pdf/pdfium/pdfium_page.h - chromium/src - Git at Google

 // Copyright (c) 2010 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef PDF_PDFIUM_PDFIUM_PAGE_H_
 #define PDF_PDFIUM_PDFIUM_PAGE_H_

 #include <string>
 #include <vector>

 #include "base/optional.h"
 #include "base/strings/string16.h"
 #include "pdf/pdf_engine.h"
 #include "ppapi/cpp/rect.h"
 #include "third_party/pdfium/public/cpp/fpdf_scopers.h"
 #include "third_party/pdfium/public/fpdf_doc.h"
 #include "third_party/pdfium/public/fpdf_formfill.h"
 #include "third_party/pdfium/public/fpdf_text.h"
 #include "ui/gfx/geometry/point_f.h"

 namespace chrome_pdf {

 class PDFiumEngine;

 // Wrapper around a page from the document.
 class PDFiumPage {
  public:
   PDFiumPage(PDFiumEngine* engine, int i, const pp::Rect& r, bool available);
   PDFiumPage(PDFiumPage&& that);
   ~PDFiumPage();

   // Unloads the PDFium data for this page from memory.
   void Unload();
   // Gets the FPDF_PAGE for this page, loading and parsing it if necessary.
   FPDF_PAGE GetPage();

   // Returns FPDF_TEXTPAGE for the page, loading and parsing it if necessary.
   FPDF_TEXTPAGE GetTextPage();

   // Given a start char index, find the longest continuous run of text that's
   // in a single direction and with the same style and font size. Return the
   // length of that sequence and its font size and bounding box.
   void GetTextRunInfo(int start_char_index,
                       uint32_t* out_len,
                       double* out_font_size,
                       pp::FloatRect* out_bounds);
   // Get a unicode character from the page.
   uint32_t GetCharUnicode(int char_index);
   // Get the bounds of a character in page pixels.
   pp::FloatRect GetCharBounds(int char_index);

   enum Area {
     NONSELECTABLE_AREA,
     TEXT_AREA,       // Area contains regular, selectable text not
                      // within form fields.
     WEBLINK_AREA,    // Area is a hyperlink.
     DOCLINK_AREA,    // Area is a link to a different part of the same
                      // document.
     FORM_TEXT_AREA,  // Area is a form text field or form combobox text
                      // field.
   };

   struct LinkTarget {
     LinkTarget();
     LinkTarget(const LinkTarget& other);
     ~LinkTarget();

     // Valid for WEBLINK_AREA only.
     std::string url;

     // Valid for DOCLINK_AREA only.
     int page;
     // Valid for DOCLINK_AREA only. From the top of the page.
     base::Optional<float> y_in_pixels;
   };

   // Returns the (x, y) position of a destination in page coordinates.
   base::Optional<gfx::PointF> GetPageXYTarget(FPDF_DEST destination);

   // Transforms an (x, y) position in page coordinates to screen coordinates.
   gfx::PointF TransformPageToScreenXY(const gfx::PointF& xy);

   // Given a point in the document that's in this page, returns its character
   // index if it's near a character, and also the type of text.
   // Target is optional. It will be filled in for WEBLINK_AREA or
   // DOCLINK_AREA only.
   Area GetCharIndex(const pp::Point& point,
                     int rotation,
                     int* char_index,
                     int* form_type,
                     LinkTarget* target);

   // Converts a form type to its corresponding Area.
   static Area FormTypeToArea(int form_type);

   // Gets the character at the given index.
   base::char16 GetCharAtIndex(int index);

   // Gets the number of characters in the page.
   int GetCharCount();

   // Converts from page coordinates to screen coordinates.
   pp::Rect PageToScreen(const pp::Point& offset,
                         double zoom,
                         double left,
                         double top,
                         double right,
                         double bottom,
                         int rotation) const;

   const PDFEngine::PageFeatures* GetPageFeatures();

   int index() const { return index_; }
   pp::Rect rect() const { return rect_; }
   void set_rect(const pp::Rect& r) { rect_ = r; }
   bool available() const { return available_; }
   void set_available(bool available) { available_ = available; }
   void set_calculated_links(bool calculated_links) {
     calculated_links_ = calculated_links;
   }

