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|
/*
* Copyright © 2018 Adobe Inc.
*
* This is part of HarfBuzz, a text shaping library.
*
* Permission is hereby granted, without written agreement and without
* license or royalty fees, to use, copy, modify, and distribute this
* software and its documentation for any purpose, provided that the
* above copyright notice and the following two paragraphs appear in
* all copies of this software.
*
* IN NO EVENT SHALL THE COPYRIGHT HOLDER BE LIABLE TO ANY PARTY FOR
* DIRECT, INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES
* ARISING OUT OF THE USE OF THIS SOFTWARE AND ITS DOCUMENTATION, EVEN
* IF THE COPYRIGHT HOLDER HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH
* DAMAGE.
*
* THE COPYRIGHT HOLDER SPECIFICALLY DISCLAIMS ANY WARRANTIES, INCLUDING,
* BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND
* FITNESS FOR A PARTICULAR PURPOSE. THE SOFTWARE PROVIDED HEREUNDER IS
* ON AN "AS IS" BASIS, AND THE COPYRIGHT HOLDER HAS NO OBLIGATION TO
* PROVIDE MAINTENANCE, SUPPORT, UPDATES, ENHANCEMENTS, OR MODIFICATIONS.
*
* Adobe Author(s): Michiharu Ariza
*/
#ifndef HB_SUBSET_CFF_COMMON_HH
#define HB_SUBSET_CFF_COMMON_HH
#include "hb.hh"
#include "hb-subset-plan.hh"
#include "hb-cff-interp-cs-common.hh"
namespace CFF {
/* Used for writing a temporary charstring */
struct str_encoder_t
{
str_encoder_t (str_buff_t &buff_)
: buff (buff_), error (false) {}
void reset () { buff.resize (0); }
void encode_byte (unsigned char b)
{
if (unlikely (buff.push (b) == &Crap (unsigned char)))
set_error ();
}
void encode_int (int v)
{
if ((-1131 <= v) && (v <= 1131))
{
if ((-107 <= v) && (v <= 107))
encode_byte (v + 139);
else if (v > 0)
{
v -= 108;
encode_byte ((v >> 8) + OpCode_TwoBytePosInt0);
encode_byte (v & 0xFF);
}
else
{
v = -v - 108;
encode_byte ((v >> 8) + OpCode_TwoByteNegInt0);
encode_byte (v & 0xFF);
}
}
else
{
if (unlikely (v < -32768))
v = -32768;
else if (unlikely (v > 32767))
v = 32767;
encode_byte (OpCode_shortint);
encode_byte ((v >> 8) & 0xFF);
encode_byte (v & 0xFF);
}
}
void encode_num (const number_t& n)
{
if (n.in_int_range ())
{
encode_int (n.to_int ());
}
else
{
int32_t v = n.to_fixed ();
encode_byte (OpCode_fixedcs);
encode_byte ((v >> 24) & 0xFF);
encode_byte ((v >> 16) & 0xFF);
encode_byte ((v >> 8) & 0xFF);
encode_byte (v & 0xFF);
}
}
void encode_op (op_code_t op)
{
if (Is_OpCode_ESC (op))
{
encode_byte (OpCode_escape);
encode_byte (Unmake_OpCode_ESC (op));
}
else
encode_byte (op);
}
void copy_str (const byte_str_t &str)
{
unsigned int offset = buff.length;
if (unlikely (!buff.resize (offset + str.length)))
{
set_error ();
return;
}
if (unlikely (buff.length < offset + str.length))
{
set_error ();
return;
}
memcpy (&buff[offset], &str[0], str.length);
}
bool is_error () const { return error; }
protected:
void set_error () { error = true; }
str_buff_t &buff;
bool error;
};
struct cff_sub_table_info_t {
cff_sub_table_info_t ()
: fd_array_link (0),
char_strings_link (0)
{
fd_select.init ();
}
table_info_t fd_select;
objidx_t fd_array_link;
objidx_t char_strings_link;
};
template <typename OPSTR=op_str_t>
struct cff_top_dict_op_serializer_t : op_serializer_t
{
bool serialize (hb_serialize_context_t *c,
const OPSTR &opstr,
const cff_sub_table_info_t &info) const
{
TRACE_SERIALIZE (this);
switch (opstr.op)
{
case OpCode_CharStrings:
return_trace (FontDict::serialize_link4_op(c, opstr.op, info.char_strings_link, whence_t::Absolute));
case OpCode_FDArray:
return_trace (FontDict::serialize_link4_op(c, opstr.op, info.fd_array_link, whence_t::Absolute));
case OpCode_FDSelect:
return_trace (FontDict::serialize_link4_op(c, opstr.op, info.fd_select.link, whence_t::Absolute));
default:
return_trace (copy_opstr (c, opstr));
}
return_trace (true);
}
};
struct cff_font_dict_op_serializer_t : op_serializer_t
{
bool serialize (hb_serialize_context_t *c,
const op_str_t &opstr,
const table_info_t &privateDictInfo) const
{
TRACE_SERIALIZE (this);
if (opstr.op == OpCode_Private)
{
/* serialize the private dict size & offset as 2-byte & 4-byte integers */
return_trace (UnsizedByteStr::serialize_int2 (c, privateDictInfo.size) &&
Dict::serialize_link4_op (c, opstr.op, privateDictInfo.link, whence_t::Absolute));
}
else
{
HBUINT8 *d = c->allocate_size<HBUINT8> (opstr.str.length);
if (unlikely (!d)) return_trace (false);
memcpy (d, &opstr.str[0], opstr.str.length);
}
return_trace (true);
}
};
struct cff_private_dict_op_serializer_t : op_serializer_t
{
cff_private_dict_op_serializer_t (bool desubroutinize_, bool drop_hints_)
: desubroutinize (desubroutinize_), drop_hints (drop_hints_) {}
bool serialize (hb_serialize_context_t *c,
const op_str_t &opstr,
objidx_t subrs_link) const
{
TRACE_SERIALIZE (this);
if (drop_hints && dict_opset_t::is_hint_op (opstr.op))
return true;
if (opstr.op == OpCode_Subrs)
{
if (desubroutinize || !subrs_link)
return_trace (true);
else
return_trace (FontDict::serialize_link2_op (c, opstr.op, subrs_link));
}
else
return_trace (copy_opstr (c, opstr));
}
protected:
const bool desubroutinize;
const bool drop_hints;
};
struct flatten_param_t
{
str_buff_t &flatStr;
bool drop_hints;
};
template <typename ACC, typename ENV, typename OPSET, op_code_t endchar_op=OpCode_Invalid>
struct subr_flattener_t
{
subr_flattener_t (const ACC &acc_,
const hb_subset_plan_t *plan_)
: acc (acc_), plan (plan_) {}
bool flatten (str_buff_vec_t &flat_charstrings)
{
if (!flat_charstrings.resize (plan->num_output_glyphs ()))
return false;
for (unsigned int i = 0; i < plan->num_output_glyphs (); i++)
flat_charstrings[i].init ();
for (unsigned int i = 0; i < plan->num_output_glyphs (); i++)
{
hb_codepoint_t glyph;
if (!plan->old_gid_for_new_gid (i, &glyph))
{
/* add an endchar only charstring for a missing glyph if CFF1 */
if (endchar_op != OpCode_Invalid) flat_charstrings[i].push (endchar_op);
continue;
}
const byte_str_t str = (*acc.charStrings)[glyph];
unsigned int fd = acc.fdSelect->get_fd (glyph);
if (unlikely (fd >= acc.fdCount))
return false;
cs_interpreter_t<ENV, OPSET, flatten_param_t> interp;
interp.env.init (str, acc, fd);
flatten_param_t param = {
flat_charstrings[i],
(bool) (plan->flags & HB_SUBSET_FLAGS_NO_HINTING)
};
if (unlikely (!interp.interpret (param)))
return false;
}
return true;
}
const ACC &acc;
const hb_subset_plan_t *plan;
};
struct subr_closures_t
{
subr_closures_t () : valid (false), global_closure (nullptr)
{ local_closures.init (); }
void init (unsigned int fd_count)
{
valid = true;
global_closure = hb_set_create ();
if (global_closure == hb_set_get_empty ())
valid = false;
if (!local_closures.resize (fd_count))
valid = false;
for (unsigned int i = 0; i < local_closures.length; i++)
{
local_closures[i] = hb_set_create ();
if (local_closures[i] == hb_set_get_empty ())
valid = false;
}
}
void fini ()
{
hb_set_destroy (global_closure);
for (unsigned int i = 0; i < local_closures.length; i++)
hb_set_destroy (local_closures[i]);
local_closures.fini ();
}
void reset ()
{
hb_set_clear (global_closure);
for (unsigned int i = 0; i < local_closures.length; i++)
hb_set_clear (local_closures[i]);
}
bool is_valid () const { return valid; }
bool valid;
hb_set_t *global_closure;
hb_vector_t<hb_set_t *> local_closures;
};
