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skia / third_party / fontconfig / refs/tags/fc-2_2_2 / . / src / fcxml.c
blob: 3d3023ff22afbb63a1c64de8896964b01f6c6676 [file] [log] [blame]
/*
* $RCSId: xc/lib/fontconfig/src/fcxml.c,v 1.21 2002/08/22 18:53:22 keithp Exp $
*
* Copyright © 2002 Keith Packard
*
* Permission to use, copy, modify, distribute, and sell this software and its
* documentation for any purpose is hereby granted without fee, provided that
* the above copyright notice appear in all copies and that both that
* copyright notice and this permission notice appear in supporting
* documentation, and that the name of Keith Packard not be used in
* advertising or publicity pertaining to distribution of the software without
* specific, written prior permission. Keith Packard makes no
* representations about the suitability of this software for any purpose. It
* is provided "as is" without express or implied warranty.
*
* KEITH PACKARD DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE,
* INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO
* EVENT SHALL KEITH PACKARD BE LIABLE FOR ANY SPECIAL, INDIRECT OR
* CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE,
* DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
* TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
* PERFORMANCE OF THIS SOFTWARE.
*/
#include <stdarg.h>
#include "fcint.h"
#ifndef HAVE_XMLPARSE_H
#define HAVE_XMLPARSE_H 0
#endif
#if HAVE_XMLPARSE_H
#include <xmlparse.h>
#else
#include <expat.h>
#endif
#ifdef _WIN32
#define STRICT
#include <windows.h>
#undef STRICT
#endif
FcTest *
FcTestCreate (FcMatchKind kind,
FcQual qual,
const FcChar8 *field,
FcOp compare,
FcExpr *expr)
{
FcTest *test = (FcTest *) malloc (sizeof (FcTest));
if (test)
{
FcMemAlloc (FC_MEM_TEST, sizeof (FcTest));
test->next = 0;
test->kind = kind;
test->qual = qual;
test->field = (char *) FcStrCopy (field);
test->op = compare;
test->expr = expr;
}
return test;
}
void
FcTestDestroy (FcTest *test)
{
if (test->next)
FcTestDestroy (test->next);
FcExprDestroy (test->expr);
FcStrFree ((FcChar8 *) test->field);
FcMemFree (FC_MEM_TEST, sizeof (FcTest));
free (test);
}
FcExpr *
FcExprCreateInteger (int i)
{
FcExpr *e = (FcExpr *) malloc (sizeof (FcExpr));
if (e)
{
FcMemAlloc (FC_MEM_EXPR, sizeof (FcExpr));
e->op = FcOpInteger;
e->u.ival = i;
}
return e;
}
FcExpr *
FcExprCreateDouble (double d)
{
FcExpr *e = (FcExpr *) malloc (sizeof (FcExpr));
if (e)
{
FcMemAlloc (FC_MEM_EXPR, sizeof (FcExpr));
e->op = FcOpDouble;
e->u.dval = d;
}
return e;
}
FcExpr *
FcExprCreateString (const FcChar8 *s)
{
FcExpr *e = (FcExpr *) malloc (sizeof (FcExpr));
if (e)
{
FcMemAlloc (FC_MEM_EXPR, sizeof (FcExpr));
e->op = FcOpString;
e->u.sval = FcStrCopy (s);
}
return e;
}
FcExpr *
FcExprCreateMatrix (const FcMatrix *m)
{
FcExpr *e = (FcExpr *) malloc (sizeof (FcExpr));
if (e)
{
FcMemAlloc (FC_MEM_EXPR, sizeof (FcExpr));
e->op = FcOpMatrix;
e->u.mval = FcMatrixCopy (m);
}
return e;
}
FcExpr *
FcExprCreateBool (FcBool b)
{
FcExpr *e = (FcExpr *) malloc (sizeof (FcExpr));
if (e)
{
FcMemAlloc (FC_MEM_EXPR, sizeof (FcExpr));
e->op = FcOpBool;
e->u.bval = b;
}
return e;
}
FcExpr *
FcExprCreateNil (void)
{
FcExpr *e = (FcExpr *) malloc (sizeof (FcExpr));
if (e)
{
FcMemAlloc (FC_MEM_EXPR, sizeof (FcExpr));
e->op = FcOpNil;
}
return e;
}
FcExpr *
FcExprCreateField (const char *field)
{
FcExpr *e = (FcExpr *) malloc (sizeof (FcExpr));
if (e)
{
FcMemAlloc (FC_MEM_EXPR, sizeof (FcExpr));
e->op = FcOpField;
e->u.field = (char *) FcStrCopy ((FcChar8 *) field);
}
return e;
}
FcExpr *
FcExprCreateConst (const FcChar8 *constant)
{
FcExpr *e = (FcExpr *) malloc (sizeof (FcExpr));
if (e)
{
FcMemAlloc (FC_MEM_EXPR, sizeof (FcExpr));
e->op = FcOpConst;
e->u.constant = FcStrCopy (constant);
}
return e;
}
FcExpr *
FcExprCreateOp (FcExpr *left, FcOp op, FcExpr *right)
{
FcExpr *e = (FcExpr *) malloc (sizeof (FcExpr));
if (e)
{
FcMemAlloc (FC_MEM_EXPR, sizeof (FcExpr));
e->op = op;
e->u.tree.left = left;
e->u.tree.right = right;
}
return e;
}
void
FcExprDestroy (FcExpr *e)
{
if (!e)
return;
switch (e->op) {
case FcOpInteger:
break;
case FcOpDouble:
break;
case FcOpString:
FcStrFree (e->u.sval);
break;
case FcOpMatrix:
FcMatrixFree (e->u.mval);
break;
case FcOpCharSet:
FcCharSetDestroy (e->u.cval);
break;
case FcOpBool:
break;
case FcOpField:
FcStrFree ((FcChar8 *) e->u.field);
break;
case FcOpConst:
FcStrFree (e->u.constant);
break;
case FcOpAssign:
case FcOpAssignReplace:
