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Merge branch 'tm_read_svg_archive'

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This commit is contained in:
tamasmeszaros 2022-04-26 16:55:59 +02:00
commit 2377349e7f
22 changed files with 1026 additions and 457 deletions
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8
src/libslic3r/CMakeLists.txt
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@ -94,8 +94,12 @@ set(SLIC3R_SOURCES
Format/objparser.hpp
Format/STL.cpp
Format/STL.hpp
Format/SLAArchive.hpp
Format/SLAArchive.cpp
Format/SLAArchiveWriter.hpp
Format/SLAArchiveWriter.cpp
Format/SLAArchiveReader.hpp
Format/SLAArchiveReader.cpp
Format/ZipperArchiveImport.hpp
Format/ZipperArchiveImport.cpp
Format/SL1.hpp
Format/SL1.cpp
Format/SL1_SVG.hpp

554
src/libslic3r/Format/SL1.cpp
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@ -1,359 +1,37 @@
#include "SL1.hpp"
#include "GCode/ThumbnailData.hpp"
#include "libslic3r/Time.hpp"
#include <boost/log/trivial.hpp>
#include <boost/filesystem.hpp>
#include "libslic3r/Zipper.hpp"
#include "libslic3r/SLAPrint.hpp"
#include <sstream>
#include "libslic3r/Time.hpp"
#include "libslic3r/Zipper.hpp"
#include "libslic3r/SLAPrint.hpp"
#include "libslic3r/Exception.hpp"
#include "libslic3r/SlicesToTriangleMesh.hpp"
#include "libslic3r/MarchingSquares.hpp"
#include "libslic3r/ClipperUtils.hpp"
#include "libslic3r/MTUtils.hpp"
#include "libslic3r/PrintConfig.hpp"
#include "libslic3r/SLA/RasterBase.hpp"
#include "libslic3r/miniz_extension.hpp"
#include "libslic3r/PNGReadWrite.hpp"
#include "libslic3r/LocalesUtils.hpp"
#include "libslic3r/GCode/ThumbnailData.hpp"
#include "SLAArchiveReader.hpp"
#include "ZipperArchiveImport.hpp"
#include "libslic3r/MarchingSquares.hpp"
#include "libslic3r/PNGReadWrite.hpp"
#include "libslic3r/ClipperUtils.hpp"
#include "libslic3r/Execution/ExecutionTBB.hpp"
#include "libslic3r/SLA/RasterBase.hpp"
#include <boost/property_tree/ini_parser.hpp>
#include <boost/filesystem/path.hpp>
#include <boost/algorithm/string.hpp>
#include <miniz.h>
namespace marchsq {
template<> struct _RasterTraits<Slic3r::png::ImageGreyscale> {
using Rst = Slic3r::png::ImageGreyscale;
// The type of pixel cell in the raster
using ValueType = uint8_t;
// Value at a given position
static uint8_t get(const Rst &rst, size_t row, size_t col)
{
return rst.get(row, col);
}
// Number of rows and cols of the raster
static size_t rows(const Rst &rst) { return rst.rows; }
static size_t cols(const Rst &rst) { return rst.cols; }
};
} // namespace marchsq
namespace Slic3r {
namespace {
struct PNGBuffer { std::vector<uint8_t> buf; std::string fname; };
struct ArchiveData {
boost::property_tree::ptree profile, config;
std::vector<PNGBuffer> images;
};
static const constexpr char *CONFIG_FNAME = "config.ini";
static const constexpr char *PROFILE_FNAME = "prusaslicer.ini";
boost::property_tree::ptree read_ini(const mz_zip_archive_file_stat &entry,
MZ_Archive & zip)
{
std::string buf(size_t(entry.m_uncomp_size), '\0');
if (!mz_zip_reader_extract_file_to_mem(&zip.arch, entry.m_filename,
buf.data(), buf.size(), 0))
throw Slic3r::FileIOError(zip.get_errorstr());
boost::property_tree::ptree tree;
std::stringstream ss(buf);
boost::property_tree::read_ini(ss, tree);
return tree;
}
PNGBuffer read_png(const mz_zip_archive_file_stat &entry,
MZ_Archive & zip,
const std::string & name)
{
std::vector<uint8_t> buf(entry.m_uncomp_size);
if (!mz_zip_reader_extract_file_to_mem(&zip.arch, entry.m_filename,
buf.data(), buf.size(), 0))
throw Slic3r::FileIOError(zip.get_errorstr());
return {std::move(buf), (name.empty() ? entry.m_filename : name)};
}
ArchiveData extract_sla_archive(const std::string &zipfname,
const std::string &exclude)
{
ArchiveData arch;
// Little RAII
struct Arch: public MZ_Archive {
Arch(const std::string &fname) {
if (!open_zip_reader(&arch, fname))
throw Slic3r::FileIOError(get_errorstr());
}
~Arch() { close_zip_reader(&arch); }
} zip (zipfname);
mz_uint num_entries = mz_zip_reader_get_num_files(&zip.arch);
for (mz_uint i = 0; i < num_entries; ++i)
{
mz_zip_archive_file_stat entry;
if (mz_zip_reader_file_stat(&zip.arch, i, &entry))
{
std::string name = entry.m_filename;
boost::algorithm::to_lower(name);
if (boost::algorithm::contains(name, exclude)) continue;
if (name == CONFIG_FNAME) arch.config = read_ini(entry, zip);
if (name == PROFILE_FNAME) arch.profile = read_ini(entry, zip);
if (boost::filesystem::path(name).extension().string() == ".png") {
auto it = std::lower_bound(
arch.images.begin(), arch.images.end(), PNGBuffer{{}, name},
[](const PNGBuffer &r1, const PNGBuffer &r2) {
return std::less<std::string>()(r1.fname, r2.fname);
});
arch.images.insert(it, read_png(entry, zip, name));
}
}
}
return arch;
}
ExPolygons rings_to_expolygons(const std::vector<marchsq::Ring> &rings,
double px_w, double px_h)
{
auto polys = reserve_vector<ExPolygon>(rings.size());
for (const marchsq::Ring &ring : rings) {
Polygon poly; Points &pts = poly.points;
pts.reserve(ring.size());
for (const marchsq::Coord &crd : ring)
pts.emplace_back(scaled(crd.c * px_w), scaled(crd.r * px_h));
polys.emplace_back(poly);
}
// TODO: Is a union necessary?
return union_ex(polys);
}
template<class Fn> void foreach_vertex(ExPolygon &poly, Fn &&fn)
{
for (auto &p : poly.contour.points) fn(p);
for (auto &h : poly.holes)
for (auto &p : h.points) fn(p);
}
void invert_raster_trafo(ExPolygons & expolys,
const sla::RasterBase::Trafo &trafo,
coord_t width,
coord_t height)
{
if (trafo.flipXY) std::swap(height, width);
for (auto &expoly : expolys) {
if (trafo.mirror_y)
foreach_vertex(expoly, [height](Point &p) {p.y() = height - p.y(); });
if (trafo.mirror_x)
foreach_vertex(expoly, [width](Point &p) {p.x() = width - p.x(); });
expoly.translate(-trafo.center_x, -trafo.center_y);
if (trafo.flipXY)
foreach_vertex(expoly, [](Point &p) { std::swap(p.x(), p.y()); });
if ((trafo.mirror_x + trafo.mirror_y + trafo.flipXY) % 2) {
expoly.contour.reverse();
for (auto &h : expoly.holes) h.reverse();
}
}
}
struct RasterParams {
sla::RasterBase::Trafo trafo; // Raster transformations
coord_t width, height; // scaled raster dimensions (not resolution)
double px_h, px_w; // pixel dimesions
marchsq::Coord win; // marching squares window size
};
RasterParams get_raster_params(const DynamicPrintConfig &cfg)
{
auto *opt_disp_cols = cfg.option<ConfigOptionInt>("display_pixels_x");
auto *opt_disp_rows = cfg.option<ConfigOptionInt>("display_pixels_y");
auto *opt_disp_w = cfg.option<ConfigOptionFloat>("display_width");
auto *opt_disp_h = cfg.option<ConfigOptionFloat>("display_height");
auto *opt_mirror_x = cfg.option<ConfigOptionBool>("display_mirror_x");
auto *opt_mirror_y = cfg.option<ConfigOptionBool>("display_mirror_y");
auto *opt_orient = cfg.option<ConfigOptionEnum<SLADisplayOrientation>>("display_orientation");
if (!opt_disp_cols || !opt_disp_rows || !opt_disp_w || !opt_disp_h ||
!opt_mirror_x || !opt_mirror_y || !opt_orient)
throw MissingProfileError("Invalid SL1 / SL1S file");
RasterParams rstp;
rstp.px_w = opt_disp_w->value / (opt_disp_cols->value - 1);
rstp.px_h = opt_disp_h->value / (opt_disp_rows->value - 1);
rstp.trafo = sla::RasterBase::Trafo{opt_orient->value == sladoLandscape ?
sla::RasterBase::roLandscape :
sla::RasterBase::roPortrait,
{opt_mirror_x->value, opt_mirror_y->value}};
rstp.height = scaled(opt_disp_h->value);
rstp.width = scaled(opt_disp_w->value);
return rstp;
}
struct SliceParams { double layerh = 0., initial_layerh = 0.; };
SliceParams get_slice_params(const DynamicPrintConfig &cfg)
{
auto *opt_layerh = cfg.option<ConfigOptionFloat>("layer_height");
auto *opt_init_layerh = cfg.option<ConfigOptionFloat>("initial_layer_height");
if (!opt_layerh || !opt_init_layerh)
throw MissingProfileError("Invalid SL1 / SL1S file");
return SliceParams{opt_layerh->getFloat(), opt_init_layerh->getFloat()};
}
std::vector<ExPolygons> extract_slices_from_sla_archive(
ArchiveData & arch,
const RasterParams & rstp,
std::function<bool(int)> progr)
{
auto jobdir = arch.config.get<std::string>("jobDir");
for (auto &c : jobdir) c = std::tolower(c);
std::vector<ExPolygons> slices(arch.images.size());
struct Status
{
double incr, val, prev;
bool stop = false;
tbb::spin_mutex mutex = {};
} st {100. / slices.size(), 0., 0.};
tbb::parallel_for(size_t(0), arch.images.size(),
[&arch, &slices, &st, &rstp, progr](size_t i) {
// Status indication guarded with the spinlock
{
std::lock_guard<tbb::spin_mutex> lck(st.mutex);
if (st.stop) return;
st.val += st.incr;
double curr = std::round(st.val);
