/* ---------------------------------------------------------------------------- * This file was automatically generated by SWIG (http://www.swig.org). * Version 1.3.28 * * Do not make changes to this file unless you know what you are doing--modify * the SWIG interface file instead. * ----------------------------------------------------------------------------- */ package plplot.core; public class plplotjavac implements plplotjavacConstants { public static void pl_setcontlabelformat(int lexp, int sigdig) { plplotjavacJNI.pl_setcontlabelformat(lexp, sigdig); } public static void pl_setcontlabelparam(double offset, double size, double spacing, int active) { plplotjavacJNI.pl_setcontlabelparam(offset, size, spacing, active); } public static void pladv(int page) { plplotjavacJNI.pladv(page); } public static void plaxes(double x0, double y0, String xopt, double xtick, int nxsub, String yopt, double ytick, int nysub) { plplotjavacJNI.plaxes(x0, y0, xopt, xtick, nxsub, yopt, ytick, nysub); } public static void plbin(double[] n, double[] ArrayCk, int center) { plplotjavacJNI.plbin(n, ArrayCk, center); } public static void plbop() { plplotjavacJNI.plbop(); } public static void plbox(String xopt, double xtick, int nxsub, String yopt, double ytick, int nysub) { plplotjavacJNI.plbox(xopt, xtick, nxsub, yopt, ytick, nysub); } public static void plbox3(String xopt, String xlabel, double xtick, int nsubx, String yopt, String ylabel, double ytick, int nsuby, String zopt, String zlabel, double ztick, int nsubz) { plplotjavacJNI.plbox3(xopt, xlabel, xtick, nsubx, yopt, ylabel, ytick, nsuby, zopt, zlabel, ztick, nsubz); } public static void plcalc_world(double rx, double ry, double[] arg2, double[] arg3, int[] arg4) { plplotjavacJNI.plcalc_world(rx, ry, arg2, arg3, arg4); } public static void plclear() { plplotjavacJNI.plclear(); } public static void plcol0(int icol0) { plplotjavacJNI.plcol0(icol0); } public static void plcol1(double col1) { plplotjavacJNI.plcol1(col1); } public static void plcont(double[][] Matrix, int kx, int lx, int ky, int ly, double[] Array, double[][] pltr, double[][] OBJECT_DATA) { plplotjavacJNI.plcont(Matrix, kx, lx, ky, ly, Array, pltr, OBJECT_DATA); } public static void plcpstrm(int iplsr, boolean flags) { plplotjavacJNI.plcpstrm(iplsr, flags); } public static void plend() { plplotjavacJNI.plend(); } public static void plend1() { plplotjavacJNI.plend1(); } public static void plenv(double xmin, double xmax, double ymin, double ymax, int just, int axis) { plplotjavacJNI.plenv(xmin, xmax, ymin, ymax, just, axis); } public static void pleop() { plplotjavacJNI.pleop(); } public static void plerrx(double[] n, double[] arg1, double[] arg2) { plplotjavacJNI.plerrx(n, arg1, arg2); } public static void plerry(double[] n, double[] arg1, double[] arg2) { plplotjavacJNI.plerry(n, arg1, arg2); } public static void plfamadv() { plplotjavacJNI.plfamadv(); } public static void plfill(double[] n, double[] ArrayCk) { plplotjavacJNI.plfill(n, ArrayCk); } public static void plfill3(double[] n, double[] arg1, double[] arg2) { plplotjavacJNI.plfill3(n, arg1, arg2); } public static void plflush() { plplotjavacJNI.plflush(); } public static void plfont(int ifont) { plplotjavacJNI.plfont(ifont); } public static