case FcOpPrepend:
case FcOpPrependFirst:
case FcOpAppend:
case FcOpAppendLast:
break;
case FcOpOr:
case FcOpAnd:
case FcOpEqual:
case FcOpNotEqual:
case FcOpLess:
case FcOpLessEqual:
case FcOpMore:
case FcOpMoreEqual:
case FcOpContains:
case FcOpNotContains:
case FcOpPlus:
case FcOpMinus:
case FcOpTimes:
case FcOpDivide:
case FcOpQuest:
case FcOpComma:
FcExprDestroy (e->u.tree.right);
/* fall through */
case FcOpNot:
case FcOpFloor:
case FcOpCeil:
case FcOpRound:
case FcOpTrunc:
FcExprDestroy (e->u.tree.left);
break;
case FcOpNil:
case FcOpInvalid:
break;
}
FcMemFree (FC_MEM_EXPR, sizeof (FcExpr));
free (e);
}
FcEdit *
FcEditCreate (const char *field, FcOp op, FcExpr *expr, FcValueBinding binding)
{
FcEdit *e = (FcEdit *) malloc (sizeof (FcEdit));
if (e)
{
e->next = 0;
e->field = field; /* already saved in grammar */
e->op = op;
e->expr = expr;
e->binding = binding;
}
return e;
}
void
FcEditDestroy (FcEdit *e)
{
if (e->next)
FcEditDestroy (e->next);
FcStrFree ((FcChar8 *) e->field);
if (e->expr)
FcExprDestroy (e->expr);
}
char *
FcConfigSaveField (const char *field)
{
return (char *) FcStrCopy ((FcChar8 *) field);
}
typedef enum _FcElement {
FcElementNone,
FcElementFontconfig,
FcElementDir,
FcElementCache,
FcElementInclude,
FcElementConfig,
FcElementMatch,
FcElementAlias,
FcElementBlank,
FcElementRescan,
FcElementPrefer,
FcElementAccept,
FcElementDefault,
FcElementFamily,
FcElementTest,
FcElementEdit,
FcElementInt,
FcElementDouble,
FcElementString,
FcElementMatrix,
FcElementBool,
FcElementCharset,
FcElementName,
FcElementConst,
FcElementOr,
FcElementAnd,
FcElementEq,
FcElementNotEq,
FcElementLess,
FcElementLessEq,
FcElementMore,
FcElementMoreEq,
FcElementContains,
FcElementNotContains,
FcElementPlus,
FcElementMinus,
FcElementTimes,
FcElementDivide,
FcElementNot,
FcElementIf,
FcElementFloor,
FcElementCeil,
FcElementRound,
FcElementTrunc,
FcElementUnknown
} FcElement;
static FcElement
FcElementMap (const XML_Char *name)
{
static struct {
char *name;
FcElement element;
} fcElementMap[] = {
{ "fontconfig", FcElementFontconfig },
{ "dir", FcElementDir },
{ "cache", FcElementCache },
{ "include", FcElementInclude },
{ "config", FcElementConfig },
{ "match", FcElementMatch },
{ "alias", FcElementAlias },
{ "blank", FcElementBlank },
{ "rescan", FcElementRescan },
{ "prefer", FcElementPrefer },
{ "accept", FcElementAccept },
{ "default", FcElementDefault },
{ "family", FcElementFamily },
{ "test", FcElementTest },
{ "edit", FcElementEdit },
{ "int", FcElementInt },
{ "double", FcElementDouble },
{ "string", FcElementString },
{ "matrix", FcElementMatrix },
{ "bool", FcElementBool },
{ "charset", FcElementCharset },
{ "name", FcElementName },
{ "const", FcElementConst },
{ "or", FcElementOr },
{ "and", FcElementAnd },
{ "eq", FcElementEq },
{ "not_eq", FcElementNotEq },
{ "less", FcElementLess },
{ "less_eq", FcElementLessEq },
{ "more", FcElementMore },
{ "more_eq", FcElementMoreEq },
{ "contains", FcElementContains },
{ "not_contains",FcElementNotContains },
{ "plus", FcElementPlus },
{ "minus", FcElementMinus },
{ "times", FcElementTimes },
{ "divide", FcElementDivide },
{ "not", FcElementNot },
{ "if", FcElementIf },
{ "floor", FcElementFloor },
{ "ceil", FcElementCeil },
{ "round", FcElementRound },
{ "trunc", FcElementTrunc },
{ 0, 0 }
};
int i;
for (i = 0; fcElementMap[i].name; i++)
if (!strcmp ((char *) name, fcElementMap[i].name))
return fcElementMap[i].element;
return FcElementUnknown;
}
typedef struct _FcPStack {
struct _FcPStack *prev;
FcElement element;
FcChar8 **attr;
FcStrBuf str;
} FcPStack;
typedef enum _FcVStackTag {
FcVStackNone,
FcVStackString,
FcVStackFamily,
FcVStackField,
FcVStackConstant,
FcVStackPrefer,
FcVStackAccept,
FcVStackDefault,
FcVStackInteger,
FcVStackDouble,
FcVStackMatrix,
FcVStackBool,
FcVStackTest,
FcVStackExpr,
FcVStackEdit
} FcVStackTag;
typedef struct _FcVStack {
struct _FcVStack *prev;
FcPStack *pstack; /* related parse element */
FcVStackTag tag;
union {
FcChar8 *string;
int integer;
double _double;
FcMatrix *matrix;
FcBool bool;
FcTest *test;
FcQual qual;
FcOp op;
FcExpr *expr;
FcEdit *edit;
} u;
} FcVStack;
typedef struct _FcConfigParse {
FcPStack *pstack;
FcVStack *vstack;
FcBool error;
const FcChar8 *name;
FcConfig *config;
XML_Parser parser;
} FcConfigParse;
typedef enum _FcConfigSeverity {
FcSevereInfo, FcSevereWarning, FcSevereError
} FcConfigSeverity;
static void
FcConfigMessage (FcConfigParse *parse, FcConfigSeverity severe, char *fmt, ...)
