Linux and UNIX Man Pages

Linux & Unix Commands - Search Man Pages

lookamb(1) [centos man page]

LOOKAMB(1)						      General Commands Manual							LOOKAMB(1)

NAME
lookamb - examine ambient file values SYNOPSIS
lookamb [ -d ][ -r ][ -h ] [ ambfile ] DESCRIPTION
Lookamb examines an ambient file produced by rpict(1), rtrace(1), or rvu(1). The default mode prints the position, direction, level, weight, radius, value, position gradient and direction gradient for each stored ambient value preceded by a label appropriate for human interpretation. The -d option prints the same quantities in 18 columns without any expanatory text, and is more appropriate as input to another program. The -r option performs the reverse conversion, taking the output of lookamb and reproducing the original ambient file on the standard out- put. The -h option causes lookamb not to print out the header information on the output, or not to expect it on the input with the -r option. If no file is given, lookamb reads from the standard input. NOTES
Before release 2.2 of Radiance, ambient files were in a machine-dependent format. Since that is no longer the case, ambient files can now be moved freely between machines without any conversions. Thus, the only reason to use lookamb now is to examine the contents of an ambi- ent file. AUTHOR
Greg Ward SEE ALSO
getinfo(1), oconv(1), pfilt(1), pinterp(1), rpict(1), rtrace(1), rvu(1) RADIANCE
11/15/93 LOOKAMB(1)

Check Out this Related Man Page

RVU(1)							      General Commands Manual							    RVU(1)

