/*! * Copyright 2018 XGBoost contributors */ #ifndef XGBOOST_TEST_SPAN_H_ #define XGBOOST_TEST_SPAN_H_ #include "../../include/xgboost/base.h" #include "../../../src/common/span.h" template XGBOOST_DEVICE void InitializeRange(Iter _begin, Iter _end) { float j = 0; for (Iter i = _begin; i != _end; ++i, ++j) { *i = j; } } namespace xgboost { namespace common { #define SPAN_ASSERT_TRUE(cond, status) \ if (!(cond)) { \ *(status) = -1; \ } #define SPAN_ASSERT_FALSE(cond, status) \ if ((cond)) { \ *(status) = -1; \ } struct TestTestStatus { int * status_; TestTestStatus(int* _status): status_(_status) {} XGBOOST_DEVICE void operator()() { this->operator()(0); } XGBOOST_DEVICE void operator()(int _idx) { SPAN_ASSERT_TRUE(false, status_); } }; struct TestAssignment { int* status_; TestAssignment(int* _status) : status_(_status) {} XGBOOST_DEVICE void operator()() { this->operator()(0); } XGBOOST_DEVICE void operator()(int _idx) { Span s1; float arr[] = {3, 4, 5}; Span s2 = arr; SPAN_ASSERT_TRUE(s2.size() == 3, status_); SPAN_ASSERT_TRUE(s2.data() == &arr[0], status_); s2 = s1; SPAN_ASSERT_TRUE(s2.empty(), status_); } }; struct TestBeginEnd { int* status_; TestBeginEnd(int* _status) : status_(_status) {} XGBOOST_DEVICE void operator()() { this->operator()(0); } XGBOOST_DEVICE void operator()(int _idx) { float arr[16]; InitializeRange(arr, arr + 16); Span s (arr); Span::iterator beg { s.begin() }; Span::iterator end { s.end() }; SPAN_ASSERT_TRUE(end == beg + 16, status_); SPAN_ASSERT_TRUE(*beg == arr[0], status_); SPAN_ASSERT_TRUE(*(end - 1) == arr[15], status_); } }; struct TestRBeginREnd { int * status_; TestRBeginREnd(int* _status): status_(_status) {} XGBOOST_DEVICE void operator()() { this->operator()(0); } XGBOOST_DEVICE void operator()(int _idx) { float arr[16]; InitializeRange(arr, arr + 16); Span s (arr); Span::iterator rbeg { s.rbegin() }; Span::iterator rend { s.rend() }; SPAN_ASSERT_TRUE(rbeg == rend + 16, status_); SPAN_ASSERT_TRUE(*(rbeg - 1) == arr[15], status_); SPAN_ASSERT_TRUE(*rend == arr[0], status_); } }; struct TestObservers { int * status_; TestObservers(int * _status): status_(_status) {} XGBOOST_DEVICE void operator()() { this->operator()(0); } XGBOOST_DEVICE void operator()(int _idx) { // empty { float *arr = nullptr; Span s(arr, static_cast::index_type>(0)); SPAN_ASSERT_TRUE(s.empty(), status_); } // size, size_types { float* arr = new float[16]; Span s (arr, 16); SPAN_ASSERT_TRUE(s.size() == 16, status_); SPAN_ASSERT_TRUE(s.size_bytes() == 16 * sizeof(float), status_); delete [] arr; } } }; struct TestCompare { int * status_; TestCompare(int * _status): status_(_status) {} XGBOOST_DEVICE void operator()() { this->operator()(0); } XGBOOST_DEVICE void operator()(int _idx) { float lhs_arr[16], rhs_arr[16]; InitializeRange(lhs_arr, lhs_arr + 16); InitializeRange(rhs_arr, rhs_arr + 16); Span lhs(lhs_arr); Span rhs(rhs_arr); SPAN_ASSERT_TRUE(lhs == rhs, status_); SPAN_ASSERT_FALSE(lhs != rhs, status_); SPAN_ASSERT_TRUE(lhs <= rhs, status_); SPAN_ASSERT_TRUE(lhs >= rhs, status_); lhs[2] -= 1; SPAN_ASSERT_FALSE(lhs == rhs, status_); SPAN_ASSERT_TRUE(lhs < rhs, status_); SPAN_ASSERT_FALSE(lhs > rhs, status_); } }; struct TestIterConstruct { int * status_; TestIterConstruct(int * _status): status_(_status) {} XGBOOST_DEVICE void operator()() { this->operator()(0); } XGBOOST_DEVICE