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* $Id: gmt_project.h 10054 2013-06-15 19:20:58Z pwessel $
*
* Copyright (c) 1991-2013 by P. Wessel and W. H. F. Smith
* See LICENSE.TXT file for copying and redistribution conditions.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; version 2 or any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* Contact info: gmt.soest.hawaii.edu
*--------------------------------------------------------------------*/
/*
* Include file for programs that use the map-projections functions. Note
* that most programs will include this by including gmt.h
*
* Author: Paul Wessel
* Date: 26-FEB-1990
* Revised: 24-MAR-2000
* Revised: 18-DEC-2007
* Version: 4.2.2
*
*/
#ifndef _GMT_PROJECT_H
#define _GMT_PROJECT_H
#define GMT_N_PROJECTIONS 29 /* Total number of projections in GMT */
/* These numbers should remain flexible. Do not use them in any programming. Use only their symbolic names.
However, all the first items in each section (i.e. GMT_LINEAR, GMT_MERCATOR,...) should remain the first.
*/
#define GMT_NO_PROJ -1 /* Projection not specified (initial value) */
/* Linear projections tagged 0-99 */
#define GMT_IS_LINEAR (project_info.projection / 100 == 0)
#define GMT_LINEAR 0
#define GMT_LOG10 1 /* These numbers are only used for project_info.xyz_projection[3], */
#define GMT_POW 2 /* while project_info.projection = 0 */
#define GMT_TIME 3
#define GMT_ZAXIS 50
/* Cylindrical projections tagged 100-199 */
#define GMT_IS_CYLINDRICAL (project_info.projection / 100 == 1)
#define GMT_MERCATOR 100
#define GMT_CYL_EQ 101
#define GMT_CYL_EQDIST 102
#define GMT_CYL_STEREO 103
#define GMT_MILLER 104
#define GMT_TM 106
#define GMT_UTM 107
#define GMT_CASSINI 108
#define GMT_OBLIQUE_MERC 150
#define GMT_OBLIQUE_MERC_POLE 151
/* Conic projections tagged 200-299 */
#define GMT_IS_CONICAL (project_info.projection / 100 == 2)
#define GMT_ALBERS 200
#define GMT_ECONIC 201
#define GMT_POLYCONIC 202
#define GMT_LAMBERT 250
/* Azimuthal projections tagged 300-399 */
#define GMT_IS_AZIMUTHAL (project_info.projection / 100 == 3)
#define GMT_STEREO 300
#define GMT_LAMB_AZ_EQ 301
#define GMT_ORTHO 302
#define GMT_AZ_EQDIST 303
#define GMT_GNOMONIC 304
#define GMT_GENPER 305
#define GMT_POLAR 350
/* Misc projections tagged 400-499 */
#define GMT_IS_MISC (project_info.projection / 100 == 4)
#define GMT_MOLLWEIDE 400
#define GMT_HAMMER 401
#define GMT_SINUSOIDAL 402
#define GMT_VANGRINTEN 403
#define GMT_ROBINSON 404
#define GMT_ECKERT4 405
#define GMT_ECKERT6 406
#define GMT_WINKEL 407
#define GMT_IS_RECT_GRATICULE (project_info.projection <= GMT_MILLER)
#define GMT_POLE_IS_POINT (project_info.projection >= GMT_LAMBERT && project_info.projection <= GMT_VANGRINTEN)
#define GMT_IS_MAPPING (project_info.degree[0] && project_info.degree[1]) /* TRUE when map projections are used */
#define GMT_IS_SPHERICAL (gmtdefs.ref_ellipsoid[gmtdefs.ellipsoid].flattening < 1.0e-10)
#define GMT_360_RANGE(w,e) (fabs (fabs((e) - (w)) - 360.0) < GMT_CONV_LIMIT)
#define GMT_180_RANGE(s,n) (fabs (fabs((n) - (s)) - 180.0) < GMT_CONV_LIMIT)
#define GMT_IS_ZERO(x) (fabs (x) < GMT_CONV_LIMIT)
#ifndef D2R
#define D2R (M_PI / 180.0)
#endif
#ifndef R2D
#define R2D (180.0 / M_PI)
#endif
/* UTM offsets */
#define GMT_FALSE_EASTING 500000.0
#define GMT_FALSE_NORTHING 10000000.0
/* Number of nodes in Robinson interpolation */
#define GMT_N_ROBINSON 19
#define GMT_LATSWAP_N 12 /* number of defined swaps */
struct GMT_LATSWAP_CONSTS {
double c[GMT_LATSWAP_N][4]; /* Coefficients in 4-term series */
double ra; /* Authalic radius (sphere for equal-area) */
double rm; /* Meridional radius (sphere for N-S distance) */
GMT_LONG spherical; /* True if no conversions need to be done. */
};
struct GMT_MAP_PROJECTIONS {
double pars[10]; /* Raw unprocessed map-projection parameters as passed on command line */
