Gergely POLONKAI (W00d5t0ck)
449e26259b
!!!WARNING!!! The build system is not updated to reflect this! The !!!WARNING!!! whole point is to subtree the swe-glib/ directory, !!!WARNING!!! making SWE-Glib a separate project as it intended to be.
465 lines
16 KiB
C
465 lines
16 KiB
C
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/************************************************************
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$Header: /home/dieter/sweph/RCS/swepcalc.h,v 1.74 2008/06/16 10:07:20 dieter Exp $
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Definitions and constants for Placalc interface to SwissEph
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This should only be used for porting older Placalc applications.
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All new applications should directly use the Swiss Ephemeris API.
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A programmer using the Placalc API needs only to include this file
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in his code, and link his application with the SwissEph library.
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There is no documentation, as it is only intended for porting old
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existing Placalc applications.
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The Placalc API is not supported in the Windows DLL versions of
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Swiss Ephemeris.
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************************************************************/
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/* Copyright (C) 1997 - 2008 Astrodienst AG, Switzerland. All rights reserved.
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License conditions
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------------------
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This file is part of Swiss Ephemeris.
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Swiss Ephemeris is distributed with NO WARRANTY OF ANY KIND. No author
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or distributor accepts any responsibility for the consequences of using it,
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or for whether it serves any particular purpose or works at all, unless he
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or she says so in writing.
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Swiss Ephemeris is made available by its authors under a dual licensing
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system. The software developer, who uses any part of Swiss Ephemeris
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in his or her software, must choose between one of the two license models,
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which are
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a) GNU public license version 2 or later
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b) Swiss Ephemeris Professional License
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The choice must be made before the software developer distributes software
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containing parts of Swiss Ephemeris to others, and before any public
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service using the developed software is activated.
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If the developer choses the GNU GPL software license, he or she must fulfill
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the conditions of that license, which includes the obligation to place his
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or her whole software project under the GNU GPL or a compatible license.
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See http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
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If the developer choses the Swiss Ephemeris Professional license,
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he must follow the instructions as found in http://www.astro.com/swisseph/
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and purchase the Swiss Ephemeris Professional Edition from Astrodienst
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and sign the corresponding license contract.
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The License grants you the right to use, copy, modify and redistribute
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Swiss Ephemeris, but only under certain conditions described in the License.
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Among other things, the License requires that the copyright notices and
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this notice be preserved on all copies.
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Authors of the Swiss Ephemeris: Dieter Koch and Alois Treindl
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The authors of Swiss Ephemeris have no control or influence over any of
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the derived works, i.e. over software or services created by other
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programmers which use Swiss Ephemeris functions.
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The names of the authors or of the copyright holder (Astrodienst) must not
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be used for promoting any software, product or service which uses or contains
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the Swiss Ephemeris. This copyright notice is the ONLY place where the
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names of the authors can legally appear, except in cases where they have
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given special permission in writing.
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The trademarks 'Swiss Ephemeris' and 'Swiss Ephemeris inside' may be used
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for promoting such software, products or services.
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*/
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#ifndef _SWEPCALC_INCLUDED
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#define _SWEPCALC_INCLUDED
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#include "swephexp.h"
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#define degtocs(x) (d2l((x) * DEG))
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#define cstodeg(x) (double)((x) * CS2DEG)
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/*
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* Some functions which came in the source files csec.c and d2l.c
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* are by default not included in the compatibility interface because
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* they have an identical counterpart in the SwissEph library.
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* It is very simple to adapt your code to it.
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* If you want to adapt your source code, turn the next TRUE into FALSE
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*/
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#if TRUE /* replace by if FALSE to deactivate macros */
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#define d2l(x) swe_d2l(x)
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#define difcsn(x,y) swe_difcsn(x,y)
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#define difcs2n(x,y) swe_difcs2n(x,y)
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#define difdegn(x,y) swe_difdegn(x,y)
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#define difdeg2n(x,y) swe_difdeg2n(x,y)
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#define csnorm(x) swe_csnorm(x)
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#define degnorm(x) swe_degnorm(x)
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#define roundsec(x) swe_csroundsec(x)
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#endif
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/*************************************************************
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Exported functions, originally from placalc.c
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In all functions the variable jd_ad indicates the use of
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Astrodienst relative julian days, and jd the use of absolute
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julian days.
