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PrusaSlicer/src/slic3r/GUI/Gizmos/GLGizmoCut.cpp
YuSanka 102d3e0d2c Localization: 
* Fixed phrases
* Updated POT
* New POT is merged with community POs
2023-04-03 11:32:50 +02:00

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#include "GLGizmoCut.hpp"
#include "slic3r/GUI/GLCanvas3D.hpp"
#include <GL/glew.h>
#include <algorithm>
#include "slic3r/GUI/GUI_App.hpp"
#include "slic3r/GUI/Plater.hpp"
#include "slic3r/GUI/GUI_ObjectManipulation.hpp"
#include "slic3r/GUI/format.hpp"
#include "slic3r/Utils/UndoRedo.hpp"
#include "libslic3r/AppConfig.hpp"
#include "libslic3r/TriangleMeshSlicer.hpp"
#include "imgui/imgui_internal.h"
#include "slic3r/GUI/MsgDialog.hpp"
namespace Slic3r {
namespace GUI {
static const ColorRGBA GRABBER_COLOR = ColorRGBA::YELLOW();
static const ColorRGBA UPPER_PART_COLOR = ColorRGBA::CYAN();
static const ColorRGBA LOWER_PART_COLOR = ColorRGBA::MAGENTA();
// connector colors
static const ColorRGBA PLAG_COLOR = ColorRGBA::YELLOW();
static const ColorRGBA DOWEL_COLOR = ColorRGBA::DARK_YELLOW();
static const ColorRGBA HOVERED_PLAG_COLOR = ColorRGBA::CYAN();
static const ColorRGBA HOVERED_DOWEL_COLOR = ColorRGBA(0.0f, 0.5f, 0.5f, 1.0f);
static const ColorRGBA SELECTED_PLAG_COLOR = ColorRGBA::GRAY();
static const ColorRGBA SELECTED_DOWEL_COLOR = ColorRGBA::DARK_GRAY();
static const ColorRGBA CONNECTOR_DEF_COLOR = ColorRGBA(1.0f, 1.0f, 1.0f, 0.5f);
static const ColorRGBA CONNECTOR_ERR_COLOR = ColorRGBA(1.0f, 0.3f, 0.3f, 0.5f);
static const ColorRGBA HOVERED_ERR_COLOR = ColorRGBA(1.0f, 0.3f, 0.3f, 1.0f);
const unsigned int AngleResolution = 64;
const unsigned int ScaleStepsCount = 72;
const float ScaleStepRad = 2.0f * float(PI) / ScaleStepsCount;
const unsigned int ScaleLongEvery = 2;
const float ScaleLongTooth = 0.1f; // in percent of radius
const unsigned int SnapRegionsCount = 8;
const float UndefFloat = -999.f;
const std::string UndefLabel = " ";
using namespace Geometry;
// Generates mesh for a line
static GLModel::Geometry its_make_line(Vec3f beg_pos, Vec3f end_pos)
{
GLModel::Geometry init_data;
init_data.format = { GLModel::Geometry::EPrimitiveType::Lines, GLModel::Geometry::EVertexLayout::P3 };
init_data.reserve_vertices(2);
init_data.reserve_indices(2);
// vertices
init_data.add_vertex(beg_pos);
init_data.add_vertex(end_pos);
// indices
init_data.add_line(0, 1);
return init_data;
}
//! -- #ysFIXME those functions bodies are ported from GizmoRotation
// Generates mesh for a circle
static void init_from_circle(GLModel& model, double radius)
{
GLModel::Geometry init_data;
init_data.format = { GLModel::Geometry::EPrimitiveType::LineLoop, GLModel::Geometry::EVertexLayout::P3 };
init_data.reserve_vertices(ScaleStepsCount);
init_data.reserve_indices(ScaleStepsCount);
// vertices + indices
for (unsigned int i = 0; i < ScaleStepsCount; ++i) {
const float angle = float(i * ScaleStepRad);
init_data.add_vertex(Vec3f(::cos(angle) * float(radius), ::sin(angle) * float(radius), 0.0f));
init_data.add_index(i);
}
model.init_from(std::move(init_data));
model.set_color(ColorRGBA::WHITE());
}
// Generates mesh for a scale
static void init_from_scale(GLModel& model, double radius)
{
const float out_radius_long = float(radius) * (1.0f + ScaleLongTooth);
const float out_radius_short = float(radius) * (1.0f + 0.5f * ScaleLongTooth);
GLModel::Geometry init_data;
init_data.format = { GLModel::Geometry::EPrimitiveType::Lines, GLModel::Geometry::EVertexLayout::P3 };
init_data.reserve_vertices(2 * ScaleStepsCount);
init_data.reserve_indices(2 * ScaleStepsCount);
// vertices + indices
for (unsigned int i = 0; i < ScaleStepsCount; ++i) {
const float angle = float(i * ScaleStepRad);
const float cosa = ::cos(angle);
const float sina = ::sin(angle);
const float in_x = cosa * float(radius);
const float in_y = sina * float(radius);
const float out_x = (i % ScaleLongEvery == 0) ? cosa * out_radius_long : cosa * out_radius_short;
const float out_y = (i % ScaleLongEvery == 0) ? sina * out_radius_long : sina * out_radius_short;
// vertices
init_data.add_vertex(Vec3f(in_x, in_y, 0.0f));
init_data.add_vertex(Vec3f(out_x, out_y, 0.0f));
// indices
init_data.add_line(i * 2, i * 2 + 1);
}
model.init_from(std::move(init_data));
model.set_color(ColorRGBA::WHITE());
}
// Generates mesh for a snap_radii
static void init_from_snap_radii(GLModel& model, double radius)
{
const float step = 2.0f * float(PI) / float(SnapRegionsCount);
const float in_radius = float(radius) / 3.0f;
const float out_radius = 2.0f * in_radius;
GLModel::Geometry init_data;
init_data.format = { GLModel::Geometry::EPrimitiveType::Lines, GLModel::Geometry::EVertexLayout::P3 };
init_data.reserve_vertices(2 * ScaleStepsCount);
init_data.reserve_indices(2 * ScaleStepsCount);
// vertices + indices
for (unsigned int i = 0; i < ScaleStepsCount; ++i) {
const float angle = float(i) * step;
const float cosa = ::cos(angle);
const float sina = ::sin(angle);
const float in_x = cosa * in_radius;
const float in_y = sina * in_radius;
const float out_x = cosa * out_radius;
const float out_y = sina * out_radius;
// vertices
init_data.add_vertex(Vec3f(in_x, in_y, 0.0f));
init_data.add_vertex(Vec3f(out_x, out_y, 0.0f));
// indices
init_data.add_line(i * 2, i * 2 + 1);
}
model.init_from(std::move(init_data));
model.set_color(ColorRGBA::WHITE());
}
// Generates mesh for a angle_arc
static void init_from_angle_arc(GLModel& model, double angle, double radius)
{
model.reset();
const float step_angle = float(angle) / float(AngleResolution);
const float ex_radius = float(radius);
GLModel::Geometry init_data;
init_data.format = { GLModel::Geometry::EPrimitiveType::LineStrip, GLModel::Geometry::EVertexLayout::P3 };
init_data.reserve_vertices(1 + AngleResolution);
init_data.reserve_indices(1 + AngleResolution);
// vertices + indices
for (unsigned int i = 0; i <= AngleResolution; ++i) {
const float angle = float(i) * step_angle;
init_data.add_vertex(Vec3f(::cos(angle) * ex_radius, ::sin(angle) * ex_radius, 0.0f));
init_data.add_index(i);
}
model.init_from(std::move(init_data));
}
//! --
GLGizmoCut3D::GLGizmoCut3D(GLCanvas3D& parent, const std::string& icon_filename, unsigned int sprite_id)
: GLGizmoBase(parent, icon_filename, sprite_id)
, m_connectors_group_id (GrabberID::Count)
, m_connector_type (CutConnectorType::Plug)
, m_connector_style (size_t(CutConnectorStyle::Prism))
, m_connector_shape_id (size_t(CutConnectorShape::Circle))
{
// m_modes = { _u8L("Planar"), _u8L("Grid")
// , _u8L("Radial"), _u8L("Modular")
// };
m_connector_modes = { _u8L("Auto"), _u8L("Manual") };
std::map<const wchar_t, std::string> connetor_types = {
{ImGui::PlugMarker , _u8L("Plug") },
{ImGui::DowelMarker, _u8L("Dowel") },
};
for (auto connector : connetor_types) {
std::string type_label = " " + connector.second + " ";
type_label += connector.first;
m_connector_types.push_back(type_label);
}
m_connector_styles = { _u8L("Prism"), _u8L("Frustum")
// , _u8L("Claw")
};
m_connector_shapes = { _u8L("Triangle"), _u8L("Square"), _u8L("Hexagon"), _u8L("Circle")
// , _u8L("D-shape")
};
m_axis_names = { "X", "Y", "Z" };
m_part_orientation_names = {
{"none", _L("Keep orientation")},
{"on_cut", _L("Place on cut")},
{"flip", _L("Flip upside down")},
};
m_labels_map = {
{"Connectors" , _u8L("Connectors")},
{"Type" , _u8L("Type")},
{"Style" , _u8L("Style")},
{"Shape" , _u8L("Shape")},
{"Depth" , _u8L("Depth")},
{"Size" , _u8L("Size")},
};
update_connector_shape();
}
std::string GLGizmoCut3D::get_tooltip() const
{
std::string tooltip;
if (m_hover_id == Z || (m_dragging && m_hover_id == CutPlane)) {
double koef = m_imperial_units ? ObjectManipulation::mm_to_in : 1.0;
std::string unit_str = " " + (m_imperial_units ? _u8L("in") : _u8L("mm"));
const BoundingBoxf3& tbb = m_transformed_bounding_box;
const std::string name = m_keep_as_parts ? _u8L("Part") : _u8L("Object");
if (tbb.max.z() >= 0.0) {
double top = (tbb.min.z() <= 0.0 ? tbb.max.z() : tbb.size().z()) * koef;
tooltip += format(static_cast<float>(top), 2) + " " + unit_str + " (" + name + " A)";
if (tbb.min.z() <= 0.0)
tooltip += "\n";
}
if (tbb.min.z() <= 0.0) {
double bottom = (tbb.max.z() <= 0.0 ? tbb.size().z() : (tbb.min.z() * (-1))) * koef;
tooltip += format(static_cast<float>(bottom), 2) + " " + unit_str + " (" + name + " B)";
}
return tooltip;
}
if (!m_dragging && m_hover_id == CutPlane)
return _u8L("Click to flip the cut plane\n"
"Drag to move the cut plane");
if (tooltip.empty() && (m_hover_id == X || m_hover_id == Y)) {
std::string axis = m_hover_id == X ? "X" : "Y";
return axis + ": " + format(float(rad2deg(m_angle)), 1) + _u8L("°");
}
return tooltip;
}
bool GLGizmoCut3D::on_mouse(const wxMouseEvent &mouse_event)
{
Vec2i mouse_coord(mouse_event.GetX(), mouse_event.GetY());
Vec2d mouse_pos = mouse_coord.cast<double>();
if (mouse_event.ShiftDown() && mouse_event.LeftDown())
return gizmo_event(SLAGizmoEventType::LeftDown, mouse_pos, mouse_event.ShiftDown(), mouse_event.AltDown(), mouse_event.CmdDown());
if (mouse_event.CmdDown() && mouse_event.LeftDown())
return false;
if (cut_line_processing()) {
if (mouse_event.ShiftDown()) {
if (mouse_event.Moving()|| mouse_event.Dragging())
return gizmo_event(SLAGizmoEventType::Moving, mouse_pos, mouse_event.ShiftDown(), mouse_event.AltDown(), mouse_event.CmdDown());
if (mouse_event.LeftUp())
return gizmo_event(SLAGizmoEventType::LeftUp, mouse_pos, mouse_event.ShiftDown(), mouse_event.AltDown(), mouse_event.CmdDown());
}
discard_cut_line_processing();
}
else if (mouse_event.Moving())
return false;
if (use_grabbers(mouse_event)) {
if (m_hover_id >= m_connectors_group_id) {
if (mouse_event.LeftDown() && !mouse_event.CmdDown() && !mouse_event.AltDown())
unselect_all_connectors();
if (mouse_event.LeftUp() && !mouse_event.ShiftDown())
gizmo_event(SLAGizmoEventType::LeftUp, mouse_pos, mouse_event.ShiftDown(), mouse_event.AltDown(), mouse_event.CmdDown());
}
else if (m_hover_id == CutPlane) {
if (mouse_event.LeftDown())
m_was_cut_plane_dragged = false;
