-/*
-* Copyright (c) 2011 Sveriges Television AB <info@casparcg.com>
-*
-* This file is part of CasparCG (www.casparcg.com).
-*
-* CasparCG is free software: you can redistribute it and/or modify
-* it under the terms of the GNU General Public License as published by
-* the Free Software Foundation, either version 3 of the License, or
-* (at your option) any later version.
-*
-* CasparCG is distributed in the hope that it will be useful,
-* but WITHOUT ANY WARRANTY; without even the implied warranty of
-* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-* GNU General Public License for more details.
-*
-* You should have received a copy of the GNU General Public License
-* along with CasparCG. If not, see <http://www.gnu.org/licenses/>.
-*
-* Author: Niklas P Andersson, niklas.p.andersson@svt.se
-*/
-
-#include "layer.h"
-#include "psd_document.h"
-#include "descriptor.h"
-#include "util/pdf_reader.h"
-
-#include "../image/util/image_algorithms.h"
-#include "../image/util/image_view.h"
-
-#include <common/log.h>
-
-#include <boost/property_tree/ptree.hpp>
-#include <boost/lexical_cast.hpp>
-
-#include <algorithm>
-
-namespace caspar { namespace psd {
-
-void layer::mask_info::read_mask_data(bigendian_file_input_stream& stream)
-{
- auto length = stream.read_long();
- switch(length)
- {
- case 0:
- break;
-
- case 20:
- case 36: //discard total user mask data
- rect_.location.y = stream.read_long();
- rect_.location.x = stream.read_long();
- rect_.size.height = stream.read_long() - rect_.location.y;
- rect_.size.width = stream.read_long() - rect_.location.x;
-
- default_value_ = stream.read_byte();
- flags_ = stream.read_byte();
- stream.discard_bytes(2);
-
- if(length == 36)
- {
- //we save the information about the total mask in case the vector-mask has an unsupported shape
- total_mask_.reset(new layer::mask_info);
- total_mask_->flags_ = stream.read_byte();
- total_mask_->default_value_ = stream.read_byte();
- total_mask_->rect_.location.y = stream.read_long();
- total_mask_->rect_.location.x = stream.read_long();
- total_mask_->rect_.size.height = stream.read_long() - rect_.location.y;
- total_mask_->rect_.size.width = stream.read_long() - rect_.location.x;
- }
- break;
-
- default:
- //TODO: Log that we discard a mask that is not supported
- stream.discard_bytes(length);
- break;
- };
-}
-
-bool layer::vector_mask_info::populate(int length, bigendian_file_input_stream& stream, int doc_width, int doc_height)
-{
- typedef std::pair<int, int> path_point;
- bool bFail = false;
-
- stream.read_long(); // version
- this->flags_ = static_cast<std::uint8_t>(stream.read_long()); // flags
- int path_records = (length - 8) / 26;
-
- auto position = stream.current_position();
-
- std::vector<path_point> knots;
-
- const int SELECTOR_SIZE = 2;
- const int PATH_POINT_SIZE = 4 + 4;
- const int PATH_POINT_RECORD_SIZE = SELECTOR_SIZE + (3 * PATH_POINT_SIZE);
-
- for (int i = 1; i <= path_records; ++i)
- {
- auto selector = stream.read_short();
- if (selector == 2) //we only concern ourselves with closed paths
- {
- auto p_y = stream.read_long();
- auto p_x = stream.read_long();
- path_point cp_prev(p_x, p_y);
-
- auto a_y = stream.read_long();
- auto a_x = stream.read_long();
- path_point anchor(a_x, a_y);
-
- auto n_y = stream.read_long();
- auto n_x = stream.read_long();
- path_point cp_next(n_x, n_y);
-
- if (anchor == cp_prev && anchor == cp_next)
- knots.push_back(anchor);
- else
- { //we can't handle smooth curves yet
- bFail = true;
- }
- }
-
- auto offset = PATH_POINT_RECORD_SIZE * i;
- stream.set_position(position + offset);
- }
-
- if ((knots.size() != 4) || (!(knots[0].first == knots[3].first && knots[1].first == knots[2].first && knots[0].second == knots[1].second && knots[2].second == knots[3].second)))
- bFail = true;
-
- if (bFail) {
- rect_.clear();
- flags_ = static_cast<std::uint8_t>(flags::unsupported);
- }
- else
- {
- //the path_points are given in fixed-point 8.24 as a ratio with regards to the width/height of the document. we need to divide by 16777215.0f to get the real ratio.
- float x_ratio = doc_width / 16777215.0f;
- float y_ratio = doc_height / 16777215.0f;
- rect_.location.x = static_cast<int>(knots[0].first * x_ratio + 0.5f); //add .5 to get propper rounding when converting to integer
- rect_.location.y = static_cast<int>(knots[0].second * y_ratio + 0.5f); //add .5 to get propper rounding when converting to integer
- rect_.size.width = static_cast<int>(knots[1].first * x_ratio + 0.5f) - rect_.location.x; //add .5 to get propper rounding when converting to integer
- rect_.size.height = static_cast<int>(knots[2].second * y_ratio + 0.5f) - rect_.location.y; //add .5 to get propper rounding when converting to integer
- }
-
- return !bFail;
-}
-
-struct layer::impl
-{
- friend class layer;
-
- impl() : blend_mode_(blend_mode::InvalidBlendMode), layer_type_(layer_type::content), link_group_id_(0), opacity_(255), sheet_color_(0), baseClipping_(false), flags_(0), protection_flags_(0), masks_count_(0), text_scale_(1.0f)
- {}
-
-private:
- std::vector<channel> channels_;
- blend_mode blend_mode_;
- layer_type layer_type_;
- int link_group_id_;
- int opacity_;
- int sheet_color_;
- bool baseClipping_;
- std::uint8_t flags_;
- std::uint32_t protection_flags_;
- std::wstring name_;
- int masks_count_;
- double text_scale_;
-
- layer::mask_info mask_;
-
- rect<int> bitmap_rect_;
- image8bit_ptr bitmap_;
-
- boost::property_tree::wptree text_layer_info_;
- boost::property_tree::wptree timeline_info_;
-
- color<std::uint8_t> solid_color_;
-
-public:
- void populate(bigendian_file_input_stream& stream, const psd_document& doc)
- {
- bitmap_rect_.location.y = stream.read_long();
- bitmap_rect_.location.x = stream.read_long();
- bitmap_rect_.size.height = stream.read_long() - bitmap_rect_.location.y;
- bitmap_rect_.size.width = stream.read_long() - bitmap_rect_.location.x;
-
- //Get info about the channels in the layer
- auto channelCount = stream.read_short();
- for(int channelIndex = 0; channelIndex < channelCount; ++channelIndex)
- {
- auto id = static_cast<std::int16_t>(stream.read_short());
- channel c(id, stream.read_long());
-
- if(c.id < -1)
- masks_count_++;
-
- channels_.push_back(c);
- }
-
- auto blendModeSignature = stream.read_long();
- if(blendModeSignature != '8BIM')
- CASPAR_THROW_EXCEPTION(psd_file_format_exception() << msg_info("blendModeSignature != '8BIM'"));
-
- blend_mode_ = int_to_blend_mode(stream.read_long());
