func drawSingleLight(light *obj7.LightInfo, size float32, distance float32, lights *goplanemp.LightStatus) {
// Finally we can draw our lights
switch light.LightType {
case obj7.LightType_RedNavigation:
if lights.NavLights {
if redNavLightDl == 0 {
redNavLightDl = gl.GenLists(1)
gl.NewList(redNavLightDl, gl.COMPILE)
gl.Begin(gl.QUADS)
gl.Color4f(light.RGB_Float[0], light.RGB_Float[1], light.RGB_Float[2], light.RGB_Float[3])
gl.TexCoord2f(0, 0.5)
gl.Vertex2f(-(size / 2.0), -(size / 2.0))
gl.TexCoord2f(0, 1.0)
gl.Vertex2f(-(size / 2.0), (size / 2.0))
gl.TexCoord2f(0.25, 1.0)
gl.Vertex2f((size / 2.0), (size / 2.0))
gl.TexCoord2f(0.25, 0.5)
gl.Vertex2f((size / 2.0), -(size / 2.0))
gl.End()
gl.EndList()
}
gl.CallList(redNavLightDl)
}
case obj7.LightType_GreenNavigation:
if lights.NavLights {
if greenNavLightDl == 0 {
greenNavLightDl = gl.GenLists(1)
gl.NewList(greenNavLightDl, gl.COMPILE)
gl.Begin(gl.QUADS)
gl.Color4f(light.RGB_Float[0], light.RGB_Float[1], light.RGB_Float[2], light.RGB_Float[3])
gl.TexCoord2f(0, 0.5)
gl.Vertex2f(-(size / 2.0), -(size / 2.0))
gl.TexCoord2f(0, 1.0)
gl.Vertex2f(-(size / 2.0), (size / 2.0))
gl.TexCoord2f(0.25, 1.0)
gl.Vertex2f((size / 2.0), (size / 2.0))
gl.TexCoord2f(0.25, 0.5)
gl.Vertex2f((size / 2.0), -(size / 2.0))
gl.End()
gl.EndList()
}
gl.CallList(greenNavLightDl)
}
case obj7.LightType_Beacon:
if lights.BeaconLights {
if beaconLightDl == 0 {
beaconLightDl = gl.GenLists(1)
gl.NewList(beaconLightDl, gl.COMPILE)
gl.Begin(gl.QUADS)
gl.Color4f(light.RGB_Float[0], light.RGB_Float[1], light.RGB_Float[2], light.RGB_Float[3])
gl.TexCoord2f(0, 0.5)
gl.Vertex2f(-(size / 2.0), -(size / 2.0))
gl.TexCoord2f(0, 1.0)
gl.Vertex2f(-(size / 2.0), (size / 2.0))
gl.TexCoord2f(0.25, 1.0)
gl.Vertex2f((size / 2.0), (size / 2.0))
gl.TexCoord2f(0.25, 0.5)
gl.Vertex2f((size / 2.0), -(size / 2.0))
gl.End()
gl.EndList()
}
gl.CallList(beaconLightDl)
}
case obj7.LightType_Strobe:
if lights.StrobeLights {
if strobeLightDl == 0 {
strobeLightDl = gl.GenLists(1)
gl.NewList(strobeLightDl, gl.COMPILE)
gl.Begin(gl.QUADS)
gl.Color4f(light.RGB_Float[0], light.RGB_Float[1], light.RGB_Float[2], light.RGB_Float[3])
gl.TexCoord2f(0.25, 0.0)
gl.Vertex2f(-(size / 1.5), -(size / 1.5))
gl.TexCoord2f(0.25, 0.5)
gl.Vertex2f(-(size / 1.5), (size / 1.5))
gl.TexCoord2f(0.50, 0.5)
gl.Vertex2f((size / 1.5), (size / 1.5))
gl.TexCoord2f(0.50, 0.0)
gl.Vertex2f((size / 1.5), -(size / 1.5))
gl.End()
gl.EndList()
}
gl.CallList(strobeLightDl)
}
case obj7.LightType_Landing:
if lights.LandingLights {
// BEN SEZ: modulate the _alpha to make this dark, not
// the light color. Otherwise if the sky is fairly light the light
// will be darker than the sky, which looks f---ed during the day.
