diff --git a/core/SCsub b/core/SCsub index 1545bc8aeb26..af83b49fea53 100644 --- a/core/SCsub +++ b/core/SCsub @@ -68,6 +68,7 @@ thirdparty_sources = [ "md5.cpp", "pcg.cpp", "triangulator.cpp", + "clipper.cpp", ] thirdparty_sources = [thirdparty_dir + file for file in thirdparty_sources] env.add_source_files(env.core_sources, thirdparty_sources) diff --git a/core/variant.cpp b/core/variant.cpp index 2e26169bfe3a..5d48c8785e97 100644 --- a/core/variant.cpp +++ b/core/variant.cpp @@ -1607,6 +1607,8 @@ Variant::operator Vector3() const { if (type == VECTOR3) return *reinterpret_cast(_data._mem); + else if (type == VECTOR2) + return Vector3(reinterpret_cast(_data._mem)->x, reinterpret_cast(_data._mem)->y, 0.0); else return Vector3(); } diff --git a/drivers/gles3/rasterizer_canvas_gles3.cpp b/drivers/gles3/rasterizer_canvas_gles3.cpp index 96fa800206d5..d4b6c8577ede 100644 --- a/drivers/gles3/rasterizer_canvas_gles3.cpp +++ b/drivers/gles3/rasterizer_canvas_gles3.cpp @@ -450,6 +450,16 @@ void RasterizerCanvasGLES3::_draw_gui_primitive(int p_points, const Vector2 *p_v storage->frame.canvas_draw_commands++; } +static const GLenum gl_primitive[] = { + GL_POINTS, + GL_LINES, + GL_LINE_STRIP, + GL_LINE_LOOP, + GL_TRIANGLES, + GL_TRIANGLE_STRIP, + GL_TRIANGLE_FAN +}; + void RasterizerCanvasGLES3::_canvas_item_render_commands(Item *p_item, Item *current_clip, bool &reclip) { int cc = p_item->commands.size(); @@ -735,6 +745,36 @@ void RasterizerCanvasGLES3::_canvas_item_render_commands(Item *p_item, Item *cur #endif } break; + case Item::Command::TYPE_MESH: { + + Item::CommandMesh *mesh = static_cast(c); + _set_texture_rect_mode(false); + + RasterizerStorageGLES3::Texture *texture = _bind_canvas_texture(mesh->texture, mesh->normal_map); + + if (texture) { + Size2 texpixel_size(1.0 / texture->width, 1.0 / texture->height); + state.canvas_shader.set_uniform(CanvasShaderGLES3::COLOR_TEXPIXEL_SIZE, texpixel_size); + } + + RasterizerStorageGLES3::Mesh *mesh_data = storage->mesh_owner.getornull(mesh->mesh); + if (mesh_data) { + + for (int j = 0; j < mesh_data->surfaces.size(); j++) { + RasterizerStorageGLES3::Surface *s = mesh_data->surfaces[j]; + // materials are ignored in 2D meshes, could be added but many things (ie, lighting mode, reading from screen, etc) would break as they are not meant be set up at this point of drawing + glBindVertexArray(s->array_id); + + if (s->index_array_len) { + glDrawElements(gl_primitive[s->primitive], s->index_array_len, (s->array_len >= (1 << 16)) ? GL_UNSIGNED_INT : GL_UNSIGNED_SHORT, 0); + } else { + glDrawArrays(gl_primitive[s->primitive], 0, s->array_len); + } + + glBindVertexArray(0); + } + } + } break; case Item::Command::TYPE_PARTICLES: { Item::CommandParticles *particles_cmd = static_cast(c); diff --git a/editor/editor_node.cpp b/editor/editor_node.cpp index 6d94aedfa97d..3ef6d65ab4a3 100644 --- a/editor/editor_node.cpp +++ b/editor/editor_node.cpp @@ -100,6 +100,7 @@ #include "editor/plugins/shader_editor_plugin.h" #include "editor/plugins/shader_graph_editor_plugin.h" #include "editor/plugins/spatial_editor_plugin.h" +#include "editor/plugins/sprite_editor_plugin.h" #include "editor/plugins/sprite_frames_editor_plugin.h" #include "editor/plugins/style_box_editor_plugin.h" #include "editor/plugins/texture_editor_plugin.h" @@ -5671,6 +5672,7 @@ EditorNode::EditorNode() { add_editor_plugin(memnew(AnimationTreeEditorPlugin(this))); add_editor_plugin(memnew(MeshLibraryEditorPlugin(this))); add_editor_plugin(memnew(StyleBoxEditorPlugin(this))); + add_editor_plugin(memnew(SpriteEditorPlugin(this))); add_editor_plugin(memnew(ParticlesEditorPlugin(this))); add_editor_plugin(memnew(ResourcePreloaderEditorPlugin(this))); add_editor_plugin(memnew(ItemListEditorPlugin(this))); @@ -5693,7 +5695,7 @@ EditorNode::EditorNode() { add_editor_plugin(memnew(CollisionShape2DEditorPlugin(this))); add_editor_plugin(memnew(CurveEditorPlugin(this))); add_editor_plugin(memnew(TextureEditorPlugin(this))); - add_editor_plugin(memnew(MeshEditorPlugin(this))); + add_editor_plugin(memnew(AudioBusesEditorPlugin(audio_bus_editor))); add_editor_plugin(memnew(AudioBusesEditorPlugin(audio_bus_editor))); add_editor_plugin(memnew(NavigationMeshEditorPlugin(this))); diff --git a/editor/plugins/sprite_editor_plugin.cpp b/editor/plugins/sprite_editor_plugin.cpp new file mode 100644 index 000000000000..77ad89a22b96 --- /dev/null +++ b/editor/plugins/sprite_editor_plugin.cpp @@ -0,0 +1,396 @@ +#include "sprite_editor_plugin.h" + +#include "canvas_item_editor_plugin.h" +#include "scene/2d/mesh_instance_2d.h" +#include "scene/gui/box_container.h" +#include "thirdparty/misc/clipper.hpp" + +void SpriteEditor::_node_removed(Node *p_node) { + + if (p_node == node) { + node = NULL; + options->hide(); + } +} + +void SpriteEditor::edit(Sprite *p_sprite) { + + node = p_sprite; +} + +#define PRECISION 10.0 + +Vector expand(const Vector &points, const Rect2i &rect, float epsilon = 2.0) { + int size = points.size(); + ERR_FAIL_COND_V(size < 2, Vector()); + + ClipperLib::Path subj; + ClipperLib::PolyTree solution; + ClipperLib::PolyTree out; + + for (int i = 0; i < points.size(); i++) { + + subj << ClipperLib::IntPoint(points[i].x * PRECISION, points[i].y * PRECISION); + } + ClipperLib::ClipperOffset co; + co.AddPath(subj, ClipperLib::jtMiter, ClipperLib::etClosedPolygon); + co.Execute(solution, epsilon * PRECISION); + + ClipperLib::PolyNode *p = solution.GetFirst(); + + ERR_FAIL_COND_V(!p, points); + + while (p->IsHole()) { + p = p->GetNext(); + } + + //turn the result into simply polygon (AKA, fix overlap) + + //clamp into the specified rect + ClipperLib::Clipper cl; + cl.StrictlySimple(true); + cl.AddPath(p->Contour, ClipperLib::ptSubject, true); + //create the clipping rect + ClipperLib::Path clamp; + clamp.push_back(ClipperLib::IntPoint(0, 0)); + clamp.push_back(ClipperLib::IntPoint(rect.size.width * PRECISION, 0)); + clamp.push_back(ClipperLib::IntPoint(rect.size.width * PRECISION, rect.size.height * PRECISION)); + clamp.push_back(ClipperLib::IntPoint(0, rect.size.height * PRECISION)); + cl.AddPath(clamp, ClipperLib::ptClip, true); + cl.Execute(ClipperLib::ctIntersection, out); + + Vector outPoints; + ClipperLib::PolyNode *p2 = out.GetFirst(); + while (p2->IsHole()) { + p2 = p2->GetNext(); + } + + int lasti = p2->Contour.size() - 1; + Vector2 prev = Vector2(p2->Contour[lasti].X / PRECISION, p2->Contour[lasti].Y / PRECISION); + for (int i = 0; i < p2->Contour.size(); i++) { + + Vector2 cur = Vector2(p2->Contour[i].X / PRECISION, p2->Contour[i].Y / PRECISION); + if (cur.distance_to(prev) > 0.5) { + outPoints.push_back(cur); + prev = cur; + } + } + return outPoints; +} + +void SpriteEditor::_menu_option(int p_option) { + + switch (p_option) { + case MENU_OPTION_CREATE_MESH_2D: { + + _update_mesh_data(); + debug_uv_dialog->popup_centered(); + debug_uv->update(); + + } break; + } +} + +void SpriteEditor::_update_mesh_data() { + + Ref texture = node->get_texture(); + if (texture.is_null()) { + err_dialog->set_text(TTR("Sprite is empty!")); + err_dialog->popup_centered_minsize(); + return; + } + + if (node->get_hframes() > 1 || node->get_vframes() > 1) { + err_dialog->set_text(TTR("Can't convert a sprite using animation frames to mesh.")); + err_dialog->popup_centered_minsize(); + return; + } + Ref image = texture->get_data(); + ERR_FAIL_COND(image.is_null()); + Rect2 rect; + if (node->is_region()) + rect = node->get_region_rect(); + else + rect.size = Size2(image->get_width(), image->get_height()); + + Ref bm; + bm.instance(); + bm->create_from_image_alpha(image); + + int grow = island_merging->get_value(); + if (grow > 0) { + bm->grow_mask(grow, rect); + } + + float epsilon = simplification->get_value(); + + Vector > lines = bm->clip_opaque_to_polygons(rect, epsilon); + + print_line("lines: " + itos(lines.size())); + uv_lines.clear(); + + computed_vertices.clear(); + computed_indices.clear(); + + Size2 img_size = Vector2(image->get_width(), image->get_height()); + for (int j = 0; j < lines.size(); j++) { + lines[j] = expand(lines[j], rect, epsilon); + + int index_ofs = computed_vertices.size(); + + for (int i = 0; i < lines[j].size(); i++) { + Vector2 vtx = lines[j][i]; + computed_uv.push_back(vtx / img_size); + + vtx -= rect.position; //offset by rect position + + //flip if flipped + if (node->is_flipped_h()) + vtx.x = rect.size.x - vtx.x - 1.0; + if (node->is_flipped_v()) + vtx.y = rect.size.y - vtx.y - 1.0; + + if (node->is_centered()) + vtx -= rect.size / 2.0; + + computed_vertices.push_back(vtx); + } +#if 0 + Vector > polys = Geometry::decompose_polygon(lines[j]); + print_line("polygon: " + itos(polys.size())); + + for (int i = 0; i < polys.size(); i++) { + for (int k = 0; k < polys[i].size(); k++) { + + int idxn = (k + 1) % polys[i].size(); + uv_lines.push_back(polys[i][k]); + uv_lines.push_back(polys[i][idxn]); + } + } +#endif + +#if 1 + + Vector poly = Geometry::triangulate_polygon(lines[j]); + + for (int i = 0; i < poly.size(); i += 3) { + for (int k = 0; k < 3; k++) { + int idx = i + k; + int idxn = i + (k + 1) % 3; + uv_lines.push_back(lines[j][poly[idx]]); + uv_lines.push_back(lines[j][poly[idxn]]); + + computed_indices.push_back(poly[idx] + index_ofs); + } + } +#endif + +#if 0 + for (int i = 0; i < lines[j].size() - 1; i++) { + uv_lines.push_back(lines[j][i]); + uv_lines.push_back(lines[j][i + 1]); + } +#endif + } + + debug_uv->update(); +} + +void SpriteEditor::_create_mesh_node() { + + if (computed_vertices.size() < 3) { + err_dialog->set_text(TTR("Invalid geometry, can't replace by mesh.")); + err_dialog->popup_centered_minsize(); + return; + } + + Ref mesh; + mesh.instance(); + + Array a; + a.resize(Mesh::ARRAY_MAX); + a[Mesh::ARRAY_VERTEX] = computed_vertices; + a[Mesh::ARRAY_TEX_UV] = computed_uv; + a[Mesh::ARRAY_INDEX] = computed_indices; + + mesh->add_surface_from_arrays(Mesh::PRIMITIVE_TRIANGLES, a, Array(), Mesh::ARRAY_FLAG_USE_2D_VERTICES); + + MeshInstance2D *mesh_instance = memnew(MeshInstance2D); + mesh_instance->set_mesh(mesh); + EditorNode::get_singleton()->get_scene_tree_dock()->replace_node(node, mesh_instance); +} + +#if 0 +void SpriteEditor::_create_uv_lines() { + + Ref sprite = node->get_sprite(); + ERR_FAIL_COND(!sprite.is_valid()); + + Set edges; + uv_lines.clear(); + for (int i = 0; i < sprite->get_surface_count(); i++) { + if (sprite->surface_get_primitive_type(i) != Mesh::PRIMITIVE_TRIANGLES) + continue; + Array a = sprite->surface_get_arrays(i); + + PoolVector uv = a[p_layer == 0 ? Mesh::ARRAY_TEX_UV : Mesh::ARRAY_TEX_UV2]; + if (uv.size() == 0) { + err_dialog->set_text(TTR("Model has no UV in this layer")); + err_dialog->popup_centered_minsize(); + return; + } + + PoolVector::Read r = uv.read(); + + PoolVector indices = a[Mesh::ARRAY_INDEX]; + PoolVector::Read ri; + + int ic; + bool use_indices; + + if (indices.size()) { + ic = indices.size(); + ri = indices.read(); + use_indices = true; + } else { + ic = uv.size(); + use_indices = false; + } + + for (int j = 0; j < ic; j += 3) { + + for (int k = 0; k < 3; k++) { + + SpriteEditorEdgeSort edge; + if (use_indices) { + edge.a = r[ri[j + k]]; + edge.b = r[ri[j + ((k + 1) % 3)]]; + } else { + edge.a = r[j + k]; + edge.b = r[j + ((k + 1) % 3)]; + } + + if (edges.has(edge)) + continue; + + uv_lines.push_back(edge.a); + uv_lines.push_back(edge.b); + edges.insert(edge); + } + } + } + + debug_uv_dialog->popup_centered_minsize(); +} +#endif +void SpriteEditor::_debug_uv_draw() { + + if (uv_lines.size() == 0) + return; + + Ref tex = node->get_texture(); + ERR_FAIL_COND(!tex.is_valid()); + debug_uv->set_clip_contents(true); + debug_uv->draw_texture(tex, Point2()); + debug_uv->set_custom_minimum_size(tex->get_size()); + //debug_uv->draw_set_transform(Vector2(), 0, debug_uv->get_size()); + debug_uv->draw_multiline(uv_lines, Color(1.0, 0.8, 0.7)); +} + +void SpriteEditor::_bind_methods() { + + ClassDB::bind_method("_menu_option", &SpriteEditor::_menu_option); + ClassDB::bind_method("_debug_uv_draw", &SpriteEditor::_debug_uv_draw); + ClassDB::bind_method("_update_mesh_data", &SpriteEditor::_update_mesh_data); + ClassDB::bind_method("_create_mesh_node", &SpriteEditor::_create_mesh_node); +} + +SpriteEditor::SpriteEditor() { + + options = memnew(MenuButton); + + CanvasItemEditor::get_singleton()->add_control_to_menu_panel(options); + + options->set_text(TTR("Sprite")); + options->set_icon(EditorNode::get_singleton()->get_gui_base()->get_icon("Sprite", "EditorIcons")); + + options->get_popup()->add_item(TTR("Convert to 2D Mesh"), MENU_OPTION_CREATE_MESH_2D); + + options->get_popup()->connect("id_pressed", this, "_menu_option"); + + err_dialog = memnew(AcceptDialog); + add_child(err_dialog); + + debug_uv_dialog = memnew(ConfirmationDialog); + debug_uv_dialog->get_ok()->set_text(TTR("Create 2D Mesh")); + debug_uv_dialog->set_title("Mesh 2D Preview"); + VBoxContainer *vb = memnew(VBoxContainer); + debug_uv_dialog->add_child(vb); + ScrollContainer *scroll = memnew(ScrollContainer); + scroll->set_custom_minimum_size(Size2(800, 500) * EDSCALE); + scroll->set_enable_h_scroll(true); + scroll->set_enable_v_scroll(true); + vb->add_margin_child(TTR("Preview:"), scroll, true); + debug_uv = memnew(Control); + debug_uv->connect("draw", this, "_debug_uv_draw"); + scroll->add_child(debug_uv); + debug_uv_dialog->connect("confirmed", this, "_create_mesh_node"); + + HBoxContainer *hb = memnew(HBoxContainer); + hb->add_child(memnew(Label(TTR("Simplification: ")))); + simplification = memnew(SpinBox); + simplification->set_min(0.01); + simplification->set_max(10.00); + simplification->set_step(0.01); + simplification->set_value(2); + hb->add_child(simplification); + hb->add_spacer(); + hb->add_child(memnew(Label(TTR("Grow (Pixels): ")))); + island_merging = memnew(SpinBox); + island_merging->set_min(0); + island_merging->set_max(10); + island_merging->set_step(1); + island_merging->set_value(2); + hb->add_child(island_merging); + hb->add_spacer(); + update_preview = memnew(Button); + update_preview->set_text(TTR("Update Preview")); + update_preview->connect("pressed", this, "_update_mesh_data"); + hb->add_child(update_preview); + vb->add_margin_child(TTR("Settings:"), hb); + + add_child(debug_uv_dialog); +} + +void SpriteEditorPlugin::edit(Object *p_object) { + + sprite_editor->edit(Object::cast_to(p_object)); +} + +bool SpriteEditorPlugin::handles(Object *p_object) const { + + return p_object->is_class("Sprite"); +} + +void SpriteEditorPlugin::make_visible(bool p_visible) { + + if (p_visible) { + sprite_editor->options->show(); + } else { + + sprite_editor->options->hide(); + sprite_editor->edit(NULL); + } +} + +SpriteEditorPlugin::SpriteEditorPlugin(EditorNode *p_node) { + + editor = p_node; + sprite_editor = memnew(SpriteEditor); + editor->get_viewport()->add_child(sprite_editor); + + //sprite_editor->options->hide(); +} + +SpriteEditorPlugin::~SpriteEditorPlugin() { +} diff --git a/editor/plugins/sprite_editor_plugin.h b/editor/plugins/sprite_editor_plugin.h new file mode 100644 index 000000000000..17aa3eb1f9de --- /dev/null +++ b/editor/plugins/sprite_editor_plugin.h @@ -0,0 +1,73 @@ +#ifndef SPRITE_EDITOR_PLUGIN_H +#define SPRITE_EDITOR_PLUGIN_H + +#include "editor/editor_node.h" +#include "editor/editor_plugin.h" +#include "scene/2d/sprite.h" +#include "scene/gui/spin_box.h" + +class SpriteEditor : public Control { + + GDCLASS(SpriteEditor, Control); + + enum Menu { + MENU_OPTION_CREATE_MESH_2D, + }; + + Sprite *node; + + MenuButton *options; + + ConfirmationDialog *outline_dialog; + + AcceptDialog *err_dialog; + + ConfirmationDialog *debug_uv_dialog; + Control *debug_uv; + Vector uv_lines; + + Vector computed_vertices; + Vector computed_uv; + Vector computed_indices; + + SpinBox *simplification; + SpinBox *island_merging; + Button *update_preview; + + void _menu_option(int p_option); + + //void _create_uv_lines(); + friend class SpriteEditorPlugin; + + void _debug_uv_draw(); + void _update_mesh_data(); + void _create_mesh_node(); + +protected: + void _node_removed(Node *p_node); + static void _bind_methods(); + +public: + void edit(Sprite *p_sprite); + SpriteEditor(); +}; + +class SpriteEditorPlugin : public EditorPlugin { + + GDCLASS(SpriteEditorPlugin, EditorPlugin); + + SpriteEditor *sprite_editor; + EditorNode *editor; + +public: + virtual String get_name() const { return "Sprite"; } + bool has_main_screen() const { return false; } + virtual void edit(Object *p_object); + virtual bool handles(Object *p_object) const; + virtual void make_visible(bool p_visible); + + SpriteEditorPlugin(EditorNode *p_node); + ~SpriteEditorPlugin(); +}; + +#endif // SPRITE_EDITOR_PLUGIN_H diff --git a/editor/scene_tree_dock.cpp b/editor/scene_tree_dock.cpp index 45622d43e8ad..9f0f62592bb1 100644 --- a/editor/scene_tree_dock.cpp +++ b/editor/scene_tree_dock.cpp @@ -1402,73 +1402,80 @@ void SceneTreeDock::_create() { Node *newnode = Object::cast_to(c); ERR_FAIL_COND(!newnode); - List pinfo; - n->get_property_list(&pinfo); - - for (List::Element *E = pinfo.front(); E; E = E->next()) { - if (!(E->get().usage & PROPERTY_USAGE_STORAGE)) - continue; - if (E->get().name == "__meta__") - continue; - newnode->set(E->get().name, n->get(E->get().name)); - } - - editor->push_item(NULL); - - //reconnect signals - List sl; - - n->get_signal_list(&sl); - for (List::Element *E = sl.front(); E; E = E->next()) { - - List cl; - n->get_signal_connection_list(E->get().name, &cl); - - for (List::Element *F = cl.front(); F; F = F->next()) { - - Object::Connection &c = F->get(); - if (!(c.flags & Object::CONNECT_PERSIST)) - continue; - newnode->connect(c.signal, c.target, c.method, varray(), Object::CONNECT_PERSIST); - } - } - - String newname = n->get_name(); - - List to_erase; - for (int i = 0; i < n->get_child_count(); i++) { - if (n->get_child(i)->get_owner() == NULL && n->is_owned_by_parent()) { - to_erase.push_back(n->get_child(i)); - } - } - n->replace_by(newnode, true); - - if (n == edited_scene) { - edited_scene = newnode; - editor->set_edited_scene(newnode); - newnode->set_editable_instances(n->get_editable_instances()); - } - - //small hack to make collisionshapes and other kind of nodes to work - for (int i = 0; i < newnode->get_child_count(); i++) { - Node *c = newnode->get_child(i); - c->call("set_transform", c->call("get_transform")); - } - editor_data->get_undo_redo().clear_history(); - newnode->set_name(newname); - - editor->push_item(newnode); - - memdelete(n); - - while (to_erase.front()) { - memdelete(to_erase.front()->get()); - to_erase.pop_front(); - } + replace_node(n, newnode); } } } +void SceneTreeDock::replace_node(Node *p_node, Node *p_by_node) { + + Node *n = p_node; + Node *newnode = p_by_node; + List pinfo; + n->get_property_list(&pinfo); + + for (List::Element *E = pinfo.front(); E; E = E->next()) { + if (!(E->get().usage & PROPERTY_USAGE_STORAGE)) + continue; + if (E->get().name == "__meta__") + continue; + newnode->set(E->get().name, n->get(E->get().name)); + } + + editor->push_item(NULL); + + //reconnect signals + List sl; + + n->get_signal_list(&sl); + for (List::Element *E = sl.front(); E; E = E->next()) { + + List cl; + n->get_signal_connection_list(E->get().name, &cl); + + for (List::Element *F = cl.front(); F; F = F->next()) { + + Object::Connection &c = F->get(); + if (!(c.flags & Object::CONNECT_PERSIST)) + continue; + newnode->connect(c.signal, c.target, c.method, varray(), Object::CONNECT_PERSIST); + } + } + + String newname = n->get_name(); + + List to_erase; + for (int i = 0; i < n->get_child_count(); i++) { + if (n->get_child(i)->get_owner() == NULL && n->is_owned_by_parent()) { + to_erase.push_back(n->get_child(i)); + } + } + n->replace_by(newnode, true); + + if (n == edited_scene) { + edited_scene = newnode; + editor->set_edited_scene(newnode); + newnode->set_editable_instances(n->get_editable_instances()); + } + + //small hack to make collisionshapes and other kind of nodes to work + for (int i = 0; i < newnode->get_child_count(); i++) { + Node *c = newnode->get_child(i); + c->call("set_transform", c->call("get_transform")); + } + editor_data->get_undo_redo().clear_history(); + newnode->set_name(newname); + + editor->push_item(newnode); + + memdelete(n); + + while (to_erase.front()) { + memdelete(to_erase.front()->get()); + to_erase.pop_front(); + } +} + void SceneTreeDock::set_edited_scene(Node *p_scene) { edited_scene = p_scene; diff --git a/editor/scene_tree_dock.h b/editor/scene_tree_dock.h index 0a68aa7dc2d2..a4f36e31ee4d 100644 --- a/editor/scene_tree_dock.h +++ b/editor/scene_tree_dock.h @@ -208,6 +208,8 @@ public: void show_tab_buttons(); void hide_tab_buttons(); + void replace_node(Node *p_node, Node *p_by_node); + void open_script_dialog(Node *p_for_node); SceneTreeDock(EditorNode *p_editor, Node *p_scene_root, EditorSelection *p_editor_selection, EditorData &p_editor_data); }; diff --git a/scene/2d/canvas_item.cpp b/scene/2d/canvas_item.cpp index 87bcdae5277f..8d7fce8cc4b7 100644 --- a/scene/2d/canvas_item.cpp +++ b/scene/2d/canvas_item.cpp @@ -684,7 +684,7 @@ void CanvasItem::draw_texture(const Ref &p_texture, const Point2 &p_pos ERR_FAIL_COND(p_texture.is_null()); - p_texture->draw(canvas_item, p_pos, p_modulate); + p_texture->draw(canvas_item, p_pos, p_modulate, false, p_normal_map); } void CanvasItem::draw_texture_rect(const Ref &p_texture, const Rect2 &p_rect, bool p_tile, const Color &p_modulate, bool p_transpose, const Ref &p_normal_map) { @@ -779,6 +779,22 @@ void CanvasItem::draw_colored_polygon(const Vector &p_points, const Colo VisualServer::get_singleton()->canvas_item_add_polygon(canvas_item, p_points, colors, p_uvs, rid, rid_normal, p_antialiased); } +void CanvasItem::draw_mesh(const Ref &p_mesh, const Ref &p_texture, const Ref &p_normal_map, RID p_skeleton) { + + ERR_FAIL_COND(p_mesh.is_null()); + RID texture_rid = p_texture.is_valid() ? p_texture->get_rid() : RID(); + RID normal_map_rid = p_normal_map.is_valid() ? p_normal_map->get_rid() : RID(); + + VisualServer::get_singleton()->canvas_item_add_mesh(canvas_item, p_mesh->get_rid(), texture_rid, normal_map_rid, p_skeleton); +} +void CanvasItem::draw_multimesh(const Ref &p_multimesh, const Ref &p_texture, const Ref &p_normal_map) { + + ERR_FAIL_COND(p_multimesh.is_null()); + RID texture_rid = p_texture.is_valid() ? p_texture->get_rid() : RID(); + RID normal_map_rid = p_normal_map.is_valid() ? p_normal_map->get_rid() : RID(); + VisualServer::get_singleton()->canvas_item_add_multimesh(canvas_item, p_multimesh->get_rid(), texture_rid, normal_map_rid); +} + void CanvasItem::draw_string(const Ref &p_font, const Point2 &p_pos, const String &p_text, const Color &p_modulate, int p_clip_w) { if (!drawing) { @@ -1016,6 +1032,8 @@ void CanvasItem::_bind_methods() { ClassDB::bind_method(D_METHOD("draw_colored_polygon", "points", "color", "uvs", "texture", "normal_map", "antialiased"), &CanvasItem::draw_colored_polygon, DEFVAL(PoolVector2Array()), DEFVAL(Variant()), DEFVAL(Variant()), DEFVAL(false)); ClassDB::bind_method(D_METHOD("draw_string", "font", "position", "text", "modulate", "clip_w"), &CanvasItem::draw_string, DEFVAL(Color(1, 1, 1)), DEFVAL(-1)); ClassDB::bind_method(D_METHOD("draw_char", "font", "position", "char", "next", "modulate"), &CanvasItem::draw_char, DEFVAL(Color(1, 1, 1))); + ClassDB::bind_method(D_METHOD("draw_mesh", "mesh", "texture", "normal_map", "skeleton"), &CanvasItem::draw_mesh, DEFVAL(Ref()), DEFVAL(RID())); + ClassDB::bind_method(D_METHOD("draw_multimesh", "mesh", "texture", "normal_map"), &CanvasItem::draw_mesh, DEFVAL(Ref())); ClassDB::bind_method(D_METHOD("draw_set_transform", "position", "rotation", "scale"), &CanvasItem::draw_set_transform); ClassDB::bind_method(D_METHOD("draw_set_transform_matrix", "xform"), &CanvasItem::draw_set_transform_matrix); diff --git a/scene/2d/canvas_item.h b/scene/2d/canvas_item.h index 68384b9f1eb3..d0bf584b38b9 100644 --- a/scene/2d/canvas_item.h +++ b/scene/2d/canvas_item.h @@ -34,6 +34,7 @@ #include "scene/main/node.h" #include "scene/main/scene_tree.h" #include "scene/resources/material.h" +#include "scene/resources/multimesh.h" #include "scene/resources/shader.h" #include "scene/resources/texture.h" @@ -282,6 +283,9 @@ public: void draw_polygon(const Vector &p_points, const Vector &p_colors, const Vector &p_uvs = Vector(), Ref p_texture = Ref(), const Ref &p_normal_map = Ref(), bool p_antialiased = false); void draw_colored_polygon(const Vector &p_points, const Color &p_color, const Vector &p_uvs = Vector(), Ref p_texture = Ref(), const Ref &p_normal_map = Ref(), bool p_antialiased = false); + void draw_mesh(const Ref &p_mesh, const Ref &p_texture, const Ref &p_normal_map, RID p_skeleton); + void draw_multimesh(const Ref &p_multimesh, const Ref &p_texture, const Ref &p_normal_map); + void draw_string(const Ref &p_font, const Point2 &p_pos, const String &p_text, const Color &p_modulate = Color(1, 1, 1), int p_clip_w = -1); float draw_char(const Ref &p_font, const Point2 &p_pos, const String &p_char, const String &p_next = "", const Color &p_modulate = Color(1, 1, 1)); diff --git a/scene/2d/mesh_instance_2d.cpp b/scene/2d/mesh_instance_2d.cpp new file mode 100644 index 000000000000..184942663f4a --- /dev/null +++ b/scene/2d/mesh_instance_2d.cpp @@ -0,0 +1,76 @@ +#include "mesh_instance_2d.h" + +void MeshInstance2D::_notification(int p_what) { + + if (p_what == NOTIFICATION_DRAW) { + if (mesh.is_valid()) { + draw_mesh(mesh, texture, normal_map, RID()); + } + } +} + +void MeshInstance2D::_bind_methods() { + + ClassDB::bind_method(D_METHOD("set_mesh", "mesh"), &MeshInstance2D::set_mesh); + ClassDB::bind_method(D_METHOD("get_mesh"), &MeshInstance2D::get_mesh); + + ClassDB::bind_method(D_METHOD("set_texture", "texture"), &MeshInstance2D::set_texture); + ClassDB::bind_method(D_METHOD("get_texture"), &MeshInstance2D::get_texture); + + ClassDB::bind_method(D_METHOD("set_normal_map", "normal_map"), &MeshInstance2D::set_normal_map); + ClassDB::bind_method(D_METHOD("get_normal_map"), &MeshInstance2D::get_normal_map); + + ADD_PROPERTY(PropertyInfo(Variant::OBJECT, "mesh", PROPERTY_HINT_RESOURCE_TYPE, "Mesh"), "set_mesh", "get_mesh"); + ADD_PROPERTYNZ(PropertyInfo(Variant::OBJECT, "texture", PROPERTY_HINT_RESOURCE_TYPE, "Texture"), "set_texture", "get_texture"); + ADD_PROPERTYNZ(PropertyInfo(Variant::OBJECT, "normal_map", PROPERTY_HINT_RESOURCE_TYPE, "Texture"), "set_normal_map", "get_normal_map"); +} + +void MeshInstance2D::set_mesh(const Ref &p_mesh) { + + mesh = p_mesh; + update(); +} + +Ref MeshInstance2D::get_mesh() const { + + return mesh; +} + +void MeshInstance2D::set_texture(const Ref &p_texture) { + + if (p_texture == texture) + return; + texture = p_texture; + update(); + emit_signal("texture_changed"); + _change_notify("texture"); +} + +void MeshInstance2D::set_normal_map(const Ref &p_texture) { + + normal_map = p_texture; + update(); +} + +Ref MeshInstance2D::get_normal_map() const { + + return normal_map; +} + +Ref MeshInstance2D::get_texture() const { + + return texture; +} + +Rect2 MeshInstance2D::_edit_get_rect() const { + + if (mesh.is_valid()) { + AABB aabb = mesh->get_aabb(); + return Rect2(aabb.position.x, aabb.position.y, aabb.size.x, aabb.size.y); + } + + return Node2D::_edit_get_rect(); +} + +MeshInstance2D::MeshInstance2D() { +} diff --git a/scene/2d/mesh_instance_2d.h b/scene/2d/mesh_instance_2d.h new file mode 100644 index 000000000000..d1d1ade0ae46 --- /dev/null +++ b/scene/2d/mesh_instance_2d.h @@ -0,0 +1,33 @@ +#ifndef MESH_INSTANCE_2D_H +#define MESH_INSTANCE_2D_H + +#include "scene/2d/node_2d.h" + +class MeshInstance2D : public Node2D { + GDCLASS(MeshInstance2D, Node2D) + + Ref mesh; + + Ref texture; + Ref normal_map; + +protected: + void _notification(int p_what); + static void _bind_methods(); + +public: + void set_mesh(const Ref &p_mesh); + Ref get_mesh() const; + + void set_texture(const Ref &p_texture); + Ref get_texture() const; + + void set_normal_map(const Ref &p_texture); + Ref get_normal_map() const; + + virtual Rect2 _edit_get_rect() const; + + MeshInstance2D(); +}; + +#endif // MESH_INSTANCE_2D_H diff --git a/scene/register_scene_types.cpp b/scene/register_scene_types.cpp index bb0cf168af7b..19d8f09ebe46 100644 --- a/scene/register_scene_types.cpp +++ b/scene/register_scene_types.cpp @@ -46,6 +46,7 @@ #include "scene/2d/light_2d.h" #include "scene/2d/light_occluder_2d.h" #include "scene/2d/line_2d.h" +#include "scene/2d/mesh_instance_2d.h" #include "scene/2d/navigation2d.h" #include "scene/2d/parallax_background.h" #include "scene/2d/parallax_layer.h" @@ -434,6 +435,7 @@ void register_scene_types() { ClassDB::register_class(); ClassDB::register_class(); ClassDB::register_class(); + ClassDB::register_class(); ClassDB::register_virtual_class(); ClassDB::register_virtual_class(); ClassDB::register_class(); diff --git a/scene/resources/bit_mask.cpp b/scene/resources/bit_mask.cpp index ea313b5a2020..6932a98c1747 100644 --- a/scene/resources/bit_mask.cpp +++ b/scene/resources/bit_mask.cpp @@ -42,7 +42,7 @@ void BitMap::create(const Size2 &p_size) { zeromem(bitmask.ptrw(), bitmask.size()); } -void BitMap::create_from_image_alpha(const Ref &p_image) { +void BitMap::create_from_image_alpha(const Ref &p_image, float p_treshold) { ERR_FAIL_COND(p_image.is_null() || p_image->empty()); Ref img = p_image->duplicate(); @@ -58,8 +58,9 @@ void BitMap::create_from_image_alpha(const Ref &p_image) { int bbyte = i / 8; int bbit = i % 8; - if (r[i * 2]) + if (r[i * 2 + 1] / 255.0 > p_treshold) { w[bbyte] |= (1 << bbit); + } } } @@ -168,10 +169,351 @@ Dictionary BitMap::_get_data() const { return d; } +Vector BitMap::_march_square(const Rect2i &rect, const Point2i &start) const { + + int stepx = 0; + int stepy = 0; + int prevx = 0; + int prevy = 0; + int startx = start.x; + int starty = start.y; + int curx = startx; + int cury = starty; + unsigned int count = 0; + Set case9s; + Set case6s; + int i; + Vector _points; + do { + int sv = 0; + { //square value + + /* + checking the 2x2 pixel grid, assigning these values to each pixel, if not transparent + +---+---+ + | 1 | 2 | + +---+---+ + | 4 | 8 | <- current pixel (curx,cury) + +---+---+ + */ + //NOTE: due to the way we pick points from texture, rect needs to be smaller, otherwise it goes outside 1 pixel + Rect2i fixed_rect = Rect2i(rect.position, rect.size - Size2i(2, 2)); + Point2i tl = Point2i(curx - 1, cury - 1); + sv += (fixed_rect.has_point(tl) && get_bit(tl)) ? 1 : 0; + Point2i tr = Point2i(curx, cury - 1); + sv += (fixed_rect.has_point(tr) && get_bit(tr)) ? 2 : 0; + Point2i bl = Point2i(curx - 1, cury); + sv += (fixed_rect.has_point(bl) && get_bit(bl)) ? 4 : 0; + Point2i br = Point2i(curx, cury); + sv += (fixed_rect.has_point(br) && get_bit(br)) ? 8 : 0; + ERR_FAIL_COND_V(sv == 0 || sv == 15, Vector()); + } + + switch (sv) { + + case 1: + case 5: + case 13: + /* going UP with these cases: + 1 5 13 + +---+---+ +---+---+ +---+---+ + | 1 | | | 1 | | | 1 | | + +---+---+ +---+---+ +---+---+ + | | | | 4 | | | 4 | 8 | + +---+---+ +---+---+ +---+---+ + */ + stepx = 0; + stepy = -1; + break; + + case 8: + case 10: + case 11: + /* going DOWN with these cases: + 8 10 11 + +---+---+ +---+---+ +---+---+ + | | | | | 2 | | 1 | 2 | + +---+---+ +---+---+ +---+---+ + | | 8 | | | 8 | | | 8 | + +---+---+ +---+---+ +---+---+ + */ + stepx = 0; + stepy = 1; + break; + + case 4: + case 12: + case 14: + /* going LEFT with these cases: + 4 12 14 + +---+---+ +---+---+ +---+---+ + | | | | | | | | 2 | + +---+---+ +---+---+ +---+---+ + | 4 | | | 4 | 8 | | 4 | 8 | + +---+---+ +---+---+ +---+---+ + */ + stepx = -1; + stepy = 0; + break; + + case 2: + case 3: + case 7: + /* going RIGHT with these cases: + 2 3 7 + +---+---+ +---+---+ +---+---+ + | | 2 | | 1 | 2 | | 1 | 2 | + +---+---+ +---+---+ +---+---+ + | | | | | | | 4 | | + +---+---+ +---+---+ +---+---+ + */ + stepx = 1; + stepy = 0; + break; + case 9: + /* + +---+---+ + | 1 | | + +---+---+ + | | 8 | + +---+---+ + this should normally go UP, but if we already been here, we go down + */ + if (case9s.has(Point2i(curx, cury))) { + //found, so we go down, and delete from case9s; + stepx = 0; + stepy = 1; + case9s.erase(Point2i(curx, cury)); + } else { + //not found, we go up, and add to case9s; + stepx = 0; + stepy = -1; + case9s.insert(Point2i(curx, cury)); + } + break; + case 6: + /* + 6 + +---+---+ + | | 2 | + +---+---+ + | 4 | | + +---+---+ + this normally go RIGHT, but if its coming from UP, it should go LEFT + */ + if (case6s.has(Point2i(curx, cury))) { + //found, so we go down, and delete from case6s; + stepx = -1; + stepy = 0; + case6s.erase(Point2i(curx, cury)); + } else { + //not found, we go up, and add to case6s; + stepx = 1; + stepy = 0; + case6s.insert(Point2i(curx, cury)); + } + break; + default: + ERR_PRINT("this shouldn't happen."); + } + //little optimization + // if previous direction is same as current direction, + // then we should modify the last vec to current + curx += stepx; + cury += stepy; + if (stepx == prevx && stepy == prevy) { + _points[_points.size() - 1].x = (float)(curx - rect.position.x); + _points[_points.size() - 1].y = (float)(cury + rect.position.y); + } else { + _points.push_back(Vector2((float)(curx - rect.position.x), (float)(cury + rect.position.y))); + } + + count++; + prevx = stepx; + prevy = stepy; + + ERR_FAIL_COND_V(count > width * height, _points); + } while (curx != startx || cury != starty); + return _points; +} + +static float perpendicular_distance(const Vector2 &i, const Vector2 &start, const Vector2 &end) { + float res; + float slope; + float intercept; + + if (start.x == end.x) { + res = Math::absf(i.x - end.x); + } else if (start.y == end.y) { + res = Math::absf(i.y - end.y); + } else { + slope = (end.y - start.y) / (end.x - start.x); + intercept = start.y - (slope * start.x); + res = Math::absf(slope * i.x - i.y + intercept) / Math::sqrt(Math::pow(slope, 2.0f) + 1.0); + } + return res; +} + +static Vector rdp(const Vector &v, float optimization) { + if (v.size() < 3) + return v; + + int index = -1; + float dist = 0; + //not looping first and last point + for (size_t i = 1, size = v.size(); i < size - 1; ++i) { + float cdist = perpendicular_distance(v[i], v[0], v[v.size() - 1]); + if (cdist > dist) { + dist = cdist; + index = static_cast(i); + } + } + if (dist > optimization) { + + Vector left, right; + left.resize(index); + for (int i = 0; i < index; i++) { + left[i] = v[i]; + } + right.resize(v.size() - index); + for (int i = 0; i < right.size(); i++) { + right[i] = v[index + i]; + } + Vector r1 = rdp(left, optimization); + Vector r2 = rdp(right, optimization); + + int middle = r1.size(); + r1.resize(r1.size() + r2.size()); + for (int i = 0; i < r2.size(); i++) { + r1[middle + i] = r2[i]; + } + return r1; + } else { + Vector ret; + ret.push_back(v[0]); + ret.push_back(v[v.size() - 1]); + return ret; + } +} + +static Vector reduce(const Vector &points, const Rect2i &rect, float epsilon) { + int size = points.size(); + // if there are less than 3 points, then we have nothing + ERR_FAIL_COND_V(size < 3, Vector()); + // if there are less than 9 points (but more than 3), then we don't need to reduce it + if (size < 9) { + return points; + } + + float maxEp = MIN(rect.size.width, rect.size.height); + float ep = CLAMP(epsilon, 0.0, maxEp / 2); + Vector result = rdp(points, ep); + + Vector2 last = result[result.size() - 1]; + + if (last.y > result[0].y && last.distance_to(result[0]) < ep * 0.5f) { + result[0].y = last.y; + result.resize(result.size() - 1); + } + return result; +} + +static void fill_bits(const BitMap *p_src, Ref &p_map, const Point2i &p_pos, const Rect2i &rect) { + + for (int i = p_pos.x - 1; i <= p_pos.x + 1; i++) { + for (int j = p_pos.y - 1; j <= p_pos.y + 1; j++) { + + if (i < rect.position.x || i >= rect.position.x + rect.size.x) + continue; + if (j < rect.position.y || j >= rect.position.y + rect.size.y) + continue; + + if (p_map->get_bit(Vector2(i, j))) + continue; + + else if (p_src->get_bit(Vector2(i, j))) { + p_map->set_bit(Vector2(i, j), true); + fill_bits(p_src, p_map, Point2i(i, j), rect); + } + } + } +} +Vector > BitMap::clip_opaque_to_polygons(const Rect2 &p_rect, float p_epsilon) const { + + Rect2i r = Rect2i(0, 0, width, height).clip(p_rect); + + print_line("Rect: " + r); + Point2i from; + Ref fill; + fill.instance(); + fill->create(get_size()); + + Vector > polygons; + for (int i = r.position.y; i < r.position.y + r.size.height; i++) { + for (int j = r.position.x; j < r.position.x + r.size.width; j++) { + if (!fill->get_bit(Point2(j, i)) && get_bit(Point2(j, i))) { + + Vector polygon = _march_square(r, Point2i(j, i)); + print_line("pre reduce: " + itos(polygon.size())); + polygon = reduce(polygon, r, p_epsilon); + print_line("post reduce: " + itos(polygon.size())); + polygons.push_back(polygon); + fill_bits(this, fill, Point2i(j, i), r); + } + } + } + + return polygons; +} + +void BitMap::grow_mask(int p_pixels, const Rect2 &p_rect) { + + Rect2i r = Rect2i(0, 0, width, height).clip(p_rect); + + Ref copy; + copy.instance(); + copy->create(get_size()); + copy->bitmask = bitmask; + + for (int i = r.position.y; i < r.position.y + r.size.height; i++) { + for (int j = r.position.x; j < r.position.x + r.size.width; j++) { + if (copy->get_bit(Point2(j, i))) + continue; + + bool found = false; + + for (int y = i - p_pixels; y <= i + p_pixels; y++) { + for (int x = j - p_pixels; x <= j + p_pixels; x++) { + + if (x < p_rect.position.x || x >= p_rect.position.x + p_rect.size.x) + continue; + if (y < p_rect.position.y || y >= p_rect.position.y + p_rect.size.y) + continue; + + float d = Point2(j, i).distance_to(Point2(x, y)) - CMP_EPSILON; + if (d > p_pixels) + continue; + + if (copy->get_bit(Point2(x, y))) { + found = true; + break; + } + } + if (found) + break; + } + + if (found) { + set_bit(Point2(j, i), true); + } + } + } +} + void BitMap::_bind_methods() { ClassDB::bind_method(D_METHOD("create", "size"), &BitMap::create); - ClassDB::bind_method(D_METHOD("create_from_image_alpha", "image"), &BitMap::create_from_image_alpha); + ClassDB::bind_method(D_METHOD("create_from_image_alpha", "image", "treshold"), &BitMap::create_from_image_alpha, DEFVAL(0.1)); ClassDB::bind_method(D_METHOD("set_bit", "position", "bit"), &BitMap::set_bit); ClassDB::bind_method(D_METHOD("get_bit", "position"), &BitMap::get_bit); diff --git a/scene/resources/bit_mask.h b/scene/resources/bit_mask.h index cf126ef96bcf..d69db00d510f 100644 --- a/scene/resources/bit_mask.h +++ b/scene/resources/bit_mask.h @@ -44,6 +44,8 @@ class BitMap : public Resource { int width; int height; + Vector _march_square(const Rect2i &rect, const Point2i &start) const; + protected: void _set_data(const Dictionary &p_d); Dictionary _get_data() const; @@ -52,7 +54,7 @@ protected: public: void create(const Size2 &p_size); - void create_from_image_alpha(const Ref &p_image); + void create_from_image_alpha(const Ref &p_image, float p_treshold = 0.1); void set_bit(const Point2 &p_pos, bool p_value); bool get_bit(const Point2 &p_pos) const; @@ -61,6 +63,10 @@ public: Size2 get_size() const; + void grow_mask(int p_pixels, const Rect2 &p_rect); + + Vector > clip_opaque_to_polygons(const Rect2 &p_rect, float p_epsilon = 2.0) const; + BitMap(); }; diff --git a/servers/visual/rasterizer.h b/servers/visual/rasterizer.h index f2bb853a3b3b..378a05cdfe8a 100644 --- a/servers/visual/rasterizer.h +++ b/servers/visual/rasterizer.h @@ -750,6 +750,8 @@ public: RID mesh; RID skeleton; + RID texture; + RID normal_map; CommandMesh() { type = TYPE_MESH; } }; @@ -757,6 +759,8 @@ public: RID multimesh; RID skeleton; + RID texture; + RID normal_map; CommandMultiMesh() { type = TYPE_MULTIMESH; } }; diff --git a/servers/visual/visual_server_canvas.cpp b/servers/visual/visual_server_canvas.cpp index d82d93a59d17..330b2bd0d2f9 100644 --- a/servers/visual/visual_server_canvas.cpp +++ b/servers/visual/visual_server_canvas.cpp @@ -742,7 +742,7 @@ void VisualServerCanvas::canvas_item_add_set_transform(RID p_item, const Transfo canvas_item->commands.push_back(tr); } -void VisualServerCanvas::canvas_item_add_mesh(RID p_item, const RID &p_mesh, RID p_skeleton) { +void VisualServerCanvas::canvas_item_add_mesh(RID p_item, const RID &p_mesh, RID p_texture, RID p_normal_map, RID p_skeleton) { Item *canvas_item = canvas_item_owner.getornull(p_item); ERR_FAIL_COND(!canvas_item); @@ -750,6 +750,8 @@ void VisualServerCanvas::canvas_item_add_mesh(RID p_item, const RID &p_mesh, RID Item::CommandMesh *m = memnew(Item::CommandMesh); ERR_FAIL_COND(!m); m->mesh = p_mesh; + m->texture = p_texture; + m->normal_map = p_normal_map; m->skeleton = p_skeleton; canvas_item->commands.push_back(m); @@ -774,7 +776,7 @@ void VisualServerCanvas::canvas_item_add_particles(RID p_item, RID p_particles, canvas_item->commands.push_back(part); } -void VisualServerCanvas::canvas_item_add_multimesh(RID p_item, RID p_mesh, RID p_skeleton) { +void VisualServerCanvas::canvas_item_add_multimesh(RID p_item, RID p_mesh, RID p_texture, RID p_normal_map, RID p_skeleton) { Item *canvas_item = canvas_item_owner.getornull(p_item); ERR_FAIL_COND(!canvas_item); @@ -783,6 +785,8 @@ void VisualServerCanvas::canvas_item_add_multimesh(RID p_item, RID p_mesh, RID p ERR_FAIL_COND(!mm); mm->multimesh = p_mesh; mm->skeleton = p_skeleton; + mm->texture = p_texture; + mm->normal_map = p_normal_map; canvas_item->rect_dirty = true; canvas_item->commands.push_back(mm); diff --git a/servers/visual/visual_server_canvas.h b/servers/visual/visual_server_canvas.h index f4331ad291e5..250ba5cb08a3 100644 --- a/servers/visual/visual_server_canvas.h +++ b/servers/visual/visual_server_canvas.h @@ -182,8 +182,8 @@ public: void canvas_item_add_primitive(RID p_item, const Vector &p_points, const Vector &p_colors, const Vector &p_uvs, RID p_texture, float p_width = 1.0, RID p_normal_map = RID()); void canvas_item_add_polygon(RID p_item, const Vector &p_points, const Vector &p_colors, const Vector &p_uvs = Vector(), RID p_texture = RID(), RID p_normal_map = RID(), bool p_antialiased = false); void canvas_item_add_triangle_array(RID p_item, const Vector &p_indices, const Vector &p_points, const Vector &p_colors, const Vector &p_uvs = Vector(), RID p_texture = RID(), int p_count = -1, RID p_normal_map = RID()); - void canvas_item_add_mesh(RID p_item, const RID &p_mesh, RID p_skeleton = RID()); - void canvas_item_add_multimesh(RID p_item, RID p_mesh, RID p_skeleton = RID()); + void canvas_item_add_mesh(RID p_item, const RID &p_mesh, RID p_texture = RID(), RID p_normal_map = RID(), RID p_skeleton = RID()); + void canvas_item_add_multimesh(RID p_item, RID p_mesh, RID p_texture = RID(), RID p_normal_map = RID(), RID p_skeleton = RID()); void canvas_item_add_particles(RID p_item, RID p_particles, RID p_texture, RID p_normal, int p_h_frames, int p_v_frames); void canvas_item_add_set_transform(RID p_item, const Transform2D &p_transform); void canvas_item_add_clip_ignore(RID p_item, bool p_ignore); diff --git a/servers/visual/visual_server_raster.h b/servers/visual/visual_server_raster.h index 106b84a6ffc7..b34fbbdec972 100644 --- a/servers/visual/visual_server_raster.h +++ b/servers/visual/visual_server_raster.h @@ -581,8 +581,8 @@ public: BIND7(canvas_item_add_primitive, RID, const Vector &, const Vector &, const Vector &, RID, float, RID) BIND7(canvas_item_add_polygon, RID, const Vector &, const Vector &, const Vector &, RID, RID, bool) BIND8(canvas_item_add_triangle_array, RID, const Vector &, const Vector &, const Vector &, const Vector &, RID, int, RID) - BIND3(canvas_item_add_mesh, RID, const RID &, RID) - BIND3(canvas_item_add_multimesh, RID, RID, RID) + BIND5(canvas_item_add_mesh, RID, const RID &, RID, RID, RID) + BIND5(canvas_item_add_multimesh, RID, RID, RID, RID, RID) BIND6(canvas_item_add_particles, RID, RID, RID, RID, int, int) BIND2(canvas_item_add_set_transform, RID, const Transform2D &) BIND2(canvas_item_add_clip_ignore, RID, bool) diff --git a/servers/visual/visual_server_wrap_mt.h b/servers/visual/visual_server_wrap_mt.h index c86a8164cec0..5a126fb1757d 100644 --- a/servers/visual/visual_server_wrap_mt.h +++ b/servers/visual/visual_server_wrap_mt.h @@ -499,8 +499,8 @@ public: FUNC7(canvas_item_add_primitive, RID, const Vector &, const Vector &, const Vector &, RID, float, RID) FUNC7(canvas_item_add_polygon, RID, const Vector &, const Vector &, const Vector &, RID, RID, bool) FUNC8(canvas_item_add_triangle_array, RID, const Vector &, const Vector &, const Vector &, const Vector &, RID, int, RID) - FUNC3(canvas_item_add_mesh, RID, const RID &, RID) - FUNC3(canvas_item_add_multimesh, RID, RID, RID) + FUNC5(canvas_item_add_mesh, RID, const RID &, RID, RID, RID) + FUNC5(canvas_item_add_multimesh, RID, RID, RID, RID, RID) FUNC6(canvas_item_add_particles, RID, RID, RID, RID, int, int) FUNC2(canvas_item_add_set_transform, RID, const Transform2D &) FUNC2(canvas_item_add_clip_ignore, RID, bool) diff --git a/servers/visual_server.h b/servers/visual_server.h index a188fef17a87..521d0aece97b 100644 --- a/servers/visual_server.h +++ b/servers/visual_server.h @@ -846,8 +846,8 @@ public: virtual void canvas_item_add_primitive(RID p_item, const Vector &p_points, const Vector &p_colors, const Vector &p_uvs, RID p_texture, float p_width = 1.0, RID p_normal_map = RID()) = 0; virtual void canvas_item_add_polygon(RID p_item, const Vector &p_points, const Vector &p_colors, const Vector &p_uvs = Vector(), RID p_texture = RID(), RID p_normal_map = RID(), bool p_antialiased = false) = 0; virtual void canvas_item_add_triangle_array(RID p_item, const Vector &p_indices, const Vector &p_points, const Vector &p_colors, const Vector &p_uvs = Vector(), RID p_texture = RID(), int p_count = -1, RID p_normal_map = RID()) = 0; - virtual void canvas_item_add_mesh(RID p_item, const RID &p_mesh, RID p_skeleton = RID()) = 0; - virtual void canvas_item_add_multimesh(RID p_item, RID p_mesh, RID p_skeleton = RID()) = 0; + virtual void canvas_item_add_mesh(RID p_item, const RID &p_mesh, RID p_texture = RID(), RID p_normal_map = RID(), RID p_skeleton = RID()) = 0; + virtual void canvas_item_add_multimesh(RID p_item, RID p_mesh, RID p_texture = RID(), RID p_normal_map = RID(), RID p_skeleton = RID()) = 0; virtual void canvas_item_add_particles(RID p_item, RID p_particles, RID p_texture, RID p_normal_map, int p_h_frames, int p_v_frames) = 0; virtual void canvas_item_add_set_transform(RID p_item, const Transform2D &p_transform) = 0; virtual void canvas_item_add_clip_ignore(RID p_item, bool p_ignore) = 0; diff --git a/thirdparty/misc/clipper.cpp b/thirdparty/misc/clipper.cpp new file mode 100644 index 000000000000..d3143fe5ab66 --- /dev/null +++ b/thirdparty/misc/clipper.cpp @@ -0,0 +1,4629 @@ +/******************************************************************************* +* * +* Author : Angus Johnson * +* Version : 6.4.2 * +* Date : 27 February 2017 * +* Website : http://www.angusj.com * +* Copyright : Angus Johnson 2010-2017 * +* * +* License: * +* Use, modification & distribution is subject to Boost Software License Ver 1. * +* http://www.boost.org/LICENSE_1_0.txt * +* * +* Attributions: * +* The code in this library is an extension of Bala Vatti's clipping algorithm: * +* "A generic solution to polygon clipping" * +* Communications of the ACM, Vol 35, Issue 7 (July 