#define __SP_IMAGE_C__

#ifdef HAVE_CONFIG_H

# include "config.h"

#endif

#include <cstring>

#include <string>

#include <libnr/nr-matrix-fns.h>

#include <libnr/nr-matrix-ops.h>

#include <libnr/nr-translate-matrix-ops.h>

#include <libnr/nr-scale-translate-ops.h>

#include <libnr/nr-convert2geom.h>

#include <2geom/rect.h>

#include "display/nr-arena-image.h"

#include <display/curve.h>

#include <glib/gstdio.h>

#include "enums.h"

#include "attributes.h"

#include "print.h"

#include "brokenimage.xpm"

#include "document.h"

#include "sp-image.h"

#include "sp-clippath.h"

#include <glibmm/i18n.h>

#include "xml/quote.h"

#include <xml/repr.h>

#include "libnr/nr-matrix-fns.h"

#include "io/sys.h"

#include <png.h>

#if ENABLE_LCMS

#include "color-profile-fns.h"

#include "color-profile.h"

#ifdef DEBUG_LCMS

#include "prefs-utils.h"

#include <gtk/gtkmessagedialog.h>

#endif // DEBUG_LCMS

#endif // ENABLE_LCMS

static void sp_image_class_init (SPImageClass * klass);

static void sp_image_init (SPImage * image);

static void sp_image_build (SPObject * object, SPDocument * document, Inkscape::XML::Node * repr);

static void sp_image_release (SPObject * object);

static void sp_image_set (SPObject *object, unsigned int key, const gchar *value);

static void sp_image_update (SPObject *object, SPCtx *ctx, unsigned int flags);

static Inkscape::XML::Node *sp_image_write (SPObject *object, Inkscape::XML::Document *doc, Inkscape::XML::Node *repr, guint flags);

static void sp_image_bbox(SPItem const *item, NRRect *bbox, Geom::Matrix const &transform, unsigned const flags);

static void sp_image_print (SPItem * item, SPPrintContext *ctx);

static gchar * sp_image_description (SPItem * item);

static void sp_image_snappoints(SPItem const *item, SnapPointsIter p);

static NRArenaItem *sp_image_show (SPItem *item, NRArena *arena, unsigned int key, unsigned int flags);

static Geom::Matrix sp_image_set_transform (SPItem *item, Geom::Matrix const &xform);

static void sp_image_set_curve(SPImage *image);

static GdkPixbuf *sp_image_repr_read_image( time_t& modTime, gchar*& pixPath, const gchar *href, const gchar *absref, const gchar *base );

static GdkPixbuf *sp_image_pixbuf_force_rgba (GdkPixbuf * pixbuf);

static void sp_image_update_canvas_image (SPImage *image);

static GdkPixbuf * sp_image_repr_read_dataURI (const gchar * uri_data);

static GdkPixbuf * sp_image_repr_read_b64 (const gchar * uri_data);

static SPItemClass *parent_class;

extern "C"

{

void user_read_data( png_structp png_ptr, png_bytep data, png_size_t length );

void user_write_data( png_structp png_ptr, png_bytep data, png_size_t length );

void user_flush_data( png_structp png_ptr );

}

#ifdef DEBUG_LCMS

extern guint update_in_progress;

#define DEBUG_MESSAGE(key, ...) \

{\

gint dump = prefs_get_int_attribute_limited("options.scislac", #key, 0, 0, 1);\

gint dumpD = prefs_get_int_attribute_limited("options.scislac", #key"D", 0, 0, 1);\

gint dumpD2 = prefs_get_int_attribute_limited("options.scislac", #key"D2", 0, 0, 1);\

dumpD &= ( (update_in_progress == 0) || dumpD2 );\

if ( dump )\

{\

g_message( __VA_ARGS__ );\

\

}\

if ( dumpD )\

{\

GtkWidget *dialog = gtk_message_dialog_new(NULL,\

GTK_DIALOG_DESTROY_WITH_PARENT, \

GTK_MESSAGE_INFO, \

GTK_BUTTONS_OK, \

__VA_ARGS__ \

);\

g_signal_connect_swapped(dialog, "response",\

G_CALLBACK(gtk_widget_destroy), \

dialog); \

gtk_widget_show_all( dialog );\

}\

}

#endif // DEBUG_LCMS

namespace Inkscape {

namespace IO {

class PushPull

{

public:

gboolean first;

FILE* fp;

guchar* scratch;

gsize size;

gsize used;

gsize offset;

GdkPixbufLoader *loader;

PushPull() : first(TRUE),

fp(0),

scratch(0),

size(0),

used(0),

offset(0),

loader(0) {};

gboolean readMore()

{

gboolean good = FALSE;

if ( offset )

{

g_memmove( scratch, scratch + offset, used - offset );

used -= offset;

offset = 0;

}

if ( used < size )

{

gsize space = size - used;

gsize got = fread( scratch + used, 1, space, fp );

if ( got )

{

if ( loader )

{

GError *err = NULL;

//g_message( " __read %d bytes", (int)got );

if ( !gdk_pixbuf_loader_write( loader, scratch + used, got, &err ) )

{

//g_message("_error writing pixbuf data");

}

}

used += got;

good = TRUE;

}

else

{

good = FALSE;

}

}

return good;

}

gsize available() const

{

return (used - offset);

}

gsize readOut( gpointer data, gsize length )

{

gsize giving = available();

if ( length < giving )

{

giving = length;

}

g_memmove( data, scratch + offset, giving );

offset += giving;

if ( offset >= used )

{

offset = 0;

used = 0;

}

return giving;

}

void clear()

{

offset = 0;

used = 0;

}

private:

PushPull& operator = (const PushPull& other);

PushPull(const PushPull& other);

};

void user_read_data( png_structp png_ptr, png_bytep data, png_size_t length )