if (curr > st.prev) {
st.prev = curr;
st.stop = !progr(int(curr));
}
}
png::ImageGreyscale img;
png::ReadBuf rb{arch.images[i].buf.data(), arch.images[i].buf.size()};
if (!png::decode_png(rb, img)) return;
uint8_t isoval = 128;
auto rings = marchsq::execute(img, isoval, rstp.win);
ExPolygons expolys = rings_to_expolygons(rings, rstp.px_w, rstp.px_h);
// Invert the raster transformations indicated in the profile metadata
invert_raster_trafo(expolys, rstp.trafo, rstp.width, rstp.height);
slices[i] = std::move(expolys);
});
if (st.stop) slices = {};
return slices;
}
} // namespace
ConfigSubstitutions import_sla_archive(const std::string &zipfname, DynamicPrintConfig &out)
{
ArchiveData arch = extract_sla_archive(zipfname, "png");
return out.load(arch.profile, ForwardCompatibilitySubstitutionRule::Enable);
}
// If the profile is missing from the archive (older PS versions did not have
// it), profile_out's initial value will be used as fallback. profile_out will be empty on
// function return if the archive did not contain any profile.
ConfigSubstitutions import_sla_archive(
const std::string & zipfname,
Vec2i windowsize,
indexed_triangle_set & out,
DynamicPrintConfig & profile_out,
std::function<bool(int)> progr)
{
// Ensure minimum window size for marching squares
windowsize.x() = std::max(2, windowsize.x());
windowsize.y() = std::max(2, windowsize.y());
std::string exclude_entries{"thumbnail"};
ArchiveData arch = extract_sla_archive(zipfname, exclude_entries);
DynamicPrintConfig profile_in, profile_use;
ConfigSubstitutions config_substitutions =
profile_in.load(arch.profile,
ForwardCompatibilitySubstitutionRule::Enable);
if (profile_in.empty()) { // missing profile... do guess work
// try to recover the layer height from the config.ini which was
// present in all versions of sl1 files.
if (auto lh_opt = arch.config.find("layerHeight");
lh_opt != arch.config.not_found())
{
auto lh_str = lh_opt->second.data();
size_t pos;
double lh = string_to_double_decimal_point(lh_str, &pos);
if (pos) { // TODO: verify that pos is 0 when parsing fails
profile_out.set("layer_height", lh);
profile_out.set("initial_layer_height", lh);
}
}
}
// If the archive contains an empty profile, use the one that was passed as output argument
// then replace it with the readed profile to report that it was empty.
profile_use = profile_in.empty() ? profile_out : profile_in;
profile_out = profile_in;
RasterParams rstp = get_raster_params(profile_use);
rstp.win = {windowsize.y(), windowsize.x()};
SliceParams slicp = get_slice_params(profile_use);
std::vector<ExPolygons> slices =
extract_slices_from_sla_archive(arch, rstp, progr);
if (!slices.empty())
out = slices_to_mesh(slices, 0, slicp.layerh, slicp.initial_layerh);
return config_substitutions;
}
using ConfMap = std::map<std::string, std::string>;
namespace {
@ -558,3 +236,207 @@ void SL1Archive::export_print(const std::string fname,
}
} // namespace Slic3r
// /////////////////////////////////////////////////////////////////////////////
// Reader implementation
// /////////////////////////////////////////////////////////////////////////////
namespace marchsq {
template<> struct _RasterTraits<Slic3r::png::ImageGreyscale> {
using Rst = Slic3r::png::ImageGreyscale;
// The type of pixel cell in the raster
using ValueType = uint8_t;
// Value at a given position
static uint8_t get(const Rst &rst, size_t row, size_t col)
{
return rst.get(row, col);
}
// Number of rows and cols of the raster
static size_t rows(const Rst &rst) { return rst.rows; }
static size_t cols(const Rst &rst) { return rst.cols; }
};
} // namespace marchsq
namespace Slic3r {
template<class Fn> static void foreach_vertex(ExPolygon &poly, Fn &&fn)
{
for (auto &p : poly.contour.points) fn(p);
for (auto &h : poly.holes)
for (auto &p : h.points) fn(p);
}
void invert_raster_trafo(ExPolygons & expolys,
const sla::RasterBase::Trafo &trafo,
coord_t width,
coord_t height)
{
if (trafo.flipXY) std::swap(height, width);
for (auto &expoly : expolys) {
if (trafo.mirror_y)
foreach_vertex(expoly, [height](Point &p) {p.y() = height - p.y(); });
if (trafo.mirror_x)
foreach_vertex(expoly, [width](Point &p) {p.x() = width - p.x(); });
expoly.translate(-trafo.center_x, -trafo.center_y);
if (trafo.flipXY)
foreach_vertex(expoly, [](Point &p) { std::swap(p.x(), p.y()); });
if ((trafo.mirror_x + trafo.mirror_y + trafo.flipXY) % 2) {
expoly.contour.reverse();
for (auto &h : expoly.holes) h.reverse();
}
}
}
RasterParams get_raster_params(const DynamicPrintConfig &cfg)
{
auto *opt_disp_cols = cfg.option<ConfigOptionInt>("display_pixels_x");
auto *opt_disp_rows = cfg.option<ConfigOptionInt>("display_pixels_y");
auto *opt_disp_w = cfg.option<ConfigOptionFloat>("display_width");
auto *opt_disp_h = cfg.option<ConfigOptionFloat>("display_height");
auto *opt_mirror_x = cfg.option<ConfigOptionBool>("display_mirror_x");
auto *opt_mirror_y = cfg.option<ConfigOptionBool>("display_mirror_y");
auto *opt_orient = cfg.option<ConfigOptionEnum<SLADisplayOrientation>>("display_orientation");
if (!opt_disp_cols || !opt_disp_rows || !opt_disp_w || !opt_disp_h ||
!opt_mirror_x || !opt_mirror_y || !opt_orient)
throw MissingProfileError("Invalid SL1 / SL1S file");
RasterParams rstp;
rstp.px_w = opt_disp_w->value / (opt_disp_cols->value - 1);
rstp.px_h = opt_disp_h->value / (opt_disp_rows->value - 1);
rstp.trafo = sla::RasterBase::Trafo{opt_orient->value == sladoLandscape ?
sla::RasterBase::roLandscape :
sla::RasterBase::roPortrait,
{opt_mirror_x->value, opt_mirror_y->value}};
rstp.height = scaled(opt_disp_h->value);
rstp.width = scaled(opt_disp_w->value);
return rstp;
}
namespace {
ExPolygons rings_to_expolygons(const std::vector<marchsq::Ring> &rings,
double px_w, double px_h)
{
auto polys = reserve_vector<ExPolygon>(rings.size());
for (const marchsq::Ring &ring : rings) {
Polygon poly; Points &pts = poly.points;
pts.reserve(ring.size());
for (const marchsq::Coord &crd : ring)
pts.emplace_back(scaled(crd.c * px_w), scaled(crd.r * px_h));
polys.emplace_back(poly);
}
// TODO: Is a union necessary?
return union_ex(polys);
}
std::vector<ExPolygons> extract_slices_from_sla_archive(
ZipperArchive &arch,
const RasterParams &rstp,
const marchsq::Coord &win,
std::function<bool(int)> progr)
{
std::vector<ExPolygons> slices(arch.entries.size());
struct Status
{
double incr, val, prev;
bool stop = false;
execution::SpinningMutex<ExecutionTBB> mutex = {};
} st{100. / slices.size(), 0., 0.};
execution::for_each(
ex_tbb, size_t(0), arch.entries.size(),
[&arch, &slices, &st, &rstp, &win, progr](size_t i) {
// Status indication guarded with the spinlock
{
std::lock_guard lck(st.mutex);
if (st.stop) return;
st.val += st.incr;
double curr = std::round(st.val);
if (curr > st.prev) {
st.prev = curr;
st.stop = !progr(int(curr));
}
}
png::ImageGreyscale img;
png::ReadBuf rb{arch.entries[i].buf.data(),
arch.entries[i].buf.size()};
if (!png::decode_png(rb, img)) return;
constexpr uint8_t isoval = 128;
auto rings = marchsq::execute(img, isoval, win);
ExPolygons expolys = rings_to_expolygons(rings, rstp.px_w,
rstp.px_h);
// Invert the raster transformations indicated in the profile metadata
invert_raster_trafo(expolys, rstp.trafo, rstp.width, rstp.height);
slices[i] = std::move(expolys);
},
execution::max_concurrency(ex_tbb));
if (st.stop) slices = {};
return slices;
}
} // namespace
ConfigSubstitutions SL1Reader::read(std::vector<ExPolygons> &slices,
DynamicPrintConfig &profile_out)
{
Vec2i windowsize;
switch(m_quality)
{
case SLAImportQuality::Fast: windowsize = {8, 8}; break;
case SLAImportQuality::Balanced: windowsize = {4, 4}; break;
default:
case SLAImportQuality::Accurate:
windowsize = {2, 2}; break;
};
// Ensure minimum window size for marching squares
windowsize.x() = std::max(2, windowsize.x());
windowsize.y() = std::max(2, windowsize.y());
std::vector<std::string> includes = { "ini", "png"};
std::vector<std::string> excludes = { "thumbnail" };
ZipperArchive arch = read_zipper_archive(m_fname, includes, excludes);
auto [profile_use, config_substitutions] = extract_profile(arch, profile_out);
RasterParams rstp = get_raster_params(profile_use);
marchsq::Coord win = {windowsize.y(), windowsize.x()};
slices = extract_slices_from_sla_archive(arch, rstp, win, m_progr);
return std::move(config_substitutions);
}
ConfigSubstitutions SL1Reader::read(DynamicPrintConfig &out)
{
ZipperArchive arch = read_zipper_archive(m_fname, {}, {"png"});
return out.load(arch.profile, ForwardCompatibilitySubstitutionRule::Enable);
}
} // namespace Slic3r