else if (mouse_event.LeftUp() && !m_was_cut_plane_dragged)
flip_cut_plane();
}
return true;
}
static bool pending_right_up = false;
if (mouse_event.LeftDown()) {
bool grabber_contains_mouse = (get_hover_id() != -1);
const bool shift_down = mouse_event.ShiftDown();
if ((!shift_down || grabber_contains_mouse) &&
gizmo_event(SLAGizmoEventType::LeftDown, mouse_pos, mouse_event.ShiftDown(), mouse_event.AltDown(), false))
return true;
}
else if (mouse_event.Dragging()) {
bool control_down = mouse_event.CmdDown();
if (m_parent.get_move_volume_id() != -1) {
// don't allow dragging objects with the Sla gizmo on
return true;
}
if (!control_down &&
gizmo_event(SLAGizmoEventType::Dragging, mouse_pos, mouse_event.ShiftDown(), mouse_event.AltDown(), false)) {
// the gizmo got the event and took some action, no need to do
// anything more here
m_parent.set_as_dirty();
return true;
}
if (control_down && (mouse_event.LeftIsDown() || mouse_event.RightIsDown())) {
// CTRL has been pressed while already dragging -> stop current action
if (mouse_event.LeftIsDown())
gizmo_event(SLAGizmoEventType::LeftUp, mouse_pos, mouse_event.ShiftDown(), mouse_event.AltDown(), true);
else if (mouse_event.RightIsDown())
pending_right_up = false;
}
}
else if (mouse_event.LeftUp() && !m_parent.is_mouse_dragging()) {
// in case SLA/FDM gizmo is selected, we just pass the LeftUp event
// and stop processing - neither object moving or selecting is
// suppressed in that case
gizmo_event(SLAGizmoEventType::LeftUp, mouse_pos, mouse_event.ShiftDown(), mouse_event.AltDown(), mouse_event.CmdDown());
return true;
}
else if (mouse_event.RightDown()) {
if (m_parent.get_selection().get_object_idx() != -1 &&
gizmo_event(SLAGizmoEventType::RightDown, mouse_pos, false, false, false)) {
// we need to set the following right up as processed to avoid showing
// the context menu if the user release the mouse over the object
pending_right_up = true;
// event was taken care of by the SlaSupports gizmo
return true;
}
}
else if (pending_right_up && mouse_event.RightUp()) {
pending_right_up = false;
return true;
}
return false;
}
void GLGizmoCut3D::shift_cut(double delta)
{
Plater::TakeSnapshot snapshot(wxGetApp().plater(), _L("Move cut plane"), UndoRedo::SnapshotType::GizmoAction);
set_center(m_plane_center + m_cut_normal * delta, true);
m_ar_plane_center = m_plane_center;
}
void GLGizmoCut3D::rotate_vec3d_around_plane_center(Vec3d&vec)
{
vec = Transformation(translation_transform(m_plane_center) * m_rotation_m * translation_transform(-m_plane_center)).get_matrix() * vec;
}
void GLGizmoCut3D::put_connectors_on_cut_plane(const Vec3d& cp_normal, double cp_offset)
{
ModelObject* mo = m_c->selection_info()->model_object();
if (CutConnectors& connectors = mo->cut_connectors; !connectors.empty()) {
const float sla_shift = m_c->selection_info()->get_sla_shift();
const Vec3d& instance_offset = mo->instances[m_c->selection_info()->get_active_instance()]->get_offset();
for (auto& connector : connectors) {
// convert connetor pos to the world coordinates
Vec3d pos = connector.pos + instance_offset;
pos[Z] += sla_shift;
// scalar distance from point to plane along the normal
double distance = -cp_normal.dot(pos) + cp_offset;
// move connector
connector.pos += distance * cp_normal;
}
}
}
// returns true if the camera (forward) is pointing in the negative direction of the cut normal
bool GLGizmoCut3D::is_looking_forward() const
{
const Camera& camera = wxGetApp().plater()->get_camera();
const double dot = camera.get_dir_forward().dot(m_cut_normal);
return dot < 0.05;
}
void GLGizmoCut3D::update_clipper()
{
// update cut_normal
Vec3d normal = m_rotation_m * Vec3d::UnitZ();
normal.normalize();
m_cut_normal = normal;
// calculate normal and offset for clipping plane
Vec3d beg = m_bb_center;
beg[Z] -= m_radius;
rotate_vec3d_around_plane_center(beg);
m_clp_normal = normal;
double offset = normal.dot(m_plane_center);
double dist = normal.dot(beg);
m_parent.set_color_clip_plane(normal, offset);
if (!is_looking_forward()) {
// recalculate normal and offset for clipping plane, if camera is looking downward to cut plane
normal = m_rotation_m * (-1. * Vec3d::UnitZ());
normal.normalize();
beg = m_bb_center;
beg[Z] += m_radius;
rotate_vec3d_around_plane_center(beg);
m_clp_normal = normal;
offset = normal.dot(m_plane_center);
dist = normal.dot(beg);
}
m_c->object_clipper()->set_range_and_pos(normal, offset, dist);
put_connectors_on_cut_plane(normal, offset);
if (m_raycasters.empty())
on_register_raycasters_for_picking();
else
update_raycasters_for_picking_transform();
}
void GLGizmoCut3D::set_center(const Vec3d& center, bool update_tbb /*=false*/)
{
set_center_pos(center, update_tbb);
update_clipper();
}
bool GLGizmoCut3D::render_combo(const std::string& label, const std::vector<std::string>& lines, size_t& selection_idx)
{
ImGui::AlignTextToFramePadding();
m_imgui->text(label);
ImGui::SameLine(m_label_width);
ImGui::PushItemWidth(m_control_width);
size_t selection_out = selection_idx;
// It is necessary to use BeginGroup(). Otherwise, when using SameLine() is called, then other items will be drawn inside the combobox.
ImGui::BeginGroup();
ImVec2 combo_pos = ImGui::GetCursorScreenPos();
if (ImGui::BeginCombo(("##"+label).c_str(), "")) {
for (size_t line_idx = 0; line_idx < lines.size(); ++line_idx) {
ImGui::PushID(int(line_idx));
if (ImGui::Selectable("", line_idx == selection_idx))
selection_out = line_idx;
ImGui::SameLine();
ImGui::Text("%s", lines[line_idx].c_str());
ImGui::PopID();
}
ImGui::EndCombo();
}
ImVec2 backup_pos = ImGui::GetCursorScreenPos();
ImGuiStyle& style = ImGui::GetStyle();
ImGui::SetCursorScreenPos(ImVec2(combo_pos.x + style.FramePadding.x, combo_pos.y + style.FramePadding.y));
ImGui::Text("%s", selection_out < lines.size() ? lines[selection_out].c_str() : UndefLabel.c_str());
ImGui::SetCursorScreenPos(backup_pos);
ImGui::EndGroup();
bool is_changed = selection_idx != selection_out;
selection_idx = selection_out;
if (is_changed)
update_connector_shape();
return is_changed;
}
bool GLGizmoCut3D::render_double_input(const std::string& label, double& value_in)
{
ImGui::AlignTextToFramePadding();
m_imgui->text(label);
ImGui::SameLine(m_label_width);
ImGui::PushItemWidth(m_control_width);
double value = value_in;
if (m_imperial_units)
value *= ObjectManipulation::mm_to_in;
double old_val = value;
ImGui::InputDouble(("##" + label).c_str(), &value, 0.0f, 0.0f, "%.2f", ImGuiInputTextFlags_CharsDecimal);
ImGui::SameLine();
m_imgui->text(m_imperial_units ? _L("in") : _L("mm"));
value_in = value * (m_imperial_units ? ObjectManipulation::in_to_mm : 1.0);
return !is_approx(old_val, value);
}
bool GLGizmoCut3D::render_slider_double_input(const std::string& label, float& value_in, float& tolerance_in)
{
constexpr float UndefMinVal = -0.1f;
const float f_mm_to_in = static_cast<float>(ObjectManipulation::mm_to_in);
auto render_slider = [this, UndefMinVal, f_mm_to_in]
(const std::string& label, float& val, float def_val, float max_val, const wxString& tooltip) {
float min_val = val < 0.f ? UndefMinVal : def_val;
float value = val;
if (m_imperial_units) {
min_val *= f_mm_to_in;
value *= f_mm_to_in;
}
const float old_val = value;
const std::string format = val < 0.f ? UndefLabel : (m_imperial_units ? "%.4f " + _u8L("in") : "%.2f " + _u8L("mm"));
m_imgui->slider_float(label.c_str(), &value, min_val, max_val, format.c_str(), 1.f, true, tooltip);
val = value * (m_imperial_units ? static_cast<float>(ObjectManipulation::in_to_mm) : 1.f);
return !is_approx(old_val, value);
};
const BoundingBoxf3 bbox = m_bounding_box;
const float mean_size = float((bbox.size().x() + bbox.size().y() + bbox.size().z()) / 9.0) * (m_imperial_units ? f_mm_to_in : 1.f);
ImGuiWrapper::text(label);
ImGui::SameLine(m_label_width);
ImGui::PushItemWidth(m_control_width * 0.7f);
const bool is_value_changed = render_slider("##" + label, value_in, 1.f, mean_size, _L("Value"));
ImGui::SameLine();
ImGui::PushItemWidth(m_control_width * 0.45f);
const bool is_tolerance_changed = render_slider("##tolerance_" + label, tolerance_in, 0.f, 0.5f * mean_size, _L("Tolerance"));
return is_value_changed || is_tolerance_changed;
}
void GLGizmoCut3D::render_move_center_input(int axis)
{
m_imgui->text(m_axis_names[axis]+":");
ImGui::SameLine();
ImGui::PushItemWidth(0.3f*m_control_width);
Vec3d move = m_plane_center;
double in_val, value = in_val = move[axis];
if (m_imperial_units)
value *= ObjectManipulation::mm_to_in;
ImGui::InputDouble(("##move_" + m_axis_names[axis]).c_str(), &value, 0.0, 0.0, "%.2f", ImGuiInputTextFlags_CharsDecimal);
ImGui::SameLine();
double val = value * (m_imperial_units ? ObjectManipulation::in_to_mm : 1.0);
if (in_val != val) {
move[axis] = val;
Plater::TakeSnapshot snapshot(wxGetApp().plater(), _L("Move cut plane"), UndoRedo::SnapshotType::GizmoAction);
set_center(move, true);
m_ar_plane_center = m_plane_center;
}
}
bool GLGizmoCut3D::render_connect_type_radio_button(CutConnectorType type)
{
ImGui::SameLine(type == CutConnectorType::Plug ? m_label_width : 0);
ImGui::PushItemWidth(m_control_width);
if (ImGui::RadioButton(m_connector_types[size_t(type)].c_str(), m_connector_type == type)) {
m_connector_type = type;
update_connector_shape();
return true;
}
return false;
}
void GLGizmoCut3D::render_connect_mode_radio_button(CutConnectorMode mode)
{
ImGui::SameLine(mode == CutConnectorMode::Auto ? m_label_width : 2 * m_label_width);
ImGui::PushItemWidth(m_control_width);
if (ImGui::RadioButton(m_connector_modes[int(mode)].c_str(), m_connector_mode == mode))
m_connector_mode = mode;
}
bool GLGizmoCut3D::render_reset_button(const std::string& label_id, const std::string& tooltip) const
{
const ImGuiStyle& style = ImGui::GetStyle();
ImGui::PushStyleVar(ImGuiStyleVar_ItemSpacing, { 1, style.ItemSpacing.y });
ImGui::PushStyleColor(ImGuiCol_Button, { 0.25f, 0.25f, 0.25f, 0.0f });
ImGui::PushStyleColor(ImGuiCol_ButtonHovered, { 0.4f, 0.4f, 0.4f, 1.0f });
ImGui::PushStyleColor(ImGuiCol_ButtonActive, { 0.4f, 0.4f, 0.4f, 1.0f });