{

PushPull* youme = (PushPull*)png_get_io_ptr(png_ptr);

gsize filled = 0;

gboolean canRead = TRUE;

while ( filled < length && canRead )

{

gsize some = youme->readOut( data + filled, length - filled );

filled += some;

if ( filled < length )

{

canRead &= youme->readMore();

}

}

}

void user_write_data( png_structp /*png_ptr*/, png_bytep /*data*/, png_size_t /*length*/ )

{

//g_message( "user_write_data(%d)", length );

}

void user_flush_data( png_structp /*png_ptr*/ )

{

//g_message( "user_flush_data" );

}

static GdkPixbuf* pixbuf_new_from_file( const char *filename, time_t &modTime, gchar*& pixPath, GError **/*error*/ )

{

GdkPixbuf* buf = NULL;

PushPull youme;

gint dpiX = 0;

gint dpiY = 0;

modTime = 0;

if ( pixPath ) {

g_free(pixPath);

pixPath = 0;

}

//buf = gdk_pixbuf_new_from_file( filename, error );

dump_fopen_call( filename, "pixbuf_new_from_file" );

FILE* fp = fopen_utf8name( filename, "r" );

if ( fp )

{

{

struct stat st;

memset(&st, 0, sizeof(st));

int val = g_stat(filename, &st);

if ( !val ) {

modTime = st.st_mtime;

pixPath = g_strdup(filename);

}

}

GdkPixbufLoader *loader = gdk_pixbuf_loader_new();

if ( loader )

{

GError *err = NULL;

// short buffer

guchar scratch[1024];

gboolean latter = FALSE;

gboolean isPng = FALSE;

png_structp pngPtr = NULL;

png_infop infoPtr = NULL;

//png_infop endPtr = NULL;

youme.fp = fp;

youme.scratch = scratch;

youme.size = sizeof(scratch);

youme.used = 0;

youme.offset = 0;

youme.loader = loader;

while ( !feof(fp) )

{

if ( youme.readMore() )

{

if ( youme.first )

{

//g_message( "First data chunk" );

youme.first = FALSE;

isPng = !png_sig_cmp( scratch + youme.offset, 0, youme.available() );

//g_message( " png? %s", (isPng ? "Yes":"No") );

if ( isPng )

{

pngPtr = png_create_read_struct( PNG_LIBPNG_VER_STRING,

NULL,//(png_voidp)user_error_ptr,

NULL,//user_error_fn,

NULL//user_warning_fn

);

if ( pngPtr )

{

infoPtr = png_create_info_struct( pngPtr );

//endPtr = png_create_info_struct( pngPtr );

png_set_read_fn( pngPtr, &youme, user_read_data );

//g_message( "In" );

//png_read_info( pngPtr, infoPtr );

png_read_png( pngPtr, infoPtr, PNG_TRANSFORM_IDENTITY, NULL );

//g_message("out");

//png_read_end(pngPtr, endPtr);

/*

png_uint_32 res_x = 0;

png_uint_32 res_y = 0;

int unit_type = 0;

if ( png_get_pHYs( pngPtr, infoPtr, &res_x, &res_y, &unit_type) )

{

if ( unit_type == PNG_RESOLUTION_METER )

{

// TODO come up with a more accurate DPI setting

dpiX = (int)(0.5 + ((double)res_x)/39.37);

dpiY = (int)(0.5 + ((double)res_y)/39.37);

}

}

else

{

}

#if defined(PNG_sRGB_SUPPORTED)

{

int intent = 0;

if ( png_get_sRGB(pngPtr, infoPtr, &intent) ) {

}

}

#endif // defined(PNG_sRGB_SUPPORTED)

#if defined(PNG_cHRM_SUPPORTED)

{

double white_x = 0;

double white_y = 0;

double red_x = 0;

double red_y = 0;

double green_x = 0;

double green_y = 0;

double blue_x = 0;

double blue_y = 0;

if ( png_get_cHRM(pngPtr, infoPtr,

&white_x, &white_y,

&red_x, &red_y,

&green_x, &green_y,

&blue_x, &blue_y) ) {

}

}

#endif // defined(PNG_cHRM_SUPPORTED)

#if defined(PNG_gAMA_SUPPORTED)

{

double file_gamma = 0;

if ( png_get_gAMA(pngPtr, infoPtr, &file_gamma) ) {

}

}

#endif // defined(PNG_gAMA_SUPPORTED)

#if defined(PNG_iCCP_SUPPORTED)

{

char* name = 0;

int compression_type = 0;

char* profile = 0;

png_uint_32 proflen = 0;

if ( png_get_iCCP(pngPtr, infoPtr, &name, &compression_type, &profile, &proflen) ) {

}

}

#endif // defined(PNG_iCCP_SUPPORTED)

// now clean it up.

png_destroy_read_struct( &pngPtr, &infoPtr, NULL );//&endPtr );

}

else

{

}

}

}

else if ( !latter )

{

latter = TRUE;

//g_message(" READing latter");

}

// Now clear out the buffer so we can read more.