struct parsed_cs_op_t : op_str_t
{
void init (unsigned int subr_num_ = 0)
{
op_str_t::init ();
subr_num = subr_num_;
drop_flag = false;
keep_flag = false;
skip_flag = false;
}
void fini () { op_str_t::fini (); }
bool for_drop () const { return drop_flag; }
void set_drop () { if (!for_keep ()) drop_flag = true; }
bool for_keep () const { return keep_flag; }
void set_keep () { keep_flag = true; }
bool for_skip () const { return skip_flag; }
void set_skip () { skip_flag = true; }
unsigned int subr_num;
protected:
bool drop_flag : 1;
bool keep_flag : 1;
bool skip_flag : 1;
};
struct parsed_cs_str_t : parsed_values_t<parsed_cs_op_t>
{
void init ()
{
SUPER::init ();
parsed = false;
hint_dropped = false;
has_prefix_ = false;
}
void add_op (op_code_t op, const byte_str_ref_t& str_ref)
{
if (!is_parsed ())
SUPER::add_op (op, str_ref);
}
void add_call_op (op_code_t op, const byte_str_ref_t& str_ref, unsigned int subr_num)
{
if (!is_parsed ())
{
unsigned int parsed_len = get_count ();
if (likely (parsed_len > 0))
values[parsed_len-1].set_skip ();
parsed_cs_op_t val;
val.init (subr_num);
SUPER::add_op (op, str_ref, val);
}
}
void set_prefix (const number_t &num, op_code_t op = OpCode_Invalid)
{
has_prefix_ = true;
prefix_op_ = op;
prefix_num_ = num;
}
bool at_end (unsigned int pos) const
{
return ((pos + 1 >= values.length) /* CFF2 */
|| (values[pos + 1].op == OpCode_return));
}
bool is_parsed () const { return parsed; }
void set_parsed () { parsed = true; }
bool is_hint_dropped () const { return hint_dropped; }
void set_hint_dropped () { hint_dropped = true; }
bool is_vsindex_dropped () const { return vsindex_dropped; }
void set_vsindex_dropped () { vsindex_dropped = true; }
bool has_prefix () const { return has_prefix_; }
op_code_t prefix_op () const { return prefix_op_; }
const number_t &prefix_num () const { return prefix_num_; }
protected:
bool parsed;
bool hint_dropped;
bool vsindex_dropped;
bool has_prefix_;
op_code_t prefix_op_;
number_t prefix_num_;
private:
typedef parsed_values_t<parsed_cs_op_t> SUPER;
};
struct parsed_cs_str_vec_t : hb_vector_t<parsed_cs_str_t>
{
void init (unsigned int len_ = 0)
{
SUPER::init ();
if (unlikely (!resize (len_)))
return;
for (unsigned int i = 0; i < length; i++)
(*this)[i].init ();
}
void fini () { SUPER::fini_deep (); }
private:
typedef hb_vector_t<parsed_cs_str_t> SUPER;
};
struct subr_subset_param_t
{
void init (parsed_cs_str_t *parsed_charstring_,
parsed_cs_str_vec_t *parsed_global_subrs_, parsed_cs_str_vec_t *parsed_local_subrs_,
hb_set_t *global_closure_, hb_set_t *local_closure_,
bool drop_hints_)
{
parsed_charstring = parsed_charstring_;
current_parsed_str = parsed_charstring;
parsed_global_subrs = parsed_global_subrs_;
parsed_local_subrs = parsed_local_subrs_;
global_closure = global_closure_;
local_closure = local_closure_;
drop_hints = drop_hints_;
}
parsed_cs_str_t *get_parsed_str_for_context (call_context_t &context)
{
switch (context.type)
{
case CSType_CharString:
return parsed_charstring;
case CSType_LocalSubr:
if (likely (context.subr_num < parsed_local_subrs->length))
return &(*parsed_local_subrs)[context.subr_num];
break;
case CSType_GlobalSubr:
if (likely (context.subr_num < parsed_global_subrs->length))
return &(*parsed_global_subrs)[context.subr_num];
break;
}
return nullptr;
}
template <typename ENV>
void set_current_str (ENV &env, bool calling)
{
parsed_cs_str_t *parsed_str = get_parsed_str_for_context (env.context);
if (unlikely (!parsed_str))
{
env.set_error ();
return;
}
/* If the called subroutine is parsed partially but not completely yet,
* it must be because we are calling it recursively.
