1BLOCKMODE(1)                 Generic Mapping Tools                BLOCKMODE(1)
2
3
4

NAME

6       blockmode - filter to block average (x,y,z) data by mode estimation.
7

SYNOPSIS

9       blockmode   [   xyz[w]file(s)   ]   -Ixinc[unit][=|+][/yinc[unit][=|+]]
10       -Rxmin/xmax/ymin/ymax[r] [ -C ] [ -E ] [ -F ] [ -H[i][nrec] ] [ -Q ]  [
11       -V  ]  [  -W[io] ] [ -:[i|o] ] [ -b[i|o][s|S|d|D[ncol]|c[var1/...]] ] [
12       -f[i|o]colinfo ]
13

DESCRIPTION

15       blockmode reads arbitrarily  located  (x,y,z)  triples  [or  optionally
16       weighted  quadruples  (x,y,z,w)] from standard input [or xyz[w]file(s)]
17       and writes to standard output mode estimates of position and value  for
18       every  non-empty  block in a grid region defined by the -R and -I argu‐
19       ments.  Either blockmean, blockmedian, or blockmode should be used as a
20       pre-processor  before  running  surface  to  avoid aliasing short wave‐
21       lengths.  These routines are also generally useful  for  decimating  or
22       averaging  (x,y,z)  data.   You  can modify the precision of the output
23       format by editing the D_FORMAT parameter in your .gmtdefaults4 file, or
24       you may choose binary input and/or output using single or double preci‐
25       sion storage.
26
27       xyz[w]file(s)
28              3 [or 4] column  ASCII  file(s)  [or  binary,  see  -b]  holding
29              (x,y,z[,w])  data  values.   [w]  is  an optional weight for the
30              data.  If no file is specified, blockmode will read  from  stan‐
31              dard input.
32
33       -I     x_inc  [and  optionally  y_inc] is the grid spacing. Optionally,
34              append a suffix modifier.  Geographical  (degrees)  coordinates:
35              Append  m  to indicate arc minutes or c to indicate arc seconds.
36              If one of the units e, k, i,  or  n  is  appended  instead,  the
37              increment  is assumed to be given in meter, km, miles, or nauti‐
38              cal miles, respectively, and will be converted to the equivalent
39              degrees longitude at the middle latitude of the region (the con‐
40              version depends on ELLIPSOID).  If /y_inc is given but set to  0
41              it  will be reset equal to x_inc; otherwise it will be converted
42              to degrees latitude.  All coordinates: If = is appended then the
43              corresponding max x (east) or y (north) may be slightly adjusted
44              to fit exactly the given increment [by default the increment may
45              be adjusted slightly to fit the given domain].  Finally, instead
46              of giving an increment you  may  specify  the  number  of  nodes
47              desired  by  appending  +  to the supplied integer argument; the
48              increment is then recalculated from the number of nodes and  the
49              domain.   The  resulting  increment value depends on whether you
50              have selected a gridline-registered  or  pixel-registered  grid;
51              see Appendix B for details.
52
53       -R     xmin,  xmax, ymin, and ymax specify the Region of interest.  For
54              geographic regions,  these  limits  correspond  to  west,  east,
55              south,  and north and you may specify them in decimal degrees or
56              in [+-]dd:mm[:ss.xxx][W|E|S|N] format.  Append r if  lower  left
57              and  upper  right  map coordinates are given instead of w/e/s/n.
58              The two shorthands -Rg and -Rd stand for  global  domain  (0/360
59              and  -180/+180  in longitude respectively, with -90/+90 in lati‐
60              tude).  For calendar time coordinates you may  either  give  (a)
61              relative  time  (relative  to the selected TIME_EPOCH and in the
62              selected TIME_UNIT; append t to -JX|x), or (b) absolute time  of
63              the  form  [date]T[clock]  (append T to -JX|x).  At least one of
64              date and clock must be present; the T is always  required.   The
65              date  string  must  be  of the form [-]yyyy[-mm[-dd]] (Gregorian
66              calendar) or yyyy[-Www[-d]] (ISO week calendar), while the clock
67              string  must  be  of the form hh:mm:ss[.xxx].  The use of delim‐
68              iters and their type and positions must be exactly as  indicated
69              (however,  input,  output and plot formats are customizable; see
70              gmtdefaults).
71