std::string btn_label;
btn_label += ImGui::RevertButton;
const bool revert = ImGui::Button((btn_label +"##" + label_id).c_str());
ImGui::PopStyleColor(3);
if (ImGui::IsItemHovered())
m_imgui->tooltip(tooltip.c_str(), ImGui::GetFontSize() * 20.0f);
ImGui::PopStyleVar();
return revert;
}
void GLGizmoCut3D::render_cut_plane()
{
if (cut_line_processing())
return;
GLShaderProgram* shader = wxGetApp().get_shader("flat");
if (shader == nullptr)
return;
glsafe(::glEnable(GL_DEPTH_TEST));
glsafe(::glDisable(GL_CULL_FACE));
glsafe(::glEnable(GL_BLEND));
glsafe(::glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA));
shader->start_using();
const Camera& camera = wxGetApp().plater()->get_camera();
const Transform3d view_model_matrix = camera.get_view_matrix() * translation_transform(m_plane_center) * m_rotation_m;
shader->set_uniform("view_model_matrix", view_model_matrix);
shader->set_uniform("projection_matrix", camera.get_projection_matrix());
if (can_perform_cut() && has_valid_contour()) {
if (m_hover_id == CutPlane)
m_plane.model.set_color({ 0.9f, 0.9f, 0.9f, 0.5f });
else
m_plane.model.set_color({ 0.8f, 0.8f, 0.8f, 0.5f });
}
else
m_plane.model.set_color({ 1.0f, 0.8f, 0.8f, 0.5f });
m_plane.model.render();
glsafe(::glEnable(GL_CULL_FACE));
glsafe(::glDisable(GL_BLEND));
shader->stop_using();
}
static double get_grabber_mean_size(const BoundingBoxf3& bb)
{
return (bb.size().x() + bb.size().y() + bb.size().z()) / 30.;
}
static double get_half_size(double size)
{
return std::max(size * 0.35, 0.05);
}
static double get_dragging_half_size(double size)
{
return get_half_size(size) * 1.25;
}
void GLGizmoCut3D::render_model(GLModel& model, const ColorRGBA& color, Transform3d view_model_matrix)
{
GLShaderProgram* shader = wxGetApp().get_shader("gouraud_light");
if (shader) {
shader->start_using();
shader->set_uniform("view_model_matrix", view_model_matrix);
shader->set_uniform("projection_matrix", wxGetApp().plater()->get_camera().get_projection_matrix());
model.set_color(color);
model.render();
shader->stop_using();
}
}
void GLGizmoCut3D::render_line(GLModel& line_model, const ColorRGBA& color, Transform3d view_model_matrix, float width)
{
GLShaderProgram* shader = OpenGLManager::get_gl_info().is_core_profile() ? wxGetApp().get_shader("dashed_thick_lines") : wxGetApp().get_shader("flat");
if (shader) {
shader->start_using();
shader->set_uniform("view_model_matrix", view_model_matrix);
shader->set_uniform("projection_matrix", wxGetApp().plater()->get_camera().get_projection_matrix());
shader->set_uniform("width", width);
line_model.set_color(color);
line_model.render();
shader->stop_using();
}
}
void GLGizmoCut3D::render_rotation_snapping(GrabberID axis, const ColorRGBA& color)
{
GLShaderProgram* line_shader = OpenGLManager::get_gl_info().is_core_profile() ? wxGetApp().get_shader("dashed_thick_lines") : wxGetApp().get_shader("flat");
if (!line_shader)
return;
const Camera& camera = wxGetApp().plater()->get_camera();
Transform3d view_model_matrix = camera.get_view_matrix() * translation_transform(m_plane_center) * m_start_dragging_m;
if (axis == X)
view_model_matrix = view_model_matrix * rotation_transform(0.5 * PI * Vec3d::UnitY()) * rotation_transform(-PI * Vec3d::UnitZ());
else
view_model_matrix = view_model_matrix * rotation_transform(-0.5 * PI * Vec3d::UnitZ()) * rotation_transform(-0.5 * PI * Vec3d::UnitY());
line_shader->start_using();
line_shader->set_uniform("projection_matrix", camera.get_projection_matrix());
line_shader->set_uniform("view_model_matrix", view_model_matrix);
line_shader->set_uniform("width", 0.25f);
m_circle.render();
m_scale.render();
m_snap_radii.render();
m_reference_radius.render();
if (m_dragging) {
line_shader->set_uniform("width", 1.5f);
m_angle_arc.set_color(color);
m_angle_arc.render();
}
line_shader->stop_using();
}
void GLGizmoCut3D::render_grabber_connection(const ColorRGBA& color, Transform3d view_matrix)
{
const Transform3d line_view_matrix = view_matrix * scale_transform(Vec3d(1.0, 1.0, m_grabber_connection_len));
render_line(m_grabber_connection, color, line_view_matrix, 0.2f);
};
void GLGizmoCut3D::render_cut_plane_grabbers()
{
glsafe(::glClear(GL_DEPTH_BUFFER_BIT));
ColorRGBA color = ColorRGBA::GRAY();
const Transform3d view_matrix = wxGetApp().plater()->get_camera().get_view_matrix() * translation_transform(m_plane_center) * m_rotation_m;
const double mean_size = get_grabber_mean_size(m_bounding_box);
double size;
const bool dragging_by_cut_plane = m_dragging && m_hover_id == CutPlane;
if (!dragging_by_cut_plane) {
render_grabber_connection(GRABBER_COLOR, view_matrix);
// render sphere grabber
size = m_dragging ? get_dragging_half_size(mean_size) : get_half_size(mean_size);
color = m_hover_id == Y ? complementary(ColorRGBA::GREEN()) :
m_hover_id == X ? complementary(ColorRGBA::RED()) :
m_hover_id == Z ? GRABBER_COLOR : ColorRGBA::GRAY();
render_model(m_sphere.model, color, view_matrix * translation_transform(m_grabber_connection_len * Vec3d::UnitZ()) * scale_transform(size));
}
const bool no_one_grabber_hovered = !m_dragging && (m_hover_id < 0 || m_hover_id == CutPlane);
// render X grabber
if (no_one_grabber_hovered || m_hover_id == X)
{
size = m_dragging && m_hover_id == X ? get_dragging_half_size(mean_size) : get_half_size(mean_size);
const Vec3d cone_scale = Vec3d(0.75 * size, 0.75 * size, 1.8 * size);
color = m_hover_id == X ? complementary(ColorRGBA::RED()) : ColorRGBA::RED();
if (m_hover_id == X) {
render_grabber_connection(color, view_matrix);
render_rotation_snapping(X, color);
}
Vec3d offset = Vec3d(0.0, 1.25 * size, m_grabber_connection_len);
render_model(m_cone.model, color, view_matrix * translation_transform(offset) * rotation_transform(-0.5 * PI * Vec3d::UnitX()) * scale_transform(cone_scale));
offset = Vec3d(0.0, -1.25 * size, m_grabber_connection_len);
render_model(m_cone.model, color, view_matrix * translation_transform(offset) * rotation_transform(0.5 * PI * Vec3d::UnitX()) * scale_transform(cone_scale));
}
// render Y grabber
if (no_one_grabber_hovered || m_hover_id == Y)
{
size = m_dragging && m_hover_id == Y ? get_dragging_half_size(mean_size) : get_half_size(mean_size);
const Vec3d cone_scale = Vec3d(0.75 * size, 0.75 * size, 1.8 * size);
color = m_hover_id == Y ? complementary(ColorRGBA::GREEN()) : ColorRGBA::GREEN();
if (m_hover_id == Y) {
render_grabber_connection(color, view_matrix);
render_rotation_snapping(Y, color);
}
Vec3d offset = Vec3d(1.25 * size, 0.0, m_grabber_connection_len);
render_model(m_cone.model, color, view_matrix * translation_transform(offset) * rotation_transform(0.5 * PI * Vec3d::UnitY()) * scale_transform(cone_scale));
offset = Vec3d(-1.25 * size, 0.0, m_grabber_connection_len);
render_model(m_cone.model, color, view_matrix * translation_transform(offset)* rotation_transform(-0.5 * PI * Vec3d::UnitY()) * scale_transform(cone_scale));
}
}
void GLGizmoCut3D::render_cut_line()
{
if (!cut_line_processing() || m_line_end.isApprox(Vec3d::Zero()))
return;
glsafe(::glEnable(GL_DEPTH_TEST));
glsafe(::glClear(GL_DEPTH_BUFFER_BIT));
m_cut_line.reset();
m_cut_line.init_from(its_make_line((Vec3f)m_line_beg.cast<float>(), (Vec3f)m_line_end.cast<float>()));
render_line(m_cut_line, GRABBER_COLOR, wxGetApp().plater()->get_camera().get_view_matrix(), 0.25f);
}
bool GLGizmoCut3D::on_init()
{
m_grabbers.emplace_back();
m_shortcut_key = WXK_CONTROL_C;
// initiate info shortcuts
const wxString ctrl = GUI::shortkey_ctrl_prefix();
const wxString alt = GUI::shortkey_alt_prefix();
const wxString shift = "Shift+";
m_shortcuts.push_back(std::make_pair(_L("Left click"), _L("Add connector")));
m_shortcuts.push_back(std::make_pair(_L("Right click"), _L("Remove connector")));
m_shortcuts.push_back(std::make_pair(_L("Drag"), _L("Move connector")));
m_shortcuts.push_back(std::make_pair(shift + _L("Left click"), _L("Add connector to selection")));
m_shortcuts.push_back(std::make_pair(alt + _L("Left click"), _L("Remove connector from selection")));
m_shortcuts.push_back(std::make_pair(ctrl + "A", _L("Select all connectors")));
return true;
}
void GLGizmoCut3D::on_load(cereal::BinaryInputArchive& ar)
{
ar( m_keep_upper, m_keep_lower, m_rotate_lower, m_rotate_upper, m_hide_cut_plane, m_mode, m_connectors_editing,
m_ar_plane_center, m_rotation_m);
m_transformed_bounding_box = transformed_bounding_box(m_ar_plane_center, m_rotation_m);
set_center_pos(m_ar_plane_center);
m_parent.request_extra_frame();
}
void GLGizmoCut3D::on_save(cereal::BinaryOutputArchive& ar) const
{
ar( m_keep_upper, m_keep_lower, m_rotate_lower, m_rotate_upper, m_hide_cut_plane, m_mode, m_connectors_editing,
m_ar_plane_center, m_start_dragging_m);
}
std::string GLGizmoCut3D::on_get_name() const
{
return _u8L("Cut");
}
void GLGizmoCut3D::on_set_state()
{
if (m_state == On) {
m_parent.set_use_color_clip_plane(true);
m_parent.set_color_clip_plane_colors({ UPPER_PART_COLOR , LOWER_PART_COLOR });
update_bb();
m_connectors_editing = !m_selected.empty();
m_transformed_bounding_box = transformed_bounding_box(m_plane_center, m_rotation_m);
// initiate archived values
m_ar_plane_center = m_plane_center;
m_start_dragging_m = m_rotation_m;
m_parent.request_extra_frame();
}
else {
if (auto oc = m_c->object_clipper()) {
oc->set_behavior(true, true, 0.);
oc->release();
}
m_selected.clear();
m_parent.set_use_color_clip_plane(false);
m_c->selection_info()->set_use_shift(false);
}
}
void GLGizmoCut3D::on_register_raycasters_for_picking()
{
assert(m_raycasters.empty());
// the gizmo grabbers are rendered on top of the scene, so the raytraced picker should take it into account
m_parent.set_raycaster_gizmos_on_top(true);
init_picking_models();
if (m_connectors_editing) {
if (CommonGizmosDataObjects::SelectionInfo* si = m_c->selection_info()) {
const CutConnectors& connectors = si->model_object()->cut_connectors;
for (int i = 0; i < int(connectors.size()); ++i)
m_raycasters.emplace_back(m_parent.add_raycaster_for_picking(SceneRaycaster::EType::Gizmo, i + m_connectors_group_id, *(m_shapes[connectors[i].attribs]).mesh_raycaster, Transform3d::Identity()));
