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/* $Id: PictureController.mm,v 1.11 2005/08/01 15:10:44 titer Exp $
This file is part of the HandBrake source code.
Homepage: <http://handbrake.fr/>.
It may be used under the terms of the GNU General Public License. */
#include "PictureController.h"
@interface PictureController (Private)
- (NSSize)optimalViewSizeForImageSize: (NSSize)imageSize;
- (void)resizeSheetForViewSize: (NSSize)viewSize;
- (void)setViewSize: (NSSize)viewSize;
- (BOOL)viewNeedsToResizeToSize: (NSSize)newSize;
@end
@implementation PictureController
- (id)initWithDelegate:(id)del
{
if (self = [super initWithWindowNibName:@"PictureSettings"])
{
// NSWindowController likes to lazily load its window. However since
// this controller tries to set all sorts of outlets before the window
// is displayed, we need it to load immediately. The correct way to do
// this, according to the documentation, is simply to invoke the window
// getter once.
//
// If/when we switch a lot of this stuff to bindings, this can probably
// go away.
[self window];
delegate = del;
fPicturePreviews = [[NSMutableDictionary dictionaryWithCapacity: HB_NUM_HBLIB_PICTURES] retain];
}
return self;
}
- (void) dealloc
{
[fPicturePreviews release];
[super dealloc];
}
- (void) SetHandle: (hb_handle_t *) handle
{
fHandle = handle;
[fWidthStepper setValueWraps: NO];
[fWidthStepper setIncrement: 16];
[fWidthStepper setMinValue: 64];
[fHeightStepper setValueWraps: NO];
[fHeightStepper setIncrement: 16];
[fHeightStepper setMinValue: 64];
[fCropTopStepper setIncrement: 2];
[fCropTopStepper setMinValue: 0];
[fCropBottomStepper setIncrement: 2];
[fCropBottomStepper setMinValue: 0];
[fCropLeftStepper setIncrement: 2];
[fCropLeftStepper setMinValue: 0];
[fCropRightStepper setIncrement: 2];
[fCropRightStepper setMinValue: 0];
}
- (void) SetTitle: (hb_title_t *) title
{
hb_job_t * job = title->job;
fTitle = title;
[fWidthStepper setMaxValue: title->width];
[fWidthStepper setIntValue: job->width];
[fWidthField setIntValue: job->width];
[fHeightStepper setMaxValue: title->height];
[fHeightStepper setIntValue: job->height];
[fHeightField setIntValue: job->height];
[fRatioCheck setState: job->keep_ratio ? NSOnState : NSOffState];
[fCropTopStepper setMaxValue: title->height/2-2];
[fCropBottomStepper setMaxValue: title->height/2-2];
[fCropLeftStepper setMaxValue: title->width/2-2];
[fCropRightStepper setMaxValue: title->width/2-2];
/* Populate the Anamorphic NSPopUp button here */
[fAnamorphicPopUp removeAllItems];
[fAnamorphicPopUp addItemWithTitle: @"None"];
[fAnamorphicPopUp addItemWithTitle: @"Strict"];
if (allowLooseAnamorphic)
{
[fAnamorphicPopUp addItemWithTitle: @"Loose"];
}
[fAnamorphicPopUp selectItemAtIndex: job->pixel_ratio];
/* We initially set the previous state of keep ar to on */
keepAspectRatioPreviousState = 1;
if (!autoCrop)
{
[fCropMatrix selectCellAtRow: 1 column:0];
/* If auto, lets set the crop steppers according to current job->crop values */
[fCropTopStepper setIntValue: job->crop[0]];
[fCropTopField setIntValue: job->crop[0]];
[fCropBottomStepper setIntValue: job->crop[1]];
[fCropBottomField setIntValue: job->crop[1]];
[fCropLeftStepper setIntValue: job->crop[2]];
[fCropLeftField setIntValue: job->crop[2]];
[fCropRightStepper setIntValue: job->crop[3]];
[fCropRightField setIntValue: job->crop[3]];
}
else
{
[fCropMatrix selectCellAtRow: 0 column:0];
}
/* Set filters widgets according to the filters struct */
[fVFRCheck setState:fPictureFilterSettings.vfr];
[fDetelecineCheck setState:fPictureFilterSettings.detelecine];
[fDeinterlacePopUp selectItemAtIndex: fPictureFilterSettings.deinterlace];
