/*
Method: Draw#draw(i)
Purpose: Execute the stored drawing primitives on the current image
image
*/
VALUE
Draw_draw(VALUE self, VALUE image_arg)
{
Draw *draw;
Image *image;
image_arg = rm_cur_image(image_arg);
image = rm_check_frozen(image_arg);
Data_Get_Struct(self, Draw, draw);
if (draw->primitives == 0)
{
rb_raise(rb_eArgError, "nothing to draw");
}
// Point the DrawInfo structure at the current set of primitives.
magick_clone_string(&(draw->info->primitive), StringValuePtr(draw->primitives));
(void) DrawImage(image, draw->info);
rm_check_image_exception(image, RetainOnError);
magick_free(draw->info->primitive);
draw->info->primitive = NULL;
return self;
}
/**
* Call MapImages.
*
* Ruby usage:
* - @verbatim ImageList#map(reference) @endverbatim
* - @verbatim ImageList#map(reference, dither) @endverbatim
*
* Notes:
* - Default dither is false
* - Sets \@scene to self.scene
*
* @param argc number of input arguments
* @param argv array of input arguments
* @param self this object
* @return a new ImageList with mapped images.
*/
VALUE
ImageList_map(int argc, VALUE *argv, VALUE self)
{
Image *images, *new_images = NULL;
Image *map;
unsigned int dither = MagickFalse;
VALUE scene, new_imagelist, t;
ExceptionInfo *exception;
#if defined(HAVE_REMAPIMAGES)
QuantizeInfo quantize_info;
rb_warning("ImageList#map is deprecated. Use ImageList#remap instead.");
#endif
switch (argc)
{
case 2:
dither = RTEST(argv[1]);
case 1:
t = rm_cur_image(argv[0]);
map = rm_check_destroyed(t);
break;
default:
rb_raise(rb_eArgError, "wrong number of arguments (%d for 1 or 2)", argc);
break;
}
// Convert image array to image sequence, clone image sequence.
exception = AcquireExceptionInfo();
images = images_from_imagelist(self);
new_images = CloneImageList(images, exception);
rm_split(images);
rm_check_exception(exception, new_images, DestroyOnError);
(void) DestroyExceptionInfo(exception);
rm_ensure_result(new_images);
// Call ImageMagick
#if defined(HAVE_REMAPIMAGES)
GetQuantizeInfo(&quantize_info);
quantize_info.dither = dither;
(void) RemapImages(&quantize_info, new_images, map);
#else
(void) MapImages(new_images, map, dither);
#endif
rm_check_image_exception(new_images, DestroyOnError);
// Set @scene in new ImageList object to same value as in self.
new_imagelist = rm_imagelist_from_images(new_images);
scene = rb_iv_get(self, "@scene");
(void) imagelist_scene_eq(new_imagelist, scene);
RB_GC_GUARD(scene);
RB_GC_GUARD(new_imagelist);
RB_GC_GUARD(t);
return new_imagelist;
}
/*
Method: Draw#stroke_pattern=
Purpose: Accept an image as a stroke pattern
Notes: See also fill_pattern=
*/
VALUE
Draw_stroke_pattern_eq(VALUE self, VALUE pattern)
{
Draw *draw;
Image *image;
rb_check_frozen(self);
Data_Get_Struct(self, Draw, draw);
if (draw->info->stroke_pattern != NULL)
{
// Do not trace destruction
DestroyImage(draw->info->stroke_pattern);
draw->info->stroke_pattern = NULL;
}
if (!NIL_P(pattern))
{
// DestroyDrawInfo destroys the clone
pattern = rm_cur_image(pattern);
image = rm_check_destroyed(pattern);
// Do not trace creation
draw->info->stroke_pattern = rm_clone_image(image);
}
return self;
}
/**
* Call RemapImages.
*
* Ruby usage:
* - @verbatim ImageList#remap @endverbatim
* - @verbatim ImageList#remap(remap_image) @endverbatim
* - @verbatim ImageList#remap(remap_image, dither_method) @endverbatim
*
* Notes:
* - Default remap_image is nil
* - Default dither_method is RiemersmaDitherMethod
* - Modifies images in-place.
