Various micro performance tweaks in ThreadedRegexVM

This commit is contained in:
Maxime Coste 2018-11-05 21:54:29 +11:00
parent 7959c7f731
commit 7fbde0d44e

View File

@ -240,11 +240,8 @@ public:
private:
struct Saves
{
union // ref count when in use, next_free when in free list
{
int16_t refcount;
int16_t next_free;
};
int16_t refcount;
int16_t next_free;
Iterator pos[1];
};
@ -256,32 +253,37 @@ private:
if (m_first_free >= 0)
{
const int16_t res = m_first_free;
Saves* save = m_saves[res];
m_first_free = save->next_free;
save->refcount = 1;
Saves& saves = *m_saves[res];
m_first_free = saves.next_free;
kak_assert(saves.refcount == 1);
if (copy)
std::copy(pos, pos + count, save->pos);
std::copy_n(pos, count, saves.pos);
else
std::fill(save->pos, save->pos + count, Iterator{});
std::fill_n(saves.pos, count, Iterator{});
return res;
}
void* ptr = operator new (sizeof(Saves) + (count-1) * sizeof(Iterator));
Saves* saves = new (ptr) Saves{{1}, {copy ? pos[0] : Iterator{}}};
Saves* saves = new (ptr) Saves{1, 0, {copy ? pos[0] : Iterator{}}};
for (size_t i = 1; i < count; ++i)
new (&saves->pos[i]) Iterator{copy ? pos[i] : Iterator{}};
m_saves.push_back(saves);
return static_cast<int16_t>(m_saves.size() - 1);
}
void release_saves(int16_t saves)
void release_saves(int16_t index)
{
if (saves >= 0 and --m_saves[saves]->refcount == 0)
if (index < 0)
return;
auto& saves = *m_saves[index];
if (saves.refcount == 1)
{
m_saves[saves]->next_free = m_first_free;
m_first_free = saves;
saves.next_free = m_first_free;
m_first_free = index;
}
else
--saves.refcount;
};
struct Thread
@ -466,6 +468,7 @@ private:
const auto& start_desc = forward ? m_program.forward_start_desc : m_program.backward_start_desc;
const bool any_match = config.flags & RegexExecFlags::AnyMatch;
uint16_t current_step = -1;
m_found_match = false;
while (true) // Iterate on all codepoints and once at the end
@ -485,8 +488,7 @@ private:
for (auto& thread : m_threads.next_threads())
m_program.instructions[thread.inst].scheduled = false;
if (pos == config.end or m_threads.next_is_empty() or
(m_found_match and (config.flags & RegexExecFlags::AnyMatch)))
if (pos == config.end or m_threads.next_is_empty() or (m_found_match and any_match))
{
for (auto& t : m_threads.next_threads())
release_saves(t.saves);
@ -615,6 +617,10 @@ private:
struct DualThreadStack
{
DualThreadStack() = default;
DualThreadStack(const DualThreadStack&) = delete;
~DualThreadStack() { delete[] m_data; }
bool current_is_empty() const { return m_current == 0; }
bool next_is_empty() const { return m_next == m_capacity; }
@ -623,12 +629,16 @@ private:
void push_next(Thread thread) { grow_ifn(); m_data[--m_next] = thread; }
void clear_next() { m_next = m_capacity; }
ConstArrayView<Thread> next_threads() const { return { m_data.get() + m_next, m_data.get() + m_capacity }; }
ConstArrayView<Thread> next_threads() const { return { m_data + m_next, m_data + m_capacity }; }
void swap_next()
{
for (; m_next < m_capacity; m_current++, m_next++)
m_data[m_current] = m_data[m_next];
kak_assert(m_next < m_capacity);
do
{
m_data[m_current++] = m_data[m_next++];
}
while (m_next < m_capacity);
}
private:
@ -638,16 +648,15 @@ private:
return;
const auto new_capacity = m_capacity ? m_capacity * 2 : 4;
Thread* new_data = new Thread[new_capacity];
Thread* data = m_data.get();
std::copy(data, data + m_current, new_data);
std::copy(m_data, m_data + m_current, new_data);
const auto new_next = new_capacity - (m_capacity - m_next);
std::copy(data + m_next, data + m_capacity, new_data + new_next);
std::copy(m_data + m_next, m_data + m_capacity, new_data + new_next);
m_data = new_data;
m_capacity = new_capacity;
m_next = new_next;
m_data.reset(new_data);
}
std::unique_ptr<Thread[]> m_data = nullptr;
Thread* m_data = nullptr;
int32_t m_capacity = 0; // Maximum capacity should be 2*instruction count, so 65536
int32_t m_current = 0;
int32_t m_next = 0;