From 2ac86dfdafb9bf4d4e9252260a431755b56d8ebe Mon Sep 17 00:00:00 2001 From: Boris Kolpackov Date: Fri, 8 Mar 2013 17:41:00 +0200 Subject: Add support for XML parsing and serialization --- cutl/details/genx/LICENSE | 22 + cutl/details/genx/README | 2 + cutl/details/genx/char-props.c | 395 +++++++ cutl/details/genx/genx.c | 2320 ++++++++++++++++++++++++++++++++++++++++ cutl/details/genx/genx.h | 341 ++++++ 5 files changed, 3080 insertions(+) create mode 100644 cutl/details/genx/LICENSE create mode 100644 cutl/details/genx/README create mode 100644 cutl/details/genx/char-props.c create mode 100644 cutl/details/genx/genx.c create mode 100644 cutl/details/genx/genx.h (limited to 'cutl/details/genx') diff --git a/cutl/details/genx/LICENSE b/cutl/details/genx/LICENSE new file mode 100644 index 0000000..0248bdb --- /dev/null +++ b/cutl/details/genx/LICENSE @@ -0,0 +1,22 @@ +Copyright (c) 2007-2013 Code Synthesis Tools CC. +Copyright (c) Tim Bray and Sun Microsystems, 2004. + +Permission is hereby granted, free of charge, to any person obtaining +a copy of this software and associated documentation files (the +"Software"), to deal in the Software without restriction, including +without limitation the rights to use, copy, modify, merge, publish, +distribute, sublicense, and/or sell copies of the Software, and to +permit persons to whom the Software is furnished to do so, subject to +the following conditions: + +The above copyright notice and this permission notice shall be included +in all copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF +MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. +IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY +CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, +TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE +SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. + diff --git a/cutl/details/genx/README b/cutl/details/genx/README new file mode 100644 index 0000000..8735e62 --- /dev/null +++ b/cutl/details/genx/README @@ -0,0 +1,2 @@ +This directory contains a customized version of the Genx XML generator +library for internal use by libcutl. diff --git a/cutl/details/genx/char-props.c b/cutl/details/genx/char-props.c new file mode 100644 index 0000000..66aaf97 --- /dev/null +++ b/cutl/details/genx/char-props.c @@ -0,0 +1,395 @@ +/* + * Copyright (c) 2007-2013 Code Synthesis Tools CC. + * Copyright (c) 2004 by Tim Bray and Sun Microsystems. + * + * For copying permission, see the accompanying COPYING file. + */ + +/* + * Construct character-properties tables for genx. + * Quite likely there's a better way. + * This version is generated semi-automatically from the source code of the + * XML specification via emacs global replace and keyboard macros + */ +#include + +static void charProp(char * p, int c, int prop) +{ + p[c] |= prop; +} + +static void rangeProp(char * p, int start, int end, int prop) +{ + int i; + for (i = start; i <= end; i++) + p[i] |= prop; +} + +void genxSetCharProps(char * p) +{ + int i; + + for (i = 0; i < GENX_CHAR_TABLE_SIZE; i++) + p[i] = 0; + + /* per XML 1.0 */ + charProp(p, 0x9, GENX_XML_CHAR); + charProp(p, 0xa, GENX_XML_CHAR); + charProp(p, 0xd, GENX_XML_CHAR); + rangeProp(p, 0x20, 0xff, GENX_XML_CHAR); + +#if GENX_CHAR_TABLE_SIZE == 0x10000 + rangeProp(p, 0x0100, 0xd7ff, GENX_XML_CHAR); + rangeProp(p, 0xe000, 0xfffd, GENX_XML_CHAR); +#endif + + /* Letter ::= BaseChar | Ideographic */ + rangeProp(p, 0x0041, 0x005A, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0061, 0x007A, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x00C0, 0x00D6, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x00D8, 0x00F6, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x00F8, 0x00FF, GENX_LETTER|GENX_NAMECHAR); + +#if GENX_CHAR_TABLE_SIZE == 0x10000 + + rangeProp(p, 0x0100, 0x0131, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0134, 0x013E, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0141, 0x0148, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x014A, 0x017E, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0180, 0x01C3, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x01CD, 0x01F0, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x01F4, 0x01F5, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x01FA, 0x0217, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0250, 0x02A8, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x02BB, 0x02C1, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x0386, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0388, 0x038A, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x038C, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x038E, 0x03A1, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x03A3, 0x03CE, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x03D0, 0x03D6, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x03DA, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x03DC, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x03DE, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x03E0, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x03E2, 0x03F3, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0401, 0x040C, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x040E, 0x044F, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0451, 0x045C, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x045E, 0x0481, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0490, 0x04C4, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x04C7, 0x04C8, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x04CB, 0x04CC, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x04D0, 0x04EB, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x04EE, 0x04F5, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x04F8, 0x04F9, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0531, 0x0556, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x0559, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0561, 0x0586, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x05D0, 0x05EA, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x05F0, 0x05F2, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0621, 0x063A, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0641, 0x064A, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0671, 0x06B7, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x06BA, 0x06BE, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x06C0, 0x06CE, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x06D0, 0x06D3, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x06D5, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x06E5, 0x06E6, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0905, 0x0939, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x093D, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0958, 0x0961, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0985, 0x098C, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x098F, 0x0990, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0993, 0x09A8, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x09AA, 0x09B0, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x09B2, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x09B6, 0x09B9, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x09DC, 0x09DD, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x09DF, 0x09E1, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x09F0, 0x09F1, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0A05, 0x0A0A, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0A0F, 0x0A10, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0A13, 0x0A28, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0A2A, 0x0A30, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0A32, 0x0A33, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0A35, 0x0A36, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0A38, 0x0A39, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0A59, 0x0A5C, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x0A5E, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0A72, 0x0A74, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0A85, 0x0A8B, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x0A8D, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0A8F, 0x0A91, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0A93, 0x0AA8, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0AAA, 0x0AB0, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0AB2, 0x0AB3, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0AB5, 0x0AB9, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x0ABD, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x0AE0, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0B05, 0x0B0C, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0B0F, 0x0B10, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0B13, 0x0B28, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0B2A, 0x0B30, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0B32, 0x0B33, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0B36, 0x0B39, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x0B3D, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0B5C, 0x0B5D, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0B5F, 0x0B61, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0B85, 0x0B8A, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0B8E, 0x0B90, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0B92, 0x0B95, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0B99, 0x0B9A, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x0B9C, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0B9E, 0x0B9F, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0BA3, 0x0BA4, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0BA8, 0x0BAA, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0BAE, 0x0BB5, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0BB7, 0x0BB9, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0C05, 0x0C0C, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0C0E, 0x0C10, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0C12, 0x0C28, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0C2A, 0x0C33, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0C35, 0x0C39, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0C60, 0x0C61, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0C85, 0x0C8C, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0C8E, 