{
char *s = "unknown";
va_list args;
va_start (args, fmt);
switch (severe) {
case FcSevereInfo: s = "info"; break;
case FcSevereWarning: s = "warning"; break;
case FcSevereError: s = "error"; break;
}
if (parse)
{
if (parse->name)
fprintf (stderr, "Fontconfig %s: \"%s\", line %d: ", s,
parse->name, XML_GetCurrentLineNumber (parse->parser));
else
fprintf (stderr, "Fontconfig %s: line %d: ", s,
XML_GetCurrentLineNumber (parse->parser));
if (severe >= FcSevereError)
parse->error = FcTrue;
}
else
fprintf (stderr, "Fontconfig %s: ", s);
vfprintf (stderr, fmt, args);
fprintf (stderr, "\n");
va_end (args);
}
static void
FcVStackPush (FcConfigParse *parse, FcVStack *vstack)
{
vstack->prev = parse->vstack;
vstack->pstack = parse->pstack ? parse->pstack->prev : 0;
parse->vstack = vstack;
}
static FcVStack *
FcVStackCreate (void)
{
FcVStack *new;
new = malloc (sizeof (FcVStack));
if (!new)
return 0;
FcMemAlloc (FC_MEM_VSTACK, sizeof (FcVStack));
new->tag = FcVStackNone;
new->prev = 0;
return new;
}
static void
FcVStackDestroy (FcVStack *vstack)
{
FcVStack *prev;
for (; vstack; vstack = prev)
{
prev = vstack->prev;
switch (vstack->tag) {
case FcVStackNone:
break;
case FcVStackString:
case FcVStackFamily:
case FcVStackField:
case FcVStackConstant:
FcStrFree (vstack->u.string);
break;
case FcVStackInteger:
case FcVStackDouble:
break;
case FcVStackMatrix:
FcMatrixFree (vstack->u.matrix);
break;
case FcVStackBool:
break;
case FcVStackTest:
FcTestDestroy (vstack->u.test);
break;
case FcVStackExpr:
case FcVStackPrefer:
case FcVStackAccept:
case FcVStackDefault:
FcExprDestroy (vstack->u.expr);
break;
case FcVStackEdit:
FcEditDestroy (vstack->u.edit);
break;
}
FcMemFree (FC_MEM_VSTACK, sizeof (FcVStack));
free (vstack);
}
}
static FcBool
FcVStackPushString (FcConfigParse *parse, FcVStackTag tag, FcChar8 *string)
{
FcVStack *vstack = FcVStackCreate ();
if (!vstack)
return FcFalse;
vstack->u.string = string;
vstack->tag = tag;
FcVStackPush (parse, vstack);
return FcTrue;
}
static FcBool
FcVStackPushInteger (FcConfigParse *parse, int integer)
{
FcVStack *vstack = FcVStackCreate ();
if (!vstack)
return FcFalse;
vstack->u.integer = integer;
vstack->tag = FcVStackInteger;
FcVStackPush (parse, vstack);
return FcTrue;
}
static FcBool
FcVStackPushDouble (FcConfigParse *parse, double _double)
{
FcVStack *vstack = FcVStackCreate ();
if (!vstack)
return FcFalse;
vstack->u._double = _double;
vstack->tag = FcVStackDouble;
FcVStackPush (parse, vstack);
return FcTrue;
}
static FcBool
FcVStackPushMatrix (FcConfigParse *parse, FcMatrix *matrix)
{
FcVStack *vstack = FcVStackCreate ();
if (!vstack)
return FcFalse;
matrix = FcMatrixCopy (matrix);
if (!matrix)
{
FcVStackDestroy (vstack);
return FcFalse;
}
vstack->u.matrix = matrix;
vstack->tag = FcVStackMatrix;
FcVStackPush (parse, vstack);
return FcTrue;
}
static FcBool
FcVStackPushBool (FcConfigParse *parse, FcBool bool)
{
FcVStack *vstack = FcVStackCreate ();
if (!vstack)
return FcFalse;
vstack->u.bool = bool;
vstack->tag = FcVStackBool;
FcVStackPush (parse, vstack);
return FcTrue;
}
static FcBool
FcVStackPushTest (FcConfigParse *parse, FcTest *test)
{
FcVStack *vstack = FcVStackCreate ();
if (!vstack)
return FcFalse;
vstack->u.test = test;
vstack->tag = FcVStackTest;
FcVStackPush (parse, vstack);
return FcTrue;
}
static FcBool
FcVStackPushExpr (FcConfigParse *parse, FcVStackTag tag, FcExpr *expr)
{
FcVStack *vstack = FcVStackCreate ();
if (!vstack)
return FcFalse;
vstack->u.expr = expr;
vstack->tag = tag;
FcVStackPush (parse, vstack);
return FcTrue;
}
static FcBool
FcVStackPushEdit (FcConfigParse *parse, FcEdit *edit)
{
FcVStack *vstack = FcVStackCreate ();
if (!vstack)
return FcFalse;
vstack->u.edit = edit;
vstack->tag = FcVStackEdit;
FcVStackPush (parse, vstack);
return FcTrue;
}
static FcVStack *
FcVStackFetch (FcConfigParse *parse, int off)
{
FcVStack *vstack;
for (vstack = parse->vstack; vstack && off-- > 0; vstack = vstack->prev);
return vstack;
}
static void
FcVStackClear (FcConfigParse *parse)
{
while (parse->vstack && parse->vstack->pstack == parse->pstack)
{
FcVStack *vstack = parse->vstack;
parse->vstack = vstack->prev;
vstack->prev = 0;
FcVStackDestroy (vstack);
}
}
static FcVStack *
FcVStackPop (FcConfigParse *parse)
{
FcVStack *vstack = parse->vstack;
if (!vstack || vstack->pstack != parse->pstack)
return 0;
parse->vstack = vstack->prev;
vstack->prev = 0;
return vstack;
}
static int
FcVStackElements (FcConfigParse *parse)
{
int h = 0;
FcVStack *vstack = parse->vstack;
while (vstack && vstack->pstack == parse->pstack)
{
h++;
vstack = vstack->prev;
}
return h;
}
static FcChar8 **
FcConfigSaveAttr (const XML_Char **attr)
{
int n;
int slen;
int i;
FcChar8 **new;
FcChar8 *s;
