FluidSim v1.0 An implementation of Jos Stam’s Fluid Dynamics for Games paper

I recently came across The Coding Train’s video about Fluid Simulation and thought I would like to implement it in C++ and on Windows. FluidSim is a C++ port / implementation of the code from the "Real-Time Fluid Dynamics for Games" paper from Jos Stam on which the Coding Train video is based. FluidSim is a freeware MFC Windows application which uses Direct2D to draw the simulation.

Screen Captures

When you run up the FluidSim application you should see a black client area in the application which represents the simulation space. By default the simulation will use a grid of 64 by 64 cells with each cell size represented as ten pixels square. The frames per second value is shown in the top left of the client area. The FluidSim code uses a simple WM_TIMER to implement the simulation loop. The grayscale color of each cell is used to represent how much material is in each cell of the simulation. You can use the menu item "View -> Clear" to reset the simulation to its initial default state.

To deposit "material" into the simulation hold down the right mouse button. What you should see is the pixels around the mouse turn white and the material should start "diffusing" into the surrounding cells:

You can introduce velocity to the simulation by holding down and dragging with the left mouse button. This will introduce changes to the velocity field part of the simulation in the direction of the mouse drag. What you should then see is the "material" swirling around the simulation space:

To change the settings of the simulation you can use the menu item "View -> Simulation Properties". This shows a standard dialog which allows various settings to be modified:

The "Cell count" value represents the number of cells on each side of the square simulation space. The "Force" value represents the amount of velocity introduced to the simulation when using the left mouse button. The "Diffusion" value represents how quickly the material will diffuse into surrounding cells. The "Viscosity" value represents the "thickness" or stickiness of the fluid. The "cell size" value is the size in pixels of each cell in the simulation. The "Source" value represents the amount of material introduced to the simulation when using the right mouse button. The "dt" value represents the step size of the simulation. Finally if you check the checkbox "Show Velocity Field", then the vector field which moves the material around the simulation as well as the density of the material in the simulation is drawn. Showing the velocity field provides a better view as to how the material moves around the simulation space and evolves over time.

An example showing the velocity field:

DtWinVer v2.30

Just to let everyone know that v2.30 of DtWinVer has been released. Updates for this version include:

• Updated the detection logic in IsWindows10Version1803, IsWindows10Version1809 and IsWindows10Version19H1
• Renamed IsWindows10Codename19H1 method to IsWindows10Version1903.