[fDenoisePopUp selectItemAtIndex: fPictureFilterSettings.denoise];
[fDeblockCheck setState: fPictureFilterSettings.deblock];
fPicture = 0;
MaxOutputWidth = title->width - job->crop[2] - job->crop[3];
MaxOutputHeight = title->height - job->crop[0] - job->crop[1];
[self SettingsChanged: nil];
}
/* we use this to setup the initial picture filters upon first launch, after that their states
are maintained across different sources */
- (void) setInitialPictureFilters
{
/* we use a popup to show the deinterlace settings */
[fDeinterlacePopUp removeAllItems];
[fDeinterlacePopUp addItemWithTitle: @"None"];
[fDeinterlacePopUp addItemWithTitle: @"Fast"];
[fDeinterlacePopUp addItemWithTitle: @"Slow"];
[fDeinterlacePopUp addItemWithTitle: @"Slower"];
/* Set deinterlaces level according to the integer in the main window */
[fDeinterlacePopUp selectItemAtIndex: fPictureFilterSettings.deinterlace];
/* we use a popup to show the denoise settings */
[fDenoisePopUp removeAllItems];
[fDenoisePopUp addItemWithTitle: @"None"];
[fDenoisePopUp addItemWithTitle: @"Weak"];
[fDenoisePopUp addItemWithTitle: @"Medium"];
[fDenoisePopUp addItemWithTitle: @"Strong"];
/* Set denoises level according to the integer in the main window */
[fDenoisePopUp selectItemAtIndex: fPictureFilterSettings.denoise];
/* we use a popup to show the decomb settings */
[fDecombPopUp removeAllItems];
[fDecombPopUp addItemWithTitle: @"None"];
[fDecombPopUp addItemWithTitle: @"Default"];
[fDecombPopUp addItemWithTitle: @"Custom"];
/* Set denoises level according to the integer in the main window */
[fDecombPopUp selectItemAtIndex: fPictureFilterSettings.decomb];
}
// Adjusts the window to draw the current picture (fPicture) adjusting its size as
// necessary to display as much of the picture as possible.
- (void) displayPreview
{
[fPictureView setImage: [self imageForPicture: fPicture]];
NSSize displaySize = NSMakeSize( (float)fTitle->width, (float)fTitle->height );
/* Set the picture size display fields below the Preview Picture*/
if( fTitle->job->pixel_ratio == 1 ) // Original PAR Implementation
{
output_width = fTitle->width-fTitle->job->crop[2]-fTitle->job->crop[3];
output_height = fTitle->height-fTitle->job->crop[0]-fTitle->job->crop[1];
display_width = output_width * fTitle->job->pixel_aspect_width / fTitle->job->pixel_aspect_height;
[fInfoField setStringValue:[NSString stringWithFormat:
@"Source: %dx%d, Output: %dx%d, Anamorphic: %dx%d",
fTitle->width, fTitle->height, output_width, output_height, display_width, output_height]];
displaySize.width *= ((float)fTitle->job->pixel_aspect_width) / ((float)fTitle->job->pixel_aspect_height);
}
else if (fTitle->job->pixel_ratio == 2) // Loose Anamorphic
{
display_width = output_width * output_par_width / output_par_height;
[fInfoField setStringValue:[NSString stringWithFormat:
@"Source: %dx%d, Output: %dx%d, Anamorphic: %dx%d",
fTitle->width, fTitle->height, output_width, output_height, display_width, output_height]];
/* FIXME: needs to be fixed so that the picture window does not resize itself on the first
anamorphic width drop
*/
if (fTitle->width - 8 < output_width)
{
displaySize.width *= ((float)output_par_width) / ((float)output_par_height);
}
}
else // No Anamorphic
{
[fInfoField setStringValue: [NSString stringWithFormat:
@"Source: %dx%d, Output: %dx%d", fTitle->width, fTitle->height,
fTitle->job->width, fTitle->job->height]];
}
NSSize viewSize = [self optimalViewSizeForImageSize:displaySize];
if( [self viewNeedsToResizeToSize:viewSize] )
{
[self resizeSheetForViewSize:viewSize];
[self setViewSize:viewSize];
}
// Show the scaled text (use the height to check since the width can vary
// with anamorphic video).
