/* * surf - visualizing algebraic curves and algebraic surfaces * Copyright (C) 1996-1997 Friedrich-Alexander-Universitaet * Erlangen-Nuernberg * 1997-2000 Johannes Gutenberg-Universitaet Mainz * Authors: Stephan Endrass, Hans Huelf, Ruediger Oertel, * Kai Schneider, Ralf Schmitt, Johannes Beigel * * 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; 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. * */ #include #include "dither_jarvis_judis_ninke.h" #include "float_buffer.h" #include "bit_buffer.h" #include "stop.h" void dither_jarvis_judis_ninke (float_buffer &intensity, bit_buffer &pixel, bool print_random_weights_data, double print_weight_data, bool print_serpentine_raster_data) { float value; float err; float err1; float err3; float err5; float err7; float weight_7; float weight_5; float weight_3; float weight_1; float weight_rand_7 = 0.0; float weight_rand_5 = 0.0; float weight_rand_3 = 0.0; float weight_rand_1 = 0.0; bool even = true; int px_m2,px_m1,px,px_p1,px_p2,px_c,px_a; int py,py_p1,py_p2; if( print_random_weights_data == 0 ) { weight_rand_7 = print_weight_data*7.0; weight_rand_5 = print_weight_data*5.0; weight_rand_3 = print_weight_data*3.0; weight_rand_1 = print_weight_data*1.0; } for( py = 0, py_p1 = 1, py_p2 = 2; py < intensity.getHeight() && !stop; py++, py_p1++, py_p2++, even = !even ) { if( print_serpentine_raster_data == 0 && !even ) { px_m2 = intensity.getWidth() + 1; px_m1 = intensity.getWidth(); px = intensity.getWidth() - 1; px_p1 = intensity.getWidth() - 2; px_p2 = intensity.getWidth() - 3; px_a = -1; } else { px_m2 = -2; px_m1 = -1; px = 0; px_p1 = 1; px_p2 = 2; px_a = 1; } for( px_c = 0; px_c < intensity.getWidth(); px_m2 += px_a, px_m1 += px_a, px += px_a, px_p1 += px_a, px_p2 += px_a, px_c++ ) { value = intensity.Get( px, py ); if( value > 0.5 ) { pixel.setPixel(px,py,PIXEL_WHITE ); err = value - 1.0; } else { pixel.setPixel (px,py,PIXEL_BLACK ); err = value; } if( print_random_weights_data != 0 ) { err1 = err/48; err3 = err1*3; err5 = err1*5; err7 = err1*7; intensity.Add( px_p1,py ,err7 ); intensity.Add( px_p2,py ,err5 ); intensity.Add( px_m2,py_p1,err3 ); intensity.Add( px_m1,py_p1,err5 ); intensity.Add( px ,py_p1,err7 ); intensity.Add( px_p1,py_p1,err5 ); intensity.Add( px_p2,py_p1,err3 ); intensity.Add( px_m2,py_p2,err1 ); intensity.Add( px_m1,py_p2,err3 ); intensity.Add( px ,py_p2,err5 ); intensity.Add( px_p1,py_p2,err3 ); intensity.Add( px_p2,py_p2,err1 ); } else { err /= 48; weight_7 = ( rand( )/4294967295.0 - 1.0 )*weight_rand_7; weight_5 = ( rand( )/4294967295.0 - 1.0 )*weight_rand_5; weight_3 = ( rand( )/4294967295.0 - 1.0 )*weight_rand_3; weight_1 = ( rand( )/4294967295.0 - 1.0 )*weight_rand_1; intensity.Add( px_p1,py , err*( 7 + weight_7 ) ); intensity.Add( px_p2,py , err*( 5 + weight_5 ) ); intensity.Add( px_m2,py_p1, err*( 3 + weight_3 ) ); intensity.Add( px_m1,py_p1, err*( 5 - weight_5 ) ); intensity.Add( px ,py_p1, err*( 7 - weight_7 ) ); intensity.Add( px_p1,py_p1, err*( 5 + weight_5 ) ); intensity.Add( px_p2,py_p1, err*( 3 - weight_3 ) ); intensity.Add( px_m2,py_p2, err*( 1 + weight_1 ) ); intensity.Add( px_m1,py_p2, err*( 3 + weight_3 ) ); intensity.Add( px ,py_p2, err*( 5 - weight_5 ) ); intensity.Add( px_p1,py_p2, err*( 3 - weight_3 ) ); intensity.Add( px_p2,py_p2, err*( 1 - weight_1 ) ); } } } }