Mercurial > vim
view src/os_mac_conv.c @ 35788:5455083f7e87
runtime(progress): Add syntax test for comments
Commit: https://github.com/vim/vim/commit/408bd9ffe7e4d1f0891582edcbc4ab4c2a7df4bf
Author: Daniel Smith <daniel@rdnlsmith.com>
Date: Thu Jul 25 20:54:57 2024 +0200
runtime(progress): Add syntax test for comments
We intend to update the Progress syntax file to support the single-line comment
syntax that was introduced in Progress OpenEdge 11.6. As there are no existing
tests for this file, we should first add one that demonstrates the comment
syntax that is already supported.
related: #15339
Signed-off-by: Daniel Smith <daniel@rdnlsmith.com>
Signed-off-by: Christian Brabandt <cb@256bit.org>
author | Christian Brabandt <cb@256bit.org> |
---|---|
date | Thu, 25 Jul 2024 21:00:13 +0200 |
parents | 50555279168b |
children |
line wrap: on
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/* vi:set ts=8 sts=4 sw=4 noet: * * VIM - Vi IMproved by Bram Moolenaar * * Do ":help uganda" in Vim to read copying and usage conditions. * Do ":help credits" in Vim to see a list of people who contributed. * See README.txt for an overview of the Vim source code. */ /* * os_mac_conv.c: Code specifically for Mac string conversions. * * This code has been put in a separate file to avoid the conflicts that are * caused by including both the X11 and Carbon header files. */ #define NO_X11_INCLUDES #include "vim.h" #if !defined(PROTO) # include <CoreServices/CoreServices.h> #endif #if defined(MACOS_CONVERT) || defined(PROTO) # ifdef PROTO // A few dummy types to be able to generate function prototypes. typedef int UniChar; typedef int *TECObjectRef; typedef int CFStringRef; # endif static char_u *mac_utf16_to_utf8(UniChar *from, size_t fromLen, size_t *actualLen); static UniChar *mac_utf8_to_utf16(char_u *from, size_t fromLen, size_t *actualLen); // Converter for composing decomposed HFS+ file paths static TECObjectRef gPathConverter; // Converter used by mac_utf16_to_utf8 static TECObjectRef gUTF16ToUTF8Converter; /* * A Mac version of string_convert_ext() for special cases. */ char_u * mac_string_convert( char_u *ptr, int len, int *lenp, int fail_on_error, int from_enc, int to_enc, int *unconvlenp) { char_u *retval, *d; CFStringRef cfstr; int buflen, in, out, l, i; CFStringEncoding from; CFStringEncoding to; switch (from_enc) { case 'l': from = kCFStringEncodingISOLatin1; break; case 'm': from = kCFStringEncodingMacRoman; break; case 'u': from = kCFStringEncodingUTF8; break; default: return NULL; } switch (to_enc) { case 'l': to = kCFStringEncodingISOLatin1; break; case 'm': to = kCFStringEncodingMacRoman; break; case 'u': to = kCFStringEncodingUTF8; break; default: return NULL; } if (unconvlenp != NULL) *unconvlenp = 0; cfstr = CFStringCreateWithBytes(NULL, ptr, len, from, 0); if (cfstr == NULL) fprintf(stderr, "Encoding failed\n"); // When conversion failed, try excluding bytes from the end, helps when // there is an incomplete byte sequence. Only do up to 6 bytes to avoid // looping a long time when there really is something unconvertible. while (cfstr == NULL && unconvlenp != NULL && len > 1 && *unconvlenp < 6) { --len; ++*unconvlenp; cfstr = CFStringCreateWithBytes(NULL, ptr, len, from, 0); } if (cfstr == NULL) return NULL; if (to == kCFStringEncodingUTF8) buflen = len * 6 + 1; else buflen = len + 1; retval = alloc(buflen); if (retval == NULL) { CFRelease(cfstr); return NULL; } #if 0 CFRange convertRange = CFRangeMake(0, CFStringGetLength(cfstr)); // Determine output buffer size CFStringGetBytes(cfstr, convertRange, to, NULL, FALSE, NULL, 0, (CFIndex *)&buflen); retval = (buflen > 0) ? alloc(buflen) : NULL; if (retval == NULL) { CFRelease(cfstr); return NULL; } if (lenp) *lenp = buflen / sizeof(char_u); if (!CFStringGetBytes(cfstr, convertRange, to, NULL, FALSE, retval, buflen, NULL)) #endif if (!CFStringGetCString(cfstr, (char *)retval, buflen, to)) { CFRelease(cfstr); if (fail_on_error) { vim_free(retval); return NULL; } fprintf(stderr, "Trying char-by-char conversion...\n"); // conversion failed for the whole string, but maybe it will work // for each character for (d = retval, in = 0, out = 0; in < len && out < buflen - 1;) { if (from == kCFStringEncodingUTF8) l = utf_ptr2len(ptr + in); else l = 1; cfstr = CFStringCreateWithBytes(NULL, ptr + in, l, from, 0); if (cfstr == NULL) { *d++ = '?'; out++; } else { if (!CFStringGetCString(cfstr, (char *)d, buflen - out, to)) { *d++ = '?'; out++; } else { i = STRLEN(d); d += i; out += i; } CFRelease(cfstr); } in += l; } *d = NUL; if (lenp != NULL) *lenp = out; return retval; } CFRelease(cfstr); if (lenp != NULL) *lenp = STRLEN(retval); return retval; } /* * Conversion from Apple MacRoman char encoding to UTF-8 or latin1, using * standard Carbon framework. * Input: "ptr[*sizep]". * "real_size" is the size of the buffer that "ptr" points to. * output is in-place, "sizep" is adjusted. * Returns OK or FAIL. */ int macroman2enc( char_u *ptr, long *sizep, long real_size) { CFStringRef cfstr; CFRange r; CFIndex len = *sizep; // MacRoman is an 8-bit encoding, no need to move bytes to // conv_rest[]. cfstr = CFStringCreateWithBytes(NULL, ptr, len, kCFStringEncodingMacRoman, 0); /* * If there is a conversion error, try using another * conversion. */ if (cfstr == NULL) return FAIL; r.location = 0; r.length = CFStringGetLength(cfstr); if (r.length != CFStringGetBytes(cfstr, r, (enc_utf8) ? kCFStringEncodingUTF8 : kCFStringEncodingISOLatin1, 0, // no lossy conversion 0, // not external representation ptr + *sizep, real_size - *sizep, &len)) { CFRelease(cfstr); return FAIL; } CFRelease(cfstr); mch_memmove(ptr, ptr + *sizep, len); *sizep = len; return OK; } /* * Conversion from UTF-8 or latin1 to MacRoman. * Input: "from[fromlen]" * Output: "to[maxtolen]" length in "*tolenp" * Unconverted rest in rest[*restlenp]. * Returns OK or FAIL. */ int enc2macroman( char_u *from, size_t fromlen, char_u *to, int *tolenp, int maxtolen, char_u *rest, int *restlenp) { CFStringRef cfstr; CFRange r; CFIndex l; *restlenp = 0; cfstr = CFStringCreateWithBytes(NULL, from, fromlen, (enc_utf8) ? kCFStringEncodingUTF8 : kCFStringEncodingISOLatin1, 0); while (cfstr == NULL && *restlenp < 3 && fromlen > 1) { rest[*restlenp++] = from[--fromlen]; cfstr = CFStringCreateWithBytes(NULL, from, fromlen, (enc_utf8) ? kCFStringEncodingUTF8 : kCFStringEncodingISOLatin1, 0); } if (cfstr == NULL) return FAIL; r.location = 0; r.length = CFStringGetLength(cfstr); if (r.length != CFStringGetBytes(cfstr, r, kCFStringEncodingMacRoman, 0, // no lossy conversion 0, // not external representation (since vim // handles this internally) to, maxtolen, &l)) { CFRelease(cfstr); return