if( ((int)viewSize.height) != fTitle->height )
{
float scale = viewSize.width / ((float)fTitle->width);
NSString *scaleString = [NSString stringWithFormat:
NSLocalizedString( @" (Preview scaled to %.0f%% actual size)",
@"String shown when a preview is scaled" ),
scale * 100.0];
[fInfoField setStringValue:
[[fInfoField stringValue] stringByAppendingString:scaleString]];
}
[fPrevButton setEnabled: ( fPicture > 0 )];
[fNextButton setEnabled: ( fPicture < 9 )];
}
- (IBAction) SettingsChanged: (id) sender
{
hb_job_t * job = fTitle->job;
if( [fAnamorphicPopUp indexOfSelectedItem] > 0 )
{
if ([fAnamorphicPopUp indexOfSelectedItem] == 2) // Loose anamorphic
{
job->pixel_ratio = 2;
[fWidthStepper setEnabled: YES];
[fWidthField setEnabled: YES];
/* We set job->width and call hb_set_anamorphic_size in libhb to do a "dry run" to get
* the values to be used by libhb for loose anamorphic
*/
job->width = [fWidthStepper intValue];
hb_set_anamorphic_size(job, &output_width, &output_height, &output_par_width, &output_par_height);
[fHeightStepper setIntValue: output_height];
[fHeightField setIntValue: output_height];
job->height = [fHeightStepper intValue];
}
else // must be "1" or strict anamorphic
{
[fWidthStepper setIntValue: fTitle->width-fTitle->job->crop[2]-fTitle->job->crop[3]];
[fWidthField setIntValue: fTitle->width-fTitle->job->crop[2]-fTitle->job->crop[3]];
/* This will show correct anamorphic height values, but
show distorted preview picture ratio */
[fHeightStepper setIntValue: fTitle->height-fTitle->job->crop[0]-fTitle->job->crop[1]];
[fHeightField setIntValue: fTitle->height-fTitle->job->crop[0]-fTitle->job->crop[1]];
job->width = [fWidthStepper intValue];
job->height = [fHeightStepper intValue];
job->pixel_ratio = 1;
[fWidthStepper setEnabled: NO];
[fWidthField setEnabled: NO];
}
/* if the sender is the Anamorphic checkbox, record the state
of KeepAspect Ratio so it can be reset if Anamorphic is unchecked again */
if (sender == fAnamorphicPopUp)
{
keepAspectRatioPreviousState = [fRatioCheck state];
}
[fRatioCheck setState:NSOffState];
[fRatioCheck setEnabled: NO];
[fHeightStepper setEnabled: NO];
[fHeightField setEnabled: NO];
}
else
{
job->width = [fWidthStepper intValue];
job->height = [fHeightStepper intValue];
job->pixel_ratio = 0;
[fWidthStepper setEnabled: YES];
[fWidthField setEnabled: YES];
[fHeightStepper setEnabled: YES];
[fHeightField setEnabled: YES];
[fRatioCheck setEnabled: YES];
/* if the sender is the Anamorphic checkbox, we return the
keep AR checkbox to its previous state */
if (sender == fAnamorphicPopUp)
{
[fRatioCheck setState:keepAspectRatioPreviousState];
}
}
job->keep_ratio = ( [fRatioCheck state] == NSOnState );
