From 80847c543967f0e0440ced8099ffe39ef1aa027b Mon Sep 17 00:00:00 2001 From: dviid Date: Fri, 25 May 2012 15:27:49 +0200 Subject: [PATCH] shaders all analysis all analysis are now shadered --- config.refindx | 107 ++++++--- dviid/hessian.cl | 372 +++++++++++++++++++++++++++++++ dviid/imgproc.cl | 148 ++++++++++++ dviid/intimg.cl | 130 +++++++++++ dviid/rfi.frag.glsl | 18 ++ dviid/rfi.geom.glsl | 127 +++++++++++ dviid/rfi.vert.glsl | 11 + example/RefractiveIndex.cpp | 119 ++-------- src/AbstractAnalysis.cpp | 12 +- src/CamNoiseAnalysis.cpp | 233 ++++++++----------- src/CamNoiseAnalysis.h | 30 +-- src/ColorMultiAnalysis.cpp | 20 +- src/ColorSingleAnalysis.cpp | 186 ++++++---------- src/ColorSingleAnalysis.h | 29 +-- src/DiffNoiseAnalysis.cpp | 191 ++++++---------- src/DiffNoiseAnalysis.h | 29 +-- src/IResponseAnalysis.cpp | 199 ++++++----------- src/IResponseAnalysis.h | 29 +-- src/RelaxRateAnalysis.cpp | 22 +- src/ShadowScapesAnalysis.cpp | 21 +- src/ShapeFromShadingAnalysis.cpp | 222 +++++++----------- src/ShapeFromShadingAnalysis.h | 29 +-- src/StrobeAnalysis.cpp | 201 +++++++---------- src/StrobeAnalysis.h | 29 +-- 24 files changed, 1433 insertions(+), 1081 deletions(-) create mode 100644 dviid/hessian.cl create mode 100644 dviid/imgproc.cl create mode 100644 dviid/intimg.cl create mode 100644 dviid/rfi.frag.glsl create mode 100644 dviid/rfi.geom.glsl create mode 100644 dviid/rfi.vert.glsl diff --git a/config.refindx b/config.refindx index 99d1240..fb9bfd5 100644 --- a/config.refindx +++ b/config.refindx @@ -1,7 +1,7 @@ - analysis + analysing 1 640 @@ -15,52 +15,101 @@ - 3 - 3 - 3 - 3 - 5 - 5 - 5 - 5 - 3 + 1 + 1 + 1 + 1 + 1 + 1 + 1 + 1 + 1 - 30 - 30 - 30 - 30 - 30 - 30 - 40 - 10 - 30 + 5 + 5 + 5 + 5 + 5 + 5 + 5 + 5 + 5 + + 0 + -20 + -400 + -10 + 0 + 0 + + 1000 4 2 - 4 + 1 2 + 0.5 + + 2 + 1 + 2 + 0.5 + 1 500 1 + 2 + 2 - - 3 - 1 + + 1 + 500 1 - + 2 + 2 + + + 1 + 500 + 1 + 2 + 2 + + + 1 + 500 + 1 + 2 + 2 + + + 1 + 500 + 1 + 2 + 2 + + + 4 + 500 + 2 + 2 + + + 1 + 500 + 1 + 2 + 2 + - - 51 - 25 - - \ No newline at end of file diff --git a/dviid/hessian.cl b/dviid/hessian.cl new file mode 100644 index 0000000..eb80d88 --- /dev/null +++ b/dviid/hessian.cl @@ -0,0 +1,372 @@ +/* + ~ copyright (c) 2011 dviid + ~ contact: dviid@labs.ciid.dk + + + 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 OWNER 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. + + ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + */ + +const sampler_t smp = CLK_NORMALIZED_COORDS_FALSE | CLK_ADDRESS_CLAMP_TO_EDGE | CLK_FILTER_NEAREST; + +const sampler_t smp_adrs = CLK_NORMALIZED_COORDS_FALSE | CLK_ADDRESS_CLAMP | CLK_FILTER_NEAREST; + + +float box_integral(read_only image2d_t src, int width, int height, int row, int col, int nbrrows, int nbrcols) +{ + float A = 0.0f; + float B = 0.0f; + float C = 0.0f; + float D = 0.0f; + + int r0 = min(row, height) - 1; + int c0 = min(col, width) - 1; + int r1 = min(row + nbrrows, height) - 1; + int c1 = min(col + nbrcols, width) - 1; + + A = read_imagef(src, smp, (int2)(c0, r0)).x; + B = read_imagef(src, smp, (int2)(c1, r0)).x; + C = read_imagef(src, smp, (int2)(c0, r1)).x; + D = read_imagef(src, smp, (int2)(c1, r1)).x; + + return max(0.0f, A - B - C + D); + +} + + +__kernel void hessian_det( + read_only image2d_t src, + int width, + int height, + write_only image2d_t determinant, + write_only image2d_t laplacians, + int layer_width, + int layer_height, + int step, + int filter) +{ + int l, w, b; + float Dxx, Dxy, Dyy, inverse; + + int idx = get_global_id(0); + int idy = get_global_id(1); + + w = filter; + l = w / 3; + b = (w - 1) / 2 + 1 + inverse = 1.0f / (w * w); + + int c = idx * step; + int r = idy * step; + + if(r >= height || c >= width) return; + + Dxx = box_integral(src, width, height, r - l + 1, c - b, 2 * l - 1, w) - + box_integral(src, width, height, r - l + 1, c - l / 2, 2 * l - 1, l) * 3; + + Dxy = box_integral(src, width, height, r - l, c + 1, l, l) + + box_integral(src, width, height, r + 1, c - l, l, l) - + box_integral(src, width, height, r - 1, c - l, l, l) - + box_integral(src, widht, height, r + 1, c + 1, l, l); + + DYY = box_integral(src, width, height, r - b, c - l + 1, w, 2 * l - 1) - + box_integral(src, width, height, r - l / 2, c - l + 1, l, 2 * l -1) * 3; + + Dxx += inverse; + Dxy += inverse; + Dyy += inverse; + + float4 det = {0.0f, 0.0f, 0.0f, 0.0f}; + det.x = (Dxx * Dyy - 0.81f * Dxy * Dxy); + + int4 lap = {0, 0, 0, 0}; + lap.x = (Dxx + Dyy >= 0 ? 1 : 0); + + write_imagef(determinant, (int2)(idx, idy), det); + write_imagef(laplacians, (int2)(idx, idy), lap); + +} + +int pop_laplacian(read_only image2d_t layer, int c, int r, int width) +{ + int lap; + lap = read_imagei(layer, smp_adrs, (int2)(c,r)).x; + return lap; +} + +float pop_response(read_only image2d_t layer, int c, int r, int width, int scale) +{ + float resp; + resp = read_imagef(layer, smp_adrs, (int2)(c*scale, r*scale)).x; + return resp; +} + +bool interpolate_extremum( + int r, + int c, + __global int* pts_cnt; + float2* pos, + float* det_scale + int* laplacian, + read_only image2d_t t, + int t_width, + int t_height, + int t_step, + read_only image2d_t m, + read_only image2d_t mlaplacian, + int m_width, + int m_height, + int m_filter, + read_only image2d_t b, + int b_width, + int b_height, + int b_filter + ) +{ + + // 3D derivatives + + int mscale = (m_width / m_height); + int bscale = (b_width / b_height); + + float Dx, Dy, Dz; + + Dx = (pop_response(m, c+1, r, m_width, mscale) - + pop_response(m, c-1, r, m_width, mscale)) / 2.0f; + Dy = (pop_response(m, c, r+1, m_width, mscale) - + pop_response(m, c, r-1, m_width, mscale)) / 2.0f; + + Dz = (pop_response(t, c, r, t_width, 1) - + pop_response(b, c, r, b_width, bscale)) / 2.0f; + + // inverse hessian + + float v, Dxx, Dyy, Dzz, Dxy, Dxz, Dyz; + + v = pop_response(m, r, c, m_width, mscale); + + Dxx = pop_response(m, c+1, r, m_width, mscale) + + pop_response(m, c-1, r, m_width, mscale) - 2.0f * v; + + Dyy = pop_response(m, c, r+1, m_width, mscale) + + pop_response(m, c, r-1, m_width, mscale) - 2.0f * v; + + Dxy = (pop_response(m, c+1, r+1, m_width, mscale) - + pop_response(m, c-1, r+1, m_width, mscale) - + pop_response(m, c+1, r-1, m_width, mscale) + + pop_response(m, c-1, r-1, m_width, mscale)) / 4.0f; + + Dzz = pop_response(t, c, r, t_width, 1) - + pop_response(b, c, r, b_width, bscale) - 2.0f * v; + + Dxz = (pop_response(t, c+1, r, t_width, 1) - + pop_response(t, c-1, r, t_width, 1) - + pop_response(b, c+1, r, b_width, bscale) + + pop_response(b, c-1, r, b_width, bscale)) / 4.0f; + + Dyz = (pop_response(t, c, r+1, t_width, 1) - + pop_response(t, c, r-1, t_width, 1) - + pop_response(b, c, r+1, b_width, bscale) + + pop_response(b, c, r-1, b_width, bscale)) / 4.0f; + + float det = Dxx * (Dyy*Dzz - Dyz*Dyz) - + Dxy * (Dxy*Dzz - Dyz*Dxz) + + Dxz * (Dxy*Dyz - Dyy*Dxz); + + float invdet = 1.0f / det; + + float invDxx = (Dyy*Dzz-Dyz*Dyz) * invdet; + float invDxy = -(Dxy*Dzz-Dyz*Dxz) * invdet; + float invDxz = (Dxy*Dyz-Dyy*Dxz) * invdet; + float invDyx = -(Dxy*Dzz-Dxz*Dyz) * invdet; + float invDyy = (Dxx*Dzz-Dxz*Dxz) * invdet; + float invDyz = -(Dxx*Dyz-Dxy*Dxz) * invdet; + float invDzx = (Dxy*Dyz-Dxz*Dyy) * invdet; + float invDzy = -(Dxx*Dyz-Dxz*Dxy) * invdet; + float invDzz = (Dxx*Dyy-Dxy*Dxy) * invdet; + + // derivative * hessian + + float xi = 0.0f, xr = 0.0f, xc = 0.0f; + + xc -= invDxx * Dx; + xc -= invDxy * Dy; + xc -= invDxz * Dz; + + xr -= invDyx * Dx; + xr -= invDyy * Dy; + xr -= invDyz * Dz; + + xc -= invDzx * Dx; + xc -= invDzy * Dy; + xc -= invDzz * Dz; + + // extremum?? + if(fabs(xi) < 0.5f && fabs(xr) < 0.5f && fabs(xc) < 0.5f) { + + int fstep = m_filter - b_filter; + + (*pos).x = (float)((c + xc) * fstep); + (*pos).y = (float)((c + xr) * fstep); + *det_scale = (float)(0.1333f) * (m_filter + (xi * fstep)); + + int s = m_width / t_width; + *laplacian = pop_laplacian(mlaplacian, c * s, r * s, m_width); + + return true; + } + + return false; + +} + +bool is_extremum( + int r, + int c, + read_only image2d_t t, + int t_width, + int t_height, + int t_step, + int t_filter, + read_only image2d_t m, + int m_width, + int m_height, + read_only image2d_t b, + int b_width, + int b_height, + float tresh + ) +{ + int border = (t_filter + 1) / (2 * t_step); + + if(r <= border || r >= t_height - border || c <= border || c >= t_width - border) { + return false; + } + + int mscale = m_width / t_width; + + float candidate = pop_response(m, c, r, m_width, mscale); + if(candidate < tresh) { + return false; + } + + // If any response in 3x3x3 is greater candidate not maximum + float localMax = getResponse(t, c-1, r-1, t_width, 1); + localMax = fmax(localMax, getResponse(t, c, r-1, t_width, 1)); + localMax = fmax(localMax, getResponse(t, c+1, r-1, t_width, 1)); + localMax = fmax(localMax, getResponse(t, c-1, r, t_width, 1)); + localMax = fmax(localMax, getResponse(t, c, r, t_width, 1)); + localMax = fmax(localMax, getResponse(t, c+1, r, t_width, 1)); + localMax = fmax(localMax, getResponse(t, c-1, r+1, t_width, 1)); + localMax = fmax(localMax, getResponse(t, c, r+1, t_width, 1)); + localMax = fmax(localMax, getResponse(t, c+1, r+1, t_width, 1)); + + int bScale = b_width/t_width; + + localMax = fmax(localMax, getResponse(b, c-1, r-1, b_width, bScale)); + localMax = fmax(localMax, getResponse(b, c, r-1, b_width, bScale)); + localMax = fmax(localMax, getResponse(b, c+1, r-1, b_width, bScale)); + localMax = fmax(localMax, getResponse(b, c-1, r, b_width, bScale)); + localMax = fmax(localMax, getResponse(b, c, r, b_width, bScale)); + localMax = fmax(localMax, getResponse(b, c+1, r, b_width, bScale)); + localMax = fmax(localMax, getResponse(b, c-1, r+1, b_width, bScale)); + localMax = fmax(localMax, getResponse(b, c, r+1, b_width, bScale)); + localMax = fmax(localMax, getResponse(b, c+1, r+1, b_width, bScale)); + + //int mScale = m_width/t_width; + + localMax = fmax(localMax, getResponse(m, c-1, r-1, m_width, mScale)); + localMax = fmax(localMax, getResponse(m, c, r-1, m_width, mScale)); + localMax = fmax(localMax, getResponse(m, c+1, r-1, m_width, mScale)); + localMax = fmax(localMax, getResponse(m, c-1, r, m_width, mScale)); + // This is the candidate pixel + localMax = fmax(localMax, getResponse(m, c+1, r, m_width, mScale)); + localMax = fmax(localMax, getResponse(m, c-1, r+1, m_width, mScale)); + localMax = fmax(localMax, getResponse(m, c, r+1, m_width, mScale)); + localMax = fmax(localMax, getResponse(m, c+1, r+1, m_width, mScale)); + + // If localMax > candidate, candidate is not the local maxima + if(localMax > candidate) { + return false; + } + + return true; + +} + +__kernel void suppress_non_max( + read_only image2d_t tResponse, + int t_width, + int t_height, + int t_filter, + int t_step, + read_only image2d_t mResponse, + read_only image2d_t mLaplacian, + int m_width, + int m_height, + int m_filter, + read_only image2d_t bResponse, + int b_width; + int b_height, + int b_filter, + __global int* pts_cnt, + __global float2* pix_pos, + __global float* scale, + __global int* laplacian, + int