2 * Copyright (c) 2011 Sveriges Television AB <info@casparcg.com>
4 * This file is part of CasparCG (www.casparcg.com).
6 * CasparCG is free software: you can redistribute it and/or modify
7 * it under the terms of the GNU General Public License as published by
8 * the Free Software Foundation, either version 3 of the License, or
9 * (at your option) any later version.
11 * CasparCG is distributed in the hope that it will be useful,
12 * but WITHOUT ANY WARRANTY; without even the implied warranty of
13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14 * GNU General Public License for more details.
16 * You should have received a copy of the GNU General Public License
17 * along with CasparCG. If not, see <http://www.gnu.org/licenses/>.
19 * Author: Helge Norberg, helge.norberg@svt.se
22 #include "../../StdAfx.h"
24 #include "xml_scene_producer.h"
25 #include "expression_parser.h"
27 #include <boost/filesystem.hpp>
28 #include <boost/filesystem/fstream.hpp>
29 #include <boost/property_tree/ptree.hpp>
30 #include <boost/property_tree/xml_parser.hpp>
32 #include <common/env.h>
33 #include <common/os/filesystem.h>
34 #include <common/filesystem.h>
35 #include <common/ptree.h>
36 #include <core/producer/frame_producer.h>
37 #include <core/help/help_repository.h>
38 #include <core/help/help_sink.h>
42 #include "scene_producer.h"
43 #include "scene_cg_proxy.h"
45 namespace caspar { namespace core { namespace scene {
47 void deduce_expression(variable& var, const variable_repository& repo)
49 auto expr_str = var.original_expr();
50 auto trimmed = boost::trim_copy(expr_str);
52 if (boost::starts_with(trimmed, L"${") && boost::ends_with(trimmed, L"}"))
54 expr_str = trimmed.substr(2, expr_str.length() - 3);
57 var.as<double>().bind(parse_expression<double>(expr_str, repo));
58 else if (var.is<bool>())
59 var.as<bool>().bind(parse_expression<bool>(expr_str, repo));
60 else if (var.is<std::wstring>())
61 var.as<std::wstring>().bind(parse_expression<std::wstring>(expr_str, repo));
63 else if (!expr_str.empty())
65 var.from_string(expr_str);
69 void describe_xml_scene_producer(core::help_sink& sink, const core::help_repository& repo)
71 sink.short_description(L"A simple producer for dynamic graphics using .scene files.");
72 sink.syntax(L"[.scene_filename:string] {[param1:string] [value1:string]} {[param2:string] [value2:string]} ...");
73 sink.para()->text(L"A simple producer that looks in the ")->code(L"templates")->text(L" folder for .scene files.");
74 sink.para()->text(L"The .scene file is a simple XML document containing variables, layers and timelines.");
75 sink.example(L">> PLAY 1-10 scene_name_sign FIRSTNAME \"John\" LASTNAME \"Doe\"", L"loads and plays templates/scene_name_sign.scene and sets the variables FIRSTNAME and LASTNAME.");
76 sink.para()->text(L"The scene producer also supports setting the variables while playing via the CALL command:");
77 sink.example(L">> CALL 1-10 FIRSTNAME \"Jane\"", L"changes the variable FIRSTNAME on an already loaded scene.");
80 spl::shared_ptr<core::frame_producer> create_xml_scene_producer(
81 const core::frame_producer_dependencies& dependencies,
82 const std::vector<std::wstring>& params)
85 return core::frame_producer::empty();
87 auto found = find_case_insensitive(env::template_folder() + L"/" + params.at(0) + L".scene");
89 return core::frame_producer::empty();
91 std::wstring filename = *found;
93 CASPAR_SCOPED_CONTEXT_MSG(get_relative(filename, env::template_folder()).string() + ": ");
95 boost::property_tree::wptree root;
96 boost::filesystem::wifstream file(filename);
97 boost::property_tree::read_xml(
100 boost::property_tree::xml_parser::trim_whitespace
101 | boost::property_tree::xml_parser::no_comments);
103 int width = ptree_get<int>(root, L"scene.<xmlattr>.width");
104 int height = ptree_get<int>(root, L"scene.<xmlattr>.height");
106 auto scene = spl::make_shared<scene_producer>(L"scene", width, height, dependencies.format_desc);
108 for (auto elem : root | witerate_children(L"scene.variables") | welement_context_iteration)
110 ptree_verify_element_name(elem, L"variable");
112 auto type = ptree_get<std::wstring>(elem.second, L"<xmlattr>.type");
113 auto id = ptree_get<std::wstring>(elem.second, L"<xmlattr>.id");
114 auto is_public = elem.second.get(L"<xmlattr>.public", false);
