Class: Magick::KernelInfo

Inherits:
Object
  • Object
show all
Defined in:
ext/RMagick/rmmain.cpp

Class Method Summary collapse

Instance Method Summary collapse

Constructor Details

#initialize(kernel_string) ⇒ Magick::KernelInfo

KernelInfo object constructor

Parameters:

  • kernel_string (String)

    kernel info string representation to be parsed



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# File 'ext/RMagick/rmkinfo.cpp', line 73

VALUE
KernelInfo_initialize(VALUE self, VALUE kernel_string)
{
    KernelInfo *kernel;
#if defined(IMAGEMAGICK_7)
    ExceptionInfo *exception;
#endif

    Check_Type(kernel_string, T_STRING);

#if defined(IMAGEMAGICK_7)
    exception = AcquireExceptionInfo();
    kernel = AcquireKernelInfo(StringValueCStr(kernel_string), exception);
    if (rm_should_raise_exception(exception, DestroyExceptionRetention))
    {
        if (kernel != (KernelInfo *) NULL)
        {
            DestroyKernelInfo(kernel);
        }
        rm_raise_exception(exception);
    }
#else
    kernel = AcquireKernelInfo(StringValueCStr(kernel_string));
#endif

    if (!kernel)
    {
        rb_raise(rb_eRuntimeError, "failed to parse kernel string");
    }

    DATA_PTR(self) = kernel;

    return self;
}

Class Method Details

.builtin(what, geometry) ⇒ Magick::KernelInfo

Create new instance of KernelInfo with one of the ‘named’ built-in types of kernels used for special purposes such as gaussian blurring, skeleton pruning, and edge distance determination.

Parameters:

  • what (Magick::KernelInfoType)

    kernel one of Magick::KernelInfoType enums

  • geometry (String)

    geometry to pass to default kernel

Returns:



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# File 'ext/RMagick/rmkinfo.cpp', line 188

VALUE
KernelInfo_builtin(VALUE self, VALUE what, VALUE geometry)
{
    KernelInfo *kernel;
    KernelInfoType kernel_type;
    GeometryInfo info;
#if defined(IMAGEMAGICK_7)
    ExceptionInfo *exception;
#endif

    Check_Type(geometry, T_STRING);
    VALUE_TO_ENUM(what, kernel_type, KernelInfoType);
    ParseGeometry(StringValueCStr(geometry), &info);

#if defined(IMAGEMAGICK_7)
    exception = AcquireExceptionInfo();
    kernel = AcquireKernelBuiltIn(kernel_type, &info, exception);
    if (rm_should_raise_exception(exception, DestroyExceptionRetention))
    {
        if (kernel != (KernelInfo *) NULL)
        {
            DestroyKernelInfo(kernel);
        }
        rm_raise_exception(exception);
    }
#else
    kernel = AcquireKernelBuiltIn(kernel_type, &info);
#endif

    if (!kernel)
    {
        rb_raise(rb_eRuntimeError, "failed to acquire builtin kernel");
    }

    return TypedData_Wrap_Struct(self, &rm_kernel_info_data_type, kernel);
}

Instance Method Details

#cloneMagick::KernelInfo

Creates a new clone of the object so that its can be modified without effecting the original.

Returns:



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# File 'ext/RMagick/rmkinfo.cpp', line 172

VALUE
KernelInfo_clone(VALUE self)
{
    KernelInfo *kernel = CloneKernelInfo((KernelInfo*)DATA_PTR(self));
    return TypedData_Wrap_Struct(Class_KernelInfo, &rm_kernel_info_data_type, kernel);
}

#dupMagick::KernelInfo

Creates a new clone of the object so that its can be modified without effecting the original.

Returns:



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# File 'ext/RMagick/rmkinfo.cpp', line 172

VALUE
KernelInfo_clone(VALUE self)
{
    KernelInfo *kernel = CloneKernelInfo((KernelInfo*)DATA_PTR(self));
    return TypedData_Wrap_Struct(Class_KernelInfo, &rm_kernel_info_data_type, kernel);
}

#scale(scale, flags) ⇒ Object

Scales the given kernel list by the given amount, with or without normalization of the sum of the kernel values (as per given flags).

Parameters:

  • scale (Numeric)

    scale to use

  • flags (Magick::GeometryFlags)

    one of Magick::NormalizeValue, Magick::CorrelateNormalizeValue, and/or Magick::PercentValue



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# File 'ext/RMagick/rmkinfo.cpp', line 134

VALUE
KernelInfo_scale(VALUE self, VALUE scale, VALUE flags)
{
    GeometryFlags geoflags;

    if (!FIXNUM_P(scale))
        Check_Type(scale, T_FLOAT);

    if (rb_obj_is_instance_of(flags, Class_GeometryFlags))
        VALUE_TO_ENUM(flags, geoflags, GeometryFlags);
    else
        rb_raise(rb_eArgError, "expected Integer or Magick::GeometryFlags to specify flags");

    GVL_STRUCT_TYPE(ScaleKernelInfo) args = { (KernelInfo*)DATA_PTR(self), NUM2DBL(scale), geoflags };
    CALL_FUNC_WITHOUT_GVL(GVL_FUNC(ScaleKernelInfo), &args);
    return Qnil;
}

#scale_geometry(geometry) ⇒ Object

Takes a geometry argument string, typically provided as a -set option:convolve:scale {geometry} user setting, and modifies the kernel according to the parsed arguments of that setting.

Parameters:

  • geometry (String)

    geometry string to parse and apply



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# File 'ext/RMagick/rmkinfo.cpp', line 158

VALUE
KernelInfo_scale_geometry(VALUE self, VALUE geometry)
{
    Check_Type(geometry, T_STRING);
    GVL_STRUCT_TYPE(ScaleGeometryKernelInfo) args = { (KernelInfo*)DATA_PTR(self), StringValueCStr(geometry) };
    CALL_FUNC_WITHOUT_GVL(GVL_FUNC(ScaleGeometryKernelInfo), &args);
    return Qnil;
}

#unity_add(scale) ⇒ Object

Adds a given amount of the ‘Unity’ Convolution Kernel to the given pre-scaled and normalized Kernel.

Parameters:

  • scale (Numeric)

    scale to add



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# File 'ext/RMagick/rmkinfo.cpp', line 114

VALUE
KernelInfo_unity_add(VALUE self, VALUE scale)
{
    if (!FIXNUM_P(scale))
        Check_Type(scale, T_FLOAT);

    GVL_STRUCT_TYPE(UnityAddKernelInfo) args = { (KernelInfo*)DATA_PTR(self), NUM2DBL(scale) };
    CALL_FUNC_WITHOUT_GVL(GVL_FUNC(UnityAddKernelInfo), &args);
    return Qnil;
}