max_pts, + float tresh + ) +{ + int r = get_global_id(0); + int c = get_global_id(1); + + float2 pixpos; + float s; + int lap; + + + if(is_extremum(r, c, tResponse, t_width, t_height, t_step, t_filter, mResponse, m_width, m_height, bResponse, b_width, b_height, tresh)) { + + if(interpolate_extremum(r, c, pts_cnt, &pixpos, &s, &lap, tResponse, t_width, t_height, t_step, mResponse, mLaplacian, m_width, m_height, m_filter, bResponse, b_width, b_height, b_filter)) { + + int indx = atom_add(&pts_cnt[0],1); + if(indx < max_pts) { + pix_pos[indx] = pix_pos; + scale[indx] = s; + laplacian[indx] = lap; + } + + } + + } +} + + + + + + + + + diff --git a/dviid/imgproc.cl b/dviid/imgproc.cl new file mode 100644 index 0000000..860b7d9 --- /dev/null +++ b/dviid/imgproc.cl @@ -0,0 +1,148 @@ +/* + ~ copyright (c) 2011 dviid + ~ contact: dviid@labs.ciid.dk + + + 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 OWNER 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. + + ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + */ + +const sampler_t smp = CLK_ADDRESS_CLAMP_TO_EDGE | CLK_FILTER_NEAREST; + +__kernel void sobel(read_only image2d_t src, write_only image2d_t dst) +{ + int2 coords = (int2) (get_global_id(0), get_global_id(1)); + int2 dx = (int2)(1,0); + int2 dy = (int2)(0,1); + float Gx, Gy, G, theta, p; + + if(coords.x > get_image_width(dst) || coords.y > get_image_height(dst)) + return; + + p = read_imagef(src, smp, coords - dx + dy).s0; + Gx = p; + Gy = p; + + p = read_imagef(src, smp, coords + dy).s0; + Gy += 2 * p; + + p = read_imagef(src, smp, coords + dx + dy).s0; + Gx -= p; + Gy += p; + + p = read_imagef(src, smp, coords - dx).s0; + Gx += 2 * p; + + p = read_imagef(src, smp, coords + dx).s0; + Gx -= 2 * p; + + p = read_imagef(src, smp, coords - dx - dy).s0; + Gx += p; + Gy -= p; + + p = read_imagef(src, smp, coords - dy).s0; + Gy -= 2 * p; + + p = read_imagef(src, smp, coords + dx - dy).s0; + Gx -= p; + Gy -= p; + + G = sqrt(Gx * Gx + Gy * Gy); + theta = atan(Gx / Gy); + + write_imagef(dst, coords, G); + +} + +__kernel void hgauss(read_only image2d_t src, write_only image2d_t dst, + global read_only float* weights, global float* offsets, const int nbr_weights) +{ + int2 coords = (int2) (get_global_id(0), get_global_id(1)); + float2 src_coords = (float2) (get_global_id(0), get_global_id(1)); + float4 pix = (float4)(0,0,0,0); + + int i; + for(i = 0; i < nbr_weights; i++) { + pix += read_imagef(src, smp, src_coords + (float2) (offsets[i], 0.0f)) * weights[i]; + } + + write_imagef(dst, coords, clamp(pix, 0.0f, 1.0f)); +} + +__kernel void vgauss(read_only image2d_t src, write_only image2d_t dst, + global read_only float* weights, global float* offsets, const int nbr_weights) +{ + int2 coords = (int2) (get_global_id(0), get_global_id(1)); + float2 src_coords = (float2) (get_global_id(0), get_global_id(1)); + float4 pix = (float4)(0,0,0,0); + + int i; + for(i = 0; i < nbr_weights; i++) { + pix += read_imagef(src, smp, src_coords + (float2) (0.0f, offsets[i])) * weights[i]; + } + + write_imagef(dst, coords, clamp(pix, 0.0f, 1.0f)); +} + + + +__kernel void grey(read_only image2d_t src, write_only image2d_t dst) +{ + int2 coords = (int2) (get_global_id(0), get_global_id(1)); + float4 color = read_imagef(src, smp, coords); + float luminance = 0.3f * color.x + 0.59 * color.y + 0.11 * color.z; + color = (float4)(luminance, luminance, luminance, 1.0f); + write_imagef(dst, coords, color); +} + +__kernel void brightness(read_only image2d_t src, write_only image2d_t dst) +{ + float max = 0; + int2 coords = (int2) (get_global_id(0), get_global_id(1)); + float4 color = read_imagef(src, smp, coords); + + max = color.x; + if(color.y > max) { max = color.y; } + if(color.z > max) { max = color.z; } + + write_imagef(dst, coords, max); +} + +__kernel void lightness(read_only image2d_t src, write_only image2d_t dst) +{ + float l = 0; + int2 coords = (int2) (get_global_id(0), get_global_id(1)); + float4 color = read_imagef(src, smp, coords); + + l = (color.x + color.y + color.z) / 3.0f; + + write_imagef(dst, coords, l); +} + + + +__kernel void hist() +{ + +} \ No newline at end of file diff --git a/dviid/intimg.cl b/dviid/intimg.cl new file mode 100644 index 0000000..4dec642 --- /dev/null +++ b/dviid/intimg.cl @@ -0,0 +1,130 @@ +/* + ~ copyright (c) 2011 dviid + ~ contact: dviid@labs.ciid.dk + + + 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 OWNER 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. + + ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ + */ + +#define WORK_G_SIZE 64 +#define HALF_WORK_G_SIZE (WORK_G_SIZE / 2) + +const sampler_t smp = CLK_NORMALIZED_COORDS_FALSE | CLK_ADDRESS_CLAMP_TO_EDGE | CLK_FILTER_NEAREST; + +__kernel void scan(read_only image2d_t src, write_only image2d_t dst, int rows, int cols) +{ + __local float data0[WORK_G_SIZE + HALF_WORK_G_SIZE]; + __local float data1[WORK_G_SIZE + HALF_WORK_G_SIZE]; + + int2 coords = (int2) (get_global_id(0), get_global_id(1)); + int X = coords.x; + int Y = coords.x; + + if(coords.x < HALF_WORK_G_SIZE) { + data0[coords.x] = 0.0f; + data1[coords.x] = 0.0f; + } + + X += HALF_WORK_G_SIZE; + float max_val = 0.0f; + + int it = cols / WORK_G_SIZE; + if(cols % WORK_G_SIZE != 0) { + it++; + } + + for(int i = 0; i < it; i++) { + + int col_offset = i * WORK_G_SIZE + coords.x; + + data0[X] = read_imagef(src, smp, (int2)(col_offset, Y)).x; + barrier(CLK_LOCAL_MEM_FENCE); + + // 1 + data1[X] = data0[X] + data0[X-1]; + barrier(CLK_LOCAL_MEM_FENCE); + + // 2 + data0[X] = data1[X] + data1[X-2]; + barrier(CLK_LOCAL_MEM_FENCE); + + // 4 + data1[X] = data0[X] + data0[X-4]; + barrier(CLK_LOCAL_MEM_FENCE); + + // 8 + data0[X] = data1[X] + data1[X-8]; + barrier(CLK_LOCAL_MEM_FENCE); + + // 16 + data1[X] = data0[X] + data0[X-16]; + barrier(CLK_LOCAL_MEM_FENCE); + + // 32 + data0[X] = data1[X] + data1[X-32]; + barrier(CLK_LOCAL_MEM_FENCE); + + if(col_offset < cols) { + write_imagef(dst, (int2)(col_offset, Y), (float4)(data0[X] + max_val, 0.0f, 0.0f, 0.0f)); + } + + max_val += data0[WORK_G_SIZE + HALF_WORK_G_SIZE - 1]; + } + +} + +__kernel void transpose(read_only image2d_t src, write_only image2d_t dst, int rows, int cols) +{ + + __local float buff[256]; + + int2 coords = (int2) (get_global_id(0), get_global_id(1)); + + int inX = coords.x; + int inY = coords.y; + + int lX = coords.x; + int lY = coords.y; + + int ginX = coords.x * 16 + lX; + int ginY = coords.y * 16 + lY; + + buff[lY * 16 + lX] = read_imagef(src, smp, (int2)(ginX, ginY)).x; + barrier(CLK_LOCAL_MEM_FENCE); + + int outRows = rows; + int outCols = cols; + + int outX = inX; + int outY = inY; + + int goutX = coords.x * 16 + lX; + int goutY = coords.y * 16 + lY; + + if(goutX >= 0 && goutX < outCols && goutY >=0 && goutY < outRows) { + write_imagef(dst, (int2)(goutX, goutY), (float4)(buff[lX * 16 + lY], 0.0f, 0.0f, 0.0f)); + } +} + diff --git a/dviid/rfi.frag.glsl b/dviid/rfi.frag.glsl new file mode 100644 index 0000000..14c1717 --- /dev/null +++ b/dviid/rfi.frag.glsl @@ -0,0 +1,18 @@ +#version 120 + +uniform int algo; +uniform sampler2DRect tex0; + +void main() { + + if(algo == 4) { + vec4 color = texture2DRect(tex0, gl_TexCoord[0].st); + float luminance = 0.3f * color.x + 0.59 * color.y + 0.11 * color.z; + //gl_FragColor = vec4(luminance, luminance, luminance, 1.0f); + gl_FragColor = vec4(1.0f, 1.0f, 1.0f, 0.5f); + return; + } + + gl_FragColor = texture2DRect(tex0, gl_TexCoord[0].st); + +} diff --git a/dviid/rfi.geom.glsl b/dviid/rfi.geom.glsl new file mode 100644 index 0000000..f6f8ec4 --- /dev/null +++ b/dviid/rfi.geom.glsl @@ -0,0 +1,127 @@ +#version 120 +#extension GL_EXT_geometry_shader4 : enable + +#define ALGO_1 1 +#define ALGO_2 2 +#define ALGO_3 3 +#define ALGO_4 4 + +uniform int algo; +uniform float scale; +uniform sampler2DRect tex0; + +float max_color(vec3 rgb) +{ + float max = rgb.r; + if(rgb.g > max) { max = rgb.g; } + if(rgb.b > max) { max = rgb.b; } + return max; +} + +float min_color(vec3 rgb) +{ + float min = rgb.r; + if(rgb.g < min) { min = rgb.g; } + if(rgb.b < min) { min = rgb.b; } + return min; +} + +void hue(in vec4 color, out float h) +{ + float max = max_color(color.rgb); + float min = min_color(color.rgb); + if(max == min) { h = 0.f; } + + float hueSixth; + if(color.r == max) { + hueSixth = (color.g - color.b) / (max - min); + if(hueSixth < 0.f) + hueSixth += 6.f; + } else if (color.g == max) { + hueSixth = 2.f + (color.b - color.r) / (max - min); + } else { + hueSixth = 4.f + (color.r - color.g) / (max - min); + } + + h = 255.f * hueSixth / 6.f; +} + +void saturation(in vec4 color, out float s) +{ + float max = max_color(color.rgb); + float min = min_color(color.rgb); + if(max == min) { s = 0.f; } + + s = 255.f * (max - min) / max; +} + +void brightness(in vec4 color, out float b) +{ + b = max_color(color.rgb); +} + +void toHSB(in vec3 rgb, out vec3 hsb) +{ + float max = max_color(rgb); + float min = min_color(rgb); + + if(max == min) { + hsb.x = 0.f; + hsb.y = 0.f; + hsb.z = 255.f * max; + return; + } + + float hueSixth; + if(rgb.r == max) { + hueSixth = (rgb.g - rgb.b) / (max - min); + if(hueSixth < 0.f) + hueSixth += 6.f; + } else if (rgb.g == max) { + hueSixth = 2.f + (rgb.b - rgb.r) / (max - min); + } else { + hueSixth = 4.f + (rgb.r - rgb.g) / (max - min); + } + hsb.x = 255.f * hueSixth / 6.f; + hsb.y = 255.f * (max - min) / max; + hsb.z = max; +} + +void main() +{ + + if(algo == ALGO_4 && mod(gl_PositionIn[0].y, 2.f) != 0) return; + + for (int i = 0; i < gl_VerticesIn; i++) + { + + gl_Position = gl_PositionIn[i]; + + vec4 color0 = texture2DRect(tex0, gl_TexCoordIn[i][0].st); + + float depth = 0.f; + + if(algo == ALGO_1) { + brightness(color0, depth); + } + else if(algo == ALGO_2) { + hue(color0, depth); + } + else if(algo == ALGO_3) { + saturation(color0, depth); + } + else if(algo == ALGO_4) { + brightness(color0, depth); + } + else { + brightness(color0, depth); + } + + gl_Position = gl_ModelViewProjectionMatrix * vec4(gl_Position.x, gl_Position.y, depth * scale, 1.0); + gl_TexCoord[0] = gl_TexCoordIn[i][0]; + + EmitVertex(); + } + + +} diff --git a/dviid/rfi.vert.glsl b/dviid/rfi.vert.glsl new file mode 100644 index 0000000..5de6428 --- /dev/null +++ b/dviid/rfi.vert.glsl @@ -0,0 +1,11 @@ +#version 120 + +void main() +{ + + gl_FrontColor = gl_Color; + gl_TexCoord[0] = gl_MultiTexCoord0; + gl_Position = gl_Vertex; + + +} diff --git a/example/RefractiveIndex.cpp b/example/RefractiveIndex.cpp index 9547215..df50b53 100644 --- a/example/RefractiveIndex.cpp +++ b/example/RefractiveIndex.cpp @@ -174,54 +174,31 @@ void RefractiveIndex::setup() _analysisAdapator = NULL; - //getting a warning from the OFlog that the pixels aren't allocated - //void ofPixels::allocate(int w, int h, ofImageType type) _pixels.allocate(_vid_w, _vid_h, OF_IMAGE_COLOR_ALPHA); setup_shader_vbo(); - //TODO: whichever one of these is first - it always runs twice ? + //TODO: whichever one of these is first - it always runs twice ? + _analysisVector.push_back(new ShadowScapesAnalysis(V)); //1 + _analysisVector.push_back(new