// Copyright (c) 2006-2008 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 "base/logging.h" namespace printing { 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() : text_height_(0) { } PageSetup::~PageSetup() {} 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; } 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; // Calculate the effective margins. The tricky part. effective_margins_.header = std::max(requested_margins_.header, printable_area_.y()); effective_margins_.footer = std::max(requested_margins_.footer, physical_size.height() - printable_area_.bottom()); effective_margins_.left = std::max(requested_margins_.left, printable_area_.x()); effective_margins_.top = std::max(std::max(requested_margins_.top, printable_area_.y()), effective_margins_.header + text_height); effective_margins_.right = std::max(requested_margins_.right, physical_size.width() - printable_area_.right()); effective_margins_.bottom = std::max(std::max(requested_margins_.bottom, physical_size.height() - printable_area_.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())); } void PageSetup::SetRequestedMargins(const PageMargins& requested_margins) { requested_margins_ = requested_margins; if (physical_size_.width() && physical_size_.height()) Init(physical_size_, printable_area_, text_height_); } } // namespace printing