libvips/libsrc/iofuncs/region.c
2007-08-29 16:23:50 +00:00

604 lines
14 KiB
C

/* Make and destroy partial image regions.
*
* J.Cupitt, 8/4/93.
* 1/7/93 JC
* - adapted for partial v2
* - ANSIfied
* 15/8/94 JC
* - start & stop can now be NULL for no-op
* 12/5/94 JC
* - threads v2.0 added
* 22/2/95 JC
* - im_region_region() args changed
* 22/6/95 JC
* - im_region_local() did not always reset the data pointer
* 18/11/98 JC
* - init a, b, c also now, to help rtc avoid spurious checks
* 29/6/01 JC
* - im_region_free() now frees immediately
* 6/8/02 JC
* - new mmap() window regions
* 5/11/02 JC
* - fix for mmap a local region
* 28/2/05
* - shrink local region memory if required much-greater-than allocated
* 3/6/05
* - im_region_region() allows Bands and BandFmt to differ, provided
* sizeof( pel ) is the same ... makes im_copy_morph() work
* 30/10/06
* - switch to im_window_t for mmap window stuff
* 29/11/06
* - switch to im_buffer_t for local mem buffer stuff
* 19/1/07
* - im_region_image() only sets r, not whole image
* 1'2'07
* - gah, im_region_image() could still break (thanks Mikkel)
*/
/*
This file is part of VIPS.
VIPS is free software; you can redistribute it and/or modify
it under the terms of the GNU Lesser General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
/*
These files are distributed with VIPS - http://www.vips.ecs.soton.ac.uk
*/
/*
#define DEBUG_MOVE
#define DEBUG_ENVIRONMENT 1
#define DEBUG_CREATE
#define DEBUG
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif /*HAVE_CONFIG_H*/
#include <vips/intl.h>
#include <stdio.h>
#include <stdlib.h>
#ifdef HAVE_UNISTD_H
#include <unistd.h>
#endif /*HAVE_UNISTD_H*/
#include <errno.h>
#include <string.h>
#ifdef HAVE_SYS_MMAN_H
#include <sys/mman.h>
#endif
#include <assert.h>
#include <vips/vips.h>
#include <vips/internal.h>
#include <vips/thread.h>
#ifdef OS_WIN32
#include <windows.h>
#endif /*OS_WIN32*/
#ifdef WITH_DMALLOC
#include <dmalloc.h>
#endif /*WITH_DMALLOC*/
#ifdef DEBUG
/* Track all regions here for debugging.
*/
static GSList *im__regions_all = NULL;
#endif /*DEBUG*/
/* Call a start function if no sequence is running on this REGION.
*/
int
im__call_start( REGION *reg )
{
IMAGE *im = reg->im;
/* Have we a sequence running on this region? Start one if not.
*/
if( !reg->seq && im->start ) {
g_mutex_lock( im->sslock );
reg->seq = im->start( im, im->client1, im->client2 );
g_mutex_unlock( im->sslock );
if( !reg->seq ) {
im_error( "im__call_start",
_( "start function failed for image %s" ),
im->filename );
return( -1 );
}
}
return( 0 );
}
/* Call a stop function if a sequence is running in this REGION. No error
* return, really.
*/
void
im__call_stop( REGION *reg )
{
IMAGE *im = reg->im;
int res;
/* Stop any running sequence.
*/
if( reg->seq && im->stop ) {
g_mutex_lock( im->sslock );
res = im->stop( reg->seq, im->client1, im->client2 );
g_mutex_unlock( im->sslock );
if( res )
error_exit( "panic: user stop callback failed "
"for image %s", im->filename );
reg->seq = NULL;
}
}
/* If a region is being created in one thread (eg. the main thread) and then
* used in another (eg. a worker thread), the new thread needs to tell VIPS
* to stop sanity assert() fails. The previous owner needs to
* im__region_no_ownership() before we can call this.
*/
void
im__region_take_ownership( REGION *reg )
{
/* Lock so that there's a memory barrier with the thread doing the
* im__region_no_ownership() before us.