ShadowScapesAnalysis(H)); //2 + _analysisVector.push_back(new ShadowScapesAnalysis(D)); //3 + _analysisVector.push_back(new RelaxRateAnalysis()); //4 + _analysisVector.push_back(new IResponseAnalysis()); //5 + _analysisVector.push_back(new ShapeFromShadingAnalysis()); //6 + _analysisVector.push_back(new StrobeAnalysis()); //7 + _analysisVector.push_back(new CamNoiseAnalysis()); //8 + _analysisVector.push_back(new ColorSingleAnalysis()); //9 + _analysisVector.push_back(new ColorMultiAnalysis()); //10 + _analysisVector.push_back(new DiffNoiseAnalysis()); //11 - //_analysisVector.push_back(new ShadowScapesAnalysis(V)); - _analysisVector.push_back(new ShadowScapesAnalysis(H)); + _currentAnalysis = NULL; + _state = ISTATE_UNDEF; - /* - _analysisVector.push_back(new ShadowScapesAnalysis(D)); - - */ - _analysisVector.push_back(new RelaxRateAnalysis()); - /* - - - _analysisVector.push_back(new IResponseAnalysis()); - - _analysisVector.push_back(new ShapeFromShadingAnalysis()); - - _analysisVector.push_back(new StrobeAnalysis()); - - _analysisVector.push_back(new CamNoiseAnalysis()); - - _analysisVector.push_back(new ColorSingleAnalysis()); - - */ - - _analysisVector.push_back(new ColorMultiAnalysis()); - - //_analysisVector.push_back(new DiffNoiseAnalysis()); - - - _currentAnalysisIndx = 1; - _state = ISTATE_TRANSITION; - - // to be idle at the beginning of the program (i.e. press keys to ) - //_currentAnalysis = NULL; - //_state = ISTATE_UNDEF; - - - ofSetEscapeQuitsApp(false); + // disbale ? + //ofSetEscapeQuitsApp(false); } @@ -333,28 +310,9 @@ void RefractiveIndex::stop_camera() void RefractiveIndex::keyPressed (int key) { - std::stringstream out; - out << (char)key; - msg.append(out.str()); - if(msg.find("kcuf") != string::npos) { - cout << "alright" << endl; - exitApp(); - ::exit(1); - } - - - /* if( key =='f') ofToggleFullscreen(); - */ - /* TODO: complete the below... would be good to trigger the Analysis from keypresses if needed... */ - // currently this doesn't work... the save_cb's in the individual - // tried to add a stop_analysis(); call but it blocks the whole programme - - // i.e.: ask david how to shut off the prior Analysis if it's not finished running from here? - - /* if(key == 'x') { if(_currentAnalysis) @@ -460,50 +418,7 @@ void RefractiveIndex::keyPressed (int key) _currentAnalysisIndx = 10; if(!_currentAnalysis) _state = ISTATE_TRANSITION; - } - */ - - /* - TO DO: add a file dialog so we can save images to another hard drive... - e.g.: http://dev.openframeworks.cc/pipermail/of-dev-openframeworks.cc/2011-April/003125.html - ->> case 's': ->> doSave ^= true; ->> doLoad = false; ->> if(doSave) { ->> ofFileDialogResult r = ofSystemLoadDialog("Select path to save to", true); ->> if(r.bSuccess) { ->> saveCounter = 0; ->> savePath = r.getPath(); ->> ofDirectory::createDirectory(savePath + "/color/"); ->> ofDirectory::createDirectory(savePath + "/depth/"); ->> printf("SAVE %s %s\n", r.getPath().c_str(), r.getName().c_str()); ->> } else { ->> doSave = false; ->> } ->> ->> } ->> break; ->> ->> case 'l': ->> doLoad ^= true; ->> doSave = false; ->> if(doLoad) { ->> ofFileDialogResult r = ofSystemLoadDialog("Select path to load from", true); ->> if(r.bSuccess) { ->> loadCounter = 0; ->> loadPath = r.getPath(); ->> ofDirectory dir; ->> loadMaxFiles = MAX(dir.listDir(loadPath + "/color"), dir.listDir(loadPath + "/depth")); ->> printf("LOAD %i %s %s\n", loadMaxFiles, r.getPath().c_str(), r.getName().c_str()); ->> } else { ->> doLoad = false; ->> } ->> ->> } ->> break; - */ - + } } diff --git a/src/AbstractAnalysis.cpp b/src/AbstractAnalysis.cpp index eed17c0..2a1269f 100644 --- a/src/AbstractAnalysis.cpp +++ b/src/AbstractAnalysis.cpp @@ -49,9 +49,9 @@ void AbstractAnalysis::do_synthesize() { _state = STATE_ACQUIRING; acquire(); if(_state == STATE_STOP) goto exit; - //_state = STATE_SYNTHESISING; - //synthesise(); - //if(_state == STATE_STOP) goto exit; + _state = STATE_SYNTHESISING; + synthesise(); + if(_state == STATE_STOP) goto exit; _state = STATE_DISPLAY_RESULTS; displayresults(); } @@ -108,7 +108,7 @@ void AbstractAnalysis::create_dir_allocate_images() } ofxFileHelper fileHelperAnalysis; - //ofxFileHelper fileHelperSynthesis; + ofxFileHelper fileHelperSynthesis; _whole_file_path_analysis = ANALYSIS_PATH + RefractiveIndex::_location + "/" + _name + "/"+replaceTime ; @@ -131,7 +131,7 @@ void AbstractAnalysis::create_dir_allocate_images() } - /* + _whole_file_path_synthesis = SYNTHESIS_PATH + RefractiveIndex::_location + "/" + _name + "/"+replaceTime; if(!fileHelperSynthesis.doesDirectoryExist(_whole_file_path_synthesis)){ @@ -149,7 +149,7 @@ void AbstractAnalysis::create_dir_allocate_images() fileHelperSynthesis.makeDirectory(SYNTHESIS_PATH+RefractiveIndex::_location+"/"+_name+"/"+replaceTime); } - */ + //////////////////////////////END DIRECTORY CREATION ////////////////////////////////////////////////// diff --git a/src/CamNoiseAnalysis.cpp b/src/CamNoiseAnalysis.cpp index e59b364..691b626 100755 --- a/src/CamNoiseAnalysis.cpp +++ b/src/CamNoiseAnalysis.cpp @@ -13,6 +13,13 @@ using Poco::Thread; #define NUMBER_RUNS 1 #define ACQUIRE_TIME 20 +const int algo_default = 1; +const int scale_default = 500; +const int draw_style_default = 3; +const int line_width_default = 0.5f; +const float point_size_default = 0.5f; + + void CamNoiseAnalysis::setup(int camWidth, int camHeight) { AbstractAnalysis::setup(camWidth, camHeight); @@ -47,52 +54,25 @@ void CamNoiseAnalysis::setup(int camWidth, int camHeight) _show_image = false; _image_shown = false; + image1.clear(); image2.clear(); - image3.clear(); - image4.clear(); - image5.clear(); - + // images use for drawing the synthesized files to the screen /// image1.setUseTexture(false); // the non texture image that is needed to first load the image image2.setUseTexture(true); // the image that needs to get written to the screen which takes the content of image1 - - // images used for re-loading and saving out the synthesized files /// - image3.setUseTexture(false); - image4.setUseTexture(false); - image5.setUseTexture(false); - + image1.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h, OF_IMAGE_COLOR); image2.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h, OF_IMAGE_COLOR); - image3.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h, OF_IMAGE_COLOR); - image4.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h, OF_IMAGE_COLOR); - image5.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h, OF_IMAGE_COLOR); - - //cout << "RefractiveIndex::_vid_w " << RefractiveIndex::_vid_w << endl; - //cout << "RefractiveIndex::_vid_h " << RefractiveIndex::_vid_h << endl; - - // clear() apparently fixes the "OF_WARNING: in allocate, reallocating a ofxCvImage" - // that we're getting in OSX/Windows and is maybe crashing Windows - // http://forum.openframeworks.cc/index.php?topic=1867.0 - cvColorImage1.clear(); - cvGrayImage1.clear(); - cvGrayDiff1.clear(); - - cvColorImage2.clear(); - cvGrayImage2.clear(); - cvGrayDiff2.clear(); - - cvConvertorImage.clear(); - - cvColorImage1.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - cvGrayImage1.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - cvGrayDiff1.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - - cvColorImage2.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - cvGrayImage2.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - cvGrayDiff2.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - - cvConvertorImage.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); + + + ////--------- + + algo = RefractiveIndex::XML.getValue("config:algorithms:camnoise:algo", algo_default); + scale = RefractiveIndex::XML.getValue("config:algorithms:camnoise:scale", scale_default); + draw_style = RefractiveIndex::XML.getValue("config:algorithms:camnoise:draw_style", draw_style_default); + line_width = RefractiveIndex::XML.getValue("config:algorithms:camnoise:line_width", line_width_default); + point_size = RefractiveIndex::XML.getValue("config:algorithms:camnoise:point_size", point_size_default); } @@ -127,112 +107,51 @@ void CamNoiseAnalysis::acquire() void CamNoiseAnalysis::synthesise() { - //cout << "CamNoiseAnalysis::saving synthesis...\n"; - if(_state == STATE_STOP) return; + // we don't need to synthesise + return; + + /* + + //cout << "IResponseAnalysis::saving synthesis...\n"; + if(_state == STATE_STOP) return; + + _RUN_DONE = false; + + // _saved_filenames_synthesis has processed all the files in the analysis images folder + while(!_RUN_DONE && _state != STATE_STOP) + Thread::sleep(3); + */ + - for(float i=1;i<_saved_filenames_analysis.size()-1;i++){ - - //cout << "CamNoiseAnalysis::synthesis FOR LOOP...\n"; - - //cout << "_saved_filenames_analysis[i]" << _saved_filenames_analysis[i] << endl; - - if(_state == STATE_STOP) return; - - if(!image1.loadImage(_saved_filenames_analysis[i])){ - //couldn't load image - cout << "didn't load image" << endl; - } - - if(image1.loadImage(_saved_filenames_analysis[i])){ - //cout << "LOADED image1!!!" << endl; - //if(image5.loadImage(_saved_filenames_analysis[i+1])){ - - ///////////////////////// PROCESS THE SAVED CAMERA IMAGES OF SHIT TO THE IMAGES ////////////////////////// - - cvColorImage1.setFromPixels(image1.getPixels(), image1.width, image1.height); - //cvColorImage2.setFromPixels(image5.getPixels(), image5.width, image5.height); - - cvColorImage1.convertToGrayscalePlanarImage(cvGrayImage1, 1); - // cvColorImage2.convertToGrayscalePlanarImage(cvGrayImage2, 1); - //added by tom we weren't actually setting cvgrayimage1 anywhere - // cvGrayImage1.setFromPixels(cvColorImage1.getPixels(),cvColorImage1.width,cvColorImage1.height); - //cvGrayDiff1.absDiff(cvGrayImage2, cvGrayImage1); -//cvGrayImage1=cvColorImage1; - - cvGrayImage1.erode(); - cvGrayImage1.erode(); - cvGrayImage1.erode(); - cvGrayImage1.blur(); - cvGrayImage1.contrastStretch(); - /* cvColorImage1.erode(); - cvColorImage1.erode(); - cvColorImage1.erode(); - cvColorImage1.blur(); - cvColorImage1.contrastStretch();*/ - - /////////////////////////////////// SAVE TO DISK IN THE SYNTHESIS FOLDER //////////////////////////////// - string file_name; - - file_name = ofToString(_synth_save_cnt, 2)+"_CamNoiseAnalysis_"+ofToString(_run_cnt,2)+".jpg"; - - - //<---- THE OLD WAY OF SAVING - works on OSX but generates BLACK FRAMES on WINDOWS ----> - // ofSaveImage(cvGrayImage1.getPixelsRef(),_whole_file_path_synthesis+"/"+file_name, OF_IMAGE_QUALITY_BEST); - - - //<---- NEW SAVING - seems to fix WINDOWS saving out BLACK FRAMES PROBLEM ----> - //ofImage image; - //image.allocate(cvGrayImage1.width, cvGrayImage1.height, OF_IMAGE_GRAYSCALE); - - //*** This needs to be here for OSX of we get a BAD ACCESS ERROR. DOES IT BREAK WINDOWS? ***// - //image.setUseTexture(false); - - //image.setFromPixels(cvGrayImage1.getPixels(), cvGrayImage1.width, cvGrayImage1.height, OF_IMAGE_GRAYSCALE); - //image.saveImage(_whole_file_path_synthesis+"/"+file_name); - - //_saved_filenames_synthesis.push_back(_whole_file_path_synthesis+"/"+file_name); - - // <--- REALLY NEW SAVING METHOD --- 26 feb 2012 --- consolidated the save function into Abstract Analysis> /// - cvConvertorImage.setFromGrayscalePlanarImages(cvGrayImage1,cvGrayImage1,cvGrayImage1); - //cvConvertorImage.setFromGrayscalePlanarImages(cvColorImage1,cvColorImage1,cvColorImage1); - saveImageSynthesis(file_name, &cvConvertorImage, OF_IMAGE_GRAYSCALE); - _synth_save_cnt++; - - - //} - } - } - - // _saved_filenames_synthesis has processed all the files in the analysis images folder - while(!