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Merge remote-tracking branch 'origin/tm_sla_supports_backend' into dev_native

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This commit is contained in:
tamasmeszaros 2018-11-12 17:36:54 +01:00
commit 92a2b6161b
5 changed files with 209 additions and 33 deletions
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7
src/libslic3r/SLA/SLASupportTree.cpp
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@ -924,6 +924,11 @@ bool SLASupportTree::generate(const PointSet &points,
//...
};
// Debug:
for(int pn = 0; pn < points.rows(); ++pn) {
std::cout << "p " << pn << " " << points.row(pn) << std::endl;
}
auto filterfn = [] (
const SupportConfig& cfg,
const PointSet& points,
@ -1511,7 +1516,7 @@ bool SLASupportTree::generate(const PointSet &points,
auto progress = [&ctl, &pc, &pc_prev] () {
static const std::array<std::string, NUM_STEPS> stepstr {
"",
"Starting",
"Filtering",
"Generate pinheads",
"Classification",

13
src/libslic3r/SLA/SLASupportTree.hpp
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@ -74,13 +74,16 @@ struct Controller {
/// An index-triangle structure for libIGL functions. Also serves as an
/// alternative (raw) input format for the SLASupportTree
struct EigenMesh3D {
// Eigen::MatrixXd V;
// Eigen::MatrixXi F;
Eigen::Matrix<double, Eigen::Dynamic, Eigen::Dynamic, Eigen::DontAlign> V;
Eigen::Matrix<int, Eigen::Dynamic, Eigen::Dynamic, Eigen::DontAlign> F;
Eigen::MatrixXd V;
Eigen::MatrixXi F;
// igl crashes with the following data types:
// Eigen::Matrix<double, Eigen::Dynamic, Eigen::Dynamic, Eigen::DontAlign> V;
// Eigen::Matrix<int, Eigen::Dynamic, Eigen::Dynamic, Eigen::DontAlign> F;
};
using PointSet = Eigen::Matrix<double, Eigen::Dynamic, Eigen::Dynamic, Eigen::DontAlign>; //Eigen::MatrixXd;
//using PointSet = Eigen::Matrix<double, Eigen::Dynamic, Eigen::Dynamic, Eigen::DontAlign>; //Eigen::MatrixXd;
using PointSet = Eigen::MatrixXd;
/* ************************************************************************** */
/* TODO: May not be needed: */

8
src/libslic3r/SLA/SLASupportTreeIGL.cpp
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@ -84,11 +84,11 @@ size_t SpatIndex::size() const
}
PointSet normals(const PointSet& points, const EigenMesh3D& mesh) {
// Eigen::VectorXd dists;
// Eigen::VectorXi I;
#ifdef IGL_COMPATIBLE
Eigen::Matrix<double, Eigen::Dynamic, 1, Eigen::DontAlign> dists;
Eigen::Matrix<int, Eigen::Dynamic, 1, Eigen::DontAlign> I;
Eigen::VectorXd dists;
Eigen::VectorXi I;
// Eigen::Matrix<double, Eigen::Dynamic, 1, Eigen::DontAlign> dists;
// Eigen::Matrix<int, Eigen::Dynamic, 1, Eigen::DontAlign> I;
PointSet C;
igl::point_mesh_squared_distance( points, mesh.V, mesh.F, dists, I, C);