void plfontld(int fnt) { plplotjavacJNI.plfontld(fnt); } public static void plgchr(double[] arg0, double[] arg1) { plplotjavacJNI.plgchr(arg0, arg1); } public static void plgcol0(int icol0, int[] arg1, int[] arg2, int[] arg3) { plplotjavacJNI.plgcol0(icol0, arg1, arg2, arg3); } public static void plgcolbg(int[] arg0, int[] arg1, int[] arg2) { plplotjavacJNI.plgcolbg(arg0, arg1, arg2); } public static void plgcompression(int[] OUTPUT) { plplotjavacJNI.plgcompression(OUTPUT); } public static void plgdev(StringBuffer OUTPUT) { plplotjavacJNI.plgdev(OUTPUT); } public static void plgdidev(double[] arg0, double[] arg1, double[] arg2, double[] arg3) { plplotjavacJNI.plgdidev(arg0, arg1, arg2, arg3); } public static void plgdiori(double[] OUTPUT) { plplotjavacJNI.plgdiori(OUTPUT); } public static void plgdiplt(double[] arg0, double[] arg1, double[] arg2, double[] arg3) { plplotjavacJNI.plgdiplt(arg0, arg1, arg2, arg3); } public static void plgfam(int[] arg0, int[] arg1, int[] arg2) { plplotjavacJNI.plgfam(arg0, arg1, arg2); } public static void plgfci(long[] OUTPUT) { plplotjavacJNI.plgfci(OUTPUT); } public static void plgfnam(StringBuffer OUTPUT) { plplotjavacJNI.plgfnam(OUTPUT); } public static void plglevel(int[] OUTPUT) { plplotjavacJNI.plglevel(OUTPUT); } public static void plgpage(double[] arg0, double[] arg1, int[] arg2, int[] arg3, int[] arg4, int[] arg5) { plplotjavacJNI.plgpage(arg0, arg1, arg2, arg3, arg4, arg5); } public static void plgra() { plplotjavacJNI.plgra(); } public static void plgspa(double[] arg0, double[] arg1, double[] arg2, double[] arg3) { plplotjavacJNI.plgspa(arg0, arg1, arg2, arg3); } public static void plgstrm(int[] OUTPUT) { plplotjavacJNI.plgstrm(OUTPUT); } public static void plgver(StringBuffer OUTPUT) { plplotjavacJNI.plgver(OUTPUT); } public static void plgvpd(double[] arg0, double[] arg1, double[] arg2, double[] arg3) { plplotjavacJNI.plgvpd(arg0, arg1, arg2, arg3); } public static void plgvpw(double[] arg0, double[] arg1, double[] arg2, double[] arg3) { plplotjavacJNI.plgvpw(arg0, arg1, arg2, arg3); } public static void plgxax(int[] arg0, int[] arg1) { plplotjavacJNI.plgxax(arg0, arg1); } public static void plgyax(int[] arg0, int[] arg1) { plplotjavacJNI.plgyax(arg0, arg1); } public static void plgzax(int[] arg0, int[] arg1) { plplotjavacJNI.plgzax(arg0, arg1); } public static void plhist(double[] n, double datmin, double datmax, int nbin, int oldwin) { plplotjavacJNI.plhist(n, datmin, datmax, nbin, oldwin); } public static void plhls(double h, double l, double s) { plplotjavacJNI.plhls(h, l, s); } public static void plhlsrgb(double h, double l, double s, double[] arg3, double[] arg4, double[] arg5) { plplotjavacJNI.plhlsrgb(h, l, s, arg3, arg4, arg5); } public static void plinit() { plplotjavacJNI.plinit(); } public static void pljoin(double x1, double y1, double x2, double y2) { plplotjavacJNI.pljoin(x1, y1, x2, y2); } public static void pllab(String xlabel, String ylabel, String tlabel) { plplotjavacJNI.pllab(xlabel, ylabel, tlabel); } public static void pllightsource(double x, double y, double z) { plplotjavacJNI.pllightsource(x, y, z); } public static void plline(double[] n, double[] ArrayCk) { plplotjavacJNI.plline(n, ArrayCk); } public static void