1992) pp 56-63. * +* http://portal.acm.org/citation.cfm?id=129906 * +* * +* Computer graphics and geometric modeling: implementation and algorithms * +* By Max K. Agoston * +* Springer; 1 edition (January 4, 2005) * +* http://books.google.com/books?q=vatti+clipping+agoston * +* * +* See also: * +* "Polygon Offsetting by Computing Winding Numbers" * +* Paper no. DETC2005-85513 pp. 565-575 * +* ASME 2005 International Design Engineering Technical Conferences * +* and Computers and Information in Engineering Conference (IDETC/CIE2005) * +* September 24-28, 2005 , Long Beach, California, USA * +* http://www.me.berkeley.edu/~mcmains/pubs/DAC05OffsetPolygon.pdf * +* * +*******************************************************************************/ + +/******************************************************************************* +* * +* This is a translation of the Delphi Clipper library and the naming style * +* used has retained a Delphi flavour. * +* * +*******************************************************************************/ + +#include "clipper.hpp" +#include +#include +#include +#include +#include +#include +#include +#include + +namespace ClipperLib { + +static double const pi = 3.141592653589793238; +static double const two_pi = pi *2; +static double const def_arc_tolerance = 0.25; + +enum Direction { dRightToLeft, dLeftToRight }; + +static int const Unassigned = -1; //edge not currently 'owning' a solution +static int const Skip = -2; //edge that would otherwise close a path + +#define HORIZONTAL (-1.0E+40) +#define TOLERANCE (1.0e-20) +#define NEAR_ZERO(val) (((val) > -TOLERANCE) && ((val) < TOLERANCE)) + +struct TEdge { + IntPoint Bot; + IntPoint Curr; //current (updated for every new scanbeam) + IntPoint Top; + double Dx; + PolyType PolyTyp; + EdgeSide Side; //side only refers to current side of solution poly + int WindDelta; //1 or -1 depending on winding direction + int WindCnt; + int WindCnt2; //winding count of the opposite polytype + int OutIdx; + TEdge *Next; + TEdge *Prev; + TEdge *NextInLML; + TEdge *NextInAEL; + TEdge *PrevInAEL; + TEdge *NextInSEL; + TEdge *PrevInSEL; +}; + +struct IntersectNode { + TEdge *Edge1; + TEdge *Edge2; + IntPoint Pt; +}; + +struct LocalMinimum { + cInt Y; + TEdge *LeftBound; + TEdge *RightBound; +}; + +struct OutPt; + +//OutRec: contains a path in the clipping solution. Edges in the AEL will +//carry a pointer to an OutRec when they are part of the clipping solution. +struct OutRec { + int Idx; + bool IsHole; + bool IsOpen; + OutRec *FirstLeft; //see comments in clipper.pas + PolyNode *PolyNd; + OutPt *Pts; + OutPt *BottomPt; +}; + +struct OutPt { + int Idx; + IntPoint Pt; + OutPt *Next; + OutPt *Prev; +}; + +struct Join { + OutPt *OutPt1; + OutPt *OutPt2; + IntPoint OffPt; +}; + +struct LocMinSorter +{ + inline bool operator()(const LocalMinimum& locMin1, const LocalMinimum& locMin2) + { + return locMin2.Y < locMin1.Y; + } +}; + +//------------------------------------------------------------------------------ +//------------------------------------------------------------------------------ + +inline cInt Round(double val) +{ + if ((val < 0)) return static_cast(val - 0.5); + else return static_cast(val + 0.5); +} +//------------------------------------------------------------------------------ + +inline cInt Abs(cInt val) +{ + return val < 0 ? -val : val; +} + +//------------------------------------------------------------------------------ +// PolyTree methods ... +//------------------------------------------------------------------------------ + +void PolyTree::Clear() +{ + for (PolyNodes::size_type i = 0; i < AllNodes.size(); ++i) + delete AllNodes[i]; + AllNodes.resize(0); + Childs.resize(0); +} +//------------------------------------------------------------------------------ + +PolyNode* PolyTree::GetFirst() const +{ + if (!Childs.empty()) + return Childs[0]; + else + return 0; +} +//------------------------------------------------------------------------------ + +int PolyTree::Total() const +{ + int result = (int)AllNodes.size(); + //with negative offsets, ignore the hidden outer polygon ... + if (result > 0 && Childs[0] != AllNodes[0]) result--; + return result; +} + +//------------------------------------------------------------------------------ +// PolyNode methods ... +//------------------------------------------------------------------------------ + +PolyNode::PolyNode(): Parent(0), Index(0), m_IsOpen(false) +{ +} +//------------------------------------------------------------------------------ + +int PolyNode::ChildCount() const +{ + return (int)Childs.size(); +} +//------------------------------------------------------------------------------ + +void PolyNode::AddChild(PolyNode& child) +{ + unsigned cnt = (unsigned)Childs.size(); + Childs.push_back(&child); + child.Parent = this; + child.Index = cnt; +} +//------------------------------------------------------------------------------ + +PolyNode* PolyNode::GetNext() const +{ + if (!Childs.empty()) + return Childs[0]; + else + return GetNextSiblingUp(); +} +//------------------------------------------------------------------------------ + +PolyNode* PolyNode::GetNextSiblingUp() const +{ + if (!Parent) //protects against PolyTree.GetNextSiblingUp() + return 0; + else if (Index == Parent->Childs.size() - 1) + return Parent->GetNextSiblingUp(); + else + return Parent->Childs[Index + 1]; +} +//------------------------------------------------------------------------------ + +bool PolyNode::IsHole() const +{ + bool result = true; + PolyNode* node = Parent; + while (node) + { + result = !result; + node = node->Parent; + } + return result; +} +//------------------------------------------------------------------------------ + +bool PolyNode::IsOpen() const +{ + return m_IsOpen; +} +//------------------------------------------------------------------------------ + +#ifndef use_int32 + +//------------------------------------------------------------------------------ +// Int128 class (enables safe math on signed 64bit integers) +// eg Int128 val1((long64)9223372036854775807); //ie 2^63 -1 +// Int128 val2((long64)9223372036854775807); +// Int128 val3 = val1 * val2; +// val3.AsString => "85070591730234615847396907784232501249" (8.5e+37) +//------------------------------------------------------------------------------ + +class Int128 +{ + public: + ulong64 lo; + long64 hi; + + Int128(long64 _lo = 0) + { + lo = (ulong64)_lo; + if (_lo < 0) hi = -1; else hi = 0; + } + + + Int128(const Int128 &val): lo(val.lo), hi(val.hi){} + + Int128(const long64& _hi, const ulong64& _lo): lo(_lo), hi(_hi){} + + Int128& operator = (const long64 &val) + { + lo = (ulong64)val; + if (val < 0) hi = -1; else hi = 0; + return *this; + } + + bool operator == (const Int128 &val) const + {return (hi == val.hi && lo == val.lo);} + + bool operator != (const Int128 &val) const + { return !(*this == val);} + + bool operator > (const Int128 &val) const + { + if (hi != val.hi) + return hi > val.hi; + else + return lo > val.lo; + } + + bool operator < (const Int128 &val) const + { + if (hi != val.hi) + return hi < val.hi; + else + return lo < val.lo; + } + + bool operator >= (const Int128 &val) const + { return !(*this < val);} + + bool operator <= (const Int128 &val) const + { return !(*this > val);} + + Int128& operator += (const Int128 &rhs) + { + hi += rhs.hi; + lo += rhs.lo; + if (lo < rhs.lo) hi++; + return *this; + } + + Int128 operator + (const Int128 &rhs) const + { + Int128 result(*this); + result+= rhs; + return result; + } + + Int128& operator -= (const Int128 &rhs) + { + *this += -rhs; + return *this; + } + + Int128 operator - (const Int128 &rhs) const + { + Int128 result(*this); + result -= rhs; + return result; + } + + Int128 operator-() const //unary negation + { + if (lo == 0) + return Int128(-hi, 0); + else + return Int128(~hi, ~lo + 1); + } + + operator double() const + { + const double shift64 = 18446744073709551616.0; //2^64 + if (hi < 0) + { + if (lo == 0) return (double)hi * shift64; + else return -(double)(~lo + ~hi * shift64); + } + else + return (double)(lo + hi * shift64); + } + +}; +//------------------------------------------------------------------------------ + +Int128 Int128Mul (long64 lhs, long64 rhs) +{ + bool negate = (lhs < 0) != (rhs < 0); + + if (lhs < 0) lhs = -lhs; + ulong64 int1Hi = ulong64(lhs) >> 32; + ulong64 int1Lo = ulong64(lhs & 0xFFFFFFFF); + + if (rhs < 0) rhs = -rhs; + ulong64 int2Hi = ulong64(rhs) >> 32; + ulong64 int2Lo = ulong64(rhs & 0xFFFFFFFF); + + //nb: see comments in clipper.pas + ulong64 a = int1Hi * int2Hi; + ulong64 b = int1Lo * int2Lo; + ulong64 c = int1Hi * int2Lo + int1Lo * int2Hi; + + Int128 tmp; + tmp.hi = long64(a + (c >> 32)); + tmp.lo = long64(c << 32); + tmp.lo += long64(b); + if (tmp.lo < b) tmp.hi++; + if (negate) tmp = -tmp; + return tmp; +}; +#endif + +//------------------------------------------------------------------------------ +// Miscellaneous global functions +//------------------------------------------------------------------------------ + +bool Orientation(const Path &poly) +{ + return Area(poly) >= 0; +} +//------------------------------------------------------------------------------ + +double Area(const Path &poly) +{ + int size = (int)poly.size(); + if (size < 3) return 0; + + double a = 0; + for (int i = 0, j = size -1; i < size; ++i) + { + a += ((double)poly[j].X + poly[i].X) * ((double)poly[j].Y - poly[i].Y); + j = i; + } + return -a * 0.5; +} +//------------------------------------------------------------------------------ + +double Area(const OutPt *op) +{ + const OutPt *startOp = op; + if (!op) return 0; + double a = 0; + do { + a += (double)(op->Prev->Pt.X + op->Pt.X) * (double)(op->Prev->Pt.Y - op->Pt.Y); + op = op->Next; + } while (op != startOp); + return a * 0.5; +} +//------------------------------------------------------------------------------ + +double Area(const OutRec &outRec) +{ + return Area(outRec.Pts); +} +//------------------------------------------------------------------------------ + +bool PointIsVertex(const IntPoint &Pt, OutPt *pp) +{ + OutPt *pp2 = pp; + do + { + if (pp2->Pt == Pt) return true; + pp2 = pp2->Next; + } + while (pp2 != pp); + return false; +} +//------------------------------------------------------------------------------ + +//See "The Point in Polygon Problem for Arbitrary Polygons" by Hormann & Agathos +//http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.88.5498&rep=rep1&type=pdf +int PointInPolygon(const IntPoint &pt, const Path &path) +{ + //returns 0 if false, +1 if true, -1 if pt ON polygon boundary + int result = 0; + size_t cnt = path.size(); + if (cnt < 3) return 0; + IntPoint ip = path[0]; + for(size_t i = 1; i <= cnt; ++i) + { + IntPoint ipNext = (i == cnt ? path[0] : path[i]); + if (ipNext.Y == pt.Y) + { + if ((ipNext.X == pt.X) || (ip.Y == pt.Y && + ((ipNext.X > pt.X) == (ip.X < pt.X)))) return -1; + } + if ((ip.Y < pt.Y) != (ipNext.Y < pt.Y)) + { + if (ip.X >= pt.X) + { + if (ipNext.X > pt.X) result = 1 - result; + else + { + double d = (double)(ip.X - pt.X) * (ipNext.Y - pt.Y) - + (double)(ipNext.X - pt.X) * (ip.Y - pt.Y); + if (!d) return -1; + if ((d > 0) == (ipNext.Y > ip.Y)) result = 1 - result; + } + } else + { + if (ipNext.X > pt.X) + { + double d = (double)(ip.X - pt.X) * (ipNext.Y - pt.Y) - + (double)(ipNext.X - pt.X) * (ip.Y - pt.Y); + if (!d) return -1; + if ((d > 0) == (ipNext.Y > ip.Y)) result = 1 - result; + } + } + } + ip = ipNext; + } + return result; +} +//------------------------------------------------------------------------------ + +int PointInPolygon (const IntPoint &pt, OutPt *op) +{ + //returns 0 if false, +1 if true, -1 if pt ON polygon boundary + int result = 0; + OutPt* startOp = op; + for(;;) + { + if (op->Next->Pt.Y == pt.Y) + { + if ((op->Next->Pt.X == pt.X) || (op->Pt.Y == pt.Y && + ((op->Next->Pt.X > pt.X) == (op->Pt.X < pt.X)))) return -1; + } + if ((op->Pt.Y < pt.Y) != (op->Next->Pt.Y < pt.Y)) + { + if (op->Pt.X >= pt.X) + { + if (op->Next->Pt.X > pt.X) result = 1 - result; + else + { + double d = (double)(op->Pt.X - pt.X) * (op->Next->Pt.Y - pt.Y) - + (double)(op->Next->Pt.X - pt.X) * (op->Pt.Y - pt.Y); + if (!d) return -1; + if ((d > 0) == (op->Next->Pt.Y > op->Pt.Y)) result = 1 - result; + } + } else + { + if (op->Next->Pt.X > pt.X) + { + double d = (double)(op->Pt.X - pt.X) * (op->Next->Pt.Y - pt.Y) - + (double)(op->Next->Pt.X - pt.X) * (op->Pt.Y - pt.Y); + if (!d) return -1; + if ((d > 0) == (op->Next->Pt.Y > op->Pt.Y)) result = 1 - result; + } + } + } + op = op->Next; + if (startOp == op) break; + } + return result; +} +//------------------------------------------------------------------------------ + +bool Poly2ContainsPoly1(OutPt *OutPt1, OutPt *OutPt2) +{ + OutPt* op = OutPt1; + do + { + //nb: PointInPolygon returns 0 if false, +1 if true, -1 if pt on polygon + int res = PointInPolygon(op->Pt, OutPt2); + if (res >= 0) return res > 0; + op = op->Next; + } + while (op != OutPt1); + return true; +} +//---------------------------------------------------------------------- + +bool SlopesEqual(const TEdge &e1, const TEdge &e2, bool UseFullInt64Range) +{ +#ifndef use_int32 + if (UseFullInt64Range) + return Int128Mul(e1.Top.Y - e1.Bot.Y, e2.Top.X - e2.Bot.X) == + Int128Mul(e1.Top.X - e1.Bot.X, e2.Top.Y - e2.Bot.Y); + else +#endif + return (e1.Top.Y - e1.Bot.Y) * (e2.Top.X - e2.Bot.X) == + (e1.Top.X - e1.Bot.X) * (e2.Top.Y - e2.Bot.Y); +} +//------------------------------------------------------------------------------ + +bool SlopesEqual(const IntPoint pt1, const IntPoint pt2, + const IntPoint pt3, bool UseFullInt64Range) +{ +#ifndef use_int32 + if (UseFullInt64Range) + return Int128Mul(pt1.Y-pt2.Y, pt2.X-pt3.X) == Int128Mul(pt1.X-pt2.X, pt2.Y-pt3.Y); + else +#endif + return (pt1.Y-pt2.Y)*(pt2.X-pt3.X) == (pt1.X-pt2.X)*(pt2.Y-pt3.Y); +} +//------------------------------------------------------------------------------ + +bool SlopesEqual(const IntPoint pt1, const IntPoint pt2, + const IntPoint pt3, const IntPoint pt4, bool UseFullInt64Range) +{ +#ifndef use_int32 + if (UseFullInt64Range) + return Int128Mul(pt1.Y-pt2.Y, pt3.X-pt4.X) == Int128Mul(pt1.X-pt2.X, pt3.Y-pt4.Y); + else +#endif + return (pt1.Y-pt2.Y)*(pt3.X-pt4.X) == (pt1.X-pt2.X)*(pt3.Y-pt4.Y); +} +//------------------------------------------------------------------------------ + +inline bool IsHorizontal(TEdge &e) +{ + return e.Dx == HORIZONTAL; +} +//------------------------------------------------------------------------------ + +inline double GetDx(const IntPoint pt1, const IntPoint pt2) +{ + return (pt1.Y == pt2.Y) ? + HORIZONTAL : (double)(pt2.X - pt1.X) / (pt2.Y - pt1.Y); +} +//--------------------------------------------------------------------------- + +inline void SetDx(TEdge &e) +{ + cInt dy = (e.Top.Y - e.Bot.Y); + if (dy == 0) e.Dx = HORIZONTAL; + else e.Dx = (double)(e.Top.X - e.Bot.X) / dy; +} +//--------------------------------------------------------------------------- + +inline void SwapSides(TEdge &Edge1, TEdge &Edge2) +{ + EdgeSide Side = Edge1.Side; + Edge1.Side = Edge2.Side; + Edge2.Side = Side; +} +//------------------------------------------------------------------------------ + +inline void SwapPolyIndexes(TEdge &Edge1, TEdge &Edge2) +{ + int OutIdx = Edge1.OutIdx; + Edge1.OutIdx = Edge2.OutIdx; + Edge2.OutIdx = OutIdx; +} +//------------------------------------------------------------------------------ + +inline cInt TopX(TEdge &edge, const cInt currentY) +{ + return ( currentY == edge.Top.Y ) ? + edge.Top.X : edge.Bot.X + Round(edge.Dx *(currentY - edge.Bot.Y)); +} +//------------------------------------------------------------------------------ + +void IntersectPoint(TEdge &Edge1, TEdge &Edge2, IntPoint &ip) +{ +#ifdef use_xyz + ip.Z = 0; +#endif + + double b1, b2; + if (Edge1.Dx == Edge2.Dx) + { + ip.Y = Edge1.Curr.Y; + ip.X = TopX(Edge1, ip.Y); + return; + } + else if (Edge1.Dx == 0) + { + ip.X = Edge1.Bot.X; + if (IsHorizontal(Edge2)) + ip.Y = Edge2.Bot.Y; + else + { + b2 = Edge2.Bot.Y - (Edge2.Bot.X / Edge2.Dx); + ip.Y = Round(ip.X / Edge2.Dx + b2); + } + } + else if (Edge2.Dx == 0) + { + ip.X = Edge2.Bot.X; + if (IsHorizontal(Edge1)) + ip.Y = Edge1.Bot.Y; + else + { + b1 = Edge1.Bot.Y - (Edge1.Bot.X / Edge1.Dx); + ip.Y = Round(ip.X / Edge1.Dx + b1); + } + } + else + { + b1 = Edge1.Bot.X - Edge1.Bot.Y * Edge1.Dx; + b2 = Edge2.Bot.X - Edge2.Bot.Y * Edge2.Dx; + double q = (b2-b1) / (Edge1.Dx - Edge2.Dx); + ip.Y = Round(q); + if (std::fabs(Edge1.Dx) < std::fabs(Edge2.Dx)) + ip.X = Round(Edge1.Dx * q + b1); + else + ip.X = Round(Edge2.Dx * q + b2); + } + + if (ip.Y < Edge1.Top.Y || ip.Y < Edge2.Top.Y) + { + if (Edge1.Top.Y > Edge2.Top.Y) + ip.Y = Edge1.Top.Y; + else + ip.Y = Edge2.Top.Y; + if (std::fabs(Edge1.Dx) < std::fabs(Edge2.Dx)) + ip.X = TopX(Edge1, ip.Y); + else + ip.X = TopX(Edge2, ip.Y); + } + //finally, don't allow 'ip' to be BELOW curr.Y (ie bottom of scanbeam) ... + if (ip.Y > Edge1.Curr.Y) + { + ip.Y = Edge1.Curr.Y; + //use the more vertical edge to derive X ... + if (std::fabs(Edge1.Dx) > std::fabs(Edge2.Dx)) + ip.X = TopX(Edge2, ip.Y); else + ip.X = TopX(Edge1, ip.Y); + } +} +//------------------------------------------------------------------------------ + +void ReversePolyPtLinks(OutPt *pp) +{ + if (!pp) return; + OutPt *pp1, *pp2; + pp1 = pp; + do { + pp2 = pp1->Next; + pp1->Next = pp1->Prev; + pp1->Prev = pp2; + pp1 = pp2; + } while( pp1 != pp ); +} +//------------------------------------------------------------------------------ + +void DisposeOutPts(OutPt*& pp) +{ + if (pp == 0) return; + pp->Prev->Next = 0; + while( pp ) + { + OutPt *tmpPp = pp; + pp = pp->Next; + delete tmpPp; + } +} +//------------------------------------------------------------------------------ + +inline void InitEdge(TEdge* e, TEdge* eNext, TEdge* ePrev, const IntPoint& Pt) +{ + std::memset(e, 0, sizeof(TEdge)); + e->Next = eNext; + e->Prev = ePrev; + e->Curr = Pt; + e->OutIdx = Unassigned; +} +//------------------------------------------------------------------------------ + +void InitEdge2(TEdge& e, PolyType Pt) +{ + if (e.Curr.Y >= e.Next->Curr.Y) + { + e.Bot = e.Curr; + e.Top = e.Next->Curr; + } else + { + e.Top = e.Curr; + e.Bot = e.Next->Curr; + } + SetDx(e); + e.PolyTyp = Pt; +} +//------------------------------------------------------------------------------ + +TEdge* RemoveEdge(TEdge* e) +{ + //removes e from double_linked_list (but without removing from memory) + e->Prev->Next = e->Next; + e->Next->Prev = e->Prev; + TEdge* result = e->Next; + e->Prev = 0; //flag as removed (see ClipperBase.Clear) + return result; +} +//------------------------------------------------------------------------------ + +inline void ReverseHorizontal(TEdge &e) +{ + //swap horizontal edges' Top and Bottom x's so they follow the natural + //progression of the bounds - ie so their xbots will align with the + //adjoining lower edge. [Helpful in the ProcessHorizontal() method.] + std::swap(e.Top.X, e.Bot.X); +#ifdef use_xyz + std::swap(e.Top.Z, e.Bot.Z); +#endif +} +//------------------------------------------------------------------------------ + +void SwapPoints(IntPoint &pt1, IntPoint &pt2) +{ + IntPoint tmp = pt1; + pt1 = pt2; + pt2 = tmp; +} +//------------------------------------------------------------------------------ + +bool GetOverlapSegment(IntPoint pt1a, IntPoint pt1b, IntPoint pt2a, + IntPoint pt2b, IntPoint &pt1, IntPoint &pt2) +{ + //precondition: segments are Collinear. + if (Abs(pt1a.X - pt1b.X) > Abs(pt1a.Y - pt1b.Y)) + { + if (pt1a.X > pt1b.X) SwapPoints(pt1a, pt1b); + if (pt2a.X > pt2b.X) SwapPoints(pt2a, pt2b); + if (pt1a.X > pt2a.X) pt1 = pt1a; else pt1 = pt2a; + if (pt1b.X < pt2b.X) pt2 = pt1b; else pt2 = pt2b; + return pt1.X < pt2.X; + } else + { + if (pt1a.Y < pt1b.Y) SwapPoints(pt1a, pt1b); + if (pt2a.Y < pt2b.Y) SwapPoints(pt2a, pt2b); + if (pt1a.Y < pt2a.Y) pt1 = pt1a; else pt1 = pt2a; + if (pt1b.Y > pt2b.Y) pt2 = pt1b; else pt2 = pt2b; + return pt1.Y > pt2.Y; + } +} +//------------------------------------------------------------------------------ + +bool FirstIsBottomPt(const OutPt* btmPt1, const OutPt* btmPt2) +{ + OutPt *p = btmPt1->Prev; + while ((p->Pt == btmPt1->Pt) && (p != btmPt1)) p = p->Prev; + double dx1p = std::fabs(GetDx(btmPt1->Pt, p->Pt)); + p = btmPt1->Next; + while ((p->Pt == btmPt1->Pt) && (p != btmPt1)) p = p->Next; + double dx1n = std::fabs(GetDx(btmPt1->Pt, p->Pt)); + + p = btmPt2->Prev; + while ((p->Pt == btmPt2->Pt) && (p != btmPt2)) p = p->Prev; + double dx2p = std::fabs(GetDx(btmPt2->Pt, p->Pt)); + p = btmPt2->Next; + while ((p->Pt == btmPt2->Pt) && (p != btmPt2)) p = p->Next; + double dx2n = std::fabs(GetDx(btmPt2->Pt, p->Pt)); + + if (std::max(dx1p, dx1n) == std::max(dx2p, dx2n) && + std::min(dx1p, dx1n) == std::min(dx2p, dx2n)) + return Area(btmPt1) > 0; //if otherwise identical use orientation + else + return (dx1p >= dx2p && dx1p >= dx2n) || (dx1n >= dx2p && dx1n >= dx2n); +} +//------------------------------------------------------------------------------ + +OutPt* GetBottomPt(OutPt *pp) +{ + OutPt* dups = 0; + OutPt* p = pp->Next; + while (p != pp) + { + if (p->Pt.Y > pp->Pt.Y) + { + pp = p; + dups = 0; + } + else if (p->Pt.Y == pp->Pt.Y && p->Pt.X <= pp->Pt.X) + { + if (p->Pt.X < pp->Pt.X) + { + dups = 0; + pp = p; + } else + { + if (p->Next != pp && p->Prev != pp) dups = p; + } + } + p = p->Next; + } + if (dups) + { + //there appears to be at least 2 vertices at BottomPt so ... + while (dups != p) + { + if (!FirstIsBottomPt(p, dups)) pp = dups; + dups = dups->Next; + while (dups->Pt != pp->Pt) dups = dups->Next; + } + } + return pp; +} +//------------------------------------------------------------------------------ + +bool Pt2IsBetweenPt1AndPt3(const IntPoint pt1, + const IntPoint pt2, const IntPoint pt3) +{ + if ((pt1 == pt3) || (pt1 == pt2) || (pt3 == pt2)) + return false; + else if (pt1.X != pt3.X) + return (pt2.X > pt1.X) == (pt2.X < pt3.X); + else + return (pt2.Y > pt1.Y) == (pt2.Y < pt3.Y); +} +//------------------------------------------------------------------------------ + +bool HorzSegmentsOverlap(cInt seg1a, cInt seg1b, cInt seg2a, cInt seg2b) +{ + if (seg1a > seg1b) std::swap(seg1a, seg1b); + if (seg2a > seg2b) std::swap(seg2a, seg2b); + return (seg1a < seg2b) && (seg2a < seg1b); +} + +//------------------------------------------------------------------------------ +// ClipperBase class methods ... +//------------------------------------------------------------------------------ + +ClipperBase::ClipperBase() //constructor +{ + m_CurrentLM = m_MinimaList.begin(); //begin() == end() here + m_UseFullRange = false; +} +//------------------------------------------------------------------------------ + +ClipperBase::~ClipperBase() //destructor +{ + Clear(); +} +//------------------------------------------------------------------------------ + +void RangeTest(const IntPoint& Pt, bool& useFullRange) +{ + if (useFullRange) + { + if (Pt.X > hiRange || Pt.Y > hiRange || -Pt.X > hiRange || -Pt.Y > hiRange) + throw clipperException("Coordinate outside allowed range"); + } + else if (Pt.X > loRange|| Pt.Y > loRange || -Pt.X > loRange || -Pt.Y > loRange) + { + useFullRange = true; + RangeTest(Pt, useFullRange); + } +} +//------------------------------------------------------------------------------ + +TEdge* FindNextLocMin(TEdge* E) +{ + for (;;) + { + while (E->Bot != E->Prev->Bot || E->Curr == E->Top) E = E->Next; + if (!IsHorizontal(*E) && !IsHorizontal(*E->Prev)) break; + while (IsHorizontal(*E->Prev)) E = E->Prev; + TEdge* E2 = E; + while (IsHorizontal(*E)) E = E->Next; + if (E->Top.Y == E->Prev->Bot.Y) continue; //ie just an intermediate horz. + if (E2->Prev->Bot.X < E->Bot.X) E = E2; + break; + } + return E; +} +//------------------------------------------------------------------------------ + +TEdge* ClipperBase::ProcessBound(TEdge* E, bool NextIsForward) +{ + TEdge *Result = E; + TEdge *Horz = 0; + + if (E->OutIdx == Skip) + { + //if edges still remain in the current bound beyond the skip edge then + //create another LocMin and call ProcessBound once more + if (NextIsForward) + { + while (E->Top.Y == E->Next->Bot.Y) E = E->Next; + //don't include top horizontals when parsing a bound a second time, + //they will be contained in the opposite bound ... + while (E != Result && IsHorizontal(*E)) E = E->Prev; + } + else + { + while (E->Top.Y == E->Prev->Bot.Y) E = E->Prev; + while (E != Result && IsHorizontal(*E)) E = E->Next; + } + + if (E == Result) + { + if (NextIsForward) Result = E->Next; + else Result = E->Prev; + } + else + { + //there are more edges in the bound beyond result starting with E + if (NextIsForward) + E = Result->Next; + else + E = Result->Prev; + MinimaList::value_type locMin; + locMin.Y = E->Bot.Y; + locMin.LeftBound = 0; + locMin.RightBound = E; + E->WindDelta = 0; + Result = ProcessBound(E, NextIsForward); + m_MinimaList.push_back(locMin); + } + return Result; + } + + TEdge *EStart; + + if (IsHorizontal(*E)) + { + //We need to be careful with open paths because this may not be a + //true local minima (ie E may be following a skip edge). + //Also, consecutive horz. edges may start heading left before going right. + if (NextIsForward) + EStart = E->Prev; + else + EStart = E->Next; + if (IsHorizontal(*EStart)) //ie an adjoining horizontal skip edge + { + if (EStart->Bot.X != E->Bot.X && EStart->Top.X != E->Bot.X) + ReverseHorizontal(*E); + } + else if (EStart->Bot.X != E->Bot.X) + ReverseHorizontal(*E); + } + + EStart = E; + if (NextIsForward) + { + while (Result->Top.Y == Result->Next->Bot.Y && Result->Next->OutIdx != Skip) + Result = Result->Next; + if (IsHorizontal(*Result) && Result->Next->OutIdx != Skip) + { + //nb: at the top of a bound, horizontals are added to the bound + //only when the preceding edge attaches to the horizontal's left vertex + //unless a Skip edge is encountered when that becomes the top divide + Horz = Result; + while (IsHorizontal(*Horz->Prev)) Horz = Horz->Prev; + if (Horz->Prev->Top.X > Result->Next->Top.X) Result = Horz->Prev; + } + while (E != Result) + { + E->NextInLML = E->Next; + if (IsHorizontal(*E) && E != EStart && + E->Bot.X != E->Prev->Top.X) ReverseHorizontal(*E); + E = E->Next; + } + if (IsHorizontal(*E) && E != EStart && E->Bot.X != E->Prev->Top.X) + ReverseHorizontal(*E); + Result = Result->Next; //move to the edge just beyond current bound + } else + { + while (Result->Top.Y == Result->Prev->Bot.Y && Result->Prev->OutIdx != Skip) + Result = Result->Prev; + if (IsHorizontal(*Result) && Result->Prev->OutIdx != Skip) + { + Horz = Result; + while (IsHorizontal(*Horz->Next)) Horz = Horz->Next; + if (Horz->Next->Top.X == Result->Prev->Top.X || + Horz->Next->Top.X > Result->Prev->Top.X) Result = Horz->Next; + } + + while (E != Result) + { + E->NextInLML = E->Prev; + if (IsHorizontal(*E) && E != EStart && E->Bot.X != E->Next->Top.X) + ReverseHorizontal(*E); + E = E->Prev; + } + if (IsHorizontal(*E) && E != EStart && E->Bot.X != E->Next->Top.X) + ReverseHorizontal(*E); + Result = Result->Prev; //move to the edge just beyond current bound + } + + return Result; +} +//------------------------------------------------------------------------------ + +bool ClipperBase::AddPath(const Path &pg, PolyType PolyTyp, bool Closed) +{ +#ifdef use_lines + if (!Closed && PolyTyp == ptClip) + throw clipperException("AddPath: Open paths must be subject."); +#else + if (!Closed) + throw clipperException("AddPath: Open paths have been disabled."); +#endif + + int highI = (int)pg.size() -1; + if (Closed) while (highI > 0 && (pg[highI] == pg[0])) --highI; + while (highI > 0 && (pg[highI] == pg[highI -1])) --highI; + if ((Closed && highI < 2) || (!Closed && highI < 1)) return false; + + //create a new edge array ... + TEdge *edges = new TEdge [highI +1]; + + bool IsFlat = true; + //1. Basic (first) edge initialization ... + try + { + edges[1].Curr = pg[1]; + RangeTest(pg[0], m_UseFullRange); + RangeTest(pg[highI], m_UseFullRange); + InitEdge(&edges[0], &edges[1], &edges[highI], pg[0]); + InitEdge(&edges[highI], &edges[0], &edges[highI-1], pg[highI]); + for (int i = highI - 1; i >= 1; --i) + { + RangeTest(pg[i], m_UseFullRange); + InitEdge(&edges[i], &edges[i+1], &edges[i-1], pg[i]); + } + } + catch(...) + { + delete [] edges; + throw; //range test fails + } + TEdge *eStart = &edges[0]; + + //2. Remove duplicate vertices, and (when closed) collinear edges ... + TEdge *E = eStart, *eLoopStop = eStart; + for (;;) + { + //nb: allows matching start and end points when not Closed ... + if (E->Curr == E->Next->Curr && (Closed || E->Next != eStart)) + { + if (E == E->Next) break; + if (E == eStart) eStart = E->Next; + E = RemoveEdge(E); + eLoopStop = E; + continue; + } + if (E->Prev == E->Next) + break; //only two vertices + else if (Closed && + SlopesEqual(E->Prev->Curr, E->Curr, E->Next->Curr, m_UseFullRange) && + (!m_PreserveCollinear || + !Pt2IsBetweenPt1AndPt3(E->Prev->Curr, E->Curr, E->Next->Curr))) + { + //Collinear edges are allowed for open paths but in closed paths + //the default is to merge adjacent collinear edges into a single edge. + //However, if the PreserveCollinear property is enabled, only overlapping + //collinear edges (ie spikes) will be removed from closed paths. + if (E == eStart) eStart = E->Next; + E = RemoveEdge(E); + E = E->Prev; + eLoopStop = E; + continue; + } + E = E->Next; + if ((E == eLoopStop) || (!Closed && E->Next == eStart)) break; + } + + if ((!Closed && (E == E->Next)) || (Closed && (E->Prev == E->Next))) + { + delete [] edges; + return false; + } + + if (!Closed) + { + m_HasOpenPaths = true; + eStart->Prev->OutIdx = Skip; + } + + //3. Do second stage of edge initialization ... + E = eStart; + do + { + InitEdge2(*E, PolyTyp); + E = E->Next; + if (IsFlat && E->Curr.Y != eStart->Curr.Y) IsFlat = false; + } + while (E != eStart); + + //4. Finally, add edge bounds to LocalMinima list ... + + //Totally flat paths must be handled differently when adding them + //to LocalMinima list to avoid endless loops etc ... + if (IsFlat) + { + if (Closed) + { + delete [] edges; + return false; + } + E->Prev->OutIdx = Skip; + MinimaList::value_type locMin; + locMin.Y = E->Bot.Y; + locMin.LeftBound = 0; + locMin.RightBound = E; + locMin.RightBound->Side = esRight; + locMin.RightBound->WindDelta = 0; + for (;;) + { + if (E->Bot.X != E->Prev->Top.X) ReverseHorizontal(*E); + if (E->Next->OutIdx == Skip) break; + E->NextInLML = E->Next; + E = E->Next; + } + m_MinimaList.push_back(locMin); + m_edges.push_back(edges); + return true; + } + + m_edges.push_back(edges); + bool leftBoundIsForward; + TEdge* EMin = 0; + + //workaround to avoid an endless loop in the while loop below when + //open paths have matching start and end points ... + if (E->Prev->Bot == E->Prev->Top) E = E->Next; + + for (;;) + { + E = FindNextLocMin(E); + if (E == EMin) break; + else if (!EMin) EMin = E; + + //E and E.Prev now share a local minima (left aligned if horizontal). + //Compare their slopes to find which starts which bound ... + MinimaList::value_type locMin; + locMin.Y = E->Bot.Y; + if (E->Dx < E->Prev->Dx) + { + locMin.LeftBound = E->Prev; + locMin.RightBound = E; + leftBoundIsForward = false; //Q.nextInLML = Q.prev + } else + { + locMin.LeftBound = E; + locMin.RightBound = E->Prev; + leftBoundIsForward = true; //Q.nextInLML = Q.next + } + + if (!Closed) locMin.LeftBound->WindDelta = 0; + else if (locMin.LeftBound->Next == locMin.RightBound) + locMin.LeftBound->WindDelta = -1; + else locMin.LeftBound->WindDelta = 1; + locMin.RightBound->WindDelta = -locMin.LeftBound->WindDelta; + + E = ProcessBound(locMin.LeftBound, leftBoundIsForward); + if (E->OutIdx == Skip) E = ProcessBound(E, leftBoundIsForward); + + TEdge* E2 = ProcessBound(locMin.RightBound, !leftBoundIsForward); + if (E2->OutIdx == Skip) E2 = ProcessBound(E2, !leftBoundIsForward); + + if (locMin.LeftBound->OutIdx == Skip) + locMin.LeftBound = 0; + else if (locMin.RightBound->OutIdx == Skip) + locMin.RightBound = 0; + m_MinimaList.push_back(locMin); + if (!leftBoundIsForward) E = E2; + } + return true; +} +//------------------------------------------------------------------------------ + +bool ClipperBase::AddPaths(const Paths &ppg, PolyType PolyTyp, bool Closed) +{ + bool result = false; + for (Paths::size_type i = 0; i < ppg.size(); ++i) + if (AddPath(ppg[i], PolyTyp, Closed)) result = true; + return result; +} +//------------------------------------------------------------------------------ + +void ClipperBase::Clear() +{ + DisposeLocalMinimaList(); + for (EdgeList::size_type i = 0; i < m_edges.size(); ++i) + { + TEdge* edges = m_edges[i]; + delete [] edges; + } + m_edges.clear(); + m_UseFullRange = false; + m_HasOpenPaths = false; +} +//------------------------------------------------------------------------------ + +void ClipperBase::Reset() +{ + m_CurrentLM = m_MinimaList.begin(); + if (m_CurrentLM == m_MinimaList.end()) return; //ie nothing to process + std::sort(m_MinimaList.begin(), m_MinimaList.end(), LocMinSorter()); + + m_Scanbeam = ScanbeamList(); //clears/resets priority_queue + //reset all edges ... + for (MinimaList::iterator lm = m_MinimaList.begin(); lm != m_MinimaList.end(); ++lm) + { + InsertScanbeam(lm->Y); + TEdge* e = lm->LeftBound; + if (e) + { + e->Curr = e->Bot; + e->Side = esLeft; + e->OutIdx = Unassigned; + } + + e = lm->RightBound; + if (e) + { + e->Curr = e->Bot; + e->Side = esRight; + e->OutIdx = Unassigned; + } + } + m_ActiveEdges = 0; + m_CurrentLM = m_MinimaList.begin(); +} +//------------------------------------------------------------------------------ + +void ClipperBase::DisposeLocalMinimaList() +{ + m_MinimaList.clear(); + m_CurrentLM = m_MinimaList.begin(); +} +//------------------------------------------------------------------------------ + +bool ClipperBase::PopLocalMinima(cInt Y, const LocalMinimum *&locMin) +{ + if (m_CurrentLM == m_MinimaList.end() || (*m_CurrentLM).Y != Y) return false; + locMin = &(*m_CurrentLM); + ++m_CurrentLM; + return true; +} +//------------------------------------------------------------------------------ + +IntRect ClipperBase::GetBounds() +{ + IntRect result; + MinimaList::iterator lm = m_MinimaList.begin(); + if (lm == m_MinimaList.end()) + { + result.left = result.top = result.right = result.bottom = 0; + return result; + } + result.left = lm->LeftBound->Bot.X; + result.top = lm->LeftBound->Bot.Y; + result.right = lm->LeftBound->Bot.X; + result.bottom = lm->LeftBound->Bot.Y; + while (lm != m_MinimaList.end()) + { + //todo - needs fixing for open paths + result.bottom = std::max(result.bottom, lm->LeftBound->Bot.Y); + TEdge* e = lm->LeftBound; + for (;;) { + TEdge* bottomE = e; + while (e->NextInLML) + { + if (e->Bot.X < result.left) result.left = e->Bot.X; + if (e->Bot.X > result.right) result.right = e->Bot.X; + e = e->NextInLML; + } + result.left = std::min(result.left, e->Bot.X); + result.right = std::max(result.right, e->Bot.X); + result.left = std::min(result.left, e->Top.X); + result.right = std::max(result.right, e->Top.X); + result.top = std::min(result.top, e->Top.Y); + if (bottomE == lm->LeftBound) e = lm->RightBound; + else break; + } + ++lm; + } + return result; +} +//------------------------------------------------------------------------------ + +void ClipperBase::InsertScanbeam(const cInt Y) +{ + m_Scanbeam.push(Y); +} +//------------------------------------------------------------------------------ + +bool ClipperBase::PopScanbeam(cInt &Y) +{ + if (m_Scanbeam.empty()) return false; + Y = m_Scanbeam.top(); + m_Scanbeam.pop(); + while (!m_Scanbeam.empty() && Y == m_Scanbeam.top()) { m_Scanbeam.pop(); } // Pop duplicates. + return true; +} +//------------------------------------------------------------------------------ + +void ClipperBase::DisposeAllOutRecs(){ + for (PolyOutList::size_type i = 0; i < m_PolyOuts.size(); ++i) + DisposeOutRec(i); + m_PolyOuts.clear(); +} +//------------------------------------------------------------------------------ + +void ClipperBase::DisposeOutRec(PolyOutList::size_type index) +{ + OutRec *outRec = m_PolyOuts[index]; + if (outRec->Pts) DisposeOutPts(outRec->Pts); + delete outRec; + m_PolyOuts[index] = 0; +} +//------------------------------------------------------------------------------ + +void ClipperBase::DeleteFromAEL(TEdge *e) +{ + TEdge* AelPrev = e->PrevInAEL; + TEdge* AelNext = e->NextInAEL; + if (!AelPrev && !AelNext && (e != m_ActiveEdges)) return; //already deleted + if (AelPrev) AelPrev->NextInAEL = AelNext; + else m_ActiveEdges = AelNext; + if (AelNext) AelNext->PrevInAEL = AelPrev; + e->NextInAEL = 0; + e->PrevInAEL = 0; +} +//------------------------------------------------------------------------------ + +OutRec* ClipperBase::CreateOutRec() +{ + OutRec* result = new OutRec; + result->IsHole = false; + result->IsOpen = false; + result->FirstLeft = 0; + result->Pts = 0; + result->BottomPt = 0; + result->PolyNd = 0; + m_PolyOuts.push_back(result); + result->Idx = (int)m_PolyOuts.size() - 1; + return result; +} +//------------------------------------------------------------------------------ + +void ClipperBase::SwapPositionsInAEL(TEdge *Edge1, TEdge *Edge2) +{ + //check that one or other edge hasn't already been removed from AEL ... + if (Edge1->NextInAEL == Edge1->PrevInAEL || + Edge2->NextInAEL == Edge2->PrevInAEL) return; + + if (Edge1->NextInAEL == Edge2) + { + TEdge* Next = Edge2->NextInAEL; + if (Next) Next->PrevInAEL = Edge1; + TEdge* Prev = Edge1->PrevInAEL; + if (Prev) Prev->NextInAEL = Edge2; + Edge2->PrevInAEL = Prev; + Edge2->NextInAEL = Edge1; + Edge1->PrevInAEL = Edge2; + Edge1->NextInAEL = Next; + } + else if (Edge2->NextInAEL == Edge1) + { + TEdge* Next = Edge1->NextInAEL; + if (Next) Next->PrevInAEL = Edge2; + TEdge* Prev = Edge2->PrevInAEL; + if (Prev) Prev->NextInAEL = Edge1; + Edge1->PrevInAEL = Prev; + Edge1->NextInAEL = Edge2; + Edge2->PrevInAEL = Edge1; + Edge2->NextInAEL = Next; + } + else + { + TEdge* Next = Edge1->NextInAEL; + TEdge* Prev = Edge1->PrevInAEL; + Edge1->NextInAEL = Edge2->NextInAEL; + if (Edge1->NextInAEL) Edge1->NextInAEL->PrevInAEL = Edge1; + Edge1->PrevInAEL = Edge2->PrevInAEL; + if (Edge1->PrevInAEL) Edge1->PrevInAEL->NextInAEL = Edge1; + Edge2->NextInAEL = Next; + if (Edge2->NextInAEL) Edge2->NextInAEL->PrevInAEL = Edge2; + Edge2->PrevInAEL = Prev; + if (Edge2->PrevInAEL) Edge2->PrevInAEL->NextInAEL = Edge2; + } + + if (!Edge1->PrevInAEL) m_ActiveEdges = Edge1; + else if (!Edge2->PrevInAEL) m_ActiveEdges = Edge2; +} +//------------------------------------------------------------------------------ + +void ClipperBase::UpdateEdgeIntoAEL(TEdge *&e) +{ + if (!e->NextInLML) + throw clipperException("UpdateEdgeIntoAEL: invalid call"); + + e->NextInLML->OutIdx = e->OutIdx; + TEdge* AelPrev = e->PrevInAEL; + TEdge* AelNext = e->NextInAEL; + if (AelPrev) AelPrev->NextInAEL = e->NextInLML; + else m_ActiveEdges = e->NextInLML; + if (AelNext) AelNext->PrevInAEL = e->NextInLML; + e->NextInLML->Side = e->Side; + e->NextInLML->WindDelta = e->WindDelta; + e->NextInLML->WindCnt = e->WindCnt; + e->NextInLML->WindCnt2 = e->WindCnt2; + e = e->NextInLML; + e->Curr = e->Bot; + e->PrevInAEL = AelPrev; + e->NextInAEL = AelNext; + if (!IsHorizontal(*e)) InsertScanbeam(e->Top.Y); +} +//------------------------------------------------------------------------------ + +bool ClipperBase::LocalMinimaPending() +{ + return (m_CurrentLM != m_MinimaList.end()); +} + +//------------------------------------------------------------------------------ +// TClipper methods ... +//------------------------------------------------------------------------------ + +Clipper::Clipper(int initOptions) : ClipperBase() //constructor +{ + m_ExecuteLocked = false; + m_UseFullRange = false; + m_ReverseOutput = ((initOptions & ioReverseSolution) != 0); + m_StrictSimple = ((initOptions & ioStrictlySimple) != 0); + m_PreserveCollinear = ((initOptions & ioPreserveCollinear) != 0); + m_HasOpenPaths = false; +#ifdef use_xyz + m_ZFill = 0; +#endif +} +//------------------------------------------------------------------------------ + +#ifdef use_xyz +void Clipper::ZFillFunction(ZFillCallback zFillFunc) +{ + m_ZFill = zFillFunc; +} +//------------------------------------------------------------------------------ +#endif + +bool Clipper::Execute(ClipType clipType, Paths &solution, PolyFillType fillType) +{ + return Execute(clipType, solution, fillType, fillType); +} +//------------------------------------------------------------------------------ + +bool Clipper::Execute(ClipType clipType, PolyTree &polytree, PolyFillType fillType) +{ + return Execute(clipType, polytree, fillType, fillType); +} +//------------------------------------------------------------------------------ + +bool Clipper::Execute(ClipType clipType, Paths &solution, + PolyFillType subjFillType, PolyFillType clipFillType) +{ + if( m_ExecuteLocked ) return false; + if (m_HasOpenPaths) + throw clipperException("Error: PolyTree struct is needed for open path clipping."); + m_ExecuteLocked = true; + solution.resize(0); + m_SubjFillType = subjFillType; + m_ClipFillType = clipFillType; + m_ClipType = clipType; + m_UsingPolyTree = false; + bool succeeded = ExecuteInternal(); + if (succeeded) BuildResult(solution); + DisposeAllOutRecs(); + m_ExecuteLocked = false; + return succeeded; +} +//------------------------------------------------------------------------------ + +bool Clipper::Execute(ClipType clipType, PolyTree& polytree, + PolyFillType subjFillType, PolyFillType clipFillType) +{ + if( m_ExecuteLocked ) return false; + m_ExecuteLocked = true; + m_SubjFillType = subjFillType; + m_ClipFillType = clipFillType; + m_ClipType = clipType; + m_UsingPolyTree = true; + bool succeeded = ExecuteInternal(); + if (succeeded) BuildResult2(polytree); + DisposeAllOutRecs(); + m_ExecuteLocked = false; + return succeeded; +} +//------------------------------------------------------------------------------ + +void Clipper::FixHoleLinkage(OutRec &outrec) +{ + //skip OutRecs that (a) contain outermost polygons or + //(b) already have the correct owner/child linkage ... + if (!outrec.FirstLeft || + (outrec.IsHole != outrec.FirstLeft->IsHole && + outrec.FirstLeft->Pts)) return; + + OutRec* orfl = outrec.FirstLeft; + while (orfl && ((orfl->IsHole == outrec.IsHole) || !orfl->Pts)) + orfl = orfl->FirstLeft; + outrec.FirstLeft = orfl; +} +//------------------------------------------------------------------------------ + +bool Clipper::ExecuteInternal() +{ + bool succeeded = true; + try { + Reset(); + m_Maxima = MaximaList(); + m_SortedEdges = 0; + + succeeded = true; + cInt botY, topY; + if (!PopScanbeam(botY)) return false; + InsertLocalMinimaIntoAEL(botY); + while (PopScanbeam(topY) || LocalMinimaPending()) + { + ProcessHorizontals(); + ClearGhostJoins(); + if (!ProcessIntersections(topY)) + { + succeeded = false; + break; + } + ProcessEdgesAtTopOfScanbeam(topY); + botY = topY; + InsertLocalMinimaIntoAEL(botY); + } + } + catch(...) + { + succeeded = false; + } + + if (succeeded) + { + //fix orientations ... + for (PolyOutList::size_type i = 0; i < m_PolyOuts.size(); ++i) + { + OutRec *outRec = m_PolyOuts[i]; + if (!outRec->Pts || outRec->IsOpen) continue; + if ((outRec->IsHole ^ m_ReverseOutput) == (Area(*outRec) > 0)) + ReversePolyPtLinks(outRec->Pts); + } + + if (!m_Joins.empty()) JoinCommonEdges(); + + //unfortunately FixupOutPolygon() must be done after JoinCommonEdges() + for (PolyOutList::size_type i = 0; i < m_PolyOuts.size(); ++i) + { + OutRec *outRec = m_PolyOuts[i]; + if (!outRec->Pts) continue; + if (outRec->IsOpen) + FixupOutPolyline(*outRec); + else + FixupOutPolygon(*outRec); + } + + if (m_StrictSimple) DoSimplePolygons(); + } + + ClearJoins(); + ClearGhostJoins(); + return succeeded; +} +//------------------------------------------------------------------------------ + +void Clipper::SetWindingCount(TEdge &edge) +{ + TEdge *e = edge.PrevInAEL; + //find the edge of the same polytype that immediately preceeds 'edge' in AEL + while (e && ((e->PolyTyp != edge.PolyTyp) || (e->WindDelta == 0))) e = e->PrevInAEL; + if (!e) + { + if (edge.WindDelta == 0) + { + PolyFillType pft = (edge.PolyTyp == ptSubject ? m_SubjFillType : m_ClipFillType); + edge.WindCnt = (pft == pftNegative ? -1 : 1); + } + else + edge.WindCnt = edge.WindDelta; + edge.WindCnt2 = 0; + e = m_ActiveEdges; //ie get ready to calc WindCnt2 + } + else if (edge.WindDelta == 0 && m_ClipType != ctUnion) + { + edge.WindCnt = 1; + edge.WindCnt2 = e->WindCnt2; + e = e->NextInAEL; //ie get ready to calc WindCnt2 + } + else if (IsEvenOddFillType(edge)) + { + //EvenOdd filling ... + if (edge.WindDelta == 0) + { + //are we inside a subj polygon ... + bool Inside = true; + TEdge *e2 = e->PrevInAEL; + while (e2) + { + if (e2->PolyTyp == e->PolyTyp && e2->WindDelta != 0) + Inside = !Inside; + e2 = e2->PrevInAEL; + } + edge.WindCnt = (Inside ? 0 : 1); + } + else + { + edge.WindCnt = edge.WindDelta; + } + edge.WindCnt2 = e->WindCnt2; + e = e->NextInAEL; //ie get ready to calc WindCnt2 + } + else + { + //nonZero, Positive or Negative filling ... + if (e->WindCnt * e->WindDelta < 0) + { + //prev edge is 'decreasing' WindCount (WC) toward zero + //so we're outside the previous polygon ... + if (Abs(e->WindCnt) > 1) + { + //outside prev poly but still inside another. + //when reversing direction of prev poly use the same WC + if (e->WindDelta * edge.WindDelta < 0) edge.WindCnt = e->WindCnt; + //otherwise continue to 'decrease' WC ... + else edge.WindCnt = e->WindCnt + edge.WindDelta; + } + else + //now outside all polys of same polytype so set own WC ... + edge.WindCnt = (edge.WindDelta == 0 ? 1 : edge.WindDelta); + } else + { + //prev edge is 'increasing' WindCount (WC) away from zero + //so we're inside the previous polygon ... + if (edge.WindDelta == 0) + edge.WindCnt = (e->WindCnt < 0 ? e->WindCnt - 1 : e->WindCnt + 1); + //if wind direction is reversing prev then use same WC + else if (e->WindDelta * edge.WindDelta < 0) edge.WindCnt = e->WindCnt; + //otherwise add to WC ... + else edge.WindCnt = e->WindCnt + edge.WindDelta; + } + edge.WindCnt2 = e->WindCnt2; + e = e->NextInAEL; //ie get ready to calc WindCnt2 + } + + //update WindCnt2 ... + if (IsEvenOddAltFillType(edge)) + { + //EvenOdd filling ... + while (e != &edge) + { + if (e->WindDelta != 0) + edge.WindCnt2 = (edge.WindCnt2 == 0 ? 