0x0C90, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0C92, 0x0CA8, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0CAA, 0x0CB3, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0CB5, 0x0CB9, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x0CDE, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0CE0, 0x0CE1, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0D05, 0x0D0C, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0D0E, 0x0D10, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0D12, 0x0D28, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0D2A, 0x0D39, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0D60, 0x0D61, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0E01, 0x0E2E, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x0E30, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0E32, 0x0E33, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0E40, 0x0E45, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0E81, 0x0E82, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x0E84, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0E87, 0x0E88, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x0E8A, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x0E8D, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0E94, 0x0E97, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0E99, 0x0E9F, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0EA1, 0x0EA3, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x0EA5, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x0EA7, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0EAA, 0x0EAB, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0EAD, 0x0EAE, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x0EB0, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0EB2, 0x0EB3, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x0EBD, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0EC0, 0x0EC4, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0F40, 0x0F47, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0F49, 0x0F69, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x10A0, 0x10C5, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x10D0, 0x10F6, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x1100, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x1102, 0x1103, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x1105, 0x1107, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x1109, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x110B, 0x110C, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x110E, 0x1112, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x113C, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x113E, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x1140, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x114C, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x114E, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x1150, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x1154, 0x1155, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x1159, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x115F, 0x1161, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x1163, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x1165, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x1167, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x1169, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x116D, 0x116E, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x1172, 0x1173, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x1175, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x119E, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x11A8, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x11AB, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x11AE, 0x11AF, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x11B7, 0x11B8, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x11BA, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x11BC, 0x11C2, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x11EB, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x11F0, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x11F9, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x1E00, 0x1E9B, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x1EA0, 0x1EF9, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x1F00, 0x1F15, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x1F18, 0x1F1D, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x1F20, 0x1F45, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x1F48, 0x1F4D, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x1F50, 0x1F57, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x1F59, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x1F5B, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x1F5D, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x1F5F, 0x1F7D, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x1F80, 0x1FB4, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x1FB6, 0x1FBC, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x1FBE, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x1FC2, 0x1FC4, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x1FC6, 0x1FCC, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x1FD0, 0x1FD3, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x1FD6, 0x1FDB, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x1FE0, 0x1FEC, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x1FF2, 0x1FF4, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x1FF6, 0x1FFC, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x2126, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x212A, 0x212B, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x212E, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x2180, 0x2182, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x3041, 0x3094, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x30A1, 0x30FA, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x3105, 0x312C, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0xAC00, 0xD7A3, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x4E00, 0x9FA5, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x3007, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x3021, 0x3029, GENX_LETTER|GENX_NAMECHAR); + +#endif /* GENX_CHAR_TABLE_SIZE == 0x10000 */ + + /* + * NameChar ::= + * Letter | Digit | '.' | '-' | '_' | ':' | CombiningChar | Extender + */ + + charProp(p, '.', GENX_NAMECHAR); + charProp(p, '-', GENX_NAMECHAR); + charProp(p, '_', GENX_NAMECHAR); + + rangeProp(p, 0x0030, 0x0039, GENX_NAMECHAR); + charProp(p, 0x00B7, GENX_LETTER|GENX_NAMECHAR); + +#if GENX_CHAR_TABLE_SIZE == 0x10000 + + rangeProp(p, 0x0660, 0x0669, GENX_NAMECHAR); + rangeProp(p, 0x06F0, 0x06F9, GENX_NAMECHAR); + rangeProp(p, 0x0966, 0x096F, GENX_NAMECHAR); + rangeProp(p, 0x09E6, 0x09EF, GENX_NAMECHAR); + rangeProp(p, 0x0A66, 0x0A6F, GENX_NAMECHAR); + rangeProp(p, 0x0AE6, 0x0AEF, GENX_NAMECHAR); + rangeProp(p, 0x0B66, 0x0B6F, GENX_NAMECHAR); + rangeProp(p, 0x0BE7, 0x0BEF, GENX_NAMECHAR); + rangeProp(p, 0x0C66, 0x0C6F, GENX_NAMECHAR); + rangeProp(p, 0x0CE6, 0x0CEF, GENX_NAMECHAR); + rangeProp(p, 0x0D66, 0x0D6F, GENX_NAMECHAR); + rangeProp(p, 0x0E50, 0x0E59, GENX_NAMECHAR); + rangeProp(p, 0x0ED0, 0x0ED9, GENX_NAMECHAR); + rangeProp(p, 0x0F20, 0x0F29, GENX_NAMECHAR); + rangeProp(p, 0x0300, 0x0345, GENX_NAMECHAR); + rangeProp(p, 0x0360, 0x0361, GENX_NAMECHAR); + rangeProp(p, 0x0483, 0x0486, GENX_NAMECHAR); + rangeProp(p, 0x0591, 0x05A1, GENX_NAMECHAR); + rangeProp(p, 0x05A3, 0x05B9, GENX_NAMECHAR); + rangeProp(p, 0x05BB, 0x05BD, GENX_NAMECHAR); + charProp(p, 0x05BF, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x05C1, 0x05C2, GENX_NAMECHAR); + charProp(p, 0x05C4, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x064B, 0x0652, GENX_NAMECHAR); + charProp(p, 0x0670, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x06D6, 0x06DC, GENX_NAMECHAR); + rangeProp(p, 0x06DD, 0x06DF, GENX_NAMECHAR); + rangeProp(p, 0x06E0, 0x06E4, GENX_NAMECHAR); + rangeProp(p, 0x06E7, 0x06E8, GENX_NAMECHAR); + rangeProp(p, 0x06EA, 0x06ED, GENX_NAMECHAR); + rangeProp(p, 0x0901, 0x0903, GENX_NAMECHAR); + charProp(p, 0x093C, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x093E, 0x094C, GENX_NAMECHAR); + charProp(p, 0x094D, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0951, 0x0954, GENX_NAMECHAR); + rangeProp(p, 0x0962, 0x0963, GENX_NAMECHAR); + rangeProp(p, 0x0981, 0x0983, GENX_NAMECHAR); + charProp(p, 0x09BC, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x09BE, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x09BF, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x09C0, 0x09C4, GENX_NAMECHAR); + rangeProp(p, 0x09C7, 0x09C8, GENX_NAMECHAR); + rangeProp(p, 0x09CB, 0x09CD, GENX_NAMECHAR); + charProp(p, 0x09D7, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x09E2, 0x09E3, GENX_NAMECHAR); + charProp(p, 0x0A02, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x0A3C, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x0A3E, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x0A3F, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0A40, 0x0A42, GENX_NAMECHAR); + rangeProp(p, 0x0A47, 0x0A48, GENX_NAMECHAR); + rangeProp(p, 0x0A4B, 0x0A4D, GENX_NAMECHAR); + rangeProp(p, 0x0A70, 0x0A71, GENX_NAMECHAR); + rangeProp(p, 0x0A81, 0x0A83, GENX_NAMECHAR); + charProp(p, 0x0ABC, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0ABE, 0x0AC5, GENX_NAMECHAR); + rangeProp(p, 0x0AC7, 0x0AC9, GENX_NAMECHAR); + rangeProp(p, 0x0ACB, 0x0ACD, GENX_NAMECHAR); + rangeProp(p, 0x0B01, 0x0B03, GENX_NAMECHAR); + charProp(p, 0x0B3C, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0B3E, 0x0B43, GENX_NAMECHAR); + rangeProp(p, 0x0B47, 0x0B48, GENX_NAMECHAR); + rangeProp(p, 0x0B4B, 0x0B4D, GENX_NAMECHAR); + rangeProp(p, 0x0B56, 0x0B57, GENX_NAMECHAR); + rangeProp(p, 0x0B82, 0x0B83, GENX_NAMECHAR); + rangeProp(p, 0x0BBE, 0x0BC2, GENX_NAMECHAR); + rangeProp(p, 0x0BC6, 0x0BC8, GENX_NAMECHAR); + rangeProp(p, 0x0BCA, 0x0BCD, GENX_NAMECHAR); + charProp(p, 0x0BD7, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0C01, 0x0C03, GENX_NAMECHAR); + rangeProp(p, 0x0C3E, 0x0C44, GENX_NAMECHAR); + rangeProp(p, 0x0C46, 0x0C48, GENX_NAMECHAR); + rangeProp(p, 0x0C4A, 0x0C4D, GENX_NAMECHAR); + rangeProp(p, 0x0C55, 0x0C56, GENX_NAMECHAR); + rangeProp(p, 0x0C82, 0x0C83, GENX_NAMECHAR); + rangeProp(p, 0x0CBE, 0x0CC4, GENX_NAMECHAR); + rangeProp(p, 