obs-StreamFX/source/gfx/shader/gfx-shader.cpp
2020-05-02 21:43:14 +02:00

552 lines
16 KiB
C++

// Modern effects for a modern Streamer
// Copyright (C) 2017 Michael Fabian Dirks
//
// This program 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 2 of the License, or
// (at your option) any later version.
//
// This program 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 this program; if not, write to the Free Software
// Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
#include "gfx-shader.hpp"
#include <algorithm>
#include <cstdio>
#include <cstring>
#include "obs/obs-tools.hpp"
#include "plugin.hpp"
#define ST "Shader"
#define ST_REFRESH ST ".Refresh"
#define ST_SHADER ST ".Shader"
#define ST_SHADER_FILE ST_SHADER ".File"
#define ST_SHADER_TECHNIQUE ST_SHADER ".Technique"
#define ST_SHADER_SIZE ST_SHADER ".Size"
#define ST_SHADER_SIZE_WIDTH ST_SHADER_SIZE ".Width"
#define ST_SHADER_SIZE_HEIGHT ST_SHADER_SIZE ".Height"
#define ST_PARAMETERS ST ".Parameters"
gfx::shader::shader::shader(obs_source_t* self, shader_mode mode)
: _self(self), _mode(mode), _base_width(1), _base_height(1),
_shader(), _shader_file(), _shader_tech("Draw"), _shader_file_mt(), _shader_file_sz(), _shader_file_tick(0),
_width_type(size_type::Percent), _width_value(1.0), _height_type(size_type::Percent), _height_value(1.0),
_time(0), _time_loop(0), _loops(0), _random(), _have_current_params(false),
_rt_up_to_date(false), _rt(std::make_shared<gs::rendertarget>(GS_RGBA, GS_ZS_NONE))
{
_random.seed(static_cast<unsigned long long>(time(NULL)));
}
gfx::shader::shader::~shader() {}
bool gfx::shader::shader::is_shader_different(const std::filesystem::path& file)
try {
if (std::filesystem::exists(file)) {
// Check if the file name differs.
if (file != _shader_file)
return true;
}
if (std::filesystem::exists(_shader_file)) {
// Is the file write time different?
if (std::filesystem::last_write_time(_shader_file) != _shader_file_mt)
return true;
// Is the file size different?
if (std::filesystem::file_size(_shader_file) != _shader_file_sz)
return true;
}
return false;
} catch (const std::exception& ex) {
LOG_ERROR("Loading shader '%s' failed with error: %s", file.c_str(), ex.what());
return false;
}
bool gfx::shader::shader::is_technique_different(const std::string& tech)
{
// Is the technique different?
if (tech != _shader_tech)
return true;
return false;
}
bool gfx::shader::shader::load_shader(const std::filesystem::path& file, const std::string& tech, bool& shader_dirty,
bool& param_dirty)
try {
if (!std::filesystem::exists(file))
return false;
shader_dirty = is_shader_different(file);
param_dirty = is_technique_different(tech) || shader_dirty;
// Update Shader
if (shader_dirty) {
_shader = gs::effect(file);
_shader_file_mt = std::filesystem::last_write_time(file);
_shader_file_sz = std::filesystem::file_size(file);
_shader_file = file;
_shader_file_tick = 0;
}
// Update Params
if (param_dirty) {
auto settings =
std::shared_ptr<obs_data_t>(obs_source_get_settings(_self), [](obs_data_t* p) { obs_data_release(p); });
bool have_valid_tech = false;
for (std::size_t idx = 0; idx < _shader.count_techniques(); idx++) {
if (_shader.get_technique(idx).name() == tech) {
have_valid_tech = true;
break;
}
}
if (have_valid_tech) {
_shader_tech = tech;
} else {
_shader_tech = _shader.get_technique(0).name();
// Update source data.
obs_data_set_string(settings.get(), ST_SHADER_TECHNIQUE, _shader_tech.c_str());
}
// Clear the shader parameters map and rebuild.
