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Acid.Cam.v2.Qt/windows/Acid.Cam.Qt.Windows.Project/ac-filter8.cpp
lostjared 1c6e000880 added updated windows version
2018-09-25 17:31:49 -07:00

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/*
* Software written by Jared Bruni https://github.com/lostjared
This software is dedicated to all the people that struggle with 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) 2018, 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"
void ac::MoveUpLeft(cv::Mat &frame) {
static double alpha = 1.0, alpha_max = 7.0;
static cv::Mat old_frame = frame.clone();
static cv::Size old_size = old_frame.size();
if(reset_alpha == true || frames_released == true || old_size != frame.size()) {
old_frame = frame.clone();
old_size = old_frame.size();
}
for(int z = 0; z < old_frame.rows-1; ++z) {
for(int i = 0; i < old_frame.cols-1; ++i) {
cv::Vec3b &pixel = old_frame.at<cv::Vec3b>(z, i);
cv::Vec3b pix = old_frame.at<cv::Vec3b>(z+1, i+1);
pixel = pix;
}
}
for(int z = 0; z < frame.rows; ++z) {
for(int i = 0; i < frame.cols; ++i) {
cv::Vec3b &pixel = frame.at<cv::Vec3b>(z, i);
cv::Vec3b pix = old_frame.at<cv::Vec3b>(z, i);
for(int j = 0; j < 3; ++j)
pixel[j] = static_cast<unsigned char>((pixel[j]^pix[j])*alpha);
}
}
static int dir = 1;
procPos(dir, alpha, alpha_max);
AddInvert(frame);
}
void ac::RandomStrobe(cv::Mat &frame) {
static double alpha = 1.0, alpha_max = 7.0;
static std::vector<std::string> svStrobe{ "StrobeEffect", "Blank", "Type","Random Flash","Strobe Red Then Green Then Blue","Flash Black","FlashWhite","StrobeScan", "RGBFlash", "ReinterpretDouble", "DiamondStrobe", "BitwiseXorStrobe","FlashBlackAndWhite", "StrobeBlend", "FibFlash", "ScaleFlash", "FadeStrobe", "AndStrobe", "AndStrobeScale", "AndPixelStrobe", "AndOrXorStrobe", "AndOrXorStrobeScale", "BrightStrobe", "DarkStrobe", "RandomXorOpposite", "StrobeTransform"};
cv::Mat old_frame = frame.clone();
DrawFilter(svStrobe[rand()%svStrobe.size()], old_frame);
cv::Mat copy = frame.clone();
AlphaBlend(old_frame, copy, frame, alpha);
static int dir = 1;
procPos(dir, alpha, alpha_max, 15, 0.1);
AddInvert(frame);
}
void ac::RandomBlur(cv::Mat &frame) {
std::vector<std::string> svBlur { "GaussianBlur", "Median Blur", "Blur Distortion", "ColorTrails","TrailsFilter", "TrailsFilterIntense", "TrailsFilterSelfAlpha", "TrailsFilterXor","BlurSim", "TrailsInter", "TrailsBlend", "TrailsNegate", "AcidTrails", "HorizontalTrailsInter" ,"Trails", "BlendTrails", "SmoothTrails", "SmoothTrailsSelfAlphaBlend", "SmoothTrailsRainbowBlend", "MedianBlend", "XorTrails", "RainbowTrails", "NegativeTrails", "IntenseTrails", "GaussianBlend", "RandomAmountMedianBlur", "MedianBlendAnimation", "AlphaAcidTrails"};
static double alpha = 1.0, alpha_max = 7.0;
cv::Mat old_frame = frame.clone();
DrawFilter(svBlur[rand()%svBlur.size()], old_frame);
cv::Mat copy = frame.clone();
AlphaBlend(old_frame, copy, frame, alpha);
static int dir = 1;
procPos(dir, alpha, alpha_max, 15, 0.1);
AddInvert(frame);
}
void ac::StuckStrobe(cv::Mat &frame) {
static double alpha = 1.0, alpha_max = 7.0;
static cv::Mat old_frame = frame.clone();
if(reset_alpha == true || frames_released == true || old_frame.size() != frame.size()) {
old_frame = frame.clone();
}
cv::Mat copy = frame.clone();
AlphaBlend(old_frame, copy, frame, alpha);
static int dir = 1;
procPos(dir, alpha, alpha_max, 15, 0.1);
AddInvert(frame);
}
void ac::Stuck(cv::Mat &frame) {
static cv::Mat old_frame = frame.clone();
if(reset_alpha == true || frames_released == true || old_frame.size() != frame.size()) {
old_frame = frame.clone();
}
Add(frame, old_frame);
AddInvert(frame);
}
void ac::OrStrobe(cv::Mat &frame) {
cv::Mat copy = frame.clone();
static cv::Mat prev_frame = frame.clone();
if(prev_frame.size() != frame.size()) {
prev_frame = frame.clone();
}
cv::Vec3b randval(rand()%255, rand()%255, rand()%255);
static double alpha = 1.0, alpha_max = 7.0;
for(int z = 0; z < frame.rows; ++z) {
for(int i = 0; i < frame.cols; ++i) {
cv::Vec3b &pixel = frame.at<cv::Vec3b>(z, i);
cv::Vec3b pix = prev_frame.at<cv::Vec3b>(z, i);
for(int j = 0; j < 3; ++j) {
pixel[j] = static_cast<unsigned char>((pixel[j]|randval[j]|pix[j])*alpha);
}
}
}
