guix-play/gnu/packages/patches/icecat-update-graphite2.patch
Mark H Weaver 59d4cf1c58 gnu: icecat: Update bundled graphite2 to 1.3.5 for security fixes.
* gnu/packages/patches/icecat-update-graphite2.patch: New file.
* gnu-system.am (dist_patch_DATA): Add it.
* gnu/packages/gnuzilla.scm (icecat)[source]: Add patch.  Add TODO
  comment about using the system graphite2 in the future.
2016-02-11 14:59:16 -05:00

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Copied from upstream:
https://hg.mozilla.org/releases/mozilla-esr38/raw-rev/ed4d2ce6046b
# HG changeset patch
# User Jonathan Kew <jkew@mozilla.com>
# Date 1455126706 0
# Node ID ed4d2ce6046b20287fd13c548dd3982fe1a24875
# Parent 78d3632feb7b6f6046025352630bd4f5365f3106
Bug 1246093 - Update graphite2 library to latest release on esr38. r=me,a=sledru+lizzard
diff --git a/gfx/graphite2/COPYING b/gfx/graphite2/COPYING
new file mode 100644
--- /dev/null
+++ b/gfx/graphite2/COPYING
@@ -0,0 +1,26 @@
+/* GRAPHITE2 LICENSING
+
+ Copyright 2010, SIL International
+ All rights reserved.
+
+ This library is free software; you can redistribute it and/or modify
+ it under the terms of the GNU Lesser General Public License as published
+ by the Free Software Foundation; either version 2.1 of License, or
+ (at your option) any later version.
+
+ This program 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
+ Lesser General Public License for more details.
+
+ You should also have received a copy of the GNU Lesser General Public
+ License along with this library in the file named "LICENSE".
+ If not, write to the Free Software Foundation, 51 Franklin Street,
+ Suite 500, Boston, MA 02110-1335, USA or visit their web page on the
+ internet at http://www.fsf.org/licenses/lgpl.html.
+
+ Alternatively, you may use this library under the terms of the Mozilla
+ Public License (http://mozilla.org/MPL) or under the GNU General Public
+ License, as published by the Free Sofware Foundation; either version
+ 2 of the license or (at your option) any later version.
+*/
diff --git a/gfx/graphite2/LICENSE b/gfx/graphite2/LICENSE
new file mode 100644
--- /dev/null
+++ b/gfx/graphite2/LICENSE
@@ -0,0 +1,510 @@
+
+ GNU LESSER GENERAL PUBLIC LICENSE
+ Version 2.1, February 1999
+
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diff --git a/gfx/graphite2/README.md b/gfx/graphite2/README.md
new file mode 100644
--- /dev/null
+++ b/gfx/graphite2/README.md
@@ -0,0 +1,32 @@
+# Graphite engine
+
+## What is Graphite?
+
+Graphite is a system that can be used to create “smart fonts” capable of displaying writing systems with various complex behaviors. A smart font contains not only letter shapes but also additional instructions indicating how to combine and position the letters in complex ways.
+
+Graphite was primarily developed to provide the flexibility needed for minority languages which often need to be written according to slightly different rules than well-known languages that use the same script.
+
+Examples of complex script behaviors Graphite can handle include:
+
+* contextual shaping
+* ligatures
+* reordering
+* split glyphs
+* bidirectionality
+* stacking diacritics
+* complex positioning
+* shape aware kerning
+* automatic diacritic collision avoidance
+
+See [examples of scripts with complex rendering](http://scripts.sil.org/CmplxRndExamples).
+
+## Graphite system overview
+The Graphite system consists of:
+
+* A rule-based programming language [Graphite Description Language](http://scripts.sil.org/cms/scripts/page.php?site_id=projects&item_id=graphite_devFont#gdl) (GDL) that can be used to describe the behavior of a writing system
+* A compiler for that language
+* A rendering engine that can serve as the layout component of a text-processing application
+
+Graphite renders TrueType fonts that have been extended by means of compiling a GDL program.
+
+Further technical information is available on the [Graphite technical overview](http://scripts.sil.org/cms/scripts/page.php?site_id=projects&item_id=graphite_techAbout) page.
diff --git a/gfx/graphite2/README.mozilla b/gfx/graphite2/README.mozilla
--- a/gfx/graphite2/README.mozilla
+++ b/gfx/graphite2/README.mozilla
@@ -1,6 +1,7 @@
-This directory contains the Graphite2 library from http://hg.palaso.org/graphitedev
-
-Current version derived from upstream changeset 1efd96aeade9
-
+This directory contains the Graphite2 library release 1.3.5 from
+https://github.com/silnrsi/graphite/releases/download/1.3.5/graphite2-minimal-1.3.5.tgz
See gfx/graphite2/moz-gr-update.sh for update procedure.
+Also includes two post-1.3.5 fixes:
+a8b3ac2aed0eb132cd80efe7de88f8153e73c829
+e569e28d83491fedb31b9220493f3c07f6ec6d80
diff --git a/gfx/graphite2/include/graphite2/Font.h b/gfx/graphite2/include/graphite2/Font.h
--- a/gfx/graphite2/include/graphite2/Font.h
+++ b/gfx/graphite2/include/graphite2/Font.h
@@ -24,18 +24,18 @@
General Public License, as published by the Free Software Foundation,
either version 2 of the License or (at your option) any later version.
*/
#pragma once
#include "graphite2/Types.h"
#define GR2_VERSION_MAJOR 1
-#define GR2_VERSION_MINOR 2
-#define GR2_VERSION_BUGFIX 4
+#define GR2_VERSION_MINOR 3
+#define GR2_VERSION_BUGFIX 5
#ifdef __cplusplus
extern "C"
{
#endif
typedef struct gr_face gr_face;
typedef struct gr_font gr_font;
diff --git a/gfx/graphite2/include/graphite2/Segment.h b/gfx/graphite2/include/graphite2/Segment.h
--- a/gfx/graphite2/include/graphite2/Segment.h
+++ b/gfx/graphite2/include/graphite2/Segment.h
@@ -115,35 +115,68 @@ enum gr_attrCode {
gr_slatJStretch,
/// Amount this slot can shrink (not implemented)
gr_slatJShrink,
/// Granularity by which this slot can stretch or shrink (not implemented)
gr_slatJStep,
/// Justification weight for this glyph (not implemented)
gr_slatJWeight,
/// Amount this slot mush shrink or stretch in design units
- gr_slatJWidth,
+ gr_slatJWidth = 29,
/// SubSegment split point
gr_slatSegSplit = gr_slatJStretch + 29,
/// User defined attribute, see subattr for user attr number
gr_slatUserDefn,
/// Bidi level
- gr_slatBidiLevel,
+ gr_slatBidiLevel = 56,
+ /// Collision flags
+ gr_slatColFlags,
+ /// Collision constraint rectangle left (bl.x)
+ gr_slatColLimitblx,
+ /// Collision constraint rectangle lower (bl.y)
+ gr_slatColLimitbly,
+ /// Collision constraint rectangle right (tr.x)
+ gr_slatColLimittrx,
+ /// Collision constraint rectangle upper (tr.y)
+ gr_slatColLimittry,
+ /// Collision shift x
+ gr_slatColShiftx,
+ /// Collision shift y
+ gr_slatColShifty,
+ /// Collision margin
+ gr_slatColMargin,
+ /// Margin cost weight
+ gr_slatColMarginWt,
+ // Additional glyph that excludes movement near this one:
+ gr_slatColExclGlyph,
+ gr_slatColExclOffx,
+ gr_slatColExclOffy,
+ // Collision sequence enforcing attributes:
+ gr_slatSeqClass,
+ gr_slatSeqProxClass,
+ gr_slatSeqOrder,
+ gr_slatSeqAboveXoff,
+ gr_slatSeqAboveWt,
+ gr_slatSeqBelowXlim,
+ gr_slatSeqBelowWt,
+ gr_slatSeqValignHt,
+ gr_slatSeqValignWt,
/// not implemented
gr_slatMax,
/// not implemented
gr_slatNoEffect = gr_slatMax + 1
};
enum gr_bidirtl {
/// Underlying paragraph direction is RTL
gr_rtl = 1,
/// Set this to not run the bidi pass internally, even if the font asks for it.
- /// This presumes that the segment is in a single direction.
+ /// This presumes that the segment is in a single direction. Most of the time
+ /// this bit should be set unless you know you are passing full paragraphs of text.
gr_nobidi = 2,
/// Disable auto mirroring for rtl text
gr_nomirror = 4
};
typedef struct gr_char_info gr_char_info;
typedef struct gr_segment gr_segment;
typedef struct gr_slot gr_slot;
diff --git a/gfx/graphite2/include/graphite2/Types.h b/gfx/graphite2/include/graphite2/Types.h
--- a/gfx/graphite2/include/graphite2/Types.h
+++ b/gfx/graphite2/include/graphite2/Types.h
@@ -53,17 +53,20 @@ enum gr_encform {
#else
#if defined __GNUC__
#define GR2_API __attribute__((dllimport))
#else
#define GR2_API __declspec(dllimport)
#endif
#endif
#define GR2_LOCAL
+#elif __GNUC__ >= 4
+ #if defined GRAPHITE2_STATIC
+ #define GR2_API __attribute__ ((visibility("hidden")))
+ #else
+ #define GR2_API __attribute__ ((visibility("default")))
+ #endif
+ #define GR2_LOCAL __attribute__ ((visibility("hidden")))
#else
- #if __GNUC__ >= 4
- #define GR2_API __attribute__ ((visibility("default")))
- #define GR2_LOCAL __attribute__ ((visibility("hidden")))
- #else
- #define GR2_API
- #define GR2_LOCAL
- #endif
+ #define GR2_API
+ #define GR2_LOCAL
#endif
+
diff --git a/gfx/graphite2/moz-gr-update.sh b/gfx/graphite2/moz-gr-update.sh
--- a/gfx/graphite2/moz-gr-update.sh
+++ b/gfx/graphite2/moz-gr-update.sh
@@ -1,35 +1,49 @@
#!/bin/bash
# Script used to update the Graphite2 library in the mozilla source tree
# This script lives in gfx/graphite2, along with the library source,
# but must be run from the top level of the mozilla-central tree.
-# It expects to find a checkout of the graphite2 tree in a directory "graphitedev"
-# alongside the current mozilla tree that is to be updated.
-# Expect error messages from the copy commands if this is not found!
+# Run as
+#
+# ./gfx/graphite2/moz-gr-update.sh RELEASE
+#
+# where RELEASE is the graphite2 release to be used, e.g. "1.3.4".
-# copy the source and headers
-cp -R ../graphitedev/src/* gfx/graphite2/src
-cp ../graphitedev/include/graphite2/* gfx/graphite2/include/graphite2
+RELEASE=$1
-# record the upstream changeset that was used
-CHANGESET=$(cd ../graphitedev/ && hg log | head -n 1 | cut -d : -f 1,3 | sed -e 's/:/ /')
-echo "This directory contains the Graphite2 library from http://hg.palaso.org/graphitedev\n" > gfx/graphite2/README.mozilla
-echo "Current version derived from upstream" $CHANGESET >> gfx/graphite2/README.mozilla
-echo "\nSee" $0 "for update procedure.\n" >> gfx/graphite2/README.mozilla
+if [ "x$RELEASE" == "x" ]
+then
+ echo "Must provide the version number to be used."
+ exit 1
+fi
+
+TARBALL="https://github.com/silnrsi/graphite/releases/download/$RELEASE/graphite2-minimal-$RELEASE.tgz"
+
+foo=`basename $0`
+TMPFILE=`mktemp -t ${foo}` || exit 1
+
+curl -L "$TARBALL" -o "$TMPFILE"
+tar -x -z -C gfx/graphite2/ --strip-components 1 -f "$TMPFILE" || exit 1
+rm "$TMPFILE"
+
+echo "This directory contains the Graphite2 library release $RELEASE from" > gfx/graphite2/README.mozilla
+echo "$TARBALL" >> gfx/graphite2/README.mozilla
+echo ""
+echo "See" $0 "for update procedure." >> gfx/graphite2/README.mozilla
# fix up includes because of bug 721839 (cstdio) and bug 803066 (Windows.h)
-find gfx/graphite2/ -name "*.cpp" -exec perl -p -i -e "s/<cstdio>/<stdio.h>/;s/Windows.h/windows.h/;" {} \;
-find gfx/graphite2/ -name "*.h" -exec perl -p -i -e "s/<cstdio>/<stdio.h>/;s/Windows.h/windows.h/;" {} \;
+#find gfx/graphite2/ -name "*.cpp" -exec perl -p -i -e "s/<cstdio>/<stdio.h>/;s/Windows.h/windows.h/;" {} \;
+#find gfx/graphite2/ -name "*.h" -exec perl -p -i -e "s/<cstdio>/<stdio.h>/;s/Windows.h/windows.h/;" {} \;
# summarize what's been touched
-echo Updated to $CHANGESET.
+echo Updated to $RELEASE.
echo Here is what changed in the gfx/graphite2 directory:
echo
hg stat gfx/graphite2
echo
echo If gfx/graphite2/src/files.mk has changed, please make corresponding
echo changes to gfx/graphite2/src/moz.build
diff --git a/gfx/graphite2/src/CMakeLists.txt b/gfx/graphite2/src/CMakeLists.txt
--- a/gfx/graphite2/src/CMakeLists.txt
+++ b/gfx/graphite2/src/CMakeLists.txt
@@ -69,29 +69,31 @@ add_library(graphite2 SHARED
${GRAPHITE2_VM_TYPE}_machine.cpp
gr_char_info.cpp
gr_features.cpp
gr_face.cpp
gr_font.cpp
gr_logging.cpp
gr_segment.cpp
gr_slot.cpp
- Bidi.cpp
CachedFace.cpp
CmapCache.cpp
Code.cpp
+ Collider.cpp
+ Decompressor.cpp
Face.cpp
FeatureMap.cpp
Font.cpp
GlyphFace.cpp
GlyphCache.cpp
+ Intervals.cpp
Justifier.cpp
NameTable.cpp
Pass.cpp
- Rule.cpp
+ Position.cpp
Segment.cpp
Silf.cpp
Slot.cpp
Sparse.cpp
TtfUtil.cpp
UtfCodec.cpp
${FILEFACE}
${SEGCACHE}
@@ -99,27 +101,28 @@ add_library(graphite2 SHARED
set_target_properties(graphite2 PROPERTIES PUBLIC_HEADER "${GRAPHITE_HEADERS}"
SOVERSION ${GRAPHITE_SO_VERSION}
VERSION ${GRAPHITE_VERSION}
LT_VERSION_CURRENT ${GRAPHITE_API_CURRENT}
LT_VERSION_REVISION ${GRAPHITE_API_REVISION}
LT_VERSION_AGE ${GRAPHITE_API_AGE})
-if (${CMAKE_BUILD_TYPE} STREQUAL "ClangASN")
- set(GRAPHITE_LINK_FLAGS "-fsanitize=address")
-else (${CMAKE_BUILD_TYPE} STREQUAL "ClangASN")
- set(GRAPHITE_LINK_FLAGS "")
-endif (${CMAKE_BUILD_TYPE} STREQUAL "ClangASN")
-
if (${CMAKE_SYSTEM_NAME} STREQUAL "Linux")
set_target_properties(graphite2 PROPERTIES
COMPILE_FLAGS "-Wall -Wextra -Wno-unknown-pragmas -Wendif-labels -Wshadow -Wctor-dtor-privacy -Wnon-virtual-dtor -fno-rtti -fno-exceptions -fvisibility=hidden -fvisibility-inlines-hidden -fno-stack-protector"
LINK_FLAGS "-nodefaultlibs ${GRAPHITE_LINK_FLAGS}"
LINKER_LANGUAGE C)
+ if (CMAKE_COMPILER_IS_GNUCXX)
+ add_definitions(-Wdouble-promotion)
+ endif (CMAKE_COMPILER_IS_GNUCXX)
+ message(STATUS "Compiler ID is: ${CMAKE_CXX_COMPILER_ID}")
+ if (${CMAKE_CXX_COMPILER_ID} STREQUAL "Clang")
+ add_definitions(-Wimplicit-fallthrough)
+ endif (${CMAKE_CXX_COMPILER_ID} STREQUAL "Clang")
if (${CMAKE_CXX_COMPILER} MATCHES ".*mingw.*")
target_link_libraries(graphite2 kernel32 msvcr90 mingw32 gcc user32)
else (${CMAKE_CXX_COMPILER} MATCHES ".*mingw.*")
if (GRAPHITE2_ASAN)
target_link_libraries(graphite2 c gcc_s)
else (GRAPHITE2_ASAN)
target_link_libraries(graphite2 c gcc)
endif (GRAPHITE2_ASAN)
@@ -127,17 +130,17 @@ if (${CMAKE_SYSTEM_NAME} STREQUAL "Linu
nolib_test(stdc++ $<TARGET_SONAME_FILE:graphite2>)
endif (${CMAKE_CXX_COMPILER} MATCHES ".*mingw.*")
set(CMAKE_CXX_IMPLICIT_LINK_LIBRARIES "")
CREATE_LIBTOOL_FILE(graphite2 "/lib${LIB_SUFFIX}")
endif (${CMAKE_SYSTEM_NAME} STREQUAL "Linux")
if (${CMAKE_SYSTEM_NAME} STREQUAL "Darwin")
set_target_properties(graphite2 PROPERTIES
- COMPILE_FLAGS "-Wall -Wextra -Wno-unknown-pragmas -Wendif-labels -Wshadow -Wno-ctor-dtor-privacy -Wno-non-virtual-dtor -fno-rtti -fno-exceptions -fvisibility=hidden -fvisibility-inlines-hidden -fno-stack-protector"
+ COMPILE_FLAGS "-Wall -Wextra -Wno-unknown-pragmas -Wimplicit-fallthrough -Wendif-labels -Wshadow -Wno-ctor-dtor-privacy -Wno-non-virtual-dtor -fno-rtti -fno-exceptions -fvisibility=hidden -fvisibility-inlines-hidden -fno-stack-protector"
LINK_FLAGS "-nodefaultlibs"
LINKER_LANGUAGE C)
target_link_libraries(graphite2 c)
include(Graphite)
nolib_test(stdc++ $<TARGET_SONAME_FILE:graphite2>)
set(CMAKE_CXX_IMPLICIT_LINK_LIBRARIES "")
CREATE_LIBTOOL_FILE(graphite2 "/lib${LIB_SUFFIX}")
endif (${CMAKE_SYSTEM_NAME} STREQUAL "Darwin")
diff --git a/gfx/graphite2/src/CmapCache.cpp b/gfx/graphite2/src/CmapCache.cpp
--- a/gfx/graphite2/src/CmapCache.cpp
+++ b/gfx/graphite2/src/CmapCache.cpp
@@ -33,31 +33,31 @@ of the License or (at your option) any l
using namespace graphite2;
const void * bmp_subtable(const Face::Table & cmap)
{
const void * stbl;
if (!cmap.size()) return 0;
- if (TtfUtil::CheckCmapSubtable4(stbl = TtfUtil::FindCmapSubtable(cmap, 3, 1, cmap.size()))
- || TtfUtil::CheckCmapSubtable4(stbl = TtfUtil::FindCmapSubtable(cmap, 0, 3, cmap.size()))
- || TtfUtil::CheckCmapSubtable4(stbl = TtfUtil::FindCmapSubtable(cmap, 0, 2, cmap.size()))
- || TtfUtil::CheckCmapSubtable4(stbl = TtfUtil::FindCmapSubtable(cmap, 0, 1, cmap.size()))
- || TtfUtil::CheckCmapSubtable4(stbl = TtfUtil::FindCmapSubtable(cmap, 0, 0, cmap.size())))
+ if (TtfUtil::CheckCmapSubtable4(stbl = TtfUtil::FindCmapSubtable(cmap, 3, 1, cmap.size()), cmap.size())
+ || TtfUtil::CheckCmapSubtable4(stbl = TtfUtil::FindCmapSubtable(cmap, 0, 3, cmap.size()), cmap.size())
+ || TtfUtil::CheckCmapSubtable4(stbl = TtfUtil::FindCmapSubtable(cmap, 0, 2, cmap.size()), cmap.size())
+ || TtfUtil::CheckCmapSubtable4(stbl = TtfUtil::FindCmapSubtable(cmap, 0, 1, cmap.size()), cmap.size())
+ || TtfUtil::CheckCmapSubtable4(stbl = TtfUtil::FindCmapSubtable(cmap, 0, 0, cmap.size()), cmap.size()))
return stbl;
return 0;
}
const void * smp_subtable(const Face::Table & cmap)
{
const void * stbl;
if (!cmap.size()) return 0;
- if (TtfUtil::CheckCmapSubtable12(stbl = TtfUtil::FindCmapSubtable(cmap, 3, 10, cmap.size()))
- || TtfUtil::CheckCmapSubtable12(stbl = TtfUtil::FindCmapSubtable(cmap, 0, 4, cmap.size())))
+ if (TtfUtil::CheckCmapSubtable12(stbl = TtfUtil::FindCmapSubtable(cmap, 3, 10, cmap.size()), cmap.size())
+ || TtfUtil::CheckCmapSubtable12(stbl = TtfUtil::FindCmapSubtable(cmap, 0, 4, cmap.size()), cmap.size()))
return stbl;
return 0;
}
template <unsigned int (*NextCodePoint)(const void *, unsigned int, int *),
uint16 (*LookupCodePoint)(const void *, unsigned int, int)>
bool cache_subtable(uint16 * blocks[], const void * cst, const unsigned int limit)
{
diff --git a/gfx/graphite2/src/Code.cpp b/gfx/graphite2/src/Code.cpp
--- a/gfx/graphite2/src/Code.cpp
+++ b/gfx/graphite2/src/Code.cpp
@@ -37,17 +37,17 @@ of the License or (at your option) any l
#include "inc/Code.h"
#include "inc/Face.h"
#include "inc/GlyphFace.h"
#include "inc/GlyphCache.h"
#include "inc/Machine.h"
#include "inc/Rule.h"
#include "inc/Silf.h"
-#include <stdio.h>
+#include <cstdio>
#ifdef NDEBUG
#ifdef __GNUC__
#pragma GCC diagnostic ignored "-Wunused-parameter"
#endif
#endif
@@ -84,112 +84,119 @@ public:
struct limits;
struct analysis
{
uint8 slotref;
context contexts[256];
byte max_ref;
analysis() : slotref(0), max_ref(0) {};
- void set_ref(int index) throw();
+ void set_ref(int index, bool incinsert=false) throw();
+ void set_noref(int index) throw();
void set_changed(int index) throw();
};
- decoder(const limits & lims, Code &code) throw();
+ decoder(limits & lims, Code &code, enum passtype pt) throw();
bool load(const byte * bc_begin, const byte * bc_end);
void apply_analysis(instr * const code, instr * code_end);
byte max_ref() { return _analysis.max_ref; }
int pre_context() const { return _pre_context; }
private:
opcode fetch_opcode(const byte * bc);
void analyse_opcode(const opcode, const int8 * const dp) throw();
bool emit_opcode(opcode opc, const byte * & bc);
bool validate_opcode(const opcode opc, const byte * const bc);
bool valid_upto(const uint16 limit, const uint16 x) const throw();
+ bool test_context() const throw();
void failure(const status_t s) const throw() { _code.failure(s); }
Code & _code;
int _pre_context;
uint16 _rule_length;
instr * _instr;
byte * _data;
- const limits & _max;
+ limits & _max;
analysis _analysis;
+ enum passtype _passtype;
+ int _stack_depth;
+ bool _in_ctxt_item;
};
struct Machine::Code::decoder::limits
{
- const byte * const bytecode;
+ const byte * bytecode;
const uint8 pre_context;
const uint16 rule_length,
classes,
glyf_attrs,
features;
const byte attrid[gr_slatMax];
};
-inline Machine::Code::decoder::decoder(const limits & lims, Code &code) throw()
+inline Machine::Code::decoder::decoder(limits & lims, Code &code, enum passtype pt) throw()
: _code(code),
_pre_context(code._constraint ? 0 : lims.pre_context),
_rule_length(code._constraint ? 1 : lims.rule_length),
- _instr(code._code), _data(code._data), _max(lims)
+ _instr(code._code), _data(code._data), _max(lims), _passtype(pt),
+ _stack_depth(0),
+ _in_ctxt_item(false)
{ }
Machine::Code::Code(bool is_constraint, const byte * bytecode_begin, const byte * const bytecode_end,
- uint8 pre_context, uint16 rule_length, const Silf & silf, const Face & face)
+ uint8 pre_context, uint16 rule_length, const Silf & silf, const Face & face,
+ enum passtype pt, byte * * const _out)
: _code(0), _data(0), _data_size(0), _instr_count(0), _max_ref(0), _status(loaded),
- _constraint(is_constraint), _modify(false), _delete(false), _own(true)
+ _constraint(is_constraint), _modify(false), _delete(false), _own(_out==0)
{
#ifdef GRAPHITE2_TELEMETRY
telemetry::category _code_cat(face.tele.code);
#endif
assert(bytecode_begin != 0);
if (bytecode_begin == bytecode_end)
{
- ::new (this) Code();
+ // ::new (this) Code();
return;
}
assert(bytecode_end > bytecode_begin);
const opcode_t * op_to_fn = Machine::getOpcodeTable();
- // Allocate code and dat target buffers, these sizes are a worst case
+ // Allocate code and data target buffers, these sizes are a worst case
// estimate. Once we know their real sizes the we'll shrink them.
- _code = static_cast<instr *>(malloc((bytecode_end - bytecode_begin)
- * sizeof(instr)));
- _data = static_cast<byte *>(malloc((bytecode_end - bytecode_begin)
- * sizeof(byte)));
+ if (_out) _code = reinterpret_cast<instr *>(*_out);
+ else _code = static_cast<instr *>(malloc(estimateCodeDataOut(bytecode_end-bytecode_begin)));
+ _data = reinterpret_cast<byte *>(_code + (bytecode_end - bytecode_begin));
if (!_code || !_data) {
failure(alloc_failed);
return;
}
- const decoder::limits lims = {
+ decoder::limits lims = {
bytecode_end,
pre_context,
rule_length,
silf.numClasses(),
face.glyphs().numAttrs(),
face.numFeatures(),
{1,1,1,1,1,1,1,1,
1,1,1,1,1,1,1,255,
1,1,1,1,1,1,1,1,
1,1,1,1,1,1,0,0,
0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0, silf.numUser()}
};
- decoder dec(lims, *this);
+ decoder dec(lims, *this, pt);
if(!dec.load(bytecode_begin, bytecode_end))
return;
// Is this an empty program?
if (_instr_count == 0)
{
release_buffers();
::new (this) Code();
@@ -204,20 +211,25 @@ Machine::Code::Code(bool is_constraint,
assert((_constraint && immutable()) || !_constraint);
dec.apply_analysis(_code, _code + _instr_count);
_max_ref = dec.max_ref();
// Now we know exactly how much code and data the program really needs
// realloc the buffers to exactly the right size so we don't waste any
// memory.
- assert((bytecode_end - bytecode_begin) >= std::ptrdiff_t(_instr_count));
- assert((bytecode_end - bytecode_begin) >= std::ptrdiff_t(_data_size));
- _code = static_cast<instr *>(realloc(_code, (_instr_count+1)*sizeof(instr)));
- _data = static_cast<byte *>(realloc(_data, _data_size*sizeof(byte)));
+ assert((bytecode_end - bytecode_begin) >= ptrdiff_t(_instr_count));
+ assert((bytecode_end - bytecode_begin) >= ptrdiff_t(_data_size));
+ memmove(_code + (_instr_count+1), _data, _data_size*sizeof(byte));
+ size_t const total_sz = ((_instr_count+1) + (_data_size + sizeof(instr)-1)/sizeof(instr))*sizeof(instr);
+ if (_out)
+ *_out += total_sz;
+ else
+ _code = static_cast<instr *>(realloc(_code, total_sz));
+ _data = reinterpret_cast<byte *>(_code + (_instr_count+1));
if (!_code)
{
failure(alloc_failed);
return;
}
// Make this RET_ZERO, we should never reach this but just in case ...
@@ -232,16 +244,17 @@ Machine::Code::~Code() throw ()
{
if (_own)
release_buffers();
}
bool Machine::Code::decoder::load(const byte * bc, const byte * bc_end)
{
+ _max.bytecode = bc_end;
while (bc < bc_end)
{
const opcode opc = fetch_opcode(bc++);
if (opc == vm::MAX_OPCODE)
return false;
analyse_opcode(opc, reinterpret_cast<const int8 *>(bc));
@@ -261,141 +274,194 @@ opcode Machine::Code::decoder::fetch_opc
// Do some basic sanity checks based on what we know about the opcode
if (!validate_opcode(opc, bc)) return MAX_OPCODE;
// And check it's arguments as far as possible
switch (opc)
{
case NOP :
+ break;
case PUSH_BYTE :
case PUSH_BYTEU :
case PUSH_SHORT :
case PUSH_SHORTU :
case PUSH_LONG :
+ ++_stack_depth;
+ break;
case ADD :
case SUB :
case MUL :
case DIV :
case MIN_ :
case MAX_ :
- case NEG :
- case TRUNC8 :
- case TRUNC16 :
- case COND :
case AND :
case OR :
- case NOT :
case EQUAL :
case NOT_EQ :
case LESS :
case GTR :
case LESS_EQ :
case GTR_EQ :
+ case BITOR :
+ case BITAND :
+ if (--_stack_depth <= 0)
+ failure(underfull_stack);
+ break;
+ case NEG :
+ case TRUNC8 :
+ case TRUNC16 :
+ case NOT :
+ case BITNOT :
+ case BITSET :
+ if (_stack_depth <= 0)
+ failure(underfull_stack);
+ break;
+ case COND :
+ _stack_depth -= 2;
+ if (_stack_depth <= 0)
+ failure(underfull_stack);
break;
case NEXT :
case NEXT_N : // runtime checked
case COPY_NEXT :
+ test_context();
++_pre_context;
break;
case PUT_GLYPH_8BIT_OBS :
valid_upto(_max.classes, bc[0]);
+ test_context();
break;
case PUT_SUBS_8BIT_OBS :
valid_upto(_rule_length, _pre_context + int8(bc[0]));
valid_upto(_max.classes, bc[1]);
valid_upto(_max.classes, bc[2]);
+ test_context();
break;
case PUT_COPY :
valid_upto(_rule_length, _pre_context + int8(bc[0]));
+ test_context();
break;
case INSERT :
- --_pre_context;
+ if (_passtype >= PASS_TYPE_POSITIONING)
+ failure(invalid_opcode);
+ else
+ --_pre_context;
break;
case DELETE :
+ if (_passtype >= PASS_TYPE_POSITIONING)
+ failure(invalid_opcode);
+ test_context();
break;
case ASSOC :
for (uint8 num = bc[0]; num; --num)
valid_upto(_rule_length, _pre_context + int8(bc[num]));
+ test_context();
break;
case CNTXT_ITEM :
valid_upto(_max.rule_length, _max.pre_context + int8(bc[0]));
- if (bc + 2 + bc[1] >= _max.bytecode) failure(jump_past_end);
- if (_pre_context != 0) failure(nested_context_item);
+ if (bc + 2 + bc[1] >= _max.bytecode) failure(jump_past_end);
+ if (_in_ctxt_item) failure(nested_context_item);
break;
case ATTR_SET :
case ATTR_ADD :
case ATTR_SUB :
case ATTR_SET_SLOT :
+ if (--_stack_depth < 0)
+ failure(underfull_stack);
valid_upto(gr_slatMax, bc[0]);
+ test_context();
break;
case IATTR_SET_SLOT :
+ if (--_stack_depth < 0)
+ failure(underfull_stack);
if (valid_upto(gr_slatMax, bc[0]))
valid_upto(_max.attrid[bc[0]], bc[1]);
+ test_context();
break;
case PUSH_SLOT_ATTR :
+ ++_stack_depth;
valid_upto(gr_slatMax, bc[0]);
valid_upto(_rule_length, _pre_context + int8(bc[1]));
break;
case PUSH_GLYPH_ATTR_OBS :
+ ++_stack_depth;
valid_upto(_max.glyf_attrs, bc[0]);
valid_upto(_rule_length, _pre_context + int8(bc[1]));
break;
case PUSH_GLYPH_METRIC :
+ ++_stack_depth;
valid_upto(kgmetDescent, bc[0]);
valid_upto(_rule_length, _pre_context + int8(bc[1]));
// level: dp[2] no check necessary
break;
case PUSH_FEAT :
+ ++_stack_depth;
valid_upto(_max.features, bc[0]);
valid_upto(_rule_length, _pre_context + int8(bc[1]));
break;
case PUSH_ATT_TO_GATTR_OBS :
+ ++_stack_depth;
valid_upto(_max.glyf_attrs, bc[0]);
valid_upto(_rule_length, _pre_context + int8(bc[1]));
break;
case PUSH_ATT_TO_GLYPH_METRIC :
+ ++_stack_depth;
valid_upto(kgmetDescent, bc[0]);
valid_upto(_rule_length, _pre_context + int8(bc[1]));
// level: dp[2] no check necessary
break;
case PUSH_ISLOT_ATTR :
+ ++_stack_depth;
if (valid_upto(gr_slatMax, bc[0]))
{
valid_upto(_rule_length, _pre_context + int8(bc[1]));
valid_upto(_max.attrid[bc[0]], bc[2]);
}
break;
case PUSH_IGLYPH_ATTR :// not implemented
+ ++_stack_depth;
+ break;
case POP_RET :
+ if (--_stack_depth < 0)
+ failure(underfull_stack);
+ GR_FALLTHROUGH;
+ // no break
case RET_ZERO :
case RET_TRUE :
break;
case IATTR_SET :
case IATTR_ADD :
case IATTR_SUB :
+ if (--_stack_depth < 0)
+ failure(underfull_stack);
if (valid_upto(gr_slatMax, bc[0]))
valid_upto(_max.attrid[bc[0]], bc[1]);
+ test_context();
break;
case PUSH_PROC_STATE : // dummy: dp[0] no check necessary
case PUSH_VERSION :
+ ++_stack_depth;
break;
case PUT_SUBS :
valid_upto(_rule_length, _pre_context + int8(bc[0]));
valid_upto(_max.classes, uint16(bc[1]<< 8) | bc[2]);
valid_upto(_max.classes, uint16(bc[3]<< 8) | bc[4]);
+ test_context();
break;
case PUT_SUBS2 : // not implemented
case PUT_SUBS3 : // not implemented
break;
case PUT_GLYPH :
valid_upto(_max.classes, uint16(bc[0]<< 8) | bc[1]);
+ test_context();
break;
case PUSH_GLYPH_ATTR :
case PUSH_ATT_TO_GLYPH_ATTR :
+ ++_stack_depth;
valid_upto(_max.glyf_attrs, uint16(bc[0]<< 8) | bc[1]);
valid_upto(_rule_length, _pre_context + int8(bc[2]));
break;
default:
failure(invalid_opcode);
break;
}
@@ -410,62 +476,77 @@ void Machine::Code::decoder::analyse_opc
switch (opc)
{
case DELETE :
_code._delete = true;
break;
case PUT_GLYPH_8BIT_OBS :
case PUT_GLYPH :
_code._modify = true;
- _analysis.set_changed(_analysis.slotref);
+ _analysis.set_changed(0);
+ break;
+ case ATTR_SET :
+ case ATTR_ADD :
+ case ATTR_SET_SLOT :
+ case IATTR_SET_SLOT :
+ case IATTR_SET :
+ case IATTR_ADD :
+ case IATTR_SUB :
+ _analysis.set_noref(0);
break;
case NEXT :
case COPY_NEXT :
if (!_analysis.contexts[_analysis.slotref].flags.inserted)
++_analysis.slotref;
_analysis.contexts[_analysis.slotref] = context(_code._instr_count+1);
- if (_analysis.slotref > _analysis.max_ref) _analysis.max_ref = _analysis.slotref;
+ // if (_analysis.slotref > _analysis.max_ref) _analysis.max_ref = _analysis.slotref;
break;
case INSERT :
_analysis.contexts[_analysis.slotref].flags.inserted = true;
_code._modify = true;
break;
case PUT_SUBS_8BIT_OBS : // slotref on 1st parameter
case PUT_SUBS :
_code._modify = true;
- _analysis.set_changed(_analysis.slotref);
+ _analysis.set_changed(0);
+ GR_FALLTHROUGH;
// no break
case PUT_COPY :
{
- if (arg[0] != 0) { _analysis.set_changed(_analysis.slotref); _code._modify = true; }
+ if (arg[0] != 0) { _analysis.set_changed(0); _code._modify = true; }
if (arg[0] <= 0 && -arg[0] <= _analysis.slotref - _analysis.contexts[_analysis.slotref].flags.inserted)
- _analysis.set_ref(_analysis.slotref + arg[0] - _analysis.contexts[_analysis.slotref].flags.inserted);
- else if (_analysis.slotref + arg[0] > _analysis.max_ref) _analysis.max_ref = _analysis.slotref + arg[0];
+ _analysis.set_ref(arg[0], true);
+ else if (arg[0] > 0)
+ _analysis.set_ref(arg[0], true);
break;
}
case PUSH_ATT_TO_GATTR_OBS : // slotref on 2nd parameter
if (_code._constraint) return;
+ GR_FALLTHROUGH;
// no break
case PUSH_GLYPH_ATTR_OBS :
case PUSH_SLOT_ATTR :
case PUSH_GLYPH_METRIC :
case PUSH_ATT_TO_GLYPH_METRIC :
case PUSH_ISLOT_ATTR :
case PUSH_FEAT :
if (arg[1] <= 0 && -arg[1] <= _analysis.slotref - _analysis.contexts[_analysis.slotref].flags.inserted)
- _analysis.set_ref(_analysis.slotref + arg[1] - _analysis.contexts[_analysis.slotref].flags.inserted);
- else if (_analysis.slotref + arg[1] > _analysis.max_ref) _analysis.max_ref = _analysis.slotref + arg[1];
+ _analysis.set_ref(arg[1], true);
+ else if (arg[1] > 0)
+ _analysis.set_ref(arg[1], true);
break;
case PUSH_ATT_TO_GLYPH_ATTR :
if (_code._constraint) return;
+ GR_FALLTHROUGH;
// no break
case PUSH_GLYPH_ATTR :
if (arg[2] <= 0 && -arg[2] <= _analysis.slotref - _analysis.contexts[_analysis.slotref].flags.inserted)
- _analysis.set_ref(_analysis.slotref + arg[2] - _analysis.contexts[_analysis.slotref].flags.inserted);
- else if (_analysis.slotref + arg[2] > _analysis.max_ref) _analysis.max_ref = _analysis.slotref + arg[2];
+ _analysis.set_ref(arg[2], true);
+ else if (arg[2] > 0)
+ _analysis.set_ref(arg[2], true);
break;
case ASSOC : // slotrefs in varargs
break;
default:
break;
}
}
@@ -494,32 +575,41 @@ bool Machine::Code::decoder::emit_opcode
_code._data_size += param_sz;
}
// recursively decode a context item so we can split the skip into
// instruction and data portions.
if (opc == CNTXT_ITEM)
{
assert(_pre_context == 0);
+ _in_ctxt_item = true;
_pre_context = _max.pre_context + int8(_data[-2]);
_rule_length = _max.rule_length;
const size_t ctxt_start = _code._instr_count;
byte & instr_skip = _data[-1];
byte & data_skip = *_data++;
++_code._data_size;
+ const byte *curr_end = _max.bytecode;
if (load(bc, bc + instr_skip))
{
bc += instr_skip;
data_skip = instr_skip - (_code._instr_count - ctxt_start);
instr_skip = _code._instr_count - ctxt_start;
+ _max.bytecode = curr_end;
_rule_length = 1;
_pre_context = 0;
+ _in_ctxt_item = false;
+ }
+ else
+ {
+ _pre_context = 0;
+ return false;
}
}
return bool(_code);
}
void Machine::Code::decoder::apply_analysis(instr * const code, instr * code_end)
@@ -533,87 +623,115 @@ void Machine::Code::decoder::apply_analy
{
if (!c->flags.referenced || !c->flags.changed) continue;
instr * const tip = code + c->codeRef + tempcount;
memmove(tip+1, tip, (code_end - tip) * sizeof(instr));
*tip = temp_copy;
++code_end;
++tempcount;
+ _code._delete = true;
}
_code._instr_count = code_end - code;
}
inline
bool Machine::Code::decoder::validate_opcode(const opcode opc, const byte * const bc)
{
if (opc >= MAX_OPCODE)
{
failure(invalid_opcode);
return false;
}
const opcode_t & op = Machine::getOpcodeTable()[opc];
+ if (op.param_sz == VARARGS && bc >= _max.bytecode)
+ {
+ failure(arguments_exhausted);
+ return false;
+ }
const size_t param_sz = op.param_sz == VARARGS ? bc[0] + 1 : op.param_sz;
- if (bc + param_sz > _max.bytecode)
+ if (bc - 1 + param_sz >= _max.bytecode)
{
failure(arguments_exhausted);
return false;
}
return true;
}
bool Machine::Code::decoder::valid_upto(const uint16 limit, const uint16 x) const throw()
{
const bool t = x < limit;
if (!t) failure(out_of_range_data);
return t;
}
+bool Machine::Code::decoder::test_context() const throw()
+{
+ if (_pre_context >= _rule_length)
+ {
+ failure(out_of_range_data);
+ return false;
+ }
+ return true;
+}
inline
void Machine::Code::failure(const status_t s) throw() {
release_buffers();
_status = s;
}
inline
-void Machine::Code::decoder::analysis::set_ref(const int index) throw() {
- contexts[index].flags.referenced = true;
- if (index > max_ref) max_ref = index;
+void Machine::Code::decoder::analysis::set_ref(int index, bool incinsert) throw() {
+ if (incinsert && contexts[slotref].flags.inserted) --index;
+ if (index + slotref < 0) return;
+ contexts[index + slotref].flags.referenced = true;
+ if ((index > 0 || !contexts[index + slotref].flags.inserted) && index + slotref > max_ref) max_ref = index + slotref;
}
inline
-void Machine::Code::decoder::analysis::set_changed(const int index) throw() {
- contexts[index].flags.changed = true;
- if (index > max_ref) max_ref = index;
+void Machine::Code::decoder::analysis::set_noref(int index) throw() {
+ if (contexts[slotref].flags.inserted) --index;
+ if (index + slotref < 0) return;
+ if ((index > 0 || !contexts[index + slotref].flags.inserted) && index + slotref > max_ref) max_ref = index + slotref;
+}
+
+
+inline
+void Machine::Code::decoder::analysis::set_changed(int index) throw() {
+ if (contexts[slotref].flags.inserted) --index;
+ if (index + slotref < 0) return;
+ contexts[index + slotref].flags.changed = true;
+ if ((index > 0 || !contexts[index + slotref].flags.inserted) && index + slotref > max_ref) max_ref = index + slotref;
}
void Machine::Code::release_buffers() throw()
{
- free(_code);
- free(_data);
+ if (_own)
+ free(_code);
_code = 0;
_data = 0;
_own = false;
}
int32 Machine::Code::run(Machine & m, slotref * & map) const
{
- assert(_own);
+// assert(_own);
assert(*this); // Check we are actually runnable
- if (m.slotMap().size() <= size_t(_max_ref + m.slotMap().context()))
+ if (m.slotMap().size() <= size_t(_max_ref + m.slotMap().context())
+ || m.slotMap()[_max_ref + m.slotMap().context()] == 0)
{
m._status = Machine::slot_offset_out_bounds;
-// return (m.slotMap().end() - map);
return 1;
+// return m.run(_code, _data, map);
}
return m.run(_code, _data, map);
}
diff --git a/gfx/graphite2/src/Collider.cpp b/gfx/graphite2/src/Collider.cpp
new file mode 100644
--- /dev/null
+++ b/gfx/graphite2/src/Collider.cpp
@@ -0,0 +1,1088 @@
+/* GRAPHITE2 LICENSING
+
+ Copyright 2010, SIL International
+ All rights reserved.
+
+ This library is free software; you can redistribute it and/or modify
+ it under the terms of the GNU Lesser General Public License as published
+ by the Free Software Foundation; either version 2.1 of License, or
+ (at your option) any later version.
+
+ This program 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
+ Lesser General Public License for more details.
+
+ You should also have received a copy of the GNU Lesser General Public
+ License along with this library in the file named "LICENSE".
+ If not, write to the Free Software Foundation, 51 Franklin Street,
+ Suite 500, Boston, MA 02110-1335, USA or visit their web page on the
+ internet at http://www.fsf.org/licenses/lgpl.html.
+
+Alternatively, the contents of this file may be used under the terms of the
+Mozilla Public License (http://mozilla.org/MPL) or the GNU General Public
+License, as published by the Free Software Foundation, either version 2
+of the License or (at your option) any later version.
+*/
+#include <algorithm>
+#include <limits>
+#include <math.h>
+#include <string>
+#include <functional>
+#include "inc/Collider.h"
+#include "inc/Segment.h"
+#include "inc/Slot.h"
+#include "inc/GlyphCache.h"
+#include "inc/Sparse.h"
+
+#define ISQRT2 0.707106781f
+
+// Possible rounding error for subbox boundaries: 0.016 = 1/64 = 1/256 * 4
+// (values in font range from 0..256)
+// #define SUBBOX_RND_ERR 0.016
+
+using namespace graphite2;
+
+//// SHIFT-COLLIDER ////
+
+// Initialize the Collider to hold the basic movement limits for the
+// target slot, the one we are focusing on fixing.
