// Copyright 2015 Conrad Sanderson (http://conradsanderson.id.au) // Copyright 2015 National ICT Australia (NICTA) // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // ------------------------------------------------------------------------ #include #include "catch.hpp" using namespace arma; TEST_CASE("fn_accu_1") { mat A = "\ 0.061198 0.201990 0.019678 -0.493936 -0.126745 0.051408;\ 0.437242 0.058956 -0.149362 -0.045465 0.296153 0.035437;\ -0.492474 -0.031309 0.314156 0.419733 0.068317 -0.454499;\ 0.336352 0.411541 0.458476 -0.393139 -0.135040 0.373833;\ 0.239585 -0.428913 -0.406953 -0.291020 -0.353768 0.258704;\ "; REQUIRE( accu(A) == Approx( 0.240136) ); REQUIRE( accu(abs(A)) == Approx( 7.845382) ); REQUIRE( accu(A-A) == Approx( 0.0 ) ); REQUIRE( accu(A+A) == Approx( 0.480272) ); REQUIRE( accu(2*A) == Approx( 0.480272) ); REQUIRE( accu( -A) == Approx(-0.240136) ); REQUIRE( accu(2*A+3*A) == Approx( 1.200680) ); REQUIRE( accu(fliplr(A)) == Approx( 0.240136) ); REQUIRE( accu(flipud(A)) == Approx( 0.240136) ); REQUIRE( accu(A.col(1)) == Approx( 0.212265) ); REQUIRE( accu(A.row(1)) == Approx( 0.632961) ); REQUIRE( accu(2*A.col(1)) == Approx( 0.424530) ); REQUIRE( accu(2*A.row(1)) == Approx( 1.265922) ); REQUIRE( accu(A%A) == Approx(2.834218657806) ); REQUIRE( accu(A*A.t()) == Approx(1.218704694166) ); REQUIRE( accu(A.t()*A) == Approx(2.585464740700) ); REQUIRE( accu(vectorise(A)) == Approx(0.240136) ); REQUIRE( accu( A(span(1,3), span(1,4)) ) == Approx(1.273017) ); REQUIRE( accu( 2*A(span(1,3), span(1,4)) ) == Approx(2.546034) ); REQUIRE_THROWS( accu(A*A) ); } TEST_CASE("fn_accu_2") { mat A = "\ 0.061198 0.201990 0.019678 -0.493936 -0.126745 0.051408;\ 0.437242 0.058956 -0.149362 -0.045465 0.296153 0.035437;\ -0.492474 -0.031309 0.314156 0.419733 0.068317 -0.454499;\ 0.336352 0.411541 0.458476 -0.393139 -0.135040 0.373833;\ 0.239585 -0.428913 -0.406953 -0.291020 -0.353768 0.258704;\ "; cx_mat C = cx_mat(A, 2*fliplr(A)); cx_mat D = cx_mat(2*fliplr(A), A); REQUIRE( abs(accu(C) - cx_double(0.240136, +0.480272)) == Approx(0.0) ); REQUIRE( abs(accu(cx_double(2,3)*C) - cx_double(-0.960544000000001, +1.680951999999999)) == Approx(0.0) ); REQUIRE( abs(accu(C*D.t() ) - cx_double(-0.710872588088, +3.656114082498002)) == Approx(0.0) ); REQUIRE( abs(accu(C*D.st()) - cx_double(0.0, +6.093523470830000)) == Approx(0.0) ); REQUIRE( abs(accu(C.t() *D) - cx_double(10.341858962800, -7.756394222100000)) == Approx(0.0) ); REQUIRE( abs(accu(C.st()*D) - cx_double(0.0, +1.29273237035e+01)) == Approx(0.0) ); } TEST_CASE("fn_accu_3") { vec a = linspace(1,5,5); vec b = linspace(1,5,6); vec c = -linspace(1,5,6); REQUIRE(accu(a) == Approx( 15.0)); REQUIRE(accu(b) == Approx( 18.0)); REQUIRE(accu(c) == Approx(-18.0)); } TEST_CASE("fn_accu_4") { mat A(5,6); A.fill(2.0); mat B(5,6); B.fill(4.0); mat C(6,5); C.fill(6.0); REQUIRE( accu(A + B) == Approx(double((2+4)*(A.n_rows*A.n_cols))) ); REQUIRE( accu(A(span::all,span::all) + B(span::all,span::all)) == Approx(double((2+4)*(A.n_rows*A.n_cols))) ); REQUIRE( accu(A % B) == Approx(double((2*4)*(A.n_rows*A.n_cols))) ); REQUIRE( accu(A(span::all,span::all) % B(span::all,span::all)) == Approx(double((2*4)*(A.n_rows*A.n_cols))) ); // A and C matrices are non-conformat, so accu() will throw unless ARMA_NO_DEBUG is defined REQUIRE_THROWS( accu(A % C) ); REQUIRE_THROWS( accu(A(span::all,span::all) % C(span::all,span::all)) ); } TEST_CASE("fn_accu_spmat") { SpMat b(4, 4); b(0, 1) = 6; b(1, 3) = 15; b(3, 1) = 14; b(2, 0) = 5; b(3, 3) = 12; REQUIRE( accu(b) == 52 ); REQUIRE( accu(b.submat(1, 1, 3, 3)) == 41 ); }