- opacity_ = stream.read_byte();
- baseClipping_ = stream.read_byte() == 1 ? false : true;
- flags_ = stream.read_byte();
-
- stream.discard_bytes(1); //padding
-
- auto extras_size = stream.read_long();
- auto position = stream.current_position();
- mask_.read_mask_data(stream);
- read_blending_ranges(stream);
- name_ = stream.read_pascal_string(4);
-
- //Aditional Layer Information
- auto end_of_layer_info = position + extras_size;
- try
- {
- while(stream.current_position() < end_of_layer_info)
- {
- read_chunk(stream, doc);
- }
- }
- catch(psd_file_format_exception&)
- {
- stream.set_position(end_of_layer_info);
- }
- }
-
- void read_chunk(bigendian_file_input_stream& stream, const psd_document& doc, bool isMetadata = false)
- {
- auto signature = stream.read_long();
- if(signature != '8BIM' && signature != '8B64')
- CASPAR_THROW_EXCEPTION(psd_file_format_exception() << msg_info("signature != '8BIM' && signature != '8B64'"));
-
- auto key = stream.read_long();
-
- if(isMetadata) stream.read_long();
-
- auto length = stream.read_long();
- auto end_of_chunk = stream.current_position() + length;
-
- try
- {
- switch(key)
- {
- case 'SoCo':
- read_solid_color(stream);
- break;
-
- case 'lsct': //group settings (folders)
- read_group_settings(stream, length);
-
- case 'lspf': //protection settings
- protection_flags_ = stream.read_long();
- break;
-
- case 'Txt2': //text engine data
- break;
-
- case 'luni':
- name_ = stream.read_unicode_string();
- break;
-
- case 'TySh': //type tool object settings
- read_text_data(stream);
- break;
-
- case 'shmd': //metadata
- read_metadata(stream, doc);
- break;
-
- case 'lclr':
- sheet_color_ = static_cast<std::int16_t>(stream.read_short());
- break;
-
- case 'lyvr': //layer version
- break;
-
- case 'lnkD': //linked layer
- case 'lnk2': //linked layer
- case 'lnk3': //linked layer
- break;
-
- case 'vmsk':
- mask_.read_vector_mask_data(length, stream, doc.width(), doc.height());
- break;
-
- case 'tmln':
- read_timeline_data(stream);
- break;
-
- default:
- break;
- }
- }
- catch(psd_file_format_exception& ex)
- {
- //ignore failed chunks silently
- CASPAR_LOG(warning) << ex.what();
- }
-
- stream.set_position(end_of_chunk);
- }
-
- void read_solid_color(bigendian_file_input_stream& stream)
- {
- if(stream.read_long() != 16) //"descriptor version" should be 16
- CASPAR_THROW_EXCEPTION(psd_file_format_exception() << msg_info("descriptor version should be 16"));
-
- descriptor solid_descriptor(L"solid_color");
- solid_descriptor.populate(stream);
- solid_color_.red = static_cast<std::uint8_t>(solid_descriptor.items().get(L"Clr .Rd ", 0.0) + 0.5);
- solid_color_.green = static_cast<std::uint8_t>(solid_descriptor.items().get(L"Clr .Grn ", 0.0) + 0.5);
- solid_color_.blue = static_cast<std::uint8_t>(solid_descriptor.items().get(L"Clr .Bl ", 0.0) + 0.5);
- solid_color_.alpha = 255;
- }
-
- void read_group_settings(bigendian_file_input_stream& stream, unsigned int length)
- {
- auto type = stream.read_long();
- unsigned int sub_type = 0;
-
- if (length >= 12)
- {
- auto signature = stream.read_long();
- if (signature != '8BIM')
- CASPAR_THROW_EXCEPTION(psd_file_format_exception() << msg_info("signature != '8BIM'"));
-
- blend_mode_ = int_to_blend_mode(stream.read_long());
-
- if (length >= 16)
- sub_type = stream.read_long();
- }
-
- layer_type_ = int_to_layer_type(type, sub_type);
- }
-
- void read_metadata(bigendian_file_input_stream& stream, const psd_document& doc)
- {
- int count = stream.read_long();
- for(int index = 0; index < count; ++index)
- read_chunk(stream, doc, true);
- }
-
- void read_timeline_data(bigendian_file_input_stream& stream)
- {
- if(stream.read_long() != 16) //"descriptor version" should be 16
- CASPAR_THROW_EXCEPTION(psd_file_format_exception() << msg_info("descriptor version should be 16"));
-
- descriptor timeline_descriptor(L"timeline");
- timeline_descriptor.populate(stream);
- timeline_info_.swap(timeline_descriptor.items());
- }
-
- void read_text_data(bigendian_file_input_stream& stream)
- {
- std::wstring text; //the text in the layer
-
- stream.read_short(); //should be 1
-
- //transformation info
- auto xx = stream.read_double();
- auto xy = stream.read_double();
- auto yx = stream.read_double();
- auto yy = stream.read_double();
- stream.read_double(); // tx
- stream.read_double(); // ty
- if(xx != yy || (xy != 0 && yx != 0))
- CASPAR_THROW_EXCEPTION(psd_file_format_exception() << msg_info("Rotation and non-uniform scaling of dynamic textfields is not supported yet"));
-
- text_scale_ = xx;
-
- if(stream.read_short() != 50) //"text version" should be 50
- CASPAR_THROW_EXCEPTION(psd_file_format_exception() << msg_info("invalid text version"));
-
- if(stream.read_long() != 16) //"descriptor version" should be 16
- CASPAR_THROW_EXCEPTION(psd_file_format_exception() << msg_info("Invalid descriptor version while reading text-data"));
-
- descriptor text_descriptor(L"text");
- text_descriptor.populate(stream);
- auto text_info = text_descriptor.items().get_optional<std::wstring>(L"EngineData");
-
- if (text_info)
- {
- std::string str(text_info->begin(), text_info->end());
- read_pdf(text_layer_info_, str);
- log::print_child(boost::log::trivial::trace, L"", L"text_layer_info", text_layer_info_);
- }
-
- if(stream.read_short() != 1) //"warp version" should be 1
- CASPAR_THROW_EXCEPTION(psd_file_format_exception() << msg_info("invalid warp version"));
-
- if(stream.read_long() != 16) //"descriptor version" should be 16
- CASPAR_THROW_EXCEPTION(psd_file_format_exception() << msg_info("Invalid descriptor version while reading text warp-data"));
-
- descriptor warp_descriptor(L"warp");
- warp_descriptor.populate(stream);
- stream.read_double(); // w_top
- stream.read_double(); // w_left
- stream.read_double(); // w_right
- stream.read_double(); // w_bottom
- }
-
- //TODO: implement
- void read_blending_ranges(bigendian_file_input_stream& stream)
- {
- auto length = stream.read_long();
- stream.discard_bytes(length);
- }
-
- bool has_channel(channel_type type)
- {
- return std::find_if(channels_.begin(), channels_.end(), [=](const channel& c) { return c.id == static_cast<int>(type); }) != channels_.end();
- }
-
- void read_channel_data(bigendian_file_input_stream& stream)
- {
- image8bit_ptr bitmap;
-
- bool has_transparency = has_channel(channel_type::transparency);
-
- if(!bitmap_rect_.empty())
- {
- bitmap = std::make_shared<image8bit>(bitmap_rect_.size.width, bitmap_rect_.size.height, 4);
