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abs is up the chain a step

magicbox-1.5.2
MagicBot 1 year ago
parent
6ac65c73d5
commit
1a0f318968
1 changed files with 35 additions and 44 deletions
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  1. 79
      src/engine/InterestManagement/Terrain.java

79
src/engine/InterestManagement/Terrain.java
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@ -28,15 +28,14 @@ public class Terrain { @@ -28,15 +28,14 @@ public class Terrain {
public Vector2f cell_size = new Vector2f();
public Vector2f cell_count = new Vector2f();
public float terrain_scale;
public Vector2f minor_blend;
public Vector2f major_blend;
public Vector2f minor_blend;
public int heightmap;
Zone zone;
public Terrain(Zone zone) {
this.zone = zone;
this.heightmap = this.zone.terrain_image;
// Configure PLANAR zones to use the same
@ -73,7 +72,6 @@ public class Terrain { @@ -73,7 +72,6 @@ public class Terrain {
this.minor_blend.y = this.zone.min_blend / this.zone.minor_radius;
this.terrain_scale = this.zone.terrain_max_y / 255f;
}
public static Zone getNextZoneWithTerrain(Zone zone) {
@ -99,17 +97,15 @@ public class Terrain { @@ -99,17 +97,15 @@ public class Terrain {
return terrain_zone;
}
public static float getWorldHeight(Zone currentZone, Vector3fImmutable worldLoc) {
Zone terrainZone;
public static float getWorldHeight(Zone zone, Vector3fImmutable world_loc) {
// Retrieve the next zone with a terrain defined.
terrainZone = getNextZoneWithTerrain(currentZone);
Zone terrainZone = getNextZoneWithTerrain(zone);
// Transform world loc into zone space coordinate system
Vector2f terrainLoc = ZoneManager.worldToTerrainSpace(worldLoc, terrainZone);
Vector2f terrainLoc = ZoneManager.worldToTerrainSpace(world_loc, terrainZone);
// Interpolate height for this position in terrain
@ -119,20 +115,20 @@ public class Terrain { @@ -119,20 +115,20 @@ public class Terrain {
return interpolatedChildHeight;
}
public static float getWorldHeight(Vector3fImmutable worldLoc) {
public static float getWorldHeight(Vector3fImmutable world_loc) {
Zone currentZone = ZoneManager.findSmallestZone(worldLoc);
Zone currentZone = ZoneManager.findSmallestZone(world_loc);
if (currentZone == null)
return 0;
return getWorldHeight(currentZone, worldLoc);
return getWorldHeight(currentZone, world_loc);
}
public Vector2f getTerrainCell(Vector2f terrainLoc) {
public Vector2f getTerrainCell(Vector2f terrain_loc) {
Vector2f terrain_cell = new Vector2f(terrainLoc.x / this.cell_size.x, terrainLoc.y / this.cell_size.y);
Vector2f terrain_cell = new Vector2f(terrain_loc.x / this.cell_size.x, terrain_loc.y / this.cell_size.y);
// Clamp values when standing directly on pole
@ -142,53 +138,48 @@ public class Terrain { @@ -142,53 +138,48 @@ public class Terrain {
return terrain_cell;
}
public float getInterpolatedTerrainHeight(Vector2f terrainLoc) {
public float getInterpolatedTerrainHeight(Vector2f terrain_loc) {
try {
float interpolatedHeight;
float interpolatedHeight;
Vector2f terrain_cell = getTerrainCell(terrainLoc);
Vector2f terrain_cell = getTerrainCell(terrain_loc);
int pixel_x = (int) Math.floor(terrain_cell.x);
int pixel_y = (int) Math.floor(terrain_cell.y);
int pixel_x = (int) Math.floor(terrain_cell.x);
int pixel_y = (int) Math.floor(terrain_cell.y);
Vector2f pixel_offset = new Vector2f(terrain_cell.x % 1, terrain_cell.y % 1);
Vector2f pixel_offset = new Vector2f(terrain_cell.x % 1, terrain_cell.y % 1);
//get 4 surrounding vertices from the pixel array.
//get 4 surrounding vertices from the pixel array.
float topLeftHeight;
float topRightHeight;
float bottomLeftHeight;
float bottomRightHeight;
float top_left_pixel;
float top_right_pixel;
float bottom_left_pixel;
float bottom_right_pixel;
topLeftHeight = terrain_pixel_data[pixel_x][pixel_y];
topRightHeight = terrain_pixel_data[pixel_x + 1][pixel_y];
bottomLeftHeight = terrain_pixel_data[pixel_x][pixel_y + 1];
bottomRightHeight = terrain_pixel_data[pixel_x + 1][pixel_y + 1];
top_left_pixel = terrain_pixel_data[pixel_x][pixel_y];
top_right_pixel = terrain_pixel_data[pixel_x + 1][pixel_y];
bottom_left_pixel = terrain_pixel_data[pixel_x][pixel_y + 1];
bottom_right_pixel = terrain_pixel_data[pixel_x + 1][pixel_y + 1];
// Interpolate between the 4 vertices
// Interpolate between the 4 vertices
interpolatedHeight = topLeftHeight * (1 - pixel_offset.x) * (1 - pixel_offset.y);
interpolatedHeight += topRightHeight * (1 - pixel_offset.y) * (pixel_offset.x);
interpolatedHeight += (bottomLeftHeight * (1 - pixel_offset.x) * pixel_offset.y);
interpolatedHeight += (bottomRightHeight * pixel_offset.y * pixel_offset.x);
interpolatedHeight = top_left_pixel * (1 - pixel_offset.x) * (1 - pixel_offset.y);
interpolatedHeight += top_right_pixel * (1 - pixel_offset.y) * (pixel_offset.x);
interpolatedHeight += (bottom_left_pixel * (1 - pixel_offset.x) * pixel_offset.y);
interpolatedHeight += (bottom_right_pixel * pixel_offset.y * pixel_offset.x);
interpolatedHeight *= this.terrain_scale; // Scale height
interpolatedHeight *= this.terrain_scale; // Scale height
return interpolatedHeight;
return interpolatedHeight;
} catch (Exception e) {
Logger.error(this.zone.zoneName + ":" + this.zone.getObjectUUID() + e);
return 0;
}
}
public float terrainBlend(Vector2f zoneOffset) {
public float terrainBlend(Vector2f zone_offset) {
// Normalize terrain loc
// Normalize terrain offset
Vector2f normalizedLoc = new Vector2f(Math.abs(zoneOffset.x / this.terrain_size.x),
Math.abs(zoneOffset.y / terrain_size.y));
Vector2f normalizedLoc = new Vector2f(zone_offset.x / this.terrain_size.x,
zone_offset.y / terrain_size.y);
float xval;

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