double z_pars[2]; /* Raw unprocessed z-projection parameters as passed on command line */
/* Common projection parameters */
GMT_LONG projection; /* Gives the id number for the projection used */
GMT_LONG x_off_supplied; /* Used to set xorigin/yorigin for overlay/final plots */
GMT_LONG y_off_supplied;
GMT_LONG region_supplied; /* TRUE when -R option has been given */
GMT_LONG units_pr_degree; /* TRUE if scale is given as inch (or cm)/degree. FALSE for 1:xxxxx */
GMT_LONG region; /* TRUE if -R gives lon/lat boundaries, FALSE if it gives lower/left upper right corners */
GMT_LONG north_pole; /* TRUE if projection is on northern hemisphere, FALSE on southern */
GMT_LONG edge[4]; /* TRUE if the edge is a map boundary */
GMT_LONG three_D; /* Parameters for 3-D projections */
GMT_LONG JZ_set; /* TRUE if -Jz|Z was set */
GMT_LONG GMT_convert_latitudes; /* TRUE if using spherical code with authalic/conformal latitudes */
struct GMT_LATSWAP_CONSTS GMT_lat_swap_vals;
double x0, y0, z0; /* Projected values of the logical origin for the projection */
double xmin, xmax, ymin, ymax, zmin, zmax; /* Extreme projected values */
double w, e, s, n; /* Bounding geographical region, if applicable */
double z_bottom, z_top; /* Bounds in z direction */
double x_scale, y_scale; /* Scaling for meters to map-distance (typically inch) conversion */
double z_scale; /* Scale for z projection (user-units to map-units (typically inch) */
double i_x_scale, i_y_scale; /* Inverse Scaling for meters to map-distance (typically inch) conversion */
double i_z_scale; /* Inverse Scale for z projection (user-units to map-units (typically inch) */
double z_level; /* Level at which to draw basemap [0] */
double unit; /* Gives meters pr plot unit (0.01 or 0.0254) */
double central_meridian; /* Central meridian for projection */
double pole; /* +90 pr -90, depending on which pole */
double EQ_RAD, i_EQ_RAD; /* Current ellipsoid parameters */
double ECC, ECC2, ECC4, ECC6; /* Powers of eccentricity */
double M_PR_DEG, KM_PR_DEG; /* Current spherical approximations to convert degrees to dist but may become 0.001 if linear */
double DIST_M_PR_DEG, DIST_KM_PR_DEG; /* Current spherical approximations to convert degrees to dist. Always has correct dimension */
double half_ECC, i_half_ECC; /* 0.5 * ECC and 0.5 / ECC */
double one_m_ECC2, i_one_m_ECC2; /* 1.0 - ECC2 and inverse */
GMT_LONG gave_map_width; /* nonzero if map width (1), height (2), max dim (3) or min dim (4) is given instead of scale. 0 for 1:xxxxx */
double f_horizon, rho_max; /* Azimuthal horizon (deg) and in plot coordinates */
/* Linear plot parameters */
GMT_LONG xyz_projection[3]; /* For linear projection, 0 = linear, 1 = log10, 2 = pow */
GMT_LONG xyz_pos[3]; /* TRUE if x,y,z-axis increases in normal positive direction */
GMT_LONG compute_scale[3]; /* TRUE if axes lengths were set rather than scales */
GMT_LONG degree[3]; /* TRUE if we have linear projection with geographical data */
double xyz_pow[3]; /* For GMT_POW projection */
double xyz_ipow[3];
/* Center of radii for all conic projections */
double c_x0, c_y0;
/* Lambert conformal conic parameters. */
double l_N, l_i_N, l_Nr, l_i_Nr;
double l_F, l_rF, l_i_rF;
double l_rho0;
/* Oblique Mercator Projection (Spherical version )*/
double o_sin_pole_lat, o_cos_pole_lat; /* Pole of rotation */
double o_pole_lon, o_pole_lat; /* In degrees */
double o_beta; /* lon' = beta for central_meridian (degrees) */
double o_FP[3], o_FC[3], o_IP[3], o_IC[3];
/* TM and UTM Projections */
double t_lat0;
double t_e2, t_M0;
double t_c1, t_c2, t_c3, t_c4;
double t_i1, t_i2, t_i3, t_i4, t_i5;
double t_r, t_ir; /* Short for project_info.EQ_RAD * gmtdefs.map_scale_factor and its inverse */
GMT_LONG utm_hemisphere; /* -1 for S, +1 for N, 0 if to be set by -R */
GMT_LONG utm_zonex; /* The longitude component 1-60 */
