/* 1st order mosaic functions * 31/7/97 JC * - done! * 12/9/97 JC * - mods so global_balance() can work with 1st order mosaics * 27/12/99 JC * - now uses affine() stuff * - small tidies * 2/2/01 JC * - added tunable max blend width * 23/3/01 JC * - better mosaic1 calcs ... was a bit broken * 14/12/04 * - works for LABQ as well */ /* This file is part of VIPS. VIPS is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) 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 Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ /* These files are distributed with VIPS - http://www.vips.ecs.soton.ac.uk */ #ifdef HAVE_CONFIG_H #include #endif /*HAVE_CONFIG_H*/ #include #include #include #include #include #include #include "mosaic.h" #include "merge.h" #ifdef WITH_DMALLOC #include #endif /*WITH_DMALLOC*/ /* #define DEBUG */ /* define this to get old not-really-working joiner. #define OLD */ /* Like im_similarity(), but return the transform we generated. */ static int apply_similarity( Transformation *trn, IMAGE *in, IMAGE *out, double a, double b, double dx, double dy ) { trn->iarea.left = 0; trn->iarea.top = 0; trn->iarea.width = in->Xsize; trn->iarea.height = in->Ysize; trn->a = a; trn->b = -b; trn->c = b; trn->d = a; trn->dx = dx; trn->dy = dy; im__transform_set_area( trn ); if( im__transform_calc_inverse( trn ) ) return( -1 ); if( im__affine( in, out, trn ) ) return( -1 ); return( 0 ); } /* A join function ... either left-right or top-bottom rotscalemerge. */ typedef int (*joinfn)( IMAGE *, IMAGE *, IMAGE *, double, double, double, double, int ); /* similarity+lrmerge. */ int im__lrmerge1( IMAGE *ref, IMAGE *sec, IMAGE *out, double a, double b, double dx, double dy, int mwidth ) { Transformation trn; IMAGE *t1 = im_open_local( out, "im_lrmosaic1:1", "p" ); VipsBuf buf; char text[1024]; /* Scale, rotate and displace sec. */ if( !t1 || apply_similarity( &trn, sec, t1, a, b, dx, dy ) ) return( -1 ); /* And join to ref. */ if( im__lrmerge( ref, t1, out, -trn.oarea.left, -trn.oarea.top, mwidth ) ) return( -1 ); /* Note parameters in history file ... for global balance to pick up * later. */ vips_buf_init_static( &buf, text, 1024 ); vips_buf_appendf( &buf, "#LRROTSCALE <%s> <%s> <%s> <", ref->filename, sec->filename, out->filename ); vips_buf_appendg( &buf, a ); vips_buf_appendf( &buf, "> <" ); vips_buf_appendg( &buf, b ); vips_buf_appendf( &buf, "> <" ); vips_buf_appendg( &buf, dx ); vips_buf_appendf( &buf, "> <" ); vips_buf_appendg( &buf, dy ); vips_buf_appendf( &buf, "> <%d>", mwidth ); if( im_histlin( out, "%s", vips_buf_all( &buf ) ) ) return( -1 ); return( 0 ); } /* similarity+tbmerge. */ int im__tbmerge1( IMAGE *ref, IMAGE *sec, IMAGE *out, double a, double b, double dx, double dy, int mwidth ) { Transformation trn; IMAGE *t1 = im_open_local( out, "im_lrmosaic1:2", "p" ); VipsBuf buf; char text[1024]; /* Scale, rotate and displace sec. */ if( !t1 || apply_similarity( &trn, sec, t1, a, b, dx, dy ) ) return( -1 ); /* And join to ref. */ if( im__tbmerge( ref, t1, out, -trn.oarea.left, -trn.oarea.top, mwidth ) ) return( -1 ); /* Note parameters in history file ... for global balance to pick up * later. */ vips_buf_init_static( &buf, text, 1024 ); vips_buf_appendf( &buf, "#TBROTSCALE <%s> <%s> <%s> <", ref->filename, sec->filename, out->filename ); vips_buf_appendg( &buf, a ); vips_buf_appendf( &buf, "> <" ); vips_buf_appendg( &buf, b ); vips_buf_appendf( &buf, "> <" ); vips_buf_appendg( &buf, dx ); vips_buf_appendf( &buf, "> <" ); vips_buf_appendg( &buf, dy ); vips_buf_appendf( &buf, "> <%d>", mwidth ); if( im_histlin( out, "%s", vips_buf_all( &buf ) ) ) return( -1 ); return( 0 ); } /* Join two images, using a pair of tie-points as parameters. */ static int rotjoin( IMAGE *ref, IMAGE *sec, IMAGE *out, joinfn jfn, int xr1, int yr1, int xs1, int ys1, int xr2, int yr2, int xs2, int ys2, int mwidth ) { double a, b, dx, dy; /* Solve to get scale + rot + disp. */ if( im__coeff( xr1, yr1, xs1, ys1, xr2, yr2, xs2, ys2, &a, &b, &dx, &dy ) ) return( -1 ); /* Scale, rotate and displace sec. */ if( jfn( ref, sec, out, a, b, dx, dy, mwidth ) ) return( -1 ); return( 0 ); } /* 1st order left-right merge. */ int im_lrmerge1( IMAGE *ref, IMAGE *sec, IMAGE *out, int xr1, int yr1, int xs1, int ys1, int xr2, int yr2, int xs2, int ys2, int mwidth ) { return( rotjoin( ref, sec, out, im__lrmerge1, xr1, yr1, xs1, ys1, xr2, yr2, xs2, ys2, mwidth ) ); } /* 1st order top-bottom merge. */ int im_tbmerge1( IMAGE *ref, IMAGE *sec, IMAGE *out, int xr1, int yr1, int xs1, int ys1, int xr2, int yr2, int xs2, int ys2, int mwidth ) { return( rotjoin( ref, sec, out, im__tbmerge1, xr1, yr1, xs1, ys1, xr2, yr2, xs2, ys2, mwidth ) ); } /* Like rotjoin, but do a search to refine the tie-points. */ static int rotjoin_search( IMAGE *ref, IMAGE *sec, IMAGE *out, joinfn jfn, int bandno, int xr1, int yr1, int xs1, int ys1, int xr2, int yr2, int xs2, int ys2, int halfcorrelation, int halfarea, int balancetype, int mwidth ) { Transformation trn; double cor1, cor2; double a, b, dx, dy; double xs3, ys3; double xs4, ys4; int xs5, ys5; int xs6, ys6; double xs7, ys7; double xs8, ys8; /* Temps. */ IMAGE *t[3]; if( im_open_local_array( out, t, 3, "rotjoin_search", "p" ) ) return( -1 ); /* Unpack LABQ to LABS for correlation. */ if( ref->Coding == IM_CODING_LABQ ) { if( im_LabQ2LabS( ref, t[0] ) ) return( -1 ); } else t[0] = ref; if( sec->Coding == IM_CODING_LABQ ) { if( im_LabQ2LabS( sec, t[1] ) ) return( -1 ); } else t[1] = sec; /* Solve to get scale + rot + disp. */ if( im__coeff( xr1, yr1, xs1, ys1, xr2, yr2, xs2, ys2, &a, &b, &dx, &dy ) || apply_similarity( &trn, t[1], t[2], a, b, dx, dy ) ) return( -1 ); /* Map points on sec to rotated image. */ im__transform_forward_point( &trn, xs1, ys1, &xs3, &ys3 ); im__transform_forward_point( &trn, xs2, ys2, &xs4, &ys4 ); /* Refine tie-points on rotated image. Remember the clip * im__transform_set_area() has set, and move the sec tie-points * accordingly. */ if( im_correl( t[0], t[2], xr1, yr1, xs3 - trn.oarea.left, ys3 - trn.oarea.top, halfcorrelation, halfarea, &cor1, &xs5, &ys5 ) ) return( -1 ); if( im_correl( t[0], t[2], xr2, yr2, xs4 - trn.oarea.left, ys4 - trn.oarea.top, halfcorrelation, halfarea, &cor2, &xs6, &ys6 ) ) return( -1 ); #ifdef DEBUG printf( "rotjoin_search: nudged pair 1 from %d, %d to %d, %d\n", xs3 - trn.oarea.left, ys3 - trn.oarea.top, xs5, ys5 ); printf( "rotjoin_search: nudged pair 2 from %d, %d to %d, %d\n", xs4 - trn.oarea.left, ys4 - trn.oarea.top, xs6, ys6 ); #endif /*DEBUG*/ /* Put the sec tie-points back into output space. */ xs5 += trn.oarea.left; ys5 += trn.oarea.top; xs6 += trn.oarea.left; ys6 += trn.oarea.top; /* ... and now back to input space again. */ im__transform_invert_point( &trn, xs5, ys5, &xs7, &ys7 ); im__transform_invert_point( &trn, xs6, ys6, &xs8, &ys8 ); /* Recalc the transform using the refined points. */ if( im__coeff( xr1, yr1, xs7, ys7, xr2, yr2, xs8, ys8, &a, &b, &dx, &dy ) ) return( -1 ); /* Scale and rotate final. */ if( jfn( ref, sec, out, a, b, dx, dy, mwidth ) ) return( -1 ); return( 0 ); } /* 1st order lr mosaic. */ int im_lrmosaic1( IMAGE *ref, IMAGE *sec, IMAGE *out, int bandno, int xr1, int yr1, int xs1, int ys1, int xr2, int yr2, int xs2, int ys2, int halfcorrelation, int halfarea, int balancetype, int mwidth ) { return( rotjoin_search( ref, sec, out, im__lrmerge1, bandno, xr1, yr1, xs1, ys1, xr2, yr2, xs2, ys2, halfcorrelation, halfarea, balancetype, mwidth ) ); } /* 1st order tb mosaic. */ int im_tbmosaic1( IMAGE *ref, IMAGE *sec, IMAGE *out, int bandno, int xr1, int yr1, int xs1, int ys1, int xr2, int yr2, int xs2, int ys2, int halfcorrelation, int halfarea, int balancetype, int mwidth ) { return( rotjoin_search( ref, sec, out, im__tbmerge1, bandno, xr1, yr1, xs1, ys1, xr2, yr2, xs2, ys2, halfcorrelation, halfarea, balancetype, mwidth ) ); } #ifdef OLD /* 1st order mosaic using im__find_lroverlap() ... does not work too well :( * Look at im__find_lroverlap() for problem? */ static int old_lrmosaic1( IMAGE *ref, IMAGE *sec, IMAGE *out, int bandno, int xr1, int yr1, int xs1, int ys1, int xr2, int yr2, int xs2, int ys2, int halfcorrelation, int halfarea, int balancetype, int mwidth ) { Transformation trn1, trn2; int dx0, dy0; double a, b, dx, dy; double a1, b1, dx1, dy1; double af, bf, dxf, dyf; int xpos, ypos; int xpos1, ypos1; /* Temps. */ IMAGE *t1 = im_open_local( out, "im_lrmosaic1:1", "p" ); IMAGE *t2 = im_open_local( out, "im_lrmosaic1:2", "p" ); IMAGE *dummy; if( !t1 || !t2 ) return( -1 ); /* Solve to get scale + rot + disp. */ if( im__coeff( xr1, yr1, xs1, ys1, xr2, yr2, xs2, ys2, &a, &b, &dx, &dy ) || apply_similarity( &trn1, sec, t1, a, b, dx, dy ) ) return( -1 ); /* Correct tie-points. dummy is just a placeholder used to ensure that * memory used by the analysis phase is freed as soon as possible. */ if( !(dummy = im_open( "placeholder:1", "p" )) ) return( -1 ); if( im__find_lroverlap( ref, t1, dummy, bandno, -trn1.area.left, -trn1.area.top, 0, 0, halfcorrelation, halfarea, &dx0, &dy0, &a1, &b1, &dx1, &dy1 ) ) { im_close( dummy ); return( -1 ); } im_close( dummy ); /* Now combine the two transformations to get a corrected transform. */ af = a1 * a - b1 * b; bf = a1 * b + b1 * a; dxf = a1 * dx - b1 * dy + dx1; dyf = b1 * dx + a1 * dy + dy1; printf( "transform was: a = %g, b = %g, dx = %g, dy = %g\n", a, b, dx, dy ); printf( "correction: a = %g, b = %g, dx = %g, dy = %g\n", a1, b1, dx1, dy1 ); printf( "final: a = %g, b = %g, dx = %g, dy = %g\n", af, bf, dxf, dyf ); /* Scale and rotate final. */ if( apply_similarity( &trn2, sec, t2, af, bf, dxf, dyf ) ) return( -1 ); printf( "disp: trn1 left = %d, top = %d\n", trn1.area.left, trn1.area.top ); printf( "disp: trn2 left = %d, top = %d\n", trn2.area.left, trn2.area.top ); /* And join to ref. */ if( im_lrmerge( ref, t2, out, -trn2.area.left, -trn2.area.top, mwidth ) ) return( -1 ); return( 0 ); } #endif /*OLD*/