/* * Software written by Jared Bruni https://github.com/lostjared This software is dedicated to all the people that experience mental illness. Website: http://lostsidedead.com YouTube: http://youtube.com/LostSideDead Instagram: http://instagram.com/jaredbruni Twitter: http://twitter.com/jaredbruni Facebook: http://facebook.com/LostSideDead0x You can use this program free of charge and redistrubute it online as long as you do not charge anything for this program. This program is meant to be 100% free. BSD 2-Clause License Copyright (c) 2019, Jared Bruni All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: * Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. * Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "ac.h" // variables for changePixel int current_filterx = 0; int bytesPerSample = 0; int bytesPerRow = 0; int width = 0; int height = 0; int red = 0; int green = 0; int blue = 0; int offset = 0; int randomNumber = 0; int reverse = 0; bool negate = false; // changePixel for Alpha Flame Filters // this function is called once for each pixel in the source image void changePixel(cv::Mat &full_buffer, int i, int z, cv::Vec3b &buffer, double pos, double *count) { //each case is a different operation on the RGB pixel values stored in buffer switch(current_filterx) { case 0: { double value = pos; buffer[0] = static_cast(value*buffer[0]); buffer[1] = static_cast(value*buffer[1]); buffer[2] = static_cast(value*buffer[2]); } break; case 1: { double value = pos; buffer[0] = static_cast(value*buffer[0]); buffer[1] = static_cast((-value)*buffer[1]); buffer[2] = static_cast(value*buffer[2]); } break; case 2: { buffer[0] += static_cast(buffer[0]*-pos); buffer[1] += static_cast(buffer[1]*pos); buffer[2] += static_cast(buffer[2]*-pos); } break; case 3: { int current_pos = static_cast(pos*0.2f); buffer[0] = static_cast((i*current_pos)+buffer[0]); buffer[2] = static_cast((z*current_pos)+buffer[2]); buffer[1] = static_cast((current_pos*buffer[1])); } break; case 4: { int current_pos = static_cast(pos*0.2f); buffer[0] = static_cast((z*current_pos)+buffer[0]); buffer[1] = static_cast((i*current_pos)+buffer[1]); buffer[2] = static_cast(((i+z)*current_pos)+buffer[2]); } break; case 5: { int current_pos = static_cast(pos*0.2f); buffer[0] = static_cast(-(z*current_pos)+buffer[0]); buffer[1] = static_cast(-(i*current_pos)+buffer[1]); buffer[2] = static_cast(-((i+z)*current_pos)+buffer[2]); } break; case 6: { int zq = z+1, iq = i+1; if(zq > height-1 || iq > width-1) return; cv::Vec3b &temp = full_buffer.at(zq, iq); buffer[0] += static_cast((i*pos)+temp[0]); buffer[1] += static_cast((z*pos)+temp[1]); buffer[2] += static_cast((i/(z+1))+temp[2]); } break; case 7: { unsigned char colv[4], cola[4]; colv[0] = buffer[0]; colv[1] = buffer[1]; colv[2] = buffer[2]; cola[0] = buffer[2]; cola[1] = buffer[1]; cola[2] = buffer[0]; int alpha = (int)pos; int red_values[] = { colv[0]+cola[2], colv[1]+cola[1], colv[2]+cola[0], 