EVOLUTION-MANAGER

Edit File: projects.h

/****************************************************************************** * Project: PROJ.4 * Purpose: Primary (private) include file for PROJ.4 library. * Author: Gerald Evenden * ****************************************************************************** * Copyright (c) 2000, Frank Warmerdam * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included * in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER * DEALINGS IN THE SOFTWARE. *****************************************************************************/ /* General projections header file */ #ifndef PROJECTS_H #define PROJECTS_H #ifdef _MSC_VER # ifndef _CRT_SECURE_NO_DEPRECATE # define _CRT_SECURE_NO_DEPRECATE # endif # ifndef _CRT_NONSTDC_NO_DEPRECATE # define _CRT_NONSTDC_NO_DEPRECATE # endif /* enable predefined math constants M_* for MS Visual Studio workaround */ # define _USE_MATH_DEFINES #endif /* standard inclusions */ #include <math.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #ifdef __cplusplus #define C_NAMESPACE extern "C" #define C_NAMESPACE_VAR extern "C" extern "C" { #else #define C_NAMESPACE extern #define C_NAMESPACE_VAR #endif #ifndef NULL # define NULL 0 #endif #ifndef FALSE # define FALSE 0 #endif #ifndef TRUE # define TRUE 1 #endif #ifndef MAX # define MIN(a,b) ((a<b) ? a : b) # define MAX(a,b) ((a>b) ? a : b) #endif #ifndef ABS # define ABS(x) ((x<0) ? (-1*(x)) : x) #endif /* maximum path/filename */ #ifndef MAX_PATH_FILENAME #define MAX_PATH_FILENAME 1024 #endif /* prototype hypot for systems where absent */ #ifndef _WIN32 extern double hypot(double, double); #endif #ifdef _WIN32_WCE # include <wce_stdlib.h> # include <wce_stdio.h> # define rewind wceex_rewind # define getenv wceex_getenv # define strdup _strdup # define hypot _hypot #endif /* If we still haven't got M_PI*, we rely on our own defines. * For example, this is necessary when compiling with gcc and * the -ansi flag. */ #ifndef M_PI #define M_PI 3.14159265358979310 #define M_PI_2 1.57079632679489660 #define M_PI_4 0.78539816339744828 #endif /* some more useful math constants and aliases */ #define M_FORTPI M_PI_4 /* pi/4 */ #define M_HALFPI M_PI_2 /* pi/2 */ #define M_PI_HALFPI 4.71238898038468985769 /* 1.5*pi */ #define M_TWOPI 6.28318530717958647693 /* 2*pi */ #define M_TWO_D_PI M_2_PI /* 2/pi */ #define M_TWOPI_HALFPI 7.85398163397448309616 /* 2.5*pi */ /* maximum tag id length for +init and default files */ #ifndef ID_TAG_MAX #define ID_TAG_MAX 50 #endif /* Use WIN32 as a standard windows 32 bit declaration */ #if defined(_WIN32) && !defined(WIN32) && !defined(_WIN32_WCE) # define WIN32 #endif #if defined(_WINDOWS) && !defined(WIN32) && !defined(_WIN32_WCE) # define WIN32 #endif /* directory delimiter for DOS support */ #ifdef WIN32 #define DIR_CHAR '\\' #else #define DIR_CHAR '/' #endif struct projFileAPI_t; /* proj thread context */ typedef struct { int last_errno; int debug_level; void (*logger)(void *, int, const char *); void *app_data; struct projFileAPI_t *fileapi; } projCtx_t; /* datum_type values */ #define PJD_UNKNOWN 0 #define PJD_3PARAM 1 #define PJD_7PARAM 2 #define PJD_GRIDSHIFT 3 #define PJD_WGS84 4 /* WGS84 (or anything considered equivelent) */ /* library errors */ #define PJD_ERR_GEOCENTRIC -45 #define PJD_ERR_AXIS -47 #define PJD_ERR_GRID_AREA -48 #define PJD_ERR_CATALOG -49 #define USE_PROJUV typedef struct { double u, v; } projUV; typedef struct { double r, i; } COMPLEX; typedef struct { double u, v, w; } projUVW; #ifndef PJ_LIB__ #define XY projUV #define LP projUV #define XYZ projUVW #define LPZ projUVW #else typedef struct { double x, y; } XY; typedef struct { double lam, phi; } LP; typedef struct { double x, y, z; } XYZ; typedef struct { double lam, phi, z; } LPZ; #endif typedef union { double f; int i; char *s; } PROJVALUE; struct PJconsts; struct PJ_LIST { char *id; /* projection keyword */ struct PJconsts *(*proj)(struct PJconsts*); /* projection entry point */ char * const *descr; /* description text */ }; /* Merging this into the PJ_LIST infrastructure is tempting, but may imply ABI breakage. Perhaps at next major version? */ struct PJ_SELFTEST_LIST { char *id; /* projection keyword */ int (* testfunc)(void); /* projection entry point */ }; struct PJ_ELLPS { char *id; /* ellipse keyword name */ char *major; /* a= value */ char *ell; /* elliptical parameter */ char *name; /* comments */ }; struct PJ_UNITS { char *id; /* units keyword */ char *to_meter; /* multiply by value to get meters */ char *name; /* comments */ }; struct PJ_DATUMS { char *id; /* datum keyword */ char *defn; /* ie. "to_wgs84=..." */ char *ellipse_id;/* ie from ellipse table */ char *comments; /* EPSG code, etc */ }; struct PJ_PRIME_MERIDIANS { char *id; /* prime meridian keyword */ char *defn; /* offset from greenwich in DMS format. */ }; typedef struct { double ll_long; /* lower left corner coordinates (radians) */ double ll_lat; double ur_long; /* upper right corner coordinates (radians) */ double ur_lat; } PJ_Region; struct DERIVS { double x_l, x_p; /* derivatives of x for lambda-phi */ double y_l, y_p; /* derivatives of y for lambda-phi */ }; struct FACTORS { struct DERIVS der; double h, k; /* meridinal, parallel scales */ double omega, thetap; /* angular distortion, theta prime */ double conv; /* convergence */ double s; /* areal scale factor */ double a, b; /* max-min scale error */ int code; /* info as to analytics, see following */ }; #define IS_ANAL_XL_YL 01 /* derivatives of lon analytic */ #define IS_ANAL_XP_YP 02 /* derivatives of lat analytic */ #define IS_ANAL_HK 04 /* h and k analytic */ #define IS_ANAL_CONV 010 /* convergence analytic */ /* parameter list struct */ typedef struct ARG_list { struct ARG_list *next; char used; char param[1]; } paralist; /* base projection data structure */ #ifdef PJ_LIB__ /* we need this forward declaration in order to be able to add a pointer to struct opaque to the typedef struct PJconsts below */ struct pj_opaque; #endif typedef struct PJconsts { projCtx_t *ctx; XY (*fwd)(LP, struct PJconsts *); LP (*inv)(XY, struct PJconsts *); XYZ (*fwd3d)(LPZ, struct PJconsts *); LPZ (*inv3d)(XYZ, struct PJconsts *); void (*spc)(LP, struct PJconsts *, struct FACTORS *); void (*pfree)(struct PJconsts *); const char *descr; paralist *params; /* parameter list */ int over; /* over-range flag */ int geoc; /* geocentric latitude flag */ int is_latlong; /* proj=latlong ... not really a projection at all */ int is_geocent; /* proj=geocent ... not really a projection at all */ double a; /* major axis or radius if es==0 */ double a_orig; /* major axis before any +proj related adjustment */ double