color := light.RGB_Float
if color[0] < 0.0 {
color[0] = 0.0
}
if color[0] < 0.0 {
color[0] = 0.0
}
if color[0] < 0.0 {
color[0] = 0.0
}
color[3] *= (distance * -0.05882) + 1.1764
gl.Color4f(color[0], color[1], color[2], color[3])
if landingLightDl == 0 {
landingLightDl = gl.GenLists(1)
gl.NewList(landingLightDl, gl.COMPILE)
gl.Begin(gl.QUADS)
gl.TexCoord2f(0.25, 0.0)
gl.Vertex2f(-(size / 2.0), -(size / 2.0))
gl.TexCoord2f(0.25, 0.5)
gl.Vertex2f(-(size / 2.0), (size / 2.0))
gl.TexCoord2f(0.50, 0.5)
gl.Vertex2f((size / 2.0), (size / 2.0))
gl.TexCoord2f(0.50, 0.0)
gl.Vertex2f((size / 2.0), -(size / 2.0))
gl.End()
gl.EndList()
}
gl.CallList(landingLightDl)
}
case obj7.LightType_Taxi:
if lights.LandingLights {
// BEN SEZ: modulate the _alpha to make this dark, not
// the light color. Otherwise if the sky is fairly light the light
// will be darker than the sky, which looks f---ed during the day.
color := light.RGB_Float
if color[0] < 0.0 {
color[0] = 0.0
}
if color[0] < 0.0 {
color[0] = 0.0
}
if color[0] < 0.0 {
color[0] = 0.0
}
color[3] *= (distance * -0.05882) + 1.1764
gl.Color4f(color[0], color[1], color[2], color[3])
if taxiLightDl == 0 {
taxiLightDl = gl.GenLists(1)
gl.NewList(taxiLightDl, gl.COMPILE)
gl.Begin(gl.QUADS)
gl.TexCoord2f(0.25, 0.0)
gl.Vertex2f(-(size / 2.0), -(size / 2.0))
gl.TexCoord2f(0.25, 0.5)
gl.Vertex2f(-(size / 2.0), (size / 2.0))
gl.TexCoord2f(0.50, 0.5)
gl.Vertex2f((size / 2.0), (size / 2.0))
gl.TexCoord2f(0.50, 0.0)
gl.Vertex2f((size / 2.0), -(size / 2.0))
gl.End()
gl.EndList()
}
gl.CallList(taxiLightDl)
}
default:
if lights.NavLights {
gl.Color4f(light.RGB_Float[0], light.RGB_Float[1], light.RGB_Float[2], light.RGB_Float[3])
if otherLightDl == 0 {
otherLightDl = gl.GenLists(1)
gl.NewList(otherLightDl, gl.COMPILE)
gl.Begin(gl.QUADS)
gl.TexCoord2f(0, 0.5)
gl.Vertex2f(-(size / 2.0), -(size / 2.0))
gl.TexCoord2f(0, 1.0)
gl.Vertex2f(-(size / 2.0), (size / 2.0))
gl.TexCoord2f(0.25, 1.0)
gl.Vertex2f((size / 2.0), (size / 2.0))
gl.TexCoord2f(0.25, 0.5)
gl.Vertex2f((size / 2.0), -(size / 2.0))
gl.End()
gl.EndList()
}
gl.CallList(otherLightDl)
}
}
}
func (self *DefaultRenderer) drawObj7Model(renderData *planeRenderData) {
if renderData.plane.CslAircraft.ObjInfo == nil {
//es wurde kein Objekt geladen --> nichts zeichnen
return
}
// Find out what LOD we need to draw
lodInfo := calculateLOD(renderData.plane.CslAircraft.ObjInfo, renderData.dist)
if lodInfo == nil {
//es wurde kein gutes LOD gefunden --> nichts zeichnen
return
}
//PointPool ist leer
