Refactor and extensions to png export dialog.

This commit is contained in:
tamasmeszaros 2018-06-27 17:43:54 +02:00
parent 30e177d986
commit ac9d81cfa0
11 changed files with 492 additions and 341 deletions

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@ -159,6 +159,7 @@ add_library(libslic3r STATIC
${LIBDIR}/libslic3r/PolylineCollection.hpp
${LIBDIR}/libslic3r/Print.cpp
${LIBDIR}/libslic3r/Print.hpp
${LIBDIR}/libslic3r/PrintExport.hpp
${LIBDIR}/libslic3r/PrintConfig.cpp
${LIBDIR}/libslic3r/PrintConfig.hpp
${LIBDIR}/libslic3r/PrintObject.cpp

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@ -12,19 +12,8 @@
#include <boost/lexical_cast.hpp>
#include <boost/log/trivial.hpp>
// For png export of the sliced model
#include <fstream>
#include <sstream>
#include <wx/stdstream.h>
#include <wx/wfstream.h>
#include <wx/zipstrm.h>
#include "Rasterizer/Rasterizer.hpp"
#include <tbb/parallel_for.h>
#include <tbb/spin_mutex.h>//#include "tbb/mutex.h"
#include "slic3r/IProgressIndicator.hpp"
#include "PrintExport.hpp"
namespace Slic3r {
@ -1263,291 +1252,8 @@ void Print::set_status(int percent, const std::string &message)
}
}
/*
* Interface for a file printer of the slices. Implementation can be an SVG
* or PNG printer or any other format.
*
* The format argument specifies the output format of the printer and it enables
* different implementations of this class template for each supported format.
*
*/
template<Print::FilePrinterFormat format>
class FilePrinter {
public:
// Draw an ExPolygon which is a polygon inside a slice on the specified layer.
void drawPolygon(const ExPolygon& p, unsigned lyr);
// Tell the printer how many layers should it consider.
void layers(unsigned layernum);
// Get the number of layers in the print.
unsigned layers() const;
/* Switch to a particular layer. If there where less layers then the
* specified layer number than an appropriate number of layers will be
* allocated in the printer.
*/
void beginLayer(unsigned layer);
// Allocate a new layer on top of the last and switch to it.
void beginLayer();
/*
* Finish the selected layer. It means that no drawing is allowed on that
* layer anymore. This fact can be used to prepare the file system output
* data like png comprimation and so on.
*/
void finishLayer(unsigned layer);
// Finish the top layer.
void finishLayer();
// Save all the layers into the file (or dir) specified in the path argument
void save(const std::string& path);
// Save only the selected layer to the file specified in path argument.
void saveLayer(unsigned lyr, const std::string& path);
};
// Implementation for PNG raster output
// Be aware that if a large number of layers are allocated, it can very well
// exhaust the available memory.especially on 32 bit platform.
template<> class FilePrinter<Print::FilePrinterFormat::PNG> {
struct Layer {
Raster first;
std::stringstream second;
Layer() {}
Layer(const Raster::Resolution& res, const Raster::PixelDim& pd):
first(res, pd) {}
Layer(const Layer&) = delete;
Layer(Layer&& m):
first(std::move(m.first))/*, second(std::move(m.second))*/ {}
};
// We will save the compressed PNG data into stringstreams which can be done
// in parallel. Later we can write every layer to the disk sequentially.
std::vector<Layer> layers_rst_;
Raster::Resolution res_;
Raster::PixelDim pxdim_;
public:
inline FilePrinter(unsigned width_px, unsigned height_px,
double width_mm, double height_mm,
unsigned layer_cnt = 0):
res_(width_px, height_px),
pxdim_(width_mm/width_px, height_mm/height_px) {
layers(layer_cnt);
}
FilePrinter(const FilePrinter& ) = delete;
FilePrinter(FilePrinter&& m):
layers_rst_(std::move(m.layers_rst_)),
res_(m.res_),
pxdim_(m.pxdim_) {}
inline void layers(unsigned cnt) { if(cnt > 0) layers_rst_.resize(cnt); }
inline unsigned layers() const { return layers_rst_.size(); }
inline void drawPolygon(const ExPolygon& p, unsigned lyr) {
assert(lyr < layers_rst_.size());
layers_rst_[lyr].first.draw(p);
}
inline void beginLayer(unsigned lyr) {
if(layers_rst_.size() <= lyr) layers_rst_.resize(lyr+1);
layers_rst_[lyr].first.reset(res_, pxdim_);
}
inline void beginLayer() {
layers_rst_.emplace_back();
layers_rst_.front().first.reset(res_, pxdim_);
}
inline void finishLayer(unsigned lyr_id) {
assert(lyr_id < layers_rst_.size());
layers_rst_[lyr_id].first.save(layers_rst_[lyr_id].second,
Raster::Compression::PNG);
layers_rst_[lyr_id].first.reset();
}
inline void finishLayer() {
if(!layers_rst_.empty()) {
layers_rst_.back().first.save(layers_rst_.back().second,
Raster::Compression::PNG);
layers_rst_.back().first.reset();
}
}
inline void save(const std::string& path) {
wxFFileOutputStream zipfile(path);