   FPDF_PAGE page() const { return page_.get(); }
   FPDF_TEXTPAGE text_page() const { return text_page_.get(); }

  private:
   // Returns a link index if the given character index is over a link, or -1
   // otherwise.
   int GetLink(int char_index, LinkTarget* target);
   // Returns the link indices if the given rect intersects a link rect, or an
   // empty vector otherwise.
   std::vector<int> GetLinks(pp::Rect text_area,
                             std::vector<LinkTarget>* targets);
   // Calculate the locations of any links on the page.
   void CalculateLinks();
   // Returns link type and fills target associated with a link. Returns
   // NONSELECTABLE_AREA if link detection failed.
   Area GetLinkTarget(FPDF_LINK link, LinkTarget* target);
   // Returns link type and fills target associated with a destination. Returns
   // NONSELECTABLE_AREA if detection failed.
   Area GetDestinationTarget(FPDF_DEST destination, LinkTarget* target);
   // Returns link type and fills target associated with a URI action. Returns
   // NONSELECTABLE_AREA if detection failed.
   Area GetURITarget(FPDF_ACTION uri_action, LinkTarget* target) const;

   class ScopedUnloadPreventer {
    public:
     explicit ScopedUnloadPreventer(PDFiumPage* page);
     ~ScopedUnloadPreventer();

    private:
     PDFiumPage* const page_;
   };

   struct Link {
     Link();
     Link(const Link& that);
     ~Link();

     std::string url;
     // Bounding rectangles of characters.
     std::vector<pp::Rect> rects;
   };

   PDFiumEngine* engine_;
   ScopedFPDFPage page_;
   ScopedFPDFTextPage text_page_;
   int index_;
   int preventing_unload_count_ = 0;
   pp::Rect rect_;
   bool calculated_links_ = false;
   std::vector<Link> links_;
   bool available_;
   PDFEngine::PageFeatures page_features_;

   DISALLOW_COPY_AND_ASSIGN(PDFiumPage);
 };

 }  // namespace chrome_pdf

 #endif  // PDF_PDFIUM_PDFIUM_PAGE_H_
	// Copyright (c) 2010 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef PDF_PDFIUM_PDFIUM_PAGE_H_
	#define PDF_PDFIUM_PDFIUM_PAGE_H_

	#include <string>
	#include <vector>

	#include "base/optional.h"
	#include "base/strings/string16.h"
	#include "pdf/pdf_engine.h"
	#include "ppapi/cpp/rect.h"
	#include "third_party/pdfium/public/cpp/fpdf_scopers.h"
	#include "third_party/pdfium/public/fpdf_doc.h"
	#include "third_party/pdfium/public/fpdf_formfill.h"
	#include "third_party/pdfium/public/fpdf_text.h"
	#include "ui/gfx/geometry/point_f.h"

	namespace chrome_pdf {

	class PDFiumEngine;

	// Wrapper around a page from the document.
	class PDFiumPage {
	public:
	PDFiumPage(PDFiumEngine* engine, int i, const pp::Rect& r, bool available);
	PDFiumPage(PDFiumPage&& that);
	~PDFiumPage();

	// Unloads the PDFium data for this page from memory.
	void Unload();
	// Gets the FPDF_PAGE for this page, loading and parsing it if necessary.
	FPDF_PAGE GetPage();

	// Returns FPDF_TEXTPAGE for the page, loading and parsing it if necessary.
	FPDF_TEXTPAGE GetTextPage();

	// Given a start char index, find the longest continuous run of text that's
	// in a single direction and with the same style and font size. Return the
	// length of that sequence and its font size and bounding box.
	void GetTextRunInfo(int start_char_index,
	uint32_t* out_len,
	double* out_font_size,
	pp::FloatRect* out_bounds);
	// Get a unicode character from the page.
	uint32_t GetCharUnicode(int char_index);
	// Get the bounds of a character in page pixels.
	pp::FloatRect GetCharBounds(int char_index);

	enum Area {
	NONSELECTABLE_AREA,
	TEXT_AREA, // Area contains regular, selectable text not
	// within form fields.
	WEBLINK_AREA, // Area is a hyperlink.
	DOCLINK_AREA, // Area is a link to a different part of the same
	// document.
	FORM_TEXT_AREA, // Area is a form text field or form combobox text
	// field.
	};

	struct LinkTarget {
	LinkTarget();
	LinkTarget(const LinkTarget& other);
	~LinkTarget();