static int dir = 1;
procPos(dir, alpha, alpha_max);
prev_frame = copy.clone();
AddInvert(frame);
}
void ac::LagBlend(cv::Mat &frame) {
static MatrixCollection<8> collection;
static cv::Size c_size = frame.size();
// lazy init
static bool init = false;
if(c_size != frame.size() || init == false) {
collection.shiftFrames(frame);
init = true;
c_size = frame.size();
}
static int frame_count = 0;
++frame_count;
if(frame_count > (ac::fps/8)) {
collection.shiftFrames(frame);
frame_count = 0;
}
for(int i = 0; i < collection.size(); ++i) {
DarkenFilter(frame);
Add(frame, collection.frames[i]);
}
AddInvert(frame);
}
void ac::SubFilter(cv::Mat &frame) {
static MatrixCollection<8> collection;
collection.shiftFrames(frame);
for(int j = 0; j < collection.size(); ++j) {
Sub(frame, collection.frames[j]);
}
AddInvert(frame);
}
void ac::AddFilter(cv::Mat &frame) {
static MatrixCollection<12> collection;
collection.shiftFrames(frame);
for(int j = 0; j < collection.size(); ++j) {
Add(frame, collection.frames[j]);
}
AddInvert(frame);
}
// Use in a custom with Darken Filter twice
void ac::RGBTrails(cv::Mat &frame) {
static MatrixCollection<8> collection;
collection.shiftFrames(frame);
for(int z = 0; z < frame.rows; ++z) {
for(int i = 0; i < frame.cols; ++i) {
cv::Vec3b &pixel = frame.at<cv::Vec3b>(z, i);
int offset = 0;
for(int j = 0; j < collection.size(); ++j) {
cv::Vec3b pix = collection.frames[j].at<cv::Vec3b>(z, i);
pixel[offset] = static_cast<unsigned char>(pixel[offset]+(pix[offset]));
++offset;
if(offset > 2)
offset = 0;
}
swapColors(frame, z, i);
if(isNegative) invert(frame, z, i);
}
}
}
void ac::RGBTrailsDark(cv::Mat &frame) {
DarkenFilter(frame);
DarkenFilter(frame);
RGBTrails(frame);
}
void ac::RGBTrailsAlpha(cv::Mat &frame) {
static MatrixCollection<8> collection;
DarkenFilter(frame);
DarkenFilter(frame);
collection.shiftFrames(frame);
static double alpha = 1.0, alpha_max = 4.0;
for(int z = 0; z < frame.rows; ++z) {
for(int i = 0; i < frame.cols; ++i) {
cv::Vec3b &pixel = frame.at<cv::Vec3b>(z, i);
int offset = 0;
for(int j = 0; j < collection.size(); ++j) {
cv::Vec3b pix = collection.frames[j].at<cv::Vec3b>(z, i);
pixel[offset] = static_cast<unsigned char>((pixel[offset]+pix[offset])*alpha);
++offset;
if(offset > 2)
offset = 0;
}
swapColors(frame, z, i);
if(isNegative) invert(frame, z, i);
}
}
static int dir = 1;
procPos(dir, alpha, alpha_max, 4.5, 0.01);
}
void ac::RGBTrailsNegativeAlpha(cv::Mat &frame) {
static MatrixCollection<8> collection;
DarkenFilter(frame);
DarkenFilter(frame);
collection.shiftFrames(frame);
static double alpha = 1.0, alpha_max = 8.0;
for(int z = 0; z < frame.rows; ++z) {
for(int i = 0; i < frame.cols; ++i) {
cv::Vec3b &pixel = frame.at<cv::Vec3b>(z, i);
int offset = 0;
for(int j = 0; j < collection.size(); ++j) {
cv::Vec3b pix = collection.frames[j].at<cv::Vec3b>(z, i);
pixel[offset] = static_cast<unsigned char>((pixel[offset]+~pix[offset])*alpha);
++offset;
if(offset > 2)
offset = 0;
}
swapColors(frame, z, i);
if(isNegative) invert(frame, z, i);
}
}
static int dir = 1;
procPos(dir, alpha, alpha_max, 9.0, 0.005);
}
void ac::MovementRGBTrails(cv::Mat &frame) {
static MatrixCollection<16> collection;
SmoothRGB(frame, &collection);
}
void ac::RGBTrailsXor(cv::Mat &frame) {
RGBTrails(frame);
RandomXorOpposite(frame);
}
void ac::DifferenceStrobe(cv::Mat &frame) {
static cv::Mat frame_copy = frame.clone();
cv::Mat orig_frame = frame.clone();
if(frame_copy.size() != frame.size()) {
frame_copy = frame.clone();
}
static int offset = 0;
static double alpha = 1.0, alpha_max = 7.0;
int rand_value = rand()%255;
for(int z = 0; z < frame.rows; ++z) {
for(int i = 0; i < frame.cols; ++i) {
cv::Vec3b &pixel = frame.at<cv::Vec3b>(z, i);
cv::Vec3b pix = frame_copy.at<cv::Vec3b>(z, i);
if(pixel[offset]+5 >= pix[offset] && pixel[offset]-5 <= pix[offset]) {
for(int j = 0; j < 3; ++j) {
pixel[j] ^= static_cast<unsigned char>(pixel[j]*alpha)+static_cast<unsigned char>(pix[j]*alpha);
}
} else {
pixel[offset] = rand_value;
}
swapColors(frame, z, i);
if(isNegative) invert(frame, z, i);
}
}
++offset;
if(offset > 2)
offset = 0;
static int dir = 1;
procPos(dir, alpha, alpha_max);
frame_copy = orig_frame.clone();
}
void ac::BlackAndWhiteDifferenceStrobe(cv::Mat &frame) {