if(!zipfile.IsOk()) {
std::cout /*BOOST_LOG_TRIVIAL(error)*/ << "Can't create zip file for layers! " << path << std::endl;
return;
}
wxZipOutputStream zipstream(zipfile);
wxStdOutputStream pngstream(zipstream);
for(unsigned i = 0; i < layers_rst_.size(); i++) {
if(layers_rst_[i].second.rdbuf()->in_avail() > 0) {
char lyrnum[6];
std::sprintf(lyrnum, "%.5d", i);
auto zfilename = std::string("layer") + lyrnum + ".png";
zipstream.PutNextEntry(zfilename);
pngstream << layers_rst_[i].second.rdbuf();
layers_rst_[i].second.str("");
}
}
zipstream.Close();
zipfile.Close();
}
void saveLayer(unsigned lyr, const std::string& path) {
unsigned i = lyr;
assert(i < layers_rst_.size());
char lyrnum[6];
std::sprintf(lyrnum, "%.5d", lyr);
std::string loc = path + "layer" + lyrnum + ".png";
std::fstream out(loc, std::fstream::out | std::fstream::binary);
if(out.good()) {
layers_rst_[i].first.save(out, Raster::Compression::PNG);
} else {
BOOST_LOG_TRIVIAL(error) << "Can't create file for layer";
}
out.close();
layers_rst_[i].first.reset();
}
};
template<Print::FilePrinterFormat format, class...Args>
void Print::print_to(std::string dirpath,
double width_mm,
double height_mm,
Args...args)
{
std::string& dir = dirpath;
LayerPtrs layers;
// Merge the sliced layers with the support layers
std::for_each(objects.begin(), objects.end(), [&layers](PrintObject *o){
layers.insert(layers.end(), o->layers.begin(), o->layers.end());
layers.insert(layers.end(), o->support_layers.begin(),
o->support_layers.end());
});
// Sort layers by z coord
std::sort(layers.begin(), layers.end(), [](Layer *l1, Layer *l2) {
return l1->print_z < l2->print_z;
});
auto print_bb = bounding_box();
// If the print does not fit into the print area we should cry about it.
if(unscale(print_bb.size().x) > width_mm ||
unscale(print_bb.size().y) > height_mm) {
BOOST_LOG_TRIVIAL(warning) << "Warning: Print will not fit!" << "\n"
<< "Width needed: " << unscale(print_bb.size().x) << "\n"
<< "Height needed: " << unscale(print_bb.size().y) << "\n";
}
// Offset for centering the print onto the print area
auto cx = scale_(width_mm)/2 - (print_bb.center().x - print_bb.min.x);
auto cy = scale_(height_mm)/2 - (print_bb.center().y - print_bb.min.y);
// Create the actual printer, forward any additional arguments to it.
FilePrinter<format> printer(std::forward<Args>(args)...);
printer.layers(layers.size()); // Allocate space for all the layers
int st_prev = 0;
const std::string jobdesc = "Rasterizing and compressing sliced layers";
set_status(0, jobdesc);
tbb::spin_mutex m;
// Method that prints one layer
auto process_layer = [this, &layers, &printer, &st_prev, &m, &jobdesc,
print_bb, dir, cx, cy] (unsigned layer_id)
{
Layer& l = *(layers[layer_id]);
ExPolygonCollection slices = l.slices; // Copy the layer slices
// Sort the polygons in the layer
std::stable_sort(slices.expolygons.begin(), slices.expolygons.end(),
[](const ExPolygon& a, const ExPolygon& b) {
return a.contour.contains(b.contour.first_point()) ? false : true;
});
printer.beginLayer(layer_id); // Switch to the appropriate layer
// Draw all the polygons in the slice to the actual layer.
std::for_each(l.object()->_shifted_copies.begin(),
l.object()->_shifted_copies.end(),
[&] (Point d)
{
std::for_each(slices.expolygons.begin(),
slices.expolygons.end(),
[&] (ExPolygon slice)
{
slice.translate(d.x, d.y);
slice.translate(-print_bb.min.x + cx, -print_bb.min.y + cy);
printer.drawPolygon(slice, layer_id);
});
});
if(has_support_material() && layer_id > 0) {
BOOST_LOG_TRIVIAL(warning) << "support material for layer "
<< layer_id << " defined but export is "
"not yet implemented.";
}
printer.finishLayer(layer_id); // Finish the layer for later saving it.
auto st = static_cast<int>(layer_id*100.0/layers.size());
m.lock();
if( st - st_prev > 10) {
set_status(st, jobdesc);
st_prev = st;
}
m.unlock();
// printer.saveLayer(layer_id, dir); We could save the layer immediately
};
// Print all the layers in parallel
tbb::parallel_for<size_t, decltype(process_layer)>(0,
layers.size(),
process_layer);
// Sequential version (for testing)
// for(unsigned l = 0; l < layers.size(); ++l) process_layer(l);
set_status(100, jobdesc);
// Save the print into the file system.
set_status(0, "Writing layers to disk");
printer.save(dir);
set_status(100, "Writing layers completed");
}
void Print::print_to_png(std::string dirpath, long width_px, long height_px,
double width_mm, double height_mm) {
print_to<FilePrinterFormat::PNG>(dirpath, width_mm, height_mm,
width_px, height_px,
width_mm, height_mm);
void Print::print_to_png(std::string dirpath) {
print_to<FilePrinterFormat::PNG>(*this, dirpath, 68.0, 120.0, 1440, 2560);
}
}

