#include "common.h" #include "mupdf/pdf.h" #import "MuWord.h" #import "MuTextFieldController.h" #import "MuAnnotation.h" #import "MuPageViewNormal.h" #define STRIKE_HEIGHT (0.375f) #define UNDERLINE_HEIGHT (0.075f) #define LINE_THICKNESS (0.07f) #define INK_THICKNESS (4.0f) static UIImage *newImageWithPixmap(fz_pixmap *pix, CGDataProviderRef cgdata) { CGImageRef cgimage = CreateCGImageWithPixmap(pix, cgdata); UIImage *image = [[UIImage alloc] initWithCGImage: cgimage scale: screenScale orientation: UIImageOrientationUp]; CGImageRelease(cgimage); return image; } static NSArray *enumerateWidgetRects(fz_document *doc, fz_page *page) { pdf_document *idoc = pdf_specifics(doc); pdf_widget *widget; NSMutableArray *arr = [NSMutableArray arrayWithCapacity:10]; if (!idoc) return nil; for (widget = pdf_first_widget(idoc, (pdf_page *)page); widget; widget = pdf_next_widget(widget)) { fz_rect rect; pdf_bound_widget(widget, &rect); [arr addObject:[NSValue valueWithCGRect:CGRectMake( rect.x0, rect.y0, rect.x1-rect.x0, rect.y1-rect.y0)]]; } return [arr retain]; } static NSArray *enumerateAnnotations(fz_document *doc, fz_page *page) { fz_annot *annot; NSMutableArray *arr = [NSMutableArray arrayWithCapacity:10]; for (annot = fz_first_annot(doc, page); annot; annot = fz_next_annot(doc, annot)) [arr addObject:[MuAnnotation annotFromAnnot:annot forDoc:doc]]; return [arr retain]; } static NSArray *enumerateWords(fz_document *doc, fz_page *page) { fz_text_sheet *sheet = NULL; fz_text_page *text = NULL; fz_device *dev = NULL; NSMutableArray *lns = [NSMutableArray array]; NSMutableArray *wds; MuWord *word; if (!lns) return NULL; fz_var(sheet); fz_var(text); fz_var(dev); fz_try(ctx); { int b, l, c; sheet = fz_new_text_sheet(ctx); text = fz_new_text_page(ctx); dev = fz_new_text_device(ctx, sheet, text); fz_run_page(doc, page, dev, &fz_identity, NULL); fz_free_device(dev); dev = NULL; for (b = 0; b < text->len; b++) { fz_text_block *block; if (text->blocks[b].type != FZ_PAGE_BLOCK_TEXT) continue; block = text->blocks[b].u.text; for (l = 0; l < block->len; l++) { fz_text_line *line = &block->lines[l]; fz_text_span *span; wds = [NSMutableArray array]; if (!wds) fz_throw(ctx, FZ_ERROR_GENERIC, "Failed to create word array"); word = [MuWord word]; if (!word) fz_throw(ctx, FZ_ERROR_GENERIC, "Failed to create word"); for (span = line->first_span; span; span = span->next) { for (c = 0; c < span->len; c++) { fz_text_char *ch = &span->text[c]; fz_rect bbox; CGRect rect; fz_text_char_bbox(&bbox, span, c); rect = CGRectMake(bbox.x0, bbox.y0, bbox.x1 - bbox.x0, bbox.y1 - bbox.y0); if (ch->c != ' ') { [word appendChar:ch->c withRect:rect]; } else if (word.string.length > 0) { [wds addObject:word]; word = [MuWord word]; if (!word) fz_throw(ctx, FZ_ERROR_GENERIC, "Failed to create word"); } } } if (word.string.length > 0) [wds addObject:word]; if ([wds count] > 0) [lns addObject:wds]; } } } fz_always(ctx); { fz_free_text_page(ctx, text); fz_free_text_sheet(ctx, sheet); fz_free_device(dev); } fz_catch(ctx) { lns = NULL; } return [lns retain]; } static void addMarkupAnnot(fz_document *doc, fz_page *page, int type, NSArray *rects) { pdf_document *idoc; fz_point *quadpts = NULL; float color[3]; float alpha; float line_height; float line_thickness; idoc = pdf_specifics(doc); if (!idoc) return; switch (type) { case FZ_ANNOT_HIGHLIGHT: color[0] = 1.0; color[1] = 1.0; color[2] = 0.0; alpha = 0.5; line_thickness = 1.0; line_height = 0.5; break; case FZ_ANNOT_UNDERLINE: color[0] = 0.0; color[1] = 0.0; color[2] = 