+bool ShiftCollider::initSlot(Segment *seg, Slot *aSlot, const Rect &limit, float margin, float marginWeight,
+ const Position &currShift, const Position &currOffset, int dir, GR_MAYBE_UNUSED json * const dbgout)
+{
+ int i;
+ float mx, mn;
+ float a, shift;
+ const GlyphCache &gc = seg->getFace()->glyphs();
+ unsigned short gid = aSlot->gid();
+ if (!gc.check(gid))
+ return false;
+ const BBox &bb = gc.getBoundingBBox(gid);
+ const SlantBox &sb = gc.getBoundingSlantBox(gid);
+ //float sx = aSlot->origin().x + currShift.x;
+ //float sy = aSlot->origin().y + currShift.y;
+ if (currOffset.x != 0.f || currOffset.y != 0.f)
+ _limit = Rect(limit.bl - currOffset, limit.tr - currOffset);
+ else
+ _limit = limit;
+ // For a ShiftCollider, these indices indicate which vector we are moving by:
+ // each _ranges represents absolute space with respect to the origin of the slot. Thus take into account true origins but subtract the vmin for the slot
+ for (i = 0; i < 4; ++i)
+ {
+ switch (i) {
+ case 0 : // x direction
+ mn = _limit.bl.x + currOffset.x;
+ mx = _limit.tr.x + currOffset.x;
+ _len[i] = bb.xa - bb.xi;
+ a = currOffset.y + currShift.y;
+ _ranges[i].initialise<XY>(mn, mx, margin, marginWeight, a);
+ break;
+ case 1 : // y direction
+ mn = _limit.bl.y + currOffset.y;
+ mx = _limit.tr.y + currOffset.y;
+ _len[i] = bb.ya - bb.yi;
+ a = currOffset.x + currShift.x;
+ _ranges[i].initialise<XY>(mn, mx, margin, marginWeight, a);
+ break;
+ case 2 : // sum (negatively sloped diagonal boundaries)
+ // pick closest x,y limit boundaries in s direction
+ shift = currOffset.x + currOffset.y + currShift.x + currShift.y;
+ mn = -2 * min(currShift.x - _limit.bl.x, currShift.y - _limit.bl.y) + shift;
+ mx = 2 * min(_limit.tr.x - currShift.x, _limit.tr.y - currShift.y) + shift;
+ _len[i] = sb.sa - sb.si;
+ a = currOffset.x - currOffset.y + currShift.x - currShift.y;
+ _ranges[i].initialise<SD>(mn, mx, margin / ISQRT2, marginWeight, a);
+ break;
+ case 3 : // diff (positively sloped diagonal boundaries)
+ // pick closest x,y limit boundaries in d direction
+ shift = currOffset.x - currOffset.y + currShift.x - currShift.y;
+ mn = -2 * min(currShift.x - _limit.bl.x, _limit.tr.y - currShift.y) + shift;
+ mx = 2 * min(_limit.tr.x - currShift.x, currShift.y - _limit.bl.y) + shift;
+ _len[i] = sb.da - sb.di;
+ a = currOffset.x + currOffset.y + currShift.x + currShift.y;
+ _ranges[i].initialise<SD>(mn, mx, margin / ISQRT2, marginWeight, a);
+ break;
+ }
+ }
+
+ _target = aSlot;
+ if ((dir & 1) == 0)
+ {
+ // For LTR, switch and negate x limits.
+ _limit.bl.x = -1 * limit.tr.x;
+ //_limit.tr.x = -1 * limit.bl.x;
+ }
+ _currOffset = currOffset;
+ _currShift = currShift;
+ _origin = aSlot->origin() - currOffset; // the original anchor position of the glyph
+
+ _margin = margin;
+ _marginWt = marginWeight;
+
+ SlotCollision *c = seg->collisionInfo(aSlot);
+ _seqClass = c->seqClass();
+ _seqProxClass = c->seqProxClass();
+ _seqOrder = c->seqOrder();
+ return true;
+}
+
+template <class O>
+float sdm(float vi, float va, float mx, float my, O op)
+{
+ float res = 2 * mx - vi;
+ if (op(res, vi + 2 * my))
+ {
+ res = va + 2 * my;
+ if (op(res, 2 * mx - va))
+ res = mx + my;
+ }
+ return res;
+}
+
+// Mark an area with a cost that can vary along the x or y axis. The region is expressed in terms of the centre of the target glyph in each axis
+void ShiftCollider::addBox_slope(bool isx, const Rect &box, const BBox &bb, const SlantBox &sb, const Position &org, float weight, float m, bool minright, int axis)
+{
+ float a, c;
+ switch (axis) {
+ case 0 :
+ if (box.bl.y < org.y + bb.ya && box.tr.y > org.y + bb.yi && box.width() > 0)
+ {
+ a = org.y + 0.5f * (bb.yi + bb.ya);
+ c = 0.5f * (bb.xi + bb.xa);
+ if (isx)
+ _ranges[axis].weighted<XY>(box.bl.x - c, box.tr.x - c, weight, a, m,
+ (minright ? box.tr.x : box.bl.x) - c, a, 0, false);
+ else
+ _ranges[axis].weighted<XY>(box.bl.x - c, box.tr.x - c, weight, a, 0, 0, org.y,
+ m * (a * a + sqr((minright ? box.tr.y : box.bl.y) - 0.5f * (bb.yi + bb.ya))), false);
+ }
+ break;
+ case 1 :
+ if (box.bl.x < org.x + bb.xa && box.tr.x > org.x + bb.xi && box.height() > 0)
+ {
+ a = org.x + 0.5f * (bb.xi + bb.xa);
+ c = 0.5f * (bb.yi + bb.ya);
+ if (isx)
+ _ranges[axis].weighted<XY>(box.bl.y - c, box.tr.y - c, weight, a, 0, 0, org.x,
+ m * (a * a + sqr((minright ? box.tr.x : box.bl.x) - 0.5f * (bb.xi + bb.xa))), false);
+ else
+ _ranges[axis].weighted<XY>(box.bl.y - c, box.tr.y - c, weight, a, m,
+ (minright ? box.tr.y : box.bl.y) - c, a, 0, false);
+ }
+ break;
+ case 2 :
+ if (box.bl.x - box.tr.y < org.x - org.y + sb.da && box.tr.x - box.bl.y > org.x - org.y + sb.di)
+ {
+ float d = org.x - org.y + 0.5f * (sb.di + sb.da);
+ c = 0.5f * (sb.si + sb.sa);
+ float smax = min(2 * box.tr.x - d, 2 * box.tr.y + d);
+ float smin = max(2 * box.bl.x - d, 2 * box.bl.y + d);
+ if (smin > smax) return;
+ float si;
+ a = d;
+ if (isx)
+ si = 2 * (minright ? box.tr.x : box.bl.x) - a;
+ else
+ si = 2 * (minright ? box.tr.y : box.bl.y) + a;
+ _ranges[axis].weighted<SD>(smin - c, smax - c, weight / 2, a, m / 2, si, 0, 0, isx);
+ }
+ break;
+ case 3 :
+ if (box.bl.x + box.bl.y < org.x + org.y + sb.sa && box.tr.x + box.tr.y > org.x + org.y + sb.si)
+ {
+ float s = org.x + org.y + 0.5f * (sb.si + sb.sa);
+ c = 0.5f * (sb.di + sb.da);
+ float dmax = min(2 * box.tr.x - s, s - 2 * box.bl.y);
+ float dmin = max(2 * box.bl.x - s, s - 2 * box.tr.y);
+ if (dmin > dmax) return;
+ float di;
+ a = s;
+ if (isx)
+ di = 2 * (minright ? box.tr.x : box.bl.x) - a;
+ else
+ di = 2 * (minright ? box.tr.y : box.bl.y) + a;
+ _ranges[axis].weighted<SD>(dmin - c, dmax - c, weight / 2, a, m / 2, di, 0, 0, !isx);
+ }
+ break;
+ default :
+ break;
+ }
+ return;
+}
+
+// Mark an area with an absolute cost, making it completely inaccessible.
+inline void ShiftCollider::removeBox(const Rect &box, const BBox &bb, const SlantBox &sb, const Position &org, int axis)
+{
+ float c;
+ switch (axis) {
+ case 0 :
+ if (box.bl.y < org.y + bb.ya && box.tr.y > org.y + bb.yi && box.width() > 0)
+ {
+ c = 0.5f * (bb.xi + bb.xa);
+ _ranges[axis].exclude(box.bl.x - c, box.tr.x - c);
+ }
+ break;
+ case 1 :
+ if (box.bl.x < org.x + bb.xa && box.tr.x > org.x + bb.xi && box.height() > 0)
+ {
+ c = 0.5f * (bb.yi + bb.ya);
+ _ranges[axis].exclude(box.bl.y - c, box.tr.y - c);
+ }
+ break;
+ case 2 :
+ if (box.bl.x - box.tr.y < org.x - org.y + sb.da && box.tr.x - box.bl.y > org.x - org.y + sb.di
+ && box.width() > 0 && box.height() > 0)
+ {
+ float di = org.x - org.y + sb.di;
+ float da = org.x - org.y + sb.da;
+ float smax = sdm(di, da, box.tr.x, box.tr.y, std::greater<float>());
+ float smin = sdm(da, di, box.bl.x, box.bl.y, std::less<float>());
+ c = 0.5f * (sb.si + sb.sa);
+ _ranges[axis].exclude(smin - c, smax - c);
+ }
+ break;
+ case 3 :
+ if (box.bl.x + box.bl.y < org.x + org.y + sb.sa && box.tr.x + box.tr.y > org.x + org.y + sb.si
+ && box.width() > 0 && box.height() > 0)
+ {
+ float si = org.x + org.y + sb.si;
+ float sa = org.x + org.y + sb.sa;
+ float dmax = sdm(si, sa, box.tr.x, -box.bl.y, std::greater<float>());
+ float dmin = sdm(sa, si, box.bl.x, -box.tr.y, std::less<float>());
+ c = 0.5f * (sb.di + sb.da);
+ _ranges[axis].exclude(dmin - c, dmax - c);
+ }
+ break;
+ default :
+ break;
+ }
+ return;
+}
+
+// Adjust the movement limits for the target to avoid having it collide
+// with the given neighbor slot. Also determine if there is in fact a collision
+// between the target and the given slot.
+bool ShiftCollider::mergeSlot(Segment *seg, Slot *slot, const Position &currShift,
+ bool isAfter, // slot is logically after _target
+ bool sameCluster, bool &hasCol, bool isExclusion,
+ GR_MAYBE_UNUSED json * const dbgout )
+{
+ bool isCol = false;
+ const float sx = slot->origin().x - _origin.x + currShift.x;
+ const float sy = slot->origin().y - _origin.y + currShift.y;
+ const float sd = sx - sy;
+ const float ss = sx + sy;
+ float vmin, vmax;
+ float omin, omax, otmin, otmax;
+ float cmin, cmax; // target limits
+ float torg;
+ const GlyphCache &gc = seg->getFace()->glyphs();
+ const unsigned short gid = slot->gid();
+ if (!gc.check(gid))
+ return false;
+ const BBox &bb = gc.getBoundingBBox(gid);
+
+ SlotCollision * cslot = seg->collisionInfo(slot);
+ int orderFlags = 0;
+ bool sameClass = _seqProxClass == 0 && cslot->seqClass() == _seqClass;
+ if (sameCluster && _seqClass
+ && (sameClass || (_seqProxClass != 0 && cslot->seqClass() == _seqProxClass)))
+ // Force the target glyph to be in the specified direction from the slot we're testing.
+ orderFlags = _seqOrder;
+
+ // short circuit if only interested in direct collision and we are out of range
+ if (orderFlags || (sx + bb.xa + _margin >= _limit.bl.x && sx + bb.xi - _margin <= _limit.tr.x)
+ || (sy + bb.ya + _margin >= _limit.bl.y && sy + bb.yi - _margin <= _limit.tr.y))
+
+ {
+ const float tx = _currOffset.x + _currShift.x;
+ const float ty = _currOffset.y + _currShift.y;
+ const float td = tx - ty;
+ const float ts = tx + ty;
+ const SlantBox &sb = gc.getBoundingSlantBox(gid);
+ const unsigned short tgid = _target->gid();
+ const BBox &tbb = gc.getBoundingBBox(tgid);
+ const SlantBox &tsb = gc.getBoundingSlantBox(tgid);
+ float seq_above_wt = cslot->seqAboveWt();
+ float seq_below_wt = cslot->seqBelowWt();
+ float seq_valign_wt = cslot->seqValignWt();
+ // if isAfter, invert orderFlags for diagonal orders.
+ if (isAfter)
+ {
+ // invert appropriate bits
+ orderFlags ^= (sameClass ? 0x3F : 0x3);
+ // consider 2 bits at a time, non overlapping. If both bits set, clear them
+ orderFlags = orderFlags ^ ((((orderFlags >> 1) & orderFlags) & 0x15) * 3);
+ }
+
+#if !defined GRAPHITE2_NTRACING
+ if (dbgout)
+ dbgout->setenv(0, slot);
+#endif
+
+ // Process main bounding octabox.
+ for (int i = 0; i < 4; ++i)
+ {
+ switch (i) {
+ case 0 : // x direction
+ vmin = max(max(bb.xi - tbb.xa + sx, sb.di - tsb.da + ty + sd), sb.si - tsb.sa - ty + ss);
+ vmax = min(min(bb.xa - tbb.xi + sx, sb.da - tsb.di + ty + sd), sb.sa - tsb.si - ty + ss);
+ otmin = tbb.yi + ty;
+ otmax = tbb.ya + ty;
+ omin = bb.yi + sy;
+ omax = bb.ya + sy;
+ torg = _currOffset.x;
+ cmin = _limit.bl.x + torg;
+ cmax = _limit.tr.x - tbb.xi + tbb.xa + torg;
+ break;
+ case 1 : // y direction
+ vmin = max(max(bb.yi - tbb.ya + sy, tsb.di - sb.da + tx - sd), sb.si - tsb.sa - tx + ss);
+ vmax = min(min(bb.ya - tbb.yi + sy, tsb.da - sb.di + tx - sd), sb.sa - tsb.si - tx + ss);
+ otmin = tbb.xi + tx;
+ otmax = tbb.xa + tx;
+ omin = bb.xi + sx;
+ omax = bb.xa + sx;
+ torg = _currOffset.y;
+ cmin = _limit.bl.y + torg;
+ cmax = _limit.tr.y - tbb.yi + tbb.ya + torg;
+ break;
+ case 2 : // sum - moving along the positively-sloped vector, so the boundaries are the
+ // negatively-sloped boundaries.
+ vmin = max(max(sb.si - tsb.sa + ss, 2 * (bb.yi - tbb.ya + sy) + td), 2 * (bb.xi - tbb.xa + sx) - td);
+ vmax = min(min(sb.sa - tsb.si + ss, 2 * (bb.ya - tbb.yi + sy) + td), 2 * (bb.xa - tbb.xi + sx) - td);
+ otmin = tsb.di + td;
+ otmax = tsb.da + td;
+ omin = sb.di + sd;
+ omax = sb.da + sd;
+ torg = _currOffset.x + _currOffset.y;
+ cmin = _limit.bl.x + _limit.bl.y + torg;
+ cmax = _limit.tr.x + _limit.tr.y - tsb.si + tsb.sa + torg;
+ break;
+ case 3 : // diff - moving along the negatively-sloped vector, so the boundaries are the
+ // positively-sloped boundaries.
+ vmin = max(max(sb.di - tsb.da + sd, 2 * (bb.xi - tbb.xa + sx) - ts), -2 * (bb.ya - tbb.yi + sy) + ts);
+ vmax = min(min(sb.da - tsb.di + sd, 2 * (bb.xa - tbb.xi + sx) - ts), -2 * (bb.yi - tbb.ya + sy) + ts);
+ otmin = tsb.si + ts;
+ otmax = tsb.sa + ts;
+ omin = sb.si + ss;
+ omax = sb.sa + ss;
+ torg = _currOffset.x - _currOffset.y;
+ cmin = _limit.bl.x - _limit.tr.y + torg;
+ cmax = _limit.tr.x - _limit.bl.y - tsb.di + tsb.da + torg;
+ break;
+ default :
+ continue;
+ }
+
+#if !defined GRAPHITE2_NTRACING
+ if (dbgout)
+ dbgout->setenv(1, reinterpret_cast<void *>(-1));
+#define DBGTAG(x) if (dbgout) dbgout->setenv(1, reinterpret_cast<void *>(-x));
+#else
+#define DBGTAG(x)
+#endif
+
+ if (orderFlags)
+ {
+ Position org(tx, ty);
+ float xminf = _limit.bl.x + _currOffset.x + tbb.xi;
+ float xpinf = _limit.tr.x + _currOffset.x + tbb.xa;
+ float ypinf = _limit.tr.y + _currOffset.y + tbb.ya;
+ float yminf = _limit.bl.y + _currOffset.y + tbb.yi;
+ switch (orderFlags) {
+ case SlotCollision::SEQ_ORDER_RIGHTUP :
+ {
+ float r1Xedge = cslot->seqAboveXoff() + 0.5f * (bb.xi + bb.xa) + sx;
+ float r3Xedge = cslot->seqBelowXlim() + bb.xa + sx + 0.5f * (tbb.xa - tbb.xi);
+ float r2Yedge = 0.5f * (bb.yi + bb.ya) + sy;
+
+ // DBGTAG(1x) means the regions are up and right
+ // region 1
+ DBGTAG(11)
+ addBox_slope(true, Rect(Position(xminf, r2Yedge), Position(r1Xedge, ypinf)),
+ tbb, tsb, org, 0, seq_above_wt, true, i);
+ // region 2
+ DBGTAG(12)
+ removeBox(Rect(Position(xminf, yminf), Position(r3Xedge, r2Yedge)), tbb, tsb, org, i);
+ // region 3, which end is zero is irrelevant since m weight is 0
+ DBGTAG(13)
+ addBox_slope(true, Rect(Position(r3Xedge, yminf), Position(xpinf, r2Yedge - cslot->seqValignHt())),
+ tbb, tsb, org, seq_below_wt, 0, true, i);
+ // region 4
+ DBGTAG(14)
+ addBox_slope(false, Rect(Position(sx + bb.xi, r2Yedge), Position(xpinf, r2Yedge + cslot->seqValignHt())),
+ tbb, tsb, org, 0, seq_valign_wt, true, i);
+ // region 5
+ DBGTAG(15)
+ addBox_slope(false, Rect(Position(sx + bb.xi, r2Yedge - cslot->seqValignHt()), Position(xpinf, r2Yedge)),
+ tbb, tsb, org, seq_below_wt, seq_valign_wt, false, i);
+ break;
+ }
+ case SlotCollision::SEQ_ORDER_LEFTDOWN :
+ {
+ float r1Xedge = 0.5f * (bb.xi + bb.xa) + cslot->seqAboveXoff() + sx;
+ float r3Xedge = bb.xi - cslot->seqBelowXlim() + sx - 0.5f * (tbb.xa - tbb.xi);
+ float r2Yedge = 0.5f * (bb.yi + bb.ya) + sy;
+ // DBGTAG(2x) means the regions are up and right
+ // region 1
+ DBGTAG(21)
+ addBox_slope(true, Rect(Position(r1Xedge, yminf), Position(xpinf, r2Yedge)),
+ tbb, tsb, org, 0, seq_above_wt, false, i);
+ // region 2
+ DBGTAG(22)
+ removeBox(Rect(Position(r3Xedge, r2Yedge), Position(xpinf, ypinf)), tbb, tsb, org, i);
+ // region 3
+ DBGTAG(23)
+ addBox_slope(true, Rect(Position(xminf, r2Yedge - cslot->seqValignHt()), Position(r3Xedge, ypinf)),
+ tbb, tsb, org, seq_below_wt, 0, false, i);
+ // region 4
+ DBGTAG(24)
+ addBox_slope(false, Rect(Position(xminf, r2Yedge), Position(sx + bb.xa, r2Yedge + cslot->seqValignHt())),
+ tbb, tsb, org, 0, seq_valign_wt, true, i);
+ // region 5
+ DBGTAG(25)
+ addBox_slope(false, Rect(Position(xminf, r2Yedge - cslot->seqValignHt()),
+ Position(sx + bb.xa, r2Yedge)), tbb, tsb, org, seq_below_wt, seq_valign_wt, false, i);
+ break;
+ }
+ case SlotCollision::SEQ_ORDER_NOABOVE : // enforce neighboring glyph being above
+ DBGTAG(31);
+ removeBox(Rect(Position(bb.xi - tbb.xa + sx, sy + bb.ya),
+ Position(bb.xa - tbb.xi + sx, ypinf)), tbb, tsb, org, i);
+ break;
+ case SlotCollision::SEQ_ORDER_NOBELOW : // enforce neighboring glyph being below
+ DBGTAG(32);
+ removeBox(Rect(Position(bb.xi - tbb.xa + sx, yminf),
+ Position(bb.xa - tbb.xi + sx, sy + bb.yi)), tbb, tsb, org, i);
+ break;
+ case SlotCollision::SEQ_ORDER_NOLEFT : // enforce neighboring glyph being to the left
+ DBGTAG(33)
+ removeBox(Rect(Position(xminf, bb.yi - tbb.ya + sy),
+ Position(bb.xi - tbb.xa + sx, bb.ya - tbb.yi + sy)), tbb, tsb, org, i);
+ break;
+ case SlotCollision::SEQ_ORDER_NORIGHT : // enforce neighboring glyph being to the right
+ DBGTAG(34)
+ removeBox(Rect(Position(bb.xa - tbb.xi + sx, bb.yi - tbb.ya + sy),
+ Position(xpinf, bb.ya - tbb.yi + sy)), tbb, tsb, org, i);
+ break;
+ default :
+ break;
+ }
+ }
+
+ if (vmax < cmin - _margin || vmin > cmax + _margin || omax < otmin - _margin || omin > otmax + _margin)
+ continue;
+
+ // Process sub-boxes that are defined for this glyph.
+ // We only need to do this if there was in fact a collision with the main octabox.
+ uint8 numsub = gc.numSubBounds(gid);
+ if (numsub > 0)
+ {
+ bool anyhits = false;
+ for (int j = 0; j < numsub; ++j)
+ {
+ const BBox &sbb = gc.getSubBoundingBBox(gid, j);
+ const SlantBox &ssb = gc.getSubBoundingSlantBox(gid, j);
+ switch (i) {
+ case 0 : // x
+ vmin = max(max(sbb.xi-tbb.xa+sx, ssb.di-tsb.da+sd+ty), ssb.si-tsb.sa+ss-ty);
+ vmax = min(min(sbb.xa-tbb.xi+sx, ssb.da-tsb.di+sd+ty), ssb.sa-tsb.si+ss-ty);
+ omin = sbb.yi + sy;
+ omax = sbb.ya + sy;
+ break;
+ case 1 : // y
+ vmin = max(max(sbb.yi-tbb.ya+sy, tsb.di-ssb.da-sd+tx), ssb.si-tsb.sa+ss-tx);
+ vmax = min(min(sbb.ya-tbb.yi+sy, tsb.da-ssb.di-sd+tx), ssb.sa-tsb.si+ss-tx);
+ omin = sbb.xi + sx;
+ omax = sbb.xa + sx;
+ break;
+ case 2 : // sum
+ vmin = max(max(ssb.si-tsb.sa+ss, 2*(sbb.yi-tbb.ya+sy)+td), 2*(sbb.xi-tbb.xa+sx)-td);
+ vmax = min(min(ssb.sa-tsb.si+ss, 2*(sbb.ya-tbb.yi+sy)+td), 2*(sbb.xa-tbb.xi+sx)-td);
+ omin = ssb.di + sd;
+ omax = ssb.da + sd;
+ break;
+ case 3 : // diff
+ vmin = max(max(ssb.di-tsb.da+sd, 2*(sbb.xi-tbb.xa+sx)-ts), -2*(sbb.ya-tbb.yi+sy)+ts);
+ vmax = min(min(ssb.da-tsb.di+sd, 2*(sbb.xa-tbb.xi+sx)-ts), -2*(sbb.yi-tbb.ya+sy)+ts);
+ omin = ssb.si + ss;
+ omax = ssb.sa + ss;
+ break;
+ }
+ if (vmax < cmin - _margin || vmin > cmax + _margin || omax < otmin - _margin || omin > otmax + _margin)
+ continue;
+
+#if !defined GRAPHITE2_NTRACING
+ if (dbgout)
+ dbgout->setenv(1, reinterpret_cast<void *>(j));
+#endif
+ if (omin > otmax)
+ _ranges[i].weightedAxis(i, vmin - _margin, vmax + _margin, 0, 0, 0, 0, 0,
+ sqr(_margin - omin + otmax) * _marginWt, false);
+ else if (omax < otmin)
+ _ranges[i].weightedAxis(i, vmin - _margin, vmax + _margin, 0, 0, 0, 0, 0,
+ sqr(_margin - otmin + omax) * _marginWt, false);
+ else
+ _ranges[i].exclude_with_margins(vmin, vmax, i);
+ anyhits = true;
+ }
+ if (anyhits)
+ isCol = true;
+ }
+ else // no sub-boxes
+ {
+#if !defined GRAPHITE2_NTRACING
+ if (dbgout)
+ dbgout->setenv(1, reinterpret_cast<void *>(-1));
+#endif
+ isCol = true;
+ if (omin > otmax)
+ _ranges[i].weightedAxis(i, vmin - _margin, vmax + _margin, 0, 0, 0, 0, 0,
+ sqr(_margin - omin + otmax) * _marginWt, false);
+ else if (omax < otmin)
+ _ranges[i].weightedAxis(i, vmin - _margin, vmax + _margin, 0, 0, 0, 0, 0,
+ sqr(_margin - otmin + omax) * _marginWt, false);
+ else
+ _ranges[i].exclude_with_margins(vmin, vmax, i);
+
+ }
+ }
+ }
+ bool res = true;
+ if (cslot->exclGlyph() > 0 && gc.check(cslot->exclGlyph()) && !isExclusion)
+ {
+ // Set up the bogus slot representing the exclusion glyph.
+ Slot *exclSlot = seg->newSlot();
+ exclSlot->setGlyph(seg, cslot->exclGlyph());
+ Position exclOrigin(slot->origin() + cslot->exclOffset());
+ exclSlot->origin(exclOrigin);
+ res &= mergeSlot(seg, exclSlot, currShift, isAfter, sameCluster, isCol, true, dbgout );
+ seg->freeSlot(exclSlot);
+ }
+ hasCol |= isCol;
+ return res;
+
+} // end of ShiftCollider::mergeSlot
+
+
+// Figure out where to move the target glyph to, and return the amount to shift by.
+Position ShiftCollider::resolve(GR_MAYBE_UNUSED Segment *seg, bool &isCol, GR_MAYBE_UNUSED json * const dbgout)
+{
+ float tbase;
+ float totalCost = (float)(std::numeric_limits<float>::max() / 2);
+ Position resultPos = Position(0, 0);
+#if !defined GRAPHITE2_NTRACING
+ int bestAxis = -1;
+ if (dbgout)
+ {
+ outputJsonDbgStartSlot(dbgout, seg);
+ *dbgout << "vectors" << json::array;
+ }
+#endif
+ isCol = true;
+ for (int i = 0; i < 4; ++i)
+ {
+ float bestCost = -1;
+ float bestPos;
+ // Calculate the margin depending on whether we are moving diagonally or not:
+ switch (i) {
+ case 0 : // x direction
+ tbase = _currOffset.x;
+ break;
+ case 1 : // y direction
+ tbase = _currOffset.y;
+ break;
+ case 2 : // sum (negatively-sloped diagonals)
+ tbase = _currOffset.x + _currOffset.y;
+ break;
+ case 3 : // diff (positively-sloped diagonals)
+ tbase = _currOffset.x - _currOffset.y;
+ break;
+ }
+ Position testp;
+ bestPos = _ranges[i].closest(0, bestCost) - tbase; // Get the best relative position
+#if !defined GRAPHITE2_NTRACING
+ if (dbgout)
+ outputJsonDbgOneVector(dbgout, seg, i, tbase, bestCost, bestPos) ;
+#endif
+ if (bestCost >= 0.0f)
+ {
+ isCol = false;
+ switch (i) {
+ case 0 : testp = Position(bestPos, _currShift.y); break;
+ case 1 : testp = Position(_currShift.x, bestPos); break;
+ case 2 : testp = Position(0.5f * (_currShift.x - _currShift.y + bestPos), 0.5f * (_currShift.y - _currShift.x + bestPos)); break;
+ case 3 : testp = Position(0.5f * (_currShift.x + _currShift.y + bestPos), 0.5f * (_currShift.x + _currShift.y - bestPos)); break;
+ }
+ if (bestCost < totalCost - 0.01f)
+ {
+ totalCost = bestCost;
+ resultPos = testp;
+#if !defined GRAPHITE2_NTRACING
+ bestAxis = i;
+#endif
+ }
+ }
+ } // end of loop over 4 directions
+
+#if !defined GRAPHITE2_NTRACING
+ if (dbgout)
+ outputJsonDbgEndSlot(dbgout, resultPos, bestAxis, isCol);
+#endif
+
+ return resultPos;
+
+} // end of ShiftCollider::resolve
+
+
+#if !defined GRAPHITE2_NTRACING
+
+void ShiftCollider::outputJsonDbg(json * const dbgout, Segment *seg, int axis)
+{
+ int axisMax = axis;
+ if (axis < 0) // output all axes
+ {
+ *dbgout << "gid" << _target->gid()
+ << "limit" << _limit
+ << "target" << json::object
+ << "origin" << _target->origin()
+ << "margin" << _margin
+ << "bbox" << seg->theGlyphBBoxTemporary(_target->gid())
+ << "slantbox" << seg->getFace()->glyphs().slant(_target->gid())
+ << json::close; // target object
+ *dbgout << "ranges" << json::array;
+ axis = 0;
+ axisMax = 3;
+ }
+ for (int iAxis = axis; iAxis <= axisMax; ++iAxis)
+ {
+ *dbgout << json::flat << json::array << _ranges[iAxis].position();
+ for (Zones::const_iterator s = _ranges[iAxis].begin(), e = _ranges[iAxis].end(); s != e; ++s)
+ *dbgout << json::flat << json::array
+ << Position(s->x, s->xm) << s->sm << s->smx << s->c
+ << json::close;
+ *dbgout << json::close;
+ }
+ if (axis < axisMax) // looped through the _ranges array for all axes
+ *dbgout << json::close; // ranges array
+}
+
+void ShiftCollider::outputJsonDbgStartSlot(json * const dbgout, Segment *seg)
+{
+ *dbgout << json::object // slot - not closed till the end of the caller method
+ << "slot" << objectid(dslot(seg, _target))
+ << "gid" << _target->gid()
+ << "limit" << _limit
+ << "target" << json::object
+ << "origin" << _origin
+ << "currShift" << _currShift
+ << "currOffset" << seg->collisionInfo(_target)->offset()
+ << "bbox" << seg->theGlyphBBoxTemporary(_target->gid())
+ << "slantBox" << seg->getFace()->glyphs().slant(_target->gid())
+ << "fix" << "shift";
+ *dbgout << json::close; // target object
+}
+
+void ShiftCollider::outputJsonDbgEndSlot(GR_MAYBE_UNUSED json * const dbgout,
+ Position resultPos, int bestAxis, bool isCol)
+{
+ *dbgout << json::close // vectors array
+ << "result" << resultPos
+ //<< "scraping" << _scraping[bestAxis]
+ << "bestAxis" << bestAxis
+ << "stillBad" << isCol
+ << json::close; // slot object
+}
+
+void ShiftCollider::outputJsonDbgOneVector(json * const dbgout, Segment *seg, int axis,
+ float tleft, float bestCost, float bestVal)
+{
+ const char * label;
+ switch (axis)
+ {
+ case 0: label = "x"; break;
+ case 1: label = "y"; break;
+ case 2: label = "sum (NE-SW)"; break;
+ case 3: label = "diff (NW-SE)"; break;
+ default: label = "???"; break;
+ }
+
+ *dbgout << json::object // vector
+ << "direction" << label
+ << "targetMin" << tleft;
+
+ outputJsonDbgRemovals(dbgout, axis, seg);
+
+ *dbgout << "ranges";
+ outputJsonDbg(dbgout, seg, axis);
+
+ *dbgout << "bestCost" << bestCost
+ << "bestVal" << bestVal + tleft
+ << json::close; // vectors object
+}
+
+void ShiftCollider::outputJsonDbgRemovals(json * const dbgout, int axis, Segment *seg)
+{
+ *dbgout << "removals" << json::array;
+ _ranges[axis].jsonDbgOut(seg);
+ *dbgout << json::close; // removals array
+}
+
+#endif // !defined GRAPHITE2_NTRACING
+
+
+//// KERN-COLLIDER ////
+
+inline
+static float localmax (float al, float au, float bl, float bu, float x)
+{
+ if (al < bl)
+ { if (au < bu) return au < x ? au : x; }
+ else if (au > bu) return bl < x ? bl : x;
+ return x;
+}
+
+inline
+static float localmin(float al, float au, float bl, float bu, float x)
+{
+ if (bl > al)
+ { if (bu > au) return bl > x ? bl : x; }
+ else if (au > bu) return al > x ? al : x;
+ return x;
+}
+
+// Return the given edge of the glyph at height y, taking any slant box into account.
+static float get_edge(Segment *seg, const Slot *s, const Position &shift, float y, float width, bool isRight)
+{
+ const GlyphCache &gc = seg->getFace()->glyphs();
+ unsigned short gid = s->gid();
+ float sx = s->origin().x + shift.x;
+ float sy = s->origin().y + shift.y;
+ uint8 numsub = gc.numSubBounds(gid);
+ float res = isRight ? (float)-1e38 : (float)1e38;
+
+ if (numsub > 0)
+ {
+ for (int i = 0; i < numsub; ++i)
+ {
+ const BBox &sbb = gc.getSubBoundingBBox(gid, i);
+ const SlantBox &ssb = gc.getSubBoundingSlantBox(gid, i);
+ if (sy + sbb.yi > y + width / 2 || sy + sbb.ya < y - width / 2)
+ continue;
+ if (isRight)
+ {
+ float x = sx + sbb.xa;
+ if (x > res)
+ {
+ float td = sx - sy + ssb.da + y;
+ float ts = sx + sy + ssb.sa - y;
+ x = localmax(td - width / 2, td + width / 2, ts - width / 2, ts + width / 2, x);
+ if (x > res)
+ res = x;
+ }
+ }
+ else
+ {
+ float x = sx + sbb.xi;
+ if (x < res)
+ {
+ float td = sx - sy + ssb.di + y;
+ float ts = sx + sy + ssb.si - y;
+ x = localmin(td - width / 2, td + width / 2, ts - width / 2, ts + width / 2, x);
+ if (x < res)
+ res = x;
+ }
+ }
+ }
+ }
+ else
+ {
+ const BBox &bb = gc.getBoundingBBox(gid);
+ const SlantBox &sb = gc.getBoundingSlantBox(gid);
+ float td = sx - sy + y;
+ float ts = sx + sy - y;
+ if (isRight)
+ res = localmax(td + sb.da - width / 2, td + sb.da + width / 2, ts + sb.sa - width / 2, ts + sb.sa + width / 2, sx + bb.xa);
+ else
+ res = localmin(td + sb.di - width / 2, td + sb.di + width / 2, ts + sb.si - width / 2, ts + sb.si + width / 2, sx + bb.xi);
+ }
+ return res;
+}
+
+
+bool KernCollider::initSlot(Segment *seg, Slot *aSlot, const Rect &limit, float margin,
+ const Position &currShift, const Position &offsetPrev, int dir,
+ float ymin, float ymax, GR_MAYBE_UNUSED json * const dbgout)
+{
+ const GlyphCache &gc = seg->getFace()->glyphs();
+ const Slot *base = aSlot;
+ // const Slot *last = aSlot;
+ const Slot *s;
+ int numSlices;
+ while (base->attachedTo())
+ base = base->attachedTo();
+ if (margin < 10) margin = 10;
+
+ _limit = limit;
+ _offsetPrev = offsetPrev; // kern from a previous pass
+
+ // Calculate the height of the glyph and how many horizontal slices to use.
+ if (_maxy >= 1e37f)
+ {
+ _maxy = ymax;
+ _miny = ymin;
+ _sliceWidth = margin / 1.5f;
+ numSlices = int((_maxy - _miny + 2) / (_sliceWidth / 1.5f) + 1.f); // +2 helps with rounding errors
+ _edges.clear();
+ _edges.insert(_edges.begin(), numSlices, (dir & 1) ? 1e38f : -1e38f);
+ _xbound = (dir & 1) ? (float)1e38f : (float)-1e38f;
+ }
+ else if (_maxy != ymax || _miny != ymin)
+ {
+ if (_miny != ymin)
+ {
+ numSlices = int((ymin - _miny) / _sliceWidth - 1);
+ _miny += numSlices * _sliceWidth;
+ if (numSlices < 0)
+ _edges.insert(_edges.begin(), -numSlices, (dir & 1) ? 1e38f : -1e38f);
+ else if ((unsigned)numSlices < _edges.size()) // this shouldn't fire since we always grow the range
+ {
+ Vector<float>::iterator e = _edges.begin();
+ while (numSlices--)
+ ++e;
+ _edges.erase(_edges.begin(), e);
+ }
+ }
+ if (_maxy != ymax)
+ {
+ numSlices = int((ymax - _miny) / _sliceWidth + 1);
+ _maxy = numSlices * _sliceWidth + _miny;
+ if (numSlices > (int)_edges.size())
+ _edges.insert(_edges.end(), numSlices - _edges.size(), (dir & 1) ? 1e38f : -1e38f);
+ else if (numSlices < (int)_edges.size()) // this shouldn't fire since we always grow the range
+ {
+ while ((int)_edges.size() > numSlices)
+ _edges.pop_back();
+ }
+ }
+ }
+ numSlices = _edges.size();
+
+#if !defined GRAPHITE2_NTRACING
+ // Debugging
+ _seg = seg;
+ _slotNear.clear();
+ _slotNear.insert(_slotNear.begin(), numSlices, NULL);
+ _nearEdges.clear();
+ _nearEdges.insert(_nearEdges.begin(), numSlices, (dir & 1) ? -1e38f : +1e38f);
+#endif
+
+ // Determine the trailing edge of each slice (ie, left edge for a RTL glyph).
+ for (s = base; s; s = s->nextInCluster(s))
+ {
+ SlotCollision *c = seg->collisionInfo(s);
+ if (!gc.check(s->gid()))
+ return false;
+ const BBox &bs = gc.getBoundingBBox(s->gid());
+ float x = s->origin().x + c->shift().x + ((dir & 1) ? bs.xi : bs.xa);
+ // Loop over slices.
+ // Note smin might not be zero if glyph s is not at the bottom of the cluster; similarly for smax.
+ float toffset = c->shift().y - _miny + 1 + s->origin().y;
+ int smin = max(0, int((bs.yi + toffset) / _sliceWidth));
+ int smax = min(numSlices - 1, int((bs.ya + toffset) / _sliceWidth + 1));
+ for (int i = smin; i <= smax; ++i)
+ {
+ float t;
+ float y = _miny - 1 + (i + .5f) * _sliceWidth; // vertical center of slice
+ if ((dir & 1) && x < _edges[i])
+ {
+ t = get_edge(seg, s, c->shift(), y, _sliceWidth, false);
+ if (t < _edges[i])
+ {
+ _edges[i] = t;
+ if (t < _xbound)
+ _xbound = t;
+ }
+ }
+ else if (!(dir & 1) && x > _edges[i])
+ {
+ t = get_edge(seg, s, c->shift(), y, _sliceWidth, true);
+ if (t > _edges[i])
+ {
+ _edges[i] = t;
+ if (t > _xbound)
+ _xbound = t;
+ }
+ }
+ }
+ }
+ _mingap = (float)1e38;
+ _target = aSlot;
+ _margin = margin;
+ _currShift = currShift;
+ return true;
+} // end of KernCollider::initSlot
+
+
+// Determine how much the target slot needs to kern away from the given slot.
+// In other words, merge information from given slot's position with what the target slot knows
+// about how it can kern.
+// Return false if we know there is no collision, true if we think there might be one.
+bool KernCollider::mergeSlot(Segment *seg, Slot *slot, const Position &currShift, float currSpace, int dir, GR_MAYBE_UNUSED json * const dbgout)
+{
+ int rtl = (dir & 1) * 2 - 1;
+ if (!seg->getFace()->glyphs().check(slot->gid()))
+ return false;
+ const Rect &bb = seg->theGlyphBBoxTemporary(slot->gid());
+ const float sx = slot->origin().x + currShift.x;
+ float x = sx + (rtl > 0 ? bb.tr.x : bb.bl.x);
+ // this isn't going to reduce _mingap so skip
+ if ((rtl > 0 && x < _xbound - _mingap - currSpace) || (rtl <= 0 && x > _xbound + _mingap + currSpace))
+ return false;
+
+ const float sy = slot->origin().y + currShift.y;
+ int smin = max(0, int((bb.bl.y + (1 - _miny + sy)) / _sliceWidth + 1));
+ int smax = min((int)_edges.size() - 1, int((bb.tr.y + (1 - _miny + sy)) / _sliceWidth + 1));
+ bool collides = false;
+
+ for (int i = smin; i <= smax; ++i)
+ {
+ float t;
+ float y = (float)(_miny - 1 + (i + .5f) * _sliceWidth); // vertical center of slice
+ if (x * rtl > _edges[i] * rtl - _mingap - currSpace)
+ {
+ // 2 * currSpace to account for the space that is already separating them and the space we want to add
+ float m = get_edge(seg, slot, currShift, y, _sliceWidth, rtl > 0) + 2 * rtl * currSpace;
+ t = rtl * (_edges[i] - m);
+ // Check slices above and below (if any).
+ if (i < (int)_edges.size() - 1) t = min(t, rtl * (_edges[i+1] - m));
+ if (i > 0) t = min(t, rtl * (_edges[i-1] - m));
+ // _mingap is positive to shrink
+ if (t < _mingap)
+ {
+ _mingap = t;
+ collides = true;
+ }
+#if !defined GRAPHITE2_NTRACING
+ // Debugging - remember the closest neighboring edge for this slice.
+ if (rtl * m > rtl * _nearEdges[i])
+ {
+ _slotNear[i] = slot;
+ _nearEdges[i] = m;
+ }
+#endif
+ }
+ }
+ return collides; // note that true is not a necessarily reliable value
+
+} // end of KernCollider::mergeSlot
+
+
+// Return the amount to kern by.
+Position KernCollider::resolve(GR_MAYBE_UNUSED Segment *seg, GR_MAYBE_UNUSED Slot *slot,
+ int dir, float margin, GR_MAYBE_UNUSED json * const dbgout)
+{
+ float resultNeeded = (1 - 2 * (dir & 1)) * (_mingap - margin);
+ float result = min(_limit.tr.x - _offsetPrev.x, max(resultNeeded, _limit.bl.x - _offsetPrev.x));
+
+#if !defined GRAPHITE2_NTRACING
+ if (dbgout)
+ {
+ *dbgout << json::object // slot
+ << "slot" << objectid(dslot(seg, _target))
+ << "gid" << _target->gid()
+ << "margin" << _margin
+ << "limit" << _limit
+ << "miny" << _miny
+ << "maxy" << _maxy
+ << "slicewidth" << _sliceWidth
+ << "target" << json::object
+ << "origin" << _target->origin()
+ //<< "currShift" << _currShift
+ << "offsetPrev" << _offsetPrev
+ << "bbox" << seg->theGlyphBBoxTemporary(_target->gid())
+ << "slantBox" << seg->getFace()->glyphs().slant(_target->gid())
+ << "fix" << "kern"
+ << json::close; // target object
+
+ *dbgout << "slices" << json::array;
+ for (int is = 0; is < (int)_edges.size(); is++)
+ {
+ *dbgout << json::flat << json::object
+ << "i" << is
+ << "targetEdge" << _edges[is]
+ << "neighbor" << objectid(dslot(seg, _slotNear[is]))
+ << "nearEdge" << _nearEdges[is]
+ << json::close;
+ }
+ *dbgout << json::close; // slices array
+
+ *dbgout
+ << "xbound" << _xbound
+ << "minGap" << _mingap
+ << "needed" << resultNeeded
+ << "result" << result
+ << "stillBad" << (result != resultNeeded)
+ << json::close; // slot object
+ }
+#endif
+
+ return Position(result, 0.);
+
+} // end of KernCollider::resolve
+
+void KernCollider::shift(const Position &mv, int dir)
+{
+ for (Vector<float>::iterator e = _edges.begin(); e != _edges.end(); ++e)
+ *e += mv.x;
+ _xbound += (1 - 2 * (dir & 1)) * mv.x;
+}
+
+//// SLOT-COLLISION ////
+
+// Initialize the collision attributes for the given slot.
+SlotCollision::SlotCollision(Segment *seg, Slot *slot)
+{
+ initFromSlot(seg, slot);
+}
+
+void SlotCollision::initFromSlot(Segment *seg, Slot *slot)
+{
+ // Initialize slot attributes from glyph attributes.
+ // The order here must match the order in the grcompiler code,
+ // GrcSymbolTable::AssignInternalGlyphAttrIDs.
+ uint16 gid = slot->gid();
+ uint16 aCol = seg->silf()->aCollision(); // flags attr ID
+ const GlyphFace * glyphFace = seg->getFace()->glyphs().glyphSafe(gid);
+ if (!glyphFace)
+ return;
+ const sparse &p = glyphFace->attrs();
+ _flags = p[aCol];
+ _limit = Rect(Position(p[aCol+1], p[aCol+2]),
+ Position(p[aCol+3], p[aCol+4]));
+ _margin = p[aCol+5];
+ _marginWt = p[aCol+6];
+
+ _seqClass = p[aCol+7];
+ _seqProxClass = p[aCol+8];
+ _seqOrder = p[aCol+9];
+ _seqAboveXoff = p[aCol+10];
+ _seqAboveWt = p[aCol+11];
+ _seqBelowXlim = p[aCol+12];
+ _seqBelowWt = p[aCol+13];
+ _seqValignHt = p[aCol+14];
+ _seqValignWt = p[aCol+15];
+
+ // These attributes do not have corresponding glyph attribute:
+ _exclGlyph = 0;
+ _exclOffset = Position(0, 0);
+}
+
+float SlotCollision::getKern(int dir) const
+{
+ if ((_flags & SlotCollision::COLL_KERN) != 0)
+ return float(_shift.x * ((dir & 1) ? -1 : 1));
+ else
+ return 0;
+}
+
diff --git a/gfx/graphite2/src/Decompressor.cpp b/gfx/graphite2/src/Decompressor.cpp
new file mode 100644
--- /dev/null
+++ b/gfx/graphite2/src/Decompressor.cpp
@@ -0,0 +1,113 @@
+/* GRAPHITE2 LICENSING
+
+ Copyright 2015, SIL International
+ All rights reserved.
+
+ This library is free software; you can redistribute it and/or modify
+ it under the terms of the GNU Lesser General Public License as published
+ by the Free Software Foundation; either version 2.1 of License, or
+ (at your option) any later version.
+
+ This program 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
+ Lesser General Public License for more details.
+
+ You should also have received a copy of the GNU Lesser General Public
+ License along with this library in the file named "LICENSE".
+ If not, write to the Free Software Foundation, 51 Franklin Street,
+ Suite 500, Boston, MA 02110-1335, USA or visit their web page on the
+ internet at http://www.fsf.org/licenses/lgpl.html.