186
src/libslic3r/SLAPrint.cpp
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@ -1,46 +1,212 @@
#include "SLAPrint.hpp"
#include "SLA/SLASupportTree.hpp"
#include "I18N.hpp"
//! macro used to mark string used at localization,
//! return same string
#define L(s) Slic3r::I18N::translate(s)
namespace Slic3r {
class SLAPrintObject::SupportData {
public:
sla::EigenMesh3D emesh; // index-triangle representation
sla::PointSet support_points; // all the support points (manual/auto)
std::unique_ptr<sla::SLASupportTree> support_tree_ptr; // the supports
SlicedSupports slice_cache; // sliced supports
};
namespace {
const std::array<unsigned, slaposCount> OBJ_STEP_LEVELS =
{
20,
30,
50,
70,
80,
100
};
const std::array<std::string, slaposCount> OBJ_STEP_LABELS =
{
L("Slicing model"), // slaposObjectSlice,
L("Generating islands"), // slaposSupportIslands,
L("Scanning model structure"), // slaposSupportPoints,
L("Generating support tree"), // slaposSupportTree,
L("Generating base pool"), // slaposBasePool,
L("Slicing supports") // slaposSliceSupports,
};
const std::array<unsigned, slapsCount> PRINT_STEP_LEVELS =
{
50, // slapsRasterize
100, // slapsValidate
};
const std::array<std::string, slapsCount> PRINT_STEP_LABELS =
{
L("Rasterizing layers"), // slapsRasterize
L("Validating"), // slapsValidate
};
}
void SLAPrint::clear()
{
tbb::mutex::scoped_lock lock(this->cancel_mutex());
// The following call should stop background processing if it is running.
this->invalidate_all_steps();
for (SLAPrintObject *object : m_objects)
delete object;
for (SLAPrintObject *object : m_objects) delete object;
m_objects.clear();
}
SLAPrint::ApplyStatus SLAPrint::apply(const Model &model, const DynamicPrintConfig &config)
SLAPrint::ApplyStatus SLAPrint::apply(const Model &model,
const DynamicPrintConfig &config)
{
if (m_objects.empty())
return APPLY_STATUS_UNCHANGED;
// if (m_objects.empty())
// return APPLY_STATUS_UNCHANGED;
// Grab the lock for the Print / PrintObject milestones.
tbb::mutex::scoped_lock lock(this->cancel_mutex());
if(m_objects.empty() && model.objects.empty())
return APPLY_STATUS_UNCHANGED;
// Temporary quick fix, just invalidate everything.
{
for (SLAPrintObject *print_object : m_objects) {
std::cout << "deleting object cache " << std::endl;
for (SLAPrintObject *print_object : m_objects) {
print_object->invalidate_all_steps();
delete print_object;
delete print_object;
}
m_objects.clear();
this->invalidate_all_steps();
// Copy the model by value (deep copy), keep the Model / ModelObject / ModelInstance / ModelVolume IDs.
// Copy the model by value (deep copy),
// keep the Model / ModelObject / ModelInstance / ModelVolume IDs.
m_model.assign_copy(model);
// Generate new SLAPrintObjects.
for (const ModelObject *model_object : m_model.objects) {
for (ModelObject *model_object : m_model.objects) {
//TODO
m_objects.emplace_back(new SLAPrintObject(this, model_object));
}
}
}
return APPLY_STATUS_INVALIDATED;
}
void SLAPrint::process()
{
using namespace sla;
std::cout << "SLA Processing triggered" << std::endl;
// Assumption: at this point the print objects should be populated only with
// the model objects we have to process and the instances are also filtered
auto slice_model = [](const SLAPrintObject&) {
};
auto support_points = [](const SLAPrintObject&) {
// for(SLAPrintObject *po : pobjects) {
// TODO: calculate automatic support points
// po->m_supportdata->slice_cache contains the slices at this point
//}
};
auto support_tree = [this](const SLAPrintObject& po) {
auto& emesh = po.m_supportdata->emesh;
auto& pts = po.m_supportdata->support_points; // nowhere filled yet
auto& supportd = *po.m_supportdata;
try {
SupportConfig scfg; // TODO fill or replace with po.m_config
sla::Controller ctl;
ctl.statuscb = [this](unsigned st, const std::string& msg) {
unsigned stinit = OBJ_STEP_LEVELS[slaposSupportTree];
double d = (OBJ_STEP_LEVELS[slaposBasePool] - stinit) / 100.0;
set_status(unsigned(stinit + st*d), msg);
};
ctl.stopcondition = [this](){ return canceled(); };
supportd.support_tree_ptr.reset(
new SLASupportTree(pts, emesh, scfg, ctl));
} catch(sla::SLASupportsStoppedException&) {
// no need to rethrow
// throw_if_canceled();
}
};
auto base_pool = [](const SLAPrintObject&) {
};
auto slice_supports = [](const SLAPrintObject&) {
};
auto rasterize = []() {
};
using slaposFn = std::function<void(const SLAPrintObject&)>;
std::array<SLAPrintObjectStep, slaposCount> objectsteps = {
slaposObjectSlice,
slaposSupportIslands,
slaposSupportPoints,
slaposSupportTree,
slaposBasePool,
slaposSliceSupports
};
std::array<slaposFn, slaposCount> fullprogram =
{
slice_model,
[](const SLAPrintObject&){}, // slaposSupportIslands now empty
support_points,
support_tree,
base_pool,
slice_supports
};
for(SLAPrintObject * po : m_objects) {
for(size_t s = 0; s < fullprogram.size(); ++s) {
auto currentstep = objectsteps[s];
// Cancellation checking. Each step will check for cancellation
// on its own and return earlier gracefully. Just after it returns
// execution gets to this point and throws the canceled signal.
throw_if_canceled();
if(po->m_stepmask[s]) {
set_status(OBJ_STEP_LEVELS[currentstep],
OBJ_STEP_LABELS[currentstep]);
po->set_started(currentstep);
fullprogram[s](*po);
po->set_done(currentstep);
}
}
}
}
SLAPrintObject::SLAPrintObject(SLAPrint *print, ModelObject *model_object):
Inherited(print),
m_model_object(model_object),
m_supportdata(new SupportData()),
m_stepmask(slaposCount, true)
{
m_supportdata->emesh = sla::to_eigenmesh(*m_model_object);
m_supportdata->support_points = sla::support_points(*m_model_object);
std::cout << "support points copied " << m_supportdata->support_points.rows() << std::endl;
}
SLAPrintObject::~SLAPrintObject() {}
} // namespace Slic3r

