Debug_Console=bool | Turn console display of debug info text on/off |
+GD | Same as Debug_Console=On |
-GD | Same as Debug_Console=Off |
Fatal_Console=bool | Turn console display of fatal error text on/off |
+GF | Same as Fatal_Console=On |
-GF | Same as Fatal_Console=Off |
Render_Console=bool | Turn console display of render info text on/off |
+GR | Same as Render_Console=On |
-GR | Same as Render_Console=Off |
Statistic_Console=bool | Turn console display of statistic text on/off |
+GS | Same as Statistic_Console=On |
-GS | Same as Statistic_Console=Off |
Warning_Console=bool | Turn console display of warning text on/off |
+GW | Same as Warning_Console=On |
-GW | Same as Warning_Console=Off |
All_Console=bool | Turn on/off all debug, fatal, render, statistic and warning text to console. |
+GA | Same as All_Console=On |
-GA | Same as All_Console=Off |
You may suppress the output to the console of the Debug, Fatal, Render, Statistic or Warning text streams. For example the Statistic_Console=off option or the -GS switch can turn off the Statistic stream. Using on or +GS you may turn it on again. You may also turn all five of these streams on or off at once using the All_Console option or +GA switch.
Note that these options take effect immediately when specified. Obviously any Error or Warning messages that might occur before the option is read are not be affected.
You may direct a copy of the text streams to a text file for the Debug, Fatal, Render, Statistic or Warning text streams. For example the Statistic_File=s option or the +GSs switch. If the string s is true or any of the other valid true strings then that stream is redirected to a file with a default name. Valid true values are true, yes, on or 1. If the value is false the direction to a text file is turned off. Valid false values are false, no, off or 0. Any other string specified turns on file output and the string is interpreted as the output file name.
Similarly you may specify such a true, false or file name string after a switch such as +GSfile. You may also direct all five streams to the same file using the All_File option or +GA switch. You may not specify the same file for two or more streams because POV-Ray will fail when it tries to open or close the same file twice.
Note that these options take effect immediately when specified. Obviously any Error or Warning messages that might occur before the option is read will not be affected.
Note that there are no INI style equivalents to these options.
Graphical interface versions of POV-Ray such as Mac or Windows have extensive online help. Other versions of POV-Ray have only a few quick-reference help screens. The +? switch, optionally followed by a single digit from 0 to 8, will display these help screens to the Banner text stream. After displaying the help screens, POV-Ray terminates. Because some operating systems do not permit a question mark as a command line switch you may also use the +H switch. Note however that this switch is also used to specify the height of the image in pixels. Therefore the +H switch is only interpreted as a help switch if it is the only switch on the command line and if the value after the switch is less than or equal to 8.
The Quality=n option or +Qn switch allows you to specify the image rendering quality. You may choose to lower the quality for test rendering and raise it for final renders. The quality adjustments are made by eliminating some of the calculations that are normally performed. For example settings below 4 do not render shadows. Settings below 8 do not use reflection or refraction. The values correspond to the following quality levels:
The default is 9 if not specified.
Radiosity is an additional calculation which computes diffuse inter-reflection. It is an extremely slow calculation that is somewhat experimental. The parameters which control how radiosity calculations are performed are specified in the radiosity section of the global_settings statement. See section "Radiosity" for further details.
POV-Ray uses a variety of spatial sub-division systems to speed up ray-object intersection tests. The primary system uses a hierarchy of nested bounding boxes. This system compartmentalizes all finite objects in a scene into invisible rectangular boxes that are arranged in a tree-like hierarchy. Before testing the objects within the bounding boxes the tree is descended and only those objects are tested whose bounds are hit by a ray. This can greatly improve rendering speed. However for scenes with only a few objects the overhead of using a bounding system is not worth the effort. The Bounding=off option or -MB switch allows you to force bounding off. The default value is on.
The Bounding_Threshold=n or +MBn switch allows you to set the minimum number of objects necessary before bounding is used. The default is +MB25 which means that if your scene has fewer than 25 objects POV-Ray will automatically turn bounding off because the overhead isn't worth it. Generally it's a good idea to use a much lower threshold like +MB5.
Additionally POV-Ray uses systems known as vista buffers and light buffers to further speed things up. These systems only work when bounding is on and when there are a sufficient number of objects to meet the bounding threshold. The vista buffer is created by projecting the bounding box hierarchy onto the screen and determining the rectangular areas that are covered by each of the elements in the hierarchy. Only those objects whose rectangles enclose a given pixel are tested by the primary viewing ray. The vista buffer can only be used with perspective and orthographic cameras because they rely on a fixed viewpoint and a reasonable projection (i. e. straight lines have to stay straight lines after the projection).
The light buffer is created by enclosing each light source in an imaginary box and projecting the bounding box hierarchy onto each of its six sides. Since this relies on a fixed light source, light buffers will not be used for area lights.
