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.\" RCSid goes here.
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.TH "RLUX" "1" "16/01/2011" "RADIANCE" ""
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.SH "NAME"
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rlux \- compute illuminance from ray origin and direction
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.SH "SYNOPSIS"
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.B rlux
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[
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.B rtrace args
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]
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.B octree
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.SH "DESCRIPTION"
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The
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.I ximage
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command can output certain information about the pixel under the cursor.
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This is configurable with the
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.I \-o
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command line option. The default setting is \-ood, which outputs
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the ray origin and ray direction. This output can be directly passed to
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.I rtrace
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which, in combination, with the original octree that the image was rendered
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from, can compute the irradiance at this pixel for the red, green and blue channels.
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This is essentially what
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.I rlux
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does, but it additionally converts the RGB irradiance output from
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.I rtrace,
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which is in W/m2/sr, into the corresponding illuminance, given in lux.
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.SH "EXAMPLES"
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To calculate the RGB irradiance for a certain pixel in an HDR picture
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.IP "" .2i
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ximage nice.hdr | rtrace \-i+ \-dv \-h\- \-ab 3 scene.oct
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.PP
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Now left\-click on a pixel and press the 't' key in ximage, or middle\-click.
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To do the same, but output the illuminance
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.IP "" .2i
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ximage nice.hdr | rtrace \-i+ \-dv \-h\- \-ab 3 scene.oct | rcalc \-e '$1=47.4*$1+120*$2+11.6*$3' \-u
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.PP
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To let rlux do all the work. This is equivalent to the previous example.
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.IP "" .2i
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ximage nice.hdr | rlux \-ab 3 scene.oct
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.SH "SEE ALSO"
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ximage(1), rtrace(1), rcalc(1)
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