Class: Numo::UInt32

Inherits:
NArray show all
Defined in:
ext/numo/narray/types/uint32.c

Constant Summary

UPCAST =
hCast
ELEMENT_BIT_SIZE =
INT2FIX(sizeof(dtype)*8)
ELEMENT_BYTE_SIZE =
INT2FIX(sizeof(dtype))
CONTIGUOUS_STRIDE =
INT2FIX(sizeof(dtype))

Constants inherited from NArray

NArray::VERSION

Class Method Summary collapse

Instance Method Summary collapse

Methods inherited from NArray

#==, #append, array_type, asarray, #at, byte_size, #byte_size, #byte_swapped?, #cast_to, #coerce, #column_major?, column_stack, concatenate, #concatenate, #contiguous?, debug=, #debug_info, #deg2rad, #delete, #diagonal, #diff, #dot, #dsplit, dstack, #empty?, #expand_dims, eye, #flatten, #fliplr, #flipud, from_binary, #host_order?, #hsplit, hstack, #initialize, #initialize_copy, #inplace, #inplace!, #inplace?, #insert, inspect_cols, inspect_cols=, inspect_rows, inspect_rows=, linspace, logspace, #marshal_dump, #marshal_load, #ndim, #new_fill, new_like, #new_narray, #new_ones, #new_zeros, ones, #out_of_place!, profile, profile=, #rad2deg, #repeat, #reshape, #reverse, #rot90, #row_major?, #shape, #size, #split, srand, #store_binary, #swap_byte, #swapaxes, #tile, #to_binary, #to_c, #to_f, #to_host, #to_i, #to_network, #to_swapped, #to_vacs, #transpose, upcast, #view, #vsplit, vstack, zeros

Constructor Details

This class inherits a constructor from Numo::NArray

Class Method Details

.[](elements) ⇒ Numo::UInt32 .cast(array) ⇒ Numo::UInt32

Cast object to Numo::UInt32.

Parameters:

  • elements (Numeric, Array)
  • array (Array)

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 1259

static VALUE
uint32_s_cast(VALUE type, VALUE obj)
{
    VALUE v;
    narray_t *na;
    dtype x;

    if (CLASS_OF(obj)==cT) {
        return obj;
    }
    if (RTEST(rb_obj_is_kind_of(obj,rb_cNumeric))) {
        x = m_num_to_data(obj);
        return uint32_new_dim0(x);
    }
    if (RTEST(rb_obj_is_kind_of(obj,rb_cArray))) {
        return uint32_cast_array(obj);
    }
    if (IsNArray(obj)) {
        GetNArray(obj,na);
        v = nary_new(cT, NA_NDIM(na), NA_SHAPE(na));
        if (NA_SIZE(na) > 0) {
            uint32_store(v,obj);
        }
        return v;
    }
    
#line 41 "gen/tmpl/cast.c"
    rb_raise(nary_eCastError,"cannot cast to %s",rb_class2name(type));
    return Qnil;
    
}

.[](elements) ⇒ Numo::UInt32 .cast(array) ⇒ Numo::UInt32

Cast object to Numo::UInt32.

Parameters:

  • elements (Numeric, Array)
  • array (Array)

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 1259

static VALUE
uint32_s_cast(VALUE type, VALUE obj)
{
    VALUE v;
    narray_t *na;
    dtype x;

    if (CLASS_OF(obj)==cT) {
        return obj;
    }
    if (RTEST(rb_obj_is_kind_of(obj,rb_cNumeric))) {
        x = m_num_to_data(obj);
        return uint32_new_dim0(x);
    }
    if (RTEST(rb_obj_is_kind_of(obj,rb_cArray))) {
        return uint32_cast_array(obj);
    }
    if (IsNArray(obj)) {
        GetNArray(obj,na);
        v = nary_new(cT, NA_NDIM(na), NA_SHAPE(na));
        if (NA_SIZE(na) > 0) {
            uint32_store(v,obj);
        }
        return v;
    }
    
#line 41 "gen/tmpl/cast.c"
    rb_raise(nary_eCastError,"cannot cast to %s",rb_class2name(type));
    return Qnil;
    
}

Instance Method Details

#%(other) ⇒ Numo::NArray

Binary mod.

Parameters:

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 2243

static VALUE
uint32_mod(VALUE self, VALUE other)
{
    
#line 48 "gen/tmpl/binary.c"
    VALUE klass, v;
    klass = na_upcast(CLASS_OF(self),CLASS_OF(other));
    if (klass==cT) {
        return uint32_mod_self(self, other);
    } else {
        v = rb_funcall(klass, id_cast, 1, self);
        return rb_funcall(v, '%', 1, other);
    }
    
}

#&(other) ⇒ Numo::NArray

Binary bit_and.

Parameters:

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 2801

static VALUE
uint32_bit_and(VALUE self, VALUE other)
{
    
#line 48 "gen/tmpl/binary.c"
    VALUE klass, v;
    klass = na_upcast(CLASS_OF(self),CLASS_OF(other));
    if (klass==cT) {
        return uint32_bit_and_self(self, other);
    } else {
        v = rb_funcall(klass, id_cast, 1, self);
        return rb_funcall(v, '&', 1, other);
    }
    
}

#*(other) ⇒ Numo::NArray

Binary mul.

Parameters:

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 2125

static VALUE
uint32_mul(VALUE self, VALUE other)
{
    
#line 48 "gen/tmpl/binary.c"
    VALUE klass, v;
    klass = na_upcast(CLASS_OF(self),CLASS_OF(other));
    if (klass==cT) {
        return uint32_mul_self(self, other);
    } else {
        v = rb_funcall(klass, id_cast, 1, self);
        return rb_funcall(v, '*', 1, other);
    }
    
}

#**(other) ⇒ Numo::NArray

Binary power.

Parameters:

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 2384

static VALUE
uint32_pow(VALUE self, VALUE other)
{
    
#line 69 "gen/tmpl/pow.c"
    VALUE klass, v;
    klass = na_upcast(CLASS_OF(self),CLASS_OF(other));
    if (klass==cT) {
        return uint32_pow_self(self,other);
    } else {
        v = rb_funcall(klass, id_cast, 1, self);
        return rb_funcall(v, id_pow, 1, other);
    }
    
}

#+(other) ⇒ Numo::NArray

Binary add.

Parameters:

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 2017

static VALUE
uint32_add(VALUE self, VALUE other)
{
    
#line 48 "gen/tmpl/binary.c"
    VALUE klass, v;
    klass = na_upcast(CLASS_OF(self),CLASS_OF(other));
    if (klass==cT) {
        return uint32_add_self(self, other);
    } else {
        v = rb_funcall(klass, id_cast, 1, self);
        return rb_funcall(v, '+', 1, other);
    }
    
}

#-(other) ⇒ Numo::NArray

Binary sub.

Parameters:

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 2071

static VALUE
uint32_sub(VALUE self, VALUE other)
{
    
#line 48 "gen/tmpl/binary.c"
    VALUE klass, v;
    klass = na_upcast(CLASS_OF(self),CLASS_OF(other));
    if (klass==cT) {
        return uint32_sub_self(self, other);
    } else {
        v = rb_funcall(klass, id_cast, 1, self);
        return rb_funcall(v, '-', 1, other);
    }
    
}

#-@Numo::UInt32

Unary minus.

