mirror of
https://github.com/Xaymar/obs-StreamFX
synced 2024-11-16 00:35:06 +00:00
486 lines
17 KiB
C++
486 lines
17 KiB
C++
/*
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* Modern effects for a modern Streamer
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* Copyright (C) 2019 Michael Fabian Dirks
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
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*/
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#include "filter-dynamic-mask.hpp"
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#include "strings.hpp"
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#include <sstream>
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#include <stdexcept>
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#include <vector>
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#include "obs/gs/gs-helper.hpp"
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// Filter to allow dynamic masking
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// Allow any channel to affect any other channel
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//
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// Red/Green/Blue/Alpha Mask Input
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// - Red Mask Output
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// - Blue Mask Output
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// - Green Mask Output
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// - Alpha Mask Output
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#define ST "Filter.DynamicMask"
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#define ST_INPUT "Filter.DynamicMask.Input"
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#define ST_CHANNEL "Filter.DynamicMask.Channel"
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#define ST_CHANNEL_VALUE "Filter.DynamicMask.Channel.Value"
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#define ST_CHANNEL_MULTIPLIER "Filter.DynamicMask.Channel.Multiplier"
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#define ST_CHANNEL_INPUT "Filter.DynamicMask.Channel.Input"
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using namespace streamfx::filter::dynamic_mask;
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static std::pair<channel, const char*> channel_translations[] = {
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{channel::Red, S_CHANNEL_RED},
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{channel::Green, S_CHANNEL_GREEN},
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{channel::Blue, S_CHANNEL_BLUE},
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{channel::Alpha, S_CHANNEL_ALPHA},
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};
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dynamic_mask_instance::dynamic_mask_instance(obs_data_t* settings, obs_source_t* self)
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: obs::source_instance(settings, self), _translation_map(), _effect(), _have_filter_texture(false), _filter_rt(),
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_filter_texture(), _have_input_texture(false), _input(), _input_capture(), _input_texture(),
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_have_final_texture(false), _final_rt(), _final_texture(), _channels(), _precalc()
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{
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_filter_rt = std::make_shared<gs::rendertarget>(GS_RGBA, GS_ZS_NONE);
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_final_rt = std::make_shared<gs::rendertarget>(GS_RGBA, GS_ZS_NONE);
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{
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char* file = obs_module_file("effects/channel-mask.effect");
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try {
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_effect = gs::effect::create(file);
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} catch (const std::exception& ex) {
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LOG_ERROR("Loading channel mask effect failed with error(s):\n%s", ex.what());
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}
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assert(_effect != nullptr);
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bfree(file);
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}
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update(settings);
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}
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dynamic_mask_instance::~dynamic_mask_instance() {}
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void dynamic_mask_instance::load(obs_data_t* settings)
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{
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update(settings);
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}
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void dynamic_mask_instance::migrate(obs_data_t* data, std::uint64_t version) {}
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void dynamic_mask_instance::update(obs_data_t* settings)
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{
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// Update source.