115 auto expr = ptree_get_value<std::wstring>(elem.second);
118 id = L"variable." + id;
120 if (type == L"number")
121 scene->create_variable<double>(id, is_public, expr);
122 else if (type == L"string")
123 scene->create_variable<std::wstring>(id, is_public, expr);
124 else if (type == L"bool")
125 scene->create_variable<bool>(id, is_public, expr);
128 for (auto& elem : root | witerate_children(L"scene.layers") | welement_context_iteration)
130 ptree_verify_element_name(elem, L"layer");
132 auto id = ptree_get<std::wstring>(elem.second, L"<xmlattr>.id");
133 auto producer_string = ptree_get<std::wstring>(elem.second, L"producer");
136 CASPAR_SCOPED_CONTEXT_MSG(" -> ");
137 return dependencies.producer_registry->create_producer(dependencies, producer_string);
139 auto& layer = scene->create_layer(producer, 0, 0, id);
140 auto variable_prefix = L"layer." + id + L".";
142 layer.hidden = scene->create_variable<bool>(variable_prefix + L"hidden", false, elem.second.get(L"hidden", L"false"));
143 layer.position.x = scene->create_variable<double>(variable_prefix + L"x", false, ptree_get<std::wstring>(elem.second, L"x"));
144 layer.position.y = scene->create_variable<double>(variable_prefix + L"y", false, ptree_get<std::wstring>(elem.second, L"y"));
145 layer.anchor.x = scene->create_variable<double>(variable_prefix + L"anchor_x", false, elem.second.get<std::wstring>(L"anchor_x", L"0.0"));
146 layer.anchor.y = scene->create_variable<double>(variable_prefix + L"anchor_y", false, elem.second.get<std::wstring>(L"anchor_y", L"0.0"));
147 layer.rotation = scene->create_variable<double>(variable_prefix + L"rotation", false, elem.second.get<std::wstring>(L"rotation", L"0.0"));
148 layer.crop.upper_left.x = scene->create_variable<double>(variable_prefix + L"crop_upper_left_x", false, elem.second.get<std::wstring>(L"crop_upper_left_x", L"0.0"));
149 layer.crop.upper_left.y = scene->create_variable<double>(variable_prefix + L"crop_upper_left_y", false, elem.second.get<std::wstring>(L"crop_upper_left_y", L"0.0"));
150 layer.crop.lower_right.x = scene->create_variable<double>(variable_prefix + L"crop_lower_right_x", false, elem.second.get<std::wstring>(L"crop_lower_right_x", layer.producer.get()->pixel_constraints().width.as<std::wstring>().get()));
151 layer.crop.lower_right.y = scene->create_variable<double>(variable_prefix + L"crop_lower_right_y", false, elem.second.get<std::wstring>(L"crop_lower_right_y", layer.producer.get()->pixel_constraints().height.as<std::wstring>().get()));
152 layer.perspective.upper_left.x = scene->create_variable<double>(variable_prefix + L"perspective_upper_left_x", false, elem.second.get<std::wstring>(L"perspective_upper_left_x", L"0.0"));
153 layer.perspective.upper_left.y = scene->create_variable<double>(variable_prefix + L"perspective_upper_left_y", false, elem.second.get<std::wstring>(L"perspective_upper_left_y", L"0.0"));
154 layer.perspective.upper_right.x = scene->create_variable<double>(variable_prefix + L"perspective_upper_right_x", false, elem.second.get<std::wstring>(L"perspective_upper_right_x", layer.producer.get()->pixel_constraints().width.as<std::wstring>().get()));
155 layer.perspective.upper_right.y = scene->create_variable<double>(variable_prefix + L"perspective_upper_right_y", false, elem.second.get<std::wstring>(L"perspective_upper_right_y", L"0.0"));
156 layer.perspective.lower_right.x = scene->create_variable<double>(variable_prefix + L"perspective_lower_right_x", false, elem.second.get<std::wstring>(L"perspective_lower_right_x", layer.producer.get()->pixel_constraints().width.as<std::wstring>().get()));
157 layer.perspective.lower_right.y = scene->create_variable<double>(variable_prefix + L"perspective_lower_right_y", false, elem.second.get<std::wstring>(L"perspective_lower_right_y", layer.producer.get()->pixel_constraints().height.as<std::wstring>().get()));
158 layer.perspective.lower_left.x = scene->create_variable<double>(variable_prefix + L"perspective_lower_left_x", false, elem.second.get<std::wstring>(L"perspective_lower_left_x", L"0.0"));
159 layer.perspective.lower_left.y = scene->create_variable<double>(variable_prefix + L"perspective_lower_left_y", false, elem.second.get<std::wstring>(L"perspective_lower_left_y", layer.producer.get()->pixel_constraints().height.as<std::wstring>().get()));
