/************************************************************************************* Grid physics library, www.github.com/paboyle/Grid Source file: ./tests/Test_serialisation.cc Copyright (C) 2015-2016 Author: Guido Cossu Author: Antonin Portelli Author: Peter Boyle This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. See the full license in the file "LICENSE" in the top level distribution directory *************************************************************************************/ /* END LEGAL */ #include using namespace Grid; GRID_SERIALIZABLE_ENUM(myenum, undef, red, 1, blue, 2, green, 3); class myclass: Serializable { public: GRID_SERIALIZABLE_CLASS_MEMBERS(myclass, myenum, e, std::vector, ve, std::string, name, int, x, double, y, bool , b, std::vector, array, std::vector >, twodimarray, std::vector > >, cmplx3darray, SpinColourMatrix, scm ); myclass() {} myclass(int i) : array(4,5.1) , twodimarray(3,std::vector(5, 1.23456)) , cmplx3darray(3,std::vector>(5, std::vector(7, Complex(1.2, 3.4)))) , ve(2, myenum::blue) { e=myenum::red; x=i; y=2*i; b=true; name="bother said pooh"; scm()(0, 1)(2, 1) = 2.356; scm()(3, 0)(1, 1) = 1.323; scm()(2, 1)(0, 1) = 5.3336; scm()(0, 2)(1, 1) = 6.336; scm()(2, 1)(2, 2) = 7.344; scm()(1, 1)(2, 0) = 8.3534; } }; int16_t i16 = 1; uint16_t u16 = 2; int32_t i32 = 3; uint32_t u32 = 4; int64_t i64 = 5; uint64_t u64 = 6; float f = M_PI; double d = 2*M_PI; bool b = false; template void ioTest(const std::string &filename, const O &object, const std::string &name) { // writer needs to be destroyed so that writing physically happens { W writer(filename); write(writer, "testobject", object); } R reader(filename); O buf; bool good; read(reader, "testobject", buf); good = (object == buf); std::cout << name << " IO test: " << (good ? "success" : "failure"); std::cout << std::endl; if (!good) exit(EXIT_FAILURE); } template void tensorConvTestFn(GridSerialRNG &rng, const std::string label) { T t, ft; Real n; bool good; random(rng, t); auto tv = tensorToVec(t); vecToTensor(ft, tv); n = norm2(t - ft); good = (n == 0); std::cout << label << " norm 2 diff: " << n << " -- " << (good ? "success" : "failure") << std::endl; } #define tensorConvTest(rng, type) tensorConvTestFn(rng, #type) int main(int argc,char **argv) { Grid_init(&argc,&argv); GridSerialRNG rng; rng.SeedFixedIntegers(std::vector({42,10,81,9})); std::cout << "==== basic IO" << std::endl; XmlWriter WR("bother.xml"); // test basic type writing std::cout << "-- basic writing to 'bother.xml'..." << std::endl; push(WR,"BasicTypes"); write(WR,std::string("i16"),i16); write(WR,"u16",u16); write(WR,"i32",i32); write(WR,"u32",u32); write(WR,"i64",i64); write(WR,"u64",u64); write(WR,"f",f); write(WR,"d",d); write(WR,"b",b); pop(WR); // test serializable class writing myclass obj(1234); // non-trivial constructor std::vector vec; std::pair pair; std::cout << "-- serialisable class writing to 'bother.xml'..." << std::endl; write(WR,"obj",obj); WR.write("obj2", obj); vec.push_back(obj); vec.push_back(myclass(5678)); vec.push_back(myclass(3838)); pair = std::make_pair(myenum::red, myenum::blue); write(WR, "objvec", vec); std::cout << "-- serialisable class writing to std::cout:" << std::endl; std::cout << obj << std::endl; std::cout << "-- serialisable class comparison:" << std::endl; std::cout << "vec[0] == obj: " << ((vec[0] == obj) ? "true" : "false") << std::endl; std::cout << "vec[1] == obj: " << ((vec[1] == obj) ? "true" : "false") << std::endl; std::cout << "-- pair writing to std::cout:" << std::endl; std::cout << pair << std::endl; // read tests std::cout << "\n==== IO self-consistency tests" << std::endl; //// XML ioTest("iotest.xml", obj, "XML (object) "); ioTest("iotest.xml", vec, "XML (vector of objects)"); //// binary ioTest("iotest.bin", obj, "binary (object) "); ioTest("iotest.bin", vec, "binary (vector of objects)"); //// text ioTest("iotest.dat", obj, "text (object) "); ioTest("iotest.dat", vec, "text (vector of objects)"); //// text // ioTest("iotest.json", obj, "JSON (object) "); // ioTest("iotest.json", vec, "JSON (vector of objects)"); //// HDF5 #ifdef HAVE_HDF5 ioTest("iotest.h5", obj, "HDF5 (object) "); ioTest("iotest.h5", vec, "HDF5 (vector of objects)"); #endif std::cout << "\n==== vector flattening/reconstruction" << std::endl; typedef std::vector>> vec3d; vec3d dv, buf; double d = 0.; dv.resize(4); for (auto &v1: dv) { v1.resize(3); for (auto &v2: v1) { v2.resize(5); for (auto &x: v2) { x = d++; } } } std::cout << "original 3D vector:" << std::endl; std::cout << dv << std::endl; Flatten flatdv(dv); std::cout << "\ndimensions:" << std::endl; std::cout << flatdv.getDim() << std::endl; std::cout << "\nflattened vector:" << std::endl; std::cout << flatdv.getFlatVector() << std::endl; Reconstruct rec(flatdv.getFlatVector(), flatdv.getDim()); std::cout << "\nreconstructed vector:" << std::endl; std::cout << flatdv.getVector() << std::endl; std::cout << std::endl; std::cout << "==== Grid tensor to vector test" << std::endl; tensorConvTest(rng, SpinColourMatrix); tensorConvTest(rng, SpinColourVector); tensorConvTest(rng, ColourMatrix); tensorConvTest(rng, ColourVector); tensorConvTest(rng, SpinMatrix); tensorConvTest(rng, SpinVector); }