fPictureFilterSettings.deinterlace = [fDeinterlacePopUp indexOfSelectedItem];
/* if the gui deinterlace settings are fast through slowest, the job->deinterlace
value needs to be set to one, for the job as well as the previews showing deinterlacing
otherwise set job->deinterlace to 0 or "off" */
if (fPictureFilterSettings.deinterlace > 0)
{
job->deinterlace = 1;
}
else
{
job->deinterlace = 0;
}
fPictureFilterSettings.denoise = [fDenoisePopUp indexOfSelectedItem];
fPictureFilterSettings.vfr = [fVFRCheck state];
if (fPictureFilterSettings.vfr > 0)
{
[fDetelecineCheck setState:NSOnState];
[fDetelecineCheck setEnabled: NO];
}
else
{
[fDetelecineCheck setEnabled: YES];
}
fPictureFilterSettings.detelecine = [fDetelecineCheck state];
fPictureFilterSettings.deblock = [fDeblockCheck state];
fPictureFilterSettings.decomb = [fDecombPopUp indexOfSelectedItem];
autoCrop = ( [fCropMatrix selectedRow] == 0 );
[fCropTopStepper setEnabled: !autoCrop];
[fCropBottomStepper setEnabled: !autoCrop];
[fCropLeftStepper setEnabled: !autoCrop];
[fCropRightStepper setEnabled: !autoCrop];
if( autoCrop )
{
memcpy( job->crop, fTitle->crop, 4 * sizeof( int ) );
}
else
{
job->crop[0] = [fCropTopStepper intValue];
job->crop[1] = [fCropBottomStepper intValue];
job->crop[2] = [fCropLeftStepper intValue];
job->crop[3] = [fCropRightStepper intValue];
}
if( job->keep_ratio )
{
if( sender == fWidthStepper || sender == fRatioCheck ||
sender == fCropTopStepper || sender == fCropBottomStepper )
{
hb_fix_aspect( job, HB_KEEP_WIDTH );
if( job->height > fTitle->height )
{
job->height = fTitle->height;
hb_fix_aspect( job, HB_KEEP_HEIGHT );
}
}
else
{
hb_fix_aspect( job, HB_KEEP_HEIGHT );
if( job->width > fTitle->width )
{
job->width = fTitle->width;
hb_fix_aspect( job, HB_KEEP_WIDTH );
}
}
}
[fWidthStepper setIntValue: job->width];
[fWidthField setIntValue: job->width];
if( [fAnamorphicPopUp indexOfSelectedItem] < 2 )
{
[fHeightStepper setIntValue: job->height];
[fHeightField setIntValue: job->height];
}
[fCropTopStepper setIntValue: job->crop[0]];
[fCropTopField setIntValue: job->crop[0]];
[fCropBottomStepper setIntValue: job->crop[1]];
[fCropBottomField setIntValue: job->crop[1]];
[fCropLeftStepper setIntValue: job->crop[2]];
[fCropLeftField setIntValue: job->crop[2]];
[fCropRightStepper setIntValue: job->crop[3]];
[fCropRightField setIntValue: job->crop[3]];
/* Sanity Check Here for < 16 px preview to avoid
crashing hb_get_preview. In fact, just for kicks
lets getting previews at a min limit of 32, since
no human can see any meaningful detail below that */
if (job->width >= 64 && job->height >= 64)
{
// Purge the existing picture previews so they get recreated the next time
// they are needed.