+
+Alternatively, the contents of this file may be used under the terms of the
+Mozilla Public License (http://mozilla.org/MPL) or the GNU General Public
+License, as published by the Free Software Foundation, either version 2
+of the License or (at your option) any later version.
+*/
+#include <cassert>
+
+#include "inc/Decompressor.h"
+#include "inc/Compression.h"
+
+using namespace lz4;
+
+namespace {
+
+inline
+u32 read_literal(u8 const * &s, u8 const * const e, u32 l) {
+ if (l == 15 && s != e)
+ {
+ u8 b = 0;
+ do { l += b = *s++; } while(b==0xff && s != e);
+ }
+ return l;
+}
+
+bool read_sequence(u8 const * &src, u8 const * const end, u8 const * &literal, u32 & literal_len, u32 & match_len, u32 & match_dist)
+{
+ u8 const token = *src++;
+
+ literal_len = read_literal(src, end, token >> 4);
+ literal = src;
+ src += literal_len;
+
+ if (src > end - 2)
+ return false;
+
+ match_dist = *src++;
+ match_dist |= *src++ << 8;
+ match_len = read_literal(src, end, token & 0xf);
+
+ return src <= end-5;
+}
+
+}
+
+int lz4::decompress(void const *in, size_t in_size, void *out, size_t out_size)
+{
+ if (out_size <= in_size || in_size < sizeof(unsigned long)+1)
+ return -1;
+
+ u8 const * src = static_cast<u8 const *>(in),
+ * literal = 0,
+ * const src_end = src + in_size;
+
+ u8 * dst = static_cast<u8*>(out),
+ * const dst_end = dst + out_size;
+
+ u32 literal_len = 0,
+ match_len = 0,
+ match_dist = 0;
+
+ while (read_sequence(src, src_end, literal, literal_len, match_len, match_dist))
+ {
+ if (literal_len != 0)
+ {
+ // Copy in literal. At this point the last full sequence must be at
+ // least MINMATCH + 5 from the end of the output buffer.
+ if (dst + align(literal_len) > dst_end - (MINMATCH+5))
+ return -1;
+ dst = overrun_copy(dst, literal, literal_len);
+ }
+
+ // Copy, possibly repeating, match from earlier in the
+ // decoded output.
+ u8 const * const pcpy = dst - match_dist;
+ if (pcpy < static_cast<u8*>(out)
+ || dst + match_len + MINMATCH > dst_end - 5)
+ return -1;
+ if (dst > pcpy+sizeof(unsigned long)
+ && dst + align(match_len + MINMATCH) <= dst_end)
+ dst = overrun_copy(dst, pcpy, match_len + MINMATCH);
+ else
+ dst = safe_copy(dst, pcpy, match_len + MINMATCH);
+ }
+
+ if (literal + literal_len > src_end
+ || dst + literal_len > dst_end)
+ return -1;
+ dst = fast_copy(dst, literal, literal_len);
+
+ return dst - (u8*)out;
+}
+
diff --git a/gfx/graphite2/src/Face.cpp b/gfx/graphite2/src/Face.cpp
--- a/gfx/graphite2/src/Face.cpp
+++ b/gfx/graphite2/src/Face.cpp
@@ -23,28 +23,39 @@ Alternatively, the contents of this file
Mozilla Public License (http://mozilla.org/MPL) or the GNU General Public
License, as published by the Free Software Foundation, either version 2
of the License or (at your option) any later version.
*/
#include <cstring>
#include "graphite2/Segment.h"
#include "inc/CmapCache.h"
#include "inc/debug.h"
+#include "inc/Decompressor.h"
#include "inc/Endian.h"
#include "inc/Face.h"
#include "inc/FileFace.h"
#include "inc/GlyphFace.h"
#include "inc/json.h"
#include "inc/SegCacheStore.h"
#include "inc/Segment.h"
#include "inc/NameTable.h"
#include "inc/Error.h"
using namespace graphite2;
+namespace
+{
+enum compression
+{
+ NONE,
+ LZ4
+};
+
+}
+
Face::Face(const void* appFaceHandle/*non-NULL*/, const gr_face_ops & ops)
: m_appFaceHandle(appFaceHandle),
m_pFileFace(NULL),
m_pGlyphFaceCache(NULL),
m_cmap(NULL),
m_pNames(NULL),
m_logger(NULL),
m_error(0), m_errcntxt(0),
@@ -79,55 +90,59 @@ float Face::default_glyph_advance(const
bool Face::readGlyphs(uint32 faceOptions)
{
Error e;
#ifdef GRAPHITE2_TELEMETRY
telemetry::category _glyph_cat(tele.glyph);
#endif
error_context(EC_READGLYPHS);
+ m_pGlyphFaceCache = new GlyphCache(*this, faceOptions);
+
+ if (e.test(!m_pGlyphFaceCache, E_OUTOFMEM)
+ || e.test(m_pGlyphFaceCache->numGlyphs() == 0, E_NOGLYPHS)
+ || e.test(m_pGlyphFaceCache->unitsPerEm() == 0, E_BADUPEM))
+ {
+ return error(e);
+ }
+
if (faceOptions & gr_face_cacheCmap)
m_cmap = new CachedCmap(*this);
else
m_cmap = new DirectCmap(*this);
-
- m_pGlyphFaceCache = new GlyphCache(*this, faceOptions);
- if (e.test(!m_pGlyphFaceCache, E_OUTOFMEM)
- || e.test(m_pGlyphFaceCache->numGlyphs() == 0, E_NOGLYPHS)
- || e.test(m_pGlyphFaceCache->unitsPerEm() == 0, E_BADUPEM)
- || e.test(!m_cmap, E_OUTOFMEM) || e.test(!*m_cmap, E_BADCMAP))
- {
+ if (e.test(!m_cmap, E_OUTOFMEM) || e.test(!*m_cmap, E_BADCMAP))
return error(e);
- }
if (faceOptions & gr_face_preloadGlyphs)
nameTable(); // preload the name table along with the glyphs.
return true;
}
bool Face::readGraphite(const Table & silf)
{
#ifdef GRAPHITE2_TELEMETRY
telemetry::category _silf_cat(tele.silf);
#endif
Error e;
error_context(EC_READSILF);
const byte * p = silf;
- if (e.test(!p, E_NOSILF)) return error(e);
+ if (e.test(!p, E_NOSILF) || e.test(silf.size() < 20, E_BADSIZE)) return error(e);
const uint32 version = be::read<uint32>(p);
if (e.test(version < 0x00020000, E_TOOOLD)) return error(e);
if (version >= 0x00030000)
be::skip<uint32>(p); // compilerVersion
m_numSilf = be::read<uint16>(p);
+
be::skip<uint16>(p); // reserved
bool havePasses = false;
m_silfs = new Silf[m_numSilf];
+ if (e.test(!m_silfs, E_OUTOFMEM)) return error(e);
for (int i = 0; i < m_numSilf; i++)
{
error_context(EC_ASILF + (i << 8));
const uint32 offset = be::read<uint32>(p),
next = i == m_numSilf - 1 ? silf.size() : be::peek<uint32>(p);
if (e.test(next > silf.size() || offset >= next, E_BADSIZE))
return error(e);
@@ -153,29 +168,38 @@ bool Face::runGraphite(Segment *seg, con
if (dbgout)
{
*dbgout << json::object
<< "id" << objectid(seg)
<< "passes" << json::array;
}
#endif
- bool res = aSilf->runGraphite(seg, 0, aSilf->justificationPass(), true);
+// if ((seg->dir() & 1) != aSilf->dir())
+// seg->reverseSlots();
+ if ((seg->dir() & 3) == 3 && aSilf->bidiPass() == 0xFF)
+ seg->doMirror(aSilf->aMirror());
+ bool res = aSilf->runGraphite(seg, 0, aSilf->positionPass(), true);
if (res)
- res = aSilf->runGraphite(seg, aSilf->positionPass(), aSilf->numPasses(), false);
+ {
+ seg->associateChars(0, seg->charInfoCount());
+ if (aSilf->flags() & 0x20)
+ res &= seg->initCollisions();
+ res &= aSilf->runGraphite(seg, aSilf->positionPass(), aSilf->numPasses(), false);
+ }
#if !defined GRAPHITE2_NTRACING
if (dbgout)
{
+ seg->positionSlots(0, 0, 0, aSilf->dir());
*dbgout << json::item
<< json::close // Close up the passes array
<< "output" << json::array;
for(Slot * s = seg->first(); s; s = s->next())
*dbgout << dslot(seg, s);
- seg->finalise(0); // Call this here to fix up charinfo back indexes.
*dbgout << json::close
<< "advance" << seg->advance()
<< "chars" << json::array;
for(size_t i = 0, n = seg->charInfoCount(); i != n; ++i)
*dbgout << json::flat << *seg->charinfo(i);
*dbgout << json::close // Close up the chars array
<< json::close; // Close up the segment object
}
@@ -208,17 +232,19 @@ uint16 Face::findPseudo(uint32 uid) cons
}
uint16 Face::getGlyphMetric(uint16 gid, uint8 metric) const
{
switch (metrics(metric))
{
case kgmetAscent : return m_ascent;
case kgmetDescent : return m_descent;
- default: return glyphs().glyph(gid)->getMetric(metric);
+ default:
+ if (gid >= glyphs().numGlyphs()) return 0;
+ return glyphs().glyph(gid)->getMetric(metric);
}
}
void Face::takeFileFace(FileFace* pFileFace GR_MAYBE_UNUSED/*takes ownership*/)
{
#ifndef GRAPHITE2_NFILEFACE
if (m_pFileFace==pFileFace)
return;
@@ -240,30 +266,100 @@ NameTable * Face::nameTable() const
uint16 Face::languageForLocale(const char * locale) const
{
nameTable();
if (m_pNames)
return m_pNames->getLanguageId(locale);
return 0;
}
-Face::Table::Table(const Face & face, const Tag n) throw()
-: _f(&face)
+
+
+Face::Table::Table(const Face & face, const Tag n, uint32 version) throw()
+: _f(&face), _compressed(false)
{
size_t sz = 0;
- _p = reinterpret_cast<const byte *>((*_f->m_ops.get_table)(_f->m_appFaceHandle, n, &sz));
+ _p = static_cast<const byte *>((*_f->m_ops.get_table)(_f->m_appFaceHandle, n, &sz));
_sz = uint32(sz);
+
if (!TtfUtil::CheckTable(n, _p, _sz))
{
this->~Table(); // Make sure we release the table buffer even if the table filed it's checks
- _p = 0; _sz = 0;
+ return;
}
+
+ if (be::peek<uint32>(_p) >= version)
+ decompress();
+}
+
+void Face::Table::releaseBuffers()
+{
+ if (_compressed)
+ free(const_cast<byte *>(_p));
+ else if (_p && _f->m_ops.release_table)
+ (*_f->m_ops.release_table)(_f->m_appFaceHandle, _p);
+ _p = 0; _sz = 0;
}
Face::Table & Face::Table::operator = (const Table & rhs) throw()
{
if (_p == rhs._p) return *this;
this->~Table();
new (this) Table(rhs);
return *this;
}
+Error Face::Table::decompress()
+{
+ Error e;
+ if (e.test(_sz < 5 * sizeof(uint32), E_BADSIZE))
+ return e;
+ byte * uncompressed_table = 0;
+ size_t uncompressed_size = 0;
+
+ const byte * p = _p;
+ const uint32 version = be::read<uint32>(p); // Table version number.
+
+ // The scheme is in the top 5 bits of the 1st uint32.
+ const uint32 hdr = be::read<uint32>(p);
+ switch(compression(hdr >> 27))
+ {
+ case NONE: return e;
+
+ case LZ4:
+ {
+ uncompressed_size = hdr & 0x07ffffff;
+ uncompressed_table = gralloc<byte>(uncompressed_size);
+ if (!e.test(!uncompressed_table, E_OUTOFMEM))
+ // coverity[forward_null : FALSE] - uncompressed_table has been checked so can't be null
+ // coverity[checked_return : FALSE] - we test e later
+ e.test(lz4::decompress(p, _sz - 2*sizeof(uint32), uncompressed_table, uncompressed_size) != signed(uncompressed_size), E_SHRINKERFAILED);
+ break;
+ }
+
+ default:
+ e.error(E_BADSCHEME);
+ };
+
+ // Check the uncompressed version number against the original.
+ if (!e)
+ // coverity[forward_null : FALSE] - uncompressed_table has already been tested so can't be null
+ // coverity[checked_return : FALSE] - we test e later
+ e.test(be::peek<uint32>(uncompressed_table) != version, E_SHRINKERFAILED);
+
+ // Tell the provider to release the compressed form since were replacing
+ // it anyway.
+ releaseBuffers();
+
+ if (e)
+ {
+ free(uncompressed_table);
+ uncompressed_table = 0;
+ uncompressed_size = 0;
+ }
+
+ _p = uncompressed_table;
+ _sz = uncompressed_size;
+ _compressed = true;
+
+ return e;
+}
diff --git a/gfx/graphite2/src/FeatureMap.cpp b/gfx/graphite2/src/FeatureMap.cpp
--- a/gfx/graphite2/src/FeatureMap.cpp
+++ b/gfx/graphite2/src/FeatureMap.cpp
@@ -126,60 +126,61 @@ bool FeatureMap::readFeats(const Face &
unsigned short bits = 0; //to cause overflow on first Feature
for (int i = 0, ie = m_numFeats; i != ie; i++)
{
const uint32 label = version < 0x00020000 ? be::read<uint16>(p) : be::read<uint32>(p);
const uint16 num_settings = be::read<uint16>(p);
if (version >= 0x00020000)
be::skip<uint16>(p);
- const byte * const feat_setts = feat_start + be::read<uint32>(p);
+ const uint32 settings_offset = be::read<uint32>(p);
const uint16 flags = be::read<uint16>(p),
uiName = be::read<uint16>(p);
- if (feat_setts + num_settings * FEATURE_SETTING_SIZE > feat_end)
+ if (settings_offset > size_t(feat_end - feat_start)
+ || settings_offset + num_settings * FEATURE_SETTING_SIZE > size_t(feat_end - feat_start))
{
free(defVals);
return false;
}
FeatureSetting *uiSet;
uint32 maxVal;
if (num_settings != 0)
{
uiSet = gralloc<FeatureSetting>(num_settings);
if (!uiSet)
{
free(defVals);
return false;
}
- maxVal = readFeatureSettings(feat_setts, uiSet, num_settings);
+ maxVal = readFeatureSettings(feat_start + settings_offset, uiSet, num_settings);
defVals[i] = uiSet[0].value();
}
else
{
uiSet = 0;
maxVal = 0xffffffff;
defVals[i] = 0;
}
::new (m_feats + i) FeatureRef (face, bits, maxVal,
label, uiName, flags,
uiSet, num_settings);
}
- m_defaultFeatures = new Features(bits/(sizeof(uint32)*8) + 1, *this);
+ new (&m_defaultFeatures) Features(bits/(sizeof(uint32)*8) + 1, *this);
m_pNamedFeats = new NameAndFeatureRef[m_numFeats];
- if (!m_defaultFeatures || !m_pNamedFeats)
+ if (!m_pNamedFeats)
{
free(defVals);
return false;
}
for (int i = 0; i < m_numFeats; ++i)
{
- m_feats[i].applyValToFeature(defVals[i], *m_defaultFeatures);
+ m_feats[i].applyValToFeature(defVals[i], m_defaultFeatures);
m_pNamedFeats[i] = m_feats+i;
}
free(defVals);
qsort(m_pNamedFeats, m_numFeats, sizeof(NameAndFeatureRef), &cmpNameAndFeatures);
return true;
@@ -209,17 +210,17 @@ bool SillMap::readSill(const Face & face
if (sill.size() < m_numLanguages * 8U + 12) return false;
for (int i = 0; i < m_numLanguages; i++)
{
uint32 langid = be::read<uint32>(p);
uint16 numSettings = be::read<uint16>(p);
uint16 offset = be::read<uint16>(p);
if (offset + 8U * numSettings > sill.size() && numSettings > 0) return false;
- Features* feats = new Features(*m_FeatureMap.m_defaultFeatures);
+ Features* feats = new Features(m_FeatureMap.m_defaultFeatures);
if (!feats) return false;
const byte *pLSet = sill + offset;
// Apply langauge specific settings
for (int j = 0; j < numSettings; j++)
{
uint32 name = be::read<uint32>(pLSet);
uint16 val = be::read<uint16>(pLSet);
@@ -245,17 +246,17 @@ Features* SillMap::cloneFeatures(uint32
// the number of languages in a font is usually small e.g. 8 in Doulos
// so this loop is not very expensive
for (uint16 i = 0; i < m_numLanguages; i++)
{
if (m_langFeats[i].m_lang == langname)
return new Features(*m_langFeats[i].m_pFeatures);
}
}
- return new Features (*m_FeatureMap.m_defaultFeatures);
+ return new Features (m_FeatureMap.m_defaultFeatures);
}
const FeatureRef *FeatureMap::findFeatureRef(uint32 name) const
{
NameAndFeatureRef *it;
diff --git a/gfx/graphite2/src/FileFace.cpp b/gfx/graphite2/src/FileFace.cpp
--- a/gfx/graphite2/src/FileFace.cpp
+++ b/gfx/graphite2/src/FileFace.cpp
@@ -55,18 +55,22 @@ FileFace::FileFace(const char *filename)
if (fread(_header_tbl, 1, tbl_len, _file) != tbl_len) return;
if (!TtfUtil::CheckHeader(_header_tbl)) return;
}
// Get the table directory
if (!TtfUtil::GetTableDirInfo(_header_tbl, tbl_offset, tbl_len)) return;
_table_dir = (TtfUtil::Sfnt::OffsetSubTable::Entry*)gralloc<char>(tbl_len);
if (fseek(_file, tbl_offset, SEEK_SET)) return;
- if (_table_dir)
- if (fread(_table_dir, 1, tbl_len, _file) != tbl_len) return;
+ if (_table_dir && fread(_table_dir, 1, tbl_len, _file) != tbl_len)
+ {
+ free(_table_dir);
+ _table_dir = NULL;
+ }
+ return;
}
FileFace::~FileFace()
{
free(_table_dir);
free(_header_tbl);
if (_file)
fclose(_file);
@@ -78,17 +82,17 @@ const void *FileFace::get_table_fn(const
if (appFaceHandle == 0) return 0;
const FileFace & file_face = *static_cast<const FileFace *>(appFaceHandle);
void *tbl;
size_t tbl_offset, tbl_len;
if (!TtfUtil::GetTableInfo(name, file_face._header_tbl, file_face._table_dir, tbl_offset, tbl_len))
return 0;
- if (tbl_offset + tbl_len > file_face._file_len
+ if (tbl_offset > file_face._file_len || tbl_len > file_face._file_len - tbl_offset
|| fseek(file_face._file, tbl_offset, SEEK_SET) != 0)
return 0;
tbl = malloc(tbl_len);
if (fread(tbl, 1, tbl_len, file_face._file) != tbl_len)
{
free(tbl);
return 0;
diff --git a/gfx/graphite2/src/GlyphCache.cpp b/gfx/graphite2/src/GlyphCache.cpp
--- a/gfx/graphite2/src/GlyphCache.cpp
+++ b/gfx/graphite2/src/GlyphCache.cpp
@@ -26,16 +26,17 @@ of the License or (at your option) any l
*/
#include "graphite2/Font.h"
#include "inc/Main.h"
#include "inc/Face.h" //for the tags
#include "inc/GlyphCache.h"
#include "inc/GlyphFace.h"
#include "inc/Endian.h"
+#include "inc/bits.h"
using namespace graphite2;
namespace
{
// Iterator over version 1 or 2 glat entries which consist of a series of
// +-+-+-+-+-+-+-+-+-+-+ +-+-+-+-+-+-+-+-+-+-+-+-+
// v1 |k|n|v1 |v2 |...|vN | or v2 | k | n |v1 |v2 |...|vN |
@@ -56,99 +57,127 @@ namespace
if (_n == run()) advance_entry();
return *this;
}
_glat_iterator<W> operator ++ (int) { _glat_iterator<W> tmp(*this); operator++(); return tmp; }
// This is strictly a >= operator. A true == operator could be
// implemented that test for overlap but it would be more expensive a
// test.
- bool operator == (const _glat_iterator<W> & rhs) { return _v >= rhs._e; }
+ bool operator == (const _glat_iterator<W> & rhs) { return _v >= rhs._e - 1; }
bool operator != (const _glat_iterator<W> & rhs) { return !operator==(rhs); }
value_type operator * () const {
return value_type(key(), be::peek<uint16>(_v));
}
protected:
const byte * _e, * _v;
- ptrdiff_t _n;
+ size_t _n;
};
typedef _glat_iterator<uint8> glat_iterator;
typedef _glat_iterator<uint16> glat2_iterator;
}
+const SlantBox SlantBox::empty = {0,0,0,0};
+
class GlyphCache::Loader
{
public:
Loader(const Face & face, const bool dumb_font); //return result indicates success. Do not use if failed.
operator bool () const throw();
unsigned short int units_per_em() const throw();
unsigned short int num_glyphs() const throw();
unsigned short int num_attrs() const throw();
+ bool has_boxes() const throw();
- const GlyphFace * read_glyph(unsigned short gid, GlyphFace &) const throw();
+ const GlyphFace * read_glyph(unsigned short gid, GlyphFace &, int *numsubs) const throw();
+ GlyphBox * read_box(uint16 gid, GlyphBox *curr, const GlyphFace & face) const throw();
CLASS_NEW_DELETE;
private:
Face::Table _head,
_hhea,
_hmtx,
_glyf,
_loca,
m_pGlat,
m_pGloc;
bool _long_fmt;
+ bool _has_boxes;
unsigned short _num_glyphs_graphics, //i.e. boundary box and advance
_num_glyphs_attributes,
_num_attrs; // number of glyph attributes per glyph
};
GlyphCache::GlyphCache(const Face & face, const uint32 face_options)
: _glyph_loader(new Loader(face, bool(face_options & gr_face_dumbRendering))),
_glyphs(_glyph_loader && *_glyph_loader ? grzeroalloc<const GlyphFace *>(_glyph_loader->num_glyphs()) : 0),
+ _boxes(_glyph_loader && _glyph_loader->has_boxes() ? grzeroalloc<GlyphBox *>(_glyph_loader->num_glyphs()) : 0),
_num_glyphs(_glyphs ? _glyph_loader->num_glyphs() : 0),
_num_attrs(_glyphs ? _glyph_loader->num_attrs() : 0),
_upem(_glyphs ? _glyph_loader->units_per_em() : 0)
{
if ((face_options & gr_face_preloadGlyphs) && _glyph_loader && _glyphs)
{
+ int numsubs = 0;
GlyphFace * const glyphs = new GlyphFace [_num_glyphs];
if (!glyphs)
return;
// The 0 glyph is definately required.
- _glyphs[0] = _glyph_loader->read_glyph(0, glyphs[0]);
+ _glyphs[0] = _glyph_loader->read_glyph(0, glyphs[0], &numsubs);
// glyphs[0] has the same address as the glyphs array just allocated,
// thus assigning the &glyphs[0] to _glyphs[0] means _glyphs[0] points
// to the entire array.
const GlyphFace * loaded = _glyphs[0];
for (uint16 gid = 1; loaded && gid != _num_glyphs; ++gid)
- _glyphs[gid] = loaded = _glyph_loader->read_glyph(gid, glyphs[gid]);
+ _glyphs[gid] = loaded = _glyph_loader->read_glyph(gid, glyphs[gid], &numsubs);
if (!loaded)
{
_glyphs[0] = 0;
delete [] glyphs;
}
+ else if (numsubs > 0)
+ {
+ GlyphBox * boxes = (GlyphBox *)gralloc<char>(_num_glyphs * sizeof(GlyphBox) + numsubs * 8 * sizeof(float));
+ GlyphBox * currbox = boxes;
+
+ for (uint16 gid = 0; currbox && gid != _num_glyphs; ++gid)
+ {
+ _boxes[gid] = currbox;
+ currbox = _glyph_loader->read_box(gid, currbox, *_glyphs[gid]);
+ }
+ if (!currbox)
+ {
+ free(boxes);
+ _boxes[0] = 0;
+ }
+ }
delete _glyph_loader;
_glyph_loader = 0;
}
if (_glyphs && glyph(0) == 0)
{
free(_glyphs);
_glyphs = 0;
+ if (_boxes)
+ {
+ free(_boxes);
+ _boxes = 0;
+ }
_num_glyphs = _num_attrs = _upem = 0;
}
}
GlyphCache::~GlyphCache()
{
if (_glyphs)
@@ -158,91 +187,130 @@ GlyphCache::~GlyphCache()
const GlyphFace * * g = _glyphs;
for(unsigned short n = _num_glyphs; n; --n, ++g)
delete *g;
}
else
delete [] _glyphs[0];
free(_glyphs);
}
+ if (_boxes)
+ {
+ if (_glyph_loader)
+ {
+ GlyphBox * * g = _boxes;
+ for (uint16 n = _num_glyphs; n; --n, ++g)
+ free(*g);
+ }
+ else
+ free(_boxes[0]);
+ free(_boxes);
+ }
delete _glyph_loader;
}
const GlyphFace *GlyphCache::glyph(unsigned short glyphid) const //result may be changed by subsequent call with a different glyphid
{
const GlyphFace * & p = _glyphs[glyphid];
if (p == 0 && _glyph_loader)
{
+ int numsubs = 0;
GlyphFace * g = new GlyphFace();
- if (g) p = _glyph_loader->read_glyph(glyphid, *g);
+ if (g) p = _glyph_loader->read_glyph(glyphid, *g, &numsubs);
if (!p)
{
delete g;
return *_glyphs;
}
+ if (_boxes)
+ {
+ _boxes[glyphid] = (GlyphBox *)gralloc<char>(sizeof(GlyphBox) + 8 * numsubs * sizeof(float));
+ if (!_glyph_loader->read_box(glyphid, _boxes[glyphid], *_glyphs[glyphid]))
+ {
+ free(_boxes[glyphid]);
+ _boxes[glyphid] = 0;
+ }
+ }
}
return p;
}
GlyphCache::Loader::Loader(const Face & face, const bool dumb_font)
: _head(face, Tag::head),
_hhea(face, Tag::hhea),
_hmtx(face, Tag::hmtx),
_glyf(face, Tag::glyf),
_loca(face, Tag::loca),
_long_fmt(false),
+ _has_boxes(false),
_num_glyphs_graphics(0),
_num_glyphs_attributes(0),
_num_attrs(0)
{
if (!operator bool())
return;
const Face::Table maxp = Face::Table(face, Tag::maxp);
if (!maxp) { _head = Face::Table(); return; }
_num_glyphs_graphics = TtfUtil::GlyphCount(maxp);
// This will fail if the number of glyphs is wildly out of range.
- if (_glyf && TtfUtil::LocaLookup(_num_glyphs_graphics-1, _loca, _loca.size(), _head) == size_t(-1))
+ if (_glyf && TtfUtil::LocaLookup(_num_glyphs_graphics-1, _loca, _loca.size(), _head) == size_t(-2))
{
_head = Face::Table();
return;
}
if (!dumb_font)
{
- if ((m_pGlat = Face::Table(face, Tag::Glat)) == NULL
+ if ((m_pGlat = Face::Table(face, Tag::Glat, 0x00030000)) == NULL
|| (m_pGloc = Face::Table(face, Tag::Gloc)) == NULL
|| m_pGloc.size() < 6)
{
_head = Face::Table();
return;
}
const byte * p = m_pGloc;
- const int version = be::read<uint32>(p);
+ int version = be::read<uint32>(p);
const uint16 flags = be::read<uint16>(p);
_num_attrs = be::read<uint16>(p);
// We can accurately calculate the number of attributed glyphs by
// subtracting the length of the attribids array (numAttribs long if present)
// and dividing by either 2 or 4 depending on shor or lonf format
_long_fmt = flags & 1;
- _num_glyphs_attributes = (m_pGloc.size()
+ int tmpnumgattrs = (m_pGloc.size()
- (p - m_pGloc)
- sizeof(uint16)*(flags & 0x2 ? _num_attrs : 0))
/ (_long_fmt ? sizeof(uint32) : sizeof(uint16)) - 1;
- if (version != 0x00010000
+ if (version >= 0x00020000 || tmpnumgattrs < 0 || tmpnumgattrs > 65535
|| _num_attrs == 0 || _num_attrs > 0x3000 // is this hard limit appropriate?
- || _num_glyphs_graphics > _num_glyphs_attributes)
+ || _num_glyphs_graphics > tmpnumgattrs)
{
_head = Face::Table();
return;
}
+
+ _num_glyphs_attributes = static_cast<unsigned short>(tmpnumgattrs);
+ p = m_pGlat;
+ version = be::read<uint32>(p);
+ if (version >= 0x00040000) // reject Glat tables that are too new
+ {
+ _head = Face::Table();
+ return;
+ }
+ else if (version >= 0x00030000)
+ {
+ unsigned int glatflags = be::read<uint32>(p);
+ _has_boxes = glatflags & 1;
+ // delete this once the compiler is fixed
+ _has_boxes = true;
+ }
}
}
inline
GlyphCache::Loader::operator bool () const throw()
{
return _head && _hhea && _hmtx && !(bool(_glyf) != bool(_loca));
}
@@ -260,34 +328,44 @@ unsigned short int GlyphCache::Loader::n
}
inline
unsigned short int GlyphCache::Loader::num_attrs() const throw()
{
return _num_attrs;
}
-const GlyphFace * GlyphCache::Loader::read_glyph(unsigned short glyphid, GlyphFace & glyph) const throw()
+inline
+bool GlyphCache::Loader::has_boxes () const throw()
+{
+ return _has_boxes;
+}
+
+const GlyphFace * GlyphCache::Loader::read_glyph(unsigned short glyphid, GlyphFace & glyph, int *numsubs) const throw()
{
Rect bbox;
Position advance;
if (glyphid < _num_glyphs_graphics)
{
int nLsb;
unsigned int nAdvWid;
if (_glyf)
{
int xMin, yMin, xMax, yMax;
size_t locidx = TtfUtil::LocaLookup(glyphid, _loca, _loca.size(), _head);
void *pGlyph = TtfUtil::GlyfLookup(_glyf, locidx, _glyf.size());
if (pGlyph && TtfUtil::GlyfBox(pGlyph, xMin, yMin, xMax, yMax))
+ {
+ if ((xMin > xMax) || (yMin > yMax))
+ return 0;
bbox = Rect(Position(static_cast<float>(xMin), static_cast<float>(yMin)),
Position(static_cast<float>(xMax), static_cast<float>(yMax)));
+ }
}
if (TtfUtil::HorMetrics(glyphid, _hmtx, _hmtx.size(), _hhea, nLsb, nAdvWid))
advance = Position(static_cast<float>(nAdvWid), 0);
}
if (glyphid < _num_glyphs_attributes)
{
const byte * gloc = m_pGloc;
@@ -307,35 +385,95 @@ const GlyphFace * GlyphCache::Loader::re
glocs = be::read<uint16>(gloc);
gloce = be::peek<uint16>(gloc);
}
if (glocs >= m_pGlat.size() || gloce > m_pGlat.size())
return 0;
const uint32 glat_version = be::peek<uint32>(m_pGlat);
+ if (glat_version == 0x00030000)
+ {
+ const byte * p = m_pGlat + glocs;
+ uint16 bmap = be::read<uint16>(p);
+ int num = bit_set_count((uint32)bmap);
+ if (numsubs) *numsubs += num;
+ glocs += 6 + 8 * num;
+ if (glocs > gloce)
+ return 0;
+ }
if (glat_version < 0x00020000)
{
if (gloce - glocs < 2*sizeof(byte)+sizeof(uint16)
|| gloce - glocs > _num_attrs*(2*sizeof(byte)+sizeof(uint16)))
- {
- return 0;
- }
-
+ return 0;
new (&glyph) GlyphFace(bbox, advance, glat_iterator(m_pGlat + glocs), glat_iterator(m_pGlat + gloce));
}
else
{
- if (gloce - glocs < 3*sizeof(uint16)
- || gloce - glocs > _num_attrs*3*sizeof(uint16))
- {
- return 0;
- }
-
+ if (gloce - glocs < 3*sizeof(uint16) // can a glyph have no attributes? why not?
+ || gloce - glocs > _num_attrs*3*sizeof(uint16)
+ || glocs > m_pGlat.size() - 2*sizeof(uint16))
+ return 0;
new (&glyph) GlyphFace(bbox, advance, glat2_iterator(m_pGlat + glocs), glat2_iterator(m_pGlat + gloce));
}
-
if (!glyph.attrs() || glyph.attrs().capacity() > _num_attrs)
return 0;
}
-
return &glyph;
}
+
+inline float scale_to(uint8 t, float zmin, float zmax)
+{
+ return (zmin + t * (zmax - zmin) / 255);
+}
+
+Rect readbox(Rect &b, uint8 zxmin, uint8 zymin, uint8 zxmax, uint8 zymax)
+{
+ return Rect(Position(scale_to(zxmin, b.bl.x, b.tr.x), scale_to(zymin, b.bl.y, b.tr.y)),
+ Position(scale_to(zxmax, b.bl.x, b.tr.x), scale_to(zymax, b.bl.y, b.tr.y)));
+}
+
+GlyphBox * GlyphCache::Loader::read_box(uint16 gid, GlyphBox *curr, const GlyphFace & glyph) const throw()
+{
+ if (gid >= _num_glyphs_attributes) return 0;
+
+ const byte * gloc = m_pGloc;
+ size_t glocs = 0, gloce = 0;
+
+ be::skip<uint32>(gloc);
+ be::skip<uint16>(gloc,2);
+ if (_long_fmt)
+ {
+ be::skip<uint32>(gloc, gid);
+ glocs = be::read<uint32>(gloc);
+ gloce = be::peek<uint32>(gloc);
+ }
+ else
+ {
+ be::skip<uint16>(gloc, gid);
+ glocs = be::read<uint16>(gloc);
+ gloce = be::peek<uint16>(gloc);
+ }
+
+ if (glocs >= m_pGlat.size() || gloce > m_pGlat.size())
+ return 0;
+
+ const byte * p = m_pGlat + glocs;
+ uint16 bmap = be::read<uint16>(p);
+ int num = bit_set_count((uint32)bmap);
+
+ Rect bbox = glyph.theBBox();
+ Rect diamax(Position(bbox.bl.x + bbox.bl.y, bbox.bl.x - bbox.tr.y),
+ Position(bbox.tr.x + bbox.tr.y, bbox.tr.x - bbox.bl.y));
+ Rect diabound = readbox(diamax, p[0], p[2], p[1], p[3]);
+ ::new (curr) GlyphBox(num, bmap, &diabound);
+ be::skip<uint8>(p, 4);
+
+ for (int i = 0; i < num * 2; ++i)
+ {
+ Rect box = readbox((i & 1) ? diamax : bbox, p[0], p[2], p[1], p[3]);
+ curr->addSubBox(i >> 1, i & 1, &box);
+ be::skip<uint8>(p, 4);
+ }
+ return (GlyphBox *)((char *)(curr) + sizeof(GlyphBox) + 2 * num * sizeof(Rect));
+}
+
diff --git a/gfx/graphite2/src/Intervals.cpp b/gfx/graphite2/src/Intervals.cpp
new file mode 100644
--- /dev/null
+++ b/gfx/graphite2/src/Intervals.cpp
@@ -0,0 +1,294 @@
+/* GRAPHITE2 LICENSING
+
+ Copyright 2010, SIL International
+ All rights reserved.
+
+ This library is free software; you can redistribute it and/or modify
+ it under the terms of the GNU Lesser General Public License as published
+ by the Free Software Foundation; either version 2.1 of License, or
+ (at your option) any later version.
+
+ This program 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
+ Lesser General Public License for more details.
+
+ You should also have received a copy of the GNU Lesser General Public
+ License along with this library in the file named "LICENSE".
+ If not, write to the Free Software Foundation, 51 Franklin Street,
+ Suite 500, Boston, MA 02110-1335, USA or visit their web page on the
+ internet at http://www.fsf.org/licenses/lgpl.html.
+
+Alternatively, the contents of this file may be used under the terms of the
+Mozilla Public License (http://mozilla.org/MPL) or the GNU General Public
+License, as published by the Free Software Foundation, either version 2
+of the License or (at your option) any later version.
+*/
+#include <algorithm>
+#include <cmath>
+#include <limits>
+
+#include "inc/Intervals.h"
+#include "inc/Segment.h"
+#include "inc/Slot.h"
+#include "inc/debug.h"
+#include "inc/bits.h"
+
+using namespace graphite2;
+
+#include <cmath>
+
+inline
+Zones::Exclusion Zones::Exclusion::split_at(float p) {
+ Exclusion r(*this);
+ r.xm = x = p;
+ return r;
+}
+
+inline
+void Zones::Exclusion::left_trim(float p) {
+ x = p;
+}
+
+inline
+Zones::Exclusion & Zones::Exclusion::operator += (Exclusion const & rhs) {
+ c += rhs.c; sm += rhs.sm; smx += rhs.smx; open = false;
+ return *this;
+}
+
+inline
+uint8 Zones::Exclusion::outcode(float val) const {
+ float p = val;
+ return ((p >= xm) << 1) | (p < x);
+}
+
+void Zones::exclude_with_margins(float xmin, float xmax, int axis) {
+ remove(xmin, xmax);
+ weightedAxis(axis, xmin-_margin_len, xmin, 0, 0, _margin_weight, xmin-_margin_len, 0, 0, false);
+ weightedAxis(axis, xmax, xmax+_margin_len, 0, 0, _margin_weight, xmax+_margin_len, 0, 0, false);
+}
+
+namespace
+{
+
+inline
+bool separated(float a, float b) {
+ return a != b;
+ //return std::fabs(a-b) > std::numeric_limits<float>::epsilon(); // std::epsilon may not work. but 0.5 fails exising 64 bit tests
+ //return std::fabs(a-b) > 0.5f;
+}
+
+}
+
+void Zones::insert(Exclusion e)
+{
+#if !defined GRAPHITE2_NTRACING
+ addDebug(&e);
+#endif
+ e.x = max(e.x, _pos);
+ e.xm = min(e.xm, _posm);
+ if (e.x >= e.xm) return;
+
+ for (iterator i = _exclusions.begin(), ie = _exclusions.end(); i != ie && e.x < e.xm; ++i)
+ {
+ const uint8 oca = e.outcode(i->x),
+ ocb = e.outcode(i->xm);
+ if ((oca & ocb) != 0) continue;
+
+ switch (oca ^ ocb) // What kind of overlap?
+ {
+ case 0: // e completely covers i
+ // split e at i.x into e1,e2
+ // split e2 at i.mx into e2,e3
+ // drop e1 ,i+e2, e=e3
+ *i += e;
+ e.left_trim(i->xm);
+ break;
+ case 1: // e overlaps on the rhs of i
+ // split i at e->x into i1,i2
+ // split e at i.mx into e1,e2
+ // trim i1, insert i2+e1, e=e2
+ if (!separated(i->xm, e.x)) break;
+ if (separated(i->x,e.x)) { i = _exclusions.insert(i,i->split_at(e.x)); ++i; }
+ *i += e;
+ e.left_trim(i->xm);
+ break;
+ case 2: // e overlaps on the lhs of i
+ // split e at i->x into e1,e2
+ // split i at e.mx into i1,i2
+ // drop e1, insert e2+i1, trim i2
+ if (!separated(e.xm, i->x)) return;
+ if (separated(e.xm, i->xm)) i = _exclusions.insert(i,i->split_at(e.xm));
+ *i += e;
+ return;
+ case 3: // i completely covers e
+ // split i at e.x into i1,i2
+ // split i2 at e.mx into i2,i3
+ // insert i1, insert e+i2
+ if (separated(e.xm, i->xm)) i = _exclusions.insert(i,i->split_at(e.xm));
+ i = _exclusions.insert(i, i->split_at(e.x));
+ *++i += e;
+ return;
+ }
+
+ ie = _exclusions.end();
+ }
+}
+
+
+void Zones::remove(float x, float xm)
+{
+#if !defined GRAPHITE2_NTRACING
+ removeDebug(x, xm);
+#endif
+ x = max(x, _pos);
+ xm = min(xm, _posm);
+ if (x >= xm) return;
+
+ for (iterator i = _exclusions.begin(), ie = _exclusions.end(); i != ie; ++i)
+ {
+ const uint8 oca = i->outcode(x),
+ ocb = i->outcode(xm);
+ if ((oca & ocb) != 0) continue;
+
+ switch (oca ^ ocb) // What kind of overlap?
+ {
+ case 0: // i completely covers e
+ if (separated(i->x, x)) { i = _exclusions.insert(i,i->split_at(x)); ++i; }
+ GR_FALLTHROUGH;
+ // no break
+ case 1: // i overlaps on the rhs of e
+ i->left_trim(xm);
+ return;
+ case 2: // i overlaps on the lhs of e
+ i->xm = x;
+ if (separated(i->x, i->xm)) break;
+ GR_FALLTHROUGH;
+ // no break
+ case 3: // e completely covers i
+ i = _exclusions.erase(i);
+ --i;
+ break;
+ }
+
+ ie = _exclusions.end();
+ }
+}
+
+
+Zones::const_iterator Zones::find_exclusion_under(float x) const
+{
+ int l = 0, h = _exclusions.size();
+
+ while (l < h)
+ {
+ int const p = (l+h) >> 1;
+ switch (_exclusions[p].outcode(x))
+ {
+ case 0 : return _exclusions.begin()+p;
+ case 1 : h = p; break;
+ case 2 :
+ case 3 : l = p+1; break;
+ }
+ }
+
+ return _exclusions.begin()+l;
+}
+
+
+float Zones::closest(float origin, float & cost) const
+{
+ float best_c = std::numeric_limits<float>::max(),
+ best_x = 0;
+
+ const const_iterator start = find_exclusion_under(origin);
+
+ // Forward scan looking for lowest cost
+ for (const_iterator i = start, ie = _exclusions.end(); i != ie; ++i)
+ if (i->track_cost(best_c, best_x, origin)) break;
+
+ // Backward scan looking for lowest cost
+ // We start from the exclusion to the immediate left of start since we've
+ // already tested start with the right most scan above.
+ for (const_iterator i = start-1, ie = _exclusions.begin()-1; i != ie; --i)
+ if (i->track_cost(best_c, best_x, origin)) break;
+
+ cost = (best_c == std::numeric_limits<float>::max() ? -1 : best_c);
+ return best_x;
+}
+
+
+// Cost and test position functions
+
+bool Zones::Exclusion::track_cost(float & best_cost, float & best_pos, float origin) const {
+ const float p = test_position(origin),
+ localc = cost(p - origin);
+ if (open && localc > best_cost) return true;
+
+ if (localc < best_cost)
+ {
+ best_cost = localc;
+ best_pos = p;
+ }
+ return false;
+}
+
+inline
+float Zones::Exclusion::cost(float p) const {
+ return (sm * p - 2 * smx) * p + c;
+}
+
+
+float Zones::Exclusion::test_position(float origin) const {
+ if (sm < 0)
+ {
+ // sigh, test both ends and perhaps the middle too!
+ float res = x;
+ float cl = cost(x);
+ if (x < origin && xm > origin)
+ {
+ float co = cost(origin);
+ if (co < cl)
+ {
+ cl = co;
+ res = origin;
+ }
+ }
+ float cr = cost(xm);
+ return cl > cr ? xm : res;
+ }
+ else
+ {
+ float zerox = smx / sm + origin;
+ if (zerox < x) return x;
+ else if (zerox > xm) return xm;
+ else return zerox;
+ }
+}
+
+
+#if !defined GRAPHITE2_NTRACING
+
+void Zones::jsonDbgOut(Segment *seg) const {
+
+ if (_dbg)
+ {
+ for (Zones::idebugs s = dbgs_begin(), e = dbgs_end(); s != e; ++s)
+ {
+ *_dbg << json::flat << json::array
+ << objectid(dslot(seg, (Slot *)(s->_env[0])))
+ << reinterpret_cast<ptrdiff_t>(s->_env[1]);
+ if (s->_isdel)
+ *_dbg << "remove" << Position(s->_excl.x, s->_excl.xm);
+ else
+ *_dbg << "exclude" << json::flat << json::array
+ << s->_excl.x << s->_excl.xm
+ << s->_excl.sm << s->_excl.smx << s->_excl.c
+ << json::close;
+ *_dbg << json::close;
+ }
+ }
+}
+
+#endif
+
diff --git a/gfx/graphite2/src/Justifier.cpp b/gfx/graphite2/src/Justifier.cpp
--- a/gfx/graphite2/src/Justifier.cpp
+++ b/gfx/graphite2/src/Justifier.cpp
@@ -26,17 +26,17 @@ of the License or (at your option) any l
*/
#include "inc/Segment.h"
#include "graphite2/Font.h"
#include "inc/debug.h"
#include "inc/CharInfo.h"
#include "inc/Slot.h"
#include "inc/Main.h"
-#include <math.h>
+#include <cmath>
using namespace graphite2;
class JustifyTotal {
public:
JustifyTotal() : m_numGlyphs(0), m_tStretch(0), m_tShrink(0), m_tStep(0), m_tWeight(0) {}
void accumulate(Slot *s, Segment *seg, int level);
int weight() const { return m_tWeight; }
@@ -55,37 +55,44 @@ void JustifyTotal::accumulate(Slot *s, S
{
++m_numGlyphs;
m_tStretch += s->getJustify(seg, level, 0);
m_tShrink += s->getJustify(seg, level, 1);
m_tStep += s->getJustify(seg, level, 2);
m_tWeight += s->getJustify(seg, level, 3);
}
-float Segment::justify(Slot *pSlot, const Font *font, float width, GR_MAYBE_UNUSED justFlags flags, Slot *pFirst, Slot *pLast)
+float Segment::justify(Slot *pSlot, const Font *font, float width, GR_MAYBE_UNUSED justFlags jflags, Slot *pFirst, Slot *pLast)
{
Slot *s, *end;
float currWidth = 0.0;
const float scale = font ? font->scale() : 1.0f;
Position res;
if (width < 0 && !(silf()->flags()))
return width;
+ if ((m_dir & 1) != m_silf->dir() && m_silf->bidiPass() != m_silf->numPasses())
+ {
+ reverseSlots();
+ s = pFirst;
+ pFirst = pLast;
+ pLast = s;
+ }
if (!pFirst) pFirst = pSlot;
while (!pFirst->isBase()) pFirst = pFirst->attachedTo();
if (!pLast) pLast = last();
while (!pLast->isBase()) pLast = pLast->attachedTo();
const float base = pFirst->origin().x / scale;
width = width / scale;
- if ((flags & gr_justEndInline) == 0)
+ if ((jflags & gr_justEndInline) == 0)
{
do {
Rect bbox = theGlyphBBoxTemporary(pLast->glyph());
- if (bbox.bl.x != 0. || bbox.bl.y != 0. || bbox.tr.x != 0. || bbox.tr.y == 0.)
