rhs))

        body = cgen.Block(body)
        body = cgen.Module([cgen.Pragma('omp single'), body])
        return body
Exemple #2
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 def save_field_block(self, filename, field):
     statements = []
     statements.append(cgen.Initializer(cgen.Value("int", "dims[]"), "{dim1, dim1, dim1}"))
     statements.append(cgen.Initializer(cgen.Value("float", "spacing[]"), "{dx1, dx2, dx3}"))
     statements.append(cgen.Assign("std::string vtkfile", "\""+filename+"\" + std::to_string(_ti)"))
     statements.append(cgen.Statement("opesci_dump_field_vts_3d(vtkfile, dims, spacing, 2, &"+field+"["+ccode(self.time[len(self.time)-1])+"][0][0][0])"))
     return cgen.Module([cgen.Pragma("omp single"), cgen.Block(statements)])
Exemple #3
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    def converge_test(self):
        """
        - generate code for convergence test
        - convergence test implemented by calculating L2 norm
        of the simulation against analytical solution
        - L2 norm of each field is calculated and output with printf()
        - return generated code as string
        """
        result = []
        if not self.converge:
            return cgen.Module(result)

        m = self.margin.value
        ti = self.ntsteps.value % 2  # last updated grid
        loop = [Symbol('_'+x.name) for x in self.index]  # symbols for loop

        for i in range(len(self.spacing)):
            result.append(cgen.Statement('printf("%d\\n")' % self.spacing[i].value))

        for field in self.fields:
            body = []
            l2 = ccode(field.label)+'_l2'
            idx = [ti] + loop
            result.append(cgen.Initializer(cgen.Value(self.real_t, l2), 0.0))
            # populate xvalue, yvalue zvalue code
            for d in range(self.dimension-1, -1, -1):
                i = loop[d]
                i0 = m
                i1 = ccode(self.dim[d]-m)
                expr = self.spacing[d]*(loop[d] - self.margin.value)
                pre = [cgen.Initializer(cgen.Value(self.real_t, self.index[d].name), ccode(expr))]

                if d == self.dimension-1:
                    # inner loop
                    tn = self.dt.value*self.ntsteps.value \
                        if not field.staggered[0] \
                        else self.dt.value*self.ntsteps.value \
                        + self.dt.value/2.0
                    body = [cgen.Statement('%s += %s' % (l2, ccode((field[idx] - (field.sol.subs(self.t, tn)))**2.0)))]
                body = pre+body
                body = [cgen.For(cgen.InlineInitializer(cgen.Value('int', i), i0), cgen.Line('%s<%s' % (i, i1)), cgen.Line('++%s' % i), cgen.Block(body))]

            result += body
            volume = 1.0
            for i in range(len(self.spacing)):
                volume *= self.spacing[i].value
            l2_value = 'pow(' + l2 + '*' + ccode(volume) + ', 0.5)'
            result.append(cgen.Statement('conv->%s = %s' % (l2, l2_value)))