if (!attr)
return 0;
slen = 0;
for (i = 0; attr[i]; i++)
slen += strlen (attr[i]) + 1;
n = i;
new = malloc ((i + 1) * sizeof (FcChar8 *) + slen);
if (!new)
return 0;
FcMemAlloc (FC_MEM_ATTR, 1); /* size is too expensive */
s = (FcChar8 *) (new + (i + 1));
for (i = 0; attr[i]; i++)
{
new[i] = s;
strcpy ((char *) s, (char *) attr[i]);
s += strlen ((char *) s) + 1;
}
new[i] = 0;
return new;
}
static FcBool
FcPStackPush (FcConfigParse *parse, FcElement element, const XML_Char **attr)
{
FcPStack *new = malloc (sizeof (FcPStack));
if (!new)
return FcFalse;
FcMemAlloc (FC_MEM_PSTACK, sizeof (FcPStack));
new->prev = parse->pstack;
new->element = element;
if (attr)
{
new->attr = FcConfigSaveAttr (attr);
if (!new->attr)
FcConfigMessage (parse, FcSevereError, "out of memory");
}
else
new->attr = 0;
FcStrBufInit (&new->str, 0, 0);
parse->pstack = new;
return FcTrue;
}
static FcBool
FcPStackPop (FcConfigParse *parse)
{
FcPStack *old;
if (!parse->pstack)
{
FcConfigMessage (parse, FcSevereError, "mismatching element");
return FcFalse;
}
FcVStackClear (parse);
old = parse->pstack;
parse->pstack = old->prev;
FcStrBufDestroy (&old->str);
if (old->attr)
{
FcMemFree (FC_MEM_ATTR, 1); /* size is to expensive */
free (old->attr);
}
FcMemFree (FC_MEM_PSTACK, sizeof (FcPStack));
free (old);
return FcTrue;
}
static FcBool
FcConfigInit (FcConfigParse *parse, const FcChar8 *name, FcConfig *config, XML_Parser parser)
{
parse->pstack = 0;
parse->vstack = 0;
parse->error = FcFalse;
parse->name = name;
parse->config = config;
parse->parser = parser;
return FcTrue;
}
static void
FcConfigCleanup (FcConfigParse *parse)
{
while (parse->pstack)
FcPStackPop (parse);
}
static const FcChar8 *
FcConfigGetAttribute (FcConfigParse *parse, char *attr)
{
FcChar8 **attrs;
if (!parse->pstack)
return 0;
attrs = parse->pstack->attr;
while (*attrs)
{
if (!strcmp ((char *) *attrs, attr))
return attrs[1];
attrs += 2;
}
return 0;
}
static void
FcStartElement(void *userData, const XML_Char *name, const XML_Char **attr)
{
FcConfigParse *parse = userData;
FcElement element;
element = FcElementMap (name);
if (element == FcElementUnknown)
FcConfigMessage (parse, FcSevereWarning, "unknown element \"%s\"", name);
if (!FcPStackPush (parse, element, attr))
{
FcConfigMessage (parse, FcSevereError, "out of memory");
return;
}
return;
}
static void
FcParseBlank (FcConfigParse *parse)
{
int n = FcVStackElements (parse);
while (n-- > 0)
{
FcVStack *v = FcVStackFetch (parse, n);
if (v->tag != FcVStackInteger)
FcConfigMessage (parse, FcSevereError, "non-integer blank");
else
{
if (!parse->config->blanks)
{
parse->config->blanks = FcBlanksCreate ();
if (!parse->config->blanks)
{
FcConfigMessage (parse, FcSevereError, "out of memory");
break;
}
}
if (!FcBlanksAdd (parse->config->blanks, v->u.integer))
{
FcConfigMessage (parse, FcSevereError, "out of memory");
break;
}
}
}
}
static void
FcParseRescan (FcConfigParse *parse)
{
int n = FcVStackElements (parse);
while (n-- > 0)
{
FcVStack *v = FcVStackFetch (parse, n);
if (v->tag != FcVStackInteger)
FcConfigMessage (parse, FcSevereWarning, "non-integer rescan");
else
parse->config->rescanInterval = v->u.integer;
}
}
static void
FcParseInt (FcConfigParse *parse)
{
FcChar8 *s, *end;
int l;
if (!parse->pstack)
return;
s = FcStrBufDone (&parse->pstack->str);
if (!s)
{
FcConfigMessage (parse, FcSevereError, "out of memory");
return;
}
end = 0;
l = (int) strtol ((char *) s, (char **)&end, 0);
if (end != s + strlen ((char *) s))
FcConfigMessage (parse, FcSevereError, "\"%s\": not a valid integer", s);
else
FcVStackPushInteger (parse, l);
FcStrFree (s);
}
/*
* idea copied from glib g_ascii_strtod with
* permission of the author (Alexander Larsson)
*/
#include <locale.h>
static double
FcStrtod (char *s, char **end)
{
struct lconv *locale_data;
char *dot;
double v;
/*
* Have to swap the decimal point to match the current locale
* if that locale doesn't use 0x2e
*/
if ((dot = strchr (s, 0x2e)) &&
(locale_data = localeconv ()) &&
(locale_data->decimal_point[0] != 0x2e ||
locale_data->decimal_point[1] != 0))
{
char buf[128];
int slen = strlen (s);
int dlen = strlen (locale_data->decimal_point);
if (slen + dlen > sizeof (buf))
{
if (end)
*end = s;
v = 0;
}
else
{
char *buf_end;
/* mantissa */
strncpy (buf, s, dot - s);
/* decimal point */
strcpy (buf + (dot - s), locale_data->decimal_point);
/* rest of number */
strcpy (buf + (dot - s) + dlen, dot + 1);
buf_end = 0;
v = strtod (buf, &buf_end);
if (buf_end)
buf_end = s + (buf_end - buf);
if (buf_end > dot)
buf_end -= dlen - 1;
if (end)
*end = buf_end;
}
}
else
v = strtod (s, end);
return v;
}
static void
FcParseDouble (FcConfigParse *parse)
{
FcChar8 *s, *end;
double d;