+ if (bbox.bl.x != 0.f || bbox.bl.y != 0.f || bbox.tr.x != 0.f || bbox.tr.y == 0.f)
break;
pLast = pLast->prev();
} while (pLast != pFirst);
}
end = pLast->nextSibling();
pFirst = pFirst->nextSibling();
@@ -111,28 +118,27 @@ float Segment::justify(Slot *pSlot, cons
s->setJustify(this, 0, 3, 1);
s->setJustify(this, 0, 2, 1);
s->setJustify(this, 0, 0, -1);
}
}
++numLevels;
}
- JustifyTotal *stats = new JustifyTotal[numLevels];
- if (!stats) return -1.0;
+ Vector<JustifyTotal> stats(numLevels);
for (s = pFirst; s != end; s = s->nextSibling())
{
float w = s->origin().x / scale + s->advance() - base;
if (w > currWidth) currWidth = w;
for (int j = 0; j < numLevels; ++j)
stats[j].accumulate(s, this, j);
s->just(0);
}
- for (int i = (width < 0.0) ? -1 : numLevels - 1; i >= 0; --i)
+ for (int i = (width < 0.0f) ? -1 : numLevels - 1; i >= 0; --i)
{
float diff;
float error = 0.;
float diffpw;
int tWeight = stats[i].weight();
do {
error = 0.;
@@ -154,29 +160,29 @@ float Segment::justify(Slot *pSlot, cons
}
else
{
float max = uint16(s->getJustify(this, i, 1));
if (i == 0) max += s->just();
if (-pref > max) pref = -max;
else tWeight += w;
}
- int actual = step ? int(pref / step) * step : int(pref);
+ int actual = int(pref / step) * step;
if (actual)
{
error += diffpw * w - actual;
if (i == 0)
s->just(s->just() + actual);
else
s->setJustify(this, i, 4, actual);
}
}
currWidth += diff - error;
- } while (i == 0 && int(abs(error)) > 0 && tWeight);
+ } while (i == 0 && int(std::abs(error)) > 0 && tWeight);
}
Slot *oldFirst = m_first;
Slot *oldLast = m_last;
if (silf()->flags() & 1)
{
m_first = pSlot = addLineEnd(pSlot);
m_last = pLast = addLineEnd(end);
@@ -192,41 +198,44 @@ float Segment::justify(Slot *pSlot, cons
#if !defined GRAPHITE2_NTRACING
json * const dbgout = m_face->logger();
if (dbgout)
*dbgout << json::object
<< "justifies" << objectid(this)
<< "passes" << json::array;
#endif
- if (m_silf->justificationPass() != m_silf->positionPass() && (width >= 0. || (silf()->flags() & 1)))
+ if (m_silf->justificationPass() != m_silf->positionPass() && (width >= 0.f || (silf()->flags() & 1)))
m_silf->runGraphite(this, m_silf->justificationPass(), m_silf->positionPass());
#if !defined GRAPHITE2_NTRACING
if (dbgout)
{
*dbgout << json::item << json::close; // Close up the passes array
- positionSlots(NULL, pSlot, pLast);
+ positionSlots(NULL, pSlot, pLast, m_dir);
Slot *lEnd = pLast->nextSibling();
*dbgout << "output" << json::array;
for(Slot * t = pSlot; t != lEnd; t = t->next())
*dbgout << dslot(this, t);
*dbgout << json::close << json::close;
}
#endif
- res = positionSlots(font, pSlot, pLast);
+ res = positionSlots(font, pSlot, pLast, m_dir);
if (silf()->flags() & 1)
{
delLineEnd(m_first);
delLineEnd(m_last);
}
m_first = oldFirst;
m_last = oldLast;
+
+ if ((m_dir & 1) != m_silf->dir() && m_silf->bidiPass() != m_silf->numPasses())
+ reverseSlots();
return res.x;
}
Slot *Segment::addLineEnd(Slot *nSlot)
{
Slot *eSlot = newSlot();
if (!eSlot) return NULL;
const uint16 gid = silf()->endLineGlyphid();
diff --git a/gfx/graphite2/src/Pass.cpp b/gfx/graphite2/src/Pass.cpp
--- a/gfx/graphite2/src/Pass.cpp
+++ b/gfx/graphite2/src/Pass.cpp
@@ -26,91 +26,120 @@ of the License or (at your option) any l
*/
#include "inc/Main.h"
#include "inc/debug.h"
#include "inc/Endian.h"
#include "inc/Pass.h"
#include <cstring>
#include <cstdlib>
#include <cassert>
+#include <cmath>
#include "inc/Segment.h"
#include "inc/Code.h"
#include "inc/Rule.h"
#include "inc/Error.h"
+#include "inc/Collider.h"
using namespace graphite2;
using vm::Machine;
typedef Machine::Code Code;
+enum KernCollison
+{
+ None = 0,
+ CrossSpace = 1,
+ InWord = 2,
+ reserved = 3
+};
Pass::Pass()
: m_silf(0),
m_cols(0),
m_rules(0),
m_ruleMap(0),
m_startStates(0),
m_transitions(0),
m_states(0),
- m_flags(0),
+ m_codes(0),
+ m_progs(0),
+ m_numCollRuns(0),
+ m_kernColls(0),
m_iMaxLoop(0),
m_numGlyphs(0),
m_numRules(0),
m_numStates(0),
m_numTransition(0),
m_numSuccess(0),
+ m_successStart(0),
m_numColumns(0),
m_minPreCtxt(0),
- m_maxPreCtxt(0)
+ m_maxPreCtxt(0),
+ m_colThreshold(0),
+ m_isReverseDir(false)
{
}
Pass::~Pass()
{
free(m_cols);
free(m_startStates);
free(m_transitions);
free(m_states);
free(m_ruleMap);
- delete [] m_rules;
+ if (m_rules) delete [] m_rules;
+ if (m_codes) delete [] m_codes;
+ free(m_progs);
}
-bool Pass::readPass(const byte * const pass_start, size_t pass_length, size_t subtable_base, GR_MAYBE_UNUSED Face & face, Error &e)
+bool Pass::readPass(const byte * const pass_start, size_t pass_length, size_t subtable_base,
+ GR_MAYBE_UNUSED Face & face, passtype pt, GR_MAYBE_UNUSED uint32 version, Error &e)
{
- const byte * p = pass_start,
- * const pass_end = p + pass_length;
+ const byte * p = pass_start,
+ * const pass_end = p + pass_length;
size_t numRanges;
if (e.test(pass_length < 40, E_BADPASSLENGTH)) return face.error(e);
// Read in basic values
- m_flags = be::read<byte>(p);
+ const byte flags = be::read<byte>(p);
+ if (e.test((flags & 0x1f) &&
+ (pt < PASS_TYPE_POSITIONING || !m_silf->aCollision() || !face.glyphs().hasBoxes()),
+ E_BADCOLLISIONPASS))
+ return face.error(e);
+ m_numCollRuns = flags & 0x7;
+ m_kernColls = (flags >> 3) & 0x3;
+ m_isReverseDir = (flags >> 5) & 0x1;
m_iMaxLoop = be::read<byte>(p);
+ if (m_iMaxLoop < 1) m_iMaxLoop = 1;
be::skip<byte>(p,2); // skip maxContext & maxBackup
m_numRules = be::read<uint16>(p);
+ if (e.test(!m_numRules && m_numCollRuns == 0, E_BADEMPTYPASS)) return face.error(e);
be::skip<uint16>(p); // fsmOffset - not sure why we would want this
const byte * const pcCode = pass_start + be::read<uint32>(p) - subtable_base,
* const rcCode = pass_start + be::read<uint32>(p) - subtable_base,
* const aCode = pass_start + be::read<uint32>(p) - subtable_base;
be::skip<uint32>(p);
m_numStates = be::read<uint16>(p);
m_numTransition = be::read<uint16>(p);
m_numSuccess = be::read<uint16>(p);
m_numColumns = be::read<uint16>(p);
numRanges = be::read<uint16>(p);
be::skip<uint16>(p, 3); // skip searchRange, entrySelector & rangeShift.
assert(p - pass_start == 40);
// Perform some sanity checks.
if ( e.test(m_numTransition > m_numStates, E_BADNUMTRANS)
|| e.test(m_numSuccess > m_numStates, E_BADNUMSUCCESS)
|| e.test(m_numSuccess + m_numTransition < m_numStates, E_BADNUMSTATES)
- || e.test(numRanges == 0, E_NORANGES))
+ || e.test(m_numRules && numRanges == 0, E_NORANGES)
+ || e.test(m_numColumns > 0x7FFF, E_BADNUMCOLUMNS))
return face.error(e);
m_successStart = m_numStates - m_numSuccess;
- if (e.test(p + numRanges * 6 - 4 > pass_end, E_BADPASSLENGTH)) return face.error(e);
+ // test for beyond end - 1 to account for reading uint16
+ if (e.test(p + numRanges * 6 - 2 > pass_end, E_BADPASSLENGTH)) return face.error(e);
m_numGlyphs = be::peek<uint16>(p + numRanges * 6 - 4) + 1;
// Calculate the start of various arrays.
const byte * const ranges = p;
be::skip<uint16>(p, numRanges*3);
const byte * const o_rule_map = p;
be::skip<uint16>(p, m_numSuccess + 1);
// More sanity checks
@@ -126,108 +155,141 @@ bool Pass::readPass(const byte * const p
m_maxPreCtxt = be::read<uint8>(p);
if (e.test(m_minPreCtxt > m_maxPreCtxt, E_BADCTXTLENBOUNDS)) return face.error(e);
const byte * const start_states = p;
be::skip<int16>(p, m_maxPreCtxt - m_minPreCtxt + 1);
const uint16 * const sort_keys = reinterpret_cast<const uint16 *>(p);
be::skip<uint16>(p, m_numRules);
const byte * const precontext = p;
be::skip<byte>(p, m_numRules);
- be::skip<byte>(p); // skip reserved byte
- if (e.test(p + sizeof(uint16) > pass_end, E_BADCTXTLENS)) return face.error(e);
+ if (e.test(p + sizeof(uint16) + sizeof(uint8) > pass_end, E_BADCTXTLENS)) return face.error(e);
+ m_colThreshold = be::read<uint8>(p);
+ if (m_colThreshold == 0) m_colThreshold = 10; // A default
const size_t pass_constraint_len = be::read<uint16>(p);
+
const uint16 * const o_constraint = reinterpret_cast<const uint16 *>(p);
be::skip<uint16>(p, m_numRules + 1);
const uint16 * const o_actions = reinterpret_cast<const uint16 *>(p);
be::skip<uint16>(p, m_numRules + 1);
const byte * const states = p;
+ if (e.test(p + 2u*m_numTransition*m_numColumns >= pass_end, E_BADPASSLENGTH)) return face.error(e);
be::skip<int16>(p, m_numTransition*m_numColumns);
- be::skip<byte>(p); // skip reserved byte
- if (e.test(p != pcCode, E_BADPASSCCODEPTR) || e.test(p >= pass_end, E_BADPASSLENGTH)) return face.error(e);
+ be::skip<uint8>(p);
+ if (e.test(p != pcCode, E_BADPASSCCODEPTR)) return face.error(e);
be::skip<byte>(p, pass_constraint_len);
- if (e.test(p != rcCode, E_BADRULECCODEPTR) || e.test(p >= pass_end, E_BADPASSLENGTH)
+ if (e.test(p != rcCode, E_BADRULECCODEPTR)
|| e.test(size_t(rcCode - pcCode) != pass_constraint_len, E_BADCCODELEN)) return face.error(e);
be::skip<byte>(p, be::peek<uint16>(o_constraint + m_numRules));
- if (e.test(p != aCode, E_BADACTIONCODEPTR) || e.test(p >= pass_end, E_BADPASSLENGTH)) return face.error(e);
+ if (e.test(p != aCode, E_BADACTIONCODEPTR)) return face.error(e);
be::skip<byte>(p, be::peek<uint16>(o_actions + m_numRules));
// We should be at the end or within the pass
if (e.test(p > pass_end, E_BADPASSLENGTH)) return face.error(e);
// Load the pass constraint if there is one.
if (pass_constraint_len)
{
face.error_context(face.error_context() + 1);
m_cPConstraint = vm::Machine::Code(true, pcCode, pcCode + pass_constraint_len,
- precontext[0], be::peek<uint16>(sort_keys), *m_silf, face);
+ precontext[0], be::peek<uint16>(sort_keys), *m_silf, face, PASS_TYPE_UNKNOWN);
if (e.test(!m_cPConstraint, E_OUTOFMEM)
- || e.test(m_cPConstraint.status(), m_cPConstraint.status() + E_CODEFAILURE))
+ || e.test(!m_cPConstraint, m_cPConstraint.status() + E_CODEFAILURE))
return face.error(e);
face.error_context(face.error_context() - 1);
}
- if (!readRanges(ranges, numRanges, e)) return face.error(e);
- if (!readRules(rule_map, numEntries, precontext, sort_keys,
- o_constraint, rcCode, o_actions, aCode, face, e)) return false;
+ if (m_numRules)
+ {
+ if (!readRanges(ranges, numRanges, e)) return face.error(e);
+ if (!readRules(rule_map, numEntries, precontext, sort_keys,
+ o_constraint, rcCode, o_actions, aCode, face, pt, e)) return false;
+ }
#ifdef GRAPHITE2_TELEMETRY
telemetry::category _states_cat(face.tele.states);
#endif
- return readStates(start_states, states, o_rule_map, face, e);
+ return m_numRules ? readStates(start_states, states, o_rule_map, face, e) : true;
}
bool Pass::readRules(const byte * rule_map, const size_t num_entries,
const byte *precontext, const uint16 * sort_key,
const uint16 * o_constraint, const byte *rc_data,
const uint16 * o_action, const byte * ac_data,
- Face & face, Error &e)
+ Face & face, passtype pt, Error &e)
{
const byte * const ac_data_end = ac_data + be::peek<uint16>(o_action + m_numRules);
const byte * const rc_data_end = rc_data + be::peek<uint16>(o_constraint + m_numRules);
- if (e.test(!(m_rules = new Rule [m_numRules]), E_OUTOFMEM)) return face.error(e);
precontext += m_numRules;
sort_key += m_numRules;
o_constraint += m_numRules;
o_action += m_numRules;
// Load rules.
const byte * ac_begin = 0, * rc_begin = 0,
* ac_end = ac_data + be::peek<uint16>(o_action),
* rc_end = rc_data + be::peek<uint16>(o_constraint);
+
+ // Allocate pools
+ m_rules = new Rule [m_numRules];
+ m_codes = new Code [m_numRules*2];
+ const size_t prog_pool_sz = vm::Machine::Code::estimateCodeDataOut(ac_end - ac_data + rc_end - rc_data);
+ m_progs = gralloc<byte>(prog_pool_sz);
+ byte * prog_pool_free = m_progs,
+ * prog_pool_end = m_progs + prog_pool_sz;
+ if (e.test(!(m_rules && m_codes && m_progs), E_OUTOFMEM)) return face.error(e);
+
Rule * r = m_rules + m_numRules - 1;
for (size_t n = m_numRules; n; --n, --r, ac_end = ac_begin, rc_end = rc_begin)
{
face.error_context((face.error_context() & 0xFFFF00) + EC_ARULE + ((n - 1) << 24));
r->preContext = *--precontext;
r->sort = be::peek<uint16>(--sort_key);
#ifndef NDEBUG
r->rule_idx = n - 1;
#endif
if (r->sort > 63 || r->preContext >= r->sort || r->preContext > m_maxPreCtxt || r->preContext < m_minPreCtxt)
return false;
ac_begin = ac_data + be::peek<uint16>(--o_action);
--o_constraint;
rc_begin = be::peek<uint16>(o_constraint) ? rc_data + be::peek<uint16>(o_constraint) : rc_end;
if (ac_begin > ac_end || ac_begin > ac_data_end || ac_end > ac_data_end
- || rc_begin > rc_end || rc_begin > rc_data_end || rc_end > rc_data_end)
+ || rc_begin > rc_end || rc_begin > rc_data_end || rc_end > rc_data_end
+ || vm::Machine::Code::estimateCodeDataOut(ac_end - ac_begin + rc_end - rc_begin) > size_t(prog_pool_end - prog_pool_free))
return false;
- r->action = new vm::Machine::Code(false, ac_begin, ac_end, r->preContext, r->sort, *m_silf, face);
- r->constraint = new vm::Machine::Code(true, rc_begin, rc_end, r->preContext, r->sort, *m_silf, face);
+ r->action = new (m_codes+n*2-2) vm::Machine::Code(false, ac_begin, ac_end, r->preContext, r->sort, *m_silf, face, pt, &prog_pool_free);
+ r->constraint = new (m_codes+n*2-1) vm::Machine::Code(true, rc_begin, rc_end, r->preContext, r->sort, *m_silf, face, pt, &prog_pool_free);
if (e.test(!r->action || !r->constraint, E_OUTOFMEM)
|| e.test(r->action->status() != Code::loaded, r->action->status() + E_CODEFAILURE)
|| e.test(r->constraint->status() != Code::loaded, r->constraint->status() + E_CODEFAILURE)
|| e.test(!r->constraint->immutable(), E_MUTABLECCODE))
return face.error(e);
}
+ byte * moved_progs = static_cast<byte *>(realloc(m_progs, prog_pool_free - m_progs));
+ if (e.test(!moved_progs, E_OUTOFMEM))
+ {
+ if (prog_pool_free - m_progs == 0) m_progs = 0;
+ return face.error(e);
+ }
+
+ if (moved_progs != m_progs)
+ {
+ for (Code * c = m_codes, * const ce = c + m_numRules*2; c != ce; ++c)
+ {
+ c->externalProgramMoved(moved_progs - m_progs);
+ }
+ m_progs = moved_progs;
+ }
+
// Load the rule entries map
face.error_context((face.error_context() & 0xFFFF00) + EC_APASS);
+ //TODO: Coverty: 1315804: FORWARD_NULL
RuleEntry * re = m_ruleMap = gralloc<RuleEntry>(num_entries);
if (e.test(!re, E_OUTOFMEM)) return face.error(e);
for (size_t n = num_entries; n; --n, ++re)
{
const ptrdiff_t rn = be::read<uint16>(rule_map);
if (e.test(rn >= m_numRules, E_BADRULENUM)) return face.error(e);
re->rule = m_rules + rn;
}
@@ -320,43 +382,69 @@ bool Pass::readRanges(const byte * range
if (e.test(ci != ci_end, E_BADRANGE))
return false;
}
return true;
}
-void Pass::runGraphite(Machine & m, FiniteStateMachine & fsm) const
+bool Pass::runGraphite(vm::Machine & m, FiniteStateMachine & fsm, bool reverse) const
{
Slot *s = m.slotMap().segment.first();
- if (!s || !testPassConstraint(m)) return;
- Slot *currHigh = s->next();
+ if (!s || !testPassConstraint(m)) return true;
+ if (reverse)
+ {
+ m.slotMap().segment.reverseSlots();
+ s = m.slotMap().segment.first();
+ }
+ if (m_numRules)
+ {
+ Slot *currHigh = s->next();
#if !defined GRAPHITE2_NTRACING
- if (fsm.dbgout) *fsm.dbgout << "rules" << json::array;
- json::closer rules_array_closer(fsm.dbgout);
+ if (fsm.dbgout) *fsm.dbgout << "rules" << json::array;
+ json::closer rules_array_closer(fsm.dbgout);
#endif
- m.slotMap().highwater(currHigh);
- int lc = m_iMaxLoop;
- do
+ m.slotMap().highwater(currHigh);
+ int lc = m_iMaxLoop;
+ do
+ {
+ findNDoRule(s, m, fsm);
+ if (s && (s == m.slotMap().highwater() || m.slotMap().highpassed() || --lc == 0)) {
+ if (!lc)
+ s = m.slotMap().highwater();
+ lc = m_iMaxLoop;
+ if (s)
+ m.slotMap().highwater(s->next());
+ }
+ } while (s);
+ }
+ //TODO: Use enums for flags
+ const bool collisions = m_numCollRuns || m_kernColls;
+
+ if (!collisions || !m.slotMap().segment.hasCollisionInfo())
+ return true;
+
+ if (m_numCollRuns)
{
- findNDoRule(s, m, fsm);
- if (s && (m.slotMap().highpassed() || s == m.slotMap().highwater() || --lc == 0)) {
- if (!lc)
- {
-// if (dbgout) *dbgout << json::item << json::flat << rule_event(-1, s, 1);
- s = m.slotMap().highwater();
- }
- lc = m_iMaxLoop;
- if (s)
- m.slotMap().highwater(s->next());
+ if (!(m.slotMap().segment.flags() & Segment::SEG_INITCOLLISIONS))
+ {
+ m.slotMap().segment.positionSlots(0, 0, 0, m.slotMap().dir(), true);
+// m.slotMap().segment.flags(m.slotMap().segment.flags() | Segment::SEG_INITCOLLISIONS);
}
- } while (s);
+ if (!collisionShift(&m.slotMap().segment, m.slotMap().dir(), fsm.dbgout))
+ return false;
+ }
+ if ((m_kernColls) && !collisionKern(&m.slotMap().segment, m.slotMap().dir(), fsm.dbgout))
+ return false;
+ if (collisions && !collisionFinish(&m.slotMap().segment, fsm.dbgout))
+ return false;
+ return true;
}
bool Pass::runFSM(FiniteStateMachine& fsm, Slot * slot) const
{
fsm.reset(slot, m_maxPreCtxt);
if (fsm.slots.context() < m_minPreCtxt)
return false;
@@ -419,18 +507,18 @@ void Pass::findNDoRule(Slot * & slot, Ma
{
if (fsm.rules.size() != 0)
{
*fsm.dbgout << json::item << json::object;
dumpRuleEventConsidered(fsm, *r);
if (r != re)
{
const int adv = doAction(r->rule->action, slot, m);
- dumpRuleEventOutput(fsm, *r->rule, slot);
- if (r->rule->action->deletes()) fsm.slots.collectGarbage();
+ dumpRuleEventOutput(fsm, m, *r->rule, slot);
+ if (r->rule->action->deletes()) fsm.slots.collectGarbage(slot);
adjustSlot(adv, slot, fsm.slots);
*fsm.dbgout << "cursor" << objectid(dslot(&fsm.slots.segment, slot))
<< json::close; // Close RuelEvent object
return;
}
else
{
@@ -442,47 +530,49 @@ void Pass::findNDoRule(Slot * & slot, Ma
}
}
else
#endif
{
if (r != re)
{
const int adv = doAction(r->rule->action, slot, m);
- if (r->rule->action->deletes()) fsm.slots.collectGarbage();
+ if (r->rule->action->deletes()) fsm.slots.collectGarbage(slot);
adjustSlot(adv, slot, fsm.slots);
return;
}
}
}
slot = slot->next();
+ return;
}
#if !defined GRAPHITE2_NTRACING
void Pass::dumpRuleEventConsidered(const FiniteStateMachine & fsm, const RuleEntry & re) const
{
*fsm.dbgout << "considered" << json::array;
for (const RuleEntry *r = fsm.rules.begin(); r != &re; ++r)
{
- if (r->rule->preContext > fsm.slots.context()) continue;
- *fsm.dbgout << json::flat << json::object
- << "id" << r->rule - m_rules
+ if (r->rule->preContext > fsm.slots.context())
+ continue;
+ *fsm.dbgout << json::flat << json::object
+ << "id" << r->rule - m_rules
<< "failed" << true
<< "input" << json::flat << json::object
<< "start" << objectid(dslot(&fsm.slots.segment, input_slot(fsm.slots, -r->rule->preContext)))
<< "length" << r->rule->sort
<< json::close // close "input"
<< json::close; // close Rule object
}
}
-void Pass::dumpRuleEventOutput(const FiniteStateMachine & fsm, const Rule & r, Slot * const last_slot) const
+void Pass::dumpRuleEventOutput(const FiniteStateMachine & fsm, Machine & m, const Rule & r, Slot * const last_slot) const
{
*fsm.dbgout << json::item << json::flat << json::object
<< "id" << &r - m_rules
<< "failed" << false
<< "input" << json::flat << json::object
<< "start" << objectid(dslot(&fsm.slots.segment, input_slot(fsm.slots, 0)))
<< "length" << r.sort - r.preContext
<< json::close // close "input"
@@ -490,17 +580,17 @@ void Pass::dumpRuleEventOutput(const Fin
<< json::close // close considered array
<< "output" << json::object
<< "range" << json::flat << json::object
<< "start" << objectid(dslot(&fsm.slots.segment, input_slot(fsm.slots, 0)))
<< "end" << objectid(dslot(&fsm.slots.segment, last_slot))
<< json::close // close "input"
<< "slots" << json::array;
const Position rsb_prepos = last_slot ? last_slot->origin() : fsm.slots.segment.advance();
- fsm.slots.segment.positionSlots(0);
+ fsm.slots.segment.positionSlots(0, 0, 0, m.slotMap().dir());
for(Slot * slot = output_slot(fsm.slots, 0); slot != last_slot; slot = slot->next())
*fsm.dbgout << dslot(&fsm.slots.segment, slot);
*fsm.dbgout << json::close // close "slots"
<< "postshift" << (last_slot ? last_slot->origin() : fsm.slots.segment.advance()) - rsb_prepos
<< json::close; // close "output" object
}
@@ -546,22 +636,26 @@ bool Pass::testConstraint(const Rule & r
if (!ret || m.status() != Machine::finished)
return false;
}
return true;
}
-void SlotMap::collectGarbage()
+void SlotMap::collectGarbage(Slot * &aSlot)
{
for(Slot **s = begin(), *const *const se = end() - 1; s != se; ++s) {
Slot *& slot = *s;
if(slot->isDeleted() || slot->isCopied())
+ {
+ if (slot == aSlot)
+ aSlot = slot->prev() ? slot->prev() : slot->next();
segment.freeSlot(slot);
+ }
}
}
int Pass::doAction(const Code *codeptr, Slot * & slot_out, vm::Machine & m) const
{
assert(codeptr);
@@ -581,40 +675,412 @@ int Pass::doAction(const Code *codeptr,
slot_out = *map;
return ret;
}
void Pass::adjustSlot(int delta, Slot * & slot_out, SlotMap & smap) const
{
- if (delta < 0)
+ if (!slot_out)
{
- if (!slot_out)
+ if (smap.highpassed() || slot_out == smap.highwater())
{
slot_out = smap.segment.last();
++delta;
- if (smap.highpassed() && !smap.highwater())
+ if (!smap.highwater())
smap.highpassed(false);
}
+ else
+ {
+ slot_out = smap.segment.first();
+ --delta;
+ }
+ }
+ if (delta < 0)
+ {
while (++delta <= 0 && slot_out)
{
if (smap.highpassed() && smap.highwater() == slot_out)
smap.highpassed(false);
slot_out = slot_out->prev();
}
}
else if (delta > 0)
{
- if (!slot_out)
- {
- slot_out = smap.segment.first();
- --delta;
- }
while (--delta >= 0 && slot_out)
{
slot_out = slot_out->next();
if (slot_out == smap.highwater() && slot_out)
smap.highpassed(true);
}
}
}
+bool Pass::collisionShift(Segment *seg, int dir, json * const dbgout) const
+{
+ ShiftCollider shiftcoll(dbgout);
+ // bool isfirst = true;
+ bool hasCollisions = false;
+ Slot *start = seg->first(); // turn on collision fixing for the first slot
+ Slot *end = NULL;
+ bool moved = false;
+
+#if !defined GRAPHITE2_NTRACING
+ if (dbgout)
+ *dbgout << "collisions" << json::array
+ << json::flat << json::object << "num-loops" << m_numCollRuns << json::close;
+#endif
+
+ while (start)
+ {
+#if !defined GRAPHITE2_NTRACING
+ if (dbgout) *dbgout << json::object << "phase" << "1" << "moves" << json::array;
+#endif
+ hasCollisions = false;
+ end = NULL;
+ // phase 1 : position shiftable glyphs, ignoring kernable glyphs
+ for (Slot *s = start; s; s = s->next())
+ {
+ const SlotCollision * c = seg->collisionInfo(s);
+ if (start && (c->flags() & (SlotCollision::COLL_FIX | SlotCollision::COLL_KERN)) == SlotCollision::COLL_FIX
+ && !resolveCollisions(seg, s, start, shiftcoll, false, dir, moved, hasCollisions, dbgout))
+ return false;
+ if (s != start && (c->flags() & SlotCollision::COLL_END))
+ {
+ end = s->next();
+ break;
+ }
+ }
+
+#if !defined GRAPHITE2_NTRACING
+ if (dbgout)
+ *dbgout << json::close << json::close; // phase-1
+#endif
+
+ // phase 2 : loop until happy.
+ for (int i = 0; i < m_numCollRuns - 1; ++i)
+ {
+ if (hasCollisions || moved)
+ {
+
+#if !defined GRAPHITE2_NTRACING
+ if (dbgout)
+ *dbgout << json::object << "phase" << "2a" << "loop" << i << "moves" << json::array;
+#endif
+ // phase 2a : if any shiftable glyphs are in collision, iterate backwards,
+ // fixing them and ignoring other non-collided glyphs. Note that this handles ONLY
+ // glyphs that are actually in collision from phases 1 or 2b, and working backwards
+ // has the intended effect of breaking logjams.
+ if (hasCollisions)
+ {
+ hasCollisions = false;
+ #if 0
+ moved = true;
+ for (Slot *s = start; s != end; s = s->next())
+ {
+ SlotCollision * c = seg->collisionInfo(s);
+ c->setShift(Position(0, 0));
+ }
+ #endif
+ Slot *lend = end ? end->prev() : seg->last();
+ Slot *lstart = start->prev();
+ for (Slot *s = lend; s != lstart; s = s->prev())
+ {
+ SlotCollision * c = seg->collisionInfo(s);
+ if (start && (c->flags() & (SlotCollision::COLL_FIX | SlotCollision::COLL_KERN | SlotCollision::COLL_ISCOL))
+ == (SlotCollision::COLL_FIX | SlotCollision::COLL_ISCOL)) // ONLY if this glyph is still colliding
+ {
+ if (!resolveCollisions(seg, s, lend, shiftcoll, true, dir, moved, hasCollisions, dbgout))
+ return false;
+ c->setFlags(c->flags() | SlotCollision::COLL_TEMPLOCK);
+ }
+ }
+ }
+
+#if !defined GRAPHITE2_NTRACING
+ if (dbgout)
+ *dbgout << json::close << json::close // phase 2a
+ << json::object << "phase" << "2b" << "loop" << i << "moves" << json::array;
+#endif
+
+ // phase 2b : redo basic diacritic positioning pass for ALL glyphs. Each successive loop adjusts
+ // glyphs from their current adjusted position, which has the effect of gradually minimizing the
+ // resulting adjustment; ie, the final result will be gradually closer to the original location.
+ // Also it allows more flexibility in the final adjustment, since it is moving along the
+ // possible 8 vectors from successively different starting locations.
+ if (moved)
+ {
+ moved = false;
+ for (Slot *s = start; s != end; s = s->next())
+ {
+ SlotCollision * c = seg->collisionInfo(s);
+ if (start && (c->flags() & (SlotCollision::COLL_FIX | SlotCollision::COLL_TEMPLOCK
+ | SlotCollision::COLL_KERN)) == SlotCollision::COLL_FIX
+ && !resolveCollisions(seg, s, start, shiftcoll, false, dir, moved, hasCollisions, dbgout))
+ return false;
+ else if (c->flags() & SlotCollision::COLL_TEMPLOCK)
+ c->setFlags(c->flags() & ~SlotCollision::COLL_TEMPLOCK);
+ }
+ }
+ // if (!hasCollisions) // no, don't leave yet because phase 2b will continue to improve things
+ // break;
+#if !defined GRAPHITE2_NTRACING
+ if (dbgout)
+ *dbgout << json::close << json::close; // phase 2
+#endif
+ }
+ }
+ if (!end)
+ break;
+ start = NULL;
+ for (Slot *s = end->prev(); s; s = s->next())
+ {
+ if (seg->collisionInfo(s)->flags() & SlotCollision::COLL_START)
+ {
+ start = s;
+ break;
+ }
+ }
+ }
+ return true;
+}
+
+bool Pass::collisionKern(Segment *seg, int dir, json * const dbgout) const
+{
+ KernCollider kerncoll(dbgout);
+ Slot *start = seg->first();
+ float ymin = 1e38f;
+ float ymax = -1e38f;
+ const GlyphCache &gc = seg->getFace()->glyphs();
+
+ // phase 3 : handle kerning of clusters
+#if !defined GRAPHITE2_NTRACING
+ if (dbgout)
+ *dbgout << json::object << "phase" << "3" << "moves" << json::array;
+#endif
+
+ for (Slot *s = seg->first(); s; s = s->next())
+ {
+ if (!gc.check(s->gid()))
+ return false;
+ const SlotCollision * c = seg->collisionInfo(s);
+ const Rect &bbox = seg->theGlyphBBoxTemporary(s->gid());
+ float y = s->origin().y + c->shift().y;
+ ymax = max(y + bbox.tr.y, ymax);
+ ymin = min(y + bbox.bl.y, ymin);
+ if (start && (c->flags() & (SlotCollision::COLL_KERN | SlotCollision::COLL_FIX))
+ == (SlotCollision::COLL_KERN | SlotCollision::COLL_FIX))
+ resolveKern(seg, s, start, kerncoll, dir, ymin, ymax, dbgout);
+ if (c->flags() & SlotCollision::COLL_END)
+ start = NULL;
+ if (c->flags() & SlotCollision::COLL_START)
+ start = s;
+ }
+
+#if !defined GRAPHITE2_NTRACING
+ if (dbgout)
+ *dbgout << json::close << json::close; // phase 3
+#endif
+ return true;
+}
+
+bool Pass::collisionFinish(Segment *seg, GR_MAYBE_UNUSED json * const dbgout) const
+{
+ for (Slot *s = seg->first(); s; s = s->next())
+ {
+ SlotCollision *c = seg->collisionInfo(s);
+ if (c->shift().x != 0 || c->shift().y != 0)
+ {
+ const Position newOffset = c->shift();
+ const Position nullPosition(0, 0);
+ c->setOffset(newOffset + c->offset());
+ c->setShift(nullPosition);
+ }
+ }
+// seg->positionSlots();
+
+#if !defined GRAPHITE2_NTRACING
+ if (dbgout)
+ *dbgout << json::close;
+#endif
+ return true;
+}
+
+// Can slot s be kerned, or is it attached to something that can be kerned?
+static bool inKernCluster(Segment *seg, Slot *s)
+{
+ SlotCollision *c = seg->collisionInfo(s);
+ if (c->flags() & SlotCollision::COLL_KERN /** && c->flags() & SlotCollision::COLL_FIX **/ )
+ return true;
+ while (s->attachedTo())
+ {
+ s = s->attachedTo();
+ c = seg->collisionInfo(s);
+ if (c->flags() & SlotCollision::COLL_KERN /** && c->flags() & SlotCollision::COLL_FIX **/ )
+ return true;
+ }
+ return false;
+}
+
+// Fix collisions for the given slot.
+// Return true if everything was fixed, false if there are still collisions remaining.
+// isRev means be we are processing backwards.
+bool Pass::resolveCollisions(Segment *seg, Slot *slotFix, Slot *start,
+ ShiftCollider &coll, GR_MAYBE_UNUSED bool isRev, int dir, bool &moved, bool &hasCol,
+ json * const dbgout) const
+{
+ Slot * nbor; // neighboring slot
+ SlotCollision *cFix = seg->collisionInfo(slotFix);
+ if (!coll.initSlot(seg, slotFix, cFix->limit(), cFix->margin(), cFix->marginWt(),
+ cFix->shift(), cFix->offset(), dir, dbgout))
+ return false;
+ bool collides = false;
+ // When we're processing forward, ignore kernable glyphs that preceed the target glyph.
+ // When processing backward, don't ignore these until we pass slotFix.
+ bool ignoreForKern = !isRev;
+ bool rtl = dir & 1;
+ Slot *base = slotFix;
+ while (base->attachedTo())
+ base = base->attachedTo();
+ Position zero(0., 0.);
+
+ // Look for collisions with the neighboring glyphs.
+ for (nbor = start; nbor; nbor = isRev ? nbor->prev() : nbor->next())
+ {
+ SlotCollision *cNbor = seg->collisionInfo(nbor);
+ bool sameCluster = nbor->isChildOf(base);
+ if (nbor != slotFix // don't process if this is the slot of interest
+ && !(cNbor->flags() & SlotCollision::COLL_IGNORE) // don't process if ignoring
+ && (nbor == base || sameCluster // process if in the same cluster as slotFix
+ || !inKernCluster(seg, nbor) // or this cluster is not to be kerned
+ || (rtl ^ ignoreForKern)) // or it comes before(ltr) or after(rtl)
+ && (!isRev // if processing forwards then good to merge otherwise only:
+ || !(cNbor->flags() & SlotCollision::COLL_FIX) // merge in immovable stuff
+ || ((cNbor->flags() & SlotCollision::COLL_KERN) && !sameCluster) // ignore other kernable clusters
+ || (cNbor->flags() & SlotCollision::COLL_ISCOL)) // test against other collided glyphs
+ && !coll.mergeSlot(seg, nbor, cNbor->shift(), !ignoreForKern, sameCluster, collides, false, dbgout))
+ return false;
+ else if (nbor == slotFix)
+ // Switching sides of this glyph - if we were ignoring kernable stuff before, don't anymore.
+ ignoreForKern = !ignoreForKern;
+
+ if (nbor != start && (cNbor->flags() & (isRev ? SlotCollision::COLL_START : SlotCollision::COLL_END)))
+ break;
+ }
+ bool isCol = false;
+ if (collides || cFix->shift().x != 0.f || cFix->shift().y != 0.f)
+ {
+ Position shift = coll.resolve(seg, isCol, dbgout);
+ // isCol has been set to true if a collision remains.
+ if (std::fabs(shift.x) < 1e38f && std::fabs(shift.y) < 1e38f)
+ {
+ if (sqr(shift.x-cFix->shift().x) + sqr(shift.y-cFix->shift().y) >= m_colThreshold * m_colThreshold)
+ moved = true;
+ cFix->setShift(shift);
+ if (slotFix->firstChild())
+ {
+ Rect bbox;
+ Position here = slotFix->origin() + shift;
+ float clusterMin = here.x;
+ slotFix->firstChild()->finalise(seg, NULL, here, bbox, 0, clusterMin, rtl, false);
+ }
+ }
+ }
+ else
+ {
+ // This glyph is not colliding with anything.
+#if !defined GRAPHITE2_NTRACING
+ if (dbgout)
+ {
+ *dbgout << json::object
+ << "missed" << objectid(dslot(seg, slotFix));
+ coll.outputJsonDbg(dbgout, seg, -1);
+ *dbgout << json::close;
+ }
+#endif
+ }
+
+ // Set the is-collision flag bit.
+ if (isCol)
+ { cFix->setFlags(cFix->flags() | SlotCollision::COLL_ISCOL | SlotCollision::COLL_KNOWN); }
+ else
+ { cFix->setFlags((cFix->flags() & ~SlotCollision::COLL_ISCOL) | SlotCollision::COLL_KNOWN); }
+ hasCol |= isCol;
+ return true;
+}
+
+float Pass::resolveKern(Segment *seg, Slot *slotFix, GR_MAYBE_UNUSED Slot *start, KernCollider &coll, int dir,
+ float &ymin, float &ymax, json *const dbgout) const
+{
+ Slot *nbor; // neighboring slot
+ float currSpace = 0.;
+ bool collides = false;
+ unsigned int space_count = 0;
+ Slot *base = slotFix;
+ while (base->attachedTo())
+ base = base->attachedTo();
+ SlotCollision *cFix = seg->collisionInfo(base);
+ const GlyphCache &gc = seg->getFace()->glyphs();
+
+ if (base != slotFix)
+ {
+ cFix->setFlags(cFix->flags() | SlotCollision::COLL_KERN | SlotCollision::COLL_FIX);
+ return 0;
+ }
+ bool seenEnd = (cFix->flags() & SlotCollision::COLL_END) != 0;
+ bool isInit = false;
+
+ for (nbor = slotFix->next(); nbor; nbor = nbor->next())
+ {
+ if (nbor->isChildOf(base))
+ continue;
+ if (!gc.check(nbor->gid()))
+ return 0.;
+ const Rect &bb = seg->theGlyphBBoxTemporary(nbor->gid());
+ SlotCollision *cNbor = seg->collisionInfo(nbor);
+ if (bb.bl.y == 0.f && bb.tr.y == 0.f)
+ {
+ if (m_kernColls == InWord)
+ break;
+ // Add space for a space glyph.
+ currSpace += nbor->advance();
+ ++space_count;
+ }
+ else
+ {
+ space_count = 0;
+ float y = nbor->origin().y + cNbor->shift().y;
+ ymax = max(y + bb.tr.y, ymax);
+ ymin = min(y + bb.bl.y, ymin);
+ if (nbor != slotFix && !(cNbor->flags() & SlotCollision::COLL_IGNORE))
+ {
+ seenEnd = true;
+ if (!isInit)
+ {
+ if (!coll.initSlot(seg, slotFix, cFix->limit(), cFix->margin(),
+ cFix->shift(), cFix->offset(), dir, ymin, ymax, dbgout))
+ return 0.;
+ isInit = true;
+ }
+ collides |= coll.mergeSlot(seg, nbor, cNbor->shift(), currSpace, dir, dbgout);
+ }
+ }
+ if (cNbor->flags() & SlotCollision::COLL_END)
+ {
+ if (seenEnd && space_count < 2)
+ break;
+ else
+ seenEnd = true;
+ }
+ }
+ if (collides)
+ {
+ Position mv = coll.resolve(seg, slotFix, dir, cFix->margin(), dbgout);
+ coll.shift(mv, dir);
+ Position delta = slotFix->advancePos() + mv - cFix->shift();
+ slotFix->advance(delta);
+ cFix->setShift(mv);
+ return mv.x;
+ }
+ return 0.;
+}
+
diff --git a/gfx/graphite2/src/Position.cpp b/gfx/graphite2/src/Position.cpp
new file mode 100644
--- /dev/null
+++ b/gfx/graphite2/src/Position.cpp
@@ -0,0 +1,98 @@
+/* GRAPHITE2 LICENSING
+
+ Copyright 2010, SIL International
+ All rights reserved.
+
+ This library is free software; you can redistribute it and/or modify
+ it under the terms of the GNU Lesser General Public License as published
+ by the Free Software Foundation; either version 2.1 of License, or
+ (at your option) any later version.
+
+ This program 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
+ Lesser General Public License for more details.
+
+ You should also have received a copy of the GNU Lesser General Public
+ License along with this library in the file named "LICENSE".
+ If not, write to the Free Software Foundation, 51 Franklin Street,
+ Suite 500, Boston, MA 02110-1335, USA or visit their web page on the
+ internet at http://www.fsf.org/licenses/lgpl.html.
+
+Alternatively, the contents of this file may be used under the terms of the
+Mozilla Public License (http://mozilla.org/MPL) or the GNU General Public
+License, as published by the Free Software Foundation, either version 2
+of the License or (at your option) any later version.