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@ -318,26 +318,10 @@ public:
// Has the calculation been canceled?
bool canceled() { return m_canceled; }
enum class FilePrinterFormat {
PNG,
SVG
};
template<FilePrinterFormat format, class...Args>
void print_to(std::string dirpath,
double width_mm,
double height_mm,
Args...args);
void print_to_png(std::string dirpath, long width_px, long height_px,
double width_mm, double height_mm);
void print_to_png(std::string dirpath) {
// Will need some GUI dialog perhaps for these to be specified.
print_to_png(dirpath, 1440, 2560, 68.0, 120.0);
}
void print_to_png(std::string dirpath);
private:
bool invalidate_state_by_config_options(const std::vector<t_config_option_key> &opt_keys);
PrintRegionConfig _region_config_from_model_volume(const ModelVolume &volume);

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@ -0,0 +1,366 @@
#ifndef PRINTEXPORT_HPP
#define PRINTEXPORT_HPP
#include "Print.hpp"
// For png export of the sliced model
#include <fstream>
#include <sstream>
#include <wx/stdstream.h>
#include <wx/wfstream.h>
#include <wx/zipstrm.h>
#include <boost/log/trivial.hpp>
#include "Rasterizer/Rasterizer.hpp"
#include <tbb/parallel_for.h>
#include <tbb/spin_mutex.h>//#include "tbb/mutex.h"
namespace Slic3r {
enum class FilePrinterFormat {
PNG,
SVG
};
/*
* Interface for a file printer of the slices. Implementation can be an SVG
* or PNG printer or any other format.
*
* The format argument specifies the output format of the printer and it enables
* different implementations of this class template for each supported format.
*
*/
template<FilePrinterFormat format>
class FilePrinter {
public:
void printConfig(const Print&);
// Draw an ExPolygon which is a polygon inside a slice on the specified layer.
void drawPolygon(const ExPolygon& p, unsigned lyr);
// Tell the printer how many layers should it consider.
void layers(unsigned layernum);
// Get the number of layers in the print.
unsigned layers() const;
/* Switch to a particular layer. If there where less layers then the
* specified layer number than an appropriate number of layers will be
* allocated in the printer.
*/
void beginLayer(unsigned layer);
// Allocate a new layer on top of the last and switch to it.
void beginLayer();
/*
* Finish the selected layer. It means that no drawing is allowed on that
* layer anymore. This fact can be used to prepare the file system output
* data like png comprimation and so on.
*/
void finishLayer(unsigned layer);
// Finish the top layer.
void finishLayer();
// Save all the layers into the file (or dir) specified in the path argument
void save(const std::string& path);
// Save only the selected layer to the file specified in path argument.
void saveLayer(unsigned lyr, const std::string& path);
};
// Implementation for PNG raster output
// Be aware that if a large number of layers are allocated, it can very well
// exhaust the available memory.especially on 32 bit platform.
template<> class FilePrinter<FilePrinterFormat::PNG> {
struct Layer {
Raster first;
std::stringstream second;
Layer() {}
Layer(const Raster::Resolution& res, const Raster::PixelDim& pd):
first(res, pd) {}
Layer(const Layer&) = delete;
Layer(Layer&& m):
first(std::move(m.first))/*, second(std::move(m.second))*/ {}
};
// We will save the compressed PNG data into stringstreams which can be done
// in parallel. Later we can write every layer to the disk sequentially.
std::vector<Layer> layers_rst_;
Raster::Resolution res_;
Raster::PixelDim pxdim_;
const Print *print_ = nullptr;
std::string createIniContent(const std::string& projectname) {
double layer_height = print_?
print_->default_object_config.layer_height.getFloat() :
0.05;
return std::string(
"action = print\n"
"jobDir = ") + projectname + "\n" +
"expTime = 8.0\n"
"expTimeFirst = 35\n"
"stepNum = 40\n"
"wifiOn = 1\n"
"tiltSlow = 60\n"
"tiltFast = 15\n"
"numFade = 10\n"
"startdelay = 0\n"
"layerHeight = " + std::to_string(layer_height) + "\n"
"noteInfo = "
"expTime=8.0+resinType=FTD-IB-Black+layerHeight=0.05+printer=DWARF3\n";
}
public:
inline FilePrinter(double width_mm, double height_mm,
unsigned width_px, unsigned height_px,
unsigned layer_cnt = 0):
res_(width_px, height_px),
pxdim_(width_mm/width_px, height_mm/height_px) {
layers(layer_cnt);
}
FilePrinter(const FilePrinter& ) = delete;
FilePrinter(FilePrinter&& m):
layers_rst_(std::move(m.layers_rst_)),
res_(m.res_),
pxdim_(m.pxdim_) {}
inline void layers(unsigned cnt) { if(cnt > 0) layers_rst_.resize(cnt); }
inline unsigned layers() const { return layers_rst_.size(); }
void printConfig(const Print& printconf) { print_ = &printconf; }
inline void drawPolygon(const ExPolygon& p, unsigned lyr) {
assert(lyr < layers_rst_.size());
layers_rst_[lyr].first.draw(p);
}
inline void beginLayer(unsigned lyr) {
if(layers_rst_.size() <= lyr) layers_rst_.resize(lyr+1);
layers_rst_[lyr].first.reset(res_, pxdim_);
}
inline void beginLayer() {
layers_rst_.emplace_back();
layers_rst_.front().first.reset(res_, pxdim_);
}
inline void finishLayer(unsigned lyr_id) {
assert(lyr_id < layers_rst_.size());
layers_rst_[lyr_id].first.save(layers_rst_[lyr_id].second,
Raster::Compression::PNG);
