forked from lix-project/lix
eldritch horrors
73ddc4540f
this will be the basis of non-boost coroutines in lix. anything that is
a boost coroutine *should* be representable with a Generator coroutine,
and many things that are not currently boost coroutines but behave much
like one (such as, notably, serializers) should be as well. this allows
us to greatly simplify many things that look like iteration but aren't.
Change-Id: I2cebcefa0148b631fb30df4c8cfa92167a407e34
215 lines
4.6 KiB
C++
215 lines
4.6 KiB
C++
#include "generator.hh"
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#include <concepts>
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#include <cstdint>
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#include <gtest/gtest.h>
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namespace nix {
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TEST(Generator, yields)
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{
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auto g = []() -> Generator<int> {
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co_yield 1;
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co_yield 2;
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}();
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ASSERT_EQ(g.next(), 1);
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ASSERT_EQ(g.next(), 2);
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ASSERT_FALSE(g.next().has_value());
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}
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TEST(Generator, returns)
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{
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{
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auto g = []() -> Generator<int> { co_return; }();
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ASSERT_FALSE(g.next().has_value());
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}
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{
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auto g = []() -> Generator<int> {
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co_yield 1;
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co_yield []() -> Generator<int> { co_return; }();
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co_yield 2;
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co_yield []() -> Generator<int> { co_yield 10; }();
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co_yield 3;
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(void) "dummy statement to force some more execution";
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}();
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ASSERT_EQ(g.next(), 1);
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ASSERT_EQ(g.next(), 2);
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ASSERT_EQ(g.next(), 10);
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ASSERT_EQ(g.next(), 3);
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ASSERT_FALSE(g.next().has_value());
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}
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}
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TEST(Generator, nests)
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{
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auto g = []() -> Generator<int> {
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co_yield 1;
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co_yield []() -> Generator<int> {
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co_yield 9;
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co_yield []() -> Generator<int> {
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co_yield 99;
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co_yield 100;
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}();
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}();
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auto g2 = []() -> Generator<int> {
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co_yield []() -> Generator<int> {
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co_yield 2000;
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co_yield 2001;
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}();
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co_yield 1001;
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}();
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co_yield g2.next().value();
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co_yield std::move(g2);
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co_yield 2;
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}();
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ASSERT_EQ(g.next(), 1);
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ASSERT_EQ(g.next(), 9);
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ASSERT_EQ(g.next(), 99);
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ASSERT_EQ(g.next(), 100);
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ASSERT_EQ(g.next(), 2000);
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ASSERT_EQ(g.next(), 2001);
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ASSERT_EQ(g.next(), 1001);
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ASSERT_EQ(g.next(), 2);
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ASSERT_FALSE(g.next().has_value());
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}
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TEST(Generator, nestsExceptions)
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{
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auto g = []() -> Generator<int> {
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co_yield 1;
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co_yield []() -> Generator<int> {
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co_yield 9;
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throw 1;
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co_yield 10;
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}();
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co_yield 2;
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}();
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ASSERT_EQ(g.next(), 1);
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ASSERT_EQ(g.next(), 9);
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ASSERT_THROW(g.next(), int);
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}
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TEST(Generator, exception)
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{
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{
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auto g = []() -> Generator<int> {
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co_yield 1;
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throw 1;
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}();
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ASSERT_EQ(g.next(), 1);
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ASSERT_THROW(g.next(), int);
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ASSERT_FALSE(g.next().has_value());
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}
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{
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auto g = []() -> Generator<int> {
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throw 1;
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co_return;
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}();
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ASSERT_THROW(g.next(), int);
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ASSERT_FALSE(g.next().has_value());
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}
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}
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namespace {
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struct Transform
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{
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int state = 0;
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std::pair<uint32_t, int> operator()(std::integral auto x)
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{
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return {x, state++};
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}
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Generator<std::pair<uint32_t, int>, Transform> operator()(const char *)
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{
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co_yield 9;
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co_yield 19;
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}
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Generator<std::pair<uint32_t, int>, Transform> operator()(Generator<int> && inner)
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{
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return [](auto g) mutable -> Generator<std::pair<uint32_t, int>, Transform> {
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while (auto i = g.next()) {
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co_yield *i;
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}
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}(std::move(inner));
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}
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};
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}
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TEST(Generator, transform)
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{
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auto g = []() -> Generator<std::pair<uint32_t, int>, Transform> {
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co_yield int32_t(-1);
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co_yield "";
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co_yield []() -> Generator<int> { co_yield 7; }();
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co_yield 20;
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}();
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ASSERT_EQ(g.next(), (std::pair<unsigned, int>{4294967295, 0}));
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ASSERT_EQ(g.next(), (std::pair<unsigned, int>{9, 0}));
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ASSERT_EQ(g.next(), (std::pair<unsigned, int>{19, 1}));
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ASSERT_EQ(g.next(), (std::pair<unsigned, int>{7, 0}));
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ASSERT_EQ(g.next(), (std::pair<unsigned, int>{20, 1}));
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ASSERT_FALSE(g.next().has_value());
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}
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namespace {
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struct ThrowTransform
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{
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int operator()(int x)
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{
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return x;
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}
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int operator()(bool)
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{
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throw 2;
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}
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Generator<int, void> operator()(Generator<int> && inner)
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{
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throw false;
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}
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};
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}
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TEST(Generator, transformThrows)
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{
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{
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auto g = []() -> Generator<int, ThrowTransform> {
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co_yield 1;
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co_yield false;
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co_yield 2;
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}();
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ASSERT_EQ(g.next(), 1);
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ASSERT_THROW(g.next(), int);
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ASSERT_FALSE(g.next().has_value());
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}
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{
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auto g = []() -> Generator<int, ThrowTransform> {
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co_yield 1;
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co_yield []() -> Generator<int> {
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co_yield 2;
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}();
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co_yield 3;
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}();
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ASSERT_EQ(g.next(), 1);
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ASSERT_THROW(g.next(), bool);
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ASSERT_FALSE(g.next().has_value());
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}
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}
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}
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