Could you please try following it may help you. You would have given some more conditions(if any) so make it easier.
Output will be as follows.
Thanks,
R. Singh
Please help me to do Vertical an horizontal pivoing in unix in single run.
The input file is like this-
MRKT|PROD|PRD|FACT1|FACT2|FACT3|FACT4
M1|P1|PR1|F11|F12|F13|F14
M1|P1|PR2|F21|F22|F23|F24
M1|P1|PR3|F31|F32|F33|F34
M2|P2|PR1|F41|F42|F43|F44
M2|P2|PR2|F51|F53|F54|F55... (4 Replies)
Hi Everyone,
I have three files.
FileA:
aaaa
aaaa
bb
ccc
FileB:
21
2
FileC:
eeeeeee
e
eee
ee
Would like to combine three of them, not like cat, to cat three files, but the output should be like: (3 Replies)
Hi,
Silly question, if I have an excel file that looks something like this:
................. Subject 1 Subject 2 Subject 3 Subject 4
Fever..............13...........9.............23..........14
Headache.........2............12...........18..........23... (3 Replies)
dear all,
i'm new to unix and i try to figure out the best case for making list of vertical text to become horizontal and skip the line 1 and 2.
example text :
Data DATE XXXXX
MAX
47
53
49
51
48
48
7
46
51
8
25 (6 Replies)
Hi Masters,
I need help to change my vertical data to horisontal
input
2015-04-13|JS|741667
2015-04-13|JSJ|2272
2015-04-13|TMS|107099
2015-04-12|JMD|47945
2015-04-13|TM|760024
2015-04-13|JM|484508
2015-04-14|JMJ|318
2015-04-14|JSD|54436
2015-04-13|JM|15410
Output... (2 Replies)
Source file
Name:hostname1
Masking views : Yes
Storage Group Names : hostname1
device (5):
Name:hostname2
Masking views : Yes
Storage Group Names : hostname2
device (5):
Name:hostname3
Masking views : no
Storage Group Names : hostname3
device (5):... (9 Replies)
Discussion started by: ranjancom2000
9 Replies
LEARN ABOUT REDHAT
fb.modes
fb.modes(8) Linux frame buffer utils fb.modes(8)NAME
fb.modes - frame buffer modes file
DESCRIPTION
/etc/fb.modes contains an unlimited number of video mode descriptions. The general format of a video mode is:
mode
geometry <xres> <yres> <vxres> <vyres> <depth>
timings <pixclock> <left> <right> <upper> <lower> <hslen> <vslen>
options <value>
endmode
OPTIONS
geometry options:
xres visible horizontal resolution (in pixels)
yres visible vertical resolution (in pixels)
vxres virtual horizontal resolution (in pixels)
vyres virtual vertical resolution (in pixels)
depth display depth (in bits per pixel)
timing options:
pixclock
length of one pixel (in picoseconds)
left left margin (in pixels)
right right margin (in pixels)
upper upper margin (in pixel lines)
lower lower margin (in pixel lines)
hslen horizontal sync length (in pixels)
vslen vertical sync length (in pixel lines)
other options:
the first value of this options is the default
hsync {low|high}
the horizontal sync polarity
vsync {low|high}
the vertical sync polarity
csync {low|high}
the composite sync polarity
extsync {false|true}
enable or disable external resync. If enabled the sync timings are not generated by the frame buffer device and must be pro-
vided externally instead. Note that this option may not be supported by every frame buffer device
laced {false|true}
enable or disable interlace. If enabled the display will be split in two frames, each frame contains only even and odd lines
respectively. These two frames will be displayed alternating, this way twice the lines can be displayed and the vertical fre-
quency for monitor stays the same, but the visible vertical frequency gets halved
double {false|true}
enable or disable doublescan. If enabled every line will be displayed twice and this way the horizontal frequency can easily
be doubled, so that the same resolution can be displayed on different monitors, even if the horizontal frequency specifica-
tion differs. Note that this option may not be supported by every frame buffer device
INTERNALS
Generally a frame buffer display is organized as follows:
+---+---------------+---+---+
| | ^ | | |
| | | 5 | | |
| | v | | |
+---#################---+---+
| # ^ # | |
| # | # | |
| # | # | |
| 1 # | 2 # 3 | 4 |
|<->#<------+------>#<->|<->|
| # | # | |
| # | 6 # | |
| # | # | |
| # v # | |
+---#################---+---+
| | ^ | | |
| | | 7 | | |
| | v | | |
+---+---------------+---+---+
| | ^ | | |
| | | 8 | | |
| | v | | |
+---+---------------+---+---+
1 left margin
2 xres
3 right margin
4 horizontal sync len
5 upper margin
6 yres
7 lower margin
8 vertical sync len
The area bordered with `#' is the visible display area. Horizontal and vertical frequencies can now easily be calculated, for this the sum
of horizontal or vertical values are important
htotal = left + xres + right + hslen
vtotal = upper + yres + lower + vslen
The length of one line can now be calculated with pixclock
line = pixclock * htotal
and we have the horizontal frequency
hfreq = 1E12 / line = 1E12 / (pixclock * htotal)
To get the vertical frequency vtotal must eventually adjusted. If the display is laced, vtotal must be halved or if the display is a dou-
blescan one, vtotal must be doubled. Now we can calculate the length of one frame
if (lace) vtotal /= 2
if (double) vtotal *= 2
frame = vtotal * line
and we get also the vertical frequency
vfreq = 1E12 / frame = hfreq / vtotal
SEE ALSO fbset(8), fbdev(4)local Aug 1996 fb.modes(8)