_shader_params.clear();
auto etech = _shader.get_technique(_shader_tech);
for (std::size_t idx = 0; idx < etech.count_passes(); idx++) {
auto pass = etech.get_pass(idx);
for (std::size_t vidx = 0; vidx < pass.count_vertex_parameters(); vidx++) {
auto el = pass.get_vertex_parameter(vidx);
if (!el)
continue;
auto fnd = _shader_params.find(el.get_name());
if (fnd != _shader_params.end())
continue;
auto param = gfx::shader::parameter::make_parameter(el, ST_PARAMETERS);
if (param) {
_shader_params.insert_or_assign(el.get_name(), param);
param->defaults(settings.get());
param->update(settings.get());
}
}
for (std::size_t vidx = 0; vidx < pass.count_pixel_parameters(); vidx++) {
auto el = pass.get_pixel_parameter(vidx);
if (!el)
continue;
auto fnd = _shader_params.find(el.get_name());
if (fnd != _shader_params.end())
continue;
auto param = gfx::shader::parameter::make_parameter(el, ST_PARAMETERS);
if (param) {
_shader_params.insert_or_assign(el.get_name(), param);
param->defaults(settings.get());
param->update(settings.get());
}
}
}
}
return true;
} catch (const std::exception& ex) {
LOG_ERROR("Loading shader '%s' failed with error: %s", file.c_str(), ex.what());
return false;
} catch (...) {
return false;
}
void gfx::shader::shader::defaults(obs_data_t* data)
{
obs_data_set_default_string(data, ST_SHADER_FILE, "");
obs_data_set_default_string(data, ST_SHADER_TECHNIQUE, "");
obs_data_set_default_string(data, ST_SHADER_SIZE_WIDTH, "100.0 %");
obs_data_set_default_string(data, ST_SHADER_SIZE_HEIGHT, "100.0 %");
}
void gfx::shader::shader::properties(obs_properties_t* pr)
{
_have_current_params = false;
{
obs_properties_add_button2(
pr, ST_REFRESH, D_TRANSLATE(ST_REFRESH),
[](obs_properties_t* props, obs_property_t* prop, void* priv) {
return reinterpret_cast<gfx::shader::shader*>(priv)->on_refresh_properties(props, prop);
},
this);
}
{
auto grp = obs_properties_create();
obs_properties_add_group(pr, ST_SHADER, D_TRANSLATE(ST_SHADER), OBS_GROUP_NORMAL, grp);
{
std::string path = "";
if (_shader_file.has_parent_path()) {
path = _shader_file.parent_path().string();
} else {
char* vp = obs_module_file("examples");
path = vp;
bfree(vp);
}
auto p = obs_properties_add_path(grp, ST_SHADER_FILE, D_TRANSLATE(ST_SHADER_FILE), OBS_PATH_FILE, "*.*",
path.c_str());
obs_property_set_long_description(p, D_TRANSLATE(D_DESC(ST_SHADER_FILE)));
/*obs_property_set_modified_callback2(
p,
[](void* priv, obs_properties_t* props, obs_property_t* prop, obs_data_t* data) noexcept {
return reinterpret_cast<gfx::shader::shader*>(priv)->on_shader_or_technique_modified(props, prop, data);
},
this);*/
}
{
auto p = obs_properties_add_list(grp, ST_SHADER_TECHNIQUE, D_TRANSLATE(ST_SHADER_TECHNIQUE),
OBS_COMBO_TYPE_LIST, OBS_COMBO_FORMAT_STRING);
obs_property_set_long_description(p, D_TRANSLATE(D_DESC(ST_SHADER_TECHNIQUE)));
/*obs_property_set_modified_callback2(
p,
[](void* priv, obs_properties_t* props, obs_property_t* prop, obs_data_t* data) noexcept {
return reinterpret_cast<gfx::shader::shader*>(priv)->on_shader_or_technique_modified(props, prop, data);
},
this);*/
}
if (_mode != shader_mode::Transition) {
auto grp2 = obs_properties_create();
obs_properties_add_group(grp, ST_SHADER_SIZE, D_TRANSLATE(ST_SHADER_SIZE), OBS_GROUP_NORMAL, grp2);
{
auto p = obs_properties_add_text(grp2, ST_SHADER_SIZE_WIDTH, D_TRANSLATE(ST_SHADER_SIZE_WIDTH),
OBS_TEXT_DEFAULT);
obs_property_set_long_description(p, D_TRANSLATE(D_DESC(ST_SHADER_SIZE)));
}
{
auto p = obs_properties_add_text(grp2, ST_SHADER_SIZE_HEIGHT, D_TRANSLATE(ST_SHADER_SIZE_HEIGHT),
OBS_TEXT_DEFAULT);
obs_property_set_long_description(p, D_TRANSLATE(D_DESC(ST_SHADER_SIZE)));
}
}
}
{
auto grp = obs_properties_create();
obs_properties_add_group(pr, ST_PARAMETERS, D_TRANSLATE(ST_PARAMETERS), OBS_GROUP_NORMAL, grp);
}
// Manually call the refresh.
on_refresh_properties(pr, nullptr);
}
bool gfx::shader::shader::on_refresh_properties(obs_properties_t* props, obs_property_t* prop)
{
if (_shader) { // Clear list of techniques and rebuild it.
obs_property_t* p_tech_list = obs_properties_get(props, ST_SHADER_TECHNIQUE);
obs_property_list_clear(p_tech_list);
for (std::size_t idx = 0; idx < _shader.count_techniques(); idx++) {
auto tech = _shader.get_technique(idx);
obs_property_list_add_string(p_tech_list, tech.name().c_str(), tech.name().c_str());
}
}
{ // Clear parameter options.