Reflected and transmitted rays do not take advantage of the light and vista buffer.
The default settings are Vista_Buffer=on or +UV and Light_Buffer=on or +UL. The option to turn these features off is available to demonstrate their usefulness and as protection against unforeseen bugs which might exist in any of these bounding systems.
In general, any finite object and many types of CSG of finite objects will properly respond to this bounding system. In addition blobs and meshes use an additional internal bounding system. These systems are not affected by the above switch. They can be switched off using the appropriate syntax in the scene file (see "Blob" and "Mesh" for details). Text objects are split into individual letters that are bounded using the bounding box hierarchy. Some CSG combinations of finite and infinite objects are also automatically bound. The end result is that you will rarely need to add manual bounding objects as was necessary in earlier versions of POV-Ray unless you use many infinite objects.
The ray-tracing process is in effect a discrete, digital sampling of the image with typically one sample per pixel. Such sampling can introduce a variety of errors. This includes a jagged, stair-step appearance in sloping or curved lines, a broken look for thin lines, moire patterns of interference and lost detail or missing objects, which are so small they reside between adjacent pixels. The effect that is responsible for those errors is called aliasing.
Anti-aliasing is any technique used to help eliminate such errors or to reduce the negative impact they have on the image. In general, anti-aliasing makes the ray-traced image look smoother. The Antialias=on option or +A switch turns on POV-Ray's anti-aliasing system.
When anti-aliasing is turned on, POV-Ray attempts to reduce the errors by shooting more than one viewing ray into each pixel and averaging the results to determine the pixel's apparent color. This technique is called super-sampling and can improve the appearance of the final image but it drastically increases the time required to render a scene since many more calculations have to be done.
POV-Ray gives you the option to use one of two alternate super-sampling methods. The Sampling_Method=n option or +AMn switch selects non-adaptive super-sampling (method 1) or adaptive super-sampling (method 2). Selecting one of those methods does not turn anti-aliasing on. This has to be done by using the +A command line switch or Antialias=on option.
In the default, non-adaptive method (+AM1), POV-Ray initially traces one ray per pixel. If the color of a pixel differs from its neighbors (to the left or above) by more than a threshold value then the pixel is super-sampled by shooting a given, fixed number of additional rays. The default threshold is 0.3 but it may be changed using the Antialias_Threshold=n.n option. When the switches are used, the threshold may optionally follow the +A. For example +A0.1 turns anti-aliasing on and sets the threshold to 0.1.
The threshold comparison is computed as follows. If r_1, g_1, b_1 and r_2, g_2, b_2 are the rgb components of two pixels then the difference between pixels is computed by
If this difference is greater than the threshold both pixels are super-sampled. The rgb values are in the range from 0.0 to 1.0 thus the most two pixels can differ is 3.0. If the anti-aliasing threshold is 0.0 then every pixel is super-sampled. If the threshold is 3.0 then no anti-aliasing is done. Lower threshold means more anti-aliasing and less speed. Use anti-aliasing for your final version of a picture, not the rough draft. The lower the contrast, the lower the threshold should be. Higher contrast pictures can get away with higher tolerance values. Good values seem to be around 0.2 to 0.4.
When using the non-adaptive method, the default number of super-samples is nine per pixel, located on a 3*3 grid. The Antialias_Depth=n option or +Rn switch controls the number of rows and columns of samples taken for a super-sampled pixel. For example +R4 would give 4*4=16 samples per pixel.
The second, adaptive super-sampling method starts by tracing four rays at the corners of each pixel. If the resulting colors differ more than the threshold amount additional samples will be taken. This is done recursively, i. e. the pixel is divided into four sub-pixels that are separately traced and tested for further subdivision. The advantage of this method is the reduced number of rays that have to be traced. Samples that are common among adjacent pixels and sub-pixels are stored and reused to avoid re-tracing of rays. The recursive character of this method makes it adaptive, i. e. the super-sampling concentrates on those parts of the pixel that are more likely to need super-sampling (see figure below).
The maximum number of subdivisions is specified by the Antialias_Depth=n option or +Rn switch. This is different from the non-adaptive method were the total number of super-samples is specified. A maximum number of n subdivisions results in a maximum number of samples per pixel that is given by the following table.
You should note that the maximum number of samples in the adaptive case is hardly ever reached for a given pixel. If the adaptive method is used with no anti-aliasing each pixel will be the average of the rays traced at its corners. In most cases a recursion level of three is sufficient.
Another way to reduce aliasing artifacts is to introduce noise into the sampling process. This is called jittering and works because the human visual system is much more forgiving to noise than it is to regular patterns. The location of the super-samples is jittered or wiggled a tiny amount when anti-aliasing is used. Jittering is used by default but it may be turned off with the Jitter=off option or -J switch. The amount of jittering can be set with the Jitter_Amount=n.n option. When using switches the jitter scale may be specified after the +J switch. For example +J0.5 uses half the normal jitter. The default amount of 1.0 is the maximum jitter which will insure that all super-samples remain inside the original pixel. Note that the jittering noise is random and non-repeatable so you should avoid using jitter in animation sequences as the anti-aliased pixels will vary and flicker annoyingly from frame to frame.