plline3(double[] n, double[] arg1, double[] arg2) { plplotjavacJNI.plline3(n, arg1, arg2); } public static void pllsty(int lin) { plplotjavacJNI.pllsty(lin); } public static void plmesh(double[] ArrayX, double[] ArrayY, double[][] MatrixCk, int opt) { plplotjavacJNI.plmesh(ArrayX, ArrayY, MatrixCk, opt); } public static void plmeshc(double[] ArrayX, double[] ArrayY, double[][] MatrixCk, int opt, double[] Array) { plplotjavacJNI.plmeshc(ArrayX, ArrayY, MatrixCk, opt, Array); } public static void plmkstrm(int[] OUTPUT) { plplotjavacJNI.plmkstrm(OUTPUT); } public static void plmtex(String side, double disp, double pos, double just, String text) { plplotjavacJNI.plmtex(side, disp, pos, just, text); } public static void plot3d(double[] ArrayX, double[] ArrayY, double[][] MatrixCk, int opt, boolean side) { plplotjavacJNI.plot3d(ArrayX, ArrayY, MatrixCk, opt, side); } public static void plot3dc(double[] ArrayX, double[] ArrayY, double[][] MatrixCk, int opt, double[] Array) { plplotjavacJNI.plot3dc(ArrayX, ArrayY, MatrixCk, opt, Array); } public static void plot3dcl(double[] ArrayX, double[] ArrayY, double[][] MatrixCk, int opt, double[] arg4, int ixstart, int[] arg6, int[] ArrayCk) { plplotjavacJNI.plot3dcl(ArrayX, ArrayY, MatrixCk, opt, arg4, ixstart, arg6, ArrayCk); } public static void plsurf3d(double[] ArrayX, double[] ArrayY, double[][] MatrixCk, int opt, double[] Array) { plplotjavacJNI.plsurf3d(ArrayX, ArrayY, MatrixCk, opt, Array); } public static void plsurf3dl(double[] ArrayX, double[] ArrayY, double[][] MatrixCk, int opt, double[] arg4, int ixstart, int[] arg6, int[] ArrayCk) { plplotjavacJNI.plsurf3dl(ArrayX, ArrayY, MatrixCk, opt, arg4, ixstart, arg6, ArrayCk); } public static int plparseopts(String[] p_argc, int mode) { return plplotjavacJNI.plparseopts(p_argc, mode); } public static void plpat(int[] n, int[] ArrayCk) { plplotjavacJNI.plpat(n, ArrayCk); } public static void plpoin(double[] n, double[] ArrayCk, int code) { plplotjavacJNI.plpoin(n, ArrayCk, code); } public static void plpoin3(double[] n, double[] arg1, double[] arg2, int code) { plplotjavacJNI.plpoin3(n, arg1, arg2, code); } public static void plpoly3(double[] n, double[] arg1, double[] arg2, boolean[] ArrayCkMinus1, boolean flag) { plplotjavacJNI.plpoly3(n, arg1, arg2, ArrayCkMinus1, flag); } public static void plprec(int setp, int prec) { plplotjavacJNI.plprec(setp, prec); } public static void plpsty(int patt) { plplotjavacJNI.plpsty(patt); } public static void plptex(double x, double y, double dx, double dy, double just, String text) { plplotjavacJNI.plptex(x, y, dx, dy, just, text); } public static void plreplot() { plplotjavacJNI.plreplot(); } public static void plrgbhls(double r, double g, double b, double[] arg3, double[] arg4, double[] arg5) { plplotjavacJNI.plrgbhls(r, g, b, arg3, arg4, arg5); } public static void plschr(double def, double scale) { plplotjavacJNI.plschr(def, scale); } public static void plscmap0(int[] Array, int[] arg1, int[] arg2) { plplotjavacJNI.plscmap0(Array, arg1, arg2); } public static void plscmap0n(int ncol0) { plplotjavacJNI.plscmap0n(ncol0); } public static void plscmap1(int[] Array, int[] arg1, int[] arg2) { plplotjavacJNI.plscmap1(Array, arg1, arg2); } public static void plscmap1l(boolean