def build(self): effectName = self.effecName if not self.effecName: effectName = "marker.fx" effectPath = d3d11x.getResourceDir(".", "effects/marker.fx") self.effect = d3d11.Effect(effectPath) #Input layout for the effect. Valid when technique index == 0 and it's pass index == 0 or #the pass's input signature is compatible with that combination. self.inputLayout = d3d11.InputLayout(g_vertexDesc, self.effect, 0, 0)
def setDesc(self, desc): self.desc = desc effectPath = d3d11x.getResourceDir(".", self.desc.effect) self.effect = d3d11.Effect(effectPath) self.vertexDesc = self.desc.vtdesc print self.desc.effect, self.vertexDesc print self.effect #Input layout for the effect. Valid when technique index == 0 and it's pass index == 0 or #the pass's input signature is compatible with that combination. self.inputLayout = d3d11.InputLayout(self.vertexDesc, self.effect, 0, 0)
def build(self): effectName = self.effecName if not self.effecName: effectName = "marker.fx" effectPath = d3d11x.getResourceDir(".", "effects/marker.fx") self.effect = d3d11.Effect(effectPath) #Input layout for the effect. Valid when technique index == 0 and it's pass index == 0 or #the pass's input signature is compatible with that combination. self.inputLayout = d3d11.InputLayout(g_vertexDesc, self.effect, 0, 0) vertexData = [] for i in xrange(self.gridx + 1): if i % 2 == 0: vertexData.append((0, 0, i * self.gridsize, 1, 1, 1, 1)) vertexData.append( (self.width, 0, i * self.gridsize, 1, 1, 1, 1)) else: vertexData.append( (self.width, 0, i * self.gridsize, 1, 1, 1, 1)) vertexData.append((0, 0, i * self.gridsize, 1, 1, 1, 1)) for i in xrange(self.gridy + 1): if self.height % 2 == 0: if i % 2 == 0: vertexData.append( (i * self.gridsize, 0, self.height, 1, 1, 1, 1)) vertexData.append((i * self.gridsize, 0, 0, 1, 1, 1, 1)) else: vertexData.append((i * self.gridsize, 0, 0, 1, 1, 1, 1)) vertexData.append( (i * self.gridsize, 0, self.height, 1, 1, 1, 1)) else: if i % 2 == 0: vertexData.append(((self.width - i) * self.gridsize, 0, self.height, 1, 1, 1, 1)) vertexData.append( ((self.width - i) * self.gridsize, 0, 0, 1, 1, 1, 1)) else: vertexData.append( ((self.width - i) * self.gridsize, 0, 0, 1, 1, 1, 1)) vertexData.append(((self.width - i) * self.gridsize, 0, self.height, 1, 1, 1, 1)) self.vertexBuffer = d3d11.Buffer( g_vertexDesc, vertexData, # D3D11_SUBRESOURCE_DATA BIND_VERTEX_BUFFER, # D3D11_BUFFER_DESC.BinadFlags USAGE_DYNAMIC, # D3D11_BUFFER_DESC.Usage CPU_ACCESS_WRITE, # D3D11_BUFFER_DESC.CPUAccessFlags )
def __init__(self, parent, id, title, pos, size=(800, 600)): wx.Frame.__init__(self, parent, id, title, pos, size) self.mainpanel = wx.Panel(self, -1, size=(800, 600)) self.mainpanel.SetAutoLayout(True) self.leftwindow = wx.Panel(self.mainpanel, -1, (10, 10), (380, 450)) self.leftwindow.SetBackgroundColour(wx.WHITE) self.leftwindow.SetConstraints( anchors.LayoutAnchors(self.leftwindow, True, True, True, True)) self.rightwindow = wx.Panel(self.mainpanel, -1, (400, 10), (380, 450)) self.rightwindow.SetBackgroundColour(wx.WHITE) self.rightwindow.SetConstraints( anchors.LayoutAnchors(self.rightwindow, False, True, True, True)) playvideo = wx.Button(self.mainpanel, -1, "Play media on this window...", (500, 500)) playvideo.SetConstraints( anchors.LayoutAnchors(playvideo, False, False, True, True)) self.Bind(wx.EVT_BUTTON, self.playVideo, playvideo) #Create a DirectPython