}
}
else if (!cut_line_processing()) {
m_raycasters.emplace_back(m_parent.add_raycaster_for_picking(SceneRaycaster::EType::Gizmo, X, *m_cone.mesh_raycaster, Transform3d::Identity()));
m_raycasters.emplace_back(m_parent.add_raycaster_for_picking(SceneRaycaster::EType::Gizmo, X, *m_cone.mesh_raycaster, Transform3d::Identity()));
m_raycasters.emplace_back(m_parent.add_raycaster_for_picking(SceneRaycaster::EType::Gizmo, Y, *m_cone.mesh_raycaster, Transform3d::Identity()));
m_raycasters.emplace_back(m_parent.add_raycaster_for_picking(SceneRaycaster::EType::Gizmo, Y, *m_cone.mesh_raycaster, Transform3d::Identity()));
m_raycasters.emplace_back(m_parent.add_raycaster_for_picking(SceneRaycaster::EType::Gizmo, Z, *m_sphere.mesh_raycaster, Transform3d::Identity()));
m_raycasters.emplace_back(m_parent.add_raycaster_for_picking(SceneRaycaster::EType::Gizmo, CutPlane, *m_plane.mesh_raycaster, Transform3d::Identity()));
}
update_raycasters_for_picking_transform();
}
void GLGizmoCut3D::on_unregister_raycasters_for_picking()
{
m_parent.remove_raycasters_for_picking(SceneRaycaster::EType::Gizmo);
m_raycasters.clear();
// the gizmo grabbers are rendered on top of the scene, so the raytraced picker should take it into account
m_parent.set_raycaster_gizmos_on_top(false);
}
void GLGizmoCut3D::update_raycasters_for_picking()
{
on_unregister_raycasters_for_picking();
on_register_raycasters_for_picking();
}
void GLGizmoCut3D::set_volumes_picking_state(bool state)
{
std::vector<std::shared_ptr<SceneRaycasterItem>>* raycasters = m_parent.get_raycasters_for_picking(SceneRaycaster::EType::Volume);
if (raycasters != nullptr) {
const Selection& selection = m_parent.get_selection();
const Selection::IndicesList ids = selection.get_volume_idxs();
for (unsigned int id : ids) {
const GLVolume* v = selection.get_volume(id);
auto it = std::find_if(raycasters->begin(), raycasters->end(), [v](std::shared_ptr<SceneRaycasterItem> item) { return item->get_raycaster() == v->mesh_raycaster.get(); });
if (it != raycasters->end())
(*it)->set_active(state);
}
}
}
void GLGizmoCut3D::update_raycasters_for_picking_transform()
{
if (m_connectors_editing) {
CommonGizmosDataObjects::SelectionInfo* si = m_c->selection_info();
if (!si)
return;
const ModelObject* mo = si->model_object();
const CutConnectors& connectors = mo->cut_connectors;
if (connectors.empty())
return;
auto inst_id = m_c->selection_info()->get_active_instance();
if (inst_id < 0)
return;
const Vec3d& instance_offset = mo->instances[inst_id]->get_offset();
const double sla_shift = double(m_c->selection_info()->get_sla_shift());
const bool looking_forward = is_looking_forward();
for (size_t i = 0; i < connectors.size(); ++i) {
const CutConnector& connector = connectors[i];
float height = connector.height;
// recalculate connector position to world position
Vec3d pos = connector.pos + instance_offset;
if (connector.attribs.type == CutConnectorType::Dowel &&
connector.attribs.style == CutConnectorStyle::Prism) {
height = 0.05f;
if (!looking_forward)
pos += 0.05 * m_clp_normal;
}
pos[Z] += sla_shift;
const Transform3d scale_trafo = scale_transform(Vec3f(connector.radius, connector.radius, height).cast<double>());
m_raycasters[i]->set_transform(translation_transform(pos) * m_rotation_m * scale_trafo);
}
}
else if (!cut_line_processing()){
const Transform3d trafo = translation_transform(m_plane_center) * m_rotation_m;
const BoundingBoxf3 box = m_bounding_box;
const double size = get_half_size(get_grabber_mean_size(box));
Vec3d scale = Vec3d(0.75 * size, 0.75 * size, 1.8 * size);
int id = 0;
Vec3d offset = Vec3d(0.0, 1.25 * size, m_grabber_connection_len);
m_raycasters[id++]->set_transform(trafo * translation_transform(offset) * rotation_transform(-0.5 * PI * Vec3d::UnitX()) * scale_transform(scale));
offset = Vec3d(0.0, -1.25 * size, m_grabber_connection_len);
m_raycasters[id++]->set_transform(trafo * translation_transform(offset) * rotation_transform(0.5 * PI * Vec3d::UnitX()) * scale_transform(scale));
offset = Vec3d(1.25 * size, 0.0, m_grabber_connection_len);
m_raycasters[id++]->set_transform(trafo * translation_transform(offset) * rotation_transform(0.5 * PI * Vec3d::UnitY()) * scale_transform(scale));
offset = Vec3d(-1.25 * size, 0.0, m_grabber_connection_len);
m_raycasters[id++]->set_transform(trafo * translation_transform(offset) * rotation_transform(-0.5 * PI * Vec3d::UnitY()) * scale_transform(scale));
offset = 1.25 * size * Vec3d::UnitZ();
m_raycasters[id++]->set_transform(trafo * translation_transform(m_grabber_connection_len * Vec3d::UnitZ()) * scale_transform(size));
m_raycasters[id++]->set_transform(trafo);
}
}
void GLGizmoCut3D::on_set_hover_id()
{
}
bool GLGizmoCut3D::on_is_activable() const
{
const Selection& selection = m_parent.get_selection();
const int object_idx = selection.get_object_idx();
if (object_idx < 0 || selection.is_wipe_tower())
return false;
if (const ModelObject* mo = wxGetApp().plater()->model().objects[object_idx];
mo->is_cut() && mo->volumes.size() == 1) {
const ModelVolume* volume = mo->volumes[0];
if (volume->is_cut_connector() && volume->cut_info.connector_type == CutConnectorType::Dowel)
return false;
}
// This is assumed in GLCanvas3D::do_rotate, do not change this
// without updating that function too.
return selection.is_single_full_instance() && !m_parent.is_layers_editing_enabled();
}
bool GLGizmoCut3D::on_is_selectable() const
{
return wxGetApp().get_mode() != comSimple;
}
Vec3d GLGizmoCut3D::mouse_position_in_local_plane(GrabberID axis, const Linef3& mouse_ray) const
{
double half_pi = 0.5 * PI;
Transform3d m = Transform3d::Identity();
switch (axis)
{
case X:
{
m.rotate(Eigen::AngleAxisd(half_pi, Vec3d::UnitZ()));
m.rotate(Eigen::AngleAxisd(-half_pi, Vec3d::UnitY()));
break;
}
case Y:
{
m.rotate(Eigen::AngleAxisd(half_pi, Vec3d::UnitY()));
m.rotate(Eigen::AngleAxisd(half_pi, Vec3d::UnitZ()));
break;
}
default:
case Z:
{
// no rotation applied
break;
}
}
m = m * m_start_dragging_m.inverse();
m.translate(-m_plane_center);
return transform(mouse_ray, m).intersect_plane(0.0);
}
void GLGizmoCut3D::dragging_grabber_z(const GLGizmoBase::UpdateData &data)
{
const Vec3d grabber_init_pos = (m_hover_id == CutPlane ? 0. : m_grabber_connection_len) * Vec3d::UnitZ();
const Vec3d starting_drag_position = translation_transform(m_plane_center) * m_rotation_m * grabber_init_pos;
double projection = 0.0;
Vec3d starting_vec = m_rotation_m * Vec3d::UnitZ();
if (starting_vec.norm() != 0.0) {
const Vec3d mouse_dir = data.mouse_ray.unit_vector();
// finds the intersection of the mouse ray with the plane parallel to the camera viewport and passing throught the starting position
// use ray-plane intersection see i.e. https://en.wikipedia.org/wiki/Line%E2%80%93plane_intersection algebric form
// in our case plane normal and ray direction are the same (orthogonal view)
// when moving to perspective camera the negative z unit axis of the camera needs to be transformed in world space and used as plane normal
const Vec3d inters = data.mouse_ray.a + (starting_drag_position - data.mouse_ray.a).dot(mouse_dir) * mouse_dir;
// vector from the starting position to the found intersection
const Vec3d inters_vec = inters - starting_drag_position;
starting_vec.normalize();
// finds projection of the vector along the staring direction
projection = inters_vec.dot(starting_vec);
}
if (wxGetKeyState(WXK_SHIFT))
projection = m_snap_step * std::round(projection / m_snap_step);
const Vec3d shift = starting_vec * projection;
// move cut plane center
set_center(m_plane_center + shift, true);
m_was_cut_plane_dragged = true;
}
void GLGizmoCut3D::dragging_grabber_xy(const GLGizmoBase::UpdateData &data)
{
const Vec2d mouse_pos = to_2d(mouse_position_in_local_plane((GrabberID)m_hover_id, data.mouse_ray));
const Vec2d orig_dir = Vec2d::UnitX();
const Vec2d new_dir = mouse_pos.normalized();
const double two_pi = 2.0 * PI;
double theta = ::acos(std::clamp(new_dir.dot(orig_dir), -1.0, 1.0));
if (cross2(orig_dir, new_dir) < 0.0)
theta = two_pi - theta;
const double len = mouse_pos.norm();
// snap to coarse snap region
if (m_snap_coarse_in_radius <= len && len <= m_snap_coarse_out_radius) {
const double step = two_pi / double(SnapRegionsCount);
theta = step * std::round(theta / step);
}
// snap to fine snap region (scale)
else if (m_snap_fine_in_radius <= len && len <= m_snap_fine_out_radius) {
const double step = two_pi / double(ScaleStepsCount);
theta = step * std::round(theta / step);
}
if (is_approx(theta, two_pi))
theta = 0.0;
if (m_hover_id == X)
theta += 0.5 * PI;
Vec3d rotation = Vec3d::Zero();
rotation[m_hover_id] = theta;
const Transform3d rotation_tmp = m_start_dragging_m * rotation_transform(rotation);
const bool update_tbb = !m_rotation_m.rotation().isApprox(rotation_tmp.rotation());
m_rotation_m = rotation_tmp;
if (update_tbb)
m_transformed_bounding_box = transformed_bounding_box(m_plane_center, m_rotation_m);
m_angle = theta;
while (m_angle > two_pi)
m_angle -= two_pi;
if (m_angle < 0.0)
m_angle += two_pi;
update_clipper();
}
void GLGizmoCut3D::dragging_connector(const GLGizmoBase::UpdateData &data)
{
CutConnectors& connectors = m_c->selection_info()->model_object()->cut_connectors;
Vec3d pos;
Vec3d pos_world;
if (unproject_on_cut_plane(data.mouse_pos.cast<double>(), pos, pos_world)) {
connectors[m_hover_id - m_connectors_group_id].pos = pos;
update_raycasters_for_picking_transform();
}
}
void GLGizmoCut3D::on_dragging(const UpdateData& data)
{
if (m_hover_id < 0)
return;
if (m_hover_id == Z || m_hover_id == CutPlane)
dragging_grabber_z(data);
else if (m_hover_id == X || m_hover_id == Y)
dragging_grabber_xy(data);
else if (m_hover_id >= m_connectors_group_id && m_connector_mode == CutConnectorMode::Manual)
dragging_connector(data);
}
void GLGizmoCut3D::on_start_dragging()
{
m_angle = 0.0;
if (m_hover_id >= m_connectors_group_id && m_connector_mode == CutConnectorMode::Manual)
Plater::TakeSnapshot snapshot(wxGetApp().plater(), _L("Move connector"), UndoRedo::SnapshotType::GizmoAction);