if (!parse->pstack)
return;
s = FcStrBufDone (&parse->pstack->str);
if (!s)
{
FcConfigMessage (parse, FcSevereError, "out of memory");
return;
}
end = 0;
d = FcStrtod ((char *) s, (char **)&end);
if (end != s + strlen ((char *) s))
FcConfigMessage (parse, FcSevereError, "\"%s\": not a valid double", s);
else
FcVStackPushDouble (parse, d);
FcStrFree (s);
}
static void
FcParseString (FcConfigParse *parse, FcVStackTag tag)
{
FcChar8 *s;
if (!parse->pstack)
return;
s = FcStrBufDone (&parse->pstack->str);
if (!s)
{
FcConfigMessage (parse, FcSevereError, "out of memory");
return;
}
if (!FcVStackPushString (parse, tag, s))
FcStrFree (s);
}
static void
FcParseMatrix (FcConfigParse *parse)
{
FcVStack *vstack;
enum { m_done, m_xx, m_xy, m_yx, m_yy } matrix_state = m_yy;
FcMatrix m;
while ((vstack = FcVStackPop (parse)))
{
double v;
switch (vstack->tag) {
case FcVStackInteger:
v = vstack->u.integer;
break;
case FcVStackDouble:
v = vstack->u._double;
break;
default:
FcConfigMessage (parse, FcSevereError, "non-double matrix element");
v = 1.0;
break;
}
switch (matrix_state) {
case m_xx: m.xx = v; break;
case m_xy: m.xy = v; break;
case m_yx: m.yx = v; break;
case m_yy: m.yy = v; break;
default: break;
}
FcVStackDestroy (vstack);
matrix_state--;
}
if (matrix_state != m_done)
FcConfigMessage (parse, FcSevereError, "wrong number of matrix elements");
else
FcVStackPushMatrix (parse, &m);
}
static FcBool
FcConfigLexBool (const FcChar8 *bool)
{
if (*bool == 't' || *bool == 'T')
return FcTrue;
if (*bool == 'y' || *bool == 'Y')
return FcTrue;
if (*bool == '1')
return FcTrue;
return FcFalse;
}
static void
FcParseBool (FcConfigParse *parse)
{
FcChar8 *s;
if (!parse->pstack)
return;
s = FcStrBufDone (&parse->pstack->str);
if (!s)
{
FcConfigMessage (parse, FcSevereError, "out of memory");
return;
}
FcVStackPushBool (parse, FcConfigLexBool (s));
FcStrFree (s);
}
static void
FcParseFamilies (FcConfigParse *parse, FcVStackTag tag)
{
FcVStack *vstack;
FcExpr *left, *expr = 0, *new;
while ((vstack = FcVStackPop (parse)))
{
if (vstack->tag != FcVStackFamily)
{
FcConfigMessage (parse, FcSevereWarning, "non-family");
FcVStackDestroy (vstack);
continue;
}
left = vstack->u.expr;
vstack->tag = FcVStackNone;
FcVStackDestroy (vstack);
if (expr)
{
new = FcExprCreateOp (left, FcOpComma, expr);
if (!new)
{
FcConfigMessage (parse, FcSevereError, "out of memory");
FcExprDestroy (left);
FcExprDestroy (expr);
break;
}
expr = new;
}
else
expr = left;
}
if (expr)
{
if (!FcVStackPushExpr (parse, tag, expr))
{
FcConfigMessage (parse, FcSevereError, "out of memory");
if (expr)
FcExprDestroy (expr);
}
}
}
static void
FcParseFamily (FcConfigParse *parse)
{
FcChar8 *s;
FcExpr *expr;
if (!parse->pstack)
return;
s = FcStrBufDone (&parse->pstack->str);
if (!s)
{
FcConfigMessage (parse, FcSevereError, "out of memory");
return;
}
expr = FcExprCreateString (s);
FcStrFree (s);
if (expr)
FcVStackPushExpr (parse, FcVStackFamily, expr);
}
static void
FcParseAlias (FcConfigParse *parse)
{
FcExpr *family = 0, *accept = 0, *prefer = 0, *def = 0, *new = 0;
FcEdit *edit = 0, *next;
FcVStack *vstack;
FcTest *test;
while ((vstack = FcVStackPop (parse)))
{
switch (vstack->tag) {
case FcVStackFamily:
if (family)
{
new = FcExprCreateOp (vstack->u.expr, FcOpComma, family);
if (!new)
FcConfigMessage (parse, FcSevereError, "out of memory");
else
family = new;
}
else
new = vstack->u.expr;
if (new)
{
family = new;
vstack->tag = FcVStackNone;
}
break;
case FcVStackPrefer:
if (prefer)
FcExprDestroy (prefer);
prefer = vstack->u.expr;
vstack->tag = FcVStackNone;
break;
case FcVStackAccept:
if (accept)
FcExprDestroy (accept);
accept = vstack->u.expr;
vstack->tag = FcVStackNone;
break;
case FcVStackDefault:
if (def)
FcExprDestroy (def);
def = vstack->u.expr;
vstack->tag = FcVStackNone;
break;
default:
FcConfigMessage (parse, FcSevereWarning, "bad alias");
break;
}
FcVStackDestroy (vstack);
}
if (!family)
{
FcConfigMessage (parse, FcSevereError, "missing family in alias");
if (prefer)
FcExprDestroy (prefer);
if (accept)
FcExprDestroy (accept);
if (def)
FcExprDestroy (def);
return;
}
if (prefer)
{
edit = FcEditCreate (FcConfigSaveField ("family"),
FcOpPrepend,
prefer,
FcValueBindingWeak);
if (edit)
edit->next = 0;
else
FcExprDestroy (prefer);
}
if (accept)
{
next = edit;
edit = FcEditCreate (FcConfigSaveField ("family"),
FcOpAppend,
accept,
FcValueBindingWeak);
if (edit)
edit->next = next;
else
FcExprDestroy (accept);
}
if (def)
{
next = edit;
edit = FcEditCreate (FcConfigSaveField ("family"),
FcOpAppendLast,
def,
FcValueBindingWeak);
if (edit)
edit->next = next;
else
FcExprDestroy (def);
}
if (edit)
{
test = FcTestCreate (FcMatchPattern,
FcQualAny,
(FcChar8 *) FC_FAMILY,
FcOpEqual,
