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olcPixelGameEngine/CarCrimeCity/Part2/cCell_Water.cpp

91 lines
3.2 KiB

#include "cCell_Water.h"
#include "cCityMap.h"
cCell_Water::cCell_Water(cCityMap* map, int x, int y) : cCell(map, x, y)
{
nCellType = CELL_WATER;
bNeighboursAreWater[0] = false;
bNeighboursAreWater[1] = false;
bNeighboursAreWater[2] = false;
bNeighboursAreWater[3] = false;
}
cCell_Water::~cCell_Water()
{
}
bool cCell_Water::LinkAssets(std::map<std::string, olc::Sprite*>& mapTextures, std::map<std::string, olc::GFX3D::mesh*>& mapMesh, std::map<std::string, olc::GFX3D::mat4x4> &mapTransforms)
{
meshUnitQuad = mapMesh["UnitQuad"];
meshWalls = mapMesh["WallsOut"];
sprWater = mapTextures["Water"];
sprSides = mapTextures["WaterSide"];
sprClouds = mapTextures["Clouds"];
return false;
}
bool cCell_Water::Update(float fElapsedTime)
{
return false;
}
bool cCell_Water::DrawBase(olc::PixelGameEngine * pge, olc::GFX3D::PipeLine & pipe)
{
olc::GFX3D::mat4x4 matWorld;
matWorld = olc::GFX3D::Math::Mat_MakeTranslation((float)nWorldX, (float)nWorldY, 0.0f);
pipe.SetTransform(matWorld);
pipe.SetTexture(sprSides);
if (!bNeighboursAreWater[1]) pipe.Render(meshWalls->tris, olc::GFX3D::RENDER_LIGHTS | olc::GFX3D::RENDER_CULL_CCW | olc::GFX3D::RENDER_TEXTURED | olc::GFX3D::RENDER_DEPTH, 0, 2);
if (!bNeighboursAreWater[3]) pipe.Render(meshWalls->tris, olc::GFX3D::RENDER_LIGHTS | olc::GFX3D::RENDER_CULL_CCW | olc::GFX3D::RENDER_TEXTURED | olc::GFX3D::RENDER_DEPTH, 2, 2);
if (!bNeighboursAreWater[2]) pipe.Render(meshWalls->tris, olc::GFX3D::RENDER_LIGHTS | olc::GFX3D::RENDER_CULL_CCW | olc::GFX3D::RENDER_TEXTURED | olc::GFX3D::RENDER_DEPTH, 4, 2);
if (!bNeighboursAreWater[0]) pipe.Render(meshWalls->tris, olc::GFX3D::RENDER_LIGHTS | olc::GFX3D::RENDER_CULL_CCW | olc::GFX3D::RENDER_TEXTURED | olc::GFX3D::RENDER_DEPTH, 6, 2);
return false;
}
bool cCell_Water::DrawAlpha(olc::PixelGameEngine * pge, olc::GFX3D::PipeLine & pipe)
{
auto renderWater = [&](const int x, const int y, const olc::Pixel& pSource, const olc::Pixel& pDest)
{
float a = (float)(pSource.a / 255.0f) * 0.6f;
float c = 1.0f - a;
float r = a * (float)pSource.r + c * (float)pDest.r;
float g = a * (float)pSource.g + c * (float)pDest.g;
float b = a * (float)pSource.b + c * (float)pDest.b;
a = 0.4f;
c = 1.0f - a;
olc::Pixel sky = sprClouds->GetPixel(x, y);
float sr = a * (float)sky.r + c * r;
float sg = a * (float)sky.g + c * g;
float sb = a * (float)sky.b + c * b;
return olc::Pixel((uint8_t)sr, (uint8_t)sg, (uint8_t)sb);
};
pge->SetPixelMode(renderWater);
olc::GFX3D::mat4x4 matWorld = olc::GFX3D::Math::Mat_MakeTranslation((float)nWorldX, (float)nWorldY, 0.07f);
pipe.SetTransform(matWorld);
pipe.SetTexture(sprWater);
pipe.Render(meshUnitQuad->tris, olc::GFX3D::RENDER_CULL_CW | olc::GFX3D::RENDER_DEPTH | olc::GFX3D::RENDER_TEXTURED);
pge->SetPixelMode(olc::Pixel::NORMAL);
return false;
}
void cCell_Water::CalculateAdjacency()
{
auto r = [&](int i, int j)
{
if (pMap->Cell(nWorldX + i, nWorldY + j) != nullptr)
return pMap->Cell(nWorldX + i, nWorldY + j)->nCellType == CELL_WATER;
else
return false;
};
bNeighboursAreWater[0] = r(0, -1);
bNeighboursAreWater[1] = r(+1, 0);
bNeighboursAreWater[2] = r(0, +1);
bNeighboursAreWater[3] = r(-1, 0);
}