*/
g_mutex_lock( reg->im->sslock );
assert( reg->thread == NULL );
/* We don't want to move shared buffers: the other region using this
* buffer will still be on the other thread. Not sure if this will
* ever happen: if it does, we'll need to dup the buffer.
*/
assert( !reg->buffer || reg->buffer->ref_count == 1 );
reg->thread = g_thread_self();
g_mutex_unlock( reg->im->sslock );
}
void
im__region_check_ownership( REGION *reg )
{
if( reg->thread ) {
assert( reg->thread == g_thread_self() );
if( reg->buffer && reg->buffer->cache )
assert( reg->thread == reg->buffer->cache->thread );
}
}
/* Call this from the relinquishing thread. Removes the buffer (if any) from
* this thread's buffer cache.
*/
void
im__region_no_ownership( REGION *reg )
{
g_mutex_lock( reg->im->sslock );
im__region_check_ownership( reg );
reg->thread = NULL;
if( reg->buffer )
im_buffer_undone( reg->buffer );
g_mutex_unlock( reg->im->sslock );
}
/* Create a region. Set no attachments. Either im_prepare() or im_generate()
* are responsible for getting regions ready for user functions to read
* from/write to.
*/
REGION *
im_region_create( IMAGE *im )
{
REGION *reg;
im_image_sanity( im );
if( !(reg = IM_NEW( NULL, REGION )) )
return( NULL );
reg->im = im;
reg->valid.left = 0;
reg->valid.top = 0;
reg->valid.width = 0;
reg->valid.height = 0;
reg->type = IM_REGION_NONE;
reg->data = NULL;
reg->bpl = 0;
reg->seq = NULL;
reg->thread = NULL;
reg->window = NULL;
reg->buffer = NULL;
im__region_take_ownership( reg );
/* We're usually inside the ss lock anyway. But be safe ...
*/
g_mutex_lock( im->sslock );
im->regions = g_slist_prepend( im->regions, reg );
g_mutex_unlock( im->sslock );
#ifdef DEBUG
g_mutex_lock( im__global_lock );
im__regions_all = g_slist_prepend( im__regions_all, reg );
printf( "%d regions in vips\n", g_slist_length( im__regions_all ) );
g_mutex_unlock( im__global_lock );
#endif /*DEBUG*/
return( reg );
}
/* Free any resources we have.
*/
static void
im_region_reset( REGION *reg )
{
IM_FREEF( im_window_unref, reg->window );
IM_FREEF( im_buffer_unref, reg->buffer );
}
void
im_region_free( REGION *reg )
{
IMAGE *im;
if( !reg )
return;
im = reg->im;
/* Stop this sequence.
*/
im__call_stop( reg );
/* Free any attached memory.
*/
im_region_reset( reg );
/* Detach from image.
*/
g_mutex_lock( im->sslock );
im->regions = g_slist_remove( im->regions, reg );
g_mutex_unlock( im->sslock );
reg->im = NULL;
/* Was this the last region on an image with close_pending? If yes,
* close the image too.
*/
if( !im->regions && im->close_pending ) {
#ifdef DEBUG_IO
printf( "im_region_free: closing pending image \"%s\"\n",
im->filename );
#endif /*DEBUG_IO*/
/* Time to close the image.
*/
im->close_pending = 0;
im_close( im );
}
im_free( reg );
#ifdef DEBUG
g_mutex_lock( im__global_lock );
assert( g_slist_find( im__regions_all, reg ) );
im__regions_all = g_slist_remove( im__regions_all, reg );
printf( "%d regions in vips\n", g_slist_length( im__regions_all ) );
g_mutex_unlock( im__global_lock );
#endif /*DEBUG*/
}
/* Region should be a pixel buffer. On return, check
* reg->buffer->done to see if there are pixels there already. Otherwise, you
* need to calculate.
*/
int
im_region_buffer( REGION *reg, Rect *r )
{
IMAGE *im = reg->im;
Rect image;
Rect clipped;
im__region_check_ownership( reg );
/* Clip against image.
