printing/page_setup.cc - chromium/src - Git at Google

 // Copyright (c) 2011 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.

 #include "printing/page_setup.h"

 #include <algorithm>

 #include "base/logging.h"

 namespace printing {

 namespace {

 // Checks whether |printable_area| can be used to form a valid symmetrical
 // printable area, so that margin_left equals margin_right, and margin_top
 // equals margin_bottom.  For example if
 // printable_area.x() * 2 >= page_size.width(), then the
 // content_width = page_size.width() - 2 * printable_area.x() would be zero or
 // negative, which is invalid.
 // |page_size| is the physical page size that includes margins.
 bool IsValidPrintableArea(const gfx::Size& page_size,
                           const gfx::Rect& printable_area) {
   return !printable_area.IsEmpty() && printable_area.x() >= 0 &&
          printable_area.y() >= 0 &&
          printable_area.right() <= page_size.width() &&
          printable_area.bottom() <= page_size.height() &&
          printable_area.x() * 2 < page_size.width() &&
          printable_area.y() * 2 < page_size.height() &&
          printable_area.right() * 2 > page_size.width() &&
          printable_area.bottom() * 2 > page_size.height();
 }

 }  // namespace

 PageMargins::PageMargins()
     : header(0), footer(0), left(0), right(0), top(0), bottom(0) {}

 void PageMargins::Clear() {
   header = 0;
   footer = 0;
   left = 0;
   right = 0;
   top = 0;
   bottom = 0;
 }

 bool PageMargins::Equals(const PageMargins& rhs) const {
   return header == rhs.header && footer == rhs.footer && left == rhs.left &&
          top == rhs.top && right == rhs.right && bottom == rhs.bottom;
 }

 PageSetup::PageSetup() {
   Clear();
 }

 PageSetup::PageSetup(const PageSetup& other) = default;

 PageSetup::~PageSetup() = default;

 // static
 gfx::Rect PageSetup::GetSymmetricalPrintableArea(
     const gfx::Size& page_size,
     const gfx::Rect& printable_area) {
   if (!IsValidPrintableArea(page_size, printable_area))
     return gfx::Rect();

   int left_right_margin =
       std::max(printable_area.x(), page_size.width() - printable_area.right());
   int top_bottom_margin = std::max(
       printable_area.y(), page_size.height() - printable_area.bottom());
   int width = page_size.width() - 2 * left_right_margin;
   int height = page_size.height() - 2 * top_bottom_margin;

   gfx::Rect symmetrical_printable_area = gfx::Rect(page_size);
   symmetrical_printable_area.ClampToCenteredSize(gfx::Size(width, height));

   return symmetrical_printable_area;
 }

 void PageSetup::Clear() {
   physical_size_.SetSize(0, 0);
   printable_area_.SetRect(0, 0, 0, 0);
   overlay_area_.SetRect(0, 0, 0, 0);
   content_area_.SetRect(0, 0, 0, 0);
   effective_margins_.Clear();
   text_height_ = 0;
   forced_margins_ = false;
 }

 bool PageSetup::Equals(const PageSetup& rhs) const {
   return physical_size_ == rhs.physical_size_ &&
          printable_area_ == rhs.printable_area_ &&
          overlay_area_ == rhs.overlay_area_ &&
          content_area_ == rhs.content_area_ &&
          effective_margins_.Equals(rhs.effective_margins_) &&
          requested_margins_.Equals(rhs.requested_margins_) &&
          text_height_ == rhs.text_height_;
 }

 void PageSetup::Init(const gfx::Size& physical_size,
                      const gfx::Rect& printable_area,
                      int text_height) {
   DCHECK_LE(printable_area.right(), physical_size.width());
   // I've seen this assert triggers on Canon GP160PF PCL 5e and HP LaserJet 5.
   // Since we don't know the dpi here, just disable the check.
   // DCHECK_LE(printable_area.bottom(), physical_size.height());
   DCHECK_GE(printable_area.x(), 0);
   DCHECK_GE(printable_area.y(), 0);
   DCHECK_GE(text_height, 0);
   physical_size_ = physical_size;
   printable_area_ = printable_area;
   text_height_ = text_height;