_RUN_DONE && _state != STATE_STOP) - Thread::sleep(3); } void CamNoiseAnalysis::displayresults() { - for(float i=1;i<_saved_filenames_synthesis.size();i++){ - + for(float i=1;i<_saved_filenames_analysis.size();i++){ + if(_state == STATE_STOP) return; - + //cout << "_saved_filenames_analysis[i] - " << _saved_filenames_synthesis[i] << endl; - + while(!_image_shown){ Thread::sleep(2); //cout << "!_image_shown" << endl; } - - if(!image3.loadImage(_saved_filenames_synthesis[i])){ + + _show_image = false; + + + if(!image1.loadImage(_saved_filenames_analysis[i])){ //couldn't load image cout << "didn't load image" << endl; - } - - if(image3.loadImage(_saved_filenames_synthesis[i])){ - image3.loadImage(_saved_filenames_synthesis[i]); + } + + if(image1.loadImage(_saved_filenames_analysis[i])){ //cout << "_show_image = true;" << endl; _show_image = true; _image_shown = false; } - } + } } @@ -389,31 +308,55 @@ void CamNoiseAnalysis::draw() case STATE_DISPLAY_RESULTS: { - //cout << "STATE_DISPLAY_RESULTS...\n" << endl; - if (_frame_cnt > 2) { _image_shown = true; _frame_cnt=0; } - + _frame_cnt++; - + + ofEnableAlphaBlending(); + glShadeModel(GL_SMOOTH); + glLineWidth(line_width); + glPointSize(point_size); + glEnable(GL_POINT_SMOOTH); + + RefractiveIndex::cam.begin(); + + ofTranslate(tx, ty, tz); + ofRotateX(rx); ofRotateY(ry); ofRotateZ(rz); + glScalef(1.5, 1, 1); + if (_show_image) - { - //cout << "_show_image...\n" << endl; - - ofEnableAlphaBlending(); - - ofSetColor(255, 255, 255); - image2.setFromPixels(image3.getPixels(),image3.width,image3.height, OF_IMAGE_COLOR); - image2.draw(0,0, ofGetWidth(), ofGetHeight()); - - ofDisableAlphaBlending(); + image2.setFromPixels(image1.getPixels(), image1.width, image1.height, OF_IMAGE_COLOR); + + image2.bind(); + + RefractiveIndex::_shader.begin(); + + RefractiveIndex::_shader.setUniform1i("algo", algo); + RefractiveIndex::_shader.setUniform1f("scale", scale); + RefractiveIndex::_shader.setUniform1i("tex0", 0); + + switch (draw_style) { + case VERTS: + RefractiveIndex::_mesh_vbo.drawVertices(); + break; + case WIRE: + RefractiveIndex::_mesh_vbo.drawWireframe(); + break; + case FACE: + RefractiveIndex::_mesh_vbo.drawFaces(); + break; } - - // display results of the synthesis - _RUN_DONE = true; + + RefractiveIndex::_shader.end(); + + image2.unbind(); + + RefractiveIndex::cam.end(); + break; } diff --git a/src/CamNoiseAnalysis.h b/src/CamNoiseAnalysis.h index 1d598fd..31573e5 100755 --- a/src/CamNoiseAnalysis.h +++ b/src/CamNoiseAnalysis.h @@ -37,31 +37,13 @@ protected: float c, _frame_cnt, _frame_cnt_max, _anim_cnt_max; bool _show_image, _image_shown; + ofImage image1; ofImage image2; - ofImage image3; - ofImage image4; - ofImage image5; - ofImage image6; - - ofxCvColorImage cvColorImage1; - ofxCvColorImage cvColorImage2; - ofxCvColorImage cvColorImage3; - ofxCvColorImage cvColorImage4; - ofxCvColorImage cvColorImage5; - ofxCvColorImage cvColorImage6; - - ofxCvGrayscaleImage cvGrayDiff1; - ofxCvGrayscaleImage cvGrayDiff2; - - ofxCvGrayscaleImage cvGrayImage1; - ofxCvGrayscaleImage cvGrayImage2; - ofxCvGrayscaleImage cvGrayImage3; - ofxCvGrayscaleImage cvGrayImage4; - - ofxCvContourFinder cvContourFinder1; - - //this is the temporary container to allow us to convert and save out greyscale images - ofxCvColorImage cvConvertorImage; + int algo; + int scale; + int draw_style; + float line_width; + float point_size; }; diff --git a/src/ColorMultiAnalysis.cpp b/src/ColorMultiAnalysis.cpp index 6c17b5a..abe98d1 100755 --- a/src/ColorMultiAnalysis.cpp +++ b/src/ColorMultiAnalysis.cpp @@ -101,14 +101,20 @@ void ColorMultiAnalysis::acquire() void ColorMultiAnalysis::synthesise() { - //cout << "ColorMultiAnalysis::saving synthesis...\n"; - if(_state == STATE_STOP) return; - - _RUN_DONE = false; + // we don't need to synthesise + return; - // _saved_filenames_synthesis has processed all the files in the analysis images folder - while(!_RUN_DONE && _state != STATE_STOP) - Thread::sleep(3); + /* + + //cout << "IResponseAnalysis::saving synthesis...\n"; + if(_state == STATE_STOP) return; + + _RUN_DONE = false; + + // _saved_filenames_synthesis has processed all the files in the analysis images folder + while(!_RUN_DONE && _state != STATE_STOP) + Thread::sleep(3); + */ } void ColorMultiAnalysis::displayresults() diff --git a/src/ColorSingleAnalysis.cpp b/src/ColorSingleAnalysis.cpp index cc7c78c..bfaf4a3 100755 --- a/src/ColorSingleAnalysis.cpp +++ b/src/ColorSingleAnalysis.cpp @@ -13,6 +13,11 @@ using Poco::Thread; #define NUMBER_RUNS 1 #define ACQUIRE_TIME 20 +const int algo_default = 1; +const int scale_default = 500; +const int draw_style_default = 3; +const float line_width_default = 0.5f; + void ColorSingleAnalysis::setup(int camWidth, int camHeight) { AbstractAnalysis::setup(camWidth, camHeight); @@ -53,50 +58,21 @@ void ColorSingleAnalysis::setup(int camWidth, int camHeight) image1.clear(); image2.clear(); - image3.clear(); - image4.clear(); - image5.clear(); // images use for drawing the synthesized files to the screen /// image1.setUseTexture(false); // the non texture image that is needed to first load the image image2.setUseTexture(true); // the image that needs to get written to the screen which takes the content of image1 - // images used for re-loading and saving out the synthesized files /// - image3.setUseTexture(false); - image4.setUseTexture(false); - image5.setUseTexture(false); - image1.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h, OF_IMAGE_COLOR); image2.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h, OF_IMAGE_COLOR); - image3.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h, OF_IMAGE_COLOR); - image4.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h, OF_IMAGE_COLOR); - image5.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h, OF_IMAGE_COLOR); - //cout << "RefractiveIndex::_vid_w " << RefractiveIndex::_vid_w << endl; - //cout << "RefractiveIndex::_vid_h " << RefractiveIndex::_vid_h << endl; - // clear() apparently fixes the "OF_WARNING: in allocate, reallocating a ofxCvImage" - // that we're getting in OSX/Windows and is maybe crashing Windows - // http://forum.openframeworks.cc/index.php?topic=1867.0 - cvColorImage1.clear(); - cvGrayImage1.clear(); - cvGrayDiff1.clear(); + ////--------- - cvColorImage2.clear(); - cvGrayImage2.clear(); - cvGrayDiff2.clear(); - - cvConvertorImage.clear(); - - cvColorImage1.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - cvGrayImage1.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - cvGrayDiff1.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - - cvColorImage2.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - cvGrayImage2.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - cvGrayDiff2.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - - cvConvertorImage.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); + algo = RefractiveIndex::XML.getValue("config:algorithms:colorsingle:algo", algo_default); + scale = RefractiveIndex::XML.getValue("config:algorithms:colorsingle:scale", scale_default); + draw_style = RefractiveIndex::XML.getValue("config:algorithms:colorsingle:draw_style", draw_style_default); + line_width = RefractiveIndex::XML.getValue("config:algorithms:colorsingle:line_width", line_width_default); } @@ -133,81 +109,26 @@ void ColorSingleAnalysis::acquire() void ColorSingleAnalysis::synthesise() { - //cout << "ColorSingleAnalysis::saving synthesis...\n"; - if(_state == STATE_STOP) return; + // we don't need to synthesise + return; - for(float i=1;i<_saved_filenames_analysis.size()-1;i++){ - - //cout << "ColorSingleAnalysis::synthesis FOR LOOP...\n"; - - //cout << "_saved_filenames_analysis[i]" << _saved_filenames_analysis[i] << endl; - - if(_state == STATE_STOP) return; - - if(!image1.loadImage(_saved_filenames_analysis[i])){ - //couldn't load image - cout << "didn't load image" << endl; - } - - if(image1.loadImage(_saved_filenames_analysis[i])){ - //cout << "LOADED image1!!!" << endl; - //if(image5.loadImage(_saved_filenames_analysis[i+1])){ - - ///////////////////////// PROCESS THE SAVED CAMERA IMAGES OF SHIT TO THE IMAGES ////////////////////////// - - cvColorImage1.setFromPixels(image1.getPixels(), image1.width, image1.height); - //cvColorImage2.setFromPixels(image5.getPixels(), image5.width, image5.height); - - cvColorImage1.blur(5); - cvColorImage1.erode(); - cvColorImage1.erode(); - cvColorImage1.dilate(); - cvColorImage1.blur(5); - cvColorImage1.erode(); - cvColorImage1.erode(); - cvColorImage1.erode(); - cvColorImage1.erode(); - - /////////////////////////////////// SAVE TO DISK IN THE SYNTHESIS FOLDER //////////////////////////////// - string file_name; - - file_name = ofToString(_synth_save_cnt, 2)+"_ColorSingleAnalysis_"+ofToString(_run_cnt,2)+".jpg"; - - - //<---- THE OLD WAY OF SAVING - works on OSX but generates BLACK FRAMES on WINDOWS ----> - // ofSaveImage(cvGrayImage1.getPixelsRef(),_whole_file_path_synthesis+"/"+file_name, OF_IMAGE_QUALITY_BEST); - - - //<---- NEW SAVING - seems to fix WINDOWS saving out BLACK FRAMES PROBLEM ----> - //ofImage image; - //image.allocate(cvColorImage1.width, cvColorImage1.height, OF_IMAGE_COLOR); - - //*** This needs to be here for OSX of we get a BAD ACCESS ERROR. DOES IT BREAK WINDOWS? ***// - //image.setUseTexture(false); - - //image.setFromPixels(cvColorImage1.getPixels(), cvColorImage1.width, cvColorImage1.height,OF_IMAGE_COLOR); - //image.saveImage(_whole_file_path_synthesis+"/"+file_name); - - //_saved_filenames_synthesis.push_back(_whole_file_path_synthesis+"/"+file_name); - - // <--- REALLY NEW SAVING METHOD --- 26 feb 2012 --- consolidated the save function into Abstract Analysis> /// - - saveImageSynthesis(file_name, &cvColorImage1, OF_IMAGE_COLOR); - _synth_save_cnt++; - - // } - } - } - - // _saved_filenames_synthesis has processed all the files in the analysis images folder - while(!_RUN_DONE && _state != STATE_STOP) - Thread::sleep(3); + /* + + //cout << "IResponseAnalysis::saving synthesis...\n"; + if(_state == STATE_STOP) return; + + _RUN_DONE = false; + + // _saved_filenames_synthesis has processed all the files in the analysis images folder + while(!_RUN_DONE && _state != STATE_STOP) + Thread::sleep(3); + */ } void ColorSingleAnalysis::displayresults() { - for(float i=1;i<_saved_filenames_synthesis.size();i++){ + for(float i=1;i<_saved_filenames_analysis.size();i++){ if(_state == STATE_STOP) return; @@ -218,18 +139,20 @@ void ColorSingleAnalysis::displayresults() //cout << "!