paysages3d/lib_paysages/atmosphere/main.c

352 lines
10 KiB
C

#include "public.h"
#include "private.h"
#include <math.h>
#include <stdlib.h>
#include <string.h>
#include "../tools.h"
#include "../renderer.h"
#include "../lighting.h"
#include "../system.h"
#define MAX_SKYDOME_LIGHTS 100
typedef struct
{
Mutex* lock;
int nblights;
LightDefinition lights[MAX_SKYDOME_LIGHTS];
} AtmosphereRendererCache;
static int _inited = 0;
/******************** Definition ********************/
static void _validateDefinition(AtmosphereDefinition* definition)
{
UNUSED(definition);
}
static AtmosphereDefinition* _createDefinition()
{
AtmosphereDefinition* result;
/* TODO Find a better place for this */
if (!_inited)
{
_inited = 1;
brunetonInit();
}
result = malloc(sizeof(AtmosphereDefinition));
result->model = ATMOSPHERE_MODEL_PREETHAM;
result->daytime = 0.0;
result->sun_color = COLOR_BLACK;
result->sun_color.r = 1.0;
result->sun_color.g = 0.95;
result->sun_color.b = 0.9;
result->sun_color.a = 1.0;
result->sun_radius = 0.02;
result->sun_halo_size = 0.3;
result->sun_halo_profile = curveCreate();
curveQuickAddPoint(result->sun_halo_profile, 0.0, 1.0);
curveQuickAddPoint(result->sun_halo_profile, 0.1, 0.2);
curveQuickAddPoint(result->sun_halo_profile, 1.0, 0.0);
result->dome_lighting = 0.6;
result->humidity = 0.1;
_validateDefinition(result);
return result;
}
static void _deleteDefinition(AtmosphereDefinition* definition)
{
curveDelete(definition->sun_halo_profile);
free(definition);
}
static void _copyDefinition(AtmosphereDefinition* source, AtmosphereDefinition* destination)
{
destination->model = source->model;
destination->daytime = source->daytime;
destination->sun_color = source->sun_color;
destination->sun_radius = source->sun_radius;
destination->sun_halo_size = source->sun_halo_size;
destination->dome_lighting = source->dome_lighting;
destination->humidity = source->humidity;
curveCopy(source->sun_halo_profile, destination->sun_halo_profile);
_validateDefinition(destination);
}
static void _saveDefinition(PackStream* stream, AtmosphereDefinition* definition)
{
packWriteInt(stream, (int*)&definition->model);
packWriteDouble(stream, &definition->daytime);
colorSave(stream, &definition->sun_color);
packWriteDouble(stream, &definition->sun_radius);
packWriteDouble(stream, &definition->sun_halo_size);
curveSave(stream, definition->sun_halo_profile);
packWriteDouble(stream, &definition->dome_lighting);
packWriteDouble(stream, &definition->humidity);
}
static void _loadDefinition(PackStream* stream, AtmosphereDefinition* definition)
{
packReadInt(stream, (int*)&definition->model);
packReadDouble(stream, &definition->daytime);
colorLoad(stream, &definition->sun_color);
packReadDouble(stream, &definition->sun_radius);
packReadDouble(stream, &definition->sun_halo_size);
curveLoad(stream, definition->sun_halo_profile);
packReadDouble(stream, &definition->dome_lighting);
packReadDouble(stream, &definition->humidity);
_validateDefinition(definition);
}
StandardDefinition AtmosphereDefinitionClass = {
(FuncObjectCreate)_createDefinition,
(FuncObjectDelete)_deleteDefinition,
(FuncObjectCopy)_copyDefinition,
(FuncObjectValidate)_validateDefinition,
(FuncObjectSave)_saveDefinition,
(FuncObjectLoad)_loadDefinition
};
/******************** Binding ********************/
static Color _fakeApplyAerialPerspective(Renderer* renderer, Vector3 location, Color base)
{
UNUSED(renderer);
UNUSED(location);
return base;
}
static Color _fakeGetSkyColor(Renderer* renderer, Vector3 direction)
{
UNUSED(renderer);
UNUSED(direction);
return COLOR_WHITE;
}
static int _fakeGetSkydomeLights(Renderer* renderer, LightDefinition* lights, int max_lights)
{
UNUSED(renderer);
UNUSED(lights);
UNUSED(max_lights);
return 0;
}
static Color _getSkyColor(Renderer* renderer, Vector3 direction)
{
AtmosphereDefinition* definition;
double dist;
Vector3 sun_position;
Color sky_color, sun_color;
definition = renderer->atmosphere->definition;
sun_position = renderer->atmosphere->getSunDirection(renderer);
direction = v3Normalize(direction);
dist = v3Norm(v3Sub(direction, sun_position));
/* Get base scattering*/
switch (definition->model)
{
case ATMOSPHERE_MODEL_BRUNETON:
sky_color = brunetonGetSkyColor(definition, renderer->camera_location, direction, sun_position);
break;
case ATMOSPHERE_MODEL_PREETHAM:
sky_color = preethamGetSkyColor(definition, renderer->camera_location, direction, sun_position);
break;
default:
sky_color = COLOR_BLUE;
}
/* Get sun halo */
if (dist < definition->sun_radius + definition->sun_halo_size)