- if(!has_transparency)
- std::memset(bitmap->data(), 255, bitmap->width()*bitmap->height()*bitmap->channel_count());
- }
-
- for(auto it = channels_.begin(); it != channels_.end(); ++it)
- {
- auto channel = (*it);
- image8bit_ptr target;
- int offset = 0;
- bool discard_channel = false;
-
- //determine target bitmap and offset
- if(channel.id >= 3)
- discard_channel = true; //discard channels that doesn't contribute to the final image
- else if(channel.id >= -1) //BGRA-data
- {
- target = bitmap;
- offset = (channel.id >= 0) ? 2 - channel.id : 3;
- }
- else //mask
- {
- offset = 0;
- if (channel.id == -2)
- {
- mask_.create_bitmap();
- target = mask_.bitmap_;
- }
- else if (channel.id == -3) //total_mask
- {
- mask_.total_mask_->create_bitmap();
- target = mask_.total_mask_->bitmap_;
- offset = 0;
- }
- }
-
- if(!target)
- discard_channel = true;
-
- auto end_of_data = stream.current_position() + channel.data_length;
- if(!discard_channel)
- {
- auto encoding = stream.read_short();
- if(target)
- {
- if(encoding == 0)
- read_raw_image_data(stream, channel.data_length-2, target, offset);
- else if(encoding == 1)
- read_rle_image_data(stream, target, offset);
- else
- CASPAR_THROW_EXCEPTION(psd_file_format_exception() << msg_info("Unhandled image data encoding: " + boost::lexical_cast<std::string>(encoding)));
- }
- }
- stream.set_position(end_of_data);
- }
-
- if(bitmap && has_transparency)
- {
- caspar::image::image_view<caspar::image::bgra_pixel> view(bitmap->data(), bitmap->width(), bitmap->height());
- caspar::image::premultiply(view);
- }
-
- bitmap_ = bitmap;
- }
-
- void read_raw_image_data(bigendian_file_input_stream& stream, int data_length, image8bit_ptr target, int offset)
- {
- auto total_length = target->width() * target->height();
- if (total_length != data_length)
- CASPAR_THROW_EXCEPTION(psd_file_format_exception() << msg_info("total_length != data_length"));
-
- auto data = target->data();
- auto stride = target->channel_count();
-
- if (stride == 1)
- stream.read(reinterpret_cast<char*>(data + offset), total_length);
- else
- {
- for(int index = 0; index < total_length; ++index)
- data[index * stride + offset] = stream.read_byte();
- }
- }
-
- void read_rle_image_data(bigendian_file_input_stream& stream, image8bit_ptr target, int offset)
- {
- auto width = target->width();
- auto height = target->height();
- auto stride = target->channel_count();
-
- std::vector<int> scanline_lengths;
- scanline_lengths.reserve(height);
-
- for (int scanlineIndex = 0; scanlineIndex < height; ++scanlineIndex)
- scanline_lengths.push_back(static_cast<std::int16_t>(stream.read_short()));
-
- auto target_data = target->data();
-
- std::vector<std::uint8_t> line(width);
-
- for(int scanlineIndex=0; scanlineIndex < height; ++scanlineIndex)
- {
- int colIndex = 0;
-
- do
- {
- int length = 0;
-
- //Get controlbyte
- char controlByte = static_cast<char>(stream.read_byte());
- if(controlByte >= 0)
- {
- //Read uncompressed string
- length = controlByte+1;
- for(int index=0; index < length; ++index)
- line[colIndex+index] = stream.read_byte();
- }
- else if(controlByte > -128)
- {
- //Repeat next byte
- length = -controlByte+1;
- auto value = stream.read_byte();
- for(int index=0; index < length; ++index)
- line[colIndex+index] = value;
- }
-
- colIndex += length;
- }
- while(colIndex < width);
-
- //use line to populate target
- for(int index = 0; index < width; ++index)
- {
- target_data[(scanlineIndex*width+index) * stride + offset] = line[index];
- }
- }
- }
-};
-
-layer::layer() : impl_(spl::make_shared<impl>()) {}
-
-void layer::populate(bigendian_file_input_stream& stream, const psd_document& doc) { impl_->populate(stream, doc); }
-void layer::read_channel_data(bigendian_file_input_stream& stream) { impl_->read_channel_data(stream); }
-
-const std::wstring& layer::name() const { return impl_->name_; }
-int layer::opacity() const { return impl_->opacity_; }
-int layer::sheet_color() const { return impl_->sheet_color_; }
-
-bool layer::is_visible() { return (impl_->flags_ & 2) == 0; } //the (PSD file-format) documentation is is saying the opposite but what the heck
-bool layer::is_position_protected() { return (impl_->protection_flags_& 4) == 4; }
-
-double layer::text_scale() const { return impl_->text_scale_; }
-bool layer::is_text() const { return !impl_->text_layer_info_.empty(); }
-const boost::property_tree::wptree& layer::text_data() const { return impl_->text_layer_info_; }
-
-bool layer::has_timeline() const { return !impl_->timeline_info_.empty(); }
-const boost::property_tree::wptree& layer::timeline_data() const { return impl_->timeline_info_; }
-
-bool layer::is_solid() const { return impl_->solid_color_.alpha != 0; }
-color<std::uint8_t> layer::solid_color() const { return impl_->solid_color_; }
-
-const point<int>& layer::location() const { return impl_->bitmap_rect_.location; }
-const size<int>& layer::size() const { return impl_->bitmap_rect_.size; }
-const image8bit_ptr& layer::bitmap() const { return impl_->bitmap_; }
-
-layer_type layer::group_mode() const { return impl_->layer_type_; }
-int layer::link_group_id() const { return impl_->link_group_id_; }
-void layer::set_link_group_id(int id) { impl_->link_group_id_ = id; }
-
-} //namespace psd
-} //namespace caspar
+/*\r
+* Copyright (c) 2011 Sveriges Television AB <info@casparcg.com>\r
+*\r
+* This file is part of CasparCG (www.casparcg.com).\r
+*\r
+* CasparCG is free software: you can redistribute it and/or modify\r
+* it under the terms of the GNU General Public License as published by\r
+* the Free Software Foundation, either version 3 of the License, or\r
+* (at your option) any later version.\r
+*\r
+* CasparCG is distributed in the hope that it will be useful,\r
+* but WITHOUT ANY WARRANTY; without even the implied warranty of\r
+* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the\r
+* GNU General Public License for more details.\r
+*\r
+* You should have received a copy of the GNU General Public License\r
+* along with CasparCG. If not, see <http://www.gnu.org/licenses/>.\r
+*\r
+* Author: Niklas P Andersson, niklas.p.andersson@svt.se\r
+*/\r
+\r
+#include "layer.h"\r
+#include "psd_document.h"\r
+#include "descriptor.h"\r
+#include "util/pdf_reader.h"\r
+\r
+#include "../image/util/image_algorithms.h"\r
+#include "../image/util/image_view.h"\r
+\r
+#include <common/log.h>\r
+\r
+#include <boost/property_tree/ptree.hpp>\r
+#include <boost/algorithm/string.hpp>\r
