コード例 #1
0
        private bool Idle()
        {
            if (GorgonTiming.SecondsSinceStart > 30)
            {
                GorgonDialogs.InfoBox(this, string.Format("{0} text objects created.  None survived.", _textCount));
                return(false);
            }

            ++_textCount;
            // This is for testing, for the love of all that is good and holy, do NOT do this in your code.
            GorgonText text = _2d.Renderables.CreateText("Test", _font, string.Format("This is a test.  When object #{0} goes out of scope, the event should unbind because of WeakEventManager.", _textCount));


            _swap.Clear(Color.CornflowerBlue);

            text.Position = new SlimMath.Vector2(50, 50);
            text.Color    = Color.Yellow;
            text.Draw();

            if (_debug.Objects.Count > 512)
            {
                _debug.GcTest();
            }


            _debug.Objects.Add(new WeakReference <GorgonText>(text));

            _2d.Render();
            _swap.Flip(1);

            return(true);
        }
コード例 #2
0
ファイル: Program.cs プロジェクト: tmp7701/Gorgon
        /// <summary>
        /// Function to handle idle time for the application.
        /// </summary>
        /// <returns>TRUE to continue processing, FALSE to stop.</returns>
        private static bool Idle()
        {
            // Clear the swap chain.
            _swap.Clear(_clearColor);

            // Animate our clear color so we have something to look at instead of a blank screen.
            _clearColor = new GorgonColor(
                _clearColor.Red + (GorgonTiming.Delta * _colorDirection * 0.0125f),
                _clearColor.Green + (GorgonTiming.Delta * _colorDirection * 0.0125f),
                _clearColor.Blue + (GorgonTiming.Delta * _colorDirection * 0.0125f)
                );

            if (((_clearColor.Red > (250.0f / 255.0f)) || (_clearColor.Red < (25.0f / 255.0f))) &&
                ((_clearColor.Green > (245.0f / 255.0f)) || (_clearColor.Green < (24.5f / 255.0f))) &&
                ((_clearColor.Blue > (220.0f / 255.0f)) || (_clearColor.Blue < (22.0f / 255.0f))))
            {
                _colorDirection *= -1;

                // Ensure that we don't get stuck.
                _clearColor = _colorDirection < 0
                                        ? new GorgonColor(250.0f / 255.0f, 245f / 255.0f, 220f / 255.0f)
                                        : new GorgonColor(25.0f / 255.0f, 24.5f / 255.0f, 22.0f / 255.0f);
            }

            // Now we flip our buffers on the swap chain.
            // We need to this or we won't see anything.
            // Note that we can limit this to flip on a specified number of vertical retraces.  This
            // will enable us to lock the frame rate to that of the refresh rate of the monitor.
            _swap.Flip();

            return(true);
        }
コード例 #3
0
        public void BouncyBalls3D()
        {
            Gorgon.Run(_form, () =>
            {
                _swap.Clear(Color.Black);
                for (int i = 0; i < Count; i++)
                {
                    _balls[i].Angle += _balls[i].AngleDelta * GorgonTiming.Delta;

                    if (_balls[i].Angle > 360.0f)
                    {
                        _balls[i].Angle      = _balls[i].Angle - 360.0f;
                        _balls[i].AngleDelta = GorgonRandom.RandomSingle() * 90.0f;
                    }

                    if ((_balls[i].ScaleBouce) || (!_balls[i].ZBounce))
                    {
                        _balls[i].Color.W -= _balls[i].Velocity.Z * GorgonTiming.Delta;
                    }
                    else
                    {
                        _balls[i].Color.W += _balls[i].Velocity.Z * GorgonTiming.Delta;
                    }

                    if (_balls[i].Color.W > 1.0f)
                    {
                        _balls[i].Color.W = 1.0f;
                    }

                    if (_balls[i].Color.W < 0.0f)
                    {
                        _balls[i].Color.W = 0.0f;
                        _balls[i].Color   = new Vector4((GorgonRandom.RandomSingle() * 0.961f) + 0.039f,
                                                        (GorgonRandom.RandomSingle() * 0.961f) + 0.039f,
                                                        (GorgonRandom.RandomSingle() * 0.961f) + 0.039f, 0.0f);
                    }