1 : 0); + e = e->NextInAEL; + } + } else + { + //nonZero, Positive or Negative filling ... + while ( e != &edge ) + { + edge.WindCnt2 += e->WindDelta; + e = e->NextInAEL; + } + } +} +//------------------------------------------------------------------------------ + +bool Clipper::IsEvenOddFillType(const TEdge& edge) const +{ + if (edge.PolyTyp == ptSubject) + return m_SubjFillType == pftEvenOdd; else + return m_ClipFillType == pftEvenOdd; +} +//------------------------------------------------------------------------------ + +bool Clipper::IsEvenOddAltFillType(const TEdge& edge) const +{ + if (edge.PolyTyp == ptSubject) + return m_ClipFillType == pftEvenOdd; else + return m_SubjFillType == pftEvenOdd; +} +//------------------------------------------------------------------------------ + +bool Clipper::IsContributing(const TEdge& edge) const +{ + PolyFillType pft, pft2; + if (edge.PolyTyp == ptSubject) + { + pft = m_SubjFillType; + pft2 = m_ClipFillType; + } else + { + pft = m_ClipFillType; + pft2 = m_SubjFillType; + } + + switch(pft) + { + case pftEvenOdd: + //return false if a subj line has been flagged as inside a subj polygon + if (edge.WindDelta == 0 && edge.WindCnt != 1) return false; + break; + case pftNonZero: + if (Abs(edge.WindCnt) != 1) return false; + break; + case pftPositive: + if (edge.WindCnt != 1) return false; + break; + default: //pftNegative + if (edge.WindCnt != -1) return false; + } + + switch(m_ClipType) + { + case ctIntersection: + switch(pft2) + { + case pftEvenOdd: + case pftNonZero: + return (edge.WindCnt2 != 0); + case pftPositive: + return (edge.WindCnt2 > 0); + default: + return (edge.WindCnt2 < 0); + } + break; + case ctUnion: + switch(pft2) + { + case pftEvenOdd: + case pftNonZero: + return (edge.WindCnt2 == 0); + case pftPositive: + return (edge.WindCnt2 <= 0); + default: + return (edge.WindCnt2 >= 0); + } + break; + case ctDifference: + if (edge.PolyTyp == ptSubject) + switch(pft2) + { + case pftEvenOdd: + case pftNonZero: + return (edge.WindCnt2 == 0); + case pftPositive: + return (edge.WindCnt2 <= 0); + default: + return (edge.WindCnt2 >= 0); + } + else + switch(pft2) + { + case pftEvenOdd: + case pftNonZero: + return (edge.WindCnt2 != 0); + case pftPositive: + return (edge.WindCnt2 > 0); + default: + return (edge.WindCnt2 < 0); + } + break; + case ctXor: + if (edge.WindDelta == 0) //XOr always contributing unless open + switch(pft2) + { + case pftEvenOdd: + case pftNonZero: + return (edge.WindCnt2 == 0); + case pftPositive: + return (edge.WindCnt2 <= 0); + default: + return (edge.WindCnt2 >= 0); + } + else + return true; + break; + default: + return true; + } +} +//------------------------------------------------------------------------------ + +OutPt* Clipper::AddLocalMinPoly(TEdge *e1, TEdge *e2, const IntPoint &Pt) +{ + OutPt* result; + TEdge *e, *prevE; + if (IsHorizontal(*e2) || ( e1->Dx > e2->Dx )) + { + result = AddOutPt(e1, Pt); + e2->OutIdx = e1->OutIdx; + e1->Side = esLeft; + e2->Side = esRight; + e = e1; + if (e->PrevInAEL == e2) + prevE = e2->PrevInAEL; + else + prevE = e->PrevInAEL; + } else + { + result = AddOutPt(e2, Pt); + e1->OutIdx = e2->OutIdx; + e1->Side = esRight; + e2->Side = esLeft; + e = e2; + if (e->PrevInAEL == e1) + prevE = e1->PrevInAEL; + else + prevE = e->PrevInAEL; + } + + if (prevE && prevE->OutIdx >= 0 && prevE->Top.Y < Pt.Y && e->Top.Y < Pt.Y) + { + cInt xPrev = TopX(*prevE, Pt.Y); + cInt xE = TopX(*e, Pt.Y); + if (xPrev == xE && (e->WindDelta != 0) && (prevE->WindDelta != 0) && + SlopesEqual(IntPoint(xPrev, Pt.Y), prevE->Top, IntPoint(xE, Pt.Y), e->Top, m_UseFullRange)) + { + OutPt* outPt = AddOutPt(prevE, Pt); + AddJoin(result, outPt, e->Top); + } + } + return result; +} +//------------------------------------------------------------------------------ + +void Clipper::AddLocalMaxPoly(TEdge *e1, TEdge *e2, const IntPoint &Pt) +{ + AddOutPt( e1, Pt ); + if (e2->WindDelta == 0) AddOutPt(e2, Pt); + if( e1->OutIdx == e2->OutIdx ) + { + e1->OutIdx = Unassigned; + e2->OutIdx = Unassigned; + } + else if (e1->OutIdx < e2->OutIdx) + AppendPolygon(e1, e2); + else + AppendPolygon(e2, e1); +} +//------------------------------------------------------------------------------ + +void Clipper::AddEdgeToSEL(TEdge *edge) +{ + //SEL pointers in PEdge are reused to build a list of horizontal edges. + //However, we don't need to worry about order with horizontal edge processing. + if( !m_SortedEdges ) + { + m_SortedEdges = edge; + edge->PrevInSEL = 0; + edge->NextInSEL = 0; + } + else + { + edge->NextInSEL = m_SortedEdges; + edge->PrevInSEL = 0; + m_SortedEdges->PrevInSEL = edge; + m_SortedEdges = edge; + } +} +//------------------------------------------------------------------------------ + +bool Clipper::PopEdgeFromSEL(TEdge *&edge) +{ + if (!m_SortedEdges) return false; + edge = m_SortedEdges; + DeleteFromSEL(m_SortedEdges); + return true; +} +//------------------------------------------------------------------------------ + +void Clipper::CopyAELToSEL() +{ + TEdge* e = m_ActiveEdges; + m_SortedEdges = e; + while ( e ) + { + e->PrevInSEL = e->PrevInAEL; + e->NextInSEL = e->NextInAEL; + e = e->NextInAEL; + } +} +//------------------------------------------------------------------------------ + +void Clipper::AddJoin(OutPt *op1, OutPt *op2, const IntPoint OffPt) +{ + Join* j = new Join; + j->OutPt1 = op1; + j->OutPt2 = op2; + j->OffPt = OffPt; + m_Joins.push_back(j); +} +//------------------------------------------------------------------------------ + +void Clipper::ClearJoins() +{ + for (JoinList::size_type i = 0; i < m_Joins.size(); i++) + delete m_Joins[i]; + m_Joins.resize(0); +} +//------------------------------------------------------------------------------ + +void Clipper::ClearGhostJoins() +{ + for (JoinList::size_type i = 0; i < m_GhostJoins.size(); i++) + delete m_GhostJoins[i]; + m_GhostJoins.resize(0); +} +//------------------------------------------------------------------------------ + +void Clipper::AddGhostJoin(OutPt *op, const IntPoint OffPt) +{ + Join* j = new Join; + j->OutPt1 = op; + j->OutPt2 = 0; + j->OffPt = OffPt; + m_GhostJoins.push_back(j); +} +//------------------------------------------------------------------------------ + +void Clipper::InsertLocalMinimaIntoAEL(const cInt botY) +{ + const LocalMinimum *lm; + while (PopLocalMinima(botY, lm)) + { + TEdge* lb = lm->LeftBound; + TEdge* rb = lm->RightBound; + + OutPt *Op1 = 0; + if (!lb) + { + //nb: don't insert LB into either AEL or SEL + InsertEdgeIntoAEL(rb, 0); + SetWindingCount(*rb); + if (IsContributing(*rb)) + Op1 = AddOutPt(rb, rb->Bot); + } + else if (!rb) + { + InsertEdgeIntoAEL(lb, 0); + SetWindingCount(*lb); + if (IsContributing(*lb)) + Op1 = AddOutPt(lb, lb->Bot); + InsertScanbeam(lb->Top.Y); + } + else + { + InsertEdgeIntoAEL(lb, 0); + InsertEdgeIntoAEL(rb, lb); + SetWindingCount( *lb ); + rb->WindCnt = lb->WindCnt; + rb->WindCnt2 = lb->WindCnt2; + if (IsContributing(*lb)) + Op1 = AddLocalMinPoly(lb, rb, lb->Bot); + InsertScanbeam(lb->Top.Y); + } + + if (rb) + { + if (IsHorizontal(*rb)) + { + AddEdgeToSEL(rb); + if (rb->NextInLML) + InsertScanbeam(rb->NextInLML->Top.Y); + } + else InsertScanbeam( rb->Top.Y ); + } + + if (!lb || !rb) continue; + + //if any output polygons share an edge, they'll need joining later ... + if (Op1 && IsHorizontal(*rb) && + m_GhostJoins.size() > 0 && (rb->WindDelta != 0)) + { + for (JoinList::size_type i = 0; i < m_GhostJoins.size(); ++i) + { + Join* jr = m_GhostJoins[i]; + //if the horizontal Rb and a 'ghost' horizontal overlap, then convert + //the 'ghost' join to a real join ready for later ... + if (HorzSegmentsOverlap(jr->OutPt1->Pt.X, jr->OffPt.X, rb->Bot.X, rb->Top.X)) + AddJoin(jr->OutPt1, Op1, jr->OffPt); + } + } + + if (lb->OutIdx >= 0 && lb->PrevInAEL && + lb->PrevInAEL->Curr.X == lb->Bot.X && + lb->PrevInAEL->OutIdx >= 0 && + SlopesEqual(lb->PrevInAEL->Bot, lb->PrevInAEL->Top, lb->Curr, lb->Top, m_UseFullRange) && + (lb->WindDelta != 0) && (lb->PrevInAEL->WindDelta != 0)) + { + OutPt *Op2 = AddOutPt(lb->PrevInAEL, lb->Bot); + AddJoin(Op1, Op2, lb->Top); + } + + if(lb->NextInAEL != rb) + { + + if (rb->OutIdx >= 0 && rb->PrevInAEL->OutIdx >= 0 && + SlopesEqual(rb->PrevInAEL->Curr, rb->PrevInAEL->Top, rb->Curr, rb->Top, m_UseFullRange) && + (rb->WindDelta != 0) && (rb->PrevInAEL->WindDelta != 0)) + { + OutPt *Op2 = AddOutPt(rb->PrevInAEL, rb->Bot); + AddJoin(Op1, Op2, rb->Top); + } + + TEdge* e = lb->NextInAEL; + if (e) + { + while( e != rb ) + { + //nb: For calculating winding counts etc, IntersectEdges() assumes + //that param1 will be to the Right of param2 ABOVE the intersection ... + IntersectEdges(rb , e , lb->Curr); //order important here + e = e->NextInAEL; + } + } + } + + } +} +//------------------------------------------------------------------------------ + +void Clipper::DeleteFromSEL(TEdge *e) +{ + TEdge* SelPrev = e->PrevInSEL; + TEdge* SelNext = e->NextInSEL; + if( !SelPrev && !SelNext && (e != m_SortedEdges) ) return; //already deleted + if( SelPrev ) SelPrev->NextInSEL = SelNext; + else m_SortedEdges = SelNext; + if( SelNext ) SelNext->PrevInSEL = SelPrev; + e->NextInSEL = 0; + e->PrevInSEL = 0; +} +//------------------------------------------------------------------------------ + +#ifdef use_xyz +void Clipper::SetZ(IntPoint& pt, TEdge& e1, TEdge& e2) +{ + if (pt.Z != 0 || !m_ZFill) return; + else if (pt == e1.Bot) pt.Z = e1.Bot.Z; + else if (pt == e1.Top) pt.Z = e1.Top.Z; + else if (pt == e2.Bot) pt.Z = e2.Bot.Z; + else if (pt == e2.Top) pt.Z = e2.Top.Z; + else (*m_ZFill)(e1.Bot, e1.Top, e2.Bot, e2.Top, pt); +} +//------------------------------------------------------------------------------ +#endif + +void Clipper::IntersectEdges(TEdge *e1, TEdge *e2, IntPoint &Pt) +{ + bool e1Contributing = ( e1->OutIdx >= 0 ); + bool e2Contributing = ( e2->OutIdx >= 0 ); + +#ifdef use_xyz + SetZ(Pt, *e1, *e2); +#endif + +#ifdef use_lines + //if either edge is on an OPEN path ... + if (e1->WindDelta == 0 || e2->WindDelta == 0) + { + //ignore subject-subject open path intersections UNLESS they + //are both open paths, AND they are both 'contributing maximas' ... + if (e1->WindDelta == 0 && e2->WindDelta == 0) return; + + //if intersecting a subj line with a subj poly ... + else if (e1->PolyTyp == e2->PolyTyp && + e1->WindDelta != e2->WindDelta && m_ClipType == ctUnion) + { + if (e1->WindDelta == 0) + { + if (e2Contributing) + { + AddOutPt(e1, Pt); + if (e1Contributing) e1->OutIdx = Unassigned; + } + } + else + { + if (e1Contributing) + { + AddOutPt(e2, Pt); + if (e2Contributing) e2->OutIdx = Unassigned; + } + } + } + else if (e1->PolyTyp != e2->PolyTyp) + { + //toggle subj open path OutIdx on/off when Abs(clip.WndCnt) == 1 ... + if ((e1->WindDelta == 0) && abs(e2->WindCnt) == 1 && + (m_ClipType != ctUnion || e2->WindCnt2 == 0)) + { + AddOutPt(e1, Pt); + if (e1Contributing) e1->OutIdx = Unassigned; + } + else if ((e2->WindDelta == 0) && (abs(e1->WindCnt) == 1) && + (m_ClipType != ctUnion || e1->WindCnt2 == 0)) + { + AddOutPt(e2, Pt); + if (e2Contributing) e2->OutIdx = Unassigned; + } + } + return; + } +#endif + + //update winding counts... + //assumes that e1 will be to the Right of e2 ABOVE the intersection + if ( e1->PolyTyp == e2->PolyTyp ) + { + if ( IsEvenOddFillType( *e1) ) + { + int oldE1WindCnt = e1->WindCnt; + e1->WindCnt = e2->WindCnt; + e2->WindCnt = oldE1WindCnt; + } else + { + if (e1->WindCnt + e2->WindDelta == 0 ) e1->WindCnt = -e1->WindCnt; + else e1->WindCnt += e2->WindDelta; + if ( e2->WindCnt - e1->WindDelta == 0 ) e2->WindCnt = -e2->WindCnt; + else e2->WindCnt -= e1->WindDelta; + } + } else + { + if (!IsEvenOddFillType(*e2)) e1->WindCnt2 += e2->WindDelta; + else e1->WindCnt2 = ( e1->WindCnt2 == 0 ) ? 1 : 0; + if (!IsEvenOddFillType(*e1)) e2->WindCnt2 -= e1->WindDelta; + else e2->WindCnt2 = ( e2->WindCnt2 == 0 ) ? 1 : 0; + } + + PolyFillType e1FillType, e2FillType, e1FillType2, e2FillType2; + if (e1->PolyTyp == ptSubject) + { + e1FillType = m_SubjFillType; + e1FillType2 = m_ClipFillType; + } else + { + e1FillType = m_ClipFillType; + e1FillType2 = m_SubjFillType; + } + if (e2->PolyTyp == ptSubject) + { + e2FillType = m_SubjFillType; + e2FillType2 = m_ClipFillType; + } else + { + e2FillType = m_ClipFillType; + e2FillType2 = m_SubjFillType; + } + + cInt e1Wc, e2Wc; + switch (e1FillType) + { + case pftPositive: e1Wc = e1->WindCnt; break; + case pftNegative: e1Wc = -e1->WindCnt; break; + default: e1Wc = Abs(e1->WindCnt); + } + switch(e2FillType) + { + case pftPositive: e2Wc = e2->WindCnt; break; + case pftNegative: e2Wc = -e2->WindCnt; break; + default: e2Wc = Abs(e2->WindCnt); + } + + if ( e1Contributing && e2Contributing ) + { + if ((e1Wc != 0 && e1Wc != 1) || (e2Wc != 0 && e2Wc != 1) || + (e1->PolyTyp != e2->PolyTyp && m_ClipType != ctXor) ) + { + AddLocalMaxPoly(e1, e2, Pt); + } + else + { + AddOutPt(e1, Pt); + AddOutPt(e2, Pt); + SwapSides( *e1 , *e2 ); + SwapPolyIndexes( *e1 , *e2 ); + } + } + else if ( e1Contributing ) + { + if (e2Wc == 0 || e2Wc == 1) + { + AddOutPt(e1, Pt); + SwapSides(*e1, *e2); + SwapPolyIndexes(*e1, *e2); + } + } + else if ( e2Contributing ) + { + if (e1Wc == 0 || e1Wc == 1) + { + AddOutPt(e2, Pt); + SwapSides(*e1, *e2); + SwapPolyIndexes(*e1, *e2); + } + } + else if ( (e1Wc == 0 || e1Wc == 1) && (e2Wc == 0 || e2Wc == 1)) + { + //neither edge is currently contributing ... + + cInt e1Wc2, e2Wc2; + switch (e1FillType2) + { + case pftPositive: e1Wc2 = e1->WindCnt2; break; + case pftNegative : e1Wc2 = -e1->WindCnt2; break; + default: e1Wc2 = Abs(e1->WindCnt2); + } + switch (e2FillType2) + { + case pftPositive: e2Wc2 = e2->WindCnt2; break; + case pftNegative: e2Wc2 = -e2->WindCnt2; break; + default: e2Wc2 = Abs(e2->WindCnt2); + } + + if (e1->PolyTyp != e2->PolyTyp) + { + AddLocalMinPoly(e1, e2, Pt); + } + else if (e1Wc == 1 && e2Wc == 1) + switch( m_ClipType ) { + case ctIntersection: + if (e1Wc2 > 0 && e2Wc2 > 0) + AddLocalMinPoly(e1, e2, Pt); + break; + case ctUnion: + if ( e1Wc2 <= 0 && e2Wc2 <= 0 ) + AddLocalMinPoly(e1, e2, Pt); + break; + case ctDifference: + if (((e1->PolyTyp == ptClip) && (e1Wc2 > 0) && (e2Wc2 > 0)) || + ((e1->PolyTyp == ptSubject) && (e1Wc2 <= 0) && (e2Wc2 <= 0))) + AddLocalMinPoly(e1, e2, Pt); + break; + case ctXor: + AddLocalMinPoly(e1, e2, Pt); + } + else + SwapSides( *e1, *e2 ); + } +} +//------------------------------------------------------------------------------ + +void Clipper::SetHoleState(TEdge *e, OutRec *outrec) +{ + TEdge *e2 = e->PrevInAEL; + TEdge *eTmp = 0; + while (e2) + { + if (e2->OutIdx >= 0 && e2->WindDelta != 0) + { + if (!eTmp) eTmp = e2; + else if (eTmp->OutIdx == e2->OutIdx) eTmp = 0; + } + e2 = e2->PrevInAEL; + } + if (!eTmp) + { + outrec->FirstLeft = 0; + outrec->IsHole = false; + } + else + { + outrec->FirstLeft = m_PolyOuts[eTmp->OutIdx]; + outrec->IsHole = !outrec->FirstLeft->IsHole; + } +} +//------------------------------------------------------------------------------ + +OutRec* GetLowermostRec(OutRec *outRec1, OutRec *outRec2) +{ + //work out which polygon fragment has the correct hole state ... + if (!outRec1->BottomPt) + outRec1->BottomPt = GetBottomPt(outRec1->Pts); + if (!outRec2->BottomPt) + outRec2->BottomPt = GetBottomPt(outRec2->Pts); + OutPt *OutPt1 = outRec1->BottomPt; + OutPt *OutPt2 = outRec2->BottomPt; + if (OutPt1->Pt.Y > OutPt2->Pt.Y) return outRec1; + else if (OutPt1->Pt.Y < OutPt2->Pt.Y) return outRec2; + else if (OutPt1->Pt.X < OutPt2->Pt.X) return outRec1; + else if (OutPt1->Pt.X > OutPt2->Pt.X) return outRec2; + else if (OutPt1->Next == OutPt1) return outRec2; + else if (OutPt2->Next == OutPt2) return outRec1; + else if (FirstIsBottomPt(OutPt1, OutPt2)) return outRec1; + else return outRec2; +} +//------------------------------------------------------------------------------ + +bool OutRec1RightOfOutRec2(OutRec* outRec1, OutRec* outRec2) +{ + do + { + outRec1 = outRec1->FirstLeft; + if (outRec1 == outRec2) return true; + } while (outRec1); + return false; +} +//------------------------------------------------------------------------------ + +OutRec* Clipper::GetOutRec(int Idx) +{ + OutRec* outrec = m_PolyOuts[Idx]; + while (outrec != m_PolyOuts[outrec->Idx]) + outrec = m_PolyOuts[outrec->Idx]; + return outrec; +} +//------------------------------------------------------------------------------ + +void Clipper::AppendPolygon(TEdge *e1, TEdge *e2) +{ + //get the start and ends of both output polygons ... + OutRec *outRec1 = m_PolyOuts[e1->OutIdx]; + OutRec *outRec2 = m_PolyOuts[e2->OutIdx]; + + OutRec *holeStateRec; + if (OutRec1RightOfOutRec2(outRec1, outRec2)) + holeStateRec = outRec2; + else if (OutRec1RightOfOutRec2(outRec2, outRec1)) + holeStateRec = outRec1; + else + holeStateRec = GetLowermostRec(outRec1, outRec2); + + //get the start and ends of both output polygons and + //join e2 poly onto e1 poly and delete pointers to e2 ... + + OutPt* p1_lft = outRec1->Pts; + OutPt* p1_rt = p1_lft->Prev; + OutPt* p2_lft = outRec2->Pts; + OutPt* p2_rt = p2_lft->Prev; + + //join e2 poly onto e1 poly and delete pointers to e2 ... + if( e1->Side == esLeft ) + { + if( e2->Side == esLeft ) + { + //z y x a b c + ReversePolyPtLinks(p2_lft); + p2_lft->Next = p1_lft; + p1_lft->Prev = p2_lft; + p1_rt->Next = p2_rt; + p2_rt->Prev = p1_rt; + outRec1->Pts = p2_rt; + } else + { + //x y z a b c + p2_rt->Next = p1_lft; + p1_lft->Prev = p2_rt; + p2_lft->Prev = p1_rt; + p1_rt->Next = p2_lft; + outRec1->Pts = p2_lft; + } + } else + { + if( e2->Side == esRight ) + { + //a b c z y x + ReversePolyPtLinks(p2_lft); + p1_rt->Next = p2_rt; + p2_rt->Prev = p1_rt; + p2_lft->Next = p1_lft; + p1_lft->Prev = p2_lft; + } else + { + //a b c x y z + p1_rt->Next = p2_lft; + p2_lft->Prev = p1_rt; + p1_lft->Prev = p2_rt; + p2_rt->Next = p1_lft; + } + } + + outRec1->BottomPt = 0; + if (holeStateRec == outRec2) + { + if (outRec2->FirstLeft != outRec1) + outRec1->FirstLeft = outRec2->FirstLeft; + outRec1->IsHole = outRec2->IsHole; + } + outRec2->Pts = 0; + outRec2->BottomPt = 0; + outRec2->FirstLeft = outRec1; + + int OKIdx = e1->OutIdx; + int ObsoleteIdx = e2->OutIdx; + + e1->OutIdx = Unassigned; //nb: safe because we only get here via AddLocalMaxPoly + e2->OutIdx = Unassigned; + + TEdge* e = m_ActiveEdges; + while( e ) + { + if( e->OutIdx == ObsoleteIdx ) + { + e->OutIdx = OKIdx; + e->Side = e1->Side; + break; + } + e = e->NextInAEL; + } + + outRec2->Idx = outRec1->Idx; +} +//------------------------------------------------------------------------------ + +OutPt* Clipper::AddOutPt(TEdge *e, const IntPoint &pt) +{ + if( e->OutIdx < 0 ) + { + OutRec *outRec = CreateOutRec(); + outRec->IsOpen = (e->WindDelta == 0); + OutPt* newOp = new OutPt; + outRec->Pts = newOp; + newOp->Idx = outRec->Idx; + newOp->Pt = pt; + newOp->Next = newOp; + newOp->Prev = newOp; + if (!outRec->IsOpen) + SetHoleState(e, outRec); + e->OutIdx = outRec->Idx; + return newOp; + } else + { + OutRec *outRec = m_PolyOuts[e->OutIdx]; + //OutRec.Pts is the 'Left-most' point & OutRec.Pts.Prev is the 'Right-most' + OutPt* op = outRec->Pts; + + bool ToFront = (e->Side == esLeft); + if (ToFront && (pt == op->Pt)) return op; + else if (!ToFront && (pt == op->Prev->Pt)) return op->Prev; + + OutPt* newOp = new OutPt; + newOp->Idx = outRec->Idx; + newOp->Pt = pt; + newOp->Next = op; + newOp->Prev = op->Prev; + newOp->Prev->Next = newOp; + op->Prev = newOp; + if (ToFront) outRec->Pts = newOp; + return newOp; + } +} +//------------------------------------------------------------------------------ + +OutPt* Clipper::GetLastOutPt(TEdge *e) +{ + OutRec *outRec = m_PolyOuts[e->OutIdx]; + if (e->Side == esLeft) + return outRec->Pts; + else + return outRec->Pts->Prev; +} +//------------------------------------------------------------------------------ + +void Clipper::ProcessHorizontals() +{ + TEdge* horzEdge; + while (PopEdgeFromSEL(horzEdge)) + ProcessHorizontal(horzEdge); +} +//------------------------------------------------------------------------------ + +inline bool IsMinima(TEdge *e) +{ + return e && (e->Prev->NextInLML != e) && (e->Next->NextInLML != e); +} +//------------------------------------------------------------------------------ + +inline bool IsMaxima(TEdge *e, const cInt Y) +{ + return e && e->Top.Y == Y && !e->NextInLML; +} +//------------------------------------------------------------------------------ + +inline bool IsIntermediate(TEdge *e, const cInt Y) +{ + return e->Top.Y == Y && e->NextInLML; +} +//------------------------------------------------------------------------------ + +TEdge *GetMaximaPair(TEdge *e) +{ + if ((e->Next->Top == e->Top) && !e->Next->NextInLML) + return e->Next; + else if ((e->Prev->Top == e->Top) && !e->Prev->NextInLML) + return e->Prev; + else return 0; +} +//------------------------------------------------------------------------------ + +TEdge *GetMaximaPairEx(TEdge *e) +{ + //as GetMaximaPair() but returns 0 if MaxPair isn't in AEL (unless it's horizontal) + TEdge* result = GetMaximaPair(e); + if (result && (result->OutIdx == Skip || + (result->NextInAEL == result->PrevInAEL && !IsHorizontal(*result)))) return 0; + return result; +} +//------------------------------------------------------------------------------ + +void Clipper::SwapPositionsInSEL(TEdge *Edge1, TEdge *Edge2) +{ + if( !( Edge1->NextInSEL ) && !( Edge1->PrevInSEL ) ) return; + if( !( Edge2->NextInSEL ) && !