auto grp = obs_property_group_content(obs_properties_get(props, ST_PARAMETERS));
for (auto p = obs_properties_first(grp); p != nullptr; p = obs_properties_first(grp)) {
obs::tools::obs_properties_remove_by_name(grp, obs_property_name(p));
}
// Rebuild new parameters.
obs_data_t* data = obs_source_get_settings(_self);
for (auto kv : _shader_params) {
kv.second->properties(grp, data);
kv.second->defaults(data);
kv.second->update(data);
}
obs_source_update(_self, data);
}
return true;
}
bool gfx::shader::shader::on_shader_or_technique_modified(obs_properties_t* props, obs_property_t* prop,
obs_data_t* data)
{
bool shader_dirty = false;
bool param_dirty = false;
if (!update_shader(data, shader_dirty, param_dirty))
return false;
{ // Clear list of techniques and rebuild it.
obs_property_t* p_tech_list = obs_properties_get(props, ST_SHADER_TECHNIQUE);
obs_property_list_clear(p_tech_list);
for (std::size_t idx = 0; idx < _shader.count_techniques(); idx++) {
auto tech = _shader.get_technique(idx);
obs_property_list_add_string(p_tech_list, tech.name().c_str(), tech.name().c_str());
}
}
if (param_dirty || !_have_current_params) {
// Clear parameter options.
auto grp = obs_property_group_content(obs_properties_get(props, ST_PARAMETERS));
for (auto p = obs_properties_first(grp); p != nullptr; p = obs_properties_first(grp)) {
obs::tools::obs_properties_remove_by_name(grp, obs_property_name(p));
}
// Rebuild new parameters.
for (auto kv : _shader_params) {
kv.second->properties(grp, data);
kv.second->defaults(data);
kv.second->update(data);
}
}
_have_current_params = true;
return shader_dirty || param_dirty || !_have_current_params;
}
bool gfx::shader::shader::update_shader(obs_data_t* data, bool& shader_dirty, bool& param_dirty)
{
const char* file_c = obs_data_get_string(data, ST_SHADER_FILE);
std::string file = file_c ? file_c : "";
const char* tech_c = obs_data_get_string(data, ST_SHADER_TECHNIQUE);
std::string tech = tech_c ? tech_c : "Draw";
return load_shader(file, tech, shader_dirty, param_dirty);
}
inline std::pair<gfx::shader::size_type, double_t> parse_text_as_size(const char* text)
{
double_t v = 0;
if (sscanf(text, "%lf", &v) == 1) {
const char* prc_chr = strrchr(text, '%');
if (prc_chr && (*prc_chr == '%')) {
return {gfx::shader::size_type::Percent, v / 100.0};
} else {
return {gfx::shader::size_type::Pixel, v};
}
} else {
return {gfx::shader::size_type::Percent, 1.0};
}
}
void gfx::shader::shader::update(obs_data_t* data)
{
bool v1, v2;
update_shader(data, v1, v2);
{
auto sz_x = parse_text_as_size(obs_data_get_string(data, ST_SHADER_SIZE_WIDTH));
_width_type = sz_x.first;
_width_value = std::clamp(sz_x.second, 0.01, 8192.0);
auto sz_y = parse_text_as_size(obs_data_get_string(data, ST_SHADER_SIZE_HEIGHT));
_height_type = sz_y.first;
_height_value = std::clamp(sz_y.second, 0.01, 8192.0);
}
for (auto kv : _shader_params) {
kv.second->update(data);
}
}
std::uint32_t gfx::shader::shader::width()
{
switch (_mode) {
case shader_mode::Transition:
return _base_width;
case shader_mode::Source:
switch (_width_type) {
case size_type::Pixel:
return std::clamp(static_cast<uint32_t>(_width_value), 1u, 8192u);
case size_type::Percent:
return std::clamp(static_cast<uint32_t>(_width_value * _base_width), 1u, 8192u);
}
case shader_mode::Filter:
switch (_width_type) {
case size_type::Pixel:
return std::clamp(static_cast<uint32_t>(_width_value), 1u, 8192u);
case size_type::Percent:
return std::clamp(static_cast<uint32_t>(_width_value * _base_width), 1u, 8192u);
}
default:
return 0;
}
}
std::uint32_t gfx::shader::shader::height()
{
switch (_mode) {
case shader_mode::Transition:
return _base_height;
case shader_mode::Source:
switch (_height_type) {
case size_type::Pixel:
return std::clamp(static_cast<uint32_t>(_height_value), 1u, 8192u);