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*************************************************************/
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extern int nacalc(double jd_ad, centisec * plon, centisec * pspe);
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extern int calcserv(int id, double t, int flag, int plalist, char *so);
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extern void helup(double jd_ad);
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extern void togeo(double le, double re, double l, double r, double z,
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double *alg, double *arg);
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extern int calc(int p, double jd_ad, int flag, double *alng, double *arad,
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double *alat, double *alngspeed);
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extern int rel_geo(int p, double rau);
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extern int hel(int p, /* planet index as defined by placalc.h */
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double jd_ad, /* relative juliand date, ephemeris time */
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/* Now come 6 pointers to return values. */
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double *al, /* longitude in degrees */
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double *ar, /* radius in AU */
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double *az, /* distance from ecliptic in AU */
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double *alp, /* speed in longitude, degrees per day */
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double *arp, /* speed in radius, AU per day */
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double *azp); /* speed in z, AU per day */
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extern int moon(double *al, double *ar, double *az);
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extern double fraction(double t);
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extern double sidtime(double jd_ad, double ecl, double nuta);
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extern double smod8360(double x);
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extern double mod8360(double x);
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extern double diff8360(double x, double y);
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extern double test_near_zero(double x);
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extern double deltat(double jd_ad);
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extern void to_mean_ekl(double jd, double xyz[], double lrz[]);
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extern void placalc_close_files();
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extern int fixstar(char *star, double jd, double *lon, double *lat);
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extern char *placalc_get_errtext();
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extern char *placalc_set_ephepath(char *new_path); /* sets ephepath;
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* if called with NULL, returns current path */
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/*
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* because deltat() required a relative Julian date due to historical reasons,
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* we define a function deltatjd() with absolute Juliand date argument.
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*/
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#define deltatjd(x) deltat((x) - JUL_OFFSET)
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/*
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* get the planet index for an AFL letter
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* returns -1 if the letter does not correspond to a planet.
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*/
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extern int afl2planet(int afl);
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/*
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* get the AFL letter for a planet
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* returns -1 if planet has no letter.
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*/
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extern int planet2afl(int p);
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extern char *planet2abbr2(int planet);
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extern char *planet2abbr3(int planet);
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/*************************************************************
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exported variables
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(these cannot be used by DLL clients)
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*************************************************************/
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/*************************************************************
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definitions
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*************************************************************/
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/*
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* planet index numbers, used to identify a planet in calc() and
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* other related functions.
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*/
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#define CALC_ONLY_ECL_NUT -1 /* pseudo planet index for calls to calc */
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#define SUN 0 /* used synonymously for earth too */
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#define EARTH 0
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#define MOON 1
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#define MERCURY 2
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#define VENUS 3
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#define MARS 4
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#define JUPITER 5
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#define SATURN 6
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#define URANUS 7
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#define NEPTUNE 8
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#define PLUTO 9
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#define LASTPLANET PLUTO
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#define MEAN_NODE 10
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#define TRUE_NODE 11
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#define CHIRON 12
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#define LILITH 13
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#define CALC_N 14 /* number of planets in placalc module */
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#define CERES 14
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#define PALLAS 15
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#define JUNO 16
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#define VESTA 17
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#define MAXPL_NACALC (LILITH) /* nacalc computes SUN..LILITH */
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#define PROG_PLANET_OFFSET 50 /* progressed sun */
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/*
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* houses and axes get also a 'planet' index number, but they
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* are not used by placalc itself
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* between chiron and AC we leave 6 places unused for some other celestial
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* bodies or chart factors.
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* Axes and houses cannot be computed with calls to calc(); they must
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* be computed with the housasp module functions.
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*/
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#define AC 19
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#define ASC 19
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#define MC 20
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#define CALC_N_MC 21 /* number of normal natal factors */
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#define FIRST_HSNR 21
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#define LAST_HSNR 32
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#define NO_OF_HOUSES 12
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#define MAX_PL_INDEX 32
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/*
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* in a bitlist flag each planet is represented by a bit;
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* all 14 defined planets can be called at once with
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*/
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#define CALC_ALL_PLANET_BITS ((1 << CALC_N) - 1) /* bits 0..13 set */
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/*
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* AFL: Astrological factor letters for use in selections strings.
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* Each factor (planet, house cusp etc) has a typical letter which
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* can be combined in a selection string for specifying a certain
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* sequence of factors for a table or other kind of display.