0 }; int green_values[] = { colv[2]+cola[0], colv[1]+cola[1], colv[0]+cola[2], 0 }; int blue_values[] = { colv[1]+cola[1], colv[0]+cola[2], colv[2]+cola[0], 0 }; unsigned char R = 0,G = 0,B = 0; for(int iq = 0; iq <= 2; ++iq) { R += red_values[iq]; R /= 3; G += green_values[iq]; G /= 3; B += blue_values[iq]; B /= 3; } buffer[0] += static_cast(alpha*R); buffer[1] += static_cast(alpha*G); buffer[2] += static_cast(alpha*B); } break; case 8: { unsigned char colv[4], cola[4]; colv[0] = buffer[0]; colv[1] = buffer[1]; colv[2] = buffer[2]; int iq = (width-i-1); int zq = (height-z-1); cv::Vec3b &t = full_buffer.at(zq, iq); cola[0] = t[0]; cola[1] = t[1]; cola[2] = t[2]; int alpha = (int)pos; int red_values[] = { colv[0]+cola[2], colv[1]+cola[1], colv[2]+cola[0], 0 }; int green_values[] = { colv[2]+cola[0], colv[1]+cola[1], colv[0]+cola[2], 0 }; int blue_values[] = { colv[1]+cola[1], colv[0]+cola[2], colv[2]+cola[0], 0 }; unsigned char R = 0,G = 0,B = 0; for(int iq = 0; iq <= 2; ++iq) { R += red_values[iq]; R /= 3; G += green_values[iq]; G /= 3; B += blue_values[iq]; B /= 3; } buffer[0] += static_cast(alpha*R); buffer[1] += static_cast(alpha*G); buffer[2] += static_cast(alpha*B); } break; case 9: { double alpha = pos; unsigned char colorz[3][3]; colorz[0][0] = buffer[0]; colorz[0][1] = buffer[1]; colorz[0][2] = buffer[2]; int total_r = colorz[0][0] +colorz[0][1]+colorz[0][2]; total_r /= 3; total_r *= static_cast(alpha); int iq = i+1; if(iq > width) return; int zq = z; cv::Vec3b &temp = full_buffer.at(zq, iq); colorz[1][0] = temp[0]; colorz[1][1] = temp[1]; colorz[1][2] = temp[2]; int total_g = colorz[1][0]+colorz[1][1]+colorz[1][2]; total_g /= 3; total_g *= static_cast(alpha); buffer[0] = static_cast(total_r); buffer[1] = static_cast(total_g); buffer[2] = static_cast(total_r+total_g*alpha); } break; case 10: { buffer[0] = static_cast(((i+z)*pos)/(i+z+1)+buffer[0]*pos); buffer[1] += static_cast(((i*pos)/(z+1))+buffer[1]); buffer[2] += static_cast(((z*pos)/(i+1))+buffer[2]); } break; case 11: { buffer[0] += static_cast((buffer[2]+(i*pos))/(pos+1)); buffer[1] += static_cast((buffer[1]+(z*pos))/(pos+1)); buffer[2] += buffer[0]; } break; case 12: { buffer[0] += static_cast((i/(z+1))*pos+buffer[0]); buffer[1] += static_cast((z/(i+1))*pos+buffer[1]); buffer[2] += static_cast(((i+z)/(pos+1)+buffer[2])); } break; case 13: { buffer[0] += static_cast((pos*(i/(pos+1))+buffer[2])); buffer[1] += static_cast((pos*(z/(pos+1))+buffer[1])); buffer[2] += static_cast((pos*((i*z)/(pos+1)+buffer[0]))); } break; case 14: { buffer[0] = static_cast(((i+z)*pos)/(i+z+1)+buffer[0]*pos); buffer[1] += static_cast((buffer[1]+(z*pos))/(pos+1)); buffer[2] += static_cast(((i+z)/(pos+1)+buffer[2])); } break; case 15: { buffer[0] = static_cast((i%(z+1))*pos+buffer[0]); buffer[1] = static_cast((z%(i+1))*pos+buffer[1]); buffer[2] = static_cast((i+z%((int)pos+1))+buffer[2]); } break; case 16: { int r = 0; r = (buffer[0]+buffer[1]+buffer[2])/3; buffer[0] += static_cast(pos*r); buffer[1] += static_cast(-(pos*r)); buffer[2] += static_cast(pos*r); } break; case 17: { unsigned long r = 0;; r = static_cast((buffer[0]+buffer[1]+buffer[2])/(pos+1)); buffer[0] += static_cast(r*pos); r = (buffer[0]+buffer[1]+buffer[2])/3; buffer[1] += static_cast(r*pos); r = (buffer[0]+buffer[1]+buffer[2])/5; buffer[2] += static_cast(r*pos); } break; case 18: { buffer[0] += static_cast(1+(sin(pos))*z); buffer[1] += static_cast((1+cos(pos))*i); buffer[2] += static_cast(((buffer[0]+buffer[1]+buffer[2])/3)); } break; case 19: { buffer[0] += static_cast(((buffer[2]-i)*((((int)pos+1)%15)+2))); buffer[1] += static_cast(((buffer[1]-z)*((((int)pos+1)%15)+2))); buffer[2] += static_cast((buffer[0]-(i+z)*((((int)pos+1)%15)+2))); } break; case 20: { buffer[0] += static_cast((buffer[0]+buffer[1]-buffer[2])/3*pos); buffer[1] -= static_cast((buffer[0]-buffer[1]+buffer[2])/6*pos); buffer[2] += static_cast((buffer[0]-buffer[1]-buffer[2])/9*pos); } break; case 21: { int iq = i, zq = z+1; if(zq > height-2) return; cv::Vec3b &temp = full_buffer.at(zq, iq); zq = z+2; if(zq > height-2) return; cv::Vec3b &temp2 = full_buffer.at(zq, iq); int ir, ig, ib; ir = buffer[0]+temp[0]-temp2[0]; ig = buffer[1]-temp[1]+temp2[1]; ib = buffer[2]-temp[2]-temp2[2]; if(z%2 == 0) { if(i%2 == 0) { buffer[0] = static_cast(ir+(0.5*pos)); buffer[1] = static_cast(ig+(0.5*pos)); buffer[2] = static_cast(ib+(0.5*pos)); } else { buffer[0] = static_cast(ir+(1.5*pos)); buffer[1] = static_cast(ig+(1.5*pos)); buffer[2] = static_cast(ib+(1.5*pos)); } } else { if(i%2 == 0) { buffer[0] += static_cast(ir+(0.1*pos)); buffer[1] += static_cast(ig+(0.1*pos)); buffer[2] += static_cast(ib+(0.1*pos)); } else { buffer[0] -= static_cast(ir+(i*pos)); buffer[1] -= static_cast(ig+(z*pos)); buffer[2] -= static_cast(ib+(0.1*pos)); } } } break; case 22: { if((i%2) == 0) { if((z%2) == 0) { buffer[0] = static_cast(1-pos*buffer[0]); buffer[2] = static_cast((i+z)*pos); } else { buffer[0] = static_cast(pos*buffer[0]-z); buffer[2] = static_cast((i-z)*pos); } } else { if((z%2) == 0) { buffer[0] = static_cast(pos*buffer[0]-i); buffer[2] = static_cast((i-z)*pos); } else { buffer[0] = static_cast(pos*buffer[0]-z); buffer[2] = static_cast((i+z)*pos); } } } break; case 23: { buffer[0] = static_cast(buffer[0]+buffer[1]*2+pos); buffer[1] = static_cast(buffer[1]+buffer[0]*2+pos); buffer[2] = static_cast(buffer[2]+buffer[0]+pos); } break; case 24: { buffer[0] += static_cast(buffer[2]+pos); buffer[1] += static_cast(buffer[1]+pos); buffer[2] += static_cast(buffer[0]+pos); } break; case 25: { buffer[0] += static_cast((buffer[2]*pos)); buffer[1] += static_cast((buffer[0]*pos)); buffer[2] += static_cast((buffer[1]*pos)); } break; case 26: { buffer[0] += static_cast((buffer[2]*pos)+i); buffer[1] += static_cast((buffer[0]*pos)+z); buffer[2] += static_cast((buffer[1]*pos)+i-z); } break; case 27: { buffer[0] = static_cast((-buffer[2])+z); buffer[1] = static_cast((-buffer[0])+i); buffer[2] = static_cast((-buffer[1])+pos); } break; case 28: { buffer[0] = static_cast(buffer[2]+(1+(i*z)/pos)); buffer[1] = static_cast(buffer[1]+(1+(i*z)/pos)); buffer[2] = static_cast(buffer[0]+(1+(i*z)/pos)); } break; case 29: { int iq = i, zq = z+1; if(zq > height-2) return; cv::Vec3b &temp = full_buffer.at(zq, iq); zq = z+2; if(zq > height-2) return; cv::Vec3b &temp2 = full_buffer.at(zq, iq); zq = z+3; if(zq > height-2) return; cv::Vec3b &temp3 = full_buffer.at(zq, iq); zq = z+4; if(zq > height-2) return; cv::Vec3b &temp4 = full_buffer.at(zq, iq); unsigned char col[4]; col[0] = static_cast((temp[0]+temp2[0]+temp3[0]+temp4[0])/4); col[1] = static_cast((temp[1]+temp2[1]+temp3[1]+temp4[1])/4); col[2] = static_cast((temp[2]+temp2[2]+temp3[2]+temp4[2])/4); buffer[0] = static_cast(col[0]*pos); buffer[1] = static_cast(col[1]*pos); buffer[2] = static_cast(col[2]*pos); } break; case 30: { double rad = 100.0; double degree = 0.01*pos; int x = static_cast(rad * (cos(degree))); int y = static_cast(rad * sin(degree)); int z = static_cast(rad * tan(degree)); buffer[0] = static_cast(buffer[0]+x); buffer[2] = static_cast(buffer[1]+y); buffer[1] = static_cast(buffer[1]+z); } break; case 31: { int average= static_cast((buffer[0]+buffer[1]+buffer[2]+1)/3); buffer[0] += static_cast(buffer[2]+average*(pos)); buffer[1] += static_cast(buffer[0]+average*(pos)); buffer[2] += static_cast(buffer[1]+average*(pos)); } break; case 32: { int value = 0; value = ~buffer[0] + ~buffer[1] + ~buffer[2]; value /= 2; buffer[0] = static_cast(buffer[0]+value*pos); value /= 2; buffer[1] = static_cast(buffer[1]+value*pos); value /= 2; buffer[2] = static_cast(buffer[2]+value*pos); } break; case 33: { buffer[0] += static_cast(*count*pos); buffer[1] += static_cast(*count*pos); buffer[2] += static_cast(*count*pos); *count += 0.00001f; if(*count > 255) *count = 0; } break; case 34: { buffer[0] += static_cast(pos*(randomNumber+pos)); buffer[1] += static_cast(pos*(randomNumber+z)); buffer[2] += static_cast(pos*(randomNumber+i)); } break; case 35: { buffer[0] += static_cast(*count *z); buffer[1] += static_cast(*count *pos); buffer[2] += static_cast(*count *z); *count += 0.0000001f; } break; case 36: { buffer[0] += static_cast(sin(3.14+pos)*pos); buffer[1] += static_cast(cos(3.14+pos)*pos); buffer[2] += static_cast(tan(3.14+pos)*pos); } break; } buffer[0] += red; buffer[1] += green; buffer[2] += blue; if(negate == true) { buffer[0] = ~buffer[0]; buffer[1] = ~buffer[1]; buffer[2] = ~buffer[2]; } unsigned char buf[3]; buf[0] = buffer[0]; buf[1] = buffer[1]; buf[2] = buffer[2]; switch(reverse) { case 0://normal break; case 1: buffer[0] = buf[2]; buffer[1] = buf[1]; buffer[2] = buf[0]; break; case 2: buffer[0] = buf[1]; buffer[1] = buf[2]; buffer[2] = buf[0]; break; case 3: buffer[0] = buf[2]; buffer[1] = buf[0]; buffer[2] = buf[1]; break; case 4: buffer[0] = buf[1]; buffer[1] = buf[0]; buffer[2] = buf[2]; break; } }