	// Valid for WEBLINK_AREA only.
	std::string url;

	// Valid for DOCLINK_AREA only.
	int page;
	// Valid for DOCLINK_AREA only. From the top of the page.
	base::Optional<float> y_in_pixels;
	};

	// Returns the (x, y) position of a destination in page coordinates.
	base::Optional<gfx::PointF> GetPageXYTarget(FPDF_DEST destination);

	// Transforms an (x, y) position in page coordinates to screen coordinates.
	gfx::PointF TransformPageToScreenXY(const gfx::PointF& xy);

	// Given a point in the document that's in this page, returns its character
	// index if it's near a character, and also the type of text.
	// Target is optional. It will be filled in for WEBLINK_AREA or
	// DOCLINK_AREA only.
	Area GetCharIndex(const pp::Point& point,
	int rotation,
	int* char_index,
	int* form_type,
	LinkTarget* target);

	// Converts a form type to its corresponding Area.
	static Area FormTypeToArea(int form_type);

	// Gets the character at the given index.
	base::char16 GetCharAtIndex(int index);

	// Gets the number of characters in the page.
	int GetCharCount();

	// Converts from page coordinates to screen coordinates.
	pp::Rect PageToScreen(const pp::Point& offset,
	double zoom,
	double left,
	double top,
	double right,
	double bottom,
	int rotation) const;

	const PDFEngine::PageFeatures* GetPageFeatures();

	int index() const { return index_; }
	pp::Rect rect() const { return rect_; }
	void set_rect(const pp::Rect& r) { rect_ = r; }
	bool available() const { return available_; }
	void set_available(bool available) { available_ = available; }
	void set_calculated_links(bool calculated_links) {
	calculated_links_ = calculated_links;
	}

	FPDF_PAGE page() const { return page_.get(); }
	FPDF_TEXTPAGE text_page() const { return text_page_.get(); }

	private:
	// Returns a link index if the given character index is over a link, or -1
	// otherwise.
	int GetLink(int char_index, LinkTarget* target);
	// Returns the link indices if the given rect intersects a link rect, or an
	// empty vector otherwise.
	std::vector<int> GetLinks(pp::Rect text_area,
	std::vector<LinkTarget>* targets);
	// Calculate the locations of any links on the page.
	void CalculateLinks();
	// Returns link type and fills target associated with a link. Returns
	// NONSELECTABLE_AREA if link detection failed.
	Area GetLinkTarget(FPDF_LINK link, LinkTarget* target);
	// Returns link type and fills target associated with a destination. Returns
	// NONSELECTABLE_AREA if detection failed.
	Area GetDestinationTarget(FPDF_DEST destination, LinkTarget* target);
	// Returns link type and fills target associated with a URI action. Returns
	// NONSELECTABLE_AREA if detection failed.
	Area GetURITarget(FPDF_ACTION uri_action, LinkTarget* target) const;

	class ScopedUnloadPreventer {
	public:
	explicit ScopedUnloadPreventer(PDFiumPage* page);
	~ScopedUnloadPreventer();

	private:
	PDFiumPage* const page_;
	};

	struct Link {
	Link();
	Link(const Link& that);
	~Link();

	std::string url;
	// Bounding rectangles of characters.
	std::vector<pp::Rect> rects;
	};

	PDFiumEngine* engine_;
	ScopedFPDFPage page_;
	ScopedFPDFTextPage text_page_;
	int index_;
	int preventing_unload_count_ = 0;
	pp::Rect rect_;
	bool calculated_links_ = false;
	std::vector<Link> links_;
	bool available_;
	PDFEngine::PageFeatures page_features_;

	DISALLOW_COPY_AND_ASSIGN(PDFiumPage);
	};

	} // namespace chrome_pdf

	#endif // PDF_PDFIUM_PDFIUM_PAGE_H_