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 2451

static VALUE
uint32_minus(VALUE self)
{
    ndfunc_arg_in_t ain[1] = {{cT,0}};
    ndfunc_arg_out_t aout[1] = {{cT,0}};
    ndfunc_t ndf = {iter_uint32_minus, FULL_LOOP, 1,1, ain,aout};

    return na_ndloop(&ndf, 1, self);
}

#/(other) ⇒ Numo::NArray

Binary div.

Parameters:

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 2184

static VALUE
uint32_div(VALUE self, VALUE other)
{
    
#line 48 "gen/tmpl/binary.c"
    VALUE klass, v;
    klass = na_upcast(CLASS_OF(self),CLASS_OF(other));
    if (klass==cT) {
        return uint32_div_self(self, other);
    } else {
        v = rb_funcall(klass, id_cast, 1, self);
        return rb_funcall(v, '/', 1, other);
    }
    
}

#<<(other) ⇒ Numo::NArray

Binary left_shift.

Parameters:

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 3024

static VALUE
uint32_left_shift(VALUE self, VALUE other)
{
    
#line 48 "gen/tmpl/binary.c"
    VALUE klass, v;
    klass = na_upcast(CLASS_OF(self),CLASS_OF(other));
    if (klass==cT) {
        return uint32_left_shift_self(self, other);
    } else {
        v = rb_funcall(klass, id_cast, 1, self);
        return rb_funcall(v, id_left_shift, 1, other);
    }
    
}

#>>(other) ⇒ Numo::NArray

Binary right_shift.

Parameters:

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 3078

static VALUE
uint32_right_shift(VALUE self, VALUE other)
{
    
#line 48 "gen/tmpl/binary.c"
    VALUE klass, v;
    klass = na_upcast(CLASS_OF(self),CLASS_OF(other));
    if (klass==cT) {
        return uint32_right_shift_self(self, other);
    } else {
        v = rb_funcall(klass, id_cast, 1, self);
        return rb_funcall(v, id_right_shift, 1, other);
    }
    
}

#[](dim0, ..., dimL) ⇒ Numeric, NArray::UInt32

Array element referenece or slice view. — Returns the element at dim0, dim1, … are Numeric indices for each dimension, or returns a NArray View as a sliced subarray if dim0, dim1, … includes other than Numeric index, e.g., Range or Array or true.

Examples:

a = Numo::DFloat.new(4,5).seq
=> Numo::DFloat#shape=[4,5]
[[0, 1, 2, 3, 4],
 [5, 6, 7, 8, 9],
 [10, 11, 12, 13, 14],
 [15, 16, 17, 18, 19]]

a[1,1]
=> 6.0

a[1..3,1]
=> Numo::DFloat#shape=[3]
[6, 11, 16]

a[1,[1,3,4]]
=> Numo::DFloat#shape=[3]
[6, 8, 9]

a[true,2].fill(99)
a
=> Numo::DFloat#shape=[4,5]
[[0, 1, 99, 3, 4],
 [5, 6, 99, 8, 9],
 [10, 11, 99, 13, 14],
 [15, 16, 99, 18, 19]]

Parameters:

  • dim0,...,dimL (Numeric, Range, etc)

    Multi-dimensional Index.

Returns:

  • (Numeric, NArray::UInt32)

    Element object or NArray view.



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# File 'ext/numo/narray/types/uint32.c', line 1331

static VALUE
uint32_aref(int argc, VALUE *argv, VALUE self)
{
    int nd;
    size_t pos;
    char *ptr;

    nd = na_get_result_dimension(self, argc, argv, sizeof(dtype), &pos);
    if (nd) {
        return na_aref_main(argc, argv, self, 0, nd);
    } else {
        ptr = na_get_pointer_for_read(self) + pos;
        return m_extract(ptr);
    }
}

#[]=(dim0, .., dimL, val) ⇒ Numeric

Array element(s) set. — Replace element(s) at dim0, dim1, … (index/range/array/true for each dimention). Broadcasting mechanism is applied.

Examples:

a = Numo::DFloat.new(3,4).seq
=> Numo::DFloat#shape=[3,4]
[[0, 1, 2, 3],
 [4, 5, 6, 7],
 [8, 9, 10, 11]]

a[1,2]=99
a
=> Numo::DFloat#shape=[3,4]
[[0, 1, 2, 3],
 [4, 5, 99, 7],
 [8, 9, 10, 11]]

a[1,[0,2]] = [101,102]
a
=> Numo::DFloat#shape=[3,4]
[[0, 1, 2, 3],
 [101, 5, 102, 7],
 [8, 9, 10, 11]]

a[1,true]=99
a
=> Numo::DFloat#shape=[3,4]
[[0, 1, 2, 3],
 [99, 99, 99, 99],
 [8, 9, 10, 11]]

Parameters:

  • dim0,..,dimL (Numeric, Range, etc)

    Multi-dimensional Index.

  • val (Numeric, Numo::NArray, etc)

    Value(s) to be set to self.

Returns:

  • (Numeric)

    returns val (last argument).



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# File 'ext/numo/narray/types/uint32.c', line 1388

static VALUE
uint32_aset(int argc, VALUE *argv, VALUE self)
{
    int nd;
    size_t pos;
    char *ptr;
    VALUE a;
    dtype x;

    argc--;
    if (argc==0) {
        uint32_store(self, argv[argc]);
    } else {
        nd = na_get_result_dimension(self, argc, argv, sizeof(dtype), &pos);
        if (nd) {
            a = na_aref_main(argc, argv, self, 0, nd);
            uint32_store(a, argv[argc]);
        } else {
            x = uint32_extract_data(argv[argc]);
            ptr = na_get_pointer_for_read_write(self) + pos;
            *(dtype*)ptr = x;
        }

    }
    return argv[argc];
}

#^(other) ⇒ Numo::NArray

Binary bit_xor.

Parameters:

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 2909

static VALUE
uint32_bit_xor(VALUE self, VALUE other)
{
    
#line 48 "gen/tmpl/binary.c"
    VALUE klass, v;
    klass = na_upcast(CLASS_OF(self),CLASS_OF(other));
    if (klass==cT) {
        return uint32_bit_xor_self(self, other);
    } else {
        v = rb_funcall(klass, id_cast, 1, self);
        return rb_funcall(v, '^', 1, other);
    }
    
}

#absNumo::UInt32

abs of self.

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 1969

static VALUE
uint32_abs(VALUE self)
{
    ndfunc_arg_in_t ain[1] = {{cT,0}};
    ndfunc_arg_out_t aout[1] = {{cRT,0}};
    ndfunc_t ndf = { iter_uint32_abs, FULL_LOOP, 1, 1, ain, aout };

    return na_ndloop(&ndf, 1, self);
}

#allocateObject



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# File 'ext/numo/narray/types/uint32.c', line 136

static VALUE
uint32_allocate(VALUE self)
{
    narray_t *na;
    char *ptr;

    GetNArray(self,na);

    switch(NA_TYPE(na)) {
    case NARRAY_DATA_T:
        ptr = NA_DATA_PTR(na);
        if (na->size > 0 && ptr == NULL) {
            ptr = xmalloc(sizeof(dtype) * na->size);
            
#line 22 "gen/tmpl/allocate.c"
            NA_DATA_PTR(na) = ptr;
        }
        break;
    case NARRAY_VIEW_T:
        rb_funcall(NA_VIEW_DATA(na), rb_intern("allocate"), 0);
        break;
    case NARRAY_FILEMAP_T:
        //ptr = ((narray_filemap_t*)na)->ptr;
        // to be implemented
    default:
        rb_bug("invalid narray type : %d",NA_TYPE(na));
    }
    return self;
}

#bincount([weight], minlength: nil) ⇒ UInt32 or UInt64 or SFloat or DFloat

Count the number of occurrences of each non-negative integer value. Only Integer-types has this method.