_image_shown" << endl; } - if(!image3.loadImage(_saved_filenames_synthesis[i])){ + _show_image = false; + + + if(!image1.loadImage(_saved_filenames_analysis[i])){ //couldn't load image cout << "didn't load image" << endl; } - if(image3.loadImage(_saved_filenames_synthesis[i])){ - image3.loadImage(_saved_filenames_synthesis[i]); + if(image1.loadImage(_saved_filenames_analysis[i])){ //cout << "_show_image = true;" << endl; _show_image = true; _image_shown = false; } - } + } } @@ -389,7 +312,6 @@ void ColorSingleAnalysis::draw() //cout << "STATE_DISPLAY_RESULTS...\n" << endl; - if (_frame_cnt > 2) { _image_shown = true; @@ -398,20 +320,46 @@ void ColorSingleAnalysis::draw() _frame_cnt++; + + ofEnableAlphaBlending(); + glShadeModel(GL_SMOOTH); + glLineWidth(line_width); + + RefractiveIndex::cam.begin(); + + ofTranslate(tx, ty, tz); + ofRotateX(rx); ofRotateY(ry); ofRotateZ(rz); + glScalef(1.5, 1, 1); + if (_show_image) - { - //cout << "_show_image...\n" << endl; - - ofEnableAlphaBlending(); - - ofSetColor(255, 255, 255); - image2.setFromPixels(image3.getPixels(),image3.width,image3.height, OF_IMAGE_COLOR); - image2.draw(0,0, ofGetWidth(), ofGetHeight()); - - ofDisableAlphaBlending(); + image2.setFromPixels(image1.getPixels(), image1.width, image1.height, OF_IMAGE_COLOR); + + image2.bind(); + + RefractiveIndex::_shader.begin(); + + RefractiveIndex::_shader.setUniform1i("algo", algo); + RefractiveIndex::_shader.setUniform1f("scale", scale); + RefractiveIndex::_shader.setUniform1i("tex0", 0); + + switch (draw_style) { + case VERTS: + RefractiveIndex::_mesh_vbo.drawVertices(); + break; + case WIRE: + RefractiveIndex::_mesh_vbo.drawWireframe(); + break; + case FACE: + RefractiveIndex::_mesh_vbo.drawFaces(); + break; } - // display results of the synthesis + RefractiveIndex::_shader.end(); + + image2.unbind(); + + RefractiveIndex::cam.end(); + _RUN_DONE = true; break; diff --git a/src/ColorSingleAnalysis.h b/src/ColorSingleAnalysis.h index 6a9a8dd..ac4540a 100755 --- a/src/ColorSingleAnalysis.h +++ b/src/ColorSingleAnalysis.h @@ -38,32 +38,13 @@ protected: float c, _frame_cnt, _frame_cnt_max, _anim_cnt_max; bool _show_image, _image_shown; + ofImage image1; ofImage image2; - ofImage image3; - ofImage image4; - ofImage image5; - ofImage image6; - - ofxCvColorImage cvColorImage1; - ofxCvColorImage cvColorImage2; - ofxCvColorImage cvColorImage3; - ofxCvColorImage cvColorImage4; - ofxCvColorImage cvColorImage5; - ofxCvColorImage cvColorImage6; - - ofxCvGrayscaleImage cvGrayDiff1; - ofxCvGrayscaleImage cvGrayDiff2; - - ofxCvGrayscaleImage cvGrayImage1; - ofxCvGrayscaleImage cvGrayImage2; - ofxCvGrayscaleImage cvGrayImage3; - ofxCvGrayscaleImage cvGrayImage4; - - ofxCvContourFinder cvContourFinder1; - - //this is the temporary container to allow us to convert and save out greyscale images - ofxCvColorImage cvConvertorImage; + int algo; + int scale; + int draw_style; + float line_width; }; diff --git a/src/DiffNoiseAnalysis.cpp b/src/DiffNoiseAnalysis.cpp index 5a48dad..c52ce7f 100755 --- a/src/DiffNoiseAnalysis.cpp +++ b/src/DiffNoiseAnalysis.cpp @@ -13,6 +13,12 @@ using Poco::Thread; #define NUMBER_RUNS 1 #define ACQUIRE_TIME 20 +const int algo_default = 1; +const int scale_default = 500; +const int draw_style_default = 3; +const int line_width_default = 0.5f; +const float point_size_default = 0.5f; + void DiffNoiseAnalysis::setup(int camWidth, int camHeight) { AbstractAnalysis::setup(camWidth, camHeight); @@ -47,50 +53,22 @@ void DiffNoiseAnalysis::setup(int camWidth, int camHeight) image1.clear(); image2.clear(); - image3.clear(); - image4.clear(); - image5.clear(); // images use for drawing the synthesized files to the screen /// image1.setUseTexture(false); // the non texture image that is needed to first load the image image2.setUseTexture(true); // the image that needs to get written to the screen which takes the content of image1 - // images used for re-loading and saving out the synthesized files /// - image3.setUseTexture(false); - image4.setUseTexture(false); - image5.setUseTexture(false); - image1.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h, OF_IMAGE_COLOR); image2.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h, OF_IMAGE_COLOR); - image3.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h, OF_IMAGE_COLOR); - image4.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h, OF_IMAGE_COLOR); - image5.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h, OF_IMAGE_COLOR); - //cout << "RefractiveIndex::_vid_w " << RefractiveIndex::_vid_w << endl; - //cout << "RefractiveIndex::_vid_h " << RefractiveIndex::_vid_h << endl; - // clear() apparently fixes the "OF_WARNING: in allocate, reallocating a ofxCvImage" - // that we're getting in OSX/Windows and is maybe crashing Windows - // http://forum.openframeworks.cc/index.php?topic=1867.0 - cvColorImage1.clear(); - cvGrayImage1.clear(); - cvGrayDiff1.clear(); + ////--------- - cvColorImage2.clear(); - cvGrayImage2.clear(); - cvGrayDiff2.clear(); - - cvConvertorImage.clear(); - - cvColorImage1.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - cvGrayImage1.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - cvGrayDiff1.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - - cvColorImage2.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - cvGrayImage2.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - cvGrayDiff2.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - - cvConvertorImage.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); + algo = RefractiveIndex::XML.getValue("config:algorithms:diffnoise:algo", algo_default); + scale = RefractiveIndex::XML.getValue("config:algorithms:diffnoise:scale", scale_default); + draw_style = RefractiveIndex::XML.getValue("config:algorithms:diffnoise:draw_style", draw_style_default); + line_width = RefractiveIndex::XML.getValue("config:algorithms:diffnoise:line_width", line_width_default); + point_size = RefractiveIndex::XML.getValue("config:algorithms:diffnoise:point_size", point_size_default); } @@ -126,79 +104,27 @@ void DiffNoiseAnalysis::acquire() void DiffNoiseAnalysis::synthesise() { - //cout << "DiffNoiseAnalysis::saving synthesis...\n"; - if(_state == STATE_STOP) return; + // we don't need to synthesise + return; - for(float i=1;i<_saved_filenames_analysis.size()-1;i++){ - - //cout << "DiffNoiseAnalysis::synthesis FOR LOOP...\n"; - - //cout << "_saved_filenames_analysis[i]" << _saved_filenames_analysis[i] << endl; - - if(_state == STATE_STOP) return; - - if(!image1.loadImage(_saved_filenames_analysis[i])){ - //couldn't load image - cout << "didn't load image" << endl; - } - - if(image1.loadImage(_saved_filenames_analysis[i])){ - //cout << "LOADED image1!!!" << endl; - //if(image5.loadImage(_saved_filenames_analysis[i+1])){ - - ///////////////////////// PROCESS THE SAVED CAMERA IMAGES OF SHIT TO THE IMAGES ////////////////////////// - - cvColorImage1.setFromPixels(image1.getPixels(), image1.width, image1.height); - //cvColorImage2.setFromPixels(image5.getPixels(), image5.width, image5.height); - - cvColorImage1.invert(); - cvColorImage1.blur(5); - cvColorImage1.erode(); - cvColorImage1.erode(); - cvColorImage1.blur(5); - cvColorImage1.erode(); - cvColorImage1.erode(); - - //////////////////////////// SAVE TO DISK IN THE SYNTHESIS FOLDER //////////////////////////////// - string file_name; - - file_name = ofToString(_synth_save_cnt, 2)+"_DiffNoiseAnalysis_"+ofToString(_run_cnt,2)+".jpg"; - - - //<---- THE OLD WAY OF SAVING - works on OSX but generates BLACK FRAMES on WINDOWS ----> - // ofSaveImage(cvGrayImage1.getPixelsRef(),_whole_file_path_synthesis+"/"+file_name, OF_IMAGE_QUALITY_BEST); - - - //<---- NEW SAVING - seems to fix WINDOWS saving out BLACK FRAMES PROBLEM ----> - //ofImage image; - //image.allocate(cvColorImage1.width, cvGrayImage1.height, OF_IMAGE_COLOR); - - //*** This needs to be here for OSX of we get a BAD ACCESS ERROR. DOES IT BREAK WINDOWS? ***// - //image.setUseTexture(false); - - //image.setFromPixels(cvColorImage1.getPixels(), cvColorImage1.width, cvColorImage1.height, OF_IMAGE_COLOR); - //image.saveImage(_whole_file_path_synthesis+"/"+file_name); - - //_saved_filenames_synthesis.push_back(_whole_file_path_synthesis+"/"+file_name); - - // <--- REALLY NEW SAVING METHOD --- 26 feb 2012 --- consolidated the save function into Abstract Analysis> /// - saveImageSynthesis(file_name, &cvColorImage1, OF_IMAGE_COLOR); - _synth_save_cnt++; - - // } - } - } - - // _saved_filenames_synthesis has processed all the files in the analysis images folder - while(!_RUN_DONE && _state != STATE_STOP) - Thread::sleep(3); + /* + + //cout << "IResponseAnalysis::saving synthesis...\n"; + if(_state == STATE_STOP) return; + + _RUN_DONE = false; + + // _saved_filenames_synthesis has processed all the files in the analysis images folder + while(!_RUN_DONE && _state != STATE_STOP) + Thread::sleep(3); + */ } void DiffNoiseAnalysis::displayresults() { - for(float i=1;i<_saved_filenames_synthesis.size();i++){ + for(float i=1;i<_saved_filenames_analysis.size();i++){ if(_state == STATE_STOP) return; @@ -209,19 +135,20 @@ void DiffNoiseAnalysis::displayresults() //cout << "!_image_shown" << endl; } - if(!image3.loadImage(_saved_filenames_synthesis[i])){ + _show_image = false; + + + if(!image1.loadImage(_saved_filenames_analysis[i])){ //couldn't load image cout << "didn't load image" << endl; } - if(image3.loadImage(_saved_filenames_synthesis[i])){ - image3.loadImage(_saved_filenames_synthesis[i]); + if(image1.loadImage(_saved_filenames_analysis[i])){ //cout << "_show_image = true;" << endl; _show_image = true; _image_shown = false; } - } - + } } @@ -392,9 +319,6 @@ void DiffNoiseAnalysis::draw() case STATE_DISPLAY_RESULTS: { - //cout << "STATE_DISPLAY_RESULTS...\n" << endl; - - if (_frame_cnt > 2) { _image_shown = true; @@ -403,22 +327,47 @@ void DiffNoiseAnalysis::draw() _frame_cnt++; + ofEnableAlphaBlending(); + glShadeModel(GL_SMOOTH); + glLineWidth(line_width); + glPointSize(point_size); + glEnable(GL_POINT_SMOOTH); + + RefractiveIndex::cam.begin(); + + ofTranslate(tx, ty, tz); + ofRotateX(rx); ofRotateY(ry); ofRotateZ(rz); + glScalef(1.5, 1, 1); + if (_show_image) - { - //cout << "_show_image...