void operator()(int _idx) { Span::iterator it1; Span::iterator it2; SPAN_ASSERT_TRUE(it1 == it2, status_); Span::const_iterator cit1; Span::const_iterator cit2; SPAN_ASSERT_TRUE(cit1 == cit2, status_); } }; struct TestIterRef { int * status_; TestIterRef(int * _status): status_(_status) {} XGBOOST_DEVICE void operator()() { this->operator()(0); } XGBOOST_DEVICE void operator()(int _idx) { float arr[16]; InitializeRange(arr, arr + 16); Span s (arr); SPAN_ASSERT_TRUE(*(s.begin()) == s[0], status_); SPAN_ASSERT_TRUE(*(s.end() - 1) == s[15], status_); } }; struct TestIterCalculate { int * status_; TestIterCalculate(int * _status): status_(_status) {} XGBOOST_DEVICE void operator()() { this->operator()(0); } XGBOOST_DEVICE void operator()(int _idx) { float arr[16]; InitializeRange(arr, arr + 16); Span s (arr); Span::iterator beg { s.begin() }; beg += 4; SPAN_ASSERT_TRUE(*beg == 4, status_); beg -= 2; SPAN_ASSERT_TRUE(*beg == 2, status_); ++beg; SPAN_ASSERT_TRUE(*beg == 3, status_); --beg; SPAN_ASSERT_TRUE(*beg == 2, status_); beg++; beg--; SPAN_ASSERT_TRUE(*beg == 2, status_); } }; struct TestIterCompare { int * status_; TestIterCompare(int * _status): status_(_status) {} XGBOOST_DEVICE void operator()() { this->operator()(0); } XGBOOST_DEVICE void operator()(int _idx) { float arr[16]; InitializeRange(arr, arr + 16); Span s (arr); Span::iterator left { s.begin() }; Span::iterator right { s.end() }; left += 1; right -= 15; SPAN_ASSERT_TRUE(left == right, status_); SPAN_ASSERT_TRUE(left >= right, status_); SPAN_ASSERT_TRUE(left <= right, status_); ++right; SPAN_ASSERT_TRUE(right > left, status_); SPAN_ASSERT_TRUE(left < right, status_); SPAN_ASSERT_TRUE(left <= right, status_); } }; struct TestAsBytes { int * status_; TestAsBytes(int * _status): status_(_status) {} XGBOOST_DEVICE void operator()() { this->operator()(0); } XGBOOST_DEVICE void operator()(int _idx) { float arr[16]; InitializeRange(arr, arr + 16); { const Span s {arr}; const Span bs = as_bytes(s); SPAN_ASSERT_TRUE(bs.size() == s.size_bytes(), status_); SPAN_ASSERT_TRUE(static_cast(bs.data()) == static_cast(s.data()), status_); } { Span s; const Span bs = as_bytes(s); SPAN_ASSERT_TRUE(bs.size() == s.size(), status_); SPAN_ASSERT_TRUE(bs.size() == 0, status_); SPAN_ASSERT_TRUE(bs.size_bytes() == 0, status_); SPAN_ASSERT_TRUE(static_cast(bs.data()) == static_cast(s.data()), status_); SPAN_ASSERT_TRUE(bs.data() == nullptr, status_); } } }; struct TestAsWritableBytes { int * status_; TestAsWritableBytes(int * _status): status_(_status) {} XGBOOST_DEVICE void operator()() { this->operator()(0); } XGBOOST_DEVICE void operator()(int _idx) { float arr[16]; InitializeRange(arr, arr + 16); { Span s; Span bs = as_writable_bytes(s); SPAN_ASSERT_TRUE(bs.size() == s.size(), status_); SPAN_ASSERT_TRUE(bs.size_bytes() == s.size_bytes(), status_); SPAN_ASSERT_TRUE(bs.size() == 0, status_); SPAN_ASSERT_TRUE(bs.size_bytes() == 0, status_); SPAN_ASSERT_TRUE(bs.data() == nullptr, status_); SPAN_ASSERT_TRUE(static_cast(bs.data()) == static_cast(s.data()), status_); } { Span s { arr }; Span bs { as_writable_bytes(s) }; SPAN_ASSERT_TRUE(s.size_bytes() == bs.size_bytes(), status_); SPAN_ASSERT_TRUE(static_cast(bs.data()) == static_cast(s.data()), status_); } } }; } // namespace common } // namespace xgboost #endif