Fixes to syborg-graphicswrapper.vcproj
These changes allow syborg-graphicswrapper to link against the hostthreadadapter and khronosapiwrapper libraries built by the graphics.simulator component.
The .vcproj file uses relative paths, which requires that the following three packages are laid out as follows:
os/
graphics
adapt/
graphics.simulator
qemu
/*
* cjkcodecs.h: common header for cjkcodecs
*
* Written by Hye-Shik Chang <perky@FreeBSD.org>
*/
#ifndef _CJKCODECS_H_
#define _CJKCODECS_H_
#define PY_SSIZE_T_CLEAN
#include "Python.h"
#include "multibytecodec.h"
/* a unicode "undefined" codepoint */
#define UNIINV 0xFFFE
/* internal-use DBCS codepoints which aren't used by any charsets */
#define NOCHAR 0xFFFF
#define MULTIC 0xFFFE
#define DBCINV 0xFFFD
/* shorter macros to save source size of mapping tables */
#define U UNIINV
#define N NOCHAR
#define M MULTIC
#define D DBCINV
struct dbcs_index {
const ucs2_t *map;
unsigned char bottom, top;
};
typedef struct dbcs_index decode_map;
struct widedbcs_index {
const ucs4_t *map;
unsigned char bottom, top;
};
typedef struct widedbcs_index widedecode_map;
struct unim_index {
const DBCHAR *map;
unsigned char bottom, top;
};
typedef struct unim_index encode_map;
struct unim_index_bytebased {
const unsigned char *map;
unsigned char bottom, top;
};
struct dbcs_map {
const char *charset;
const struct unim_index *encmap;
const struct dbcs_index *decmap;
};
struct pair_encodemap {
ucs4_t uniseq;
DBCHAR code;
};
static const MultibyteCodec *codec_list;
static const struct dbcs_map *mapping_list;
#define CODEC_INIT(encoding) \
static int encoding##_codec_init(const void *config)
#define ENCODER_INIT(encoding) \
static int encoding##_encode_init( \
MultibyteCodec_State *state, const void *config)
#define ENCODER(encoding) \
static Py_ssize_t encoding##_encode( \
MultibyteCodec_State *state, const void *config, \
const Py_UNICODE **inbuf, Py_ssize_t inleft, \
unsigned char **outbuf, Py_ssize_t outleft, int flags)
#define ENCODER_RESET(encoding) \
static Py_ssize_t encoding##_encode_reset( \
MultibyteCodec_State *state, const void *config, \
unsigned char **outbuf, Py_ssize_t outleft)
#define DECODER_INIT(encoding) \
static int encoding##_decode_init( \
MultibyteCodec_State *state, const void *config)
#define DECODER(encoding) \
static Py_ssize_t encoding##_decode( \
MultibyteCodec_State *state, const void *config, \
const unsigned char **inbuf, Py_ssize_t inleft, \
Py_UNICODE **outbuf, Py_ssize_t outleft)
#define DECODER_RESET(encoding) \
static Py_ssize_t encoding##_decode_reset( \
MultibyteCodec_State *state, const void *config)
#if Py_UNICODE_SIZE == 4
#define UCS4INVALID(code) \
if ((code) > 0xFFFF) \
return 1;
#else
#define UCS4INVALID(code) \
if (0) ;
#endif
#define NEXT_IN(i) \
(*inbuf) += (i); \
(inleft) -= (i);
#define NEXT_OUT(o) \
(*outbuf) += (o); \
(outleft) -= (o);
#define NEXT(i, o) \
NEXT_IN(i) NEXT_OUT(o)
#define REQUIRE_INBUF(n) \
if (inleft < (n)) \
return MBERR_TOOFEW;
#define REQUIRE_OUTBUF(n) \
if (outleft < (n)) \
return MBERR_TOOSMALL;
#define IN1 ((*inbuf)[0])
#define IN2 ((*inbuf)[1])
#define IN3 ((*inbuf)[2])
#define IN4 ((*inbuf)[3])
#define OUT1(c) ((*outbuf)[0]) = (c);
#define OUT2(c) ((*outbuf)[1]) = (c);