        return cgen.Module(result)
Exemple #4
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 def simple_kernel(self, grid_field, indexes):
     """
     Generate the inner loop with all fields from stress or velocity
     :param grid_field: stress or velocity field array
     :param indexes: array with dimension, dimension var, initial margin, final margin
     - iterate through fields and replace mako template
     - return inner loop code as string
     """
     body = []
     idx = [self.time[len(self.time)-1]] + self.index
     # This loop create the most inner loop with all fields
     for field in grid_field:
         body.append(cgen.Assign(ccode(field[idx]), ccode(self.kernel_sympy(field))))
     body = [cgen.For(cgen.InlineInitializer(cgen.Value('int', indexes[1]), indexes[2]), cgen.Line('%s<%s' % (indexes[1], indexes[3])), cgen.Line('++%s' % indexes[1]), cgen.Block(body))]
     if not self.pluto and self.ivdep and indexes[0] == self.dimension-1:
         body.insert(0, self.compiler._ivdep)
     if not self.pluto and self.simd and indexes[0] == self.dimension-1:
         body.insert(0, cgen.Pragma('simd'))
     return body
Exemple #5
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    def generate_loop(self, fields):
        """
        The functions to generate stress loops and velocity loops are identical,
        save for a single parameter. Moved the common code to this function to reduce repetition of code.
        """
        if self.eval_const:
            self.create_const_dict()
        m = self.margin.value
        body = []
        for d in range(self.dimension-1, -1, -1):
            i = self.index[d]
            i0 = m
            i1 = ccode(self.dim[d]-m)
            if d == self.dimension-1:
                # inner loop
                if not self.fission:
                    body = self.simple_kernel(fields, [d, i, i0, i1])
                else:
                    body = self.fission_kernel(fields, [d, i, i0, i1])
            if not d == self.dimension-1:
                body = [cgen.For(cgen.InlineInitializer(cgen.Value('int', i), i0), cgen.Line('%s<%s' % (i, i1)), cgen.Line('++%s' % i), cgen.Block(body))]

        if not self.pluto and self.omp:
            body.insert(0, cgen.Pragma('omp for schedule(static,1)'))
        return cgen.Module(body)
Exemple #6
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    def generate_second_initialisation(self):
        loop = [Symbol('_'+x.name) for x in self.index]  # symbols for loop
        m = self.margin.value
        statements = []
        v = symbols("v")
        for field in self.fields:
            body = []
            if self.omp:
                statements.append(cgen.Pragma('omp for schedule(static,1)'))
            # populate xvalue, yvalue zvalue code
            for d in range(self.dimension-1, -1, -1):
                i = loop[d]
                i0 = m
                i1 = ccode(self.dim[d]-m)
                pre = []

                post = []
                if d == self.dimension-1:
                    # inner loop
                    # first time step
                    kernel = self.transform_kernel(field)
                    for arg in kernel.args:
                        if str(arg).startswith("-") and str(self.t - 1) in str(arg):
                            kernel = kernel.subs({arg: 0}, simultaneous=True)
                            arg = 2*v*self.dt
                            kernel = 0.5*(kernel + arg)
                    kernel = kernel.subs({self.t: self.time[0]})
                    for idx in self.index:
                        kernel = kernel.subs(idx, '_'+idx.name)
                    body = [cgen.Assign(ccode(field[[self.time[1]]+loop]), ccode(kernel))]
                body = pre + body + post
                body = [cgen.For(cgen.InlineInitializer(cgen.Value('int', i), i0), cgen.Line('%s<%s' % (i, i1)), cgen.Line('++%s' % i), cgen.Block(body))]

            statements.append(body[0])
        return statements
Exemple #7
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    def initialise(self):
        loop = [Symbol('_'+x.name) for x in self.index]  # symbols for loop

        statements = []
        
        for field in self.fields:
            body = []
            if self.omp:
                statements.append(cgen.Pragma('omp for schedule(static,1)'))
            # populate xvalue, yvalue zvalue code
            for d in range(self.dimension-1, -1, -1):
                i = loop[d]
                i0 = 0
                i1 = ccode(self.dim[d])
                pre = []
                #velocity_initialisation = cgen.Assign(ccode())
                post = []
                if d == self.dimension-1:
                    # inner loop
                    # first time step
                    t0 = 0
                    sol = field.sol.subs(self.t, t0)
                    for idx in self.index:
                        sol = sol.subs(idx, '_'+idx.name)
                    body = [cgen.Assign(ccode(field[[0]+loop]), ccode(sol))]
                body = pre + body + post
                body = [cgen.For(cgen.InlineInitializer(cgen.Value('int', i), i0), cgen.Line('%s<%s' % (i, i1)), cgen.Line('++%s' % i), cgen.Block(body))]

            statements.append(body[0])
            statements += self.generate_second_initialisation()
            
            
        return cgen.Module(statements)