forked from bartvdbraak/blender
188 lines
6.3 KiB
Python
188 lines
6.3 KiB
Python
# $Id$
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# Documentation for Camera game objects.
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from KX_GameObject import *
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class KX_Camera(KX_GameObject):
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"""
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A Camera object.
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@group Constants: INSIDE, INTERSECT, OUTSIDE
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@ivar INSIDE: see sphereInsideFrustum() and boxInsideFrustum()
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@ivar INTERSECT: see sphereInsideFrustum() and boxInsideFrustum()
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@ivar OUTSIDE: see sphereInsideFrustum() and boxInsideFrustum()
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@ivar lens: The camera's lens value.
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@type lens: float
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@ivar near: The camera's near clip distance.
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@type near: float
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@ivar far: The camera's far clip distance.
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@type far: float
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@ivar perspective: True if this camera has a perspective transform.
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If perspective is False, this camera has an orthographic transform.
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Note that the orthographic transform is faked by multiplying the lens attribute
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by 100.0 and translating the camera 100.0 along the z axis.
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This is the same as Blender. If you want a true orthographic transform, see L{setProjectionMatrix}.
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@type perspective: boolean
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@ivar frustum_culling: True if this camera is frustum culling.
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@type frustum_culling: boolean
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@ivar projection_matrix: This camera's 4x4 projection matrix.
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@type projection_matrix: 4x4 Matrix [[float]]
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@ivar modelview_matrix: This camera's 4x4 model view matrix. (read only)
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Regenerated every frame from the camera's position and orientation.
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@type modelview_matrix: 4x4 Matrix [[float]]
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@ivar camera_to_world: This camera's camera to world transform. (read only)
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Regenerated every frame from the camera's position and orientation.
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@type camera_to_world: 4x4 Matrix [[float]]
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@ivar world_to_camera: This camera's world to camera transform. (read only)
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Regenerated every frame from the camera's position and orientation.
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This is camera_to_world inverted.
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@type world_to_camera: 4x4 Matrix [[float]]
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"""
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def sphereInsideFrustum(centre, radius):
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"""
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Tests the given sphere against the view frustum.
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@param centre: The centre of the sphere (in world coordinates.)
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@type centre: list [x, y, z]
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@param radius: the radius of the sphere
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@type radius: float
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@return: INSIDE, OUTSIDE or INTERSECT
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Example::
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import GameLogic
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co = GameLogic.getCurrentController()
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cam = co.GetOwner()
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# A sphere of radius 4.0 located at [x, y, z] = [1.0, 1.0, 1.0]
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if (cam.sphereInsideFrustum([1.0, 1.0, 1.0], 4) != cam.OUTSIDE):
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# Sphere is inside frustum !
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# Do something useful !
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else:
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# Sphere is outside frustum
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"""
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def boxInsideFrustum(box):
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"""
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Tests the given box against the view frustum.
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Example::
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import GameLogic
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co = GameLogic.getCurrentController()
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cam = co.GetOwner()
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# Box to test...
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box = []
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box.append([-1.0, -1.0, -1.0])
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box.append([-1.0, -1.0, 1.0])
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box.append([-1.0, 1.0, -1.0])
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box.append([-1.0, 1.0, 1.0])
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box.append([ 1.0, -1.0, -1.0])
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box.append([ 1.0, -1.0, 1.0])
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box.append([ 1.0, 1.0, -1.0])
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box.append([ 1.0, 1.0, 1.0])
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if (cam.boxInsideFrustum(box) != cam.OUTSIDE):
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# Box is inside/intersects frustum !
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# Do something useful !
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else:
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# Box is outside the frustum !
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@return: INSIDE, OUTSIDE or INTERSECT
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@type box: list
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@param box: Eight (8) corner points of the box (in world coordinates.)
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"""
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def pointInsideFrustum(point):
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"""
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Tests the given point against the view frustum.
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Example::
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import GameLogic
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co = GameLogic.getCurrentController()
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cam = co.GetOwner()
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# Test point [0.0, 0.0, 0.0]
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if (cam.pointInsideFrustum([0.0, 0.0, 0.0])):
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# Point is inside frustum !
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# Do something useful !
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else:
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# Box is outside the frustum !
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@rtype: boolean
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@return: True if the given point is inside this camera's viewing frustum.
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@type point: [x, y, z]
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@param point: The point to test (in world coordinates.)
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"""
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def getCameraToWorld():
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"""
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Returns the camera-to-world transform.
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@rtype: matrix (4x4 list)
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@return: the camera-to-world transform matrix.
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"""
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def getWorldToCamera():
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"""
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Returns the world-to-camera transform.
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This returns the inverse matrix of getCameraToWorld().
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@rtype: matrix (4x4 list)
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@return: the world-to-camera transform matrix.
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"""
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def getProjectionMatrix():
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"""
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Returns the camera's projection matrix.
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@rtype: matrix (4x4 list)
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@return: the camera's projection matrix.
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"""
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def setProjectionMatrix(matrix):
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"""
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Sets the camera's projection matrix.
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You should use normalised device coordinates for the clipping planes:
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left = -1.0, right = 1.0, top = 1.0, bottom = -1.0, near = cam.near, far = cam.far
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Example::
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import GameLogic
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def Scale(matrix, size):
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for y in range(4):
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for x in range(4):
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matrix[y][x] = matrix[y][x] * size[y]
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return matrix
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# Generate a perspective projection matrix
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def Perspective(cam):
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return [[cam.near, 0.0 , 0.0 , 0.0 ],
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[0.0 , cam.near, 0.0 , 0.0 ],
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[0.0 , 0.0 , -(cam.far+cam.near)/(cam.far-cam.near), -2.0*cam.far*cam.near/(cam.far - cam.near)],
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[0.0 , 0.0 , -1.0 , 0.0 ]]
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# Generate an orthographic projection matrix
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# You will need to scale the camera
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def Orthographic(cam):
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return [[1.0/cam.scaling[0], 0.0 , 0.0 , 0.0 ],
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[0.0 , 1.0/cam.scaling[1], 0.0 , 0.0 ],
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[0.0 , 0.0 , -2.0/(cam.far-cam.near), -(cam.far+cam.near)/(cam.far-cam.near)],
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[0.0 , 0.0 , 0.0 , 1.0 ]]
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# Generate an isometric projection matrix
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def Isometric(cam):
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return Scale([[0.707, 0.0 , 0.707, 0.0],
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[0.408, 0.816,-0.408, 0.0],
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[0.0 , 0.0 , 0.0 , 0.0],
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[0.0 , 0.0 , 0.0 , 1.0]],
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[1.0/cam.scaling[0], 1.0/cam.scaling[1], 1.0/cam.scaling[2], 1.0])
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co = GameLogic.getCurrentController()
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cam = co.getOwner()
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cam.setProjectionMatrix(Perspective(cam)))
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@type matrix: 4x4 matrix.
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@param matrix: The new projection matrix for this camera.
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"""
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