+*/
+#include "inc/Position.h"
+#include <cmath>
+
+using namespace graphite2;
+
+bool Rect::hitTest(Rect &other)
+{
+ if (bl.x > other.tr.x) return false;
+ if (tr.x < other.bl.x) return false;
+ if (bl.y > other.tr.y) return false;
+ if (tr.y < other.bl.y) return false;
+ return true;
+}
+
+Position Rect::overlap(Position &offset, Rect &other, Position &othero)
+{
+ float ax = (bl.x + offset.x) - (other.tr.x + othero.x);
+ float ay = (bl.y + offset.y) - (other.tr.y + othero.y);
+ float bx = (other.bl.x + othero.x) - (tr.x + offset.x);
+ float by = (other.bl.y + othero.y) - (tr.y + offset.y);
+ return Position((ax > bx ? ax : bx), (ay > by ? ay : by));
+}
+
+float boundmin(float move, float lim1, float lim2, float &error)
+{
+ // error is always positive for easy comparison
+ if (move < lim1 && move < lim2)
+ { error = 0.; return move; }
+ else if (lim1 < lim2)
+ { error = std::fabs(move - lim1); return lim1; }
+ else
+ { error = std::fabs(move - lim2); return lim2; }
+}
+
+#if 0
+Position Rect::constrainedAvoid(Position &offset, Rect &box, Rect &sdbox, Position &other, Rect &obox, Rect &osdbox)
+{
+ // a = max, i = min, s = sum, d = diff
+ float eax, eay, eix, eiy, eas, eis, ead, eid;
+ float beste = INF;
+ Position res;
+ // calculate the movements in each direction and the error (amount of remaining overlap)
+ // first param is movement, second and third are movement over the constraining box
+ float ax = boundmin(obox.tr.x + other.x - box.bl.x - offset.x + 1, tr.x - offset.x, INF, &eax);
+ float ay = boundmin(obox.tr.y + other.y - box.bl.y - offset.y + 1, tr.y - offset.y, INF, &eay);
+ float ix = boundmin(obox.bl.x + other.x - box.tr.x - offset.x + 1, bl.x - offset.x, INF, &eix);
+ float iy = boundmin(obox.bl.y + other.y - box.tr.y - offset.y + 1, bl.y - offset.y, INF, &eiy);
+ float as = boundmin(ISQRT2 * (osdbox.tr.x + other.x + other.y - sdbox.bl.x - offset.x - offset.y) + 1, tr.x - offset.x, tr.y - offset.y, &eas);
+ float is = boundmin(ISQRT2 * (osdbox.bl.x + other.x + other.y - sdbox.tr.x - offset.x - offset.y) + 1, bl.x - offset.x, bl.y - offset.y, &eis);
+ float ad = boundmin(ISQRT2 * (osdbox.tr.y + other.x - other.y - sdbox.bl.y - offset.x + offset.y) + 1, tr.y - offset.y, tr.x - offset.x, &ead);
+ float id = boundmin(ISQRT2 * (osdbox.bl.y + other.x - other.y - sdbox.tr.y - offset.x + offset.y) + 1, bl.y - offset.y, bl.x - offset.x, &eid);
+
+ if (eax < beste)
+ { res = Position(ax, 0); beste = eax; }
+ if (eay < beste)
+ { res = Position(0, ay); beste = eay; }
+ if (eix < beste)
+ { res = Position(ix, 0); beste = eix; }
+ if (eiy < beste)
+ { res = Position(0, iy); beste = eiy; }
+ if (SQRT2 * (eas) < beste)
+ { res = Position(as, ad); beste = SQRT2 * (eas); }
+ if (SQRT2 * (eis) < beste)
+ { res = Position(is, is); beste = SQRT2 * (eis); }
+ if (SQRT2 * (ead) < beste)
+ { res = Position(ad, ad); beste = SQRT2 * (ead); }
+ if (SQRT2 * (eid) < beste)
+ { res = Position(id, id); beste = SQRT2 * (eid); }
+ return res;
+}
+#endif
+
diff --git a/gfx/graphite2/src/SegCache.cpp b/gfx/graphite2/src/SegCache.cpp
--- a/gfx/graphite2/src/SegCache.cpp
+++ b/gfx/graphite2/src/SegCache.cpp
@@ -35,17 +35,17 @@ of the License or (at your option) any l
using namespace graphite2;
#ifndef GRAPHITE2_NSEGCACHE
SegCache::SegCache(const SegCacheStore * store, const Features & feats)
: m_prefixLength(ePrefixLength),
- m_maxCachedSegLength(eMaxSpliceSize),
+// m_maxCachedSegLength(eMaxSpliceSize),
m_segmentCount(0),
m_features(feats),
m_totalAccessCount(0l), m_totalMisses(0l),
m_purgeFactor(1.0f / (ePurgeFactor * store->maxSegmentCount()))
{
m_prefixes.raw = grzeroalloc<void*>(store->maxCmapGid() + 2);
m_prefixes.range[SEG_CACHE_MIN_INDEX] = SEG_CACHE_UNSET_INDEX;
m_prefixes.range[SEG_CACHE_MAX_INDEX] = SEG_CACHE_UNSET_INDEX;
@@ -79,17 +79,17 @@ SegCache::~SegCache()
{
assert(m_prefixes.raw == NULL);
}
SegCacheEntry* SegCache::cache(SegCacheStore * store, const uint16* cmapGlyphs, size_t length, Segment * seg, size_t charOffset)
{
uint16 pos = 0;
if (!length) return NULL;
- assert(length < m_maxCachedSegLength);
+// assert(length < m_maxCachedSegLength);
SegCachePrefixArray pArray = m_prefixes;
while (pos + 1 < m_prefixLength)
{
uint16 gid = (pos < length)? cmapGlyphs[pos] : 0;
if (!pArray.array[gid].raw)
{
pArray.array[gid].raw = grzeroalloc<void*>(store->maxCmapGid() + 2);
if (!pArray.array[gid].raw)
diff --git a/gfx/graphite2/src/Segment.cpp b/gfx/graphite2/src/Segment.cpp
--- a/gfx/graphite2/src/Segment.cpp
+++ b/gfx/graphite2/src/Segment.cpp
@@ -31,48 +31,53 @@ of the License or (at your option) any l
#include "inc/bits.h"
#include "inc/Segment.h"
#include "graphite2/Font.h"
#include "inc/CharInfo.h"
#include "inc/debug.h"
#include "inc/Slot.h"
#include "inc/Main.h"
#include "inc/CmapCache.h"
-#include "inc/Bidi.h"
+#include "inc/Collider.h"
#include "graphite2/Segment.h"
using namespace graphite2;
Segment::Segment(unsigned int numchars, const Face* face, uint32 script, int textDir)
: m_freeSlots(NULL),
m_freeJustifies(NULL),
m_charinfo(new CharInfo[numchars]),
+ m_collisions(NULL),
m_face(face),
m_silf(face->chooseSilf(script)),
m_first(NULL),
m_last(NULL),
m_bufSize(numchars + 10),
m_numGlyphs(numchars),
m_numCharinfo(numchars),
m_passBits(m_silf->aPassBits() ? -1 : 0),
m_defaultOriginal(0),
- m_dir(textDir)
+ m_dir(textDir),
+ m_flags(((m_silf->flags() & 0x20) != 0) << 1)
{
freeSlot(newSlot());
m_bufSize = log_binary(numchars)+1;
}
Segment::~Segment()
{
for (SlotRope::iterator i = m_slots.begin(); i != m_slots.end(); ++i)
free(*i);
- for (AttributeRope::iterator j = m_userAttrs.begin(); j != m_userAttrs.end(); ++j)
- free(*j);
+ for (AttributeRope::iterator i = m_userAttrs.begin(); i != m_userAttrs.end(); ++i)
+ free(*i);
+ for (JustifyRope::iterator i = m_justifies.begin(); i != m_justifies.end(); ++i)
+ free(*i);
delete[] m_charinfo;
+ free(m_collisions);
}
#ifndef GRAPHITE2_NSEGCACHE
SegmentScopeState Segment::setScope(Slot * firstSlot, Slot * lastSlot, size_t subLength)
{
SegmentScopeState state;
state.numGlyphsOutsideScope = m_numGlyphs - subLength;
state.realFirstSlot = m_first;
@@ -159,28 +164,35 @@ void Segment::appendSlot(int id, int cid
m_passBits &= theGlyph->attrs()[m_silf->aPassBits()]
| (m_silf->numPasses() > 16 ? (theGlyph->attrs()[m_silf->aPassBits() + 1] << 16) : 0);
}
Slot *Segment::newSlot()
{
if (!m_freeSlots)
{
+ // check that the segment doesn't grow indefinintely
+ if (m_numGlyphs > m_numCharinfo * MAX_SEG_GROWTH_FACTOR)
+ return NULL;
int numUser = m_silf->numUser();
#if !defined GRAPHITE2_NTRACING
if (m_face->logger()) ++numUser;
#endif
Slot *newSlots = grzeroalloc<Slot>(m_bufSize);
- int16 *newAttrs = grzeroalloc<int16>(numUser * m_bufSize);
- if (!newSlots || !newAttrs) return NULL;
+ int16 *newAttrs = grzeroalloc<int16>(m_bufSize * numUser);
+ if (!newSlots || !newAttrs)
+ {
+ free(newSlots);
+ free(newAttrs);
+ return NULL;
+ }
for (size_t i = 0; i < m_bufSize; i++)
{
+ ::new (newSlots + i) Slot(newAttrs + i * numUser);
newSlots[i].next(newSlots + i + 1);
- newSlots[i].userAttrs(newAttrs + i * numUser);
- newSlots[i].setBidiClass(-1);
}
newSlots[m_bufSize - 1].next(NULL);
newSlots[0].next(NULL);
m_slots.push_back(newSlots);
m_userAttrs.push_back(newAttrs);
m_freeSlots = (m_bufSize > 1)? newSlots + 1 : NULL;
return newSlots;
}
@@ -197,17 +209,17 @@ void Segment::freeSlot(Slot *aSlot)
if (aSlot->attachedTo())
aSlot->attachedTo()->removeChild(aSlot);
while (aSlot->firstChild())
{
aSlot->firstChild()->attachTo(NULL);
aSlot->removeChild(aSlot->firstChild());
}
// reset the slot incase it is reused
- ::new (aSlot) Slot;
+ ::new (aSlot) Slot(aSlot->userAttrs());
memset(aSlot->userAttrs(), 0, m_silf->numUser() * sizeof(int16));
// Update generation counter for debug
#if !defined GRAPHITE2_NTRACING
if (m_face->logger())
++aSlot->userAttrs()[m_silf->numUser()];
#endif
// update next pointer
if (!m_freeSlots)
@@ -301,16 +313,71 @@ void Segment::splice(size_t offset, size
slot->set(*srcSlot, offset, m_silf->numUser(), m_silf->numJustLevels(), numChars);
if (srcSlot->attachedTo()) slot->attachTo(indexmap[srcSlot->attachedTo()->index()]);
if (srcSlot->nextSibling()) slot->m_sibling = indexmap[srcSlot->nextSibling()->index()];
if (srcSlot->firstChild()) slot->m_child = indexmap[srcSlot->firstChild()->index()];
}
}
#endif // GRAPHITE2_NSEGCACHE
+// reverse the slots but keep diacritics in their same position after their bases
+void Segment::reverseSlots()
+{
+ m_dir = m_dir ^ 64; // invert the reverse flag
+ if (m_first == m_last) return; // skip 0 or 1 glyph runs
+
+ Slot *t = 0;
+ Slot *curr = m_first;
+ Slot *tlast;
+ Slot *tfirst;
+ Slot *out = 0;
+
+ while (curr && getSlotBidiClass(curr) == 16)
+ curr = curr->next();
+ if (!curr) return;
+ tfirst = curr->prev();
+ tlast = curr;
+
+ while (curr)
+ {
+ if (getSlotBidiClass(curr) == 16)
+ {
+ Slot *d = curr->next();
+ while (d && getSlotBidiClass(d) == 16)
+ d = d->next();
+
+ d = d ? d->prev() : m_last;
+ Slot *p = out->next(); // one after the diacritics. out can't be null
+ if (p)
+ p->prev(d);
+ else
+ tlast = d;
+ t = d->next();
+ d->next(p);
+ curr->prev(out);
+ out->next(curr);
+ }
+ else // will always fire first time round the loop
+ {
+ if (out)
+ out->prev(curr);
+ t = curr->next();
+ curr->next(out);
+ out = curr;
+ }
+ curr = t;
+ }
+ out->prev(tfirst);
+ if (tfirst)
+ tfirst->next(out);
+ else
+ m_first = out;
+ m_last = tlast;
+}
+
void Segment::linkClusters(Slot *s, Slot * end)
{
end = end->next();
for (; s != end && !s->isBase(); s = s->next());
Slot * ls = s;
if (m_dir & 1)
@@ -330,39 +397,47 @@ void Segment::linkClusters(Slot *s, Slot
if (!s->isBase()) continue;
ls->sibling(s);
ls = s;
}
}
}
-Position Segment::positionSlots(const Font *font, Slot * iStart, Slot * iEnd)
+Position Segment::positionSlots(const Font *font, Slot * iStart, Slot * iEnd, bool isRtl, bool isFinal)
{
Position currpos(0., 0.);
float clusterMin = 0.;
Rect bbox;
+ if (currdir() != isRtl)
+ {
+ Slot *temp;
+ reverseSlots();
+ temp = iStart;
+ iStart = iEnd;
+ iEnd = temp;
+ }
if (!iStart) iStart = m_first;
if (!iEnd) iEnd = m_last;
- if (m_dir & 1)
+ if (isRtl)
{
for (Slot * s = iEnd, * const end = iStart->prev(); s && s != end; s = s->prev())
{
if (s->isBase())
- currpos = s->finalise(this, font, currpos, bbox, 0, clusterMin = currpos.x);
+ currpos = s->finalise(this, font, currpos, bbox, 0, clusterMin = currpos.x, isRtl, isFinal);
}
}
else
{
for (Slot * s = iStart, * const end = iEnd->next(); s && s != end; s = s->next())
{
if (s->isBase())
- currpos = s->finalise(this, font, currpos, bbox, 0, clusterMin = currpos.x);
+ currpos = s->finalise(this, font, currpos, bbox, 0, clusterMin = currpos.x, isRtl, isFinal);
}
}
return currpos;
}
void Segment::associateChars(int offset, int numChars)
{
@@ -429,66 +504,28 @@ bool Segment::read_text(const Face *face
{
case gr_utf8: process_utf_data(*this, *face, addFeatures(*pFeats), utf8::const_iterator(pStart), nChars); break;
case gr_utf16: process_utf_data(*this, *face, addFeatures(*pFeats), utf16::const_iterator(pStart), nChars); break;
case gr_utf32: process_utf_data(*this, *face, addFeatures(*pFeats), utf32::const_iterator(pStart), nChars); break;
}
return true;
}
-void Segment::prepare_pos(const Font * /*font*/)
+void Segment::doMirror(uint16 aMirror)
{
- // copy key changeable metrics into slot (if any);
-}
-
-Slot *process_bidi(Slot *start, int level, int prelevel, int &nextLevel, int dirover, int isol, int &cisol, int &isolerr, int &embederr, int init, Segment *seg, uint8 aMirror, BracketPairStack &stack);
-void resolveImplicit(Slot *s, Segment *seg, uint8 aMirror);
-void resolveWhitespace(int baseLevel, Slot *s);
-Slot *resolveOrder(Slot * & s, const bool reordered, const int level = 0);
-
-void Segment::bidiPass(uint8 aBidi, int paradir, uint8 aMirror)
-{
- if (slotCount() == 0)
- return;
-
- Slot *s;
- int baseLevel = paradir ? 1 : 0;
- unsigned int bmask = 0;
- unsigned int ssize = 0;
- for (s = first(); s; s = s->next())
+ Slot * s;
+ for (s = m_first; s; s = s->next())
{
- if (s->getBidiClass() == -1)
- {
- unsigned int bAttr = glyphAttr(s->gid(), aBidi);
- s->setBidiClass((bAttr <= 22) * bAttr);
- }
- bmask |= (1 << s->getBidiClass());
- s->setBidiLevel(baseLevel);
- if (glyphAttr(s->gid(), aMirror) && s->getBidiClass() == 21)
- ++ssize;
- }
-
- BracketPairStack bstack(ssize);
- if (bmask & (paradir ? 0x2E7892 : 0x2E789C))
- {
- // O(8N) algorithm, with no working data beyond what is needed for processParens
- int nextLevel = paradir;
- int e, i, c;
- process_bidi(first(), baseLevel, paradir, nextLevel, 0, 0, c = 0, i = 0, e = 0, 1, this, aMirror, bstack);
- resolveImplicit(first(), this, aMirror);
- resolveWhitespace(baseLevel, last());
- s = resolveOrder(s = first(), baseLevel != 0);
- if (s)
- {
- first(s); last(s->prev());
- s->prev()->next(0); s->prev(0);
- }
- }
- else if (!(dir() & 4) && baseLevel && aMirror)
- {
- for (s = first(); s; s = s->next())
- {
- unsigned short g = glyphAttr(s->gid(), aMirror);
- if (g) s->setGlyph(this, g);
- }
+ unsigned short g = glyphAttr(s->gid(), aMirror);
+ if (g && (!(dir() & 4) || !glyphAttr(s->gid(), aMirror + 1)))
+ s->setGlyph(this, g);
}
}
+bool Segment::initCollisions()
+{
+ m_collisions = grzeroalloc<SlotCollision>(slotCount());
+ if (!m_collisions) return false;
+
+ for (Slot *p = m_first; p; p = p->next())
+ ::new (collisionInfo(p)) SlotCollision(this, p);
+ return true;
+}
diff --git a/gfx/graphite2/src/Silf.cpp b/gfx/graphite2/src/Silf.cpp
--- a/gfx/graphite2/src/Silf.cpp
+++ b/gfx/graphite2/src/Silf.cpp
@@ -46,23 +46,25 @@ Silf::Silf() throw()
m_justs(0),
m_numPasses(0),
m_numJusts(0),
m_sPass(0),
m_pPass(0),
m_jPass(0),
m_bPass(0),
m_flags(0),
+ m_dir(0),
m_aPseudo(0),
m_aBreak(0),
m_aUser(0),
m_aBidi(0),
m_aMirror(0),
m_aPassBits(0),
m_iMaxComp(0),
+ m_aCollision(0),
m_aLig(0),
m_numPseudo(0),
m_nClass(0),
m_nLinear(0),
m_gEndLine(0)
{
memset(&m_silfinfo, 0, sizeof m_silfinfo);
}
@@ -88,16 +90,20 @@ void Silf::releaseBuffers() throw()
bool Silf::readGraphite(const byte * const silf_start, size_t lSilf, Face& face, uint32 version)
{
const byte * p = silf_start,
* const silf_end = p + lSilf;
Error e;
+ if (e.test(version >= 0x00060000, E_BADSILFVERSION))
+ {
+ releaseBuffers(); return face.error(e);
+ }
if (version >= 0x00030000)
{
if (e.test(lSilf < 28, E_BADSIZE)) { releaseBuffers(); return face.error(e); }
be::skip<int32>(p); // ruleVersion
be::skip<uint16>(p,2); // passOffset & pseudosOffset
}
else if (e.test(lSilf < 20, E_BADSIZE)) { releaseBuffers(); return face.error(e); }
const uint16 maxGlyph = be::read<uint16>(p);
@@ -132,73 +138,88 @@ bool Silf::readGraphite(const byte * con
for (uint8 i = 0; i < m_numJusts; i++)
{
::new(m_justs + i) Justinfo(p[0], p[1], p[2], p[3]);
be::skip<byte>(p,8);
}
}
if (e.test(p + sizeof(uint16) + sizeof(uint8)*8 >= silf_end, E_BADENDJUSTS)) { releaseBuffers(); return face.error(e); }
- m_aLig = be::read<uint16>(p);
- m_aUser = be::read<uint8>(p);
- m_iMaxComp = be::read<uint8>(p);
- be::skip<byte>(p,5); // direction and 4 reserved bytes
+ m_aLig = be::read<uint16>(p);
+ m_aUser = be::read<uint8>(p);
+ m_iMaxComp = be::read<uint8>(p);
+ m_dir = be::read<uint8>(p) - 1;
+ m_aCollision = be::read<uint8>(p);
+ be::skip<byte>(p,3);
be::skip<uint16>(p, be::read<uint8>(p)); // don't need critical features yet
be::skip<byte>(p); // reserved
if (e.test(p >= silf_end, E_BADCRITFEATURES)) { releaseBuffers(); return face.error(e); }
be::skip<uint32>(p, be::read<uint8>(p)); // don't use scriptTag array.
if (e.test(p + sizeof(uint16) + sizeof(uint32) >= silf_end, E_BADSCRIPTTAGS)) { releaseBuffers(); return face.error(e); }
m_gEndLine = be::read<uint16>(p); // lbGID
const byte * o_passes = p,
* const passes_start = silf_start + be::read<uint32>(p);
const size_t num_attrs = face.glyphs().numAttrs();
if (e.test(m_aPseudo >= num_attrs, E_BADAPSEUDO)
|| e.test(m_aBreak >= num_attrs, E_BADABREAK)
|| e.test(m_aBidi >= num_attrs, E_BADABIDI)
|| e.test(m_aMirror>= num_attrs, E_BADAMIRROR)
+ || e.test(m_aCollision && m_aCollision >= num_attrs - 5, E_BADACOLLISION)
|| e.test(m_numPasses > 128, E_BADNUMPASSES) || e.test(passes_start >= silf_end, E_BADPASSESSTART)
|| e.test(m_pPass < m_sPass, E_BADPASSBOUND) || e.test(m_pPass > m_numPasses, E_BADPPASS) || e.test(m_sPass > m_numPasses, E_BADSPASS)
|| e.test(m_jPass < m_pPass, E_BADJPASSBOUND) || e.test(m_jPass > m_numPasses, E_BADJPASS)
|| e.test((m_bPass != 0xFF && (m_bPass < m_jPass || m_bPass > m_numPasses)), E_BADBPASS)
|| e.test(m_aLig > 127, E_BADALIG))
{
releaseBuffers();
return face.error(e);
}
be::skip<uint32>(p, m_numPasses);
if (e.test(p + sizeof(uint16) >= passes_start, E_BADPASSESSTART)) { releaseBuffers(); return face.error(e); }
m_numPseudo = be::read<uint16>(p);
be::skip<uint16>(p, 3); // searchPseudo, pseudoSelector, pseudoShift
- if (e.test(p + m_numPseudo*(sizeof(uint32) + sizeof(uint16)) >= passes_start, E_BADNUMPSEUDO))
+ m_pseudos = new Pseudo[m_numPseudo];
+ if (e.test(p + m_numPseudo*(sizeof(uint32) + sizeof(uint16)) >= passes_start, E_BADNUMPSEUDO)
+ || e.test(!m_pseudos, E_OUTOFMEM))
{
releaseBuffers(); return face.error(e);
}
- m_pseudos = new Pseudo[m_numPseudo];
for (int i = 0; i < m_numPseudo; i++)
{
m_pseudos[i].uid = be::read<uint32>(p);
m_pseudos[i].gid = be::read<uint16>(p);
}
const size_t clen = readClassMap(p, passes_start - p, version, e);
- if (e || e.test(p + clen > passes_start, E_BADPASSESSTART)) { releaseBuffers(); return face.error(e); }
+ m_passes = new Pass[m_numPasses];
+ if (e || e.test(p + clen > passes_start, E_BADPASSESSTART)
+ || e.test(!m_passes, E_OUTOFMEM))
+ { releaseBuffers(); return face.error(e); }
- m_passes = new Pass[m_numPasses];
for (size_t i = 0; i < m_numPasses; ++i)
{
const byte * const pass_start = silf_start + be::read<uint32>(o_passes),
* const pass_end = silf_start + be::peek<uint32>(o_passes);
face.error_context((face.error_context() & 0xFF00) + EC_ASILF + (i << 16));
- if (e.test(pass_start > pass_end, E_BADPASSSTART) || e.test(pass_end > silf_end, E_BADPASSEND)) {
+ if (e.test(pass_start > pass_end, E_BADPASSSTART)
+ || e.test(pass_start < passes_start, E_BADPASSSTART)
+ || e.test(pass_end > silf_end, E_BADPASSEND)) {
releaseBuffers(); return face.error(e);
}
+ enum passtype pt = PASS_TYPE_UNKNOWN;
+ if (i >= m_jPass) pt = PASS_TYPE_JUSTIFICATION;
+ else if (i >= m_pPass) pt = PASS_TYPE_POSITIONING;
+ else if (i >= m_sPass) pt = PASS_TYPE_SUBSTITUTE;
+ else pt = PASS_TYPE_LINEBREAK;
+
m_passes[i].init(this);
- if (!m_passes[i].readPass(pass_start, pass_end - pass_start, pass_start - silf_start, face, e))
+ if (!m_passes[i].readPass(pass_start, pass_end - pass_start, pass_start - silf_start, face, pt,
+ version, e))
{
releaseBuffers();
return false;
}
}
// fill in gr_faceinfo
m_silfinfo.upem = face.glyphs().unitsPerEm();
@@ -246,35 +267,38 @@ size_t Silf::readClassMap(const byte *p,
uint32 max_off;
if (version >= 0x00040000)
max_off = readClassOffsets<uint32>(p, data_len, e);
else
max_off = readClassOffsets<uint16>(p, data_len, e);
if (max_off == ERROROFFSET) return ERROROFFSET;
+ if (e.test((int)max_off < m_nLinear + (m_nClass - m_nLinear) * 6, E_CLASSESTOOBIG))
+ return ERROROFFSET;
+
// Check the linear offsets are sane, these must be monotonically increasing.
for (const uint32 *o = m_classOffsets, * const o_end = o + m_nLinear; o != o_end; ++o)
if (e.test(o[0] > o[1], E_BADCLASSOFFSET))
return ERROROFFSET;
// Fortunately the class data is all uint16s so we can decode these now
m_classData = gralloc<uint16>(max_off);
if (e.test(!m_classData, E_OUTOFMEM)) return ERROROFFSET;
for (uint16 *d = m_classData, * const d_end = d + max_off; d != d_end; ++d)
*d = be::read<uint16>(p);
// Check the lookup class invariants for each non-linear class
for (const uint32 *o = m_classOffsets + m_nLinear, * const o_end = m_classOffsets + m_nClass; o != o_end; ++o)
{
const uint16 * lookup = m_classData + *o;
- if (e.test(*o > max_off - 4, E_HIGHCLASSOFFSET) // LookupClass doesn't stretch over max_off
+ if (e.test(*o + 4 > max_off, E_HIGHCLASSOFFSET) // LookupClass doesn't stretch over max_off
|| e.test(lookup[0] == 0 // A LookupClass with no looks is a suspicious thing ...
- || lookup[0] > (max_off - *o - 4)/2 // numIDs lookup pairs fits within (start of LookupClass' lookups array, max_off]
- || lookup[3] != lookup[0] - lookup[1], E_BADCLASSLOOKUPINFO)) // rangeShift: numIDs - searchRange
+ || lookup[0] * 2 + *o + 4 > max_off // numIDs lookup pairs fits within (start of LookupClass' lookups array, max_off]
+ || lookup[3] + lookup[1] != lookup[0], E_BADCLASSLOOKUPINFO)) // rangeShift: numIDs - searchRange
return ERROROFFSET;
}
return max_off;
}
uint16 Silf::findPseudo(uint32 uid) const
{
@@ -285,17 +309,17 @@ uint16 Silf::findPseudo(uint32 uid) cons
uint16 Silf::findClassIndex(uint16 cid, uint16 gid) const
{
if (cid > m_nClass) return -1;
const uint16 * cls = m_classData + m_classOffsets[cid];
if (cid < m_nLinear) // output class being used for input, shouldn't happen
{
- for (unsigned int i = 0, n = m_classOffsets[cid + 1]; i < n; ++i, ++cls)
+ for (unsigned int i = 0, n = m_classOffsets[cid + 1] - m_classOffsets[cid]; i < n; ++i, ++cls)
if (*cls == gid) return i;
return -1;
}
else
{
const uint16 * min = cls + 4, // lookups array
* max = min + cls[0]*2; // lookups aray is numIDs (cls[0]) uint16 pairs long
do
@@ -326,90 +350,82 @@ uint16 Silf::getClassGlyph(uint16 cid, u
}
return 0;
}
bool Silf::runGraphite(Segment *seg, uint8 firstPass, uint8 lastPass, int dobidi) const
{
assert(seg != 0);
- SlotMap map(*seg);
+ SlotMap map(*seg, m_dir);
FiniteStateMachine fsm(map, seg->getFace()->logger());
vm::Machine m(map);
unsigned int initSize = seg->slotCount();
uint8 lbidi = m_bPass;
#if !defined GRAPHITE2_NTRACING
json * const dbgout = seg->getFace()->logger();
#endif
if (lastPass == 0)
{
if (firstPass == lastPass && lbidi == 0xFF)
return true;
lastPass = m_numPasses;
}
- if (firstPass <= lbidi && lastPass >= lbidi && dobidi)
+ if ((firstPass < lbidi || (dobidi && firstPass == lbidi)) && (lastPass >= lbidi || (dobidi && lastPass + 1 == lbidi)))
lastPass++;
else
lbidi = 0xFF;
for (size_t i = firstPass; i < lastPass; ++i)
{
// bidi and mirroring
if (i == lbidi)
{
#if !defined GRAPHITE2_NTRACING
if (dbgout)
{
*dbgout << json::item << json::object
<< "id" << -1
<< "slots" << json::array;
- seg->positionSlots(0);
+ seg->positionSlots(0, 0, 0, m_dir);
for(Slot * s = seg->first(); s; s = s->next())
*dbgout << dslot(seg, s);
*dbgout << json::close
<< "rules" << json::array << json::close
<< json::close;
}
#endif
-
- if (!(seg->dir() & 2))
- seg->bidiPass(m_aBidi, seg->dir() & 1, m_aMirror);
- else if (m_aMirror)
- {
- Slot * s;
- for (s = seg->first(); s; s = s->next())
- {
- unsigned short g = seg->glyphAttr(s->gid(), m_aMirror);
- if (g && (!(seg->dir() & 4) || !seg->glyphAttr(s->gid(), m_aMirror + 1)))
- s->setGlyph(seg, g);
- }
- }
+ if (seg->currdir() != (m_dir & 1))
+ seg->reverseSlots();
+ if (m_aMirror && (seg->dir() & 3) == 3)
+ seg->doMirror(m_aMirror);
--i;
+ lbidi = lastPass;
--lastPass;
- lbidi = 0xFF;
continue;
}
#if !defined GRAPHITE2_NTRACING
if (dbgout)
{
*dbgout << json::item << json::object
<< "id" << i+1
<< "slots" << json::array;
- seg->positionSlots(0);
+ seg->positionSlots(0, 0, 0, m_dir);
for(Slot * s = seg->first(); s; s = s->next())
*dbgout << dslot(seg, s);
*dbgout << json::close;
}
#endif
// test whether to reorder, prepare for positioning
- if (i >= 32 || (seg->passBits() & (1 << i)) == 0)
- m_passes[i].runGraphite(m, fsm);
+ bool reverse = (lbidi == 0xFF) && (seg->currdir() != ((m_dir & 1) ^ m_passes[i].reverseDir()));
+ if ((i >= 32 || (seg->passBits() & (1 << i)) == 0 || m_passes[i].collisionLoops())
+ && !m_passes[i].runGraphite(m, fsm, reverse))
+ return false;
// only subsitution passes can change segment length, cached subsegments are short for their text
if (m.status() != vm::Machine::finished
- || (i < m_pPass && (seg->slotCount() > initSize * MAX_SEG_GROWTH_FACTOR
- || (seg->slotCount() && seg->slotCount() * MAX_SEG_GROWTH_FACTOR < initSize))))
+ || (seg->slotCount() && seg->slotCount() * MAX_SEG_GROWTH_FACTOR < initSize))
return false;
}
return true;
}
diff --git a/gfx/graphite2/src/Slot.cpp b/gfx/graphite2/src/Slot.cpp
--- a/gfx/graphite2/src/Slot.cpp
+++ b/gfx/graphite2/src/Slot.cpp
@@ -24,34 +24,34 @@ Mozilla Public License (http://mozilla.o
License, as published by the Free Software Foundation, either version 2
of the License or (at your option) any later version.
*/
#include "inc/Segment.h"
#include "inc/Slot.h"
#include "inc/Silf.h"
#include "inc/CharInfo.h"
#include "inc/Rule.h"
+#include "inc/Collider.h"
using namespace graphite2;
-Slot::Slot() :
+Slot::Slot(int16 *user_attrs) :
m_next(NULL), m_prev(NULL),
m_glyphid(0), m_realglyphid(0), m_original(0), m_before(0), m_after(0),
m_index(0), m_parent(NULL), m_child(NULL), m_sibling(NULL),
m_position(0, 0), m_shift(0, 0), m_advance(0, 0),
m_attach(0, 0), m_with(0, 0), m_just(0.),
- m_flags(0), m_attLevel(0), m_bidiCls(-1), m_bidiLevel(0), m_justs(NULL)
- // Do not set m_userAttr since it is set *before* new is called since this
- // is used as a positional new to reset the GrSlot
+ m_flags(0), m_attLevel(0), m_bidiCls(-1), m_bidiLevel(0),
+ m_userAttr(user_attrs), m_justs(NULL)
{
}
// take care, this does not copy any of the GrSlot pointer fields
-void Slot::set(const Slot & orig, int charOffset, size_t numUserAttr, size_t justLevels, size_t numChars)
+void Slot::set(const Slot & orig, int charOffset, size_t sizeAttr, size_t justLevels, size_t numChars)
{
// leave m_next and m_prev unchanged
m_glyphid = orig.m_glyphid;
m_realglyphid = orig.m_realglyphid;
m_original = orig.m_original + charOffset;
if (charOffset + int(orig.m_before) < 0)
m_before = 0;
else
@@ -68,95 +68,104 @@ void Slot::set(const Slot & orig, int ch
m_advance = orig.m_advance;
m_attach = orig.m_attach;
m_with = orig.m_with;
m_flags = orig.m_flags;
m_attLevel = orig.m_attLevel;
m_bidiCls = orig.m_bidiCls;
m_bidiLevel = orig.m_bidiLevel;
if (m_userAttr && orig.m_userAttr)
- memcpy(m_userAttr, orig.m_userAttr, numUserAttr * sizeof(*m_userAttr));
+ memcpy(m_userAttr, orig.m_userAttr, sizeAttr * sizeof(*m_userAttr));
if (m_justs && orig.m_justs)
memcpy(m_justs, orig.m_justs, SlotJustify::size_of(justLevels));
}
void Slot::update(int /*numGrSlots*/, int numCharInfo, Position &relpos)
{
m_before += numCharInfo;
m_after += numCharInfo;
m_position = m_position + relpos;
}
-Position Slot::finalise(const Segment *seg, const Font *font, Position & base, Rect & bbox, uint8 attrLevel, float & clusterMin)
+Position Slot::finalise(const Segment *seg, const Font *font, Position & base, Rect & bbox, uint8 attrLevel, float & clusterMin, bool rtl, bool isFinal)
{
+ SlotCollision *coll = NULL;
if (attrLevel && m_attLevel > attrLevel) return Position(0, 0);
- float scale = 1.0;
- Position shift(m_shift.x * ((seg->dir() & 1) * -2 + 1) + m_just, m_shift.y);
+ float scale = font ? font->scale() : 1.0f;
+ Position shift(m_shift.x * (rtl * -2 + 1) + m_just, m_shift.y);
float tAdvance = m_advance.x + m_just;
+ if (isFinal && (coll = seg->collisionInfo(this)))
+ {
+ const Position &collshift = coll->offset();
+ if (!(coll->flags() & SlotCollision::COLL_KERN) || rtl)
+ shift = shift + collshift;
+ }
const GlyphFace * glyphFace = seg->getFace()->glyphs().glyphSafe(glyph());
if (font)
{
scale = font->scale();
shift *= scale;
if (font->isHinted() && glyphFace)
- tAdvance = (m_advance.x - glyphFace->theAdvance().x + m_just) * scale + font->advance(m_glyphid);
+ tAdvance = (m_advance.x - glyphFace->theAdvance().x + m_just) * scale + font->advance(glyph());
else
tAdvance *= scale;
}
Position res;
m_position = base + shift;
if (!m_parent)
{
res = base + Position(tAdvance, m_advance.y * scale);
- clusterMin = base.x;
+ clusterMin = m_position.x;
}
else
{
float tAdv;
m_position += (m_attach - m_with) * scale;
- tAdv = m_advance.x >= 0.5 ? m_position.x + tAdvance - shift.x : 0.f;
+ tAdv = m_advance.x >= 0.5f ? m_position.x + tAdvance - shift.x : 0.f;
res = Position(tAdv, 0);
- if ((m_advance.x >= 0.5 || m_position.x < 0) && m_position.x < clusterMin) clusterMin = m_position.x;
+ if ((m_advance.x >= 0.5f || m_position.x < 0) && m_position.x < clusterMin) clusterMin = m_position.x;
}
if (glyphFace)
{
Rect ourBbox = glyphFace->theBBox() * scale + m_position;
bbox = bbox.widen(ourBbox);
}
if (m_child && m_child != this && m_child->attachedTo() == this)
{
- Position tRes = m_child->finalise(seg, font, m_position, bbox, attrLevel, clusterMin);
- if ((!m_parent || m_advance.x >= 0.5) && tRes.x > res.x) res = tRes;
+ Position tRes = m_child->finalise(seg, font, m_position, bbox, attrLevel, clusterMin, rtl, isFinal);
+ if ((!m_parent || m_advance.x >= 0.5f) && tRes.x > res.x) res = tRes;
}
if (m_parent && m_sibling && m_sibling != this && m_sibling->attachedTo() == m_parent)
{
- Position tRes = m_sibling->finalise(seg, font, base, bbox, attrLevel, clusterMin);
+ Position tRes = m_sibling->finalise(seg, font, base, bbox, attrLevel, clusterMin, rtl, isFinal);
if (tRes.x > res.x) res = tRes;
}
if (!m_parent && clusterMin < base.x)
{
- Position adj = Position(base.x - clusterMin, 0.);
+ Position adj = Position(m_position.x - clusterMin, 0.);
res += adj;
m_position += adj;
if (m_child) m_child->floodShift(adj);
}
return res;
}
-int32 Slot::clusterMetric(const Segment *seg, uint8 metric, uint8 attrLevel)
+int32 Slot::clusterMetric(const Segment *seg, uint8 metric, uint8 attrLevel, bool rtl)
{
Position base;
+ if (glyph() >= seg->getFace()->glyphs().numGlyphs())
+ return 0;
Rect bbox = seg->theGlyphBBoxTemporary(glyph());
float clusterMin = 0.;
- Position res = finalise(seg, NULL, base, bbox, attrLevel, clusterMin);
+ Position res = finalise(seg, NULL, base, bbox, attrLevel, clusterMin, rtl, false);
switch (metrics(metric))
{
case kgmetLsb :
return static_cast<uint32>(bbox.bl.x);
case kgmetRsb :
return static_cast<uint32>(res.x - bbox.tr.x);
case kgmetBbTop :
@@ -175,19 +184,20 @@ int32 Slot::clusterMetric(const Segment
return static_cast<uint32>(res.x);
case kgmetAdvHeight :
return static_cast<uint32>(res.y);
default :
return 0;
}
}
+#define SLOTGETCOLATTR(x) { SlotCollision *c = seg->collisionInfo(this); return c ? int(c-> x) : 0; }
+
int Slot::getAttr(const Segment *seg, attrCode ind, uint8 subindex) const
{
- if (!this) return 0;
if (ind == gr_slatUserDefnV1)
{
ind = gr_slatUserDefn;
subindex = 0;
}
else if (ind >= gr_slatJStretch && ind < gr_slatJStretch + 20 && ind != gr_slatJWidth)
{
int indx = ind - gr_slatJStretch;
@@ -205,37 +215,66 @@ int Slot::getAttr(const Segment *seg, at
case gr_slatAttYOff : return 0;
case gr_slatAttWithX : return int(m_with.x);
case gr_slatAttWithY : return int(m_with.y);
case gr_slatAttWithXOff:
case gr_slatAttWithYOff:return 0;
case gr_slatAttLevel : return m_attLevel;
case gr_slatBreak : return seg->charinfo(m_original)->breakWeight();
case gr_slatCompRef : return 0;
- case gr_slatDir : if (m_bidiCls == -1)
- const_cast<Slot *>(this)->setBidiClass(seg->glyphAttr(gid(), seg->silf()->aBidi()));
- return m_bidiCls;
+ case gr_slatDir : return seg->dir() & 1;
case gr_slatInsert : return isInsertBefore();
case gr_slatPosX : return int(m_position.x); // but need to calculate it
case gr_slatPosY : return int(m_position.y);
case gr_slatShiftX : return int(m_shift.x);
case gr_slatShiftY : return int(m_shift.y);
case gr_slatMeasureSol: return -1; // err what's this?
case gr_slatMeasureEol: return -1;
case gr_slatJWidth: return int(m_just);
case gr_slatUserDefn : return m_userAttr[subindex];
case gr_slatSegSplit : return seg->charinfo(m_original)->flags() & 3;
case gr_slatBidiLevel: return m_bidiLevel;
- default : return 0;
+ case gr_slatColFlags : { SlotCollision *c = seg->collisionInfo(this); return c ? c->flags() : 0; }
+ case gr_slatColLimitblx : SLOTGETCOLATTR(limit().bl.x)
+ case gr_slatColLimitbly : SLOTGETCOLATTR(limit().bl.y)
+ case gr_slatColLimittrx : SLOTGETCOLATTR(limit().tr.x)
+ case gr_slatColLimittry : SLOTGETCOLATTR(limit().tr.y)
+ case gr_slatColShiftx : SLOTGETCOLATTR(offset().x)
+ case gr_slatColShifty : SLOTGETCOLATTR(offset().y)
+ case gr_slatColMargin : SLOTGETCOLATTR(margin())
+ case gr_slatColMarginWt : SLOTGETCOLATTR(marginWt())
+ case gr_slatColExclGlyph : SLOTGETCOLATTR(exclGlyph())
+ case gr_slatColExclOffx : SLOTGETCOLATTR(exclOffset().x)
+ case gr_slatColExclOffy : SLOTGETCOLATTR(exclOffset().y)
+ case gr_slatSeqClass : SLOTGETCOLATTR(seqClass())
+ case gr_slatSeqProxClass : SLOTGETCOLATTR(seqProxClass())
+ case gr_slatSeqOrder : SLOTGETCOLATTR(seqOrder())
+ case gr_slatSeqAboveXoff : SLOTGETCOLATTR(seqAboveXoff())
+ case gr_slatSeqAboveWt : SLOTGETCOLATTR(seqAboveWt())
+ case gr_slatSeqBelowXlim : SLOTGETCOLATTR(seqBelowXlim())
+ case gr_slatSeqBelowWt : SLOTGETCOLATTR(seqBelowWt())
+ case gr_slatSeqValignHt : SLOTGETCOLATTR(seqValignHt())
+ case gr_slatSeqValignWt : SLOTGETCOLATTR(seqValignWt())
+ default : return 0;
}
}
+#define SLOTCOLSETATTR(x) { \
+ SlotCollision *c = seg->collisionInfo(this); \
+ if (c) { c-> x ; c->setFlags(c->flags() & ~SlotCollision::COLL_KNOWN); } \
+ break; }
+#define SLOTCOLSETCOMPLEXATTR(t, y, x) { \
+ SlotCollision *c = seg->collisionInfo(this); \
+ if (c) { \
+ const t &s = c-> y; \
+ c-> x ; c->setFlags(c->flags() & ~SlotCollision::COLL_KNOWN); } \
+ break; }
+
void Slot::setAttr(Segment *seg, attrCode ind, uint8 subindex, int16 value, const SlotMap & map)
{
- if (!this) return;
if (ind == gr_slatUserDefnV1)
{
ind = gr_slatUserDefn;
subindex = 0;
}
else if (ind >= gr_slatJStretch && ind < gr_slatJStretch + 20 && ind != gr_slatJWidth)
{
int indx = ind - gr_slatJStretch;
@@ -247,22 +286,22 @@ void Slot::setAttr(Segment *seg, attrCod
case gr_slatAdvX : m_advance.x = value; break;
case gr_slatAdvY : m_advance.y = value; break;
case gr_slatAttTo :
{
const uint16 idx = uint16(value);
if (idx < map.size() && map[idx])
{
Slot *other = map[idx];
- if (other == this) break;
+ if (other == this || other == m_parent) break;
if (m_parent) m_parent->removeChild(this);
- if (other->child(this))
+ if (!other->isChildOf(this) && other->child(this))
{
attachTo(other);
- if (((seg->dir() & 1) != 0) ^ (idx > subindex))
+ if ((map.dir() != 0) ^ (idx > subindex))
m_with = Position(advance(), 0);
else // normal match to previous root
m_attach = Position(other->advance(), 0);
}
}
break;
}
case gr_slatAttX : m_attach.x = value; break;
@@ -275,29 +314,52 @@ void Slot::setAttr(Segment *seg, attrCod
case gr_slatAttWithYOff : break;
case gr_slatAttLevel :
m_attLevel = byte(value);
break;
case gr_slatBreak :
seg->charinfo(m_original)->breakWeight(value);
break;
case gr_slatCompRef : break; // not sure what to do here
- case gr_slatDir : m_bidiCls = value; break;
+ case gr_slatDir : break;
case gr_slatInsert :
markInsertBefore(value? true : false);
break;
case gr_slatPosX : break; // can't set these here
case gr_slatPosY : break;
case gr_slatShiftX : m_shift.x = value; break;
case gr_slatShiftY : m_shift.y = value; break;
case gr_slatMeasureSol : break;
case gr_slatMeasureEol : break;
case gr_slatJWidth : just(value); break;
case gr_slatSegSplit : seg->charinfo(m_original)->addflags(value & 3); break;
case gr_slatUserDefn : m_userAttr[subindex] = value; break;
+ case gr_slatColFlags : {
+ SlotCollision *c = seg->collisionInfo(this);
+ if (c)
+ c->setFlags(value);
+ break; }
+ case gr_slatColLimitblx : SLOTCOLSETCOMPLEXATTR(Rect, limit(), setLimit(Rect(Position(value, s.bl.y), s.tr)))
+ case gr_slatColLimitbly : SLOTCOLSETCOMPLEXATTR(Rect, limit(), setLimit(Rect(Position(s.bl.x, value), s.tr)))
+ case gr_slatColLimittrx : SLOTCOLSETCOMPLEXATTR(Rect, limit(), setLimit(Rect(s.bl, Position(value, s.tr.y))))
+ case gr_slatColLimittry : SLOTCOLSETCOMPLEXATTR(Rect, limit(), setLimit(Rect(s.bl, Position(s.tr.x, value))))
+ case gr_slatColMargin : SLOTCOLSETATTR(setMargin(value))
+ case gr_slatColMarginWt : SLOTCOLSETATTR(setMarginWt(value))
+ case gr_slatColExclGlyph : SLOTCOLSETATTR(setExclGlyph(value))
+ case gr_slatColExclOffx : SLOTCOLSETCOMPLEXATTR(Position, exclOffset(), setExclOffset(Position(value, s.y)))
+ case gr_slatColExclOffy : SLOTCOLSETCOMPLEXATTR(Position, exclOffset(), setExclOffset(Position(s.x, value)))
+ case gr_slatSeqClass : SLOTCOLSETATTR(setSeqClass(value))
+ case gr_slatSeqProxClass : SLOTCOLSETATTR(setSeqProxClass(value))
+ case gr_slatSeqOrder : SLOTCOLSETATTR(setSeqOrder(value))
+ case gr_slatSeqAboveXoff : SLOTCOLSETATTR(setSeqAboveXoff(value))
+ case gr_slatSeqAboveWt : SLOTCOLSETATTR(setSeqAboveWt(value))
+ case gr_slatSeqBelowXlim : SLOTCOLSETATTR(setSeqBelowXlim(value))
+ case gr_slatSeqBelowWt : SLOTCOLSETATTR(setSeqBelowWt(value))
+ case gr_slatSeqValignHt : SLOTCOLSETATTR(setSeqValignHt(value))
+ case gr_slatSeqValignWt : SLOTCOLSETATTR(setSeqValignWt(value))
default :
break;
}
}
int Slot::getJustify(const Segment *seg, uint8 level, uint8 subindex) const
{
if (level && level >= seg->silf()->numJustLevels()) return 0;
@@ -369,46 +431,54 @@ bool Slot::removeChild(Slot *ap)
}
bool Slot::removeSibling(Slot *ap)
{
if (this == ap || !m_sibling) return false;
else if (ap == m_sibling)
{
m_sibling = m_sibling->nextSibling();
+ ap->sibling(NULL);
return true;
}
else
return m_sibling->removeSibling(ap);
return true;
}
void Slot::setGlyph(Segment *seg, uint16 glyphid, const GlyphFace * theGlyph)
{
m_glyphid = glyphid;
+ m_bidiCls = -1;
if (!theGlyph)
{
theGlyph = seg->getFace()->glyphs().glyphSafe(glyphid);
if (!theGlyph)
{
m_realglyphid = 0;
m_advance = Position(0.,0.);
return;
}
}
m_realglyphid = theGlyph->attrs()[seg->silf()->aPseudo()];
+ if (m_realglyphid > seg->getFace()->glyphs().numGlyphs())
+ m_realglyphid = 0;
const GlyphFace *aGlyph = theGlyph;
if (m_realglyphid)
{
aGlyph = seg->getFace()->glyphs().glyphSafe(m_realglyphid);
if (!aGlyph) aGlyph = theGlyph;
}
m_advance = Position(aGlyph->theAdvance().x, 0.);
if (seg->silf()->aPassBits())
+ {
seg->mergePassBits(theGlyph->attrs()[seg->silf()->aPassBits()]);
+ if (seg->silf()->numPasses() > 16)
+ seg->mergePassBits(theGlyph->attrs()[seg->silf()->aPassBits()+1] << 16);
+ }
}
void Slot::floodShift(Position adj)
{
m_position += adj;
if (m_child) m_child->floodShift(adj);
if (m_sibling) m_sibling->floodShift(adj);
}
@@ -420,8 +490,35 @@ void SlotJustify::LoadSlot(const Slot *s
Justinfo *justs = seg->silf()->justAttrs() + i;
int16 *v = values + i * NUMJUSTPARAMS;
v[0] = seg->glyphAttr(s->gid(), justs->attrStretch());
v[1] = seg->glyphAttr(s->gid(), justs->attrShrink());
v[2] = seg->glyphAttr(s->gid(), justs->attrStep());
v[3] = seg->glyphAttr(s->gid(), justs->attrWeight());
}
}
+
+Slot * Slot::nextInCluster(const Slot *s) const
+{
+ Slot *base;
+ if (s->firstChild())
+ return s->firstChild();
+ else if (s->nextSibling())
+ return s->nextSibling();
+ while ((base = s->attachedTo()))
+ {
+ // if (base->firstChild() == s && base->nextSibling())
+ if (base->nextSibling())
+ return base->nextSibling();
+ s = base;
+ }
+ return NULL;
+}
+
+bool Slot::isChildOf(const Slot *base) const
+{
+ if (m_parent == base)
+ return true;
+ else if (!m_parent)
+ return false;
+ else
+ return m_parent->isChildOf(base);
+}
diff --git a/gfx/graphite2/src/Sparse.cpp b/gfx/graphite2/src/Sparse.cpp
--- a/gfx/graphite2/src/Sparse.cpp
+++ b/gfx/graphite2/src/Sparse.cpp
@@ -25,17 +25,17 @@ License, as published by the Free Softwa
of the License or (at your option) any later version.