// (dumping out unused)

youme.clear();

}

}

gboolean ok = gdk_pixbuf_loader_close(loader, &err);

if ( ok )

{

buf = gdk_pixbuf_loader_get_pixbuf( loader );

if ( buf )

{

g_object_ref(buf);

if ( dpiX )

{

gchar *tmp = g_strdup_printf( "%d", dpiX );

if ( tmp )

{

//gdk_pixbuf_set_option( buf, "Inkscape::DpiX", tmp );

g_free( tmp );

}

}

if ( dpiY )

{

gchar *tmp = g_strdup_printf( "%d", dpiY );

if ( tmp )

{

//gdk_pixbuf_set_option( buf, "Inkscape::DpiY", tmp );

g_free( tmp );

}

}

}

}

else

{

// do something

g_message("error loading pixbuf at close");

}

g_object_unref(loader);

}

else

{

g_message("error when creating pixbuf loader");

}

fclose( fp );

fp = NULL;

}

else

{

g_warning ("Unable to open linked file: %s", filename);

}

return buf;

}

GdkPixbuf* pixbuf_new_from_file( const char *filename, GError **error )

{

time_t modTime = 0;

gchar* pixPath = 0;

GdkPixbuf* result = pixbuf_new_from_file( filename, modTime, pixPath, error );

if (pixPath) {

g_free(pixPath);

}

return result;

}

}

}

sp_image_get_type (void)

{

static GType image_type = 0;

if (!image_type) {

GTypeInfo image_info = {

sizeof (SPImageClass),

NULL, /* base_init */

NULL, /* base_finalize */

(GClassInitFunc) sp_image_class_init,

NULL, /* class_finalize */

NULL, /* class_data */

sizeof (SPImage),

16, /* n_preallocs */

(GInstanceInitFunc) sp_image_init,

NULL, /* value_table */

};

image_type = g_type_register_static (sp_item_get_type (), "SPImage", &image_info, (GTypeFlags)0);

}

return image_type;

}

static void

sp_image_class_init (SPImageClass * klass)

{

GObjectClass * gobject_class;

SPObjectClass * sp_object_class;

SPItemClass * item_class;

gobject_class = (GObjectClass *) klass;

sp_object_class = (SPObjectClass *) klass;

item_class = (SPItemClass *) klass;

parent_class = (SPItemClass*)g_type_class_ref (sp_item_get_type ());

sp_object_class->build = sp_image_build;

sp_object_class->release = sp_image_release;

sp_object_class->set = sp_image_set;

sp_object_class->update = sp_image_update;

sp_object_class->write = sp_image_write;

item_class->bbox = sp_image_bbox;

item_class->print = sp_image_print;

item_class->description = sp_image_description;

item_class->show = sp_image_show;

item_class->snappoints = sp_image_snappoints;

item_class->set_transform = sp_image_set_transform;

}

static void sp_image_init( SPImage *image )

{

image->x.unset();

image->y.unset();

image->width.unset();

image->height.unset();

image->aspect_align = SP_ASPECT_NONE;

image->trimx = 0;

image->trimy = 0;

image->trimwidth = 0;

image->trimheight = 0;

image->viewx = 0;

image->viewy = 0;

image->viewwidth = 0;

image->viewheight = 0;

image->curve = NULL;

image->href = 0;

#if ENABLE_LCMS

image->color_profile = 0;

#endif // ENABLE_LCMS

image->pixbuf = 0;

image->pixPath = 0;

image->lastMod = 0;

}

static void

sp_image_build (SPObject *object, SPDocument *document, Inkscape::XML::Node *repr)

{

if (((SPObjectClass *) parent_class)->build)

((SPObjectClass *) parent_class)->build (object, document, repr);

sp_object_read_attr (object, "xlink:href");

sp_object_read_attr (object, "x");

sp_object_read_attr (object, "y");

sp_object_read_attr (object, "width");

sp_object_read_attr (object, "height");

sp_object_read_attr (object, "preserveAspectRatio");

sp_object_read_attr (object, "color-profile");

/* Register */

sp_document_add_resource (document, "image", object);

}

static void

sp_image_release (SPObject *object)

{

SPImage *image = SP_IMAGE(object);

if (SP_OBJECT_DOCUMENT (object)) {

/* Unregister ourselves */

sp_document_remove_resource (SP_OBJECT_DOCUMENT (object), "image", SP_OBJECT (object));

}

if (image->href) {

g_free (image->href);

image->href = NULL;

}

if (image->pixbuf) {

gdk_pixbuf_unref (image->pixbuf);

image->pixbuf = NULL;

}

#if ENABLE_LCMS

if (image->color_profile) {

g_free (image->color_profile);

image->color_profile = NULL;

}

#endif // ENABLE_LCMS

if (image->pixPath) {

g_free(image->pixPath);

image->pixPath = 0;

}

if (image->curve) {

image->curve = image->curve->unref();

}

if (((SPObjectClass *) parent_class)->release) {

((SPObjectClass *) parent_class)->release (object);

}

}

static void

sp_image_set (SPObject *object, unsigned int key, const gchar *value)

{

SPImage *image;

image = SP_IMAGE (object);

switch (key) {

case SP_ATTR_XLINK_HREF:

g_free (image->href);

image->href = (value) ? g_strdup (value) : NULL;

object->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG | SP_IMAGE_HREF_MODIFIED_FLAG);

break;

case SP_ATTR_X:

if (!image->x.readAbsolute(value)) {

/* fixme: em, ex, % are probably valid, but require special treatment (Lauris) */

image->x.unset();

}

object->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG);

break;

case SP_ATTR_Y:

if (!image->y.readAbsolute(value)) {

/* fixme: em, ex, % are probably valid, but require special treatment (Lauris) */

image->y.unset();

}

object->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG);

break;

case SP_ATTR_WIDTH:

if (!image->width.readAbsolute(value)) {

/* fixme: em, ex, % are probably valid, but require special treatment (Lauris) */

image->width.unset();

}

object->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG);

break;

case SP_ATTR_HEIGHT:

if (!image->height.readAbsolute(value)) {

/* fixme: em, ex, % are probably valid, but require special treatment (Lauris) */

image->height.unset();

}

object->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG);

break;

case SP_ATTR_PRESERVEASPECTRATIO:

/* Do setup before, so we can use break to escape */

image->aspect_align = SP_ASPECT_NONE;

image->aspect_clip = SP_ASPECT_MEET;

object->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG | SP_OBJECT_VIEWPORT_MODIFIED_FLAG);

if (value) {

int len;

gchar c[256];

const gchar *p, *e;

unsigned int align, clip;

p = value;

while (*p && *p == 32) p += 1;

if (!*p) break;

e = p;

while (*e && *e != 32) e += 1;

len = e - p;

if (len > 8) break;

memcpy (c, value, len);

c[len] = 0;

/* Now the actual part */

if (!strcmp (c, "none")) {

align = SP_ASPECT_NONE;

} else if (!strcmp (c, "xMinYMin")) {

align = SP_ASPECT_XMIN_YMIN;

} else if (!strcmp (c, "xMidYMin")) {

align = SP_ASPECT_XMID_YMIN;

} else if (!strcmp (c, "xMaxYMin")) {

align = SP_ASPECT_XMAX_YMIN;

} else if (!strcmp (c, "xMinYMid")) {

align = SP_ASPECT_XMIN_YMID;

} else if (!strcmp (c, "xMidYMid")) {

align = SP_ASPECT_XMID_YMID;

} else if (!strcmp (c, "xMaxYMid")) {

align = SP_ASPECT_XMAX_YMID;

} else if (!strcmp (c, "xMinYMax")) {

align = SP_ASPECT_XMIN_YMAX;

} else if (!strcmp (c, "xMidYMax")) {

align = SP_ASPECT_XMID_YMAX;

} else if (!strcmp (c, "xMaxYMax")) {

align = SP_ASPECT_XMAX_YMAX;

} else {

break;

}

clip = SP_ASPECT_MEET;

while (*e && *e == 32) e += 1;

if (e) {

if (!strcmp (e, "meet")) {

clip = SP_ASPECT_MEET;

} else if (!strcmp (e, "slice")) {

clip = SP_ASPECT_SLICE;

} else {

break;

}

}

image->aspect_align = align;

image->aspect_clip = clip;

}

break;

#if ENABLE_LCMS

case SP_PROP_COLOR_PROFILE:

if ( image->color_profile ) {

g_free (image->color_profile);

}

image->color_profile = (value) ? g_strdup (value) : NULL;

#ifdef DEBUG_LCMS

if ( value ) {

DEBUG_MESSAGE( lcmsFour, "<image> color-profile set to '%s'", value );

} else {

DEBUG_MESSAGE( lcmsFour, "<image> color-profile cleared" );

}

#endif // DEBUG_LCMS

// TODO check on this HREF_MODIFIED flag

object->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG | SP_IMAGE_HREF_MODIFIED_FLAG);

break;

#endif // ENABLE_LCMS

default:

if (((SPObjectClass *) (parent_class))->set)

((SPObjectClass *) (parent_class))->set (object, key, value);

break;

}

sp_image_set_curve(image); //creates a curve at the image's boundary for snapping

}

static void

sp_image_update (SPObject *object, SPCtx *ctx, unsigned int flags)

{

SPImage *image = SP_IMAGE(object);

SPDocument *doc = SP_OBJECT_DOCUMENT(object);

if (((SPObjectClass *) (parent_class))->update)

((SPObjectClass *) (parent_class))->update (object, ctx, flags);

if (flags & SP_IMAGE_HREF_MODIFIED_FLAG) {

if (image->pixbuf) {

gdk_pixbuf_unref (image->pixbuf);

image->pixbuf = NULL;

}

if ( image->pixPath ) {

g_free(image->pixPath);

image->pixPath = 0;

}

image->lastMod = 0;

if (image->href) {

GdkPixbuf *pixbuf;

pixbuf = sp_image_repr_read_image (

image->lastMod,

image->pixPath,

object->repr->attribute("xlink:href"),

object->repr->attribute("sodipodi:absref"),

doc->base);

if (pixbuf) {

pixbuf = sp_image_pixbuf_force_rgba (pixbuf);

#if ENABLE_LCMS

if ( image->color_profile )

{

int imagewidth = gdk_pixbuf_get_width( pixbuf );

int imageheight = gdk_pixbuf_get_height( pixbuf );

int rowstride = gdk_pixbuf_get_rowstride( pixbuf );

guchar* px = gdk_pixbuf_get_pixels( pixbuf );

if ( px ) {

#ifdef DEBUG_LCMS

DEBUG_MESSAGE( lcmsFive, "in <image>'s sp_image_update. About to call colorprofile_get_handle()" );

#endif // DEBUG_LCMS

guint profIntent = Inkscape::RENDERING_INTENT_UNKNOWN;

cmsHPROFILE prof = Inkscape::colorprofile_get_handle( SP_OBJECT_DOCUMENT( object ),

&profIntent,

image->color_profile );

if ( prof ) {

icProfileClassSignature profileClass = cmsGetDeviceClass( prof );

if ( profileClass != icSigNamedColorClass ) {

int intent = INTENT_PERCEPTUAL;

switch ( profIntent ) {

case Inkscape::RENDERING_INTENT_RELATIVE_COLORIMETRIC:

intent = INTENT_RELATIVE_COLORIMETRIC;

break;

case Inkscape::RENDERING_INTENT_SATURATION:

intent = INTENT_SATURATION;

break;

case Inkscape::RENDERING_INTENT_ABSOLUTE_COLORIMETRIC:

intent = INTENT_ABSOLUTE_COLORIMETRIC;

break;

case Inkscape::RENDERING_INTENT_PERCEPTUAL:

case Inkscape::RENDERING_INTENT_UNKNOWN:

case Inkscape::RENDERING_INTENT_AUTO:

default:

intent = INTENT_PERCEPTUAL;