57
src/libslic3r/Format/SL1.hpp
View File

@ -3,16 +3,15 @@
#include <string>
#include "SLAArchive.hpp"
#include "SLAArchiveWriter.hpp"
#include "SLAArchiveReader.hpp"
#include "libslic3r/Zipper.hpp"
#include "libslic3r/PrintConfig.hpp"
struct indexed_triangle_set;
namespace Slic3r {
class SL1Archive: public SLAArchive {
class SL1Archive: public SLAArchiveWriter {
SLAPrinterConfig m_cfg;
protected:
@ -38,27 +37,41 @@ public:
const ThumbnailsList &thumbnails,
const std::string &projectname = "") override;
};
ConfigSubstitutions import_sla_archive(const std::string &zipfname, DynamicPrintConfig &out);
ConfigSubstitutions import_sla_archive(
const std::string & zipfname,
Vec2i windowsize,
indexed_triangle_set & out,
DynamicPrintConfig & profile,
std::function<bool(int)> progr = [](int) { return true; });
class SL1Reader: public SLAArchiveReader {
SLAImportQuality m_quality = SLAImportQuality::Balanced;
std::function<bool(int)> m_progr;
std::string m_fname;
inline ConfigSubstitutions import_sla_archive(
const std::string & zipfname,
Vec2i windowsize,
indexed_triangle_set & out,
std::function<bool(int)> progr = [](int) { return true; })
{
DynamicPrintConfig profile;
return import_sla_archive(zipfname, windowsize, out, profile, progr);
}
public:
// If the profile is missing from the archive (older PS versions did not have
// it), profile_out's initial value will be used as fallback. profile_out will be empty on
// function return if the archive did not contain any profile.
ConfigSubstitutions read(std::vector<ExPolygons> &slices,
DynamicPrintConfig &profile_out) override;
class MissingProfileError : public RuntimeError { using RuntimeError::RuntimeError; };
ConfigSubstitutions read(DynamicPrintConfig &profile) override;
SL1Reader() = default;
SL1Reader(const std::string &fname,
SLAImportQuality quality,
std::function<bool(int)> progr)
: m_quality(quality), m_progr(progr), m_fname(fname)
{}
};
struct RasterParams {
sla::RasterBase::Trafo trafo; // Raster transformations
coord_t width, height; // scaled raster dimensions (not resolution)
double px_h, px_w; // pixel dimesions
};
RasterParams get_raster_params(const DynamicPrintConfig &cfg);
void invert_raster_trafo(ExPolygons & expolys,
const sla::RasterBase::Trafo &trafo,
coord_t width,
coord_t height);
} // namespace Slic3r::sla