family);
if (test)
if (!FcConfigAddEdit (parse->config, test, edit, FcMatchPattern))
FcTestDestroy (test);
}
else
FcExprDestroy (family);
}
static FcExpr *
FcPopExpr (FcConfigParse *parse)
{
FcVStack *vstack = FcVStackPop (parse);
FcExpr *expr = 0;
if (!vstack)
return 0;
switch (vstack->tag) {
case FcVStackNone:
break;
case FcVStackString:
case FcVStackFamily:
expr = FcExprCreateString (vstack->u.string);
break;
case FcVStackField:
expr = FcExprCreateField ((char *) vstack->u.string);
break;
case FcVStackConstant:
expr = FcExprCreateConst (vstack->u.string);
break;
case FcVStackPrefer:
case FcVStackAccept:
case FcVStackDefault:
expr = vstack->u.expr;
vstack->tag = FcVStackNone;
break;
case FcVStackInteger:
expr = FcExprCreateInteger (vstack->u.integer);
break;
case FcVStackDouble:
expr = FcExprCreateDouble (vstack->u._double);
break;
case FcVStackMatrix:
expr = FcExprCreateMatrix (vstack->u.matrix);
break;
case FcVStackBool:
expr = FcExprCreateBool (vstack->u.bool);
break;
case FcVStackTest:
break;
case FcVStackExpr:
expr = vstack->u.expr;
vstack->tag = FcVStackNone;
break;
case FcVStackEdit:
break;
}
FcVStackDestroy (vstack);
return expr;
}
/*
* This builds a tree of binary operations. Note
* that every operator is defined so that if only
* a single operand is contained, the value of the
* whole expression is the value of the operand.
*
* This code reduces in that case to returning that
* operand.
*/
static FcExpr *
FcPopBinary (FcConfigParse *parse, FcOp op)
{
FcExpr *left, *expr = 0, *new;
while ((left = FcPopExpr (parse)))
{
if (expr)
{
new = FcExprCreateOp (left, op, expr);
if (!new)
{
FcConfigMessage (parse, FcSevereError, "out of memory");
FcExprDestroy (left);
FcExprDestroy (expr);
break;
}
expr = new;
}
else
expr = left;
}
return expr;
}
static void
FcParseBinary (FcConfigParse *parse, FcOp op)
{
FcExpr *expr = FcPopBinary (parse, op);
if (expr)
FcVStackPushExpr (parse, FcVStackExpr, expr);
}
/*
* This builds a a unary operator, it consumes only
* a single operand
*/
static FcExpr *
FcPopUnary (FcConfigParse *parse, FcOp op)
{
FcExpr *operand, *new = 0;
if ((operand = FcPopExpr (parse)))
{
new = FcExprCreateOp (operand, op, 0);
if (!new)
{
FcExprDestroy (operand);
FcConfigMessage (parse, FcSevereError, "out of memory");
}
}
return new;
}
static void
FcParseUnary (FcConfigParse *parse, FcOp op)
{
FcExpr *expr = FcPopUnary (parse, op);
if (expr)
FcVStackPushExpr (parse, FcVStackExpr, expr);
}
static void
FcParseInclude (FcConfigParse *parse)
{
FcChar8 *s;
const FcChar8 *i;
FcBool ignore_missing = FcFalse;
s = FcStrBufDone (&parse->pstack->str);
if (!s)
{
FcConfigMessage (parse, FcSevereError, "out of memory");
return;
}
i = FcConfigGetAttribute (parse, "ignore_missing");
if (i && FcConfigLexBool ((FcChar8 *) i) == FcTrue)
ignore_missing = FcTrue;
if (!FcConfigParseAndLoad (parse->config, s, !ignore_missing))
parse->error = FcTrue;
FcStrFree (s);
}
typedef struct _FcOpMap {
char *name;
FcOp op;
} FcOpMap;
static FcOp
FcConfigLexOp (const FcChar8 *op, const FcOpMap *map, int nmap)
{
int i;
for (i = 0; i < nmap; i++)
if (!strcmp ((char *) op, map[i].name))
return map[i].op;
return FcOpInvalid;
}
static const FcOpMap fcCompareOps[] = {
{ "eq", FcOpEqual },
{ "not_eq", FcOpNotEqual },
{ "less", FcOpLess },
{ "less_eq", FcOpLessEqual },
{ "more", FcOpMore },
{ "more_eq", FcOpMoreEqual },
{ "contains", FcOpContains },
{ "not_contains", FcOpNotContains }
};
#define NUM_COMPARE_OPS (sizeof fcCompareOps / sizeof fcCompareOps[0])
static FcOp
FcConfigLexCompare (const FcChar8 *compare)
{
return FcConfigLexOp (compare, fcCompareOps, NUM_COMPARE_OPS);
}
static void
FcParseTest (FcConfigParse *parse)
{
const FcChar8 *kind_string;
FcMatchKind kind;
const FcChar8 *qual_string;
FcQual qual;
const FcChar8 *name;
const FcChar8 *compare_string;
FcOp compare;
FcExpr *expr;
FcTest *test;
kind_string = FcConfigGetAttribute (parse, "target");
if (!kind_string)
kind = FcMatchDefault;
else
{
if (!strcmp ((char *) kind_string, "pattern"))
kind = FcMatchPattern;
else if (!strcmp ((char *) kind_string, "font"))
kind = FcMatchFont;
else if (!strcmp ((char *) kind_string, "default"))
kind = FcMatchDefault;
else
{
FcConfigMessage (parse, FcSevereWarning, "invalid test target \"%s\"", kind_string);
return;
}
}
qual_string = FcConfigGetAttribute (parse, "qual");
if (!qual_string)
qual = FcQualAny;
else
{
if (!strcmp ((char *) qual_string, "any"))
qual = FcQualAny;
else if (!strcmp ((char *) qual_string, "all"))
qual = FcQualAll;
else if (!strcmp ((char *) qual_string, "first"))
qual = FcQualFirst;
else if (!strcmp ((char *) qual_string, "not_first"))
qual = FcQualNotFirst;
else
{