}

cmsHPROFILE destProf = cmsCreate_sRGBProfile();

cmsHTRANSFORM transf = cmsCreateTransform( prof,

TYPE_RGBA_8,

destProf,

TYPE_RGBA_8,

intent, 0 );

if ( transf ) {

guchar* currLine = px;

for ( int y = 0; y < imageheight; y++ ) {

// Since the types are the same size, we can do the transformation in-place

cmsDoTransform( transf, currLine, currLine, imagewidth );

currLine += rowstride;

}

cmsDeleteTransform( transf );

}

#ifdef DEBUG_LCMS

else

{

DEBUG_MESSAGE( lcmsSix, "in <image>'s sp_image_update. Unable to create LCMS transform." );

}

#endif // DEBUG_LCMS

cmsCloseProfile( destProf );

}

#ifdef DEBUG_LCMS

else

{

DEBUG_MESSAGE( lcmsSeven, "in <image>'s sp_image_update. Profile type is named color. Can't transform." );

}

#endif // DEBUG_LCMS

}

#ifdef DEBUG_LCMS

else

{

DEBUG_MESSAGE( lcmsEight, "in <image>'s sp_image_update. No profile found." );

}

#endif // DEBUG_LCMS

}

}

#endif // ENABLE_LCMS

image->pixbuf = pixbuf;

}

}

}

// preserveAspectRatio calculate bounds / clipping rectangle -- EAF

if (image->pixbuf && (image->aspect_align != SP_ASPECT_NONE)) {

int imagewidth, imageheight;

double x,y;

imagewidth = gdk_pixbuf_get_width (image->pixbuf);

imageheight = gdk_pixbuf_get_height (image->pixbuf);

switch (image->aspect_align) {

case SP_ASPECT_XMIN_YMIN:

x = 0.0;

y = 0.0;

break;

case SP_ASPECT_XMID_YMIN:

x = 0.5;

y = 0.0;

break;

case SP_ASPECT_XMAX_YMIN:

x = 1.0;

y = 0.0;

break;

case SP_ASPECT_XMIN_YMID:

x = 0.0;

y = 0.5;

break;

case SP_ASPECT_XMID_YMID:

x = 0.5;

y = 0.5;

break;

case SP_ASPECT_XMAX_YMID:

x = 1.0;

y = 0.5;

break;

case SP_ASPECT_XMIN_YMAX:

x = 0.0;

y = 1.0;

break;

case SP_ASPECT_XMID_YMAX:

x = 0.5;

y = 1.0;

break;

case SP_ASPECT_XMAX_YMAX:

x = 1.0;

y = 1.0;

break;

default:

x = 0.0;

y = 0.0;

break;

}

if (image->aspect_clip == SP_ASPECT_SLICE) {

image->viewx = image->x.computed;

image->viewy = image->y.computed;

image->viewwidth = image->width.computed;

image->viewheight = image->height.computed;

if ((imagewidth*image->height.computed)>(image->width.computed*imageheight)) {

// Pixels aspect is wider than bounding box

image->trimheight = imageheight;

image->trimwidth = static_cast<int>(static_cast<double>(imageheight) * image->width.computed / image->height.computed);

image->trimy = 0;

image->trimx = static_cast<int>(static_cast<double>(imagewidth - image->trimwidth) * x);

} else {

// Pixels aspect is taller than bounding box

image->trimwidth = imagewidth;

image->trimheight = static_cast<int>(static_cast<double>(imagewidth) * image->height.computed / image->width.computed);

image->trimx = 0;

image->trimy = static_cast<int>(static_cast<double>(imageheight - image->trimheight) * y);

}

} else {

// Otherwise, assume SP_ASPECT_MEET

image->trimx = 0;

image->trimy = 0;

image->trimwidth = imagewidth;

image->trimheight = imageheight;

if ((imagewidth*image->height.computed)>(image->width.computed*imageheight)) {

// Pixels aspect is wider than bounding boz

image->viewwidth = image->width.computed;

image->viewheight = image->viewwidth * imageheight / imagewidth;

image->viewx=image->x.computed;

image->viewy=(image->height.computed - image->viewheight) * y + image->y.computed;

} else {

// Pixels aspect is taller than bounding box

image->viewheight = image->height.computed;

image->viewwidth = image->viewheight * imagewidth / imageheight;

image->viewy=image->y.computed;

image->viewx=(image->width.computed - image->viewwidth) * x + image->x.computed;

}

}

}

sp_image_update_canvas_image ((SPImage *) object);

}

static Inkscape::XML::Node *

sp_image_write (SPObject *object, Inkscape::XML::Document *xml_doc, Inkscape::XML::Node *repr, guint flags)

{

SPImage *image;

image = SP_IMAGE (object);

if ((flags & SP_OBJECT_WRITE_BUILD) && !repr) {

repr = xml_doc->createElement("svg:image");

}

repr->setAttribute("xlink:href", image->href);

/* fixme: Reset attribute if needed (Lauris) */

if (image->x._set) sp_repr_set_svg_double(repr, "x", image->x.computed);

if (image->y._set) sp_repr_set_svg_double(repr, "y", image->y.computed);

if (image->width._set) sp_repr_set_svg_double(repr, "width", image->width.computed);

if (image->height._set) sp_repr_set_svg_double(repr, "height", image->height.computed);

repr->setAttribute("preserveAspectRatio", object->repr->attribute("preserveAspectRatio"));

#if ENABLE_LCMS

if (image->color_profile) repr->setAttribute("color-profile", image->color_profile);

#endif // ENABLE_LCMS

if (((SPObjectClass *) (parent_class))->write)

((SPObjectClass *) (parent_class))->write (object, xml_doc, repr, flags);

return repr;

}

static void

sp_image_bbox(SPItem const *item, NRRect *bbox, Geom::Matrix const &transform, unsigned const /*flags*/)