static cv::Mat frame_copy = frame.clone();
cv::Mat orig_frame = frame.clone();
if(frame_copy.size() != frame.size()) {
frame_copy = frame.clone();
}
static int offset = 0;
static double alpha = 1.0, alpha_max = 7.0;
static int counter = 0;
static cv::Vec3b white(255, 255, 255), black(0, 0, 0);
for(int z = 0; z < frame.rows; ++z) {
for(int i = 0; i < frame.cols; ++i) {
cv::Vec3b &pixel = frame.at<cv::Vec3b>(z, i);
cv::Vec3b pix = frame_copy.at<cv::Vec3b>(z, i);
if(pixel[offset]+5 >= pix[offset] && pixel[offset]-5 <= pix[offset]) {
for(int j = 0; j < 3; ++j) {
pixel[j] ^= static_cast<unsigned char>(pixel[j]*alpha)+static_cast<unsigned char>(pix[j]*alpha);
}
} else {
if(counter == 0)
pixel = black;
else
pixel = white;
}
swapColors(frame, z, i);
if(isNegative) invert(frame, z, i);
}
}
counter = (counter == 0) ? 1 : 0;
++offset;
if(offset > 2)
offset = 0;
static int dir = 1;
procPos(dir, alpha, alpha_max);
frame_copy = orig_frame.clone();
}
void ac::DifferenceXor(cv::Mat &frame) {
static cv::Mat frame_copy = frame.clone();
cv::Mat orig_frame = frame.clone();
if(frame_copy.size() != frame.size()) {
frame_copy = frame.clone();
}
static int offset = 0;
static double alpha = 1.0, alpha_max = 7.0;
cv::Vec3b pix_color(rand()%255, rand()%255, rand()%255);
static cv::Vec3b white(255, 255, 255), black(0, 0, 0);
for(int z = 0; z < frame.rows; ++z) {
for(int i = 0; i < frame.cols; ++i) {
cv::Vec3b &pixel = frame.at<cv::Vec3b>(z, i);
cv::Vec3b pix = frame_copy.at<cv::Vec3b>(z, i);
if(pixel[offset]+5 >= pix[offset] && pixel[offset]-5 <= pix[offset]) {
for(int j = 0; j < 3; ++j) {
pixel[j] ^= static_cast<unsigned char>(pixel[j]*alpha)+static_cast<unsigned char>(pix[j]*alpha);
}
} else {
for(int j = 0; j < 3; ++j) {
pixel[j] = pixel[j]^pix_color[j];
}
}
swapColors(frame, z, i);
if(isNegative) invert(frame, z, i);
}
}
++offset;
if(offset > 2)
offset = 0;
static int dir = 1;
procPos(dir, alpha, alpha_max);
frame_copy = orig_frame.clone();
}
void ac::DifferenceRand(cv::Mat &frame) {
static cv::Mat frame_copy = frame.clone();
cv::Mat orig_frame = frame.clone();
if(frame_copy.size() != frame.size()) {
frame_copy = frame.clone();
}
static int offset = 0;
static double alpha = 1.0, alpha_max = 7.0;
cv::Vec3b pix_color(rand()%255, rand()%255, rand()%255);
for(int z = 0; z < frame.rows; ++z) {
for(int i = 0; i < frame.cols; ++i) {
cv::Vec3b &pixel = frame.at<cv::Vec3b>(z, i);
cv::Vec3b pix = frame_copy.at<cv::Vec3b>(z, i);
if(pixel[offset]+5 >= pix[offset] && pixel[offset]-5 <= pix[offset]) {
for(int j = 0; j < 3; ++j) {
pixel[j] = pixel[j]^pix_color[j];
}
} else {
for(int j = 0; j < 3; ++j) {
pixel[j] ^= static_cast<unsigned char>(pixel[j]*alpha)+static_cast<unsigned char>(pix[j]*alpha);
}
}
swapColors(frame, z, i);
if(isNegative) invert(frame, z, i);
}
}
++offset;
if(offset > 2)
offset = 0;
static int dir = 1;
procPos(dir, alpha, alpha_max);
frame_copy = orig_frame.clone();
}
void ac::DifferenceBrightStrobe(cv::Mat &frame) {
static cv::Mat frame_copy = frame.clone();
cv::Mat orig_frame = frame.clone();
if(frame_copy.size() != frame.size()) {
frame_copy = frame.clone();
}
static int offset = 0;
static double alpha = 1.0, alpha_max = 7.0;
static int sw = 0;
cv::Vec3b rand_pix(rand()%255, rand()%255, rand()%255);
for(int z = 0; z < frame.rows; ++z) {
for(int i = 0; i < frame.cols; ++i) {
cv::Vec3b &pixel = frame.at<cv::Vec3b>(z, i);
cv::Vec3b pix = frame_copy.at<cv::Vec3b>(z, i);
if(pixel[offset]+5 >= pix[offset] && pixel[offset]-5 <= pix[offset]) {
for(int j = 0; j < 3; ++j) {
if(sw == 0)
pixel[j] = ~pixel[j];
else
pixel[j] ^= static_cast<unsigned char>((pixel[j]^rand_pix[j])*alpha);
}
} else {
for(int j = 0; j < 3; ++j) {
if(sw == 1)
pixel[j] = ~pixel[j];
else
pixel[j] ^= static_cast<unsigned char>((pixel[j]^rand_pix[j])*alpha);
}
}
swapColors(frame, z, i);
if(isNegative) invert(frame, z, i);
}
}
++offset;
if(offset > 2)
offset = 0;
static int dir = 1;
++sw;
if(sw > 1)
sw = 0;
procPos(dir, alpha, alpha_max);
frame_copy = orig_frame.clone();
}
void ac::PsycheTrails(cv::Mat &frame) {
static MatrixCollection<16> collection;
DarkenImage(frame, 8);
collection.shiftFrames(frame);
for(int z = 0; z < frame.rows; ++z) {
for(int i = 0; i < frame.cols; ++i) {