+#include <boost/lexical_cast.hpp>\r
+\r
+#include <algorithm>\r
+\r
+namespace caspar { namespace psd {\r
+\r
+void layer::mask_info::read_mask_data(bigendian_file_input_stream& stream)\r
+{\r
+ auto length = stream.read_long();\r
+ switch(length)\r
+ {\r
+ case 0:\r
+ break;\r
+\r
+ case 20:\r
+ case 36: //discard total user mask data\r
+ rect_.location.y = stream.read_long();\r
+ rect_.location.x = stream.read_long();\r
+ rect_.size.height = stream.read_long() - rect_.location.y;\r
+ rect_.size.width = stream.read_long() - rect_.location.x;\r
+\r
+ default_value_ = stream.read_byte();\r
+ flags_ = stream.read_byte();\r
+ stream.discard_bytes(2);\r
+ \r
+ if(length == 36)\r
+ {\r
+ //we save the information about the total mask in case the vector-mask has an unsupported shape\r
+ total_mask_.reset(new layer::mask_info);\r
+ total_mask_->flags_ = stream.read_byte();\r
+ total_mask_->default_value_ = stream.read_byte();\r
+ total_mask_->rect_.location.y = stream.read_long();\r
+ total_mask_->rect_.location.x = stream.read_long();\r
+ total_mask_->rect_.size.height = stream.read_long() - rect_.location.y;\r
+ total_mask_->rect_.size.width = stream.read_long() - rect_.location.x;\r
+ }\r
+ break;\r
+\r
+ default:\r
+ //TODO: Log that we discard a mask that is not supported\r
+ stream.discard_bytes(length);\r
+ break;\r
+ };\r
+}\r
+\r
+bool layer::vector_mask_info::populate(int length, bigendian_file_input_stream& stream, int doc_width, int doc_height)\r
+{\r
+ typedef std::pair<int, int> path_point;\r
+ bool bFail = false;\r
+\r
+ stream.read_long(); // version\r
+ this->flags_ = static_cast<std::uint8_t>(stream.read_long()); // flags\r
+ int path_records = (length - 8) / 26;\r
+\r
+ auto position = stream.current_position();\r
+\r
+ std::vector<path_point> knots;\r
+\r
+ const int SELECTOR_SIZE = 2;\r
+ const int PATH_POINT_SIZE = 4 + 4;\r
+ const int PATH_POINT_RECORD_SIZE = SELECTOR_SIZE + (3 * PATH_POINT_SIZE);\r
+\r
+ for (int i = 1; i <= path_records; ++i)\r
+ {\r
+ auto selector = stream.read_short();\r
+ if (selector == 2) //we only concern ourselves with closed paths \r
+ {\r
+ auto p_y = stream.read_long();\r
+ auto p_x = stream.read_long();\r
+ path_point cp_prev(p_x, p_y);\r
+\r
+ auto a_y = stream.read_long();\r
+ auto a_x = stream.read_long();\r
+ path_point anchor(a_x, a_y);\r
+\r
+ auto n_y = stream.read_long();\r
+ auto n_x = stream.read_long();\r
+ path_point cp_next(n_x, n_y);\r
+\r
+ if (anchor == cp_prev && anchor == cp_next)\r
+ knots.push_back(anchor);\r
+ else\r
+ { //we can't handle smooth curves yet\r
+ bFail = true;\r
+ }\r
+ }\r
+\r
+ auto offset = PATH_POINT_RECORD_SIZE * i;\r
+ stream.set_position(position + offset);\r
+ }\r
+\r
+ if ((knots.size() != 4) || (!(knots[0].first == knots[3].first && knots[1].first == knots[2].first && knots[0].second == knots[1].second && knots[2].second == knots[3].second)))\r
+ bFail = true;\r
+\r
+ if (bFail) {\r
+ rect_.clear();\r
+ flags_ = static_cast<std::uint8_t>(flags::unsupported);\r
+ }\r
+ else \r
+ {\r
+ //the path_points are given in fixed-point 8.24 as a ratio with regards to the width/height of the document. we need to divide by 16777215.0f to get the real ratio.\r
+ float x_ratio = doc_width / 16777215.0f;\r
+ float y_ratio = doc_height / 16777215.0f;\r
+ rect_.location.x = static_cast<int>(knots[0].first * x_ratio + 0.5f); //add .5 to get propper rounding when converting to integer\r
+ rect_.location.y = static_cast<int>(knots[0].second * y_ratio + 0.5f); //add .5 to get propper rounding when converting to integer\r
+ rect_.size.width = static_cast<int>(knots[1].first * x_ratio + 0.5f) - rect_.location.x; //add .5 to get propper rounding when converting to integer\r
+ rect_.size.height = static_cast<int>(knots[2].second * y_ratio + 0.5f) - rect_.location.y; //add .5 to get propper rounding when converting to integer\r
+ }\r
+\r
+ return !bFail;\r
+}\r
+\r
+struct layer::impl\r
+{\r
+ friend class layer;\r
+\r
+ impl() : blend_mode_(blend_mode::InvalidBlendMode), layer_type_(layer_type::content), link_group_id_(0), opacity_(255), sheet_color_(0), baseClipping_(false), flags_(0), protection_flags_(0), masks_count_(0), text_scale_(1.0f), tags_(layer_tag::none)\r
+ {}\r
+\r
+private:\r
+ std::vector<channel> channels_;\r
+ blend_mode blend_mode_;\r
+ layer_type layer_type_;\r
+ int link_group_id_;\r
+ int opacity_;\r
+ int sheet_color_;\r
+ bool baseClipping_;\r
+ std::uint8_t flags_;\r
+ std::uint32_t protection_flags_;\r
+ std::wstring name_;\r
+ int masks_count_;\r
+ double text_scale_;\r
+\r
+ layer::mask_info mask_;\r
+\r
+ rect<int> bitmap_rect_;\r
+ image8bit_ptr bitmap_;\r
+\r
+ boost::property_tree::wptree text_layer_info_;\r
+ boost::property_tree::wptree timeline_info_;\r
+\r
+ color<std::uint8_t> solid_color_;\r
+\r
+ layer_tag tags_;\r
+\r
+public:\r
+ void populate(bigendian_file_input_stream& stream, const psd_document& doc)\r
+ {\r
+ bitmap_rect_.location.y = stream.read_long();\r
+ bitmap_rect_.location.x = stream.read_long();\r
+ bitmap_rect_.size.height = stream.read_long() - bitmap_rect_.location.y;\r
+ bitmap_rect_.size.width = stream.read_long() - bitmap_rect_.location.x;\r
+\r
+ //Get info about the channels in the layer\r
+ auto channelCount = stream.read_short();\r
+ for(int channelIndex = 0; channelIndex < channelCount; ++channelIndex)\r
+ {\r
+ auto id = static_cast<std::int16_t>(stream.read_short());\r
+ channel c(id, stream.read_long());\r
+\r
+ if(c.id < -1)\r
+ masks_count_++;\r
+\r
+ channels_.push_back(c);\r
+ }\r
+\r
+ auto blendModeSignature = stream.read_long();\r
+ if(blendModeSignature != '8BIM')\r
+ CASPAR_THROW_EXCEPTION(psd_file_format_exception() << msg_info("blendModeSignature != '8BIM'"));\r
+\r
+ blend_mode_ = int_to_blend_mode(stream.read_long());\r
+ opacity_ = stream.read_byte();\r
+ baseClipping_ = stream.read_byte() == 1 ? false : true;\r
+ flags_ = stream.read_byte();\r
+\r
+ stream.discard_bytes(1); //padding\r
+\r
+ auto extras_size = stream.read_long();\r
+ auto position = stream.current_position();\r
+ mask_.read_mask_data(stream);\r
+ read_blending_ranges(stream);\r
+\r
+ stream.read_pascal_string(4); //throw this away. We'll read the unicode version of the name later\r
+\r
+ //Aditional Layer Information\r
+ auto end_of_layer_info = position + extras_size;\r
+ try\r
+ {\r
+ while(stream.current_position() < end_of_layer_info)\r
+ {\r
+ read_chunk(stream, doc);\r
+ }\r
+ }\r
+ catch(psd_file_format_exception&)\r
