diff options
Diffstat (limited to 'boltz.cc')
-rw-r--r-- | boltz.cc | 99 |
1 files changed, 27 insertions, 72 deletions
@@ -1,59 +1,22 @@ #include <iostream> -#include <cmath> -#include <algorithm> #include <numeric> #include <iostream> #include <fstream> -inline double sq(double x) noexcept { - return x * x; -} +#include "src/vector.h" struct DataCell { double data[3][3]; - double& get(int x, int y) { + inline double& get(int x, int y) { return data[1+x][1-y]; } - double get(int x, int y) const { + inline double get(int x, int y) const { return data[1+x][1-y]; } }; -struct Vector { - double data[2]; - - double comp(int x, int y) const { - return x*data[0] + y*data[1]; - } - - double norm() const { - return std::sqrt(sq(data[0]) + sq(data[1])); - } - - double& operator[](std::size_t i) { - return data[i]; - } - - double operator[](std::size_t i) const { - return data[i]; - } - - Vector operator*(double scalar) const { - return Vector{ - data[0] * scalar, - data[1] * scalar - }; - } - - Vector& operator+=(const Vector& rhs) { - data[0] += rhs[0]; - data[1] += rhs[1]; - return *this; - } -}; - using Velocity = Vector; using Force = Vector; using Density = double; @@ -66,15 +29,11 @@ constexpr DataCell weight{ struct Cell : DataCell { void equilibrize(Density d, Velocity v) { - get(-1, 1) = weight.get(-1, 1) * d * ( 1 + 3*v.comp(-1, 1) + 4.5*sq(v.comp(-1, 1)) - 1.5*sq(v.norm()) ); - get( 0, 1) = weight.get( 0, 1) * d * ( 1 + 3*v.comp( 0, 1) + 4.5*sq(v.comp( 0, 1)) - 1.5*sq(v.norm()) ); - get( 1, 1) = weight.get( 1, 1) * d * ( 1 + 3*v.comp( 1, 1) + 4.5*sq(v.comp( 1, 1)) - 1.5*sq(v.norm()) ); - get(-1, 0) = weight.get(-1, 0) * d * ( 1 + 3*v.comp(-1, 0) + 4.5*sq(v.comp(-1, 0)) - 1.5*sq(v.norm()) ); - get( 0, 0) = weight.get( 0, 0) * d * ( 1 - 1.5*sq(v.norm()) ); - get( 1, 0) = weight.get( 1, 0) * d * ( 1 + 3*v.comp( 1, 0) + 4.5*sq(v.comp( 1, 0)) - 1.5*sq(v.norm()) ); - get(-1,-1) = weight.get(-1,-1) * d * ( 1 + 3*v.comp(-1,-1) + 4.5*sq(v.comp(-1,-1)) - 1.5*sq(v.norm()) ); - get( 0,-1) = weight.get( 0,-1) * d * ( 1 + 3*v.comp( 0,-1) + 4.5*sq(v.comp( 0,-1)) - 1.5*sq(v.norm()) ); - get( 1,-1) = weight.get( 1,-1) * d * ( 1 + 3*v.comp( 1,-1) + 4.5*sq(v.comp( 1,-1)) - 1.5*sq(v.norm()) ); + for ( int i = -1; i <= 1; ++i ) { + for ( int j = -1; j <= 1; ++j ) { + get(i,j) = weight.get(i,j) * d * (1 + 3*v.comp(i,j) + 4.5*sq(v.comp(i,j)) - 1.5*sq(v.norm())); + } + } } double sum() const { @@ -82,18 +41,17 @@ struct Cell : DataCell { } Velocity velocity(Density d) const { - return Velocity{ + return 1./d * Velocity{ get( 1, 0) - get(-1, 0) + get( 1, 1) - get(-1,-1) + get( 1,-1) - get(-1,1), get( 0, 1) - get( 0,-1) + get( 1, 1) - get(-1,-1) - get( 