If anti-aliasing is not used one sample per pixel is taken regardless of the super-sampling method specified.
Section 6.2.5.3
Directing Text Streams to FilesDebug_File=true Echo debug info text to DEBUG.OUT Debug_File=false Turn off file output of debug info Debug_File=file Echo debug info text to file +GDfile Both Debug_Console=On, Debug_File=file -GDfile Both Debug_Console=Off, Debug_File=file Fatal_File=true Echo fatal text to FATAL.OUT Fatal_File=false Turn off file output of fatal Fatal_File=file Echo fatal info text to file +GFfile Both Fatal_Console=On, Fatal_File=file -GFfile Both Fatal_Console=Off, Fatal_File=file Render_File=true Echo render info text to RENDER.OUT Render_File=false Turn off file output of render info Render_File=file Echo render info text to file +GRfile Both Render_Console=On, Render_File=file -GRfile Both Render_Console=Off, Render_File=file Statistic_File=true Echo statistic text to STATS.OUT Statistic_File=false Turn off file output of statistics Statistic_File=file Echo statistic text to file +GSFile Both Statistic_Console=On, Statistic_File=file -GSFile Both Statistic_Console=Off, Statistic_File=file Warning_File=true Echo warning info text to WARNING.OUT Warning_File=false Turn off file output of warning info Warning_File=file Echo warning info text to file +GWfile Both Warning_Console=On, Warning_File=file -GWfile Both Warning_Console=Off, Warning_File=file All_File=true Echo all debug, fatal, render, statistic and warning text to ALLTEXT.OUT All_File=false Turn off file output of all debug, fatal, render, statistic and warning text All_File=file Echo all debug, fatal, render, statistic and warning text to file +GAfile Both All_Console=On, All_File=file -GAfile Both All_Console=Off, All_File=file
Section 6.2.5.4
Help Screen Switches+H or +? Show help screen 0 if this is the only switch +H0 to +H8 Show help screen 0 to 8 if this is the only switch +?0 to +?8 Same as +H0 to +H8
Section 6.2.6
Tracing Options
Section 6.2.6.1
Quality SettingsQuality=n Set quality value to n (0 <= n <= 11) +Qn Same as Quality=n 0,1 Just show quick colors. Use full ambient lighting only. Quick colors are used only at 5 or below. 2,3 Show specified diffuse and ambient light. 4 Render shadows, but no extended lights. 5 Render shadows, including extended lights. 6,7 Compute texture patterns. 8 Compute reflected, refracted, and transmitted rays. 9 Compute halos.
Section 6.2.6.2
Radiosity Setting Radiosity=bool Turns radiosity on/off
+QR Turns radiosity on -QR Turns radiosity on
Section 6.2.6.3
Automatic Bounding ControlBounding=bool Turn bounding on/off +MB Turn bounding on; threshold 25 or prev. amt -MB Turn bounding off Bounding_Threshold=n Set bound threshold to n +MBn Turn bounding on; bound threshold to n -MBn Turn bounding off; for future threshold to n Light_Buffer=bool Turn light buffer on/off +UL Turn light buffer on -UL Turn light buffer off Vista_Buffer=bool Turn vista buffer on/off +UV Turn vista buffer on -UV Turn vista buffer off
Section 6.2.6.4
Anti-Aliasing OptionsAntialias=bool Turns anti-aliasing on/off +A Turns aa on with threshold 0.3 or previous amount -A Turns anti-aliasing off Sampling_Method=n Sets aa-sampling method (1 or 2) +AMn Same as Sampling_Method=n Antialias_Threshold=n.n Sets anti-aliasing threshold +An.n Sets aa on with aa-threshold at n.n -An.n Sets aa off (aa-threshold n.n in future) Jitter=bool Sets aa-jitter on/off +J Sets aa-jitter on with 1.0 or previous amount -J Sets aa-jitter off Jitter_Amount=n.n Sets aa-jitter amount to n.n. If n.n <= 0 aa-jitter is set off +Jn.n Sets aa-jitter on; jitter amount to n.n. If n.n <= 0 aa-jitter is set off -Jn.n Sets aa-jitter off (jitter amount n.n in future) Antialias_Depth=n Sets aa-depth (1 <= n <= 9) +Rn Same as Antialias_Depth=n
Example of how the adapative super-sampling works.
Number of samples per Maximum number of samples
super-sampled pixel for per super-sampled pixel for
+Rn the non-adaptive method the adaptive method
1 1 9
2 4 25
3 9 81
4 16 289
5 25 1089
6 36 4225
7 49 16641
8 64 66049
9 81 263169
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