99
src/libslic3r/Format/SL1_SVG.cpp
View File

@ -3,6 +3,10 @@
#include "libslic3r/LocalesUtils.hpp"
#include "libslic3r/ClipperUtils.hpp"
#include "libslic3r/BoundingBox.hpp"
#include "libslic3r/Format/ZipperArchiveImport.hpp"
#define NANOSVG_IMPLEMENTATION
#include "nanosvg/nanosvg.h"
#include <limits>
#include <cstdint>
@ -16,6 +20,7 @@ namespace {
size_t constexpr coord_t_bufsize = 40;
// A fast and locale independent implementation of int=>str
char const* decimal_from(coord_t snumber, char* buffer)
{
std::make_unsigned_t<coord_t> number = 0;
@ -50,6 +55,7 @@ inline std::string coord2str(coord_t crd)
return decimal_from(crd, buf);
}
// Apply the sla::RasterBase::Trafo onto an ExPolygon
void transform(ExPolygon &ep, const sla::RasterBase::Trafo &tr, const BoundingBox &bb)
{
if (tr.flipXY) {
@ -71,12 +77,13 @@ void transform(ExPolygon &ep, const sla::RasterBase::Trafo &tr, const BoundingBo
}
}
// Append the svg string representation of a Polygon to the input 'buf'
void append_svg(std::string &buf, const Polygon &poly)
{
if (poly.points.empty())
return;
auto c = poly.points.front();
Point c = poly.points.front();
char intbuf[coord_t_bufsize];
@ -91,7 +98,7 @@ void append_svg(std::string &buf, const Polygon &poly)
if (d.x() == 0 && d.y() == 0)
continue;
buf += " "sv;
buf += decimal_from(p.x() - c.x(), intbuf);
buf += decimal_from(d.x(), intbuf);
buf += " "sv;
buf += decimal_from(d.y(), intbuf);
c = p;
@ -139,9 +146,6 @@ public:
"<svg height=\"" + hf + "mm" + "\" width=\"" + wf + "mm" + "\" viewBox=\"0 0 " + w + " " + h +
"\" style=\"fill: white; stroke: none; fill-rule: nonzero\" "
"xmlns=\"http://www.w3.org/2000/svg\" xmlns:svg=\"http://www.w3.org/2000/svg\" xmlns:xlink=\"http://www.w3.org/1999/xlink\">\n";
// Add black background;
m_svg += "<rect fill='black' stroke='none' x='0' y='0' width='" + w + "' height='" + h + "'/>\n";
}
void draw(const ExPolygon& poly) override
@ -171,6 +175,8 @@ public:
Trafo trafo() const override { return m_trafo; }
// The encoder is ignored here, the svg text does not need any further
// encoding.
sla::EncodedRaster encode(sla::RasterEncoder /*encoder*/) const override
{
std::vector<uint8_t> data;
@ -190,13 +196,11 @@ std::unique_ptr<sla::RasterBase> SL1_SVGArchive::create_raster() const
auto w = cfg().display_width.getFloat();
auto h = cfg().display_height.getFloat();
// auto res_x = size_t(cfg().display_pixels_x.getInt());
// auto res_y = size_t(cfg().display_pixels_y.getInt());
float precision_nm = scaled<float>(cfg().sla_output_precision.getFloat());
size_t res_x = std::round(scaled(w) / precision_nm);
size_t res_y = std::round(scaled(h) / precision_nm);
auto res_x = size_t(std::round(scaled(w) / precision_nm));
auto res_y = size_t(std::round(scaled(h) / precision_nm));
std::array<bool, 2> mirror;
std::array<bool, 2> mirror;
mirror[X] = cfg().display_mirror_x.getBool();
mirror[Y] = cfg().display_mirror_y.getBool();
@ -220,6 +224,7 @@ std::unique_ptr<sla::RasterBase> SL1_SVGArchive::create_raster() const
return std::make_unique<SVGRaster>(svgarea, sla::Resolution{res_x, res_y}, tr);
}
// SVG does not need additional binary encoding.
sla::RasterEncoder SL1_SVGArchive::get_encoder() const
{
return nullptr;
@ -230,9 +235,83 @@ void SL1_SVGArchive::export_print(const std::string fname,
const ThumbnailsList &thumbnails,
const std::string &projectname)
{
// Export code is completely identical to SL1, only the compression level
// is elevated, as the SL1 has already compressed PNGs with deflate,
// but the svg is just text.
Zipper zipper{fname, Zipper::TIGHT_COMPRESSION};
SL1Archive::export_print(zipper, print, thumbnails, projectname);
}
struct NanoSVGParser {
NSVGimage *image;
static constexpr const char *Units = "mm"; // Denotes user coordinate system
static constexpr float Dpi = 1.f; // Not needed
explicit NanoSVGParser(char* input): image{nsvgParse(input, Units, Dpi)} {}
~NanoSVGParser() { nsvgDelete(image); }
};
ConfigSubstitutions SL1_SVGReader::read(std::vector<ExPolygons> &slices,
DynamicPrintConfig &profile_out)
{
std::vector<std::string> includes = { CONFIG_FNAME, PROFILE_FNAME, "svg"};
ZipperArchive arch = read_zipper_archive(m_fname, includes, {});
auto [profile_use, config_substitutions] = extract_profile(arch, profile_out);
RasterParams rstp = get_raster_params(profile_use);
struct Status
{
double incr, val, prev;
bool stop = false;
} st{100. / arch.entries.size(), 0., 0.};
for (const EntryBuffer &entry : arch.entries) {
if (st.stop) break;
st.val += st.incr;
double curr = std::round(st.val);
if (curr > st.prev) {
st.prev = curr;
st.stop = !m_progr(int(curr));
}
// Don't want to use dirty casts for the buffer to be usable in
// the NanoSVGParser until performance is not a bottleneck here.
auto svgtxt = reserve_vector<char>(entry.buf.size() + 1);
std::copy(entry.buf.begin(), entry.buf.end(), std::back_inserter(svgtxt));
svgtxt.emplace_back('\0');
NanoSVGParser svgp(svgtxt.data());
Polygons polys;
for (NSVGshape *shape = svgp.image->shapes; shape != nullptr; shape = shape->next) {
for (NSVGpath *path = shape->paths; path != nullptr; path = path->next) {
Polygon p;
for (int i = 0; i < path->npts; ++i) {
size_t c = 2 * i;
p.points.emplace_back(scaled(Vec2f(path->pts[c], path->pts[c + 1])));
}
polys.emplace_back(p);
}
}
// Create the slice from the read polygons. Here, the fill rule has to
// be the same as stated in the svg file which is `nonzero` when exported
// using SL1_SVGArchive. Would be better to parse it from the svg file,
// but if it's different, the file is probably corrupted anyways.
ExPolygons expolys = union_ex(polys, ClipperLib::pftNonZero);
invert_raster_trafo(expolys, rstp.trafo, rstp.width, rstp.height);
slices.emplace_back(expolys);
}
// Compile error without the move
return std::move(config_substitutions);
}
ConfigSubstitutions SL1_SVGReader::read(DynamicPrintConfig &out)
{
ZipperArchive arch = read_zipper_archive(m_fname, {"prusaslicer.ini"}, {});
return out.load(arch.profile, ForwardCompatibilitySubstitutionRule::Enable);
}
} // namespace Slic3r

21
src/libslic3r/Format/SL1_SVG.hpp
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@ -22,6 +22,27 @@ public:
using SL1Archive::SL1Archive;
};
class SL1_SVGReader: public SLAArchiveReader {
std::function<bool(int)> m_progr;
std::string m_fname;
public:
// If the profile is missing from the archive (older PS versions did not have
// it), profile_out's initial value will be used as fallback. profile_out will be empty on
// function return if the archive did not contain any profile.
ConfigSubstitutions read(std::vector<ExPolygons> &slices,
DynamicPrintConfig &profile_out) override;
ConfigSubstitutions read(DynamicPrintConfig &profile) override;
SL1_SVGReader() = default;
SL1_SVGReader(const std::string &fname,
SLAImportQuality /*quality*/,
const ProgrFn & progr)
: m_progr(progr), m_fname(fname)
{}
};
} // namespace Slic3r
#endif // SL1_SVG_HPP