layers_rst_[lyr_id].first.reset();
}
inline void finishLayer() {
if(!layers_rst_.empty()) {
layers_rst_.back().first.save(layers_rst_.back().second,
Raster::Compression::PNG);
layers_rst_.back().first.reset();
}
}
inline void save(const std::string& path) {
wxFileName filepath(path);
wxFFileOutputStream zipfile(path);
std::string project = filepath.GetName();
if(!zipfile.IsOk()) {
BOOST_LOG_TRIVIAL(error) << "Can't create zip file for layers! "
<< path;
return;
}
wxZipOutputStream zipstream(zipfile);
wxStdOutputStream pngstream(zipstream);
zipstream.PutNextEntry("config.ini");
pngstream << createIniContent(project);
for(unsigned i = 0; i < layers_rst_.size(); i++) {
if(layers_rst_[i].second.rdbuf()->in_avail() > 0) {
char lyrnum[6];
std::sprintf(lyrnum, "%.5d", i);
auto zfilename = project + lyrnum + ".png";
zipstream.PutNextEntry(zfilename);
pngstream << layers_rst_[i].second.rdbuf();
layers_rst_[i].second.str("");
}
}
zipstream.Close();
zipfile.Close();
}
void saveLayer(unsigned lyr, const std::string& path) {
unsigned i = lyr;
assert(i < layers_rst_.size());
char lyrnum[6];
std::sprintf(lyrnum, "%.5d", lyr);
std::string loc = path + "layer" + lyrnum + ".png";
std::fstream out(loc, std::fstream::out | std::fstream::binary);
if(out.good()) {
layers_rst_[i].first.save(out, Raster::Compression::PNG);
} else {
BOOST_LOG_TRIVIAL(error) << "Can't create file for layer";
}
out.close();
layers_rst_[i].first.reset();
}
};
template<FilePrinterFormat format, class...Args>
void print_to(Print& print,
std::string dirpath,
double width_mm,
double height_mm,
Args&&...args)
{
std::string& dir = dirpath;
// This map will hold the layers sorted by z coordinate. Layers on the
// same height (from different objects) will be mapped to the same key and
// rasterized to the same image.
std::map<long long, LayerPtrs> layers;
auto& objects = print.objects;
// Merge the sliced layers with the support layers
std::for_each(objects.begin(), objects.end(), [&layers](PrintObject *o) {
for(auto l : o->layers) {
auto& lyrs = layers[static_cast<long long>(scale_(l->print_z))];
lyrs.push_back(l);
}
for(auto l : o->support_layers) {
auto& lyrs = layers[static_cast<long long>(scale_(l->print_z))];
lyrs.push_back(l);
}
});
auto print_bb = print.bounding_box();
// If the print does not fit into the print area we should cry about it.
if(unscale(print_bb.size().x) > width_mm ||
unscale(print_bb.size().y) > height_mm) {
BOOST_LOG_TRIVIAL(warning) << "Warning: Print will not fit!" << "\n"
<< "Width needed: " << unscale(print_bb.size().x) << "\n"
<< "Height needed: " << unscale(print_bb.size().y) << "\n";
}
// Offset for centering the print onto the print area
auto cx = scale_(width_mm)/2 - (print_bb.center().x - print_bb.min.x);
auto cy = scale_(height_mm)/2 - (print_bb.center().y - print_bb.min.y);
// Create the actual printer, forward any additional arguments to it.
FilePrinter<format> printer(width_mm, height_mm,
std::forward<Args>(args)...);
printer.printConfig(print);
printer.layers(layers.size()); // Allocate space for all the layers
int st_prev = 0;
const std::string jobdesc = "Rasterizing and compressing sliced layers";
print.set_status(0, jobdesc);
tbb::spin_mutex m;
std::vector<long long> keys;
keys.reserve(layers.size());
for(auto& e : layers) keys.push_back(e.first);
// Method that prints one layer
auto process_layer = [&layers, &keys, &printer, &st_prev, &m,
&jobdesc, print_bb, dir, cx, cy, &print] (unsigned layer_id)
{
LayerPtrs lrange = layers[keys[layer_id]];
printer.beginLayer(layer_id); // Switch to the appropriate layer
for(Layer *lp : lrange) {
Layer& l = *lp;
ExPolygonCollection slices = l.slices; // Copy the layer slices
// Sort the polygons in the layer
std::stable_sort(slices.expolygons.begin(), slices.expolygons.end(),
[](const ExPolygon& a, const ExPolygon& b) {
return a.contour.contains(b.contour.first_point()) ? false :
true;
});
// Draw all the polygons in the slice to the actual layer.
std::for_each(l.object()->_shifted_copies.begin(),
l.object()->_shifted_copies.end(),
[&] (Point d)
{
std::for_each(slices.expolygons.begin(),
slices.expolygons.end(),
[&] (ExPolygon slice)
{
slice.translate(d.x, d.y);
slice.translate(-print_bb.min.x + cx, -print_bb.min.y + cy);
printer.drawPolygon(slice, layer_id);
});
});
if(print.has_support_material() && layer_id > 0) {
BOOST_LOG_TRIVIAL(warning) << "support material for layer "
<< layer_id
<< " defined but export is "
"not yet implemented.";
}
}
printer.finishLayer(layer_id); // Finish the layer for later saving it.
auto st = static_cast<int>(layer_id*100.0/layers.size());
m.lock();
if( st - st_prev > 10) {
print.set_status(st, jobdesc);
st_prev = st;
}
m.unlock();
// printer.saveLayer(layer_id, dir); We could save the layer immediately
};
// Print all the layers in parallel
tbb::parallel_for<size_t, decltype(process_layer)>(0,
layers.size(),
process_layer);
// Sequential version (for testing)
// for(unsigned l = 0; l < layers.size(); ++l) process_layer(l);
print.set_status(100, jobdesc);
// Save the print into the file system.
print.set_status(0, "Writing layers to disk");
printer.save(dir);
print.set_status(100, "Writing layers completed");
}
}
#endif // PRINTEXPORT_HPP