*/
#include <cassert>
#include "inc/Sparse.h"
#include "inc/bits.h"
using namespace graphite2;
-sparse::chunk sparse::empty_chunk = {0,0};
+const sparse::chunk sparse::empty_chunk = {0,0};
sparse::~sparse() throw()
{
if (m_array.map == &empty_chunk) return;
free(m_array.values);
}
diff --git a/gfx/graphite2/src/TtfUtil.cpp b/gfx/graphite2/src/TtfUtil.cpp
--- a/gfx/graphite2/src/TtfUtil.cpp
+++ b/gfx/graphite2/src/TtfUtil.cpp
@@ -57,18 +57,20 @@ Description
Forward declarations
***********************************************************************************************/
/***********************************************************************************************
Local Constants and static variables
***********************************************************************************************/
namespace
{
+#ifdef ALL_TTFUTILS
// max number of components allowed in composite glyphs
const int kMaxGlyphComponents = 8;
+#endif
template <int R, typename T>
inline float fixed_to_float(const T f) {
return float(f)/float(2^R);
}
/*----------------------------------------------------------------------------------------------
Table of standard Postscript glyph names. From Martin Hosken. Disagress with ttfdump.exe
@@ -222,69 +224,79 @@ bool GetTableInfo(const Tag TableTag, co
/*----------------------------------------------------------------------------------------------
Check the specified table. Tests depend on the table type.
Return true if successful, false otherwise.
----------------------------------------------------------------------------------------------*/
bool CheckTable(const Tag TableId, const void * pTable, size_t lTableSize)
{
using namespace Sfnt;
- if (pTable == 0) return false;
+ if (pTable == 0 || lTableSize < 4) return false;
switch(TableId)
{
case Tag::cmap: // cmap
{
const Sfnt::CharacterCodeMap * const pCmap
= reinterpret_cast<const Sfnt::CharacterCodeMap *>(pTable);
+ if (lTableSize < sizeof(Sfnt::CharacterCodeMap))
+ return false;
return be::swap(pCmap->version) == 0;
}
case Tag::head: // head
{
const Sfnt::FontHeader * const pHead
= reinterpret_cast<const Sfnt::FontHeader *>(pTable);
+ if (lTableSize < sizeof(Sfnt::FontHeader))
+ return false;
bool r = be::swap(pHead->version) == OneFix
&& be::swap(pHead->magic_number) == FontHeader::MagicNumber
&& be::swap(pHead->glyph_data_format)
== FontHeader::GlypDataFormat
&& (be::swap(pHead->index_to_loc_format)
== FontHeader::ShortIndexLocFormat
|| be::swap(pHead->index_to_loc_format)
== FontHeader::LongIndexLocFormat)
&& sizeof(FontHeader) <= lTableSize;
return r;
}
case Tag::post: // post
{
const Sfnt::PostScriptGlyphName * const pPost
= reinterpret_cast<const Sfnt::PostScriptGlyphName *>(pTable);
+ if (lTableSize < sizeof(Sfnt::PostScriptGlyphName))
+ return false;
const fixed format = be::swap(pPost->format);
bool r = format == PostScriptGlyphName::Format1
|| format == PostScriptGlyphName::Format2
|| format == PostScriptGlyphName::Format3
|| format == PostScriptGlyphName::Format25;
return r;
}
case Tag::hhea: // hhea
{
const Sfnt::HorizontalHeader * pHhea =
reinterpret_cast<const Sfnt::HorizontalHeader *>(pTable);
+ if (lTableSize < sizeof(Sfnt::HorizontalHeader))
+ return false;
bool r = be::swap(pHhea->version) == OneFix
&& be::swap(pHhea->metric_data_format) == 0
&& sizeof (Sfnt::HorizontalHeader) <= lTableSize;
return r;
}
case Tag::maxp: // maxp
{
const Sfnt::MaximumProfile * pMaxp =
reinterpret_cast<const Sfnt::MaximumProfile *>(pTable);
+ if (lTableSize < sizeof(Sfnt::MaximumProfile))
+ return false;
bool r = be::swap(pMaxp->version) == OneFix
&& sizeof(Sfnt::MaximumProfile) <= lTableSize;
return r;
}
case Tag::OS_2: // OS/2
{
const Sfnt::Compatibility * pOs2
@@ -319,16 +331,18 @@ bool CheckTable(const Tag TableId, const
return false;
break;
}
case Tag::name:
{
const Sfnt::FontNames * pName
= reinterpret_cast<const Sfnt::FontNames *>(pTable);
+ if (lTableSize < sizeof(Sfnt::FontNames))
+ return false;
return be::swap(pName->format) == 0;
}
default:
break;
}
return true;
@@ -791,27 +805,27 @@ bool HorMetrics(gid16 nGlyphId, const vo
reinterpret_cast<const Sfnt::HorizontalMetric *>(pHmtx);
const Sfnt::HorizontalHeader * phhea =
reinterpret_cast<const Sfnt::HorizontalHeader *>(pHhea);
size_t cLongHorMetrics = be::swap(phhea->num_long_hor_metrics);
if (nGlyphId < cLongHorMetrics)
{ // glyph id is acceptable
- if (nGlyphId * sizeof(Sfnt::HorizontalMetric) >= lHmtxSize) return false;
+ if ((nGlyphId + 1) * sizeof(Sfnt::HorizontalMetric) > lHmtxSize) return false;
nAdvWid = be::swap(phmtx[nGlyphId].advance_width);
nLsb = be::swap(phmtx[nGlyphId].left_side_bearing);
}
else
{
// guard against bad glyph id
size_t lLsbOffset = sizeof(Sfnt::HorizontalMetric) * cLongHorMetrics +
sizeof(int16) * (nGlyphId - cLongHorMetrics); // offset in bytes
// We test like this as LsbOffset is an offset not a length.
- if (lLsbOffset > lHmtxSize - sizeof(int16))
+ if (lLsbOffset >= lHmtxSize - sizeof(int16) || cLongHorMetrics == 0)
{
nLsb = 0;
return false;
}
nAdvWid = be::swap(phmtx[cLongHorMetrics - 1].advance_width);
nLsb = be::peek<int16>(reinterpret_cast<const byte *>(phmtx) + lLsbOffset);
}
@@ -833,31 +847,33 @@ const void * FindCmapSubtable(const void
{
if (be::swap(pTable->encoding[i].platform_id) == nPlatformId &&
(nEncodingId == -1 || be::swap(pTable->encoding[i].platform_specific_id) == nEncodingId))
{
uint32 offset = be::swap(pTable->encoding[i].offset);
const uint8 * pRtn = reinterpret_cast<const uint8 *>(pCmap) + offset;
if (length)
{
- if (offset > length) return NULL;
+ if (offset > length - 2) return NULL;
uint16 format = be::read<uint16>(pRtn);
if (format == 4)
{
+ if (offset > length - 4) return NULL;
uint16 subTableLength = be::peek<uint16>(pRtn);
if (i + 1 == csuPlatforms)
{
if (subTableLength > length - offset)
return NULL;
}
else if (subTableLength > be::swap(pTable->encoding[i+1].offset))
return NULL;
}
if (format == 12)
{
+ if (offset > length - 6) return NULL;
uint32 subTableLength = be::peek<uint32>(pRtn);
if (i + 1 == csuPlatforms)
{
if (subTableLength > length - offset)
return NULL;
}
else if (subTableLength > be::swap(pTable->encoding[i+1].offset))
return NULL;
@@ -868,48 +884,80 @@ const void * FindCmapSubtable(const void
}
return 0;
}
/*----------------------------------------------------------------------------------------------
Check the Microsoft Unicode subtable for expected values
----------------------------------------------------------------------------------------------*/
-bool CheckCmapSubtable4(const void * pCmapSubtable4)
+bool CheckCmapSubtable4(const void * pCmapSubtable4, size_t table_len /*, unsigned int maxgid*/)
{
if (!pCmapSubtable4) return false;
const Sfnt::CmapSubTable * pTable = reinterpret_cast<const Sfnt::CmapSubTable *>(pCmapSubtable4);
- // Bob H says ome freeware TT fonts have version 1 (eg, CALIGULA.TTF)
+ // Bob H say some freeware TT fonts have version 1 (eg, CALIGULA.TTF)
// so don't check subtable version. 21 Mar 2002 spec changes version to language.
if (be::swap(pTable->format) != 4) return false;
const Sfnt::CmapSubTableFormat4 * pTable4 = reinterpret_cast<const Sfnt::CmapSubTableFormat4 *>(pCmapSubtable4);
uint16 length = be::swap(pTable4->length);
+ if (length > table_len)
+ return false;
if (length < sizeof(Sfnt::CmapSubTableFormat4))
return false;
uint16 nRanges = be::swap(pTable4->seg_count_x2) >> 1;
if (length < sizeof(Sfnt::CmapSubTableFormat4) + 4 * nRanges * sizeof(uint16))
return false;
// check last range is properly terminated
uint16 chEnd = be::peek<uint16>(pTable4->end_code + nRanges - 1);
- return (chEnd == 0xFFFF);
+ if (chEnd != 0xFFFF)
+ return false;
+#if 0
+ int lastend = -1;
+ for (int i = 0; i < nRanges; ++i)
+ {
+ uint16 end = be::peek<uint16>(pTable4->end_code + i);
+ uint16 start = be::peek<uint16>(pTable4->end_code + nRanges + 1 + i);
+ int16 delta = be::peek<int16>(pTable4->end_code + 2*nRanges + 1 + i);
+ uint16 offset = be::peek<uint16>(pTable4->end_code + 3*nRanges + 1 + i);
+ if (lastend >= end || lastend >= start)
+ return false;
+ if (offset)
+ {
+ const uint16 *gstart = pTable4->end_code + 3*nRanges + 1 + i + (offset >> 1);
+ const uint16 *gend = gstart + end - start;
+ if ((char *)gend >= (char *)pCmapSubtable4 + length)
+ return false;
+ while (gstart <= gend)
+ {
+ uint16 g = be::peek<uint16>(gstart++);
+ if (g && ((g + delta) & 0xFFFF) > maxgid)
+ return false;
+ }
+ }
+ else if (((delta + end) & 0xFFFF) > maxgid)
+ return false;
+ lastend = end;
+ }
+#endif
+ return true;
}
/*----------------------------------------------------------------------------------------------
Return the Glyph ID for the given Unicode ID in the Microsoft Unicode subtable.
(Actually this code only depends on subtable being format 4.)
Return 0 if the Unicode ID is not in the subtable.
----------------------------------------------------------------------------------------------*/
gid16 CmapSubtable4Lookup(const void * pCmapSubtabel4, unsigned int nUnicodeId, int rangeKey)
{
const Sfnt::CmapSubTableFormat4 * pTable = reinterpret_cast<const Sfnt::CmapSubTableFormat4 *>(pCmapSubtabel4);
uint16 nSeg = be::swap(pTable->seg_count_x2) >> 1;
uint16 n;
- const uint16 * pLeft, * pMid;
+ const uint16 * pLeft, * pMid;
uint16 cMid, chStart, chEnd;
if (rangeKey)
{
pMid = &(pTable->end_code[rangeKey]);
chEnd = be::peek<uint16>(pMid);
}
else
@@ -1027,29 +1075,41 @@ unsigned int CmapSubtable4NextCodepoint(
if (pRangeKey)
*pRangeKey = iRange + 1;
return be::peek<uint16>(pStartCode + iRange + 1);
}
/*----------------------------------------------------------------------------------------------
Check the Microsoft UCS-4 subtable for expected values.
----------------------------------------------------------------------------------------------*/
-bool CheckCmapSubtable12(const void *pCmapSubtable12)
+bool CheckCmapSubtable12(const void *pCmapSubtable12, size_t table_len /*, unsigned int maxgid*/)
{
if (!pCmapSubtable12) return false;
const Sfnt::CmapSubTable * pTable = reinterpret_cast<const Sfnt::CmapSubTable *>(pCmapSubtable12);
if (be::swap(pTable->format) != 12)
return false;
const Sfnt::CmapSubTableFormat12 * pTable12 = reinterpret_cast<const Sfnt::CmapSubTableFormat12 *>(pCmapSubtable12);
uint32 length = be::swap(pTable12->length);
+ if (length > table_len)
+ return false;
if (length < sizeof(Sfnt::CmapSubTableFormat12))
return false;
-
- return (length == (sizeof(Sfnt::CmapSubTableFormat12) + (be::swap(pTable12->num_groups) - 1)
- * sizeof(uint32) * 3));
+ uint32 num_groups = be::swap(pTable12->num_groups);
+ if (length != (sizeof(Sfnt::CmapSubTableFormat12) + (num_groups - 1) * sizeof(uint32) * 3))
+ return false;
+#if 0
+ for (unsigned int i = 0; i < num_groups; ++i)
+ {
+ if (be::swap(pTable12->group[i].end_char_code) - be::swap(pTable12->group[i].start_char_code) + be::swap(pTable12->group[i].start_glyph_id) > maxgid)
+ return false;
+ if (i > 0 && be::swap(pTable12->group[i].start_char_code) <= be::swap(pTable12->group[i-1].end_char_code))
+ return false;
+ }
+#endif
+ return true;
}
/*----------------------------------------------------------------------------------------------
Return the Glyph ID for the given Unicode ID in the Microsoft UCS-4 subtable.
(Actually this code only depends on subtable being format 12.)
Return 0 if the Unicode ID is not in the subtable.
----------------------------------------------------------------------------------------------*/
gid16 CmapSubtable12Lookup(const void * pCmap310, unsigned int uUnicodeId, int rangeKey)
@@ -1140,49 +1200,53 @@ unsigned int CmapSubtable12NextCodepoint
Technically this method should return an unsigned long but it is unlikely the offset will
exceed 2^31.
----------------------------------------------------------------------------------------------*/
size_t LocaLookup(gid16 nGlyphId,
const void * pLoca, size_t lLocaSize,
const void * pHead) // throw (std::out_of_range)
{
const Sfnt::FontHeader * pTable = reinterpret_cast<const Sfnt::FontHeader *>(pHead);
+ size_t res = -2;
// CheckTable verifies the index_to_loc_format is valid
if (be::swap(pTable->index_to_loc_format) == Sfnt::FontHeader::ShortIndexLocFormat)
{ // loca entries are two bytes and have been divided by two
- if (nGlyphId < (lLocaSize >> 1) - 1) // allow sentinel value to be accessed
+ if (lLocaSize > 1 && nGlyphId + 1u < lLocaSize >> 1) // allow sentinel value to be accessed
{
const uint16 * pShortTable = reinterpret_cast<const uint16 *>(pLoca);
- return (be::peek<uint16>(pShortTable + nGlyphId) << 1);
+ res = be::peek<uint16>(pShortTable + nGlyphId) << 1;
+ if (res == static_cast<size_t>(be::peek<uint16>(pShortTable + nGlyphId + 1) << 1))
+ return -1;
}
}
-
- if (be::swap(pTable->index_to_loc_format) == Sfnt::FontHeader::LongIndexLocFormat)
+ else if (be::swap(pTable->index_to_loc_format) == Sfnt::FontHeader::LongIndexLocFormat)
{ // loca entries are four bytes
- if (nGlyphId < (lLocaSize >> 2) - 1)
+ if (lLocaSize > 3 && nGlyphId + 1u < lLocaSize >> 2)
{
const uint32 * pLongTable = reinterpret_cast<const uint32 *>(pLoca);
- return be::peek<uint32>(pLongTable + nGlyphId);
+ res = be::peek<uint32>(pLongTable + nGlyphId);
+ if (res == static_cast<size_t>(be::peek<uint32>(pLongTable + nGlyphId + 1)))
+ return -1;
}
}
// only get here if glyph id was bad
- return -1;
+ return res;
//throw std::out_of_range("glyph id out of range for font");
}
/*----------------------------------------------------------------------------------------------
Return a pointer into the glyf table based on the given offset (from LocaLookup).
Return NULL on error.
----------------------------------------------------------------------------------------------*/
void * GlyfLookup(const void * pGlyf, size_t nGlyfOffset, size_t nTableLen)
{
const uint8 * pByte = reinterpret_cast<const uint8 *>(pGlyf);
- if (nGlyfOffset == size_t(-1) || nGlyfOffset >= nTableLen)
+ if (nGlyfOffset + pByte < pByte || nGlyfOffset + sizeof(Sfnt::Glyph) >= nTableLen)
return NULL;
return const_cast<uint8 *>(pByte + nGlyfOffset);
}
/*----------------------------------------------------------------------------------------------
Get the bounding box coordinates for a simple glyf entry (non-composite).
Return true if successful, false otherwise.
----------------------------------------------------------------------------------------------*/
@@ -1784,17 +1848,16 @@ bool GlyfContourEndPoints(gid16 nGlyphId
cnPoints - count of points from largest end point obtained from GlyfContourEndPoints
prgnX & prgnY - should point to buffers large enough to hold cnPoints integers
The ranges are parallel so that coordinates for point(n) are found at offset n in
both ranges. These points are in absolute coordinates.
prgfOnCurve - should point to a buffer a large enough to hold cnPoints bytes (bool)
This range is parallel to the prgnX & prgnY
Return true if successful, false otherwise. On false, all points may be INT_MIN
False may indicate a white space glyph, a multi-level composite, or a corrupt font
- // TODO: doesn't support composite glyphs whose components are themselves components
It's not clear from the TTF spec when the transforms should be applied. Should the
transform be done before or after attachment point calcs? (current code - before)
Should the transform be applied to other offsets? (currently - no; however commented
out code is in place so that if CompoundGlyph::UnscaledOffset on the MS rasterizer is
clear (typical) then yes, and if CompoundGlyph::ScaledOffset on the Apple rasterizer is
clear (typical?) then no). See GetComponentTransform.
It's also unclear where point numbering with attachment poinst starts
(currently - first point number is relative to whole glyph, second point number is
diff --git a/gfx/graphite2/src/call_machine.cpp b/gfx/graphite2/src/call_machine.cpp
--- a/gfx/graphite2/src/call_machine.cpp
+++ b/gfx/graphite2/src/call_machine.cpp
@@ -65,57 +65,60 @@ using namespace graphite2;
using namespace vm;
struct regbank {
slotref is;
slotref * map;
SlotMap & smap;
slotref * const map_base;
const instr * & ip;
+ uint8 direction;
int8 flags;
};
typedef bool (* ip_t)(registers);
// Pull in the opcode definitions
// We pull these into a private namespace so these otherwise common names dont
// pollute the toplevel namespace.
namespace {
#define smap reg.smap
#define seg smap.segment
#define is reg.is
#define ip reg.ip
#define map reg.map
#define mapb reg.map_base
#define flags reg.flags
+#define dir reg.direction
#include "inc/opcodes.h"
#undef smap
#undef seg
#undef is
#undef ip
#undef map
#undef mapb
#undef flags
+#undef dir
}
Machine::stack_t Machine::run(const instr * program,
const byte * data,
slotref * & map)
{
assert(program != 0);
// Declare virtual machine registers
const instr * ip = program-1;
const byte * dp = data;
stack_t * sp = _stack + Machine::STACK_GUARD,
* const sb = sp;
- regbank reg = {*map, map, _map, _map.begin()+_map.context(), ip, 0};
+ regbank reg = {*map, map, _map, _map.begin()+_map.context(), ip, _map.dir(), 0};
// Run the program
while ((reinterpret_cast<ip_t>(*++ip))(dp, sp, sb, reg)) {}
const stack_t ret = sp == _stack+STACK_GUARD+1 ? *sp-- : 0;
check_final_stack(sp);
map = reg.map;
*map = reg.is;
diff --git a/gfx/graphite2/src/direct_machine.cpp b/gfx/graphite2/src/direct_machine.cpp
--- a/gfx/graphite2/src/direct_machine.cpp
+++ b/gfx/graphite2/src/direct_machine.cpp
@@ -56,16 +56,17 @@ using namespace vm;
namespace {
const void * direct_run(const bool get_table_mode,
const instr * program,
const byte * data,
Machine::stack_t * stack,
slotref * & __map,
+ uint8 _dir,
SlotMap * __smap=0)
{
// We need to define and return to opcode table from within this function
// other inorder to take the addresses of the instruction bodies.
#include "inc/opcode_table.h"
if (get_table_mode)
return opcode_table;
@@ -74,16 +75,17 @@ const void * direct_run(const bool
const byte * dp = data;
Machine::stack_t * sp = stack + Machine::STACK_GUARD,
* const sb = sp;
SlotMap & smap = *__smap;
Segment & seg = smap.segment;
slotref is = *__map,
* map = __map,
* const mapb = smap.begin()+smap.context();
+ uint8 dir = _dir;
int8 flags = 0;
// start the program
goto **ip;
// Pull in the opcode definitions
#include "inc/opcodes.h"
@@ -104,14 +106,14 @@ const opcode_t * Machine::getOpcodeTable
Machine::stack_t Machine::run(const instr * program,
const byte * data,
slotref * & is)
{
assert(program != 0);
const stack_t *sp = static_cast<const stack_t *>(
- direct_run(false, program, data, _stack, is, &_map));
+ direct_run(false, program, data, _stack, is, _map.dir(), &_map));
const stack_t ret = sp == _stack+STACK_GUARD+1 ? *sp-- : 0;
check_final_stack(sp);
return ret;
}
diff --git a/gfx/graphite2/src/files.mk b/gfx/graphite2/src/files.mk
--- a/gfx/graphite2/src/files.mk
+++ b/gfx/graphite2/src/files.mk
@@ -42,29 +42,32 @@
$($(_NS)_BASE)/src/gr_char_info.cpp \
$($(_NS)_BASE)/src/gr_face.cpp \
$($(_NS)_BASE)/src/gr_features.cpp \
$($(_NS)_BASE)/src/gr_font.cpp \
$($(_NS)_BASE)/src/gr_logging.cpp \
$($(_NS)_BASE)/src/gr_segment.cpp \
$($(_NS)_BASE)/src/gr_slot.cpp \
$($(_NS)_BASE)/src/json.cpp \
- $($(_NS)_BASE)/src/Bidi.cpp \
$($(_NS)_BASE)/src/CachedFace.cpp \
$($(_NS)_BASE)/src/CmapCache.cpp \
$($(_NS)_BASE)/src/Code.cpp \
+ $($(_NS)_BASE)/src/Collider.cpp \
+ $($(_NS)_BASE)/src/Decompressor.cpp \
$($(_NS)_BASE)/src/Face.cpp \
$($(_NS)_BASE)/src/FeatureMap.cpp \
$($(_NS)_BASE)/src/FileFace.cpp \
$($(_NS)_BASE)/src/Font.cpp \
$($(_NS)_BASE)/src/GlyphCache.cpp \
$($(_NS)_BASE)/src/GlyphFace.cpp \
+ $($(_NS)_BASE)/src/Intervals.cpp \
$($(_NS)_BASE)/src/Justifier.cpp \
$($(_NS)_BASE)/src/NameTable.cpp \
$($(_NS)_BASE)/src/Pass.cpp \
+ $($(_NS)_BASE)/src/Position.cpp \
$($(_NS)_BASE)/src/SegCache.cpp \
$($(_NS)_BASE)/src/SegCacheEntry.cpp \
$($(_NS)_BASE)/src/SegCacheStore.cpp \
$($(_NS)_BASE)/src/Segment.cpp \
$($(_NS)_BASE)/src/Silf.cpp \
$($(_NS)_BASE)/src/Slot.cpp \
$($(_NS)_BASE)/src/Sparse.cpp \
$($(_NS)_BASE)/src/TtfUtil.cpp \
@@ -73,25 +76,29 @@
$(_NS)_PRIVATE_HEADERS = \
$($(_NS)_BASE)/src/inc/bits.h \
$($(_NS)_BASE)/src/inc/debug.h \
$($(_NS)_BASE)/src/inc/json.h \
$($(_NS)_BASE)/src/inc/CachedFace.h \
$($(_NS)_BASE)/src/inc/CharInfo.h \
$($(_NS)_BASE)/src/inc/CmapCache.h \
$($(_NS)_BASE)/src/inc/Code.h \
+ $($(_NS)_BASE)/src/inc/Collider.h \
+ $($(_NS)_BASE)/src/inc/Compression.h \
+ $($(_NS)_BASE)/src/inc/Decompressor.h \
$($(_NS)_BASE)/src/inc/Endian.h \
$($(_NS)_BASE)/src/inc/Error.h \
$($(_NS)_BASE)/src/inc/Face.h \
$($(_NS)_BASE)/src/inc/FeatureMap.h \
$($(_NS)_BASE)/src/inc/FeatureVal.h \
$($(_NS)_BASE)/src/inc/FileFace.h \
$($(_NS)_BASE)/src/inc/Font.h \
$($(_NS)_BASE)/src/inc/GlyphCache.h \
$($(_NS)_BASE)/src/inc/GlyphFace.h \
+ $($(_NS)_BASE)/src/inc/Intervals.h \
$($(_NS)_BASE)/src/inc/List.h \
$($(_NS)_BASE)/src/inc/locale2lcid.h \
$($(_NS)_BASE)/src/inc/Machine.h \
$($(_NS)_BASE)/src/inc/Main.h \
$($(_NS)_BASE)/src/inc/NameTable.h \
$($(_NS)_BASE)/src/inc/opcode_table.h \
$($(_NS)_BASE)/src/inc/opcodes.h \
$($(_NS)_BASE)/src/inc/Pass.h \
diff --git a/gfx/graphite2/src/gr_face.cpp b/gfx/graphite2/src/gr_face.cpp
--- a/gfx/graphite2/src/gr_face.cpp
+++ b/gfx/graphite2/src/gr_face.cpp
@@ -41,17 +41,17 @@ extern json *global_log;
namespace
{
bool load_face(Face & face, unsigned int options)
{
#ifdef GRAPHITE2_TELEMETRY
telemetry::category _misc_cat(face.tele.misc);
#endif
- Face::Table silf(face, Tag::Silf);
+ Face::Table silf(face, Tag::Silf, 0x00050000);
if (silf) options &= ~gr_face_dumbRendering;
else if (!(options & gr_face_dumbRendering))
return false;
if (!face.readGlyphs(options))
return false;
if (silf)
diff --git a/gfx/graphite2/src/gr_logging.cpp b/gfx/graphite2/src/gr_logging.cpp
--- a/gfx/graphite2/src/gr_logging.cpp
+++ b/gfx/graphite2/src/gr_logging.cpp
@@ -19,24 +19,25 @@
Suite 500, Boston, MA 02110-1335, USA or visit their web page on the
internet at http://www.fsf.org/licenses/lgpl.html.
Alternatively, the contents of this file may be used under the terms of the
Mozilla Public License (http://mozilla.org/MPL) or the GNU General Public
License, as published by the Free Software Foundation, either version 2
of the License or (at your option) any later version.
*/
-#include <stdio.h>
+#include <cstdio>
#include "graphite2/Log.h"
#include "inc/debug.h"
#include "inc/CharInfo.h"
#include "inc/Slot.h"
#include "inc/Segment.h"
#include "inc/json.h"
+#include "inc/Collider.h"
#if defined _WIN32
#include "windows.h"
#endif
using namespace graphite2;
#if !defined GRAPHITE2_NTRACING
@@ -179,16 +180,17 @@ json & graphite2::operator << (json & j,
json & graphite2::operator << (json & j, const dslot & ds) throw()
{
assert(ds.first);
assert(ds.second);
const Segment & seg = *ds.first;
const Slot & s = *ds.second;
+ const SlotCollision *cslot = seg.collisionInfo(ds.second);
j << json::object
<< "id" << objectid(ds)
<< "gid" << s.gid()
<< "charinfo" << json::flat << json::object
<< "original" << s.original()
<< "before" << s.before()
<< "after" << s.after()
@@ -215,16 +217,38 @@ json & graphite2::operator << (json & j,
j << json::close;
if (s.firstChild())
{
j << "children" << json::flat << json::array;
for (const Slot *c = s.firstChild(); c; c = c->nextSibling())
j << objectid(dslot(&seg, c));
j << json::close;
}
+ if (cslot)
+ {
+ // Note: the reason for using Positions to lump together related attributes is to make the
+ // JSON output slightly more compact.
+ j << "collision" << json::flat << json::object
+// << "shift" << cslot->shift() -- not used pass level, only within the collision routine itself
+ << "offset" << cslot->offset()
+ << "limit" << cslot->limit()
+ << "flags" << cslot->flags()
+ << "margin" << Position(cslot->margin(), cslot->marginWt())
+ << "exclude" << cslot->exclGlyph()
+ << "excludeoffset" << cslot->exclOffset();
+ if (cslot->seqOrder() != 0)
+ {
+ j << "seqclass" << Position(cslot->seqClass(), cslot->seqProxClass())
+ << "seqorder" << cslot->seqOrder()
+ << "seqabove" << Position(cslot->seqAboveXoff(), cslot->seqAboveWt())
+ << "seqbelow" << Position(cslot->seqBelowXlim(), cslot->seqBelowWt())
+ << "seqvalign" << Position(cslot->seqValignHt(), cslot->seqValignWt());
+ }
+ j << json::close;
+ }
return j << json::close;
}
graphite2::objectid::objectid(const dslot & ds) throw()
{
const Slot * const p = ds.second;
uint32 s = reinterpret_cast<size_t>(p);
diff --git a/gfx/graphite2/src/gr_segment.cpp b/gfx/graphite2/src/gr_segment.cpp
--- a/gfx/graphite2/src/gr_segment.cpp
+++ b/gfx/graphite2/src/gr_segment.cpp
@@ -43,21 +43,17 @@ namespace
Segment* pRes=new Segment(nChars, face, script, dir);
if (!pRes->read_text(face, pFeats, enc, pStart, nChars) || !pRes->runGraphite())
{
delete pRes;
return NULL;
}
- // run the line break passes
- // run the substitution passes
- pRes->prepare_pos(font);
- // run the positioning passes
- pRes->finalise(font);
+ pRes->finalise(font, true);
return static_cast<gr_segment*>(pRes);
}
}
diff --git a/gfx/graphite2/src/gr_slot.cpp b/gfx/graphite2/src/gr_slot.cpp
--- a/gfx/graphite2/src/gr_slot.cpp
+++ b/gfx/graphite2/src/gr_slot.cpp
@@ -98,21 +98,21 @@ float gr_slot_advance_X(const gr_slot* p
if (face && font->isHinted())
res = (res - face->glyphs().glyph(p->gid())->theAdvance().x) * scale + font->advance(p->gid());
else
res = res * scale;
}
return res;
}
-float gr_slot_advance_Y(const gr_slot *p/*not NULL*/, const gr_face *face, const gr_font *font)
+float gr_slot_advance_Y(const gr_slot *p/*not NULL*/, GR_MAYBE_UNUSED const gr_face *face, const gr_font *font)
{
assert(p);
float res = p->advancePos().y;
- if (font && (face || !face))
+ if (font)
return res * font->scale();
else
return res;
}
int gr_slot_before(const gr_slot* p/*not NULL*/)
{
assert(p);
diff --git a/gfx/graphite2/src/inc/Code.h b/gfx/graphite2/src/inc/Code.h
--- a/gfx/graphite2/src/inc/Code.h
+++ b/gfx/graphite2/src/inc/Code.h
@@ -36,32 +36,41 @@ of the License or (at your option) any l
#include "inc/Main.h"
#include "inc/Machine.h"
namespace graphite2 {
class Silf;
class Face;
+enum passtype {
+ PASS_TYPE_UNKNOWN = 0,
+ PASS_TYPE_LINEBREAK,
+ PASS_TYPE_SUBSTITUTE,
+ PASS_TYPE_POSITIONING,
+ PASS_TYPE_JUSTIFICATION
+};
+
namespace vm {
class Machine::Code
{
public:
enum status_t
{
loaded,
alloc_failed,
invalid_opcode,
unimplemented_opcode_used,
out_of_range_data,
jump_past_end,
arguments_exhausted,
missing_return,
- nested_context_item
+ nested_context_item,
+ underfull_stack
};
private:
class decoder;
instr * _code;
byte * _data;
size_t _data_size,
@@ -72,40 +81,51 @@ private:
_modify,
_delete;
mutable bool _own;
void release_buffers() throw ();
void failure(const status_t) throw();
public:
+ static size_t estimateCodeDataOut(size_t num_bytecodes);
+
Code() throw();
Code(bool is_constraint, const byte * bytecode_begin, const byte * const bytecode_end,
- uint8 pre_context, uint16 rule_length, const Silf &, const Face &);
+ uint8 pre_context, uint16 rule_length, const Silf &, const Face &,
+ enum passtype pt, byte * * const _out = 0);
Code(const Machine::Code &) throw();
~Code() throw();
Code & operator=(const Code &rhs) throw();
- operator bool () const throw();
- status_t status() const throw();
- bool constraint() const throw();
- size_t dataSize() const throw();
- size_t instructionCount() const throw();
- bool immutable() const throw();
- bool deletes() const throw();
- size_t maxRef() const throw();
+ operator bool () const throw() { return _code && status() == loaded; }
+ status_t status() const throw() { return _status; }
+ bool constraint() const throw() { return _constraint; }
+ size_t dataSize() const throw() { return _data_size; }
+ size_t instructionCount() const throw() { return _instr_count; }
+ bool immutable() const throw() { return !(_delete || _modify); }
+ bool deletes() const throw() { return _delete; }
+ size_t maxRef() const throw() { return _max_ref; }
+ void externalProgramMoved(ptrdiff_t) throw();
int32 run(Machine &m, slotref * & map) const;
CLASS_NEW_DELETE;
};
+inline
+size_t Machine::Code::estimateCodeDataOut(size_t n_bc)
+{
+ return n_bc * (sizeof(instr)+sizeof(byte));
+}
+
+
inline Machine::Code::Code() throw()
: _code(0), _data(0), _data_size(0), _instr_count(0), _max_ref(0),
- _status(loaded), _constraint(false), _modify(false),_delete(false),
+ _status(loaded), _constraint(false), _modify(false), _delete(false),
_own(false)
{
}
inline Machine::Code::Code(const Machine::Code &obj) throw ()
: _code(obj._code),
_data(obj._data),
_data_size(obj._data_size),
@@ -131,45 +151,19 @@ inline Machine::Code & Machine::Code::op
_constraint = rhs._constraint;
_modify = rhs._modify;
_delete = rhs._delete;
_own = rhs._own;
rhs._own = false;
return *this;
}
-inline Machine::Code::operator bool () const throw () {
- return _code && status() == loaded;
-}
-
-inline Machine::Code::status_t Machine::Code::status() const throw() {
- return _status;
-}
-
-inline bool Machine::Code::constraint() const throw() {
- return _constraint;
-}
-
-inline size_t Machine::Code::dataSize() const throw() {
- return _data_size;
-}
-
-inline size_t Machine::Code::instructionCount() const throw() {
- return _instr_count;
-}
-
-inline bool Machine::Code::immutable() const throw()
+inline void Machine::Code::externalProgramMoved(ptrdiff_t dist) throw()
{
- return !(_delete || _modify);
-}
-
-inline bool Machine::Code::deletes() const throw()
-{
- return _delete;
-}
-
-inline size_t Machine::Code::maxRef() const throw()
-{
- return _max_ref;
+ if (_code && !_own)
+ {
+ _code += dist / sizeof(instr);
+ _data += dist;
+ }
}
} // namespace vm
} // namespace graphite2
diff --git a/gfx/graphite2/src/inc/Collider.h b/gfx/graphite2/src/inc/Collider.h
new file mode 100644
--- /dev/null
+++ b/gfx/graphite2/src/inc/Collider.h
@@ -0,0 +1,242 @@
+/* GRAPHITE2 LICENSING
+
+ Copyright 2010, SIL International
+ All rights reserved.
+
+ This library is free software; you can redistribute it and/or modify
+ it under the terms of the GNU Lesser General Public License as published
+ by the Free Software Foundation; either version 2.1 of License, or
+ (at your option) any later version.
+
+ This program 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
+ Lesser General Public License for more details.
+
+ You should also have received a copy of the GNU Lesser General Public
+ License along with this library in the file named "LICENSE".
+ If not, write to the Free Software Foundation, 51 Franklin Street,
+ Suite 500, Boston, MA 02110-1335, USA or visit their web page on the
+ internet at http://www.fsf.org/licenses/lgpl.html.
+
+Alternatively, the contents of this file may be used under the terms of the
+Mozilla Public License (http://mozilla.org/MPL) or the GNU General Public
+License, as published by the Free Software Foundation, either version 2
+of the License or (at your option) any later version.
+*/
+#pragma once
+
+#include "inc/List.h"
+#include "inc/Position.h"
+#include "inc/Intervals.h"
+#include "inc/debug.h"
+
+namespace graphite2 {
+
+class json;
+class Slot;
+class Segment;
+
+#define SLOTCOLSETUINTPROP(x, y) uint16 x() const { return _ ##x; } void y (uint16 v) { _ ##x = v; }
+#define SLOTCOLSETINTPROP(x, y) int16 x() const { return _ ##x; } void y (int16 v) { _ ##x = v; }
+#define SLOTCOLSETPOSITIONPROP(x, y) const Position &x() const { return _ ##x; } void y (const Position &v) { _ ##x = v; }
+
+// Slot attributes related to collision-fixing
+class SlotCollision
+{
+public:
+ enum {
+ // COLL_TESTONLY = 0, // default - test other glyphs for collision with this one, but don't move this one
+ COLL_FIX = 1, // fix collisions involving this glyph
+ COLL_IGNORE = 2, // ignore this glyph altogether
+ COLL_START = 4, // start of range of possible collisions
+ COLL_END = 8, // end of range of possible collisions
+ COLL_KERN = 16, // collisions with this glyph are fixed by adding kerning space after it
+ COLL_ISCOL = 32, // this glyph has a collision
+ COLL_KNOWN = 64, // we've figured out what's happening with this glyph
+ COLL_TEMPLOCK = 128, // Lock glyphs that have been given priority positioning
+ ////COLL_JUMPABLE = 128, // moving glyphs may jump this stationary glyph in any direction - DELETE
+ ////COLL_OVERLAP = 256, // use maxoverlap to restrict - DELETE
+ };
+
+ // Behavior for the collision.order attribute. To GDL this is an enum, to us it's a bitfield, with only 1 bit set
+ // Allows for easier inversion.
+ enum {
+ SEQ_ORDER_LEFTDOWN = 1,
+ SEQ_ORDER_RIGHTUP = 2,
+ SEQ_ORDER_NOABOVE = 4,
+ SEQ_ORDER_NOBELOW = 8,
+ SEQ_ORDER_NOLEFT = 16,
+ SEQ_ORDER_NORIGHT = 32
+ };
+
+ SlotCollision(Segment *seg, Slot *slot);
+ void initFromSlot(Segment *seg, Slot *slot);
+
+ const Rect &limit() const { return _limit; }
+ void setLimit(const Rect &r) { _limit = r; }
+ SLOTCOLSETPOSITIONPROP(shift, setShift)
+ SLOTCOLSETPOSITIONPROP(offset, setOffset)
+ SLOTCOLSETPOSITIONPROP(exclOffset, setExclOffset)
+ SLOTCOLSETUINTPROP(margin, setMargin)
+ SLOTCOLSETUINTPROP(marginWt, setMarginWt)
+ SLOTCOLSETUINTPROP(flags, setFlags)
+ SLOTCOLSETUINTPROP(exclGlyph, setExclGlyph)
+ SLOTCOLSETUINTPROP(seqClass, setSeqClass)
+ SLOTCOLSETUINTPROP(seqProxClass, setSeqProxClass)
+ SLOTCOLSETUINTPROP(seqOrder, setSeqOrder)
+ SLOTCOLSETINTPROP(seqAboveXoff, setSeqAboveXoff)
+ SLOTCOLSETUINTPROP(seqAboveWt, setSeqAboveWt)
+ SLOTCOLSETINTPROP(seqBelowXlim, setSeqBelowXlim)
+ SLOTCOLSETUINTPROP(seqBelowWt, setSeqBelowWt)
+ SLOTCOLSETUINTPROP(seqValignHt, setSeqValignHt)
+ SLOTCOLSETUINTPROP(seqValignWt, setSeqValignWt)
+
+ float getKern(int dir) const;
+
+private:
+ Rect _limit;
+ Position _shift; // adjustment within the given pass
+ Position _offset; // total adjustment for collisions
+ Position _exclOffset;
+ uint16 _margin;
+ uint16 _marginWt;
+ uint16 _flags;
+ uint16 _exclGlyph;
+ uint16 _seqClass;
+ uint16 _seqProxClass;
+ uint16 _seqOrder;
+ int16 _seqAboveXoff;
+ uint16 _seqAboveWt;
+ int16 _seqBelowXlim;
+ uint16 _seqBelowWt;
+ uint16 _seqValignHt;
+ uint16 _seqValignWt;
+
+}; // end of class SlotColllision
+
+struct BBox;
+struct SlantBox;
+
+class ShiftCollider
+{
+public:
+ typedef std::pair<float, float> fpair;
+ typedef Vector<fpair> vfpairs;
+ typedef vfpairs::iterator ivfpairs;
+
+ ShiftCollider(json *dbgout);
+ ~ShiftCollider() throw() { };
+
+ bool initSlot(Segment *seg, Slot *aSlot, const Rect &constraint,
+ float margin, float marginMin, const Position &currShift,
+ const Position &currOffset, int dir, GR_MAYBE_UNUSED json * const dbgout);
+ bool mergeSlot(Segment *seg, Slot *slot, const Position &currShift, bool isAfter,
+ bool sameCluster, bool &hasCol, bool isExclusion, GR_MAYBE_UNUSED json * const dbgout);
+ Position resolve(Segment *seg, bool &isCol, GR_MAYBE_UNUSED json * const dbgout);
+ void addBox_slope(bool isx, const Rect &box, const BBox &bb, const SlantBox &sb, const Position &org, float weight, float m, bool minright, int mode);
+ void removeBox(const Rect &box, const BBox &bb, const SlantBox &sb, const Position &org, int mode);
+ const Position &origin() const { return _origin; }
+
+#if !defined GRAPHITE2_NTRACING
+ void outputJsonDbg(json * const dbgout, Segment *seg, int axis);
+ void outputJsonDbgStartSlot(json * const dbgout, Segment *seg);
+ void outputJsonDbgEndSlot(json * const dbgout, Position resultPos, int bestAxis, bool isCol);
+ void outputJsonDbgOneVector(json * const dbgout, Segment *seg, int axis, float tleft, float bestCost, float bestVal);
+ void outputJsonDbgRawRanges(json * const dbgout, int axis);
+ void outputJsonDbgRemovals(json * const dbgout, int axis, Segment *seg);
+#endif
+
+ CLASS_NEW_DELETE;
+
+protected:
+ Zones _ranges[4]; // possible movements in 4 directions (horizontally, vertically, diagonally);
+ Slot * _target; // the glyph to fix
+ Rect _limit;
+ Position _currShift;
+ Position _currOffset;
+ Position _origin; // Base for all relative calculations
+ float _margin;
+ float _marginWt;
+ float _len[4];
+ uint16 _seqClass;
+ uint16 _seqProxClass;
+ uint16 _seqOrder;
+
+ //bool _scraping[4];
+
+}; // end of class ShiftCollider
+
+inline
+ShiftCollider::ShiftCollider(GR_MAYBE_UNUSED json *dbgout)
+: _target(0),
+ _margin(0.0),
+ _marginWt(0.0),
+ _seqClass(0),
+ _seqProxClass(0),
+ _seqOrder(0)
+{
+#if !defined GRAPHITE2_NTRACING
+ for (int i = 0; i < 4; ++i)
+ _ranges[i].setdebug(dbgout);
+#endif
+}
+
+class KernCollider
+{
+public:
+ KernCollider(json *dbg);
+ ~KernCollider() throw() { };
+ bool initSlot(Segment *seg, Slot *aSlot, const Rect &constraint, float margin,
+ const Position &currShift, const Position &offsetPrev, int dir,
+ float ymin, float ymax, json * const dbgout);
+ bool mergeSlot(Segment *seg, Slot *slot, const Position &currShift, float currSpace, int dir, json * const dbgout);
+ Position resolve(Segment *seg, Slot *slot, int dir, float margin, json * const dbgout);
+ void shift(const Position &mv, int dir);
+
+ CLASS_NEW_DELETE;
+
+private:
+ Slot * _target; // the glyph to fix
+ Rect _limit;
+ float _margin;
+ Position _offsetPrev; // kern from a previous pass
+ Position _currShift; // NOT USED??
