Terrain.cpp

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/*  Project Starshatter 4.5
        Destroyer Studios LLC
        Copyright © 1997-2005. All Rights Reserved.

        SUBSYSTEM:    Stars.exe
        FILE:         Terrain.cpp
        AUTHOR:       John DiCamillo


        OVERVIEW
        ========
*/

#include "MemDebug.h"
#include "Terrain.h"
#include "TerrainApron.h"
#include "TerrainClouds.h"
#include "TerrainLayer.h"
#include "TerrainPatch.h"
#include "TerrainRegion.h"
#include "Water.h"

#include "CameraView.h"
#include "Projector.h"
#include "Scene.h"
#include "Bitmap.h"
#include "DataLoader.h"
#include "Game.h"
#include "MachineInfo.h"

// +--------------------------------------------------------------------+

int   Terrain::detail_level      = 3; // default = MEDIUM DETAIL

const int PATCH_SIZE             = 16;

// +--------------------------------------------------------------------+

Terrain::Terrain(TerrainRegion* trgn)
: region(trgn), patches(0), water_patches(0), water(0), 
aprons(0), clouds(0), terrain_normals(0)
{
        detail_frame      = 0;
        datapath          = "Galaxy/";
        terrain_texture   = 0;
        apron_texture     = 0;
        water_texture     = 0;

        for (int i = 0; i < 2; i++) {
                cloud_texture[i] = 0;
                shade_texture[i] = 0;
                noise_texture[i] = 0;
        }

        if (region) {
                scale    = region->LateralScale();
                mtnscale = region->MountainScale();

                ListIter<TerrainLayer> iter = region->GetLayers();
                while (++iter) {
                        TerrainLayer* orig = iter.value();
                        TerrainLayer* copy = new(__FILE__,__LINE__) TerrainLayer;
                        *copy = *orig;
                        layers.append(copy);
                }

                layers.sort();
        }

        else {
                scale    = 1;
                mtnscale = 1;
        }
}

// +--------------------------------------------------------------------+

Terrain::~Terrain()
{
        int i, j;

        if (patches)
        for (i = 0; i < subdivisions; i++)
        for (j = 0; j < subdivisions; j++)
        GRAPHIC_DESTROY(patches[i*subdivisions+j]);

        if (water_patches)
        for (i = 0; i < subdivisions; i++)
        for (j = 0; j < subdivisions; j++)
        GRAPHIC_DESTROY(water_patches[i*subdivisions+j]);

        if (aprons)
        for (i = 0; i < 8; i++)
        GRAPHIC_DESTROY(aprons[i]);

        if (clouds)
        for (i = 0; i < nclouds; i++)
        GRAPHIC_DESTROY(clouds[i]);

        if (water)
        for (i = 0; i < 6; i++)
        delete water[i];

        delete [] aprons;
        delete [] clouds;
        delete [] patches;
        delete [] water;
        delete [] terrain_normals;

        terrain_patch.ClearImage();
        terrain_apron.ClearImage();

        layers.destroy();
}

// +--------------------------------------------------------------------+

void
Terrain::BuildTerrain()
{
        DataLoader* loader = DataLoader::GetLoader();
        loader->SetDataPath(datapath);
        loader->LoadBitmap( region->PatchName(),     terrain_patch);
        loader->LoadBitmap( region->ApronName(),     terrain_apron);
        loader->LoadTexture(region->PatchTexture(),  terrain_texture);
        loader->LoadTexture(region->ApronTexture(),  apron_texture);
        if (region->WaterTexture().length()) {
                loader->LoadTexture(region->WaterTexture(),  water_texture);

                if (region->EnvironmentTexture(0).length() > 0) {
                        loader->LoadTexture(region->EnvironmentTexture(0), env_texture[0]);
                        loader->LoadTexture(region->EnvironmentTexture(1), env_texture[1]);
                        loader->LoadTexture(region->EnvironmentTexture(2), env_texture[2]);
                        loader->LoadTexture(region->EnvironmentTexture(3), env_texture[3]);
                        loader->LoadTexture(region->EnvironmentTexture(4), env_texture[4]);
                        loader->LoadTexture(region->EnvironmentTexture(5), env_texture[5]);
                }
        }

