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<?php
/**
* @package dompdf
* @link http://dompdf.github.com/
* @author Benj Carson <benjcarson@digitaljunkies.ca>
* @license http://www.gnu.org/copyleft/lesser.html GNU Lesser General Public License
*/
namespace Dompdf\FrameReflower;
use Dompdf\FrameDecorator\Block as BlockFrameDecorator;
use Dompdf\FrameDecorator\Table as TableFrameDecorator;
/**
* Reflows tables
*
* @access private
* @package dompdf
*/
class Table extends AbstractFrameReflower
{
/**
* Frame for this reflower
*
* @var TableFrameDecorator
*/
protected $_frame;
/**
* Cache of results between call to get_min_max_width and assign_widths
*
* @var array
*/
protected $_state;
/**
* Table constructor.
* @param TableFrameDecorator $frame
*/
function __construct(TableFrameDecorator $frame)
{
$this->_state = null;
parent::__construct($frame);
}
/**
* State is held here so it needs to be reset along with the decorator
*/
function reset()
{
$this->_state = null;
$this->_min_max_cache = null;
}
protected function _assign_widths()
{
$style = $this->_frame->get_style();
// Find the min/max width of the table and sort the columns into
// absolute/percent/auto arrays
$min_width = $this->_state["min_width"];
$max_width = $this->_state["max_width"];
$percent_used = $this->_state["percent_used"];
$absolute_used = $this->_state["absolute_used"];
$auto_min = $this->_state["auto_min"];
$absolute =& $this->_state["absolute"];
$percent =& $this->_state["percent"];
$auto =& $this->_state["auto"];
// Determine the actual width of the table
$cb = $this->_frame->get_containing_block();
$columns =& $this->_frame->get_cellmap()->get_columns();
$width = $style->width;
// Calculate padding & border fudge factor
$left = $style->margin_left;
$right = $style->margin_right;
$centered = ($left === "auto" && $right === "auto");
$left = (float)($left === "auto" ? 0 : $style->length_in_pt($left, $cb["w"]));
$right = (float)($right === "auto" ? 0 : $style->length_in_pt($right, $cb["w"]));
$delta = $left + $right;
if (!$centered) {
$delta += (float)$style->length_in_pt(array(
$style->padding_left,
$style->border_left_width,
$style->border_right_width,
$style->padding_right),
$cb["w"]);
}
$min_table_width = (float)$style->length_in_pt($style->min_width, $cb["w"] - $delta);
// min & max widths already include borders & padding
$min_width -= $delta;
$max_width -= $delta;
if ($width !== "auto") {
$preferred_width = (float)$style->length_in_pt($width, $cb["w"]) - $delta;
if ($preferred_width < $min_table_width) {
$preferred_width = $min_table_width;
}
if ($preferred_width > $min_width) {
$width = $preferred_width;
} else {
$width = $min_width;
}
} else {
if ($max_width + $delta < $cb["w"]) {
$width = $max_width;
} else if ($cb["w"] - $delta > $min_width) {
$width = $cb["w"] - $delta;
} else {
$width = $min_width;
}
if ($width < $min_table_width) {
$width = $min_table_width;
}
}
// Store our resolved width
$style->width = $width;
$cellmap = $this->_frame->get_cellmap();
if ($cellmap->is_columns_locked()) {
return;
}
// If the whole table fits on the page, then assign each column it's max width
if ($width == $max_width) {
foreach (array_keys($columns) as $i) {
$cellmap->set_column_width($i, $columns[$i]["max-width"]);
}
return;
}
// Determine leftover and assign it evenly to all columns
if ($width > $min_width) {
// We have four cases to deal with:
//
// 1. All columns are auto--no widths have been specified. In this
// case we distribute extra space across all columns weighted by max-width.
//
// 2. Only absolute widths have been specified. In this case we
// distribute any extra space equally among 'width: auto' columns, or all
// columns if no auto columns have been specified.