OPTIONS

73       -C     Use the center of the block as the output location [Default uses
74              the modal xy location (but see -Q)].  -C overrides -Q.
75
76       -E     Provide  Extended  report  which includes s (the L1 scale of the
77              mode), l, the lowest value, and  h,  the  high  value  for  each
78              block.  Output  order  becomes x,y,z,s,l,h[,w]. [Default outputs
79              x,y,z[,w].  See -W for w output.
80
81       -F     Force pixel node registration  [Default  is  gridline  registra‐
82              tion].  (Node registrations are defined in GMT Cookbook Appendix
83              B on grid file formats.)  Each block  is  the  locus  of  points
84              nearest   the   grid   value   location.    For   example,  with
85              -R10/15/10/15 and and -I1:  with the -F option 10 <= (x,y) <  11
86              is one of 25 blocks; without it 9.5 <= (x,y) < 10.5 is one of 36
87              blocks.
88
89       -H     Input file(s) has Header record(s).  Number  of  header  records
90              can be changed by editing your .gmtdefaults4 file.  If used, GMT
91              default is 1 header record. Use -Hi if only  input  data  should
92              have  header  records  [Default will write out header records if
93              the input data have them]. Blank lines and lines starting with #
94              are always skipped.  Not used with binary data.
95
96       -Q     (Quicker)  Finds  mode  z and mean (x, y) [Default finds mode x,
97              mode y, mode z].
98
99       -V     Selects verbose mode, which will send progress reports to stderr
100              [Default runs "silently"].
101
102       -W     Weighted modifier[s].  Unweighted input and output has 3 columns
103              x,y,z; Weighted i/o has 4 columns x,y,z,w.  Weights can be  used
104              in  input  to  construct weighted mean values in blocks.  Weight
105              sums can be reported in output for later combining several runs,
106              etc.   Use  -W for weighted i/o, -Wi for weighted inputonly, -Wo
107              for weighted output only.  [Default uses unweighted i/o].
108
109       -:     Toggles between  (longitude,latitude)  and  (latitude,longitude)
110              input and/or output.  [Default is (longitude,latitude)].  Append
111              i to select input only or o to  select  output  only.   [Default
112              affects both].
113
114       -bi    Selects binary input.  Append s for single precision [Default is
115              d  (double)].   Uppercase  S  or  D  will  force  byte-swapping.
116              Optionally,  append  ncol,  the number of columns in your binary
117              input file if it exceeds the columns needed by the program.   Or
118              append  c  if  the  input  file  is  netCDF.  Optionally, append
119              var1/var2/... to specify the variables to be read.  [Default  is
120              3 (or 4 if -Wi is set)].
121
122       -bo    Selects  binary  output.  Append s for single precision [Default
123              is d (double)].  Uppercase S  or  D  will  force  byte-swapping.
124              Optionally,  append  ncol, the number of desired columns in your
125              binary output file.  [Default is 3 (or 4 if  -Wo  is  set)].  -E
126              adds 3 additional columns.
127
128       -f     Special  formatting of input and/or output columns (time or geo‐
129              graphical data).  Specify i or o to  make  this  apply  only  to
130              input  or  output  [Default  applies to both].  Give one or more
131              columns (or column ranges) separated by commas.  Append T (abso‐
132              lute  calendar time), t (relative time in chosen TIME_UNIT since
133              TIME_EPOCH), x (longitude), y (latitude), or f (floating  point)
134              to  each  column or column range item.  Shorthand -f[i|o]g means
135              -f[i|o]0x,1y (geographic coordinates).
136

ASCII FORMAT PRECISION

138       The ASCII output formats of numerical data are controlled by parameters
139       in  your  .gmtdefaults4  file.   Longitude  and  latitude are formatted
140       according to OUTPUT_DEGREE_FORMAT, whereas other values  are  formatted
141       according  to D_FORMAT.  Be aware that the format in effect can lead to
142       loss of precision in the output, which can  lead  to  various  problems
143       downstream.   If  you find the output is not written with enough preci‐
144       sion, consider switching to binary output (-bo if available) or specify
145       more decimals using the D_FORMAT setting.
146

EXAMPLES

148       To  find  5  by 5 minute block mode estimates from the double precision
149       binary data in hawaii_b.xyg and output an ASCII table, run:
150
151       blockmode hawaii_b.xyg -R198/208/18/25 -I5m -bi3 > hawaii_5x5.xyg
152

SEE ALSO

154       blockmean(1), blockmedian(1), GMT(1), gmtdefaults(1),  nearneighbor(1),
155       surface(1), triangulate(1)
156
157
158
159GMT 4.3.1                         15 May 2008                     BLOCKMODE(1)
Impressum