Examples:

Numo::Int32[0..4].bincount
=> Numo::UInt32#shape=[5]
   [1, 1, 1, 1, 1]

Numo::Int32[0, 1, 1, 3, 2, 1, 7].bincount
=> Numo::UInt32#shape=[8]
   [1, 3, 1, 1, 0, 0, 0, 1]

x = Numo::Int32[0, 1, 1, 3, 2, 1, 7, 23]
x.bincount.size == x.max+1
=> true

w = Numo::DFloat[0.3, 0.5, 0.2, 0.7, 1.0, -0.6]
x = Numo::Int32[0, 1, 1, 2, 2, 2]
x.bincount(w)
=> Numo::DFloat#shape=[3]
   [0.3, 0.7, 1.1]

Parameters:

  • weight (SFloat or DFloat or Array)

    (optional) Array of float values. Its size along last axis should be same as that of self.

  • minlength (Integer)

    (keyword, optional) Minimum size along last axis for the output array.

Returns:

  • (UInt32 or UInt64 or SFloat or DFloat)

    Returns Float NArray if weight array is supplied, otherwise returns UInt32 or UInt64 depending on the size along last axis.



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# File 'ext/numo/narray/types/uint32.c', line 4107

static VALUE
uint32_bincount(int argc, VALUE *argv, VALUE self)
{
    VALUE weight=Qnil, kw=Qnil;
    VALUE opts[1] = {Qundef};
    VALUE v, wclass;
    ID table[1] = {id_minlength};
    size_t length, minlength;

    rb_scan_args(argc, argv, "01:", &weight, &kw);
    rb_get_kwargs(kw, table, 0, 1, opts);

  
    v = uint32_max(0,0,self);
  
#line 157 "gen/tmpl/bincount.c"
    length = NUM2SIZET(v) + 1;

    if (opts[0] != Qundef) {
        minlength = NUM2SIZET(opts[0]);
        if (minlength > length) {
            length = minlength;
        }
    }

    if (NIL_P(weight)) {
        if (length > 4294967295ul) {
            return uint32_bincount_64(self, length);
        } else {
            return uint32_bincount_32(self, length);
        }
    } else {
        wclass = CLASS_OF(weight);
        if (wclass == numo_cSFloat) {
            return uint32_bincount_sf(self, weight, length);
        } else {
            return uint32_bincount_df(self, weight, length);
        }
    }
}

#clip(min, max) ⇒ Numo::NArray

Clip array elements by [min,max]. If either of min or max is nil, one side is clipped.

Examples:

a = Numo::Int32.new(10).seq
p a.clip(1,8)
# Numo::Int32#shape=[10]
# [1, 1, 2, 3, 4, 5, 6, 7, 8, 8]

p a
# Numo::Int32#shape=[10]
# [0, 1, 2, 3, 4, 5, 6, 7, 8, 9]

p a.inplace.clip(3,6)
# Numo::Int32(view)#shape=[10]
# [3, 3, 3, 3, 4, 5, 6, 6, 6, 6]

p a
# Numo::Int32#shape=[10]
# [3, 3, 3, 3, 4, 5, 6, 6, 6, 6]

p a = Numo::Int32.new(10).seq
# Numo::Int32#shape=[10]
# [0, 1, 2, 3, 4, 5, 6, 7, 8, 9]

p a.clip([3,4,1,1,1,4,4,4,4,4], 8)
# Numo::Int32#shape=[10]
# [3, 4, 2, 3, 4, 5, 6, 7, 8, 8]

Parameters:

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 3428

static VALUE
uint32_clip(VALUE self, VALUE min, VALUE max)
{
    ndfunc_arg_in_t ain[3] = {{Qnil,0},{cT,0},{cT,0}};
    ndfunc_arg_out_t aout[1] = {{cT,0}};
    ndfunc_t ndf_min = { iter_uint32_clip_min, STRIDE_LOOP, 2, 1, ain, aout };
    ndfunc_t ndf_max = { iter_uint32_clip_max, STRIDE_LOOP, 2, 1, ain, aout };
    ndfunc_t ndf_both = { iter_uint32_clip, STRIDE_LOOP, 3, 1, ain, aout };

    if (RTEST(min)) {
        if (RTEST(max)) {
            return na_ndloop(&ndf_both, 3, self, min, max);
        } else {
            return na_ndloop(&ndf_min, 2, self, min);
        }
    } else {
        if (RTEST(max)) {
            return na_ndloop(&ndf_max, 2, self, max);
        }
    }
    rb_raise(rb_eArgError,"min and max are not given");
    return Qnil;
}

#coerce_cast(type) ⇒ nil

return NArray with cast to the type of self.

Returns:

  • (nil)


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# File 'ext/numo/narray/types/uint32.c', line 1422

static VALUE
uint32_coerce_cast(VALUE self, VALUE type)
{
    return Qnil;
}

#cumprod(axis: nil, nan: false) ⇒ Numo::UInt32

cumprod of self.

Parameters:

  • axis (Numeric, Array, Range)

    Affected dimensions.

  • nan (TrueClass)

    If true, apply NaN-aware algorithm (avoid NaN if exists).

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 4234

static VALUE
uint32_cumprod(int argc, VALUE *argv, VALUE self)
{
    VALUE reduce;
    ndfunc_arg_in_t ain[2] = {{cT,0},{sym_reduce,0}};
    ndfunc_arg_out_t aout[1] = {{cT,0}};
    ndfunc_t ndf = { iter_uint32_cumprod, STRIDE_LOOP|NDF_FLAT_REDUCE|NDF_CUM,
                     2, 1, ain, aout };

  
#line 46 "gen/tmpl/cum.c"
    reduce = na_reduce_dimension(argc, argv, 1, &self, &ndf, 0);
  
    return na_ndloop(&ndf, 2, self, reduce);
}

#cumsum(axis: nil, nan: false) ⇒ Numo::UInt32

cumsum of self.

Parameters:

  • axis (Numeric, Array, Range)

    Affected dimensions.

  • nan (TrueClass)

    If true, apply NaN-aware algorithm (avoid NaN if exists).

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 4183

static VALUE
uint32_cumsum(int argc, VALUE *argv, VALUE self)
{
    VALUE reduce;
    ndfunc_arg_in_t ain[2] = {{cT,0},{sym_reduce,0}};
    ndfunc_arg_out_t aout[1] = {{cT,0}};
    ndfunc_t ndf = { iter_uint32_cumsum, STRIDE_LOOP|NDF_FLAT_REDUCE|NDF_CUM,
                     2, 1, ain, aout };

  
#line 46 "gen/tmpl/cum.c"
    reduce = na_reduce_dimension(argc, argv, 1, &self, &ndf, 0);
  
    return na_ndloop(&ndf, 2, self, reduce);
}

#divmod(other) ⇒ Numo::NArray

Binary divmod.