{
sun_color = definition->sun_color;
if (dist <= definition->sun_radius)
{
return sun_color;
}
else
{
dist = (dist - definition->sun_radius) / definition->sun_halo_size;
sun_color.a = curveGetValue(definition->sun_halo_profile, dist);
colorMask(&sky_color, &sun_color);
return sky_color;
}
}
else
{
return sky_color;
}
}
static Vector3 _getSunDirection(Renderer* renderer)
{
Vector3 result;
double sun_angle = (renderer->atmosphere->definition->daytime + 0.75) * M_PI * 2.0;
result.x = cos(sun_angle);
result.y = sin(sun_angle);
result.z = 0.0;
return result;
}
static inline void _addDomeLight(Renderer* renderer, LightDefinition* light, Vector3 direction, double factor)
{
light->direction = v3Scale(direction, -1.0);
light->color = renderer->atmosphere->getSkyColor(renderer, direction);
light->color.r *= factor;
light->color.g *= factor;
light->color.b *= factor;
light->reflection = 0.0;
light->filtered = 0;
light->masked = 0;
}
static int _getSkydomeLights(Renderer* renderer, LightDefinition* lights, int max_lights)
{
AtmosphereRendererCache* cache = (AtmosphereRendererCache*)renderer->atmosphere->_internal_data;
AtmosphereDefinition* definition;
double sun_angle;
Vector3 sun_direction;
int nblights = 0;
mutexAcquire(cache->lock);
if (cache->nblights < 0)
{
definition = renderer->atmosphere->definition;
sun_angle = (definition->daytime + 0.75) * M_PI * 2.0;
sun_direction.x = cos(sun_angle);
sun_direction.y = sin(sun_angle);
sun_direction.z = 0.0;
/* TODO Moon light */
if (max_lights > MAX_SKYDOME_LIGHTS)
{
max_lights = MAX_SKYDOME_LIGHTS;
}
if (max_lights > 0)
{
/* Direct light from the sun */
cache->lights[0].direction = v3Scale(sun_direction, -1.0);
cache->lights[0].color = definition->sun_color;
cache->lights[0].reflection = 1.0;
cache->lights[0].filtered = 1;
cache->lights[0].masked = 1;
nblights = 1;
max_lights--;
}
if (max_lights > 0)
{
/* Indirect lighting by skydome scattering */
int xsamples, ysamples, samples, x, y;
double xstep, ystep, factor;
Vector3 direction;
samples = (renderer->render_quality < 5) ? 9 : (renderer->render_quality * 4 + 1);
samples = samples > max_lights ? max_lights : samples;
factor = definition->dome_lighting / (double)samples;
_addDomeLight(renderer, cache->lights + nblights, VECTOR_UP, factor);
nblights++;
samples--;
if (samples >= 2)
{
xsamples = samples / 2;
ysamples = samples / xsamples;
xstep = M_PI * 2.0 / (double)xsamples;
ystep = M_PI * 0.5 / (double)ysamples;
for (x = 0; x < xsamples; x++)
{
for (y = 0; y < ysamples; y++)
{
direction.x = cos(x * xstep) * cos(y * ystep);
direction.y = -sin(y * ystep);
direction.z = sin(x * xstep) * cos(y * ystep);
_addDomeLight(renderer, cache->lights + nblights, direction, factor);
nblights++;
}
}
}
}
cache->nblights = nblights;
}
mutexRelease(cache->lock);
memcpy(lights, cache->lights, sizeof(LightDefinition) * cache->nblights);
return cache->nblights;
}
/******************** Renderer ********************/
static AtmosphereRenderer* _createRenderer()
{
AtmosphereRenderer* result;
AtmosphereRendererCache* cache;
result = malloc(sizeof(AtmosphereRenderer));
result->definition = AtmosphereDefinitionClass.create();
result->getSunDirection = _getSunDirection;
result->applyAerialPerspective = _fakeApplyAerialPerspective;
result->getSkydomeLights = _fakeGetSkydomeLights;
result->getSkyColor = _fakeGetSkyColor;
cache = malloc(sizeof(AtmosphereRendererCache));
cache->lock = mutexCreate();
cache->nblights = -1;
result->_internal_data = cache;
return result;
}
static void _deleteRenderer(AtmosphereRenderer* renderer)
{
AtmosphereRendererCache* cache = (AtmosphereRendererCache*)renderer->_internal_data;
mutexDestroy(cache->lock);
free(cache);
AtmosphereDefinitionClass.destroy(renderer->definition);
free(renderer);
}
static void _bindRenderer(AtmosphereRenderer* renderer, AtmosphereDefinition* definition)
{
AtmosphereRendererCache* cache = (AtmosphereRendererCache*)renderer->_internal_data;
AtmosphereDefinitionClass.copy(definition, renderer->definition);
renderer->getSkyColor = _getSkyColor;
renderer->getSkydomeLights = _getSkydomeLights;
switch (definition->model)
{
case ATMOSPHERE_MODEL_PREETHAM:
renderer->applyAerialPerspective = preethamApplyAerialPerspective;
break;
default:
renderer->applyAerialPerspective = _fakeApplyAerialPerspective;
}
mutexAcquire(cache->lock);
cache->nblights = -1;
mutexRelease(cache->lock);
}
StandardRenderer AtmosphereRendererClass = {
(FuncObjectCreate)_createRenderer,
(FuncObjectDelete)_deleteRenderer,
(FuncObjectBind)_bindRenderer
};