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try {
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_input = std::make_shared<obs::deprecated_source>(obs_data_get_string(settings, ST_INPUT));
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_input_capture = std::make_shared<gfx::source_texture>(_input, _self);
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_input->events.rename += std::bind(&dynamic_mask_instance::input_renamed, this, std::placeholders::_1,
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std::placeholders::_2, std::placeholders::_3);
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} catch (...) {
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_input.reset();
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_input_capture.reset();
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_input_texture.reset();
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}
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// Update data store
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for (auto kv1 : channel_translations) {
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auto found = _channels.find(kv1.first);
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if (found == _channels.end()) {
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_channels.insert({kv1.first, channel_data()});
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found = _channels.find(kv1.first);
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if (found == _channels.end()) {
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assert(found != _channels.end());
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throw std::runtime_error("Unable to insert element into data _store.");
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}
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}
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std::string chv_key = std::string(ST_CHANNEL_VALUE) + "." + kv1.second;
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found->second.value = static_cast<float_t>(obs_data_get_double(settings, chv_key.c_str()));
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_precalc.base.ptr[static_cast<size_t>(kv1.first)] = found->second.value;
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std::string chm_key = std::string(ST_CHANNEL_MULTIPLIER) + "." + kv1.second;
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found->second.scale = static_cast<float_t>(obs_data_get_double(settings, chm_key.c_str()));
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_precalc.scale.ptr[static_cast<size_t>(kv1.first)] = found->second.scale;
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vec4* ch = &_precalc.matrix.x;
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switch (kv1.first) {
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case channel::Red:
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ch = &_precalc.matrix.x;
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break;
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case channel::Green:
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ch = &_precalc.matrix.y;
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break;
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case channel::Blue:
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ch = &_precalc.matrix.z;
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break;
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case channel::Alpha:
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ch = &_precalc.matrix.t;
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break;
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default:
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break;
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}
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for (auto kv2 : channel_translations) {
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std::string ab_key = std::string(ST_CHANNEL_INPUT) + "." + kv1.second + "." + kv2.second;
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found->second.values.ptr[static_cast<size_t>(kv2.first)] =
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static_cast<float_t>(obs_data_get_double(settings, ab_key.c_str()));
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ch->ptr[static_cast<size_t>(kv2.first)] = found->second.values.ptr[static_cast<size_t>(kv2.first)];
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}
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}
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}
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void dynamic_mask_instance::save(obs_data_t* settings)
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{
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if (_input) {
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obs_data_set_string(settings, ST_INPUT, obs_source_get_name(_input->get()));
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}
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for (auto kv1 : channel_translations) {
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auto found = _channels.find(kv1.first);
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if (found == _channels.end()) {
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_channels.insert({kv1.first, channel_data()});
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found = _channels.find(kv1.first);
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if (found == _channels.end()) {
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assert(found != _channels.end());
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throw std::runtime_error("Unable to insert element into data _store.");
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}
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}
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std::string chv_key = std::string(ST_CHANNEL_VALUE) + "." + kv1.second;
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obs_data_set_double(settings, chv_key.c_str(), static_cast<double_t>(found->second.value));
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std::string chm_key = std::string(ST_CHANNEL_MULTIPLIER) + "." + kv1.second;
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obs_data_set_double(settings, chm_key.c_str(), static_cast<double_t>(found->second.scale));
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for (auto kv2 : channel_translations) {
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std::string ab_key = std::string(ST_CHANNEL_INPUT) + "." + kv1.second + "." + kv2.second;
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obs_data_set_double(settings, ab_key.c_str(),
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static_cast<double_t>(found->second.values.ptr[static_cast<size_t>(kv2.first)]));
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}
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}
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}
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void dynamic_mask_instance::input_renamed(obs::deprecated_source*, std::string old_name, std::string new_name)
