228 lines
7.6 KiB
C++
228 lines
7.6 KiB
C++
#include "CloudBasicLayerRenderer.h"
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#include "CloudLayerDefinition.h"
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#include "SoftwareRenderer.h"
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#include "NoiseGenerator.h"
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#include "Curve.h"
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#include "AtmosphereRenderer.h"
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#include "clouds/BaseCloudsModel.h"
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#include "SurfaceMaterial.h"
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typedef struct
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{
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Vector3 start;
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Vector3 end;
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double length;
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} CloudSegment;
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CloudBasicLayerRenderer::CloudBasicLayerRenderer(SoftwareRenderer* parent):
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BaseCloudLayerRenderer(parent)
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{
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}
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static inline double _getDistanceToBorder(BaseCloudsModel* model, Vector3 position)
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{
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return model->getDensity(position);
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}
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/**
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* Go through the cloud layer to find segments (parts of the lookup that are inside the cloud).
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*
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* @param definition The cloud layer
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* @param renderer The renderer environment
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* @param start Start position of the lookup (already optimized)
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* @param direction Normalized direction of the lookup
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* @param detail Level of noise detail required
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* @param max_segments Maximum number of segments to collect
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* @param max_inside_length Maximum length to spend inside the cloud
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* @param max_total_length Maximum lookup length
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* @param inside_length Resulting length inside cloud (sum of all segments length)
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* @param total_length Resulting lookup length
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* @param out_segments Allocated space to fill found segments
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* @return Number of segments found
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*/
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static int _findSegments(BaseCloudsModel* model, SoftwareRenderer* renderer, Vector3 start, Vector3 direction, double, int max_segments, double max_inside_length, double max_total_length, double* inside_length, double* total_length, CloudSegment* out_segments)
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{
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CloudLayerDefinition* layer = model->getLayer();
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int inside, segment_count;
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double current_total_length, current_inside_length;
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double step_length, segment_length, remaining_length;
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double noise_distance, last_noise_distance;
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Vector3 walker, step, segment_start;
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double render_precision;
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if (max_segments <= 0)
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{
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return 0;
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}
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render_precision = 15.2 - 1.5 * (double)renderer->render_quality;
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render_precision = render_precision * layer->scaling / 50.0;
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if (render_precision > max_total_length / 10.0)
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{
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render_precision = max_total_length / 10.0;
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}
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else if (render_precision < max_total_length / 2000.0)
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{
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render_precision = max_total_length / 2000.0;
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}
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segment_count = 0;
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current_total_length = 0.0;
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current_inside_length = 0.0;
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segment_length = 0.0;
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walker = start;
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noise_distance = _getDistanceToBorder(model, start) * render_precision;
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inside = (noise_distance > 0.0) ? 1 : 0;
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step = v3Scale(direction, render_precision);
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do
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{
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walker = v3Add(walker, step);
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step_length = v3Norm(step);
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last_noise_distance = noise_distance;
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noise_distance = _getDistanceToBorder(model, walker) * render_precision;
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current_total_length += step_length;
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if (noise_distance > 0.0)
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{
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if (inside)
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{
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// inside the cloud
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segment_length += step_length;
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current_inside_length += step_length;
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step = v3Scale(direction, (noise_distance < render_precision) ? render_precision : noise_distance);
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}
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else
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{
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// entering the cloud
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inside = 1;
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segment_length = step_length * noise_distance / (noise_distance - last_noise_distance);
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segment_start = v3Add(walker, v3Scale(direction, -segment_length));
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current_inside_length += segment_length;
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step = v3Scale(direction, render_precision);
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}
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}
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else
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{
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if (inside)
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{
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// exiting the cloud
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remaining_length = step_length * last_noise_distance / (last_noise_distance - noise_distance);
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segment_length += remaining_length;
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current_inside_length += remaining_length;
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out_segments->start = segment_start;
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out_segments->end = v3Add(walker, v3Scale(direction, remaining_length - step_length));
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out_segments->length = segment_length;
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out_segments++;
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if (++segment_count >= max_segments)
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{
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break;
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}
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inside = 0;
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step = v3Scale(direction, render_precision);
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}
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else
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{
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// searching for a cloud
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step = v3Scale(direction, (noise_distance > -render_precision) ? render_precision : -noise_distance);
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}
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}
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} while (inside || (walker.y >= layer->altitude - 0.001 && walker.y <= (layer->altitude + layer->scaling) + 0.001 && current_total_length < max_total_length && current_inside_length < max_inside_length));
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*total_length = current_total_length;
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*inside_length = current_inside_length;
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return segment_count;
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}
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Color CloudBasicLayerRenderer::getColor(BaseCloudsModel *model, const Vector3 &eye, const Vector3 &location)
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{
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CloudLayerDefinition* layer = model->getLayer();
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int i, segment_count;
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double max_length, detail, total_length, inside_length;
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Vector3 start, end, direction;
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Color result, col;
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CloudSegment segments[20];
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start = eye;
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end = location;
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if (!optimizeSearchLimits(model, &start, &end))
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{
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return COLOR_TRANSPARENT;
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}
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direction = end.sub(start);
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max_length = direction.getNorm();
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direction = direction.normalize();
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result = COLOR_TRANSPARENT;
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detail = parent->getPrecision(parent, start) / layer->scaling;
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double transparency_depth = layer->scaling * 0.5;
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segment_count = _findSegments(model, parent, start, direction, detail, 20, transparency_depth, max_length, &inside_length, &total_length, segments);
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for (i = segment_count - 1; i >= 0; i--)
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{
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SurfaceMaterial material;
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material.base = colorToHSL(Color(0.7, 0.7, 0.7));
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material.hardness = 0.25;
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material.reflection = 0.3;
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material.shininess = 0.8;
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materialValidate(&material);
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col = parent->applyLightingToSurface(parent, segments[i].start, parent->getAtmosphereRenderer()->getSunDirection(), &material);
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col.a = (segments[i].length >= transparency_depth) ? 1.0 : (segments[i].length / transparency_depth);
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colorMask(&result, &col);
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}
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if (inside_length >= transparency_depth)
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{
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result.a = 1.0;
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}
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double a = result.a;
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result = parent->getAtmosphereRenderer()->applyAerialPerspective(start, result).final;
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result.a = a;
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return result;
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}
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bool CloudBasicLayerRenderer::alterLight(BaseCloudsModel *model, LightDefinition* light, const Vector3 &, const Vector3 &location)
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{
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Vector3 start, end;
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double inside_depth, total_depth, factor;
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CloudSegment segments[20];
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start = location;
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end = location.add(light->direction.scale(10000.0));
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if (not optimizeSearchLimits(model, &start, &end))
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{
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return false;
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}
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double light_traversal = model->getLayer()->scaling * 8.0;
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_findSegments(model, parent, start, light->direction, 0.1, 20, light_traversal, end.sub(start).getNorm(), &inside_depth, &total_depth, segments);
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if (light_traversal < 0.0001)
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{
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factor = 0.0;
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}
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else
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{
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factor = inside_depth / light_traversal;
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if (factor > 1.0)
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{
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factor = 1.0;
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}
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}
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double miminum_light = 0.4;
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factor = 1.0 - (1.0 - miminum_light) * factor;
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light->color.r *= factor;
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light->color.g *= factor;
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light->color.b *= factor;
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return true;
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}
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