if (m_hover_id == X || m_hover_id == Y)
m_start_dragging_m = m_rotation_m;
}
void GLGizmoCut3D::on_stop_dragging()
{
if (m_hover_id == X || m_hover_id == Y) {
m_angle_arc.reset();
m_angle = 0.0;
Plater::TakeSnapshot snapshot(wxGetApp().plater(), _L("Rotate cut plane"), UndoRedo::SnapshotType::GizmoAction);
m_start_dragging_m = m_rotation_m;
}
else if (m_hover_id == Z || m_hover_id == CutPlane) {
if (m_was_cut_plane_dragged)
Plater::TakeSnapshot snapshot(wxGetApp().plater(), _L("Move cut plane"), UndoRedo::SnapshotType::GizmoAction);
m_ar_plane_center = m_plane_center;
}
}
void GLGizmoCut3D::set_center_pos(const Vec3d& center_pos, bool update_tbb /*=false*/)
{
BoundingBoxf3 tbb = m_transformed_bounding_box;
if (update_tbb) {
Vec3d normal = m_rotation_m.inverse() * Vec3d(m_plane_center - center_pos);
tbb.translate(normal.z() * Vec3d::UnitZ());
}
bool can_set_center_pos = false;
{
if (tbb.max.z() > -.5 && tbb.min.z() < .5)
can_set_center_pos = true;
else {
const double old_dist = (m_bb_center - m_plane_center).norm();
const double new_dist = (m_bb_center - center_pos).norm();
// check if forcing is reasonable
if (new_dist < old_dist)
can_set_center_pos = true;
}
}
if (can_set_center_pos) {
m_transformed_bounding_box = tbb;
m_plane_center = center_pos;
m_center_offset = m_plane_center - m_bb_center;
}
}
BoundingBoxf3 GLGizmoCut3D::bounding_box() const
{
BoundingBoxf3 ret;
const Selection& selection = m_parent.get_selection();
const Selection::IndicesList& idxs = selection.get_volume_idxs();
for (unsigned int i : idxs) {
const GLVolume* volume = selection.get_volume(i);
// respect just to the solid parts for FFF and ignore pad and supports for SLA
if (!volume->is_modifier && !volume->is_sla_pad() && !volume->is_sla_support())
ret.merge(volume->transformed_convex_hull_bounding_box());
}
return ret;
}
BoundingBoxf3 GLGizmoCut3D::transformed_bounding_box(const Vec3d& plane_center, const Transform3d& rotation_m/* = Transform3d::Identity()*/) const
{
const Selection& selection = m_parent.get_selection();
const auto first_volume = selection.get_first_volume();
Vec3d instance_offset = first_volume->get_instance_offset();
instance_offset[Z] += first_volume->get_sla_shift_z();
const auto cut_matrix = Transform3d::Identity() * rotation_m.inverse() * translation_transform(instance_offset - plane_center);
const Selection::IndicesList& idxs = selection.get_volume_idxs();
BoundingBoxf3 ret;
for (unsigned int i : idxs) {
const GLVolume* volume = selection.get_volume(i);
// respect just to the solid parts for FFF and ignore pad and supports for SLA
if (!volume->is_modifier && !volume->is_sla_pad() && !volume->is_sla_support()) {
const auto instance_matrix = volume->get_instance_transformation().get_matrix_no_offset();
auto volume_trafo = instance_matrix * volume->get_volume_transformation().get_matrix();
ret.merge(volume->transformed_convex_hull_bounding_box(cut_matrix * volume_trafo));
}
}
return ret;
}
void GLGizmoCut3D::update_bb()
{
const BoundingBoxf3 box = bounding_box();
if (!box.defined)
return;
if (!m_max_pos.isApprox(box.max) || !m_min_pos.isApprox(box.min)) {
m_bounding_box = box;
invalidate_cut_plane();
m_max_pos = box.max;
m_min_pos = box.min;
m_bb_center = box.center();
m_transformed_bounding_box = transformed_bounding_box(m_bb_center);
if (box.contains(m_center_offset))
set_center_pos(m_bb_center + m_center_offset);
else
set_center_pos(m_bb_center);
m_radius = box.radius();
m_grabber_connection_len = 0.5 * m_radius;// std::min<double>(0.75 * m_radius, 35.0);
m_grabber_radius = m_grabber_connection_len * 0.85;
m_snap_coarse_in_radius = m_grabber_radius / 3.0;
m_snap_coarse_out_radius = m_snap_coarse_in_radius * 2.;
m_snap_fine_in_radius = m_grabber_connection_len * 0.85;
m_snap_fine_out_radius = m_grabber_connection_len * 1.15;
m_plane.reset();
m_cone.reset();
m_sphere.reset();
m_grabber_connection.reset();
m_circle.reset();
m_scale.reset();
m_snap_radii.reset();
m_reference_radius.reset();
on_unregister_raycasters_for_picking();
clear_selection();
if (CommonGizmosDataObjects::SelectionInfo* selection = m_c->selection_info();
selection && selection->model_object())
m_selected.resize(selection->model_object()->cut_connectors.size(), false);
}
}
void GLGizmoCut3D::init_picking_models()
{
if (!m_cone.model.is_initialized()) {
indexed_triangle_set its = its_make_cone(1.0, 1.0, PI / 12.0);
m_cone.model.init_from(its);
m_cone.mesh_raycaster = std::make_unique<MeshRaycaster>(std::make_shared<const TriangleMesh>(std::move(its)));
}
if (!m_sphere.model.is_initialized()) {
indexed_triangle_set its = its_make_sphere(1.0, PI / 12.0);
m_sphere.model.init_from(its);
m_sphere.mesh_raycaster = std::make_unique<MeshRaycaster>(std::make_shared<const TriangleMesh>(std::move(its)));
}
if (!m_plane.model.is_initialized() && !m_hide_cut_plane && !m_connectors_editing) {
const double cp_width = 0.02 * get_grabber_mean_size(m_bounding_box);
indexed_triangle_set its = its_make_frustum_dowel((double)m_cut_plane_radius_koef * m_radius, cp_width, m_cut_plane_as_circle ? 180 : 4);
m_plane.model.init_from(its);
m_plane.mesh_raycaster = std::make_unique<MeshRaycaster>(std::make_shared<const TriangleMesh>(std::move(its)));
}
if (m_shapes.empty())
init_connector_shapes();
}
void GLGizmoCut3D::init_rendering_items()
{
if (!m_grabber_connection.is_initialized())
m_grabber_connection.init_from(its_make_line(Vec3f::Zero(), Vec3f::UnitZ()));
if (!m_circle.is_initialized())
init_from_circle(m_circle, m_grabber_radius);
if (!m_scale.is_initialized())
init_from_scale(m_scale, m_grabber_radius);
if (!m_snap_radii.is_initialized())
init_from_snap_radii(m_snap_radii, m_grabber_radius);
if (!m_reference_radius.is_initialized()) {
m_reference_radius.init_from(its_make_line(Vec3f::Zero(), m_grabber_connection_len * Vec3f::UnitX()));
m_reference_radius.set_color(ColorRGBA::WHITE());
}
if (!m_angle_arc.is_initialized() || m_angle != 0.0)
init_from_angle_arc(m_angle_arc, m_angle, m_grabber_connection_len);
}
void GLGizmoCut3D::render_clipper_cut()
{
if (! m_connectors_editing)
::glDisable(GL_DEPTH_TEST);
m_c->object_clipper()->render_cut();
if (! m_connectors_editing)
::glEnable(GL_DEPTH_TEST);
}
void GLGizmoCut3D::on_render()
{
if (m_state == On) {
// This gizmo is showing the object elevated. Tell the common
// SelectionInfo object to lie about the actual shift.
m_c->selection_info()->set_use_shift(true);
}
update_clipper();
init_picking_models();
init_rendering_items();
render_connectors();
render_clipper_cut();
if (!m_hide_cut_plane && !m_connectors_editing) {
render_cut_plane();
render_cut_plane_grabbers();
}
render_cut_line();
m_selection_rectangle.render(m_parent);
}
void GLGizmoCut3D::render_debug_input_window(float x)
{
return;
m_imgui->begin(wxString("DEBUG"));
ImVec2 pos = ImGui::GetWindowPos();
pos.x = x;
ImGui::SetWindowPos(pos, ImGuiCond_Always);
/*
static bool hide_clipped = false;
static bool fill_cut = false;
static float contour_width = 0.4f;
m_imgui->checkbox(_L("Hide cut plane and grabbers"), m_hide_cut_plane);
if (m_imgui->checkbox("hide_clipped", hide_clipped) && !hide_clipped)
m_clp_normal = m_c->object_clipper()->get_clipping_plane()->get_normal();
m_imgui->checkbox("fill_cut", fill_cut);
m_imgui->slider_float("contour_width", &contour_width, 0.f, 3.f);
if (auto oc = m_c->object_clipper())
oc->set_behavior(hide_clipped || m_connectors_editing, fill_cut || m_connectors_editing, double(contour_width));
*/
ImGui::PushItemWidth(0.5f * m_label_width);
if (auto oc = m_c->object_clipper(); oc && m_imgui->slider_float("contour_width", &m_contour_width, 0.f, 3.f))
oc->set_behavior(m_connectors_editing, m_connectors_editing, double(m_contour_width));
ImGui::Separator();
if (m_imgui->checkbox(("Render cut plane as disc"), m_cut_plane_as_circle))
m_plane.reset();
ImGui::PushItemWidth(0.5f * m_label_width);
if (m_imgui->slider_float("cut_plane_radius_koef", &m_cut_plane_radius_koef, 1.f, 2.f))
m_plane.reset();
m_imgui->end();
}
void GLGizmoCut3D::adjust_window_position(float x, float y, float bottom_limit)
{
static float last_y = 0.0f;
static float last_h = 0.0f;
const float win_h = ImGui::GetWindowHeight();
y = std::min(y, bottom_limit - win_h);
ImGui::SetWindowPos(ImVec2(x, y), ImGuiCond_Always);
if (!is_approx(last_h, win_h) || !is_approx(last_y, y)) {
// ask canvas for another frame to render the window in the correct position
m_imgui->set_requires_extra_frame();
if (!is_approx(last_h, win_h))
last_h = win_h;
if (!is_approx(last_y, y))
last_y = y;
}
}
void GLGizmoCut3D::unselect_all_connectors()
{
std::fill(m_selected.begin(), m_selected.end(), false);
m_selected_count = 0;
validate_connector_settings();
}
void GLGizmoCut3D::select_all_connectors()
{
std::fill(m_selected.begin(), m_selected.end(), true);
m_selected_count = int(m_selected.size());
}
void GLGizmoCut3D::render_shortcuts()
{
if (m_imgui->button("? " + (m_show_shortcuts ? wxString(ImGui::CollapseBtn) : wxString(ImGui::ExpandBtn))))
m_show_shortcuts = !m_show_shortcuts;
if (m_shortcut_label_width < 0.f) {
for (const auto& shortcut : m_shortcuts) {
const float width = m_imgui->calc_text_size(shortcut.first).x;
if (m_shortcut_label_width < width)
m_shortcut_label_width = width;
}
m_shortcut_label_width += +m_imgui->scaled(1.f);
}
if (m_show_shortcuts)
for (const auto&shortcut : m_shortcuts ){
m_imgui->text_colored(ImGuiWrapper::COL_ORANGE_LIGHT, shortcut.first);
ImGui::SameLine(m_shortcut_label_width);
m_imgui->text(shortcut.second);
}
}
void GLGizmoCut3D::apply_selected_connectors(std::function<void(size_t idx)> apply_fn)
{
for (size_t idx = 0; idx < m_selected.size(); idx++)
if (m_selected[idx])
apply_fn(idx);
update_raycasters_for_picking_transform();
}
void GLGizmoCut3D::render_connectors_input_window(CutConnectors &connectors)
{
// add shortcuts panel
render_shortcuts();
// Connectors section
ImGui::Separator();
// WIP : Auto : Need to implement
// m_imgui->text(_L("Mode"));
// render_connect_mode_radio_button(CutConnectorMode::Auto);