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{
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obs_data_t* settings = obs_source_get_settings(_self);
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obs_data_set_string(settings, ST_INPUT, new_name.c_str());
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obs_source_update(_self, settings);
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}
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void dynamic_mask_instance::video_tick(float)
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{
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_have_input_texture = false;
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_have_filter_texture = false;
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_have_final_texture = false;
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}
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void dynamic_mask_instance::video_render(gs_effect_t* in_effect)
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{
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obs_source_t* parent = obs_filter_get_parent(_self);
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obs_source_t* target = obs_filter_get_target(_self);
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std::uint32_t width = obs_source_get_base_width(target);
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std::uint32_t height = obs_source_get_base_height(target);
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if (!_self || !parent || !target || !width || !height || !_input || !_input_capture || !_effect) {
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obs_source_skip_video_filter(_self);
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return;
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} else if (!_input->width() || !_input->height()) {
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obs_source_skip_video_filter(_self);
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return;
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}
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#ifdef ENABLE_PROFILING
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gs::debug_marker gdmp{gs::debug_color_source, "Dynamic Mask '%s' on '%s'", obs_source_get_name(_self),
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obs_source_get_name(obs_filter_get_parent(_self))};
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#endif
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gs_effect_t* default_effect = obs_get_base_effect(obs_base_effect::OBS_EFFECT_DEFAULT);
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try { // Capture filter and input
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if (!_have_filter_texture) {
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#ifdef ENABLE_PROFILING
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gs::debug_marker gdm{gs::debug_color_cache, "Cache"};
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#endif
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if (obs_source_process_filter_begin(_self, GS_RGBA, OBS_ALLOW_DIRECT_RENDERING)) {
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auto op = _filter_rt->render(width, height);
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gs_blend_state_push();
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gs_reset_blend_state();
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gs_enable_blending(false);
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gs_blend_function(GS_BLEND_ONE, GS_BLEND_ZERO);
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gs_set_cull_mode(GS_NEITHER);
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gs_enable_color(true, true, true, true);
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gs_enable_depth_test(false);
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gs_depth_function(GS_ALWAYS);
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gs_enable_stencil_test(false);
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gs_enable_stencil_write(false);
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gs_stencil_function(GS_STENCIL_BOTH, GS_ALWAYS);
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gs_stencil_op(GS_STENCIL_BOTH, GS_KEEP, GS_KEEP, GS_KEEP);
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gs_ortho(0, (float)width, 0, (float)height, -1., 1.);
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obs_source_process_filter_end(_self, default_effect, width, height);
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gs_blend_state_pop();
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} else {
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throw std::runtime_error("Failed to render filter.");
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}
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_filter_texture = _filter_rt->get_texture();
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_have_filter_texture = true;
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}
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if (!_have_input_texture) {
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#ifdef ENABLE_PROFILING
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gs::debug_marker gdm{gs::debug_color_capture, "Capture '%s'",
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obs_source_get_name(_input_capture->get_object())};
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#endif
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_input_texture = _input_capture->render(_input->width(), _input->height());
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_have_input_texture = true;
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}
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// Draw source
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if (!_have_final_texture) {
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#ifdef ENABLE_PROFILING
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gs::debug_marker gdm{gs::debug_color_convert, "Masking"};
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#endif
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{
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auto op = _final_rt->render(width, height);
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gs_blend_state_push();
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gs_reset_blend_state();
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gs_enable_blending(false);
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gs_blend_function(GS_BLEND_ONE, GS_BLEND_ZERO);
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gs_set_cull_mode(GS_NEITHER);
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gs_enable_color(true, true, true, true);
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gs_enable_depth_test(false);
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gs_depth_function(GS_ALWAYS);
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gs_enable_stencil_test(false);
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gs_enable_stencil_write(false);
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gs_stencil_function(GS_STENCIL_BOTH, GS_ALWAYS);
