3DPrinting/PrusaSlicer-NonPlainar
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Improved parallel_foor grain size for ensuring

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This commit is contained in:
Vojtech Bubnik 2023-04-24 11:34:24 +02:00
parent 003350a4e2
commit 9de269889c
1 changed files with 43 additions and 10 deletions
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33
src/libslic3r/PrintObject.cpp
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@ -56,6 +56,20 @@
using namespace std::literals;
// #define PRINT_OBJECT_TIMING
#ifdef PRINT_OBJECT_TIMING
// time limit for one ClipperLib operation (union / diff / offset), in ms
#define PRINT_OBJECT_TIME_LIMIT_DEFAULT 50
#include <boost/current_function.hpp>
#include "Timer.hpp"
#define PRINT_OBJECT_TIME_LIMIT_SECONDS(limit) Timing::TimeLimitAlarm time_limit_alarm(uint64_t(limit) * 1000000000l, BOOST_CURRENT_FUNCTION)
#define PRINT_OBJECT_TIME_LIMIT_MILLIS(limit) Timing::TimeLimitAlarm time_limit_alarm(uint64_t(limit) * 1000000l, BOOST_CURRENT_FUNCTION)
#else
#define PRINT_OBJECT_TIME_LIMIT_SECONDS(limit) do {} while(false)
#define PRINT_OBJECT_TIME_LIMIT_MILLIS(limit) do {} while(false)
#endif // PRINT_OBJECT_TIMING
#ifdef SLIC3R_DEBUG_SLICE_PROCESSING
#define SLIC3R_DEBUG
#endif
@ -178,6 +192,7 @@ void PrintObject::make_perimeters()
tbb::parallel_for(
tbb::blocked_range<size_t>(0, m_layers.size() - 1),
[this, &region, region_id](const tbb::blocked_range<size_t>& range) {
PRINT_OBJECT_TIME_LIMIT_MILLIS(PRINT_OBJECT_TIME_LIMIT_DEFAULT);
for (size_t layer_idx = range.begin(); layer_idx < range.end(); ++ layer_idx) {
m_print->throw_if_canceled();
LayerRegion &layerm = *m_layers[layer_idx]->get_region(region_id);
@ -237,6 +252,7 @@ void PrintObject::make_perimeters()
tbb::parallel_for(
tbb::blocked_range<size_t>(0, m_layers.size()),
[this](const tbb::blocked_range<size_t>& range) {
PRINT_OBJECT_TIME_LIMIT_MILLIS(PRINT_OBJECT_TIME_LIMIT_DEFAULT);
for (size_t layer_idx = range.begin(); layer_idx < range.end(); ++ layer_idx) {
m_print->throw_if_canceled();
m_layers[layer_idx]->make_perimeters();
@ -408,6 +424,7 @@ void PrintObject::infill()
tbb::parallel_for(
tbb::blocked_range<size_t>(0, m_layers.size()),
[this, &adaptive_fill_octree = adaptive_fill_octree, &support_fill_octree = support_fill_octree](const tbb::blocked_range<size_t>& range) {
PRINT_OBJECT_TIME_LIMIT_MILLIS(PRINT_OBJECT_TIME_LIMIT_DEFAULT);
for (size_t layer_idx = range.begin(); layer_idx < range.end(); ++ layer_idx) {
m_print->throw_if_canceled();
m_layers[layer_idx]->make_fills(adaptive_fill_octree.get(), support_fill_octree.get(), this->m_lightning_generator.get());
@ -431,6 +448,7 @@ void PrintObject::ironing()
// Ironing starting with layer 0 to support ironing all surfaces.
tbb::blocked_range<size_t>(0, m_layers.size()),
[this](const tbb::blocked_range<size_t>& range) {
PRINT_OBJECT_TIME_LIMIT_MILLIS(PRINT_OBJECT_TIME_LIMIT_DEFAULT);
for (size_t layer_idx = range.begin(); layer_idx < range.end(); ++ layer_idx) {
m_print->throw_if_canceled();
m_layers[layer_idx]->make_ironing();
@ -531,6 +549,7 @@ std::pair<FillAdaptive::OctreePtr, FillAdaptive::OctreePtr> PrintObject::prepare
// ^ make sure vector is not empty, even with no briding surfaces we still want to build the adaptive trees later, some continue normally
tbb::parallel_for(tbb::blocked_range<int>(0, surfaces_w_bottom_z.size()),
[this, &to_octree, &overhangs, &surfaces_w_bottom_z](const tbb::blocked_range<int> &range) {
PRINT_OBJECT_TIME_LIMIT_MILLIS(PRINT_OBJECT_TIME_LIMIT_DEFAULT);
for (int surface_idx = range.begin(); surface_idx < range.end(); ++surface_idx) {
std::vector<Vec3d> &out = overhangs[surface_idx];
m_print->throw_if_canceled();
@ -911,6 +930,7 @@ void PrintObject::detect_surfaces_type()
// In non-spiral vase mode, go over all layers.