[self purgeImageCache];
[self displayPreview];
}
}
- (IBAction) PreviousPicture: (id) sender
{
if( fPicture <= 0 )
{
return;
}
fPicture--;
[self displayPreview];
}
- (IBAction) NextPicture: (id) sender
{
if( fPicture >= 9 )
{
return;
}
fPicture++;
[self displayPreview];
}
- (IBAction) ClosePanel: (id) sender
{
if ([delegate respondsToSelector:@selector(pictureSettingsDidChange)])
[delegate pictureSettingsDidChange];
[NSApp endSheet:[self window]];
[[self window] orderOut:self];
}
- (BOOL) autoCrop
{
return autoCrop;
}
- (void) setAutoCrop: (BOOL) setting
{
autoCrop = setting;
}
- (BOOL) allowLooseAnamorphic
{
return allowLooseAnamorphic;
}
- (void) setAllowLooseAnamorphic: (BOOL) setting
{
allowLooseAnamorphic = setting;
}
- (int) detelecine
{
return fPictureFilterSettings.detelecine;
}
- (void) setDetelecine: (int) setting
{
fPictureFilterSettings.detelecine = setting;
}
- (int) vfr
{
return fPictureFilterSettings.vfr;
}
- (void) setVFR: (int) setting
{
fPictureFilterSettings.vfr = setting;
}
- (int) deinterlace
{
return fPictureFilterSettings.deinterlace;
}
- (void) setDeinterlace: (int) setting {
fPictureFilterSettings.deinterlace = setting;
}
- (int) decomb
{
return fPictureFilterSettings.decomb;
}
- (void) setDecomb: (int) setting {
fPictureFilterSettings.decomb = setting;
}
- (int) denoise
{
return fPictureFilterSettings.denoise;
}
- (void) setDenoise: (int) setting
{
fPictureFilterSettings.denoise = setting;
}
- (int) deblock
{
return fPictureFilterSettings.deblock;
}
- (void) setDeblock: (int) setting
{
fPictureFilterSettings.deblock = setting;
}
- (void)showPanelInWindow: (NSWindow *)fWindow forTitle: (hb_title_t *)title
{
[self SetTitle:title];
[NSApp beginSheet:[self window]
modalForWindow:fWindow
modalDelegate:nil
didEndSelector:nil
contextInfo:NULL];
}
// This function converts an image created by libhb (specified via pictureIndex) into
// an NSImage suitable for the GUI code to use. If removeBorders is YES,
// makeImageForPicture crops the image generated by libhb stripping off the gray
// border around the content. This is the low-level method that generates the image.
// -imageForPicture calls this function whenever it can't find an image in its cache.
+ (NSImage *) makeImageForPicture: (int)pictureIndex
libhb:(hb_handle_t*)handle
title:(hb_title_t*)title
removeBorders:(BOOL)removeBorders
{
if (removeBorders)
{
// |<---------- title->width ----------->|
// | |<---- title->job->width ---->| |
// | | | |
// .......................................
// ....+-----------------------------+....
// ....| |....<-- gray border
// ....| |....
// ....| |....
// ....| |<------- image
// ....| |....
// ....| |....
// ....| |....
// ....| |....
// ....| |....
// ....+-----------------------------+....
// .......................................
static uint8_t * buffer;
static int bufferSize;
// Make sure we have a big enough buffer to receive the image from libhb. libhb
// creates images with a one-pixel border around the original content. Hence we
// add 2 pixels horizontally and vertically to the buffer size.
int srcWidth = title->width + 2;
int srcHeight= title->height + 2;
int newSize;
newSize = srcWidth * srcHeight * 4;
if( bufferSize < newSize )
{
bufferSize = newSize;
buffer = (uint8_t *) realloc( buffer, bufferSize );
}
hb_get_preview( handle, title, pictureIndex, buffer );
// Create an NSBitmapImageRep and copy the libhb image into it, converting it from
// libhb's format to one suitable for NSImage. Along the way, we'll strip off the
// border around libhb's image.
// The image data returned by hb_get_preview is 4 bytes per pixel, BGRA format.