case size_type::Percent:
return std::clamp(static_cast<uint32_t>(_height_value * _base_height), 1u, 8192u);
}
case shader_mode::Filter:
switch (_height_type) {
case size_type::Pixel:
return std::clamp(static_cast<uint32_t>(_height_value), 1u, 8192u);
case size_type::Percent:
return std::clamp(static_cast<uint32_t>(_height_value * _base_height), 1u, 8192u);
}
default:
return 0;
}
}
bool gfx::shader::shader::tick(float_t time)
{
_shader_file_tick = static_cast<float_t>(static_cast<double_t>(_shader_file_tick) + static_cast<double_t>(time));
if (_shader_file_tick >= 1.0f / 3.0f) {
_shader_file_tick -= 1.0f / 3.0f;
bool v1, v2;
load_shader(_shader_file, _shader_tech, v1, v2);
}
// Update State
_time += time;
_time_loop += time;
if (_time_loop > 1.) {
_time_loop -= 1.;
// Loops
_loops += 1;
if (_loops >= 4194304)
_loops = -_loops;
}
return false;
}
void gfx::shader::shader::prepare_render()
{
if (!_shader)
return;
for (auto kv : _shader_params) {
kv.second->assign();
}
// Time: (Current Time), (Zero), (Zero), (Random Value)
if (gs::effect_parameter el = _shader.get_parameter("Time"); el != nullptr) {
if (el.get_type() == gs::effect_parameter::type::Float4) {
el.set_float4(
_time, _time_loop, static_cast<float_t>(_loops),
static_cast<float_t>(static_cast<double_t>(_random())
/ static_cast<double_t>(std::numeric_limits<unsigned long long>::max())));
}
}
// ViewSize: (Width), (Height), (1.0 / Width), (1.0 / Height)
if (auto el = _shader.get_parameter("ViewSize"); el != nullptr) {
if (el.get_type() == gs::effect_parameter::type::Float4) {
el.set_float4(static_cast<float_t>(width()), static_cast<float_t>(height()),
1.0f / static_cast<float_t>(width()), 1.0f / static_cast<float_t>(height()));
}
}
_rt_up_to_date = false;
}
void gfx::shader::shader::render()
{
if (!_shader)
return;
if (!_rt_up_to_date) {
auto op = _rt->render(width(), height());
vec4 zero = {0, 0, 0, 0};
gs_ortho(0, 1, 0, 1, 0, 1);
gs_clear(GS_CLEAR_COLOR, &zero, 0, 0);
gs_blend_state_push();
gs_reset_blend_state();
gs_enable_blending(true);
gs_blend_function_separate(GS_BLEND_ONE, GS_BLEND_ZERO, GS_BLEND_ONE, GS_BLEND_ZERO);
gs_enable_color(true, true, true, true);
while (gs_effect_loop(_shader.get_object(), _shader_tech.c_str())) {
streamfx::gs_draw_fullscreen_tri();
}
gs_blend_state_pop();
}
gs_effect_set_texture(gs_effect_get_param_by_name(obs_get_base_effect(OBS_EFFECT_DEFAULT), "image"),
_rt->get_texture()->get_object());
while (gs_effect_loop(obs_get_base_effect(OBS_EFFECT_DEFAULT), "Draw")) {
gs_draw_sprite(nullptr, 0, width(), height());
}
}
void gfx::shader::shader::set_size(std::uint32_t w, std::uint32_t h)
{
_base_width = w;
_base_height = h;
}
void gfx::shader::shader::set_input_a(std::shared_ptr<gs::texture> tex)
{
if (!_shader)
return;
if (gs::effect_parameter el = _shader.get_parameter("InputA"); el != nullptr) {
if (el.get_type() == gs::effect_parameter::type::Texture) {
el.set_texture(tex);
}
}
}
void gfx::shader::shader::set_input_b(std::shared_ptr<gs::texture> tex)
{
if (!_shader)
return;
if (gs::effect_parameter el = _shader.get_parameter("InputB"); el != nullptr) {
if (el.get_type() == gs::effect_parameter::type::Texture) {
el.set_texture(tex);
}
}
}
void gfx::shader::shader::set_transition_time(float_t t)
{
if (!_shader)
return;
if (gs::effect_parameter el = _shader.get_parameter("TransitionTime"); el != nullptr) {
if (el.get_type() == gs::effect_parameter::type::Float) {
el.set_float(t);
}
}
}
void gfx::shader::shader::set_transition_size(std::uint32_t w, std::uint32_t h)
{
if (!_shader)
return;
if (gs::effect_parameter el = _shader.get_parameter("TransitionSize"); el != nullptr) {
if (el.get_type() == gs::effect_parameter::type::Integer2) {
el.set_int2(static_cast<int32_t>(w), static_cast<int32_t>(h));
}
}
}