m_layers.size()),
[this, region_id, interface_shells, &surfaces_new](const tbb::blocked_range<size_t>& range) {
PRINT_OBJECT_TIME_LIMIT_MILLIS(PRINT_OBJECT_TIME_LIMIT_DEFAULT);
// If we have soluble support material, don't bridge. The overhang will be squished against a soluble layer separating
// the support from the print.
SurfaceType surface_type_bottom_other =
@ -1059,6 +1079,7 @@ void PrintObject::detect_surfaces_type()
tbb::parallel_for(
tbb::blocked_range<size_t>(0, m_layers.size()),
[this, region_id](const tbb::blocked_range<size_t>& range) {
PRINT_OBJECT_TIME_LIMIT_MILLIS(PRINT_OBJECT_TIME_LIMIT_DEFAULT);
for (size_t idx_layer = range.begin(); idx_layer < range.end(); ++ idx_layer) {
m_print->throw_if_canceled();
LayerRegion *layerm = m_layers[idx_layer]->m_regions[region_id];
@ -1117,6 +1138,7 @@ void PrintObject::process_external_surfaces()
tbb::parallel_for(
tbb::blocked_range<size_t>(0, m_layers.size() - 1),
[this, &surfaces_covered, &layer_expansions_and_voids, unsupported_width](const tbb::blocked_range<size_t>& range) {
PRINT_OBJECT_TIME_LIMIT_MILLIS(PRINT_OBJECT_TIME_LIMIT_DEFAULT);
for (size_t layer_idx = range.begin(); layer_idx < range.end(); ++ layer_idx)
if (layer_expansions_and_voids[layer_idx + 1]) {
// Layer above is partially filled with solid infill (top, bottom, bridging...),
@ -1142,6 +1164,7 @@ void PrintObject::process_external_surfaces()
tbb::parallel_for(
tbb::blocked_range<size_t>(0, m_layers.size()),
[this, &surfaces_covered, region_id](const tbb::blocked_range<size_t>& range) {
PRINT_OBJECT_TIME_LIMIT_MILLIS(PRINT_OBJECT_TIME_LIMIT_DEFAULT);
for (size_t layer_idx = range.begin(); layer_idx < range.end(); ++ layer_idx) {
m_print->throw_if_canceled();
// BOOST_LOG_TRIVIAL(trace) << "Processing external surface, layer" << m_layers[layer_idx]->print_z;
@ -1194,6 +1217,7 @@ void PrintObject::discover_vertical_shells()
tbb::parallel_for(
tbb::blocked_range<size_t>(0, num_layers, grain_size),
[this, &cache_top_botom_regions](const tbb::blocked_range<size_t>& range) {
PRINT_OBJECT_TIME_LIMIT_MILLIS(PRINT_OBJECT_TIME_LIMIT_DEFAULT);
const std::initializer_list<SurfaceType> surfaces_bottom { stBottom, stBottomBridge };
const size_t num_regions = this->num_printing_regions();
for (size_t idx_layer = range.begin(); idx_layer < range.end(); ++ idx_layer) {
@ -1267,6 +1291,7 @@ void PrintObject::discover_vertical_shells()
tbb::parallel_for(
tbb::blocked_range<size_t>(0, num_layers, grain_size),
[this, region_id, &cache_top_botom_regions](const tbb::blocked_range<size_t>& range) {
PRINT_OBJECT_TIME_LIMIT_MILLIS(PRINT_OBJECT_TIME_LIMIT_DEFAULT);
const std::initializer_list<SurfaceType> surfaces_bottom { stBottom, stBottomBridge };
for (size_t idx_layer = range.begin(); idx_layer < range.end(); ++ idx_layer) {
m_print->throw_if_canceled();
@ -1292,10 +1317,12 @@ void PrintObject::discover_vertical_shells()
}
BOOST_LOG_TRIVIAL(debug) << "Discovering vertical shells for region " << region_id << " in parallel - start : ensure vertical wall thickness";
grain_size = 1;
tbb::parallel_for(
tbb::blocked_range<size_t>(0, num_layers, grain_size),
[this, region_id, &cache_top_botom_regions]