//
// 3. Only percentage widths have been specified. In this case we
// normalize the percentage values and distribute any remaining % to
// width: auto columns. We then proceed to assign widths as fractions
// of the table width.
//
// 4. Both absolute and percentage widths have been specified.
$increment = 0;
// Case 1:
if ($absolute_used == 0 && $percent_used == 0) {
$increment = $width - $min_width;
foreach (array_keys($columns) as $i) {
$cellmap->set_column_width($i, $columns[$i]["min-width"] + $increment * ($columns[$i]["max-width"] / $max_width));
}
return;
}
// Case 2
if ($absolute_used > 0 && $percent_used == 0) {
if (count($auto) > 0) {
$increment = ($width - $auto_min - $absolute_used) / count($auto);
}
// Use the absolutely specified width or the increment
foreach (array_keys($columns) as $i) {
if ($columns[$i]["absolute"] > 0 && count($auto)) {
$cellmap->set_column_width($i, $columns[$i]["min-width"]);
} else if (count($auto)) {
$cellmap->set_column_width($i, $columns[$i]["min-width"] + $increment);
} else {
// All absolute columns
$increment = ($width - $absolute_used) * $columns[$i]["absolute"] / $absolute_used;
$cellmap->set_column_width($i, $columns[$i]["min-width"] + $increment);
}
}
return;
}
// Case 3:
if ($absolute_used == 0 && $percent_used > 0) {
$scale = null;
$remaining = null;
// Scale percent values if the total percentage is > 100, or if all
// values are specified as percentages.
if ($percent_used > 100 || count($auto) == 0) {
$scale = 100 / $percent_used;
} else {
$scale = 1;
}
// Account for the minimum space used by the unassigned auto columns
$used_width = $auto_min;
foreach ($percent as $i) {
$columns[$i]["percent"] *= $scale;
$slack = $width - $used_width;
$w = min($columns[$i]["percent"] * $width / 100, $slack);
if ($w < $columns[$i]["min-width"]) {
$w = $columns[$i]["min-width"];
}
$cellmap->set_column_width($i, $w);
$used_width += $w;
}
// This works because $used_width includes the min-width of each
// unassigned column
if (count($auto) > 0) {
$increment = ($width - $used_width) / count($auto);
foreach ($auto as $i) {
$cellmap->set_column_width($i, $columns[$i]["min-width"] + $increment);
}
}
return;
}
// Case 4:
// First-come, first served
if ($absolute_used > 0 && $percent_used > 0) {
$used_width = $auto_min;
foreach ($absolute as $i) {
$cellmap->set_column_width($i, $columns[$i]["min-width"]);
$used_width += $columns[$i]["min-width"];
}
// Scale percent values if the total percentage is > 100 or there
// are no auto values to take up slack
if ($percent_used > 100 || count($auto) == 0) {
$scale = 100 / $percent_used;
} else {
$scale = 1;
}
$remaining_width = $width - $used_width;
foreach ($percent as $i) {
$slack = $remaining_width - $used_width;
$columns[$i]["percent"] *= $scale;
$w = min($columns[$i]["percent"] * $remaining_width / 100, $slack);
if ($w < $columns[$i]["min-width"]) {
$w = $columns[$i]["min-width"];
}
$columns[$i]["used-width"] = $w;
$used_width += $w;
}
if (count($auto) > 0) {
$increment = ($width - $used_width) / count($auto);
foreach ($auto as $i) {