1.0; alpha = 1.0; line_thickness = LINE_THICKNESS; line_height = UNDERLINE_HEIGHT; break; case FZ_ANNOT_STRIKEOUT: color[0] = 1.0; color[1] = 0.0; color[2] = 0.0; alpha = 1.0; line_thickness = LINE_THICKNESS; line_height = STRIKE_HEIGHT; break; default: return; } fz_var(quadpts); fz_try(ctx) { int i; pdf_annot *annot; quadpts = fz_malloc_array(ctx, rects.count * 4, sizeof(fz_point)); for (i = 0; i < rects.count; i++) { CGRect rect = [[rects objectAtIndex:i] CGRectValue]; float top = rect.origin.y; float bot = top + rect.size.height; float left = rect.origin.x; float right = left + rect.size.width; quadpts[i*4].x = left; quadpts[i*4].y = bot; quadpts[i*4+1].x = right; quadpts[i*4+1].y = bot; quadpts[i*4+2].x = right; quadpts[i*4+2].y = top; quadpts[i*4+3].x = left; quadpts[i*4+3].y = top; } annot = pdf_create_annot(idoc, (pdf_page *)page, type); pdf_set_markup_annot_quadpoints(idoc, annot, quadpts, rects.count*4); pdf_set_markup_appearance(idoc, annot, color, alpha, line_thickness, line_height); } fz_always(ctx) { fz_free(ctx, quadpts); } fz_catch(ctx) { printf("Annotation creation failed\n"); } } static void addInkAnnot(fz_document *doc, fz_page *page, NSArray *curves) { pdf_document *idoc; fz_point *pts = NULL; int *counts = NULL; int total; float color[3] = {1.0, 0.0, 0.0}; idoc = pdf_specifics(doc); if (!idoc) return; fz_var(pts); fz_var(counts); fz_try(ctx) { int i, j, k, n; pdf_annot *annot; n = curves.count; counts = fz_malloc_array(ctx, n, sizeof(int)); total = 0; for (i = 0; i < n; i++) { NSArray *curve = [curves objectAtIndex:i]; counts[i] = curve.count; total += curve.count; } pts = fz_malloc_array(ctx, total, sizeof(fz_point)); k = 0; for (i = 0; i < n; i++) { NSArray *curve = [curves objectAtIndex:i]; int count = counts[i]; for (j = 0; j < count; j++) { CGPoint pt = [[curve objectAtIndex:j] CGPointValue]; pts[k].x = pt.x; pts[k].y = pt.y; k++; } } annot = pdf_create_annot(idoc, (pdf_page *)page, FZ_ANNOT_INK); pdf_set_ink_annot_list(idoc, annot, pts, counts, n, color, INK_THICKNESS); } fz_always(ctx) { fz_free(ctx, pts); fz_free(ctx, counts); } fz_catch(ctx) { printf("Annotation creation failed\n"); } } static void deleteAnnotation(fz_document *doc, fz_page *page, int index) { pdf_document *idoc = pdf_specifics(doc); if (!idoc) return; fz_try(ctx) { int i; fz_annot *annot = fz_first_annot(doc, page); for (i = 0; i < index && annot; i++) annot = fz_next_annot(doc, annot); if (annot) pdf_delete_annot(idoc, (pdf_page *)page, (pdf_annot *)annot); } fz_catch(ctx) { printf("Annotation deletion failed\n"); } } static int setFocussedWidgetText(fz_document *doc, fz_page *page, const char *text) { int accepted = 0; fz_try(ctx) { pdf_document *idoc = pdf_specifics(doc); if (idoc) { pdf_widget *focus = pdf_focused_widget(idoc); if (focus) { accepted = pdf_text_widget_set_text(idoc, focus, (char *)text); } } } fz_catch(ctx) { accepted = 0; } return accepted; } static int setFocussedWidgetChoice(fz_document *doc, fz_page *page, const char *text) { int accepted = 0; fz_try(ctx) { pdf_document *idoc = pdf_specifics(doc); if (idoc) { pdf_widget *focus = pdf_focused_widget(idoc); if (focus) { pdf_choice_widget_set_value(idoc, focus, 1, (char **)&text); accepted = 1; } } } fz_catch(ctx) { accepted = 0; } return accepted; } static fz_display_list *create_page_list(fz_document *doc, fz_page *page) { fz_display_list *list = NULL; fz_device *dev = NULL; fz_var(dev); fz_try(ctx) { list = fz_new_display_list(ctx); dev = fz_new_list_device(ctx, list); fz_run_page_contents(doc, page, dev, &fz_identity, NULL); } fz_always(ctx) { fz_free_device(dev); } fz_catch(ctx) { return NULL; } return list; } static fz_display_list *create_annot_list(fz_document *doc, fz_page *page) { fz_display_list *list = NULL; fz_device *dev = NULL; fz_var(dev); fz_try(ctx) { fz_annot *annot; pdf_document *idoc = pdf_specifics(doc); if (idoc) pdf_update_page(idoc, (pdf_page *)page); list = fz_new_display_list(ctx); dev = fz_new_list_device(ctx, list); for (annot = fz_first_annot(doc, page); annot; annot = fz_next_annot(doc, annot)) fz_run_annot(doc, page, annot, dev, &fz_identity, NULL); } fz_always(ctx) { fz_free_device(dev); } fz_catch(ctx) { return NULL; } return list; } static fz_pixmap *renderPixmap(fz_document *doc, fz_display_list *page_list, fz_display_list *annot_list, CGSize pageSize, CGSize screenSize, CGRect tileRect, float zoom) { fz_irect bbox; fz_rect rect; fz_matrix ctm; fz_device *dev = NULL; fz_pixmap *pix = NULL; CGSize scale; screenSize.width *= screenScale; screenSize.height *= screenScale; tileRect.origin.x *= screenScale; tileRect.origin.y *= screenScale; tileRect.size.width *= screenScale; tileRect.size.height *= screenScale; scale = fitPageToScreen(pageSize, screenSize); fz_scale(&ctm, scale.width * zoom, scale.height * zoom); bbox.x0 = tileRect.origin.x; bbox.y0 = tileRect.origin.y; bbox.x1 = tileRect.origin.x + tileRect.size.width; bbox.y1 = tileRect.origin.y + tileRect.size.height; fz_rect_from_irect(&rect, &bbox); fz_var(dev); fz_var(pix); fz_try(ctx) { pix = fz_new_pixmap_with_bbox(ctx, fz_device_rgb(ctx), &bbox); fz_clear_pixmap_with_value(ctx, pix, 255); dev = fz_new_draw_device(ctx, pix); fz_run_display_list(page_list, dev, &ctm, &rect, NULL); fz_run_display_list(annot_list, dev, &ctm, &rect, NULL); } fz_always(ctx) { fz_free_device(dev); } fz_catch(ctx) { fz_drop_pixmap(ctx, pix); return NULL; } return pix; } typedef struct rect_list_s rect_list; struct rect_list_s { fz_rect rect; rect_list *next; }; static void drop_list(rect_list *list) { while (list) { rect_list *n = list->next; fz_free(ctx, list); list = n; } } static rect_list *updatePage(fz_document *doc, fz_page *page) { rect_list *list = NULL; fz_var(list); fz_try(ctx) { pdf_document *idoc = pdf_specifics(doc); if (idoc) { fz_annot *annot; pdf_update_page(idoc, (pdf_page *)page); while ((annot = (fz_annot *)pdf_poll_changed_annot(idoc, (pdf_page *)page)) != NULL) { rect_list *node = fz_malloc_struct(ctx, rect_list); fz_bound_annot(doc, annot, &node->rect); node->next = list; list = node; } } } fz_catch(ctx) { drop_list(list); list = NULL; } return list; } static void updatePixmap(fz_document *doc, fz_display_list *page_list, fz_display_list *annot_list, fz_pixmap *pixmap, rect_list *rlist, CGSize pageSize, CGSize screenSize, CGRect tileRect, float zoom) { fz_irect bbox; fz_rect rect; fz_matrix ctm; fz_device *dev = NULL; CGSize scale; screenSize.width *= screenScale; screenSize.height *= screenScale; tileRect.origin.x *= screenScale; tileRect.origin.y *= screenScale; tileRect.size.width *= screenScale; tileRect.size.height *= screenScale; scale = fitPageToScreen(pageSize, screenSize); fz_scale(&ctm, scale.width * zoom, scale.height * zoom); bbox.x0 = tileRect.origin.x; bbox.y0 = tileRect.origin.y; bbox.x1 = tileRect.origin.x + tileRect.size.width; bbox.y1 = tileRect.origin.y + tileRect.size.height; fz_rect_from_irect(&rect, &bbox); fz_var(dev); fz_try(ctx) { while (rlist) { fz_irect abox; fz_rect arect = rlist->rect; fz_transform_rect(&arect, &ctm); fz_intersect_rect(&arect, &rect); fz_round_rect(&abox, &arect); if (!fz_is_empty_irect(&abox)) { fz_clear_pixmap_rect_with_value(ctx, pixmap, 255, &abox); dev = fz_new_draw_device_with_bbox(ctx, pixmap, &abox); fz_run_display_list(page_list, dev, &ctm, &arect, NULL); fz_run_display_list(annot_list, dev, &ctm, &arect, NULL); fz_free_device(dev); dev = NULL; } rlist = rlist->next; } } fz_always(ctx) { fz_free_device(dev); } fz_catch(ctx) { } } @implementation MuPageViewNormal - (void) ensurePageLoaded { if (page) return; fz_try(ctx) { fz_rect bounds; page = fz_load_page(doc, number); fz_bound_page(doc, page, &bounds); pageSize.width = bounds.x1 - bounds.x0; pageSize.height = bounds.y1 - bounds.y0; } fz_catch(ctx) { return; } } - (void) ensureDisplaylists { [self ensurePageLoaded]; if (!page) return; if (!page_list) page_list = create_page_list(doc, page); if (!annot_list) annot_list = create_annot_list(doc, page); } -(id) initWithFrame:(CGRect)frame dialogCreator:(id)dia updater:(id)upd document:(MuDocRef *)aDoc page:(int)aNumber { self = [super initWithFrame: frame]; if (self) { docRef = [aDoc retain]; doc = docRef->doc; number = aNumber; cancel = NO; dialogCreator = dia; updater = upd; selectedAnnotationIndex = -1; [self setShowsVerticalScrollIndicator: NO]; [self setShowsHorizontalScrollIndicator: NO]; [self setDecelerationRate: UIScrollViewDecelerationRateFast]; [self setDelegate: self]; // zoomDidFinish/Begin events fire before bounce animation completes, // making a mess when we rearrange views during the animation. [self setBouncesZoom: NO]; [self resetZoomAnimated: NO]; // TODO: use a one shot timer to delay the display of this? loadingView = [[UIActivityIndicatorView alloc] initWithActivityIndicatorStyle:UIActivityIndicatorViewStyleWhiteLarge]; [loadingView startAnimating]; [self addSubview: loadingView]; [self loadPage]; } return self; } - (void) dealloc { // dealloc can trigger in background thread when the queued block is // our last owner, and releases us on completion. // Send the dealloc back to the main thread so we don't mess up UIKit. if (![NSThread isMainThread]) { __block id block_self = self; // don't auto-retain self! dispatch_async(dispatch_get_main_queue(), ^{ [block_self dealloc]; }); } else { __block fz_display_list *block_page_list = page_list; __block fz_display_list *block_annot_list = annot_list; __block fz_page *block_page = page; __block fz_document *block_doc = docRef->doc; __block CGDataProviderRef block_tileData = tileData; __block CGDataProviderRef block_imageData = imageData; dispatch_async(queue, ^{ if (block_page_list) fz_drop_display_list(ctx, block_page_list); if (block_annot_list) fz_drop_display_list(ctx, block_annot_list); if (block_page) fz_free_page(block_doc, block_page); block_page = nil; CGDataProviderRelease(block_tileData); CGDataProviderRelease(block_imageData); }); [docRef release]; [widgetRects release]; [linkView release]; [hitView release]; [textSelectView release]; [inkView release]; [annotSelectView release]; [tileView release]; [loadingView release]; [imageView release]; [super dealloc]; } } - (int) number { return number; } - (void) showLinks { if (!linkView) { dispatch_async(queue, ^{ [self ensurePageLoaded]; fz_link *links = fz_load_links(doc, page); dispatch_async(dispatch_get_main_queue(), ^{ linkView = [[MuHitView alloc] initWithLinks: links forDocument: doc]; dispatch_async(queue, ^{ fz_drop_link(ctx, links); }); if (imageView) { [linkView setFrame: [imageView frame]]; [linkView setPageSize: pageSize]; } [self