* Handle it as an error. */
if (unlikely (calling && !parsed_str->is_parsed () && (parsed_str->values.length > 0)))
env.set_error ();
else
current_parsed_str = parsed_str;
}
parsed_cs_str_t *current_parsed_str;
parsed_cs_str_t *parsed_charstring;
parsed_cs_str_vec_t *parsed_global_subrs;
parsed_cs_str_vec_t *parsed_local_subrs;
hb_set_t *global_closure;
hb_set_t *local_closure;
bool drop_hints;
};
struct subr_remap_t : hb_inc_bimap_t
{
void create (hb_set_t *closure)
{
/* create a remapping of subroutine numbers from old to new.
* no optimization based on usage counts. fonttools doesn't appear doing that either.
*/
hb_codepoint_t old_num = HB_SET_VALUE_INVALID;
while (hb_set_next (closure, &old_num))
add (old_num);
if (get_population () < 1240)
bias = 107;
else if (get_population () < 33900)
bias = 1131;
else
bias = 32768;
}
int biased_num (unsigned int old_num) const
{
hb_codepoint_t new_num = get (old_num);
return (int)new_num - bias;
}
protected:
int bias;
};
struct subr_remaps_t
{
subr_remaps_t ()
{
global_remap.init ();
local_remaps.init ();
}
~subr_remaps_t () { fini (); }
void init (unsigned int fdCount)
{
if (unlikely (!local_remaps.resize (fdCount))) return;
for (unsigned int i = 0; i < fdCount; i++)
local_remaps[i].init ();
}
bool in_error()
{
return local_remaps.in_error ();
}
void create (subr_closures_t& closures)
{
global_remap.create (closures.global_closure);
for (unsigned int i = 0; i < local_remaps.length; i++)
local_remaps[i].create (closures.local_closures[i]);
}
void fini ()
{
global_remap.fini ();
local_remaps.fini_deep ();
}
subr_remap_t global_remap;
hb_vector_t<subr_remap_t> local_remaps;
};
template <typename SUBSETTER, typename SUBRS, typename ACC, typename ENV, typename OPSET, op_code_t endchar_op=OpCode_Invalid>
struct subr_subsetter_t
{
subr_subsetter_t (ACC &acc_, const hb_subset_plan_t *plan_)
: acc (acc_), plan (plan_)
{
parsed_charstrings.init ();
parsed_global_subrs.init ();
parsed_local_subrs.init ();
}
~subr_subsetter_t ()
{
closures.fini ();
remaps.fini ();
parsed_charstrings.fini_deep ();
parsed_global_subrs.fini_deep ();
parsed_local_subrs.fini_deep ();
}
/* Subroutine subsetting with --no-desubroutinize runs in phases:
*
* 1. execute charstrings/subroutines to determine subroutine closures
* 2. parse out all operators and numbers
* 3. mark hint operators and operands for removal if --no-hinting
* 4. re-encode all charstrings and subroutines with new subroutine numbers
*
* Phases #1 and #2 are done at the same time in collect_subrs ().
* Phase #3 walks charstrings/subroutines forward then backward (hence parsing required),
* because we can't tell if a number belongs to a hint op until we see the first moveto.
