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godot/tools/editor/plugins/baked_light_baker.h
Juan Linietsky 0fa94a9690 Build System Changes 
-=-=-=-=-=-=-=-=-=-=

Build System:
-Big clean up of SCons, changed how builds are done to a much cleaner method (check the Github Wiki for instructions).
-Deactivated BlackBerry10 (sorry), if no mantainer found (or BlackBerry does not send us a Passort ;), platform will be removed as we have no longer devices to test.

Engine:
-Removed deprecated object and scene format (was in there just for compatibility, not in use since a long time).
-Added ability to open scenes even if a node type was removed (will try to guess the closest type).
-Removed deprecated node types.
2014-10-07 01:31:49 -03:00

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#ifndef BAKED_LIGHT_BAKER_H
#define BAKED_LIGHT_BAKER_H
#include "scene/3d/baked_light_instance.h"
#include "scene/3d/light.h"
#include "scene/3d/mesh_instance.h"
#include "os/thread.h"
class BakedLightBaker {
public:
enum {
ATTENUATION_CURVE_LEN=256,
OCTANT_POOL_CHUNK=1000000
};
struct OctantLight {
double accum[8][3];
};
struct Octant {
bool leaf;
AABB aabb;
uint16_t texture_x;
uint16_t texture_y;
float normal_accum[8][3];
int parent;
union {
struct {
int next_leaf;
float offset[3];
int bake_neighbour;
bool first_neighbour;
OctantLight *light;
};
int children[8];
};
};
struct OctantHash {
int next;
uint32_t hash;
uint64_t value;
};
struct MeshTexture {
Vector<uint8_t> tex;
int tex_w,tex_h;
_FORCE_INLINE_ void get_color(const Vector2& p_uv,Color& ret) {
if (tex_w && tex_h) {
int x = Math::fast_ftoi(Math::fposmod(p_uv.x,1.0)*tex_w);
int y = Math::fast_ftoi(Math::fposmod(p_uv.y,1.0)*tex_w);
x=CLAMP(x,0,tex_w-1);
y=CLAMP(y,0,tex_h-1);
const uint8_t*ptr = &tex[(y*tex_w+x)*4];
ret.r*=ptr[0]/255.0;
ret.g*=ptr[1]/255.0;
ret.b*=ptr[2]/255.0;
ret.a*=ptr[3]/255.0;
}
}
};
struct Param {
Color color;
MeshTexture*tex;
_FORCE_INLINE_ Color get_color(const Vector2& p_uv) {
Color ret=color;
if (tex)
tex->get_color(p_uv,ret);
return ret;
}
};
struct MeshMaterial {
Param diffuse;
Param specular;
Param emission;
};
struct Triangle {
AABB aabb;
Vector3 vertices[3];
Vector2 uvs[3];
Vector2 bake_uvs[3];
Vector3 normals[3];
MeshMaterial *material;
int baked_texture;
_FORCE_INLINE_ Vector2 get_uv(const Vector3& p_pos) {
Vector3 v0 = vertices[1] - vertices[0];
Vector3 v1 = vertices[2] - vertices[0];
Vector3 v2 = p_pos - vertices[0];
float d00 = v0.dot( v0);
float d01 = v0.dot( v1);
float d11 = v1.dot( v1);
float d20 = v2.dot( v0);
float d21 = v2.dot( v1);
float denom = (d00 * d11 - d01 * d01);
if (denom==0)
return uvs[0];
float v = (d11 * d20 - d01 * d21) / denom;
float w = (d00 * d21 - d01 * d20) / denom;
float u = 1.0f - v - w;
return uvs[0]*u + uvs[1]*v + uvs[2]*w;
}
_FORCE_INLINE_ void get_uv_and_normal(const Vector3& p_pos,Vector2& r_uv,Vector3& r_normal) {
Vector3 v0 = vertices[1] - vertices[0];
Vector3 v1 = vertices[2] - vertices[0];
Vector3 v2 = p_pos - vertices[0];
float d00 = v0.dot( v0);
float d01 = v0.dot( v1);
float d11 = v1.dot( v1);
float d20 = v2.dot( v0);
float d21 = v2.dot( v1);
float denom = (d00 * d11 - d01 * d01);
if (denom==0) {
r_normal=normals[0];
r_uv=uvs[0];
return;
}
float v = (d11 * d20 - d01 * d21) / denom;
float w = (d00 * d21 - d01 * d20) / denom;
float u = 1.0f - v - w;
r_uv=uvs[0]*u + uvs[1]*v + uvs[2]*w;
r_normal=(normals[0]*u+normals[1]*v+normals[2]*w).normalized();
}
};
struct BVH {
AABB aabb;
Vector3 center;
Triangle *leaf;
BVH*children[2];
};
struct BVHCmpX {
bool operator()(const BVH* p_left, const BVH* p_right) const {
