namespace factor {
-profiling_sample_count profiling_sample_count::record_counts() volatile {
+// This is like the growable_array class, except the whole of it
+// exists on the Factor heap. growarr = growable array.
+static cell growarr_capacity(array *growarr) {
+ return untag_fixnum(growarr->data()[0]);
+}
+
+static cell growarr_nth(array *growarr, cell slot) {
+ return array_nth(untag<array>(growarr->data()[1]), slot);
+}
+
+// Allocates memory
+array* factor_vm::allot_growarr() {
+ data_root<array> contents(allot_array(10, false_object), this);
+ array *growarr = allot_uninitialized_array<array>(2);
+ set_array_nth(growarr, 0, tag_fixnum(0));
+ set_array_nth(growarr, 1, contents.value());
+ return growarr;
+}
+
+// Allocates memory
+void factor_vm::growarr_add(array *growarr_, cell elt_) {
+ data_root<array> growarr(growarr_, this);
+ data_root<object> elt(elt_, this);
+ data_root<array> contents(growarr.untagged()->data()[1], this);
+
+ cell count = growarr_capacity(growarr.untagged());
+ if (count == array_capacity(contents.untagged())) {
+ contents.set_untagged(reallot_array(contents.untagged(), 2 * count));
+ set_array_nth(growarr.untagged(), 1, contents.value());
+ }
+ set_array_nth(contents.untagged(), count, elt.value());
+ set_array_nth(growarr.untagged(), 0, tag_fixnum(count + 1));
+}
+
+profiling_sample profiling_sample::record_counts() volatile {
atomic::fence();
- profiling_sample_count returned(sample_count, gc_sample_count,
- jit_sample_count, foreign_sample_count,
- foreign_thread_sample_count);
+ profiling_sample returned(sample_count, gc_sample_count,
+ jit_sample_count, foreign_sample_count,
+ foreign_thread_sample_count);
atomic::fetch_subtract(&sample_count, returned.sample_count);
atomic::fetch_subtract(&gc_sample_count, returned.gc_sample_count);
atomic::fetch_subtract(&jit_sample_count, returned.jit_sample_count);
return returned;
}
-void profiling_sample_count::clear() volatile {
+void profiling_sample::clear_counts() volatile {
sample_count = 0;
gc_sample_count = 0;
jit_sample_count = 0;
atomic::fence();
}
-profiling_sample::profiling_sample(factor_vm* vm, bool prolog_p,
- profiling_sample_count const& counts,
- cell thread)
- : counts(counts), thread(thread) {
- vm->record_callstack_sample(&callstack_begin, &callstack_end, prolog_p);
-}
-
+// Allocates memory
void factor_vm::record_sample(bool prolog_p) {
- profiling_sample_count counts = safepoint.sample_counts.record_counts();
- if (!counts.empty())
- samples.push_back(profiling_sample(this, prolog_p, counts,
- special_objects[OBJ_CURRENT_THREAD]));
-}
-
-void factor_vm::record_callstack_sample(cell* begin, cell* end, bool prolog_p) {
- *begin = sample_callstacks.size();
+ profiling_sample result = current_sample.record_counts();
+ if (result.empty()) {
+ return;
+ }
+ // Appends the callstack, which is just a sequence of quotation or
+ // word references, to sample_callstacks.
+ cell callstacks_cell = special_objects[OBJ_SAMPLE_CALLSTACKS];
+ data_root<array> callstacks = data_root<array>(callstacks_cell, this);
+ cell begin = growarr_capacity(callstacks.untagged());
bool skip_p = prolog_p;
auto recorder = [&](cell frame_top, cell size, code_block* owner, cell addr) {
+ (void)frame_top;
+ (void)size;
+ (void)addr;
if (skip_p)
skip_p = false;
- else
- sample_callstacks.push_back(owner->owner);
+ else {
+ growarr_add(callstacks.untagged(), owner->owner);
+ }
};
iterate_callstack(ctx, recorder);
+ cell end = growarr_capacity(callstacks.untagged());
- *end = sample_callstacks.size();
-
- std::reverse(sample_callstacks.begin() + *begin, sample_callstacks.end());
+ // Add the sample.