View File

@ -11,6 +11,7 @@
#include <PrintConfig.hpp>
#include <Print.hpp>
#include <PrintExport.hpp>
#include <Model.hpp>
#include <Utils.hpp>
@ -268,8 +269,6 @@ void PrintController::slice()
void PrintController::slice_to_png()
{
assert(model_ != nullptr);
auto exd = query_png_export_data();
if(exd.zippath.empty()) return;
@ -287,8 +286,24 @@ void PrintController::slice_to_png()
print_->validate();
} catch(std::exception& e) {
report_issue(IssueType::ERR, e.what(), "Error");
return;
}
// TODO
/*bool correction = false;
if(exd.corr_x != 1.0 || exd.corr_y != 1.0 || exd.corr_z != 1.0) {
correction = true;
print_->invalidate_all_steps();
for(auto po : print_->objects) {
po->model_object()->scale(
Pointf3(exd.corr_x, exd.corr_y, exd.corr_z)
);
po->model_object()->invalidate_bounding_box();
po->reload_model_instances();
}
}*/
auto print_bb = print_->bounding_box();
// If the print does not fit into the print area we should cry about it.
@ -311,6 +326,7 @@ void PrintController::slice_to_png()
slice();
} catch (std::exception& e) {
report_issue(IssueType::ERR, e.what(), "Exception");
progress_indicator()->cancel();
return;
}
@ -318,12 +334,26 @@ void PrintController::slice_to_png()
print_->progressindicator = progress_indicator();
try {
print_->print_to_png(exd.zippath, exd.width_px, exd.height_px,
exd.width_mm, exd.height_mm);
print_to<FilePrinterFormat::PNG>( *print_, exd.zippath,
exd.width_mm, exd.height_mm,
exd.width_px, exd.height_px );
} catch (std::exception& e) {
report_issue(IssueType::ERR, e.what(), "Exception");
progress_indicator()->cancel();
}
/*if(correction) { // scale the model back
print_->invalidate_all_steps();
for(auto po : print_->objects) {
po->model_object()->scale(
Pointf3(1.0/exd.corr_x, 1.0/exd.corr_y, 1.0/exd.corr_z)
);
po->model_object()->invalidate_bounding_box();
po->reload_model_instances();
}
}*/
print_->progressindicator = pbak;
});
}