FcConfigMessage (parse, FcSevereWarning, "invalid test qual \"%s\"", qual_string);
return;
}
}
name = FcConfigGetAttribute (parse, "name");
if (!name)
{
FcConfigMessage (parse, FcSevereWarning, "missing test name");
return;
}
compare_string = FcConfigGetAttribute (parse, "compare");
if (!compare_string)
compare = FcOpEqual;
else
{
compare = FcConfigLexCompare (compare_string);
if (compare == FcOpInvalid)
{
FcConfigMessage (parse, FcSevereWarning, "invalid test compare \"%s\"", compare_string);
return;
}
}
expr = FcPopBinary (parse, FcOpComma);
if (!expr)
{
FcConfigMessage (parse, FcSevereWarning, "missing test expression");
return;
}
test = FcTestCreate (kind, qual, name, compare, expr);
if (!test)
{
FcConfigMessage (parse, FcSevereError, "out of memory");
return;
}
FcVStackPushTest (parse, test);
}
static const FcOpMap fcModeOps[] = {
{ "assign", FcOpAssign },
{ "assign_replace", FcOpAssignReplace },
{ "prepend", FcOpPrepend },
{ "prepend_first", FcOpPrependFirst },
{ "append", FcOpAppend },
{ "append_last", FcOpAppendLast },
};
#define NUM_MODE_OPS (sizeof fcModeOps / sizeof fcModeOps[0])
static FcOp
FcConfigLexMode (const FcChar8 *mode)
{
return FcConfigLexOp (mode, fcModeOps, NUM_MODE_OPS);
}
static void
FcParseEdit (FcConfigParse *parse)
{
const FcChar8 *name;
const FcChar8 *mode_string;
const FcChar8 *binding_string;
FcOp mode;
FcValueBinding binding;
FcExpr *expr;
FcEdit *edit;
name = FcConfigGetAttribute (parse, "name");
if (!name)
{
FcConfigMessage (parse, FcSevereWarning, "missing edit name");
return;
}
mode_string = FcConfigGetAttribute (parse, "mode");
if (!mode_string)
mode = FcOpAssign;
else
{
mode = FcConfigLexMode (mode_string);
if (mode == FcOpInvalid)
{
FcConfigMessage (parse, FcSevereWarning, "invalid edit mode \"%s\"", mode_string);
return;
}
}
binding_string = FcConfigGetAttribute (parse, "binding");
if (!binding_string)
binding = FcValueBindingWeak;
else
{
if (!strcmp ((char *) binding_string, "weak"))
binding = FcValueBindingWeak;
else if (!strcmp ((char *) binding_string, "strong"))
binding = FcValueBindingStrong;
else if (!strcmp ((char *) binding_string, "same"))
binding = FcValueBindingSame;
else
{
FcConfigMessage (parse, FcSevereWarning, "invalid edit binding \"%s\"", binding_string);
return;
}
}
expr = FcPopBinary (parse, FcOpComma);
edit = FcEditCreate ((char *) FcStrCopy (name), mode, expr, binding);
if (!edit)
{
FcConfigMessage (parse, FcSevereError, "out of memory");
FcExprDestroy (expr);
return;
}
if (!FcVStackPushEdit (parse, edit))
FcEditDestroy (edit);
}
static void
FcParseMatch (FcConfigParse *parse)
{
const FcChar8 *kind_name;
FcMatchKind kind;
FcTest *test = 0;
FcEdit *edit = 0;
FcVStack *vstack;
kind_name = FcConfigGetAttribute (parse, "target");
if (!kind_name)
kind = FcMatchPattern;
else
{
if (!strcmp ((char *) kind_name, "pattern"))
kind = FcMatchPattern;
else if (!strcmp ((char *) kind_name, "font"))
kind = FcMatchFont;
else
{
FcConfigMessage (parse, FcSevereWarning, "invalid match target \"%s\"", kind_name);
return;
}
}
while ((vstack = FcVStackPop (parse)))
{
switch (vstack->tag) {
case FcVStackTest:
vstack->u.test->next = test;
test = vstack->u.test;
vstack->tag = FcVStackNone;
break;
case FcVStackEdit:
vstack->u.edit->next = edit;
edit = vstack->u.edit;
vstack->tag = FcVStackNone;
break;
default:
FcConfigMessage (parse, FcSevereWarning, "invalid match element");
break;
}
FcVStackDestroy (vstack);
}
if (!FcConfigAddEdit (parse->config, test, edit, kind))
FcConfigMessage (parse, FcSevereError, "out of memory");
}
static void
FcEndElement(void *userData, const XML_Char *name)
{
FcConfigParse *parse = userData;
FcChar8 *data;
if (!parse->pstack)
return;
switch (parse->pstack->element) {
case FcElementNone:
break;
case FcElementFontconfig:
break;
case FcElementDir:
data = FcStrBufDone (&parse->pstack->str);
if (!data)
{
FcConfigMessage (parse, FcSevereError, "out of memory");
break;
}
#ifdef _WIN32
if (strcmp (data, "WINDOWSFONTDIR") == 0)
{
int rc;
FcStrFree (data);
data = malloc (1000);
if (!data)
{
FcConfigMessage (parse, FcSevereError, "out of memory");
break;
}
FcMemAlloc (FC_MEM_STRING, 1000);
rc = GetWindowsDirectory (data, 800);
if (rc == 0 || rc > 800)
{
FcConfigMessage (parse, FcSevereError, "GetWindowsDirectory failed");
FcStrFree (data);
break;
}
if (data [strlen (data) - 1] != '\\')
strcat (data, "\\");
strcat (data, "fonts");
}
#endif
if (!FcStrUsesHome (data) || FcConfigHome ())
{
if (!FcConfigAddDir (parse->config, data))
FcConfigMessage (parse, FcSevereError, "out of memory");
}
FcStrFree (data);
break;
case FcElementCache:
data = FcStrBufDone (&parse->pstack->str);
if (!data)
{
FcConfigMessage (parse, FcSevereError, "out of memory");
break;
}