Parameters:

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 2304

static VALUE
uint32_divmod(VALUE self, VALUE other)
{
    
#line 50 "gen/tmpl/binary2.c"
    VALUE klass, v;
    klass = na_upcast(CLASS_OF(self),CLASS_OF(other));
    if (klass==cT) {
        return uint32_divmod_self(self, other);
    } else {
        v = rb_funcall(klass, id_cast, 1, self);
        return rb_funcall(v, id_divmod, 1, other);
    }
    
}

#eachNumo::NArray

Calls the given block once for each element in self, passing that element as a parameter. For a block {|x| … }

Yields:

  • (x)

    x is element of NArray.

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 1683

static VALUE
uint32_each(VALUE self)
{
    ndfunc_arg_in_t ain[1] = {{Qnil,0}};
    ndfunc_t ndf = {iter_uint32_each, FULL_LOOP_NIP, 1,0, ain,0};

    na_ndloop(&ndf, 1, self);
    return self;
}

#each_with_indexNumo::NArray

Invokes the given block once for each element of self, passing that element and indices along each axis as parameters. For a block {|x,i,j,…| … }

Yields:

  • (x, i, j, ...)

    x is an element, i,j,… are multidimensional indices.

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 1811

static VALUE
uint32_each_with_index(VALUE self)
{
    ndfunc_arg_in_t ain[1] = {{Qnil,0}};
    ndfunc_t ndf = {iter_uint32_each_with_index, FULL_LOOP_NIP, 1,0, ain,0};

    na_ndloop_with_index(&ndf, 1, self);
    return self;
}

#eq(other) ⇒ Numo::Bit Also known as: nearly_eq

Comparison eq other.

Parameters:

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 2688

static VALUE
uint32_eq(VALUE self, VALUE other)
{
    
#line 46 "gen/tmpl/cond_binary.c"
    VALUE klass, v;
    klass = na_upcast(CLASS_OF(self),CLASS_OF(other));
    if (klass==cT) {
        return uint32_eq_self(self, other);
    } else {
        v = rb_funcall(klass, id_cast, 1, self);
        return rb_funcall(v, id_eq, 1, other);
    }
    
}

#extractNumeric, Numo::NArray

Extract an element only if self is a dimensionless NArray. — Extract element value as Ruby Object if self is a dimensionless NArray, otherwise returns self.

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 175

static VALUE
uint32_extract(VALUE self)
{
    volatile VALUE v;
    char *ptr;
    narray_t *na;
    GetNArray(self,na);

    if (na->ndim==0) {
        ptr = na_get_pointer_for_read(self) + na_get_offset(self);
        v = m_extract(ptr);
        na_release_lock(self);
        return v;
    }
    return self;
}

#eye([element,offset]) ⇒ Numo::UInt32

Eye: Set a value to diagonal components, set 0 to non-diagonal components.

Parameters:

  • element (Numeric)

    Diagonal element to be stored. Default is 1.

  • offset (Integer)

    Diagonal offset from the main diagonal. The default is 0. k>0 for diagonals above the main diagonal, and k<0 for diagonals below the main diagonal.

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 4469

static VALUE
uint32_eye(int argc, VALUE *argv, VALUE self)
{
    ndfunc_arg_in_t ain[1] = {{OVERWRITE,2}};
    ndfunc_t ndf = {iter_uint32_eye, NO_LOOP, 1,0, ain,0};
    ssize_t kofs;
    dtype data;
    char *g;
    int nd;
    narray_t *na;

    // check arguments
    if (argc > 2) {
        rb_raise(rb_eArgError,"too many arguments (%d for 0..2)",argc);
    } else if (argc == 2) {
        data = m_num_to_data(argv[0]);
        kofs = NUM2SSIZET(argv[1]);
    } else if (argc == 1) {
        data = m_num_to_data(argv[0]);
        kofs = 0;
    } else {
        data = m_one;
        kofs = 0;
    }

    GetNArray(self,na);
    nd = na->ndim;
    if (nd < 2) {
        rb_raise(nary_eDimensionError,"less than 2-d array");
    }

    // Diagonal offset from the main diagonal.
    if (kofs >= 0) {
        if ((size_t)(kofs) >= na->shape[nd-1]) {
            rb_raise(rb_eArgError,"invalid diagonal offset(%"SZF"d) for "
                     "last dimension size(%"SZF"d)",kofs,na->shape[nd-1]);
        }
    } else {
        if ((size_t)(-kofs) >= na->shape[nd-2]) {
            rb_raise(rb_eArgError,"invalid diagonal offset(%"SZF"d) for "
                     "last-1 dimension size(%"SZF"d)",kofs,na->shape[nd-2]);
        }
    }

    g = ALLOCA_N(char,sizeof(ssize_t)+sizeof(dtype));
    *(ssize_t*)g = kofs;
    *(dtype*)(g+sizeof(ssize_t)) = data;

    na_ndloop3(&ndf, g, 1, self);
    return self;
}

#fill(other) ⇒ Numo::UInt32

Fill elements with other.

Parameters:

  • other (Numeric)

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 1503

static VALUE
uint32_fill(VALUE self, VALUE val)
{
    ndfunc_arg_in_t ain[2] = {{OVERWRITE,0},{sym_option}};
    ndfunc_t ndf = { iter_uint32_fill, FULL_LOOP, 2, 0, ain, 0 };

    na_ndloop(&ndf, 2, self, val);
    return self;
}

#format(format) ⇒ Numo::RObject

Format elements into strings.

Parameters:

  • format (String)

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 1563

static VALUE
uint32_format(int argc, VALUE *argv, VALUE self)
{
    VALUE fmt=Qnil;

    ndfunc_arg_in_t ain[2] = {{Qnil,0},{sym_option}};
    ndfunc_arg_out_t aout[1] = {{numo_cRObject,0}};
    ndfunc_t ndf = { iter_uint32_format, FULL_LOOP_NIP, 2, 1, ain, aout };

    rb_scan_args(argc, argv, "01", &fmt);
    return na_ndloop(&ndf, 2, self, fmt);
}

#format_to_a(format) ⇒ Array

Format elements into strings.

Parameters:

  • format (String)

Returns:

  • (Array)

    array of formated strings.



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# File 'ext/numo/narray/types/uint32.c', line 1614

static VALUE
uint32_format_to_a(int argc, VALUE *argv, VALUE self)
{
    volatile VALUE fmt=Qnil;
    ndfunc_arg_in_t ain[3] = {{Qnil,0},{sym_loop_opt},{sym_option}};
    ndfunc_arg_out_t aout[1] = {{rb_cArray,0}}; // dummy?
    ndfunc_t ndf = { iter_uint32_format_to_a, FULL_LOOP_NIP, 3, 1, ain, aout };

    rb_scan_args(argc, argv, "01", &fmt);
    return na_ndloop_cast_narray_to_rarray(&ndf, self, fmt);
}

#ge(other) ⇒ Numo::Bit Also known as: >=

Comparison ge other.

Parameters:

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 3197

static VALUE
uint32_ge(VALUE self, VALUE other)
{
    
#line 46 "gen/tmpl/cond_binary.c"
    VALUE klass, v;
    klass = na_upcast(CLASS_OF(self),CLASS_OF(other));
    if (klass==cT) {
        return uint32_ge_self(self, other);
    } else {
        v = rb_funcall(klass, id_cast, 1, self);
        return rb_funcall(v, id_ge, 1, other);
    }
    
}

#gt(other) ⇒ Numo::Bit Also known as: >

Comparison gt other.

