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/* Pango
* pango-coverage.c: Coverage maps for fonts
*
* Copyright (C) 2000 Red Hat Software
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public
* License along with this library; if not, write to the
* Free Software Foundation, Inc., 59 Temple Place - Suite 330,
* Boston, MA 02111-1307, USA.
*/
#include <string.h>
#include <pango/pango-coverage.h>
typedef struct _PangoBlockInfo PangoBlockInfo;
#define N_BLOCKS_INCREMENT 256
/* The structure of a PangoCoverage object is a two-level table, with blocks of size 256.
* each block is stored as a packed array of 2 bit values for each index, in LSB order.
*/
struct _PangoBlockInfo
{
guchar *data;
PangoCoverageLevel level; /* Used if data == NULL */
};
struct _PangoCoverage
{
guint ref_count;
int n_blocks;
int data_size;
PangoBlockInfo *blocks;
};
/**
* pango_coverage_new:
*
* Create a new #PangoCoverage
*
* Return value: a new PangoCoverage object, initialized to %PANGO_COVERAGE_NONE
* with a reference count of 0.
**/
PangoCoverage *
pango_coverage_new (void)
{
int i;
PangoCoverage *coverage = g_new (PangoCoverage, 1);
coverage->n_blocks = N_BLOCKS_INCREMENT;
coverage->blocks = g_new (PangoBlockInfo, coverage->n_blocks);
coverage->ref_count = 1;
for (i=0; i<coverage->n_blocks; i++)
{
coverage->blocks[i].data = NULL;
coverage->blocks[i].level = PANGO_COVERAGE_NONE;
}
return coverage;
}
/**
* pango_coverage_copy:
* @coverage: a #PangoCoverage
*
* Copy an existing #PangoCoverage. (This function may now be unecessary
* since we refcount the structure. Mail otaylor@redhat.com if you
* use it.)
*
* Return value: a copy of @coverage with a reference count of 1
**/
PangoCoverage *
pango_coverage_copy (PangoCoverage *coverage)
{
int i;
PangoCoverage *result = g_new (PangoCoverage, 1);
g_return_val_if_fail (coverage != NULL, NULL);
result->n_blocks = coverage->n_blocks;
result->blocks = g_new (PangoBlockInfo, coverage->n_blocks);
result->ref_count = 1;
for (i=0; i<coverage->n_blocks; i++)
{
if (coverage->blocks[i].data)
{
result->blocks[i].data = g_new (guchar, 64);
memcpy (result->blocks[i].data, coverage->blocks[i].data, 64);
}
else
result->blocks[i].data = NULL;
result->blocks[i].level = coverage->blocks[i].level;
}
return result;
}
/**
* pango_coverage_ref:
* @coverage: a #PangoCoverage
*
* Increase the reference count on the #PangoCoverage by one
**/
void
pango_coverage_ref (PangoCoverage *coverage)
{
g_return_if_fail (coverage != NULL);
coverage->ref_count++;
}
/**
* pango_coverage_unref:
* @coverage: a #PangoCoverage
*
* Increase the reference count on the #PangoCoverage by one.
* if the result is zero, free the coverage and all associated memory.