   SetRequestedMarginsAndCalculateSizes(requested_margins_);
 }

 void PageSetup::SetRequestedMargins(const PageMargins& requested_margins) {
   forced_margins_ = false;
   SetRequestedMarginsAndCalculateSizes(requested_margins);
 }

 void PageSetup::ForceRequestedMargins(const PageMargins& requested_margins) {
   forced_margins_ = true;
   SetRequestedMarginsAndCalculateSizes(requested_margins);
 }

 void PageSetup::FlipOrientation() {
   if (physical_size_.width() && physical_size_.height()) {
     gfx::Size new_size(physical_size_.height(), physical_size_.width());
     int new_y = physical_size_.width() -
                 (printable_area_.width() + printable_area_.x());
     gfx::Rect new_printable_area(printable_area_.y(), new_y,
                                  printable_area_.height(),
                                  printable_area_.width());
     Init(new_size, new_printable_area, text_height_);
   }
 }

 void PageSetup::SetRequestedMarginsAndCalculateSizes(
     const PageMargins& requested_margins) {
   requested_margins_ = requested_margins;
   if (physical_size_.width() && physical_size_.height()) {
     if (forced_margins_)
       CalculateSizesWithinRect(gfx::Rect(physical_size_), 0);
     else
       CalculateSizesWithinRect(printable_area_, text_height_);
   }
 }

 void PageSetup::CalculateSizesWithinRect(const gfx::Rect& bounds,
                                          int text_height) {
   // Calculate the effective margins. The tricky part.
   effective_margins_.header = std::max(requested_margins_.header, bounds.y());
   effective_margins_.footer = std::max(
       requested_margins_.footer, physical_size_.height() - bounds.bottom());
   effective_margins_.left = std::max(requested_margins_.left, bounds.x());
   effective_margins_.top =
       std::max(std::max(requested_margins_.top, bounds.y()),
                effective_margins_.header + text_height);
   effective_margins_.right = std::max(requested_margins_.right,
                                       physical_size_.width() - bounds.right());
   effective_margins_.bottom =
       std::max(std::max(requested_margins_.bottom,
                         physical_size_.height() - bounds.bottom()),
                effective_margins_.footer + text_height);

   // Calculate the overlay area. If the margins are excessive, the overlay_area
   // size will be (0, 0).
   overlay_area_.set_x(effective_margins_.left);
   overlay_area_.set_y(effective_margins_.header);
   overlay_area_.set_width(std::max(
       0,
       physical_size_.width() - effective_margins_.right - overlay_area_.x()));
   overlay_area_.set_height(std::max(
       0,
       physical_size_.height() - effective_margins_.footer - overlay_area_.y()));

   // Calculate the content area. If the margins are excessive, the content_area
   // size will be (0, 0).
   content_area_.set_x(effective_margins_.left);
   content_area_.set_y(effective_margins_.top);
   content_area_.set_width(std::max(
       0,
       physical_size_.width() - effective_margins_.right - content_area_.x()));
   content_area_.set_height(std::max(
       0,
       physical_size_.height() - effective_margins_.bottom - content_area_.y()));
 }

 }  // namespace printing
	// Copyright (c) 2011 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.

	#include "printing/page_setup.h"

	#include <algorithm>

	#include "base/logging.h"

	namespace printing {

	namespace {

	// Checks whether \|printable_area\| can be used to form a valid symmetrical
	// printable area, so that margin_left equals margin_right, and margin_top
	// equals margin_bottom. For example if
	// printable_area.x() * 2 >= page_size.width(), then the
	// content_width = page_size.width() - 2 * printable_area.x() would be zero or
	// negative, which is invalid.
	// \|page_size\| is the physical page size that includes margins.
	bool IsValidPrintableArea(const gfx::Size& page_size,
	const gfx::Rect& printable_area) {
	return !printable_area.IsEmpty() && printable_area.x() >= 0 &&
	printable_area.y() >= 0 &&
	printable_area.right() <= page_size.width() &&
	printable_area.bottom() <= page_size.height() &&
	printable_area.x() * 2 < page_size.width() &&
	printable_area.y() * 2 < page_size.height() &&
	printable_area.right() * 2 > page_size.width() &&
	printable_area.bottom() * 2 > page_size.height();
	}

	} // namespace

	PageMargins::PageMargins()
	: header(0), footer(0), left(0), right(0), top(0), bottom(0) {}

	void PageMargins::Clear() {
	header = 0;
	footer = 0;
	left = 0;
	right = 0;
	top = 0;
	bottom = 0;
	}

	bool PageMargins::Equals(const PageMargins& rhs) const {
	return header == rhs.header && footer == rhs.footer && left == rhs.left &&
	top == rhs.top && right == rhs.right && bottom == rhs.bottom;
	}

	PageSetup::PageSetup() {
	Clear();
	}

	PageSetup::PageSetup(const PageSetup& other) = default;

	PageSetup::~PageSetup() = default;