*/
image.top = 0;
image.left = 0;
image.width = im->Xsize;
image.height = im->Ysize;
im_rect_intersectrect( r, &image, &clipped );
/* Test for empty.
*/
if( im_rect_isempty( &clipped ) ) {
im_error( "im_region_buffer", _( "valid clipped to nothing" ) );
return( -1 );
}
/* Already have stuff?
*/
if( reg->type == IM_REGION_BUFFER &&
im_rect_includesrect( &reg->valid, &clipped ) &&
reg->buffer &&
!reg->buffer->invalid )
return( 0 );
/* Don't call im_region_reset() ... we combine buffer unref and new
* buffer ref in one call to reduce malloc/free cycling.
*/
IM_FREEF( im_window_unref, reg->window );
if( !(reg->buffer = im_buffer_unref_ref( reg->buffer, im, &clipped )) )
return( -1 );
/* Init new stuff.
*/
reg->valid = reg->buffer->area;
reg->bpl = IM_IMAGE_SIZEOF_PEL( im ) * reg->buffer->area.width;
reg->type = IM_REGION_BUFFER;
reg->data = reg->buffer->buf;
return( 0 );
}
/* Attach a region to a small section of the image on which it is defined.
* The IMAGE we are attached to should be im_mmapin(), im_mmapinrw() or
* im_setbuf(). The Rect is clipped against the image size.
*/
int
im_region_image( REGION *reg, Rect *r )
{
Rect image;
Rect clipped;
/* Sanity check.
*/
im__region_check_ownership( reg );
/* Clip against image.
*/
image.top = 0;
image.left = 0;
image.width = reg->im->Xsize;
image.height = reg->im->Ysize;
im_rect_intersectrect( r, &image, &clipped );
/* Test for empty.
*/
if( im_rect_isempty( &clipped ) ) {
im_error( "im_region_image", _( "valid clipped to nothing" ) );
return( -1 );
}
if( reg->im->data ) {
/* We have the whole image available ... easy!
*/
im_region_reset( reg );
/* We can't just set valid = clipped, since this may be an
* incompletely calculated memory buffer. Just set valid to r.
*/
reg->valid = clipped;
reg->bpl = IM_IMAGE_SIZEOF_LINE( reg->im );
reg->data = reg->im->data +
(gint64) clipped.top * IM_IMAGE_SIZEOF_LINE( reg->im ) +
clipped.left * IM_IMAGE_SIZEOF_PEL( reg->im );
reg->type = IM_REGION_OTHER_IMAGE;
}
else if( reg->im->dtype == IM_OPENIN ) {
/* No complete image data ... but we can use a rolling window.
*/
if( reg->type != IM_REGION_WINDOW || !reg->window ||
reg->window->top > clipped.top ||
reg->window->top + reg->window->height <
clipped.top + clipped.height ) {
im_region_reset( reg );
if( !(reg->window = im_window_ref( reg->im,
clipped.top, clipped.height )) )
return( -1 );
reg->type = IM_REGION_WINDOW;
}
/* Note the area the window actually represents.
*/
reg->valid.left = 0;
reg->valid.top = reg->window->top;
reg->valid.width = reg->im->Xsize;
reg->valid.height = reg->window->height;
reg->bpl = IM_IMAGE_SIZEOF_LINE( reg->im );
reg->data = reg->window->data;
}
else {
im_error( "im_region_image", _( "bad image type" ) );
return( -1 );
}
return( 0 );
}
/* Make IM_REGION_ADDR() stuff to reg go to dest instead.
*
* r is the part of the reg image which you want to be able to write to (this
* effectively becomes the valid field), (x,y) is the top LH corner of the
* corresponding area in dest.
*
* Performs all clippings necessary to ensure that &reg->valid is indeed
* valid.
*
* If the region we attach to is modified, we are left with dangling pointers!
* If the region we attach to is on another image, the two images must have
* the same sizeof( pel ).