( Edge2->PrevInSEL ) ) return; + + if( Edge1->NextInSEL == Edge2 ) + { + TEdge* Next = Edge2->NextInSEL; + if( Next ) Next->PrevInSEL = Edge1; + TEdge* Prev = Edge1->PrevInSEL; + if( Prev ) Prev->NextInSEL = Edge2; + Edge2->PrevInSEL = Prev; + Edge2->NextInSEL = Edge1; + Edge1->PrevInSEL = Edge2; + Edge1->NextInSEL = Next; + } + else if( Edge2->NextInSEL == Edge1 ) + { + TEdge* Next = Edge1->NextInSEL; + if( Next ) Next->PrevInSEL = Edge2; + TEdge* Prev = Edge2->PrevInSEL; + if( Prev ) Prev->NextInSEL = Edge1; + Edge1->PrevInSEL = Prev; + Edge1->NextInSEL = Edge2; + Edge2->PrevInSEL = Edge1; + Edge2->NextInSEL = Next; + } + else + { + TEdge* Next = Edge1->NextInSEL; + TEdge* Prev = Edge1->PrevInSEL; + Edge1->NextInSEL = Edge2->NextInSEL; + if( Edge1->NextInSEL ) Edge1->NextInSEL->PrevInSEL = Edge1; + Edge1->PrevInSEL = Edge2->PrevInSEL; + if( Edge1->PrevInSEL ) Edge1->PrevInSEL->NextInSEL = Edge1; + Edge2->NextInSEL = Next; + if( Edge2->NextInSEL ) Edge2->NextInSEL->PrevInSEL = Edge2; + Edge2->PrevInSEL = Prev; + if( Edge2->PrevInSEL ) Edge2->PrevInSEL->NextInSEL = Edge2; + } + + if( !Edge1->PrevInSEL ) m_SortedEdges = Edge1; + else if( !Edge2->PrevInSEL ) m_SortedEdges = Edge2; +} +//------------------------------------------------------------------------------ + +TEdge* GetNextInAEL(TEdge *e, Direction dir) +{ + return dir == dLeftToRight ? e->NextInAEL : e->PrevInAEL; +} +//------------------------------------------------------------------------------ + +void GetHorzDirection(TEdge& HorzEdge, Direction& Dir, cInt& Left, cInt& Right) +{ + if (HorzEdge.Bot.X < HorzEdge.Top.X) + { + Left = HorzEdge.Bot.X; + Right = HorzEdge.Top.X; + Dir = dLeftToRight; + } else + { + Left = HorzEdge.Top.X; + Right = HorzEdge.Bot.X; + Dir = dRightToLeft; + } +} +//------------------------------------------------------------------------ + +/******************************************************************************* +* Notes: Horizontal edges (HEs) at scanline intersections (ie at the Top or * +* Bottom of a scanbeam) are processed as if layered. The order in which HEs * +* are processed doesn't matter. HEs intersect with other HE Bot.Xs only [#] * +* (or they could intersect with Top.Xs only, ie EITHER Bot.Xs OR Top.Xs), * +* and with other non-horizontal edges [*]. Once these intersections are * +* processed, intermediate HEs then 'promote' the Edge above (NextInLML) into * +* the AEL. These 'promoted' edges may in turn intersect [%] with other HEs. * +*******************************************************************************/ + +void Clipper::ProcessHorizontal(TEdge *horzEdge) +{ + Direction dir; + cInt horzLeft, horzRight; + bool IsOpen = (horzEdge->WindDelta == 0); + + GetHorzDirection(*horzEdge, dir, horzLeft, horzRight); + + TEdge* eLastHorz = horzEdge, *eMaxPair = 0; + while (eLastHorz->NextInLML && IsHorizontal(*eLastHorz->NextInLML)) + eLastHorz = eLastHorz->NextInLML; + if (!eLastHorz->NextInLML) + eMaxPair = GetMaximaPair(eLastHorz); + + MaximaList::const_iterator maxIt; + MaximaList::const_reverse_iterator maxRit; + if (m_Maxima.size() > 0) + { + //get the first maxima in range (X) ... + if (dir == dLeftToRight) + { + maxIt = m_Maxima.begin(); + while (maxIt != m_Maxima.end() && *maxIt <= horzEdge->Bot.X) maxIt++; + if (maxIt != m_Maxima.end() && *maxIt >= eLastHorz->Top.X) + maxIt = m_Maxima.end(); + } + else + { + maxRit = m_Maxima.rbegin(); + while (maxRit != m_Maxima.rend() && *maxRit > horzEdge->Bot.X) maxRit++; + if (maxRit != m_Maxima.rend() && *maxRit <= eLastHorz->Top.X) + maxRit = m_Maxima.rend(); + } + } + + OutPt* op1 = 0; + + for (;;) //loop through consec. horizontal edges + { + + bool IsLastHorz = (horzEdge == eLastHorz); + TEdge* e = GetNextInAEL(horzEdge, dir); + while(e) + { + + //this code block inserts extra coords into horizontal edges (in output + //polygons) whereever maxima touch these horizontal edges. This helps + //'simplifying' polygons (ie if the Simplify property is set). + if (m_Maxima.size() > 0) + { + if (dir == dLeftToRight) + { + while (maxIt != m_Maxima.end() && *maxIt < e->Curr.X) + { + if (horzEdge->OutIdx >= 0 && !IsOpen) + AddOutPt(horzEdge, IntPoint(*maxIt, horzEdge->Bot.Y)); + maxIt++; + } + } + else + { + while (maxRit != m_Maxima.rend() && *maxRit > e->Curr.X) + { + if (horzEdge->OutIdx >= 0 && !IsOpen) + AddOutPt(horzEdge, IntPoint(*maxRit, horzEdge->Bot.Y)); + maxRit++; + } + } + }; + + if ((dir == dLeftToRight && e->Curr.X > horzRight) || + (dir == dRightToLeft && e->Curr.X < horzLeft)) break; + + //Also break if we've got to the end of an intermediate horizontal edge ... + //nb: Smaller Dx's are to the right of larger Dx's ABOVE the horizontal. + if (e->Curr.X == horzEdge->Top.X && horzEdge->NextInLML && + e->Dx < horzEdge->NextInLML->Dx) break; + + if (horzEdge->OutIdx >= 0 && !IsOpen) //note: may be done multiple times + { +#ifdef use_xyz + if (dir == dLeftToRight) SetZ(e->Curr, *horzEdge, *e); + else SetZ(e->Curr, *e, *horzEdge); +#endif + op1 = AddOutPt(horzEdge, e->Curr); + TEdge* eNextHorz = m_SortedEdges; + while (eNextHorz) + { + if (eNextHorz->OutIdx >= 0 && + HorzSegmentsOverlap(horzEdge->Bot.X, + horzEdge->Top.X, eNextHorz->Bot.X, eNextHorz->Top.X)) + { + OutPt* op2 = GetLastOutPt(eNextHorz); + AddJoin(op2, op1, eNextHorz->Top); + } + eNextHorz = eNextHorz->NextInSEL; + } + AddGhostJoin(op1, horzEdge->Bot); + } + + //OK, so far we're still in range of the horizontal Edge but make sure + //we're at the last of consec. horizontals when matching with eMaxPair + if(e == eMaxPair && IsLastHorz) + { + if (horzEdge->OutIdx >= 0) + AddLocalMaxPoly(horzEdge, eMaxPair, horzEdge->Top); + DeleteFromAEL(horzEdge); + DeleteFromAEL(eMaxPair); + return; + } + + if(dir == dLeftToRight) + { + IntPoint Pt = IntPoint(e->Curr.X, horzEdge->Curr.Y); + IntersectEdges(horzEdge, e, Pt); + } + else + { + IntPoint Pt = IntPoint(e->Curr.X, horzEdge->Curr.Y); + IntersectEdges( e, horzEdge, Pt); + } + TEdge* eNext = GetNextInAEL(e, dir); + SwapPositionsInAEL( horzEdge, e ); + e = eNext; + } //end while(e) + + //Break out of loop if HorzEdge.NextInLML is not also horizontal ... + if (!horzEdge->NextInLML || !IsHorizontal(*horzEdge->NextInLML)) break; + + UpdateEdgeIntoAEL(horzEdge); + if (horzEdge->OutIdx >= 0) AddOutPt(horzEdge, horzEdge->Bot); + GetHorzDirection(*horzEdge, dir, horzLeft, horzRight); + + } //end for (;;) + + if (horzEdge->OutIdx >= 0 && !op1) + { + op1 = GetLastOutPt(horzEdge); + TEdge* eNextHorz = m_SortedEdges; + while (eNextHorz) + { + if (eNextHorz->OutIdx >= 0 && + HorzSegmentsOverlap(horzEdge->Bot.X, + horzEdge->Top.X, eNextHorz->Bot.X, eNextHorz->Top.X)) + { + OutPt* op2 = GetLastOutPt(eNextHorz); + AddJoin(op2, op1, eNextHorz->Top); + } + eNextHorz = eNextHorz->NextInSEL; + } + AddGhostJoin(op1, horzEdge->Top); + } + + if (horzEdge->NextInLML) + { + if(horzEdge->OutIdx >= 0) + { + op1 = AddOutPt( horzEdge, horzEdge->Top); + UpdateEdgeIntoAEL(horzEdge); + if (horzEdge->WindDelta == 0) return; + //nb: HorzEdge is no longer horizontal here + TEdge* ePrev = horzEdge->PrevInAEL; + TEdge* eNext = horzEdge->NextInAEL; + if (ePrev && ePrev->Curr.X == horzEdge->Bot.X && + ePrev->Curr.Y == horzEdge->Bot.Y && ePrev->WindDelta != 0 && + (ePrev->OutIdx >= 0 && ePrev->Curr.Y > ePrev->Top.Y && + SlopesEqual(*horzEdge, *ePrev, m_UseFullRange))) + { + OutPt* op2 = AddOutPt(ePrev, horzEdge->Bot); + AddJoin(op1, op2, horzEdge->Top); + } + else if (eNext && eNext->Curr.X == horzEdge->Bot.X && + eNext->Curr.Y == horzEdge->Bot.Y && eNext->WindDelta != 0 && + eNext->OutIdx >= 0 && eNext->Curr.Y > eNext->Top.Y && + SlopesEqual(*horzEdge, *eNext, m_UseFullRange)) + { + OutPt* op2 = AddOutPt(eNext, horzEdge->Bot); + AddJoin(op1, op2, horzEdge->Top); + } + } + else + UpdateEdgeIntoAEL(horzEdge); + } + else + { + if (horzEdge->OutIdx >= 0) AddOutPt(horzEdge, horzEdge->Top); + DeleteFromAEL(horzEdge); + } +} +//------------------------------------------------------------------------------ + +bool Clipper::ProcessIntersections(const cInt topY) +{ + if( !m_ActiveEdges ) return true; + try { + BuildIntersectList(topY); + size_t IlSize = m_IntersectList.size(); + if (IlSize == 0) return true; + if (IlSize == 1 || FixupIntersectionOrder()) ProcessIntersectList(); + else return false; + } + catch(...) + { + m_SortedEdges = 0; + DisposeIntersectNodes(); + throw clipperException("ProcessIntersections error"); + } + m_SortedEdges = 0; + return true; +} +//------------------------------------------------------------------------------ + +void Clipper::DisposeIntersectNodes() +{ + for (size_t i = 0; i < m_IntersectList.size(); ++i ) + delete m_IntersectList[i]; + m_IntersectList.clear(); +} +//------------------------------------------------------------------------------ + +void Clipper::BuildIntersectList(const cInt topY) +{ + if ( !m_ActiveEdges ) return; + + //prepare for sorting ... + TEdge* e = m_ActiveEdges; + m_SortedEdges = e; + while( e ) + { + e->PrevInSEL = e->PrevInAEL; + e->NextInSEL = e->NextInAEL; + e->Curr.X = TopX( *e, topY ); + e = e->NextInAEL; + } + + //bubblesort ... + bool isModified; + do + { + isModified = false; + e = m_SortedEdges; + while( e->NextInSEL ) + { + TEdge *eNext = e->NextInSEL; + IntPoint Pt; + if(e->Curr.X > eNext->Curr.X) + { + IntersectPoint(*e, *eNext, Pt); + if (Pt.Y < topY) Pt = IntPoint(TopX(*e, topY), topY); + IntersectNode * newNode = new IntersectNode; + newNode->Edge1 = e; + newNode->Edge2 = eNext; + newNode->Pt = Pt; + m_IntersectList.push_back(newNode); + + SwapPositionsInSEL(e, eNext); + isModified = true; + } + else + e = eNext; + } + if( e->PrevInSEL ) e->PrevInSEL->NextInSEL = 0; + else break; + } + while ( isModified ); + m_SortedEdges = 0; //important +} +//------------------------------------------------------------------------------ + + +void Clipper::ProcessIntersectList() +{ + for (size_t i = 0; i < m_IntersectList.size(); ++i) + { + IntersectNode* iNode = m_IntersectList[i]; + { + IntersectEdges( iNode->Edge1, iNode->Edge2, iNode->Pt); + SwapPositionsInAEL( iNode->Edge1 , iNode->Edge2 ); + } + delete iNode; + } + m_IntersectList.clear(); +} +//------------------------------------------------------------------------------ + +bool IntersectListSort(IntersectNode* node1, IntersectNode* node2) +{ + return node2->Pt.Y < node1->Pt.Y; +} +//------------------------------------------------------------------------------ + +inline bool EdgesAdjacent(const IntersectNode &inode) +{ + return (inode.Edge1->NextInSEL == inode.Edge2) || + (inode.Edge1->PrevInSEL == inode.Edge2); +} +//------------------------------------------------------------------------------ + +bool Clipper::FixupIntersectionOrder() +{ + //pre-condition: intersections are sorted Bottom-most first. + //Now it's crucial that intersections are made only between adjacent edges, + //so to ensure this the order of intersections may need adjusting ... + CopyAELToSEL(); + std::sort(m_IntersectList.begin(), m_IntersectList.end(), IntersectListSort); + size_t cnt = m_IntersectList.size(); + for (size_t i = 0; i < cnt; ++i) + { + if (!EdgesAdjacent(*m_IntersectList[i])) + { + size_t j = i + 1; + while (j < cnt && !EdgesAdjacent(*m_IntersectList[j])) j++; + if (j == cnt) return false; + std::swap(m_IntersectList[i], m_IntersectList[j]); + } + SwapPositionsInSEL(m_IntersectList[i]->Edge1, m_IntersectList[i]->Edge2); + } + return true; +} +//------------------------------------------------------------------------------ + +void Clipper::DoMaxima(TEdge *e) +{ + TEdge* eMaxPair = GetMaximaPairEx(e); + if (!eMaxPair) + { + if (e->OutIdx >= 0) + AddOutPt(e, e->Top); + DeleteFromAEL(e); + return; + } + + TEdge* eNext = e->NextInAEL; + while(eNext && eNext != eMaxPair) + { + IntersectEdges(e, eNext, e->Top); + SwapPositionsInAEL(e, eNext); + eNext = e->NextInAEL; + } + + if(e->OutIdx == Unassigned && eMaxPair->OutIdx == Unassigned) + { + DeleteFromAEL(e); + DeleteFromAEL(eMaxPair); + } + else if( e->OutIdx >= 0 && eMaxPair->OutIdx >= 0 ) + { + if (e->OutIdx >= 0) AddLocalMaxPoly(e, eMaxPair, e->Top); + DeleteFromAEL(e); + DeleteFromAEL(eMaxPair); + } +#ifdef use_lines + else if (e->WindDelta == 0) + { + if (e->OutIdx >= 0) + { + AddOutPt(e, e->Top); + e->OutIdx = Unassigned; + } + DeleteFromAEL(e); + + if (eMaxPair->OutIdx >= 0) + { + AddOutPt(eMaxPair, e->Top); + eMaxPair->OutIdx = Unassigned; + } + DeleteFromAEL(eMaxPair); + } +#endif + else throw clipperException("DoMaxima error"); +} +//------------------------------------------------------------------------------ + +void Clipper::ProcessEdgesAtTopOfScanbeam(const cInt topY) +{ + TEdge* e = m_ActiveEdges; + while( e ) + { + //1. process maxima, treating them as if they're 'bent' horizontal edges, + // but exclude maxima with horizontal edges. nb: e can't be a horizontal. + bool IsMaximaEdge = IsMaxima(e, topY); + + if(IsMaximaEdge) + { + TEdge* eMaxPair = GetMaximaPairEx(e); + IsMaximaEdge = (!eMaxPair || !IsHorizontal(*eMaxPair)); + } + + if(IsMaximaEdge) + { + if (m_StrictSimple) m_Maxima.push_back(e->Top.X); + TEdge* ePrev = e->PrevInAEL; + DoMaxima(e); + if( !ePrev ) e = m_ActiveEdges; + else e = ePrev->NextInAEL; + } + else + { + //2. promote horizontal edges, otherwise update Curr.X and Curr.Y ... + if (IsIntermediate(e, topY) && IsHorizontal(*e->NextInLML)) + { + UpdateEdgeIntoAEL(e); + if (e->OutIdx >= 0) + AddOutPt(e, e->Bot); + AddEdgeToSEL(e); + } + else + { + e->Curr.X = TopX( *e, topY ); + e->Curr.Y = topY; +#ifdef use_xyz + e->Curr.Z = topY == e->Top.Y ? e->Top.Z : (topY == e->Bot.Y ? e->Bot.Z : 0); +#endif + } + + //When StrictlySimple and 'e' is being touched by another edge, then + //make sure both edges have a vertex here ... + if (m_StrictSimple) + { + TEdge* ePrev = e->PrevInAEL; + if ((e->OutIdx >= 0) && (e->WindDelta != 0) && ePrev && (ePrev->OutIdx >= 0) && + (ePrev->Curr.X == e->Curr.X) && (ePrev->WindDelta != 0)) + { + IntPoint pt = e->Curr; +#ifdef use_xyz + SetZ(pt, *ePrev, *e); +#endif + OutPt* op = AddOutPt(ePrev, pt); + OutPt* op2 = AddOutPt(e, pt); + AddJoin(op, op2, pt); //StrictlySimple (type-3) join + } + } + + e = e->NextInAEL; + } + } + + //3. Process horizontals at the Top of the scanbeam ... + m_Maxima.sort(); + ProcessHorizontals(); + m_Maxima.clear(); + + //4. Promote intermediate vertices ... + e = m_ActiveEdges; + while(e) + { + if(IsIntermediate(e, topY)) + { + OutPt* op = 0; + if( e->OutIdx >= 0 ) + op = AddOutPt(e, e->Top); + UpdateEdgeIntoAEL(e); + + //if output polygons share an edge, they'll need joining later ... + TEdge* ePrev = e->PrevInAEL; + TEdge* eNext = e->NextInAEL; + if (ePrev && ePrev->Curr.X == e->Bot.X && + ePrev->Curr.Y == e->Bot.Y && op && + ePrev->OutIdx >= 0 && ePrev->Curr.Y > ePrev->Top.Y && + SlopesEqual(e->Curr, e->Top, ePrev->Curr, ePrev->Top, m_UseFullRange) && + (e->WindDelta != 0) && (ePrev->WindDelta != 0)) + { + OutPt* op2 = AddOutPt(ePrev, e->Bot); + AddJoin(op, op2, e->Top); + } + else if (eNext && eNext->Curr.X == e->Bot.X && + eNext->Curr.Y == e->Bot.Y && op && + eNext->OutIdx >= 0 && eNext->Curr.Y > eNext->Top.Y && + SlopesEqual(e->Curr, e->Top, eNext->Curr, eNext->Top, m_UseFullRange) && + (e->WindDelta != 0) && (eNext->WindDelta != 0)) + { + OutPt* op2 = AddOutPt(eNext, e->Bot); + AddJoin(op, op2, e->Top); + } + } + e = e->NextInAEL; + } +} +//------------------------------------------------------------------------------ + +void Clipper::FixupOutPolyline(OutRec &outrec) +{ + OutPt *pp = outrec.Pts; + OutPt *lastPP = pp->Prev; + while (pp != lastPP) + { + pp = pp->Next; + if (pp->Pt == pp->Prev->Pt) + { + if (pp == lastPP) lastPP = pp->Prev; + OutPt *tmpPP = pp->Prev; + tmpPP->Next = pp->Next; + pp->Next->Prev = tmpPP; + delete pp; + pp = tmpPP; + } + } + + if (pp == pp->Prev) + { + DisposeOutPts(pp); + outrec.Pts = 0; + return; + } +} +//------------------------------------------------------------------------------ + +void Clipper::FixupOutPolygon(OutRec &outrec) +{ + //FixupOutPolygon() - removes duplicate points and simplifies consecutive + //parallel edges by removing the middle vertex. + OutPt *lastOK = 0; + outrec.BottomPt = 0; + OutPt *pp = outrec.Pts; + bool preserveCol = m_PreserveCollinear || m_StrictSimple; + + for (;;) + { + if (pp->Prev == pp || pp->Prev == pp->Next) + { + DisposeOutPts(pp); + outrec.Pts = 0; + return; + } + + //test for duplicate points and collinear edges ... + if ((pp->Pt == pp->Next->Pt) || (pp->Pt == pp->Prev->Pt) || + (SlopesEqual(pp->Prev->Pt, pp->Pt, pp->Next->Pt, m_UseFullRange) && + (!preserveCol || !Pt2IsBetweenPt1AndPt3(pp->Prev->Pt, pp->Pt, pp->Next->Pt)))) + { + lastOK = 0; + OutPt *tmp = pp; + pp->Prev->Next = pp->Next; + pp->Next->Prev = pp->Prev; + pp = pp->Prev; + delete tmp; + } + else if (pp == lastOK) break; + else + { + if (!lastOK) lastOK = pp; + pp = pp->Next; + } + } + outrec.Pts = pp; +} +//------------------------------------------------------------------------------ + +int PointCount(OutPt *Pts) +{ + if (!Pts) return 0; + int result = 0; + OutPt* p = Pts; + do + { + result++; + p = p->Next; + } + while (p != Pts); + return result; +} +//------------------------------------------------------------------------------ + +void Clipper::BuildResult(Paths &polys) +{ + polys.reserve(m_PolyOuts.size()); + for (PolyOutList::size_type i = 0; i < m_PolyOuts.size(); ++i) + { + if (!m_PolyOuts[i]->Pts) continue; + Path pg; + OutPt* p = m_PolyOuts[i]->Pts->Prev; + int cnt = PointCount(p); + if (cnt < 2) continue; + pg.reserve(cnt); + for (int i = 0; i < cnt; ++i) + { + pg.push_back(p->Pt); + p = p->Prev; + } + polys.push_back(pg); + } +} +//------------------------------------------------------------------------------ + +void Clipper::BuildResult2(PolyTree& polytree) +{ + polytree.Clear(); + polytree.AllNodes.reserve(m_PolyOuts.size()); + //add each output polygon/contour to polytree ... + for (PolyOutList::size_type i = 0; i < m_PolyOuts.size(); i++) + { + OutRec* outRec = m_PolyOuts[i]; + int cnt = PointCount(outRec->Pts); + if ((outRec->IsOpen && cnt < 2) || (!outRec->IsOpen && cnt < 3)) continue; + FixHoleLinkage(*outRec); + PolyNode* pn = new PolyNode(); + //nb: polytree takes ownership of all the PolyNodes + polytree.AllNodes.push_back(pn); + outRec->PolyNd = pn; + pn->Parent = 0; + pn->Index = 0; + pn->Contour.reserve(cnt); + OutPt *op = outRec->Pts->Prev; + for (int j = 0; j < cnt; j++) + { + pn->Contour.push_back(op->Pt); + op = op->Prev; + } + } + + //fixup PolyNode links etc ... + polytree.Childs.reserve(m_PolyOuts.size()); + for (PolyOutList::size_type i = 0; i < m_PolyOuts.size(); i++) + { + OutRec* outRec = m_PolyOuts[i]; + if (!outRec->PolyNd) continue; + if (outRec->IsOpen) + { + outRec->PolyNd->m_IsOpen = true; + polytree.AddChild(*outRec->PolyNd); + } + else if (outRec->FirstLeft && outRec->FirstLeft->PolyNd) + outRec->FirstLeft->PolyNd->AddChild(*outRec->PolyNd); + else + polytree.AddChild(*outRec->PolyNd); + } +} +//------------------------------------------------------------------------------ + +void SwapIntersectNodes(IntersectNode &int1, IntersectNode &int2) +{ + //just swap the contents (because fIntersectNodes is a single-linked-list) + IntersectNode inode = int1; //gets a copy of Int1 + int1.Edge1 = int2.Edge1; + int1.Edge2 = int2.Edge2; + int1.Pt = int2.Pt; + int2.Edge1 = inode.Edge1; + int2.Edge2 = inode.Edge2; + int2.Pt = inode.Pt; +} +//------------------------------------------------------------------------------ + +inline bool E2InsertsBeforeE1(TEdge &e1, TEdge &e2) +{ + if (e2.Curr.X == e1.Curr.X) + { + if (e2.Top.Y > e1.Top.Y) + return e2.Top.X < TopX(e1, e2.Top.Y); + else return e1.Top.X > TopX(e2, e1.Top.Y); + } + else return e2.Curr.X < e1.Curr.X; +} +//------------------------------------------------------------------------------ + +bool GetOverlap(const cInt a1, const cInt a2, const cInt b1, const cInt b2, + cInt& Left, cInt& Right) +{ + if (a1 < a2) + { + if (b1 < b2) {Left = std::max(a1,b1); Right = std::min(a2,b2);} + else {Left = std::max(a1,b2); Right = std::min(a2,b1);} + } + else + { + if (b1 < b2) {Left = std::max(a2,b1); Right = std::min(a1,b2);} + else {Left = std::max(a2,b2); Right = std::min(a1,b1);} + } + return Left < Right; +} +//------------------------------------------------------------------------------ + +inline void UpdateOutPtIdxs(OutRec& outrec) +{ + OutPt* op = outrec.Pts; + do + { + op->Idx = outrec.Idx; + op = op->Prev; + } + while(op != outrec.Pts); +} +//------------------------------------------------------------------------------ + +void Clipper::InsertEdgeIntoAEL(TEdge *edge, TEdge* startEdge) +{ + if(!m_ActiveEdges) + { + edge->PrevInAEL = 0; + edge->NextInAEL = 0; + m_ActiveEdges = edge; + } + else if(!startEdge && E2InsertsBeforeE1(*m_ActiveEdges, *edge)) + { + edge->PrevInAEL = 0; + edge->NextInAEL = m_ActiveEdges; + m_ActiveEdges->PrevInAEL = edge; + m_ActiveEdges = edge; + } + else + { + if(!startEdge) startEdge = m_ActiveEdges; + while(startEdge->NextInAEL && + !E2InsertsBeforeE1(*startEdge->NextInAEL , *edge)) + startEdge = startEdge->NextInAEL; + edge->NextInAEL = startEdge->NextInAEL; + if(startEdge->NextInAEL) startEdge->NextInAEL->PrevInAEL = edge; + edge->PrevInAEL = startEdge; + startEdge->NextInAEL = edge; + } +} +//---------------------------------------------------------------------- + +OutPt* DupOutPt(OutPt* outPt, bool InsertAfter) +{ + OutPt* result = new OutPt; + result->Pt = outPt->Pt; + result->Idx = outPt->Idx; + if (InsertAfter) + { + result->Next = outPt->Next; + result->Prev = outPt; + outPt->Next->Prev = result; + outPt->Next = result; + } + else + { + result->Prev = outPt->Prev; + result->Next = outPt; + outPt->Prev->Next = result; + outPt->Prev = result; + } + return result; +} +//------------------------------------------------------------------------------ + +bool JoinHorz(OutPt* op1, OutPt* op1b, OutPt* op2, OutPt* op2b, + const IntPoint Pt, bool DiscardLeft) +{ + Direction Dir1 = (op1->Pt.X > op1b->Pt.X ? dRightToLeft : dLeftToRight); + Direction Dir2 = (op2->Pt.X > op2b->Pt.X ? dRightToLeft : dLeftToRight); + if (Dir1 == Dir2) return false; + + //When DiscardLeft, we want Op1b to be on the Left of Op1, otherwise we + //want Op1b to be on the Right. (And likewise with Op2 and Op2b.) + //So, to facilitate this while inserting Op1b and Op2b ... + //when DiscardLeft, make sure we're AT or RIGHT of Pt before adding Op1b, + //otherwise make sure we're AT or LEFT of Pt. (Likewise with Op2b.) + if (Dir1 == dLeftToRight) + { + while (op1->Next->Pt.X <= Pt.X && + op1->Next->Pt.X >= op1->Pt.X && op1->Next->Pt.Y == Pt.Y) + op1 = op1->Next; + if (DiscardLeft && (op1->Pt.X != Pt.X)) op1 = op1->Next; + op1b = DupOutPt(op1, !DiscardLeft); + if (op1b->Pt != Pt) + { + op1 = op1b; + op1->Pt = Pt; + op1b = DupOutPt(op1, !DiscardLeft); + } + } + else + { + while (op1->Next->Pt.X >= Pt.X && + op1->Next->Pt.X <= op1->Pt.X && op1->Next->Pt.Y == Pt.Y) + op1 = op1->Next; + if (!DiscardLeft && (op1->Pt.X != Pt.X)) op1 = op1->Next; + op1b = DupOutPt(op1, DiscardLeft); + if (op1b->Pt != Pt) + { + op1 = op1b; + op1->Pt = Pt; + op1b = DupOutPt(op1, DiscardLeft); + } + } + + if (Dir2 == dLeftToRight) + { + while (op2->Next->Pt.X <= Pt.X && + op2->Next->Pt.X >= op2->Pt.X && op2->Next->Pt.Y == Pt.Y) + op2 = op2->Next; + if (DiscardLeft && (op2->Pt.X != Pt.X)) op2 = op2->Next; + op2b = DupOutPt(op2, !DiscardLeft); + if (op2b->Pt != Pt) + { + op2 = op2b; + op2->Pt = Pt; + op2b = DupOutPt(op2, !DiscardLeft); + }; + } else + { + while (op2->Next->Pt.X >= Pt.X && + op2->Next->Pt.X <= op2->Pt.X && op2->Next->Pt.Y == Pt.Y) + op2 = op2->Next; + if (!DiscardLeft && (op2->Pt.X != Pt.X)) op2 = op2->Next; + op2b = DupOutPt(op2, DiscardLeft); + if (op2b->Pt != Pt) + { + op2 = op2b; + op2->Pt = Pt; + op2b = DupOutPt(op2, DiscardLeft); + }; + }; + + if ((Dir1 == dLeftToRight) == DiscardLeft) + { + op1->Prev = op2; + op2->Next = op1; + op1b->Next = op2b; + op2b->Prev = op1b; + } + else + { + op1->Next = op2; + op2->Prev = op1; + op1b->Prev = op2b; + op2b->Next = op1b; + } + return true; +} +//------------------------------------------------------------------------------ + +bool Clipper::JoinPoints(Join *j, OutRec* outRec1, OutRec* outRec2) +{ + OutPt *op1 = j->OutPt1, *op1b; + OutPt *op2 = j->OutPt2, *op2b; + + //There are 3 kinds of joins for output polygons ... + //1. Horizontal joins where Join.OutPt1 & Join.OutPt2 are vertices anywhere + //along (horizontal) collinear edges (& Join.OffPt is on the same horizontal). + //2. Non-horizontal joins where Join.OutPt1 & Join.OutPt2 are at the same + //location at the Bottom of the overlapping segment (& Join.OffPt is above). + //3. StrictSimple joins where edges touch but are not collinear and where + //Join.OutPt1, Join.OutPt2 & Join.OffPt all share the same point. + bool isHorizontal = (j->OutPt1->Pt.Y == j->OffPt.Y); + + if (isHorizontal && (j->OffPt == j->OutPt1->Pt) && + (j->OffPt == j->OutPt2->Pt)) + { + //Strictly Simple join ... + if (outRec1 != outRec2) return false; + op1b = j->OutPt1->Next; + while (op1b != op1 && (op1b->Pt == j->OffPt)) + op1b = op1b->Next; + bool reverse1 = (op1b->Pt.Y > j->OffPt.Y); + op2b = j->OutPt2->Next; + while (op2b != op2 && (op2b->Pt == j->OffPt)) + op2b = op2b->Next; + bool reverse2 = (op2b->Pt.Y > j->OffPt.Y); + if (reverse1 == reverse2) return false; + if (reverse1) + { + op1b = DupOutPt(op1, false); + op2b = DupOutPt(op2, true); + op1->Prev = op2; + op2->Next = op1; + op1b->Next = op2b; + op2b->Prev = op1b; + j->OutPt1 = op1; + j->OutPt2 = op1b; + return true; + } else + { + op1b = DupOutPt(op1, true); + op2b = DupOutPt(op2, false); + op1->Next = op2; + op2->Prev = op1; + op1b->Prev = op2b; + op2b->Next = op1b; + j->OutPt1 = op1; + j->OutPt2 = op1b; + return true; + } + } + else if (isHorizontal) + { + //treat horizontal joins differently to non-horizontal joins since with + //them we're not yet sure where the overlapping is. OutPt1.Pt & OutPt2.Pt + //may be anywhere along the horizontal edge. + op1b = op1; + while (op1->Prev->Pt.Y == op1->Pt.Y && op1->Prev != op1b && op1->Prev != op2) + op1 = op1->Prev; + while (op1b->Next->Pt.Y == op1b->Pt.Y && op1b->Next != op1 && op1b->Next != op2) + op1b = op1b->Next; + if (op1b->Next == op1 || op1b->Next == op2) return false; //a flat 'polygon' + + op2b = op2; + while (op2->Prev->Pt.Y == op2->Pt.Y && op2->Prev != op2b && op2->Prev != op1b) + op2 = op2->Prev; + while (op2b->Next->Pt.Y == op2b->Pt.Y && op2b->Next != op2 && op2b->Next != op1) + op2b = op2b->Next; + if (op2b->Next == op2 || op2b->Next == op1) return false; //a flat 'polygon' + + cInt Left, Right; + //Op1 --> Op1b & Op2 --> Op2b are the extremites of the horizontal edges + if (!GetOverlap(op1->Pt.X, op1b->Pt.X, op2->Pt.X, op2b->Pt.X, Left, Right)) + return