cv::Vec3b &pixel = frame.at<cv::Vec3b>(z, i);
int offset = 0;
for(int j = 0; j < collection.size(); ++j) {
cv::Vec3b pix = collection.frames[j].at<cv::Vec3b>(z, i);
pixel[offset] = static_cast<unsigned char>(pixel[offset]+(pix[offset]));
++offset;
if(offset > 2)
offset = 0;
}
swapColors(frame, z, i);
if(isNegative) invert(frame, z, i);
}
}
DifferenceXor(frame);
}
void ac::FourSquare(cv::Mat &frame) {
static MatrixCollection<4> collection;
collection.shiftFrames(frame);
int pos_x = 0;
int pos_y = 0;
for(int i = 0; i < collection.size(); ++i) {
cv::Mat out_frame;
if(frame.cols/2 > 0 && frame.rows/2 > 0) {
cv::resize(collection.frames[i], out_frame, cv::Size(frame.cols/2,frame.rows/2));
copyMat(out_frame, 0,0, frame, pos_x, pos_y, frame.cols/2, frame.rows/2);
}
pos_x += frame.cols/2;
if(pos_x > frame.cols-(frame.cols/2)) {
pos_x = 0;
pos_y += frame.rows/2;
}
}
AddInvert(frame);
}
void ac::EightSquare(cv::Mat &frame) {
static MatrixCollection<8> collection;
collection.shiftFrames(frame);
int pos_x = 0;
int pos_y = 0;
for(int i = 0; i < collection.size(); ++i) {
cv::Mat out_frame;
if(frame.cols/4 > 0 && frame.rows/2 > 0) {
cv::resize(collection.frames[i], out_frame, cv::Size(frame.cols/4,frame.rows/2));
copyMat(out_frame, 0,0, frame, pos_x, pos_y, frame.cols/4, frame.rows/2);
}
pos_x += frame.cols/4;
if(pos_x > frame.cols-(frame.cols/4)) {
pos_x = 0;
pos_y += frame.rows/2;
}
}
AddInvert(frame);
}
void ac::DiagonalSquare(cv::Mat &frame) {
int pos_x = 0, pos_y = 0;
int col_w = (frame.cols/4)-1;
int col_h = (frame.rows/4)-1;
cv::Mat copy_frame = frame.clone();
for(int i = 0; i < 3; ++i) {
cv::Mat out_frame;
if(col_w > 0 && col_h > 0) {
cv::resize(copy_frame, out_frame, cv::Size(col_w,col_h));
if(pos_x >= 0 && pos_x <= frame.cols-col_w && pos_y >= 0 && pos_y <= frame.rows-col_h)
copyMat(out_frame, 0, 0, frame, pos_x, pos_y, col_w, col_h);
}
pos_x += col_w;
pos_y += col_h;
}
AddInvert(frame);
}
void ac::DiagonalSquareRandom(cv::Mat &frame) {
if(testSize(frame) == false)
return;
static MatrixCollection<4> collection;
collection.shiftFrames(frame);
int pos_x = 0, pos_y = 0;
int col_w = (frame.cols/4)-1;
int col_h = (frame.rows/4)-1;
if(col_w < 25 || col_h < 25)
return;
Negate(frame);
for(int i = 0; i < 4; ++i) {
cv::Mat &copy_frame = collection.frames[i];
cv::Mat out_frame;
if(col_w > 0 && col_h > 0) {
cv::resize(copy_frame, out_frame, cv::Size(col_w,col_h));
int index = 0;
DrawFunction func = getRandomFilter(index);
func(out_frame);
copyMat(out_frame, 0, 0, frame, pos_x, pos_y, col_w, col_h);
}
pos_x += col_w;
pos_y += col_h;
}
AddInvert(frame);
}
void ac::SquareStretchDown(cv::Mat &frame) {
cv::Mat copy_frame = frame.clone();
static int z = 10;
if(z > frame.rows-1) {
z = 10;
}
cv::Mat out_frame;
if(frame.cols > 0 && z > 0) {
cv::resize(copy_frame, out_frame, cv::Size(frame.cols,z));
if(subfilter != -1 && ac::draw_strings[subfilter] != "SquareStretchDown") {
ac::draw_func[ac::subfilter](out_frame);
}
copyMat(out_frame, 0, 0, frame, 0, 0, frame.cols, z);
}
z += 50;
AddInvert(frame);
}
void ac::SquareStretchRight(cv::Mat &frame) {
cv::Mat copy_frame = frame.clone();
static int z = 10;
if(z > frame.cols-1) {
z = 10;
}
cv::Mat out_frame;
if(z > 0 && frame.rows > 0) {
cv::resize(copy_frame, out_frame, cv::Size(z,frame.rows));
if(subfilter != -1 && ac::draw_strings[subfilter] != "SquarehStretcRight") {
ac::draw_func[ac::subfilter](out_frame);
}
copyMat(out_frame, 0, 0, frame, 0, 0, z,frame.rows);
}
z += 50;
AddInvert(frame);
}
void ac::SquareStretchUp(cv::Mat &frame) {
cv::Mat copy_frame = frame.clone();
cv::Mat out_frame;
static int size = 1;
static int y = frame.rows-10;
if(y < 1) {
y = frame.rows-10;
size = 1;
}
if(frame.cols > 0 && size > 0) {
cv::resize(copy_frame, out_frame, cv::Size(frame.cols, size));
if(subfilter != -1 && ac::draw_strings[subfilter] != "SquareStretchUp") {
ac::draw_func[ac::subfilter](out_frame);
}
copyMat(out_frame, 0, 0, frame, 0, y, frame.cols, size);
}
y -= 50;
size += 50;
AddInvert(frame);
}
void ac::SquareStretchLeft(cv::Mat &frame) {
cv::Mat copy_frame = frame.clone();
cv::Mat out_frame;
static int size = 1;
static int y = frame.cols-10;
if(y < 1) {
y = frame.cols-10;
size = 1;
}
if(size > 0 && frame.rows > 0) {