*
* Assumption: a callsubr/callgsubr operator must immediately follow a (biased) subroutine number
* within the same charstring/subroutine, e.g., not split across a charstring and a subroutine.
*/
bool subset (void)
{
closures.init (acc.fdCount);
remaps.init (acc.fdCount);
parsed_charstrings.init (plan->num_output_glyphs ());
parsed_global_subrs.init (acc.globalSubrs->count);
if (unlikely (remaps.in_error()
|| parsed_charstrings.in_error ()
|| parsed_global_subrs.in_error ())) {
return false;
}
if (unlikely (!parsed_local_subrs.resize (acc.fdCount))) return false;
for (unsigned int i = 0; i < acc.fdCount; i++)
{
parsed_local_subrs[i].init (acc.privateDicts[i].localSubrs->count);
if (unlikely (parsed_local_subrs[i].in_error ())) return false;
}
if (unlikely (!closures.valid))
return false;
/* phase 1 & 2 */
for (unsigned int i = 0; i < plan->num_output_glyphs (); i++)
{
hb_codepoint_t glyph;
if (!plan->old_gid_for_new_gid (i, &glyph))
continue;
const byte_str_t str = (*acc.charStrings)[glyph];
unsigned int fd = acc.fdSelect->get_fd (glyph);
if (unlikely (fd >= acc.fdCount))
return false;
cs_interpreter_t<ENV, OPSET, subr_subset_param_t> interp;
interp.env.init (str, acc, fd);
subr_subset_param_t param;
param.init (&parsed_charstrings[i],
&parsed_global_subrs, &parsed_local_subrs[fd],
closures.global_closure, closures.local_closures[fd],
plan->flags & HB_SUBSET_FLAGS_NO_HINTING);
if (unlikely (!interp.interpret (param)))
return false;
/* complete parsed string esp. copy CFF1 width or CFF2 vsindex to the parsed charstring for encoding */
SUBSETTER::complete_parsed_str (interp.env, param, parsed_charstrings[i]);
}
if (plan->flags & HB_SUBSET_FLAGS_NO_HINTING)
{
/* mark hint ops and arguments for drop */
for (unsigned int i = 0; i < plan->num_output_glyphs (); i++)
{
hb_codepoint_t glyph;
if (!plan->old_gid_for_new_gid (i, &glyph))
continue;
unsigned int fd = acc.fdSelect->get_fd (glyph);
if (unlikely (fd >= acc.fdCount))
return false;
subr_subset_param_t param;
param.init (&parsed_charstrings[i],
&parsed_global_subrs, &parsed_local_subrs[fd],
closures.global_closure, closures.local_closures[fd],
plan->flags & HB_SUBSET_FLAGS_NO_HINTING);
drop_hints_param_t drop;
if (drop_hints_in_str (parsed_charstrings[i], param, drop))
{
parsed_charstrings[i].set_hint_dropped ();
if (drop.vsindex_dropped)
parsed_charstrings[i].set_vsindex_dropped ();
}
}
/* after dropping hints recreate closures of actually used subrs */
closures.reset ();
for (unsigned int i = 0; i < plan->num_output_glyphs (); i++)
{
hb_codepoint_t glyph;
if (!plan->old_gid_for_new_gid (i, &glyph))
continue;
unsigned int fd = acc.fdSelect->get_fd (glyph);
if (unlikely (fd >= acc.fdCount))
return false;
subr_subset_param_t param;
param.init (&parsed_charstrings[i],
&parsed_global_subrs, &parsed_local_subrs[fd],
closures.global_closure, closures.local_closures[fd],
plan->flags & HB_SUBSET_FLAGS_NO_HINTING);
collect_subr_refs_in_str (parsed_charstrings[i], param);
}
}
remaps.create (closures);
return true;
}
bool encode_charstrings (str_buff_vec_t &buffArray) const
{
if (unlikely (!buffArray.resize (plan->num_output_glyphs ())))
return false;
for (unsigned int i = 0; i < plan->num_output_glyphs (); i++)
{
hb_codepoint_t glyph;
if (!plan->old_gid_for_new_gid (i, &glyph))
{
/* add an endchar only charstring for a missing glyph if CFF1 */