// render_connect_mode_radio_button(CutConnectorMode::Manual);
ImGui::AlignTextToFramePadding();
m_imgui->text_colored(ImGuiWrapper::COL_ORANGE_LIGHT, m_labels_map["Connectors"]);
m_imgui->disabled_begin(connectors.empty());
ImGui::SameLine(m_label_width);
const wxString act_name = _L("Remove connectors");
if (render_reset_button("connectors", into_u8(act_name))) {
Plater::TakeSnapshot snapshot(wxGetApp().plater(), act_name, UndoRedo::SnapshotType::GizmoAction);
reset_connectors();
}
m_imgui->disabled_end();
render_flip_plane_button(m_connectors_editing && connectors.empty());
m_imgui->text(m_labels_map["Type"]);
bool type_changed = render_connect_type_radio_button(CutConnectorType::Plug);
type_changed |= render_connect_type_radio_button(CutConnectorType::Dowel);
if (type_changed)
apply_selected_connectors([this, &connectors] (size_t idx) { connectors[idx].attribs.type = CutConnectorType(m_connector_type); });
m_imgui->disabled_begin(m_connector_type == CutConnectorType::Dowel);
if (type_changed && m_connector_type == CutConnectorType::Dowel) {
m_connector_style = size_t(CutConnectorStyle::Prism);
apply_selected_connectors([this, &connectors](size_t idx) { connectors[idx].attribs.style = CutConnectorStyle(m_connector_style); });
}
if (render_combo(m_labels_map["Style"], m_connector_styles, m_connector_style))
apply_selected_connectors([this, &connectors](size_t idx) { connectors[idx].attribs.style = CutConnectorStyle(m_connector_style); });
m_imgui->disabled_end();
if (render_combo(m_labels_map["Shape"], m_connector_shapes, m_connector_shape_id))
apply_selected_connectors([this, &connectors](size_t idx) { connectors[idx].attribs.shape = CutConnectorShape(m_connector_shape_id); });
if (render_slider_double_input(m_labels_map["Depth ratio"], m_connector_depth_ratio, m_connector_depth_ratio_tolerance))
apply_selected_connectors([this, &connectors](size_t idx) {
if (m_connector_depth_ratio > 0)
connectors[idx].height = m_connector_depth_ratio;
if (m_connector_depth_ratio_tolerance >= 0)
connectors[idx].height_tolerance = m_connector_depth_ratio_tolerance;
});
if (render_slider_double_input(m_labels_map["Size"], m_connector_size, m_connector_size_tolerance))
apply_selected_connectors([this, &connectors](size_t idx) {
if (m_connector_size > 0)
connectors[idx].radius = 0.5f * m_connector_size;
if (m_connector_size_tolerance >= 0)
connectors[idx].radius_tolerance = 0.5f * m_connector_size_tolerance;
});
ImGui::Separator();
if (m_imgui->button(_L("Confirm connectors"))) {
unselect_all_connectors();
set_connectors_editing(false);
}
ImGui::SameLine(m_label_width + 1.15f * m_control_width);
if (m_imgui->button(_L("Cancel"))) {
reset_connectors();
set_connectors_editing(false);
}
}
void GLGizmoCut3D::render_build_size()
{
double koef = m_imperial_units ? ObjectManipulation::mm_to_in : 1.0;
wxString unit_str = " " + (m_imperial_units ? _L("in") : _L("mm"));
Vec3d tbb_sz = m_transformed_bounding_box.size();
wxString size = "X: " + double_to_string(tbb_sz.x() * koef, 2) + unit_str +
", Y: " + double_to_string(tbb_sz.y() * koef, 2) + unit_str +
", Z: " + double_to_string(tbb_sz.z() * koef, 2) + unit_str;
ImGui::AlignTextToFramePadding();
m_imgui->text(_L("Build Volume"));
ImGui::SameLine();
m_imgui->text_colored(ImGuiWrapper::COL_ORANGE_LIGHT, size);
}
void GLGizmoCut3D::reset_cut_plane()
{
m_angle_arc.reset();
m_transformed_bounding_box = transformed_bounding_box(m_bb_center);
set_center(m_bb_center);
m_start_dragging_m = m_rotation_m = Transform3d::Identity();
m_ar_plane_center = m_plane_center;
}
void GLGizmoCut3D::invalidate_cut_plane()
{
m_rotation_m = Transform3d::Identity();
m_plane_center = Vec3d::Zero();
m_min_pos = Vec3d::Zero();
m_max_pos = Vec3d::Zero();
m_bb_center = Vec3d::Zero();
m_center_offset = Vec3d::Zero();
}
void GLGizmoCut3D::set_connectors_editing(bool connectors_editing)
{
if (m_connectors_editing == connectors_editing)
return;
m_connectors_editing = connectors_editing;
update_raycasters_for_picking();
m_c->object_clipper()->set_behavior(m_connectors_editing, m_connectors_editing, double(m_contour_width));
m_parent.request_extra_frame();
}
void GLGizmoCut3D::flip_cut_plane()
{
m_rotation_m = m_rotation_m * rotation_transform(PI * Vec3d::UnitX());
m_transformed_bounding_box = transformed_bounding_box(m_plane_center, m_rotation_m);
Plater::TakeSnapshot snapshot(wxGetApp().plater(), _L("Flip cut plane"), UndoRedo::SnapshotType::GizmoAction);
m_start_dragging_m = m_rotation_m;
update_clipper();
}
void GLGizmoCut3D::render_flip_plane_button(bool disable_pred /*=false*/)
{
ImGui::SameLine();
if (m_hover_id == CutPlane)
ImGui::PushStyleColor(ImGuiCol_Button, ImGui::GetColorU32(ImGuiCol_ButtonHovered));
m_imgui->disabled_begin(disable_pred);
if (m_imgui->button(_L("Flip cut plane")))
flip_cut_plane();
m_imgui->disabled_end();
if (m_hover_id == CutPlane)
ImGui::PopStyleColor();
}
void GLGizmoCut3D::add_vertical_scaled_interval(float interval)
{
ImGui::GetCurrentWindow()->DC.CursorPos.y += m_imgui->scaled(interval);
}
void GLGizmoCut3D::add_horizontal_scaled_interval(float interval)
{
ImGui::GetCurrentWindow()->DC.CursorPos.x += m_imgui->scaled(interval);
}
void GLGizmoCut3D::add_horizontal_shift(float shift)
{
ImGui::GetCurrentWindow()->DC.CursorPos.x += shift;
}
void GLGizmoCut3D::render_color_marker(float size, const ImU32& color)
{
ImGui::SameLine();
const float radius = 0.5f * size;
ImVec2 pos = ImGui::GetCurrentWindow()->DC.CursorPos;
pos.x += size;
pos.y += 1.25f * radius;
ImGui::GetCurrentWindow()->DrawList->AddNgonFilled(pos, radius, color, 6);
ImGuiWrapper::text(" ");
}
void GLGizmoCut3D::render_cut_plane_input_window(CutConnectors &connectors)
{
// WIP : cut plane mode
// render_combo(_u8L("Mode"), m_modes, m_mode);
if (m_mode == size_t(CutMode::cutPlanar)) {
ImGui::AlignTextToFramePadding();
ImGuiWrapper::text(wxString(ImGui::InfoMarkerSmall));
ImGui::SameLine();
ImGuiWrapper::text_colored(ImGuiWrapper::COL_ORANGE_LIGHT,
get_wraped_wxString(_L("Hold SHIFT key to draw a cut line"), 40));
ImGui::Separator();
render_build_size();
ImGui::AlignTextToFramePadding();
ImGuiWrapper::text(_L("Cut position") + ": ");
ImGui::SameLine();
render_move_center_input(Z);
ImGui::SameLine();
const bool has_connectors = !connectors.empty();
const bool is_cut_plane_init = m_rotation_m.isApprox(Transform3d::Identity()) && m_bb_center.isApprox(m_plane_center);
m_imgui->disabled_begin(is_cut_plane_init);
wxString act_name = _L("Reset cutting plane");
if (render_reset_button("cut_plane", into_u8(act_name))) {
Plater::TakeSnapshot snapshot(wxGetApp().plater(), act_name, UndoRedo::SnapshotType::GizmoAction);
reset_cut_plane();
}
m_imgui->disabled_end();
// render_flip_plane_button();
add_vertical_scaled_interval(0.75f);
m_imgui->disabled_begin(!m_keep_upper || !m_keep_lower || m_keep_as_parts);
if (m_imgui->button(has_connectors ? _L("Edit connectors") : _L("Add connectors")))
set_connectors_editing(true);
m_imgui->disabled_end();
ImGui::SameLine(1.5f * m_control_width);
m_imgui->disabled_begin(is_cut_plane_init && !has_connectors);
act_name = _L("Reset cut");
if (m_imgui->button(act_name, _L("Reset cutting plane and remove connectors"))) {
Plater::TakeSnapshot snapshot(wxGetApp().plater(), act_name, UndoRedo::SnapshotType::GizmoAction);
reset_cut_plane();
reset_connectors();
}
m_imgui->disabled_end();
ImGui::Separator();
// render "After Cut" section
ImVec2 label_size;
for (const auto& item : m_part_orientation_names) {
const ImVec2 text_size = ImGuiWrapper::calc_text_size(item.second);
if (label_size.x < text_size.x)
label_size.x = text_size.x;
if (label_size.y < text_size.y)
label_size.y = text_size.y;
}
const float h_shift = label_size.x + m_imgui->scaled(3.f);
const float marker_size = label_size.y;
auto render_part_name = [this, marker_size, has_connectors](const wxString& name, bool& keep_part, const ImU32& color) {
bool keep = true;
add_horizontal_shift(m_imgui->scaled(1.2f));
m_imgui->checkbox((m_keep_as_parts ? _L("Part") : _L("Object")) + " " + name, has_connectors ? keep : keep_part);
render_color_marker(marker_size, color);
};
auto render_part_actions = [this, h_shift] (const wxString& suffix, const bool& keep_part, bool& place_on_cut_part, bool& rotate_part)
{
float shift = m_imgui->scaled(1.2f);
if (suffix == "##lower")
shift += h_shift;
m_imgui->disabled_begin(!keep_part || m_keep_as_parts);
add_horizontal_shift(shift);
if (m_imgui->radio_button(m_part_orientation_names.at("none") + suffix, !place_on_cut_part && !rotate_part)) {
rotate_part = false;
place_on_cut_part = false;
}
add_horizontal_shift(shift);
if (m_imgui->radio_button(m_part_orientation_names.at("on_cut") + suffix, place_on_cut_part)) {
place_on_cut_part = !place_on_cut_part;
rotate_part = false;
}
add_horizontal_shift(shift);
if (m_imgui->radio_button(m_part_orientation_names.at("flip") + suffix, rotate_part)) {
rotate_part = !rotate_part;
place_on_cut_part = false;
}
m_imgui->disabled_end();
};
ImGuiWrapper::text(_L("Cut result") + ": ");
add_vertical_scaled_interval(0.5f);
m_imgui->disabled_begin(has_connectors || m_keep_as_parts);
render_part_name("A", m_keep_upper, m_imgui->to_ImU32(UPPER_PART_COLOR));
ImGui::SameLine(h_shift + ImGui::GetCurrentWindow()->WindowPadding.x);
render_part_name("B", m_keep_lower, m_imgui->to_ImU32(LOWER_PART_COLOR));
m_imgui->disabled_end();
add_vertical_scaled_interval(0.5f);
const ImVec2 pos = ImGui::GetCurrentWindow()->DC.CursorPos;
render_part_actions("##upper", m_keep_upper, m_place_on_cut_upper, m_rotate_upper);
ImGui::GetCurrentWindow()->DC.CursorPos = pos;
render_part_actions("##lower", m_keep_lower, m_place_on_cut_lower, m_rotate_lower);
add_vertical_scaled_interval(0.75f);
m_imgui->disabled_begin(has_connectors);
ImGuiWrapper::text(_L("Cut into") + ":");
add_horizontal_scaled_interval(1.2f);
// TRN CutGizmo: RadioButton Cut into ...
if (m_imgui->radio_button(_L("Objects"), !m_keep_as_parts))
m_keep_as_parts = false;
ImGui::SameLine();
// TRN CutGizmo: RadioButton Cut into ...