return p_left->center.x < p_right->center.x;
}
};
struct BVHCmpY {
bool operator()(const BVH* p_left, const BVH* p_right) const {
return p_left->center.y < p_right->center.y;
}
};
struct BVHCmpZ {
bool operator()(const BVH* p_left, const BVH* p_right) const {
return p_left->center.z < p_right->center.z;
}
};
struct BakeTexture {
Vector<uint8_t> data;
int width,height;
};
struct LightData {
VS::LightType type;
Vector3 pos;
Vector3 up;
Vector3 left;
Vector3 dir;
Color diffuse;
Color specular;
float energy;
float length;
int rays_thrown;
bool bake_shadow;
float radius;
float attenuation;
float spot_angle;
float darkening;
float spot_attenuation;
float area;
float constant;
bool bake_direct;
Vector<float> attenuation_table;
};
Vector<LightData> lights;
List<MeshMaterial> materials;
List<MeshTexture> textures;
AABB octree_aabb;
Vector<Octant> octant_pool;
int octant_pool_size;
BVH*bvh;
Vector<Triangle> triangles;
Vector<BakeTexture> baked_textures;
Transform base_inv;
int leaf_list;
int octree_depth;
int cell_count;
uint32_t *ray_stack;
uint32_t *octant_stack;
uint32_t *octantptr_stack;
Map<Vector3,Vector3> endpoint_normal;
Map<Vector3,uint64_t> endpoint_normal_bits;
BVH **bvh_stack;
float cell_size;
float plot_size; //multiplied by cell size
float octree_extra_margin;
int max_bounces;
uint64_t total_rays;
bool use_diffuse;
bool use_specular;
bool use_translucency;
int baked_octree_texture_w;
int baked_octree_texture_h;
int lattice_size;
float edge_damp;
float normal_damp;
bool paused;
bool baking;
Map<Ref<Material>,MeshMaterial*> mat_map;
Map<Ref<Texture>,MeshTexture*> tex_map;
MeshTexture* _get_mat_tex(const Ref<Texture>& p_tex);
void _add_mesh(const Ref<Mesh>& p_mesh,const Ref<Material>& p_mat_override,const Transform& p_xform,int p_baked_texture=-1);
void _parse_geometry(Node* p_node);
BVH* _parse_bvh(BVH** p_children,int p_size,int p_depth,int& max_depth);
void _make_bvh();
void _make_octree();
void _make_octree_texture();
void _octree_insert(int p_octant, Triangle* p_triangle, int p_depth);
_FORCE_INLINE_ void _plot_pixel_to_lightmap(int x, int y, int width, int height, uint8_t *image, const Vector3& p_pos,const Vector3& p_normal,double *p_norm_ptr,float mult,float gamma);
void _free_bvh(BVH* p_bvh);
void _fix_lights();
Ref<BakedLight> baked_light;
//void _plot_light(const Vector3& p_plot_pos,const AABB& p_plot_aabb,const Color& p_light,int p_octant=0);
void _plot_light(int p_light_index,const Vector3& p_plot_pos,const AABB& p_plot_aabb,const Color& p_light,const Plane& p_plane);
//void _plot_light_point(const Vector3& p_plot_pos, Octant *p_octant, const AABB& p_aabb,const Color& p_light);
float _throw_ray(int p_light_index,const Vector3& p_begin, const Vector3& p_end,float p_rest,const Color& p_light,float *p_att_curve,float p_att_pos,int p_att_curve_len,int p_bounces,bool p_first_bounce=false,bool p_only_dist=false);
float total_light_area;
uint64_t rays_at_snap_time;
uint64_t snap_time;
int rays_sec;
Thread *thread;
bool bake_thread_exit;
static void _bake_thread_func(void *arg);
void _start_thread();
void _stop_thread();
public:
void throw_rays(int p_amount);
double get_normalization(int p_light_idx) const;
void bake(const Ref<BakedLight>& p_light,Node *p_base);
bool is_baking();
void set_pause(bool p_pause);
bool is_paused();
int get_rays_sec() { return rays_sec; }
Error transfer_to_lightmaps();
void update_octree_image(DVector<uint8_t> &p_image);
Ref<BakedLight> get_baked_light() { return baked_light; }
void clear();
BakedLightBaker();
~BakedLightBaker();
};
#endif // BAKED_LIGHT_BAKER_H
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