*
* @param argc number of input arguments
* @param argv array of input arguments
* @param self this object
* @see Image_remap
*/
VALUE
ImageList_remap(int argc, VALUE *argv, VALUE self)
{
#if defined(HAVE_REMAPIMAGES) || defined(HAVE_AFFINITYIMAGES)
Image *images, *remap_image = NULL;
QuantizeInfo quantize_info;
if (argc > 0 && argv[0] != Qnil)
{
VALUE t = rm_cur_image(argv[0]);
remap_image = rm_check_destroyed(t);
RB_GC_GUARD(t);
}
GetQuantizeInfo(&quantize_info);
if (argc > 1)
{
VALUE_TO_ENUM(argv[1], quantize_info.dither_method, DitherMethod);
quantize_info.dither = MagickTrue;
}
if (argc > 2)
{
rb_raise(rb_eArgError, "wrong number of arguments (%d for 1 or 2)", argc);
}
images = images_from_imagelist(self);
#if defined(HAVE_REMAPIMAGE)
(void) RemapImages(&quantize_info, images, remap_image);
#else
(void) AffinityImages(&quantize_info, images, remap_image);
#endif
rm_check_image_exception(images, RetainOnError);
rm_split(images);
return self;
#else
self = self;
argc = argc;
argv = argv;
rm_not_implemented();
return(VALUE)0;
#endif
}
/*
Method: Draw#composite(x,y,width,height,img,operator=OverCompositeOp)
Purpose: Implement the "image" drawing primitive
Notes: The "img" argument can be either an ImageList object
or an Image argument.
*/
VALUE
Draw_composite(int argc, VALUE *argv, VALUE self)
{
Draw *draw;
const char *op = "Over";
double x, y, width, height;
CompositeOperator cop = OverCompositeOp;
volatile VALUE image;
Image *comp_img;
struct TmpFile_Name *tmpfile_name;
char name[MaxTextExtent];
// Buffer for "image" primitive
char primitive[MaxTextExtent];
if (argc < 5 || argc > 6)
{
rb_raise(rb_eArgError, "wrong number of arguments (%d for 5 or 6)", argc);
}
// Retrieve the image to composite
image = rm_cur_image(argv[4]);
(void) rm_check_destroyed(image);
x = NUM2DBL(argv[0]);
y = NUM2DBL(argv[1]);
width = NUM2DBL(argv[2]);
height = NUM2DBL(argv[3]);
// The default composition operator is "Over".
if (argc == 6)
{
VALUE_TO_ENUM(argv[5], cop, CompositeOperator);
switch (cop)
{
case AddCompositeOp:
op = "Add";
break;
case AtopCompositeOp:
op = "Atop";
break;
case BumpmapCompositeOp:
op = "Bumpmap";
break;
case ClearCompositeOp:
op = "Clear";
break;
case CopyBlueCompositeOp:
op = "CopyBlue";
break;
case CopyGreenCompositeOp:
op = "CopyGreen";
break;
case CopyOpacityCompositeOp:
op = "CopyOpacity";
break;
case CopyRedCompositeOp:
op = "CopyRed";
break;
case CopyCompositeOp:
op = "Copy";
break;
case DifferenceCompositeOp:
op = "Difference";
break;
case InCompositeOp:
op = "In";
break;
case MinusCompositeOp:
op = "Minus";
break;
case MultiplyCompositeOp:
op = "Multiply";
break;
case OutCompositeOp:
op = "Out";
break;
case OverCompositeOp:
op = "Over";
break;
case PlusCompositeOp:
op = "Plus";
break;
case SubtractCompositeOp:
op = "Subtract";
break;
case XorCompositeOp:
op = "Xor";
break;
default:
rb_raise(rb_eArgError, "unknown composite operator (%d)", cop);
break;
}
}
Data_Get_Struct(self, Draw, draw);
// Create a temp copy of the composite image
Data_Get_Struct(image, Image, comp_img);
rm_write_temp_image(comp_img, name);
// Add the temp filename to the filename array.
// Use Magick storage since we need to keep the list around
// until destroy_Draw is called.
tmpfile_name = magick_malloc(sizeof(struct TmpFile_Name)+strlen(name));
strcpy(tmpfile_name->name, name);
tmpfile_name->next = draw->tmpfile_ary;
draw->tmpfile_ary = tmpfile_name;
// Form the drawing primitive
(void) sprintf(primitive, "image %s %g,%g,%g,%g '%s'", op, x, y, width, height, name);
// Send "primitive" to self.
(void) rb_funcall(self, rb_intern("primitive"), 1, rb_str_new2(primitive));
return self;
}
/*
Method: Draw#annotate(img, w, h, x, y, text) <{optional parms}>
Purpose: annotates an image with text
Returns: self
Notes: Additional Draw attribute methods may be called in the
optional block, which is executed in the context of an
Draw object.