false; + + //DiscardLeftSide: when overlapping edges are joined, a spike will created + //which needs to be cleaned up. However, we don't want Op1 or Op2 caught up + //on the discard Side as either may still be needed for other joins ... + IntPoint Pt; + bool DiscardLeftSide; + if (op1->Pt.X >= Left && op1->Pt.X <= Right) + { + Pt = op1->Pt; DiscardLeftSide = (op1->Pt.X > op1b->Pt.X); + } + else if (op2->Pt.X >= Left&& op2->Pt.X <= Right) + { + Pt = op2->Pt; DiscardLeftSide = (op2->Pt.X > op2b->Pt.X); + } + else if (op1b->Pt.X >= Left && op1b->Pt.X <= Right) + { + Pt = op1b->Pt; DiscardLeftSide = op1b->Pt.X > op1->Pt.X; + } + else + { + Pt = op2b->Pt; DiscardLeftSide = (op2b->Pt.X > op2->Pt.X); + } + j->OutPt1 = op1; j->OutPt2 = op2; + return JoinHorz(op1, op1b, op2, op2b, Pt, DiscardLeftSide); + } else + { + //nb: For non-horizontal joins ... + // 1. Jr.OutPt1.Pt.Y == Jr.OutPt2.Pt.Y + // 2. Jr.OutPt1.Pt > Jr.OffPt.Y + + //make sure the polygons are correctly oriented ... + op1b = op1->Next; + while ((op1b->Pt == op1->Pt) && (op1b != op1)) op1b = op1b->Next; + bool Reverse1 = ((op1b->Pt.Y > op1->Pt.Y) || + !SlopesEqual(op1->Pt, op1b->Pt, j->OffPt, m_UseFullRange)); + if (Reverse1) + { + op1b = op1->Prev; + while ((op1b->Pt == op1->Pt) && (op1b != op1)) op1b = op1b->Prev; + if ((op1b->Pt.Y > op1->Pt.Y) || + !SlopesEqual(op1->Pt, op1b->Pt, j->OffPt, m_UseFullRange)) return false; + }; + op2b = op2->Next; + while ((op2b->Pt == op2->Pt) && (op2b != op2))op2b = op2b->Next; + bool Reverse2 = ((op2b->Pt.Y > op2->Pt.Y) || + !SlopesEqual(op2->Pt, op2b->Pt, j->OffPt, m_UseFullRange)); + if (Reverse2) + { + op2b = op2->Prev; + while ((op2b->Pt == op2->Pt) && (op2b != op2)) op2b = op2b->Prev; + if ((op2b->Pt.Y > op2->Pt.Y) || + !SlopesEqual(op2->Pt, op2b->Pt, j->OffPt, m_UseFullRange)) return false; + } + + if ((op1b == op1) || (op2b == op2) || (op1b == op2b) || + ((outRec1 == outRec2) && (Reverse1 == Reverse2))) return false; + + if (Reverse1) + { + op1b = DupOutPt(op1, false); + op2b = DupOutPt(op2, true); + op1->Prev = op2; + op2->Next = op1; + op1b->Next = op2b; + op2b->Prev = op1b; + j->OutPt1 = op1; + j->OutPt2 = op1b; + return true; + } else + { + op1b = DupOutPt(op1, true); + op2b = DupOutPt(op2, false); + op1->Next = op2; + op2->Prev = op1; + op1b->Prev = op2b; + op2b->Next = op1b; + j->OutPt1 = op1; + j->OutPt2 = op1b; + return true; + } + } +} +//---------------------------------------------------------------------- + +static OutRec* ParseFirstLeft(OutRec* FirstLeft) +{ + while (FirstLeft && !FirstLeft->Pts) + FirstLeft = FirstLeft->FirstLeft; + return FirstLeft; +} +//------------------------------------------------------------------------------ + +void Clipper::FixupFirstLefts1(OutRec* OldOutRec, OutRec* NewOutRec) +{ + //tests if NewOutRec contains the polygon before reassigning FirstLeft + for (PolyOutList::size_type i = 0; i < m_PolyOuts.size(); ++i) + { + OutRec* outRec = m_PolyOuts[i]; + OutRec* firstLeft = ParseFirstLeft(outRec->FirstLeft); + if (outRec->Pts && firstLeft == OldOutRec) + { + if (Poly2ContainsPoly1(outRec->Pts, NewOutRec->Pts)) + outRec->FirstLeft = NewOutRec; + } + } +} +//---------------------------------------------------------------------- + +void Clipper::FixupFirstLefts2(OutRec* InnerOutRec, OutRec* OuterOutRec) +{ + //A polygon has split into two such that one is now the inner of the other. + //It's possible that these polygons now wrap around other polygons, so check + //every polygon that's also contained by OuterOutRec's FirstLeft container + //(including 0) to see if they've become inner to the new inner polygon ... + OutRec* orfl = OuterOutRec->FirstLeft; + for (PolyOutList::size_type i = 0; i < m_PolyOuts.size(); ++i) + { + OutRec* outRec = m_PolyOuts[i]; + + if (!outRec->Pts || outRec == OuterOutRec || outRec == InnerOutRec) + continue; + OutRec* firstLeft = ParseFirstLeft(outRec->FirstLeft); + if (firstLeft != orfl && firstLeft != InnerOutRec && firstLeft != OuterOutRec) + continue; + if (Poly2ContainsPoly1(outRec->Pts, InnerOutRec->Pts)) + outRec->FirstLeft = InnerOutRec; + else if (Poly2ContainsPoly1(outRec->Pts, OuterOutRec->Pts)) + outRec->FirstLeft = OuterOutRec; + else if (outRec->FirstLeft == InnerOutRec || outRec->FirstLeft == OuterOutRec) + outRec->FirstLeft = orfl; + } +} +//---------------------------------------------------------------------- +void Clipper::FixupFirstLefts3(OutRec* OldOutRec, OutRec* NewOutRec) +{ + //reassigns FirstLeft WITHOUT testing if NewOutRec contains the polygon + for (PolyOutList::size_type i = 0; i < m_PolyOuts.size(); ++i) + { + OutRec* outRec = m_PolyOuts[i]; + OutRec* firstLeft = ParseFirstLeft(outRec->FirstLeft); + if (outRec->Pts && firstLeft == OldOutRec) + outRec->FirstLeft = NewOutRec; + } +} +//---------------------------------------------------------------------- + +void Clipper::JoinCommonEdges() +{ + for (JoinList::size_type i = 0; i < m_Joins.size(); i++) + { + Join* join = m_Joins[i]; + + OutRec *outRec1 = GetOutRec(join->OutPt1->Idx); + OutRec *outRec2 = GetOutRec(join->OutPt2->Idx); + + if (!outRec1->Pts || !outRec2->Pts) continue; + if (outRec1->IsOpen || outRec2->IsOpen) continue; + + //get the polygon fragment with the correct hole state (FirstLeft) + //before calling JoinPoints() ... + OutRec *holeStateRec; + if (outRec1 == outRec2) holeStateRec = outRec1; + else if (OutRec1RightOfOutRec2(outRec1, outRec2)) holeStateRec = outRec2; + else if (OutRec1RightOfOutRec2(outRec2, outRec1)) holeStateRec = outRec1; + else holeStateRec = GetLowermostRec(outRec1, outRec2); + + if (!JoinPoints(join, outRec1, outRec2)) continue; + + if (outRec1 == outRec2) + { + //instead of joining two polygons, we've just created a new one by + //splitting one polygon into two. + outRec1->Pts = join->OutPt1; + outRec1->BottomPt = 0; + outRec2 = CreateOutRec(); + outRec2->Pts = join->OutPt2; + + //update all OutRec2.Pts Idx's ... + UpdateOutPtIdxs(*outRec2); + + if (Poly2ContainsPoly1(outRec2->Pts, outRec1->Pts)) + { + //outRec1 contains outRec2 ... + outRec2->IsHole = !outRec1->IsHole; + outRec2->FirstLeft = outRec1; + + if (m_UsingPolyTree) FixupFirstLefts2(outRec2, outRec1); + + if ((outRec2->IsHole ^ m_ReverseOutput) == (Area(*outRec2) > 0)) + ReversePolyPtLinks(outRec2->Pts); + + } else if (Poly2ContainsPoly1(outRec1->Pts, outRec2->Pts)) + { + //outRec2 contains outRec1 ... + outRec2->IsHole = outRec1->IsHole; + outRec1->IsHole = !outRec2->IsHole; + outRec2->FirstLeft = outRec1->FirstLeft; + outRec1->FirstLeft = outRec2; + + if (m_UsingPolyTree) FixupFirstLefts2(outRec1, outRec2); + + if ((outRec1->IsHole ^ m_ReverseOutput) == (Area(*outRec1) > 0)) + ReversePolyPtLinks(outRec1->Pts); + } + else + { + //the 2 polygons are completely separate ... + outRec2->IsHole = outRec1->IsHole; + outRec2->FirstLeft = outRec1->FirstLeft; + + //fixup FirstLeft pointers that may need reassigning to OutRec2 + if (m_UsingPolyTree) FixupFirstLefts1(outRec1, outRec2); + } + + } else + { + //joined 2 polygons together ... + + outRec2->Pts = 0; + outRec2->BottomPt = 0; + outRec2->Idx = outRec1->Idx; + + outRec1->IsHole = holeStateRec->IsHole; + if (holeStateRec == outRec2) + outRec1->FirstLeft = outRec2->FirstLeft; + outRec2->FirstLeft = outRec1; + + if (m_UsingPolyTree) FixupFirstLefts3(outRec2, outRec1); + } + } +} + +//------------------------------------------------------------------------------ +// ClipperOffset support functions ... +//------------------------------------------------------------------------------ + +DoublePoint GetUnitNormal(const IntPoint &pt1, const IntPoint &pt2) +{ + if(pt2.X == pt1.X && pt2.Y == pt1.Y) + return DoublePoint(0, 0); + + double Dx = (double)(pt2.X - pt1.X); + double dy = (double)(pt2.Y - pt1.Y); + double f = 1 *1.0/ std::sqrt( Dx*Dx + dy*dy ); + Dx *= f; + dy *= f; + return DoublePoint(dy, -Dx); +} + +//------------------------------------------------------------------------------ +// ClipperOffset class +//------------------------------------------------------------------------------ + +ClipperOffset::ClipperOffset(double miterLimit, double arcTolerance) +{ + this->MiterLimit = miterLimit; + this->ArcTolerance = arcTolerance; + m_lowest.X = -1; +} +//------------------------------------------------------------------------------ + +ClipperOffset::~ClipperOffset() +{ + Clear(); +} +//------------------------------------------------------------------------------ + +void ClipperOffset::Clear() +{ + for (int i = 0; i < m_polyNodes.ChildCount(); ++i) + delete m_polyNodes.Childs[i]; + m_polyNodes.Childs.clear(); + m_lowest.X = -1; +} +//------------------------------------------------------------------------------ + +void ClipperOffset::AddPath(const Path& path, JoinType joinType, EndType endType) +{ + int highI = (int)path.size() - 1; + if (highI < 0) return; + PolyNode* newNode = new PolyNode(); + newNode->m_jointype = joinType; + newNode->m_endtype = endType; + + //strip duplicate points from path and also get index to the lowest point ... + if (endType == etClosedLine || endType == etClosedPolygon) + while (highI > 0 && path[0] == path[highI]) highI--; + newNode->Contour.reserve(highI + 1); + newNode->Contour.push_back(path[0]); + int j = 0, k = 0; + for (int i = 1; i <= highI; i++) + if (newNode->Contour[j] != path[i]) + { + j++; + newNode->Contour.push_back(path[i]); + if (path[i].Y > newNode->Contour[k].Y || + (path[i].Y == newNode->Contour[k].Y && + path[i].X < newNode->Contour[k].X)) k = j; + } + if (endType == etClosedPolygon && j < 2) + { + delete newNode; + return; + } + m_polyNodes.AddChild(*newNode); + + //if this path's lowest pt is lower than all the others then update m_lowest + if (endType != etClosedPolygon) return; + if (m_lowest.X < 0) + m_lowest = IntPoint(m_polyNodes.ChildCount() - 1, k); + else + { + IntPoint ip = m_polyNodes.Childs[(int)m_lowest.X]->Contour[(int)m_lowest.Y]; + if (newNode->Contour[k].Y > ip.Y || + (newNode->Contour[k].Y == ip.Y && + newNode->Contour[k].X < ip.X)) + m_lowest = IntPoint(m_polyNodes.ChildCount() - 1, k); + } +} +//------------------------------------------------------------------------------ + +void ClipperOffset::AddPaths(const Paths& paths, JoinType joinType, EndType endType) +{ + for (Paths::size_type i = 0; i < paths.size(); ++i) + AddPath(paths[i], joinType, endType); +} +//------------------------------------------------------------------------------ + +void ClipperOffset::FixOrientations() +{ + //fixup orientations of all closed paths if the orientation of the + //closed path with the lowermost vertex is wrong ... + if (m_lowest.X >= 0 && + !Orientation(m_polyNodes.Childs[(int)m_lowest.X]->Contour)) + { + for (int i = 0; i < m_polyNodes.ChildCount(); ++i) + { + PolyNode& node = *m_polyNodes.Childs[i]; + if (node.m_endtype == etClosedPolygon || + (node.m_endtype == etClosedLine && Orientation(node.Contour))) + ReversePath(node.Contour); + } + } else + { + for (int i = 0; i < m_polyNodes.ChildCount(); ++i) + { + PolyNode& node = *m_polyNodes.Childs[i]; + if (node.m_endtype == etClosedLine && !Orientation(node.Contour)) + ReversePath(node.Contour); + } + } +} +//------------------------------------------------------------------------------ + +void ClipperOffset::Execute(Paths& solution, double delta) +{ + solution.clear(); + FixOrientations(); + DoOffset(delta); + + //now clean up 'corners' ... + Clipper clpr; + clpr.AddPaths(m_destPolys, ptSubject, true); + if (delta > 0) + { + clpr.Execute(ctUnion, solution, pftPositive, pftPositive); + } + else + { + IntRect r = clpr.GetBounds(); + Path outer(4); + outer[0] = IntPoint(r.left - 10, r.bottom + 10); + outer[1] = IntPoint(r.right + 10, r.bottom + 10); + outer[2] = IntPoint(r.right + 10, r.top - 10); + outer[3] = IntPoint(r.left - 10, r.top - 10); + + clpr.AddPath(outer, ptSubject, true); + clpr.ReverseSolution(true); + clpr.Execute(ctUnion, solution, pftNegative, pftNegative); + if (solution.size() > 0) solution.erase(solution.begin()); + } +} +//------------------------------------------------------------------------------ + +void ClipperOffset::Execute(PolyTree& solution, double delta) +{ + solution.Clear(); + FixOrientations(); + DoOffset(delta); + + //now clean up 'corners' ... + Clipper clpr; + clpr.AddPaths(m_destPolys, ptSubject, true); + if (delta > 0) + { + clpr.Execute(ctUnion, solution, pftPositive, pftPositive); + } + else + { + IntRect r = clpr.GetBounds(); + Path outer(4); + outer[0] = IntPoint(r.left - 10, r.bottom + 10); + outer[1] = IntPoint(r.right + 10, r.bottom + 10); + outer[2] = IntPoint(r.right + 10, r.top - 10); + outer[3] = IntPoint(r.left - 10, r.top - 10); + + clpr.AddPath(outer, ptSubject, true); + clpr.ReverseSolution(true); + clpr.Execute(ctUnion, solution, pftNegative, pftNegative); + //remove the outer PolyNode rectangle ... + if (solution.ChildCount() == 1 && solution.Childs[0]->ChildCount() > 0) + { + PolyNode* outerNode = solution.Childs[0]; + solution.Childs.reserve(outerNode->ChildCount()); + solution.Childs[0] = outerNode->Childs[0]; + solution.Childs[0]->Parent = outerNode->Parent; + for (int i = 1; i < outerNode->ChildCount(); ++i) + solution.AddChild(*outerNode->Childs[i]); + } + else + solution.Clear(); + } +} +//------------------------------------------------------------------------------ + +void ClipperOffset::DoOffset(double delta) +{ + m_destPolys.clear(); + m_delta = delta; + + //if Zero offset, just copy any CLOSED polygons to m_p and return ... + if (NEAR_ZERO(delta)) + { + m_destPolys.reserve(m_polyNodes.ChildCount()); + for (int i = 0; i < m_polyNodes.ChildCount(); i++) + { + PolyNode& node = *m_polyNodes.Childs[i]; + if (node.m_endtype == etClosedPolygon) + m_destPolys.push_back(node.Contour); + } + return; + } + + //see offset_triginometry3.svg in the documentation folder ... + if (MiterLimit > 2) m_miterLim = 2/(MiterLimit * MiterLimit); + else m_miterLim = 0.5; + + double y; + if (ArcTolerance <= 0.0) y = def_arc_tolerance; + else if (ArcTolerance > std::fabs(delta) * def_arc_tolerance) + y = std::fabs(delta) * def_arc_tolerance; + else y = ArcTolerance; + //see offset_triginometry2.svg in the documentation folder ... + double steps = pi / std::acos(1 - y / std::fabs(delta)); + if (steps > std::fabs(delta) * pi) + steps = std::fabs(delta) * pi; //ie excessive precision check + m_sin = std::sin(two_pi / steps); + m_cos = std::cos(two_pi / steps); + m_StepsPerRad = steps / two_pi; + if (delta < 0.0) m_sin = -m_sin; + + m_destPolys.reserve(m_polyNodes.ChildCount() * 2); + for (int i = 0; i < m_polyNodes.ChildCount(); i++) + { + PolyNode& node = *m_polyNodes.Childs[i]; + m_srcPoly = node.Contour; + + int len = (int)m_srcPoly.size(); + if (len == 0 || (delta <= 0 && (len < 3 || node.m_endtype != etClosedPolygon))) + continue; + + m_destPoly.clear(); + if (len == 1) + { + if (node.m_jointype == jtRound) + { + double X = 1.0, Y = 0.0; + for (cInt j = 1; j <= steps; j++) + { + m_destPoly.push_back(IntPoint( + Round(m_srcPoly[0].X + X * delta), + Round(m_srcPoly[0].Y + Y * delta))); + double X2 = X; + X = X * m_cos - m_sin * Y; + Y = X2 * m_sin + Y * m_cos; + } + } + else + { + double X = -1.0, Y = -1.0; + for (int j = 0; j < 4; ++j) + { + m_destPoly.push_back(IntPoint( + Round(m_srcPoly[0].X + X * delta), + Round(m_srcPoly[0].Y + Y * delta))); + if (X < 0) X = 1; + else if (Y < 0) Y = 1; + else X = -1; + } + } + m_destPolys.push_back(m_destPoly); + continue; + } + //build m_normals ... + m_normals.clear(); + m_normals.reserve(len); + for (int j = 0; j < len - 1; ++j) + m_normals.push_back(GetUnitNormal(m_srcPoly[j], m_srcPoly[j + 1])); + if (node.m_endtype == etClosedLine || node.m_endtype == etClosedPolygon) + m_normals.push_back(GetUnitNormal(m_srcPoly[len - 1], m_srcPoly[0])); + else + m_normals.push_back(DoublePoint(m_normals[len - 2])); + + if (node.m_endtype == etClosedPolygon) + { + int k = len - 1; + for (int j = 0; j < len; ++j) + OffsetPoint(j, k, node.m_jointype); + m_destPolys.push_back(m_destPoly); + } + else if (node.m_endtype == etClosedLine) + { + int k = len - 1; + for (int j = 0; j < len; ++j) + OffsetPoint(j, k, node.m_jointype); + m_destPolys.push_back(m_destPoly); + m_destPoly.clear(); + //re-build m_normals ... + DoublePoint n = m_normals[len -1]; + for (int j = len - 1; j > 0; j--) + m_normals[j] = DoublePoint(-m_normals[j - 1].X, -m_normals[j - 1].Y); + m_normals[0] = DoublePoint(-n.X, -n.Y); + k = 0; + for (int j = len - 1; j >= 0; j--) + OffsetPoint(j, k, node.m_jointype); + m_destPolys.push_back(m_destPoly); + } + else + { + int k = 0; + for (int j = 1; j < len - 1; ++j) + OffsetPoint(j, k, node.m_jointype); + + IntPoint pt1; + if (node.m_endtype == etOpenButt) + { + int j = len - 1; + pt1 = IntPoint((cInt)Round(m_srcPoly[j].X + m_normals[j].X * + delta), (cInt)Round(m_srcPoly[j].Y + m_normals[j].Y * delta)); + m_destPoly.push_back(pt1); + pt1 = IntPoint((cInt)Round(m_srcPoly[j].X - m_normals[j].X * + delta), (cInt)Round(m_srcPoly[j].Y - m_normals[j].Y * delta)); + m_destPoly.push_back(pt1); + } + else + { + int j = len - 1; + k = len - 2; + m_sinA = 0; + m_normals[j] = DoublePoint(-m_normals[j].X, -m_normals[j].Y); + if (node.m_endtype == etOpenSquare) + DoSquare(j, k); + else + DoRound(j, k); + } + + //re-build m_normals ... + for (int j = len - 1; j > 0; j--) + m_normals[j] = DoublePoint(-m_normals[j - 1].X, -m_normals[j - 1].Y); + m_normals[0] = DoublePoint(-m_normals[1].X, -m_normals[1].Y); + + k = len - 1; + for (int j = k - 1; j > 0; --j) OffsetPoint(j, k, node.m_jointype); + + if (node.m_endtype == etOpenButt) + { + pt1 = IntPoint((cInt)Round(m_srcPoly[0].X - m_normals[0].X * delta), + (cInt)Round(m_srcPoly[0].Y - m_normals[0].Y * delta)); + m_destPoly.push_back(pt1); + pt1 = IntPoint((cInt)Round(m_srcPoly[0].X + m_normals[0].X * delta), + (cInt)Round(m_srcPoly[0].Y + m_normals[0].Y * delta)); + m_destPoly.push_back(pt1); + } + else + { + k = 1; + m_sinA = 0; + if (node.m_endtype == etOpenSquare) + DoSquare(0, 1); + else + DoRound(0, 1); + } + m_destPolys.push_back(m_destPoly); + } + } +} +//------------------------------------------------------------------------------ + +void ClipperOffset::OffsetPoint(int j, int& k, JoinType jointype) +{ + //cross product ... + m_sinA = (m_normals[k].X * m_normals[j].Y - m_normals[j].X * m_normals[k].Y); + if (std::fabs(m_sinA * m_delta) < 1.0) + { + //dot product ... + double cosA = (m_normals[k].X * m_normals[j].X + m_normals[j].Y * m_normals[k].Y ); + if (cosA > 0) // angle => 0 degrees + { + m_destPoly.push_back(IntPoint(Round(m_srcPoly[j].X + m_normals[k].X * m_delta), + Round(m_srcPoly[j].Y + m_normals[k].Y * m_delta))); + return; + } + //else angle => 180 degrees + } + else if (m_sinA > 1.0) m_sinA = 1.0; + else if (m_sinA < -1.0) m_sinA = -1.0; + + if (m_sinA * m_delta < 0) + { + m_destPoly.push_back(IntPoint(Round(m_srcPoly[j].X + m_normals[k].X * m_delta), + Round(m_srcPoly[j].Y + m_normals[k].Y * m_delta))); + m_destPoly.push_back(m_srcPoly[j]); + m_destPoly.push_back(IntPoint(Round(m_srcPoly[j].X + m_normals[j].X * m_delta), + Round(m_srcPoly[j].Y + m_normals[j].Y * m_delta))); + } + else + switch (jointype) + { + case jtMiter: + { + double r = 1 + (m_normals[j].X * m_normals[k].X + + m_normals[j].Y * m_normals[k].Y); + if (r >= m_miterLim) DoMiter(j, k, r); else DoSquare(j, k); + break; + } + case jtSquare: DoSquare(j, k); break; + case jtRound: DoRound(j, k); break; + } + k = j; +} +//------------------------------------------------------------------------------ + +void ClipperOffset::DoSquare(int j, int k) +{ + double dx = std::tan(std::atan2(m_sinA, + m_normals[k].X * m_normals[j].X + m_normals[k].Y * m_normals[j].Y) / 4); + m_destPoly.push_back(IntPoint( + Round(m_srcPoly[j].X + m_delta * (m_normals[k].X - m_normals[k].Y * dx)), + Round(m_srcPoly[j].Y + m_delta * (m_normals[k].Y + m_normals[k].X * dx)))); + m_destPoly.push_back(IntPoint( + Round(m_srcPoly[j].X + m_delta * (m_normals[j].X + m_normals[j].Y * dx)), + Round(m_srcPoly[j].Y + m_delta * (m_normals[j].Y - m_normals[j].X * dx)))); +} +//------------------------------------------------------------------------------ + +void ClipperOffset::DoMiter(int j, int k, double r) +{ + double q = m_delta / r; + m_destPoly.push_back(IntPoint(Round(m_srcPoly[j].X + (m_normals[k].X + m_normals[j].X) * q), + Round(m_srcPoly[j].Y + (m_normals[k].Y + m_normals[j].Y) * q))); +} +//------------------------------------------------------------------------------ + +void ClipperOffset::DoRound(int j, int k) +{ + double a = std::atan2(m_sinA, + m_normals[k].X * m_normals[j].X + m_normals[k].Y * m_normals[j].Y); + int steps = std::max((int)Round(m_StepsPerRad * std::fabs(a)), 1); + + double X = m_normals[k].X, Y = m_normals[k].Y, X2; + for (int i = 0; i < steps; ++i) + { + m_destPoly.push_back(IntPoint( + Round(m_srcPoly[j].X + X * m_delta), + Round(m_srcPoly[j].Y + Y * m_delta))); + X2 = X; + X = X * m_cos - m_sin * Y; + Y = X2 * m_sin + Y * m_cos; + } + m_destPoly.push_back(IntPoint( + Round(m_srcPoly[j].X + m_normals[j].X * m_delta), + Round(m_srcPoly[j].Y + m_normals[j].Y * m_delta))); +} + +//------------------------------------------------------------------------------ +// Miscellaneous public functions +//------------------------------------------------------------------------------ + +void Clipper::DoSimplePolygons() +{ + PolyOutList::size_type i = 0; + while (i < m_PolyOuts.size()) + { + OutRec* outrec = m_PolyOuts[i++]; + OutPt* op = outrec->Pts; + if (!op || outrec->IsOpen) continue; + do //for each Pt in Polygon until duplicate found do ... + { + OutPt* op2 = op->Next; + while (op2 != outrec->Pts) + { + if ((op->Pt == op2->Pt) && op2->Next != op && op2->Prev != op) + { + //split the polygon into two ... + OutPt* op3 = op->Prev; + OutPt* op4 = op2->Prev; + op->Prev = op4; + op4->Next = op; + op2->Prev = op3; + op3->Next = op2; + + outrec->Pts = op; + OutRec* outrec2 = CreateOutRec(); + outrec2->Pts = op2; + UpdateOutPtIdxs(*outrec2); + if (Poly2ContainsPoly1(outrec2->Pts, outrec->Pts)) + { + //OutRec2 is contained by OutRec1 ... + outrec2->IsHole = !outrec->IsHole; + outrec2->FirstLeft = outrec; + if (m_UsingPolyTree) FixupFirstLefts2(outrec2, outrec); + } + else + if (Poly2ContainsPoly1(outrec->Pts, outrec2->Pts)) + { + //OutRec1 is contained by OutRec2 ... + outrec2->IsHole = outrec->IsHole; + outrec->IsHole = !outrec2->IsHole; + outrec2->FirstLeft = outrec->FirstLeft; + outrec->FirstLeft = outrec2; + if (m_UsingPolyTree) FixupFirstLefts2(outrec, outrec2); + } + else + { + //the 2 polygons are separate ... + outrec2->IsHole = outrec->IsHole; + outrec2->FirstLeft = outrec->FirstLeft; + if (m_UsingPolyTree) FixupFirstLefts1(outrec, outrec2); + } + op2 = op; //ie get ready for the Next iteration + } + op2 = op2->Next; + } + op = op->Next; + } + while (op != outrec->Pts); + } +} +//------------------------------------------------------------------------------ + +void ReversePath(Path& p) +{ + std::reverse(p.begin(), p.end()); +} +//------------------------------------------------------------------------------ + +void ReversePaths(Paths& p) +{ + for (Paths::size_type i = 0; i < p.size(); ++i) + ReversePath(p[i]); +} +//------------------------------------------------------------------------------ + +void SimplifyPolygon(const Path &in_poly, Paths &out_polys, PolyFillType fillType) +{ + Clipper c; + c.StrictlySimple(true); + c.AddPath(in_poly, ptSubject, true); + c.Execute(ctUnion, out_polys, fillType, fillType); +} +//------------------------------------------------------------------------------ + +void SimplifyPolygons(const Paths &in_polys, Paths &out_polys, PolyFillType fillType) +{ + Clipper