cv::resize(copy_frame, out_frame, cv::Size(size, frame.rows));
if(subfilter != -1 && ac::draw_strings[subfilter] != "SquareStretchLeft") {
ac::draw_func[ac::subfilter](out_frame);
}
copyMat(out_frame, 0, 0, frame, y, 0, size, frame.rows);
}
y -= 50;
size += 50;
AddInvert(frame);
}
void ac::DarkTrails(cv::Mat &frame) {
RGBTrailsDark(frame);
Bitwise_XOR(frame);
}
void ac::SoftFeedback(cv::Mat &frame) {
Rect source(0, 0, frame.cols-1, frame.rows-1);
cv::Mat frame_copy = frame.clone();
int add_w = source.w/16;
int add_h = source.h/16;
while(source.x < frame.cols-1 && source.w > add_w) {
if(source.w > 100 && source.w > add_w && source.h > add_h) {
cv::Mat out_frame;
cv::resize(frame_copy, out_frame, cv::Size(source.w, source.h));
copyMat(out_frame, 0, 0, frame, source.x, source.y, source.w, source.h);
}
source.x += add_w;
source.y += add_h;
source.w -= add_w*2;
source.h -= add_h*2;
}
AddInvert(frame);
}
void ac::SoftFeedbackFrames(cv::Mat &frame) {
static MatrixCollection<16> collection;
collection.shiftFrames(frame);
Rect source(0, 0, frame.cols-1, frame.rows-1);
cv::Mat frame_copy = frame.clone();
int add_w = source.w/16;
int add_h = source.h/16;
int offset = 0;
while(source.x < frame.cols-1 && source.w > add_w) {
if(offset < collection.size() && source.w > add_w && source.h > add_h) {
cv::Mat out_frame;
cv::resize(collection.frames[offset], out_frame, cv::Size(source.w, source.h));
copyMat(out_frame, 0, 0, frame, source.x, source.y, source.w, source.h);
}
source.x += add_w;
source.y += add_h;
source.w -= add_w*2;
source.h -= add_h*2;
offset++;
}
AddInvert(frame);
}
void ac::ResizeSoftFeedback(cv::Mat &frame) {
static MatrixCollection<16> collection;
collection.shiftFrames(frame);
Rect source(0, 0, frame.cols-1, frame.rows-1);
cv::Mat frame_copy = frame.clone();
static int num_squares = 2;
int add_w = source.w/num_squares;
int add_h = source.h/num_squares;
int offset = 0;
while(source.x < frame.cols-1 && source.w > add_w) {
if(offset < collection.size() && source.w > add_w && source.h > add_h) {
cv::Mat out_frame;
cv::resize(collection.frames[offset], out_frame, cv::Size(source.w, source.h));
copyMat(out_frame, 0, 0, frame, source.x, source.y, source.w, source.h);
}
source.x += add_w;
source.y += add_h;
source.w -= add_w*2;
source.h -= add_h*2;
offset++;
}
static int dir = 1;
if(dir == 1) {
num_squares += 2;
if(num_squares >= 16)
dir = 0;
} else if(dir == 0) {
num_squares -= 2;
if(num_squares <= 2)
dir = 1;
}
AddInvert(frame);
}
void ac::SoftFeedback8(cv::Mat &frame) {
Rect source(0, 0, frame.cols-1, frame.rows-1);
cv::Mat frame_copy = frame.clone();
int add_w = source.w/8;
int add_h = source.h/8;
while(source.x < frame.cols-1 && source.w > add_w) {
if(source.w > add_w && source.h > add_h) {
cv::Mat out_frame;
cv::resize(frame_copy, out_frame, cv::Size(source.w, source.h));
copyMat(out_frame, 0, 0, frame, source.x, source.y, source.w, source.h);
}
source.x += add_w;
source.y += add_h;
source.w -= add_w*2;
source.h -= add_h*2;
}
AddInvert(frame);
}
void ac::SoftFeedbackFrames8(cv::Mat &frame) {
static MatrixCollection<8> collection;
collection.shiftFrames(frame);
Rect source(0, 0, frame.cols-1, frame.rows-1);
cv::Mat frame_copy = frame.clone();
int add_w = source.w/8;
int add_h = source.h/8;
int offset = 0;
while(source.x < frame.cols-1 && source.w > add_w) {
if(offset < collection.size() && source.w > add_w && source.h > add_h) {
cv::Mat out_frame;
cv::resize(collection.frames[offset], out_frame, cv::Size(source.w, source.h));
copyMat(out_frame, 0, 0, frame, source.x, source.y, source.w, source.h);
}
source.x += add_w;
source.y += add_h;
source.w -= add_w*2;
source.h -= add_h*2;
offset++;
}
AddInvert(frame);
}
void ac::ResizeSoftFeedback8(cv::Mat &frame) {
static MatrixCollection<8> collection;
collection.shiftFrames(frame);
Rect source(0, 0, frame.cols-1, frame.rows-1);
cv::Mat frame_copy = frame.clone();
static int num_squares = 2;
int add_w = source.w/num_squares;
int add_h = source.h/num_squares;
int offset = 0;
while(source.x < frame.cols-1 && source.w > add_w) {
if(offset < collection.size() && source.w > add_w && source.h > add_h) {
cv::Mat out_frame;
cv::resize(collection.frames[offset], out_frame, cv::Size(source.w, source.h));