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@ -51,6 +51,7 @@ public:
enum class IssueType {
INFO,
WARN,
WARN_Q, // Warning with a question to continue
ERR,
FATAL
};
@ -91,7 +92,7 @@ public:
* @param brief A very brief description. Can be used for message dialog
* title.
*/
void report_issue(IssueType issuetype,
bool report_issue(IssueType issuetype,
const std::string& description,
const std::string& brief = "");
@ -170,7 +171,9 @@ protected:
unsigned long width_px = 1440; // resolution - rows
unsigned long height_px = 2560; // resolution columns
double width_mm = 68.0, height_mm = 120.0; // dimensions in mm
double corr = 1.0; // multiplies the dimensions
double corr_x = 1.0; // offsetting in x
double corr_y = 1.0; // offsetting in y
double corr_z = 1.0; // offsetting in y
};
// Should display a dialog with the input fields for printing to png
@ -208,6 +211,9 @@ public:
* @brief Slice the print into zipped png files.
*/
void slice_to_png();
void slice_to_png(std::string dirpath);
};
/**

View File

@ -60,19 +60,22 @@ AppControllerBoilerplate::query_destination_path(
return ret;
}
void AppControllerBoilerplate::report_issue(IssueType issuetype,
bool AppControllerBoilerplate::report_issue(IssueType issuetype,
const std::string &description,
const std::string &brief)
{
auto icon = wxICON_INFORMATION;
auto style = wxOK|wxCENTRE;
switch(issuetype) {
case IssueType::INFO: break;
case IssueType::WARN: icon = wxICON_WARNING; break;
case IssueType::WARN_Q: icon = wxICON_WARNING; style |= wxCANCEL; break;
case IssueType::ERR:
case IssueType::FATAL: icon = wxICON_ERROR;
}
wxMessageBox(description, brief, icon);
auto ret = wxMessageBox(description, brief, icon | style);
return ret != wxCANCEL;
}
wxDEFINE_EVENT(PROGRESS_STATUS_UPDATE_EVENT, wxCommandEvent);
@ -143,6 +146,11 @@ public:
this, id_);
}
virtual void cancel() override {
update(max(), "Abort");
IProgressIndicator::cancel();
}
virtual void state(float val) override {
if( val >= 1.0) state(static_cast<unsigned>(val));
}
@ -285,9 +293,12 @@ PrintController::PngExportData PrintController::query_png_export_data()
// Implement the logic of the PngExportDialog
class PngExportView: public PngExportDialog {
double ratio_, bs_ratio_;
PrintController& ctl_;
public:
PngExportView(): PngExportDialog(wxTheApp->GetTopWindow()) {
PngExportView(PrintController& ctl):
PngExportDialog(wxTheApp->GetTopWindow()), ctl_(ctl)
{
ratio_ = double(spin_reso_width_->GetValue()) /
spin_reso_height_->GetValue();
@ -302,7 +313,9 @@ PrintController::PngExportData PrintController::query_png_export_data()
ret.height_px = spin_reso_height_->GetValue();
ret.width_mm = bed_width_spin_->GetValue();
ret.height_mm = bed_height_spin_->GetValue();
ret.corr = corr_spin_->GetValue();
ret.corr_x = corr_spin_x_->GetValue();
ret.corr_y = corr_spin_y_->GetValue();
ret.corr_z = corr_spin_z_->GetValue();
return ret;
}
@ -312,7 +325,11 @@ PrintController::PngExportData PrintController::query_png_export_data()
spin_reso_height_->SetValue(data.height_px);
bed_width_spin_->SetValue(data.width_mm);
bed_height_spin_->SetValue(data.height_mm);
corr_spin_->SetValue(data.corr);
corr_spin_x_->SetValue(data.corr_x);
corr_spin_y_->SetValue(data.corr_y);
corr_spin_z_->SetValue(data.corr_z);
if(data.zippath.empty()) export_btn_->Disable();
else export_btn_->Enable();
}
virtual void ResoLock( wxCommandEvent& /*event*/ ) override {
@ -352,9 +369,24 @@ PrintController::PngExportData PrintController::query_png_export_data()
}
}
}
virtual void onFileChanged( wxFileDirPickerEvent& event ) {
if(filepick_ctl_->GetPath().IsEmpty()) export_btn_->Disable();
else export_btn_->Enable();
}
virtual void Close( wxCommandEvent& /*event*/ ) {
auto ret = wxID_OK;
if(wxFileName(filepick_ctl_->GetPath()).Exists())
if(!ctl_.report_issue(PrintController::IssueType::WARN_Q,
"File already exists. Overwrite?",
"Warning")) ret = wxID_CANCEL;
EndModal(ret);
}
};
PngExportView exdlg;
PngExportView exdlg(*this);
exdlg.prefill(prev_expdata_);