                    if (_balls[i].YBounce)
                    {
                        _balls[i].Position.Y -= (_balls[i].Velocity.Y * GorgonTiming.Delta);
                    }
                    else
                    {
                        _balls[i].Position.Y += (_balls[i].Velocity.Y * GorgonTiming.Delta);
                    }

                    if (_balls[i].XBounce)
                    {
                        _balls[i].Position.X -= (_balls[i].Velocity.X * GorgonTiming.Delta);
                    }
                    else
                    {
                        _balls[i].Position.X += (_balls[i].Velocity.X * GorgonTiming.Delta);
                    }
                    if (_balls[i].ZBounce)
                    {
                        _balls[i].Position.Z -= (_balls[i].Velocity.Z * GorgonTiming.Delta);
                    }
                    else
                    {
                        _balls[i].Position.Z += (_balls[i].Velocity.Z * GorgonTiming.Delta);
                    }

                    if (_balls[i].Position.X > (1.0f * _aspect))
                    {
                        _balls[i].Position.X = (1.0f * _aspect);
                        _balls[i].Velocity.X = (GorgonRandom.RandomSingle() * 0.5f);
                        _balls[i].XBounce    = !_balls[i].XBounce;
                    }
                    if (_balls[i].Position.Y > (1.0f * _aspect))
                    {
                        _balls[i].Position.Y = (1.0f * _aspect);
                        _balls[i].Velocity.Y = (GorgonRandom.RandomSingle() * 0.5f);
                        _balls[i].YBounce    = !_balls[i].YBounce;
                    }

                    if (_balls[i].Position.X < (-1.0f * _aspect))
                    {
                        _balls[i].Position.X = (-1.0f * _aspect);
                        _balls[i].Velocity.X = GorgonRandom.RandomSingle() * 0.5f;
                        _balls[i].XBounce    = !_balls[i].XBounce;
                    }
                    if (_balls[i].Position.Y < (-1.0f * _aspect))
                    {
                        _balls[i].Position.Y = (-1.0f * _aspect);
                        _balls[i].Velocity.Y = GorgonRandom.RandomSingle() * 0.5f;
                        _balls[i].YBounce    = !_balls[i].YBounce;
                    }


                    if (_balls[i].Position.Z < -1.0f)
                    {
                        _balls[i].Position.Z = -1.0f;
                        _balls[i].Velocity.Z = GorgonRandom.RandomSingle() * 0.5f;
                        _balls[i].ZBounce    = !_balls[i].ZBounce;
                    }

                    if (!(_balls[i].Position.Z > 1.0f))
                    {
                        continue;
                    }

                    _balls[i].Position.Z = 1.0f;
                    _balls[i].Velocity.Z = GorgonRandom.RandomSingle() * 0.5f;
                    _balls[i].ZBounce    = !_balls[i].ZBounce;
                }

                var sortPos = _balls.OrderByDescending(item => item.Position.Z).ToArray();

                for (int i = 0; i < Count * 4; i += 4)
                {
                    int arrayindex = i / 4;

                    Matrix world;
                    if (_3d)
                    {
                        Quaternion rot = Quaternion.RotationYawPitchRoll(sortPos[arrayindex].Angle.Cos(), -sortPos[arrayindex].Angle.Sin() * 2.0f, -sortPos[arrayindex].Angle);
                        Matrix.RotationQuaternion(ref rot, out world);
                    }
                    else
                    {
                        world = Matrix.RotationZ(-sortPos[arrayindex].Angle);
                    }
                    world = world * (Matrix.Scaling(sortPos[arrayindex].Scale, sortPos[arrayindex].Scale, 1.0f)) *
                            Matrix.Translation(sortPos[arrayindex].Position.X, sortPos[arrayindex].Position.Y,
                                               sortPos[arrayindex].Position.Z);
                    Matrix trans;
                    Matrix.Multiply(ref world, ref pvw, out trans);

                    _sprite[i].Color = new GorgonColor(sortPos[arrayindex].Color);

                    _sprite[i + 1].Color = _sprite[i].Color;
                    _sprite[i + 2].Color = _sprite[i].Color;
                    _sprite[i + 3].Color = _sprite[i].Color;