Parameters:

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 3140

static VALUE
uint32_gt(VALUE self, VALUE other)
{
    
#line 46 "gen/tmpl/cond_binary.c"
    VALUE klass, v;
    klass = na_upcast(CLASS_OF(self),CLASS_OF(other));
    if (klass==cT) {
        return uint32_gt_self(self, other);
    } else {
        v = rb_funcall(klass, id_cast, 1, self);
        return rb_funcall(v, id_gt, 1, other);
    }
    
}

#inspectString

Returns a string containing a human-readable representation of NArray.

Returns:

  • (String)


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# File 'ext/numo/narray/types/uint32.c', line 1641

VALUE
uint32_inspect(VALUE ary)
{
    return na_ndloop_inspect(ary, iter_uint32_inspect, Qnil);
}

#le(other) ⇒ Numo::Bit Also known as: <=

Comparison le other.

Parameters:

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 3311

static VALUE
uint32_le(VALUE self, VALUE other)
{
    
#line 46 "gen/tmpl/cond_binary.c"
    VALUE klass, v;
    klass = na_upcast(CLASS_OF(self),CLASS_OF(other));
    if (klass==cT) {
        return uint32_le_self(self, other);
    } else {
        v = rb_funcall(klass, id_cast, 1, self);
        return rb_funcall(v, id_le, 1, other);
    }
    
}

#lt(other) ⇒ Numo::Bit Also known as: <

Comparison lt other.

Parameters:

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 3254

static VALUE
uint32_lt(VALUE self, VALUE other)
{
    
#line 46 "gen/tmpl/cond_binary.c"
    VALUE klass, v;
    klass = na_upcast(CLASS_OF(self),CLASS_OF(other));
    if (klass==cT) {
        return uint32_lt_self(self, other);
    } else {
        v = rb_funcall(klass, id_cast, 1, self);
        return rb_funcall(v, id_lt, 1, other);
    }
    
}

#mapNumo::UInt32

Unary map.

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 1744

static VALUE
uint32_map(VALUE self)
{
    ndfunc_arg_in_t ain[1] = {{cT,0}};
    ndfunc_arg_out_t aout[1] = {{cT,0}};
    ndfunc_t ndf = {iter_uint32_map, FULL_LOOP, 1,1, ain,aout};

    return na_ndloop(&ndf, 1, self);
}

#map_with_indexNumo::NArray

Invokes the given block once for each element of self, passing that element and indices along each axis as parameters. Creates a new NArray containing the values returned by the block. Inplace option is allowed, i.e., `nary.inplace.map` overwrites `nary`.

For a block {|x,i,j,…| … }

Yields:

  • (x, i, j, ...)

    x is an element, i,j,… are multidimensional indices.

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 1908

static VALUE
uint32_map_with_index(VALUE self)
{
    ndfunc_arg_in_t ain[1] = {{Qnil,0}};
    ndfunc_arg_out_t aout[1] = {{cT,0}};
    ndfunc_t ndf = {iter_uint32_map_with_index, FULL_LOOP, 1,1, ain,aout};

    return na_ndloop_with_index(&ndf, 1, self);
}

#max(axis: nil, keepdims: false) ⇒ Numo::UInt32

max of self.

Parameters:

  • axis (Numeric, Array, Range)

    (keyword) Affected dimensions.

  • keepdims (TrueClass)

    (keyword) If true, the reduced axes are left in the result array as dimensions with size one.

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 3609

static VALUE
uint32_max(int argc, VALUE *argv, VALUE self)
{
    VALUE v, reduce;
    ndfunc_arg_in_t ain[2] = {{cT,0},{sym_reduce,0}};
    ndfunc_arg_out_t aout[1] = {{cT,0}};
    ndfunc_t ndf = { iter_uint32_max, STRIDE_LOOP_NIP|NDF_FLAT_REDUCE, 2, 1, ain, aout };

  
#line 40 "gen/tmpl/accum.c"
    reduce = na_reduce_dimension(argc, argv, 1, &self, &ndf, 0);
  
    v =  na_ndloop(&ndf, 2, self, reduce);
  
    return uint32_extract(v);
  
#line 48 "gen/tmpl/accum.c"
}

#max_index(axis: nil) ⇒ Integer, Numo::Int

max_index. Return an index of result.

Examples:

Numo::NArray[3,4,1,2].min_index => 3

Parameters:

  • axis (Numeric, Array, Range)

    Affected dimensions.

Returns:

  • (Integer, Numo::Int)

    returns result index of max_index.



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# File 'ext/numo/narray/types/uint32.c', line 3724

static VALUE
uint32_max_index(int argc, VALUE *argv, VALUE self)
{
    narray_t *na;
    VALUE idx, reduce;
    ndfunc_arg_in_t ain[3] = {{Qnil,0},{Qnil,0},{sym_reduce,0}};
    ndfunc_arg_out_t aout[1] = {{0,0,0}};
    ndfunc_t ndf = {0, STRIDE_LOOP_NIP|NDF_FLAT_REDUCE|NDF_EXTRACT, 3,1, ain,aout};

    GetNArray(self,na);
    if (na->ndim==0) {
        return INT2FIX(0);
    }
    if (na->size > (~(u_int32_t)0)) {
        aout[0].type = numo_cInt64;
        idx = nary_new(numo_cInt64, na->ndim, na->shape);
        ndf.func = iter_uint32_max_index_index64;
      
#line 56 "gen/tmpl/accum_index.c"
        reduce = na_reduce_dimension(argc, argv, 1, &self, &ndf, 0);
      
    } else {
        aout[0].type = numo_cInt32;
        idx = nary_new(numo_cInt32, na->ndim, na->shape);
        ndf.func = iter_uint32_max_index_index32;
      
#line 65 "gen/tmpl/accum_index.c"
        reduce = na_reduce_dimension(argc, argv, 1, &self, &ndf, 0);
      
    }
    rb_funcall(idx, rb_intern("seq"), 0);

    return na_ndloop(&ndf, 3, self, idx, reduce);
}

#median(axis: nil, keepdims: false) ⇒ Numo::UInt32

median of self.

Parameters:

  • axis (Numeric, Array, Range)

    (keyword) Affected dimensions.

  • keepdims (TrueClass)

    (keyword) If true, the reduced axes are left in the result array as dimensions with size one.

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 5211

static VALUE
uint32_median(int argc, VALUE *argv, VALUE self)
{
    VALUE reduce;
    ndfunc_arg_in_t ain[2] = {{OVERWRITE,0},{sym_reduce,0}};
    ndfunc_arg_out_t aout[1] = {{INT2FIX(0),0}};
    ndfunc_t ndf = {0, NDF_HAS_LOOP|NDF_FLAT_REDUCE, 2,1, ain,aout};

    self = na_copy(self); // as temporary buffer
  
#line 60 "gen/tmpl/median.c"
    ndf.func = iter_uint32_median;
    reduce = na_reduce_dimension(argc, argv, 1, &self, &ndf, 0);
  
    return na_ndloop(&ndf, 2, self, reduce);
}

#min(axis: nil, keepdims: false) ⇒ Numo::UInt32

min of self.

Parameters:

  • axis (Numeric, Array, Range)

    (keyword) Affected dimensions.