179
src/libslic3r/Format/SLAArchiveReader.cpp Normal file
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@ -0,0 +1,179 @@
#include "SLAArchiveReader.hpp"
#include "SL1.hpp"
#include "SL1_SVG.hpp"
#include "libslic3r/SlicesToTriangleMesh.hpp"
#include <boost/filesystem/path.hpp>
#include <boost/algorithm/string.hpp>
constexpr const char * L(const char * str) { return str; }
#include <array>
#include <map>
namespace Slic3r {
namespace {
// Factory function that returns an implementation of SLAArchiveReader.
using ArchiveFactory = std::function<
std::unique_ptr<SLAArchiveReader>(const std::string &fname,
SLAImportQuality quality,
const ProgrFn & progr)>;
// Entry in the global registry of readable archive formats.
struct ArchiveEntry {
const char *descr;
std::vector<const char *> extensions;
ArchiveFactory factoryfn;
};
// This is where the readable archive formats are registered.
static const std::map<std::string, ArchiveEntry> REGISTERED_ARCHIVES {
{
"SL1",
{ L("SL1 / SL1S archive files"), {"sl1", "sl1s", "zip"},
[] (const std::string &fname, SLAImportQuality quality, const ProgrFn &progr) { return std::make_unique<SL1Reader>(fname, quality, progr); } }
},
{
"SL2",
{ L("SL2 archive files"), {"sl2", "sl1_svg"/*, "zip"*/}, // also a zip but unnecessary hassle to implement single extension for multiple archives
[] (const std::string &fname, SLAImportQuality quality, const ProgrFn &progr) { return std::make_unique<SL1_SVGReader>(fname, quality, progr); }}
},
// TODO: pwmx and future others.
};
} // namespace
std::unique_ptr<SLAArchiveReader> SLAArchiveReader::create(
const std::string &fname,
const std::string &format_id,
SLAImportQuality quality,
const ProgrFn & progr)
{
// Create an instance of SLAArchiveReader using the registered archive
// reader implementations.
// If format_id is specified and valid, that archive format will be
// preferred. When format_id is emtpy, the file extension is compared
// with the advertised extensions of registered readers and the first
// match will be used.
std::string ext = boost::filesystem::path(fname).extension().string();
boost::algorithm::to_lower(ext);
std::unique_ptr<SLAArchiveReader> ret;
auto arch_from = REGISTERED_ARCHIVES.begin();
auto arch_to = REGISTERED_ARCHIVES.end();
auto arch_it = REGISTERED_ARCHIVES.find(format_id);
if (arch_it != REGISTERED_ARCHIVES.end()) {
arch_from = arch_it;
arch_to = arch_it;
}
if (!ext.empty()) {
if (ext.front() == '.')
ext.erase(ext.begin());
auto extcmp = [&ext](const auto &e) { return e == ext; };
for (auto it = arch_from; it != arch_to; ++it) {
const auto &[format_id, entry] = *it;
if (std::any_of(entry.extensions.begin(), entry.extensions.end(), extcmp))
ret = entry.factoryfn(fname, quality, progr);
}
}
return ret;
}
const std::vector<const char *> &SLAArchiveReader::registered_archives()
{
static std::vector<const char*> archnames;
if (archnames.empty()) {
archnames.reserve(REGISTERED_ARCHIVES.size());
for (auto &[name, _] : REGISTERED_ARCHIVES)
archnames.emplace_back(name.c_str());
}
return archnames;
}
std::vector<const char *> SLAArchiveReader::get_extensions(const char *archtype)
{
auto it = REGISTERED_ARCHIVES.find(archtype);
if (it != REGISTERED_ARCHIVES.end())
return it->second.extensions;
return {};
}
const char *SLAArchiveReader::get_description(const char *archtype)
{
auto it = REGISTERED_ARCHIVES.find(archtype);
if (it != REGISTERED_ARCHIVES.end())
return it->second.descr;
return nullptr;
}
struct SliceParams { double layerh = 0., initial_layerh = 0.; };
static SliceParams get_slice_params(const DynamicPrintConfig &cfg)
{
auto *opt_layerh = cfg.option<ConfigOptionFloat>("layer_height");
auto *opt_init_layerh = cfg.option<ConfigOptionFloat>("initial_layer_height");
if (!opt_layerh || !opt_init_layerh)
throw MissingProfileError("Invalid SL1 / SL1S file");
return SliceParams{opt_layerh->getFloat(), opt_init_layerh->getFloat()};
}
ConfigSubstitutions import_sla_archive(const std::string &zipfname,
const std::string &format_id,
indexed_triangle_set &out,
DynamicPrintConfig &profile,
SLAImportQuality quality,
const ProgrFn & progr)
{
ConfigSubstitutions ret;
if (auto reader = SLAArchiveReader::create(zipfname, format_id, quality, progr)) {
std::vector<ExPolygons> slices;
ret = reader->read(slices, profile);
SliceParams slicp = get_slice_params(profile);
if (!slices.empty())
out = slices_to_mesh(slices, 0, slicp.layerh, slicp.initial_layerh);
} else {
throw ReaderUnimplementedError("Reader unimplemented");
}
return ret;
}
ConfigSubstitutions import_sla_archive(const std::string &zipfname,
const std::string &format_id,
DynamicPrintConfig &out)
{
ConfigSubstitutions ret;
if (auto reader = SLAArchiveReader::create(zipfname, format_id)) {
ret = reader->read(out);
} else {
throw ReaderUnimplementedError("Reader unimplemented");
}
return ret;
}
} // namespace Slic3r

85
src/libslic3r/Format/SLAArchiveReader.hpp Normal file
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@ -0,0 +1,85 @@
#ifndef SLAARCHIVEREADER_HPP
#define SLAARCHIVEREADER_HPP
#include "libslic3r/PrintConfig.hpp"
#include "libslic3r/ExPolygon.hpp"
struct indexed_triangle_set;
namespace Slic3r {
// A generic indicator for the quality of an imported model. Obviously, the
// original cannot be fully reconstructed.
enum class SLAImportQuality { Accurate, Balanced, Fast };
// Raised when the needed metadata cannot be retrieved or guessed from an archive
class MissingProfileError : public RuntimeError
{
using RuntimeError::RuntimeError;
};
// A shortname for status indication function.
// The argument is the status (from <0, 100>)
// Returns false if cancel was requested.
using ProgrFn = std::function<bool(int)>;
// Abstract interface for an archive reader. This needs to be implemented for
// every supported archive format.
class SLAArchiveReader {
public:
virtual ~SLAArchiveReader() = default;
// Read the profile and reconstruct the slices
virtual ConfigSubstitutions read(std::vector<ExPolygons> &slices,
DynamicPrintConfig &profile) = 0;
// Overload for reading only the profile contained in the archive (if present)
virtual ConfigSubstitutions read(DynamicPrintConfig &profile) = 0;
// Creates a reader instance based on the provided file path.
// format_id can be one of the archive type identifiers returned by
// registered_archives(). If left empty, only the file extension will
// be considered. If more archive types have the same extension (like *.zip)
// The first match is used.
static std::unique_ptr<SLAArchiveReader> create(
const std::string &fname,
const std::string &format_id,
SLAImportQuality quality = SLAImportQuality::Balanced,
const ProgrFn &progr = [](int) { return false; });
// Get the names of currently known archive reader implementations
static const std::vector<const char *> & registered_archives();
// Get the understood file extensions belonging to an archive format
static std::vector<const char *> get_extensions(const char *archtype);
// Generic description (usable in GUI) about an archive format
static const char * get_description(const char *archtype);
};
// Raised in import_sla_archive when a nullptr reader is returned by
// SLAArchiveReader::create()
class ReaderUnimplementedError : public RuntimeError
{
using RuntimeError::RuntimeError;
};
// Helper free functions to import an archive using the above interface.
// Can throw ReaderUnimplementedError or MissingProfileError
ConfigSubstitutions import_sla_archive(
const std::string &zipfname,
const std::string &format_id,
indexed_triangle_set &out,
DynamicPrintConfig &profile,
SLAImportQuality quality = SLAImportQuality::Balanced,
const ProgrFn &progr = [](int) { return true; });
// Only reads the profile, doesn't reconstruct the model.
ConfigSubstitutions import_sla_archive(const std::string &zipfname,
const std::string &format_id,
DynamicPrintConfig &out);
} // namespace Slic3r
#endif // SLAARCHIVEREADER_HPP

14
src/libslic3r/Format/SLAArchive.cpp → src/libslic3r/Format/SLAArchiveWriter.cpp
View File

@ -1,4 +1,4 @@
#include "SLAArchive.hpp"
#include "SLAArchiveWriter.hpp"
#include "SL1.hpp"
#include "SL1_SVG.hpp"
@ -13,7 +13,7 @@
namespace Slic3r {
using ArchiveFactory = std::function<std::unique_ptr<SLAArchive>(const SLAPrinterConfig&)>;
using ArchiveFactory = std::function<std::unique_ptr<SLAArchiveWriter>(const SLAPrinterConfig&)>;
struct ArchiveEntry {
const char *ext;
@ -35,8 +35,8 @@ static const std::map<std::string, ArchiveEntry> REGISTERED_ARCHIVES {
}
};
std::unique_ptr<SLAArchive>
SLAArchive::create(const std::string &archtype, const SLAPrinterConfig &cfg)
std::unique_ptr<SLAArchiveWriter>
SLAArchiveWriter::create(const std::string &archtype, const SLAPrinterConfig &cfg)
{
auto entry = REGISTERED_ARCHIVES.find(archtype);
@ -46,7 +46,7 @@ SLAArchive::create(const std::string &archtype, const SLAPrinterConfig &cfg)
return nullptr;
}
const std::vector<const char*>& SLAArchive::registered_archives()
const std::vector<const char*>& SLAArchiveWriter::registered_archives()
{
static std::vector<const char*> archnames;
@ -60,9 +60,9 @@ const std::vector<const char*>& SLAArchive::registered_archives()
return archnames;
}
const char *SLAArchive::get_extension(const char *archtype)
const char *SLAArchiveWriter::get_extension(const char *archtype)
{
static const char* DEFAULT_EXT = "zip";
constexpr const char* DEFAULT_EXT = "zip";
auto entry = REGISTERED_ARCHIVES.find(archtype);
if (entry != REGISTERED_ARCHIVES.end())

9
src/libslic3r/Format/SLAArchive.hpp → src/libslic3r/Format/SLAArchiveWriter.hpp
View File