*/
VALUE Draw_annotate(
VALUE self,
VALUE image_arg,
VALUE width_arg,
VALUE height_arg,
VALUE x_arg,
VALUE y_arg,
VALUE text)
{
Draw *draw;
Image *image;
unsigned long width, height;
long x, y;
AffineMatrix keep;
char geometry_str[50];
// Save the affine matrix in case it is modified by
// Draw#rotation=
Data_Get_Struct(self, Draw, draw);
keep = draw->info->affine;
image_arg = rm_cur_image(image_arg);
image = rm_check_frozen(image_arg);
// If we have an optional parm block, run it in self's context,
// allowing the app a chance to modify the object's attributes
if (rb_block_given_p())
{
(void)rb_obj_instance_eval(0, NULL, self);
}
// Translate & store in Draw structure
#if defined(HAVE_INTERPRETIMAGEPROPERTIES)
draw->info->text = InterpretImageProperties(NULL, image, StringValuePtr(text));
#else
draw->info->text = InterpretImageAttributes(NULL, image, StringValuePtr(text));
#endif
if (!draw->info->text)
{
rb_raise(rb_eArgError, "no text");
}
// Create geometry string, copy to Draw structure, overriding
// any previously existing value.
width = NUM2ULONG(width_arg);
height = NUM2ULONG(height_arg);
x = NUM2LONG(x_arg);
y = NUM2LONG(y_arg);
if (width == 0 && height == 0)
{
sprintf(geometry_str, "%+ld%+ld", x, y);
}
// WxH is non-zero
else
{
sprintf(geometry_str, "%lux%lu%+ld%+ld", width, height, x, y);
}
magick_clone_string(&draw->info->geometry, geometry_str);
(void) AnnotateImage(image, draw->info);
magick_free(draw->info->text);
draw->info->text = NULL;
draw->info->affine = keep;
rm_check_image_exception(image, RetainOnError);
return self;
}
/**
* Implement the "image" drawing primitive.
*
* Ruby usage:
* - @verbatim Draw#composite(x,y,width,height,img) @endverbatim
* - @verbatim Draw#composite(x,y,width,height,img,operator) @endverbatim
*
* Notes:
* - Default operator is overComposite
* - The "img" argument can be either an ImageList object or an Image
* argument.
*
* @param argc number of input arguments
* @param argv array of input arguments
* @param self this object
* @return self
*/
VALUE
Draw_composite(int argc, VALUE *argv, VALUE self)
{
Draw *draw;
const char *op;
double x, y, width, height;
CompositeOperator cop;
VALUE image;
Image *comp_img;
struct TmpFile_Name *tmpfile_name;
char name[MaxTextExtent];
// Buffer for "image" primitive
char primitive[MaxTextExtent];
if (argc < 5 || argc > 6)
{
rb_raise(rb_eArgError, "wrong number of arguments (%d for 5 or 6)", argc);
}
// Retrieve the image to composite
image = rm_cur_image(argv[4]);
comp_img = rm_check_destroyed(image);
x = NUM2DBL(argv[0]);
y = NUM2DBL(argv[1]);
width = NUM2DBL(argv[2]);
height = NUM2DBL(argv[3]);
cop = OverCompositeOp;
if (argc == 6)
{
VALUE_TO_ENUM(argv[5], cop, CompositeOperator);
}
op = CommandOptionToMnemonic(MagickComposeOptions, cop);
if (rm_strcasecmp("Unrecognized", op) == 0)
{
rb_raise(rb_eArgError, "unknown composite operator (%d)", cop);
}
Data_Get_Struct(self, Draw, draw);
// Create a temp copy of the composite image
rm_write_temp_image(comp_img, name);
// Add the temp filename to the filename array.
// Use Magick storage since we need to keep the list around
// until destroy_Draw is called.
tmpfile_name = magick_malloc(sizeof(struct TmpFile_Name)+strlen(name));
strcpy(tmpfile_name->name, name);
tmpfile_name->next = draw->tmpfile_ary;
draw->tmpfile_ary = tmpfile_name;
// Form the drawing primitive
(void) snprintf(primitive, sizeof(primitive), "image %s %g,%g,%g,%g '%s'", op, x, y, width, height, name);
// Send "primitive" to self.
(void) rb_funcall(self, rb_intern("primitive"), 1, rb_str_new2(primitive));
RB_GC_GUARD(image);
return self;
}