if (!FcStrUsesHome (data) || FcConfigHome ())
{
if (!FcConfigSetCache (parse->config, data))
FcConfigMessage (parse, FcSevereError, "out of memory");
}
FcStrFree (data);
break;
case FcElementInclude:
FcParseInclude (parse);
break;
case FcElementConfig:
break;
case FcElementMatch:
FcParseMatch (parse);
break;
case FcElementAlias:
FcParseAlias (parse);
break;
case FcElementBlank:
FcParseBlank (parse);
break;
case FcElementRescan:
FcParseRescan (parse);
break;
case FcElementPrefer:
FcParseFamilies (parse, FcVStackPrefer);
break;
case FcElementAccept:
FcParseFamilies (parse, FcVStackAccept);
break;
case FcElementDefault:
FcParseFamilies (parse, FcVStackDefault);
break;
case FcElementFamily:
FcParseFamily (parse);
break;
case FcElementTest:
FcParseTest (parse);
break;
case FcElementEdit:
FcParseEdit (parse);
break;
case FcElementInt:
FcParseInt (parse);
break;
case FcElementDouble:
FcParseDouble (parse);
break;
case FcElementString:
FcParseString (parse, FcVStackString);
break;
case FcElementMatrix:
FcParseMatrix (parse);
break;
case FcElementBool:
FcParseBool (parse);
break;
case FcElementCharset:
/* FcParseCharset (parse); */
break;
case FcElementName:
FcParseString (parse, FcVStackField);
break;
case FcElementConst:
FcParseString (parse, FcVStackConstant);
break;
case FcElementOr:
FcParseBinary (parse, FcOpOr);
break;
case FcElementAnd:
FcParseBinary (parse, FcOpAnd);
break;
case FcElementEq:
FcParseBinary (parse, FcOpEqual);
break;
case FcElementNotEq:
FcParseBinary (parse, FcOpNotEqual);
break;
case FcElementLess:
FcParseBinary (parse, FcOpLess);
break;
case FcElementLessEq:
FcParseBinary (parse, FcOpLessEqual);
break;
case FcElementMore:
FcParseBinary (parse, FcOpMore);
break;
case FcElementMoreEq:
FcParseBinary (parse, FcOpMoreEqual);
break;
case FcElementContains:
FcParseBinary (parse, FcOpContains);
break;
case FcElementNotContains:
FcParseBinary (parse, FcOpNotContains);
break;
case FcElementPlus:
FcParseBinary (parse, FcOpPlus);
break;
case FcElementMinus:
FcParseBinary (parse, FcOpMinus);
break;
case FcElementTimes:
FcParseBinary (parse, FcOpTimes);
break;
case FcElementDivide:
FcParseBinary (parse, FcOpDivide);
break;
case FcElementNot:
FcParseUnary (parse, FcOpNot);
break;
case FcElementIf:
FcParseBinary (parse, FcOpQuest);
break;
case FcElementFloor:
FcParseUnary (parse, FcOpFloor);
break;
case FcElementCeil:
FcParseUnary (parse, FcOpCeil);
break;
case FcElementRound:
FcParseUnary (parse, FcOpRound);
break;
case FcElementTrunc:
FcParseUnary (parse, FcOpTrunc);
break;
case FcElementUnknown:
break;
}
(void) FcPStackPop (parse);
}
static void
FcCharacterData (void *userData, const XML_Char *s, int len)
{
FcConfigParse *parse = userData;
if (!parse->pstack)
return;
if (!FcStrBufData (&parse->pstack->str, (FcChar8 *) s, len))
FcConfigMessage (parse, FcSevereError, "out of memory");
}
static void
FcStartDoctypeDecl (void *userData,
const XML_Char *doctypeName,
const XML_Char *sysid,
const XML_Char *pubid,
int has_internal_subset)
{
FcConfigParse *parse = userData;
if (strcmp ((char *) doctypeName, "fontconfig") != 0)
FcConfigMessage (parse, FcSevereError, "invalid doctype \"%s\"", doctypeName);
}
static void
FcEndDoctypeDecl (void *userData)
{
}
FcBool
FcConfigParseAndLoad (FcConfig *config,
const FcChar8 *name,
FcBool complain)
{
XML_Parser p;
FcChar8 *filename;
FILE *f;
int len;
void *buf;
FcConfigParse parse;
FcBool error = FcTrue;
filename = FcConfigFilename (name);
if (!filename)
goto bail0;
if (!FcStrSetAdd (config->configFiles, filename))
{
FcStrFree (filename);
goto bail0;
}
f = fopen ((char *) filename, "r");
FcStrFree (filename);
if (!f)
goto bail0;
p = XML_ParserCreate ("UTF-8");
if (!p)
goto bail1;
if (!FcConfigInit (&parse, name, config, p))
goto bail2;
XML_SetUserData (p, &parse);
XML_SetDoctypeDeclHandler (p, FcStartDoctypeDecl, FcEndDoctypeDecl);
XML_SetElementHandler (p, FcStartElement, FcEndElement);
XML_SetCharacterDataHandler (p, FcCharacterData);
do {
buf = XML_GetBuffer (p, BUFSIZ);
if (!buf)
{
FcConfigMessage (&parse, FcSevereError, "cannot get parse buffer");
goto bail3;
}
len = fread (buf, 1, BUFSIZ, f);
if (len < 0)
{
FcConfigMessage (&parse, FcSevereError, "failed reading config file");
goto bail3;
}
if (!XML_ParseBuffer (p, len, len == 0))
{
FcConfigMessage (&parse, FcSevereError, "%s",
XML_ErrorString (XML_GetErrorCode (p)));
goto bail3;
}
} while (len != 0);
error = parse.error;
bail3:
FcConfigCleanup (&parse);
bail2:
XML_ParserFree (p);
bail1:
fclose (f);
bail0:
if (error && complain)
{
if (name)
FcConfigMessage (0, FcSevereError, "Cannot load config file \"%s\"", name);
else
FcConfigMessage (0, FcSevereError, "Cannot load default config file");
return FcFalse;
}
return FcTrue;
}