NAME
rvu - generate RADIANCE images interactively SYNOPSIS
rvu [ rpict options ][ -n nproc ][ -o dev ][ -b ][ -pe exposure ] [ $EVAR ] [ @file ] octree rvu [ options ] -defaults rvu -devices DESCRIPTION
Rvu generates RADIANCE images using octree. (The octree may be given as the output of a command enclosed in quotes and preceded by a `!'.) Options specify the viewing parameters as well as giving some control over the calculation. Options may be given on the command line and/or read from the environment and/or read from a file. A command argument beginning with a dollar sign ('$') is immediately replaced by the contents of the given environment variable. A command argument beginning with an at sign ('@') is immediately replaced by the contents of the given file. The options are the same as for rpict(1), with a few notable exceptions. The -r, -z, -S, -P, -PP and -t options are not supported, and -o specifies which output device is being used instead of the output file. The -x, -y and -pa options are unnecessary, since rvu scales the display image to the specified output device. Additionally, the -b option improves the display on greyscale monitors, and -pe may be used to set an initial exposure value. The -n option may be used to specify multiple processes, to accelerate rendering. In the second form, the default values for the options are printed with a brief explanation. In the third form, the list of supported out- put devices is displayed. rvu starts rendering the image from the selected viewpoint and gradually improves the resolution of the display until interrupted by key- board input. rvu then issues a prompt (usually ':') and accepts a command line from the user. rvu may also stop its calculation and wait for command input if the resolution of the display has reached the resolution of the graphics device. At this point, it will give the 'done:' prompt and await further instructions. If rvu runs out of memory due to lack of resources to store its computed image, it will give the 'out of memory:' prompt. At this prompt, the user can save the image, quit, or even restart a new image, although this is not generally recommended on virtual memory machines for efficiency reasons. rvu is not meant to be a rendering program, and we strongly recommend that rpict(1) be used instead for that purpose. Since rpict(1) does not store its image in memory or update any display of its output, it is much faster and less wasteful of its resources than rvu. rvu is intended as a quick interactive program for deciding viewpoints and debugging scene descriptions and is not suited for producing polished images. COMMANDS
Once the program starts, a number of commands can be used to control it. A command is given by its name, which can be abbreviated, fol- lowed by its arguments. aim [ mag [ x y z ] ] Zoom in by mag on point x y z . The view point is held constant; only the view direction and size are changed. If x y z is missing, the cursor is used to select the view center. A negative magnification factor means zoom out. The default factor is one. ^C Interrupt. Go to the command line. exposure [ spec ] Adjust exposure. The number spec is a multiplier used to compensate the average exposure. A value of 1 renormalizes the image to the computed average, which is usually done immediately after startup. If spec begins with a '+' or '-', the compensation is interpreted in f-stops (ie. the power of two). If spec begins with an '=', an absolute setting is performed. An '=' by itself permits interactive display and setting of the exposure. If spec begins with an '@', the exposure is adjusted to present similar visibility to what would be experienced in the real environment. If spec is absent, or an '@' is followed by nothing, then the cursor is used to pick a specific image location for normalization. focus [distance] Set focus distance for depth-of-field sampling. If a distance in world coordinates is absent, then the cursor is used to choose a point in the scene on which to focus. (The focus distance setting does not affect rendering in rview, but can be used in rpict with the -pd option to simulate depth-of-field on views saved from rview.) frame [ xmin ymin xmax ymax ] Set frame for refinement. If coordinates are absent, the cursor is used to pick frame boundaries. If ``all'' is specified, the frame is reset to the entire image. free Free cached object structures and associated data. This command may be useful when memory is low and a completely different view is being generated from the one previous. last [ file ] Restore the previous view. If a view or picture file is specified, the parameters are taken from the last view entry in the file. L [ vw [ rfile ] ] Load parameters for view vw from the rad(1) input file, rfile. Both vw and rfile must be given the first call, but subsequent calls will use the last rfile as a default, and "1" as the default view (ie. the first view appearing in rfile). If rvu was started by rad, then the rfile parameter will initially default to the rad input file used. move [ mag [ x y z ] ] Move camera mag times closer to point x y z . For a perspective projection (or fisheye view), only the view point is changed; the view direction and size remain constant. The view size must be modified in a parallel projection since it determines magni- fication. If x y z is missing, the cursor is used to select the view center. A negative magnification factor decreases the object size. The default factor is one. Care must be taken to avoid moving behind or inside other objects. new [ nproc ] Restart the image, using the specified number of rendering processes. Usually used after the "set" command. pivot angle [ elev [ mag [ x y z ] ] ] Similar to the "move" command, but pivots the view about a selected point. The angle is measured in degrees around the view up vector using the right hand rule. The optional elev is the elevation in degrees from the pivot point; positive raises the view point to look downward and negative lowers the view point to look upward. quit Quit the program. ^R Redraw the image. Use when the display gets corrupted. On some displays, occassionally forcing a redraw can improve appearance, as more color information is available and the driver can make a better color table selection. rotate angle [ elev [ mag ] ] Rotate the camera horizontally by angle degrees. If an elevation is specified, the camera looks upward elev degrees. (Negative means look downward.) set [ var [ val ] ] Check/change program variable. If var is absent, the list of available variables is displayed. If val is absent, the current value of the variable is displayed and changed interactively. Otherwise, the variable var assumes the value val. Variables include: ambient value (av), ambient value weight (aw), ambient bounces (ab), ambient accuracy (aa), ambient divisions (ad), ambient radius (ar), ambient samples (as), black&white (b), back face visibility (bv), direct jitter (dj), direct sampling (ds), direct threshold (dt), direct visibility (dv), irradiance (i), limit weight (lw), limit recursion (lr), medium extinction (me), medium albedo (ma), medium eccentricity (mg), medium sampling (ms), pixel sample (ps), pixel threshold (pt), specular jitter (sj), specular threshold (st), and uncorrelated sampling (u). Once a variable has been changed, the "new" command can be used to recompute the image with the new parameters. If a program variable is not available here, it may show up under some other com- mand or it may be impossible to change once the program is running. trace [ xbeg ybeg zbeg xdir ydir zdir ] Trace a ray. If the ray origin and direction are absent, the cursor is used to pick a location in the image to trace. The object intersected and its material, location and value are displayed. view [ file [ comments ] ] Check/change view parameters. If file is present, the view parameters are appended to a file, followed by comments if any. Alternatively, view options may be given directly on the command line instead of an output view file. Otherwise, view parameters are displayed and changed interactively. V [ vw [ rfile ] ] Append the current view as view vw in the rad file rfile. Compliment to L command. Note that the view is simply appended to the file, and previous views with the same name should be removed before using the file with rad. write [ file ] Write picture to file. If argument is missing, the current file name is used. ^Z Stop the program. The screen will be redrawn when the program resumes. ENVIRONMENT
RAYPATH the directories to check for auxiliary files. DISPLAY_GAMMA the value to use for monitor gamma correction. AUTHOR
Greg Ward SEE ALSO
getinfo(1), lookamb(1), oconv(1), pfilt(1), rad(1), rpict(1), rtrace(1) RADIANCE
1/1/04 RVU(1)
Man Page