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256 lines (212 loc) · 6.37 KB
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#include "range.hpp"
#include <vector>
#include <iterator>
#include <algorithm>
#include "helpers.hpp"
#include "catch.hpp"
using Vec = const std::vector<int>;
using iter::range;
TEST_CASE("range: works with only stop", "[range]") {
auto r = range(5);
Vec v(std::begin(r), std::end(r));
Vec vc{0, 1, 2, 3, 4};
REQUIRE(v == vc);
}
TEST_CASE("range: works with start and stop", "[range]") {
auto r = range(1, 5);
Vec v(std::begin(r), std::end(r));
Vec vc{1, 2, 3, 4};
REQUIRE(v == vc);
}
TEST_CASE("range: works with positive step > 1", "[range]") {
auto r = range(1, 10, 3);
Vec v(std::begin(r), std::end(r));
Vec vc{1, 4, 7};
REQUIRE(v == vc);
}
TEST_CASE("range(0) is empty", "[range]") {
auto r = iter::range(0);
REQUIRE(std::begin(r) == std::end(r));
}
TEST_CASE("range: postfix++", "[range]") {
auto r = iter::range(3);
auto it = std::begin(r);
it++;
REQUIRE(*it == 1);
}
TEST_CASE("start > stop produces empty range", "[range]") {
auto r = range(5, 0);
Vec v(std::begin(r), std::end(r));
REQUIRE(v.empty());
}
TEST_CASE("start < stop and step < 0 produces empty range", "[range]") {
auto r = range(0, 5, -1);
Vec v(std::begin(r), std::end(r));
REQUIRE(v.empty());
}
TEST_CASE("range: with only a negative stop is empty", "[range]") {
auto r = range(-3);
Vec v(std::begin(r), std::end(r));
REQUIRE(v.empty());
}
TEST_CASE("range: works with negative step", "[range]") {
auto r = range(5, -5, -3);
Vec v(std::begin(r), std::end(r));
Vec vc{5, 2, -1, -4};
REQUIRE(v == vc);
}
TEST_CASE("range: stops short when step doesn't divide stop-start", "[range]") {
auto r = range(0, 5, 2);
Vec v(std::begin(r), std::end(r));
Vec vc{0, 2, 4};
REQUIRE(v == vc);
}
TEST_CASE("range: stops short when step > stop-start", "[range]") {
auto r = range(0, 10, 20);
Vec v(std::begin(r), std::end(r));
REQUIRE(v.size() == 1);
}
TEST_CASE("range: step size of 0 gives an empty range", "[range]") {
auto r = range(0, 10, 0);
REQUIRE(std::begin(r) == std::end(r));
auto r2 = range(0, -10, 0);
REQUIRE(std::begin(r2) == std::end(r2));
}
TEST_CASE("range: can create constexpr ranges", "[range]") {
constexpr auto r = range(10);
(void)r;
constexpr auto r2 = range(4, 10);
(void)r2;
constexpr auto r3 = range(4, 10, 2);
(void)r3;
constexpr auto it = r2.begin(); // std::begin isn't constexpr
constexpr auto i = *it;
static_assert(i == 4, "range's begin has the wrong value");
constexpr auto rf = range(10.0);
constexpr auto itf = rf.begin();
constexpr auto f = *itf;
static_assert(f == 0.0, "range's begin has tho wrong value (float)");
}
TEST_CASE("range: works with a variable start, stop, and step", "[range]") {
constexpr int a = 10;
constexpr int b = 100;
constexpr int c = 50;
SECTION("Going up works") {
auto r = range(a, a + 2);
Vec v(std::begin(r), std::end(r));
Vec vc{a, a + 1};
REQUIRE(v == vc);
}
SECTION("Going down works") {
auto r = range(a + 2, a, -1);
Vec v(std::begin(r), std::end(r));
Vec vc{a + 2, a + 1};
REQUIRE(v == vc);
}
SECTION("Going down with -2 stop works") {
auto r = range(a + 4, a, -2);