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* The function afl2planet() can be used to translate the AFL letters
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* into planet indices.
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* The function planet2afl translates a planext index into the AFL letter.
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*/
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#define AFL_SUN '0'
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#define AFL_MON '1'
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#define AFL_MER '2'
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#define AFL_VEN '3'
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#define AFL_MAR '4'
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#define AFL_JUP '5'
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#define AFL_SAT '6'
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#define AFL_URA '7'
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#define AFL_NEP '8'
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#define AFL_PLU '9'
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#define AFL_CHI 'c'
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#define AFL_LIL 'i' /* mean Lilith: direction of lunar aphel */
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#define AFL_AC 'A'
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#define AFL_MC 'M'
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#define AFL_TNODE 'N' /* TRUE_NODE */
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#define AFL_MNODE 'n' /* MEAN_NODE */
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#define AFL_CER 'C'
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#define AFL_PAL 'P'
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#define AFL_JUN 'J'
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#define AFL_VES 'V'
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/*
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* other AFL definitions not recognized by afl2planet()
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*/
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#define AFL_SIDT 's' /* sidereal time */
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#define AFL_WDAY 'd' /* day of week column */
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#define AFL_HOUSE 'H' /* any house cusp */
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#define apl2planet afl2planet /* change of original name */
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#define J2000 2451545.0 /* Epoch of JPL ephemeris DE200, absolute */
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#define J1950 2433282.423 /* Epoch of JPL ephemeris DE102 */
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#define JUL_OFFSET 2433282.0 /* offset of Astrodienst relative Julian date */
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#ifndef GREG_CAL
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#define GREG_CAL SE_GREG_CAL
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#define JUL_CAL SE_JUL_CAL
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#endif
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/*
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* flag bits used in calc and calcserv
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*/
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#define CALC_BIT_HELIO 1 /* geo/helio */
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#define CALC_BIT_NOAPP 2 /* apparent/true positions */
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#define CALC_BIT_NONUT 4 /* true eq. of date/ mean equ. of date */
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#define CALC_BIT_EPHE 8 /* universal/ephemeris time */
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#define CALC_BIT_SPEED 16 /* without/with speed */
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#define CALC_BIT_BETA 32 /* without/with latitude */
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#define CALC_BIT_RGEO 64 /* without/with relative rgeo */
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#define CALC_BIT_RAU 128 /* without/with real radius */
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#define CALC_BIT_MUST_USE_EPHE 256 /* epheserv may not use calc */
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#define CALC_BIT_MAY_USE_EPHE 512 /* calcserv may use ephread */
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#define CALC_BIT_MUST_CALC 1024 /* ephread must calc */
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/*
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* stuff from astrolib.h
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*/
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#ifndef ADATE /* this must be bracketed because users of swepcalc
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* may also include astrolib.h for other reasons */
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#define ADATE struct adate
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/* makros for bit operations */
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#define clear_bit(v,bit_nr) ((v) & ~(1L << (bit_nr)))
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#define set_bit(v,bit_nr) ((v) | (1L << (bit_nr)))
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#define bit(bit_nr) (1L << (bit_nr))
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#define check_bit(v,bit_nr) ((v) & (1L << (bit_nr)))
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ADATE { /* date structure used by revjuls and juldays */
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int day, month, year;
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centisec csec;
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};
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#endif /* ADATE */
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/*
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* functions exported by swepdate.c
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*/
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extern double julday(int month, int day, int year, double hour, int gregflag);
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extern double juldays(int gregflag, ADATE * adp);
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extern void revjul(double u, int gregflag, int *jmon, int *jday, int *jyear,
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double *jut);
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extern void revjuls(double u, int gregflag, ADATE * adp);
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extern int day_of_week(double t);
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/*
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* end swpdate.c
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*/
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/*
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* stuff from housasp.h
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*/
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#ifndef ASP_144 /* allow including housasp wihout conflict */
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#define MAXPLANETS 16
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/*
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* definitions for aspect numbering; we always have a name and an angle
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* due to historical reasons index 0 is unused, conjunct is 1.
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* We define three different names for the aspects:
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* ASP_CONJ (always 4 letters), ASP_0 and CONJ.
