usr.bin/make/str.h

1.2  rillig /*	$NetBSD: str.h,v 1.2 2021/04/11 18:44:57 rillig Exp $	*/
1.1  rillig
1.1  rillig /*
1.1  rillig  Copyright (c) 2021 Roland Illig <rillig (at) NetBSD.org>
1.1  rillig  All rights reserved.
1.1  rillig
1.1  rillig  Redistribution and use in source and binary forms, with or without
1.1  rillig  modification, are permitted provided that the following conditions
1.1  rillig  are met:
1.1  rillig
1.1  rillig  1. Redistributions of source code must retain the above copyright
1.1  rillig     notice, this list of conditions and the following disclaimer.
1.1  rillig  2. Redistributions in binary form must reproduce the above copyright
1.1  rillig     notice, this list of conditions and the following disclaimer in the
1.1  rillig     documentation and/or other materials provided with the distribution.
1.1  rillig
1.1  rillig  THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
1.1  rillig  "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
1.1  rillig  TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
1.1  rillig  PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS
1.1  rillig  BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
1.1  rillig  CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
1.1  rillig  SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
1.1  rillig  INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
1.1  rillig  CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
1.1  rillig  ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
1.1  rillig  POSSIBILITY OF SUCH DAMAGE.
1.1  rillig  */
1.1  rillig
1.1  rillig
1.1  rillig /*
1.1  rillig  * Memory-efficient string handling.
1.1  rillig  */
1.1  rillig
1.1  rillig
1.1  rillig /* A read-only string that may need to be freed after use. */
1.1  rillig typedef struct FStr {
1.1  rillig 	const char *str;
1.1  rillig 	void *freeIt;
1.1  rillig } FStr;
1.1  rillig
1.1  rillig /* A modifiable string that may need to be freed after use. */
1.1  rillig typedef struct MFStr {
1.1  rillig 	char *str;
1.1  rillig 	void *freeIt;
1.1  rillig } MFStr;
1.1  rillig
1.1  rillig /* A read-only range of a character array, NOT null-terminated. */
1.1  rillig typedef struct {
1.1  rillig 	const char *start;
1.1  rillig 	const char *end;
1.1  rillig } Substring;
1.1  rillig
1.1  rillig /*
1.1  rillig  * Builds a string, only allocating memory if the string is different from the
1.1  rillig  * expected string.
1.1  rillig  */
1.1  rillig typedef struct LazyBuf {
1.1  rillig 	char *data;
1.1  rillig 	size_t len;
1.1  rillig 	size_t cap;
1.1  rillig 	Substring expected;
1.1  rillig 	void *freeIt;
1.1  rillig } LazyBuf;
1.1  rillig
1.1  rillig /* The result of splitting a string into words. */
1.1  rillig typedef struct Words {
1.1  rillig 	char **words;
1.1  rillig 	size_t len;
1.1  rillig 	void *freeIt;
1.1  rillig } Words;
1.1  rillig
1.1  rillig
1.1  rillig MAKE_INLINE FStr
1.1  rillig FStr_Init(const char *str, void *freeIt)
1.1  rillig {
1.1  rillig 	FStr fstr;
1.1  rillig 	fstr.str = str;
1.1  rillig 	fstr.freeIt = freeIt;
1.1  rillig 	return fstr;
1.1  rillig }
1.1  rillig
1.1  rillig /* Return a string that is the sole owner of str. */
1.1  rillig MAKE_INLINE FStr
1.1  rillig FStr_InitOwn(char *str)
1.1  rillig {
1.1  rillig 	return FStr_Init(str, str);