        loader->LoadTexture(region->CloudsHigh(),    cloud_texture[0], Bitmap::BMP_TRANSLUCENT);
        loader->LoadTexture(region->CloudsLow(),     cloud_texture[1], Bitmap::BMP_TRANSLUCENT);
        loader->LoadTexture(region->ShadesLow(),     shade_texture[1], Bitmap::BMP_TRANSLUCENT);

        if (region->DetailTexture0().length())
        loader->LoadTexture(region->DetailTexture0(),noise_texture[0], Bitmap::BMP_TRANSLUCENT, false, true);

        if (region->DetailTexture1().length())
        loader->LoadTexture(region->DetailTexture1(),noise_texture[1], Bitmap::BMP_TRANSLUCENT, false, true);

        subdivisions   = terrain_patch.Width() / PATCH_SIZE;
        patch_size     = terrain_patch.Width() / subdivisions;

        BuildNormals();

        int     i, j;
        int     ntiles = terrain_patch.Width()/2 * terrain_patch.Height()/2;
        double  dx     = scale * patch_size;
        double  dz     = scale * patch_size;
        double  offset = -subdivisions/2;

        if (water_texture) {
                water = new(__FILE__,__LINE__) Water*[6];
                for (i = 0; i < 6; i++) {
                        water[i] = new(__FILE__,__LINE__) Water();
                        int n = (1<<i) + 1;
                        water[i]->Init(n, (float) (scale*patch_size), 90.0f);
                }
        }

        // load tile textures:
        for (i = 0; i < layers.size(); i++) {
                TerrainLayer* layer = layers.at(i);

                if (i < layers.size()-1)
                layer->max_height = layers.at(i+1)->min_height;
                else
                layer->max_height = 1e6;

                if (layer->tile_name.length())
                loader->LoadTexture(layer->tile_name, layer->tile_texture);

                if (layer->detail_name.length())
                loader->LoadTexture(layer->detail_name, layer->detail_texture);
        }

        patches = new(__FILE__,__LINE__) TerrainPatch*[subdivisions*subdivisions];

        if (water_texture)
        water_patches = new(__FILE__,__LINE__) TerrainPatch*[subdivisions*subdivisions];

        for (i = 0; i < subdivisions; i++) {
                for (j = 0; j < subdivisions; j++) {
                        int j1 = subdivisions - j;
                        Rect rect(j * patch_size, i * patch_size, patch_size, patch_size);
                        Point p1((j1 + offset  )*dx, 0,        (i + offset  )*dz);
                        Point p2((j1 + offset+1)*dx, mtnscale, (i + offset+1)*dz);

                        int index = i*subdivisions+j;
                        patches[index] = new(__FILE__,__LINE__) TerrainPatch(this, &terrain_patch, rect, p1, p2);

                        if (water_texture && patches[index]->MinHeight() < 3)
                        water_patches[index] = new(__FILE__,__LINE__) TerrainPatch(this, rect, p1, p2, 30);
                        
                        else if (water_patches != 0)
                        water_patches[index] = 0;
                }
        }

        int a      = 0;
        dx     = scale * terrain_patch.Width();
        dz     = scale * terrain_patch.Height();
        offset = -3.0/2;
        double xoffset = offset + 1.0/16.0;

        aprons = new(__FILE__,__LINE__) TerrainApron*[8];

        for (i = 0; i < 3; i++) {
                for (j = 0; j < 3; j++) {
                        int j1 = 2 - j;
                        if (i != 1 || j1 != 1) {
                                Rect rect(j * subdivisions, i * subdivisions, subdivisions, subdivisions);
                                Point p1((j1 + xoffset  )*dx, 0,        (i + offset  )*dz);
                                Point p2((j1 + xoffset+1)*dx, mtnscale, (i + offset+1)*dz);

                                aprons[a++] = new(__FILE__,__LINE__) TerrainApron(this, &terrain_apron, rect, p1, p2);
                        }
                }
        }

        Weather::STATE state = region->GetWeather().State();

        if (state == Weather::HIGH_CLOUDS || state == Weather::MODERATE_CLOUDS) {
                double altitude = region->CloudAltHigh();
                nclouds = 9;

                if (state == Weather::MODERATE_CLOUDS)
                nclouds *= 2;

                clouds = new(__FILE__,__LINE__) TerrainClouds*[nclouds];

                a = 0;
                for (i = 0; i < 3; i++) {
                        for (j = 0; j < 3; j++) {
                                clouds[a] = new(__FILE__,__LINE__) TerrainClouds(this, 0);