copyMat(out_frame, 0, 0, frame, source.x, source.y, source.w, source.h);
}
source.x += add_w;
source.y += add_h;
source.w -= add_w*2;
source.h -= add_h*2;
offset++;
}
static int dir = 1;
if(dir == 1) {
num_squares += 2;
if(num_squares >= 8)
dir = 0;
} else if(dir == 0) {
num_squares -= 2;
if(num_squares <= 2)
dir = 1;
}
AddInvert(frame);
}
void ac::ResizeSoftFeedbackSubFilter(cv::Mat &frame) {
if(subfilter != -1 && ac::draw_strings[subfilter] != "ResizeSoftFeedbackSubFilter") {
static MatrixCollection<16> collection;
collection.shiftFrames(frame);
Rect source(0, 0, frame.cols-1, frame.rows-1);
cv::Mat frame_copy = frame.clone();
static int num_squares = 2;
int add_w = source.w/num_squares;
int add_h = source.h/num_squares;
int offset = 0;
while(source.x < frame.cols-1 && source.w > add_w) {
if(offset < collection.size() && source.w > add_w && source.h > add_h) {
cv::Mat out_frame;
cv::resize(collection.frames[offset], out_frame, cv::Size(source.w, source.h));
ac::draw_func[ac::subfilter](out_frame);
copyMat(out_frame, 0, 0, frame, source.x, source.y, source.w, source.h);
}
source.x += add_w;
source.y += add_h;
source.w -= add_w*2;
source.h -= add_h*2;
offset++;
}
static int dir = 1;
if(dir == 1) {
num_squares += 2;
if(num_squares >= 16)
dir = 0;
} else if(dir == 0) {
num_squares -= 2;
if(num_squares <= 2)
dir = 1;
}
AddInvert(frame);
}
}
void ac::SoftFeedbackRandFilter(cv::Mat &frame) {
static DrawFunction func[10] = {DifferenceXor, RandomXorOpposite, FadeInAndOut, FadeStrobe, AndPixelStrobe, AndStrobe, AndStrobeScale, AndPixelStrobe, AndOrXorStrobe, AndOrXorStrobeScale };
Rect source(0, 0, frame.cols-1, frame.rows-1);
cv::Mat frame_copy = frame.clone();
int add_w = source.w/16;
int add_h = source.h/16;
while(source.x < frame.cols-1 && source.w > add_w) {
if(source.w > add_w && source.h > add_h) {
cv::Mat out_frame;
cv::resize(frame_copy, out_frame, cv::Size(source.w, source.h));
func[rand()%10](out_frame);
copyMat(out_frame, 0, 0, frame, source.x, source.y, source.w, source.h);
}
source.x += add_w;
source.y += add_h;
source.w -= add_w*2;
source.h -= add_h*2;
}
AddInvert(frame);
}
void ac::SoftFeedback32(cv::Mat &frame) {
Rect source(0, 0, frame.cols-1, frame.rows-1);
cv::Mat frame_copy = frame.clone();
int add_w = source.w/32;
int add_h = source.h/32;
while(source.x < frame.cols-1 && source.w > add_w) {
if(source.w > 100 && source.h > 100) {
cv::Mat out_frame;
cv::resize(frame_copy, out_frame, cv::Size(source.w, source.h));
copyMat(out_frame, 0, 0, frame, source.x, source.y, source.w, source.h);
}
source.x += add_w;
source.y += add_h;
source.w -= add_w*2;
source.h -= add_h*2;
}
AddInvert(frame);
}
void ac::SoftFeedbackFrames32(cv::Mat &frame) {
static MatrixCollection<24> collection;
collection.shiftFrames(frame);
Rect source(0, 0, frame.cols-1, frame.rows-1);
cv::Mat frame_copy = frame.clone();
int add_w = source.w/32;
int add_h = source.h/32;
int offset = 0;
while(source.x < frame.cols-1 && source.w > add_w) {
if(offset < collection.size() && source.w > add_w+10 && source.h > add_h+10) {
cv::Mat out_frame;
cv::resize(collection.frames[offset], out_frame, cv::Size(source.w, source.h));
copyMat(out_frame, 0, 0, frame, source.x, source.y, source.w, source.h);
}
source.x += add_w;
source.y += add_h;
source.w -= add_w*2;
source.h -= add_h*2;
offset++;
}
AddInvert(frame);
}
void ac::ResizeSoftFeedback32(cv::Mat &frame) {
static MatrixCollection<32> collection;
collection.shiftFrames(frame);
Rect source(0, 0, frame.cols-1, frame.rows-1);
cv::Mat frame_copy = frame.clone();
static int num_squares = 2;
int add_w = source.w/num_squares;
int add_h = source.h/num_squares;
static const int MAX_SQUARES=32;
int offset = 0;
while(source.x < frame.cols-1 && source.w > add_w+10 && source.h > add_h+10) {
if(offset < collection.size() && source.w > add_w && source.h > add_h) {
cv::Mat out_frame;
cv::resize(collection.frames[offset], out_frame, cv::Size(source.w, source.h));
copyMat(out_frame, 0, 0, frame, source.x, source.y, source.w, source.h);
}
source.x += add_w;
source.y += add_h;
source.w -= add_w*2;
source.h -= add_h*2;
offset++;
}
static int dir = 1;
if(dir == 1) {
num_squares += 2;
if(num_squares >= MAX_SQUARES)
dir = 0;
} else if(dir == 0) {
num_squares -= 2;