if (endchar_op != OpCode_Invalid) buffArray[i].push (endchar_op);
continue;
}
unsigned int fd = acc.fdSelect->get_fd (glyph);
if (unlikely (fd >= acc.fdCount))
return false;
if (unlikely (!encode_str (parsed_charstrings[i], fd, buffArray[i])))
return false;
}
return true;
}
bool encode_subrs (const parsed_cs_str_vec_t &subrs, const subr_remap_t& remap, unsigned int fd, str_buff_vec_t &buffArray) const
{
unsigned int count = remap.get_population ();
if (unlikely (!buffArray.resize (count)))
return false;
for (unsigned int old_num = 0; old_num < subrs.length; old_num++)
{
hb_codepoint_t new_num = remap[old_num];
if (new_num != CFF_UNDEF_CODE)
{
if (unlikely (!encode_str (subrs[old_num], fd, buffArray[new_num])))
return false;
}
}
return true;
}
bool encode_globalsubrs (str_buff_vec_t &buffArray)
{
return encode_subrs (parsed_global_subrs, remaps.global_remap, 0, buffArray);
}
bool encode_localsubrs (unsigned int fd, str_buff_vec_t &buffArray) const
{
return encode_subrs (parsed_local_subrs[fd], remaps.local_remaps[fd], fd, buffArray);
}
protected:
struct drop_hints_param_t
{
drop_hints_param_t ()
: seen_moveto (false),
ends_in_hint (false),
all_dropped (false),
vsindex_dropped (false) {}
bool seen_moveto;
bool ends_in_hint;
bool all_dropped;
bool vsindex_dropped;
};
bool drop_hints_in_subr (parsed_cs_str_t &str, unsigned int pos,
parsed_cs_str_vec_t &subrs, unsigned int subr_num,
const subr_subset_param_t ¶m, drop_hints_param_t &drop)
{
drop.ends_in_hint = false;
bool has_hint = drop_hints_in_str (subrs[subr_num], param, drop);
/* if this subr ends with a stem hint (i.e., not a number; potential argument for moveto),
* then this entire subroutine must be a hint. drop its call. */
if (drop.ends_in_hint)
{
str.values[pos].set_drop ();
/* if this subr call is at the end of the parent subr, propagate the flag
* otherwise reset the flag */
if (!str.at_end (pos))
drop.ends_in_hint = false;
}
else if (drop.all_dropped)
{
str.values[pos].set_drop ();
}
return has_hint;
}
/* returns true if it sees a hint op before the first moveto */
bool drop_hints_in_str (parsed_cs_str_t &str, const subr_subset_param_t ¶m, drop_hints_param_t &drop)
{
bool seen_hint = false;
for (unsigned int pos = 0; pos < str.values.length; pos++)
{
bool has_hint = false;
switch (str.values[pos].op)
{
case OpCode_callsubr:
has_hint = drop_hints_in_subr (str, pos,
*param.parsed_local_subrs, str.values[pos].subr_num,
param, drop);
break;
case OpCode_callgsubr:
has_hint = drop_hints_in_subr (str, pos,
*param.parsed_global_subrs, str.values[pos].subr_num,
param, drop);
break;
case OpCode_rmoveto:
case OpCode_hmoveto:
case OpCode_vmoveto:
drop.seen_moveto = true;
break;
case OpCode_hintmask:
case OpCode_cntrmask:
if (drop.seen_moveto)
{
str.values[pos].set_drop ();
break;
}
HB_FALLTHROUGH;
case OpCode_hstemhm:
case OpCode_vstemhm:
case OpCode_hstem:
case OpCode_vstem:
has_hint = true;
str.values[pos].set_drop ();
if (str.at_end (pos))
drop.ends_in_hint = true;
break;
case OpCode_dotsection:
str.values[pos].set_drop ();
break;
default:
/* NONE */
break;
}
if (has_hint)
{
for (int i = pos - 1; i >= 0; i--)
{
parsed_cs_op_t &csop = str.values[(unsigned)i];
if (csop.for_drop ())
break;
csop.set_drop ();
if (csop.op == OpCode_vsindexcs)
drop.vsindex_dropped = true;
}
seen_hint |= has_hint;
}
}
/* Raise all_dropped flag if all operators except return are dropped from a subr.