// Alpha is ignored.
int dstWidth = title->job->width;
int dstHeight = title->job->height;
NSBitmapFormat bitmapFormat = (NSBitmapFormat)NSAlphaFirstBitmapFormat;
NSBitmapImageRep * imgrep = [[[NSBitmapImageRep alloc]
initWithBitmapDataPlanes:nil
pixelsWide:dstWidth
pixelsHigh:dstHeight
bitsPerSample:8
samplesPerPixel:3 // ignore alpha
hasAlpha:NO
isPlanar:NO
colorSpaceName:NSCalibratedRGBColorSpace
bitmapFormat:bitmapFormat
bytesPerRow:dstWidth * 4
bitsPerPixel:32] autorelease];
int borderTop = (srcHeight - dstHeight) / 2;
int borderLeft = (srcWidth - dstWidth) / 2;
UInt32 * src = (UInt32 *)buffer;
UInt32 * dst = (UInt32 *)[imgrep bitmapData];
src += borderTop * srcWidth; // skip top rows in src to get to first row of dst
src += borderLeft; // skip left pixels in src to get to first pixel of dst
for (int r = 0; r < dstHeight; r++)
{
for (int c = 0; c < dstWidth; c++)
#if TARGET_RT_LITTLE_ENDIAN
*dst++ = Endian32_Swap(*src++);
#else
*dst++ = *src++;
#endif
src += (srcWidth - dstWidth); // skip to next row in src
}
NSImage * img = [[[NSImage alloc] initWithSize: NSMakeSize(dstWidth, dstHeight)] autorelease];
[img addRepresentation:imgrep];
return img;
}
else
{
// Make sure we have big enough buffer
static uint8_t * buffer;
static int bufferSize;
int newSize;
newSize = ( title->width + 2 ) * (title->height + 2 ) * 4;
if( bufferSize < newSize )
{
bufferSize = newSize;
buffer = (uint8_t *) realloc( buffer, bufferSize );
}
hb_get_preview( handle, title, pictureIndex, buffer );
// The image data returned by hb_get_preview is 4 bytes per pixel, BGRA format.
// We'll copy that into an NSImage swapping it to ARGB in the process. Alpha is
// ignored.
int width = title->width + 2; // hblib adds a one-pixel border to the image
int height = title->height + 2;
int numPixels = width * height;
NSBitmapFormat bitmapFormat = (NSBitmapFormat)NSAlphaFirstBitmapFormat;
NSBitmapImageRep * imgrep = [[[NSBitmapImageRep alloc]
initWithBitmapDataPlanes:nil
pixelsWide:width
pixelsHigh:height
bitsPerSample:8
samplesPerPixel:3 // ignore alpha
hasAlpha:NO
isPlanar:NO
colorSpaceName:NSCalibratedRGBColorSpace
bitmapFormat:bitmapFormat
bytesPerRow:width * 4
bitsPerPixel:32] autorelease];
UInt32 * src = (UInt32 *)buffer;
UInt32 * dst = (UInt32 *)[imgrep bitmapData];
for (int i = 0; i < numPixels; i++)
#if TARGET_RT_LITTLE_ENDIAN
*dst++ = Endian32_Swap(*src++);
#else
*dst++ = *src++;
#endif
NSImage * img = [[[NSImage alloc] initWithSize: NSMakeSize(width, height)] autorelease];
[img addRepresentation:imgrep];
return img;
}
}
// Returns the preview image for the specified index, retrieving it from its internal
// cache or by calling makeImageForPicture if it is not cached. Generally, you should
// use imageForPicture so that images are cached. Calling makeImageForPicture will
// always generate a new copy of the image.
- (NSImage *) imageForPicture: (int) pictureIndex
{
// The preview for the specified index may not currently exist, so this method
// generates it if necessary.
NSString * key = [NSString stringWithFormat:@"%d", pictureIndex];
NSImage * theImage = [fPicturePreviews objectForKey:key];
if (!theImage)
{
theImage = [PictureController makeImageForPicture:pictureIndex libhb:fHandle title:fTitle removeBorders: NO];
[fPicturePreviews setObject:theImage forKey:key];
}
return theImage;
}
// Purges all images from the cache. The next call to imageForPicture will cause a new
// image to be generated.