c; + c.StrictlySimple(true); + c.AddPaths(in_polys, ptSubject, true); + c.Execute(ctUnion, out_polys, fillType, fillType); +} +//------------------------------------------------------------------------------ + +void SimplifyPolygons(Paths &polys, PolyFillType fillType) +{ + SimplifyPolygons(polys, polys, fillType); +} +//------------------------------------------------------------------------------ + +inline double DistanceSqrd(const IntPoint& pt1, const IntPoint& pt2) +{ + double Dx = ((double)pt1.X - pt2.X); + double dy = ((double)pt1.Y - pt2.Y); + return (Dx*Dx + dy*dy); +} +//------------------------------------------------------------------------------ + +double DistanceFromLineSqrd( + const IntPoint& pt, const IntPoint& ln1, const IntPoint& ln2) +{ + //The equation of a line in general form (Ax + By + C = 0) + //given 2 points (x¹,y¹) & (x²,y²) is ... + //(y¹ - y²)x + (x² - x¹)y + (y² - y¹)x¹ - (x² - x¹)y¹ = 0 + //A = (y¹ - y²); B = (x² - x¹); C = (y² - y¹)x¹ - (x² - x¹)y¹ + //perpendicular distance of point (x³,y³) = (Ax³ + By³ + C)/Sqrt(A² + B²) + //see http://en.wikipedia.org/wiki/Perpendicular_distance + double A = double(ln1.Y - ln2.Y); + double B = double(ln2.X - ln1.X); + double C = A * ln1.X + B * ln1.Y; + C = A * pt.X + B * pt.Y - C; + return (C * C) / (A * A + B * B); +} +//--------------------------------------------------------------------------- + +bool SlopesNearCollinear(const IntPoint& pt1, + const IntPoint& pt2, const IntPoint& pt3, double distSqrd) +{ + //this function is more accurate when the point that's geometrically + //between the other 2 points is the one that's tested for distance. + //ie makes it more likely to pick up 'spikes' ... + if (Abs(pt1.X - pt2.X) > Abs(pt1.Y - pt2.Y)) + { + if ((pt1.X > pt2.X) == (pt1.X < pt3.X)) + return DistanceFromLineSqrd(pt1, pt2, pt3) < distSqrd; + else if ((pt2.X > pt1.X) == (pt2.X < pt3.X)) + return DistanceFromLineSqrd(pt2, pt1, pt3) < distSqrd; + else + return DistanceFromLineSqrd(pt3, pt1, pt2) < distSqrd; + } + else + { + if ((pt1.Y > pt2.Y) == (pt1.Y < pt3.Y)) + return DistanceFromLineSqrd(pt1, pt2, pt3) < distSqrd; + else if ((pt2.Y > pt1.Y) == (pt2.Y < pt3.Y)) + return DistanceFromLineSqrd(pt2, pt1, pt3) < distSqrd; + else + return DistanceFromLineSqrd(pt3, pt1, pt2) < distSqrd; + } +} +//------------------------------------------------------------------------------ + +bool PointsAreClose(IntPoint pt1, IntPoint pt2, double distSqrd) +{ + double Dx = (double)pt1.X - pt2.X; + double dy = (double)pt1.Y - pt2.Y; + return ((Dx * Dx) + (dy * dy) <= distSqrd); +} +//------------------------------------------------------------------------------ + +OutPt* ExcludeOp(OutPt* op) +{ + OutPt* result = op->Prev; + result->Next = op->Next; + op->Next->Prev = result; + result->Idx = 0; + return result; +} +//------------------------------------------------------------------------------ + +void CleanPolygon(const Path& in_poly, Path& out_poly, double distance) +{ + //distance = proximity in units/pixels below which vertices + //will be stripped. Default ~= sqrt(2). + + size_t size = in_poly.size(); + + if (size == 0) + { + out_poly.clear(); + return; + } + + OutPt* outPts = new OutPt[size]; + for (size_t i = 0; i < size; ++i) + { + outPts[i].Pt = in_poly[i]; + outPts[i].Next = &outPts[(i + 1) % size]; + outPts[i].Next->Prev = &outPts[i]; + outPts[i].Idx = 0; + } + + double distSqrd = distance * distance; + OutPt* op = &outPts[0]; + while (op->Idx == 0 && op->Next != op->Prev) + { + if (PointsAreClose(op->Pt, op->Prev->Pt, distSqrd)) + { + op = ExcludeOp(op); + size--; + } + else if (PointsAreClose(op->Prev->Pt, op->Next->Pt, distSqrd)) + { + ExcludeOp(op->Next); + op = ExcludeOp(op); + size -= 2; + } + else if (SlopesNearCollinear(op->Prev->Pt, op->Pt, op->Next->Pt, distSqrd)) + { + op = ExcludeOp(op); + size--; + } + else + { + op->Idx = 1; + op = op->Next; + } + } + + if (size < 3) size = 0; + out_poly.resize(size); + for (size_t i = 0; i < size; ++i) + { + out_poly[i] = op->Pt; + op = op->Next; + } + delete [] outPts; +} +//------------------------------------------------------------------------------ + +void CleanPolygon(Path& poly, double distance) +{ + CleanPolygon(poly, poly, distance); +} +//------------------------------------------------------------------------------ + +void CleanPolygons(const Paths& in_polys, Paths& out_polys, double distance) +{ + out_polys.resize(in_polys.size()); + for (Paths::size_type i = 0; i < in_polys.size(); ++i) + CleanPolygon(in_polys[i], out_polys[i], distance); +} +//------------------------------------------------------------------------------ + +void CleanPolygons(Paths& polys, double distance) +{ + CleanPolygons(polys, polys, distance); +} +//------------------------------------------------------------------------------ + +void Minkowski(const Path& poly, const Path& path, + Paths& solution, bool isSum, bool isClosed) +{ + int delta = (isClosed ? 1 : 0); + size_t polyCnt = poly.size(); + size_t pathCnt = path.size(); + Paths pp; + pp.reserve(pathCnt); + if (isSum) + for (size_t i = 0; i < pathCnt; ++i) + { + Path p; + p.reserve(polyCnt); + for (size_t j = 0; j < poly.size(); ++j) + p.push_back(IntPoint(path[i].X + poly[j].X, path[i].Y + poly[j].Y)); + pp.push_back(p); + } + else + for (size_t i = 0; i < pathCnt; ++i) + { + Path p; + p.reserve(polyCnt); + for (size_t j = 0; j < poly.size(); ++j) + p.push_back(IntPoint(path[i].X - poly[j].X, path[i].Y - poly[j].Y)); + pp.push_back(p); + } + + solution.clear(); + solution.reserve((pathCnt + delta) * (polyCnt + 1)); + for (size_t i = 0; i < pathCnt - 1 + delta; ++i) + for (size_t j = 0; j < polyCnt; ++j) + { + Path quad; + quad.reserve(4); + quad.push_back(pp[i % pathCnt][j % polyCnt]); + quad.push_back(pp[(i + 1) % pathCnt][j % polyCnt]); + quad.push_back(pp[(i + 1) % pathCnt][(j + 1) % polyCnt]); + quad.push_back(pp[i % pathCnt][(j + 1) % polyCnt]); + if (!Orientation(quad)) ReversePath(quad); + solution.push_back(quad); + } +} +//------------------------------------------------------------------------------ + +void MinkowskiSum(const Path& pattern, const Path& path, Paths& solution, bool pathIsClosed) +{ + Minkowski(pattern, path, solution, true, pathIsClosed); + Clipper c; + c.AddPaths(solution, ptSubject, true); + c.Execute(ctUnion, solution, pftNonZero, pftNonZero); +} +//------------------------------------------------------------------------------ + +void TranslatePath(const Path& input, Path& output, const IntPoint delta) +{ + //precondition: input != output + output.resize(input.size()); + for (size_t i = 0; i < input.size(); ++i) + output[i] = IntPoint(input[i].X + delta.X, input[i].Y + delta.Y); +} +//------------------------------------------------------------------------------ + +void MinkowskiSum(const Path& pattern, const Paths& paths, Paths& solution, bool pathIsClosed) +{ + Clipper c; + for (size_t i = 0; i < paths.size(); ++i) + { + Paths tmp; + Minkowski(pattern, paths[i], tmp, true, pathIsClosed); + c.AddPaths(tmp, ptSubject, true); + if (pathIsClosed) + { + Path tmp2; + TranslatePath(paths[i], tmp2, pattern[0]); + c.AddPath(tmp2, ptClip, true); + } + } + c.Execute(ctUnion, solution, pftNonZero, pftNonZero); +} +//------------------------------------------------------------------------------ + +void MinkowskiDiff(const Path& poly1, const Path& poly2, Paths& solution) +{ + Minkowski(poly1, poly2, solution, false, true); + Clipper c; + c.AddPaths(solution, ptSubject, true); + c.Execute(ctUnion, solution, pftNonZero, pftNonZero); +} +//------------------------------------------------------------------------------ + +enum NodeType {ntAny, ntOpen, ntClosed}; + +void AddPolyNodeToPaths(const PolyNode& polynode, NodeType nodetype, Paths& paths) +{ + bool match = true; + if (nodetype == ntClosed) match = !polynode.IsOpen(); + else if (nodetype == ntOpen) return; + + if (!polynode.Contour.empty() && match) + paths.push_back(polynode.Contour); + for (int i = 0; i < polynode.ChildCount(); ++i) + AddPolyNodeToPaths(*polynode.Childs[i], nodetype, paths); +} +//------------------------------------------------------------------------------ + +void PolyTreeToPaths(const PolyTree& polytree, Paths& paths) +{ + paths.resize(0); + paths.reserve(polytree.Total()); + AddPolyNodeToPaths(polytree, ntAny, paths); +} +//------------------------------------------------------------------------------ + +void ClosedPathsFromPolyTree(const PolyTree& polytree, Paths& paths) +{ + paths.resize(0); + paths.reserve(polytree.Total()); + AddPolyNodeToPaths(polytree, ntClosed, paths); +} +//------------------------------------------------------------------------------ + +void OpenPathsFromPolyTree(PolyTree& polytree, Paths& paths) +{ + paths.resize(0); + paths.reserve(polytree.Total()); + //Open paths are top level only, so ... + for (int i = 0; i < polytree.ChildCount(); ++i) + if (polytree.Childs[i]->IsOpen()) + paths.push_back(polytree.Childs[i]->Contour); +} +//------------------------------------------------------------------------------ + +std::ostream& operator <<(std::ostream &s, const IntPoint &p) +{ + s << "(" << p.X << "," << p.Y << ")"; + return s; +} +//------------------------------------------------------------------------------ + +std::ostream& operator <<(std::ostream &s, const Path &p) +{ + if (p.empty()) return s; + Path::size_type last = p.size() -1; + for (Path::size_type i = 0; i < last; i++) + s << "(" << p[i].X << "," << p[i].Y << "), "; + s << "(" << p[last].X << "," << p[last].Y << ")\n"; + return s; +} +//------------------------------------------------------------------------------ + +std::ostream& operator <<(std::ostream &s, const Paths &p) +{ + for (Paths::size_type i = 0; i < p.size(); i++) + s << p[i]; + s << "\n"; + return s; +} +//------------------------------------------------------------------------------ + +} //ClipperLib namespace diff --git a/thirdparty/misc/clipper.hpp b/thirdparty/misc/clipper.hpp new file mode 100644 index 000000000000..5a19617bb49f --- /dev/null +++ b/thirdparty/misc/clipper.hpp @@ -0,0 +1,406 @@ +/******************************************************************************* +* * +* Author : Angus Johnson * +* Version : 6.4.2 * +* Date : 27 February 2017 * +* Website : http://www.angusj.com * +* Copyright : Angus Johnson 2010-2017 * +* * +* License: * +* Use, modification & distribution is subject to Boost Software License Ver 1. * +* http://www.boost.org/LICENSE_1_0.txt * +* * +* Attributions: * +* The code in this library is an extension of Bala Vatti's clipping algorithm: * +* "A generic solution to polygon clipping" * +* Communications of the ACM, Vol 35, Issue 7 (July 1992) pp 56-63. * +* http://portal.acm.org/citation.cfm?id=129906 * +* * +* Computer graphics and geometric modeling: implementation and algorithms * +* By Max K. Agoston * +* Springer; 1 edition (January 4, 2005) * +* http://books.google.com/books?q=vatti+clipping+agoston * +* * +* See also: * +* "Polygon Offsetting by Computing Winding Numbers" * +* Paper no. DETC2005-85513 pp. 565-575 * +* ASME 2005 International Design Engineering Technical Conferences * +* and Computers and Information in Engineering Conference (IDETC/CIE2005) * +* September 24-28, 2005 , Long Beach, California, USA * +* http://www.me.berkeley.edu/~mcmains/pubs/DAC05OffsetPolygon.pdf * +* * +*******************************************************************************/ + +#ifndef clipper_hpp +#define clipper_hpp + +#define CLIPPER_VERSION "6.4.2" + +//use_int32: When enabled 32bit ints are used instead of 64bit ints. This +//improve performance but coordinate values are limited to the range +/- 46340 +//#define use_int32 + +//use_xyz: adds a Z member to IntPoint. Adds a minor cost to perfomance. +//#define use_xyz + +//use_lines: Enables line clipping. Adds a very minor cost to performance. +#define use_lines + +//use_deprecated: Enables temporary support for the obsolete functions +//#define use_deprecated + +#include +#include +#include +#include +#include +#include +#include +#include +#include + +namespace ClipperLib { + +enum ClipType { ctIntersection, ctUnion, ctDifference, ctXor }; +enum PolyType { ptSubject, ptClip }; +//By far the most widely used winding rules for polygon filling are +//EvenOdd & NonZero (GDI, GDI+, XLib, OpenGL, Cairo, AGG, Quartz, SVG, Gr32) +//Others rules include Positive, Negative and ABS_GTR_EQ_TWO (only in OpenGL) +//see http://glprogramming.com/red/chapter11.html +enum PolyFillType { pftEvenOdd, pftNonZero, pftPositive, pftNegative }; + +#ifdef use_int32 + typedef int cInt; + static cInt const loRange = 0x7FFF; + static cInt const hiRange = 0x7FFF; +#else + typedef signed long long cInt; + static cInt const loRange = 0x3FFFFFFF; + static cInt const hiRange = 0x3FFFFFFFFFFFFFFFLL; + typedef signed long long long64; //used by Int128 class + typedef unsigned long long ulong64; + +#endif + +struct IntPoint { + cInt X; + cInt Y; +#ifdef use_xyz + cInt Z; + IntPoint(cInt x = 0, cInt y = 0, cInt z = 0): X(x), Y(y), Z(z) {}; +#else + IntPoint(cInt x = 0, cInt y = 0): X(x), Y(y) {}; +#endif + + friend inline bool operator== (const IntPoint& a, const IntPoint& b) + { + return a.X == b.X && a.Y == b.Y; + } + friend inline bool operator!= (const IntPoint& a, const IntPoint& b) + { + return a.X != b.X || a.Y != b.Y; + } +}; +//------------------------------------------------------------------------------ + +typedef std::vector< IntPoint > Path; +typedef std::vector< Path > Paths; + +inline Path& operator <<(Path& poly, const IntPoint& p) {poly.push_back(p); return poly;} +inline Paths& operator <<(Paths& polys, const Path& p) {polys.push_back(p); return polys;} + +std::ostream& operator <<(std::ostream &s, const IntPoint &p); +std::ostream& operator <<(std::ostream &s, const Path &p); +std::ostream& operator <<(std::ostream &s, const Paths &p); + +struct DoublePoint +{ + double X; + double Y; + DoublePoint(double x = 0, double y = 0) : X(x), Y(y) {} + DoublePoint(IntPoint ip) : X((double)ip.X), Y((double)ip.Y) {} +}; +//------------------------------------------------------------------------------ + +#ifdef use_xyz +typedef void (*ZFillCallback)(IntPoint& e1bot, IntPoint& e1top, IntPoint& e2bot, IntPoint& e2top, IntPoint& pt); +#endif + +enum InitOptions {ioReverseSolution = 1, ioStrictlySimple = 2, ioPreserveCollinear = 4}; +enum JoinType {jtSquare, jtRound, jtMiter}; +enum EndType {etClosedPolygon, etClosedLine, etOpenButt, etOpenSquare, etOpenRound}; + +class PolyNode; +typedef std::vector< PolyNode* > PolyNodes; + +class PolyNode +{ +public: + PolyNode(); + virtual ~PolyNode(){}; + Path Contour; + PolyNodes Childs; + PolyNode* Parent; + PolyNode* GetNext() const; + bool IsHole() const; + bool IsOpen() const; + int ChildCount() const; +private: + //PolyNode& operator =(PolyNode& other); + unsigned Index; //node index in Parent.Childs + bool m_IsOpen; + JoinType m_jointype; + EndType m_endtype; + PolyNode* GetNextSiblingUp() const; + void AddChild(PolyNode& child); + friend class Clipper; //to access Index + friend class ClipperOffset; +}; + +class PolyTree: public PolyNode +{ +public: + ~PolyTree(){ Clear(); }; + PolyNode* GetFirst() const; + void Clear(); + int Total() const; +private: + //PolyTree& operator =(PolyTree& other); + PolyNodes AllNodes; + friend class Clipper; //to access AllNodes +}; + +bool Orientation(const Path &poly); +double Area(const Path &poly); +int PointInPolygon(const IntPoint &pt, const Path &path); + +void SimplifyPolygon(const Path &in_poly, Paths &out_polys, PolyFillType fillType = pftEvenOdd); +void SimplifyPolygons(const Paths &in_polys, Paths &out_polys, PolyFillType fillType = pftEvenOdd); +void SimplifyPolygons(Paths &polys, PolyFillType fillType = pftEvenOdd); + +void CleanPolygon(const Path& in_poly, Path& out_poly, double distance = 1.415); +void CleanPolygon(Path& poly, double distance = 1.415); +void CleanPolygons(const Paths& in_polys, Paths& out_polys, double distance = 1.415); +void CleanPolygons(Paths& polys, double distance = 1.415); + +void MinkowskiSum(const Path& pattern, const Path& path, Paths& solution, bool pathIsClosed); +void MinkowskiSum(const Path& pattern, const Paths& paths, Paths& solution, bool pathIsClosed); +void MinkowskiDiff(const Path& poly1, const Path& poly2, Paths& solution); + +void PolyTreeToPaths(const PolyTree& polytree, Paths& paths); +void ClosedPathsFromPolyTree(const PolyTree& polytree, Paths& paths); +void OpenPathsFromPolyTree(PolyTree& polytree, Paths& paths); + +void ReversePath(Path& p); +void ReversePaths(Paths& p); + +struct IntRect { cInt left; cInt top; cInt right; cInt bottom; }; + +//enums that are used internally ... +enum EdgeSide { esLeft = 1, esRight = 2}; + +//forward declarations (for stuff used internally) ... +struct TEdge; +struct IntersectNode; +struct LocalMinimum; +struct OutPt; +struct OutRec; +struct Join; + +typedef std::vector < OutRec* > PolyOutList; +typedef std::vector < TEdge* > EdgeList; +typedef std::vector < Join* > JoinList; +typedef std::vector < IntersectNode* > IntersectList; + +//------------------------------------------------------------------------------ + +//ClipperBase is the ancestor to the Clipper class. It should not be +//instantiated directly. This class simply abstracts the conversion of sets of +//polygon coordinates into edge objects that are stored in a LocalMinima list. +class ClipperBase +{ +public: + ClipperBase(); + virtual ~ClipperBase(); + virtual bool AddPath(const Path &pg, PolyType PolyTyp, bool Closed); + bool AddPaths(const Paths &ppg, PolyType PolyTyp, bool Closed); + virtual void Clear(); + IntRect GetBounds(); + bool PreserveCollinear() {return m_PreserveCollinear;}; + void PreserveCollinear(bool value) {m_PreserveCollinear = value;}; +protected: + void DisposeLocalMinimaList(); + TEdge* AddBoundsToLML(TEdge *e, bool IsClosed); + virtual void Reset(); + TEdge* ProcessBound(TEdge* E, bool IsClockwise); + void InsertScanbeam(const cInt Y); + bool PopScanbeam(cInt &Y); + bool LocalMinimaPending(); + bool PopLocalMinima(cInt Y, const LocalMinimum *&locMin); + OutRec* CreateOutRec(); + void DisposeAllOutRecs(); + void DisposeOutRec(PolyOutList::size_type index); + void SwapPositionsInAEL(TEdge *edge1, TEdge *edge2); + void DeleteFromAEL(TEdge *e); + void UpdateEdgeIntoAEL(TEdge *&e); + + typedef std::vector MinimaList; + MinimaList::iterator m_CurrentLM; + MinimaList m_MinimaList; + + bool m_UseFullRange; + EdgeList m_edges; + bool m_PreserveCollinear; + bool m_HasOpenPaths; + PolyOutList m_PolyOuts; + TEdge *m_ActiveEdges; + + typedef std::priority_queue ScanbeamList; + ScanbeamList m_Scanbeam; +}; +//------------------------------------------------------------------------------ + +class Clipper : public virtual ClipperBase +{ +public: + Clipper(int initOptions = 0); + bool Execute(ClipType clipType, + Paths &solution, + PolyFillType fillType = pftEvenOdd); + bool Execute(ClipType clipType, + Paths &solution, + PolyFillType subjFillType, + PolyFillType clipFillType); + bool Execute(ClipType clipType, + PolyTree &polytree, + PolyFillType fillType = pftEvenOdd); + bool Execute(ClipType clipType, + PolyTree &polytree, + PolyFillType subjFillType, + PolyFillType clipFillType); + bool ReverseSolution() { return m_ReverseOutput; }; + void ReverseSolution(bool value) {m_ReverseOutput = value;}; + bool StrictlySimple() {return m_StrictSimple;}; + void StrictlySimple(bool value) {m_StrictSimple = value;}; + //set the callback function for z value filling on intersections (otherwise Z is 0) +#ifdef use_xyz + void ZFillFunction(ZFillCallback zFillFunc); +#endif +protected: + virtual bool ExecuteInternal(); +private: + JoinList m_Joins; + JoinList m_GhostJoins; + IntersectList m_IntersectList; + ClipType m_ClipType; + typedef std::list MaximaList; + MaximaList m_Maxima; + TEdge *m_SortedEdges; + bool m_ExecuteLocked; + PolyFillType m_ClipFillType; + PolyFillType m_SubjFillType; + bool m_ReverseOutput; + bool m_UsingPolyTree; + bool m_StrictSimple; +#ifdef use_xyz + ZFillCallback m_ZFill; //custom callback +#endif + void SetWindingCount(TEdge& edge); + bool IsEvenOddFillType(const TEdge& edge) const; + bool IsEvenOddAltFillType(const TEdge& edge) const; + void InsertLocalMinimaIntoAEL(const cInt botY); + void InsertEdgeIntoAEL(TEdge *edge, TEdge* startEdge); + void AddEdgeToSEL(TEdge *edge); + bool PopEdgeFromSEL(TEdge *&edge); + void CopyAELToSEL(); + void DeleteFromSEL(TEdge *e); + void SwapPositionsInSEL(TEdge *edge1, TEdge *edge2); + bool IsContributing(const TEdge& edge) const; + bool IsTopHorz(const cInt XPos); + void DoMaxima(TEdge *e); + void ProcessHorizontals(); + void ProcessHorizontal(TEdge *horzEdge); + void AddLocalMaxPoly(TEdge *e1, TEdge *e2, const IntPoint &pt); + OutPt* AddLocalMinPoly(TEdge *e1, TEdge *e2, const IntPoint &pt); + OutRec* GetOutRec(int idx); + void AppendPolygon(TEdge *e1, TEdge *e2); + void IntersectEdges(TEdge *e1, TEdge *e2, IntPoint &pt); + OutPt* AddOutPt(TEdge *e, const IntPoint &pt); + OutPt* GetLastOutPt(TEdge *e); + bool ProcessIntersections(const cInt topY); + void BuildIntersectList(const cInt topY); + void ProcessIntersectList(); + void ProcessEdgesAtTopOfScanbeam(const cInt topY); + void BuildResult(Paths& polys); + void BuildResult2(PolyTree& polytree); + void SetHoleState(TEdge *e, OutRec *outrec); + void DisposeIntersectNodes(); + bool FixupIntersectionOrder(); + void FixupOutPolygon(OutRec &outrec); + void FixupOutPolyline(OutRec &outrec); + bool IsHole(TEdge *e); + bool FindOwnerFromSplitRecs(OutRec &outRec, OutRec *&currOrfl); + void FixHoleLinkage(OutRec &outrec); + void AddJoin(OutPt *op1, OutPt *op2, const IntPoint offPt); + void ClearJoins(); + void ClearGhostJoins(); + void AddGhostJoin(OutPt *op, const IntPoint offPt); + bool JoinPoints(Join *j, OutRec* outRec1, OutRec* outRec2); + void JoinCommonEdges(); + void DoSimplePolygons(); + void FixupFirstLefts1(OutRec* OldOutRec, OutRec* NewOutRec); + void FixupFirstLefts2(OutRec* InnerOutRec, OutRec* OuterOutRec); + void FixupFirstLefts3(OutRec* OldOutRec, OutRec* NewOutRec); +#ifdef use_xyz + void SetZ(IntPoint& pt, TEdge& e1, TEdge& e2); +#endif +}; +//------------------------------------------------------------------------------ + +class ClipperOffset +{ +public: + ClipperOffset(double miterLimit = 2.0, double roundPrecision = 0.25); + ~ClipperOffset(); + void AddPath(const Path& path, JoinType joinType, EndType endType); + void AddPaths(const Paths& paths, JoinType joinType, EndType endType); + void Execute(Paths& solution, double delta); + void Execute(PolyTree& solution, double delta); + void Clear(); + double MiterLimit; + double ArcTolerance; +private: + Paths m_destPolys; + Path m_srcPoly; + Path m_destPoly; + std::vector m_normals; + double m_delta, m_sinA, m_sin, m_cos; + double m_miterLim, m_StepsPerRad; + IntPoint m_lowest; + PolyNode m_polyNodes; + + void FixOrientations(); + void DoOffset(double delta); + void OffsetPoint(int j, int& k, JoinType jointype); + void DoSquare(int j, int k); + void DoMiter(int j, int k, double r); + void DoRound(int j, int k); +}; +//------------------------------------------------------------------------------ + +class clipperException : public std::exception +{ + public: + clipperException(const char* description): m_descr(description) {} + virtual ~clipperException() throw() {} + virtual const char* what() const throw() {return m_descr.c_str();} + private: + std::string m_descr; +}; +//------------------------------------------------------------------------------ + +} //ClipperLib namespace + +#endif //clipper_hpp + +