Initial commit of OpenSPARC T2 architecture model.

[OpenSPARC-T2-SAM] / obp / obp / dev / sun4v-devices / tod / utc2tod.fth

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\ Hypervisor Software File: utc2tod.fth
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id: @(#)utc2tod.fth 1.2 06/03/17
purpose: 
copyright: Copyright 2006 Sun Microsystems, Inc.  All Rights Reserved
copyright: Use is subject to license terms.

headerless

\ ordinary year calendar
create year-days
  d# 31 c, d# 28 c, d# 31 c, d# 30 c, d# 31 c, d# 30 c,
  d# 31 c, d# 31 c, d# 30 c, d# 31 c, d# 30 c, d# 31 c,

\ leap-year calendar (february has 29 days)
create leap-days
  d# 31 c, d# 29 c, d# 31 c, d# 30 c, d# 31 c, d# 30 c,
  d# 31 c, d# 31 c, d# 30 c, d# 31 c, d# 30 c, d# 31 c,

\ Determine time within the day 
: utc-to-time ( utc -- h m s )
  >r                                   (  )            ( r: utc )
  r@ d# d# 86400 mod d# 3600 /         ( h )           ( r: utc )
  r@ d# 3600 mod d# 60 /               ( h m )         ( r: utc )
  r> d# 60 mod                         ( h m s )
;


\ Walk through each month decrementing number of days left, leaving month and
\ day on stack. This depends on january having longest month, so when we have
\ found a date, subsequent calls just return leaving date unaltered. If we
\ walk through the entire calendar's worth of days without having run out of
\ days, we increment the year number and revert month to january.

: calc-month ( year month days-left calendar -- year month days-left )

  swap                                 ( year month calendar days-left )

  \ Walk through all twelve months, subtracting number of days per month
  \ until we find a month with more days than we have left - then return.
  d# 12 0 do
     over i + c@ 2dup > if             ( year month cal days-left #days )
        - rot 1+ -rot                  ( year month+1 calendar days-left )
     else
        drop nip unloop exit           ( year month day )
     then
  loop                                 ( year month cal days-left )

  \ If we get here, we've decremented an entire year of days. Bump year#.
  nip -rot drop 1+ 1 rot               ( year+1 1 days-left )
;

\ Convert utc (number of seconds since jan 0, 1970) to
\ day of week, day of month, month and years-since-1900.

: utc-to-date ( utc -- dow d m y )

  d# 86400 /                           ( days-since-1970 )
  dup 4 + 7 mod 1+ swap                ( dow days-since-1970 )

  \ Skip over 4-year groups (three years and one leap year), so we can then
  \ determine the date within the more complicated pattern of leap years. Each
  \ four-year group consists of 1461 days (365*3 + 366). Note that we depend
  \ on the fact that 2000 (unlike 1900 or 2100) was a leap year. This code
  \ will need to be fixed sometime this century.

  d# 1461 2dup / dup >r                ( dow days-since-1970 quadreniums )
                                       ( r: quadreniums )
  * -                                  ( dow days-since-quadrenium )
                                       ( r: quadreniums )

  \ Quadreniums * 4 + 70 = years since 1900.
  1+ r> 4 * d# 70 + swap 1 swap        ( dow year month days-left )

  \ Walk through month-by-month within the quadrenium

  year-days calc-month                 ( dow year month days-left )
  year-days calc-month                 ( dow year month days-left )
  leap-days calc-month                 ( dow year month days-left )
  year-days calc-month                 ( dow year month days-left )
  -rot swap                            ( dow day month year )
;