How to get horizontal field of view angle?
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On 05/07/2017 at 03:57, xxxxxxxx wrote:
How do I get the horizontal field of view angle of the current view?
My first attempt looks like this:
import c4d def main() : doc = c4d.documents.GetActiveDocument() rbd = doc.GetRenderBaseDraw() cameraObject = rbd.GetSceneCamera(doc) print("cameraObject[c4d.CAMERAOBJECT_FOV] = " + str(cameraObject[c4d.CAMERAOBJECT_FOV])) print("cameraObject[c4d.CAMERAOBJECT_FOV_VERTICAL] = " + str(cameraObject[c4d.CAMERAOBJECT_FOV_VERTICAL])) fov2 = (360.0 / (2 * 3.1415926535897932384626433832795)) * cameraObject[c4d.CAMERAOBJECT_FOV] print("Horizontal fov in deg: " + str(fov2)) if __name__=='__main__': main()_<_img src="http://vertexwahn.de/c4dfov.png" height="1400" width="2560" border="0" /_>_
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On 05/07/2017 at 07:20, xxxxxxxx wrote:
First attempt to compute the "big" fov:
import c4d import math def main() : doc = c4d.documents.GetActiveDocument() rbd = doc.GetRenderBaseDraw() cameraObject = rbd.GetSceneCamera(doc) bd = doc.GetRenderBaseDraw() frame = bd.GetFrame() xresolution = frame["cr"] - frame["cl"] + 1 yresolution = frame["cb"] - frame["ct"] +1 renderData = doc.GetActiveRenderData() renderDataBc = renderData.GetDataInstance() smallFov = cameraObject[c4d.CAMERAOBJECT_FOV] print("SmallFov = " + str(c4d.utils.Deg(smallFov))) bigFov = (smallFov / renderDataBc[c4d.RDATA_XRES]) * xresolution print("BigFov = " + str(c4d.utils.Deg(bigFov))) if __name__=='__main__': main()Situation is better now, but it does not fit perfectly
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On 05/07/2017 at 07:26, xxxxxxxx wrote:
_<_img src="http://vertexwahn.de/c4dbigfov.png" height="1388" width="1772" border="0" /_>_
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On 05/07/2017 at 08:08, xxxxxxxx wrote:
Changed my computation - see bigFov2
import c4d import math def main() : doc = c4d.documents.GetActiveDocument() rbd = doc.GetRenderBaseDraw() cameraObject = rbd.GetSceneCamera(doc) bd = doc.GetRenderBaseDraw() frame = bd.GetFrame() xresolution = frame["cr"] - frame["cl"] + 1 yresolution = frame["cb"] - frame["ct"] +1 renderData = doc.GetActiveRenderData() renderDataBc = renderData.GetDataInstance() smallFov = cameraObject[c4d.CAMERAOBJECT_FOV] print("SmallFov = " + str(c4d.utils.Deg(smallFov))) bigFov = (smallFov / renderDataBc[c4d.RDATA_XRES]) * xresolution print("BigFov = " + str(c4d.utils.Deg(bigFov))) imagePlaneDistance = (renderDataBc[c4d.RDATA_XRES]*0.5) / math.tan(smallFov * 0.5) print(imagePlaneDistance) bigFov2 = math.atan( (xresolution*0.5) / (imagePlaneDistance) ) * 2 print("BigFov2 = " + str(c4d.utils.Deg(bigFov2))) if __name__=='__main__': main()no everything looks better:
Is there maybe a better/more clean way to find out the "Big" fov. I am a bit confused by the different image plane sizes ( renderDataBc[c4d.RDATA_XRES] vs. xresolution = frame["cr"] - frame["cl"] + 1
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On 06/07/2017 at 09:19, xxxxxxxx wrote:
Hi,
welcome to the Plugin Café forums
Your very last question first:
The sizes are different, because in render settings (RenderData) it is the actual size of the final render. The view port on the other hand may have completely different aspect ratio, that's why there are the grey areas on the left and right (or top and bottom). And of course the resolution of the view port is also completely different (in most cases) from the final render resolution. The part of the view port which matches the final render (the non grey part) is returned by GetSafeFrame() instead of GetFrame().In order to get the FOV for the of the entire view port (yellow line in your first screenshot), I'd actually cheat by cloning the current render settings, setting its resolution to the size returned by GetFrame() and making it active. Then you could use your first code snippet. Afterwards throw away the extra render settings and make the previous one active again.