Provided by: libncarg-dev_6.1.2-7_amd64 bug

NAME

       PCHIQU - Draws high quality characters. By default, it uses the same database as the old
       NCAR Graphics routine PWRITX, but it can also use characters from any of the fontcap-
       defined databases, it has an improved interface, and it has many more capabilities than
       PWRITX.

       PLCHHQ is an alternate name for the routine PCHIQU.

SYNOPSIS

       CALL PCHIQU (XPOS,YPOS,CHRS,SIZE,ANGD,CNTR)

C-BINDING SYNOPSIS

       #include <ncarg/ncargC.h>

       void c_pchiqu (float xpos, float ypos, char *chrs,
       float size, float angd, float cntr)

DESCRIPTION

       XPOS,YPOS   (input expressions of type REAL) specify positioning coordinates for the
                   characters to be drawn. If the internal parameter ´MA´ has the value 0, these
                   are given in the current user coordinate system; otherwise, they are given in
                   an arbitrary X/Y coordinate system, as implied by the value of ´MA´ and the
                   nature of the routine CPMPXY. (For example, if ´MA´ has the value 1 and the
                   default version of CPMPXY is being used, then XPOS is a longitude, in degrees,
                   and YPOS is a latitude, in degrees.)  The argument CNTR (described below)
                   specifies how the characters are to be positioned relative to the point
                   (XPOS,YPOS).

       CHRS        (an input constant or variable of type CHARACTER) specifies the characters to
                   be drawn.  The number of characters in CHRS is taken to be LEN(CHRS); to use
                   characters "m" through "n" from a character variable CHRV, use the FORTRAN-77
                   substring notation "CHRV(m:n)". CHRS may contain characters to be drawn and
                   "function codes", which are used for various purposes.  The possible function
                   codes are completely described in the programmer document for Plotchar and are
                   summarized in a later section of this man page.

       SIZE        (an input expression of type REAL) specifies the desired character size. If
                   the internal parameter ´MA´ is zero, then the following comments apply:

                   •      If SIZE is less than or equal to zero, its absolute value specifies the
                          size as a multiple of the digitized size. On a 1024x1024 grid,
                          principal-size capitals are about ´PW´ units wide by ´PH´ units high
                          and the vertical spacing between lines is ´PV´ units (by default, ´PW´,
                          ´PH´, and ´PV´ are 16, 21, and 32). Indexical-size capitals are ´IW´
                          units wide by ´IH´ units high and the vertical spacing between lines is
                          ´IV´ units (by default, ´IW´, ´IH´, and ´IV´ are 12, 13, and 20).
                          Cartographic-size capitals are ´CW´ units wide by ´CH´ units high and
                          the vertical spacing between lines is ´CV´ units (by default, ´CW´,
                          ´CH´, and ´CV´ are 8, 9, and 14).

                          Example: Using CHRS = ´ABC´ and SIZE = -2. will write three characters,
                          each of which is about 32/1024 of the plotter frame in width.

                   •      If SIZE is greater than zero, but less than one, it specifies the
                          desired approximate width of a principal-size capital as a fraction of
                          the distance across the plotter frame. This is the recommended scheme.

                          Example: Using CHRS = ´ABC´ and SIZE = .05 will write three characters,
                          each of which is about 5 hundredths of the plotter frame in width.

                   •      If SIZE is greater than or equal to one, it specifies the desired
                          approximate width of a principal-size capital in plotter coordinates,
                          as defined by default or by a user call to the SPPS routine SETI. Note
                          that use of the routine SETI is now discouraged.

                          Example: Using CHRS = ´ABC´ and SIZE = 13. (assuming there have been no
                          calls to the SPPS routine SETI) will write three characters, each of
                          which is about 13/1024 of the plotter frame in width.

                   If ´MA´ is nonzero, then SIZE is the desired approximate width of a principal-
                   size capital as a value in the X/Y coordinate system in which XPOS and YPOS
                   are given.

                   In most of the databases used by PCHIQU, the character width varies from
                   character to character. Most principal-size capitals will be a little wider
                   than the value specified by SIZE (and a few will be narrower). Thus, a little
                   experimenting may be necessary to get just the size one wants. A rule of thumb
                   that works pretty well when using all capitals is as follows:

                        SIZE = DLOS / REAL(NCIS)

                   where "DLOS" is the desired length of the string, in the fractional system,
                   and "NCIS" is the number of characters in the string.