View File

@ -23,12 +23,16 @@ PngExportDialog::PngExportDialog( wxWindow* parent, wxWindowID id, const wxStrin
bSizer16 = new wxBoxSizer( wxVERTICAL );
wxGridSizer* gSizer2;
gSizer2 = new wxGridSizer( 4, 1, 0, 0 );
gSizer2 = new wxGridSizer( 5, 1, 0, 0 );
filepick_text_ = new wxStaticText( this, wxID_ANY, _("Target zip file"), wxDefaultPosition, wxDefaultSize, 0 );
filepick_text_->Wrap( -1 );
gSizer2->Add( filepick_text_, 0, wxALIGN_CENTER_VERTICAL|wxALL, 5 );
auto confpick_text = new wxStaticText( this, wxID_ANY, _("Config file (optional)"), wxDefaultPosition, wxDefaultSize, 0 );
confpick_text->Wrap( -1 );
gSizer2->Add( confpick_text, 0, wxALIGN_CENTER_VERTICAL|wxALL, 5 );
resotext_ = new wxStaticText( this, wxID_ANY, _("Resolution (w, h) [px]"), wxDefaultPosition, wxDefaultSize, 0 );
resotext_->Wrap( -1 );
gSizer2->Add( resotext_, 0, wxALIGN_CENTER_VERTICAL|wxALL, 5 );
@ -37,7 +41,7 @@ PngExportDialog::PngExportDialog( wxWindow* parent, wxWindowID id, const wxStrin
bed_size_text_->Wrap( -1 );
gSizer2->Add( bed_size_text_, 0, wxALIGN_CENTER_VERTICAL|wxALL, 5 );
corr_text_ = new wxStaticText( this, wxID_ANY, _("Size correction"), wxDefaultPosition, wxDefaultSize, 0 );
corr_text_ = new wxStaticText( this, wxID_ANY, _("Scale (x, y, z)"), wxDefaultPosition, wxDefaultSize, 0 );
corr_text_->Wrap( -1 );
gSizer2->Add( corr_text_, 0, wxALIGN_CENTER_VERTICAL|wxALL, 5 );
@ -52,13 +56,16 @@ PngExportDialog::PngExportDialog( wxWindow* parent, wxWindowID id, const wxStrin
wxBoxSizer* filepick_layout_;
filepick_layout_ = new wxBoxSizer( wxHORIZONTAL );
filepick_ctl_ = new wxFilePickerCtrl( this, wxID_ANY, wxEmptyString, _("Select a file"), wxT("*.zip"), wxDefaultPosition, wxDefaultSize, wxFLP_USE_TEXTCTRL | wxFLP_SAVE | wxFLP_OVERWRITE_PROMPT, wxDefaultValidator, wxT("filepick_ctl") );
filepick_ctl_ = new wxFilePickerCtrl( this, wxID_ANY, wxEmptyString, _("Select a file"), wxT("*.zip"), wxDefaultPosition, wxDefaultSize, wxFLP_USE_TEXTCTRL | wxFLP_SAVE, wxDefaultValidator, wxT("filepick_ctl") );
filepick_layout_->Add( filepick_ctl_, 2, wxALIGN_CENTER|wxALL, 5 );
bSizer18->Add( filepick_layout_, 1, wxEXPAND, 5 );
wxBoxSizer* confpick_layout_;
confpick_layout_ = new wxBoxSizer( wxHORIZONTAL );
confpick_ctl_ = new wxFilePickerCtrl( this, wxID_ANY, wxEmptyString, _("Select a file"), wxT("*.json"), wxDefaultPosition, wxDefaultSize, wxFLP_USE_TEXTCTRL | wxFLP_DEFAULT_STYLE, wxDefaultValidator, wxT("filepick_ctl") );
confpick_layout_ ->Add( confpick_ctl_, 2, wxALIGN_CENTER|wxALL, 5 );
bSizer18->Add( confpick_layout_ , 1, wxEXPAND, 5 );
wxBoxSizer* resolution_layout_;
resolution_layout_ = new wxBoxSizer( wxHORIZONTAL );
@ -104,9 +111,20 @@ PngExportDialog::PngExportDialog( wxWindow* parent, wxWindowID id, const wxStrin
wxBoxSizer* corr_layout_;
corr_layout_ = new wxBoxSizer( wxHORIZONTAL );
corr_spin_ = new wxSpinCtrlDouble( this, wxID_ANY, wxEmptyString, wxDefaultPosition, wxDefaultSize, wxSP_ARROW_KEYS, 0, 100, 1, 0.1 );
corr_layout_->Add( corr_spin_, 0, wxALIGN_CENTER|wxALL, 5 );
corr_spin_x_ = new wxSpinCtrlDouble( this, wxID_ANY, wxEmptyString, wxDefaultPosition, wxDefaultSize, wxSP_ARROW_KEYS, 0, 100, 1, 0.01 );
corr_spin_x_->SetDigits(3);
corr_spin_x_->SetMaxSize(wxSize(100, -1));
corr_layout_->Add( corr_spin_x_, 0, wxALIGN_CENTER|wxALL, 5 );
corr_spin_y_ = new wxSpinCtrlDouble( this, wxID_ANY, wxEmptyString, wxDefaultPosition, wxDefaultSize, wxSP_ARROW_KEYS, 0, 100, 1, 0.01 );
corr_spin_y_->SetDigits(3);
corr_spin_y_->SetMaxSize(wxSize(100, -1));
corr_layout_->Add( corr_spin_y_, 0, wxALIGN_CENTER|wxALL, 5 );
corr_spin_z_ = new wxSpinCtrlDouble( this, wxID_ANY, wxEmptyString, wxDefaultPosition, wxDefaultSize, wxSP_ARROW_KEYS, 0, 100, 1, 0.01 );
corr_spin_z_->SetDigits(3);
corr_spin_z_->SetMaxSize(wxSize(100, -1));
corr_layout_->Add( corr_spin_z_, 0, wxALIGN_CENTER|wxALL, 5 );
corr_layout_->Add( 0, 0, 1, wxEXPAND, 5 );
@ -131,6 +149,7 @@ PngExportDialog::PngExportDialog( wxWindow* parent, wxWindowID id, const wxStrin
this->Centre( wxBOTH );
// Connect Events
filepick_ctl_->Connect( wxEVT_COMMAND_FILEPICKER_CHANGED, wxFileDirPickerEventHandler( PngExportDialog::onFileChanged ), NULL, this );
spin_reso_width_->Connect( wxEVT_COMMAND_TEXT_UPDATED, wxCommandEventHandler( PngExportDialog::EvalResoSpin ), NULL, this );
spin_reso_height_->Connect( wxEVT_COMMAND_TEXT_UPDATED, wxCommandEventHandler( PngExportDialog::EvalResoSpin ), NULL, this );
reso_lock_btn_->Connect( wxEVT_COMMAND_TOGGLEBUTTON_CLICKED, wxCommandEventHandler( PngExportDialog::ResoLock ), NULL, this );
@ -143,6 +162,7 @@ PngExportDialog::PngExportDialog( wxWindow* parent, wxWindowID id, const wxStrin
PngExportDialog::~PngExportDialog()
{
// Disconnect Events
filepick_ctl_->Disconnect( wxEVT_COMMAND_FILEPICKER_CHANGED, wxFileDirPickerEventHandler( PngExportDialog::onFileChanged ), NULL, this );
spin_reso_width_->Disconnect( wxEVT_COMMAND_TEXT_UPDATED, wxCommandEventHandler( PngExportDialog::EvalResoSpin ), NULL, this );
spin_reso_height_->Disconnect( wxEVT_COMMAND_TEXT_UPDATED, wxCommandEventHandler( PngExportDialog::EvalResoSpin ), NULL, this );
reso_lock_btn_->Disconnect( wxEVT_COMMAND_TOGGLEBUTTON_CLICKED, wxCommandEventHandler( PngExportDialog::ResoLock ), NULL, this );