  • keepdims (TrueClass)

    (keyword) If true, the reduced axes are left in the result array as dimensions with size one.

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 3565

static VALUE
uint32_min(int argc, VALUE *argv, VALUE self)
{
    VALUE v, reduce;
    ndfunc_arg_in_t ain[2] = {{cT,0},{sym_reduce,0}};
    ndfunc_arg_out_t aout[1] = {{cT,0}};
    ndfunc_t ndf = { iter_uint32_min, STRIDE_LOOP_NIP|NDF_FLAT_REDUCE, 2, 1, ain, aout };

  
#line 40 "gen/tmpl/accum.c"
    reduce = na_reduce_dimension(argc, argv, 1, &self, &ndf, 0);
  
    v =  na_ndloop(&ndf, 2, self, reduce);
  
    return uint32_extract(v);
  
#line 48 "gen/tmpl/accum.c"
}

#min_index(axis: nil) ⇒ Integer, Numo::Int

min_index. Return an index of result.

Examples:

Numo::NArray[3,4,1,2].min_index => 3

Parameters:

  • axis (Numeric, Array, Range)

    Affected dimensions.

Returns:

  • (Integer, Numo::Int)

    returns result index of min_index.



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# File 'ext/numo/narray/types/uint32.c', line 3811

static VALUE
uint32_min_index(int argc, VALUE *argv, VALUE self)
{
    narray_t *na;
    VALUE idx, reduce;
    ndfunc_arg_in_t ain[3] = {{Qnil,0},{Qnil,0},{sym_reduce,0}};
    ndfunc_arg_out_t aout[1] = {{0,0,0}};
    ndfunc_t ndf = {0, STRIDE_LOOP_NIP|NDF_FLAT_REDUCE|NDF_EXTRACT, 3,1, ain,aout};

    GetNArray(self,na);
    if (na->ndim==0) {
        return INT2FIX(0);
    }
    if (na->size > (~(u_int32_t)0)) {
        aout[0].type = numo_cInt64;
        idx = nary_new(numo_cInt64, na->ndim, na->shape);
        ndf.func = iter_uint32_min_index_index64;
      
#line 56 "gen/tmpl/accum_index.c"
        reduce = na_reduce_dimension(argc, argv, 1, &self, &ndf, 0);
      
    } else {
        aout[0].type = numo_cInt32;
        idx = nary_new(numo_cInt32, na->ndim, na->shape);
        ndf.func = iter_uint32_min_index_index32;
      
#line 65 "gen/tmpl/accum_index.c"
        reduce = na_reduce_dimension(argc, argv, 1, &self, &ndf, 0);
      
    }
    rb_funcall(idx, rb_intern("seq"), 0);

    return na_ndloop(&ndf, 3, self, idx, reduce);
}

#minmax(axis: nil, keepdims: false) ⇒ Numo::UInt32

minmax of self.

Parameters:

  • axis (Numeric, Array, Range)

    (keyword) Affected dimensions.

  • keepdims (TrueClass)

    (keyword) If true, the reduced axes are left in the result array as dimensions with size one.

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 3874

static VALUE
uint32_minmax(int argc, VALUE *argv, VALUE self)
{
    VALUE reduce;
    ndfunc_arg_in_t ain[2] = {{cT,0},{sym_reduce,0}};
    ndfunc_arg_out_t aout[2] = {{cT,0},{cT,0}};
    ndfunc_t ndf = {iter_uint32_minmax, STRIDE_LOOP_NIP|NDF_FLAT_REDUCE|NDF_EXTRACT, 2,2, ain,aout};

  
#line 43 "gen/tmpl/minmax.c"
    reduce = na_reduce_dimension(argc, argv, 1, &self, &ndf, 0);
  
    return na_ndloop(&ndf, 2, self, reduce);
}

#mulsum(other, axis: nil, keepdims: false) ⇒ Numo::NArray

Binary mulsum.

Parameters:

  • other (Numo::NArray, Numeric)
  • axis (Numeric, Array, Range)

    (keyword) Affected dimensions.

  • keepdims (TrueClass)

    (keyword) If true, the reduced axes are left in the result array as dimensions with size one.

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 4319

static VALUE
uint32_mulsum(int argc, VALUE *argv, VALUE self)
{
    
    VALUE klass, v;
    
    if (argc < 1) {
        rb_raise(rb_eArgError,"wrong number of arguments (%d for >=1)",argc);
    }
    
#line 88 "gen/tmpl/accum_binary.c"
    klass = na_upcast(CLASS_OF(self),CLASS_OF(argv[0]));
    if (klass==cT) {
        return uint32_mulsum_self(argc, argv, self);
    } else {
        v = rb_funcall(klass, id_cast, 1, self);
        return rb_funcall2(v, rb_intern("mulsum"), argc, argv);
    }
    
}

#ne(other) ⇒ Numo::Bit

Comparison ne other.

Parameters:

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 2745

static VALUE
uint32_ne(VALUE self, VALUE other)
{
    
#line 46 "gen/tmpl/cond_binary.c"
    VALUE klass, v;
    klass = na_upcast(CLASS_OF(self),CLASS_OF(other));
    if (klass==cT) {
        return uint32_ne_self(self, other);
    } else {
        v = rb_funcall(klass, id_cast, 1, self);
        return rb_funcall(v, id_ne, 1, other);
    }
    
}

#poly(a0, a1, ...) ⇒ Numo::UInt32

Polynomial.: a0 + a1*x + a2*x**2 + a3*x**3 + … + an*x**n

Parameters:

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 4676

static VALUE
uint32_poly(VALUE self, VALUE args)
{
    int argc, i;
    VALUE *argv;
    volatile VALUE v, a;
    ndfunc_arg_out_t aout[1] = {{cT,0}};
    ndfunc_t ndf = { iter_uint32_poly, NO_LOOP, 0, 1, 0, aout };

    argc = RARRAY_LEN(args);
    ndf.nin = argc+1;
    ndf.ain = ALLOCA_N(ndfunc_arg_in_t,argc+1);
    for (i=0; i<argc+1; i++) {
        ndf.ain[i].type = cT;
    }
    argv = ALLOCA_N(VALUE,argc+1);
    argv[0] = self;
    for (i=0; i<argc; i++) {
        argv[i+1] = RARRAY_PTR(args)[i];
    }
    a = rb_ary_new4(argc+1, argv);
    v = na_ndloop2(&ndf, a);
    return uint32_extract(v);
}

#prod(axis: nil, keepdims: false) ⇒ Numo::UInt32

prod of self.

Parameters:

  • axis (Numeric, Array, Range)

    (keyword) Affected dimensions.

  • keepdims (TrueClass)

    (keyword) If true, the reduced axes are left in the result array as dimensions with size one.

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 3521

static VALUE
uint32_prod(int argc, VALUE *argv, VALUE self)
{
    VALUE v, reduce;
    ndfunc_arg_in_t ain[2] = {{cT,0},{sym_reduce,0}};
    ndfunc_arg_out_t aout[1] = {{cT,0}};
    ndfunc_t ndf = { iter_uint32_prod, STRIDE_LOOP_NIP|NDF_FLAT_REDUCE, 2, 1, ain, aout };

  
#line 40 "gen/tmpl/accum.c"
    reduce = na_reduce_dimension(argc, argv, 1, &self, &ndf, 0);
  
    v =  na_ndloop(&ndf, 2, self, reduce);
  
    return uint32_extract(v);
  
#line 48 "gen/tmpl/accum.c"
}

#ptp(axis: nil, keepdims: false) ⇒ Numo::UInt32

ptp of self.