**/
void
pango_coverage_unref (PangoCoverage *coverage)
{
int i;
g_return_if_fail (coverage != NULL);
g_return_if_fail (coverage->ref_count > 0);
coverage->ref_count--;
if (coverage->ref_count == 0)
{
for (i=0; i<coverage->n_blocks; i++)
{
if (coverage->blocks[i].data)
g_free (coverage->blocks[i].data);
}
g_free (coverage->blocks);
g_free (coverage);
}
}
/**
* pango_coverage_get:
* @coverage: a #PangoCoverage
* @index: the index to check
*
* Determine whether a particular index is covered by @coverage
*
* Return value:
**/
PangoCoverageLevel
pango_coverage_get (PangoCoverage *coverage,
int index)
{
int block_index;
g_return_val_if_fail (coverage != NULL, PANGO_COVERAGE_NONE);
block_index = index / 256;
if (block_index > coverage->n_blocks)
return PANGO_COVERAGE_NONE;
else
{
guchar *data = coverage->blocks[block_index].data;
if (data)
{
int i = index % 256;
int shift = (i % 4) * 2;
return (data[i/4] >> shift) & 0x3;
}
else
return coverage->blocks[block_index].level;
}
}
/**
* pango_coverage_set:
* @coverage: a #PangoCoverage
* @index: the index to modify
* @level: the new level for @index
*
* Modify a particular index within @coverage
**/
void pango_coverage_set (PangoCoverage *coverage,
int index,
PangoCoverageLevel level)
{
int block_index, i;
guchar *data;
g_return_if_fail (coverage != NULL);
g_return_if_fail (level >= 0 || level <= 3);
block_index = index / 256;
if (block_index > coverage->n_blocks)
{
coverage->n_blocks += N_BLOCKS_INCREMENT;
coverage->blocks = g_renew (PangoBlockInfo, coverage->blocks, coverage->n_blocks);
}
data = coverage->blocks[block_index].data;
if (!data)
{
guchar byte;
if (level == coverage->blocks[block_index].level)
return;
data = g_new (guchar, 64);
coverage->blocks[block_index].data = data;
byte = coverage->blocks[block_index].level |
(coverage->blocks[block_index].level << 2) |
(coverage->blocks[block_index].level << 4) |
(coverage->blocks[block_index].level << 6);
for (i=0; i<64; i++)
memset (data, byte, 64);
}
i = index % 256;
data[i/4] |= level << ((i % 4) * 2);
}
/**
* pango_coverage_max:
* @coverage: a #PangoCoverage
* @other: another #PangoCoverage
*
* Set the coverage for each index in @coverage to be the max (better)
* value of the current coverage for the index and the coverage for
* the corresponding index in @other.
**/
void pango_coverage_max (PangoCoverage *coverage,
PangoCoverage *other)
{
int block_index, i;
int old_blocks;
g_return_if_fail (coverage != NULL);
old_blocks = MIN (coverage->n_blocks, other->n_blocks);
if (other->n_blocks > coverage->n_blocks)
{
coverage->n_blocks += N_BLOCKS_INCREMENT;
coverage->blocks = g_renew (PangoBlockInfo, coverage->blocks, coverage->n_blocks);
for (block_index = old_blocks; block_index < coverage->n_blocks; block_index++)
{
if (other->blocks[block_index].data)
{
coverage->blocks[block_index].data = g_new (guchar, 64);
memcpy (coverage->blocks[block_index].data, other->blocks[block_index].data, 64);
}
else
coverage->blocks[block_index].data = NULL;
coverage->blocks[block_index].level = other->blocks[block_index].level;
}
}
for (block_index = 0; block_index < old_blocks; block_index++)
{
if (!coverage->blocks[block_index].data && !other->blocks[block_index].data)
{
coverage->blocks[block_index].level = MAX (coverage->blocks[block_index].level, other->blocks[block_index].level);
}
else if (coverage->blocks[block_index].data && other->blocks[block_index].data)
{
guchar *data = coverage->blocks[block_index].data;
for (i=0; i<64; i++)
{
int byte1 = data[i];
int byte2 = other->blocks[block_index].data[i];
/* There are almost certainly some clever logical ops to do this */
data[i] =
MAX (byte1 & 0x3, byte2 & 0x3) |
MAX (byte1 & 0xc, byte2 & 0xc) |
MAX (byte1 & 0x30, byte2 & 0x30) |
MAX (byte1 & 0xc0, byte2 & 0xc00);
}
}
else
{
guchar *src, *dest;
int level, byte2;
if (coverage->blocks[block_index].data)
{
src = dest = coverage->blocks[block_index].data;
level = other->blocks[block_index].level;
}
else
{
src = other->blocks[block_index].data;
dest = g_new (guchar, 64);
coverage->blocks[block_index].data = dest;
level = coverage->blocks[block_index].level;
}
byte2 = level | (level << 2) | (level << 4) | (level << 6);
for (i=0; i<64; i++)
{
int byte1 = src[i];
/* There are almost certainly some clever logical ops to do this */
dest[i] =
MAX (byte1 & 0x3, byte2 & 0x3) |
MAX (byte1 & 0xc, byte2 & 0xc) |
MAX (byte1 & 0x30, byte2 & 0x30) |
MAX (byte1 & 0xc0, byte2 & 0xc00);
}
}
}
}
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