#include "sample_vectors.hpp" #include namespace { void test_svec2 (const vwr::svec2& parVec, float parX, float parY) { EXPECT_EQ(parVec.x(), parX); EXPECT_EQ(parVec.y(), parY); } void simplevec_double (vwr::SimpleVector3& parVec, float parX, float parY, float parZ) { EXPECT_EQ(parVec.x, parX); EXPECT_EQ(parVec.y, parY); EXPECT_EQ(parVec.z, parZ); parVec.x *= 2.0f; parVec.y *= 2.0f; parVec.z *= 2.0f; } } //unnamed namespace TEST(vwr, example) { using namespace vwr; //Using the bare vectors { //Imagine you get this vector from a function's return value. auto vec = TrailingDataVector3{2.0f, 5.5f, 3.8f, 1, 2}; //Now you want to pass it on to a function from a different library. //To be safe, create a temporary of the correct type. //Was it lower case x, upper case, with or without paretheses? auto vec_b = SimpleVector3{vec.X, vec.Y, vec.Z}; simplevec_double(vec_b, vec_b.x, vec_b.y, vec_b.z); //The above call changed the input vector, so re-assign it (vec_b is //just a converted copy, remember?) vec.X = vec_b.x; vec.Y = vec_b.y; vec.Z = vec_b.z; //Can't compare with vec == vec_b, so unroll it manually EXPECT_EQ(vec.X, vec_b.x); EXPECT_EQ(vec.Y, vec_b.y); EXPECT_EQ(vec.Z, vec_b.z); } //Using vectorwrapper { auto vec_in = TrailingDataVector3{2.0f, 5.5f, 3.8f, 1, 2}; //In reality, I just wrote TrailingDataVector3's definition myself, but //I'm already spending time to fix the build as I call vec.x instead of //vec.X. Do you think it's a remote case? Think twice. EXPECT_EQ(vec_in.X, 2.0f); EXPECT_EQ(vec_in.Y, 5.5f); EXPECT_EQ(vec_in.Z, 3.8f); EXPECT_EQ(vec_in.a, 1); EXPECT_EQ(vec_in.b, 2); tvec3 vec(vec_in); EXPECT_EQ(vec.x(), 2.0f); EXPECT_EQ(vec.y(), 5.5f); EXPECT_EQ(vec.z(), 3.8f); //If you initialize vec from an object of the wrapped type, extra data //also gets initialized correctly. But I think in most situations you //won't need this. EXPECT_EQ(vec.data().a, 1); EXPECT_EQ(vec.data().b, 2); //Suppose TrailingDataVector3 is a third-party struct and I'm not //guaranteed it will never change. Sure I can reinterpret_cast it, as //much as I could reinterpret_cast a short int to a TrailingDataVector3. //The following line won't compile if casting is not deemed appropriate. simplevec_double(vec.cast().data(), vec.x(), vec.y(), vec.z()); //Well that's it. //If what you wanted is indeed a copy of type SimpleVector3, here we go: svec3 vec_b(vec); EXPECT_EQ(vec_b, vec); } { //You can also cast a svec3 to svec2, if you need to. const svec3 vec(9.5f, 1.2f, 0.9f); test_svec2(vec.cast(), vec.x(), vec.y()); } }