addSubview: linkView]; }); }); } } - (void) hideLinks { [linkView removeFromSuperview]; [linkView release]; linkView = nil; } - (void) showSearchResults: (int)count { if (hitView) { [hitView removeFromSuperview]; [hitView release]; hitView = nil; } hitView = [[MuHitView alloc] initWithSearchResults: count forDocument: doc]; if (imageView) { [hitView setFrame: [imageView frame]]; [hitView setPageSize: pageSize]; } [self addSubview: hitView]; } - (void) clearSearchResults { if (hitView) { [hitView removeFromSuperview]; [hitView release]; hitView = nil; } } - (void) textSelectModeOn { dispatch_async(queue, ^{ [self ensurePageLoaded]; NSArray *words = enumerateWords(doc, page); dispatch_sync(dispatch_get_main_queue(), ^{ textSelectView = [[MuTextSelectView alloc] initWithWords:words pageSize:pageSize]; [words release]; if (imageView) [textSelectView setFrame:[imageView frame]]; [self addSubview:textSelectView]; }); }); } - (void) inkModeOn { inkView = [[MuInkView alloc] initWithPageSize:pageSize]; if (imageView) [inkView setFrame:[imageView frame]]; [self addSubview:inkView]; } - (void) textSelectModeOff { [textSelectView removeFromSuperview]; [textSelectView release]; textSelectView = nil; } - (void) inkModeOff { [inkView removeFromSuperview]; [inkView release]; inkView = nil; } -(void) saveSelectionAsMarkup:(int)type { NSArray *rects = [textSelectView selectionRects]; if (rects.count == 0) return; [rects retain]; dispatch_async(queue, ^{ addMarkupAnnot(doc, page, type, rects); [rects release]; dispatch_async(dispatch_get_main_queue(), ^{ [self update]; }); [self loadAnnotations]; }); [self textSelectModeOff]; } -(void) saveInk { NSArray *curves = inkView.curves; if (curves.count == 0) return; [curves retain]; dispatch_async(queue, ^{ addInkAnnot(doc, page, curves); [curves release]; dispatch_async(dispatch_get_main_queue(), ^{ [self update]; }); [self loadAnnotations]; }); [self inkModeOff]; } -(void) selectAnnotation:(int)i { selectedAnnotationIndex = i; [annotSelectView removeFromSuperview]; [annotSelectView release]; annotSelectView = [[MuAnnotSelectView alloc] initWithAnnot:[annotations objectAtIndex:i] pageSize:pageSize]; [self addSubview:annotSelectView]; } -(void) deselectAnnotation { selectedAnnotationIndex = -1; [annotSelectView removeFromSuperview]; [annotSelectView release]; annotSelectView = nil; } -(void) deleteSelectedAnnotation { int index = selectedAnnotationIndex; if (index >= 0) { dispatch_async(queue, ^{ deleteAnnotation(doc, page, index); dispatch_async(dispatch_get_main_queue(), ^{ [self update]; }); [self loadAnnotations]; }); } [self deselectAnnotation]; } - (void) resetZoomAnimated: (BOOL)animated { // discard tile and any pending tile jobs tileFrame = CGRectZero; tileScale = 1; if (tileView) { [tileView removeFromSuperview]; [tileView release]; tileView = nil; } [self setMinimumZoomScale: 1]; [self setMaximumZoomScale: 5]; [self setZoomScale: 1 animated: animated]; } - (void) removeFromSuperview { cancel = YES; [super removeFromSuperview]; } - (void) loadAnnotations { if (number < 0 || number >= fz_count_pages(doc)) return; NSArray *annots = enumerateAnnotations(doc, page); dispatch_async(dispatch_get_main_queue(), ^{ [annotations release]; annotations = annots; }); } - (void) loadPage { if (number < 0 || number >= fz_count_pages(doc)) return; dispatch_async(queue, ^{ if (!cancel) { printf("render page %d\n", number); [self ensureDisplaylists]; CGSize scale = fitPageToScreen(pageSize, self.bounds.size); CGRect rect = (CGRect){{0.0, 0.0},{pageSize.width * scale.width, pageSize.height * scale.height}}; image_pix = renderPixmap(doc, page_list, annot_list, pageSize, self.bounds.size, rect, 1.0); CGDataProviderRelease(imageData); imageData = CreateWrappedPixmap(image_pix); UIImage *image = newImageWithPixmap(image_pix, imageData); widgetRects = enumerateWidgetRects(doc, page); [self loadAnnotations]; dispatch_async(dispatch_get_main_queue(), ^{ [self displayImage: image]; [image release]; }); } else { printf("cancel page %d\n", number); } }); } - (void) displayImage: (UIImage*)image { if (loadingView) { [loadingView removeFromSuperview]; [loadingView release]; loadingView = nil; } if (hitView) [hitView setPageSize: pageSize]; if (!imageView) { imageView = [[UIImageView alloc] initWithImage: image]; imageView.opaque = YES; [self addSubview: imageView]; if (hitView) [self bringSubviewToFront: hitView]; if (textSelectView) [self bringSubviewToFront:textSelectView]; if (inkView) [self bringSubviewToFront:inkView]; if (annotSelectView) [self bringSubviewToFront:annotSelectView]; } else { [imageView setImage: image]; } [self resizeImage]; } - (void) resizeImage { if (imageView) { CGSize imageSize = imageView.image.size; CGSize scale = fitPageToScreen(imageSize, self.bounds.size); if (fabs(scale.width - 1) > 0.1) { CGRect frame = [imageView frame]; frame.size.width = imageSize.width * scale.width; frame.size.height = imageSize.height * scale.height; [imageView setFrame: frame]; printf("resized view; queuing up a reload (%d)\n", number); dispatch_async(queue, ^{ dispatch_async(dispatch_get_main_queue(), ^{ CGSize scale = fitPageToScreen(imageView.image.size, self.bounds.size); if (fabs(scale.width - 1) > 0.01) [self loadPage]; }); }); } else { [imageView sizeToFit]; } [self setContentSize: imageView.frame.size]; [self layoutIfNeeded]; } } - (void) willRotate { if (imageView) { [self resetZoomAnimated: NO]; [self resizeImage]; } } - (void) layoutSubviews { [super layoutSubviews]; // center the image as it becomes smaller than the size of the screen CGSize boundsSize = self.bounds.size; CGRect frameToCenter = loadingView ? loadingView.frame : imageView.frame; // center horizontally if (frameToCenter.size.width < boundsSize.width) frameToCenter.origin.x = floor((boundsSize.width - frameToCenter.size.width) / 2); else frameToCenter.origin.x = 0; // center vertically if (frameToCenter.size.height < boundsSize.height) frameToCenter.origin.y = floor((boundsSize.height - frameToCenter.size.height) / 2); else frameToCenter.origin.y = 0; if (loadingView) loadingView.frame = frameToCenter; else imageView.frame = frameToCenter; if (imageView) { CGRect frm = [imageView frame]; if (hitView) [hitView setFrame: frm]; if (linkView) [linkView setFrame:frm]; if (textSelectView) [textSelectView setFrame:frm]; if (inkView) [inkView setFrame:frm]; if (annotSelectView) [annotSelectView setFrame:frm]; } } - (UIView*) viewForZoomingInScrollView: (UIScrollView*)scrollView { return imageView; } - (void) loadTile { CGSize screenSize = self.bounds.size; tileFrame.origin = self.contentOffset; tileFrame.size = self.bounds.size; tileFrame = CGRectIntersection(tileFrame, imageView.frame); tileScale = self.zoomScale; CGRect frame = tileFrame; float scale = tileScale; CGRect viewFrame = frame; // Adjust viewFrame to be relative to imageView's origin viewFrame.origin.x -= imageView.frame.origin.x; viewFrame.origin.y -= imageView.frame.origin.y; if (scale < 1.01) return; dispatch_async(queue, ^{ __block BOOL isValid; dispatch_sync(dispatch_get_main_queue(), ^{ isValid = CGRectEqualToRect(frame, tileFrame) && scale == tileScale; }); if (!isValid) { printf("cancel tile\n"); return; } [self ensureDisplaylists]; printf("render tile\n"); tile_pix = renderPixmap(doc, page_list, annot_list, pageSize, screenSize, viewFrame, scale); CGDataProviderRelease(tileData); tileData = CreateWrappedPixmap(tile_pix); UIImage *image = newImageWithPixmap(tile_pix, tileData); dispatch_async(dispatch_get_main_queue(), ^{ isValid = CGRectEqualToRect(frame, tileFrame) && scale == tileScale; if (isValid) { if (tileView) { [tileView removeFromSuperview]; [tileView release]; tileView = nil; } tileView = [[UIImageView alloc] initWithFrame: frame]; [tileView setImage: image]; [self addSubview: tileView]; if (hitView) [self bringSubviewToFront: hitView]; if (linkView) [self bringSubviewToFront:linkView]; if (textSelectView) [self bringSubviewToFront:textSelectView]; if (inkView) [self bringSubviewToFront:inkView]; if (annotSelectView) [self bringSubviewToFront:annotSelectView]; } else { printf("discard tile\n"); } [image release]; }); }); } - (void) scrollViewDidScrollToTop:(UIScrollView *)scrollView { [self loadTile]; } - (void) scrollViewDidEndScrollingAnimation:(UIScrollView *)scrollView { [self loadTile]; } - (void) scrollViewDidEndDecelerating:(UIScrollView *)scrollView { [self loadTile]; } - (void) scrollViewDidEndDragging:(UIScrollView *)scrollView willDecelerate:(BOOL)decelerate { if (!decelerate) [self loadTile]; } - (void) scrollViewWillBeginZooming: (UIScrollView*)scrollView withView: (UIView*)view { // discard tile and any pending tile jobs tileFrame = CGRectZero; tileScale = 1; if (tileView) { [tileView removeFromSuperview]; [tileView release]; tileView = nil; } } - (void) scrollViewDidEndZooming: (UIScrollView*)scrollView withView: (UIView*)view atScale: (float)scale { [self loadTile]; } - (void) scrollViewDidZoom: (UIScrollView*)scrollView { if (imageView) { CGRect frm = [imageView frame]; if (hitView) [hitView setFrame: frm]; if (textSelectView) [textSelectView setFrame:frm]; if (inkView) [inkView setFrame:frm]; if (annotSelectView) [annotSelectView setFrame:frm]; } } - (void) setScale:(float)scale {} - (void) updatePageAndTileWithTileFrame:(CGRect)tframe tileScale:(float)tscale viewFrame:(CGRect)vframe { rect_list *rlist = updatePage(doc, page); fz_drop_display_list(ctx, annot_list); annot_list = create_annot_list(doc, page); if (tile_pix) { updatePixmap(doc, page_list, annot_list, tile_pix, rlist, pageSize, self.bounds.size, vframe, tscale); UIImage *timage = newImageWithPixmap(tile_pix, tileData); dispatch_async(dispatch_get_main_queue(), ^{ BOOL isValid = CGRectEqualToRect(tframe, tileFrame) && tscale == tileScale; if (isValid) [tileView setImage:timage]; [timage release]; }); } CGSize fscale = fitPageToScreen(pageSize, self.bounds.size); CGRect rect = (CGRect){{0.0, 0.0},{pageSize.width * fscale.width, pageSize.height * fscale.height}}; updatePixmap(doc, page_list, annot_list, image_pix, rlist, pageSize, self.bounds.size, rect, 1.0); drop_list(rlist); UIImage *image = newImageWithPixmap(image_pix, imageData); dispatch_async(dispatch_get_main_queue(), ^{ [imageView setImage:image]; [image release]; }); } - (void) update { CGRect tframe = tileFrame; float tscale = tileScale; CGRect vframe = tframe; vframe.origin.x -= imageView.frame.origin.x; vframe.origin.y -= imageView.frame.origin.y; dispatch_async(queue, ^{ [self updatePageAndTileWithTileFrame:tframe tileScale:tscale viewFrame:vframe]; }); } - (void) invokeTextDialog:(NSString *)text { [dialogCreator invokeTextDialog:text okayAction:^(NSString *newText) { dispatch_async(queue, ^{ BOOL accepted = setFocussedWidgetText(doc, page, [newText UTF8String]); if (accepted) { dispatch_async(dispatch_get_main_queue(), ^{ [updater update]; }); } else { dispatch_async(dispatch_get_main_queue(), ^{ [self invokeTextDialog:newText]; }); } }); }]; } - (void) invokeChoiceDialog:(NSArray *)choices { [dialogCreator invokeChoiceDialog:choices okayAction:^(NSArray *selection) { dispatch_async(queue, ^{ BOOL accepted = setFocussedWidgetChoice(doc, page, [[selection objectAtIndex:0] UTF8String]); if (accepted) { dispatch_async(dispatch_get_main_queue(), ^{ [updater update]; }); } else { dispatch_async(dispatch_get_main_queue(), ^{ [self invokeChoiceDialog:choices]; }); } }); }]; } - (int) passTapToPage:(CGPoint)pt { pdf_document *idoc = pdf_specifics(doc); pdf_ui_event event; int changed = 0; pdf_widget *focus; char **opts = NULL; char *text = NULL; if (!idoc) return 0; fz_var(opts); fz_var(text); fz_try(ctx) { event.etype = PDF_EVENT_TYPE_POINTER; event.event.pointer.pt.x = pt.x; event.event.pointer.pt.y = pt.y; event.event.pointer.ptype = PDF_POINTER_DOWN; changed = pdf_pass_event(idoc, (pdf_page *)page, &event); event.event.pointer.ptype = PDF_POINTER_UP; changed |= pdf_pass_event(idoc, (pdf_page *)page, &event); focus = pdf_focused_widget(idoc); if (focus) { switch (pdf_widget_get_type(focus)) { case PDF_WIDGET_TYPE_TEXT: { text = pdf_text_widget_text(idoc, focus); NSString *stext = [[NSString stringWithUTF8String:text?text:""] retain]; dispatch_async(dispatch_get_main_queue(), ^{ [self invokeTextDialog:stext]; [stext release]; }); break; } case PDF_WIDGET_TYPE_LISTBOX: case PDF_WIDGET_TYPE_COMBOBOX: { int nopts = pdf_choice_widget_options(idoc, focus, NULL); opts = fz_malloc(ctx, nopts * sizeof(*opts)); (void)pdf_choice_widget_options(idoc, focus, opts); NSMutableArray *arr = [[NSMutableArray arrayWithCapacity:nopts] retain]; for (int i = 0; i < nopts; i++) { NSString *utf8 = [NSString stringWithUTF8String:opts[i]]; // FIXME: temporary patch to handle the library not converting to utf8 if (utf8 == nil) utf8 = [NSString stringWithCString:opts[i] encoding:NSASCIIStringEncoding]; if (utf8 != nil) [arr addObject:utf8]; } dispatch_async(dispatch_get_main_queue(), ^{ [self invokeChoiceDialog:arr]; [arr release]; }); break; } case PDF_WIDGET_TYPE_SIGNATURE: break; default: break; } } } fz_always(ctx) { fz_free(ctx, text); fz_free(ctx, opts); } fz_catch(ctx) { } return changed; } - (MuTapResult *) handleTap:(CGPoint)pt { CGPoint ipt = [self convertPoint:pt toView:imageView]; CGSize scale = fitPageToScreen(pageSize, imageView.bounds.size); int i; ipt.x /= scale.width; ipt.y /= scale.height; for (i = 0; i < annotations.count; i++) { MuAnnotation *annot = [annotations objectAtIndex:i]; if (annot.type != FZ_ANNOT_WIDGET && CGRectContainsPoint(annot.rect, ipt)) { [self selectAnnotation:i]; return [[[MuTapResultAnnotation alloc] initWithAnnotation:annot] autorelease]; } } [self deselectAnnotation]; for (i = 0; i < widgetRects.count; i++) { CGRect r = [[widgetRects objectAtIndex:i] CGRectValue]; if (CGRectContainsPoint(r, ipt)) { dispatch_async(queue, ^{ int changed = [self passTapToPage:ipt]; if (changed) dispatch_async(dispatch_get_main_queue(), ^{ [updater update]; }); }); return [[[MuTapResultWidget alloc] init] autorelease]; } } if (linkView) { CGPoint lpt = [self convertPoint:pt toView:linkView]; return [linkView handleTap:lpt]; } return nil; } @end