itype, double[] n, double[] arg2, double[] arg3, double[] arg4, boolean[] ArrayCkMinus1) { plplotjavacJNI.plscmap1l(itype, n, arg2, arg3, arg4, ArrayCkMinus1); } public static void plscmap1n(int ncol1) { plplotjavacJNI.plscmap1n(ncol1); } public static void plscol0(int icol0, int r, int g, int b) { plplotjavacJNI.plscol0(icol0, r, g, b); } public static void plscolbg(int r, int g, int b) { plplotjavacJNI.plscolbg(r, g, b); } public static void plscolor(int color) { plplotjavacJNI.plscolor(color); } public static void plscompression(int compression) { plplotjavacJNI.plscompression(compression); } public static void plsdev(String devname) { plplotjavacJNI.plsdev(devname); } public static void plsdidev(double mar, double aspect, double jx, double jy) { plplotjavacJNI.plsdidev(mar, aspect, jx, jy); } public static void plsdimap(int dimxmin, int dimxmax, int dimymin, int dimymax, double dimxpmm, double dimypmm) { plplotjavacJNI.plsdimap(dimxmin, dimxmax, dimymin, dimymax, dimxpmm, dimypmm); } public static void plsdiori(double rot) { plplotjavacJNI.plsdiori(rot); } public static void plsdiplt(double xmin, double ymin, double xmax, double ymax) { plplotjavacJNI.plsdiplt(xmin, ymin, xmax, ymax); } public static void plsdiplz(double xmin, double ymin, double xmax, double ymax) { plplotjavacJNI.plsdiplz(xmin, ymin, xmax, ymax); } public static void plsesc(char esc) { plplotjavacJNI.plsesc(esc); } public static int plsetopt(String opt, String optarg) { return plplotjavacJNI.plsetopt(opt, optarg); } public static void plsfam(int fam, int num, int bmax) { plplotjavacJNI.plsfam(fam, num, bmax); } public static void plsfci(long fci) { plplotjavacJNI.plsfci(fci); } public static void plsfnam(String fnam) { plplotjavacJNI.plsfnam(fnam); } public static void plshades(double[][] Matrix, double xmin, double xmax, double ymin, double ymax, double[] Array, int fill_width, int cont_color, int cont_width, boolean rectangular, double[][] pltr, double[][] OBJECT_DATA) { plplotjavacJNI.plshades(Matrix, xmin, xmax, ymin, ymax, Array, fill_width, cont_color, cont_width, rectangular, pltr, OBJECT_DATA); } public static void plshade(double[][] Matrix, double left, double right, double bottom, double top, double shade_min, double shade_max, int sh_cmap, double sh_color, int sh_width, int min_color, int min_width, int max_color, int max_width, boolean rectangular, double[][] pltr, double[][] OBJECT_DATA) { plplotjavacJNI.plshade(Matrix, left, right, bottom, top, shade_min, shade_max, sh_cmap, sh_color, sh_width, min_color, min_width, max_color, max_width, rectangular, pltr, OBJECT_DATA); } public static void plsmaj(double def, double scale) { plplotjavacJNI.plsmaj(def, scale); } public static void plsmin(double def, double scale) { plplotjavacJNI.plsmin(def, scale); } public static void plsori(int ori) { plplotjavacJNI.plsori(ori); } public static void plspage(double xp, double yp, int xleng, int yleng, int xoff, int yoff) { plplotjavacJNI.plspage(xp, yp, xleng, yleng, xoff, yoff); } public static void plspause(boolean pause) { plplotjavacJNI.plspause(pause); } public static void plsstrm(int strm) { plplotjavacJNI.plsstrm(strm); } public static void plssub(int nx, int ny) { plplotjavacJNI.plssub(nx, ny); } public static