Vec v(std::begin(r), std::end(r));
Vec vc{a + 4, a + 2};
REQUIRE(v == vc);
}
SECTION("Using three variable") {
auto r = range(a, b, c);
Vec v(std::begin(r), std::end(r));
REQUIRE(std::find(std::begin(v), std::end(v), a) != std::end(v));
REQUIRE(std::find(std::begin(v), std::end(v), b) == std::end(v));
REQUIRE(v.size() == 2);
}
SECTION("Using three with a unary negate on step") {
auto r = range(b, a, -c);
Vec v(std::begin(r), std::end(r));
REQUIRE(std::find(std::begin(v), std::end(v), b) != std::end(v));
REQUIRE(std::find(std::begin(v), std::end(v), a) == std::end(v));
REQUIRE(v.size() == 2);
}
SECTION("Using all three negated") {
auto r = range(-a, -b, -c);
Vec v(std::begin(r), std::end(r));
REQUIRE(std::find(std::begin(v), std::end(v), -a) != std::end(v));
REQUIRE(std::find(std::begin(v), std::end(v), -b) == std::end(v));
REQUIRE(v.size() == 2);
}
}
TEST_CASE("range: forward iterator checks", "[range]") {
auto r = range(10);
REQUIRE(std::end(r) == std::end(r));
auto it1 = std::begin(r);
auto it2 = std::begin(r);
REQUIRE_FALSE(it1 != it2);
REQUIRE(it1 == it2);
++it1;
REQUIRE(it1 != it2);
++it2;
REQUIRE(it1 == it2);
auto it3 = it1++;
REQUIRE(it3 == it2);
auto it4 = ++it3;
REQUIRE(it4 == it3);
auto it5 = std::begin(r);
const auto& v = *it5;
++it5;
REQUIRE(v != *it5);
}
TEST_CASE("range: forward iterator with double, checks", "[range]") {
auto r = range(10.0);
REQUIRE(std::end(r) == std::end(r));
auto it1 = std::begin(r);
auto it2 = std::begin(r);
REQUIRE_FALSE(it1 != it2);
REQUIRE(it1 == it2);
++it1;
REQUIRE(it1 != it2);
++it2;
REQUIRE(it1 == it2);
auto it3 = it1++;
REQUIRE(it3 == it2);
auto it4 = ++it3;
REQUIRE(it4 == it3);
}
using FVec = const std::vector<double>;
TEST_CASE("range: using doubles", "[range]") {
auto r = range(5.0);
FVec fv(std::begin(r), std::end(r));
FVec fvc = {0.0, 1.0, 2.0, 3.0, 4.0};
REQUIRE(fv == fvc);
}
TEST_CASE("range: using doubles with start and stop", "[range]") {
auto r = range(5.0, 10.0);
FVec fv(std::begin(r), std::end(r));
FVec fvc = {5.0, 6.0, 7.0, 8.0, 9.0};
REQUIRE(fv == fvc);
}
TEST_CASE("range: using doubles with start, stop and step", "[range]") {
auto r = range(1.0, 4.0, 0.5);
FVec fv(std::begin(r), std::end(r));
FVec fvc = {1.0, 1.5, 2.0, 2.5, 3.0, 3.5};
REQUIRE(fv == fvc);
}
TEST_CASE("range: using doubles with negative", "[range]") {
auto r = range(0.5, -2.0, -0.5);
FVec fv(std::begin(r), std::end(r));
FVec fvc = {0.5, 0.0, -0.5, -1.0, -1.5};
REQUIRE(fv == fvc);
}
TEST_CASE("range: using doubles with uneven step", "[range]") {
auto r = range(0.0, 1.75, 0.5);
FVec fv(std::begin(r), std::end(r));
FVec fvc = {0.0, 0.5, 1.0, 1.5};
REQUIRE(fv == fvc);
}
TEST_CASE("range: using doubles detects empty ranges", "[range]") {
auto r1 = range(0.0, -1.0);
REQUIRE(std::begin(r1) == std::end(r1));
auto r2 = range(0.0, 1.0, -1.0);
REQUIRE(std::begin(r2) == std::end(r2));
}
TEST_CASE("range: iterator meets forward iterator requirements", "[range]") {
auto r = range(5);
auto r2 = range(5.0);
REQUIRE(itertest::IsForwardIterator<decltype(std::begin(r))>::value);
REQUIRE(itertest::IsForwardIterator<decltype(std::begin(r2))>::value);
}