\n" << endl; - - ofEnableAlphaBlending(); - - ofSetColor(255, 255, 255); - image2.setFromPixels(image3.getPixels(),image3.width,image3.height, OF_IMAGE_COLOR); - //image2.setFromPixels(image3.getPixels(),image3.width,image3.height, OF_IMAGE_GRAYSCALE); - image2.draw(0,0, ofGetWidth(), ofGetHeight()); - - ofDisableAlphaBlending(); + image2.setFromPixels(image1.getPixels(), image1.width, image1.height, OF_IMAGE_COLOR); + + image2.bind(); + + RefractiveIndex::_shader.begin(); + + RefractiveIndex::_shader.setUniform1i("algo", algo); + RefractiveIndex::_shader.setUniform1f("scale", scale); + RefractiveIndex::_shader.setUniform1i("tex0", 0); + + switch (draw_style) { + case VERTS: + RefractiveIndex::_mesh_vbo.drawVertices(); + break; + case WIRE: + RefractiveIndex::_mesh_vbo.drawWireframe(); + break; + case FACE: + RefractiveIndex::_mesh_vbo.drawFaces(); + break; } - // display results of the synthesis - _RUN_DONE = true; + RefractiveIndex::_shader.end(); + + image2.unbind(); + + RefractiveIndex::cam.end(); + break; } diff --git a/src/DiffNoiseAnalysis.h b/src/DiffNoiseAnalysis.h index 1f4efa0..0e32bd0 100755 --- a/src/DiffNoiseAnalysis.h +++ b/src/DiffNoiseAnalysis.h @@ -36,31 +36,14 @@ protected: float c, _frame_cnt, _frame_cnt_max, _anim_cnt_max; bool _show_image, _image_shown; + ofImage image1; ofImage image2; - ofImage image3; - ofImage image4; - ofImage image5; - ofImage image6; - ofxCvColorImage cvColorImage1; - ofxCvColorImage cvColorImage2; - ofxCvColorImage cvColorImage3; - ofxCvColorImage cvColorImage4; - ofxCvColorImage cvColorImage5; - ofxCvColorImage cvColorImage6; - - ofxCvGrayscaleImage cvGrayDiff1; - ofxCvGrayscaleImage cvGrayDiff2; - - ofxCvGrayscaleImage cvGrayImage1; - ofxCvGrayscaleImage cvGrayImage2; - ofxCvGrayscaleImage cvGrayImage3; - ofxCvGrayscaleImage cvGrayImage4; - - ofxCvContourFinder cvContourFinder1; - - //this is the temporary container to allow us to convert and save out greyscale images - ofxCvColorImage cvConvertorImage; + int algo; + int scale; + int draw_style; + float line_width; + float point_size; }; diff --git a/src/IResponseAnalysis.cpp b/src/IResponseAnalysis.cpp index 884f6a9..6be0889 100755 --- a/src/IResponseAnalysis.cpp +++ b/src/IResponseAnalysis.cpp @@ -13,6 +13,13 @@ using Poco::Thread; #define NUMBER_RUNS 1 #define ACQUIRE_TIME 20 +const int algo_default = 1; +const int scale_default = 500; +const int draw_style_default = 3; +const int line_width_default = 0.5f; +const float point_size_default = 0.5f; + + void IResponseAnalysis::setup(int camWidth, int camHeight) { AbstractAnalysis::setup(camWidth, camHeight); @@ -47,51 +54,22 @@ void IResponseAnalysis::setup(int camWidth, int camHeight) image1.clear(); image2.clear(); - image3.clear(); - image4.clear(); - image5.clear(); // images use for drawing the synthesized files to the screen /// image1.setUseTexture(false); // the non texture image that is needed to first load the image image2.setUseTexture(true); // the image that needs to get written to the screen which takes the content of image1 - // images used for re-loading and saving out the synthesized files /// - image3.setUseTexture(false); - image4.setUseTexture(false); - image5.setUseTexture(false); - image1.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h, OF_IMAGE_COLOR); image2.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h, OF_IMAGE_COLOR); - image3.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h, OF_IMAGE_COLOR); - image4.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h, OF_IMAGE_COLOR); - image5.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h, OF_IMAGE_COLOR); - //cout << "RefractiveIndex::_vid_w " << RefractiveIndex::_vid_w << endl; - //cout << "RefractiveIndex::_vid_h " << RefractiveIndex::_vid_h << endl; - // clear() apparently fixes the "OF_WARNING: in allocate, reallocating a ofxCvImage" - // that we're getting in OSX/Windows and is maybe crashing Windows - // http://forum.openframeworks.cc/index.php?topic=1867.0 - cvColorImage1.clear(); - cvGrayImage1.clear(); - cvGrayDiff1.clear(); - - cvColorImage2.clear(); - cvGrayImage2.clear(); - cvGrayDiff2.clear(); - - cvConvertorImage.clear(); - - cvColorImage1.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - cvGrayImage1.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - cvGrayDiff1.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - - cvColorImage2.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - cvGrayImage2.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - cvGrayDiff2.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - - cvConvertorImage.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); + ////--------- + algo = RefractiveIndex::XML.getValue("config:algorithms:iresponse:algo", algo_default); + scale = RefractiveIndex::XML.getValue("config:algorithms:iresponse:scale", scale_default); + draw_style = RefractiveIndex::XML.getValue("config:algorithms:iresponse:draw_style", draw_style_default); + line_width = RefractiveIndex::XML.getValue("config:algorithms:iresponse:line_width", line_width_default); + point_size = RefractiveIndex::XML.getValue("config:algorithms:iresponse:point_size", point_size_default); } @@ -126,86 +104,27 @@ void IResponseAnalysis::acquire() void IResponseAnalysis::synthesise() { - //cout << "IResponseAnalysis::saving synthesis...\n"; - if(_state == STATE_STOP) return; - - for(float i=1;i<_saved_filenames_analysis.size()-1;i++){ - - //cout << "IResponseAnalysis::synthesis FOR LOOP...\n"; - - //cout << "_saved_filenames_analysis[i]" << _saved_filenames_analysis[i] << endl; - - if(_state == STATE_STOP) return; - - if(!image1.loadImage(_saved_filenames_analysis[i])){ - //couldn't load image - cout << "didn't load image" << endl; - } - - if(image1.loadImage(_saved_filenames_analysis[i])){ - //cout << "LOADED image1!!!" << endl; - if(image5.loadImage(_saved_filenames_analysis[i+1])){ - - ///////////////////////// PROCESS THE SAVED CAMERA IMAGES OF SHIT TO THE IMAGES ////////////////////////// - - cvColorImage1.setFromPixels(image1.getPixels(), image1.width, image1.height); - cvColorImage2.setFromPixels(image5.getPixels(), image5.width, image5.height); - - cvColorImage1.convertToGrayscalePlanarImage(cvGrayImage1, 1); - cvColorImage2.convertToGrayscalePlanarImage(cvGrayImage2, 1); - - cvGrayDiff1.absDiff(cvGrayImage2, cvGrayImage1); - cvGrayDiff1.erode(); - cvGrayDiff1.contrastStretch(); - //cvGrayDiff1.blur(5); - //cvGrayDiff1.dilate(); - //cvGrayDiff1.contrastStretch(); - - /////////////////////////////////// SAVE TO DISK IN THE SYNTHESIS FOLDER //////////////////////////////// - string file_name; - - file_name = ofToString(_synth_save_cnt, 2)+"_IResponseSynthesis_"+ofToString(_run_cnt,2)+".jpg"; - - - //<---- THE OLD WAY OF SAVING - works on OSX but generates BLACK FRAMES on WINDOWS ----> - // ofSaveImage(cvGrayImage1.getPixelsRef(),_whole_file_path_synthesis+"/"+file_name, OF_IMAGE_QUALITY_BEST); - - - //<---- NEW SAVING - seems to fix WINDOWS saving out BLACK FRAMES PROBLEM ----> - //ofImage image; - //image.allocate(cvGrayDiff1.width, cvGrayDiff1.height, OF_IMAGE_GRAYSCALE); - - //*** This needs to be here for OSX of we get a BAD ACCESS ERROR. DOES IT BREAK WINDOWS? ***// - //image.setUseTexture(false); - //image.setFromPixels(cvGrayDiff1.getPixels(), cvGrayDiff1.width, cvGrayDiff1.height, OF_IMAGE_GRAYSCALE); - //image.saveImage(_whole_file_path_synthesis+"/"+file_name); - //_saved_filenames_synthesis.push_back(_whole_file_path_synthesis+"/"+file_name); - - - // <--- REALLY NEW SAVING METHOD --- 26 feb 2012 --- consolidated the save function into Abstract Analysis> /// - cvConvertorImage.setFromGrayscalePlanarImages(cvGrayDiff1,cvGrayDiff1,cvGrayDiff1); - - saveImageSynthesis(file_name, &cvConvertorImage, OF_IMAGE_GRAYSCALE); - - _synth_save_cnt++; - - - - } - } - } - - // _saved_filenames_synthesis has processed all the files in the analysis images folder - while(!_RUN_DONE && _state != STATE_STOP) - Thread::sleep(3); + // we don't need to synthesise + return; + /* + + //cout << "IResponseAnalysis::saving synthesis...\n"; + if(_state == STATE_STOP) return; + + _RUN_DONE = false; + + // _saved_filenames_synthesis has processed all the files in the analysis images folder + while(!_RUN_DONE && _state != STATE_STOP) + Thread::sleep(3); + */ } void IResponseAnalysis::displayresults() { - for(float i=1;i<_saved_filenames_synthesis.size();i++){ + for(float i=1;i<_saved_filenames_analysis.size();i++){ if(_state == STATE_STOP) return; @@ -216,18 +135,20 @@ void IResponseAnalysis::displayresults() //cout << "!_image_shown" << endl; } - if(!image3.loadImage(_saved_filenames_synthesis[i])){ + _show_image = false; + + + if(!image1.loadImage(_saved_filenames_analysis[i])){ //couldn't load image - // cout << "didn't load image" << endl; + cout << "didn't load image" << endl; } - if(image3.loadImage(_saved_filenames_synthesis[i])){ - image3.loadImage(_saved_filenames_synthesis[i]); + if(image1.loadImage(_saved_filenames_analysis[i])){ //cout << "_show_image = true;" << endl; _show_image = true; _image_shown = false; } - } + } } @@ -363,8 +284,6 @@ void IResponseAnalysis::draw() case STATE_DISPLAY_RESULTS: { - //cout << "STATE_DISPLAY_RESULTS...\n" << endl; - if (_frame_cnt > 2) { _image_shown = true; @@ -373,21 +292,47 @@ void IResponseAnalysis::draw() _frame_cnt++; - if (_show_image) - { - //cout << "_show_image...\n" << endl; - - ofEnableAlphaBlending(); - - ofSetColor(255, 255, 255); - image2.setFromPixels(image3.getPixels(),image3.width,image3.height, OF_IMAGE_COLOR); - image2.draw(0,0, ofGetWidth(), ofGetHeight()); + ofEnableAlphaBlending(); + glShadeModel(GL_SMOOTH); + glLineWidth(line_width); + glPointSize(point_size); + glEnable(GL_POINT_SMOOTH); - ofDisableAlphaBlending(); + RefractiveIndex::cam.begin(); + + ofTranslate(tx, ty, tz); + ofRotateX(rx); ofRotateY(ry); ofRotateZ(rz); + glScalef(1.5, 1, 1); + + if (_show_image) + image2.setFromPixels(image1.getPixels(), image1.width, image1.height, OF_IMAGE_COLOR); + + image2.bind(); + + RefractiveIndex::_shader.begin(); + + RefractiveIndex::_shader.setUniform1i("algo", algo); + RefractiveIndex::_shader.setUniform1f("scale", scale); + RefractiveIndex::_shader.setUniform1i("tex0", 0); + + switch (draw_style) { + case VERTS: + RefractiveIndex::_mesh_vbo.drawVertices(); + break; + case WIRE: + RefractiveIndex::_mesh_vbo.drawWireframe(); + break; + case FACE: + RefractiveIndex::_mesh_vbo.drawFaces(); + break; } - // display results of the synthesis - _RUN_DONE = true; + RefractiveIndex::_shader.end(); + + image2.unbind(); + + RefractiveIndex::cam.end(); + break; } diff --git a/src/IResponseAnalysis.h b/src/IResponseAnalysis.h index ebd471f..c2edb21 100755 --- a/src/IResponseAnalysis.h +++ b/src/IResponseAnalysis.h @@ -35,31 +35,14 @@ protected: float c, _frame_cnt, _frame_cnt_max, _anim_cnt_max; bool _show_image, _image_shown; + ofImage image1; ofImage image2; - ofImage image3; - ofImage image4; - ofImage image5; - ofImage image6; - ofxCvColorImage cvColorImage1; - ofxCvColorImage cvColorImage2; - ofxCvColorImage cvColorImage3; - ofxCvColorImage cvColorImage4; - ofxCvColorImage cvColorImage5; - ofxCvColorImage cvColorImage6; - - ofxCvGrayscaleImage cvGrayDiff1; - ofxCvGrayscaleImage cvGrayDiff2; - - ofxCvGrayscaleImage cvGrayImage1; - ofxCvGrayscaleImage cvGrayImage2; - ofxCvGrayscaleImage cvGrayImage3; - ofxCvGrayscaleImage cvGrayImage4; - - ofxCvContourFinder cvContourFinder1; - - //this is the temporary container to allow us to convert and save out greyscale images - ofxCvColorImage cvConvertorImage; + int algo; + int scale; + int draw_style; + float line_width; + float point_size; }; diff --git a/src/RelaxRateAnalysis.cpp b/src/RelaxRateAnalysis.cpp index fd50b68..3b4cf94 100755 --- a/src/RelaxRateAnalysis.cpp +++ b/src/RelaxRateAnalysis.cpp @@ -12,8 +12,6 @@ using Poco::Thread; #define NUMBER_RUNS 1 #define ACQUIRE_TIME 20 -#define TRESHOLD 80 -#define MAXBLOBS 15 const int algo_default = 1; const int scale_default = 500; @@ -33,15 +31,6 @@ void RelaxRateAnalysis::setup(int camWidth, int camHeight) acq_run_time = RefractiveIndex::XML.getValue("config:analysis_time:acquiretime_relaxrate", ACQUIRE_TIME); cout << "ACQUIRE_TIME RelaxRateAnalysis " << acq_run_time << endl; - _treshold = RefractiveIndex::XML.getValue("config:relaxrate:treshold", TRESHOLD); - cout << "TRESHOLD RelaxRateAnalysis " << _treshold << endl; - - _maxblobs = RefractiveIndex::XML.getValue("config:relaxrate:maxblobs", MAXBLOBS); - cout << "MAXBLOBS RelaxRateAnalysis " << _maxblobs << endl; - - - //int acq_run_time = 20; // 20 seconds of acquiring per run - DELTA_T_SAVE = 2*(10*acq_run_time/2); // for 20 seconds, we want this to be around 200 files // or 10 times per second = every 100 ms @@ -113,6 +102,11 @@ void RelaxRateAnalysis::acquire() void RelaxRateAnalysis::synthesise() { + // we don't need to synthesise + return; + + /* + //cout << "IResponseAnalysis::saving synthesis...