#define OUT3(c) ((*outbuf)[2]) = (c);
#define OUT4(c) ((*outbuf)[3]) = (c);
#define WRITE1(c1) \
REQUIRE_OUTBUF(1) \
(*outbuf)[0] = (c1);
#define WRITE2(c1, c2) \
REQUIRE_OUTBUF(2) \
(*outbuf)[0] = (c1); \
(*outbuf)[1] = (c2);
#define WRITE3(c1, c2, c3) \
REQUIRE_OUTBUF(3) \
(*outbuf)[0] = (c1); \
(*outbuf)[1] = (c2); \
(*outbuf)[2] = (c3);
#define WRITE4(c1, c2, c3, c4) \
REQUIRE_OUTBUF(4) \
(*outbuf)[0] = (c1); \
(*outbuf)[1] = (c2); \
(*outbuf)[2] = (c3); \
(*outbuf)[3] = (c4);
#if Py_UNICODE_SIZE == 2
# define WRITEUCS4(c) \
REQUIRE_OUTBUF(2) \
(*outbuf)[0] = 0xd800 + (((c) - 0x10000) >> 10); \
(*outbuf)[1] = 0xdc00 + (((c) - 0x10000) & 0x3ff); \
NEXT_OUT(2)
#else
# define WRITEUCS4(c) \
REQUIRE_OUTBUF(1) \
**outbuf = (Py_UNICODE)(c); \
NEXT_OUT(1)
#endif
#define _TRYMAP_ENC(m, assi, val) \
((m)->map != NULL && (val) >= (m)->bottom && \
(val)<= (m)->top && ((assi) = (m)->map[(val) - \
(m)->bottom]) != NOCHAR)
#define TRYMAP_ENC_COND(charset, assi, uni) \
_TRYMAP_ENC(&charset##_encmap[(uni) >> 8], assi, (uni) & 0xff)
#define TRYMAP_ENC(charset, assi, uni) \
if TRYMAP_ENC_COND(charset, assi, uni)
#define _TRYMAP_DEC(m, assi, val) \
((m)->map != NULL && (val) >= (m)->bottom && \
(val)<= (m)->top && ((assi) = (m)->map[(val) - \
(m)->bottom]) != UNIINV)
#define TRYMAP_DEC(charset, assi, c1, c2) \
if _TRYMAP_DEC(&charset##_decmap[c1], assi, c2)
#define _TRYMAP_ENC_MPLANE(m, assplane, asshi, asslo, val) \
((m)->map != NULL && (val) >= (m)->bottom && \
(val)<= (m)->top && \
((assplane) = (m)->map[((val) - (m)->bottom)*3]) != 0 && \
(((asshi) = (m)->map[((val) - (m)->bottom)*3 + 1]), 1) && \
(((asslo) = (m)->map[((val) - (m)->bottom)*3 + 2]), 1))
#define TRYMAP_ENC_MPLANE(charset, assplane, asshi, asslo, uni) \
if _TRYMAP_ENC_MPLANE(&charset##_encmap[(uni) >> 8], \
assplane, asshi, asslo, (uni) & 0xff)
#define TRYMAP_DEC_MPLANE(charset, assi, plane, c1, c2) \
if _TRYMAP_DEC(&charset##_decmap[plane][c1], assi, c2)
#if Py_UNICODE_SIZE == 2
#define DECODE_SURROGATE(c) \
if (c >> 10 == 0xd800 >> 10) { /* high surrogate */ \
REQUIRE_INBUF(2) \
if (IN2 >> 10 == 0xdc00 >> 10) { /* low surrogate */ \
c = 0x10000 + ((ucs4_t)(c - 0xd800) << 10) + \
((ucs4_t)(IN2) - 0xdc00); \
} \
}
#define GET_INSIZE(c) ((c) > 0xffff ? 2 : 1)
#else
#define DECODE_SURROGATE(c) {;}
#define GET_INSIZE(c) 1
#endif
#define BEGIN_MAPPINGS_LIST static const struct dbcs_map _mapping_list[] = {
#define MAPPING_ENCONLY(enc) {#enc, (void*)enc##_encmap, NULL},
#define MAPPING_DECONLY(enc) {#enc, NULL, (void*)enc##_decmap},
#define MAPPING_ENCDEC(enc) {#enc, (void*)enc##_encmap, (void*)enc##_decmap},
#define END_MAPPINGS_LIST \
{"", NULL, NULL} }; \
static const struct dbcs_map *mapping_list = \
(const struct dbcs_map *)_mapping_list;
#define BEGIN_CODECS_LIST static const MultibyteCodec _codec_list[] = {
#define _STATEFUL_METHODS(enc) \
enc##_encode, \
enc##_encode_init, \
enc##_encode_reset, \
enc##_decode, \
enc##_decode_init, \
enc##_decode_reset,
#define _STATELESS_METHODS(enc) \
enc##_encode, NULL, NULL, \
enc##_decode, NULL, NULL,
#define CODEC_STATEFUL(enc) { \
#enc, NULL, NULL, \
_STATEFUL_METHODS(enc) \
},
#define CODEC_STATELESS(enc) { \
#enc, NULL, NULL, \
_STATELESS_METHODS(enc) \
},
#define CODEC_STATELESS_WINIT(enc) { \