                                double xloc = (j-1) * 75000 + (rand()/32768.0 - 0.5) * 50000;
                                double yloc = (i-1) * 75000 + (rand()/32768.0 - 0.5) * 50000;

                                clouds[a]->MoveTo(Point(xloc, altitude, yloc));
                                a++;
                        }
                }

                if (state == Weather::MODERATE_CLOUDS) {
                        altitude = region->CloudAltLow();

                        for (i = 0; i < 3; i++) {
                                for (j = 0; j < 3; j++) {
                                        clouds[a] = new(__FILE__,__LINE__) TerrainClouds(this, 1);

                                        double xloc = (j-1) * 75000 + (rand()/32768.0 - 0.5) * 50000;
                                        double yloc = (i-1) * 75000 + (rand()/32768.0 - 0.5) * 50000;

                                        clouds[a]->MoveTo(Point(xloc, altitude, yloc));
                                        a++;
                                }
                        }
                }
        }
}

// +--------------------------------------------------------------------+

void
Terrain::BuildNormals()
{
        if (terrain_normals) {
                delete [] terrain_normals;
                terrain_normals = 0;
        }

        int    i, x, y;

        int    w      = terrain_patch.Width();
        int    h      = terrain_patch.Height();
        Color* pix    = terrain_patch.HiPixels();
        BYTE*  alt    = new(__FILE__,__LINE__) BYTE[h*w];
        int    nverts = w * h;
        double scale  = region->MountainScale() / (region->LateralScale() * 2.0);

        terrain_normals = new(__FILE__,__LINE__) Vec3B[nverts];

        ZeroMemory(terrain_normals, sizeof(Vec3B) * nverts);

        for (i = 0; i < w; i++) {
                alt            [          i] = 0;
                alt            [(h-1)*w + i] = 0;
                terrain_normals[          i] = Vec3B(128,128,255);
                terrain_normals[(h-1)*w + i] = Vec3B(128,128,255);
        }

        for (i = 0; i < h; i++) {
                alt            [i*w        ] = 0;
                alt            [i*w + (w-1)] = 0;
                terrain_normals[i*w        ] = Vec3B(128,128,255);
                terrain_normals[i*w + (w-1)] = Vec3B(128,128,255);
        }

        for (y = 1; y < h-1; y++) {
                for (x = 1; x < w-1; x++) {
                        alt[y*w+x] = (BYTE) pix[y*w+x].Red();
                }
        }

        for (y = 1; y < h-1; y++) {
                for (x = 1; x < w-1; x++) {
                        double dx = (alt[y*w     + (x-1)] - alt[y*w     + (x+1)]) * scale +
                        (alt[(y-1)*w + (x-1)] - alt[(y-1)*w + (x+1)]) * scale * 0.5 +
                        (alt[(y+1)*w + (x-1)] - alt[(y+1)*w + (x+1)]) * scale * 0.5;

                        double dy = (alt[(y-1)*w + x    ] - alt[(y+1)*w + x    ]) * scale +
                        (alt[(y-1)*w + (x-1)] - alt[(y+1)*w + (x-1)]) * scale * 0.5 +
                        (alt[(y-1)*w + (x+1)] - alt[(y+1)*w + (x+1)]) * scale * 0.5;

                        Point norm(dx,dy,1);
                        norm.Normalize();

                        Vec3B* tnorm = &terrain_normals[y*w + x];

                        tnorm->x = (BYTE) (norm.x * 127 + 128);
                        tnorm->y = (BYTE) (norm.y * 127 + 128);
                        tnorm->z = (BYTE) (norm.z * 127 + 128);

                        double foo = dx/dy;
                }
        }

        delete [] alt;
}

// +--------------------------------------------------------------------+

void
Terrain::Activate(Scene& scene)
{
        int i, j;

        StarSystem* system = region->System();
        if (system)
        datapath = system->GetDataPath();

        region->GetWeather().Update();

        if (!patches)
        BuildTerrain();

        if (patches) {
                for (i = 0; i < subdivisions; i++)
                for (j = 0; j < subdivisions; j++)
                if (patches[i*subdivisions+j])
                scene.AddGraphic(patches[i*subdivisions+j]);
        }

        if (water_patches) {
                for (i = 0; i < subdivisions; i++)
                for (j = 0; j < subdivisions; j++)
                if (water_patches[i*subdivisions+j])
                scene.AddGraphic(water_patches[i*subdivisions+j]);
        }

        if (aprons) {
                for (i = 0; i < 8; i++)
                if (aprons[i])
                scene.AddGraphic(aprons[i]);
        }

        if (clouds) {
                for (i = 0; i < nclouds; i++)
                if (clouds[i])
                scene.AddGraphic(clouds[i]);
        }
}

void
Terrain::Deactivate(Scene& scene)
{
        int i, j;

        if (patches) {
                for (i = 0; i < subdivisions; i++) {
                        for (j = 0; j < subdivisions; j++) {
                                TerrainPatch* p = patches[i*subdivisions+j];