161 layer.adjustments.opacity = scene->create_variable<double>(variable_prefix + L"adjustment.opacity", false, elem.second.get(L"adjustments.opacity", L"1.0"));
162 layer.is_key = scene->create_variable<bool>(variable_prefix + L"is_key", false, elem.second.get(L"is_key", L"false"));
163 layer.use_mipmap = scene->create_variable<bool>(variable_prefix + L"use_mipmap", false, elem.second.get(L"use_mipmap", L"false"));
164 layer.blend_mode = scene->create_variable<std::wstring>(variable_prefix + L"blend_mode", false, elem.second.get(L"blend_mode", L"normal")).transformed([](const std::wstring& b) { return get_blend_mode(b); });
165 layer.chroma_key.key = scene->create_variable<std::wstring>(variable_prefix + L"chroma_key.key", false, elem.second.get(L"chroma_key.key", L"none")).transformed([](const std::wstring& k) { return get_chroma_mode(k); });
166 layer.chroma_key.threshold = scene->create_variable<double>(variable_prefix + L"chroma_key.threshold", false, elem.second.get(L"chroma_key.threshold", L"0.0"));
167 layer.chroma_key.softness = scene->create_variable<double>(variable_prefix + L"chroma_key.softness", false, elem.second.get(L"chroma_key.softness", L"0.0"));
168 layer.chroma_key.spill = scene->create_variable<double>(variable_prefix + L"chroma_key.spill", false, elem.second.get(L"chroma_key.spill", L"0.0"));
170 scene->create_variable<double>(variable_prefix + L"width", false) = layer.producer.get()->pixel_constraints().width;
171 scene->create_variable<double>(variable_prefix + L"height", false) = layer.producer.get()->pixel_constraints().height;
173 for (auto& var_name : producer->get_variables())
175 auto& var = producer->get_variable(var_name);
176 auto expr = elem.second.get<std::wstring>(L"parameters." + var_name, L"");
178 if (var.is<double>())
179 scene->create_variable<double>(variable_prefix + L"parameter." + var_name, false, expr) = var.as<double>();
180 else if (var.is<std::wstring>())
181 scene->create_variable<std::wstring>(variable_prefix + L"parameter." + var_name, false, expr) = var.as<std::wstring>();
182 else if (var.is<bool>())
183 scene->create_variable<bool>(variable_prefix + L"parameter." + var_name, false, expr) = var.as<bool>();
187 if (root.get_child_optional(L"scene.marks"))
189 for (auto& mark : root | witerate_children(L"scene.marks") | welement_context_iteration)
191 ptree_verify_element_name(mark, L"mark");
193 auto at = ptree_get<int64_t>(mark.second, L"<xmlattr>.at");
194 auto type = get_mark_action(ptree_get<std::wstring>(mark.second, L"<xmlattr>.type"));
195 auto label = mark.second.get(L"<xmlattr>.label", L"");
197 scene->add_mark(at, type, label);
201 for (auto& elem : root | witerate_children(L"scene.timelines") | welement_context_iteration)
203 ptree_verify_element_name(elem, L"timeline");
205 auto& variable = scene->get_variable(ptree_get<std::wstring>(elem.second, L"<xmlattr>.variable"));
207 for (auto& k : elem.second)
209 if (k.first == L"<xmlattr>")
212 ptree_verify_element_name(k, L"keyframe");
214 auto easing = k.second.get(L"<xmlattr>.easing", L"");
215 auto at = ptree_get<int64_t>(k.second, L"<xmlattr>.at");
217 if (variable.is<double>())
218 scene->add_keyframe(variable.as<double>(), ptree_get_value<double>(k.second), at, easing);
219 else if (variable.is<int>())
220 scene->add_keyframe(variable.as<int>(), ptree_get_value<int>(k.second), at, easing);
224 auto repo = [&scene](const std::wstring& name) -> variable&
226 return scene->get_variable(name);
229 for (auto& var_name : scene->get_variables())
231 CASPAR_SCOPED_CONTEXT_MSG(L"/scene/variables/variable[@id=" + var_name + L"]/text()");
232 deduce_expression(scene->get_variable(var_name), repo);
235 auto params2 = params;
236 params2.erase(params2.begin());
238 scene->call(params2);
243 void init(module_dependencies dependencies)
245 dependencies.producer_registry->register_producer_factory(L"XML Scene Producer", create_xml_scene_producer, describe_xml_scene_producer);
246 dependencies.cg_registry->register_cg_producer(
249 [](const std::wstring& filename) { return ""; },
250 [](const spl::shared_ptr<core::frame_producer>& producer)
252 return spl::make_shared<core::scene::scene_cg_proxy>(producer);
255 const core::frame_producer_dependencies& dependencies,
256 const std::wstring& filename)
258 return create_xml_scene_producer(dependencies, { filename });