{

SPImage const &image = *SP_IMAGE(item);

if ((image.width.computed > 0.0) && (image.height.computed > 0.0)) {

double const x0 = image.x.computed;

double const y0 = image.y.computed;

double const x1 = x0 + image.width.computed;

double const y1 = y0 + image.height.computed;

nr_rect_union_pt(bbox, Geom::Point(x0, y0) * transform);

nr_rect_union_pt(bbox, Geom::Point(x1, y0) * transform);

nr_rect_union_pt(bbox, Geom::Point(x1, y1) * transform);

nr_rect_union_pt(bbox, Geom::Point(x0, y1) * transform);

}

}

static void

sp_image_print (SPItem *item, SPPrintContext *ctx)

{

SPImage *image;

guchar *px;

int w, h, rs, pixskip;

image = SP_IMAGE (item);

if (!image->pixbuf) return;

if ((image->width.computed <= 0.0) || (image->height.computed <= 0.0)) return;

px = gdk_pixbuf_get_pixels (image->pixbuf);

w = gdk_pixbuf_get_width (image->pixbuf);

h = gdk_pixbuf_get_height (image->pixbuf);

rs = gdk_pixbuf_get_rowstride (image->pixbuf);

pixskip = gdk_pixbuf_get_n_channels (image->pixbuf) * gdk_pixbuf_get_bits_per_sample (image->pixbuf) / 8;

Geom::Matrix t;

if (image->aspect_align == SP_ASPECT_NONE) {

/* fixme: (Lauris) */

Geom::Translate tp (image->x.computed, image->y.computed);

Geom::Scale s (image->width.computed, -image->height.computed);

Geom::Translate ti (0.0, -1.0);

t = s * tp;

t = ti * t;

} else { // preserveAspectRatio

Geom::Translate tp (image->viewx, image->viewy);

Geom::Scale s (image->viewwidth, -image->viewheight);

Geom::Translate ti (0.0, -1.0);

t = s * tp;

t = ti * t;

}

if (image->aspect_align == SP_ASPECT_NONE)

sp_print_image_R8G8B8A8_N (ctx, px, w, h, rs, &t, SP_OBJECT_STYLE (item));

else // preserveAspectRatio

sp_print_image_R8G8B8A8_N (ctx, px + image->trimx*pixskip + image->trimy*rs, image->trimwidth, image->trimheight, rs, &t, SP_OBJECT_STYLE (item));

}

static gchar *

sp_image_description(SPItem *item)

{

SPImage *image = SP_IMAGE(item);

char *href_desc;

if (image->href) {

href_desc = (strncmp(image->href, "data:", 5) == 0)

? g_strdup(_("embedded"))

: xml_quote_strdup(image->href);

} else {

g_warning("Attempting to call strncmp() with a null pointer.");

href_desc = g_strdup("(null_pointer)"); // we call g_free() on href_desc

}

char *ret = ( image->pixbuf == NULL

? g_strdup_printf(_("<b>Image with bad reference</b>: %s"), href_desc)

: g_strdup_printf(_("<b>Image</b> %d &#215; %d: %s"),

gdk_pixbuf_get_width(image->pixbuf),

gdk_pixbuf_get_height(image->pixbuf),

href_desc) );

g_free(href_desc);

return ret;

}

static NRArenaItem *

sp_image_show (SPItem *item, NRArena *arena, unsigned int /*key*/, unsigned int /*flags*/)

{

int pixskip, rs;

SPImage * image;

NRArenaItem *ai;

image = (SPImage *) item;

ai = NRArenaImage::create(arena);

if (image->pixbuf) {

pixskip = gdk_pixbuf_get_n_channels (image->pixbuf) * gdk_pixbuf_get_bits_per_sample (image->pixbuf) / 8;

rs = gdk_pixbuf_get_rowstride (image->pixbuf);

nr_arena_image_set_style(NR_ARENA_IMAGE(ai), SP_OBJECT_STYLE(SP_OBJECT(item)));

if (image->aspect_align == SP_ASPECT_NONE)

nr_arena_image_set_pixels (NR_ARENA_IMAGE (ai),

gdk_pixbuf_get_pixels (image->pixbuf),

gdk_pixbuf_get_width (image->pixbuf),

gdk_pixbuf_get_height (image->pixbuf),

rs);

else // preserveAspectRatio

nr_arena_image_set_pixels (NR_ARENA_IMAGE (ai),

gdk_pixbuf_get_pixels (image->pixbuf) + image->trimx*pixskip + image->trimy*rs,

image->trimwidth,

image->trimheight,

rs);

} else {

nr_arena_image_set_pixels (NR_ARENA_IMAGE (ai), NULL, 0, 0, 0);

}

if (image->aspect_align == SP_ASPECT_NONE)

nr_arena_image_set_geometry (NR_ARENA_IMAGE (ai), image->x.computed, image->y.computed, image->width.computed, image->height.computed);

else // preserveAspectRatio

nr_arena_image_set_geometry (NR_ARENA_IMAGE (ai), image->viewx, image->viewy, image->viewwidth, image->viewheight);

return ai;

}

GdkPixbuf *sp_image_repr_read_image( time_t& modTime, char*& pixPath, const gchar *href, const gchar *absref, const gchar *base )

{

const gchar *filename, *docbase;

gchar *fullname;

GdkPixbuf *pixbuf;

modTime = 0;

if ( pixPath ) {

g_free(pixPath);

pixPath = 0;

}

filename = href;

if (filename != NULL) {

if (strncmp (filename,"file:",5) == 0) {

fullname = g_filename_from_uri(filename, NULL, NULL);

if (fullname) {

// TODO check this. Was doing a UTF-8 to filename conversion here.

pixbuf = Inkscape::IO::pixbuf_new_from_file (fullname, modTime, pixPath, NULL);

if (pixbuf != NULL) return pixbuf;

