Files
luanti/src/client/shadows/dynamicshadowsrender.h
GefullteTaubenbrust2 d8f1daac25 Visual Effects Vol. 1 (#14610)
This PR adds a variety of effects to enhance the visual experience.

    "soft" clouds look
    Tinted shadows
    Crude water reflections (sky and sun) and waves
    Translucent foliage
    Node specular highlights
    Adjusted fog color (more saturated where the fog is lighter)
    Minor changes to volumetric lighting (crudely simulates the effect of depth)

Co-authored-by: sfan5 <sfan5@live.de>
2024-09-24 11:14:27 -07:00

181 lines
5.6 KiB
C++

/*
Minetest
Copyright (C) 2021 Liso <anlismon@gmail.com>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU Lesser General Public License as published by
the Free Software Foundation; either version 2.1 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 Lesser General Public License for more details.
You should have received a copy of the GNU Lesser 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.
*/
#pragma once
#include <string>
#include <vector>
#include <IrrlichtDevice.h>
#include "irrlichttypes_extrabloated.h"
#include "client/shadows/dynamicshadows.h"
class ShadowDepthShaderCB;
class shadowScreenQuad;
class shadowScreenQuadCB;
class IWritableShaderSource;
enum E_SHADOW_MODE : u8
{
ESM_RECEIVE = 0,
ESM_BOTH,
};
struct NodeToApply
{
NodeToApply(scene::ISceneNode *n,
E_SHADOW_MODE m = E_SHADOW_MODE::ESM_BOTH) :
node(n),
shadowMode(m){};
bool operator<(const NodeToApply &other) const { return node < other.node; };
scene::ISceneNode *node;
E_SHADOW_MODE shadowMode{E_SHADOW_MODE::ESM_BOTH};
bool dirty{false};
};
class ShadowRenderer
{
public:
static const int TEXTURE_LAYER_SHADOW = 3;
ShadowRenderer(IrrlichtDevice *device, Client *client);
~ShadowRenderer();
// Call before generating any shaders
// This is required because this class is initialized much later than all
// the shaders are dealt with.
static void preInit(IWritableShaderSource *shsrc);
void initialize();
/// Adds a directional light shadow map (Usually just one (the sun) except in
/// Tattoine ).
size_t addDirectionalLight();
DirectionalLight &getDirectionalLight(u32 index = 0);
size_t getDirectionalLightCount() const;
f32 getMaxShadowFar() const;
/// Adds a shadow to the scene node.
/// The shadow mode can be ESM_BOTH, or ESM_RECEIVE.
/// ESM_BOTH casts and receives shadows
/// ESM_RECEIVE only receives but does not cast shadows.
///
void addNodeToShadowList(scene::ISceneNode *node,
E_SHADOW_MODE shadowMode = ESM_BOTH);
void removeNodeFromShadowList(scene::ISceneNode *node);
void update(video::ITexture *outputTarget = nullptr);
void setForceUpdateShadowMap() { m_force_update_shadow_map = true; }
void drawDebug();
video::ITexture *get_texture()
{
return shadowMapTextureFinal;
}
bool is_active() const { return m_shadows_enabled && shadowMapTextureFinal != nullptr; }
void setTimeOfDay(float isDay) { m_time_day = isDay; };
void setShadowIntensity(float shadow_intensity);
void setShadowTint(video::SColor shadow_tint) { m_shadow_tint = shadow_tint; }
s32 getShadowSamples() const { return m_shadow_samples; }
float getShadowStrength() const { return m_shadows_enabled ? m_shadow_strength : 0.0f; }
video::SColor getShadowTint() const { return m_shadow_tint; }
float getTimeOfDay() const { return m_time_day; }
f32 getPerspectiveBiasXY() { return m_perspective_bias_xy; }
f32 getPerspectiveBiasZ() { return m_perspective_bias_z; }
private:
video::ITexture *getSMTexture(const std::string &shadow_map_name,
video::ECOLOR_FORMAT texture_format,
bool force_creation = false);
void renderShadowMap(video::ITexture *target, DirectionalLight &light,
scene::E_SCENE_NODE_RENDER_PASS pass =
scene::ESNRP_SOLID);
void renderShadowObjects(video::ITexture *target, DirectionalLight &light);
void mixShadowsQuad();
void updateSMTextures();
void disable();
void enable() { m_shadows_enabled = m_shadows_supported; }
// a bunch of variables
scene::ISceneManager *m_smgr{nullptr};
video::IVideoDriver *m_driver{nullptr};
Client *m_client{nullptr};
video::ITexture *shadowMapClientMap{nullptr};
video::ITexture *shadowMapClientMapFuture{nullptr};
video::ITexture *shadowMapTextureFinal{nullptr};
video::ITexture *shadowMapTextureDynamicObjects{nullptr};
video::ITexture *shadowMapTextureColors{nullptr};
std::vector<DirectionalLight> m_light_list;
std::vector<NodeToApply> m_shadow_node_array;
float m_shadow_strength;
video::SColor m_shadow_tint{ 255, 0, 0, 0 };
float m_shadow_strength_gamma;
float m_shadow_map_max_distance;
float m_shadow_map_texture_size;
float m_time_day{0.0f};
int m_shadow_samples;
bool m_shadow_map_texture_32bit;
bool m_shadows_enabled;
bool m_shadows_supported;
bool m_shadow_map_colored;
bool m_force_update_shadow_map;
u8 m_map_shadow_update_frames; /* Use this number of frames to update map shaodw */
u8 m_current_frame{0}; /* Current frame */
f32 m_perspective_bias_xy;
f32 m_perspective_bias_z;
video::ECOLOR_FORMAT m_texture_format{video::ECOLOR_FORMAT::ECF_R16F};
video::ECOLOR_FORMAT m_texture_format_color{video::ECOLOR_FORMAT::ECF_R16G16};
// Shadow Shader stuff
void createShaders();
std::string readShaderFile(const std::string &path);
s32 depth_shader{-1};
s32 depth_shader_entities{-1};
s32 depth_shader_trans{-1};
s32 mixcsm_shader{-1};
ShadowDepthShaderCB *m_shadow_depth_cb{nullptr};
ShadowDepthShaderCB *m_shadow_depth_entity_cb{nullptr};
ShadowDepthShaderCB *m_shadow_depth_trans_cb{nullptr};
shadowScreenQuad *m_screen_quad{nullptr};
shadowScreenQuadCB *m_shadow_mix_cb{nullptr};
};
/**
* @brief Create a shadow renderer if settings allow this.
*
* @param device Device to be used to render shadows.
* @param client Reference to the client context.
* @return A new ShadowRenderer instance or nullptr if shadows are disabled or not supported.
*/
ShadowRenderer *createShadowRenderer(IrrlichtDevice *device, Client *client);