                    _sprite[i].Position     = Vector3.Transform(new Vector3(-0.1401f, 0.1401f, 0.0f), trans);
                    _sprite[i + 1].Position = Vector3.Transform(new Vector3(0.1401f, 0.1401f, 0.0f), trans);
                    _sprite[i + 2].Position = Vector3.Transform(new Vector3(-0.1401f, -0.1401f, 0.0f), trans);
                    _sprite[i + 3].Position = Vector3.Transform(new Vector3(0.1401f, -0.1401f, 0.0f), trans);

                    if (sortPos[arrayindex].Checkered)
                    {
                        _sprite[i].UV     = new Vector2(0.503f, 0.0f);
                        _sprite[i + 1].UV = new Vector2(1.0f, 0.0f);
                        _sprite[i + 2].UV = new Vector2(0.503f, 0.5f);
                        _sprite[i + 3].UV = new Vector2(1.0f, 0.5f);
                    }
                    else
                    {
                        _sprite[i].UV     = new Vector2(0.0f, 0.503f);
                        _sprite[i + 1].UV = new Vector2(0.5f, 0.503f);
                        _sprite[i + 2].UV = new Vector2(0.0f, 1.0f);
                        _sprite[i + 3].UV = new Vector2(0.5f, 1.0f);
                    }
                }

                using (GorgonDataStream vstream = _vertices.Lock(BufferLockFlags.Write | BufferLockFlags.Discard))
                {
                    vstream.WriteRange(_sprite);
                    _vertices.Unlock();
                }

                _graphics.Output.DrawIndexed(0, 0, 6 * Count);

                _swap.Flip();

                _form.Text = string.Format("FPS: {0:0.0}  DT: {1:0.000}ms", GorgonTiming.FPS, GorgonTiming.Delta * 1000);

                return(true);
            });

            Assert.IsTrue(_form.TestResult == DialogResult.Yes);
        }
コード例 #4
0
        /// <summary>
        /// Main application loop.
        /// </summary>
        /// <returns>TRUE to continue processing, FALSE to stop.</returns>
        private static bool Idle()
        {
            Matrix world;

            _swapChain.Clear(Color.CornflowerBlue, 1.0f);

            _cloudRotation += 2.0f * GorgonTiming.Delta;
            _objRotation   += 50.0f * GorgonTiming.Delta;

            if (_cloudRotation > 359.9f)
            {
                _cloudRotation -= 359.9f;
            }

            if (_objRotation > 359.9f)
            {
                _objRotation -= 359.9f;
            }

            ProcessKeys();

            _material.UVOffset = new Vector2(0, _material.UVOffset.Y - 0.125f * GorgonTiming.Delta);

            _graphics.Shaders.PixelShader.Current = _waterShader;

            if (_material.UVOffset.Y < 0.0f)
            {
                _material.UVOffset = new Vector2(0, 1.0f + _material.UVOffset.Y);
            }

            _materialBuffer.Update(ref _material);

            world = _triangle.World;
            _wvp.UpdateWorldMatrix(ref world);

            _graphics.Shaders.PixelShader.Resources[0] = _triangle.Texture;
            _graphics.Shaders.PixelShader.Resources[1] = _normalMap;
            _graphics.Shaders.PixelShader.Resources[2] = _specMap;
            _graphics.Input.VertexBuffers[0]           = new GorgonVertexBufferBinding(_triangle.VertexBuffer, Vertex3D.Size);
            _graphics.Input.IndexBuffer   = _triangle.IndexBuffer;
            _graphics.Input.PrimitiveType = _triangle.PrimitiveType;

            _graphics.Output.DrawIndexed(0, 0, _triangle.IndexCount);

            //_plane.Rotation = new Vector3(_objRotation, 0, 0);
            world = _plane.World;
            _wvp.UpdateWorldMatrix(ref world);

            _graphics.Shaders.PixelShader.Resources[0] = _plane.Texture;
            _graphics.Input.VertexBuffers[0]           = new GorgonVertexBufferBinding(_plane.VertexBuffer, Vertex3D.Size);
            _graphics.Input.IndexBuffer   = _plane.IndexBuffer;
            _graphics.Input.PrimitiveType = _plane.PrimitiveType;