}

} else if (strncmp (filename,"data:",5) == 0) {

/* data URI - embedded image */

filename += 5;

pixbuf = sp_image_repr_read_dataURI (filename);

if (pixbuf != NULL) return pixbuf;

} else {

if (!g_path_is_absolute (filename)) {

/* try to load from relative pos combined with document base*/

docbase = base;

if (!docbase) docbase = ".";

fullname = g_build_filename(docbase, filename, NULL);

// document base can be wrong (on the temporary doc when importing bitmap from a

// different dir) or unset (when doc is not saved yet), so we check for base+href existence first,

// and if it fails, we also try to use bare href regardless of its g_path_is_absolute

if (g_file_test (fullname, G_FILE_TEST_EXISTS) && !g_file_test (fullname, G_FILE_TEST_IS_DIR)) {

pixbuf = Inkscape::IO::pixbuf_new_from_file( fullname, modTime, pixPath, NULL );

g_free (fullname);

if (pixbuf != NULL) return pixbuf;

}

}

/* try filename as absolute */

if (g_file_test (filename, G_FILE_TEST_EXISTS) && !g_file_test (filename, G_FILE_TEST_IS_DIR)) {

pixbuf = Inkscape::IO::pixbuf_new_from_file( filename, modTime, pixPath, NULL );

if (pixbuf != NULL) return pixbuf;

}

}

}

/* at last try to load from sp absolute path name */

filename = absref;

if (filename != NULL) {

// using absref is outside of SVG rules, so we must at least warn the user

if ( base != NULL && href != NULL )

g_warning ("<image xlink:href=\"%s\"> did not resolve to a valid image file (base dir is %s), now trying sodipodi:absref=\"%s\"", href, base, absref);

else

g_warning ("xlink:href did not resolve to a valid image file, now trying sodipodi:absref=\"%s\"", absref);

pixbuf = Inkscape::IO::pixbuf_new_from_file( filename, modTime, pixPath, NULL );

if (pixbuf != NULL) return pixbuf;

}

/* Nope: We do not find any valid pixmap file :-( */

pixbuf = gdk_pixbuf_new_from_xpm_data ((const gchar **) brokenimage_xpm);

/* It should be included xpm, so if it still does not does load, */

/* our libraries are broken */

g_assert (pixbuf != NULL);

return pixbuf;

}

static GdkPixbuf *

sp_image_pixbuf_force_rgba (GdkPixbuf * pixbuf)

{

GdkPixbuf * newbuf;

if (gdk_pixbuf_get_has_alpha (pixbuf)) return pixbuf;

newbuf = gdk_pixbuf_add_alpha (pixbuf, FALSE, 0, 0, 0);

gdk_pixbuf_unref (pixbuf);

return newbuf;

}

static void

sp_image_update_canvas_image (SPImage *image)

{

int rs, pixskip;

SPItem *item;

SPItemView *v;

item = SP_ITEM (image);

if (image->pixbuf) {

/* fixme: We are slightly violating spec here (Lauris) */

if (!image->width._set) {

image->width.computed = gdk_pixbuf_get_width (image->pixbuf);

}

if (!image->height._set) {

image->height.computed = gdk_pixbuf_get_height (image->pixbuf);

}

}

for (v = item->display; v != NULL; v = v->next) {

pixskip = gdk_pixbuf_get_n_channels (image->pixbuf) * gdk_pixbuf_get_bits_per_sample (image->pixbuf) / 8;

rs = gdk_pixbuf_get_rowstride (image->pixbuf);

nr_arena_image_set_style (NR_ARENA_IMAGE(v->arenaitem), SP_OBJECT_STYLE(SP_OBJECT(image)));

if (image->aspect_align == SP_ASPECT_NONE) {

nr_arena_image_set_pixels (NR_ARENA_IMAGE (v->arenaitem),

gdk_pixbuf_get_pixels (image->pixbuf),

gdk_pixbuf_get_width (image->pixbuf),

gdk_pixbuf_get_height (image->pixbuf),

rs);

nr_arena_image_set_geometry (NR_ARENA_IMAGE (v->arenaitem),

image->x.computed, image->y.computed,

image->width.computed, image->height.computed);

} else { // preserveAspectRatio

nr_arena_image_set_pixels (NR_ARENA_IMAGE (v->arenaitem),

gdk_pixbuf_get_pixels (image->pixbuf) + image->trimx*pixskip + image->trimy*rs,

image->trimwidth,

image->trimheight,

rs);

nr_arena_image_set_geometry (NR_ARENA_IMAGE (v->arenaitem),

image->viewx, image->viewy,

image->viewwidth, image->viewheight);

}

}

}

static void sp_image_snappoints(SPItem const *item, SnapPointsIter p)

{

/* An image doesn't have any nodes to snap, but still we want to be able snap one image

g_assert(item != NULL);

g_assert(SP_IS_IMAGE(item));

if (item->clip_ref->getObject()) {

//We are looking at a clipped image: do not return any snappoints, as these might be

//far far away from the visible part from the clipped image

//TODO Do return snappoints, but only when within visual bounding box

} else {

// The image has not been clipped: return its corners, which might be rotated for example

SPImage &image = *SP_IMAGE(item);

double const x0 = image.x.computed;

double const y0 = image.y.computed;

double const x1 = x0 + image.width.computed;

double const y1 = y0 + image.height.computed;

NR::Matrix const i2d (sp_item_i2d_affine (item));

*p = NR::Point(x0, y0) * i2d;

*p = NR::Point(x0, y1) * i2d;

*p = NR::Point(x1, y1) * i2d;

*p = NR::Point(x1, y0) * i2d;

}

}

static Geom::Matrix

sp_image_set_transform(SPItem *item, Geom::Matrix const &xform)