\n"; if(_state == STATE_STOP) return; @@ -121,6 +115,7 @@ void RelaxRateAnalysis::synthesise() // _saved_filenames_synthesis has processed all the files in the analysis images folder while(!_RUN_DONE && _state != STATE_STOP) Thread::sleep(3); + */ } @@ -335,7 +330,6 @@ void RelaxRateAnalysis::draw() RefractiveIndex::cam.end(); - //_RUN_DONE = true; break; } @@ -353,8 +347,6 @@ void RelaxRateAnalysis::save_cb(Timer& timer) string file_name = ofToString(_save_cnt,2)+"_"+ ofToString(c,2)+"_"+ofToString(_run_cnt,2)+".jpg"; - saveImageAnalysis(file_name); - - + saveImageAnalysis(file_name); } diff --git a/src/ShadowScapesAnalysis.cpp b/src/ShadowScapesAnalysis.cpp index 65617d4..784fc47 100755 --- a/src/ShadowScapesAnalysis.cpp +++ b/src/ShadowScapesAnalysis.cpp @@ -102,15 +102,20 @@ void ShadowScapesAnalysis::acquire() void ShadowScapesAnalysis::synthesise() { - //cout << "ShadowScapesAnalysis::saving synthesis...\n"; + // we don't need to synthesise + return; - if(_state == STATE_STOP) return; - - _RUN_DONE = false; - - // _saved_filenames_synthesis has processed all the files in the analysis images folder - while(!_RUN_DONE && _state != STATE_STOP) - Thread::sleep(3); + /* + + //cout << "IResponseAnalysis::saving synthesis...\n"; + if(_state == STATE_STOP) return; + + _RUN_DONE = false; + + // _saved_filenames_synthesis has processed all the files in the analysis images folder + while(!_RUN_DONE && _state != STATE_STOP) + Thread::sleep(3); + */ } diff --git a/src/ShapeFromShadingAnalysis.cpp b/src/ShapeFromShadingAnalysis.cpp index a2bf3ae..171d8f2 100755 --- a/src/ShapeFromShadingAnalysis.cpp +++ b/src/ShapeFromShadingAnalysis.cpp @@ -13,6 +13,13 @@ using Poco::Thread; #define NUMBER_RUNS 1 #define ACQUIRE_TIME 20 +const int algo_default = 1; +const int scale_default = 500; +const int draw_style_default = 3; +const int line_width_default = 0.5f; +const float point_size_default = 0.5f; + + void ShapeFromShadingAnalysis::setup(int camWidth, int camHeight) { AbstractAnalysis::setup(camWidth, camHeight); @@ -47,50 +54,21 @@ void ShapeFromShadingAnalysis::setup(int camWidth, int camHeight) image1.clear(); image2.clear(); - image3.clear(); - image4.clear(); - image5.clear(); - // images use for drawing the synthesized files to the screen /// - image1.setUseTexture(false); // the non texture image that is needed to first load the image - image2.setUseTexture(true); // the image that needs to get written to the screen which takes the content of image1 - - // images used for re-loading and saving out the synthesized files /// - image3.setUseTexture(false); - image4.setUseTexture(false); - image5.setUseTexture(false); + image1.setUseTexture(false); + image2.setUseTexture(true); image1.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h, OF_IMAGE_COLOR); image2.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h, OF_IMAGE_COLOR); - image3.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h, OF_IMAGE_COLOR); - image4.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h, OF_IMAGE_COLOR); - image5.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h, OF_IMAGE_COLOR); - // cout << "RefractiveIndex::_vid_w " << RefractiveIndex::_vid_w << endl; - // cout << "RefractiveIndex::_vid_h " << RefractiveIndex::_vid_h << endl; + ////--------- - // clear() apparently fixes the "OF_WARNING: in allocate, reallocating a ofxCvImage" - // that we're getting in OSX/Windows and is maybe crashing Windows - // http://forum.openframeworks.cc/index.php?topic=1867.0 - cvColorImage1.clear(); - cvGrayImage1.clear(); - cvGrayDiff1.clear(); - - cvColorImage2.clear(); - cvGrayImage2.clear(); - cvGrayDiff2.clear(); - - cvConvertorImage.clear(); - - cvColorImage1.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - cvGrayImage1.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - cvGrayDiff1.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - - cvColorImage2.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - cvGrayImage2.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - cvGrayDiff2.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - - cvConvertorImage.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); + algo = RefractiveIndex::XML.getValue("config:algorithms:shapeshade:algo", algo_default); + scale = RefractiveIndex::XML.getValue("config:algorithms:shapeshade:scale", scale_default); + draw_style = RefractiveIndex::XML.getValue("config:algorithms:shapeshade:draw_style", draw_style_default); + line_width = RefractiveIndex::XML.getValue("config:algorithms:shapeshade:line_width", line_width_default); + point_size = RefractiveIndex::XML.getValue("config:algorithms:shapeshade:point_size", point_size_default); + } @@ -146,104 +124,51 @@ void ShapeFromShadingAnalysis::acquire() void ShapeFromShadingAnalysis::synthesise() { - // cout << "ShapeFromShadingAnalysis::saving synthesis...\n"; - if(_state == STATE_STOP) return; + // we don't need to synthesise + return; - for(float i=1;i<_saved_filenames_analysis.size()-1;i++){ - - // cout << "ShapeFromShadingAnalysis::synthesis FOR LOOP...\n"; - - // cout << "_saved_filenames_analysis[i]" << _saved_filenames_analysis[i] << endl; + /* + + //cout << "IResponseAnalysis::saving synthesis...\n"; + if(_state == STATE_STOP) return; + + _RUN_DONE = false; + + // _saved_filenames_synthesis has processed all the files in the analysis images folder + while(!_RUN_DONE && _state != STATE_STOP) + Thread::sleep(3); + */ + + +} + +void ShapeFromShadingAnalysis::displayresults() +{ + for(float i=1;i<_saved_filenames_analysis.size();i++){ if(_state == STATE_STOP) return; + //cout << "_saved_filenames_analysis[i] - " << _saved_filenames_synthesis[i] << endl; + + while(!_image_shown){ + Thread::sleep(2); + //cout << "!_image_shown" << endl; + } + + _show_image = false; + + if(!image1.loadImage(_saved_filenames_analysis[i])){ //couldn't load image cout << "didn't load image" << endl; } if(image1.loadImage(_saved_filenames_analysis[i])){ - // cout << "LOADED image1!!!" << endl; - if(image5.loadImage(_saved_filenames_analysis[i+1])){ - - ///////////////////////// PROCESS THE SAVED CAMERA IMAGES OF SHIT TO THE IMAGES ////////////////////////// - - cvColorImage1.setFromPixels(image1.getPixels(), image1.width, image1.height); - cvColorImage2.setFromPixels(image5.getPixels(), image5.width, image5.height); - - cvColorImage1.convertToGrayscalePlanarImage(cvGrayImage1, 1); - cvColorImage2.convertToGrayscalePlanarImage(cvGrayImage2, 1); - - cvGrayDiff1.absDiff(cvGrayImage2, cvGrayImage1); - cvGrayDiff1.erode(); - cvGrayDiff1.contrastStretch(); - //cvGrayDiff1.blur(5); - //cvGrayDiff1.dilate(); - //cvGrayDiff1.contrastStretch(); - - /////////////////////////////////// SAVE TO DISK IN THE SYNTHESIS FOLDER //////////////////////////////// - string file_name; - - file_name = ofToString(_synth_save_cnt, 2)+"_ShapeFromShadingSynthesis_"+ofToString(_run_cnt,2)+".jpg"; - - - //<---- THE OLD WAY OF SAVING - works on OSX but generates BLACK FRAMES on WINDOWS ----> - // ofSaveImage(cvGrayImage1.getPixelsRef(),_whole_file_path_synthesis+"/"+file_name, OF_IMAGE_QUALITY_BEST); - - //<---- NEW SAVING - seems to fix WINDOWS saving out BLACK FRAMES PROBLEM ----> - //ofImage image; - //image.allocate(cvGrayDiff1.width, cvGrayDiff1.height, OF_IMAGE_GRAYSCALE); - - //*** This needs to be here for OSX of we get a BAD ACCESS ERROR. DOES IT BREAK WINDOWS? ***// - //image.setUseTexture(false); - - //image.setFromPixels(cvGrayDiff1.getPixels(), cvGrayDiff1.width, cvGrayDiff1.height, OF_IMAGE_GRAYSCALE); - //image.saveImage(_whole_file_path_synthesis+"/"+file_name); - - //_saved_filenames_synthesis.push_back(_whole_file_path_synthesis+"/"+file_name); - - - // <--- REALLY NEW SAVING METHOD --- 26 feb 2012 --- consolidated the save function into Abstract Analysis> /// - cvConvertorImage.setFromGrayscalePlanarImages(cvGrayDiff1,cvGrayDiff1,cvGrayDiff1); - - saveImageSynthesis(file_name, &cvConvertorImage, OF_IMAGE_GRAYSCALE); - _synth_save_cnt++; - - } - } - } - - // _saved_filenames_synthesis has processed all the files in the analysis images folder - while(!_RUN_DONE && _state != STATE_STOP) - Thread::sleep(3); - -} - -void ShapeFromShadingAnalysis::displayresults() -{ - for(float i=1;i<_saved_filenames_synthesis.size();i++){ - - if(_state == STATE_STOP) return; - - // cout << "_saved_filenames_analysis[i] - " << _saved_filenames_synthesis[i] << endl; - - while(!_image_shown){ - Thread::sleep(2); - //cout << "!_image_shown" << endl; - } - - if(!image3.loadImage(_saved_filenames_synthesis[i])){ - //couldn't load image - cout << "didn't load image" << endl; - } - - if(image3.loadImage(_saved_filenames_synthesis[i])){ - image3.loadImage(_saved_filenames_synthesis[i]); //cout << "_show_image = true;" << endl; _show_image = true; _image_shown = false; } - } + } } // this runs at frame rate = 33 ms for 30 FPS @@ -552,8 +477,6 @@ void ShapeFromShadingAnalysis::draw() case STATE_DISPLAY_RESULTS: { - // cout << "STATE_DISPLAY_RESULTS...\n" << endl; - if (_frame_cnt > 2) { _image_shown = true; @@ -562,22 +485,49 @@ void ShapeFromShadingAnalysis::draw() _frame_cnt++; + ofEnableAlphaBlending(); + glShadeModel(GL_SMOOTH); + glLineWidth(line_width); + glPointSize(point_size); + glEnable(GL_POINT_SMOOTH); + + RefractiveIndex::cam.begin(); + + ofTranslate(tx, ty, tz); + ofRotateX(rx); ofRotateY(ry); ofRotateZ(rz); + glScalef(1.5, 1, 1); + if (_show_image) - { - // cout << "_show_image...