+ {\r
+ stream.set_position(end_of_layer_info);\r
+ }\r
+ }\r
+\r
+ void read_chunk(bigendian_file_input_stream& stream, const psd_document& doc, bool isMetadata = false)\r
+ {\r
+ auto signature = stream.read_long();\r
+ if(signature != '8BIM' && signature != '8B64')\r
+ CASPAR_THROW_EXCEPTION(psd_file_format_exception() << msg_info("signature != '8BIM' && signature != '8B64'"));\r
+\r
+ auto key = stream.read_long();\r
+\r
+ if(isMetadata) stream.read_long();\r
+\r
+ auto length = stream.read_long();\r
+ auto end_of_chunk = stream.current_position() + length;\r
+\r
+ try\r
+ {\r
+ switch(key)\r
+ {\r
+ case 'SoCo':\r
+ read_solid_color(stream);\r
+ break;\r
+\r
+ case 'lsct': //group settings (folders)\r
+ read_group_settings(stream, length);\r
+\r
+ case 'lspf': //protection settings\r
+ protection_flags_ = stream.read_long();\r
+ break;\r
+\r
+ case 'Txt2': //text engine data\r
+ break;\r
+\r
+ case 'luni':\r
+ set_name_and_tags(stream.read_unicode_string());\r
+ break;\r
+\r
+ case 'TySh': //type tool object settings\r
+ read_text_data(stream);\r
+ break;\r
+ \r
+ case 'shmd': //metadata\r
+ read_metadata(stream, doc);\r
+ break;\r
+\r
+ case 'lclr':\r
+ sheet_color_ = static_cast<std::int16_t>(stream.read_short());\r
+ break;\r
+ \r
+ case 'lyvr': //layer version\r
+ break;\r
+\r
+ case 'lnkD': //linked layer\r
+ case 'lnk2': //linked layer\r
+ case 'lnk3': //linked layer\r
+ break;\r
+\r
+ case 'vmsk':\r
+ mask_.read_vector_mask_data(length, stream, doc.width(), doc.height());\r
+ break;\r
+ \r
+ case 'tmln':\r
+ read_timeline_data(stream);\r
+ break;\r
+\r
+ default:\r
+ break;\r
+ }\r
+ }\r
+ catch(psd_file_format_exception& ex)\r
+ {\r
+ //ignore failed chunks silently\r
+ CASPAR_LOG(warning) << ex.what();\r
+ }\r
+\r
+ stream.set_position(end_of_chunk);\r
+ }\r
+ \r
+ void set_name_and_tags(const std::wstring& name) {\r
+ auto start_bracket = name.find_first_of(L'[');\r
+ auto end_bracket = name.find_first_of(L']');\r
+ if (start_bracket == std::wstring::npos && end_bracket == std::wstring::npos) {\r
+ //no flags\r
+ name_ = name;\r
+ }\r
+ else if (start_bracket != std::wstring::npos && end_bracket > start_bracket) {\r
+ //we have tags\r
+ tags_ = string_to_layer_tags(name.substr(start_bracket+1, end_bracket-start_bracket-1));\r
+ name_ = name.substr(end_bracket+1);\r
+ }\r
+ else {\r
+ //missmatch\r
+ name_ = name;\r
+ CASPAR_LOG(warning) << "Mismatching tag-brackets in layer name";\r
+ }\r
+\r
+ boost::trim(name_);\r
+ }\r
+\r
+ void read_solid_color(bigendian_file_input_stream& stream)\r
+ {\r
+ if(stream.read_long() != 16) //"descriptor version" should be 16\r
+ CASPAR_THROW_EXCEPTION(psd_file_format_exception() << msg_info("descriptor version should be 16"));\r
+\r
+ descriptor solid_descriptor(L"solid_color");\r
+ solid_descriptor.populate(stream);\r
+ solid_color_.red = static_cast<std::uint8_t>(solid_descriptor.items().get(L"Clr .Rd ", 0.0) + 0.5);\r
+ solid_color_.green = static_cast<std::uint8_t>(solid_descriptor.items().get(L"Clr .Grn ", 0.0) + 0.5);\r
+ solid_color_.blue = static_cast<std::uint8_t>(solid_descriptor.items().get(L"Clr .Bl ", 0.0) + 0.5);\r
+ solid_color_.alpha = 255;\r
+ }\r
+\r
+ void read_group_settings(bigendian_file_input_stream& stream, unsigned int length) \r
+ {\r
+ auto type = stream.read_long();\r
+ unsigned int sub_type = 0;\r
+\r
+ if (length >= 12)\r
+ {\r
+ auto signature = stream.read_long();\r
+ if (signature != '8BIM')\r
+ CASPAR_THROW_EXCEPTION(psd_file_format_exception() << msg_info("signature != '8BIM'"));\r
+\r
+ blend_mode_ = int_to_blend_mode(stream.read_long());\r
+ \r
+ if (length >= 16)\r
+ sub_type = stream.read_long();\r
+ }\r
+\r
+ layer_type_ = int_to_layer_type(type, sub_type);\r
+ }\r
+\r
+ void read_metadata(bigendian_file_input_stream& stream, const psd_document& doc)\r
+ {\r
+ int count = stream.read_long();\r
+ for(int index = 0; index < count; ++index)\r
+ read_chunk(stream, doc, true);\r
+ }\r
+\r
+ void read_timeline_data(bigendian_file_input_stream& stream)\r
+ {\r
+ if(stream.read_long() != 16) //"descriptor version" should be 16\r
+ CASPAR_THROW_EXCEPTION(psd_file_format_exception() << msg_info("descriptor version should be 16"));\r
+\r
+ descriptor timeline_descriptor(L"timeline");\r
+ timeline_descriptor.populate(stream);\r
+ timeline_info_.swap(timeline_descriptor.items());\r
+ }\r
+\r
+ void read_text_data(bigendian_file_input_stream& stream)\r
+ {\r
+ std::wstring text; //the text in the layer\r
+\r
+ stream.read_short(); //should be 1\r
+ \r
+ //transformation info\r
+ auto xx = stream.read_double();\r
+ auto xy = stream.read_double();\r
+ auto yx = stream.read_double();\r
+ auto yy = stream.read_double();\r
+ stream.read_double(); // tx\r
+ stream.read_double(); // ty\r
+ if(xx != yy || (xy != 0 && yx != 0))\r
+ CASPAR_THROW_EXCEPTION(psd_file_format_exception() << msg_info("Rotation and non-uniform scaling of dynamic textfields is not supported yet"));\r
+\r
+ text_scale_ = xx;\r
+\r
+ if(stream.read_short() != 50) //"text version" should be 50\r
+ CASPAR_THROW_EXCEPTION(psd_file_format_exception() << msg_info("invalid text version"));\r
+\r
+ if(stream.read_long() != 16) //"descriptor version" should be 16\r
+ CASPAR_THROW_EXCEPTION(psd_file_format_exception() << msg_info("Invalid descriptor version while reading text-data"));\r
+\r
+ descriptor text_descriptor(L"text");\r
+ text_descriptor.populate(stream);\r
+ auto text_info = text_descriptor.items().get_optional<std::wstring>(L"EngineData");\r
+ \r
+ if (text_info)\r
+ {\r
+ std::string str(text_info->begin(), text_info->end());\r
+ read_pdf(text_layer_info_, str);\r
+ log::print_child(boost::log::trivial::trace, L"", L"text_layer_info", text_layer_info_);\r
+ }\r
+\r
+ if(stream.read_short() != 1) //"warp version" should be 1\r
+ CASPAR_THROW_EXCEPTION(psd_file_format_exception() << msg_info("invalid warp version"));\r
+\r
+ if(stream.read_long() != 16) //"descriptor version" should be 16\r
+ CASPAR_THROW_EXCEPTION(psd_file_format_exception() << msg_info("Invalid descriptor version while reading text warp-data"));\r
+\r
+ descriptor warp_descriptor(L"warp");\r
+ warp_descriptor.populate(stream);\r
+ stream.read_double(); // w_top\r
+ stream.read_double(); // w_left\r
+ stream.read_double(); // w_right\r
+ stream.read_double(); // w_bottom\r
+ }\r
+\r
+ //TODO: implement\r
+ void read_blending_ranges(bigendian_file_input_stream& stream)\r
+ {\r
+ auto length = stream.read_long();\r