0x0CC6, 0x0CC8, GENX_NAMECHAR); + rangeProp(p, 0x0CCA, 0x0CCD, GENX_NAMECHAR); + rangeProp(p, 0x0CD5, 0x0CD6, GENX_NAMECHAR); + rangeProp(p, 0x0D02, 0x0D03, GENX_NAMECHAR); + rangeProp(p, 0x0D3E, 0x0D43, GENX_NAMECHAR); + rangeProp(p, 0x0D46, 0x0D48, GENX_NAMECHAR); + rangeProp(p, 0x0D4A, 0x0D4D, GENX_NAMECHAR); + charProp(p, 0x0D57, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x0E31, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0E34, 0x0E3A, GENX_NAMECHAR); + rangeProp(p, 0x0E47, 0x0E4E, GENX_NAMECHAR); + charProp(p, 0x0EB1, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0EB4, 0x0EB9, GENX_NAMECHAR); + rangeProp(p, 0x0EBB, 0x0EBC, GENX_NAMECHAR); + rangeProp(p, 0x0EC8, 0x0ECD, GENX_NAMECHAR); + rangeProp(p, 0x0F18, 0x0F19, GENX_NAMECHAR); + charProp(p, 0x0F35, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x0F37, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x0F39, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x0F3E, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x0F3F, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0F71, 0x0F84, GENX_NAMECHAR); + rangeProp(p, 0x0F86, 0x0F8B, GENX_NAMECHAR); + rangeProp(p, 0x0F90, 0x0F95, GENX_NAMECHAR); + charProp(p, 0x0F97, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x0F99, 0x0FAD, GENX_NAMECHAR); + rangeProp(p, 0x0FB1, 0x0FB7, GENX_NAMECHAR); + charProp(p, 0x0FB9, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x20D0, 0x20DC, GENX_NAMECHAR); + charProp(p, 0x20E1, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x302A, 0x302F, GENX_NAMECHAR); + charProp(p, 0x3099, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x309A, GENX_LETTER|GENX_NAMECHAR); + + charProp(p, 0x02D0, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x02D1, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x0387, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x0640, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x0E46, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x0EC6, GENX_LETTER|GENX_NAMECHAR); + charProp(p, 0x3005, GENX_LETTER|GENX_NAMECHAR); + rangeProp(p, 0x3031, 0x3035, GENX_NAMECHAR); + rangeProp(p, 0x309D, 0x309E, GENX_NAMECHAR); + rangeProp(p, 0x30FC, 0x30FE, GENX_NAMECHAR); + +#endif /* GENX_CHAR_TABLE_SIZE == 0x10000 */ +} + diff --git a/cutl/details/genx/genx.c b/cutl/details/genx/genx.c new file mode 100644 index 0000000..659d629 --- /dev/null +++ b/cutl/details/genx/genx.c @@ -0,0 +1,2320 @@ +/* + * Copyright (c) 2007-2013 Code Synthesis Tools CC. + * Copyright (c) 2004 by Tim Bray and Sun Microsystems. + * + * For copying permission, see the accompanying COPYING file. + */ + +#define GENX_VERSION "cs-1" + +#include +#include +#include + +#include + +#define Boolean int +#define True 1 +#define False 0 +#define STRLEN_XMLNS_COLON 6 + + +/******************************* + * writer state + */ +typedef enum +{ + SEQUENCE_NO_DOC, + SEQUENCE_PRE_DOC, + SEQUENCE_POST_DOC, + SEQUENCE_START_TAG, + SEQUENCE_ATTRIBUTES, + SEQUENCE_START_ATTR, + SEQUENCE_CONTENT +} writerSequence; + +/******************************* + * generic pointer list + */ +typedef struct +{ + genxWriter writer; + int count; + int space; + void * * pointers; +} plist; + +/******************************* + * text collector, for attribute values + */ +typedef struct +{ + utf8 buf; + int used; + int space; +} collector; + +/******************************* + * Structs with opaquely-exposed handles + */ + +/* + * This one's tricky, to handle stacking namespaces + * 'declaration' is the current attribute which would be used to + * declare the currently-effective prefix + * 'defDeclaration' is a appropriate declaration when this is being + * used with the default prefix as passed to genxDeclareNamespace + * baroque is true if this namespace has been used with more than one + * prefix, or is the default namespace but has been unset + */ +struct genxNamespace_rec +{ + genxWriter writer; + utf8 name; + int declCount; + Boolean baroque; + genxAttribute declaration; + genxAttribute defaultDecl; +}; + +struct genxElement_rec +{ + genxWriter writer; + utf8 type; + genxNamespace ns; +}; + +typedef enum +{ + ATTR_NSDECL, + ATTR_NAKED, + ATTR_PREFIXED +} attrType; + +struct genxAttribute_rec +{ + genxWriter writer; + utf8 name; + genxNamespace ns; + collector value; + int provided; /* provided for current element? */ + attrType atype; + genxAttribute next; /* Attribute order chain if not canonical. */ +}; + +/******************************* + * genx's sandbox + */ +struct genxWriter_rec +{ + genxSender * sender; + genxStatus status; + writerSequence sequence; + char xmlChars[GENX_CHAR_TABLE_SIZE]; + void * userData; + int nextPrefix; + utf8 empty; + Boolean defaultNsDeclared; + genxAttribute xmlnsEquals; + genxElement nowStarting; + genxAttribute nowStartingAttr; + plist namespaces; + plist elements; + plist attributes; + plist prefixes; + plist stack; + struct genxAttribute_rec arec; /* Dummy attribute used for lookup. */ + char * etext[100]; + genxAlloc alloc; + genxDealloc dealloc; + + /* Pretty-printing state */ + int ppIndent; + int ppDepth; + Boolean ppSimple; + + /* Canonicalization. */ + Boolean canonical; + + /* Attrbute order when not canonical. */ + genxAttribute firstAttribute; + genxAttribute lastAttribute; +}; + +/******************************* + * Forward declarations + */ +static genxAttribute declareAttribute(genxWriter w, genxNamespace ns, + constUtf8 name, constUtf8 valuestr, + genxStatus * statusP); +static genxStatus addNamespace(genxNamespace ns, constUtf8 prefix); +static genxStatus unsetDefaultNamespace(genxWriter w); +static genxStatus addAttribute(genxAttribute a, constUtf8 valuestr); +void genxSetCharProps(char * p); + +/******************************* + * End of declarations + */ + +/******************************* + * private memory utilities + */ +static void * allocate(genxWriter w, int bytes) +{ + if (w->alloc) + return (void *) (*w->alloc)(w->userData, bytes); + else + return (void *) malloc(bytes); +} + +static void deallocate(genxWriter w, void * data) +{ + if (w->dealloc) + (*w->dealloc)(w->userData, data); + else if (w->alloc == NULL) + free(data); +} + +static utf8 copy(genxWriter w, constUtf8 from) +{ + utf8 temp; + + if ((temp = (utf8) allocate(w, strlen((const char *) from) + 1)) == NULL) + return NULL; + strcpy((char *) temp, (const char *) from); + return temp; +} + +static genxStatus initCollector(genxWriter w, collector * c) +{ + c->space = 100; + if ((c->buf = (utf8) allocate(w, c->space)) == NULL) + return GENX_ALLOC_FAILED; + c->used = 0; + return GENX_SUCCESS; +} + +static genxStatus growCollector(genxWriter w, collector * c, int size) +{ + utf8 newSpace; + + c->space = size * 2; + if ((newSpace = (utf8) allocate(w, c->space)) == NULL) + return GENX_ALLOC_FAILED; + + strncpy((char *) newSpace, (const char *) c->buf, c->used); + newSpace[c->used] = 0; + deallocate(w, c->buf); + c->buf = newSpace; + return GENX_SUCCESS; +} + +static void startCollect(collector * c) +{ + c->used = 0; +} +static void endCollect(collector * c) +{ + c->buf[c->used] = 0; +} + +static genxStatus collectString(genxWriter w, collector * c, constUtf8 string) +{ + int sl = strlen((const char *) string); + + if (sl >= c->space) + if ((w->status = growCollector(w, c, sl)) != GENX_SUCCESS) + return GENX_ALLOC_FAILED; + + strcpy((char *) c->buf, (const char *) string); + return GENX_SUCCESS; +} + +#define collectPiece(w,c,d,size) {if (((c)->used+(size))>=(c)->space){if (((w)->status=growCollector(w,c,(c)->used+(size)))!=GENX_SUCCESS) return (w)->status;}strncpy((char *)(c)->buf+(c)->used,d,size);(c)->used+=size;} + +/******************************* + * private list utilities + */ +static genxStatus initPlist(genxWriter w, plist * pl) +{ + pl->writer = w; + pl->count = 0; + pl->space = 10; + pl->pointers = (void * *) allocate(w, pl->space * sizeof(void *)); + if (pl->pointers == NULL) + return GENX_ALLOC_FAILED; + + return GENX_SUCCESS; +} + +/* + * make room in a plist + */ +static Boolean checkExpand(plist * pl) +{ + void * * newlist; + int i; + + if (pl->count < pl->space) + return True; + + pl->space *= 2; + newlist = (void * *) allocate(pl->writer, pl->space * sizeof(void *)); + if (newlist == NULL) + return False; + for (i = 0; i < pl->count; i++) + newlist[i] = pl->pointers[i]; + deallocate(pl->writer, pl->pointers); + pl->pointers = newlist; + + return True; +} + +/* + * stick something on the end of a plist + */ +static genxStatus listAppend(plist * pl, void * pointer) +{ + if (!checkExpand(pl)) + return GENX_ALLOC_FAILED; + + pl->pointers[pl->count++] = pointer; + return GENX_SUCCESS; +} + +/* + * insert in place, shuffling up + */ +static genxStatus listInsert(plist * pl, void * pointer, int at) +{ + int i; + + if (!checkExpand(pl)) + return GENX_ALLOC_FAILED; + + for (i = pl->count; i > at; i--) + pl->pointers[i] = pl->pointers[i - 1]; + pl->count++; + + pl->pointers[at] = pointer; + return GENX_SUCCESS; +} + +/******************************* + * list lookups + */ + +static genxNamespace findNamespace(plist * pl, constUtf8 uri) +{ + int i; + genxNamespace * nn = (genxNamespace *) pl->pointers; + + for (i = 0; i < pl->count; i++) + if (strcmp((char *) uri, (const char *) nn[i]->name) == 0) + return nn[i]; + + return NULL; +} + +static genxElement findElement(plist * pl, constUtf8 xmlns, constUtf8 type) +{ + int i; + genxElement * ee = (genxElement *) pl->pointers; + + for (i = 0; i < pl->count; i++) + { + if (xmlns == NULL) + { + if (ee[i]->ns == NULL && strcmp((const char *) type, + (const char *) ee[i]->type) == 0) + return ee[i]; + } + else + { + if (ee[i]->ns != NULL && + strcmp((const char *) xmlns, (const char *) ee[i]->ns->name) == 0 && + strcmp((const char *) type, (const char *) ee[i]->type) == 0) + return ee[i]; + } + } + + return NULL; +} + +/* + * store & intern a prefix, after giving it the + * "xmlns:" prefix. Don't allow storing the same one twice unless 'force' + * is set. + */ +static utf8 storePrefix(genxWriter w, constUtf8 prefix, Boolean force) +{ + int high, low; + utf8 * pp = (utf8 *) w->prefixes.pointers; + unsigned char buf[1024]; + + if (prefix[0] == 0) + prefix = (utf8) "xmlns"; + else + { + sprintf((char *) buf, "xmlns:%s", prefix); + prefix = buf; + } + + high = w->prefixes.count; low = -1; + while (high - low > 1) + { + int probe = (high + low) / 2; + if (strcmp((const char *) prefix, (const char *) pp[probe]) < 0) + high = probe; + else + low = probe; + } + + /* already there? */ + if (low != -1 && strcmp((const char *) prefix, (const char *) pp[low]) == 0) + { + if (force) + return pp[low]; + + w->status = GENX_DUPLICATE_PREFIX; + return NULL; + } + + /* copy & insert */ + if ((prefix = copy(w, prefix)) == NULL) + { + w->status = GENX_ALLOC_FAILED; + return NULL; + } + + w->status = listInsert(&w->prefixes, (void *) prefix, high); + if (w->status != GENX_SUCCESS) + return NULL; + + return (utf8) prefix; +} + +/******************************* + * UTF8 bit-banging + */ + +/* + * Retrieve the character pointed at, and advance the pointer; return -1 on + * error + */ +int genxNextUnicodeChar(constUtf8 * sp) +{ + utf8 s = (utf8) *sp; + int c; + + if (*s == 0) + return -1; + + if (*s < 0x80) + c = *s++; + + /* all this encoding sanity-checking taken from section 3.10 of Unicode 4 */ + else if (*s < 0xc2) + goto malformed; + + /* 2-byte encodings, first byte c2 .. df */ + else if (*s < 0xe0) + { + c = (*s++ & 0x1f) << 6; + + /* + * for this common idiom, if ((c & 0xc0) != 0x80) is slightly faster + * on MacOS (PPC) + */ + if (*s < 0x80 || *s > 0xbf) + goto malformed; + + c |= *s++ & 0x3f; + } + + /* 3-byte encodings, first byte e0 .. ef */ + else if (*s < 0xf0) + { + int b0 = *s; + c = (*s++ & 0x0f) << 12; + + if ((b0 == 0xe0 && (*s < 0xa0 || *s > 0xbf)) || + (b0 < 0xed && (*s < 0x80 || *s > 0xbf)) || + (b0 == 0xed && (*s < 0x80 || *s > 0x9f)) || + (b0 > 0xed && (*s < 0x80 || *s > 0xbf))) + goto malformed; + + c |= (*s++ & 0x3f) << 6; + + if (*s < 0x80 || *s > 0xbf) + goto malformed; + + c |= *s++ & 0x3f; + } + + /* 4-byte encodings, first byte f0 .. f4 */ + else if (*s < 0xf5) + { + int b0 = *s; + c = (*s++ & 0x07) << 18; + + if ((b0 == 0xf0 && (*s < 0x90 || *s > 0xbf)) || + (b0 < 0xf4 && (*s < 0x80 || *s > 0xbf)) || + (b0 >= 0xf4 && (*s < 0x80 || *s > 0x8f))) + goto malformed; + + c |= (*s++ & 0x3f) << 12; + + if (*s < 0x80 || *s > 0xbf) + goto malformed; + + c |= (*s++ & 0x3f) << 6; + + if (*s < 0x80 || *s > 0xbf) + goto malformed; + + c |= *s++ & 0x3f; + } + else + goto malformed; + + *sp = s; + return c; + + /* + * this is needed by scrubText, which wants to get the pointer moved + * past the problem area. + */ +malformed: + if (*s) + ++s; + *sp = s; + return -1; +} + +static Boolean isXMLChar(genxWriter w, int c) +{ + if (c < 0) + return False; + else if (c < GENX_CHAR_TABLE_SIZE) + return (int) w->xmlChars[c]; + else + return (c <= 0x10ffff); +} + +static Boolean isLetter(genxWriter w, int c) +{ + if (c < 0 || c > 0xffff) + return False; + else + { +#if GENX_CHAR_TABLE_SIZE == 0x10000 + return w->xmlChars[c] & GENX_LETTER; +#else + return c < GENX_CHAR_TABLE_SIZE ? (w->xmlChars[c] & GENX_LETTER) : True; +#endif + } +} + +static Boolean isNameChar(genxWriter w, int c) +{ + if (c < 0 || c > 0xffff) + return False; + else + { +#if GENX_CHAR_TABLE_SIZE == 0x10000 + return w->xmlChars[c] & GENX_NAMECHAR; +#else + return c < GENX_CHAR_TABLE_SIZE ? (w->xmlChars[c] & GENX_NAMECHAR) : True; +#endif + } +} + +/******************************* + * Constructors, setters/getters + */ + +/* + * Construct a new genxWriter + */ +genxWriter genxNew(genxAlloc alloc, genxDealloc dealloc, void * userData) +{ + genxWriter w; + genxNamespace xml; + + if (alloc) + w = (genxWriter) (*alloc)(userData, sizeof(struct genxWriter_rec)); + else + w = (genxWriter) malloc(sizeof(struct genxWriter_rec)); + + if (w == NULL) + return NULL; + + w->status = GENX_SUCCESS; + w->alloc = alloc; + w->dealloc = dealloc; + w->userData = userData; + w->sequence = SEQUENCE_NO_DOC; + + if (initPlist(w, &w->namespaces) != GENX_SUCCESS || + initPlist(w, &w->elements) != GENX_SUCCESS || + initPlist(w, &w->attributes) != GENX_SUCCESS || + initPlist(w, &w->prefixes) != GENX_SUCCESS || + initPlist(w, &w->stack) != GENX_SUCCESS) + return NULL; + + if ((w->status = initCollector(w, &w->arec.value)) != GENX_SUCCESS) + return NULL; + + if ((w->empty = copy(w, (utf8) "")) == NULL) + { + w->status = GENX_ALLOC_FAILED; + return NULL; + } + + w->xmlnsEquals = declareAttribute(w, NULL, (utf8) "xmlns", NULL, &w->status); + if (w->xmlnsEquals == NULL || w->status != GENX_SUCCESS) + return NULL; + w->defaultNsDeclared = False; + + w->nextPrefix = 1; + + genxSetCharProps(w->xmlChars); + + w->etext[GENX_SUCCESS] = "success"; + w->etext[GENX_BAD_UTF8] = "invalid UTF-8"; + w->etext[GENX_NON_XML_CHARACTER] = "non-XML character"; + w->etext[GENX_BAD_NAME] = "invalid name"; + w->etext[GENX_ALLOC_FAILED] = "memory allocation failed"; + w->etext[GENX_BAD_NAMESPACE_NAME] = "invalid namespace name"; + w->etext[GENX_INTERNAL_ERROR] = "internal error"; + w->etext[GENX_DUPLICATE_PREFIX] = "duplicate prefix"; + w->etext[GENX_SEQUENCE_ERROR] = "call out of sequence"; + w->etext[GENX_NO_START_TAG] = "no start tag for end element call"; + w->etext[GENX_IO_ERROR] = "io error"; + w->etext[GENX_MISSING_VALUE] = "missing attribute value"; + w->etext[GENX_MALFORMED_COMMENT] = "malformed comment body"; + w->etext[GENX_MALFORMED_PI] = "?> in PI"; + w->etext[GENX_XML_PI_TARGET] = "target of PI matches [xX][mM][lL]"; + w->etext[GENX_DUPLICATE_ATTRIBUTE] = "duplicate attribute"; + w->etext[GENX_ATTRIBUTE_IN_DEFAULT_NAMESPACE] = + "attribute is default namespace"; + w->etext[GENX_DUPLICATE_NAMESPACE] = + "namespace declared twice with different prefixes"; + w->etext[GENX_BAD_DEFAULT_DECLARATION] = + "default namespace declared on an element which is not in a namespace"; + + /* the xml: namespace is pre-wired */ + xml = genxDeclareNamespace(w, (utf8) "http://www.w3.org/XML/1998/namespace", + (utf8) "xml", &w->status); + if (xml == NULL) + return NULL; + xml->declCount = 1; + xml->declaration = xml->defaultDecl; + + w->ppIndent = 0; /* Pretty-printing is disabled by default. */ + w->canonical = False; /* No canonicalization by default. */ + + w->firstAttribute = NULL; + w->lastAttribute = NULL; + return w; +} + +genxStatus genxReset (genxWriter w) +{ + int i; + + /* Clean up the stack. */ + w->stack.count = 0; + + /* Reset namespace declaration counts. The first entry is the pre-wired + xml namespace. */ + ((genxNamespace) w->namespaces.pointers[0])->declCount = 1; + + for (i = 1; i < w->namespaces.count; i++) + { + ((genxNamespace) w->namespaces.pointers[i])->declCount = 0; + ((genxNamespace) w->namespaces.pointers[i])->baroque = False; + } + + /* Clear provided attributes. */ + for (i = 0; i < w->attributes.count; i++) + ((genxAttribute) w->attributes.pointers[i])->provided = False; + + /* Clear attribute list. */ + if (!w->canonical) + { + while (w->firstAttribute != NULL) + { + genxAttribute t = w->firstAttribute->next; + w->firstAttribute->next = NULL; + w->firstAttribute = t; + } + + w->lastAttribute = NULL; + } + + w->status = GENX_SUCCESS; + w->sequence = SEQUENCE_NO_DOC; + + return w->status; +} + + +/* + * get/set userData + */ +void genxSetUserData(genxWriter w, void * userData) +{ + w->userData = userData; +} +void * genxGetUserData(genxWriter w) +{ + return w->userData; +} + +/* + * get/set pretty-printing + */ +genxStatus genxSetPrettyPrint(genxWriter w, int ind) +{ + if (w->sequence == SEQUENCE_NO_DOC) + w->ppIndent = ind; + else + w->status = GENX_SEQUENCE_ERROR; + + return w->status; +} + +int genxGetPrettyPrint(genxWriter w) +{ + return w->ppIndent; +} + +/* + * get/set canonicalization. + */ +genxStatus genxSetCanonical(genxWriter w, int flag) +{ + if (w->sequence == SEQUENCE_NO_DOC) + w->canonical = flag; + else + w->status = GENX_SEQUENCE_ERROR; + + return w->status; +} + +int genxGetCanonical(genxWriter w) +{ + return w->canonical; +} + +/* + * get/set allocator + */ +void genxSetAlloc(genxWriter w, genxAlloc alloc) +{ + w->alloc = alloc; +} + +void genxSetDealloc(genxWriter w, genxDealloc dealloc) +{ + w->dealloc = dealloc; +} + +genxAlloc genxGetAlloc(genxWriter w) +{ + return w->alloc; +} + +genxDealloc genxGetDealloc(genxWriter w) +{ + return w->dealloc; +} + +/* + * Clean up + */ +void genxDispose(genxWriter w) +{ + int i; + genxNamespace * nn = (genxNamespace *) w->namespaces.pointers; + genxElement * ee = (genxElement *) w->elements.pointers; + genxAttribute * aa = (genxAttribute *) w->attributes.pointers; + utf8 * pp = (utf8 *) w->prefixes.pointers; + + for (i = 0; i < w->namespaces.count; i++) + { + deallocate(w, nn[i]->name); + deallocate(w, nn[i]); + } + + for (i = 0; i < w->elements.count; i++) + { + deallocate(w, ee[i]->type); + deallocate(w, ee[i]); + } + + for (i = 0; i < w->attributes.count; i++) + { + deallocate(w, aa[i]->name); + deallocate(w, aa[i]->value.buf); + deallocate(w, aa[i]); + } + + for(i = 0; i < w->prefixes.count; i++) + deallocate(w, pp[i]); + + deallocate(w, w->namespaces.pointers); + deallocate(w, w->elements.pointers); + deallocate(w, w->attributes.pointers); + deallocate(w, w->prefixes.pointers); + deallocate(w, w->stack.pointers); + + deallocate(w, w->arec.value.buf); + + deallocate(w, w->empty); + + /* how Oscar dealt with Igli */ + deallocate(w, w); +} + +/******************************* + * External utility routines + */ + +/* + * scan a buffer and report problems with UTF-8 encoding or non-XML characters + */ +genxStatus genxCheckText(genxWriter w, constUtf8 s) +{ + while (*s) + { + int c = genxNextUnicodeChar(&s); + if (c == -1) + return GENX_BAD_UTF8; + + if (!isXMLChar(w, c)) + return GENX_NON_XML_CHARACTER; + } + return GENX_SUCCESS; +} + +/* + * Purify some text + */ +int genxScrubText(genxWriter w, constUtf8 in, utf8 out) +{ + int problems = 0; + constUtf8 last = in; + + while (*in) + { + int c = genxNextUnicodeChar(&in); + if (c == -1) + { + problems++; + last = in; + continue; + } + + if (!isXMLChar(w, c)) + { + problems++; + last = in; + continue; + } + + while (last < in) + *out++ = *last++; + } + *out = 0; + return problems; +} + +/* + * check one character + */ +int genxCharClass(genxWriter w, int c) +{ + int ret = 0; + + if (isXMLChar(w, c)) + ret |= GENX_XML_CHAR; + if (isNameChar(w, c)) + ret |= GENX_NAMECHAR; + if (isLetter(w, c)) + ret |= GENX_LETTER; + return ret; +} + +static genxStatus checkNCName(genxWriter w, constUtf8 name) +{ + int c; + + if (name == NULL || *name == 0) + return GENX_BAD_NAME; + + c = genxNextUnicodeChar(&name); + if (!isLetter(w, c) && c != ':' && c != '_') + return GENX_BAD_NAME; + + while (*name) + { + c = genxNextUnicodeChar(&name); + if (c == -1) + return GENX_BAD_UTF8; + if (!isNameChar(w, c)) + return