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gs_stencil_op(GS_STENCIL_BOTH, GS_KEEP, GS_KEEP, GS_KEEP);
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gs_ortho(0, 1, 0, 1, -1., 1.);
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_effect.get_parameter("pMaskInputA").set_texture(_filter_texture);
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_effect.get_parameter("pMaskInputB").set_texture(_input_texture);
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_effect.get_parameter("pMaskBase").set_float4(_precalc.base);
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_effect.get_parameter("pMaskMatrix").set_matrix(_precalc.matrix);
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_effect.get_parameter("pMaskMultiplier").set_float4(_precalc.scale);
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while (gs_effect_loop(_effect.get(), "Mask")) {
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streamfx::gs_draw_fullscreen_tri();
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}
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gs_blend_state_pop();
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}
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_final_texture = _final_rt->get_texture();
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_have_final_texture = true;
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}
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} catch (...) {
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obs_source_skip_video_filter(_self);
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return;
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}
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if (!_have_filter_texture || !_have_input_texture || !_have_final_texture) {
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obs_source_skip_video_filter(_self);
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return;
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}
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if (!_filter_texture->get_object() || !_input_texture->get_object() || !_final_texture->get_object()) {
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obs_source_skip_video_filter(_self);
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return;
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}
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// Draw source
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{
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#ifdef ENABLE_PROFILING
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gs::debug_marker gdm{gs::debug_color_render, "Render"};
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#endif
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// It is important that we do not modify the blend state here, as it is set correctly by OBS
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gs_set_cull_mode(GS_NEITHER);
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gs_enable_color(true, true, true, true);
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gs_enable_depth_test(false);
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gs_depth_function(GS_ALWAYS);
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gs_enable_stencil_test(false);
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gs_enable_stencil_write(false);
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gs_stencil_function(GS_STENCIL_BOTH, GS_ALWAYS);
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gs_stencil_op(GS_STENCIL_BOTH, GS_ZERO, GS_ZERO, GS_ZERO);
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gs_effect_t* final_effect = in_effect ? in_effect : default_effect;
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gs_eparam_t* param = gs_effect_get_param_by_name(final_effect, "image");
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if (!param) {
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LOG_ERROR("<filter-dynamic-mask:%s> Failed to set image param.", obs_source_get_name(_self));
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obs_source_skip_video_filter(_self);
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return;
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} else {
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gs_effect_set_texture(param, _final_texture->get_object());
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}
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while (gs_effect_loop(final_effect, "Draw")) {
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gs_draw_sprite(0, 0, width, height);
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}
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}
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}
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dynamic_mask_factory::dynamic_mask_factory()
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{
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_info.id = PREFIX "filter-dynamic-mask";
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_info.type = OBS_SOURCE_TYPE_FILTER;
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_info.output_flags = OBS_SOURCE_VIDEO;
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set_resolution_enabled(false);
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finish_setup();
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register_proxy("obs-stream-effects-filter-dynamic-mask");
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}
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dynamic_mask_factory::~dynamic_mask_factory() {}
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const char* dynamic_mask_factory::get_name()
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{
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return D_TRANSLATE(ST);
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}
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void dynamic_mask_factory::get_defaults2(obs_data_t* data)
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{
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obs_data_set_default_int(data, ST_CHANNEL, static_cast<int64_t>(channel::Red));
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for (auto kv : channel_translations) {
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obs_data_set_default_double(data, (std::string(ST_CHANNEL_VALUE) + "." + kv.second).c_str(), 1.0);
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obs_data_set_default_double(data, (std::string(ST_CHANNEL_MULTIPLIER) + "." + kv.second).c_str(), 1.0);
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for (auto kv2 : channel_translations) {
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obs_data_set_default_double(
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data, (std::string(ST_CHANNEL_INPUT) + "." + kv.second + "." + kv2.second).c_str(), 0.0);
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}
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}
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}
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obs_properties_t* dynamic_mask_factory::get_properties2(dynamic_mask_instance* data)