es; /* e ^ 2 */ double es_orig; /* es before any +proj related adjustment */ double e; /* eccentricity */ double ra; /* 1/A */ double one_es; /* 1 - e^2 */ double rone_es; /* 1/one_es */ double lam0, phi0; /* central longitude, latitude */ double x0, y0; /* easting and northing */ double k0; /* general scaling factor */ double to_meter, fr_meter; /* cartesian scaling */ int datum_type; /* PJD_UNKNOWN/3PARAM/7PARAM/GRIDSHIFT/WGS84 */ double datum_params[7]; struct _pj_gi **gridlist; int gridlist_count; int has_geoid_vgrids; struct _pj_gi **vgridlist_geoid; int vgridlist_geoid_count; double vto_meter, vfr_meter; double from_greenwich; /* prime meridian offset (in radians) */ double long_wrap_center; /* 0.0 for -180 to 180, actually in radians*/ int is_long_wrap_set; char axis[4]; /* New Datum Shift Grid Catalogs */ char *catalog_name; struct _PJ_GridCatalog *catalog; double datum_date; struct _pj_gi *last_before_grid; PJ_Region last_before_region; double last_before_date; struct _pj_gi *last_after_grid; PJ_Region last_after_region; double last_after_date; #ifdef PJ_LIB__ struct pj_opaque *opaque; #endif #ifdef PROJ_PARMS__ PROJ_PARMS__ #endif /* end of optional extensions */ } PJ; /* public API */ #include "proj_api.h" /* Generate pj_list external or make list from include file */ #ifndef USE_PJ_LIST_H extern struct PJ_LIST pj_list[]; extern struct PJ_SELFTEST_LIST pj_selftest_list[]; #endif #ifndef PJ_ELLPS__ extern struct PJ_ELLPS pj_ellps[]; #endif #ifndef PJ_UNITS__ extern struct PJ_UNITS pj_units[]; #endif #ifndef PJ_DATUMS__ extern struct PJ_DATUMS pj_datums[]; extern struct PJ_PRIME_MERIDIANS pj_prime_meridians[]; #endif #ifdef PJ_LIB__ /* repetitive projection code */ #define PROJ_HEAD(id, name) static const char des_##id [] = name #define ENTRYA(name) \ C_NAMESPACE_VAR const char * const pj_s_##name = des_##name; \ C_NAMESPACE PJ *pj_##name(PJ *P) { if (!P) { \ if( (P = (PJ*) pj_malloc(sizeof(PJ))) != NULL) { \ memset( P, 0, sizeof(PJ) ); \ P->pfree = freeup; P->fwd = 0; P->inv = 0; \ P->fwd3d = 0; P->inv3d = 0; \ P->spc = 0; P->descr = des_##name; #define ENTRYX } return P; } else { #define ENTRY0(name) ENTRYA(name) ENTRYX #define ENTRY1(name, a) ENTRYA(name) P->a = 0; ENTRYX #define ENTRY2(name, a, b) ENTRYA(name) P->a = 0; P->b = 0; ENTRYX #define ENDENTRY(p) } return (p); } #define E_ERROR(err) { pj_ctx_set_errno( P->ctx, err); freeup(P); return(0); } #define E_ERROR_0 { freeup(P); return(0); } #define F_ERROR { pj_ctx_set_errno( P->ctx, -20); return(xy); } #define F3_ERROR { pj_ctx_set_errno( P->ctx, -20); return(xyz); } #define I_ERROR { pj_ctx_set_errno( P->ctx, -20); return(lp); } #define I3_ERROR { pj_ctx_set_errno( P->ctx, -20); return(lpz); } #define FORWARD(name) static XY name(LP lp, PJ *P) { XY xy = {0.0,0.0} #define INVERSE(name) static LP name(XY xy, PJ *P) { LP lp = {0.0,0.0} #define FORWARD3D(name) static XYZ name(LPZ lpz, PJ *P) {XYZ xyz = {0.0, 0.0, 0.0} #define INVERSE3D(name) static LPZ name(XYZ xyz, PJ *P) {LPZ lpz = {0.0, 0.0, 0.0} #define FREEUP static void freeup(PJ *P) { #define SPECIAL(name) static void name(LP lp, PJ *P, struct FACTORS *fac) #define ELLIPSOIDAL(P) ((P->es==0)? (FALSE): (TRUE)) /* cleaned up alternative to most of the "repetitive projection code" macros */ #define PROJECTION(name) \ pj_projection_specific_setup_##name (PJ *P); \ C_NAMESPACE_VAR const char * const pj_s_##name = des_##name; \ C_NAMESPACE PJ *pj_##name (PJ *P) { \ if (P) \ return pj_projection_specific_setup_##name (P); \ P = (PJ*) pj_calloc (1, sizeof(PJ)); \ if (0==P) \ return 0; \ P->pfree = freeup; \ P->descr = des_##name; \ return P; \ } \ PJ *pj_projection_specific_setup_##name (PJ *P) #endif int pj_generic_selftest ( char *e_args, char *s_args, double tolerance_xy, double tolerance_lp, int n_fwd, int n_inv, LP *fwd_in, XY *e_fwd_expect, XY *s_fwd_expect, XY *inv_in, LP *e_inv_expect, LP *s_inv_expect ); #define MAX_TAB_ID 80 typedef struct { float lam, phi; } FLP; typedef struct { int lam, phi; } ILP; struct CTABLE { char id[MAX_TAB_ID]; /* ascii info */ LP ll; /* lower left corner coordinates */ LP del; /* size of cells */ ILP lim; /* limits of conversion matrix */ FLP *cvs; /* conversion matrix */ }; typedef struct _pj_gi { char *gridname; /* identifying name of grid, eg "conus" or ntv2_0.gsb */ char *filename; /* full path to filename */ const char *format; /* format of this grid, ie "ctable", "ntv1", "ntv2" or "missing". */ int grid_offset; /* offset in file, for delayed loading */ int must_swap; /* only for NTv2 */ struct CTABLE *ct; struct _pj_gi *next; struct _pj_gi *child; } PJ_GRIDINFO; typedef struct { PJ_Region region; int priority; /* higher used before lower */ double date; /* year.fraction */ char *definition; /* usually the gridname */ PJ_GRIDINFO *gridinfo; int available; /* 0=unknown, 1=true, -1=false */ } PJ_GridCatalogEntry; typedef struct _PJ_GridCatalog { char *catalog_name; PJ_Region region; /* maximum extent of catalog data */ int entry_count; PJ_GridCatalogEntry *entries; struct _PJ_GridCatalog *next; } PJ_GridCatalog; /* procedure prototypes */ double dmstor(const char *, char **); double dmstor_ctx(projCtx ctx, const char *, char **); void set_rtodms(int, int); char *rtodms(char *, double, int, int); double adjlon(double); double aacos(projCtx,double), aasin(projCtx,double), asqrt(double), aatan2(double, double); PROJVALUE pj_param(projCtx ctx, paralist *, const char *); paralist *pj_mkparam(char *); int pj_ell_set(projCtx ctx, paralist *, double *, double *); int pj_datum_set(projCtx,paralist *, PJ *); int pj_prime_meridian_set(paralist *, PJ *); int pj_angular_units_set(paralist *, PJ *); void pj_prepare (PJ *P, const char *description, void (*freeup)(struct PJconsts *), size_t sizeof_struct_opaque); paralist *pj_clone_paralist( const paralist* ); paralist*pj_search_initcache( const char *filekey ); void pj_insert_initcache( const char *filekey, const paralist *list); double *pj_enfn(double); double pj_mlfn(double, double, double, double *); double pj_inv_mlfn(projCtx, double, double, double *); double pj_qsfn(double, double, double); double pj_tsfn(double, double, double); double pj_msfn(double, double, double); double pj_phi2(projCtx, double, double); double pj_qsfn_(double, PJ *); double *pj_authset(double); double pj_authlat(double, double *); COMPLEX pj_zpoly1(COMPLEX, COMPLEX *, int); COMPLEX pj_zpolyd1(COMPLEX, COMPLEX *, int, COMPLEX *); int pj_deriv(LP, double, PJ *, struct DERIVS *); int pj_factors(LP, PJ *, double, struct FACTORS *); struct PW_COEF { /* row coefficient structure */ int m; /* number of c coefficients (=0 for none) */ double *c; /* power coefficients */ }; /* Approximation structures and procedures */ typedef struct { /* Chebyshev or Power series structure */ projUV a, b; /* power series range for evaluation */ /* or Chebyshev argument shift/scaling */ struct PW_COEF *cu, *cv; int mu, mv; /* maximum cu and cv index (+1 for count) */ int power; /* != 0 if power series, else Chebyshev */ } Tseries; Tseries *mk_cheby(projUV, projUV, double, projUV *, projUV (*)(projUV), int, int, int); projUV bpseval(projUV, Tseries *); projUV bcheval(projUV, Tseries *); projUV biveval(projUV, Tseries *); void *vector1(int, int); void **vector2(int, int, int); void freev2(void **v, int nrows); int bchgen(projUV, projUV, int, int, projUV **, projUV(*)(projUV)); int bch2bps(projUV, projUV, projUV **, int, int); /* nadcon related protos */ LP nad_intr(LP, struct CTABLE *); LP nad_cvt(LP, int, struct CTABLE *); struct CTABLE *nad_init(projCtx ctx, char *); struct CTABLE *nad_ctable_init( projCtx ctx, PAFile fid ); int nad_ctable_load( projCtx ctx, struct CTABLE *, PAFile fid ); struct CTABLE *nad_ctable2_init( projCtx ctx, PAFile fid ); int nad_ctable2_load( projCtx ctx, struct CTABLE *, PAFile fid ); void nad_free(struct CTABLE *); /* higher level handling of datum grid shift files */ int pj_apply_vgridshift( PJ *defn, const char *listname, PJ_GRIDINFO ***gridlist_p, int *gridlist_count_p, int inverse, long point_count, int point_offset, double *x, double *y, double *z ); int pj_apply_gridshift_2( PJ *defn, int inverse, long point_count, int point_offset, double *x, double *y, double *z ); int pj_apply_gridshift_3( projCtx ctx, PJ_GRIDINFO **gridlist, int gridlist_count, int inverse, long point_count, int point_offset, double *x, double *y, double *z ); PJ_GRIDINFO **pj_gridlist_from_nadgrids( projCtx, const char *, int * ); void pj_deallocate_grids(); PJ_GRIDINFO *pj_gridinfo_init( projCtx, const char * ); int pj_gridinfo_load( projCtx, PJ_GRIDINFO * ); void pj_gridinfo_free( projCtx, PJ_GRIDINFO * ); PJ_GridCatalog *pj_gc_findcatalog( projCtx, const char * ); PJ_GridCatalog *pj_gc_readcatalog( projCtx, const char * ); void pj_gc_unloadall( projCtx ); int pj_gc_apply_gridshift( PJ *defn, int inverse, long point_count, int point_offset, double *x, double *y, double *z ); int pj_gc_apply_gridshift( PJ *defn, int inverse, long point_count, int point_offset, double *x, double *y, double *z ); PJ_GRIDINFO *pj_gc_findgrid( projCtx ctx, PJ_GridCatalog *catalog, int after, LP location, double date, PJ_Region *optional_region, double *grid_date ); double pj_gc_parsedate( projCtx, const char * ); void *proj_mdist_ini(double); double proj_mdist(double, double, double, const void *); double proj_inv_mdist(projCtx ctx, double, const void *); void *pj_gauss_ini(double, double, double *,double *); LP pj_gauss(projCtx, LP, const void *); LP pj_inv_gauss(projCtx, LP, const void *); extern char const pj_release[]; struct PJ_ELLPS *pj_get_ellps_ref( void ); struct PJ_DATUMS *pj_get_datums_ref( void ); struct PJ_UNITS *pj_get_units_ref( void ); struct PJ_LIST *pj_get_list_ref( void ); struct PJ_SELFTEST_LIST *pj_get_selftest_list_ref ( void ); struct PJ_PRIME_MERIDIANS *pj_get_prime_meridians_ref( void ); double pj_atof( const char* nptr ); double pj_strtod( const char *nptr, char **endptr ); #ifdef __cplusplus } #endif #endif /* end of basic projections header */