GENX_BAD_NAME; + } + return GENX_SUCCESS; +} + +char * genxGetErrorMessage(genxWriter w, genxStatus status) +{ + return w->etext[status]; +} +char * genxLastErrorMessage(genxWriter w) +{ + return w->etext[w->status]; +} + +/******************************* + * Declarations: namespace/element/attribute + */ + +/* + * DeclareNamespace - by far the most complex routine in Genx + */ +genxNamespace genxDeclareNamespace(genxWriter w, constUtf8 uri, + constUtf8 defaultPref, + genxStatus * statusP) +{ + genxNamespace ns; + genxAttribute defaultDecl; + unsigned char newPrefix[100]; + + if (uri == NULL || uri[0] == 0) + { + w->status = GENX_BAD_NAMESPACE_NAME; + goto busted; + } + + if ((w->status = genxCheckText(w, uri)) != GENX_SUCCESS) + goto busted; + + /* if a prefix is provided, it has to be an NCname */ + if (defaultPref != NULL && defaultPref[0] != 0 && + (w->status = checkNCName(w, defaultPref)) != GENX_SUCCESS) + goto busted; + + /* previously declared? */ + if ((ns = findNamespace(&w->namespaces, uri))) + { + /* just a lookup, really */ + if ((defaultPref == NULL) || + (defaultPref[0] == 0 && ns->defaultDecl == w->xmlnsEquals) || + (strcmp((const char *) ns->defaultDecl->name + STRLEN_XMLNS_COLON, + (const char *) defaultPref) == 0)) + { + w->status = *statusP = GENX_SUCCESS; + return ns; + } + } + + /* wasn't already declared */ + else + { + + /* make a default prefix if none provided */ + if (defaultPref == NULL) + { + sprintf((char *) newPrefix, "g%d", w->nextPrefix++); + defaultPref = newPrefix; + } + + ns = (genxNamespace) allocate(w, sizeof(struct genxNamespace_rec)); + if (ns == NULL) + { + w->status = GENX_ALLOC_FAILED; + goto busted; + } + ns->writer = w; + ns->baroque = False; + + if ((ns->name = copy(w, uri)) == NULL) + { + w->status = GENX_ALLOC_FAILED; + goto busted; + } + + if ((w->status = listAppend(&w->namespaces, ns)) != GENX_SUCCESS) + goto busted; + ns->defaultDecl = ns->declaration = NULL; + ns->declCount = 0; + } + + if (defaultPref[0] == 0) + { + if (w->defaultNsDeclared) + { + w->status = GENX_DUPLICATE_PREFIX; + goto busted; + } + defaultDecl = w->xmlnsEquals; + w->defaultNsDeclared = True; + } + else + { + /* this catches dupes too */ + if ((defaultPref = storePrefix(w, defaultPref, False)) == NULL) + goto busted; + + defaultDecl = declareAttribute(w, NULL, defaultPref, ns->name, statusP); + if (defaultDecl == NULL || *statusP != GENX_SUCCESS) + { + w->status = *statusP; + return NULL; + } + } + + if (ns->defaultDecl != NULL && defaultDecl != ns->defaultDecl) + ns->baroque = True; + ns->defaultDecl = defaultDecl; + + *statusP = GENX_SUCCESS; + return ns; + +busted: + *statusP = w->status; + return NULL; +} + +/* + * get namespace prefix + */ +utf8 genxGetNamespacePrefix(genxNamespace ns) +{ + if (ns->declaration == NULL) + return NULL; + + if (ns->declaration == ns->writer->xmlnsEquals) + return ns->writer->empty; + + return ns->declaration->name + STRLEN_XMLNS_COLON; +} + +/* + * DeclareElement - see genx.h for details + */ +genxElement genxDeclareElement(genxWriter w, + genxNamespace ns, constUtf8 type, + genxStatus * statusP) +{ + genxElement old; + genxElement el; + + if ((w->status = checkNCName(w, type)) != GENX_SUCCESS) + { + *statusP = w->status; + return NULL; + } + + /* already declared? */ + old = findElement(&w->elements, (ns == NULL) ? NULL : ns->name, type); + if (old) + return old; + + if ((el = (genxElement) allocate(w, sizeof(struct genxElement_rec))) == NULL) + { + w->status = *statusP = GENX_ALLOC_FAILED; + return NULL; + } + + el->writer = w; + el->ns = ns; + if ((el->type = copy(w, type)) == NULL) + { + w->status = *statusP = GENX_ALLOC_FAILED; + return NULL; + } + + if ((w->status = listAppend(&w->elements, el)) != GENX_SUCCESS) + { + *statusP = w->status; + return NULL; + } + + *statusP = GENX_SUCCESS; + return el; +} + +/* + * C14n ordering for attributes: + * - first, namespace declarations by the prefix being declared + * - second, unprefixed attributes by attr name + * - third, prefixed attrs by ns uri then local part + */ +static int orderAttributes(genxAttribute a1, genxAttribute a2) +{ + if (a1->atype == a2->atype) + { + if (a1->atype == ATTR_PREFIXED && a1->ns != a2->ns) + return strcmp((const char *) a1->ns->name, (const char *) a2->ns->name); + else + return strcmp((const char *) a1->name, (const char *) a2->name); + } + + else if (a1->atype == ATTR_NSDECL) + return -1; + + else if (a1->atype == ATTR_NAKED) + { + if (a2->atype == ATTR_NSDECL) + return 1; + else + return -1; + } + + else + return 1; +} + +/* + * internal declare-attribute. This one allows colonized values for + * names, so that you can declare xmlns:-type attributes + */ +static genxAttribute declareAttribute(genxWriter w, genxNamespace ns, + constUtf8 name, constUtf8 valuestr, + genxStatus * statusP) +{ + int high, low; + genxAttribute * aa = (genxAttribute *) w->attributes.pointers; + genxAttribute a; + + w->arec.ns = ns; + w->arec.name = (utf8) name; + + if (ns) + w->arec.atype = ATTR_PREFIXED; + else if (strncmp((const char *) name, "xmlns", STRLEN_XMLNS_COLON - 1) == 0) + w->arec.atype = ATTR_NSDECL; + else + w->arec.atype = ATTR_NAKED; + + if (ns && (ns->defaultDecl == w->xmlnsEquals)) + { + w->status = GENX_ATTRIBUTE_IN_DEFAULT_NAMESPACE; + goto busted; + } + + /* attribute list has to be kept sorted per c14n rules */ + high = w->attributes.count; low = -1; + while (high - low > 1) + { + int probe = (high + low) / 2; + if (orderAttributes(&w->arec, aa[probe]) < 0) + high = probe; + else + low = probe; + } + + /* if it was already there */ + if (low != -1 && orderAttributes(&w->arec, aa[low]) == 0) + return aa[low]; + + /* not there, build it */ + a = (genxAttribute) allocate(w, sizeof(struct genxAttribute_rec)); + if (a == NULL) + { + w->status = GENX_ALLOC_FAILED; + goto busted; + } + + a->writer = w; + a->ns = ns; + a->provided = False; + a->atype = w->arec.atype; + a->next = NULL; + + if ((a->name = copy(w, name)) == NULL) + { + w->status = GENX_ALLOC_FAILED; + goto busted; + } + + if ((w->status = initCollector(w, &a->value)) != GENX_SUCCESS) + goto busted; + + if (valuestr) + if ((w->status = collectString(w, &a->value, valuestr)) != GENX_SUCCESS) + goto busted; + + w->status = listInsert(&w->attributes, a, high); + if (w->status != GENX_SUCCESS) + goto busted; + + *statusP = GENX_SUCCESS; + return a; + +busted: + *statusP = w->status; + return NULL; +} + +/* + * genxDeclareAttribute - see genx.h for details + */ +genxAttribute genxDeclareAttribute(genxWriter w, + genxNamespace ns, constUtf8 name, + genxStatus * statusP) +{ + if ((w->status = checkNCName(w, name)) != GENX_SUCCESS) + { + *statusP = w->status; + return NULL; + } + + return declareAttribute(w, ns, name, NULL, statusP); +} + +/******************************* + * I/O + */ +static genxStatus sendx(genxWriter w, constUtf8 s) +{ + if (w->sender) + return (*w->sender->send)(w->userData, s); + else + return GENX_IO_ERROR; +} + +static genxStatus sendxBounded(genxWriter w, constUtf8 start, constUtf8 end) +{ + if (w->sender) + return (*w->sender->sendBounded)(w->userData, start, end); + else + return GENX_IO_ERROR; +} + +#define SendCheck(w,s) if ((w->status=sendx(w,(constUtf8)s))!=GENX_SUCCESS) return w->status + +/******************************* + * XML writing routines. The semantics of the externally-facing ones are + * written up in genx.h. Commentary here is implementation notes and + * for internal routines. + */ + +genxStatus genxStartDocSender(genxWriter w, genxSender * sender) +{ + if (w->sequence != SEQUENCE_NO_DOC) + return w->status = GENX_SEQUENCE_ERROR; + + w->sequence = SEQUENCE_PRE_DOC; + w->sender = sender; + + if (w->ppIndent) + { + w->ppSimple = True; + w->ppDepth = 0; + } + + return GENX_SUCCESS; +} + +/* + * Output new line and indentation. + */ +static genxStatus writeIndentation(genxWriter w) +{ + int i, n; + SendCheck(w, "\n"); + n = w->ppDepth * w->ppIndent; + + for (i = 0; i < n; i++) + SendCheck(w, " "); + + return w->status; +} + +/* + * Output attribute. + */ +static genxStatus writeAttribute(genxAttribute a) +{ + genxWriter w = a->writer; + + if (a->ns && a->ns->baroque && a->ns->declaration == w->xmlnsEquals) + return w->status = GENX_ATTRIBUTE_IN_DEFAULT_NAMESPACE; + + SendCheck(w, " "); + + if (a->ns) + { + SendCheck(w, a->ns->declaration->name + STRLEN_XMLNS_COLON); + SendCheck(w, ":"); + } + + SendCheck(w, a->name); + SendCheck(w, "=\""); + SendCheck(w, a->value.buf); + SendCheck(w, "\""); + + return w->status; +} + +/* + * Write out the attributes we've been gathering up for an element. We save + * them until we've gathered them all so they can be writen in canonical + * order. + * Also, we end the start-tag. + * The trick here is that we keep the attribute list properly sorted as + * we build it, then as each attribute is added, we fill in its value and + * mark the fact that it's been added, in the "provided" field. + */ +static genxStatus writeStartTag(genxWriter w, Boolean close) +{ + int i; + genxAttribute * aa = (genxAttribute *) w->attributes.pointers; + genxElement e = w->nowStarting; + + /* + * make sure the right namespace decls are in effect; + * if they are these might create an error, so ignore it + */ + if (e->ns) + addNamespace(e->ns, NULL); + else + unsetDefaultNamespace(w); + w->status = GENX_SUCCESS; + + if (w->ppIndent) + { + if (w->ppDepth) + if (writeIndentation (w) != GENX_SUCCESS) + return w->status; + + w->ppDepth++; + w->ppSimple = True; + } + + SendCheck(w, "<"); + if (e->ns && (e->ns->declaration != w->xmlnsEquals)) + { + SendCheck(w, e->ns->declaration->name + STRLEN_XMLNS_COLON); + SendCheck(w, ":"); + } + SendCheck(w, e->type); + + /* If we are canonicalizing, then write sorted attributes. Otherwise + write them in the order specified. */ + if (w->canonical) + { + for (i = 0; i < w->attributes.count; i++) + { + if (aa[i]->provided) + { + if (writeAttribute (aa[i]) != GENX_SUCCESS) + return w->status; + + aa[i]->provided = False; + } + } + } + else + { + /* Keep the chain consistent even if we bail out mid way because of + an error. This way we will still be able to clear it in reset().