1,-1) + get(-1,1) - } * ( 1./d ); + }; } }; -constexpr std::size_t dimX = 128; -constexpr std::size_t dimY = 128; +constexpr std::size_t dimX = 128; +constexpr std::size_t dimY = 128; -constexpr double tau = 0.6; -constexpr double omega = 1. / tau; +constexpr double tau = 1.0; Cell cellsA[dimX][dimY]; Cell cellsB[dimX][dimY]; @@ -121,28 +79,22 @@ void computeLbmStep(std::size_t t) { for ( std::size_t x = 1; x < dimX - 1; ++x ) { for ( std::size_t y = 1; y < dimY - 1; ++y ) { // update velocity (force coupling) - //velocity[x][y] += force[x][y] * (tau / density[x][y]); + //velocity[x][y] += tau / density[x][y] * force[x][y]; // compute equilibrium Cell eq; eq.equilibrize(density[x][y], velocity[x][y]); - Cell& old = (*oldCells)[x][y]; - // collide & stream - (*newCells)[x ][y ].get( 0, 0) = old.get( 0, 0) + omega * ( eq.get( 0, 0) - old.get( 0, 0) ); - (*newCells)[x + 1][y ].get( 1, 0) = old.get( 1, 0) + omega * ( eq.get( 1, 0) - old.get( 1, 0) ); - (*newCells)[x - 1][y ].get(-1, 0) = old.get(-1, 0) + omega * ( eq.get(-1, 0) - old.get(-1, 0) ); - (*newCells)[x ][y + 1].get( 0, 1) = old.get( 0, 1) + omega * ( eq.get( 0, 1) - old.get( 0, 1) ); - (*newCells)[x ][y - 1].get( 0,-1) = old.get( 0,-1) + omega * ( eq.get( 0,-1) - old.get( 0,-1) ); - (*newCells)[x + 1][y + 1].get( 1, 1) = old.get( 1, 1) + omega * ( eq.get( 1, 1) - old.get( 1, 1) ); - (*newCells)[x - 1][y - 1].get(-1,-1) = old.get(-1,-1) + omega * ( eq.get(-1,-1) - old.get(-1,-1) ); - (*newCells)[x + 1][y - 1].get( 1,-1) = old.get( 1,-1) + omega * ( eq.get( 1,-1) - old.get( 1,-1) ); - (*newCells)[x - 1][y + 1].get(-1, 1) = old.get(-1, 1) + omega * ( eq.get(-1, 1) - old.get(-1, 1) ); + for ( int i = -1; i <= 1; ++i ) { + for ( int j = -1; j <= 1; ++j ) { + (*newCells)[x+i][y+j].get(i,j) = (*oldCells)[x][y].get(i,j) + 1./tau * (eq.get(i,j) - (*oldCells)[x][y].get(i,j)); + } + } } } - // straight wall cell bounce back + // straight wall cell bounce back for ( std::size_t x = 2; x < dimX - 2; ++x ) { (*newCells)[x][1].get( 0, 1) = (*newCells)[x][0].get( 0,-1); (*newCells)[x][1].get( 1, 1) = (*newCells)[x][0].get(-1,-1); @@ -242,8 +194,11 @@ void init() { } } - for ( std::size_t x = 50; x < dimX-50; ++x ) { - for ( std::size_t y = 50; y < dimY-50; ++y ) { + for ( std::size_t y = 55; y < dimY-55; ++y ) { + for ( std::size_t x = 35; x < dimX-75; ++x ) { + density[x][y] = 0.8; + } + for ( std::size_t x = 75; x < dimX-35; ++x ) { density[x][y] = 0.8; } } @@ -252,10 +207,10 @@ void init() { int main() { init(); - for ( std::size_t t = 0; t < 500; ++t ) { + for ( std::size_t t = 0; t < 100; ++t ) { computeLbmStep(t); - if ( t % 1 == 0 ) { + if ( t % 2 == 0 ) { writeCurrentStateAsVTK(t); } } |