*/
int
im_region_region( REGION *reg, REGION *dest, Rect *r, int x, int y )
{
Rect image;
Rect wanted;
Rect clipped;
Rect clipped2;
Rect final;
/* Sanity check.
*/
if( !dest->data ||
IM_IMAGE_SIZEOF_PEL( dest->im ) !=
IM_IMAGE_SIZEOF_PEL( reg->im ) ) {
im_error( "im_region_region",
_( "inappropriate region type" ) );
return( -1 );
}
im__region_check_ownership( reg );
/* We can't test
assert( dest->thread == g_thread_self() );
* since we can have several threads writing to the same region in
* threadgroup.
*/
/* Clip r against size of the image.
*/
image.top = 0;
image.left = 0;
image.width = reg->im->Xsize;
image.height = reg->im->Ysize;
im_rect_intersectrect( r, &image, &clipped );
/* Translate to dest's coordinate space and clip against the available
* pixels.
*/
wanted.left = x + (clipped.left - r->left);
wanted.top = y + (clipped.top - r->top);
wanted.width = clipped.width;
wanted.height = clipped.height;
/* Test that dest->valid is large enough.
*/
if( !im_rect_includesrect( &dest->valid, &wanted ) ) {
im_error( "im_region_region", _( "dest too small" ) );
return( -1 );
}
/* Clip against the available pixels.
*/
im_rect_intersectrect( &wanted, &dest->valid, &clipped2 );
/* Translate back to reg's coordinate space and set as valid.
*/
final.left = r->left + (clipped2.left - wanted.left);
final.top = r->top + (clipped2.top - wanted.top);
final.width = clipped2.width;
final.height = clipped2.height;
/* Test for empty.
*/
if( im_rect_isempty( &final ) ) {
im_error( "im_region_region", _( "valid clipped to nothing" ) );
return( -1 );
}
/* Init new stuff.
*/
im_region_reset( reg );
reg->valid = final;
reg->bpl = dest->bpl;
reg->data = IM_REGION_ADDR( dest, clipped2.left, clipped2.top );
reg->type = IM_REGION_OTHER_REGION;
return( 0 );
}
/* Do two regions point to the same piece of image? ie.
* IM_REGION_ADDR( reg1, x, y ) == IM_REGION_ADDR( reg2, x, y ) &&
* *IM_REGION_ADDR( reg1, x, y ) ==
* *IM_REGION_ADDR( reg2, x, y ) for all x, y, reg1, reg2.
*/
int
im_region_equalsregion( REGION *reg1, REGION *reg2 )
{
return( reg1->im == reg2->im &&
im_rect_equalsrect( &reg1->valid, &reg2->valid ) &&
reg1->data == reg2->data );
}
/* Set the position of a region. This only affects reg->valid, ie. the way
* pixels are addressed, not reg->data, the pixels which are addressed. Clip
* against the size of the image. Do not allow negative positions, or
* positions outside the image.
*/
int
im_region_position( REGION *reg, int x, int y )
{
Rect req, image, clipped;
/* Clip!
*/
image.top = 0;
image.left = 0;
image.width = reg->im->Xsize;
image.height = reg->im->Ysize;
req.top = y;
req.left = x;
req.width = reg->valid.width;
req.height = reg->valid.height;
im_rect_intersectrect( &image, &req, &clipped );
if( x < 0 || y < 0 || im_rect_isempty( &clipped ) ) {
im_error( "im_region_position", _( "bad position" ) );
return( -1 );
}
reg->valid = clipped;
return( 0 );
}
int
im_region_fill( REGION *reg, Rect *r, im_region_fill_fn fn, void *a )
{
assert( reg->im->dtype == IM_PARTIAL );
assert( reg->im->generate );
/* Should have local memory.
*/
if( im_region_buffer( reg, r ) )
return( -1 );
/* Evaluate into or, if we've not got calculated pixels.
*/
if( !reg->buffer->done ) {
if( fn( reg, a ) )
return( -1 );
/* Publish our results.
*/
if( reg->buffer )
im_buffer_done( reg->buffer );
}
return( 0 );
}