void plssym(double def, double scale) { plplotjavacJNI.plssym(def, scale); } public static void plstar(int nx, int ny) { plplotjavacJNI.plstar(nx, ny); } public static void plstart(String devname, int nx, int ny) { plplotjavacJNI.plstart(devname, nx, ny); } public static void plstripa(int id, int pen, double x, double y) { plplotjavacJNI.plstripa(id, pen, x, y); } public static void plstripc(int[] OUTPUT, String xspec, String yspec, double xmin, double xmax, double xjump, double ymin, double ymax, double xlpos, double ylpos, boolean y_ascl, boolean acc, int colbox, int collab, int[] Array, int[] ArrayCk, SWIGTYPE_p_p_char legline, String labx, String laby, String labtop) { plplotjavacJNI.plstripc(OUTPUT, xspec, yspec, xmin, xmax, xjump, ymin, ymax, xlpos, ylpos, y_ascl, acc, colbox, collab, Array, ArrayCk, SWIGTYPE_p_p_char.getCPtr(legline), labx, laby, labtop); } public static void plstripd(int id) { plplotjavacJNI.plstripd(id); } public static void plstyl(int[] n, int[] ArrayCk) { plplotjavacJNI.plstyl(n, ArrayCk); } public static void plsvect(double[] Array, double[] ArrayCk, boolean fill) { plplotjavacJNI.plsvect(Array, ArrayCk, fill); } public static void plsvpa(double xmin, double xmax, double ymin, double ymax) { plplotjavacJNI.plsvpa(xmin, xmax, ymin, ymax); } public static void plsxax(int digmax, int digits) { plplotjavacJNI.plsxax(digmax, digits); } public static void plsyax(int digmax, int digits) { plplotjavacJNI.plsyax(digmax, digits); } public static void plsym(double[] n, double[] ArrayCk, int code) { plplotjavacJNI.plsym(n, ArrayCk, code); } public static void plszax(int digmax, int digits) { plplotjavacJNI.plszax(digmax, digits); } public static void pltext() { plplotjavacJNI.pltext(); } public static void plvasp(double aspect) { plplotjavacJNI.plvasp(aspect); } public static void plvect(double[][] Matrix, double[][] MatrixCk, double scale, double[][] pltr, double[][] OBJECT_DATA) { plplotjavacJNI.plvect(Matrix, MatrixCk, scale, pltr, OBJECT_DATA); } public static void plvpas(double xmin, double xmax, double ymin, double ymax, double aspect) { plplotjavacJNI.plvpas(xmin, xmax, ymin, ymax, aspect); } public static void plvpor(double xmin, double xmax, double ymin, double ymax) { plplotjavacJNI.plvpor(xmin, xmax, ymin, ymax); } public static void plvsta() { plplotjavacJNI.plvsta(); } public static void plw3d(double basex, double basey, double height, double xmin0, double xmax0, double ymin0, double ymax0, double zmin0, double zmax0, double alt, double az) { plplotjavacJNI.plw3d(basex, basey, height, xmin0, xmax0, ymin0, ymax0, zmin0, zmax0, alt, az); } public static void plwid(int width) { plplotjavacJNI.plwid(width); } public static void plwind(double xmin, double xmax, double ymin, double ymax) { plplotjavacJNI.plwind(xmin, xmax, ymin, ymax); } public static void plxormod(boolean mode, boolean[] OUTPUT) { plplotjavacJNI.plxormod(mode, OUTPUT); } public static void plClearOpts() { plplotjavacJNI.plClearOpts(); } public static void plResetOpts() { plplotjavacJNI.plResetOpts(); } public static void plSetUsage(String program_string, String usage_string) { plplotjavacJNI.plSetUsage(program_string, usage_string); } public static void plOptUsage() { plplotjavacJNI.plOptUsage(); } }