+ result.thread = special_objects[OBJ_CURRENT_THREAD];
+ result.callstack_begin = begin;
+ result.callstack_end = end;
+ samples.push_back(result);
}
-void factor_vm::set_sampling_profiler(fixnum rate) {
- bool running_p = (atomic::load(&sampling_profiler_p) != 0);
+// Allocates memory
+void factor_vm::set_profiling(fixnum rate) {
+ bool running_p = atomic::load(&sampling_profiler_p);
if (rate > 0 && !running_p)
start_sampling_profiler(rate);
else if (rate == 0 && running_p)
end_sampling_profiler();
}
+// Allocates memory
void factor_vm::start_sampling_profiler(fixnum rate) {
+ special_objects[OBJ_SAMPLE_CALLSTACKS] = tag<array>(allot_growarr());
samples_per_second = rate;
- safepoint.sample_counts.clear();
- /* Release the memory consumed by collecting samples. */
+ current_sample.clear_counts();
+ // Release the memory consumed by collecting samples.
samples.clear();
samples.shrink_to_fit();
- sample_callstacks.clear();
- sample_callstacks.shrink_to_fit();
-
samples.reserve(10 * rate);
- sample_callstacks.reserve(100 * rate);
atomic::store(&sampling_profiler_p, true);
start_sampling_profiler_timer();
}
record_sample(false);
}
-void factor_vm::primitive_sampling_profiler() {
- set_sampling_profiler(to_fixnum(ctx->pop()));
+// Allocates memory
+void factor_vm::primitive_set_profiling() {
+ set_profiling(to_fixnum(ctx->pop()));
}
-/* Allocates memory */
+// Allocates memory
void factor_vm::primitive_get_samples() {
if (atomic::load(&sampling_profiler_p) || samples.empty()) {
ctx->push(false_object);
- } else {
- data_root<array> samples_array(allot_array(samples.size(), false_object),
- this);
- std::vector<profiling_sample>::const_iterator from_iter = samples.begin();
- cell to_i = 0;
-
- for (; from_iter != samples.end(); ++from_iter, ++to_i) {
- data_root<array> sample(allot_array(7, false_object), this);
-
- set_array_nth(sample.untagged(), 0,
- tag_fixnum(from_iter->counts.sample_count));
- set_array_nth(sample.untagged(), 1,
- tag_fixnum(from_iter->counts.gc_sample_count));
- set_array_nth(sample.untagged(), 2,
- tag_fixnum(from_iter->counts.jit_sample_count));
- set_array_nth(sample.untagged(), 3,
- tag_fixnum(from_iter->counts.foreign_sample_count));
- set_array_nth(sample.untagged(), 4,
- tag_fixnum(from_iter->counts.foreign_thread_sample_count));
-
- set_array_nth(sample.untagged(), 5, from_iter->thread);
-
- cell callstack_size =
- from_iter->callstack_end - from_iter->callstack_begin;
- data_root<array> callstack(allot_array(callstack_size, false_object),
+ return;
+ }
+ data_root<array> samples_array(allot_array(samples.size(), false_object),
this);
-
- std::vector<cell>::const_iterator callstacks_begin =
- sample_callstacks.begin(),
- c_from_iter =
- callstacks_begin +
- from_iter->callstack_begin,
- c_from_iter_end =
- callstacks_begin +
- from_iter->callstack_end;
- cell c_to_i = 0;
-
- for (; c_from_iter != c_from_iter_end; ++c_from_iter, ++c_to_i)
- set_array_nth(callstack.untagged(), c_to_i, *c_from_iter);
-
- set_array_nth(sample.untagged(), 6, callstack.value());
-
- set_array_nth(samples_array.untagged(), to_i, sample.value());
+ std::vector<profiling_sample>::const_iterator from_iter = samples.begin();
+ cell to_i = 0;
+
+ cell callstacks_cell = special_objects[OBJ_SAMPLE_CALLSTACKS];
+ data_root<array> callstacks = data_root<array>(callstacks_cell, this);
+
+ for (; from_iter != samples.end(); ++from_iter, ++to_i) {
+ data_root<array> sample(allot_array(7, false_object), this);
+
+ set_array_nth(sample.untagged(), 0,
+ tag_fixnum(from_iter->sample_count));
+ set_array_nth(sample.untagged(), 1,
+ tag_fixnum(from_iter->gc_sample_count));
+ set_array_nth(sample.untagged(), 2,
+ tag_fixnum(from_iter->jit_sample_count));
+ set_array_nth(sample.untagged(), 3,
+ tag_fixnum(from_iter->foreign_sample_count));
+ set_array_nth(sample.untagged(), 4,
+ tag_fixnum(from_iter->foreign_thread_sample_count));
+
+ set_array_nth(sample.untagged(), 5, from_iter->thread);
+
+ cell callstack_size =
+ from_iter->callstack_end - from_iter->callstack_begin;
+ data_root<array> callstack(allot_array(callstack_size, false_object),
+ this);
+
+ for (cell i = 0; i < callstack_size; i++) {
+ cell block_owner = growarr_nth(callstacks.untagged(),
+ from_iter->callstack_begin + i);
+ set_array_nth(callstack.untagged(), i, block_owner);
}
- ctx->push(samples_array.value());
+ set_array_nth(sample.untagged(), 6, callstack.value());
+ set_array_nth(samples_array.untagged(), to_i, sample.value());
}
+ ctx->push(samples_array.value());
}
}