+ float _miny; // y-coordinates offset by global slot position
+ float _maxy;
+ Vector<float> _edges; // edges of horizontal slices
+ float _sliceWidth; // width of each slice
+ float _mingap;
+ float _xbound; // max or min edge
+
+#if !defined GRAPHITE2_NTRACING
+ // Debugging
+ Segment * _seg;
+ Vector<float> _nearEdges; // closest potential collision in each slice
+ Vector<Slot*> _slotNear;
+#endif
+}; // end of class KernCollider
+
+
+inline
+float sqr(float x) {
+ return x * x;
+}
+
+inline
+KernCollider::KernCollider(GR_MAYBE_UNUSED json *dbg)
+: _target(0),
+ _margin(0.0f),
+ _miny(-1e38f),
+ _maxy(1e38f),
+ _sliceWidth(0.0f),
+ _mingap(0.0f),
+ _xbound(0.0)
+{
+#if !defined GRAPHITE2_NTRACING
+ _seg = 0;
+#endif
+};
+
+}; // end of namespace graphite2
+
diff --git a/gfx/graphite2/src/inc/Compression.h b/gfx/graphite2/src/inc/Compression.h
new file mode 100644
--- /dev/null
+++ b/gfx/graphite2/src/inc/Compression.h
@@ -0,0 +1,103 @@
+/* GRAPHITE2 LICENSING
+
+ Copyright 2015, SIL International
+ All rights reserved.
+
+ This library is free software; you can redistribute it and/or modify
+ it under the terms of the GNU Lesser General Public License as published
+ by the Free Software Foundation; either version 2.1 of License, or
+ (at your option) any later version.
+
+ This program 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
+ Lesser General Public License for more details.
+
+ You should also have received a copy of the GNU Lesser General Public
+ License along with this library in the file named "LICENSE".
+ If not, write to the Free Software Foundation, 51 Franklin Street,
+ Suite 500, Boston, MA 02110-1335, USA or visit their web page on the
+ internet at http://www.fsf.org/licenses/lgpl.html.
+
+Alternatively, the contents of this file may be used under the terms of the
+Mozilla Public License (http://mozilla.org/MPL) or the GNU General Public
+License, as published by the Free Software Foundation, either version 2
+of the License or (at your option) any later version.
+*/
+
+#pragma once
+
+#include <cassert>
+#include <cstddef>
+#include <cstring>
+
+namespace
+{
+
+#if defined(_MSC_VER)
+typedef unsigned __int8 u8;
+typedef unsigned __int16 u16;
+typedef unsigned __int32 u32;
+typedef unsigned __int64 u64;
+#else
+#include <stdint.h>
+typedef uint8_t u8;
+typedef uint16_t u16;
+typedef uint32_t u32;
+typedef uint64_t u64;
+#endif
+
+ptrdiff_t const MINMATCH = 4;
+
+template<int S>
+inline
+void unaligned_copy(void * d, void const * s) {
+ ::memcpy(d, s, S);
+}
+
+inline
+size_t align(size_t p) {
+ return (p + sizeof(unsigned long)-1) & ~(sizeof(unsigned long)-1);
+}
+
+inline
+u8 * safe_copy(u8 * d, u8 const * s, size_t n) {
+ while (n--) *d++ = *s++;
+ return d;
+}
+
+inline
+u8 * overrun_copy(u8 * d, u8 const * s, size_t n) {
+ size_t const WS = sizeof(unsigned long);
+ u8 const * e = s + n;
+ do
+ {
+ unaligned_copy<WS>(d, s);
+ d += WS;
+ s += WS;
+ }
+ while (s < e);
+ d-=(s-e);
+
+ return d;
+}
+
+
+inline
+u8 * fast_copy(u8 * d, u8 const * s, size_t n) {
+ size_t const WS = sizeof(unsigned long);
+ size_t wn = n/WS;
+ while (wn--)
+ {
+ unaligned_copy<WS>(d, s);
+ d += WS;
+ s += WS;
+ }
+ n &= WS-1;
+ return safe_copy(d, s, n);
+}
+
+
+} // end of anonymous namespace
+
+
diff --git a/gfx/graphite2/src/inc/Decompressor.h b/gfx/graphite2/src/inc/Decompressor.h
new file mode 100644
--- /dev/null
+++ b/gfx/graphite2/src/inc/Decompressor.h
@@ -0,0 +1,56 @@
+/* GRAPHITE2 LICENSING
+
+ Copyright 2015, SIL International
+ All rights reserved.
+
+ This library is free software; you can redistribute it and/or modify
+ it under the terms of the GNU Lesser General Public License as published
+ by the Free Software Foundation; either version 2.1 of License, or
+ (at your option) any later version.
+
+ This program 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
+ Lesser General Public License for more details.
+
+ You should also have received a copy of the GNU Lesser General Public
+ License along with this library in the file named "LICENSE".
+ If not, write to the Free Software Foundation, 51 Franklin Street,
+ Suite 500, Boston, MA 02110-1335, USA or visit their web page on the
+ internet at http://www.fsf.org/licenses/lgpl.html.
+
+Alternatively, the contents of this file may be used under the terms of the
+Mozilla Public License (http://mozilla.org/MPL) or the GNU General Public
+License, as published by the Free Software Foundation, either version 2
+of the License or (at your option) any later version.
+*/
+
+#pragma once
+
+#include <cstddef>
+
+namespace lz4
+{
+
+// decompress an LZ4 block
+// Parameters:
+// @in - Input buffer containing an LZ4 block.
+// @in_size - Size of the input LZ4 block in bytes.
+// @out - Output buffer to hold decompressed results.
+// @out_size - The size of the buffer pointed to by @out.
+// Invariants:
+// @in - This buffer must be at least 1 machine word in length,
+// regardless of the actual LZ4 block size.
+// @in_size - This must be at least 4 and must also be <= to the
+// allocated buffer @in.
+// @out - This must be bigger than the input buffer and at least
+// 13 bytes.
+// @out_size - Must always be big enough to hold the expected size.
+// Return:
+// -1 - Decompression failed.
+// size - Actual number of bytes decompressed.
+int decompress(void const *in, size_t in_size, void *out, size_t out_size);
+
+} // end of namespace shrinker
+
+
diff --git a/gfx/graphite2/src/inc/Error.h b/gfx/graphite2/src/inc/Error.h
--- a/gfx/graphite2/src/inc/Error.h
+++ b/gfx/graphite2/src/inc/Error.h
@@ -106,22 +106,30 @@ enum errors {
E_BADRULECCODEPTR = 45, // The rule constraint code position does not align with where the forward reference says it should be
E_BADCCODELEN = 46, // Bad rule/pass constraint code length
E_BADACTIONCODEPTR = 47, // The action code position does not align with where the forward reference says it should be
E_MUTABLECCODE = 48, // Constraint code edits slots. It shouldn't.
E_BADSTATE = 49, // Bad state transition referencing an illegal state
E_BADRULEMAPPING = 50, // The structure of the rule mapping is bad
E_BADRANGE = 51, // Bad column range structure including a glyph in more than one column
E_BADRULENUM = 52, // A reference to a rule is out of range (too high)
+ E_BADACOLLISION = 53, // Bad Silf table collision attribute number (too high)
+ E_BADEMPTYPASS = 54, // Can't have empty passes (no rules) except for collision passes
+ E_BADSILFVERSION = 55, // The Silf table has a bad version (probably too high)
+ E_BADCOLLISIONPASS = 56, // Collision flags set on a non positioning pass
+ E_BADNUMCOLUMNS = 57, // Arbitrarily limit number of columns in fsm
// Code errors
E_CODEFAILURE = 60, // Base code error. The following subcodes must align with Machine::Code::status_t in Code.h
- E_CODEALLOC = 61, // Out of memory
- E_INVALIDOPCODE = 62, // Invalid op code
- E_UNIMPOPCODE = 63, // Unimplemented op code encountered
- E_OUTOFRANGECODE = 64, // Code argument out of range
- E_BADJUMPCODE = 65, // Code jumps past end of op codes
- E_CODEBADARGS = 66, // Code arguments exhausted
- E_CODENORETURN = 67, // Missing return type op code at end of code
- E_CODENESTEDCTXT = 68 // Nested context encountered in code
+ E_CODEALLOC = 61, // Out of memory
+ E_INVALIDOPCODE = 62, // Invalid op code
+ E_UNIMPOPCODE = 63, // Unimplemented op code encountered
+ E_OUTOFRANGECODE = 64, // Code argument out of range
+ E_BADJUMPCODE = 65, // Code jumps past end of op codes
+ E_CODEBADARGS = 66, // Code arguments exhausted
+ E_CODENORETURN = 67, // Missing return type op code at end of code
+ E_CODENESTEDCTXT = 68, // Nested context encountered in code
+// Compression errors
+ E_BADSCHEME = 69,
+ E_SHRINKERFAILED = 70,
};
}
diff --git a/gfx/graphite2/src/inc/Face.h b/gfx/graphite2/src/inc/Face.h
--- a/gfx/graphite2/src/inc/Face.h
+++ b/gfx/graphite2/src/inc/Face.h
@@ -21,33 +21,34 @@
Alternatively, the contents of this file may be used under the terms of the
Mozilla Public License (http://mozilla.org/MPL) or the GNU General Public
License, as published by the Free Software Foundation, either version 2
of the License or (at your option) any later version.
*/
#pragma once
-#include <stdio.h>
+#include <cstdio>
#include "graphite2/Font.h"
#include "inc/Main.h"
#include "inc/FeatureMap.h"
#include "inc/TtfUtil.h"
#include "inc/Silf.h"
#include "inc/Error.h"
namespace graphite2 {
class Cmap;
class FileFace;
class GlyphCache;
class NameTable;
class json;
+class Font;
using TtfUtil::Tag;
// These are the actual tags, as distinct from the consecutive IDs in TtfUtil.h
class Face
{
@@ -165,47 +166,51 @@ json * Face::logger() const throw()
class Face::Table
{
const Face * _f;
mutable const byte * _p;
uint32 _sz;
+ bool _compressed;
+
+ Error decompress();
+
+ void releaseBuffers();
public:
Table() throw();
- Table(const Face & face, const Tag n) throw();
+ Table(const Face & face, const Tag n, uint32 version=0xffffffff) throw();
Table(const Table & rhs) throw();
~Table() throw();
operator const byte * () const throw();
Table & operator = (const Table & rhs) throw();
size_t size() const throw();
};
inline
Face::Table::Table() throw()
-: _f(0), _p(0), _sz(0)
+: _f(0), _p(0), _sz(0), _compressed(false)
{
}
inline
Face::Table::Table(const Table & rhs) throw()
-: _f(rhs._f), _p(rhs._p), _sz(rhs._sz)
+: _f(rhs._f), _p(rhs._p), _sz(rhs._sz), _compressed(rhs._compressed)
{
rhs._p = 0;
}
inline
Face::Table::~Table() throw()
{
- if (_p && _f->m_ops.release_table)
- (*_f->m_ops.release_table)(_f->m_appFaceHandle, _p);
+ releaseBuffers();
}
inline
Face::Table::operator const byte * () const throw()
{
return _p;
}
diff --git a/gfx/graphite2/src/inc/FeatureMap.h b/gfx/graphite2/src/inc/FeatureMap.h
--- a/gfx/graphite2/src/inc/FeatureMap.h
+++ b/gfx/graphite2/src/inc/FeatureMap.h
@@ -51,17 +51,17 @@ private:
};
class FeatureRef
{
typedef uint32 chunk_t;
static const uint8 SIZEOF_CHUNK = sizeof(chunk_t)*8;
public:
- FeatureRef() : m_nameValues(0) {}
+ FeatureRef();
FeatureRef(const Face & face, unsigned short & bits_offset, uint32 max_val,
uint32 name, uint16 uiName, uint16 flags,
FeatureSetting *settings, uint16 num_set) throw();
~FeatureRef() throw();
bool applyValToFeature(uint32 val, Features& pDest) const; //defined in GrFaceImp.h
void maskFeature(Features & pDest) const {
if (m_index < pDest.size()) //defensive
@@ -94,16 +94,26 @@ private:
byte m_bits, // how many bits to shift the value into place
m_index; // index into the array to find the ulong to mask
private: //unimplemented
FeatureRef& operator=(const FeatureRef&);
};
+inline
+FeatureRef::FeatureRef()
+: m_pFace(0), m_nameValues(0),
+ m_mask(0), m_max(0), m_id(0),
+ m_nameid(0), m_flags(0), m_numSet(0),
+ m_bits(0), m_index(0)
+{
+}
+
+
class NameAndFeatureRef
{
public:
NameAndFeatureRef(uint32 name = 0) : m_name(name) , m_pFRef(NULL){}
NameAndFeatureRef(const FeatureRef* p/*not NULL*/) : m_name(p->getId()), m_pFRef(p) {}
bool operator<(const NameAndFeatureRef& rhs) const //orders by m_name
{ return m_name<rhs.m_name; }
@@ -112,35 +122,34 @@ class NameAndFeatureRef
uint32 m_name;
const FeatureRef* m_pFRef;
};
class FeatureMap
{
public:
- FeatureMap() : m_numFeats(0), m_feats(NULL), m_pNamedFeats(NULL),
- m_defaultFeatures(NULL) {}
- ~FeatureMap() { delete [] m_feats; delete[] m_pNamedFeats; delete m_defaultFeatures; }
+ FeatureMap() : m_numFeats(0), m_feats(NULL), m_pNamedFeats(NULL) {}
+ ~FeatureMap() { delete [] m_feats; delete[] m_pNamedFeats; }
bool readFeats(const Face & face);
const FeatureRef *findFeatureRef(uint32 name) const;
FeatureRef *feature(uint16 index) const { return m_feats + index; }
//GrFeatureRef *featureRef(byte index) { return index < m_numFeats ? m_feats + index : NULL; }
const FeatureRef *featureRef(byte index) const { return index < m_numFeats ? m_feats + index : NULL; }
FeatureVal* cloneFeatures(uint32 langname/*0 means default*/) const; //call destroy_Features when done.
uint16 numFeats() const { return m_numFeats; };
CLASS_NEW_DELETE
private:
friend class SillMap;
uint16 m_numFeats;
FeatureRef *m_feats;
NameAndFeatureRef* m_pNamedFeats; //owned
- FeatureVal* m_defaultFeatures; //owned
+ FeatureVal m_defaultFeatures; //owned
private: //defensive on m_feats, m_pNamedFeats, and m_defaultFeatures
FeatureMap(const FeatureMap&);
FeatureMap& operator=(const FeatureMap&);
};
class SillMap
diff --git a/gfx/graphite2/src/inc/FileFace.h b/gfx/graphite2/src/inc/FileFace.h
--- a/gfx/graphite2/src/inc/FileFace.h
+++ b/gfx/graphite2/src/inc/FileFace.h
@@ -27,17 +27,17 @@ of the License or (at your option) any l
#pragma once
//#include "inc/FeatureMap.h"
//#include "inc/GlyphsCache.h"
//#include "inc/Silf.h"
#ifndef GRAPHITE2_NFILEFACE
-#include <stdio.h>
+#include <cstdio>
#include <cassert>
#include "graphite2/Font.h"
#include "inc/Main.h"
#include "inc/TtfTypes.h"
#include "inc/TtfUtil.h"
diff --git a/gfx/graphite2/src/inc/GlyphCache.h b/gfx/graphite2/src/inc/GlyphCache.h
--- a/gfx/graphite2/src/inc/GlyphCache.h
+++ b/gfx/graphite2/src/inc/GlyphCache.h
@@ -24,24 +24,73 @@ Mozilla Public License (http://mozilla.o
License, as published by the Free Software Foundation, either version 2
of the License or (at your option) any later version.
*/
#pragma once
#include "graphite2/Font.h"
#include "inc/Main.h"
+#include "inc/Position.h"
+#include "inc/GlyphFace.h"
namespace graphite2 {
class Face;
class FeatureVal;
-class GlyphFace;
class Segment;
+
+struct SlantBox
+{
+ static const SlantBox empty;
+
+// SlantBox(float psi = 0., float pdi = 0., float psa = 0., float pda = 0.) : si(psi), di(pdi), sa(psa), da(pda) {};
+ float width() const { return sa - si; }
+ float height() const { return da - di; }
+ float si; // min
+ float di; // min
+ float sa; // max
+ float da; // max
+};
+
+
+struct BBox
+{
+ BBox(float pxi = 0, float pyi = 0., float pxa = 0., float pya = 0.) : xi(pxi), yi(pyi), xa(pxa), ya(pya) {};
+ float width() const { return xa - xi; }
+ float height() const { return ya - yi; }
+ float xi; // min
+ float yi; // min
+ float xa; // max
+ float ya; // max
+};
+
+
+class GlyphBox
+{
+ GlyphBox(const GlyphBox &);
+ GlyphBox & operator = (const GlyphBox &);
+
+public:
+ GlyphBox(uint8 numsubs, unsigned short bitmap, Rect *slanted) : _num(numsubs), _bitmap(bitmap), _slant(*slanted) {};
+
+ void addSubBox(int subindex, int boundary, Rect *val) { _subs[subindex * 2 + boundary] = *val; }
+ Rect &subVal(int subindex, int boundary) { return _subs[subindex * 2 + boundary]; }
+ const Rect &slant() const { return _slant; }
+ uint8 num() const { return _num; }
+ const Rect *subs() const { return _subs; }
+
+private:
+ uint8 _num;
+ unsigned short _bitmap;
+ Rect _slant;
+ Rect _subs[1];
+};
+
class GlyphCache
{
class Loader;
GlyphCache(const GlyphCache&);
GlyphCache& operator=(const GlyphCache&);
public:
@@ -49,22 +98,34 @@ public:
~GlyphCache();
unsigned short numGlyphs() const throw();
unsigned short numAttrs() const throw();
unsigned short unitsPerEm() const throw();
const GlyphFace *glyph(unsigned short glyphid) const; //result may be changed by subsequent call with a different glyphid
const GlyphFace *glyphSafe(unsigned short glyphid) const;
+ float getBoundingMetric(unsigned short glyphid, uint8 metric) const;
+ uint8 numSubBounds(unsigned short glyphid) const;
+ float getSubBoundingMetric(unsigned short glyphid, uint8 subindex, uint8 metric) const;
+ const Rect & slant(unsigned short glyphid) const { return _boxes[glyphid] ? _boxes[glyphid]->slant() : _empty_slant_box; }
+ const SlantBox & getBoundingSlantBox(unsigned short glyphid) const;
+ const BBox & getBoundingBBox(unsigned short glyphid) const;
+ const SlantBox & getSubBoundingSlantBox(unsigned short glyphid, uint8 subindex) const;
+ const BBox & getSubBoundingBBox(unsigned short glyphid, uint8 subindex) const;
+ bool check(unsigned short glyphid) const;
+ bool hasBoxes() const { return _boxes != 0; }
CLASS_NEW_DELETE;
private:
+ const Rect _empty_slant_box;
const Loader * _glyph_loader;
const GlyphFace * * _glyphs;
+ GlyphBox * * _boxes;
unsigned short _num_glyphs,
_num_attrs,
_upem;
};
inline
unsigned short GlyphCache::numGlyphs() const throw()
{
@@ -79,14 +140,84 @@ unsigned short GlyphCache::numAttrs() co
inline
unsigned short GlyphCache::unitsPerEm() const throw()
{
return _upem;
}
inline
+bool GlyphCache::check(unsigned short glyphid) const
+{
+ return _boxes && glyphid < _num_glyphs;
+}
+
+inline
const GlyphFace *GlyphCache::glyphSafe(unsigned short glyphid) const
{
return glyphid < _num_glyphs ? glyph(glyphid) : NULL;
}
+inline
+float GlyphCache::getBoundingMetric(unsigned short glyphid, uint8 metric) const
+{
+ if (glyphid >= _num_glyphs) return 0.;
+ switch (metric) {
+ case 0: return (float)(glyph(glyphid)->theBBox().bl.x); // x_min
+ case 1: return (float)(glyph(glyphid)->theBBox().bl.y); // y_min
+ case 2: return (float)(glyph(glyphid)->theBBox().tr.x); // x_max
+ case 3: return (float)(glyph(glyphid)->theBBox().tr.y); // y_max
+ case 4: return (float)(_boxes[glyphid] ? _boxes[glyphid]->slant().bl.x : 0.f); // sum_min
+ case 5: return (float)(_boxes[glyphid] ? _boxes[glyphid]->slant().bl.y : 0.f); // diff_min
+ case 6: return (float)(_boxes[glyphid] ? _boxes[glyphid]->slant().tr.x : 0.f); // sum_max
+ case 7: return (float)(_boxes[glyphid] ? _boxes[glyphid]->slant().tr.y : 0.f); // diff_max
+ default: return 0.;
+ }
+}
+
+inline const SlantBox &GlyphCache::getBoundingSlantBox(unsigned short glyphid) const
+{
+ return _boxes[glyphid] ? *(SlantBox *)(&(_boxes[glyphid]->slant())) : SlantBox::empty;
+}
+
+inline const BBox &GlyphCache::getBoundingBBox(unsigned short glyphid) const
+{
+ return *(BBox *)(&(glyph(glyphid)->theBBox()));
+}
+
+inline
+float GlyphCache::getSubBoundingMetric(unsigned short glyphid, uint8 subindex, uint8 metric) const
+{
+ GlyphBox *b = _boxes[glyphid];
+ if (b == NULL || subindex >= b->num()) return 0;
+
+ switch (metric) {
+ case 0: return b->subVal(subindex, 0).bl.x;
+ case 1: return b->subVal(subindex, 0).bl.y;
+ case 2: return b->subVal(subindex, 0).tr.x;
+ case 3: return b->subVal(subindex, 0).tr.y;
+ case 4: return b->subVal(subindex, 1).bl.x;
+ case 5: return b->subVal(subindex, 1).bl.y;
+ case 6: return b->subVal(subindex, 1).tr.x;
+ case 7: return b->subVal(subindex, 1).tr.y;
+ default: return 0.;
+ }
+}
+
+inline const SlantBox &GlyphCache::getSubBoundingSlantBox(unsigned short glyphid, uint8 subindex) const
+{
+ GlyphBox *b = _boxes[glyphid];
+ return *(SlantBox *)(b->subs() + 2 * subindex + 1);
+}
+
+inline const BBox &GlyphCache::getSubBoundingBBox(unsigned short glyphid, uint8 subindex) const
+{
+ GlyphBox *b = _boxes[glyphid];
+ return *(BBox *)(b->subs() + 2 * subindex);
+}
+
+inline
+uint8 GlyphCache::numSubBounds(unsigned short glyphid) const
+{
+ return _boxes[glyphid] ? _boxes[glyphid]->num() : 0;
+}
+
} // namespace graphite2
diff --git a/gfx/graphite2/src/inc/Intervals.h b/gfx/graphite2/src/inc/Intervals.h
new file mode 100644
--- /dev/null
+++ b/gfx/graphite2/src/inc/Intervals.h
@@ -0,0 +1,234 @@
+/* GRAPHITE2 LICENSING
+
+ Copyright 2010, SIL International
+ All rights reserved.
+
+ This library is free software; you can redistribute it and/or modify
+ it under the terms of the GNU Lesser General Public License as published
+ by the Free Software Foundation; either version 2.1 of License, or
+ (at your option) any later version.
+
+ This program 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
+ Lesser General Public License for more details.
+
+ You should also have received a copy of the GNU Lesser General Public
+ License along with this library in the file named "LICENSE".
+ If not, write to the Free Software Foundation, 51 Franklin Street,
+ Suite 500, Boston, MA 02110-1335, USA or visit their web page on the
+ internet at http://www.fsf.org/licenses/lgpl.html.
+
+Alternatively, the contents of this file may be used under the terms of the
+Mozilla Public License (http://mozilla.org/MPL) or the GNU General Public
+License, as published by the Free Software Foundation, either version 2
+of the License or (at your option) any later version.
+*/
+#pragma once
+
+#include <utility>
+
+#include "inc/Main.h"
+#include "inc/List.h"
+#include "inc/json.h"
+#include "inc/Position.h"
+
+// An IntervalSet represents the possible movement of a given glyph in a given direction
+// (horizontally, vertically, or diagonally).
+// A vector is needed to represent disjoint ranges, eg, -300..-150, 20..200, 500..750.
+// Each pair represents the min/max of a sub-range.
+
+namespace graphite2 {
+
+class Segment;
+
+enum zones_t {SD, XY};
+
+class Zones
+{
+ struct Exclusion
+ {
+ template<zones_t O>
+ static Exclusion weighted(float xmin, float xmax, float f, float a0,
+ float m, float xi, float ai, float c, bool nega);
+
+ float x, // x position
+ xm, // xmax position
+ c, // constant + sum(MiXi^2)
+ sm, // sum(Mi)
+ smx; // sum(MiXi)
+ bool open;
+
+ Exclusion(float x, float w, float smi, float smxi, float c);
+ Exclusion & operator += (Exclusion const & rhs);
+ uint8 outcode(float p) const;
+
+ Exclusion split_at(float p);
+ void left_trim(float p);
+
+ bool track_cost(float & cost, float & x, float origin) const;
+
+ private:
+ float test_position(float origin) const;
+ float cost(float x) const;
+ };
+
+ typedef Vector<Exclusion> exclusions;
+
+ typedef exclusions::iterator iterator;
+ typedef Exclusion * pointer;
+ typedef Exclusion & reference;
+ typedef std::reverse_iterator<iterator> reverse_iterator;
+
+public:
+ typedef exclusions::const_iterator const_iterator;
+ typedef Exclusion const * const_pointer;
+ typedef Exclusion const & const_reference;
+ typedef std::reverse_iterator<const_iterator> const_reverse_iterator;
+
+#if !defined GRAPHITE2_NTRACING
+ struct Debug
+ {
+ Exclusion _excl;
+ bool _isdel;
+ Vector<void *> _env;
+
+ Debug(Exclusion *e, bool isdel, json *dbg) : _excl(*e), _isdel(isdel), _env(dbg->getenvs()) { };
+ };
+
+ typedef Vector<Debug> debugs;
+ typedef debugs::const_iterator idebugs;
+ void addDebug(Exclusion *e);
+ void removeDebug(float pos, float posm);
+ void setdebug(json *dbgout) { _dbg = dbgout; }
+ idebugs dbgs_begin() const { return _dbgs.begin(); }
+ idebugs dbgs_end() const { return _dbgs.end(); }
+ void jsonDbgOut(Segment *seg) const;
+ Position position() const { return Position(_pos, _posm); }
+#endif
+
+ Zones();
+ template<zones_t O>
+ void initialise(float xmin, float xmax, float margin_len, float margin_weight, float ao);
+
+ void exclude(float xmin, float xmax);
+ void exclude_with_margins(float xmin, float xmax, int axis);
+
+ template<zones_t O>
+ void weighted(float xmin, float xmax, float f, float a0, float mi, float xi, float ai, float c, bool nega);
+ void weightedAxis(int axis, float xmin, float xmax, float f, float a0, float mi, float xi, float ai, float c, bool nega);
+
+ float closest( float origin, float &cost) const;
+
+ const_iterator begin() const { return _exclusions.begin(); }
+ const_iterator end() const { return _exclusions.end(); }
+
+private:
+ exclusions _exclusions;
+#if !defined GRAPHITE2_NTRACING
+ json * _dbg;
+ debugs _dbgs;
+#endif
+ float _margin_len,
+ _margin_weight,
+ _pos,
+ _posm;
+
+ void insert(Exclusion e);
+ void remove(float x, float xm);
+ const_iterator find_exclusion_under(float x) const;
+};
+
+
+inline
+Zones::Zones()
+: _margin_len(0), _margin_weight(0), _pos(0), _posm(0)
+{
+#if !defined GRAPHITE2_NTRACING
+ _dbg = 0;
+#endif
+ _exclusions.reserve(8);
+}
+
+inline
+Zones::Exclusion::Exclusion(float x_, float xm_, float smi, float smxi, float c_)
+: x(x_), xm(xm_), c(c_), sm(smi), smx(smxi), open(false)
+{ }
+
+template<zones_t O>
+inline
+void Zones::initialise(float xmin, float xmax, float margin_len,
+ float margin_weight, float a0)
+{
+ _margin_len = margin_len;
+ _margin_weight = margin_weight;
+ _pos = xmin;
+ _posm = xmax;
+ _exclusions.clear();
+ _exclusions.push_back(Exclusion::weighted<O>(xmin, xmax, 1, a0, 0, 0, 0, 0, false));
+ _exclusions.front().open = true;
+#if !defined GRAPHITE2_NTRACING
+ _dbgs.clear();
+#endif
+}
+
+inline
+void Zones::exclude(float xmin, float xmax) {
+ remove(xmin, xmax);
+}
+
+template<zones_t O>
+inline
+void Zones::weighted(float xmin, float xmax, float f, float a0,
+ float m, float xi, float ai, float c, bool nega) {
+ insert(Exclusion::weighted<O>(xmin, xmax, f, a0, m, xi, ai, c, nega));
+}
+
+inline
+void Zones::weightedAxis(int axis, float xmin, float xmax, float f, float a0,
+ float m, float xi, float ai, float c, bool nega) {
+ if (axis < 2)
+ weighted<XY>(xmin, xmax, f, a0, m, xi, ai, c, nega);
+ else
+ weighted<SD>(xmin, xmax, f, a0, m, xi, ai, c, nega);
+}
+
+#if !defined GRAPHITE2_NTRACING
+inline
+void Zones::addDebug(Exclusion *e) {
+ if (_dbg)
+ _dbgs.push_back(Debug(e, false, _dbg));
+}
+
+inline
+void Zones::removeDebug(float pos, float posm) {
+ if (_dbg)
+ {
+ Exclusion e(pos, posm, 0, 0, 0);
+ _dbgs.push_back(Debug(&e, true, _dbg));
+ }
+}
+#endif
+
+template<>
+inline
+Zones::Exclusion Zones::Exclusion::weighted<XY>(float xmin, float xmax, float f, float a0,
+ float m, float xi, GR_MAYBE_UNUSED float ai, float c, GR_MAYBE_UNUSED bool nega) {
+ return Exclusion(xmin, xmax,
+ m + f,
+ m * xi,
+ m * xi * xi + f * a0 * a0 + c);
+}
+
+template<>
+inline
+Zones::Exclusion Zones::Exclusion::weighted<SD>(float xmin, float xmax, float f, float a0,
+ float m, float xi, float ai,float c, bool nega) {
+ float xia = nega ? xi - ai : xi + ai;
+ return Exclusion(xmin, xmax,
+ 0.25f * (m + 2.f * f),
+ 0.25f * m * xia,
+ 0.25f * (m * xia * xia + 2.f * f * a0 * a0) + c);
+}
+
+} // end of namespace graphite2
diff --git a/gfx/graphite2/src/inc/List.h b/gfx/graphite2/src/inc/List.h
--- a/gfx/graphite2/src/inc/List.h
+++ b/gfx/graphite2/src/inc/List.h
@@ -65,29 +65,30 @@ public:
iterator end() { return m_last; }
const_iterator end() const { return m_last; }
bool empty() const { return m_first == m_last; }
size_t size() const { return m_last - m_first; }
size_t capacity() const{ return m_end - m_first; }
void reserve(size_t n);
+ void resize(size_t n, const T & v = T());
reference front() { assert(size() > 0); return *begin(); }
const_reference front() const { assert(size() > 0); return *begin(); }
reference back() { assert(size() > 0); return *(end()-1); }
const_reference back() const { assert(size() > 0); return *(end()-1); }
Vector<T> & operator = (const Vector<T> & rhs) { assign(rhs.begin(), rhs.end()); return *this; }
reference operator [] (size_t n) { assert(size() > n); return m_first[n]; }
const_reference operator [] (size_t n) const { assert(size() > n); return m_first[n]; }
void assign(size_t n, const T& u) { clear(); insert(begin(), n, u); }
void assign(const_iterator first, const_iterator last) { clear(); insert(begin(), first, last); }
- iterator insert(iterator p, const T & x) { p = _insert_default(p, 1); *p = x; return p; }
+ iterator insert(iterator p, const T & x) { p = _insert_default(p, 1); new (p) T(x); return p; }
void insert(iterator p, size_t n, const T & x);
void insert(iterator p, const_iterator first, const_iterator last);
void pop_back() { assert(size() > 0); --m_last; }
void push_back(const T &v) { if (m_last == m_end) reserve(size()+1); new (m_last++) T(v); }
void clear() { erase(begin(), end()); }
iterator erase(iterator p) { return erase(p, p+1); }
iterator erase(iterator first, iterator last);
@@ -99,28 +100,37 @@ private:
template <typename T>
inline
void Vector<T>::reserve(size_t n)
{
if (n > capacity())
{
const ptrdiff_t sz = size();
m_first = static_cast<T*>(realloc(m_first, n*sizeof(T)));
+ if (!m_first) std::abort();
m_last = m_first + sz;
m_end = m_first + n;
}
}
+template <typename T>
+inline
+void Vector<T>::resize(size_t n, const T & v) {
+ const ptrdiff_t d = n-size();
+ if (d < 0) erase(end()+d, end());
+ else if (d > 0) insert(end(), d, v);
+}
+
template<typename T>
inline
typename Vector<T>::iterator Vector<T>::_insert_default(iterator p, size_t n)
{
assert(begin() <= p && p <= end());
const ptrdiff_t i = p - begin();
- reserve((size() + n + 7) >> 3 << 3);
+ reserve(((size() + n + 7) >> 3) << 3);
p = begin() + i;
// Move tail if there is one
if (p != end()) memmove(p + n, p, distance(p,end())*sizeof(T));
m_last += n;
return p;
}
template<typename T>
diff --git a/gfx/graphite2/src/inc/Machine.h b/gfx/graphite2/src/inc/Machine.h
--- a/gfx/graphite2/src/inc/Machine.h
+++ b/gfx/graphite2/src/inc/Machine.h
@@ -105,17 +105,19 @@ enum opcode {
PUSH_IGLYPH_ATTR, // not implemented
POP_RET, RET_ZERO, RET_TRUE,
IATTR_SET, IATTR_ADD, IATTR_SUB,
PUSH_PROC_STATE, PUSH_VERSION,
PUT_SUBS, PUT_SUBS2, PUT_SUBS3,
PUT_GLYPH, PUSH_GLYPH_ATTR, PUSH_ATT_TO_GLYPH_ATTR,
- MAX_OPCODE,
+ BITOR, BITAND, BITNOT,
+ BITSET, SET_FEAT,
+ MAX_OPCODE,
// private opcodes for internal use only, comes after all other on disk opcodes
TEMP_COPY = MAX_OPCODE
};
struct opcode_t
{
instr impl[2];
uint8 param_sz;
@@ -143,17 +145,17 @@ public:
Machine(SlotMap &) throw();
static const opcode_t * getOpcodeTable() throw();
CLASS_NEW_DELETE;
SlotMap & slotMap() const throw();
status_t status() const throw();
- operator bool () const throw();
+// operator bool () const throw();
private:
void check_final_stack(const stack_t * const sp);
stack_t run(const instr * program, const byte * data,
slotref * & map) HOT;
SlotMap & _map;
stack_t _stack[STACK_MAX + 2*STACK_GUARD];
diff --git a/gfx/graphite2/src/inc/Main.h b/gfx/graphite2/src/inc/Main.h
--- a/gfx/graphite2/src/inc/Main.h
+++ b/gfx/graphite2/src/inc/Main.h
@@ -80,25 +80,25 @@ struct telemetry {};
// typesafe wrapper around malloc for simple types
// use free(pointer) to deallocate
template <typename T> T * gralloc(size_t n)
{
#ifdef GRAPHITE2_TELEMETRY
telemetry::count_bytes(sizeof(T) * n);
#endif
- return reinterpret_cast<T*>(malloc(sizeof(T) * n));
+ return static_cast<T*>(malloc(sizeof(T) * n));
}
template <typename T> T * grzeroalloc(size_t n)
{
#ifdef GRAPHITE2_TELEMETRY
telemetry::count_bytes(sizeof(T) * n);
#endif
- return reinterpret_cast<T*>(calloc(n, sizeof(T)));
+ return static_cast<T*>(calloc(n, sizeof(T)));
}
template <typename T>
inline T min(const T a, const T b)
{
return a < b ? a : b;
}
@@ -115,13 +115,32 @@ inline T max(const T a, const T b)
void * operator new (size_t, void * p) throw() { return p; } \
void * operator new[] (size_t size) {return gralloc<byte>(size);} \
void * operator new[] (size_t, void * p) throw() { return p; } \
void operator delete (void * p) throw() { free(p);} \
void operator delete (void *, void *) throw() {} \
void operator delete[] (void * p)throw() { free(p); } \
void operator delete[] (void *, void *) throw() {}
-#ifdef __GNUC__
+#if defined(__GNUC__) || defined(__clang__)
#define GR_MAYBE_UNUSED __attribute__((unused))
#else
#define GR_MAYBE_UNUSED
#endif
+
+#if defined(__clang__) && __cplusplus >= 201103L
+ /* clang's fallthrough annotations are only available starting in C++11. */
+ #define GR_FALLTHROUGH [[clang::fallthrough]]
+#elif defined(_MSC_VER)
+ /*
+ * MSVC's __fallthrough annotations are checked by /analyze (Code Analysis):
+ * https://msdn.microsoft.com/en-us/library/ms235402%28VS.80%29.aspx
+ */
+ #include <sal.h>
+ #define GR_FALLTHROUGH __fallthrough
+#else
+ #define GR_FALLTHROUGH /* fallthrough */
+#endif
+
+#ifdef _MSC_VER
+#pragma warning(disable: 4800)
+#pragma warning(disable: 4355)
+#endif
diff --git a/gfx/graphite2/src/inc/Pass.h b/gfx/graphite2/src/inc/Pass.h
--- a/gfx/graphite2/src/inc/Pass.h
+++ b/gfx/graphite2/src/inc/Pass.h
@@ -34,65 +34,85 @@ namespace graphite2 {
class Segment;
class Face;
class Silf;
struct Rule;
struct RuleEntry;
struct State;
class FiniteStateMachine;
class Error;
+class ShiftCollider;
+class KernCollider;
+class json;
+
+enum passtype;
class Pass
{
public:
Pass();
~Pass();
- bool readPass(const byte * pPass, size_t pass_length, size_t subtable_base, Face & face, Error &e);
- void runGraphite(vm::Machine & m, FiniteStateMachine & fsm) const;
+ bool readPass(const byte * pPass, size_t pass_length, size_t subtable_base, Face & face,
+ enum passtype pt, uint32 version, Error &e);
+ bool runGraphite(vm::Machine & m, FiniteStateMachine & fsm, bool reverse) const;
void init(Silf *silf) { m_silf = silf; }
- byte spaceContextuals() const { return (m_flags & 0x0E) >> 1; }
+ byte collisionLoops() const { return m_numCollRuns; }
+ bool reverseDir() const { return m_isReverseDir; }
CLASS_NEW_DELETE
private:
void findNDoRule(Slot* & iSlot, vm::Machine &, FiniteStateMachine& fsm) const;
int doAction(const vm::Machine::Code* codeptr, Slot * & slot_out, vm::Machine &) const;
bool testPassConstraint(vm::Machine & m) const;
bool testConstraint(const Rule & r, vm::Machine &) const;
bool readRules(const byte * rule_map, const size_t num_entries,
const byte *precontext, const uint16 * sort_key,
const uint16 * o_constraint, const byte *constraint_data,
const uint16 * o_action, const byte * action_data,
- Face &, Error &e);
+ Face &, enum passtype pt, Error &e);
bool readStates(const byte * starts, const byte * states, const byte * o_rule_map, Face &, Error &e);
bool readRanges(const byte * ranges, size_t num_ranges, Error &e);
uint16 glyphToCol(const uint16 gid) const;
bool runFSM(FiniteStateMachine & fsm, Slot * slot) const;
void dumpRuleEventConsidered(const FiniteStateMachine & fsm, const RuleEntry & re) const;
- void dumpRuleEventOutput(const FiniteStateMachine & fsm, const Rule & r, Slot * os) const;
+ void dumpRuleEventOutput(const FiniteStateMachine & fsm, vm::Machine & m, const Rule & r, Slot * os) const;
void adjustSlot(int delta, Slot * & slot_out, SlotMap &) const;
- const Silf* m_silf;
- uint16 * m_cols;
- Rule * m_rules; // rules
- RuleEntry * m_ruleMap;
- uint16 * m_startStates; // prectxt length
- uint16 * m_transitions;
- State * m_states;
-
- byte m_flags;
+ bool collisionShift(Segment *seg, int dir, json * const dbgout) const;
+ bool collisionKern(Segment *seg, int dir, json * const dbgout) const;
+ bool collisionFinish(Segment *seg, GR_MAYBE_UNUSED json * const dbgout) const;
+ bool resolveCollisions(Segment *seg, Slot *slot, Slot *start, ShiftCollider &coll, bool isRev,
+ int dir, bool &moved, bool &hasCol, json * const dbgout) const;
+ float resolveKern(Segment *seg, Slot *slot, Slot *start, KernCollider &coll, int dir,
+ float &ymin, float &ymax, json *const dbgout) const;
+
+ const Silf * m_silf;
+ uint16 * m_cols;
+ Rule * m_rules; // rules
+ RuleEntry * m_ruleMap;
+ uint16 * m_startStates; // prectxt length
+ uint16 * m_transitions;
+ State * m_states;
+ vm::Machine::Code * m_codes;
+ byte * m_progs;
+
+ byte m_numCollRuns;
+ byte m_kernColls;
byte m_iMaxLoop;
uint16 m_numGlyphs;
uint16 m_numRules;
uint16 m_numStates;
uint16 m_numTransition;
uint16 m_numSuccess;
uint16 m_successStart;
uint16 m_numColumns;
byte m_minPreCtxt;
byte m_maxPreCtxt;
+ byte m_colThreshold;
+ bool m_isReverseDir;
vm::Machine::Code m_cPConstraint;
private: //defensive
Pass(const Pass&);
Pass& operator=(const Pass&);
};
} // namespace graphite2
diff --git a/gfx/graphite2/src/inc/Position.h b/gfx/graphite2/src/inc/Position.h
--- a/gfx/graphite2/src/inc/Position.h
+++ b/gfx/graphite2/src/inc/Position.h
@@ -45,15 +45,24 @@ public:
class Rect
{
public :
Rect() {}
Rect(const Position& botLeft, const Position& topRight): bl(botLeft), tr(topRight) {}
Rect widen(const Rect& other) { return Rect(Position(bl.x > other.bl.x ? other.bl.x : bl.x, bl.y > other.bl.y ? other.bl.y : bl.y), Position(tr.x > other.tr.x ? tr.x : other.tr.x, tr.y > other.tr.y ? tr.y : other.tr.y)); }
Rect operator + (const Position &a) const { return Rect(Position(bl.x + a.x, bl.y + a.y), Position(tr.x + a.x, tr.y + a.y)); }
+ Rect operator - (const Position &a) const { return Rect(Position(bl.x - a.x, bl.y - a.y), Position(tr.x - a.x, tr.y - a.y)); }
Rect operator * (float m) const { return Rect(Position(bl.x, bl.y) * m, Position(tr.x, tr.y) * m); }
+ float width() const { return tr.x - bl.x; }
+ float height() const { return tr.y - bl.y; }
+
+ bool hitTest(Rect &other);
+
+ // returns Position(overlapx, overlapy) where overlap<0 if overlapping else positive)
+ Position overlap(Position &offset, Rect &other, Position &otherOffset);
+ //Position constrainedAvoid(Position &offset, Rect &box, Rect &sdbox, Position &other, Rect &obox, Rect &osdbox);
Position bl;
Position tr;
};
} // namespace graphite2
diff --git a/gfx/graphite2/src/inc/Rule.h b/gfx/graphite2/src/inc/Rule.h
--- a/gfx/graphite2/src/inc/Rule.h
+++ b/gfx/graphite2/src/inc/Rule.h
@@ -36,30 +36,36 @@ struct Rule {
const vm::Machine::Code * constraint,
* action;
unsigned short sort;
byte preContext;
#ifndef NDEBUG
uint16 rule_idx;
#endif
- Rule() : constraint(0), action(0), sort(0), preContext(0) {}
- ~Rule();
+ Rule();
+ ~Rule() {}
CLASS_NEW_DELETE;
private:
Rule(const Rule &);
Rule & operator = (const Rule &);
};
-inline Rule::~Rule()
+inline
+Rule::Rule()
+: constraint(0),
+ action(0),
+ sort(0),
+ preContext(0)
{
- delete constraint;
- delete action;
+#ifndef NDEBUG
+ rule_idx = 0;
+#endif
}
struct RuleEntry
{
const Rule * rule;
inline
@@ -91,40 +97,43 @@ bool State::empty() const
return rules_end == rules;
}
class SlotMap
{
public:
enum {MAX_SLOTS=64};
- SlotMap(Segment & seg);
+ SlotMap(Segment & seg, uint8 direction);
Slot * * begin();
Slot * * end();
size_t size() const;
unsigned short context() const;
void reset(Slot &, unsigned short);
Slot * const & operator[](int n) const;
Slot * & operator [] (int);
void pushSlot(Slot * const slot);
- void collectGarbage();
+ void collectGarbage(Slot *& aSlot);
Slot * highwater() { return m_highwater; }
void highwater(Slot *s) { m_highwater = s; m_highpassed = false; }
bool highpassed() const { return m_highpassed; }
void highpassed(bool v) { m_highpassed = v; }
+ uint8 dir() const { return m_dir; }
+
Segment & segment;
private:
Slot * m_slot_map[MAX_SLOTS+1];
unsigned short m_size;
unsigned short m_precontext;
Slot * m_highwater;
+ uint8 m_dir;
bool m_highpassed;
};
class FiniteStateMachine
{
public:
enum {MAX_RULES=128};
@@ -228,18 +237,18 @@ void FiniteStateMachine::Rules::accumula
return;
}
}
while (rre != rrend && out != lrend) { *out++ = *rre++; }
m_end = out;
}
inline
-SlotMap::SlotMap(Segment & seg)
-: segment(seg), m_size(0), m_precontext(0), m_highwater(0), m_highpassed(false)
+SlotMap::SlotMap(Segment & seg, uint8 direction)
+: segment(seg), m_size(0), m_precontext(0), m_highwater(0), m_dir(direction), m_highpassed(false)
{
m_slot_map[0] = 0;
}
inline
Slot * * SlotMap::begin()
{
return &m_slot_map[1]; // allow map to go 1 before slot_map when inserting
diff --git a/gfx/graphite2/src/inc/SegCache.h b/gfx/graphite2/src/inc/SegCache.h
--- a/gfx/graphite2/src/inc/SegCache.h
+++ b/gfx/graphite2/src/inc/SegCache.h
@@ -258,17 +258,17 @@ public:
CLASS_NEW_DELETE
private:
void freeLevel(SegCacheStore * store, SegCachePrefixArray prefixes, size_t level);
void purgeLevel(SegCacheStore * store, SegCachePrefixArray prefixes, size_t level,
unsigned long long minAccessCount, unsigned long long oldAccessTime);
uint16 m_prefixLength;
- uint16 m_maxCachedSegLength;
+// uint16 m_maxCachedSegLength;
size_t m_segmentCount;
SegCachePrefixArray m_prefixes;
Features m_features;
mutable unsigned long long m_totalAccessCount;
mutable unsigned long long m_totalMisses;
float m_purgeFactor;
};
diff --git a/gfx/graphite2/src/inc/Segment.h b/gfx/graphite2/src/inc/Segment.h
--- a/gfx/graphite2/src/inc/Segment.h
+++ b/gfx/graphite2/src/inc/Segment.h
@@ -30,29 +30,28 @@ of the License or (at your option) any l
#include <cassert>
#include "inc/CharInfo.h"
#include "inc/Face.h"
#include "inc/FeatureVal.h"
#include "inc/GlyphCache.h"
#include "inc/GlyphFace.h"
-//#include "inc/Silf.h"
#include "inc/Slot.h"
#include "inc/Position.h"
#include "inc/List.h"
-#include "inc/Bidi.h"
+#include "inc/Collider.h"
#define MAX_SEG_GROWTH_FACTOR 256
namespace graphite2 {
typedef Vector<Features> FeatureList;
typedef Vector<Slot *> SlotRope;
-typedef Vector<int16 *> AttributeRope;
+typedef Vector<int16 *> AttributeRope;
typedef Vector<SlotJustify *> JustifyRope;
#ifndef GRAPHITE2_NSEGCACHE
class SegmentScopeState;
#endif
class Font;
class Segment;
class Silf;
@@ -81,119 +80,151 @@ private:
class Segment
{
// Prevent copying of any kind.