- (void) purgeImageCache
{
[fPicturePreviews removeAllObjects];
}
@end
@implementation PictureController (Private)
//
// -[PictureController(Private) optimalViewSizeForImageSize:]
//
// Given the size of the preview image to be shown, returns the best possible
// size for the OpenGL view.
//
- (NSSize)optimalViewSizeForImageSize: (NSSize)imageSize
{
// The min size is 320x240
float minWidth = 320.0;
float minHeight = 240.0;
// The max size of the view is when the sheet is taking up 85% of the screen.
NSSize screenSize = [[NSScreen mainScreen] frame].size;
NSSize sheetSize = [[self window] frame].size;
NSSize viewAreaSize = [fPictureViewArea frame].size;
float paddingX = sheetSize.width - viewAreaSize.width;
float paddingY = sheetSize.height - viewAreaSize.height;
float maxWidth = (0.85 * screenSize.width) - paddingX;
float maxHeight = (0.85 * screenSize.height) - paddingY;
NSSize resultSize = imageSize;
// Its better to have a view that's too small than a view that's too big, so
// apply the maximum constraints last.
if( resultSize.width < minWidth )
{
resultSize.height *= (minWidth / resultSize.width);
resultSize.width = minWidth;
}
if( resultSize.height < minHeight )
{
resultSize.width *= (minHeight / resultSize.height);
resultSize.height = minHeight;
}
if( resultSize.width > maxWidth )
{
resultSize.height *= (maxWidth / resultSize.width);
resultSize.width = maxWidth;
}
if( resultSize.height > maxHeight )
{
resultSize.width *= (maxHeight / resultSize.height);
resultSize.height = maxHeight;
}
return resultSize;
}
//
// -[PictureController(Private) resizePanelForViewSize:animate:]
//
// Resizes the entire sheet to accomodate an OpenGL view of a particular size.
//
- (void)resizeSheetForViewSize: (NSSize)viewSize
{
// Figure out the deltas for the new frame area
NSSize currentSize = [fPictureViewArea frame].size;
float deltaX = viewSize.width - currentSize.width;
float deltaY = viewSize.height - currentSize.height;
// Now resize the whole panel by those same deltas, but don't exceed the min
NSRect frame = [[self window] frame];
NSSize maxSize = [[self window] maxSize];
NSSize minSize = [[self window] minSize];
frame.size.width += deltaX;
frame.size.height += deltaY;
if( frame.size.width < minSize.width )
{
frame.size.width = minSize.width;
}
if( frame.size.height < minSize.height )
{
frame.size.height = minSize.height;
}
// But now the sheet is off-center, so also shift the origin to center it and
// keep the top aligned.
frame.origin.x -= (deltaX / 2.0);
frame.origin.y -= deltaY;
[[self window] setFrame:frame display:YES animate:YES];
}
//
// -[PictureController(Private) setViewSize:]
//
// Changes the OpenGL view's size and centers it vertially inside of its area.
// Assumes resizeSheetForViewSize: has already been called.
//
- (void)setViewSize: (NSSize)viewSize
{
[fPictureView setFrameSize:viewSize];
// center it vertically
NSPoint origin = [fPictureViewArea frame].origin;
origin.y += ([fPictureViewArea frame].size.height -
[fPictureView frame].size.height) / 2.0;
[fPictureView setFrameOrigin:origin];
}
//
// -[PictureController(Private) viewNeedsToResizeToSize:]
//
// Returns YES if the view will need to resize to match the given size.
//
- (BOOL)viewNeedsToResizeToSize: (NSSize)newSize
{
NSSize viewSize = [fPictureView frame].size;
return (newSize.width != viewSize.width || newSize.height != viewSize.height);
}
@end
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