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*/
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#define ASP_CONJ 1
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#define ASP_0 1
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#define ASP_OPPO 2
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#define ASP_180 2
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#define ASP_SQUA 3
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#define ASP_90 3
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#define ASP_TRIN 4
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#define ASP_120 4
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#define ASP_SEXT 5
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#define ASP_60 5
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#define ASP_SMSX 6
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#define ASP_30 6
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#define ASP_QCNX 7
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#define ASP_150 7
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#define ASP_SMSQ 8
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#define ASP_45 8
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#define ASP_SQSQ 9
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#define ASP_135 9
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#define ASP_QINT 10
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#define ASP_72 10
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#define ASP_BQIN 11
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#define ASP_144 11
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#define CONJ ASP_CONJ
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#define OPPO ASP_OPPO
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#define SQUA ASP_SQUA
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#define TRIN ASP_TRIN
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#define SEXT ASP_SEXT
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#define SMSX ASP_SMSX
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#define QCNX ASP_QCNX
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#define SMSQ ASP_SMSQ
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#define SQSQ ASP_SQSQ
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#define QINT ASP_QINT
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#define BQIN ASP_BQIN
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#define MAXASPECTS ASP_BQIN
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/*
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* for compact encoding of aspect lists we set bit 1 for CONJ, bit 2 for OPPO
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* and so on. asp_bit(asp) deleivers the mask.
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*/
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#define ALL_ASP_BITS 1022 /* bit mask with all aspect bits set */
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#define STRONG_ASP_BITS 62 /* bit mask with strong aspect bits set */
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#define HARD_ASP_BITS 14 /* bit mask with hard aspect bits set */
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#define asp_bit(asp) (1 << (asp))
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/*
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* sometimes it is desirable to have a compact way to express planet-aspect
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* combinations.
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* We define PASP(planet,aspect) as a constant, 100*planet + aspect.
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* We can then write things like:
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* case PASP(PLUTO, JONJ): ...
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* A definition like p << 8 + a would be faster but the combinations would
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* be harder to read.
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*/
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#define PASP(p,a) (100*(p) + (a))
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/*
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* used to initialize an array centisec angles[MAXASPECTS+1]
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*/
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#define ASP_ANGLES {0, 0*DEG, 180*DEG, 90*DEG, 120*DEG,\
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60*DEG, 30*DEG, 150*DEG, 45*DEG, 135*DEG, 72*DEG, 144*DEG}
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struct AspectType
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{
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AS_BOOL dataValid; /* used as boolean */
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int NrOfPlanets, NrOfAspects;
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centisec *PlanetPos; /* pointer to an array of planet positions
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* [0..NrOfPlanets-1]; the user of the
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* structure must set this pointer to his
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* array of planet positions */
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centisec *ppos2; /* second set for mutual aspects only; if
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* not NULL, interaspects are calculated */
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centisec *Maxorb; /* pointer to an array [0..NrOfAspects] of
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* maximum orbes; element[0] not used;
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* the user of the structure must set this
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* pointer to his array of maxorbs */
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centisec *Angle; /* pointer to Angle[0..NrOfAspects] of the
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* angles of aspects; [0] not used; the
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* user must set this pointer to his array
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* of angles */
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struct aspRec
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{
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int index; /* number of the found aspect */
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centisec orb;
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}
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Asp[MAXPLANETS][MAXPLANETS];
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};
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struct houses
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{
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centisec cusp[13];
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centisec ac;
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centisec mc;
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};
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#define HOUSES struct houses
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#endif /* ifndef ASP_144 */
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/**********************************
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functions exported originally from housasp.c
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***********************************/
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extern int HouseNr(HOUSES * h, CSEC p);
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/*
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* return in which house pp is,
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* The caller is responsible for proper initialization of cusps
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*/
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extern int InpHouseNr(HOUSES * h, CSEC p, CSEC * cuspoff);
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/* returns the interpretation-house number, where pp is in;
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* an interpretation house is defined differently from a normal
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* house: the cusps are offset, so that it begins and ends
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* a little earlier.
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* cusp[1..12] and cuspoff[1..12] must be initialized
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*/
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extern int InpHouseNr2(HOUSES * h, CSEC p, CSEC * cuspoff);
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/* variation of InpHouseNr(). Comment in swepcalc.c */
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extern void CalcHouses(CSEC th, CSEC fi, CSEC ekl, char hsy, int icnt,
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struct houses *h);
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extern void RecalcAspects(struct AspectType *a);
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extern void longreorder(UCHAR * p, int n);
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#endif /* _SWEPCALC_INCLUDED */
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