@ -12,7 +12,7 @@ namespace Slic3r {
class SLAPrint;
class SLAPrinterConfig;
class SLAArchive {
class SLAArchiveWriter {
protected:
std::vector<sla::EncodedRaster> m_layers;
@ -20,7 +20,7 @@ protected:
virtual sla::RasterEncoder get_encoder() const = 0;
public:
virtual ~SLAArchive() = default;
virtual ~SLAArchiveWriter() = default;
// Fn have to be thread safe: void(sla::RasterBase& raster, size_t lyrid);
template<class Fn, class CancelFn, class EP = ExecutionTBB>
@ -44,14 +44,15 @@ public:
execution::max_concurrency(ep));
}
// Export the print into an archive using the provided filename.
// Export the print into an archive using the provided filename.
virtual void export_print(const std::string fname,
const SLAPrint &print,
const ThumbnailsList &thumbnails,
const std::string &projectname = "") = 0;
// Factory method to create an archiver instance
static std::unique_ptr<SLAArchive> create(const std::string &archtype, const SLAPrinterConfig&);
static std::unique_ptr<SLAArchiveWriter> create(
const std::string &archtype, const SLAPrinterConfig &);
// Get the names of currently known archiver implementations
static const std::vector<const char *> & registered_archives();

136
src/libslic3r/Format/ZipperArchiveImport.cpp Normal file
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@ -0,0 +1,136 @@
#include "ZipperArchiveImport.hpp"
#include "libslic3r/miniz_extension.hpp"
#include "libslic3r/Exception.hpp"
#include "libslic3r/PrintConfig.hpp"
#include <boost/property_tree/ini_parser.hpp>
#include <boost/filesystem/path.hpp>
#include <boost/algorithm/string.hpp>
namespace Slic3r {
namespace {
// Read an ini file into boost property tree
boost::property_tree::ptree read_ini(const mz_zip_archive_file_stat &entry,
MZ_Archive &zip)
{
std::string buf(size_t(entry.m_uncomp_size), '\0');
if (!mz_zip_reader_extract_file_to_mem(&zip.arch, entry.m_filename,
buf.data(), buf.size(), 0))
throw Slic3r::FileIOError(zip.get_errorstr());
boost::property_tree::ptree tree;
std::stringstream ss(buf);
boost::property_tree::read_ini(ss, tree);
return tree;
}
// Read an arbitrary file into EntryBuffer
EntryBuffer read_entry(const mz_zip_archive_file_stat &entry,
MZ_Archive &zip,
const std::string &name)
{
std::vector<uint8_t> buf(entry.m_uncomp_size);
if (!mz_zip_reader_extract_file_to_mem(&zip.arch, entry.m_filename,
buf.data(), buf.size(), 0))
throw Slic3r::FileIOError(zip.get_errorstr());
return {std::move(buf), (name.empty() ? entry.m_filename : name)};
}
} // namespace
ZipperArchive read_zipper_archive(const std::string &zipfname,
const std::vector<std::string> &includes,
const std::vector<std::string> &excludes)
{
ZipperArchive arch;
// Little RAII
struct Arch : public MZ_Archive
{
Arch(const std::string &fname)
{
if (!open_zip_reader(&arch, fname))
throw Slic3r::FileIOError(get_errorstr());
}
~Arch() { close_zip_reader(&arch); }
} zip(zipfname);
mz_uint num_entries = mz_zip_reader_get_num_files(&zip.arch);
for (mz_uint i = 0; i < num_entries; ++i) {
mz_zip_archive_file_stat entry;
if (mz_zip_reader_file_stat(&zip.arch, i, &entry)) {
std::string name = entry.m_filename;
boost::algorithm::to_lower(name);
if (!std::any_of(includes.begin(), includes.end(),
[&name](const std::string &incl) {
return boost::algorithm::contains(name, incl);
}))
continue;
if (std::any_of(excludes.begin(), excludes.end(),
[&name](const std::string &excl) {
return boost::algorithm::contains(name, excl);
}))
continue;
if (name == CONFIG_FNAME) { arch.config = read_ini(entry, zip); continue; }
if (name == PROFILE_FNAME) { arch.profile = read_ini(entry, zip); continue; }
auto it = std::lower_bound(
arch.entries.begin(), arch.entries.end(),
EntryBuffer{{}, name},
[](const EntryBuffer &r1, const EntryBuffer &r2) {
return std::less<std::string>()(r1.fname, r2.fname);
});
arch.entries.insert(it, read_entry(entry, zip, name));
}
}
return arch;
}
std::pair<DynamicPrintConfig, ConfigSubstitutions> extract_profile(
const ZipperArchive &arch, DynamicPrintConfig &profile_out)
{
DynamicPrintConfig profile_in, profile_use;
ConfigSubstitutions config_substitutions =
profile_in.load(arch.profile,
ForwardCompatibilitySubstitutionRule::Enable);
if (profile_in.empty()) { // missing profile... do guess work
// try to recover the layer height from the config.ini which was
// present in all versions of sl1 files.
if (auto lh_opt = arch.config.find("layerHeight");
lh_opt != arch.config.not_found()) {
auto lh_str = lh_opt->second.data();
size_t pos = 0;
double lh = string_to_double_decimal_point(lh_str, &pos);
if (pos) { // TODO: verify that pos is 0 when parsing fails
profile_out.set("layer_height", lh);
profile_out.set("initial_layer_height", lh);
}
}
}
// If the archive contains an empty profile, use the one that was passed
// as output argument then replace it with the readed profile to report
// that it was empty.
profile_use = profile_in.empty() ? profile_out : profile_in;
profile_out = profile_in;
return {profile_use, std::move(config_substitutions)};
}
} // namespace Slic3r

54
src/libslic3r/Format/ZipperArchiveImport.hpp Normal file
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@ -0,0 +1,54 @@
#ifndef ZIPPERARCHIVEIMPORT_HPP
#define ZIPPERARCHIVEIMPORT_HPP
#include <vector>
#include <string>
#include <cstdint>
#include <boost/property_tree/ptree.hpp>
#include "libslic3r/PrintConfig.hpp"
namespace Slic3r {
// Buffer for arbitraryfiles inside a zipper archive.
struct EntryBuffer
{
std::vector<uint8_t> buf;
std::string fname;
};
// Structure holding the data read from a zipper archive.
struct ZipperArchive
{
boost::property_tree::ptree profile, config;
std::vector<EntryBuffer> entries;
};
// Names of the files containing metadata inside the archive.
const constexpr char *CONFIG_FNAME = "config.ini";
const constexpr char *PROFILE_FNAME = "prusaslicer.ini";
// Read an archive that was written using the Zipper class.
// The includes parameter is a set of file name substrings that the entries
// must contain to be included in ZipperArchive.
// The excludes parameter may contain substrings that filenames must not
// contain.
// Every file in the archive is read into ZipperArchive::entries
// except the files CONFIG_FNAME, and PROFILE_FNAME which are read into
// ZipperArchive::config and ZipperArchive::profile structures.
ZipperArchive read_zipper_archive(const std::string &zipfname,
const std::vector<std::string> &includes,
const std::vector<std::string> &excludes);
// Extract the print profile form the archive into 'out'.
// Returns a profile that has correct parameters to use for model reconstruction
// even if the needed parameters were not fully found in the archive's metadata.
// The inout argument shall be a usable fallback profile if the archive
// has totally corrupted metadata.
std::pair<DynamicPrintConfig, ConfigSubstitutions> extract_profile(
const ZipperArchive &arch, DynamicPrintConfig &inout);
} // namespace Slic3r
#endif // ZIPPERARCHIVEIMPORT_HPP

4
src/libslic3r/Format/pwmx.hpp
View File

@ -3,13 +3,13 @@
#include <string>
#include "SLAArchive.hpp"
#include "SLAArchiveWriter.hpp"
#include "libslic3r/PrintConfig.hpp"
namespace Slic3r {
class PwmxArchive: public SLAArchive {
class PwmxArchive: public SLAArchiveWriter {
SLAPrinterConfig m_cfg;
protected:

2
src/libslic3r/SLAPrint.cpp
View File

@ -246,7 +246,7 @@ SLAPrint::ApplyStatus SLAPrint::apply(const Model &model, DynamicPrintConfig con
m_default_object_config.apply_only(config, object_diff, true);
if (!m_archiver || !printer_diff.empty())
m_archiver = SLAArchive::create(m_printer_config.sla_archive_format.value.c_str(), m_printer_config);
m_archiver = SLAArchiveWriter::create(m_printer_config.sla_archive_format.value.c_str(), m_printer_config);
struct ModelObjectStatus {
enum Status {

4
src/libslic3r/SLAPrint.hpp
View File

@ -9,7 +9,7 @@
#include "Point.hpp"
#include "MTUtils.hpp"
#include "Zipper.hpp"
#include "Format/SLAArchive.hpp"
#include "Format/SLAArchiveWriter.hpp"
#include "GCode/ThumbnailData.hpp"
#include "libslic3r/Execution/ExecutionTBB.hpp"
@ -524,7 +524,7 @@ private:
std::vector<PrintLayer> m_printer_input;
// The archive object which collects the raster images after slicing
std::unique_ptr<SLAArchive> m_archiver;
std::unique_ptr<SLAArchiveWriter> m_archiver;
// Estimated print time, material consumed.
SLAPrintStatistics m_print_statistics;

4
src/slic3r/GUI/BitmapCache.cpp
View File

@ -6,6 +6,8 @@
#include "GUI_Utils.hpp"
#include <boost/filesystem.hpp>
#include <boost/nowide/cstdio.hpp>
#include <boost/algorithm/string/replace.hpp>
#ifdef __WXGTK2__
// Broken alpha workaround
@ -13,7 +15,7 @@
#include <wx/rawbmp.h>
#endif /* __WXGTK2__ */
#define NANOSVG_IMPLEMENTATION
//#define NANOSVG_IMPLEMENTATION
#include "nanosvg/nanosvg.h"
#define NANOSVGRAST_IMPLEMENTATION
#include "nanosvg/nanosvgrast.h"

74
src/slic3r/GUI/Jobs/SLAImportDialog.hpp
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@ -10,17 +10,67 @@
#include <wx/filepicker.h>
#include "libslic3r/AppConfig.hpp"
#include "libslic3r/Format/SLAArchiveReader.hpp"
#include "slic3r/GUI/I18N.hpp"
#include "slic3r/GUI/GUI.hpp"
#include "slic3r/GUI/GUI_App.hpp"
#include "slic3r/GUI/Plater.hpp"
#include <boost/algorithm/string.hpp>
//#include "libslic3r/Model.hpp"
//#include "libslic3r/PresetBundle.hpp"
namespace Slic3r { namespace GUI {
std::string get_readers_wildcard()
{
std::string ret;
for (const char *archtype : SLAArchiveReader::registered_archives()) {
ret += _utf8(SLAArchiveReader::get_description(archtype));
ret += " (";
auto extensions = SLAArchiveReader::get_extensions(archtype);
for (const char * ext : extensions) {
ret += "*.";
ret += ext;
ret += ", ";
}
// remove last ", "
if (!extensions.empty()) {
ret.pop_back();
ret.pop_back();
}
ret += ")|";
for (std::string ext : extensions) {
boost::algorithm::to_lower(ext);
ret += "*.";
ret += ext;
ret += ";";
boost::algorithm::to_upper(ext);
ret += "*.";
ret += ext;
ret += ";";
}
// remove last ';'
if (!extensions.empty())
ret.pop_back();
ret += "|";
}
if (ret.back() == '|')
ret.pop_back();
return ret;
}
class SLAImportDialog: public wxDialog, public SLAImportJobView {
wxFilePickerCtrl *m_filepicker;
wxComboBox *m_import_dropdown, *m_quality_dropdown;
@ -34,7 +84,7 @@ public:
m_filepicker = new wxFilePickerCtrl(this, wxID_ANY,
from_u8(wxGetApp().app_config->get_last_dir()), _(L("Choose SLA archive:")),
"SL1 / SL1S archive files (*.sl1, *.sl1s, *.zip)|*.sl1;*.SL1;*.sl1s;*.SL1S;*.zip;*.ZIP",
get_readers_wildcard(),
wxDefaultPosition, wxDefaultSize, wxFLP_DEFAULT_STYLE | wxFD_OPEN | wxFD_FILE_MUST_EXIST);
szfilepck->Add(new wxStaticText(this, wxID_ANY, _L("Import file") + ": "), 0, wxALIGN_CENTER);
@ -64,7 +114,7 @@ public:
};
m_quality_dropdown = new wxComboBox(
this, wxID_ANY, qual_choices[0], wxDefaultPosition, wxDefaultSize,
this, wxID_ANY, qual_choices[1], wxDefaultPosition, wxDefaultSize,
qual_choices.size(), qual_choices.data(), wxCB_READONLY | wxCB_DROPDOWN);
szchoices->Add(m_quality_dropdown, 1);
@ -96,17 +146,15 @@ public:
return Sel(std::min(int(Sel::modelOnly), std::max(0, sel)));
}
Vec2i get_marchsq_windowsize() const override
SLAImportQuality get_quality() const override
{
enum { Accurate, Balanced, Fast};
switch(m_quality_dropdown->GetSelection())
{
case Fast: return {8, 8};
case Balanced: return {4, 4};
case 2: return SLAImportQuality::Fast;
case 1: return SLAImportQuality::Balanced;
case 0: return SLAImportQuality::Accurate;
default:
case Accurate:
return {2, 2};
return SLAImportQuality::Balanced;
}
}
@ -114,6 +162,14 @@ public:
{
return m_filepicker->GetPath().ToUTF8().data();
}
std::string get_archive_format() const override
{
// TODO: the choosen format is inside the file dialog which is not
// accessible from the file picker object. The file picker could be
// changed to a custom file dialog.
return {};
}
};
}} // namespace Slic3r::GUI

58
src/slic3r/GUI/Jobs/SLAImportJob.cpp
View File

@ -2,6 +2,7 @@
#include "libslic3r/SLAPrint.hpp"
#include "libslic3r/Format/SL1.hpp"
#include "libslic3r/Format/SLAArchiveReader.hpp"
#include "slic3r/GUI/GUI.hpp"
#include "slic3r/GUI/Plater.hpp"
@ -24,7 +25,7 @@ public:
indexed_triangle_set mesh;
DynamicPrintConfig profile;
wxString path;
Vec2i win = {2, 2};
Quality quality = Quality::Balanced;
std::string err;
ConfigSubstitutions config_substitutions;
@ -55,20 +56,30 @@ void SLAImportJob::process(Ctl &ctl)
if (p->path.empty()) return;
std::string path = p->path.ToUTF8().data();
std::string format_id = p->import_dlg->get_archive_format();
try {
switch (p->sel) {
case Sel::modelAndProfile:
case Sel::modelOnly:
p->config_substitutions = import_sla_archive(path, p->win, p->mesh, p->profile, progr);
p->config_substitutions = import_sla_archive(path,
format_id,
p->mesh,
p->profile,
p->quality, progr);
break;
case Sel::profileOnly:
p->config_substitutions = import_sla_archive(path, p->profile);
p->config_substitutions = import_sla_archive(path, format_id,
p->profile);
break;
}
} catch (MissingProfileError &) {
p->err = _L("The SLA archive doesn't contain any presets. "
"Please activate some SLA printer preset first before importing that SLA archive.").ToStdString();
} catch (std::exception &ex) {
p->err = _u8L("The SLA archive doesn't contain any presets. "
"Please activate some SLA printer preset first before "
"importing that SLA archive.");
} catch (ReaderUnimplementedError &) {
p->err = _u8L("Import is unavailable for this archive format.");
}catch (std::exception &ex) {
p->err = ex.what();
}
@ -81,7 +92,7 @@ void SLAImportJob::reset()
p->sel = Sel::modelAndProfile;
p->mesh = {};
p->profile = p->plater->sla_print().full_print_config();
p->win = {2, 2};
p->quality = SLAImportQuality::Balanced;
p->path.Clear();
}
@ -89,11 +100,12 @@ void SLAImportJob::prepare()
{
reset();
auto path = p->import_dlg->get_path();
auto nm = wxFileName(path);
p->path = !nm.Exists(wxFILE_EXISTS_REGULAR) ? "" : nm.GetFullPath();
p->sel = p->import_dlg->get_selection();
p->win = p->import_dlg->get_marchsq_windowsize();
auto path = p->import_dlg->get_path();
auto nm = wxFileName(path);
p->path = !nm.Exists(wxFILE_EXISTS_REGULAR) ? "" : nm.GetFullPath();
p->sel = p->import_dlg->get_selection();
p->quality = p->import_dlg->get_quality();
p->config_substitutions.clear();
}
@ -115,8 +127,8 @@ void SLAImportJob::finalize(bool canceled, std::exception_ptr &eptr)
p->plater->get_notification_manager()->push_notification(
NotificationType::CustomNotification,
NotificationManager::NotificationLevel::WarningNotificationLevel,
_L("The imported SLA archive did not contain any presets. "
"The current SLA presets were used as fallback.").ToStdString());
_u8L("The imported SLA archive did not contain any presets. "
"The current SLA presets were used as fallback."));
}
if (p->sel != Sel::modelOnly) {
@ -138,15 +150,27 @@ void SLAImportJob::finalize(bool canceled, std::exception_ptr &eptr)
config.apply(SLAFullPrintConfig::defaults());
config += std::move(p->profile);
wxGetApp().preset_bundle->load_config_model(name, std::move(config));
p->plater->check_selected_presets_visibility(ptSLA);
wxGetApp().load_current_presets();
if (Preset::printer_technology(config) == ptSLA) {
wxGetApp().preset_bundle->load_config_model(name, std::move(config));
p->plater->check_selected_presets_visibility(ptSLA);
wxGetApp().load_current_presets();
} else {
p->plater->get_notification_manager()->push_notification(
NotificationType::CustomNotification,
NotificationManager::NotificationLevel::WarningNotificationLevel,
_u8L("The profile in the imported archive is corrupt and will not be loaded."));
}
}
if (!p->mesh.empty()) {
bool is_centered = false;
p->plater->sidebar().obj_list()->load_mesh_object(TriangleMesh{std::move(p->mesh)},
name, is_centered);
} else if (p->sel == Sel::modelOnly || p->sel == Sel::modelAndProfile) {
p->plater->get_notification_manager()->push_notification(
NotificationType::CustomNotification,
NotificationManager::NotificationLevel::WarningNotificationLevel,
_u8L("No object could be retrieved from the archive. The slices might be corrupted or missing."));
}
if (! p->config_substitutions.empty())