+ stream.discard_bytes(length);\r
+ }\r
+\r
+ bool has_channel(channel_type type)\r
+ {\r
+ return std::find_if(channels_.begin(), channels_.end(), [=](const channel& c) { return c.id == static_cast<int>(type); }) != channels_.end();\r
+ }\r
+\r
+ void read_channel_data(bigendian_file_input_stream& stream)\r
+ {\r
+ image8bit_ptr bitmap;\r
+\r
+ bool has_transparency = has_channel(channel_type::transparency);\r
+ \r
+ if(!bitmap_rect_.empty())\r
+ {\r
+ bitmap = std::make_shared<image8bit>(bitmap_rect_.size.width, bitmap_rect_.size.height, 4);\r
+ if(!has_transparency)\r
+ std::memset(bitmap->data(), 255, bitmap->width()*bitmap->height()*bitmap->channel_count());\r
+ }\r
+\r
+ for(auto it = channels_.begin(); it != channels_.end(); ++it)\r
+ {\r
+ auto channel = (*it);\r
+ image8bit_ptr target;\r
+ int offset = 0;\r
+ bool discard_channel = false;\r
+\r
+ //determine target bitmap and offset\r
+ if(channel.id >= 3)\r
+ discard_channel = true; //discard channels that doesn't contribute to the final image\r
+ else if(channel.id >= -1) //BGRA-data\r
+ {\r
+ target = bitmap;\r
+ offset = (channel.id >= 0) ? 2 - channel.id : 3;\r
+ }\r
+ else //mask\r
+ {\r
+ offset = 0;\r
+ if (channel.id == -2)\r
+ {\r
+ mask_.create_bitmap();\r
+ target = mask_.bitmap_;\r
+ }\r
+ else if (channel.id == -3) //total_mask\r
+ {\r
+ mask_.total_mask_->create_bitmap();\r
+ target = mask_.total_mask_->bitmap_;\r
+ offset = 0;\r
+ }\r
+ }\r
+\r
+ if(!target)\r
+ discard_channel = true;\r
+\r
+ auto end_of_data = stream.current_position() + channel.data_length;\r
+ if(!discard_channel)\r
+ {\r
+ auto encoding = stream.read_short();\r
+ if(target)\r
+ {\r
+ if(encoding == 0)\r
+ read_raw_image_data(stream, channel.data_length-2, target, offset);\r
+ else if(encoding == 1)\r
+ read_rle_image_data(stream, target, offset);\r
+ else\r
+ CASPAR_THROW_EXCEPTION(psd_file_format_exception() << msg_info("Unhandled image data encoding: " + boost::lexical_cast<std::string>(encoding)));\r
+ }\r
+ }\r
+ stream.set_position(end_of_data);\r
+ }\r
+\r
+ if(bitmap && has_transparency)\r
+ {\r
+ caspar::image::image_view<caspar::image::bgra_pixel> view(bitmap->data(), bitmap->width(), bitmap->height());\r
+ caspar::image::premultiply(view);\r
+ }\r
+\r
+ bitmap_ = bitmap;\r
+ }\r
+\r
+ void read_raw_image_data(bigendian_file_input_stream& stream, int data_length, image8bit_ptr target, int offset)\r
+ {\r
+ auto total_length = target->width() * target->height();\r
+ if (total_length != data_length)\r
+ CASPAR_THROW_EXCEPTION(psd_file_format_exception() << msg_info("total_length != data_length"));\r
+\r
+ auto data = target->data();\r
+ auto stride = target->channel_count();\r
+\r
+ if (stride == 1)\r
+ stream.read(reinterpret_cast<char*>(data + offset), total_length);\r
+ else\r
+ {\r
+ for(int index = 0; index < total_length; ++index)\r
+ data[index * stride + offset] = stream.read_byte();\r
+ }\r
+ }\r
+\r
+ void read_rle_image_data(bigendian_file_input_stream& stream, image8bit_ptr target, int offset)\r
+ {\r
+ auto width = target->width();\r
+ auto height = target->height();\r
+ auto stride = target->channel_count();\r
+\r
+ std::vector<int> scanline_lengths;\r
+ scanline_lengths.reserve(height);\r
+\r
+ for (int scanlineIndex = 0; scanlineIndex < height; ++scanlineIndex)\r
+ scanline_lengths.push_back(static_cast<std::int16_t>(stream.read_short()));\r
+\r
+ auto target_data = target->data();\r
+\r
+ std::vector<std::uint8_t> line(width);\r
+\r
+ for(int scanlineIndex=0; scanlineIndex < height; ++scanlineIndex)\r
+ {\r
+ int colIndex = 0;\r
+\r
+ do\r
+ {\r
+ int length = 0;\r
+\r
+ //Get controlbyte\r
+ char controlByte = static_cast<char>(stream.read_byte());\r
+ if(controlByte >= 0)\r
+ {\r
+ //Read uncompressed string\r
+ length = controlByte+1;\r
+ for(int index=0; index < length; ++index)\r
+ line[colIndex+index] = stream.read_byte();\r
+ }\r
+ else if(controlByte > -128)\r
+ {\r
+ //Repeat next byte\r
+ length = -controlByte+1;\r
+ auto value = stream.read_byte();\r
+ for(int index=0; index < length; ++index)\r
+ line[colIndex+index] = value;\r
+ }\r
+\r
+ colIndex += length;\r
+ }\r
+ while(colIndex < width);\r
+\r
+ //use line to populate target\r
+ for(int index = 0; index < width; ++index)\r
+ {\r
+ target_data[(scanlineIndex*width+index) * stride + offset] = line[index];\r
+ }\r
+ }\r
+ }\r
+};\r
+\r
+layer::layer() : impl_(spl::make_shared<impl>()) {}\r
+\r
+void layer::populate(bigendian_file_input_stream& stream, const psd_document& doc) { impl_->populate(stream, doc); }\r
+void layer::read_channel_data(bigendian_file_input_stream& stream) { impl_->read_channel_data(stream); }\r
+\r
+const std::wstring& layer::name() const { return impl_->name_; }\r
+int layer::opacity() const { return impl_->opacity_; }\r
+int layer::sheet_color() const { return impl_->sheet_color_; }\r
+\r
+bool layer::is_visible() { return (impl_->flags_ & 2) == 0; } //the (PSD file-format) documentation is is saying the opposite but what the heck\r
+bool layer::is_position_protected() { return (impl_->protection_flags_& 4) == 4; }\r
+\r
+double layer::text_scale() const { return impl_->text_scale_; }\r
+bool layer::is_text() const { return !impl_->text_layer_info_.empty(); }\r
+const boost::property_tree::wptree& layer::text_data() const { return impl_->text_layer_info_; }\r
+\r
+bool layer::has_timeline() const { return !impl_->timeline_info_.empty(); }\r
+const boost::property_tree::wptree& layer::timeline_data() const { return impl_->timeline_info_; }\r
+\r
+bool layer::is_solid() const { return impl_->solid_color_.alpha != 0; }\r
+color<std::uint8_t> layer::solid_color() const { return impl_->solid_color_; }\r
+\r
+const point<int>& layer::location() const { return impl_->bitmap_rect_.location; }\r
+const size<int>& layer::size() const { return impl_->bitmap_rect_.size; }\r
+const image8bit_ptr& layer::bitmap() const { return impl_->bitmap_; }\r
+\r
+layer_type layer::group_mode() const { return impl_->layer_type_; }\r
+int layer::link_group_id() const { return impl_->link_group_id_; }\r
+void layer::set_link_group_id(int id) { impl_->link_group_id_ = id; }\r
+\r
+bool layer::is_explicit_dynamic() const { return (impl_->tags_ & layer_tag::explicit_dynamic) == layer_tag::explicit_dynamic; }\r
+bool layer::is_static() const { return (impl_->tags_ & layer_tag::rasterized) == layer_tag::rasterized; }\r
+bool layer::is_movable() const { return (impl_->tags_ & layer_tag::moveable) == layer_tag::moveable; }\r