*/ + while (w->firstAttribute != NULL) + { + genxAttribute t = w->firstAttribute->next; + + if (writeAttribute (w->firstAttribute) != GENX_SUCCESS) + return w->status; + + w->firstAttribute->provided = False; + w->firstAttribute->next = NULL; + w->firstAttribute = t; + } + + w->lastAttribute = NULL; + } + + if (close) + SendCheck(w, "/"); + SendCheck(w, ">"); + return GENX_SUCCESS; +} + +/* + * internal clear-er; no sequence checking + */ +static genxStatus unsetDefaultNamespace(genxWriter w) +{ + int i; + Boolean found = False; + + /* don't put it in if not needed */ + i = w->stack.count - 1; + while (found == False && i > 0) + { + while (w->stack.pointers[i] != NULL) + { + genxAttribute decl = (genxAttribute) w->stack.pointers[i--]; + genxNamespace ns = (genxNamespace) w->stack.pointers[i--]; + + /* if already unset */ + if (ns == NULL) + return w->status = GENX_SUCCESS; + + /* + * the default namespace was declared. This namespace now + * becomes baroque + */ + if (decl == w->xmlnsEquals) + { + ns->baroque = True; + found = True; + break; + } + } + i -= 2; + } + + if (!found) + return GENX_SUCCESS; + + /* + * push a signal on the stack + */ + if ((w->status = listAppend(&w->stack, NULL)) != GENX_SUCCESS) + return w->status; + w->status = listAppend(&w->stack, w->xmlnsEquals); + if (w->status != GENX_SUCCESS) + return w->status; + + /* add the xmlns= attribute, it must be the first one */ + return addAttribute(w->xmlnsEquals, w->empty); +} + +/* + * clear the default namespace declaration + */ +genxStatus genxUnsetDefaultNamespace(genxWriter w) +{ + + /* can only do this while in start-tag mode */ + if (w->sequence != SEQUENCE_START_TAG) + return w->status = GENX_SEQUENCE_ERROR; + + return unsetDefaultNamespace(w); +} + +genxStatus genxStartElement(genxElement e) +{ + genxWriter w = e->writer; + + switch (w->sequence) + { + case SEQUENCE_NO_DOC: + case SEQUENCE_POST_DOC: + case SEQUENCE_START_ATTR: + return w->status = GENX_SEQUENCE_ERROR; + case SEQUENCE_START_TAG: + case SEQUENCE_ATTRIBUTES: + if ((w->status = writeStartTag(w, False)) != GENX_SUCCESS) + return w->status; + break; + case SEQUENCE_PRE_DOC: + case SEQUENCE_CONTENT: + break; + } + + w->sequence = SEQUENCE_START_TAG; + + /* + * push the stack. We push a NULL after a pointer to this element + * because the stack will also contain pointers to the namespace + * attributes that got declared here, so we can keep track of what's + * in effect. I.e. a single stack entry consists logically of a pointer + * to an element object, a NULL, then zero or more pairs of pointers to + * namespace objects/declarations + */ + if ((w->status = listAppend(&w->stack, e)) != GENX_SUCCESS) + return w->status; + if ((w->status = listAppend(&w->stack, NULL)) != GENX_SUCCESS) + return w->status; + + w->nowStarting = e; + + return GENX_SUCCESS; +} + +/* + * internal namespace adder; no sequence checking + */ +static genxStatus addNamespace(genxNamespace ns, constUtf8 prefix) +{ + genxWriter w = ns->writer; + genxAttribute decl; + int i; + genxElement e; + + /* + * first, we'll find the declaring attribute + */ + if (prefix == NULL) + decl = ns->defaultDecl; + else + { + if (prefix[0] == 0) + decl = w->xmlnsEquals; + else + { + if ((prefix = storePrefix(w, prefix, True)) == NULL) + return w->status; + decl = declareAttribute(w, NULL, prefix, ns->name, &w->status); + if (decl == NULL || w->status != GENX_SUCCESS) + return w->status; + } + } + + if (decl != ns->defaultDecl) + ns->baroque = True; + + /* + * avoid doing anything if this namespace is already declared. If + * they've shown good taste we can do this cheaply + */ + if (!ns->baroque) + { + if (ns->declCount > 0) + return w->status = GENX_SUCCESS; + } + else + { + + /* + * First, we'll run all the way up the stack to see if there is + * another declaration for this namespace/prefix in scope, in which + * case it's a no-op; or, if there's another declaration for this + * prefix on another namespace, in which case we have to over-ride + */ + i = w->stack.count - 1; + while (i > 0) + { + while (w->stack.pointers[i] != NULL) + { + genxAttribute otherDecl = (genxAttribute) w->stack.pointers[i--]; + genxNamespace otherNs = (genxNamespace) w->stack.pointers[i--]; + + if (ns == otherNs) + { + if (decl == otherDecl) + return w->status = GENX_SUCCESS; + else + { + i = 0; + break; + } + } + else + { + /* different namespace, same prefix? */ + if (decl == otherDecl) + { + i = 0; + break; + } + } + } + i -= 2; + } + } + + /* + * If this namespace is already declared on + * this element (with different prefix/decl) which is an error. + */ + i = w->stack.count - 1; + while (w->stack.pointers[i] != NULL) + { + genxNamespace otherNs; + i--; /* don't need declaration */ + otherNs = (genxNamespace) w->stack.pointers[i--]; + + if (ns == otherNs) + return w->status = GENX_DUPLICATE_NAMESPACE; + } + + /* move pointer from NULL to element */ + --i; + + /* + * It's also an error if this is a default-namespace declaration and the + * element is in no namespace. + */ + e = (genxElement) w->stack.pointers[i]; + if (e->ns == NULL && decl == w->xmlnsEquals) + return w->status = GENX_BAD_DEFAULT_DECLARATION; + + if ((w->status = listAppend(&w->stack, ns)) != GENX_SUCCESS) + return w->status; + if ((w->status = listAppend(&w->stack, decl)) != GENX_SUCCESS) + return w->status; + + ns->declaration = decl; + ns->declCount++; + return addAttribute(decl, ns->name); +} + +/* + * Add a namespace declaration + */ +genxStatus genxAddNamespace(genxNamespace ns, constUtf8 prefix) +{ + if (ns->writer->sequence != SEQUENCE_START_TAG) + return ns->writer->status = GENX_SEQUENCE_ERROR; + + return addNamespace(ns, prefix); +} + +/* + * Private attribute-adding code + * most of the work here is normalizing the value, which is the same + * as regular normalization except for " is replaced by """ + */ +static genxStatus collectAttributeValue (genxWriter w, collector* value, + constUtf8 start, constUtf8 end) +{ + /* If end is NULL then the length of the value is unknown and + the value is 0-terminated. */ + + utf8 last = (utf8) start; + + while (end != NULL ? start < end : *start) + { + int c = genxNextUnicodeChar(&start); + + if (c == -1) + return w->status = GENX_BAD_UTF8; + + if (!isXMLChar(w, c)) + return w->status = GENX_NON_XML_CHARACTER; + + switch(c) + { + case 9: + collectPiece(w, value, " ", 5); + break; + case 0xa: + collectPiece(w, value, " ", 5); + break; + case 0xd: + collectPiece(w, value, " ", 5); + break; + case '"': + collectPiece(w, value, """, 6); + break; + case '<': + collectPiece(w, value, "<", 4); + break; + case '&': + collectPiece(w, value, "&", 5); + break; + /* + case '>': + collectPiece(w, value, ">", 4); + break; + */ + default: + collectPiece(w, value, (const char *) last, start - last); + break; + } + last = (utf8) start; + } + + return GENX_SUCCESS; +} + +static genxStatus addAttribute(genxAttribute a, constUtf8 valuestr) +{ + genxWriter w = a->writer; + + /* if valuestr not provided, this is an xmlns with a pre-cooked value */ + if (valuestr) + { + startCollect(&a->value); + + if (collectAttributeValue (w, &a->value, valuestr, NULL) != GENX_SUCCESS) + return w->status; + + endCollect(&a->value); + } + + /* now add the namespace attribute; might fail if it's been hand-declared */ + if (a->ns) + addNamespace(a->ns, NULL); + + if (valuestr && a->provided) + return w->status = GENX_DUPLICATE_ATTRIBUTE; + + a->provided = True; + + /* Add the attribute to the ordered list if not canonical. */ + if (!w->canonical) + { + if (w->lastAttribute != NULL) + w->lastAttribute = w->lastAttribute->next = a; + else + w->lastAttribute = w->firstAttribute = a; + } + + return GENX_SUCCESS; +} + +/* + * public attribute adder. + * The only difference is that it doesn't allow a NULL value + */ +genxStatus genxAddAttribute(genxAttribute a, constUtf8 valuestr) +{ + if (a->writer->sequence != SEQUENCE_START_TAG && + a->writer->sequence != SEQUENCE_ATTRIBUTES) + return a->writer->status = GENX_SEQUENCE_ERROR; + a->writer->sequence = SEQUENCE_ATTRIBUTES; + + if (valuestr == NULL) + return a->writer->status = GENX_MISSING_VALUE; + + return addAttribute(a, valuestr); +} + +genxStatus genxStartAttribute(genxAttribute a) +{ + genxWriter w = a->writer; + + if (w->sequence != SEQUENCE_START_TAG && + w->sequence != SEQUENCE_ATTRIBUTES) + return w->status = GENX_SEQUENCE_ERROR; + + w->sequence = SEQUENCE_START_ATTR; + w->nowStartingAttr = a; + + startCollect(&a->value); + + return GENX_SUCCESS; +} + +genxStatus genxEndAttribute(genxWriter w) +{ + genxAttribute a; + + if (w->sequence != SEQUENCE_START_ATTR) + return w->status = GENX_SEQUENCE_ERROR; + + a = w->nowStartingAttr; + w->sequence = SEQUENCE_ATTRIBUTES; + + endCollect(&a->value); + + /* now add the namespace attribute; might fail if it's been hand-declared */ + if (a->ns) + addNamespace(a->ns, NULL); + + if (a->provided) + return w->status = GENX_DUPLICATE_ATTRIBUTE; + + a->provided = True; + + /* Add the attribute to the ordered list if not canonical. */ + if (!w->canonical) + { + if (w->lastAttribute != NULL) + w->lastAttribute = w->lastAttribute->next = a; + else + w->lastAttribute = w->firstAttribute = a; + } + + return GENX_SUCCESS; +} + +genxStatus genxEndElement(genxWriter w) +{ + int i; + Boolean close = True; + + switch (w->sequence) + { + case SEQUENCE_NO_DOC: + case SEQUENCE_PRE_DOC: + case SEQUENCE_POST_DOC: + case SEQUENCE_START_ATTR: + return w->status = GENX_SEQUENCE_ERROR; + case SEQUENCE_START_TAG: + case SEQUENCE_ATTRIBUTES: + if ((w->status = writeStartTag(w, !w->canonical)) != GENX_SUCCESS) + return w->status; + close = w->canonical; + break; + case SEQUENCE_CONTENT: + break; + } + + /* + * Output the closing tag. + */ + if (close) + { + genxElement e; + + /* + * first peek into the stack to find the right namespace declaration + * (if any) so we can properly prefix the end-tag. Have to do this + * before unwinding the stack because that might reset some xmlns + * prefixes to the context in the parent element + */ + for (i = w->stack.count - 1; w->stack.pointers[i] != NULL; i -= 2) + ; + e = (genxElement) w->stack.pointers[--i]; + + if (w->ppIndent) + { + w->ppDepth--; + + if (!w->ppSimple) + if (writeIndentation (w) != GENX_SUCCESS) + return w->status; + + w->ppSimple = False; + } + + SendCheck(w, "ns && e->ns->declaration != w->xmlnsEquals) + { + SendCheck(w, e->ns->declaration->name + STRLEN_XMLNS_COLON); + SendCheck(w, ":"); + } + SendCheck(w, e->type); + SendCheck(w, ">"); + } + + /* + * pop zero or more namespace declarations, then a null, then the + * start-element declaration off the stack + */ + w->stack.count--; + while (w->stack.pointers[w->stack.count] != NULL) + { + genxNamespace ns = (genxNamespace) w->stack.pointers[--w->stack.count]; + w->stack.count--; /* don't need decl */ + + /* if not a fake unset-default namespace */ + if (ns) + { + /* + * if they've stupidly jammed in their own namespace-prefix + * declarations, we have to go looking to see if there's another + * one in effect + */ + if (ns->baroque) + { + i = w->stack.count; + while (i > 0) + { + while (w->stack.pointers[i] != NULL) + { + genxAttribute otherDecl = (genxAttribute) w->stack.pointers[i--]; + genxNamespace otherNs = (genxNamespace) w->stack.pointers[i--]; + + if (otherNs == ns) + { + ns->declaration = otherDecl; + i = 0; + break; + } + } + + /* skip NULL & element */ + i -= 2; + } + } + ns->declCount--; + if (ns->declCount == 0) + ns->baroque = False; + } + } + + /* pop the NULL */ + --w->stack.count; + if (w->stack.count < 0) + return w->status = GENX_NO_START_TAG; + + if (w->stack.count == 0) + w->sequence = SEQUENCE_POST_DOC; + else + w->sequence = SEQUENCE_CONTENT; + + return GENX_SUCCESS; +} + +/* + * Internal character-adder. It tries to keep the number of sendx() + * calls down by looking at each character but only doing the output + * when it has to escape something; ordinary text gets saved up in + * chunks the start of which is indicated by *breaker. + * c is the character, next points to the UTF8 representing the next + * lastsP indirectly points to the UTF8 representing the + * character, breakerP* indirectly points to the last place genx + * changed the UTF8, e.g. by escaping a '<' + */ +static genxStatus addChar(genxWriter w, int c, constUtf8 next, + constUtf8 * lastsP, constUtf8 * breakerP) +{ + if (c == -1) + return GENX_BAD_UTF8; + + if (!isXMLChar(w, c)) + return GENX_NON_XML_CHARACTER; + + switch(c) + { + case 0xd: + if ((w->status = sendxBounded(w, *breakerP, *lastsP)) != GENX_SUCCESS) + return w->status; + *breakerP = next; + sendx(w, (utf8) " "); + break; + case '<': + if ((w->status = sendxBounded(w, *breakerP, *lastsP)) != GENX_SUCCESS) + return w->status; + *breakerP = next; + sendx(w, (utf8) "<"); + break; + case '&': + if ((w->status = sendxBounded(w, *breakerP, *lastsP)) != GENX_SUCCESS) + return w->status; + *breakerP = next; + sendx(w, (utf8) "&"); + break; + case '>': + if ((w->status = sendxBounded(w, *breakerP, *lastsP)) != GENX_SUCCESS) + return w->status; + *breakerP = next; + sendx(w, (utf8) ">"); + break; + default: + break; + } + *lastsP = next; + return GENX_SUCCESS; +} + +genxStatus genxAddText(genxWriter w, constUtf8 start) +{ + constUtf8 lasts = start; + constUtf8 breaker = start; + + if (w->sequence == SEQUENCE_START_TAG || + w->sequence == SEQUENCE_ATTRIBUTES) + { + if ((w->status = writeStartTag(w, False)) != GENX_SUCCESS) + return w->status; + w->sequence = SEQUENCE_CONTENT; + } + + if (w->sequence == SEQUENCE_CONTENT) + { + while (*start) + { + int c = genxNextUnicodeChar(&start); + + w->status = addChar(w, c, start, &lasts, &breaker); + if (w->status != GENX_SUCCESS) + return w->status; + } + return sendxBounded(w, breaker, (utf8) start); + } + else if (w->sequence == SEQUENCE_START_ATTR) + { + return collectAttributeValue (w, &w->nowStartingAttr->value, start, NULL); + } + else + return w->status = GENX_SEQUENCE_ERROR; +} + +genxStatus genxAddBoundedText(genxWriter w, constUtf8 start, constUtf8 end) +{ + constUtf8 lasts = start; + constUtf8 breaker = start; + + if (w->sequence == SEQUENCE_START_TAG || + w->sequence == SEQUENCE_ATTRIBUTES) + { + if ((w->status = writeStartTag(w, False)) != GENX_SUCCESS) + return w->status; + w->sequence = SEQUENCE_CONTENT; + } + + if (w->sequence == SEQUENCE_CONTENT) + { + while (start < end) + { + int c = genxNextUnicodeChar(&start); + + w->status = addChar(w, c, (utf8) start, &lasts, &breaker); + if (w->status != GENX_SUCCESS) + return w->status; + } + return sendxBounded(w, breaker, (utf8) start); + } + else if (w->sequence == SEQUENCE_START_ATTR) + { + return collectAttributeValue (w, &w->nowStartingAttr->value, start, end); + } + else + return w->status = GENX_SEQUENCE_ERROR; +} + +genxStatus genxAddCountedText(genxWriter w, constUtf8 start, int byteCount) +{ + utf8 end = (utf8) (start + byteCount); + + return genxAddBoundedText(w, start, end); +} + +genxStatus genxAddCharacter(genxWriter w, int c) +{ + unsigned char cUTF8[10]; + utf8 lasts, breaker, next; + + if (w->sequence == SEQUENCE_START_TAG || + w->sequence == SEQUENCE_ATTRIBUTES) + { + if ((w->status = writeStartTag(w, False)) != GENX_SUCCESS) + return w->status; + w->sequence = SEQUENCE_CONTENT; + } + + if (!isXMLChar(w, c)) + return w->status = GENX_NON_XML_CHARACTER; + + if (w->sequence == SEQUENCE_START_ATTR) + { + int done = 1; + collector* value = &w->nowStartingAttr->value; + + switch(c) + { + case 9: + collectPiece(w, value, " ", 5); + break; + case 0xa: + collectPiece(w, value, " ", 5); + break; + case 0xd: + collectPiece(w, value, " ", 5); + break; + case '"': + collectPiece(w, value, """, 6); + break; + case '<': + collectPiece(w, value, "<", 4); + break; + case '&': + collectPiece(w, value, "&", 5); + break; + /* + case '>': + collectPiece(w, value, ">", 4); + break; + */ + default: + done = 0; + break; + } + + if (done) + return GENX_SUCCESS; + } + + /* make UTF8 representation of character */ + lasts = breaker = next = cUTF8; + + if (c < 0x80) + *next++ = c; + else if (c < 0x800) + { + *next++ = 0xc0 | (c >> 6); + *next++ = 0x80 | (c & 0x3f); + } + else if (c < 0x10000) + { + *next++ = 0xe0 | (c >> 12); + *next++ = 0x80 | ((c & 0xfc0) >> 6); + *next++ = 0x80 | (c & 0x3f); + } + else + { + *next++ = 0xf0 | (c >> 18); + *next++ = 0x80 | ((c & 0x3f000) >> 12); + *next++ = 0x80 | ((c & 0xfc0) >> 6); + *next++ = 0x80 | (c & 0x3f); + } + *next = 0; + + if (w->sequence == SEQUENCE_CONTENT) + { + w->status = + addChar(w, c, next, (constUtf8 *) &lasts, (constUtf8 *) &breaker); + + if (w->status != GENX_SUCCESS) + return w->status; + + return sendxBounded(w, breaker, next); + } + else if (w->sequence == SEQUENCE_START_ATTR) + { + collectPiece(w, &w->nowStartingAttr->value, + (const char *) cUTF8, next - cUTF8); + return GENX_SUCCESS; + } + else + return w->status = GENX_SEQUENCE_ERROR; +} + +genxStatus genxEndDocument(genxWriter w) +{ + if (w->sequence != SEQUENCE_POST_DOC) + return w->status = GENX_SEQUENCE_ERROR; + + /* Write a newline after the closing tag. */ + SendCheck (w, "\n"); + + if ((w->status = (*w->sender->flush)(w->userData)) != GENX_SUCCESS) + return w->status; + + w->sequence = SEQUENCE_NO_DOC; + return GENX_SUCCESS; +} + +genxStatus genxXmlDeclaration(genxWriter w, + constUtf8 ver, + constUtf8 enc, + constUtf8 stl) +{ + if (w->sequence != SEQUENCE_PRE_DOC) + return w->status = GENX_SEQUENCE_ERROR; + + if ((w->status = genxCheckText(w, ver)) != GENX_SUCCESS) + return w->status; + + if (enc != NULL && (w->status = genxCheckText(w, enc)) != GENX_SUCCESS) + return w->status; + + if (stl != NULL && (w->status = genxCheckText(w, stl)) != GENX_SUCCESS) + return w->status; + + SendCheck (w, "\n"); + + return GENX_SUCCESS; +} + +genxStatus genxComment(genxWriter w, constUtf8 text) +{ + int i; + + if (w->sequence == SEQUENCE_NO_DOC || + w->sequence == SEQUENCE_START_ATTR) + return w->status = GENX_SEQUENCE_ERROR; + + if ((w->status = genxCheckText(w, text)) != GENX_SUCCESS) + return w->status; + + /* no leading '-', no trailing '-', no '--' */ + if (text[0] == '-') + return w->status = GENX_MALFORMED_COMMENT; + for (i = 0; text[i]; i++) + if (text[i] == '-' && (text[i + 1] == '-' || text[i + 1] == 0)) + return w->status = GENX_MALFORMED_COMMENT; + + if (w->sequence == SEQUENCE_START_TAG || + w->sequence == SEQUENCE_ATTRIBUTES) + { + if ((w->status = writeStartTag(w, False)) != GENX_SUCCESS) + return w->status; + w->sequence = SEQUENCE_CONTENT; + } + + else if (w->sequence == SEQUENCE_POST_DOC) + if ((w->status = sendx(w, (utf8) "\n")) != GENX_SUCCESS) + return w->status; + + if ((w->status = sendx(w, (utf8) "")) != GENX_SUCCESS) + return w->status; + + if (w->sequence == SEQUENCE_PRE_DOC) + if ((w->status = sendx(w, (utf8) "\n")) != GENX_SUCCESS) + return w->status; + + return GENX_SUCCESS; +} + +genxStatus genxPI(genxWriter w, constUtf8 target, constUtf8 text) +{ + int i; + + if (w->sequence == SEQUENCE_NO_DOC || + w->sequence == SEQUENCE_START_ATTR) + return w->status = GENX_SEQUENCE_ERROR; + + if ((w->status = genxCheckText(w, target)) != GENX_SUCCESS) + return w->status; + if ((w->status = checkNCName(w, target)) != GENX_SUCCESS) + return w->status; + if ((strlen((const char *) target) >= 3) && + (target[0] == 'x' || target[0] == 'X') && + (target[1] == 'm' || target[1] == 'M') && + (target[2] == 'l' || target[2] == 'L') && + (target[3] == 0)) + return w->status = GENX_XML_PI_TARGET; + + if ((w->status = genxCheckText(w, text)) != GENX_SUCCESS) + return w->status; + + /* no ?> within */ + for (i = 1; text[i]; i++) + if (text[i] == '>' && text[i - 1] == '?') + return w->status = GENX_MALFORMED_PI; + + if (w->sequence == SEQUENCE_START_TAG || + w->sequence == SEQUENCE_ATTRIBUTES) + { + if ((w->status = writeStartTag(w, False)) != GENX_SUCCESS) + return w->status; + w->sequence = SEQUENCE_CONTENT; + } + + else if (w->sequence == SEQUENCE_POST_DOC) + if ((w->status = sendx(w, (utf8) "\n")) != GENX_SUCCESS) + return w->status; + + if ((w->status = sendx(w, (utf8) "status; + if ((w->status = sendx(w, target)) != GENX_SUCCESS) + return w->status; + if (text[0]) + { + if ((w->status = sendx(w, (utf8) " ")) != GENX_SUCCESS) + return w->status; + if ((w->status = sendx(w, text)) != GENX_SUCCESS) + return w->status; + } + if ((w->status = sendx(w, (utf8) "?