(const tbb::blocked_range<size_t>& range) {
PRINT_OBJECT_TIME_LIMIT_MILLIS(PRINT_OBJECT_TIME_LIMIT_DEFAULT);
// printf("discover_vertical_shells from %d to %d\n", range.begin(), range.end());
for (size_t idx_layer = range.begin(); idx_layer < range.end(); ++ idx_layer) {
m_print->throw_if_canceled();
@ -1626,6 +1653,7 @@ void PrintObject::bridge_over_infill()
tbb::concurrent_vector<CandidateSurface> candidate_surfaces;
tbb::parallel_for(tbb::blocked_range<size_t>(0, this->layers().size()), [po = static_cast<const PrintObject *>(this),
&candidate_surfaces](tbb::blocked_range<size_t> r) {
PRINT_OBJECT_TIME_LIMIT_MILLIS(PRINT_OBJECT_TIME_LIMIT_DEFAULT);
for (size_t lidx = r.begin(); lidx < r.end(); lidx++) {
const Layer *layer = po->get_layer(lidx);
if (layer->lower_layer == nullptr) {
@ -1723,6 +1751,7 @@ void PrintObject::bridge_over_infill()
tbb::parallel_for(tbb::blocked_range<size_t>(0, layers_to_generate_infill.size()), [po = static_cast<const PrintObject *>(this),
&layers_to_generate_infill,
&infill_lines](tbb::blocked_range<size_t> r) {
PRINT_OBJECT_TIME_LIMIT_MILLIS(PRINT_OBJECT_TIME_LIMIT_DEFAULT);
for (size_t job_idx = r.begin(); job_idx < r.end(); job_idx++) {
size_t lidx = layers_to_generate_infill[job_idx];
infill_lines.at(
@ -1754,6 +1783,7 @@ void PrintObject::bridge_over_infill()
tbb::parallel_for(tbb::blocked_range<size_t>(0, layers_with_candidates.size()), [&layers_with_candidates, &surfaces_by_layer,
&layer_area_covered_by_candidates](
tbb::blocked_range<size_t> r) {
PRINT_OBJECT_TIME_LIMIT_MILLIS(PRINT_OBJECT_TIME_LIMIT_DEFAULT);
for (size_t job_idx = r.begin(); job_idx < r.end(); job_idx++) {
size_t lidx = layers_with_candidates[job_idx];
for (const auto &candidate : surfaces_by_layer.at(lidx)) {
@ -2072,6 +2102,7 @@ void PrintObject::bridge_over_infill()
determine_bridging_angle,
construct_anchored_polygon](
tbb::blocked_range<size_t> r) {
PRINT_OBJECT_TIME_LIMIT_MILLIS(PRINT_OBJECT_TIME_LIMIT_DEFAULT);
for (size_t cluster_idx = r.begin(); cluster_idx < r.end(); cluster_idx++) {
for (size_t job_idx = 0; job_idx < clustered_layers_for_threads[cluster_idx].size(); job_idx++) {
size_t lidx = clustered_layers_for_threads[cluster_idx][job_idx];
@ -2244,6 +2275,7 @@ void PrintObject::bridge_over_infill()
BOOST_LOG_TRIVIAL(info) << "Bridge over infill - Directions and expanded surfaces computed" << log_memory_info();
tbb::parallel_for(tbb::blocked_range<size_t>(0, this->layers().size()), [po = this, &surfaces_by_layer](tbb::blocked_range<size_t> r) {
PRINT_OBJECT_TIME_LIMIT_MILLIS(PRINT_OBJECT_TIME_LIMIT_DEFAULT);
for (size_t lidx = r.begin(); lidx < r.end(); lidx++) {
if (surfaces_by_layer.find(lidx) == surfaces_by_layer.end())
continue;
@ -2760,6 +2792,7 @@ static void project_triangles_to_slabs(SpanOfConstPtrs<Layer> layers, const inde
[&custom_facets, &tr, tr_det_sign, seam, layers, &projections_of_triangles](const tbb::blocked_range<size_t>& range) {
for (size_t idx = range.begin(); idx < range.end(); ++ idx) {
PRINT_OBJECT_TIME_LIMIT_MILLIS(PRINT_OBJECT_TIME_LIMIT_DEFAULT);
std::array<Vec3f, 3> facet;
// Transform the triangle into worlds coords.