GMT_LONG utm_zoney; /* The latitude component A-Z */
/* Lambert Azimuthal Equal-Area Projection */
double sinp;
double cosp;
double Dx, Dy, iDx, iDy; /* Fudge factors for projections w/authalic lats */
/* Stereographic Projection */
double s_c, s_ic;
double r; /* Radius of projected sphere in plot units (inch or cm) */
GMT_LONG polar; /* True if projection pole coincides with S or N pole */
/* Mollweide, Hammer-Aitoff and Winkel Projection */
double w_x, w_y, w_iy, w_r;
/* Winkel Tripel Projection */
double r_cosphi1; /* = cos (50.467) */
/* Robinson Projection */
double n_cx, n_cy; /* = = 0.8487R, 1.3523R */
double n_i_cy;
double n_phi[GMT_N_ROBINSON], n_X[GMT_N_ROBINSON], n_Y[GMT_N_ROBINSON];
double *n_x_coeff, *n_y_coeff, *n_iy_coeff;
/* Eckert IV Projection */
double k4_x, k4_y, k4_ix, k4_iy;
/* Eckert VI Projection */
double k6_r, k6_ir;
/* Cassini Projection */
double c_M0, c_c1, c_c2, c_c3, c_c4;
double c_i1, c_i2, c_i3, c_i4, c_i5, c_p;
/* All Cylindrical Projections */
double j_x, j_y, j_ix, j_iy;
/* Albers Equal-area conic parameters. */
double a_n, a_i_n;
double a_C, a_n2ir2, a_test, a_Cin;
double a_rho0;
/* Equidistant conic parameters. */
double d_n, d_i_n;
double d_G, d_rho0;
/* Van der Grinten parameters. */
double v_r, v_ir;
/* General Perspective parameters */
double g_H, g_R;
double g_P, g_P_inverse;
double g_lon0;
double g_sphi1, g_cphi1;
double g_phig, g_sphig, g_cphig;
double g_sdphi, g_cdphi;
double g_B, g_D, g_L, g_G, g_J;
double g_BLH, g_DG, g_BJ, g_DHJ, g_LH2, g_HJ;
double g_sin_tilt, g_cos_tilt;
double g_azimuth, g_sin_azimuth, g_cos_azimuth;
double g_sin_twist, g_cos_twist;
double g_width;
double g_yoffset;
double g_rmax;
double g_max_yt;
double g_xmin, g_xmax;
double g_ymin, g_ymax;
GMT_LONG g_debug;
GMT_LONG g_box, g_outside, g_longlat_set, g_sphere, g_radius, g_auto_twist;
/* Polar (cylindrical) projection */
double p_base_angle;
GMT_LONG got_azimuths, got_elevations, z_down;
};
#define GMT_IS_PLAIN 0 /* Plain baseframe */
#define GMT_IS_FANCY 1 /* Fancy baseframe */
#define GMT_IS_ROUNDED 2 /* Rounded, fancy baseframe */
#define GMT_IS_INSIDE 3 /* Draws frame ticks/annotations on the inside of boundary */
#define GMT_IS_GRAPH 4 /* As plain but adds arrow extensions on axes */
/* Define the 6 axis items that each axis can have (some are mutually exclusive: only one ANNOT/INTV for upper and lower) */
#define GMT_ANNOT_UPPER 0 /* Tick annotations closest to the axis (the only kind in GMT3.4 or earlier) */
#define GMT_ANNOT_LOWER 1 /* Tick annotations farthest from the axis*/
#define GMT_INTV_UPPER 2 /* Interval annotations closest to the axis */
#define GMT_INTV_LOWER 3 /* Interval annotations farthest from the axis */
#define GMT_TICK_UPPER 4 /* Frame tick marks closest to the axis (the only kind in GMT3.4 or earlier) */
#define GMT_TICK_LOWER 5 /* Frame tick marks closest to the axis (the only kind in GMT3.4 or earlier) */
#define GMT_GRID_UPPER 6 /* Gridline spacing */
#define GMT_GRID_LOWER 7 /* Gridline spacing */
/* Some convenient macros for axis routines */
#define GMT_interval_axis_item(k) (((k) == GMT_INTV_UPPER || (k) == GMT_INTV_LOWER) ? TRUE : FALSE) /* TRUE for interval annotations */
#define GMT_lower_axis_item(k) (((k) == GMT_ANNOT_LOWER || (k) == GMT_INTV_LOWER) ? 1 : 0) /* 1 if this is a lower axis annotation */
#define GMT_upper_and_lower_items(j) (((frame_info.axis[j].item[GMT_ANNOT_UPPER].active || frame_info.axis[j].item[GMT_INTV_UPPER].active) && \
(frame_info.axis[j].item[GMT_ANNOT_LOWER].active || frame_info.axis[j].item[GMT_INTV_LOWER].active)) ? TRUE : FALSE) /* TRUE if we have two levels of annotations (tick or interval) */
#define GMT_two_annot_items(j) ((frame_info.axis[j].item[GMT_ANNOT_UPPER].active && frame_info.axis[j].item[GMT_ANNOT_LOWER].active) ? TRUE : FALSE) /* TRUE if we have two levels of tick annotations */