Segment(const Segment&);
Segment& operator=(const Segment&);
public:
+
+ enum {
+ SEG_INITCOLLISIONS = 1,
+ SEG_HASCOLLISIONS = 2
+ };
+
unsigned int slotCount() const { return m_numGlyphs; } //one slot per glyph
void extendLength(int num) { m_numGlyphs += num; }
Position advance() const { return m_advance; }
bool runGraphite() { if (m_silf) return m_face->runGraphite(this, m_silf); else return true;};
void chooseSilf(uint32 script) { m_silf = m_face->chooseSilf(script); }
const Silf *silf() const { return m_silf; }
unsigned int charInfoCount() const { return m_numCharinfo; }
const CharInfo *charinfo(unsigned int index) const { return index < m_numCharinfo ? m_charinfo + index : NULL; }
CharInfo *charinfo(unsigned int index) { return index < m_numCharinfo ? m_charinfo + index : NULL; }
- int8 dir() const { return m_dir; }
Segment(unsigned int numchars, const Face* face, uint32 script, int dir);
~Segment();
#ifndef GRAPHITE2_NSEGCACHE
SegmentScopeState setScope(Slot * firstSlot, Slot * lastSlot, size_t subLength);
void removeScope(SegmentScopeState & state);
void append(const Segment &other);
void splice(size_t offset, size_t length, Slot * const startSlot,
Slot * endSlot, const Slot * srcSlot,
const size_t numGlyphs);
#endif
+ uint8 flags() const { return m_flags; }
+ void flags(uint8 f) { m_flags = f; }
Slot *first() { return m_first; }
void first(Slot *p) { m_first = p; }
Slot *last() { return m_last; }
void last(Slot *p) { m_last = p; }
void appendSlot(int i, int cid, int gid, int fid, size_t coffset);
Slot *newSlot();
void freeSlot(Slot *);
SlotJustify *newJustify();
void freeJustify(SlotJustify *aJustify);
- Position positionSlots(const Font *font, Slot *first=0, Slot *last=0);
+ Position positionSlots(const Font *font=0, Slot *first=0, Slot *last=0, bool isRtl = false, bool isFinal = true);
void associateChars(int offset, int num);
void linkClusters(Slot *first, Slot *last);
uint16 getClassGlyph(uint16 cid, uint16 offset) const { return m_silf->getClassGlyph(cid, offset); }
uint16 findClassIndex(uint16 cid, uint16 gid) const { return m_silf->findClassIndex(cid, gid); }
int addFeatures(const Features& feats) { m_feats.push_back(feats); return m_feats.size() - 1; }
uint32 getFeature(int index, uint8 findex) const { const FeatureRef* pFR=m_face->theSill().theFeatureMap().featureRef(findex); if (!pFR) return 0; else return pFR->getFeatureVal(m_feats[index]); }
+ void setFeature(int index, uint8 findex, uint32 val) {
+ const FeatureRef* pFR=m_face->theSill().theFeatureMap().featureRef(findex);
+ if (pFR)
+ {
+ if (val > pFR->maxVal()) val = pFR->maxVal();
+ pFR->applyValToFeature(val, m_feats[index]);
+ } }
+ int8 dir() const { return m_dir; }
void dir(int8 val) { m_dir = val; }
+ bool currdir() const { return ((m_dir >> 6) ^ m_dir) & 1; }
unsigned int passBits() const { return m_passBits; }
void mergePassBits(const unsigned int val) { m_passBits &= val; }
int16 glyphAttr(uint16 gid, uint16 gattr) const { const GlyphFace * p = m_face->glyphs().glyphSafe(gid); return p ? p->attrs()[gattr] : 0; }
- int32 getGlyphMetric(Slot *iSlot, uint8 metric, uint8 attrLevel) const;
+ int32 getGlyphMetric(Slot *iSlot, uint8 metric, uint8 attrLevel, bool rtl) const;
float glyphAdvance(uint16 gid) const { return m_face->glyphs().glyph(gid)->theAdvance().x; }
const Rect &theGlyphBBoxTemporary(uint16 gid) const { return m_face->glyphs().glyph(gid)->theBBox(); } //warning value may become invalid when another glyph is accessed
Slot *findRoot(Slot *is) const { return is->attachedTo() ? findRoot(is->attachedTo()) : is; }
int numAttrs() const { return m_silf->numUser(); }
int defaultOriginal() const { return m_defaultOriginal; }
const Face * getFace() const { return m_face; }
const Features & getFeatures(unsigned int /*charIndex*/) { assert(m_feats.size() == 1); return m_feats[0]; }
- void bidiPass(uint8 aBidi, int paradir, uint8 aMirror);
+ void bidiPass(int paradir, uint8 aMirror);
+ int8 getSlotBidiClass(Slot *s) const;
+ void doMirror(uint16 aMirror);
Slot *addLineEnd(Slot *nSlot);
void delLineEnd(Slot *s);
bool hasJustification() const { return m_justifies.size() != 0; }
+ void reverseSlots();
bool isWhitespace(const int cid) const;
-
+ bool hasCollisionInfo() const { return (m_flags & SEG_HASCOLLISIONS); }
+ SlotCollision *collisionInfo(const Slot *s) const { return m_collisions ? m_collisions + s->index() : 0; }
CLASS_NEW_DELETE
public: //only used by: GrSegment* makeAndInitialize(const GrFont *font, const GrFace *face, uint32 script, const FeaturesHandle& pFeats/*must not be IsNull*/, encform enc, const void* pStart, size_t nChars, int dir);
bool read_text(const Face *face, const Features* pFeats/*must not be NULL*/, gr_encform enc, const void*pStart, size_t nChars);
- void prepare_pos(const Font *font);
- void finalise(const Font *font);
+ void finalise(const Font *font, bool reverse=false);
float justify(Slot *pSlot, const Font *font, float width, enum justFlags flags, Slot *pFirst, Slot *pLast);
+ bool initCollisions();
private:
Position m_advance; // whole segment advance
SlotRope m_slots; // Vector of slot buffers
AttributeRope m_userAttrs; // Vector of userAttrs buffers
JustifyRope m_justifies; // Slot justification info buffers
FeatureList m_feats; // feature settings referenced by charinfos in this segment
Slot * m_freeSlots; // linked list of free slots
SlotJustify * m_freeJustifies; // Slot justification blocks free list
CharInfo * m_charinfo; // character info, one per input character
+ SlotCollision * m_collisions;
const Face * m_face; // GrFace
const Silf * m_silf;
Slot * m_first; // first slot in segment
Slot * m_last; // last slot in segment
unsigned int m_bufSize, // how big a buffer to create when need more slots
m_numGlyphs,
m_numCharinfo, // size of the array and number of input characters
m_passBits; // if bit set then skip pass
int m_defaultOriginal; // number of whitespace chars in the string
int8 m_dir;
+ uint8 m_flags; // General purpose flags
};
-
+inline
+int8 Segment::getSlotBidiClass(Slot *s) const
+{
+ int8 res = s->getBidiClass();
+ if (res != -1) return res;
+ res = int8(glyphAttr(s->gid(), m_silf->aBidi()));
+ s->setBidiClass(res);
+ return res;
+}
inline
-void Segment::finalise(const Font *font)
+void Segment::finalise(const Font *font, bool reverse)
{
if (!m_first) return;
- m_advance = positionSlots(font);
- associateChars(0, m_numCharinfo);
+ m_advance = positionSlots(font, m_first, m_last, m_silf->dir(), true);
+ //associateChars(0, m_numCharinfo);
+ if (reverse && currdir() != (m_dir & 1))
+ reverseSlots();
linkClusters(m_first, m_last);
}
inline
-int32 Segment::getGlyphMetric(Slot *iSlot, uint8 metric, uint8 attrLevel) const {
+int32 Segment::getGlyphMetric(Slot *iSlot, uint8 metric, uint8 attrLevel, bool rtl) const {
if (attrLevel > 0)
{
Slot *is = findRoot(iSlot);
- return is->clusterMetric(this, metric, attrLevel);
+ return is->clusterMetric(this, metric, attrLevel, rtl);
}
else
return m_face->getGlyphMetric(iSlot->gid(), metric);
}
inline
bool Segment::isWhitespace(const int cid) const
{
@@ -206,68 +237,12 @@ bool Segment::isWhitespace(const int cid
+ (cid >= 0x2000) * (cid <= 0x200A)
+ (cid == 0x2028)
+ (cid == 0x2029)
+ (cid == 0x202F)
+ (cid == 0x205F)
+ (cid == 0x3000)) != 0;
}
-//inline
-//bool Segment::isWhitespace(const int cid) const
-//{
-// switch (cid >> 8)
-// {
-// case 0x00:
-// switch (cid)
-// {
-// case 0x09:
-// case 0x0A:
-// case 0x0B:
-// case 0x0C:
-// case 0x0D:
-// case 0x20:
-// return true;
-// default:
-// break;
-// }
-// break;
-// case 0x16:
-// return cid == 0x1680;
-// break;
-// case 0x18:
-// return cid == 0x180E;
-// break;
-// case 0x20:
-// switch (cid)
-// {
-// case 0x00:
-// case 0x01:
-// case 0x02:
-// case 0x03:
-// case 0x04:
-// case 0x05:
-// case 0x06:
-// case 0x07:
-// case 0x08:
-// case 0x09:
-// case 0x0A:
-// case 0x28:
-// case 0x29:
-// case 0x2F:
-// case 0x5F:
-// return true
-// default:
-// break;
-// }
-// break;
-// case 0x30:
-// return cid == 0x3000;
-// break;
-// }
-//
-// return false;
-//}
-
} // namespace graphite2
struct gr_segment : public graphite2::Segment {};
diff --git a/gfx/graphite2/src/inc/Silf.h b/gfx/graphite2/src/inc/Silf.h
--- a/gfx/graphite2/src/inc/Silf.h
+++ b/gfx/graphite2/src/inc/Silf.h
@@ -80,24 +80,26 @@ public:
uint16 getClassGlyph(uint16 cid, unsigned int index) const;
uint16 findPseudo(uint32 uid) const;
uint8 numUser() const { return m_aUser; }
uint8 aPseudo() const { return m_aPseudo; }
uint8 aBreak() const { return m_aBreak; }
uint8 aMirror() const {return m_aMirror; }
uint8 aPassBits() const { return m_aPassBits; }
uint8 aBidi() const { return m_aBidi; }
+ uint8 aCollision() const { return m_aCollision; }
uint8 substitutionPass() const { return m_sPass; }
uint8 positionPass() const { return m_pPass; }
uint8 justificationPass() const { return m_jPass; }
uint8 bidiPass() const { return m_bPass; }
uint8 numPasses() const { return m_numPasses; }
uint8 maxCompPerLig() const { return m_iMaxComp; }
uint16 numClasses() const { return m_nClass; }
byte flags() const { return m_flags; }
+ byte dir() const { return m_dir; }
uint8 numJustLevels() const { return m_numJusts; }
Justinfo *justAttrs() const { return m_justs; }
uint16 endLineGlyphid() const { return m_gEndLine; }
const gr_faceinfo *silfInfo() const { return &m_silfinfo; }
CLASS_NEW_DELETE;
private:
@@ -107,23 +109,20 @@ private:
Pass * m_passes;
Pseudo * m_pseudos;
uint32 * m_classOffsets;
uint16 * m_classData;
Justinfo * m_justs;
uint8 m_numPasses;
uint8 m_numJusts;
uint8 m_sPass, m_pPass, m_jPass, m_bPass,
- m_flags;
+ m_flags, m_dir;
- uint8 m_aPseudo, m_aBreak, m_aUser, m_aBidi, m_aMirror, m_aPassBits,
- m_iMaxComp;
- uint16 m_aLig,
- m_numPseudo,
- m_nClass,
- m_nLinear,
- m_gEndLine;
+ uint8 m_aPseudo, m_aBreak, m_aUser, m_aBidi, m_aMirror, m_aPassBits,
+ m_iMaxComp, m_aCollision;
+ uint16 m_aLig, m_numPseudo, m_nClass, m_nLinear,
+ m_gEndLine;
gr_faceinfo m_silfinfo;
void releaseBuffers() throw();
};
} // namespace graphite2
diff --git a/gfx/graphite2/src/inc/Slot.h b/gfx/graphite2/src/inc/Slot.h
--- a/gfx/graphite2/src/inc/Slot.h
+++ b/gfx/graphite2/src/inc/Slot.h
@@ -27,25 +27,23 @@ of the License or (at your option) any l
#pragma once
#include "graphite2/Types.h"
#include "graphite2/Segment.h"
#include "inc/Main.h"
#include "inc/Font.h"
#include "inc/Position.h"
-
-
namespace graphite2 {
typedef gr_attrCode attrCode;
class GlyphFace;
+class SegCacheEntry;
class Segment;
-class SegCacheEntry;
struct SlotJustify
{
static const int NUMJUSTPARAMS = 5;
SlotJustify(const SlotJustify &);
SlotJustify & operator = (const SlotJustify &);
@@ -70,73 +68,79 @@ class Slot
};
public:
struct iterator;
unsigned short gid() const { return m_glyphid; }
Position origin() const { return m_position; }
float advance() const { return m_advance.x; }
+ void advance(Position &val) { m_advance = val; }
Position advancePos() const { return m_advance; }
int before() const { return m_before; }
int after() const { return m_after; }
uint32 index() const { return m_index; }
void index(uint32 val) { m_index = val; }
- Slot();
+ Slot(int16 *m_userAttr = NULL);
void set(const Slot & slot, int charOffset, size_t numUserAttr, size_t justLevels, size_t numChars);
Slot *next() const { return m_next; }
void next(Slot *s) { m_next = s; }
Slot *prev() const { return m_prev; }
void prev(Slot *s) { m_prev = s; }
uint16 glyph() const { return m_realglyphid ? m_realglyphid : m_glyphid; }
void setGlyph(Segment *seg, uint16 glyphid, const GlyphFace * theGlyph = NULL);
void setRealGid(uint16 realGid) { m_realglyphid = realGid; }
void adjKern(const Position &pos) { m_shift = m_shift + pos; m_advance = m_advance + pos; }
void origin(const Position &pos) { m_position = pos + m_shift; }
void originate(int ind) { m_original = ind; }
int original() const { return m_original; }
void before(int ind) { m_before = ind; }
void after(int ind) { m_after = ind; }
bool isBase() const { return (!m_parent); }
void update(int numSlots, int numCharInfo, Position &relpos);
- Position finalise(const Segment* seg, const Font* font, Position & base, Rect & bbox, uint8 attrLevel, float & clusterMin);
+ Position finalise(const Segment* seg, const Font* font, Position & base, Rect & bbox, uint8 attrLevel, float & clusterMin, bool rtl, bool isFinal);
bool isDeleted() const { return (m_flags & DELETED) ? true : false; }
void markDeleted(bool state) { if (state) m_flags |= DELETED; else m_flags &= ~DELETED; }
bool isCopied() const { return (m_flags & COPIED) ? true : false; }
void markCopied(bool state) { if (state) m_flags |= COPIED; else m_flags &= ~COPIED; }
bool isPositioned() const { return (m_flags & POSITIONED) ? true : false; }
void markPositioned(bool state) { if (state) m_flags |= POSITIONED; else m_flags &= ~POSITIONED; }
bool isInsertBefore() const { return !(m_flags & INSERTED); }
uint8 getBidiLevel() const { return m_bidiLevel; }
void setBidiLevel(uint8 level) { m_bidiLevel = level; }
+ int8 getBidiClass(const Segment *seg);
int8 getBidiClass() const { return m_bidiCls; }
void setBidiClass(int8 cls) { m_bidiCls = cls; }
int16 *userAttrs() const { return m_userAttr; }
void userAttrs(int16 *p) { m_userAttr = p; }
void markInsertBefore(bool state) { if (!state) m_flags |= INSERTED; else m_flags &= ~INSERTED; }
void setAttr(Segment* seg, attrCode ind, uint8 subindex, int16 val, const SlotMap & map);
int getAttr(const Segment *seg, attrCode ind, uint8 subindex) const;
int getJustify(const Segment *seg, uint8 level, uint8 subindex) const;
void setJustify(Segment *seg, uint8 level, uint8 subindex, int16 value);
bool isLocalJustify() const { return m_justs != NULL; };
void attachTo(Slot *ap) { m_parent = ap; }
Slot *attachedTo() const { return m_parent; }
Position attachOffset() const { return m_attach - m_with; }
Slot* firstChild() const { return m_child; }
+ void firstChild(Slot *ap) { m_child = ap; }
bool child(Slot *ap);
Slot* nextSibling() const { return m_sibling; }
+ void nextSibling(Slot *ap) { m_sibling = ap; }
bool sibling(Slot *ap);
bool removeChild(Slot *ap);
bool removeSibling(Slot *ap);
- int32 clusterMetric(const Segment* seg, uint8 metric, uint8 attrLevel);
+ int32 clusterMetric(const Segment* seg, uint8 metric, uint8 attrLevel, bool rtl);
void positionShift(Position a) { m_position += a; }
void floodShift(Position adj);
float just() const { return m_just; }
void just(float j) { m_just = j; }
+ Slot *nextInCluster(const Slot *s) const;
+ bool isChildOf(const Slot *base) const;
CLASS_NEW_DELETE
private:
Slot *m_next; // linked list of slots
Slot *m_prev;
unsigned short m_glyphid; // glyph id
uint16 m_realglyphid;
diff --git a/gfx/graphite2/src/inc/Sparse.h b/gfx/graphite2/src/inc/Sparse.h
--- a/gfx/graphite2/src/inc/Sparse.h
+++ b/gfx/graphite2/src/inc/Sparse.h
@@ -51,17 +51,17 @@ private:
static const unsigned char SIZEOF_CHUNK = (sizeof(mask_t) - sizeof(key_type))*8;
struct chunk
{
mask_t mask:SIZEOF_CHUNK;
key_type offset;
};
- static chunk empty_chunk;
+ static const chunk empty_chunk;
sparse(const sparse &);
sparse & operator = (const sparse &);
public:
template<typename I>
sparse(I first, const I last);
sparse() throw();
~sparse() throw();
@@ -83,17 +83,17 @@ private:
} m_array;
key_type m_nchunks;
};
inline
sparse::sparse() throw() : m_nchunks(0)
{
- m_array.map = &empty_chunk;
+ m_array.map = const_cast<graphite2::sparse::chunk *>(&empty_chunk);
}
template <typename I>
sparse::sparse(I attr, const I last)
: m_nchunks(0)
{
m_array.map = 0;
@@ -108,30 +108,31 @@ sparse::sparse(I attr, const I last)
if (v.first <= lastkey) { m_nchunks = 0; return; }
lastkey = v.first;
const key_type k = v.first / SIZEOF_CHUNK;
if (k >= m_nchunks) m_nchunks = k+1;
}
if (m_nchunks == 0)
{
- m_array.map=&empty_chunk;
+ m_array.map=const_cast<graphite2::sparse::chunk *>(&empty_chunk);
return;
}
m_array.values = grzeroalloc<mapped_type>((m_nchunks*sizeof(chunk) + sizeof(mapped_type)-1)
/ sizeof(mapped_type)
+ n_values);
if (m_array.values == 0)
{
free(m_array.values); m_array.map=0;
return;
}
+ // coverity[forward_null : FALSE] Since m_array is union and m_array.values is not NULL
chunk * ci = m_array.map;
ci->offset = (m_nchunks*sizeof(chunk) + sizeof(mapped_type)-1)/sizeof(mapped_type);
mapped_type * vi = m_array.values + ci->offset;
for (; attr != last; ++attr, ++vi)
{
const typename std::iterator_traits<I>::value_type v = *attr;
if (v.second == 0) { --vi; continue; }
diff --git a/gfx/graphite2/src/inc/TtfUtil.h b/gfx/graphite2/src/inc/TtfUtil.h
--- a/gfx/graphite2/src/inc/TtfUtil.h
+++ b/gfx/graphite2/src/inc/TtfUtil.h
@@ -132,21 +132,21 @@ public:
int GetLangsForNames(const void * pName, int nPlatformId, int nEncodingId,
int *nameIdList, int cNameIds, short *langIdList);
void SwapWString(void * pWStr, size_t nSize = 0); // throw (std::invalid_argument);
#endif
////////////////////////////////// cmap lookup tools
const void * FindCmapSubtable(const void * pCmap, int nPlatformId = 3,
int nEncodingId = 1, size_t length = 0);
- bool CheckCmapSubtable4(const void * pCmap31);
+ bool CheckCmapSubtable4(const void * pCmap31, size_t table_len /*, unsigned int maxgid*/);
gid16 CmapSubtable4Lookup(const void * pCmapSubtabel4, unsigned int nUnicodeId, int rangeKey = 0);
unsigned int CmapSubtable4NextCodepoint(const void *pCmap31, unsigned int nUnicodeId,
int * pRangeKey = 0);
- bool CheckCmapSubtable12(const void *pCmap310);
+ bool CheckCmapSubtable12(const void *pCmap310, size_t table_len /*, unsigned int maxgid*/);
gid16 CmapSubtable12Lookup(const void * pCmap310, unsigned int uUnicodeId, int rangeKey = 0);
unsigned int CmapSubtable12NextCodepoint(const void *pCmap310, unsigned int nUnicodeId,
int * pRangeKey = 0);
///////////////////////////////// horizontal metric data for a glyph
bool HorMetrics(gid16 nGlyphId, const void * pHmtx, size_t lHmtxSize,
const void * pHhea, int & nLsb, unsigned int & nAdvWid);
diff --git a/gfx/graphite2/src/inc/UtfCodec.h b/gfx/graphite2/src/inc/UtfCodec.h
--- a/gfx/graphite2/src/inc/UtfCodec.h
+++ b/gfx/graphite2/src/inc/UtfCodec.h
@@ -126,19 +126,22 @@ public:
static uchar_t get(const codeunit_t * cp, int8 & l) throw()
{
const int8 seq_sz = sz_lut[*cp >> 4];
uchar_t u = *cp & mask_lut[seq_sz];
l = 1;
bool toolong = false;
switch(seq_sz) {
- case 4: u <<= 6; u |= *++cp & 0x3F; if (*cp >> 6 != 2) break; ++l; toolong = (u < 0x10); // no break
- case 3: u <<= 6; u |= *++cp & 0x3F; if (*cp >> 6 != 2) break; ++l; toolong |= (u < 0x20); // no break
- case 2: u <<= 6; u |= *++cp & 0x3F; if (*cp >> 6 != 2) break; ++l; toolong |= (u < 0x80); // no break
+ case 4: u <<= 6; u |= *++cp & 0x3F; if (*cp >> 6 != 2) break; ++l; toolong = (u < 0x10); GR_FALLTHROUGH;
+ // no break
+ case 3: u <<= 6; u |= *++cp & 0x3F; if (*cp >> 6 != 2) break; ++l; toolong |= (u < 0x20); GR_FALLTHROUGH;
+ // no break
+ case 2: u <<= 6; u |= *++cp & 0x3F; if (*cp >> 6 != 2) break; ++l; toolong |= (u < 0x80); GR_FALLTHROUGH;
+ // no break
case 1: break;
case 0: l = -1; return 0xFFFD;
}
if (l != seq_sz || toolong)
{
l = -l;
return 0xFFFD;
diff --git a/gfx/graphite2/src/inc/bits.h b/gfx/graphite2/src/inc/bits.h
--- a/gfx/graphite2/src/inc/bits.h
+++ b/gfx/graphite2/src/inc/bits.h
@@ -24,25 +24,73 @@ Mozilla Public License (http://mozilla.o
License, as published by the Free Software Foundation, either version 2
of the License or (at your option) any later version.
*/
#pragma once
namespace graphite2
{
+
+#if defined GRAPHITE2_BUILTINS && (defined __GNUC__ || defined __clang__)
+
template<typename T>
inline unsigned int bit_set_count(T v)
{
- v = v - ((v >> 1) & T(~T(0)/3)); // temp
- v = (v & T(~T(0)/15*3)) + ((v >> 2) & T(~T(0)/15*3)); // temp
- v = (v + (v >> 4)) & T(~T(0)/255*15); // temp
- return (T)(v * T(~T(0)/255)) >> (sizeof(T)-1)*8; // count
+ return __builtin_popcount(v);
}
+template<>
+inline unsigned int bit_set_count(int16 v)
+{
+ return __builtin_popcount(static_cast<uint16>(v));
+}
+
+template<>
+inline unsigned int bit_set_count(int8 v)
+{
+ return __builtin_popcount(static_cast<uint8>(v));
+}
+
+template<>
+inline unsigned int bit_set_count(unsigned long v)
+{
+ return __builtin_popcountl(v);
+}
+
+template<>
+inline unsigned int bit_set_count(signed long v)
+{
+ return __builtin_popcountl(v);
+}
+
+template<>
+inline unsigned int bit_set_count(unsigned long long v)
+{
+ return __builtin_popcountll(v);
+}
+
+template<>
+inline unsigned int bit_set_count(signed long long v)
+{
+ return __builtin_popcountll(v);
+}
+#else
+
+template<typename T>
+inline unsigned int bit_set_count(T v)
+{
+ v = v - ((v >> 1) & T(~(0UL)/3)); // temp
+ v = (v & T(~(0UL)/15*3)) + ((v >> 2) & T(~(0UL)/15*3)); // temp
+ v = (v + (v >> 4)) & T(~(0UL)/255*15); // temp
+ return (T)(v * T(~(0UL)/255)) >> (sizeof(T)-1)*8; // count
+}
+
+#endif
+
template<int S>
inline unsigned long _mask_over_val(unsigned long v)
{
v = _mask_over_val<S/2>(v);
v |= v >> S*4;
return v;
}
@@ -82,9 +130,17 @@ inline T has_zero(const T x)
template<typename T>
inline T zero_bytes(const T x, unsigned char n)
{
const T t = T(~T(0)/255*n);
return T((has_zero(x^t) >> 7)*n);
}
+#if 0
+inline float float_round(float x, uint32 m)
+{
+ *reinterpret_cast<unsigned int *>(&x) &= m;
+ return *reinterpret_cast<float *>(&x);
}
+#endif
+
+}
diff --git a/gfx/graphite2/src/inc/debug.h b/gfx/graphite2/src/inc/debug.h
--- a/gfx/graphite2/src/inc/debug.h
+++ b/gfx/graphite2/src/inc/debug.h
@@ -49,31 +49,39 @@ struct objectid
{
char name[16];
objectid(const dslot &) throw();
objectid(const Segment * const p) throw();
};
json & operator << (json & j, const Position &) throw();
+json & operator << (json & j, const Rect &) throw();
json & operator << (json & j, const CharInfo &) throw();
json & operator << (json & j, const dslot &) throw();
json & operator << (json & j, const objectid &) throw();
json & operator << (json & j, const telemetry &) throw();
inline
json & operator << (json & j, const Position & p) throw()
{
return j << json::flat << json::array << p.x << p.y << json::close;
}
inline
+json & operator << (json & j, const Rect & p) throw()
+{
+ return j << json::flat << json::array << p.bl.x << p.bl.y << p.tr.x << p.tr.y << json::close;
+}
+
+
+inline
json & operator << (json & j, const objectid & sid) throw()
{
return j << sid.name;
}
} // namespace graphite2
diff --git a/gfx/graphite2/src/inc/json.h b/gfx/graphite2/src/inc/json.h
--- a/gfx/graphite2/src/inc/json.h
+++ b/gfx/graphite2/src/inc/json.h
@@ -24,19 +24,21 @@ Mozilla Public License (http://mozilla.o
License, as published by the Free Software Foundation, either version 2
of the License or (at your option) any later version.
*/
// JSON pretty printer for graphite font debug output logging.
// Created on: 15 Dec 2011
// Author: Tim Eves
#pragma once
+
#include "inc/Main.h"
#include <cassert>
-#include <stdio.h>
+#include <cstdio>
+#include "inc/List.h"
namespace graphite2 {
class json
{
// Prevent copying
json(const json &);
json & operator = (const json &);
@@ -44,31 +46,36 @@ class json
typedef void (*_context_t)(json &);
class _null_t {};
FILE * const _stream;
char _contexts[128], // context stack
* _context, // current context (top of stack)
* _flatten; // if !0 points to context above which
// pretty printed output should occur.
+ Vector<void *> _env;
void context(const char current) throw();
void indent(const int d=0) throw();
void push_context(const char, const char) throw();
void pop_context() throw();
public:
class closer;
typedef const char * string;
typedef double number;
typedef long signed int integer;
typedef bool boolean;
static const _null_t null;
+ void setenv(unsigned int index, void *val) { _env.reserve(index + 1); if (index >= _env.size()) _env.insert(_env.end(), _env.size() - index + 1, 0); _env[index] = val; }
+ void *getenv(unsigned int index) const { return _env[index]; }
+ const Vector<void *> &getenvs() const { return _env; }
+
static void flat(json &) throw();
static void close(json &) throw();
static void object(json &) throw();
static void array(json &) throw();
static void item(json &) throw();
json(FILE * stream) throw();
~json() throw ();
diff --git a/gfx/graphite2/src/inc/opcode_table.h b/gfx/graphite2/src/inc/opcode_table.h
--- a/gfx/graphite2/src/inc/opcode_table.h
+++ b/gfx/graphite2/src/inc/opcode_table.h
@@ -38,17 +38,17 @@ of the License or (at your option) any l
// sattrnum - 0 .. 29 (gr_slatJWidth) , 55 (gr_slatUserDefn)
// attrid - 0 .. silf.numUser() where sattrnum == 55; 0..silf.m_iMaxComp where sattrnum == 15 otherwise 0
// gattrnum - 0 .. face->getGlyphFaceCache->numAttrs()
// gmetric - 0 .. 11 (kgmetDescent)
// featidx - 0 .. face.numFeatures()
// level - any byte
static const opcode_t opcode_table[] =
{
- {{do2(nop)}, 0, "NOP"},
+ {{do2(nop)}, 0, "NOP"},
{{do2(push_byte)}, 1, "PUSH_BYTE"}, // number
{{do2(push_byte_u)}, 1, "PUSH_BYTE_U"}, // number
{{do2(push_short)}, 2, "PUSH_SHORT"}, // number number
{{do2(push_short_u)}, 2, "PUSH_SHORT_U"}, // number number
{{do2(push_long)}, 4, "PUSH_LONG"}, // number number number number
{{do2(add)}, 0, "ADD"},
@@ -109,12 +109,17 @@ static const opcode_t opcode_table[] =
{{do2(push_proc_state)}, 1, "PUSH_PROC_STATE"}, // dummy
{{do2(push_version)}, 0, "PUSH_VERSION"},
{{do_(put_subs), NILOP}, 5, "PUT_SUBS"}, // slot input_class input_class output_class output_class
{{NILOP,NILOP}, 0, "PUT_SUBS2"},
{{NILOP,NILOP}, 0, "PUT_SUBS3"},
{{do_(put_glyph), NILOP}, 2, "PUT_GLYPH"}, // output_class output_class
{{do2(push_glyph_attr)}, 3, "PUSH_GLYPH_ATTR"}, // gattrnum gattrnum slot
{{do2(push_att_to_glyph_attr)}, 3, "PUSH_ATT_TO_GLYPH_ATTR"}, // gattrnum gattrnum slot
+ {{do2(bor)}, 0, "BITOR"},
+ {{do2(band)}, 0, "BITAND"},
+ {{do2(bnot)}, 0, "BITNOT"}, // 0x40
+ {{do2(setbits)}, 4, "BITSET"},
+ {{do2(set_feat)}, 2, "SET_FEAT"},
// private opcodes for internal use only, comes after all other on disk opcodes.
{{do_(temp_copy), NILOP}, 0, "TEMP_COPY"}
};
diff --git a/gfx/graphite2/src/inc/opcodes.h b/gfx/graphite2/src/inc/opcodes.h
--- a/gfx/graphite2/src/inc/opcodes.h
+++ b/gfx/graphite2/src/inc/opcodes.h
@@ -56,16 +56,17 @@ of the License or (at your option) any l
// pushed.
// seg = A reference to the Segment this code is running over.
// is = The current slot index
// isb = The original base slot index at the start of this rule
// isf = The first positioned slot
// isl = The last positioned slot
// ip = The current instruction pointer
// endPos = Position of advance of last cluster
+// dir = writing system directionality of the font
// #define NOT_IMPLEMENTED assert(false)
#define NOT_IMPLEMENTED
#define binop(op) const int32 a = pop(); *sp = int32(*sp) op a
#define use_params(n) dp += n
@@ -236,30 +237,34 @@ STARTOP(put_subs_8bit_obs)
index = seg.findClassIndex(input_class, slot->gid());
is->setGlyph(&seg, seg.getClassGlyph(output_class, index));
}
ENDOP
STARTOP(put_copy)
declare_params(1);
const int slot_ref = int8(*param);
- if (is && (slot_ref ||is != *map))
+ if (is)
{
- int16 *tempUserAttrs = is->userAttrs();
slotref ref = slotat(slot_ref);
- if (ref)
+ if (ref && ref != is)
{
- memcpy(tempUserAttrs, ref->userAttrs(), seg.numAttrs() * sizeof(uint16));
+ int16 *tempUserAttrs = is->userAttrs();
+ if (is->attachedTo() || is->firstChild()) DIE
Slot *prev = is->prev();
Slot *next = is->next();
- memcpy(is, slotat(slot_ref), sizeof(Slot));
+ memcpy(tempUserAttrs, ref->userAttrs(), seg.numAttrs() * sizeof(uint16));
+ memcpy(is, ref, sizeof(Slot));
+ is->firstChild(NULL);
+ is->nextSibling(NULL);
is->userAttrs(tempUserAttrs);
is->next(next);
is->prev(prev);
- is->sibling(NULL);
+ if (is->attachedTo())
+ is->attachedTo()->child(is);
}
is->markCopied(false);
is->markDeleted(false);
}
ENDOP
STARTOP(insert)
Slot *newSlot = seg.newSlot();
@@ -304,24 +309,26 @@ STARTOP(insert)
{
newSlot->originate(newSlot->prev()->original());
newSlot->after(newSlot->prev()->after());
}
else
{
newSlot->originate(seg.defaultOriginal());
}
+ if (is == smap.highwater())
+ smap.highpassed(false);
is = newSlot;
seg.extendLength(1);
if (map != &smap[-1])
--map;
ENDOP
STARTOP(delete_)
- if (!is) DIE
+ if (!is || is->isDeleted()) DIE
is->markDeleted(true);
if (is->prev())
is->prev()->next(is->next());
else
seg.first(is->next());
if (is->next())
is->next()->prev(is->prev());
@@ -380,30 +387,30 @@ STARTOP(attr_set)
ENDOP
STARTOP(attr_add)
declare_params(1);
const attrCode slat = attrCode(uint8(*param));
const int val = int(pop());
if ((slat == gr_slatPosX || slat == gr_slatPosY) && (flags & POSITIONED) == 0)
{
- seg.positionSlots(0, *smap.begin(), *(smap.end()-1));
+ seg.positionSlots(0, *smap.begin(), *(smap.end()-1), dir);
flags |= POSITIONED;
}
int res = is->getAttr(&seg, slat, 0);
is->setAttr(&seg, slat, 0, val + res, smap);
ENDOP
STARTOP(attr_sub)
declare_params(1);
const attrCode slat = attrCode(uint8(*param));
const int val = int(pop());
if ((slat == gr_slatPosX || slat == gr_slatPosY) && (flags & POSITIONED) == 0)
{
- seg.positionSlots(0, *smap.begin(), *(smap.end()-1));
+ seg.positionSlots(0, *smap.begin(), *(smap.end()-1), dir);
flags |= POSITIONED;
}
int res = is->getAttr(&seg, slat, 0);
is->setAttr(&seg, slat, 0, res - val, smap);
ENDOP
STARTOP(attr_set_slot)
declare_params(1);
@@ -422,17 +429,17 @@ STARTOP(iattr_set_slot)
ENDOP
STARTOP(push_slot_attr)
declare_params(2);
const attrCode slat = attrCode(uint8(param[0]));
const int slot_ref = int8(param[1]);
if ((slat == gr_slatPosX || slat == gr_slatPosY) && (flags & POSITIONED) == 0)
{
- seg.positionSlots(0, *smap.begin(), *(smap.end()-1));
+ seg.positionSlots(0, *smap.begin(), *(smap.end()-1), dir);
flags |= POSITIONED;
}
slotref slot = slotat(slot_ref);
if (slot)
{
int res = slot->getAttr(&seg, slat, 0);
push(res);
}
@@ -449,17 +456,17 @@ ENDOP
STARTOP(push_glyph_metric)
declare_params(3);
const unsigned int glyph_attr = uint8(param[0]);
const int slot_ref = int8(param[1]);
const signed int attr_level = uint8(param[2]);
slotref slot = slotat(slot_ref);
if (slot)
- push(seg.getGlyphMetric(slot, glyph_attr, attr_level));
+ push(seg.getGlyphMetric(slot, glyph_attr, attr_level, dir));
ENDOP
STARTOP(push_feat)
declare_params(2);
const unsigned int feat = uint8(param[0]);
const int slot_ref = int8(param[1]);
slotref slot = slotat(slot_ref);
if (slot)
@@ -487,28 +494,28 @@ STARTOP(push_att_to_glyph_metric)
const unsigned int glyph_attr = uint8(param[0]);
const int slot_ref = int8(param[1]);
const signed int attr_level = uint8(param[2]);
slotref slot = slotat(slot_ref);
if (slot)
{
slotref att = slot->attachedTo();
if (att) slot = att;
- push(int32(seg.getGlyphMetric(slot, glyph_attr, attr_level)));
+ push(int32(seg.getGlyphMetric(slot, glyph_attr, attr_level, dir)));
}
ENDOP
STARTOP(push_islot_attr)
declare_params(3);
const attrCode slat = attrCode(uint8(param[0]));
const int slot_ref = int8(param[1]),
idx = uint8(param[2]);
if ((slat == gr_slatPosX || slat == gr_slatPosY) && (flags & POSITIONED) == 0)
{
- seg.positionSlots(0, *smap.begin(), *(smap.end()-1));
+ seg.positionSlots(0, *smap.begin(), *(smap.end()-1), dir);
flags |= POSITIONED;
}
slotref slot = slotat(slot_ref);
if (slot)
{
int res = slot->getAttr(&seg, slat, idx);
push(res);
}
@@ -543,31 +550,31 @@ ENDOP
STARTOP(iattr_add)
declare_params(2);
const attrCode slat = attrCode(uint8(param[0]));
const size_t idx = uint8(param[1]);
const int val = int(pop());
if ((slat == gr_slatPosX || slat == gr_slatPosY) && (flags & POSITIONED) == 0)
{
- seg.positionSlots(0, *smap.begin(), *(smap.end()-1));
+ seg.positionSlots(0, *smap.begin(), *(smap.end()-1), dir);
flags |= POSITIONED;
}
int res = is->getAttr(&seg, slat, idx);
is->setAttr(&seg, slat, idx, val + res, smap);
ENDOP
STARTOP(iattr_sub)
declare_params(2);
const attrCode slat = attrCode(uint8(param[0]));
const size_t idx = uint8(param[1]);
const int val = int(pop());
if ((slat == gr_slatPosX || slat == gr_slatPosY) && (flags & POSITIONED) == 0)
{
- seg.positionSlots(0, *smap.begin(), *(smap.end()-1));
+ seg.positionSlots(0, *smap.begin(), *(smap.end()-1), dir);
flags |= POSITIONED;
}
int res = is->getAttr(&seg, slat, idx);
is->setAttr(&seg, slat, idx, res - val, smap);
ENDOP
STARTOP(push_proc_state)
use_params(1);
@@ -631,16 +638,50 @@ STARTOP(push_att_to_glyph_attr)
slotref att = slot->attachedTo();
if (att) slot = att;
push(int32(seg.glyphAttr(slot->gid(), glyph_attr)));
}
ENDOP
STARTOP(temp_copy)
slotref newSlot = seg.newSlot();
- if (!newSlot) DIE;
+ if (!newSlot || !is) DIE;
int16 *tempUserAttrs = newSlot->userAttrs();
memcpy(newSlot, is, sizeof(Slot));
memcpy(tempUserAttrs, is->userAttrs(), seg.numAttrs() * sizeof(uint16));
newSlot->userAttrs(tempUserAttrs);
newSlot->markCopied(true);
*map = newSlot;
ENDOP
+
+STARTOP(band)
+ binop(&);
+ENDOP
+
+STARTOP(bor)
+ binop(|);
+ENDOP
+
+STARTOP(bnot)
+ *sp = ~*sp;
+ENDOP
+
+STARTOP(setbits)
+ declare_params(4);
+ const uint16 m = uint16(param[0]) << 8
+ | uint8(param[1]);
+ const uint16 v = uint16(param[2]) << 8
+ | uint8(param[3]);
+ *sp = ((*sp) & ~m) | v;
+ENDOP
+
+STARTOP(set_feat)
+ declare_params(2);
+ const unsigned int feat = uint8(param[0]);
+ const int slot_ref = int8(param[1]);
+ slotref slot = slotat(slot_ref);
+ if (slot)
+ {
+ uint8 fid = seg.charinfo(slot->original())->fid();
+ seg.setFeature(fid, feat, pop());
+ }
+ENDOP
+
diff --git a/gfx/graphite2/src/json.cpp b/gfx/graphite2/src/json.cpp
--- a/gfx/graphite2/src/json.cpp
+++ b/gfx/graphite2/src/json.cpp
@@ -24,17 +24,18 @@ Mozilla Public License (http://mozilla.o
License, as published by the Free Software Foundation, either version 2
of the License or (at your option) any later version.
*/
// JSON debug logging
// Author: Tim Eves
#if !defined GRAPHITE2_NTRACING
-#include <stdio.h>
+#include <cstdio>
+#include <limits>
#include "inc/json.h"
using namespace graphite2;
namespace
{
enum
{
@@ -111,16 +112,29 @@ json & json::operator << (json::string s
const char ctxt = _context[-1] == obj ? *_context == member ? seq : member : seq;
context(ctxt);
fprintf(_stream, "\"%s\"", s);
if (ctxt == member) fputc(' ', _stream);
return *this;
}
-json & json::operator << (json::number f) throw() { context(seq); fprintf(_stream, "%g", f); return *this; }
+json & json::operator << (json::number f) throw()
+{
+ context(seq);
+ if (std::numeric_limits<json::number>::infinity() == f)
+ fputs("Infinity", _stream);
+ else if (-std::numeric_limits<json::number>::infinity() == f)
+ fputs("-Infinity", _stream);
+ else if (std::numeric_limits<json::number>::quiet_NaN() == f ||
+ std::numeric_limits<json::number>::signaling_NaN() == f)
+ fputs("NaN", _stream);
+ else
+ fprintf(_stream, "%g", f);
+ return *this;
+}
json & json::operator << (json::integer d) throw() { context(seq); fprintf(_stream, "%ld", d); return *this; }
json & json::operator << (long unsigned d) throw() { context(seq); fprintf(_stream, "%ld", d); return *this; }
json & json::operator << (json::boolean b) throw() { context(seq); fputs(b ? "true" : "false", _stream); return *this; }
json & json::operator << (json::_null_t) throw() { context(seq); fputs("null",_stream); return *this; }
#endif
diff --git a/gfx/graphite2/src/moz.build b/gfx/graphite2/src/moz.build
--- a/gfx/graphite2/src/moz.build
+++ b/gfx/graphite2/src/moz.build
@@ -18,37 +18,40 @@ if CONFIG['GNU_CC']:
]
else:
UNIFIED_SOURCES += [
'call_machine.cpp'
]
# This should contain all of the _SOURCES from files.mk, except *_machine.cpp
UNIFIED_SOURCES += [
- 'Bidi.cpp',
'CachedFace.cpp',
'CmapCache.cpp',
'Code.cpp',
+ 'Collider.cpp',
+ 'Decompressor.cpp',
'Face.cpp',
'FeatureMap.cpp',
'FileFace.cpp',
'Font.cpp',
'GlyphCache.cpp',
'GlyphFace.cpp',
'gr_char_info.cpp',
'gr_face.cpp',
'gr_features.cpp',
'gr_font.cpp',
'gr_logging.cpp',
'gr_segment.cpp',
'gr_slot.cpp',
+ 'Intervals.cpp',
'json.cpp',
'Justifier.cpp',
'NameTable.cpp',
'Pass.cpp',
+ 'Position.cpp',
'SegCache.cpp',
'SegCacheEntry.cpp',
'SegCacheStore.cpp',
'Segment.cpp',
'Silf.cpp',
'Slot.cpp',
'Sparse.cpp',
'TtfUtil.cpp',