1.1  rillig }
1.1  rillig
1.1  rillig /* Return a string that refers to the shared str. */
1.1  rillig MAKE_INLINE FStr
1.1  rillig FStr_InitRefer(const char *str)
1.1  rillig {
1.1  rillig 	return FStr_Init(str, NULL);
1.1  rillig }
1.1  rillig
1.1  rillig MAKE_INLINE void
1.1  rillig FStr_Done(FStr *fstr)
1.1  rillig {
1.1  rillig 	free(fstr->freeIt);
1.1  rillig #ifdef CLEANUP
1.1  rillig 	fstr->str = NULL;
1.1  rillig 	fstr->freeIt = NULL;
1.1  rillig #endif
1.1  rillig }
1.1  rillig
1.1  rillig
1.1  rillig MAKE_INLINE MFStr
1.1  rillig MFStr_Init(char *str, void *freeIt)
1.1  rillig {
1.1  rillig 	MFStr mfstr;
1.1  rillig 	mfstr.str = str;
1.1  rillig 	mfstr.freeIt = freeIt;
1.1  rillig 	return mfstr;
1.1  rillig }
1.1  rillig
1.1  rillig /* Return a string that is the sole owner of str. */
1.1  rillig MAKE_INLINE MFStr
1.1  rillig MFStr_InitOwn(char *str)
1.1  rillig {
1.1  rillig 	return MFStr_Init(str, str);
1.1  rillig }
1.1  rillig
1.1  rillig /* Return a string that refers to the shared str. */
1.1  rillig MAKE_INLINE MFStr
1.1  rillig MFStr_InitRefer(char *str)
1.1  rillig {
1.1  rillig 	return MFStr_Init(str, NULL);
1.1  rillig }
1.1  rillig
1.1  rillig MAKE_INLINE void
1.1  rillig MFStr_Done(MFStr *mfstr)
1.1  rillig {
1.1  rillig 	free(mfstr->freeIt);
1.1  rillig #ifdef CLEANUP
1.1  rillig 	mfstr->str = NULL;
1.1  rillig 	mfstr->freeIt = NULL;
1.1  rillig #endif
1.1  rillig }
1.1  rillig
1.1  rillig
1.1  rillig MAKE_INLINE Substring
1.1  rillig Substring_Init(const char *start, const char *end)
1.1  rillig {
1.1  rillig 	Substring sub;
1.1  rillig
1.1  rillig 	sub.start = start;
1.1  rillig 	sub.end = end;
1.1  rillig 	return sub;
1.1  rillig }
1.1  rillig
1.1  rillig MAKE_INLINE Substring
1.1  rillig Substring_InitStr(const char *str)
1.1  rillig {
1.1  rillig 	return Substring_Init(str, str + strlen(str));
1.1  rillig }
1.1  rillig
1.1  rillig MAKE_INLINE size_t
1.1  rillig Substring_Length(Substring sub)
1.1  rillig {
1.1  rillig 	return (size_t)(sub.end - sub.start);
1.1  rillig }
1.1  rillig
1.1  rillig MAKE_INLINE bool
1.2  rillig Substring_IsEmpty(Substring sub)
1.2  rillig {
1.2  rillig 	return sub.start == sub.end;
1.2  rillig }
1.2  rillig
1.2  rillig MAKE_INLINE bool
1.1  rillig Substring_Equals(Substring sub, const char *str)
1.1  rillig {
1.1  rillig 	size_t len = strlen(str);
1.1  rillig 	return Substring_Length(sub) == len &&
1.1  rillig 	       memcmp(sub.start, str, len) == 0;
1.1  rillig }
1.1  rillig
1.1  rillig MAKE_INLINE Substring
1.1  rillig Substring_Sub(Substring sub, size_t start, size_t end)
1.1  rillig {
1.1  rillig 	assert(start <= Substring_Length(sub));
1.1  rillig 	assert(end <= Substring_Length(sub));
1.1  rillig 	return Substring_Init(sub.start + start, sub.start + end);
1.1  rillig }
1.1  rillig
1.1  rillig MAKE_INLINE FStr
1.1  rillig Substring_Str(Substring sub)
1.1  rillig {
1.1  rillig 	return FStr_InitOwn(bmake_strsedup(sub.start, sub.end));
1.1  rillig }
1.1  rillig
1.2  rillig MAKE_INLINE const char *
1.2  rillig Substring_LastIndex(Substring sub, char ch)
1.2  rillig {
1.2  rillig 	const char *p;
1.2  rillig
1.2  rillig 	for (p = sub.end; p != sub.start; p--)
1.2  rillig 		if (p[-1] == ch)
1.2  rillig 			return p - 1;
1.2  rillig 	return NULL;
1.2  rillig }