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{
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obs_properties_t* props = obs_properties_create();
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obs_property_t* p;
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_translation_cache.clear();
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{ // Input
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p = obs_properties_add_list(props, ST_INPUT, D_TRANSLATE(ST_INPUT), OBS_COMBO_TYPE_LIST,
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OBS_COMBO_FORMAT_STRING);
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obs_property_set_long_description(p, D_TRANSLATE(D_DESC(ST_INPUT)));
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obs_property_list_add_string(p, "", "");
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obs::source_tracker::get()->enumerate(
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[&p](std::string name, obs_source_t*) {
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std::stringstream sstr;
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sstr << name << " (" << D_TRANSLATE(S_SOURCETYPE_SOURCE) << ")";
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obs_property_list_add_string(p, sstr.str().c_str(), name.c_str());
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return false;
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},
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obs::source_tracker::filter_video_sources);
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obs::source_tracker::get()->enumerate(
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[&p](std::string name, obs_source_t*) {
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std::stringstream sstr;
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sstr << name << " (" << D_TRANSLATE(S_SOURCETYPE_SCENE) << ")";
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obs_property_list_add_string(p, sstr.str().c_str(), name.c_str());
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return false;
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},
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obs::source_tracker::filter_scenes);
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}
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const char* pri_chs[] = {S_CHANNEL_RED, S_CHANNEL_GREEN, S_CHANNEL_BLUE, S_CHANNEL_ALPHA};
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for (auto pri_ch : pri_chs) {
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auto grp = obs_properties_create();
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{
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_translation_cache.push_back(translate_string(D_TRANSLATE(ST_CHANNEL_VALUE), D_TRANSLATE(pri_ch)));
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std::string buf = std::string(ST_CHANNEL_VALUE) + "." + pri_ch;
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p = obs_properties_add_float_slider(grp, buf.c_str(), _translation_cache.back().c_str(), -100.0, 100.0,
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0.01);
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_translation_cache.push_back(translate_string(D_TRANSLATE(D_DESC(ST_CHANNEL_VALUE)), D_TRANSLATE(pri_ch),
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D_TRANSLATE(pri_ch), D_TRANSLATE(pri_ch), D_TRANSLATE(pri_ch),
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D_TRANSLATE(pri_ch), D_TRANSLATE(pri_ch), D_TRANSLATE(pri_ch),
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D_TRANSLATE(pri_ch)));
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obs_property_set_long_description(p, _translation_cache.back().c_str());
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}
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const char* sec_chs[] = {S_CHANNEL_RED, S_CHANNEL_GREEN, S_CHANNEL_BLUE, S_CHANNEL_ALPHA};
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for (auto sec_ch : sec_chs) {
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_translation_cache.push_back(translate_string(D_TRANSLATE(ST_CHANNEL_INPUT), D_TRANSLATE(sec_ch)));
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std::string buf = std::string(ST_CHANNEL_INPUT) + "." + pri_ch + "." + sec_ch;
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p = obs_properties_add_float_slider(grp, buf.c_str(), _translation_cache.back().c_str(), -100.0, 100.0,
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0.01);
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_translation_cache.push_back(translate_string(D_TRANSLATE(D_DESC(ST_CHANNEL_INPUT)), D_TRANSLATE(sec_ch),
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D_TRANSLATE(pri_ch), D_TRANSLATE(sec_ch), D_TRANSLATE(pri_ch),
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D_TRANSLATE(pri_ch), D_TRANSLATE(pri_ch), D_TRANSLATE(pri_ch),
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D_TRANSLATE(pri_ch), D_TRANSLATE(pri_ch)));
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obs_property_set_long_description(p, _translation_cache.back().c_str());
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}
|
|
|
|
{
|
|
_translation_cache.push_back(translate_string(D_TRANSLATE(ST_CHANNEL_MULTIPLIER), D_TRANSLATE(pri_ch)));
|
|
std::string buf = std::string(ST_CHANNEL_MULTIPLIER) + "." + pri_ch;
|
|
p = obs_properties_add_float_slider(grp, buf.c_str(), _translation_cache.back().c_str(), -100.0, 100.0,
|
|
0.01);
|
|
_translation_cache.push_back(translate_string(D_TRANSLATE(D_DESC(ST_CHANNEL_MULTIPLIER)),
|
|
D_TRANSLATE(pri_ch), D_TRANSLATE(pri_ch), D_TRANSLATE(pri_ch),
|
|
D_TRANSLATE(pri_ch), D_TRANSLATE(pri_ch), D_TRANSLATE(pri_ch),
|
|
D_TRANSLATE(pri_ch), D_TRANSLATE(pri_ch)));
|
|
obs_property_set_long_description(p, _translation_cache.back().c_str());
|
|
}
|
|
|
|
{
|
|
_translation_cache.push_back(translate_string(D_TRANSLATE(ST_CHANNEL), D_TRANSLATE(pri_ch)));
|
|
std::string buf = std::string(ST_CHANNEL) + "." + pri_ch;
|
|
obs_properties_add_group(props, buf.c_str(), _translation_cache.back().c_str(),
|
|
obs_group_type::OBS_GROUP_NORMAL, grp);
|
|
}
|
|
}
|
|
|
|
return props;
|
|
}
|
|
|
|
std::string dynamic_mask_factory::translate_string(const char* format, ...)
|
|
{
|
|
va_list vargs;
|
|
va_start(vargs, format);
|
|
std::vector<char> buffer(2048);
|
|
std::size_t len = static_cast<size_t>(vsnprintf(buffer.data(), buffer.size(), format, vargs));
|
|
va_end(vargs);
|
|
return std::string(buffer.data(), buffer.data() + len);
|
|
}
|
|
|
|
std::shared_ptr<dynamic_mask_factory> _filter_dynamic_mask_factory_instance = nullptr;
|
|
|
|
void streamfx::filter::dynamic_mask::dynamic_mask_factory::initialize()
|
|
{
|
|
if (!_filter_dynamic_mask_factory_instance)
|
|
_filter_dynamic_mask_factory_instance = std::make_shared<dynamic_mask_factory>();
|
|
}
|
|
|
|
void streamfx::filter::dynamic_mask::dynamic_mask_factory::finalize()
|
|
{
|
|
_filter_dynamic_mask_factory_instance.reset();
|
|
}
|
|
|
|
std::shared_ptr<dynamic_mask_factory> streamfx::filter::dynamic_mask::dynamic_mask_factory::get()
|
|
{
|
|
return _filter_dynamic_mask_factory_instance;
|
|
}
|