#define GMT_uneven_interval(unit) ((unit == 'o' || unit == 'O' || unit == 'k' || unit == 'K' || unit == 'R' || unit == 'r' || unit == 'D' || unit == 'd') ? TRUE : FALSE) /* TRUE for uneven units */
struct GMT_PLOT_AXIS_ITEM { /* Information for one type of tick/annotation */
GMT_LONG parent; /* Id of axis this item belongs to (0,1,2) */
GMT_LONG id; /* Id of this item (0-7) */
GMT_LONG active; /* TRUE if we want to use this item */
double interval; /* Distance between ticks in user units */
GMT_LONG flavor; /* Index into month/day name abbreviation array (0-2) */
GMT_LONG upper_case; /* TRUE if we want upper case text (used with flavor) */
char type; /* One of a, i, A, I, f, F, g, G */
char unit; /* User's interval unit (y, M, u, d, h, m, c) */
};
struct GMT_PLOT_AXIS { /* Information for one time axis */
int id; /* 0 (x), 1(y), or 2(z) */
struct GMT_PLOT_AXIS_ITEM item[8]; /* see above defines for which is which */
GMT_LONG type; /* GMT_LINEAR, GMT_LOG10, GMT_POW, or GMT_TIME */
double phase; /* Phase offset for strides: (knot-phase)%interval = 0 */
char label[GMT_LONG_TEXT]; /* Label of the axis */
char unit[GMT_TEXT_LEN]; /* Axis unit appended to annotations */
char prefix[GMT_TEXT_LEN]; /* Axis prefix starting all annotations */
};
struct GMT_PLOT_FRAME { /* Various parameters for plotting of time axis boundaries */
struct GMT_PLOT_AXIS axis[3]; /* One each for x, y, and z */
char header[GMT_LONG_TEXT]; /* Plot title */
GMT_LONG plotted_header; /* TRUE if header has been plotted */
GMT_LONG plot; /* TRUE if -B was used */
GMT_LONG draw_box; /* TRUE is a 3-D Z-box is desired */
GMT_LONG check_side; /* TRUE if lon and lat annotations should be on x and y axis only */
GMT_LONG horizontal; /* TRUE is S/N annotations should be parallel to axes */
GMT_LONG side[5]; /* Which sides to plot. 2 is annot/draw, 1 is draw, 0 is not */
GMT_LONG set_frame[2]; /* TRUE if we have processed a -B<frame> specification (p and s) */
};
struct GMT_THREE_D {
double view_azimuth, view_elevation;
double cos_az, sin_az, cos_el, sin_el;
double corner_x[4], corner_y[4];
double xmin, xmax, ymin, ymax;
double world_x, world_y, world_z; /* Users coordinates of fixed point */
double view_x, view_y; /* Desired projected 2-D coordinates of fixed point */
double x_off, y_off; /* Offsets to the final projected coordinates */
double phi[3]; /* Angle each axis makes with horizontal */
double xshrink[3]; /* Shrinkage in x-dir due to projection */
double yshrink[3]; /* Same for y-dir */
double tilt[3]; /* Slant of characters due to projection */
double sign[4]; /* Used to determine direction of tickmarks etc */
GMT_LONG quadrant; /* quadrant we're looking from */
GMT_LONG z_axis; /* Which z-axis to draw. */
GMT_LONG k; /* For drawing-axis. 0 = plot in x dir, 1 in y */
GMT_LONG face[3]; /* Tells if this facet has normal in pos direction */
GMT_LONG draw[4]; /* axes to draw */
GMT_LONG fixed; /* TRUE if we want a given point to be fixed in the projection [for animations] */
GMT_LONG world_given; /* TRUE if a fixed world point was given in -E ..+glon/lat/z */
GMT_LONG view_given; /* TRUE if a fixed projected point was given in -E ..+cx0/y0 */
};
struct GMT_DATUM { /* Main parameter for a particular datum */
double a, b, f, e_squared, ep_squared;
double xyz[3];
GMT_LONG ellipsoid_id; /* Ellipsoid GMT ID number */
};
struct GMT_DATUM_CONV {
GMT_LONG h_given; /* TRUE if we have incoming height data [h = 0] */
double da; /* Major semi-axis in meters */
double df; /* Flattening */
double e_squared; /* Eccentricity squared (e^2 = 2*f - f*f) */
double one_minus_f; /* 1 - f */
double dxyz[3]; /* Ellipsoids offset in meter from Earth's center of mass for x,y, and z */
struct GMT_DATUM from, to; /* The old and new datums */
};
#endif /* _GMT_PROJECT_H */
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