{

SPImage *image = SP_IMAGE(item);

/* Calculate position in parent coords. */

Geom::Point pos( Geom::Point(image->x.computed, image->y.computed) * xform );

/* This function takes care of translation and scaling, we return whatever parts we can't

Geom::Matrix ret(Geom::Matrix(xform).without_translation());

Geom::Point const scale(hypot(ret[0], ret[1]),

hypot(ret[2], ret[3]));

if ( scale[NR::X] > 1e-9 ) {

ret[0] /= scale[Geom::X];

ret[1] /= scale[Geom::X];

} else {

ret[0] = 1.0;

ret[1] = 0.0;

}

if ( scale[NR::Y] > 1e-9 ) {

ret[2] /= scale[Geom::Y];

ret[3] /= scale[Geom::Y];

} else {

ret[2] = 0.0;

ret[3] = 1.0;

}

image->width = image->width.computed * scale[Geom::X];

image->height = image->height.computed * scale[Geom::Y];

/* Find position in item coords */

pos = pos * ret.inverse();

image->x = pos[Geom::X];

image->y = pos[Geom::Y];

item->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG);

return ret;

}

static GdkPixbuf *

sp_image_repr_read_dataURI (const gchar * uri_data)

{ GdkPixbuf * pixbuf = NULL;

gint data_is_image = 0;

gint data_is_base64 = 0;

const gchar * data = uri_data;

while (*data) {

if (strncmp (data,"base64",6) == 0) {

/* base64-encoding */

data_is_base64 = 1;

data_is_image = 1; // Illustrator produces embedded images without MIME type, so we assume it's image no matter what

data += 6;

}

else if (strncmp (data,"image/png",9) == 0) {

/* PNG image */

data_is_image = 1;

data += 9;

}

else if (strncmp (data,"image/jpg",9) == 0) {

/* JPEG image */

data_is_image = 1;

data += 9;

}

else if (strncmp (data,"image/jpeg",10) == 0) {

/* JPEG image */

data_is_image = 1;

data += 10;

}

else { /* unrecognized option; skip it */

while (*data) {

if (((*data) == ';') || ((*data) == ',')) break;

data++;

}

}

if ((*data) == ';') {

data++;

continue;

}

if ((*data) == ',') {

data++;

break;

}

}

if ((*data) && data_is_image && data_is_base64) {

pixbuf = sp_image_repr_read_b64 (data);

}

return pixbuf;

}

static GdkPixbuf *

sp_image_repr_read_b64 (const gchar * uri_data)

{ GdkPixbuf * pixbuf = NULL;

GdkPixbufLoader * loader = NULL;

gint j;

gint k;

gint l;

gint b;

gint len;

gint eos = 0;

gint failed = 0;

guint32 bits;

static const gchar B64[] = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/";

const gchar* btr = uri_data;

gchar ud[4];

guchar bd[57];

loader = gdk_pixbuf_loader_new ();

if (loader == NULL) return NULL;

while (eos == 0) {

l = 0;

for (j = 0; j < 19; j++) {

len = 0;

for (k = 0; k < 4; k++) {

while (isspace ((int) (*btr))) {

if ((*btr) == '\0') break;

btr++;

}

if (eos) {

ud[k] = 0;

continue;

}

if (((*btr) == '\0') || ((*btr) == '=')) {

eos = 1;

ud[k] = 0;

continue;

}

ud[k] = 64;

for (b = 0; b < 64; b++) { /* There must a faster way to do this... ?? */

if (B64[b] == (*btr)) {

ud[k] = (gchar) b;

break;

}

}

if (ud[k] == 64) { /* data corruption ?? */

eos = 1;

ud[k] = 0;

continue;

}

btr++;

len++;

}

bits = (guint32) ud[0];

bits = (bits << 6) | (guint32) ud[1];

bits = (bits << 6) | (guint32) ud[2];

bits = (bits << 6) | (guint32) ud[3];

bd[l++] = (guchar) ((bits & 0xff0000) >> 16);

if (len > 2) {

bd[l++] = (guchar) ((bits & 0xff00) >> 8);

}

if (len > 3) {

bd[l++] = (guchar) (bits & 0xff);

}

}

if (!gdk_pixbuf_loader_write (loader, (const guchar *) bd, (size_t) l, NULL)) {

failed = 1;

break;

}

}

gdk_pixbuf_loader_close (loader, NULL);

if (!failed) pixbuf = gdk_pixbuf_loader_get_pixbuf (loader);

return pixbuf;

}

static void

sp_image_set_curve(SPImage *image)

{

//create a curve at the image's boundary for snapping

if ((image->height.computed < 1e-18) || (image->width.computed < 1e-18) || (image->clip_ref->getObject())) {

if (image->curve) {

image->curve = image->curve->unref();

}

return;

}

NRRect rect;

sp_image_bbox(image, &rect, NR::identity(), 0);

Geom::Rect rect2 = to_2geom(*rect.upgrade());

SPCurve *c = SPCurve::new_from_rect(rect2);

if (image->curve) {

image->curve = image->curve->unref();

}

if (c) {

image->curve = c->ref();

}

c->unref();

}

SPCurve *

sp_image_get_curve (SPImage *image)

{

if (image->curve) {

return image->curve->copy();

}

return NULL;

}

void sp_image_refresh_if_outdated( SPImage* image )

{

if ( image->href && image->lastMod ) {

// It *might* change

struct stat st;

memset(&st, 0, sizeof(st));

int val = g_stat(image->pixPath, &st);

if ( !val ) {

// stat call worked. Check time now

if ( st.st_mtime != image->lastMod ) {

SPCtx *ctx = 0;

unsigned int flags = SP_IMAGE_HREF_MODIFIED_FLAG;

sp_image_update(image, ctx, flags);

}

}

}

}