コード例 #1
0
ファイル: data.cpp プロジェクト: maolingao/arrayfire
 array constant(cfloat val, const dim4 &dims)
 {
     af_array res;
     AF_THROW(af_constant_complex(&res, real(val), imag(val),
                                  dims.ndims(), dims.get(), c32));
     return array(res);
 }
コード例 #2
0
ファイル: data.cpp プロジェクト: PierreBizouard/arrayfire
 array
 constant(T val, const dim4 &dims, const af::dtype type)
 {
     af_array res;
     if (type != s64 && type != u64) {
         AF_THROW(af_constant(&res, (double)val,
                              dims.ndims(), dims.get(), type));
     }
     else if (type == s64) {
             AF_THROW(af_constant_long (&res, ( intl)val,
                                        dims.ndims(),
                                        dims.get()));
     } else {
         AF_THROW(af_constant_ulong(&res, (uintl)val,
                                    dims.ndims(),
                                    dims.get()));
     }
     return array(res);
 }
コード例 #3
0
dim4 calcStrides(const dim4 &parentDim)
{
    dim4 out(1, 1, 1, 1);
    dim_t *out_dims = out.get();
    const dim_t *parent_dims =  parentDim.get();

    for (dim_t i=1; i < 4; i++) {
        out_dims[i] = out_dims[i - 1] * parent_dims[i-1];
    }

    return out;
}
コード例 #4
0
ファイル: data.cpp プロジェクト: PierreBizouard/arrayfire
 AFAPI array constant(cdouble val, const dim4 &dims, const af::dtype type)
 {
     if (type != c32 && type != c64) {
         return constant(real(val), dims, type);
     }
     af_array res;
     AF_THROW(af_constant_complex(&res,
                                  real(val),
                                  imag(val),
                                  dims.ndims(),
                                  dims.get(), type));
     return array(res);
 }
コード例 #5
0
ファイル: fast_pyramid.hpp プロジェクト: shehzan10/arrayfire
void fast_pyramid(std::vector<unsigned>& feat_pyr,
                  std::vector<float*>& d_x_pyr,
                  std::vector<float*>& d_y_pyr,
                  std::vector<unsigned>& lvl_best,
                  std::vector<float>& lvl_scl,
                  std::vector<CParam<T> >& img_pyr,
                  CParam<T> in,
                  const float fast_thr,
                  const unsigned max_feat,
                  const float scl_fctr,
                  const unsigned levels,
                  const unsigned patch_size)
{
    unsigned min_side = std::min(in.dims[0], in.dims[1]);
    unsigned max_levels = 0;
    float scl_sum = 0.f;

    for (unsigned i = 0; i < levels; i++) {
        min_side /= scl_fctr;

        // Minimum image side for a descriptor to be computed
        if (min_side < patch_size || max_levels == levels) break;

        max_levels++;
        scl_sum += 1.f / (float)std::pow(scl_fctr,(float)i);
    }

    // Compute number of features to keep for each level
    lvl_best.resize(max_levels);
    lvl_scl.resize(max_levels);
    unsigned feat_sum = 0;
    for (unsigned i = 0; i < max_levels-1; i++) {
        float scl = (float)std::pow(scl_fctr,(float)i);
        lvl_scl[i] = scl;

        lvl_best[i] = ceil((max_feat / scl_sum) / lvl_scl[i]);
        feat_sum += lvl_best[i];
    }
    lvl_scl[max_levels-1] = (float)std::pow(scl_fctr,(float)max_levels-1);
    lvl_best[max_levels-1] = max_feat - feat_sum;

    // Hold multi-scale image pyramids
    static const dim4 dims0;
    static const CParam<T> emptyCParam(NULL, dims0.get(), dims0.get());
    // Need to do this as CParam does not have a default constructor
    // And resize needs a default constructor or default value prior to C++11
    img_pyr.resize(max_levels, emptyCParam);