+bool layer::is_resizable() const { return (impl_->tags_ & layer_tag::resizable) == layer_tag::resizable; }\r
+bool layer::is_placeholder() const { return (impl_->tags_ & layer_tag::placeholder) == layer_tag::placeholder; }\r
+layer_tag layer::tags() const { return impl_->tags_; }\r
+\r
+} //namespace psd\r
+} //namespace caspar\r
}
- class layer_link_constructor
+class dependency_resolver
+{
+ struct layer_record
{
- struct linked_layer_record
- {
- caspar::core::scene::layer* layer;
- int link_id;
- bool is_master;
- double adjustment_x;
- double adjustment_y;
- };
-
- std::vector<linked_layer_record> layers;
- std::vector<linked_layer_record> masters;
-
- public:
- void add(caspar::core::scene::layer* layer, int link_group, bool master, double adjustment_x, double adjustment_y)
+ layer_record() : layer(nullptr), tags(layer_tag::none), adjustment_x(0), adjustment_y(0)
+ {}
+
+ caspar::core::scene::layer* layer;
+ layer_tag tags;
+ double adjustment_x;
+ double adjustment_y;
+ };
+
+ std::list<layer_record> layers;
+ layer_record master;
+
+ spl::shared_ptr<core::scene::scene_producer> scene_;
+ bool is_root_;
+
+public:
+ dependency_resolver(const spl::shared_ptr<core::scene::scene_producer>& s) :
+ scene_(s), is_root_(false)
+ {}
+ dependency_resolver(const spl::shared_ptr<core::scene::scene_producer>& s, bool root) :
+ scene_(s), is_root_(root)
+ {}
+
+ spl::shared_ptr<core::scene::scene_producer> scene() { return scene_; }
+
+ void add(caspar::core::scene::layer* layer, layer_tag tags, double adjustment_x, double adjustment_y)
+ {
+ layer_record rec;
+ rec.layer = layer;
+ rec.tags = tags;
+ rec.adjustment_x = adjustment_x;
+ rec.adjustment_y = adjustment_y;
+ layers.push_back(rec);
+
+ //if the layer is either explicitly tagged as dynamic or at least not tagged as static/rasterized we should try to set it as master
+ if((rec.tags & layer_tag::explicit_dynamic) == layer_tag::explicit_dynamic || (rec.tags & layer_tag::rasterized) == layer_tag::none)
{
- linked_layer_record rec;
- rec.layer = layer;
- rec.link_id = link_group;
- rec.is_master = master;
- rec.adjustment_x = adjustment_x;
- rec.adjustment_y = adjustment_y;
- layers.push_back(rec);
-
- if(rec.is_master)
+ //if we don't have a master already, just assign this
+ if (master.layer == nullptr)
+ master = rec;
+ else if ((rec.tags & layer_tag::explicit_dynamic) == layer_tag::explicit_dynamic)
{
- auto it = std::find_if(masters.begin(), masters.end(), [=](linked_layer_record const &r){ return r.link_id == link_group; });
- if(it == masters.end())
- masters.push_back(rec);
- else
- masters.erase(it); //ambigous, two linked layers with locked position
+ if((master.tags & layer_tag::explicit_dynamic) == layer_tag::none)
+ {
+ //if we have a master that's not explicitly tagged as dynamic but this layer is; use this as master
+ master = rec;
+ }
+ else {
+ //we have multiple layers that're tagged as dynamic, warn that the first one will be used
+ CASPAR_LOG(warning) << "Multiple explicitly dynamic layers in the same group. The first one will be used";
+ }
}
}
+ }
+
+ void calculate()
+ {
+ if (layers.size() == 0)
+ return;
+
+ if (master.layer == nullptr) {
+ CASPAR_LOG(warning) << "Dependent layers without any dynamic layer";
+ return;
+ }
- void calculate()
+ for (auto &r : layers)
{
- for(auto it = masters.begin(); it != masters.end(); ++it)
+ if (r.layer != master.layer)
{
- auto& master = (*it);
- //std::for_each(layers.begin(), layers.end(), [&master](linked_layer_record &r) mutable {
- for (auto &r : layers) {
- if(r.link_id == master.link_id && r.layer != master.layer)
- {
- { //x-coords
- double slave_left = r.layer->position.x.get() + r.adjustment_x;
- double slave_right = slave_left + r.layer->producer.get()->pixel_constraints().width.get();
-
- double master_left = master.layer->position.x.get() + master.adjustment_x;
- double master_right = master_left + master.layer->producer.get()->pixel_constraints().width.get();
-
- if((slave_left >= master_left && slave_right <= master_right) || (slave_left <= master_left && slave_right >= master_right))
- {
- //change width of slave
- r.layer->position.x.bind(master.layer->position.x - r.adjustment_x + master.adjustment_x + (slave_left - master_left));
- r.layer->producer.get()->pixel_constraints().width.bind(master.layer->producer.get()->pixel_constraints().width + (slave_right - slave_left - master_right + master_left));
- }
- else if(slave_left >= master_right)
- {
- //push slave ahead of master
- r.layer->position.x.bind(master.layer->position.x - r.adjustment_x + master.adjustment_x + master.layer->producer.get()->pixel_constraints().width + (slave_left - master_right));
- }
- else if(slave_right <= master_left)
- {
- r.layer->position.x.bind(master.layer->position.x - r.adjustment_x + master.adjustment_x - (master_left - slave_left));
- }
- }
-
- { //y-coords
- double slave_top = r.layer->position.y.get() + r.adjustment_y;
- double slave_bottom = slave_top + r.layer->producer.get()->pixel_constraints().height.get();
-
- double master_top = master.layer->position.y.get() + master.adjustment_y;
- double master_bottom = master_top + master.layer->producer.get()->pixel_constraints().height.get();
-
- if((slave_top >= master_top && slave_bottom <= master_bottom) || (slave_top <= master_top && slave_bottom >= master_bottom))
- {
- //change height of slave
- r.layer->position.y.bind(master.layer->position.y - r.adjustment_y + master.adjustment_y + (slave_top - master_top));
- r.layer->producer.get()->pixel_constraints().height.bind(master.layer->producer.get()->pixel_constraints().height + (slave_bottom - slave_top - master_bottom + master_top));
- }
- else if(slave_top >= master_bottom)
- {
- //push slave ahead of master
- r.layer->position.y.bind(master.layer->position.y - r.adjustment_y + master.adjustment_y + master.layer->producer.get()->pixel_constraints().height + (slave_top - master_bottom));
- }
- else if(slave_bottom <= master_top)
- {
- r.layer->position.y.bind(master.layer->position.y - r.adjustment_y + master.adjustment_y - (master_top - slave_top));
- }
- }
-
- }
+ //x-coords
+ double slave_left = r.layer->position.x.get();
+ double master_left = master.layer->position.x.get();
+ double slave_right = slave_left + r.layer->producer.get()->pixel_constraints().width.get();
+ double master_right = master_left + master.layer->producer.get()->pixel_constraints().width.get();
+
+ double slave_width = slave_right - slave_left;