Parameters:

  • axis (Numeric, Array, Range)

    (keyword) Affected dimensions.

  • keepdims (TrueClass)

    (keyword) If true, the reduced axes are left in the result array as dimensions with size one.

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 3653

static VALUE
uint32_ptp(int argc, VALUE *argv, VALUE self)
{
    VALUE v, reduce;
    ndfunc_arg_in_t ain[2] = {{cT,0},{sym_reduce,0}};
    ndfunc_arg_out_t aout[1] = {{cT,0}};
    ndfunc_t ndf = { iter_uint32_ptp, STRIDE_LOOP_NIP|NDF_FLAT_REDUCE, 2, 1, ain, aout };

  
#line 40 "gen/tmpl/accum.c"
    reduce = na_reduce_dimension(argc, argv, 1, &self, &ndf, 0);
  
    v =  na_ndloop(&ndf, 2, self, reduce);
  
    return uint32_extract(v);
  
#line 48 "gen/tmpl/accum.c"
}

#rand([[low],high]) ⇒ Numo::UInt32

Generate uniformly distributed random numbers on self narray.

Examples:

Numo::DFloat.new(6).rand
=> Numo::DFloat#shape=[6]
   [0.0617545, 0.373067, 0.794815, 0.201042, 0.116041, 0.344032]
Numo::DComplex.new(6).rand(5+5i)
=> Numo::DComplex#shape=[6]
   [2.69974+3.68908i, 0.825443+0.254414i, 0.540323+0.34354i, 4.52061+2.39322i, ...]
Numo::Int32.new(6).rand(2,5)
=> Numo::Int32#shape=[6]
   [4, 3, 3, 2, 4, 2]

Parameters:

  • low (Numeric)

    lower inclusive boundary of random numbers. (default=0)

  • high (Numeric)

    upper exclusive boundary of random numbers. (default=1 or 1+1i for complex types)

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 4619

static VALUE
uint32_rand(int argc, VALUE *args, VALUE self)
{
    rand_opt_t g;
    VALUE v1=Qnil, v2=Qnil;
    dtype high;
    ndfunc_arg_in_t ain[1] = {{OVERWRITE,0}};
    ndfunc_t ndf = {iter_uint32_rand, FULL_LOOP, 1,0, ain,0};

    
    rb_scan_args(argc, args, "11", &v1, &v2);
    if (v2==Qnil) {
        g.low = m_zero;
        g.max = high = m_num_to_data(v1);
    
#line 153 "gen/tmpl/rand.c"
    } else {
        g.low = m_num_to_data(v1);
        high = m_num_to_data(v2);
        g.max = m_sub(high,g.low);
    }
    
    if (high <= g.low) {
        rb_raise(rb_eArgError,"high must be larger than low");
    }
    
    na_ndloop3(&ndf, &g, 1, self);
    return self;
}

#reciprocalNumo::UInt32

Unary reciprocal.

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 2512

static VALUE
uint32_reciprocal(VALUE self)
{
    ndfunc_arg_in_t ain[1] = {{cT,0}};
    ndfunc_arg_out_t aout[1] = {{cT,0}};
    ndfunc_t ndf = {iter_uint32_reciprocal, FULL_LOOP, 1,1, ain,aout};

    return na_ndloop(&ndf, 1, self);
}

#seq([beg,[step]]) ⇒ Numo::UInt32 Also known as: indgen

Set linear sequence of numbers to self. The sequence is obtained from

beg+i*step

where i is 1-dimensional index.

Examples:

Numo::DFloat.new(6).seq(1,-0.2)
=> Numo::DFloat#shape=[6]
   [1, 0.8, 0.6, 0.4, 0.2, 0]
Numo::DComplex.new(6).seq(1,-0.2+0.2i)
=> Numo::DComplex#shape=[6]
   [1+0i, 0.8+0.2i, 0.6+0.4i, 0.4+0.6i, 0.2+0.8i, 0+1i]

Parameters:

  • beg (Numeric)

    begining of sequence. (default=0)

  • step (Numeric)

    step of sequence. (default=1)

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 4405

static VALUE
uint32_seq(int argc, VALUE *args, VALUE self)
{
    seq_opt_t *g;
    VALUE vbeg=Qnil, vstep=Qnil;
    ndfunc_arg_in_t ain[1] = {{OVERWRITE,0}};
    ndfunc_t ndf = {iter_uint32_seq, FULL_LOOP, 1,0, ain,0};

    g = ALLOCA_N(seq_opt_t,1);
    g->beg = m_zero;
    g->step = m_one;
    g->count = 0;
    rb_scan_args(argc, args, "02", &vbeg, &vstep);
#line 83 "gen/tmpl/seq.c"
    if (vbeg!=Qnil) {g->beg = NUM2DBL(vbeg);}
    if (vstep!=Qnil) {g->step = NUM2DBL(vstep);}

#line 90 "gen/tmpl/seq.c"
    na_ndloop3(&ndf, g, 1, self);
    return self;
}

#signNumo::UInt32

Unary sign.

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 2573

static VALUE
uint32_sign(VALUE self)
{
    ndfunc_arg_in_t ain[1] = {{cT,0}};
    ndfunc_arg_out_t aout[1] = {{cT,0}};
    ndfunc_t ndf = {iter_uint32_sign, FULL_LOOP, 1,1, ain,aout};

    return na_ndloop(&ndf, 1, self);
}

#sort(axis: nil) ⇒ Numo::UInt32

sort of self.

Examples:

Numo::DFloat[3,4,1,2].sort => Numo::DFloat[1,2,3,4]

Parameters:

  • axis (Numeric, Array, Range)

    Affected dimensions.

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 4872

static VALUE
uint32_sort(int argc, VALUE *argv, VALUE self)
{
    VALUE reduce;
    ndfunc_arg_in_t ain[2] = {{OVERWRITE,0},{sym_reduce,0}};
    ndfunc_t ndf = {0, STRIDE_LOOP|NDF_FLAT_REDUCE, 2,0, ain,0};

    if (!TEST_INPLACE(self)) {
        self = na_copy(self);
    }
  
#line 42 "gen/tmpl/sort.c"
    ndf.func = iter_uint32_sort;
    reduce = na_reduce_dimension(argc, argv, 1, &self, &ndf, 0);
  
    na_ndloop(&ndf, 2, self, reduce);
    return self;
}

#sort_index(axis: nil) ⇒ Integer, Numo::Int

sort_index. Returns an index array of sort result.

Examples:

Numo::NArray[3,4,1,2].sort_index => Numo::Int32[2,3,0,1]

Parameters:

  • axis (Numeric, Array, Range)

    Affected dimensions.

Returns:

  • (Integer, Numo::Int)

    returns result index of sort_index.