window from an existing wxPython window. tempWindow = d3d11.Window(handle=self.leftwindow.GetHandle()) #Create our resources. Note that if the size of the window #changes, you should call self.device.reset(). self.device = d3d11.Device(tempWindow, DRIVER_TYPE_WARP) self.effect = d3d11.Effect( d3d11x.getResourceDir("Effects", "Tutorial2.fx")) self.inputLayout = d3d11.InputLayout(vertexDesc, self.effect, 0, 0) self.vertexBuffer = d3d11.Buffer(vertexDesc, triangle, BIND_VERTEX_BUFFER) #We need to detach() the window. This means that it is up to #us (or wxPython) to mange the window from now on. tempWindow.detach() self.media = None self.Bind(wx.EVT_PAINT, self.onPaint) self.Bind(wx.EVT_TIMER, self.onTimer) self.Bind(wx.EVT_IDLE, self.onIdle) self.leftwindow.Bind(wx.EVT_SIZE, self.onSize) #Use a timer for rendering. It is not a very smooth #solution, you might want to tweak the time interval #or do something else, now it is jerky. self.timer = wx.Timer(self) self.timer.Start(10)
def onCreate(self): self.renderTarget = None self.renderTargetView = None meshPath = d3d11x.getResourceDir("Mesh", "barrel.obj") self.mesh = d3d11x.Mesh(self.device, meshPath) self.mesh.textureView = self.loadTextureView("static-barrel.dds") self.skyBox = d3d11x.SkyBox(self.device) self.skyBox.textureView = self.loadTextureView("skybox-clear.dds") effectPath = d3d11x.getResourceDir("Effects", "SamplePostProcess.fx") self.postEffect = d3d11.Effect(effectPath) self.postInputLayout = d3d11.InputLayout(vertexLayoutDesc, self.postEffect, 0, 0) #Vertex buffer for 2D stuff. self.vertexBuffer = d3d11.Buffer(vertexLayoutDesc, 32, BIND_VERTEX_BUFFER, USAGE_DYNAMIC, CPU_ACCESS_WRITE)
def onCreate(self): self.heightmap = d3d11x.HeightMap(self.device, None, (32, 32), heightFunc, (2, 1, 2), (10, 10), False) self.heightmap.textureView = self.loadTextureView("ground-marble.dds") effectPath = d3d11x.getResourceDir("Effects", "SampleSprites.fx") self.spriteEffect = d3d11.Effect(effectPath) self.spriteInputLayout = d3d11.InputLayout(spriteLayoutDesc, self.spriteEffect, 0, 0) self.spriteTexture = self.loadTextureView("misc-particle.dds") self.camera = d3d11x.Camera() #Create a dynamic vertex buffer for our sprites. Double the #size for shadow sprites. self.spriteBuffer = d3d11.Buffer(spriteLayoutDesc, POINT_COUNT * 2, BIND_VERTEX_BUFFER, USAGE_DYNAMIC, CPU_ACCESS_WRITE) self.points = []
triangle = [ (-5, 0, 0) + (1, 0, 0, 1), #Red vertex. (0, 10, 0) + (0, 1, 0, 1), #Green vertex. (5, 0, 0) + (0, 0, 1, 1), #Blue vertex. ] vertices = [] for p in cdata.Box: vertices.append((p[0], p[1], p[2], 1, 1, 1, 1)) #Effect for rendering. The file contains trivial vertex- and pixel-shader. effect = d3d11.Effect(d3d11x.getResourceDir("Effects", "simple.fx")) #Input layout for the effect. Valid when technique index == 0 and it's pass index == 0 or #the pass's input signature is compatible with that combination. inputLayout = d3d11.InputLayout(vertexDesc, effect, 0, 0) #Create a hardware buffer to hold our triangle. vertexBuffer = d3d11.Buffer(vertexDesc, vertices, BIND_VERTEX_BUFFER) #Precalculate view matrix. Eye position is (0, 5, -15) and it is looking at (0, 5, 0). (0, 1, 0) points up. viewMatrix = d3d11.Matrix() viewMatrix.lookAt((0, 5, -15), (0, 5, 0), (0, 1, 0)) def mainloop(): while 1: #Check all new messages. for msg in window.getMessages(): if msg.code == WM_DESTROY: #Close the application.