28
src/libslic3r/SLAPrint.hpp
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@ -3,7 +3,6 @@
#include "PrintBase.hpp"
#include "Point.hpp"
//#include "SLA/SLASupportTree.hpp"
namespace Slic3r {
@ -25,21 +24,28 @@ enum SLAPrintObjectStep {
class SLAPrint;
class SLAPrintObject : public PrintObjectBaseWithState<SLAPrint, SLAPrintObjectStep, slaposCount>
using _SLAPrintObjectBase =
PrintObjectBaseWithState<SLAPrint, SLAPrintObjectStep, slaposCount>;
class SLAPrintObject : public _SLAPrintObjectBase
{
private: // Prevents erroneous use by other classes.
typedef PrintObjectBaseWithState<Print, SLAPrintObjectStep, slaposCount> Inherited;
using Inherited = _SLAPrintObjectBase;
public:
const ModelObject* model_object() const { return m_model_object; }
ModelObject* model_object() { return m_model_object; }
// I refuse to grantee copying (Tamas)
SLAPrintObject(const SLAPrintObject&) = delete;
SLAPrintObject& operator=(const SLAPrintObject&) = delete;
protected:
// to be called from SLAPrint only.
friend class SLAPrint;
SLAPrintObject(SLAPrint* print, ModelObject* model_object);
~SLAPrintObject() {}
~SLAPrintObject();
void config_apply(const ConfigBase &other, bool ignore_nonexistent = false) { this->m_config.apply(other, ignore_nonexistent); }
void config_apply_only(const ConfigBase &other, const t_config_option_keys &keys, bool ignore_nonexistent = false)
@ -65,11 +71,11 @@ private:
Transform3d m_trafo = Transform3d::Identity();
std::vector<Instance> m_instances;
// sla::EigenMesh3D emesh;
// std::unique_ptr<sla::SLASupportTree> support_tree_ptr;
// SlicedSupports slice_cache;
// Which steps have to be performed. Implicitly: all
std::vector<bool> m_stepmask;
friend SLAPrint;
class SupportData;
std::unique_ptr<SupportData> m_supportdata;
};
/**
@ -85,9 +91,6 @@ private:
* triangle meshes or receiving the rendering canvas and drawing on that
* directly.
*
* TODO: This class uses the BackgroundProcess interface to create workers and
* manage input change events. An appropriate implementation can be derived
* from BackgroundSlicingProcess which is now working only with the FDM Print.
*/
class SLAPrint : public PrintBaseWithState<SLAPrintStep, slapsCount>
{
@ -109,8 +112,7 @@ private:
Model m_model;
SLAPrinterConfig m_printer_config;
SLAMaterialConfig m_material_config;
std::vector<SLAPrintObject*> m_objects;
std::vector<SLAPrintObject*> m_objects;
friend SLAPrintObject;
};