\n" << endl; - - ofEnableAlphaBlending(); - - ofSetColor(255, 255, 255); - image2.setFromPixels(image3.getPixels(),image3.width,image3.height, OF_IMAGE_COLOR); - image2.draw(0,0, ofGetWidth(), ofGetHeight()); - - ofDisableAlphaBlending(); + image2.setFromPixels(image1.getPixels(), image1.width, image1.height, OF_IMAGE_COLOR); + + image2.bind(); + + RefractiveIndex::_shader.begin(); + + RefractiveIndex::_shader.setUniform1i("algo", algo); + RefractiveIndex::_shader.setUniform1f("scale", scale); + RefractiveIndex::_shader.setUniform1i("tex0", 0); + + switch (draw_style) { + case VERTS: + RefractiveIndex::_mesh_vbo.drawVertices(); + break; + case WIRE: + RefractiveIndex::_mesh_vbo.drawWireframe(); + break; + case FACE: + RefractiveIndex::_mesh_vbo.drawFaces(); + break; } - // display results of the synthesis - _RUN_DONE = true; + RefractiveIndex::_shader.end(); + + image2.unbind(); + + RefractiveIndex::cam.end(); + break; + } diff --git a/src/ShapeFromShadingAnalysis.h b/src/ShapeFromShadingAnalysis.h index 4c94812..fded22f 100755 --- a/src/ShapeFromShadingAnalysis.h +++ b/src/ShapeFromShadingAnalysis.h @@ -55,31 +55,14 @@ protected: float c, _frame_cnt, _frame_cnt_max, _anim_cnt_max; bool _show_image, _image_shown; + ofImage image1; ofImage image2; - ofImage image3; - ofImage image4; - ofImage image5; - ofImage image6; - ofxCvColorImage cvColorImage1; - ofxCvColorImage cvColorImage2; - ofxCvColorImage cvColorImage3; - ofxCvColorImage cvColorImage4; - ofxCvColorImage cvColorImage5; - ofxCvColorImage cvColorImage6; - - ofxCvGrayscaleImage cvGrayDiff1; - ofxCvGrayscaleImage cvGrayDiff2; - - ofxCvGrayscaleImage cvGrayImage1; - ofxCvGrayscaleImage cvGrayImage2; - ofxCvGrayscaleImage cvGrayImage3; - ofxCvGrayscaleImage cvGrayImage4; - - ofxCvContourFinder cvContourFinder1; - - //this is the temporary container to allow us to convert and save out greyscale images - ofxCvColorImage cvConvertorImage; + int algo; + int scale; + int draw_style; + float line_width; + float point_size; }; diff --git a/src/StrobeAnalysis.cpp b/src/StrobeAnalysis.cpp index b45241a..4e8da06 100755 --- a/src/StrobeAnalysis.cpp +++ b/src/StrobeAnalysis.cpp @@ -13,6 +13,12 @@ using Poco::Thread; #define NUMBER_RUNS 1 #define ACQUIRE_TIME 30 +const int algo_default = 1; +const int scale_default = 500; +const int draw_style_default = 3; +const int line_width_default = 0.5f; +const float point_size_default = 0.5f; + void StrobeAnalysis::setup(int camWidth, int camHeight) { AbstractAnalysis::setup(camWidth, camHeight); @@ -48,51 +54,25 @@ void StrobeAnalysis::setup(int camWidth, int camHeight) image1.clear(); image2.clear(); - image3.clear(); - image4.clear(); - image5.clear(); + image1.clear(); + image2.clear(); // images use for drawing the synthesized files to the screen /// image1.setUseTexture(false); // the non texture image that is needed to first load the image image2.setUseTexture(true); // the image that needs to get written to the screen which takes the content of image1 - // images used for re-loading and saving out the synthesized files /// - image3.setUseTexture(false); - image4.setUseTexture(false); - image5.setUseTexture(false); - image1.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h, OF_IMAGE_COLOR); image2.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h, OF_IMAGE_COLOR); - image3.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h, OF_IMAGE_COLOR); - image4.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h, OF_IMAGE_COLOR); - image5.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h, OF_IMAGE_COLOR); - // cout << "RefractiveIndex::_vid_w " << RefractiveIndex::_vid_w << endl; - // cout << "RefractiveIndex::_vid_h " << RefractiveIndex::_vid_h << endl; - // clear() apparently fixes the "OF_WARNING: in allocate, reallocating a ofxCvImage" - // that we're getting in OSX/Windows and is maybe crashing Windows - // http://forum.openframeworks.cc/index.php?topic=1867.0 - cvColorImage1.clear(); - cvGrayImage1.clear(); - cvGrayDiff1.clear(); + ////--------- - cvColorImage2.clear(); - cvGrayImage2.clear(); - cvGrayDiff2.clear(); + algo = RefractiveIndex::XML.getValue("config:algorithms:strobe:algo", algo_default); + scale = RefractiveIndex::XML.getValue("config:algorithms:strobe:scale", scale_default); + draw_style = RefractiveIndex::XML.getValue("config:algorithms:strobe:draw_style", draw_style_default); + line_width = RefractiveIndex::XML.getValue("config:algorithms:strobe:line_width", line_width_default); + point_size = RefractiveIndex::XML.getValue("config:algorithms:strobe:point_size", point_size_default); - cvConvertorImage.clear(); - - cvColorImage1.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - cvGrayImage1.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - cvGrayDiff1.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - - cvColorImage2.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - cvGrayImage2.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - cvGrayDiff2.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - - cvConvertorImage.allocate(RefractiveIndex::_vid_w,RefractiveIndex::_vid_h); - } @@ -128,105 +108,50 @@ void StrobeAnalysis::acquire() void StrobeAnalysis::synthesise() { - // cout << "StrobeAnalysis::saving synthesis...\n"; - if(_state == STATE_STOP) return; + // we don't need to synthesise + return; - for(float i=1;i<_saved_filenames_analysis.size()-1;i++){ - - // cout << "StrobeAnalysis::synthesis FOR LOOP...\n"; - - // cout << "_saved_filenames_analysis[i]" << _saved_filenames_analysis[i] << endl; - - if(_state == STATE_STOP) return; - - if(!image1.loadImage(_saved_filenames_analysis[i])){ - //couldn't load image - // cout << "didn't load image" << endl; - } - - if(image1.loadImage(_saved_filenames_analysis[i])){ - // cout << "LOADED image1!!!" << endl; - if(image5.loadImage(_saved_filenames_analysis[i+1])){ - - ///////////////////////// PROCESS THE SAVED CAMERA IMAGES OF SHIT TO THE IMAGES ////////////////////////// - - cvColorImage1.setFromPixels(image1.getPixels(), image1.width, image1.height); - cvColorImage2.setFromPixels(image5.getPixels(), image5.width, image5.height); - - cvColorImage1.convertToGrayscalePlanarImage(cvGrayImage1, 1); - cvColorImage2.convertToGrayscalePlanarImage(cvGrayImage2, 1); - - cvGrayDiff1.absDiff(cvGrayImage2, cvGrayImage1); - cvGrayDiff1.dilate(); - cvGrayDiff1.dilate(); - cvGrayDiff1.contrastStretch(); - - /////////////////////////////////// SAVE TO DISK IN THE SYNTHESIS FOLDER //////////////////////////////// - string file_name; - - file_name = ofToString(_synth_save_cnt, 2)+"_StrobeAnalysis_"+ofToString(_run_cnt,2)+".jpg"; - - - //<---- THE OLD WAY OF SAVING - works on OSX but generates BLACK FRAMES on WINDOWS ----> - // ofSaveImage(cvGrayImage1.getPixelsRef(),_whole_file_path_synthesis+"/"+file_name, OF_IMAGE_QUALITY_BEST); - - - //<---- NEW SAVING - seems to fix WINDOWS saving out BLACK FRAMES PROBLEM ----> - //ofImage image; - //image.allocate(cvGrayImage1.width, cvGrayImage1.height, OF_IMAGE_GRAYSCALE); - - //*** This needs to be here for OSX of we get a BAD ACCESS ERROR. DOES IT BREAK WINDOWS? ***// - //image.setUseTexture(false); - - //image.setFromPixels(cvGrayDiff1.getPixels(), cvGrayDiff1.width, cvGrayDiff1.height,OF_IMAGE_GRAYSCALE); - //image.saveImage(_whole_file_path_synthesis+"/"+file_name); - - //_saved_filenames_synthesis.push_back(_whole_file_path_synthesis+"/"+file_name); - - - - // <--- REALLY NEW SAVING METHOD --- 26 feb 2012 --- consolidated the save function into Abstract Analysis> /// - cvConvertorImage.setFromGrayscalePlanarImages(cvGrayDiff1,cvGrayDiff1,cvGrayDiff1); - - saveImageSynthesis(file_name, &cvConvertorImage, OF_IMAGE_GRAYSCALE); - _synth_save_cnt++; - - - } - } - } - - // _saved_filenames_synthesis has processed all the files in the analysis images folder - while(!_RUN_DONE && _state != STATE_STOP) - Thread::sleep(3); + /* + + //cout << "IResponseAnalysis::saving synthesis...\n"; + if(_state == STATE_STOP) return; + + _RUN_DONE = false; + + // _saved_filenames_synthesis has processed all the files in the analysis images folder + while(!_RUN_DONE && _state != STATE_STOP) + Thread::sleep(3); + */ } void StrobeAnalysis::displayresults() { - for(float i=1;i<_saved_filenames_synthesis.size();i++){ + for(float i=1;i<_saved_filenames_analysis.size();i++){ if(_state == STATE_STOP) return; - // cout << "_saved_filenames_analysis[i] - " << _saved_filenames_synthesis[i] << endl; + //cout << "_saved_filenames_analysis[i] - " << _saved_filenames_synthesis[i] << endl; while(!_image_shown){ Thread::sleep(2); //cout << "!_image_shown" << endl; } - if(!image3.loadImage(_saved_filenames_synthesis[i])){ + _show_image = false; + + + if(!image1.loadImage(_saved_filenames_analysis[i])){ //couldn't load image - // cout << "didn't load image" << endl; + cout << "didn't load image" << endl; } - if(image3.loadImage(_saved_filenames_synthesis[i])){ - image3.loadImage(_saved_filenames_synthesis[i]); + if(image1.loadImage(_saved_filenames_analysis[i])){ //cout << "_show_image = true;" << endl; _show_image = true; _image_shown = false; } - } + } } @@ -381,8 +306,6 @@ void StrobeAnalysis::draw() case STATE_DISPLAY_RESULTS: { - // cout << "STATE_DISPLAY_RESULTS...\n" << endl; - if (_frame_cnt > 2) { _image_shown = true; @@ -391,22 +314,48 @@ void StrobeAnalysis::draw() _frame_cnt++; + ofEnableAlphaBlending(); + glShadeModel(GL_SMOOTH); + glLineWidth(line_width); + glPointSize(point_size); + glEnable(GL_POINT_SMOOTH); + + RefractiveIndex::cam.begin(); + + ofTranslate(tx, ty, tz); + ofRotateX(rx); ofRotateY(ry); ofRotateZ(rz); + glScalef(1.5, 1, 1); + if (_show_image) - { - // cout << "_show_image...\n" << endl; - - ofEnableAlphaBlending(); - - ofSetColor(255, 255, 255); - image2.setFromPixels(image3.getPixels(),image3.width,image3.height, OF_IMAGE_COLOR); - image2.draw(0,0, ofGetWidth(), ofGetHeight()); - - ofDisableAlphaBlending(); + image2.setFromPixels(image1.getPixels(), image1.width, image1.height, OF_IMAGE_COLOR); + + image2.bind(); + + RefractiveIndex::_shader.begin(); + + RefractiveIndex::_shader.setUniform1i("algo", algo); + RefractiveIndex::_shader.setUniform1f("scale", scale); + RefractiveIndex::_shader.setUniform1i("tex0", 0); + + switch (draw_style) { + case VERTS: + RefractiveIndex::_mesh_vbo.drawVertices(); + break; + case WIRE: + RefractiveIndex::_mesh_vbo.drawWireframe(); + break; + case FACE: + RefractiveIndex::_mesh_vbo.drawFaces(); + break; } - // display results of the synthesis - _RUN_DONE = true; - break; + RefractiveIndex::_shader.end(); + + image2.unbind(); + + RefractiveIndex::cam.end(); + + break; } diff --git a/src/StrobeAnalysis.h b/src/StrobeAnalysis.h index 90d64d2..68de7d7 100755 --- a/src/StrobeAnalysis.h +++ b/src/StrobeAnalysis.h @@ -41,31 +41,14 @@ protected: float c, _frame_cnt, _frame_cnt_max, _anim_cnt_max; bool _show_image, _image_shown; + ofImage image1; ofImage image2; - ofImage image3; - ofImage image4; - ofImage image5; - ofImage image6; - ofxCvColorImage cvColorImage1; - ofxCvColorImage cvColorImage2; - ofxCvColorImage cvColorImage3; - ofxCvColorImage cvColorImage4; - ofxCvColorImage cvColorImage5; - ofxCvColorImage cvColorImage6; - - ofxCvGrayscaleImage cvGrayDiff1; - ofxCvGrayscaleImage cvGrayDiff2; - - ofxCvGrayscaleImage cvGrayImage1; - ofxCvGrayscaleImage cvGrayImage2; - ofxCvGrayscaleImage cvGrayImage3; - ofxCvGrayscaleImage cvGrayImage4; - - ofxCvContourFinder cvContourFinder1; - - //this is the temporary container to allow us to convert and save out greyscale images - ofxCvColorImage cvConvertorImage; + int algo; + int scale; + int draw_style; + float line_width; + float point_size; };