            _graphics.Output.DrawIndexed(0, 0, _plane.IndexCount);


            var worldRot = _icoSphere.Rotation;

            worldRot.Y         += 4.0f * GorgonTiming.Delta;
            _icoSphere.Rotation = worldRot;
            world = _icoSphere.World;
            _wvp.UpdateWorldMatrix(ref world);
            _graphics.Shaders.PixelShader.Current      = _bumpShader;
            _graphics.Shaders.PixelShader.Resources[0] = _icoSphere.Texture;
            _graphics.Shaders.PixelShader.Resources[1] = _normalEarfMap;
            _graphics.Shaders.PixelShader.Resources[2] = _specEarfMap;
            _graphics.Input.VertexBuffers[0]           = new GorgonVertexBufferBinding(_icoSphere.VertexBuffer, Vertex3D.Size);
            _graphics.Input.IndexBuffer   = _icoSphere.IndexBuffer;
            _graphics.Input.PrimitiveType = _icoSphere.PrimitiveType;

            _graphics.Output.DrawIndexed(0, 0, _icoSphere.IndexCount);

            var cubeMat = new Material
            {
                UVOffset      = Vector2.Zero,
                SpecularPower = 0.0f
            };

            _materialBuffer.Update(ref cubeMat);

            _cube.Rotation = new Vector3(_objRotation, _objRotation, _objRotation);
            world          = _cube.World;
            _wvp.UpdateWorldMatrix(ref world);
            _graphics.Shaders.PixelShader.Resources[0] = _cube.Texture;
            _graphics.Shaders.PixelShader.Resources[1] = _gorgNrm;

            _graphics.Input.VertexBuffers[0] = new GorgonVertexBufferBinding(_cube.VertexBuffer, Vertex3D.Size);
            _graphics.Input.IndexBuffer      = _cube.IndexBuffer;
            _graphics.Input.PrimitiveType    = _cube.PrimitiveType;

            _graphics.Output.DrawIndexed(0, 0, _cube.IndexCount);

            var sphereMat = new Material
            {
                UVOffset      = Vector2.Zero,
                SpecularPower = 0.75f
            };

            _materialBuffer.Update(ref sphereMat);

            _yPos            = (_objRotation.Radians().Sin().Abs() * 2.0f) - 1.10f;
            _sphere.Position = new Vector3(-2.0f, _yPos, 0.75f);
            _sphere.Rotation = new Vector3(_objRotation, _objRotation, 0);
            world            = _sphere.World;
            _wvp.UpdateWorldMatrix(ref world);

            _graphics.Shaders.PixelShader.Current      = _pixelShader;
            _graphics.Shaders.PixelShader.Resources[0] = _sphere.Texture;
            _graphics.Input.VertexBuffers[0]           = new GorgonVertexBufferBinding(_sphere.VertexBuffer, Vertex3D.Size);
            _graphics.Input.IndexBuffer   = _sphere.IndexBuffer;
            _graphics.Input.PrimitiveType = _sphere.PrimitiveType;

            _graphics.Output.DrawIndexed(0, 0, _sphere.IndexCount);

            sphereMat = new Material
            {
                UVOffset      = Vector2.Zero,
                SpecularPower = 0.0f
            };
            _materialBuffer.Update(ref sphereMat);

            _graphics.Shaders.PixelShader.Resources[0] = _clouds.Texture;
            _graphics.Input.VertexBuffers[0]           = new GorgonVertexBufferBinding(_clouds.VertexBuffer, Vertex3D.Size);
            _graphics.Input.IndexBuffer   = _clouds.IndexBuffer;
            _graphics.Input.PrimitiveType = _clouds.PrimitiveType;

            _clouds.Rotation = new Vector3(0, _cloudRotation, 0);
            world            = _clouds.World;
            _wvp.UpdateWorldMatrix(ref world);

            _graphics.Output.BlendingState.States = GorgonBlendStates.AdditiveBlending;

            _graphics.Output.DrawIndexed(0, 0, _clouds.IndexCount);

            _graphics.Output.BlendingState.States = GorgonBlendStates.NoBlending;

            world = _sphere.World;
            _wvp.UpdateWorldMatrix(ref world);
            _graphics.Input.Layout                 = _normalVertexLayout;
            _graphics.Input.PrimitiveType          = PrimitiveType.LineList;
            _graphics.Shaders.PixelShader.Current  = _normalPixelShader;
            _graphics.Shaders.VertexShader.Current = _normalVertexShader;
            _graphics.Input.IndexBuffer            = null;
            _graphics.Input.VertexBuffers[0]       = new GorgonVertexBufferBinding(_sphere.Normals, Vector4.SizeInBytes);