if (m_imgui->radio_button(_L("Parts"), m_keep_as_parts))
m_keep_as_parts = true;
if (m_keep_as_parts) {
m_keep_upper = m_keep_lower = true;
m_place_on_cut_upper = m_place_on_cut_lower = false;
m_rotate_upper = m_rotate_lower = false;
}
m_imgui->disabled_end();
}
ImGui::Separator();
m_imgui->disabled_begin(!m_is_contour_changed && !can_perform_cut());
if(m_imgui->button(_L("Perform cut")))
perform_cut(m_parent.get_selection());
m_imgui->disabled_end();
}
void GLGizmoCut3D::validate_connector_settings()
{
if (m_connector_depth_ratio < 0.f)
m_connector_depth_ratio = 3.f;
if (m_connector_depth_ratio_tolerance < 0.f)
m_connector_depth_ratio_tolerance = 0.1f;
if (m_connector_size < 0.f)
m_connector_size = 2.5f;
if (m_connector_size_tolerance < 0.f)
m_connector_size_tolerance = 0.f;
if (m_connector_type == CutConnectorType::Undef)
m_connector_type = CutConnectorType::Plug;
if (m_connector_style == size_t(CutConnectorStyle::Undef))
m_connector_style = size_t(CutConnectorStyle::Prism);
if (m_connector_shape_id == size_t(CutConnectorShape::Undef))
m_connector_shape_id = size_t(CutConnectorShape::Circle);
}
void GLGizmoCut3D::init_input_window_data(CutConnectors &connectors)
{
m_imperial_units = wxGetApp().app_config->get_bool("use_inches");
m_control_width = m_imgui->get_font_size() * 9.f;
if (m_connectors_editing && m_selected_count > 0) {
float depth_ratio { UndefFloat };
float depth_ratio_tolerance { UndefFloat };
float radius { UndefFloat };
float radius_tolerance { UndefFloat };
CutConnectorType type { CutConnectorType::Undef };
CutConnectorStyle style { CutConnectorStyle::Undef };
CutConnectorShape shape { CutConnectorShape::Undef };
bool is_init = false;
for (size_t idx = 0; idx < m_selected.size(); idx++)
if (m_selected[idx]) {
const CutConnector& connector = connectors[idx];
if (!is_init) {
depth_ratio = connector.height;
depth_ratio_tolerance = connector.height_tolerance;
radius = connector.radius;
radius_tolerance = connector.radius_tolerance;
type = connector.attribs.type;
style = connector.attribs.style;
shape = connector.attribs.shape;
if (m_selected_count == 1)
break;
is_init = true;
}
else {
if (!is_approx(depth_ratio, connector.height))
depth_ratio = UndefFloat;
if (!is_approx(depth_ratio_tolerance, connector.height_tolerance))
depth_ratio_tolerance = UndefFloat;
if (!is_approx(radius,connector.radius))
radius = UndefFloat;
if (!is_approx(radius_tolerance, connector.radius_tolerance))
radius_tolerance = UndefFloat;
if (type != connector.attribs.type)
type = CutConnectorType::Undef;
if (style != connector.attribs.style)
style = CutConnectorStyle::Undef;
if (shape != connector.attribs.shape)
shape = CutConnectorShape::Undef;
}
}
m_connector_depth_ratio = depth_ratio;
m_connector_depth_ratio_tolerance = depth_ratio_tolerance;
m_connector_size = 2.f * radius;
m_connector_size_tolerance = 2.f * radius_tolerance;
m_connector_type = type;
m_connector_style = size_t(style);
m_connector_shape_id = size_t(shape);
}
if (m_label_width == 0.f) {
for (const auto& item : m_labels_map) {
const float width = ImGuiWrapper::calc_text_size(item.second).x;
if (m_label_width < width)
m_label_width = width;
}
m_label_width += m_imgui->scaled(1.f);
}
}
void GLGizmoCut3D::render_input_window_warning() const
{
if (m_is_contour_changed)
return;
if (m_has_invalid_connector) {
wxString out = wxString(ImGui::WarningMarkerSmall) + _L("Invalid connectors detected") + ":";
if (m_info_stats.outside_cut_contour > size_t(0))
out += "\n - " + format_wxstr(_L_PLURAL("%1$d connector is out of cut contour", "%1$d connectors are out of cut contour", m_info_stats.outside_cut_contour),
m_info_stats.outside_cut_contour);
if (m_info_stats.outside_bb > size_t(0))
out += "\n - " + format_wxstr(_L_PLURAL("%1$d connector is out of object", "%1$d connectors are out of object", m_info_stats.outside_bb),
m_info_stats.outside_bb);
if (m_info_stats.is_overlap)
out += "\n - " + _L("Some connectors are overlapped");
m_imgui->text(out);
}
if (!m_keep_upper && !m_keep_lower)
m_imgui->text(wxString(ImGui::WarningMarkerSmall) + _L("Select at least one object to keep after cutting."));
if (!has_valid_contour())
m_imgui->text(wxString(ImGui::WarningMarkerSmall) + _L("Cut plane is placed out of object"));
}
void GLGizmoCut3D::on_render_input_window(float x, float y, float bottom_limit)
{
m_imgui->begin(get_name(), ImGuiWindowFlags_AlwaysAutoResize | ImGuiWindowFlags_NoMove | ImGuiWindowFlags_NoResize | ImGuiWindowFlags_NoCollapse);
// adjust window position to avoid overlap the view toolbar
adjust_window_position(x, y, bottom_limit);
CutConnectors& connectors = m_c->selection_info()->model_object()->cut_connectors;
init_input_window_data(connectors);
if (m_connectors_editing) // connectors mode
render_connectors_input_window(connectors);
else
render_cut_plane_input_window(connectors);
render_input_window_warning();
m_imgui->end();
if (!m_connectors_editing) // connectors mode
render_debug_input_window(x);
}
bool GLGizmoCut3D::is_outside_of_cut_contour(size_t idx, const CutConnectors& connectors, const Vec3d cur_pos)
{
// check if connector pos is out of clipping plane
if (m_c->object_clipper() && !m_c->object_clipper()->is_projection_inside_cut(cur_pos)) {
m_info_stats.outside_cut_contour++;
return true;
}
// check if connector bottom contour is out of clipping plane
const CutConnector& cur_connector = connectors[idx];
const CutConnectorShape shape = CutConnectorShape(cur_connector.attribs.shape);
const int sectorCount = shape == CutConnectorShape::Triangle ? 3 :
shape == CutConnectorShape::Square ? 4 :
shape == CutConnectorShape::Circle ? 60: // supposably, 60 points are enough for conflict detection
shape == CutConnectorShape::Hexagon ? 6 : 1 ;
indexed_triangle_set mesh;
auto& vertices = mesh.vertices;
vertices.reserve(sectorCount + 1);
float fa = 2 * PI / sectorCount;
auto vec = Eigen::Vector2f(0, cur_connector.radius);
for (float angle = 0; angle < 2.f * PI; angle += fa) {
Vec2f p = Eigen::Rotation2Df(angle) * vec;
vertices.emplace_back(Vec3f(p(0), p(1), 0.f));
}
its_transform(mesh, translation_transform(cur_pos) * m_rotation_m);
for (auto vertex : vertices) {
if (m_c->object_clipper() && !m_c->object_clipper()->is_projection_inside_cut(vertex.cast<double>())) {
m_info_stats.outside_cut_contour++;
return true;
}
}
return false;
}
bool GLGizmoCut3D::is_conflict_for_connector(size_t idx, const CutConnectors& connectors, const Vec3d cur_pos)
{
if (is_outside_of_cut_contour(idx, connectors, cur_pos))
return true;
const CutConnector& cur_connector = connectors[idx];
const Transform3d matrix = translation_transform(cur_pos) * m_rotation_m *
scale_transform(Vec3f(cur_connector.radius, cur_connector.radius, cur_connector.height).cast<double>());
const BoundingBoxf3 cur_tbb = m_shapes[cur_connector.attribs].model.get_bounding_box().transformed(matrix);
// check if connector's bounding box is inside the object's bounding box
if (!m_bounding_box.contains(cur_tbb)) {
m_info_stats.outside_bb++;
return true;
}
// check if connectors are overlapping
for (size_t i = 0; i < connectors.size(); ++i) {
if (i == idx)
continue;
const CutConnector& connector = connectors[i];
if ((connector.pos - cur_connector.pos).norm() < double(connector.radius + cur_connector.radius)) {
m_info_stats.is_overlap = true;
return true;
}
}
return false;
}
void GLGizmoCut3D::render_connectors()
{
::glEnable(GL_DEPTH_TEST);
if (m_is_contour_changed || cut_line_processing() ||
m_connector_mode == CutConnectorMode::Auto || !m_c->selection_info())
return;
const ModelObject* mo = m_c->selection_info()->model_object();
auto inst_id = m_c->selection_info()->get_active_instance();
if (inst_id < 0)
return;
const CutConnectors& connectors = mo->cut_connectors;
if (connectors.size() != m_selected.size()) {
// #ysFIXME
clear_selection();
m_selected.resize(connectors.size(), false);
}
ColorRGBA render_color = CONNECTOR_DEF_COLOR;
const ModelInstance* mi = mo->instances[inst_id];
const Vec3d& instance_offset = mi->get_offset();
const double sla_shift = double(m_c->selection_info()->get_sla_shift());
m_has_invalid_connector = false;
m_info_stats.invalidate();
const bool looking_forward = is_looking_forward();
for (size_t i = 0; i < connectors.size(); ++i) {
const CutConnector& connector = connectors[i];
float height = connector.height;
// recalculate connector position to world position
Vec3d pos = connector.pos + instance_offset + sla_shift * Vec3d::UnitZ();
// First decide about the color of the point.
const bool conflict_connector = is_conflict_for_connector(i, connectors, pos);
if (conflict_connector) {
m_has_invalid_connector = true;
render_color = CONNECTOR_ERR_COLOR;
}
else // default connector color
render_color = connector.attribs.type == CutConnectorType::Dowel ? DOWEL_COLOR : PLAG_COLOR;
if (!m_connectors_editing)
render_color = CONNECTOR_ERR_COLOR;
else if (size_t(m_hover_id - m_connectors_group_id) == i)
render_color = conflict_connector ? HOVERED_ERR_COLOR :
connector.attribs.type == CutConnectorType::Dowel ? HOVERED_DOWEL_COLOR : HOVERED_PLAG_COLOR;
else if (m_selected[i])
render_color = connector.attribs.type == CutConnectorType::Dowel ? SELECTED_DOWEL_COLOR : SELECTED_PLAG_COLOR;
const Camera& camera = wxGetApp().plater()->get_camera();
if (connector.attribs.type == CutConnectorType::Dowel &&
connector.attribs.style == CutConnectorStyle::Prism) {
if (m_connectors_editing) {
height = 0.05f;
if (!looking_forward)
pos += 0.05 * m_clp_normal;
}
else {
if (looking_forward)
pos -= static_cast<double>(height) * m_clp_normal;
else
pos += static_cast<double>(height) * m_clp_normal;
height *= 2;
}
}
else if (!looking_forward)
pos += 0.05 * m_clp_normal;
const Transform3d view_model_matrix = camera.get_view_matrix() * translation_transform(pos) * m_rotation_m *
scale_transform(Vec3f(connector.radius, connector.radius, height).cast<double>());
render_model(m_shapes[connector.attribs].model, render_color, view_model_matrix);
}
}
bool GLGizmoCut3D::can_perform_cut() const
{
if (m_has_invalid_connector || (!m_keep_upper && !m_keep_lower) || m_connectors_editing)
return false;
return true;// has_valid_contour();
}
bool GLGizmoCut3D::has_valid_contour() const
{
const auto clipper = m_c->object_clipper();
return clipper && clipper->has_valid_contour();
}
void GLGizmoCut3D::apply_connectors_in_model(ModelObject* mo, bool &create_dowels_as_separate_object)
{
if (m_connector_mode == CutConnectorMode::Manual) {
clear_selection();
for (CutConnector&connector : mo->cut_connectors) {
connector.rotation_m = m_rotation_m;
if (connector.attribs.type == CutConnectorType::Dowel) {
if (connector.attribs.style == CutConnectorStyle::Prism)
connector.height *= 2;
create_dowels_as_separate_object = true;
}
else {
// calculate shift of the connector center regarding to the position on the cut plane
connector.pos += m_cut_normal * 0.5 * double(connector.height);
}
}
mo->apply_cut_connectors(_u8L("Connector"));
}
}
void GLGizmoCut3D::perform_cut(const Selection& selection)
{
if (!can_perform_cut())
return;
const int instance_idx = selection.get_instance_idx();
const int object_idx = selection.get_object_idx();
wxCHECK_RET(instance_idx >= 0 && object_idx >= 0, "GLGizmoCut: Invalid object selection");
Plater* plater = wxGetApp().plater();
ModelObject* mo = plater->model().objects[object_idx];
if (!mo)
return;
// deactivate CutGizmo and than perform a cut
m_parent.reset_all_gizmos();
// m_cut_z is the distance from the bed. Subtract possible SLA elevation.
const double sla_shift_z = selection.get_first_volume()->get_sla_shift_z();
const Vec3d instance_offset = mo->instances[instance_idx]->get_offset();
Vec3d cut_center_offset = m_plane_center - instance_offset;
cut_center_offset[Z] -= sla_shift_z;
// perform cut
{
Plater::TakeSnapshot snapshot(wxGetApp().plater(), _L("Cut by Plane"));
bool create_dowels_as_separate_object = false;
const bool has_connectors = !mo->cut_connectors.empty();
// update connectors pos as offset of its center before cut performing
apply_connectors_in_model(mo, create_dowels_as_separate_object);
plater->cut(object_idx, instance_idx, translation_transform(cut_center_offset) * m_rotation_m,
only_if(has_connectors ? true : m_keep_upper, ModelObjectCutAttribute::KeepUpper) |
only_if(has_connectors ? true : m_keep_lower, ModelObjectCutAttribute::KeepLower) |
only_if(has_connectors ? false: m_keep_as_parts, ModelObjectCutAttribute::KeepAsParts) |
only_if(m_place_on_cut_upper, ModelObjectCutAttribute::PlaceOnCutUpper) |
only_if(m_place_on_cut_lower, ModelObjectCutAttribute::PlaceOnCutLower) |
only_if(m_rotate_upper, ModelObjectCutAttribute::FlipUpper) |
only_if(m_rotate_lower, ModelObjectCutAttribute::FlipLower) |
only_if(create_dowels_as_separate_object, ModelObjectCutAttribute::CreateDowels) |
only_if(!has_connectors, ModelObjectCutAttribute::InvalidateCutInfo));
}
}
// Unprojects the mouse position on the mesh and saves hit point and normal of the facet into pos_and_normal
// Return false if no intersection was found, true otherwise.