                   Note: As of version 3.2 of NCAR Graphics, the size of all characters written
                   by PCHIQU has been reduced by a multiplicative factor (the internal parameter
                   ´SA´) whose default value is .88888888... The object of this is to make the
                   size of characters written by PCHIQU consistent with the size of characters
                   written by PCMEQU and PCLOQU. If the value of ´SA´ is not changed, then the
                   height of principal-size capitals written by PCHIQU and PCMEQU will be 7/6
                   times the value specified by SIZE. Thus, if the desired character height
                   (CHRH) is known, use "SIZE = 6.*CHRH/7." .

                   The values of the internal parameters ´PW´, ´PH´, ´PV´, ´IW´, ´IH´, ´IV´,
                   ´CW´, ´CH´, and ´CV´ (as well as two others, ´PS´ and ´IS´) may be changed by
                   user calls to CPSETR. This can be used to change the effective size and shape
                   of digitized characters in the PWRITX database (the effect is the same as if
                   the characters had been digitized differently at the outset). If, for example,
                   one were to double the value of ´PH´, it would make the principal characters
                   twice as tall as they are by default. (In this case, one would probably also
                   want to double the value of ´PV´, so as to make the vertical spacing between
                   lines consistent with the character height.) Note that, if one changes the
                   value of ´PW´, ´IW´, or ´CW´, the meaning of a negative value of the argument
                   SIZE may thereby be changed.

       ANGD        (an input expression of type REAL) is the angle, in degrees counterclockwise
                   from the positive X axis, at which the character string is to be written. If
                   the internal parameter ´TE´ is nonzero (by default, it is zero) and if ANGD is
                   exactly 360., then no characters are drawn by PCHIQU; it just computes the
                   distances, in the fractional coordinate system, from the point (XPOS,YPOS) to
                   the left edge, the right edge, the bottom edge, and the top edge of a box
                   enclosing the string. These are stored as the values of the parameters ´DL´,
                   ´DR´, ´DB´, and ´DT´ and may be retrieved by calls to PCGETR.

       CNTR        (an input expression of type REAL) is the centering option. If the internal
                   parameter ´CE´ is zero (the default), then

                   •      CNTR = -1. means that (XPOS,YPOS) is the center of the left edge of the
                          first character (if that character is to be written "across" the frame)
                          or the center of the top edge of the first character (if that character
                          is to be written "down" the frame).

                   •      CNTR = 1. means that (XPOS,YPOS) is the center of the right edge of the
                          last character (if the writing direction at the end of the character
                          string is "across" the frame) or the center of the bottom edge of the
                          last character (if the writing direction at the end of the character
                          string is "down" the frame).

                   •      CNTR = s, where "s" is any real number, means that (XPOS,YPOS) is a
                          point obtained by linear interpolation along the line joining the two
                          points mentioned above (the first point being associated with the value
                          -1. and the second with the value +1.). The value "0." gives the
                          midpoint of the line.

                   If ´CE´ is nonzero, then the value of CNTR is ignored.  Text-extent quantities
                   are computed and used to exactly center the output on the point (XPOS,YPOS).
                   This is useful, among other things, for labeling each of a number of points
                   with a single character; however, it works as desired only when ´QU´ is zero.

                   Upon return from PCHIQU, all arguments are unchanged.

C-BINDING DESCRIPTION

       The C-binding argument descriptions are the same as the FORTRAN argument descriptions.

FUNCTION CODES

       The function codes that may be used for various purposes in the input character string
       CHRS are described completely in the programmer document for Plotchar.  The material that
       follows will principally be of use as a memory aid to someone who is already familiar with
       the use of function codes.

       As the characters of CHRS are scanned from left to right, the scanner is always in one of
       two states: either it is looking for characters to be drawn or it is looking for
       characters to be interpreted as function codes.  Each occurrence of the function-code
       signal character (defined by the internal parameter ´FC´ - a colon by default) flips the
       state of the scanner.  Thus, in the character string ´ABC:L:DEF´, "A", "B", and "C" will
       be treated as characters to be drawn, "L" will be treated as a function code, and "D",
       "E", and "F" will be treated as characters to be drawn.  (In this particular example,
       since the function code "L" requests lower case, what would be drawn is "ABCdef".)
       Occasionally, function codes may need to be separated by commas or blanks; this is
       necessary only when there would otherwise be a syntactical problem.