FAIL; } CFRelease(cfstr); *tolenp = l; return OK; } /* * Initializes text converters */ void mac_conv_init(void) { TextEncoding utf8_encoding; TextEncoding utf8_hfsplus_encoding; TextEncoding utf8_canon_encoding; TextEncoding utf16_encoding; utf8_encoding = CreateTextEncoding(kTextEncodingUnicodeDefault, kTextEncodingDefaultVariant, kUnicodeUTF8Format); utf8_hfsplus_encoding = CreateTextEncoding(kTextEncodingUnicodeDefault, kUnicodeHFSPlusCompVariant, kUnicodeUTF8Format); utf8_canon_encoding = CreateTextEncoding(kTextEncodingUnicodeDefault, kUnicodeCanonicalCompVariant, kUnicodeUTF8Format); utf16_encoding = CreateTextEncoding(kTextEncodingUnicodeDefault, kTextEncodingDefaultVariant, kUnicode16BitFormat); if (TECCreateConverter(&gPathConverter, utf8_encoding, utf8_hfsplus_encoding) != noErr) gPathConverter = NULL; if (TECCreateConverter(&gUTF16ToUTF8Converter, utf16_encoding, utf8_canon_encoding) != noErr) { // On pre-10.3, Unicode normalization is not available so // fall back to non-normalizing converter if (TECCreateConverter(&gUTF16ToUTF8Converter, utf16_encoding, utf8_encoding) != noErr) gUTF16ToUTF8Converter = NULL; } } /* * Destroys text converters */ void mac_conv_cleanup(void) { if (gUTF16ToUTF8Converter) { TECDisposeConverter(gUTF16ToUTF8Converter); gUTF16ToUTF8Converter = NULL; } if (gPathConverter) { TECDisposeConverter(gPathConverter); gPathConverter = NULL; } } /* * Conversion from UTF-16 UniChars to 'encoding' * The function signature uses the real type of UniChar (as typedef'ed in * CFBase.h) to avoid clashes with X11 header files in the .pro file */ char_u * mac_utf16_to_enc( unsigned short *from, size_t fromLen, size_t *actualLen) { // Following code borrows somewhat from os_mswin.c vimconv_T conv; size_t utf8_len; char_u *utf8_str; char_u *result = NULL; // Convert to utf-8 first, works better with iconv utf8_len = 0; utf8_str = mac_utf16_to_utf8(from, fromLen, &utf8_len); if (utf8_str) { // We might be called before we have p_enc set up. conv.vc_type = CONV_NONE; // If encoding (p_enc) is any unicode, it is actually in utf-8 (vim // internal unicode is always utf-8) so don't convert in such cases if ((enc_canon_props(p_enc) & ENC_UNICODE) == 0) convert_setup(&conv, (char_u *)"utf-8", p_enc? p_enc: (char_u *)"macroman"); if (conv.vc_type == CONV_NONE) { // p_enc is utf-8, so we're done. result = utf8_str; } else { result = string_convert(&conv, utf8_str, (int *)&utf8_len); vim_free(utf8_str); } convert_setup(&conv, NULL, NULL); if (actualLen) *actualLen = utf8_len; } else if (actualLen) *actualLen = 0; return result; } /* * Conversion from 'encoding' to UTF-16 UniChars * The function return uses the real type of UniChar (as typedef'ed in * CFBase.h) to avoid clashes with X11 header files in the .pro file */ unsigned short * mac_enc_to_utf16( char_u *from, size_t fromLen, size_t *actualLen) { // Following code borrows somewhat from os_mswin.c vimconv_T conv; size_t utf8_len; char_u *utf8_str; UniChar *result = NULL; Boolean should_free_utf8 = FALSE; do { // Use MacRoman by default, we might be called before we have p_enc // set up. Convert to utf-8 first, works better with iconv(). Does // nothing if 'encoding' is "utf-8". conv.vc_type = CONV_NONE; if ((enc_canon_props(p_enc) & ENC_UNICODE) == 0 && convert_setup(&conv, p_enc ? p_enc : (char_u *)"macroman", (char_u *)"utf-8") == FAIL) break; if (conv.vc_type != CONV_NONE) { utf8_len = fromLen; utf8_str = string_convert(&conv, from, (int *)&utf8_len); should_free_utf8 = TRUE; } else { utf8_str = from; utf8_len = fromLen; } if (utf8_str == NULL) break; convert_setup(&conv, NULL, NULL); result = mac_utf8_to_utf16(utf8_str, utf8_len, actualLen); if (should_free_utf8) vim_free(utf8_str); return result; } while (0); if (actualLen) *actualLen = 0; return result; } /* * Converts from UTF-16 UniChars to CFString * The void * return type is actually a CFStringRef */ void * mac_enc_to_cfstring( char_u *from, size_t fromLen) { UniChar *utf16_str; size_t utf16_len; CFStringRef result = NULL; utf16_str = mac_enc_to_utf16(from, fromLen, &utf16_len); if (utf16_str) { result = CFStringCreateWithCharacters(NULL, utf16_str, utf16_len/sizeof(UniChar)); vim_free(utf16_str); } return (void *)result; } /* * Converts a decomposed HFS+ UTF-8 path to precomposed UTF-8 */ char_u * mac_precompose_path( char_u *decompPath, size_t decompLen, size_t *precompLen) { char_u *result = NULL; size_t actualLen = 0; if (gPathConverter) { result = alloc(decompLen); if (result) { if (TECConvertText(gPathConverter, decompPath, decompLen, &decompLen, result, decompLen, &actualLen) != noErr) VIM_CLEAR(result); } } if (precompLen) *precompLen = actualLen; return result; } /* * Converts from UTF-16 UniChars to precomposed UTF-8 */ static char_u * mac_utf16_to_utf8( UniChar *from, size_t fromLen, size_t *actualLen) { ByteCount utf8_len; ByteCount inputRead; char_u *result; if (gUTF16ToUTF8Converter) { result = alloc(fromLen * 6 + 1); if (result && TECConvertText(gUTF16ToUTF8Converter, (ConstTextPtr)from, fromLen, &inputRead, result, (fromLen*6+1)*sizeof(char_u), &utf8_len) == noErr) { TECFlushText(gUTF16ToUTF8Converter, result, (fromLen*6+1)*sizeof(char_u), &inputRead); utf8_len += inputRead; } else VIM_CLEAR(result); } else { result = NULL; } if (actualLen) *actualLen = result ? utf8_len : 0; return result; } /* * Converts from UTF-8 to UTF-16 UniChars */ static UniChar * mac_utf8_to_utf16( char_u *from, size_t fromLen, size_t *actualLen) { CFStringRef utf8_str; CFRange convertRange; UniChar *result = NULL; utf8_str = CFStringCreateWithBytes(NULL, from, fromLen, kCFStringEncodingUTF8, FALSE); if (utf8_str == NULL) { if (actualLen) *actualLen = 0; return NULL; } convertRange = CFRangeMake(0, CFStringGetLength(utf8_str)); result = ALLOC_MULT(UniChar, convertRange.length); CFStringGetCharacters(utf8_str, convertRange, result); CFRelease(utf8_str); if (actualLen) *actualLen = convertRange.length * sizeof(UniChar); return result; } /* * Sets LANG environment variable in Vim from Mac locale */ void mac_lang_init(void) { if (mch_getenv((char_u *)"LANG") != NULL) return; char buf[50]; // $LANG is not set, either because it was unset or Vim was started // from the Dock. Query the system locale. if (LocaleRefGetPartString(NULL, kLocaleLanguageMask | kLocaleLanguageVariantMask | kLocaleRegionMask | kLocaleRegionVariantMask, sizeof(buf) - 10, buf) == noErr && *buf) { if (strcasestr(buf, "utf-8") == NULL) strcat(buf, ".UTF-8"); vim_setenv((char_u *)"LANG", (char_u *)buf); # ifdef HAVE_LOCALE_H setlocale(LC_ALL, ""); # endif # if defined(LC_NUMERIC) // Make sure strtod() uses a decimal point, not a comma. setlocale(LC_NUMERIC, "C"); # endif } } #endif // MACOS_CONVERT