#include "TerrainRasterizer.h" #include "SoftwareRenderer.h" #include "BoundingBox.h" #include "CameraDefinition.h" #include "TerrainRenderer.h" #include "WaterRenderer.h" #include "TexturesRenderer.h" #include "Scenery.h" #include "ParallelQueue.h" TerrainRasterizer::TerrainRasterizer(SoftwareRenderer* renderer): renderer(renderer) { } static inline Vector3 _getPoint(SoftwareRenderer* renderer, double x, double z) { return Vector3(x, renderer->getTerrainRenderer()->getHeight(x, z, 1), z); } static Color _postProcessFragment(SoftwareRenderer* renderer, const Vector3 &point, void*) { double precision = renderer->getPrecision(_getPoint(renderer, point.x, point.z)); return renderer->getTerrainRenderer()->getFinalColor(point, precision); } static void _renderQuad(SoftwareRenderer* renderer, double x, double z, double size, double water_height) { Vector3 ov1, ov2, ov3, ov4; Vector3 dv1, dv2, dv3, dv4; ov1.y = ov2.y = ov3.y = ov4.y = 0.0; ov1.x = x; ov1.z = z; dv1 = renderer->getTerrainRenderer()->getResult(x, z, 1, 1).location; ov2.x = x; ov2.z = z + size; dv2 = renderer->getTerrainRenderer()->getResult(x, z + size, 1, 1).location; ov3.x = x + size; ov3.z = z + size; dv3 = renderer->getTerrainRenderer()->getResult(x + size, z + size, 1, 1).location; ov4.x = x + size; ov4.z = z; dv4 = renderer->getTerrainRenderer()->getResult(x + size, z, 1, 1).location; if (dv1.y > water_height || dv2.y > water_height || dv3.y > water_height || dv4.y > water_height) { renderer->pushDisplacedQuad(dv1, dv2, dv3, dv4, ov1, ov2, ov3, ov4, _postProcessFragment, NULL); } } void TerrainRasterizer::tessellateChunk(TerrainChunkInfo* chunk, int detail) { if (detail < 1) { return; } double water_height = renderer->getWaterRenderer()->getHeightInfo().min_height; double startx = chunk->point_nw.x; double startz = chunk->point_nw.z; double size = (chunk->point_ne.x - chunk->point_nw.x) / (double)detail; int i, j; for (i = 0; i < detail; i++) { for (j = 0; j < detail; j++) { _renderQuad(renderer, startx + (double)i * size, startz + (double)j * size, size, water_height); } } } static void _getChunk(SoftwareRenderer* renderer, TerrainRasterizer::TerrainChunkInfo* chunk, double x, double z, double size, int displaced) { chunk->point_nw = renderer->getTerrainRenderer()->getResult(x, z, 1, displaced).location; chunk->point_sw = renderer->getTerrainRenderer()->getResult(x, z + size, 1, displaced).location; chunk->point_se = renderer->getTerrainRenderer()->getResult(x + size, z + size, 1, displaced).location; chunk->point_ne = renderer->getTerrainRenderer()->getResult(x + size, z, 1, displaced).location; double displacement_power; if (displaced) { displacement_power = 0.0; } else { displacement_power = renderer->getTexturesRenderer()->getMaximalDisplacement(renderer->getScenery()->getTextures()); } BoundingBox box; if (displacement_power > 0.0) { box.pushPoint(chunk->point_nw.add(Vector3(-displacement_power, displacement_power, -displacement_power))); box.pushPoint(chunk->point_nw.add(Vector3(-displacement_power, -displacement_power, -displacement_power))); box.pushPoint(chunk->point_sw.add(Vector3(-displacement_power, displacement_power, displacement_power))); box.pushPoint(chunk->point_sw.add(Vector3(-displacement_power, -displacement_power, displacement_power))); box.pushPoint(chunk->point_se.add(Vector3(displacement_power, displacement_power, displacement_power))); box.pushPoint(chunk->point_se.add(Vector3(displacement_power, -displacement_power, displacement_power))); box.pushPoint(chunk->point_ne.add(Vector3(displacement_power, displacement_power, -displacement_power))); box.pushPoint(chunk->point_ne.add(Vector3(displacement_power, -displacement_power, -displacement_power))); } else { box.pushPoint(chunk->point_nw); box.pushPoint(chunk->point_sw); box.pushPoint(chunk->point_se); box.pushPoint(chunk->point_ne); } int coverage = renderer->render_camera->isUnprojectedBoxInView(box); if (coverage > 0) { chunk->detail_hint = (int)ceil(sqrt((double)coverage) / (double)(25 - 2 * renderer->render_quality)); if (chunk->detail_hint > 5 * renderer->render_quality) { chunk->detail_hint = 5 * renderer->render_quality; } } else { /* Not in view */ chunk->detail_hint = -1; } } void TerrainRasterizer::getTessellationInfo(int displaced) { TerrainChunkInfo chunk; int chunk_factor, chunk_count, i; Vector3 cam = renderer->getCameraLocation(VECTOR_ZERO); double progress; double radius_int, radius_ext; double base_chunk_size, chunk_size; base_chunk_size = 5.0 / (double)renderer->render_quality; chunk_factor = 1; chunk_count = 2; radius_int = 0.0; radius_ext = base_chunk_size; chunk_size = base_chunk_size; progress = 0.0; double cx = cam.x - fmod(cam.x, base_chunk_size); double cz = cam.z - fmod(cam.x, base_chunk_size); while (radius_int < 20000.0) { progress = radius_int / 20000.0; for (i = 0; i < chunk_count - 1; i++) { _getChunk(renderer, &chunk, cx - radius_ext + chunk_size * i, cz - radius_ext, chunk_size, displaced); if (!processChunk(&chunk, progress)) { return; } _getChunk(renderer, &chunk, cx + radius_int, cz - radius_ext + chunk_size * i, chunk_size, displaced); if (!processChunk(&chunk, progress)) { return; } _getChunk(renderer, &chunk, cx + radius_int - chunk_size * i, cz + radius_int, chunk_size, displaced); if (!processChunk(&chunk, progress)) { return; } _getChunk(renderer, &chunk, cx - radius_ext, cz + radius_int - chunk_size * i, chunk_size, displaced); if (!processChunk(&chunk, progress)) { return; } } if (radius_int > 20.0 && chunk_count % 64 == 0 && (double)chunk_factor < radius_int / 20.0) { chunk_count /= 2; chunk_factor *= 2; } chunk_count += 2; chunk_size = base_chunk_size * chunk_factor; radius_int = radius_ext; radius_ext += chunk_size; } } typedef struct { TerrainRasterizer* rasterizer; TerrainRasterizer::TerrainChunkInfo chunk; } ParallelRasterInfo; static int _parallelJobCallback(ParallelQueue*, int, void* data, int stopping) { ParallelRasterInfo* info = (ParallelRasterInfo*)data; if (!stopping) { info->rasterizer->tessellateChunk(&info->chunk, info->chunk.detail_hint); } delete info; return 0; } int TerrainRasterizer::processChunk(TerrainChunkInfo* chunk, double progress) { ParallelRasterInfo* info = new ParallelRasterInfo; info->rasterizer = this; info->chunk = *chunk; if (!((ParallelQueue*)renderer->customData[0])->addJob(_parallelJobCallback, info)) { delete info; } renderer->render_progress = 0.05 * progress; return !renderer->render_interrupt; } void TerrainRasterizer::renderSurface() { ParallelQueue queue; /* TODO Do not use custom data, it could already be used by another module */ renderer->customData[0] = &queue; renderer->render_progress = 0.0; getTessellationInfo(0); renderer->render_progress = 0.05; queue.wait(); }