$cellmap->set_column_width($i, $columns[$i]["min-width"] + $increment);
}
}
return;
}
} else { // we are over constrained
// Each column gets its minimum width
foreach (array_keys($columns) as $i) {
$cellmap->set_column_width($i, $columns[$i]["min-width"]);
}
}
}
/**
* Determine the frame's height based on min/max height
*
* @return float|int|mixed|string
*/
protected function _calculate_height()
{
$style = $this->_frame->get_style();
$height = $style->height;
$cellmap = $this->_frame->get_cellmap();
$cellmap->assign_frame_heights();
$rows = $cellmap->get_rows();
// Determine our content height
$content_height = 0;
foreach ($rows as $r) {
$content_height += $r["height"];
}
$cb = $this->_frame->get_containing_block();
if (!($style->overflow === "visible" ||
($style->overflow === "hidden" && $height === "auto"))
) {
// Only handle min/max height if the height is independent of the frame's content
$min_height = $style->min_height;
$max_height = $style->max_height;
if (isset($cb["h"])) {
$min_height = $style->length_in_pt($min_height, $cb["h"]);
$max_height = $style->length_in_pt($max_height, $cb["h"]);
} else if (isset($cb["w"])) {
if (mb_strpos($min_height, "%") !== false) {
$min_height = 0;
} else {
$min_height = $style->length_in_pt($min_height, $cb["w"]);
}
if (mb_strpos($max_height, "%") !== false) {
$max_height = "none";
} else {
$max_height = $style->length_in_pt($max_height, $cb["w"]);
}
}
if ($max_height !== "none" && $min_height > $max_height) {
// Swap 'em
list($max_height, $min_height) = array($min_height, $max_height);
}
if ($max_height !== "none" && $height > $max_height) {
$height = $max_height;
}
if ($height < $min_height) {
$height = $min_height;
}
} else {
// Use the content height or the height value, whichever is greater
if ($height !== "auto") {
$height = $style->length_in_pt($height, $cb["h"]);
if ($height <= $content_height) {
$height = $content_height;
} else {
$cellmap->set_frame_heights($height, $content_height);
}
} else {
$height = $content_height;
}
}
return $height;
}
/**
* @param BlockFrameDecorator $block
*/
function reflow(BlockFrameDecorator $block = null)
{
/** @var TableFrameDecorator */
$frame = $this->_frame;
// Check if a page break is forced
$page = $frame->get_root();
$page->check_forced_page_break($frame);
// Bail if the page is full
if ($page->is_full()) {
return;
}
// Let the page know that we're reflowing a table so that splits
// are suppressed (simply setting page-break-inside: avoid won't
// work because we may have an arbitrary number of block elements
// inside tds.)
$page->table_reflow_start();
// Collapse vertical margins, if required
$this->_collapse_margins();
$frame->position();
// Table layout algorithm:
// http://www.w3.org/TR/CSS21/tables.html#auto-table-layout
if (is_null($this->_state)) {
$this->get_min_max_width();
}
$cb = $frame->get_containing_block();
$style = $frame->get_style();
// This is slightly inexact, but should be okay. Add half the
// border-spacing to the table as padding. The other half is added to
// the cells themselves.