if(num_squares <= 2)
dir = 1;
}
AddInvert(frame);
}
void ac::SoftFeedbackRandFilter32(cv::Mat &frame) {
static DrawFunction func[10] = {DifferenceXor, RandomXorOpposite, FadeInAndOut, FadeStrobe, AndPixelStrobe, AndStrobe, AndStrobeScale, AndPixelStrobe, AndOrXorStrobe, AndOrXorStrobeScale };
Rect source(0, 0, frame.cols-1, frame.rows-1);
cv::Mat frame_copy = frame.clone();
int add_w = source.w/32;
int add_h = source.h/32;
while(source.x < frame.cols-1 && source.w > add_w+10 && source.h > add_h+10) {
if(source.w > add_w && source.h > add_h) {
cv::Mat out_frame;
cv::resize(frame_copy, out_frame, cv::Size(source.w, source.h));
func[rand()%10](out_frame);
copyMat(out_frame, 0, 0, frame, source.x, source.y, source.w, source.h);
}
source.x += add_w;
source.y += add_h;
source.w -= add_w*2;
source.h -= add_h*2;
}
AddInvert(frame);
}
void ac::SoftFeedbackSubFilter(cv::Mat &frame) {
if(subfilter != -1 && ac::draw_strings[subfilter] == "SoftFeedbackSubFilter")
return;
Rect source(0, 0, frame.cols-1, frame.rows-1);
cv::Mat frame_copy = frame.clone();
int add_w = source.w/32;
int add_h = source.h/32;
while(source.x < frame.cols-1 && source.w > add_w+10 && source.h > add_h+10) {
if(source.w > 100 && source.h > 100) {
cv::Mat out_frame;
cv::resize(frame_copy, out_frame, cv::Size(source.w, source.h));
size_t rand_test = 0;
if(subfilter != -1) rand_test = ac::draw_strings[subfilter].find("Rand");
if(testSize(out_frame) && rand_test == std::string::npos && subfilter != -1 && ac::draw_strings[subfilter] != "SoftFeedbackSubFilter" && ac::draw_strings[subfilter] != "Random Filter") {
ac::draw_func[ac::subfilter](out_frame);
}
copyMat(out_frame, 0, 0, frame, source.x, source.y, source.w, source.h);
}
source.x += add_w;
source.y += add_h;
source.w -= add_w*2;
source.h -= add_h*2;
}
AddInvert(frame);
}
void ac::SoftFeedbackResizeSubFilter(cv::Mat &frame) {
if(subfilter != -1 && ac::draw_strings[subfilter] == "SoftFeedbackResizeSubFilter")
return;
static MatrixCollection<32> collection;
collection.shiftFrames(frame);
Rect source(0, 0, frame.cols-1, frame.rows-1);
cv::Mat frame_copy = frame.clone();
static int num_squares = 2;
int add_w = source.w/num_squares;
int add_h = source.h/num_squares;
static const int MAX_SQUARES=32;
int offset = 0;
while(source.x < frame.cols-1 && source.w > add_w+10 && source.h > add_h+10) {
if(offset < collection.size() && source.w > add_w && source.h > add_h) {
cv::Mat out_frame;
cv::resize(collection.frames[offset], out_frame, cv::Size(source.w, source.h));
size_t rand_test = 0;
if(subfilter != -1) rand_test = ac::draw_strings[subfilter].find("Rand");
if(testSize(out_frame) && rand_test == std::string::npos && subfilter != -1 && ac::draw_strings[subfilter] != "SoftFeedbackResizeSubFilter" && ac::draw_strings[subfilter] != "Random Filter") {
ac::draw_func[ac::subfilter](out_frame);
}
copyMat(out_frame, 0, 0, frame, source.x, source.y, source.w, source.h);
}
source.x += add_w;
source.y += add_h;
source.w -= add_w*2;
source.h -= add_h*2;
offset++;
}
static int dir = 1;
if(dir == 1) {
num_squares += 2;
if(num_squares >= MAX_SQUARES)
dir = 0;
} else if(dir == 0) {
num_squares -= 2;
if(num_squares <= 2)
dir = 1;
}
AddInvert(frame);
}
void ac::SoftFeedbackResizeSubFilter64(cv::Mat &frame) {
if(subfilter != -1 && ac::draw_strings[subfilter] == "SoftFeedbackResizeSubFilter64")
return;
static MatrixCollection<64> collection;
collection.shiftFrames(frame);
Rect source(0, 0, frame.cols-1, frame.rows-1);
cv::Mat frame_copy = frame.clone();
static int num_squares = 2;
int add_w = source.w/num_squares;
int add_h = source.h/num_squares;
static const int MAX_SQUARES=64;
int offset = 0;
while(source.x >= 0 && source.x < frame.cols-1 && source.w > add_w+10 && source.h > add_h+10) {
if(offset >= 0 && offset < collection.size() && source.w > add_w && source.h > add_h) {
cv::Mat out_frame;
cv::resize(collection.frames[offset], out_frame, cv::Size(source.w, source.h));
size_t rand_test = 0;
if(subfilter != -1) rand_test = ac::draw_strings[subfilter].find("Rand");
if(testSize(out_frame) && rand_test == std::string::npos && subfilter != -1 && ac::draw_strings[subfilter] != "SoftFeedbackResizeSubFilter64") {
ac::draw_func[ac::subfilter](out_frame);
}