    // Create multi-scale image pyramid
    for (unsigned i = 0; i < max_levels; i++) {
        if (i == 0) {
            // First level is used in its original size
            img_pyr[i].ptr = in.ptr;
            for (int k = 0; k < 4; k++) {
                img_pyr[i].dims[k] = in.dims[k];
                img_pyr[i].strides[k] = in.strides[k];
            }
        }
        else {
            // Resize previous level image to current level dimensions
            Param<T> lvl_img;
            lvl_img.dims[0] = round(in.dims[0] / lvl_scl[i]);
            lvl_img.dims[1] = round(in.dims[1] / lvl_scl[i]);
            lvl_img.strides[0] = 1;
            lvl_img.strides[1] = lvl_img.dims[0] * lvl_img.strides[0];

            for (int k = 2; k < 4; k++) {
                lvl_img.dims[k] = 1;
                lvl_img.strides[k] = lvl_img.dims[k - 1] * lvl_img.strides[k - 1];
            }

            int lvl_elem = lvl_img.strides[3] * lvl_img.dims[3];
            lvl_img.ptr = memAlloc<T>(lvl_elem);

            resize<T, AF_INTERP_BILINEAR>(lvl_img, img_pyr[i-1]);

            img_pyr[i].ptr = lvl_img.ptr;
            for (int k = 0; k < 4; k++) {
                img_pyr[i].dims[k] = lvl_img.dims[k];
                img_pyr[i].strides[k] = lvl_img.strides[k];
            }
        }
    }

    feat_pyr.resize(max_levels);
    d_x_pyr.resize(max_levels);
    d_y_pyr.resize(max_levels);

    for (unsigned i = 0; i < max_levels; i++) {
        unsigned lvl_feat = 0;
        float* d_x_feat = NULL;
        float* d_y_feat = NULL;
        float* d_score_feat = NULL;

        // Round feature size to nearest odd integer
        float size = 2.f * floor(patch_size / 2.f) + 1.f;

        // Avoid keeping features that are too wide and might not fit the image,
        // sqrt(2.f) is the radius when angle is 45 degrees and represents
        // widest case possible
        unsigned edge = ceil(size * sqrt(2.f) / 2.f);

        // Detects FAST features
        fast(&lvl_feat, &d_x_feat, &d_y_feat, &d_score_feat,
             img_pyr[i], fast_thr, 9, 1, 0.15f, edge);

        // FAST score is not used
        memFree(d_score_feat);

        if (lvl_feat == 0) {
            feat_pyr[i] = 0;
            d_x_pyr[i] = NULL;
            d_x_pyr[i] = NULL;
        }
        else {
            feat_pyr[i] = lvl_feat;
            d_x_pyr[i] = d_x_feat;
            d_y_pyr[i] = d_y_feat;
        }
    }
}
コード例 #6
0
ファイル: array.cpp プロジェクト: FloopCZ/arrayfire
    // Assign values to an array
    array::array_proxy&
    af::array::array_proxy::operator=(const array &other)
    {
        unsigned nd = numDims(impl->parent_->get());
        const dim4 this_dims = getDims(impl->parent_->get());
        const dim4 other_dims = other.dims();
        int dim = gforDim(impl->indices_);
        af_array other_arr = other.get();

        bool batch_assign = false;
        bool is_reordered = false;
        if (dim >= 0) {
            //FIXME: Figure out a faster, cleaner way to do this
            dim4 out_dims = seqToDims(impl->indices_, this_dims, false);

            batch_assign = true;
            for (int i = 0; i < AF_MAX_DIMS; i++) {
                if (this->impl->indices_[i].isBatch) batch_assign &= (other_dims[i] == 1);
                else                          batch_assign &= (other_dims[i] == out_dims[i]);
            }

            if (batch_assign) {
                af_array out;
                AF_THROW(af_tile(&out, other_arr,
                                 out_dims[0] / other_dims[0],
                                 out_dims[1] / other_dims[1],
                                 out_dims[2] / other_dims[2],
                                 out_dims[3] / other_dims[3]));
                other_arr = out;