if lodInfo.PointPool.Size() == 0 && lodInfo.Dl == 0 {
return
}
gl.MatrixMode(gl.MODELVIEW)
gl.PushMatrix()
gl.Translatef(renderData.x, renderData.y, renderData.z)
gl.Rotatef(renderData.plane.PositionData.Heading, 0.0, -1.0, 0.0)
gl.Rotatef(renderData.plane.PositionData.Pitch, 1.0, 0.0, 0.0)
gl.Rotatef(renderData.plane.PositionData.Roll, 0.0, 0.0, -1.0)
textureId, litTextureId := renderData.plane.TextureNum, renderData.plane.LitTextureNum
useNight := texture.TextureManagerInstance.UseLitTexture() && litTextureId != -1
texUnits := 1
if useNight {
texUnits++
} else {
litTextureId = -1
}
graphics.SetGraphicsState(true, texUnits, true, true, true, true, true)
graphics.BindTexture2d(textureId, 0)
if litTextureId != -1 {
graphics.BindTexture2d(litTextureId, 1)
}
gl.TexEnvi(gl.TEXTURE_ENV, gl.TEXTURE_ENV_MODE, gl.MODULATE)
if litTextureId != -1 {
gl.ActiveTextureARB(gl.TEXTURE1)
gl.TexEnvi(gl.TEXTURE_ENV, gl.TEXTURE_ENV_MODE, gl.ADD)
gl.ActiveTextureARB(gl.TEXTURE0)
}
if lodInfo.Dl == 0 {
lodInfo.Dl = gl.GenLists(1)
var xpBuffer int32
// See if the card even has VBO. If it does, save xplane's pointer
// and bind to 0 for us.
gl.GetIntegerv(gl.ARRAY_BUFFER_BINDING_ARB, &xpBuffer)
gl.BindBufferARB(gl.ARRAY_BUFFER_ARB, 0)
// Save XPlanes OpenGL state
gl.PushClientAttrib(gl.CLIENT_ALL_ATTRIB_BITS)
// Setup OpenGL pointers to our pool
lodInfo.PointPool.PreparePoolToDraw()
// Enable vertex data sucking
gl.EnableClientState(gl.VERTEX_ARRAY)
// Enable normal array sucking
gl.EnableClientState(gl.NORMAL_ARRAY)
// Enable texture coordinate data sucking
gl.ClientActiveTextureARB(gl.TEXTURE1)
gl.EnableClientState(gl.TEXTURE_COORD_ARRAY)
gl.ClientActiveTextureARB(gl.TEXTURE0)
gl.EnableClientState(gl.TEXTURE_COORD_ARRAY)
// Disable colors - maybe x-plane left it around.
gl.DisableClientState(gl.COLOR_ARRAY)
gl.NewList(lodInfo.Dl, gl.COMPILE)
// Kick OpenGL and draw baby!
gl.DrawElements(gl.TRIANGLES, int32(len(lodInfo.TriangleList)), gl.UNSIGNED_INT, unsafe.Pointer(&(lodInfo.TriangleList[0])))
gl.EndList()
// Disable vertex data sucking
gl.DisableClientState(gl.VERTEX_ARRAY)
// Disable texture coordinate data sucking
gl.DisableClientState(gl.TEXTURE_COORD_ARRAY)
// Disable normal array sucking
gl.DisableClientState(gl.NORMAL_ARRAY)
// Restore Xplane's OpenGL State
gl.PopClientAttrib()
// If we bound before, we need to put xplane back where it was
gl.BindBufferARB(gl.ARRAY_BUFFER_ARB, uint32(xpBuffer))
lodInfo.TriangleList = make([]int32, 0)
lodInfo.PointPool.Purge()
}
gl.CallList(lodInfo.Dl)
gl.PopMatrix()
}