copyMat(out_frame, 0, 0, frame, source.x, source.y, source.w, source.h);
}
source.x += add_w;
source.y += add_h;
source.w -= add_w*2;
source.h -= add_h*2;
offset++;
}
static int dir = 1;
if(dir == 1) {
num_squares += 2;
if(num_squares >= MAX_SQUARES)
dir = 0;
} else if(dir == 0) {
num_squares -= 2;
if(num_squares <= 2)
dir = 1;
}
AddInvert(frame);
}
void ac::SoftFeedbackResize64(cv::Mat &frame) {
static MatrixCollection<64> collection;
collection.shiftFrames(frame);
Rect source(0, 0, frame.cols-1, frame.rows-1);
cv::Mat frame_copy = frame.clone();
static int num_squares = 2;
int add_w = source.w/num_squares;
int add_h = source.h/num_squares;
static const int MAX_SQUARES=64;
int offset = 0;
while(source.x >= 0 && source.x < frame.cols-1 && source.w > add_w+10 && source.h > add_h+10) {
if(offset >= 0 && offset < collection.size() && source.w > add_w && source.h > add_h) {
cv::Mat out_frame;
cv::resize(collection.frames[offset], out_frame, cv::Size(source.w, source.h));
copyMat(out_frame, 0, 0, frame, source.x, source.y, source.w, source.h);
}
source.x += add_w;
source.y += add_h;
source.w -= add_w*2;
source.h -= add_h*2;
offset++;
}
static int dir = 1;
if(dir == 1) {
num_squares += 2;
if(num_squares >= MAX_SQUARES)
dir = 0;
} else if(dir == 0) {
num_squares -= 2;
if(num_squares <= 2)
dir = 1;
}
AddInvert(frame);
}
void ac::SoftFeedbackReszieSubFilter64_Negate(cv::Mat &frame) {
if(subfilter != -1 && ac::draw_strings[subfilter] == "SoftFeedbackReszieSubFilter64_Negate")
return;
static MatrixCollection<64> collection;
collection.shiftFrames(frame);
Rect source(0, 0, frame.cols-1, frame.rows-1);
cv::Mat frame_copy = frame.clone();
static int num_squares = 2;
int add_w = source.w/num_squares;
int add_h = source.h/num_squares;
static const int MAX_SQUARES=64;
int offset = 0;
while(source.x < frame.cols-1 && source.w > add_w) {
if(offset < collection.size() && source.w > add_w && source.h > add_h) {
cv::Mat out_frame;
cv::resize(collection.frames[offset], out_frame, cv::Size(source.w, source.h));
size_t rand_test = 0;
if(subfilter != -1) rand_test = ac::draw_strings[subfilter].find("Rand");
if(testSize(out_frame) && rand_test != std::string::npos && subfilter != -1 && ac::draw_strings[subfilter] != "SoftFeedbackResizeSubFilter64" && ac::draw_strings[subfilter] != "Random Filter") {
ac::draw_func[ac::subfilter](out_frame);
}
if((offset%2) == 0)
Negate(out_frame);
copyMat(out_frame, 0, 0, frame, source.x, source.y, source.w, source.h);
}
source.x += add_w;
source.y += add_h;
source.w -= add_w*2;
source.h -= add_h*2;
offset++;
}
static int dir = 1;
if(dir == 1) {
num_squares += 2;
if(num_squares >= MAX_SQUARES)
dir = 0;
} else if(dir == 0) {
num_squares -= 2;
if(num_squares <= 2)
dir = 1;
}
AddInvert(frame);
}
void ac::SoftFeedbackReszieSubFilter64_Mirror(cv::Mat &frame) {
if(subfilter != -1 && ac::draw_strings[subfilter] == "SoftFeedbackReszieSubFilter64_Mirror")
return;
static MatrixCollection<64> collection;
collection.shiftFrames(frame);
Rect source(0, 0, frame.cols-1, frame.rows-1);
cv::Mat frame_copy = frame.clone();
static int num_squares = 2;
int add_w = source.w/num_squares;
int add_h = source.h/num_squares;
static const int MAX_SQUARES=64;
int offset = 0;
while(source.x < frame.cols-1 && source.w > add_w) {
if(offset < collection.size() && source.w > add_w && source.h > add_h) {
cv::Mat out_frame;
cv::resize(collection.frames[offset], out_frame, cv::Size(source.w, source.h));
size_t rand_test = 0;
if(subfilter != -1) rand_test = ac::draw_strings[subfilter].find("Rand");
if(testSize(out_frame) && rand_test != std::string::npos && subfilter != -1 && ac::draw_strings[subfilter] != "SoftFeedbackResizeSubFilter64" && ac::draw_strings[subfilter] != "Random Filter") {
ac::draw_func[ac::subfilter](out_frame);
}
if((offset%2) == 0)
Reverse(out_frame);
copyMat(out_frame, 0, 0, frame, source.x, source.y, source.w, source.h);
}
source.x += add_w;
source.y += add_h;
source.w -= add_w*2;
source.h -= add_h*2;
offset++;
}
static int dir = 1;
if(dir == 1) {
num_squares += 2;
if(num_squares >= MAX_SQUARES)
dir = 0;
} else if(dir == 0) {
num_squares -= 2;
if(num_squares <= 2)
dir = 1;
}
AddInvert(frame);
}
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