            } else if (out_dims != other_dims) {
                // HACK: This is a quick check to see if other has been reordered inside gfor
                // TODO: Figure out if this breaks and implement a cleaner method
                other_arr = gforReorder(other_arr, dim);
                is_reordered = true;
            }
        }

        af_array par_arr = 0;

        if (impl->is_linear_) {
            AF_THROW(af_flat(&par_arr, impl->parent_->get()));
            nd = 1;
        } else {
            par_arr = impl->parent_->get();
        }

        af_array tmp = 0;
        AF_THROW(af_assign_gen(&tmp, par_arr, nd, impl->indices_, other_arr));

        af_array res = 0;
        if (impl->is_linear_) {
            AF_THROW(af_moddims(&res, tmp, this_dims.ndims(), this_dims.get()));
            AF_THROW(af_release_array(par_arr));
            AF_THROW(af_release_array(tmp));
        } else {
            res = tmp;
        }

        impl->parent_->set(res);

        if (dim >= 0 && (is_reordered || batch_assign)) {
            if (other_arr) AF_THROW(af_release_array(other_arr));
        }
        return *this;
    }
コード例 #7
0
ファイル: array.cpp プロジェクト: FloopCZ/arrayfire
 array::array(const array& input, const dim4& dims) : arr(0)
 {
     AF_THROW(af_moddims(&arr, input.get(), AF_MAX_DIMS, dims.get()));
 }
コード例 #8
0
ファイル: data.cpp プロジェクト: PierreBizouard/arrayfire
 array moddims(const array& in, const dim4& dims)
 {
     return af::moddims(in, dims.ndims(), dims.get());
 }
コード例 #9
0
ファイル: data.cpp プロジェクト: PierreBizouard/arrayfire
 array identity(const dim4 &dims, const af::dtype type)
 {
     af_array res;
     AF_THROW(af_identity(&res, dims.ndims(), dims.get(), type));
     return array(res);
 }
コード例 #10
0
ファイル: data.cpp プロジェクト: PierreBizouard/arrayfire
 array iota(const dim4 &dims, const dim4 &tile_dims, const af::dtype ty)
 {
     af_array out;
     AF_THROW(af_iota(&out, dims.ndims(), dims.get(), tile_dims.ndims(), tile_dims.get(), ty));
     return array(out);
 }
コード例 #11
0
ファイル: data.cpp プロジェクト: PierreBizouard/arrayfire
 array range(const dim4 &dims, const int seq_dim, const af::dtype ty)
 {
     af_array out;
     AF_THROW(af_range(&out, dims.ndims(), dims.get(), seq_dim, ty));
     return array(out);
 }
コード例 #12
0
ファイル: data.cpp プロジェクト: PierreBizouard/arrayfire
 array randn(const dim4 &dims, const af::dtype type)
 {
     af_array res;
     AF_THROW(af_randn(&res, dims.ndims(), dims.get(), type));
     return array(res);
 }
コード例 #13
0
ファイル: data.cpp プロジェクト: maolingao/arrayfire
 array iota(const dim4 &dims, const unsigned rep, af_dtype ty)
 {
     af_array out;
     AF_THROW(af_iota(&out, dims.ndims(), dims.get(), rep, ty));
     return array(out);
 }
コード例 #14
0
ファイル: data.cpp プロジェクト: maolingao/arrayfire
 array constant(double val, const dim4 &dims, af_dtype type)
 {
     af_array res;
     AF_THROW(af_constant(&res, val, dims.ndims(), dims.get(), type));
     return array(res);
 }
コード例 #15
0
ファイル: random.cpp プロジェクト: munnybearz/arrayfire
 array randn(const dim4 &dims, const dtype ty, randomEngine &r)
 {
     af_array out;
     AF_THROW(af_random_normal(&out, dims.ndims(), dims.get(), ty, r.get()));
     return array(out);
 }