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# File 'ext/numo/narray/types/uint32.c', line 5128

static VALUE
uint32_sort_index(int argc, VALUE *argv, VALUE self)
{
    size_t size;
    narray_t *na;
    VALUE idx, tmp, reduce, res;
    char *buf;
    ndfunc_arg_in_t ain[3] = {{cT,0},{0,0},{sym_reduce,0}};
    ndfunc_arg_out_t aout[1] = {{0,0,0}};
    ndfunc_t ndf = {0, STRIDE_LOOP_NIP|NDF_FLAT_REDUCE|NDF_CUM, 3,1, ain,aout};

    GetNArray(self,na);
    if (na->ndim==0) {
        return INT2FIX(0);
    }
    if (na->size > (~(u_int32_t)0)) {
        ain[1].type =
        aout[0].type = numo_cInt64;
        idx = nary_new(numo_cInt64, na->ndim, na->shape);
       
#line 79 "gen/tmpl/sort_index.c"
         ndf.func = uint32_index64_qsort;
         reduce = na_reduce_dimension(argc, argv, 1, &self, &ndf, 0);
       
    } else {
        ain[1].type =
        aout[0].type = numo_cInt32;
        idx = nary_new(numo_cInt32, na->ndim, na->shape);
       
#line 91 "gen/tmpl/sort_index.c"
         ndf.func = uint32_index32_qsort;
         reduce = na_reduce_dimension(argc, argv, 1, &self, &ndf, 0);
       
    }
    rb_funcall(idx, rb_intern("seq"), 0);

    size = na->size*sizeof(void*);
    buf = rb_alloc_tmp_buffer(&tmp, size);
    res = na_ndloop3(&ndf, buf, 3, self, idx, reduce);
    rb_free_tmp_buffer(&tmp);
    return res;
}

#squareNumo::UInt32

Unary square.

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 2634

static VALUE
uint32_square(VALUE self)
{
    ndfunc_arg_in_t ain[1] = {{cT,0}};
    ndfunc_arg_out_t aout[1] = {{cT,0}};
    ndfunc_t ndf = {iter_uint32_square, FULL_LOOP, 1,1, ain,aout};

    return na_ndloop(&ndf, 1, self);
}

#store(other) ⇒ Numo::UInt32

Store elements to Numo::UInt32 from other.

Parameters:

  • other (Object)

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 1007

static VALUE
uint32_store(VALUE self, VALUE obj)
{
    VALUE r, klass;

    klass = CLASS_OF(obj);

    
    if (klass==numo_cUInt32) {
        uint32_store_uint32(self,obj);
        return self;
    }
    
#line 19 "gen/tmpl/store.c"
    if (IS_INTEGER_CLASS(klass) || klass==rb_cFloat || klass==rb_cComplex) {
        uint32_store_numeric(self,obj);
        return self;
    }
    
#line 19 "gen/tmpl/store.c"
    if (klass==numo_cBit) {
        uint32_store_bit(self,obj);
        return self;
    }
    
#line 19 "gen/tmpl/store.c"
    if (klass==numo_cDFloat) {
        uint32_store_dfloat(self,obj);
        return self;
    }
    
#line 19 "gen/tmpl/store.c"
    if (klass==numo_cSFloat) {
        uint32_store_sfloat(self,obj);
        return self;
    }
    
#line 19 "gen/tmpl/store.c"
    if (klass==numo_cInt64) {
        uint32_store_int64(self,obj);
        return self;
    }
    
#line 19 "gen/tmpl/store.c"
    if (klass==numo_cInt32) {
        uint32_store_int32(self,obj);
        return self;
    }
    
#line 19 "gen/tmpl/store.c"
    if (klass==numo_cInt16) {
        uint32_store_int16(self,obj);
        return self;
    }
    
#line 19 "gen/tmpl/store.c"
    if (klass==numo_cInt8) {
        uint32_store_int8(self,obj);
        return self;
    }
    
#line 19 "gen/tmpl/store.c"
    if (klass==numo_cUInt64) {
        uint32_store_uint64(self,obj);
        return self;
    }
    
#line 19 "gen/tmpl/store.c"
    if (klass==numo_cUInt16) {
        uint32_store_uint16(self,obj);
        return self;
    }
    
#line 19 "gen/tmpl/store.c"
    if (klass==numo_cUInt8) {
        uint32_store_uint8(self,obj);
        return self;
    }
    
#line 19 "gen/tmpl/store.c"
    if (klass==numo_cRObject) {
        uint32_store_robject(self,obj);
        return self;
    }
    
#line 19 "gen/tmpl/store.c"
    if (klass==rb_cArray) {
        uint32_store_array(self,obj);
        return self;
    }
    

    if (IsNArray(obj)) {
        r = rb_funcall(obj, rb_intern("coerce_cast"), 1, cT);
        if (CLASS_OF(r)==cT) {
            uint32_store(self,r);
            return self;
        }
    }

    
#line 36 "gen/tmpl/store.c"
    rb_raise(nary_eCastError, "unknown conversion from %s to %s",
             rb_class2name(CLASS_OF(obj)),
             rb_class2name(CLASS_OF(self)));
    
    return self;
}

#sum(axis: nil, keepdims: false) ⇒ Numo::UInt32

sum of self.

Parameters:

  • axis (Numeric, Array, Range)

    (keyword) Affected dimensions.

  • keepdims (TrueClass)

    (keyword) If true, the reduced axes are left in the result array as dimensions with size one.

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 3477

static VALUE
uint32_sum(int argc, VALUE *argv, VALUE self)
{
    VALUE v, reduce;
    ndfunc_arg_in_t ain[2] = {{cT,0},{sym_reduce,0}};
    ndfunc_arg_out_t aout[1] = {{cT,0}};
    ndfunc_t ndf = { iter_uint32_sum, STRIDE_LOOP_NIP|NDF_FLAT_REDUCE, 2, 1, ain, aout };

  
#line 40 "gen/tmpl/accum.c"
    reduce = na_reduce_dimension(argc, argv, 1, &self, &ndf, 0);
  
    v =  na_ndloop(&ndf, 2, self, reduce);
  
    return uint32_extract(v);
  
#line 48 "gen/tmpl/accum.c"
}

#to_aArray

Convert self to Array.

Returns:

  • (Array)


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# File 'ext/numo/narray/types/uint32.c', line 1463

static VALUE
uint32_to_a(VALUE self)
{
    ndfunc_arg_in_t ain[3] = {{Qnil,0},{sym_loop_opt},{sym_option}};
    ndfunc_arg_out_t aout[1] = {{rb_cArray,0}}; // dummy?
    ndfunc_t ndf = { iter_uint32_to_a, FULL_LOOP_NIP, 3, 1, ain, aout };
    return na_ndloop_cast_narray_to_rarray(&ndf, self, Qnil);
}

#|(other) ⇒ Numo::NArray

Binary bit_or.

Parameters:

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 2855

static VALUE
uint32_bit_or(VALUE self, VALUE other)
{
    
#line 48 "gen/tmpl/binary.c"
    VALUE klass, v;
    klass = na_upcast(CLASS_OF(self),CLASS_OF(other));
    if (klass==cT) {
        return uint32_bit_or_self(self, other);
    } else {
        v = rb_funcall(klass, id_cast, 1, self);
        return rb_funcall(v, '|', 1, other);
    }
    
}

#~Numo::UInt32

Unary bit_not.

Returns:



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# File 'ext/numo/narray/types/uint32.c', line 2976

static VALUE
uint32_bit_not(VALUE self)
{
    ndfunc_arg_in_t ain[1] = {{cT,0}};
    ndfunc_arg_out_t aout[1] = {{cT,0}};
    ndfunc_t ndf = {iter_uint32_bit_not, FULL_LOOP, 1,1, ain,aout};

    return na_ndloop(&ndf, 1, self);
}