>")) != GENX_SUCCESS) + return w->status; + + if (w->sequence == SEQUENCE_PRE_DOC) + if ((w->status = sendx(w, (utf8) "\n")) != GENX_SUCCESS) + return w->status; + + return GENX_SUCCESS; +} + +/******************************* + * Literal versions of the writing routines + */ +genxStatus genxStartElementLiteral(genxWriter w, + constUtf8 xmlns, constUtf8 type) +{ + genxNamespace ns = NULL; + genxElement e; + + if (xmlns) + { + ns = genxDeclareNamespace(w, xmlns, NULL, &w->status); + if (ns == NULL || w->status != GENX_SUCCESS) + return w->status; + } + e = genxDeclareElement(w, ns, type, &w->status); + if (e == NULL || w->status != GENX_SUCCESS) + return w->status; + + return genxStartElement(e); +} + +genxStatus genxAddAttributeLiteral(genxWriter w, constUtf8 xmlns, + constUtf8 name, constUtf8 value) +{ + genxNamespace ns = NULL; + genxAttribute a; + + if (xmlns) + { + ns = genxDeclareNamespace(w, xmlns, NULL, &w->status); + if (ns == NULL && w->status != GENX_SUCCESS) + return w->status; + } + + a = genxDeclareAttribute(w, ns, name, &w->status); + if (a == NULL || w->status != GENX_SUCCESS) + return w->status; + + return genxAddAttribute(a, value); +} + +genxStatus genxStartAttributeLiteral(genxWriter w, + constUtf8 xmlns, constUtf8 name) +{ + genxNamespace ns = NULL; + genxAttribute a; + + if (xmlns) + { + ns = genxDeclareNamespace(w, xmlns, NULL, &w->status); + if (ns == NULL && w->status != GENX_SUCCESS) + return w->status; + } + + a = genxDeclareAttribute(w, ns, name, &w->status); + if (a == NULL || w->status != GENX_SUCCESS) + return w->status; + + return genxStartAttribute(a); +} + +genxStatus genxAddNamespaceLiteral(genxWriter w, + constUtf8 uri, constUtf8 prefix) +{ + genxNamespace ns = genxDeclareNamespace(w, uri, prefix, &w->status); + if (ns == NULL && w->status != GENX_SUCCESS) + return w->status; + + return genxAddNamespace(ns, NULL); +} + +/* + * return version + */ +char * genxGetVersion() +{ + return GENX_VERSION; +} diff --git a/cutl/details/genx/genx.h b/cutl/details/genx/genx.h new file mode 100644 index 0000000..d41c4d0 --- /dev/null +++ b/cutl/details/genx/genx.h @@ -0,0 +1,341 @@ +/* + * genx - C-callable library for generating XML documents + */ + +/* + * Copyright (c) 2007-2013 Code Synthesis Tools CC. + * Copyright (c) 2004 by Tim Bray and Sun Microsystems. + * + * For copying permission, see the accompanying COPYING file. + */ + +#ifndef GENX_H +#define GENX_H + +#ifdef __cplusplus +extern "C" { +#endif + +/* + * Note on error handling: genx routines mostly return + * GENX_SUCCESS (guaranteed to be zero) in normal circumstances, one of + * these other GENX_ values on a memory allocation or I/O failure or if the + * call would result in non-well-formed output. + * You can associate an error message with one of these codes explicitly + * or with the most recent error using genxGetErrorMessage() and + * genxLastErrorMessage(); see below. + */ +typedef enum +{ + GENX_SUCCESS = 0, + GENX_BAD_UTF8, + GENX_NON_XML_CHARACTER, + GENX_BAD_NAME, + GENX_ALLOC_FAILED, + GENX_BAD_NAMESPACE_NAME, + GENX_INTERNAL_ERROR, + GENX_DUPLICATE_PREFIX, + GENX_SEQUENCE_ERROR, + GENX_NO_START_TAG, + GENX_IO_ERROR, + GENX_MISSING_VALUE, + GENX_MALFORMED_COMMENT, + GENX_XML_PI_TARGET, + GENX_MALFORMED_PI, + GENX_DUPLICATE_ATTRIBUTE, + GENX_ATTRIBUTE_IN_DEFAULT_NAMESPACE, + GENX_DUPLICATE_NAMESPACE, + GENX_BAD_DEFAULT_DECLARATION +} genxStatus; + +/* character types */ +#define GENX_XML_CHAR 1 +#define GENX_LETTER 2 +#define GENX_NAMECHAR 4 + +/* The size of the character table. Valid values are 0x100 (first 255 + chars are checked) and 0x10000 (all chars are checked). */ +#ifndef GENX_CHAR_TABLE_SIZE +# define GENX_CHAR_TABLE_SIZE 0x100 +#endif + +/* a UTF-8 string */ +typedef unsigned char * utf8; +typedef const unsigned char * constUtf8; + +/* + * genx's own types + */ +typedef struct genxWriter_rec * genxWriter; +typedef struct genxNamespace_rec * genxNamespace; +typedef struct genxElement_rec * genxElement; +typedef struct genxAttribute_rec * genxAttribute; + +typedef void * (*genxAlloc) (void * userData, int bytes); +typedef void (*genxDealloc) (void * userData, void* data); + +/* + * Constructors, set/get + */ + +/* + * Create a new writer. For generating multiple XML documents, it's most + * efficient to re-use the same genx object. However, you can only write + * one document at a time with a writer. + * Returns NULL if it fails, which can only be due to an allocation failure. + */ +genxWriter genxNew(genxAlloc alloc, genxDealloc dealloc, void * userData); + +/* + * Reset the writer object back into usable state after an error or + * interruption. + */ +genxStatus genxReset (genxWriter w); + +/* + * Dispose of a writer, freeing all associated memory + */ +void genxDispose(genxWriter w); + +/* + * Set/get + */ + +/* + * The userdata pointer will be passed to memory-allocation + * and I/O callbacks. If not set, genx will pass NULL + */ +void genxSetUserData(genxWriter w, void * userData); +void * genxGetUserData(genxWriter w); + +/* + * Set/get pretty-printing. If indentation is set to 0, then no pretty- + * printing is performed. + */ +genxStatus genxSetPrettyPrint(genxWriter w, int indentation); +int genxGetPrettyPrint(genxWriter w); + +/* + * Set/get canonicalization. If true, then output explicit closing + * tags and sort attributes. Default is false. + */ +genxStatus genxSetCanonical(genxWriter w, int flag); +int genxGetCanonical(genxWriter w); + +/* + * User-provided memory allocator, if desired. For example, if you were + * in an Apache module, you could arrange for genx to use ap_palloc by + * making the pool accessible via the userData call. + * The "dealloc" is to be used to free memory allocated with "alloc". If + * alloc is provided but dealloc is NULL, genx will not attempt to free + * the memory; this would be appropriate in an Apache context. + * If "alloc" is not provided, genx routines use malloc() to allocate memory + */ +void genxSetAlloc(genxWriter w, genxAlloc alloc); +void genxSetDealloc(genxWriter w, genxDealloc dealloc); +genxAlloc genxGetAlloc(genxWriter w); +genxDealloc genxGetDealloc(genxWriter w); + +/* + * Get the prefix associated with a namespace + */ +utf8 genxGetNamespacePrefix(genxNamespace ns); + +/* + * Declaration functions + */ + +/* + * Declare a namespace. The provided prefix is the default but can be + * overridden by genxAddNamespace. If no default prefiix is provided, + * genx will generate one of the form g-%d. + * On error, returns NULL and signals via statusp + */ +genxNamespace genxDeclareNamespace(genxWriter w, + constUtf8 uri, constUtf8 prefix, + genxStatus * statusP); + +/* + * Declare an element + * If something failed, returns NULL and sets the status code via statusP + */ +genxElement genxDeclareElement(genxWriter w, + genxNamespace ns, constUtf8 type, + genxStatus * statusP); + +/* + * Declare an attribute + */ +genxAttribute genxDeclareAttribute(genxWriter w, + genxNamespace ns, + constUtf8 name, genxStatus * statusP); + +/* + * Writing XML + */ + +/* + * Caller-provided I/O package. + * First form is for a null-terminated string. + * for second, if you have s="abcdef" and want to send "abc", you'd call + * sendBounded(userData, s, s + 3) + */ +typedef struct +{ + genxStatus (* send)(void * userData, constUtf8 s); + genxStatus (* sendBounded)(void * userData, constUtf8 start, constUtf8 end); + genxStatus (* flush)(void * userData); +} genxSender; + +genxStatus genxStartDocSender(genxWriter w, genxSender * sender); + +/* + * End a document. Calls "flush" + */ +genxStatus genxEndDocument(genxWriter w); + +/* + * Write XML declaration. If encoding or standalone are NULL, then those + * attributes are omitted. + */ +genxStatus genxXmlDeclaration(genxWriter w, + constUtf8 version, + constUtf8 encoding, + constUtf8 standalone); +/* + * Write a comment + */ +genxStatus genxComment(genxWriter w, constUtf8 text); + +/* + * Write a PI + */ +genxStatus genxPI(genxWriter w, constUtf8 target, constUtf8 text); + +/* + * Start an element + */ +genxStatus genxStartElementLiteral(genxWriter w, + constUtf8 xmlns, constUtf8 type); + +/* + * Start a predeclared element + * - element must have been declared + */ +genxStatus genxStartElement(genxElement e); + +/* + * Write an attribute + */ +genxStatus genxAddAttributeLiteral(genxWriter w, constUtf8 xmlns, + constUtf8 name, constUtf8 value); + +/* + * Start an attribute + */ +genxStatus genxStartAttributeLiteral(genxWriter w, + constUtf8 xmlns, constUtf8 name); + +/* + * Write a predeclared attribute + */ +genxStatus genxAddAttribute(genxAttribute a, constUtf8 value); + +/* + * Start a predeclared attribute + */ +genxStatus genxStartAttribute(genxAttribute a); + +/* + * End an attribute + */ +genxStatus genxEndAttribute(genxWriter w); + +/* + * add a namespace declaration + */ +genxStatus genxAddNamespaceLiteral(genxWriter w, + constUtf8 uri, constUtf8 prefix); + +/* + * add a predefined namespace declaration + */ +genxStatus genxAddNamespace(genxNamespace ns, constUtf8 prefix); + +/* + * Clear default namespace declaration + */ +genxStatus genxUnsetDefaultNamespace(genxWriter w); + +/* + * Write an end tag + */ +genxStatus genxEndElement(genxWriter w); + +/* + * Write some text + * You can't write any text outside the root element, except with + * genxComment and genxPI + */ +genxStatus genxAddText(genxWriter w, constUtf8 start); +genxStatus genxAddCountedText(genxWriter w, constUtf8 start, int byteCount); +genxStatus genxAddBoundedText(genxWriter w, constUtf8 start, constUtf8 end); + +/* + * Write one character. The integer value is the Unicode character + * value, as usually expressed in U+XXXX notation. + */ +genxStatus genxAddCharacter(genxWriter w, int c); + +/* + * Utility routines + */ + +/* + * Return the Unicode character encoded by the UTF-8 pointed-to by the + * argument, and advance the argument past the encoding of the character. + * Returns -1 if the UTF-8 is malformed, in which case advances the + * argument to point at the first byte past the point past the malformed + * ones. + */ +int genxNextUnicodeChar(constUtf8 * sp); + +/* + * Scan a buffer allegedly full of UTF-8 encoded XML characters; return + * one of GENX_SUCCESS, GENX_BAD_UTF8, or GENX_NON_XML_CHARACTER + */ +genxStatus genxCheckText(genxWriter w, constUtf8 s); + +/* + * return character status, the OR of GENX_XML_CHAR, + * GENX_LETTER, and GENX_NAMECHAR + */ +int genxCharClass(genxWriter w, int c); + +/* + * Silently wipe any non-XML characters out of a chunk of text. + * If you call this on a string before you pass it addText or + * addAttribute, you will never get an error from genx unless + * (a) there's a bug in your software, e.g. a malformed element name, or + * (b) there's a memory allocation or I/O error + * The output can never be longer than the input. + * Returns true if any changes were made. + */ +int genxScrubText(genxWriter w, constUtf8 in, utf8 out); + +/* + * return error messages + */ +char * genxGetErrorMessage(genxWriter w, genxStatus status); +char * genxLastErrorMessage(genxWriter w); + +/* + * return version + */ +char * genxGetVersion(); + +#ifdef __cplusplus +} +#endif + +#endif /* GENX_H */ -- cgit v1.1