#enc, NULL, \
enc##_codec_init, \
_STATELESS_METHODS(enc) \
},
#define END_CODECS_LIST \
{"", NULL,} }; \
static const MultibyteCodec *codec_list = \
(const MultibyteCodec *)_codec_list;
static PyObject *
getmultibytecodec(void)
{
static PyObject *cofunc = NULL;
if (cofunc == NULL) {
PyObject *mod = PyImport_ImportModuleNoBlock("_multibytecodec");
if (mod == NULL)
return NULL;
cofunc = PyObject_GetAttrString(mod, "__create_codec");
Py_DECREF(mod);
}
return cofunc;
}
static PyObject *
getcodec(PyObject *self, PyObject *encoding)
{
PyObject *codecobj, *r, *cofunc;
const MultibyteCodec *codec;
const char *enc;
if (!PyString_Check(encoding)) {
PyErr_SetString(PyExc_TypeError,
"encoding name must be a string.");
return NULL;
}
cofunc = getmultibytecodec();
if (cofunc == NULL)
return NULL;
enc = PyString_AS_STRING(encoding);
for (codec = codec_list; codec->encoding[0]; codec++)
if (strcmp(codec->encoding, enc) == 0)
break;
if (codec->encoding[0] == '\0') {
PyErr_SetString(PyExc_LookupError,
"no such codec is supported.");
return NULL;
}
codecobj = PyCObject_FromVoidPtr((void *)codec, NULL);
if (codecobj == NULL)
return NULL;
r = PyObject_CallFunctionObjArgs(cofunc, codecobj, NULL);
Py_DECREF(codecobj);
return r;
}
static struct PyMethodDef __methods[] = {
{"getcodec", (PyCFunction)getcodec, METH_O, ""},
{NULL, NULL},
};
static int
register_maps(PyObject *module)
{
const struct dbcs_map *h;
for (h = mapping_list; h->charset[0] != '\0'; h++) {
char mhname[256] = "__map_";
int r;
strcpy(mhname + sizeof("__map_") - 1, h->charset);
r = PyModule_AddObject(module, mhname,
PyCObject_FromVoidPtr((void *)h, NULL));
if (r == -1)
return -1;
}
return 0;
}
#ifdef USING_BINARY_PAIR_SEARCH
static DBCHAR
find_pairencmap(ucs2_t body, ucs2_t modifier,
const struct pair_encodemap *haystack, int haystacksize)
{
int pos, min, max;
ucs4_t value = body << 16 | modifier;
min = 0;
max = haystacksize;
for (pos = haystacksize >> 1; min != max; pos = (min + max) >> 1)
if (value < haystack[pos].uniseq) {
if (max == pos) break;
else max = pos;
}
else if (value > haystack[pos].uniseq) {
if (min == pos) break;
else min = pos;
}
else
break;
if (value == haystack[pos].uniseq)
return haystack[pos].code;
else
return DBCINV;
}
#endif
#ifdef USING_IMPORTED_MAPS
#define IMPORT_MAP(locale, charset, encmap, decmap) \
importmap("_codecs_" #locale, "__map_" #charset, \
(const void**)encmap, (const void**)decmap)
static int
importmap(const char *modname, const char *symbol,
const void **encmap, const void **decmap)
{
PyObject *o, *mod;
mod = PyImport_ImportModule((char *)modname);
if (mod == NULL)
return -1;
o = PyObject_GetAttrString(mod, (char*)symbol);
if (o == NULL)
goto errorexit;
else if (!PyCObject_Check(o)) {
PyErr_SetString(PyExc_ValueError,
"map data must be a CObject.");
goto errorexit;
}
else {
struct dbcs_map *map;
map = PyCObject_AsVoidPtr(o);
if (encmap != NULL)
*encmap = map->encmap;
if (decmap != NULL)
*decmap = map->decmap;
Py_DECREF(o);
}
Py_DECREF(mod);
return 0;
errorexit:
Py_DECREF(mod);
return -1;
}
#endif
#define I_AM_A_MODULE_FOR(loc) \
void \
init_codecs_##loc(void) \
{ \
PyObject *m = Py_InitModule("_codecs_" #loc, __methods);\
if (m != NULL) \
(void)register_maps(m); \
}
#endif