if ($style->border_collapse === "separate") {
list($h, $v) = $style->border_spacing;
$v = (float)$style->length_in_pt($v) / 2;
$h = (float)$style->length_in_pt($h) / 2;
$style->padding_left = (float)$style->length_in_pt($style->padding_left, $cb["w"]) + $h;
$style->padding_right = (float)$style->length_in_pt($style->padding_right, $cb["w"]) + $h;
$style->padding_top = (float)$style->length_in_pt($style->padding_top, $cb["h"]) + $v;
$style->padding_bottom = (float)$style->length_in_pt($style->padding_bottom, $cb["h"]) + $v;
}
$this->_assign_widths();
// Adjust left & right margins, if they are auto
$width = $style->width;
$left = $style->margin_left;
$right = $style->margin_right;
$diff = $cb["w"] - $width;
if ($left === "auto" && $right === "auto") {
if ($diff < 0) {
$left = 0;
$right = $diff;
} else {
$left = $right = $diff / 2;
}
$style->margin_left = sprintf("%Fpt", $left);
$style->margin_right = sprintf("%Fpt", $right);;
} else {
if ($left === "auto") {
$left = (float)$style->length_in_pt($cb["w"] - $right - $width, $cb["w"]);
}
if ($right === "auto") {
$left = (float)$style->length_in_pt($left, $cb["w"]);
}
}
list($x, $y) = $frame->get_position();
// Determine the content edge
$content_x = $x + (float)$left + (float)$style->length_in_pt(array($style->padding_left,
$style->border_left_width), $cb["w"]);
$content_y = $y + (float)$style->length_in_pt(array($style->margin_top,
$style->border_top_width,
$style->padding_top), $cb["h"]);
if (isset($cb["h"])) {
$h = $cb["h"];
} else {
$h = null;
}
$cellmap = $frame->get_cellmap();
$col =& $cellmap->get_column(0);
$col["x"] = $content_x;
$row =& $cellmap->get_row(0);
$row["y"] = $content_y;
$cellmap->assign_x_positions();
// Set the containing block of each child & reflow
foreach ($frame->get_children() as $child) {
// Bail if the page is full
if (!$page->in_nested_table() && $page->is_full()) {
break;
}
$child->set_containing_block($content_x, $content_y, $width, $h);
$child->reflow();
if (!$page->in_nested_table()) {
// Check if a split has occured
$page->check_page_break($child);
}
}
// Assign heights to our cells:
$style->height = $this->_calculate_height();
if ($style->border_collapse === "collapse") {
// Unset our borders because our cells are now using them
$style->border_style = "none";
}
$page->table_reflow_end();
// Debugging:
//echo ($this->_frame->get_cellmap());
if ($block && $style->float === "none" && $frame->is_in_flow()) {
$block->add_frame_to_line($frame);
$block->add_line();
}
}
/**
* @return array|null
*/
function get_min_max_width()
{
if (!is_null($this->_min_max_cache)) {
return $this->_min_max_cache;
}
$style = $this->_frame->get_style();
$this->_frame->normalise();
// Add the cells to the cellmap (this will calcluate column widths as
// frames are added)
$this->_frame->get_cellmap()->add_frame($this->_frame);
// Find the min/max width of the table and sort the columns into
// absolute/percent/auto arrays
$this->_state = array();
$this->_state["min_width"] = 0;
$this->_state["max_width"] = 0;
$this->_state["percent_used"] = 0;
$this->_state["absolute_used"] = 0;
$this->_state["auto_min"] = 0;
$this->_state["absolute"] = array();
$this->_state["percent"] = array();
$this->_state["auto"] = array();
$columns =& $this->_frame->get_cellmap()->get_columns();
foreach (array_keys($columns) as $i) {
$this->_state["min_width"] += $columns[$i]["min-width"];
$this->_state["max_width"] += $columns[$i]["max-width"];
if ($columns[$i]["absolute"] > 0) {
$this->_state["absolute"][] = $i;
$this->_state["absolute_used"] += $columns[$i]["absolute"];
} else if ($columns[$i]["percent"] > 0) {
$this->_state["percent"][] = $i;
$this->_state["percent_used"] += $columns[$i]["percent"];
} else {
$this->_state["auto"][] = $i;
$this->_state["auto_min"] += $columns[$i]["min-width"];
}
}
// Account for margins & padding
$dims = array($style->border_left_width,
$style->border_right_width,
$style->padding_left,
$style->padding_right,
$style->margin_left,
$style->margin_right);
if ($style->border_collapse !== "collapse") {
list($dims[]) = $style->border_spacing;
}
$delta = (float)$style->length_in_pt($dims, $this->_frame->get_containing_block("w"));
$this->_state["min_width"] += $delta;
$this->_state["max_width"] += $delta;
return $this->_min_max_cache = array(
$this->_state["min_width"],
$this->_state["max_width"],
"min" => $this->_state["min_width"],
"max" => $this->_state["max_width"],
);
}
}
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