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@ -41,16 +41,20 @@ class PngExportDialog : public wxDialog
wxStaticText* bed_size_text_;
wxStaticText* corr_text_;
wxFilePickerCtrl* filepick_ctl_;
wxFilePickerCtrl* confpick_ctl_;
wxSpinCtrl* spin_reso_width_;
wxSpinCtrl* spin_reso_height_;
wxToggleButton* reso_lock_btn_;
wxSpinCtrlDouble* bed_width_spin_;
wxSpinCtrlDouble* bed_height_spin_;
wxToggleButton* bedsize_lock_btn_;
wxSpinCtrlDouble* corr_spin_;
wxSpinCtrlDouble* corr_spin_x_;
wxSpinCtrlDouble* corr_spin_y_;
wxSpinCtrlDouble* corr_spin_z_;
wxButton* export_btn_;
// Virtual event handlers, overide them in your derived class
virtual void onFileChanged( wxFileDirPickerEvent& event ) { event.Skip(); }
virtual void EvalResoSpin( wxCommandEvent& event ) { event.Skip(); }
virtual void ResoLock( wxCommandEvent& event ) { event.Skip(); }
virtual void EvalBedSpin( wxCommandEvent& event ) { event.Skip(); }

View File

@ -15,7 +15,7 @@ public:
private:
float state_ = .0f, max_ = 1.f, step_;
std::function<void(void)> cancelfunc_ = [](){};
CancelFn cancelfunc_ = [](){};
unsigned proc_count_ = 1;
public:
@ -54,8 +54,11 @@ public:
/// Set up a cancel callback for the operation if feasible.
inline void on_cancel(CancelFn func) { cancelfunc_ = func; }
/// Call a previously specified cancel callback.
inline void on_cancel() { cancelfunc_(); }
/**
* Explicitly shut down the progress indicator and call the associated
* callback.
*/
virtual void cancel() { cancelfunc_(); }
/**
* \brief Set up how many subprocedures does the whole operation contain.

View File

@ -209,7 +209,6 @@ _constant()
}
%};
void print_to_png(std::string dirpath);
void add_model_object(ModelObject* model_object, int idx = -1);