	// static
	gfx::Rect PageSetup::GetSymmetricalPrintableArea(
	const gfx::Size& page_size,
	const gfx::Rect& printable_area) {
	if (!IsValidPrintableArea(page_size, printable_area))
	return gfx::Rect();

	int left_right_margin =
	std::max(printable_area.x(), page_size.width() - printable_area.right());
	int top_bottom_margin = std::max(
	printable_area.y(), page_size.height() - printable_area.bottom());
	int width = page_size.width() - 2 * left_right_margin;
	int height = page_size.height() - 2 * top_bottom_margin;

	gfx::Rect symmetrical_printable_area = gfx::Rect(page_size);
	symmetrical_printable_area.ClampToCenteredSize(gfx::Size(width, height));

	return symmetrical_printable_area;
	}

	void PageSetup::Clear() {
	physical_size_.SetSize(0, 0);
	printable_area_.SetRect(0, 0, 0, 0);
	overlay_area_.SetRect(0, 0, 0, 0);
	content_area_.SetRect(0, 0, 0, 0);
	effective_margins_.Clear();
	text_height_ = 0;
	forced_margins_ = false;
	}

	bool PageSetup::Equals(const PageSetup& rhs) const {
	return physical_size_ == rhs.physical_size_ &&
	printable_area_ == rhs.printable_area_ &&
	overlay_area_ == rhs.overlay_area_ &&
	content_area_ == rhs.content_area_ &&
	effective_margins_.Equals(rhs.effective_margins_) &&
	requested_margins_.Equals(rhs.requested_margins_) &&
	text_height_ == rhs.text_height_;
	}

	void PageSetup::Init(const gfx::Size& physical_size,
	const gfx::Rect& printable_area,
	int text_height) {
	DCHECK_LE(printable_area.right(), physical_size.width());
	// I've seen this assert triggers on Canon GP160PF PCL 5e and HP LaserJet 5.
	// Since we don't know the dpi here, just disable the check.
	// DCHECK_LE(printable_area.bottom(), physical_size.height());
	DCHECK_GE(printable_area.x(), 0);
	DCHECK_GE(printable_area.y(), 0);
	DCHECK_GE(text_height, 0);
	physical_size_ = physical_size;
	printable_area_ = printable_area;
	text_height_ = text_height;

	SetRequestedMarginsAndCalculateSizes(requested_margins_);
	}

	void PageSetup::SetRequestedMargins(const PageMargins& requested_margins) {
	forced_margins_ = false;
	SetRequestedMarginsAndCalculateSizes(requested_margins);
	}

	void PageSetup::ForceRequestedMargins(const PageMargins& requested_margins) {
	forced_margins_ = true;
	SetRequestedMarginsAndCalculateSizes(requested_margins);
	}

	void PageSetup::FlipOrientation() {
	if (physical_size_.width() && physical_size_.height()) {
	gfx::Size new_size(physical_size_.height(), physical_size_.width());
	int new_y = physical_size_.width() -
	(printable_area_.width() + printable_area_.x());
	gfx::Rect new_printable_area(printable_area_.y(), new_y,
	printable_area_.height(),
	printable_area_.width());
	Init(new_size, new_printable_area, text_height_);
	}
	}

	void PageSetup::SetRequestedMarginsAndCalculateSizes(
	const PageMargins& requested_margins) {
	requested_margins_ = requested_margins;
	if (physical_size_.width() && physical_size_.height()) {
	if (forced_margins_)
	CalculateSizesWithinRect(gfx::Rect(physical_size_), 0);
	else
	CalculateSizesWithinRect(printable_area_, text_height_);
	}
	}

	void PageSetup::CalculateSizesWithinRect(const gfx::Rect& bounds,
	int text_height) {
	// Calculate the effective margins. The tricky part.
	effective_margins_.header = std::max(requested_margins_.header, bounds.y());
	effective_margins_.footer = std::max(
	requested_margins_.footer, physical_size_.height() - bounds.bottom());
	effective_margins_.left = std::max(requested_margins_.left, bounds.x());
	effective_margins_.top =
	std::max(std::max(requested_margins_.top, bounds.y()),
	effective_margins_.header + text_height);
	effective_margins_.right = std::max(requested_margins_.right,
	physical_size_.width() - bounds.right());
	effective_margins_.bottom =
	std::max(std::max(requested_margins_.bottom,
	physical_size_.height() - bounds.bottom()),
	effective_margins_.footer + text_height);

	// Calculate the overlay area. If the margins are excessive, the overlay_area
	// size will be (0, 0).
	overlay_area_.set_x(effective_margins_.left);
	overlay_area_.set_y(effective_margins_.header);
	overlay_area_.set_width(std::max(
	0,
	physical_size_.width() - effective_margins_.right - overlay_area_.x()));
	overlay_area_.set_height(std::max(
	0,
	physical_size_.height() - effective_margins_.footer - overlay_area_.y()));

	// Calculate the content area. If the margins are excessive, the content_area
	// size will be (0, 0).
	content_area_.set_x(effective_margins_.left);
	content_area_.set_y(effective_margins_.top);
	content_area_.set_width(std::max(
	0,
	physical_size_.width() - effective_margins_.right - content_area_.x()));
	content_area_.set_height(std::max(
	0,
	physical_size_.height() - effective_margins_.bottom - content_area_.y()));
	}

	} // namespace printing