bool GLGizmoCut3D::unproject_on_cut_plane(const Vec2d& mouse_position, Vec3d& pos, Vec3d& pos_world)
{
const float sla_shift = m_c->selection_info()->get_sla_shift();
const ModelObject* mo = m_c->selection_info()->model_object();
const ModelInstance* mi = mo->instances[m_c->selection_info()->get_active_instance()];
const Camera& camera = wxGetApp().plater()->get_camera();
// Calculate intersection with the clipping plane.
const ClippingPlane* cp = m_c->object_clipper()->get_clipping_plane(true);
Vec3d point;
Vec3d direction;
Vec3d hit;
MeshRaycaster::line_from_mouse_pos(mouse_position, Transform3d::Identity(), camera, point, direction);
Vec3d normal = -cp->get_normal().cast<double>();
double den = normal.dot(direction);
if (den != 0.) {
double t = (-cp->get_offset() - normal.dot(point))/den;
hit = (point + t * direction);
} else
return false;
if (! m_c->object_clipper()->is_projection_inside_cut(hit))
return false;
// recalculate hit to object's local position
Vec3d hit_d = hit;
hit_d -= mi->get_offset();
hit_d[Z] -= sla_shift;
// Return both the point and the facet normal.
pos = hit_d;
pos_world = hit;
return true;
}
void GLGizmoCut3D::clear_selection()
{
m_selected.clear();
m_selected_count = 0;
}
void GLGizmoCut3D::reset_connectors()
{
m_c->selection_info()->model_object()->cut_connectors.clear();
update_raycasters_for_picking();
clear_selection();
}
void GLGizmoCut3D::init_connector_shapes()
{
for (const CutConnectorType& type : {CutConnectorType::Dowel, CutConnectorType::Plug})
for (const CutConnectorStyle& style : {CutConnectorStyle::Frustum, CutConnectorStyle::Prism}) {
if (type == CutConnectorType::Dowel && style == CutConnectorStyle::Frustum)
continue;
for (const CutConnectorShape& shape : {CutConnectorShape::Circle, CutConnectorShape::Hexagon, CutConnectorShape::Square, CutConnectorShape::Triangle}) {
const CutConnectorAttributes attribs = { type, style, shape };
const indexed_triangle_set its = ModelObject::get_connector_mesh(attribs);
m_shapes[attribs].model.init_from(its);
m_shapes[attribs].mesh_raycaster = std::make_unique<MeshRaycaster>(std::make_shared<const TriangleMesh>(std::move(its)));
}
}
}
void GLGizmoCut3D::update_connector_shape()
{
CutConnectorAttributes attribs = { m_connector_type, CutConnectorStyle(m_connector_style), CutConnectorShape(m_connector_shape_id) };
const indexed_triangle_set its = ModelObject::get_connector_mesh(attribs);
m_connector_mesh.clear();
m_connector_mesh = TriangleMesh(its);
}
bool GLGizmoCut3D::cut_line_processing() const
{
return !m_line_beg.isApprox(Vec3d::Zero());
}
void GLGizmoCut3D::discard_cut_line_processing()
{
m_line_beg = m_line_end = Vec3d::Zero();
}
bool GLGizmoCut3D::process_cut_line(SLAGizmoEventType action, const Vec2d& mouse_position)
{
const Camera& camera = wxGetApp().plater()->get_camera();
Vec3d pt;
Vec3d dir;
MeshRaycaster::line_from_mouse_pos(mouse_position, Transform3d::Identity(), camera, pt, dir);
dir.normalize();
pt += dir; // Move the pt along dir so it is not clipped.
if (action == SLAGizmoEventType::LeftDown && !cut_line_processing()) {
m_line_beg = pt;
m_line_end = pt;
on_unregister_raycasters_for_picking();
return true;
}
if (cut_line_processing()) {
m_line_end = pt;
if (action == SLAGizmoEventType::LeftDown || action == SLAGizmoEventType::LeftUp) {
Vec3d line_dir = m_line_end - m_line_beg;
if (line_dir.norm() < 3.0)
return true;
Vec3d cross_dir = line_dir.cross(dir).normalized();
Eigen::Quaterniond q;
Transform3d m = Transform3d::Identity();
m.matrix().block(0, 0, 3, 3) = q.setFromTwoVectors(Vec3d::UnitZ(), cross_dir).toRotationMatrix();
const Vec3d new_plane_center = m_bb_center + cross_dir * cross_dir.dot(pt - m_bb_center);
// update transformed bb
const auto new_tbb = transformed_bounding_box(new_plane_center, m);
const GLVolume* first_volume = m_parent.get_selection().get_first_volume();
Vec3d instance_offset = first_volume->get_instance_offset();
instance_offset[Z] += first_volume->get_sla_shift_z();
const Vec3d trans_center_pos = m.inverse() * (new_plane_center - instance_offset) + new_tbb.center();
if (new_tbb.contains(trans_center_pos)) {
Plater::TakeSnapshot snapshot(wxGetApp().plater(), _L("Cut by line"), UndoRedo::SnapshotType::GizmoAction);
m_transformed_bounding_box = new_tbb;
set_center(new_plane_center);
m_start_dragging_m = m_rotation_m = m;
m_ar_plane_center = m_plane_center;
}
m_angle_arc.reset();
discard_cut_line_processing();
}
else if (action == SLAGizmoEventType::Moving)
this->set_dirty();
return true;
}
return false;
}
bool GLGizmoCut3D::add_connector(CutConnectors& connectors, const Vec2d& mouse_position)
{
if (!m_connectors_editing)
return false;
Vec3d pos;
Vec3d pos_world;
if (unproject_on_cut_plane(mouse_position.cast<double>(), pos, pos_world)) {
Plater::TakeSnapshot snapshot(wxGetApp().plater(), _L("Add connector"), UndoRedo::SnapshotType::GizmoAction);
unselect_all_connectors();
connectors.emplace_back(pos, m_rotation_m,
m_connector_size * 0.5f, m_connector_depth_ratio,
m_connector_size_tolerance * 0.5f, m_connector_depth_ratio_tolerance,
CutConnectorAttributes( CutConnectorType(m_connector_type),
CutConnectorStyle(m_connector_style),
CutConnectorShape(m_connector_shape_id)));
m_selected.push_back(true);
m_selected_count = 1;
assert(m_selected.size() == connectors.size());
update_raycasters_for_picking();
m_parent.set_as_dirty();
return true;
}
return false;
}
bool GLGizmoCut3D::delete_selected_connectors(CutConnectors& connectors)
{
if (connectors.empty())
return false;
Plater::TakeSnapshot snapshot(wxGetApp().plater(), _L("Delete connector"), UndoRedo::SnapshotType::GizmoAction);
// remove connectors
for (int i = int(connectors.size()) - 1; i >= 0; i--)
if (m_selected[i])
connectors.erase(connectors.begin() + i);
// remove selections
m_selected.erase(std::remove_if(m_selected.begin(), m_selected.end(), [](const auto& selected) {
return selected; }), m_selected.end());
m_selected_count = 0;
assert(m_selected.size() == connectors.size());
update_raycasters_for_picking();
m_parent.set_as_dirty();
return true;
}
void GLGizmoCut3D::select_connector(int idx, bool select)
{
m_selected[idx] = select;
if (select)
++m_selected_count;
else
--m_selected_count;
}
bool GLGizmoCut3D::is_selection_changed(bool alt_down, bool shift_down)
{
if (m_hover_id >= m_connectors_group_id) {
if (alt_down)
select_connector(m_hover_id - m_connectors_group_id, false);
else {
if (!shift_down)
unselect_all_connectors();
select_connector(m_hover_id - m_connectors_group_id, true);
}
return true;
}
return false;
}
void GLGizmoCut3D::process_selection_rectangle(CutConnectors &connectors)
{
GLSelectionRectangle::EState rectangle_status = m_selection_rectangle.get_state();
ModelObject* mo = m_c->selection_info()->model_object();
int active_inst = m_c->selection_info()->get_active_instance();
// First collect positions of all the points in world coordinates.
Transformation trafo = mo->instances[active_inst]->get_transformation();
trafo.set_offset(trafo.get_offset() + double(m_c->selection_info()->get_sla_shift()) * Vec3d::UnitZ());
std::vector<Vec3d> points;
for (const CutConnector&connector : connectors)
points.push_back(connector.pos + trafo.get_offset());
// Now ask the rectangle which of the points are inside.
std::vector<unsigned int> points_idxs = m_selection_rectangle.contains(points);
m_selection_rectangle.stop_dragging();
for (size_t idx : points_idxs)
select_connector(int(idx), rectangle_status == GLSelectionRectangle::EState::Select);
}
bool GLGizmoCut3D::gizmo_event(SLAGizmoEventType action, const Vec2d& mouse_position, bool shift_down, bool alt_down, bool control_down)
{
if (is_dragging() || m_connector_mode == CutConnectorMode::Auto)
return false;
if ( (m_hover_id < 0 || m_hover_id == CutPlane) && shift_down && ! m_connectors_editing &&
(action == SLAGizmoEventType::LeftDown || action == SLAGizmoEventType::LeftUp || action == SLAGizmoEventType::Moving) )
return process_cut_line(action, mouse_position);
if (!m_keep_upper || !m_keep_lower)
return false;
if (!m_connectors_editing) {
if (0 && action == SLAGizmoEventType::LeftDown) {
// disable / enable current contour
Vec3d pos;
Vec3d pos_world;
if (unproject_on_cut_plane(mouse_position.cast<double>(), pos, pos_world)) {
// Following would inform the clipper about the mouse click, so it can
// toggle the respective contour as disabled.
m_c->object_clipper()->pass_mouse_click(pos_world);
return true;
}
}
return false;
}
CutConnectors& connectors = m_c->selection_info()->model_object()->cut_connectors;
if (action == SLAGizmoEventType::LeftDown) {
if (shift_down || alt_down) {
// left down with shift - show the selection rectangle:
if (m_hover_id == -1)
m_selection_rectangle.start_dragging(mouse_position, shift_down ? GLSelectionRectangle::EState::Select : GLSelectionRectangle::EState::Deselect);
}
else
// If there is no selection and no hovering, add new point
if (m_hover_id == -1 && !shift_down && !alt_down)
if (!add_connector(connectors, mouse_position))
m_ldown_mouse_position = mouse_position;
return true;
}
if (action == SLAGizmoEventType::LeftUp && !m_selection_rectangle.is_dragging()) {
if ((m_ldown_mouse_position - mouse_position).norm() < 5.)
unselect_all_connectors();
return is_selection_changed(alt_down, shift_down);
}
// left up with selection rectangle - select points inside the rectangle:
if ((action == SLAGizmoEventType::LeftUp || action == SLAGizmoEventType::ShiftUp || action == SLAGizmoEventType::AltUp) && m_selection_rectangle.is_dragging()) {
// Is this a selection or deselection rectangle?
process_selection_rectangle(connectors);
return true;
}
// dragging the selection rectangle:
if (action == SLAGizmoEventType::Dragging) {
if (m_selection_rectangle.is_dragging()) {
m_selection_rectangle.dragging(mouse_position);
return true;
}
return false;
}
if (action == SLAGizmoEventType::RightDown && !shift_down) {
// If any point is in hover state, this should initiate its move - return control back to GLCanvas:
if (m_hover_id < m_connectors_group_id)
return false;
unselect_all_connectors();
select_connector(m_hover_id - m_connectors_group_id, true);
return delete_selected_connectors(connectors);
}
if (action == SLAGizmoEventType::Delete)
return delete_selected_connectors(connectors);
if (action == SLAGizmoEventType::SelectAll) {
select_all_connectors();
return true;
}
return false;
}
CommonGizmosDataID GLGizmoCut3D::on_get_requirements() const {
return CommonGizmosDataID(
int(CommonGizmosDataID::SelectionInfo)
| int(CommonGizmosDataID::InstancesHider)
| int(CommonGizmosDataID::ObjectClipper));
}
void GLGizmoCut3D::data_changed()
{
update_bb();
if (auto oc = m_c->object_clipper())
oc->set_behavior(m_connectors_editing, m_connectors_editing, double(m_contour_width));
}
} // namespace GUI
} // namespace Slic3r
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