+ double master_width = master_right - master_left;
+
+ double offset_start_x = slave_left - master_left;
+ double offset_end_x = slave_left - master_right;
+
+ if((r.tags & layer_tag::moveable) == layer_tag::moveable)
+ r.layer->position.x.bind(master.layer->position.x + master.layer->producer.get()->pixel_constraints().width + offset_end_x + r.adjustment_x);
+ else if ((r.tags & layer_tag::resizable) == layer_tag::resizable) {
+ r.layer->position.x.bind(master.layer->position.x + offset_start_x + r.adjustment_x);
+ r.layer->producer.get()->pixel_constraints().width.bind(master.layer->producer.get()->pixel_constraints().width + (slave_width - master_width));
}
+
+ //no support for changes in the y-direction yet
}
}
- };
+ }
+};
int64_t get_frame_number(
const core::video_format_desc& format_desc,
auto root = spl::make_shared<core::scene::scene_producer>(L"psd", doc.width(), doc.height(), dependencies.format_desc);
- layer_link_constructor link_constructor;
-
std::vector<std::pair<std::wstring, spl::shared_ptr<core::text_producer>>> text_producers_by_layer_name;
- std::stack<spl::shared_ptr<core::scene::scene_producer>> current_scene_stack;
- current_scene_stack.push(root);
+ std::stack<dependency_resolver> scene_stack;
+ scene_stack.push(dependency_resolver{ root, true });
auto layers_end = doc.layers().rend();
for(auto it = doc.layers().rbegin(); it != layers_end; ++it)
{
- auto psd_layer = (*it);
- auto current_scene = current_scene_stack.top();
+ auto& psd_layer = (*it);
+ auto& current = scene_stack.top();
if (psd_layer->group_mode() == layer_type::group) {
+ //we've found a group. Create a new scene and add it to the scene-stack
+
auto group = spl::make_shared<core::scene::scene_producer>(psd_layer->name(), doc.width(), doc.height(), dependencies.format_desc);
- auto& scene_layer = current_scene->create_layer(group, psd_layer->location().x, psd_layer->location().y, psd_layer->name());
+ auto& scene_layer = current.scene()->create_layer(group, psd_layer->location().x, psd_layer->location().y, psd_layer->name());
scene_layer.adjustments.opacity.set(psd_layer->opacity() / 255.0);
scene_layer.hidden.set(!psd_layer->is_visible());
if (psd_layer->has_timeline())
- create_timelines(current_scene, dependencies.format_desc, scene_layer, psd_layer, 0, 0);
+ create_timelines(root, dependencies.format_desc, scene_layer, psd_layer, 0, 0);
+
+ if (psd_layer->is_movable())
+ current.add(&scene_layer, psd_layer->tags(), 0, 0);
- if (psd_layer->link_group_id() != 0)
- link_constructor.add(&scene_layer, psd_layer->link_group_id(), psd_layer->is_position_protected(), 0, 0);
+ if (psd_layer->is_resizable())
+ CASPAR_LOG(warning) << "Groups doesn't support the \"resizable\"-tag.";
- current_scene_stack.push(group);
+ if (psd_layer->is_explicit_dynamic())
+ CASPAR_LOG(warning) << "Groups doesn't support the \"dynamic\"-tag.";
+
+ scene_stack.push(group);
continue;
}
else if (psd_layer->group_mode() == layer_type::group_delimiter) {
- current_scene->reverse_layers();
- current_scene_stack.pop();
+ //a group-terminator. Finish the scene
+ current.scene()->reverse_layers();
+ current.calculate();
+ scene_stack.pop();
continue;
}
if(psd_layer->is_visible())
{
- bool is_text = psd_layer->is_text();
- bool is_marked_as_dynamic = psd_layer->sheet_color() != 1;
- std::wstring layer_name = psd_layer->name();
+ auto layer_name = psd_layer->name();
- if(is_text && is_marked_as_dynamic)
+ if(psd_layer->is_text() && !psd_layer->is_static())
{
std::wstring str = psd_layer->text_data().get(L"EngineDict.Editor.Text", L"");
auto adjustment_x = -2; //the 2 offset is just a hack for now. don't know why our text is rendered 2 px to the right of that in photoshop
auto adjustment_y = metrics.bearingY;
- auto& scene_layer = current_scene->create_layer(text_producer, psd_layer->location().x + adjustment_x, psd_layer->location().y + adjustment_y, psd_layer->name());
+ auto& scene_layer = current.scene()->create_layer(text_producer, psd_layer->location().x + adjustment_x, psd_layer->location().y + adjustment_y, layer_name);
scene_layer.adjustments.opacity.set(psd_layer->opacity() / 255.0);
scene_layer.hidden.set(!psd_layer->is_visible());
if (psd_layer->has_timeline())
- create_timelines(current_scene, dependencies.format_desc, scene_layer, psd_layer, adjustment_x, adjustment_y);
-
- if(psd_layer->link_group_id() != 0)
- link_constructor.add(&scene_layer, psd_layer->link_group_id(), psd_layer->is_position_protected(), -adjustment_x, -adjustment_y);
+ create_timelines(root, dependencies.format_desc, scene_layer, psd_layer, adjustment_x, adjustment_y);
+ current.add(&scene_layer, psd_layer->tags(), -adjustment_x, -adjustment_y);
text_producers_by_layer_name.push_back(std::make_pair(layer_name, text_producer));
}
else
}
else if(psd_layer->bitmap())
{
- if (boost::algorithm::istarts_with(layer_name, L"[producer]"))
+ if (psd_layer->is_placeholder())
{
auto hotswap = std::make_shared<core::hotswap_producer>(psd_layer->bitmap()->width(), psd_layer->bitmap()->height());
- hotswap->producer().set(dependencies.producer_registry->create_producer(dependencies, layer_name.substr(10)));
+ hotswap->producer().set(dependencies.producer_registry->create_producer(dependencies, layer_name));
layer_producer = hotswap;
}
else
if(layer_producer)
{
- auto& scene_layer = current_scene->create_layer(spl::make_shared_ptr(layer_producer), psd_layer->location().x, psd_layer->location().y, psd_layer->name());
+ auto& scene_layer = current.scene()->create_layer(spl::make_shared_ptr(layer_producer), psd_layer->location().x, psd_layer->location().y, psd_layer->name());
scene_layer.adjustments.opacity.set(psd_layer->opacity() / 255.0);
scene_layer.hidden.set(!psd_layer->is_visible());
if (psd_layer->has_timeline())
- create_timelines(current_scene, dependencies.format_desc, scene_layer, psd_layer, 0, 0);
+ create_timelines(root, dependencies.format_desc, scene_layer, psd_layer, 0, 0);
- if(psd_layer->link_group_id() != 0)
- link_constructor.add(&scene_layer, psd_layer->link_group_id(), psd_layer->is_position_protected(), 0, 0);
+ if(psd_layer->is_movable() || psd_layer->is_resizable())
+ current.add(&scene_layer, psd_layer->tags(), 0, 0);
}
}
}
+ }
+ if (scene_stack.size() != 1) {
+
}
root->reverse_layers();
+ scene_stack.top().calculate();
- link_constructor.calculate();
// Reset all dynamic text fields to empty strings and expose them as a scene parameter.
for (auto& text_layer : text_producers_by_layer_name)