/* * Linux VeeJay * * Copyright(C)2004 Niels Elburg * * 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307 , USA. */ #include "complexsaturate.h" #include #include #include #include #include #include "common.h" vj_effect *complexsaturation_init(int w, int h) { vj_effect *ve; ve = (vj_effect *) vj_malloc(sizeof(vj_effect)); ve->num_params = 6; ve->defaults = (int *) vj_malloc(sizeof(int) * ve->num_params); /* default values */ ve->limits[0] = (int *) vj_malloc(sizeof(int) * ve->num_params); /* min */ ve->limits[1] = (int *) vj_malloc(sizeof(int) * ve->num_params); /* max */ ve->defaults[0] = 80; /* angle */ ve->defaults[1] = 0; /* r */ ve->defaults[2] = 0; /* g */ ve->defaults[3] = 255; /* b */ ve->defaults[4] = 20; /* v_adjust */ ve->defaults[5] = 1500; /* degrees */ ve->limits[0][0] = 5; ve->limits[1][0] = 900; ve->limits[0][1] = 0; ve->limits[1][1] = 255; ve->limits[0][2] = 0; ve->limits[1][2] = 255; ve->limits[0][3] = 0; ve->limits[1][3] = 255; ve->limits[0][4] = -255; ve->limits[1][4] = 255; ve->limits[0][5] = 0; ve->limits[1][5] = 36000; ve->has_user = 0; ve->description = "Complex Saturation"; ve->extra_frame = 0; ve->sub_format = 1; return ve; } void complexsaturation_apply(VJFrame *frame, int width, int height, int i_angle, int r, int g, int b, int adjust_v, int adjust_degrees) { uint8_t *fg_y, *fg_cb, *fg_cr; uint8_t *bg_y, *bg_cb, *bg_cr; int accept_angle_tg, accept_angle_ctg, one_over_kc; int kfgy_scale, kg; int cb, cr; float kg1, tmp, aa = 128, bb = 128, _y = 0; float angle = (float) i_angle / 10.0; unsigned int pos; uint8_t val; double dsaturation, dcolor; double degrees = ( adjust_degrees / 100.0); double dsat = adjust_v / 100.0; const int len = frame->len; uint8_t *Y = frame->data[0]; uint8_t *Cb = frame->data[1]; uint8_t *Cr = frame->data[2]; _y = ((Y_Redco * r) + (Y_Greenco * g) + (Y_Blueco * b) + 16); aa = ((U_Redco * r) - (U_Greenco * g) - (U_Blueco * b) + 128); bb = (-(V_Redco * r) - (V_Greenco * g) + (V_Blueco * b) + 128); tmp = sqrt(((aa * aa) + (bb * bb))); cb = 127 * (aa / tmp); cr = 127 * (bb / tmp); kg1 = tmp; /* obtain coordinate system for cb / cr */ accept_angle_tg = 0xf * tan(M_PI * angle / 180.0); accept_angle_ctg = 0xf / tan(M_PI * angle / 180.0); tmp = 1 / kg1; one_over_kc = 0xff * 2 * tmp - 0xff; kfgy_scale = 0xf * (float) (_y) / kg1; kg = kg1; /* intialize pointers */ fg_y = Y; fg_cb = Cb; fg_cr = Cr; bg_y = Y; bg_cb = Cb; bg_cr = Cr; for (pos = len; pos != 0; pos--) { short xx, yy; xx = (((fg_cb[pos>>2]) * cb) + ((fg_cr[pos>>2]) * cr)) >> 7; if (xx < -128) { xx = -128; } if (xx > 127) { xx = 127; } yy = (((fg_cr[pos>>2]) * cb) - ((fg_cb[pos>>2]) * cr)) >> 7; if (yy < -128) { yy = -128; } if (yy > 127) { yy = 127; } val = (xx * accept_angle_tg) >> 4; if (val > 127) val = 127; if (abs(yy) > val) { /* pixel is within selected color range, saturate */ int _cb = Cb[pos] - 128; int _cr = Cr[pos] - 128; if( _cb != 0 && _cr != 0) { double co=0.0,si=0.0; //fast_sqrt( dsaturation, (double) (_cb * cr + _cr * _cr) ); dsaturation = ccolor_sqrt( (double) _cb, (double) _cr); dcolor = ccolor_sine( _cb, dsaturation); if( _cr < 0) { dcolor = M_PI - dcolor; } dcolor += (degrees * M_PI) / 180.0; dsaturation *= dsat; sin_cos( co, si , dcolor ); Cb[pos] = si * dsaturation + 128; Cr[pos] = co * dsaturation + 128; } } } } void complexsaturate_free(){}