       F           Switch to using the database specified by the value of ´FN´.

       F0          Switch to using the PWRITX database.

       Fn          Switch to using fontcap-defined font "n".

       R           Switch to the "Roman" part of the PWRITX database.  If characters are
                   currently being used from a fontcap-defined font, this function code will have
                   no effect.

       G           Switch to the "Greek" part of the PWRITX database.  If characters are
                   currently being used from a fontcap-defined font, this function code will have
                   no effect.

       P           Use characters of principal size from the PWRITX database.  If characters are
                   currently being used from a fontcap-defined font, there will be an appropriate
                   shift in size.

       I           Use characters of indexical size from the PWRITX database.  If characters are
                   currently being used from a fontcap-defined font, there will be an appropriate
                   shift in size.

       K           Use characters of cartographic size from the PWRITX database.  If characters
                   are currently being used from a fontcap-defined font, there will be an
                   appropriate shift in size.

       U           Switch to using upper case letters from the PWRITX database.  If characters
                   are currently being used from a fontcap-defined font, this function code will
                   have no effect.

       Un          For the next "n" characters, switch to using upper case letters from the
                   PWRITX database and then switch to lower case.  If characters are currently
                   being used from a fontcap-defined font, this function code will have no
                   effect.

       L           Switch to using lower case letters from the PWRITX database.  If characters
                   are currently being used from a fontcap-defined font, this function code will
                   force the use of lower case letters from it.

       Ln          For the next "n" characters, switch to using lower case letters from the
                   PWRITX database and then switch to upper case.  If characters are currently
                   being used from a fontcap-defined font, this function code will force the use
                   of lower case letters from it.

       A           Switch to writing "across" the frame, in the direction ANGD.  This is the
                   normal mode.

       D           Switch to writing "down" the frame, in the direction ANGD-90.  This causes
                   each character to be written beneath the previous one.

       B           Switch to subscript level.

       Bn          For the next "n" characters, use subscript level and then revert to normal
                   level.

       S           Switch to superscript level.

       Sn          For the next "n" characters, use superscript level and then revert to normal
                   level.

       E           Switch to normal level in such a way as to allow for another sub- or
                   superscript on the base character.

       N           Switch to normal level in such a way as not to allow for another sub- or
                   superscript on the base character.

       Hn          Offset by "n" digitization units in the direction ANGD.

       HnQ         Offset by "n" blank widths in the direction ANGD.

       Vn          Offset by "n" digitization units in the direction ANGD+90.

       VnQ         Offset by "n" blank heights in the direction ANGD+90.

       C           Do a "carriage return".

       Xn or XnQ   Zoom character width to "n" percent of normal.

       Yn          Zoom character height to "n" percent of normal.

       YnQ         Zoom character height to "n" percent of normal and introduce a shift in the
                   direction ANGD+90 sufficient to keep the bases of characters properly aligned.

       Zn          Same as "XnYn".

       ZnQ         Same as "XnQYnQ".

       nnnn        An octal number may be used as a function code to select a particular
                   character from the PWRITX database.  The octal number for a given character is
                   the sum of a font index (0 for Roman or 600 for Greek), a size index (0 for
                   Principal, 200 for Indexical, or 400 for Cartographic), a case index (0 for
                   Upper or 100 for Lower), and the octal equivalent of a character index (1-32
                   for A through Z, 33-44 for 0 through 9, or 45-57 for the individual
                   characters, +, -, *, /, (, ), $, =, blank, comma, or period).

EXAMPLES

       Use the ncargex command to see the following relevant examples: cmpit, cmpita, cmptit,
       cpexcc, elblba, cbex01, coex01, coex02, coex03, cpex10, epltch, sfex02, srex01, tpltch.

ACCESS

       To use PCHIQU or c_pchiqu, load the NCAR Graphics libraries ncarg, ncarg_gks, and ncarg_c,
       preferably in that order.

SEE ALSO

       Online: plotchar, pcdlsc, pcgetc, pcgeti, pcgetr, pcloqu, pcmequ, pcmpxy, pcpnwi, pcrset,
       pcsetc, pcseti, pcsetr, ncarg_cbind.

       Hardcopy: NCAR Graphics Fundamentals, UNIX Version

COPYRIGHT

       Copyright (C) 1987-2009
       University Corporation for Atmospheric Research
       The use of this Software is governed by a License Agreement.