1.2  rillig
1.2  rillig MAKE_INLINE Substring
1.2  rillig Substring_Dirname(Substring pathname)
1.2  rillig {
1.2  rillig 	const char *p;
1.2  rillig
1.2  rillig 	for (p = pathname.end; p != pathname.start; p--)
1.2  rillig 		if (p[-1] == '/')
1.2  rillig 			return Substring_Init(pathname.start, p - 1);
1.2  rillig 	return Substring_InitStr(".");
1.2  rillig }
1.2  rillig
1.2  rillig MAKE_INLINE Substring
1.2  rillig Substring_Basename(Substring pathname)
1.2  rillig {
1.2  rillig 	const char *p;
1.2  rillig
1.2  rillig 	for (p = pathname.end; p != pathname.start; p--)
1.2  rillig 		if (p[-1] == '/')
1.2  rillig 			return Substring_Init(p, pathname.end);
1.2  rillig 	return pathname;
1.2  rillig }
1.2  rillig
1.1  rillig
1.1  rillig MAKE_INLINE void
1.1  rillig LazyBuf_Init(LazyBuf *buf, Substring expected)
1.1  rillig {
1.1  rillig 	buf->data = NULL;
1.1  rillig 	buf->len = 0;
1.1  rillig 	buf->cap = 0;
1.1  rillig 	buf->expected = expected;
1.1  rillig 	buf->freeIt = NULL;
1.1  rillig }
1.1  rillig
1.1  rillig MAKE_INLINE void
1.1  rillig LazyBuf_Done(LazyBuf *buf)
1.1  rillig {
1.1  rillig 	free(buf->freeIt);
1.1  rillig }
1.1  rillig
1.1  rillig MAKE_INLINE void
1.1  rillig LazyBuf_Add(LazyBuf *buf, char ch)
1.1  rillig {
1.1  rillig
1.1  rillig 	if (buf->data != NULL) {
1.1  rillig 		if (buf->len == buf->cap) {
1.1  rillig 			buf->cap *= 2;
1.1  rillig 			buf->data = bmake_realloc(buf->data, buf->cap);
1.1  rillig 		}
1.1  rillig 		buf->data[buf->len++] = ch;
1.1  rillig
1.1  rillig 	} else if (buf->len < Substring_Length(buf->expected) &&
1.1  rillig 	    ch == buf->expected.start[buf->len]) {
1.1  rillig 		buf->len++;
1.1  rillig 		return;
1.1  rillig
1.1  rillig 	} else {
1.1  rillig 		buf->cap = buf->len + 16;
1.1  rillig 		buf->data = bmake_malloc(buf->cap);
1.1  rillig 		memcpy(buf->data, buf->expected.start, buf->len);
1.1  rillig 		buf->data[buf->len++] = ch;
1.1  rillig 	}
1.1  rillig }
1.1  rillig
1.1  rillig MAKE_INLINE void
1.1  rillig LazyBuf_AddStr(LazyBuf *buf, const char *str)
1.1  rillig {
1.1  rillig 	const char *p;
1.1  rillig
1.1  rillig 	for (p = str; *p != '\0'; p++)
1.1  rillig 		LazyBuf_Add(buf, *p);
1.1  rillig }
1.1  rillig
1.1  rillig MAKE_INLINE Substring
1.1  rillig LazyBuf_Get(const LazyBuf *buf)
1.1  rillig {
1.1  rillig 	const char *start = buf->data != NULL
1.1  rillig 	    ? buf->data : buf->expected.start;
1.1  rillig 	return Substring_Init(start, start + buf->len);
1.1  rillig }
1.1  rillig
1.1  rillig MAKE_INLINE FStr
1.1  rillig LazyBuf_DoneGet(LazyBuf *buf)
1.1  rillig {
1.1  rillig 	if (buf->data != NULL) {
1.1  rillig 		LazyBuf_Add(buf, '\0');
1.1  rillig 		return FStr_InitOwn(buf->data);
1.1  rillig 	}
1.1  rillig 	return Substring_Str(LazyBuf_Get(buf));
1.1  rillig }
1.1  rillig
1.1  rillig
1.1  rillig Words Str_Words(const char *, bool);
1.1  rillig
1.1  rillig MAKE_INLINE void
1.1  rillig Words_Free(Words w)
1.1  rillig {
1.1  rillig 	free(w.words);
1.1  rillig 	free(w.freeIt);
1.1  rillig }
1.1  rillig
1.1  rillig
1.1  rillig char *str_concat2(const char *, const char *);
1.1  rillig char *str_concat3(const char *, const char *, const char *);
1.1  rillig char *str_concat4(const char *, const char *, const char *, const char *);
1.1  rillig
1.1  rillig bool Str_Match(const char *, const char *);