                                if (p) {
                                        p->DeletePrivateData();
                                        scene.DelGraphic(p);
                                }
                        }
                }
        }

        if (water_patches) {
                for (i = 0; i < subdivisions; i++) {
                        for (j = 0; j < subdivisions; j++) {
                                TerrainPatch* p = water_patches[i*subdivisions+j];

                                if (p) {
                                        p->DeletePrivateData();
                                        scene.DelGraphic(p);
                                }
                        }
                }
        }

        if (aprons) {
                for (i = 0; i < 8; i++)
                if (aprons[i])
                scene.DelGraphic(aprons[i]);
        }

        if (clouds) {
                for (i = 0; i < nclouds; i++)
                if (clouds[i])
                scene.DelGraphic(clouds[i]);
        }

        StarSystem* system = region->System();

        // restore sunlight color and brightness on exit:
        if (system) {
                system->RestoreTrueSunColor();
        }
}

// +--------------------------------------------------------------------+

void
Terrain::ExecFrame(double seconds)
{
        if (water) {
                for (int i = 0; i < 6; i++) {
                        if (water[i])
                        water[i]->CalcWaves(seconds);
                }
        }
}

// +--------------------------------------------------------------------+

void
Terrain::SelectDetail(Projector* projector)
{
        if (!patches)
        return;

        if (detail_frame >= Game::Frame())
        return;

        // compute detail map:
        int  x, z;

        for (z = 0; z < subdivisions; z++) {
                for (x = 0; x < subdivisions; x++) {
                        TerrainPatch*  patch    = patches[z*subdivisions + x];
                        int            ndetail  = 0;
                        Point          loc      = patch->Location();
                        float          radius   = patch->Radius();

                        if (loc.length() < 2*radius) {
                                ndetail = detail_level;
                        }

                        else {
                                double threshold = 4; //16;

                                for (int level = 1; level <= detail_level; level++) {
                                        double feature_size = radius / (1 << level);

                                        if (projector->ApparentRadius(loc, (float) feature_size) > threshold)
                                        ndetail = level;
                                }
                        }

                        patch->SetDetailLevel(ndetail);

                        if (water_patches) {
                                patch = water_patches[z*subdivisions + x];
                                if (patch)
                                patch->SetDetailLevel(ndetail);
                        }
                }
        }

        // compute fog fade level:
        double hour  = region->DayPhase();

        if (hour < 12)
        fog_fade = (hour)  / 12.0;
        else
        fog_fade = (24-hour) / 12.0;

        fog_fade = fog_fade * (1-region->HazeFade()) + region->HazeFade();

        detail_frame = Game::Frame();
}

// +--------------------------------------------------------------------+

double
Terrain::Height(double x, double y) const
{
        double h = 0;

        if (patches) {
                int ix = (int) floor(x / (patch_size * scale));
                int iy = (int) floor(y / (patch_size * scale));

                double px = x - ix * patch_size * scale;
                double py = y - iy * patch_size * scale;

                ix = subdivisions/2 - ix;
                iy = subdivisions/2 + iy;

                TerrainPatch* patch = 0;

                if (ix >= 0 && ix < subdivisions &&
                                iy >= 0 && iy < subdivisions)
                patch = patches[iy*subdivisions+ix];

                if (patch)
                h = patch->Height(px, py);
        }

        if (water_patches && h < 30)
        h = 30;

        return h;
}

// +--------------------------------------------------------------------+

void
Terrain::SetDetailLevel(int detail)
{
        if (detail >= 1 && detail <= 4) {

                // limit detail on low memory machines:
                if (detail > 3 && MachineInfo::GetTotalRam() < 64)
                detail = 3;

                detail_level = detail;
        }
}

// +--------------------------------------------------------------------+

bool
Terrain::IsFirstPatch(TerrainPatch* p) const
{
        return (patches && *patches == p);
}