            _graphics.Output.Draw(0, _sphere.VertexCount * 2);

            _graphics.Input.Layout = _vertexLayout;
            _graphics.Shaders.VertexShader.Current = _vertexShader;

            var state = _renderer2D.Begin2D();

            _renderer2D.Drawing.DrawString(_font,
                                           string.Format(
                                               "FPS: {0:0.0}, Delta: {1:0.000} ms Tris: {3:0} CamRot: {2} Mouse: {4:0}x{5:0} Sensitivity: {6:0.0##}",
                                               GorgonTiming.FPS,
                                               GorgonTiming.Delta * 1000,
                                               _cameraRotation,
                                               (_triangle.TriangleCount) + (_plane.TriangleCount) + (_cube.TriangleCount) + (_sphere.TriangleCount) + (_icoSphere.TriangleCount) + (_clouds.TriangleCount),
                                               _mouse.Position.X,
                                               _mouse.Position.Y,
                                               _sensitivity),
                                           Vector2.Zero,
                                           Color.White);
            _renderer2D.Flush();
            _renderer2D.End2D(state);

            _swapChain.Flip();

            return(true);
        }
コード例 #5
0
ファイル: Program.cs プロジェクト: tmp7701/Gorgon
        /// <summary>
        /// Function to handle idle time for the application.
        /// </summary>
        /// <returns>TRUE to continue processing, FALSE to stop.</returns>
        private static bool Idle()
        {
            // Clear to our gray color.
            _swap.Clear(Color.FromArgb(173, 173, 173), 1.0f);

            // Animate the ball.
            UpdateBall();

            // Draw our planes.
            foreach (var plane in _planes)
            {
                plane.Draw();
            }

            // Draw the main sphere.
            _sphere.Draw();

            // Draw the sphere shadow first.
            var spherePosition = _sphere.Position;

            Graphics.Output.DepthStencilState.States = _noDepth;
            Graphics.Shaders.PixelShader.Current     = _pixelShaderShadow;
            _sphere.Position = new Vector3(spherePosition.X + 0.25f, spherePosition.Y - 0.125f, spherePosition.Z);
            _sphere.Draw();

            // Reset our sphere position, pixel shader and depth writing state.
            _sphere.Position = spherePosition;
            Graphics.Output.DepthStencilState.States = _depth;
            Graphics.Shaders.PixelShader.Current     = _pixelShader;

            // Draw our text.
            // Use this to show how incredibly slow and terrible my 3D code is.

            // Tell the 2D renderer to remember the current state of the 3D scene.
            _3DState = _2D.Begin2D();

            _2D.Drawing.FilledRectangle(new RectangleF(0, 0, _mainForm.ClientSize.Width - 1.0f, 38.0f), Color.FromArgb(128, 0, 0, 0));
            _2D.Drawing.DrawRectangle(new RectangleF(0, 0, _mainForm.ClientSize.Width, 38.0f), Color.White);
            _2D.Drawing.DrawString(Graphics.Fonts.DefaultFont,
                                   "FPS: " + GorgonTiming.AverageFPS.ToString("0.0")
                                   + "\nDelta: " + (GorgonTiming.AverageDelta * 1000.0f).ToString("0.0##") + " milliseconds",
                                   new Vector2(3.0f, 0.0f), GorgonColor.White);
            // Draw our logo because I'm insecure.
            _2D.Drawing.Blit(Graphics.Textures.GorgonLogo,
                             new RectangleF(_mainForm.ClientSize.Width - Graphics.Textures.GorgonLogo.Settings.Width,
                                            _mainForm.ClientSize.Height - Graphics.Textures.GorgonLogo.Settings.Height,
                                            Graphics.Textures.GorgonLogo.Settings.Width,
                                            Graphics.Textures.GorgonLogo.Settings.Height));

            // Note that we're rendering here but not flipping the buffer (the 'false' parameter).  This just delays the page
            // flipping until later.  Technically, we don't need to do this here because it's the last thing we're doing, but
            // if we had more rendering to do after, we'd have to flip manually.
            _2D.Flush();

            // Restore the 3D scene state.
            _2D.End2D(_3DState);

            // Now we flip our buffers.
            // We need to this or we won't see anything.
            _swap.Flip();

            return(true);
        }