* It may happen even after seeing the first moveto if a subr contains
* only (usually one) hintmask operator, then calls to this subr can be dropped.
*/
drop.all_dropped = true;
for (unsigned int pos = 0; pos < str.values.length; pos++)
{
parsed_cs_op_t &csop = str.values[pos];
if (csop.op == OpCode_return)
break;
if (!csop.for_drop ())
{
drop.all_dropped = false;
break;
}
}
return seen_hint;
}
void collect_subr_refs_in_subr (parsed_cs_str_t &str, unsigned int pos,
unsigned int subr_num, parsed_cs_str_vec_t &subrs,
hb_set_t *closure,
const subr_subset_param_t ¶m)
{
closure->add (subr_num);
collect_subr_refs_in_str (subrs[subr_num], param);
}
void collect_subr_refs_in_str (parsed_cs_str_t &str, const subr_subset_param_t ¶m)
{
for (unsigned int pos = 0; pos < str.values.length; pos++)
{
if (!str.values[pos].for_drop ())
{
switch (str.values[pos].op)
{
case OpCode_callsubr:
collect_subr_refs_in_subr (str, pos,
str.values[pos].subr_num, *param.parsed_local_subrs,
param.local_closure, param);
break;
case OpCode_callgsubr:
collect_subr_refs_in_subr (str, pos,
str.values[pos].subr_num, *param.parsed_global_subrs,
param.global_closure, param);
break;
default: break;
}
}
}
}
bool encode_str (const parsed_cs_str_t &str, const unsigned int fd, str_buff_t &buff) const
{
buff.init ();
str_encoder_t encoder (buff);
encoder.reset ();
/* if a prefix (CFF1 width or CFF2 vsindex) has been removed along with hints,
* re-insert it at the beginning of charstreing */
if (str.has_prefix () && str.is_hint_dropped ())
{
encoder.encode_num (str.prefix_num ());
if (str.prefix_op () != OpCode_Invalid)
encoder.encode_op (str.prefix_op ());
}
for (unsigned int i = 0; i < str.get_count(); i++)
{
const parsed_cs_op_t &opstr = str.values[i];
if (!opstr.for_drop () && !opstr.for_skip ())
{
switch (opstr.op)
{
case OpCode_callsubr:
encoder.encode_int (remaps.local_remaps[fd].biased_num (opstr.subr_num));
encoder.encode_op (OpCode_callsubr);
break;
case OpCode_callgsubr:
encoder.encode_int (remaps.global_remap.biased_num (opstr.subr_num));
encoder.encode_op (OpCode_callgsubr);
break;
default:
encoder.copy_str (opstr.str);
break;
}
}
}
return !encoder.is_error ();
}
protected:
const ACC &acc;
const hb_subset_plan_t *plan;
subr_closures_t closures;
parsed_cs_str_vec_t parsed_charstrings;
parsed_cs_str_vec_t parsed_global_subrs;
hb_vector_t<parsed_cs_str_vec_t> parsed_local_subrs;
subr_remaps_t remaps;
private:
typedef typename SUBRS::count_type subr_count_type;
};
} /* namespace CFF */
HB_INTERNAL bool
hb_plan_subset_cff_fdselect (const hb_subset_plan_t *plan,
unsigned int fdCount,
const CFF::FDSelect &src, /* IN */
unsigned int &subset_fd_count /* OUT */,
unsigned int &subset_fdselect_size /* OUT */,
unsigned int &subset_fdselect_format /* OUT */,
hb_vector_t<CFF::code_pair_t> &fdselect_ranges /* OUT */,
hb_inc_bimap_t &fdmap /* OUT */);
HB_INTERNAL bool
hb_serialize_cff_fdselect (hb_serialize_context_t *c,
unsigned int num_glyphs,
const CFF::FDSelect &src,
unsigned int fd_count,
unsigned int fdselect_format,
unsigned int size,
const hb_vector_t<CFF::code_pair_t> &fdselect_ranges);
#endif /* HB_SUBSET_CFF_COMMON_HH */
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