6
src/slic3r/GUI/Jobs/SLAImportJob.hpp
View File

@ -3,7 +3,7 @@
#include "Job.hpp"
#include "libslic3r/Point.hpp"
#include "libslic3r/Format/SLAArchiveReader.hpp"
namespace Slic3r { namespace GUI {
@ -14,8 +14,9 @@ public:
virtual ~SLAImportJobView() = default;
virtual Sel get_selection() const = 0;
virtual Vec2i get_marchsq_windowsize() const = 0;
virtual SLAImportQuality get_quality() const = 0;
virtual std::string get_path() const = 0;
virtual std::string get_archive_format() const { return ""; }
};
class Plater;
@ -25,6 +26,7 @@ class SLAImportJob : public Job {
std::unique_ptr<priv> p;
using Sel = SLAImportJobView::Sel;
using Quality = SLAImportQuality;
public:
void prepare();

2
src/slic3r/GUI/MainFrame.cpp
View File

@ -1212,7 +1212,7 @@ void MainFrame::init_menubar_as_editor()
[this](wxCommandEvent&) { if (m_plater) m_plater->add_model(true); }, "import_plater", nullptr,
[this](){return m_plater != nullptr; }, this);
append_menu_item(import_menu, wxID_ANY, _L("Import SL1 / SL1S Archive") + dots, _L("Load an SL1 / Sl1S archive"),
append_menu_item(import_menu, wxID_ANY, _L("Import SLA Archive") + dots, _L("Load an SLA archive"),
[this](wxCommandEvent&) { if (m_plater) m_plater->import_sl1_archive(); }, "import_plater", nullptr,
[this](){return m_plater != nullptr && m_plater->get_ui_job_worker().is_idle(); }, this);

2
tests/sla_print/CMakeLists.txt
View File

@ -4,7 +4,7 @@ add_executable(${_TEST_NAME}_tests ${_TEST_NAME}_tests_main.cpp
sla_test_utils.hpp sla_test_utils.cpp
sla_supptgen_tests.cpp
sla_raycast_tests.cpp
sla_archive_export_tests.cpp)
sla_archive_readwrite_tests.cpp)
target_link_libraries(${_TEST_NAME}_tests test_common libslic3r)
set_property(TARGET ${_TEST_NAME}_tests PROPERTY FOLDER "tests")

40
tests/sla_print/sla_archive_export_tests.cpp
View File

@ -1,40 +0,0 @@
#include <catch2/catch.hpp>
#include <test_utils.hpp>
#include "libslic3r/SLAPrint.hpp"
#include "libslic3r/Format/SLAArchive.hpp"
#include <boost/filesystem.hpp>
using namespace Slic3r;
TEST_CASE("Archive export test", "[sla_archives]") {
constexpr const char *PNAME = "20mm_cube";
for (auto &archname : SLAArchive::registered_archives()) {
INFO(std::string("Testing archive type: ") + archname);
SLAPrint print;
SLAFullPrintConfig fullcfg;
auto m = Model::read_from_file(TEST_DATA_DIR PATH_SEPARATOR + std::string(PNAME) + ".obj", nullptr);
fullcfg.set("sla_archive_format", archname);
fullcfg.set("supports_enable", false);
fullcfg.set("pad_enable", false);
DynamicPrintConfig cfg;
cfg.apply(fullcfg);
print.set_status_callback([](const PrintBase::SlicingStatus&) {});
print.apply(m, cfg);
print.process();
ThumbnailsList thumbnails;
auto outputfname = std::string("output.") + SLAArchive::get_extension(archname);
print.export_print(outputfname, thumbnails, PNAME);
// Not much can be checked about the archives...
REQUIRE(boost::filesystem::exists(outputfname));
}
}

71
tests/sla_print/sla_archive_readwrite_tests.cpp Normal file
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@ -0,0 +1,71 @@
#include <catch2/catch.hpp>
#include <test_utils.hpp>
#include "libslic3r/SLAPrint.hpp"
#include "libslic3r/TriangleMesh.hpp"
#include "libslic3r/Format/SLAArchiveWriter.hpp"
#include "libslic3r/Format/SLAArchiveReader.hpp"
#include <boost/filesystem.hpp>
using namespace Slic3r;
TEST_CASE("Archive export test", "[sla_archives]") {
for (const char * pname : {"20mm_cube", "extruder_idler"})
for (auto &archname : SLAArchiveWriter::registered_archives()) {
INFO(std::string("Testing archive type: ") + archname + " -- writing...");
SLAPrint print;
SLAFullPrintConfig fullcfg;
auto m = Model::read_from_file(TEST_DATA_DIR PATH_SEPARATOR + std::string(pname) + ".obj", nullptr);
fullcfg.printer_technology.setInt(ptSLA); // FIXME this should be ensured
fullcfg.set("sla_archive_format", archname);
fullcfg.set("supports_enable", false);
fullcfg.set("pad_enable", false);
DynamicPrintConfig cfg;
cfg.apply(fullcfg);
print.set_status_callback([](const PrintBase::SlicingStatus&) {});
print.apply(m, cfg);
print.process();
ThumbnailsList thumbnails;
auto outputfname = std::string("output_") + pname + "." + SLAArchiveWriter::get_extension(archname);
print.export_print(outputfname, thumbnails, pname);
// Not much can be checked about the archives...
REQUIRE(boost::filesystem::exists(outputfname));
double vol_written = m.mesh().volume();
auto readable_formats = SLAArchiveReader::registered_archives();
if (std::any_of(readable_formats.begin(), readable_formats.end(),
[&archname](const std::string &a) { return a == archname; })) {
INFO(std::string("Testing archive type: ") + archname + " -- reading back...");
indexed_triangle_set its;
DynamicPrintConfig cfg;
try {
// Leave format_id deliberetaly empty, guessing should always
// work here.
import_sla_archive(outputfname, "", its, cfg);
} catch (...) {
REQUIRE(false);
}
// its_write_obj(its, (outputfname + ".obj").c_str());
REQUIRE(!cfg.empty());
REQUIRE(!its.empty());
double vol_read = its_volume(its);
double rel_err = std::abs(vol_written - vol_read) / vol_written;
REQUIRE(rel_err < 0.1);
}
}
}