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author | Denis Vlasenko | 2007-03-09 10:08:53 +0000 |
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committer | Denis Vlasenko | 2007-03-09 10:08:53 +0000 |
commit | 02f0c4c2bf5b88784fb7d1fcbf681bdb888a98d7 (patch) | |
tree | 3bdb925a44694bcf8c35a3e624ec89cb5ba938b0 /coreutils | |
parent | f5a157615d8c788dd214896db8d920ad2f1a8f4e (diff) | |
download | busybox-02f0c4c2bf5b88784fb7d1fcbf681bdb888a98d7.zip busybox-02f0c4c2bf5b88784fb7d1fcbf681bdb888a98d7.tar.gz |
diff: failed to confirm "static bug" in gcc - reinstating statics.
microscopic code improvements.
Diffstat (limited to 'coreutils')
-rw-r--r-- | coreutils/chgrp.c | 5 | ||||
-rw-r--r-- | coreutils/diff.c | 153 |
2 files changed, 80 insertions, 78 deletions
diff --git a/coreutils/chgrp.c b/coreutils/chgrp.c index eaa29cb..cfb8c15 100644 --- a/coreutils/chgrp.c +++ b/coreutils/chgrp.c @@ -7,15 +7,12 @@ * Licensed under GPLv2 or later, see file LICENSE in this tarball for details. */ -/* BB_AUDIT SUSv3 defects - unsupported options -H, -L, and -P. */ +/* BB_AUDIT SUSv3 defects - none? */ /* BB_AUDIT GNU defects - unsupported long options. */ /* http://www.opengroup.org/onlinepubs/007904975/utilities/chgrp.html */ #include "busybox.h" -/* FIXME - move to .h */ -extern int chown_main(int argc, char **argv); - int chgrp_main(int argc, char **argv); int chgrp_main(int argc, char **argv) { diff --git a/coreutils/diff.c b/coreutils/diff.c index 0eaf0b1..73b576f 100644 --- a/coreutils/diff.c +++ b/coreutils/diff.c @@ -65,18 +65,25 @@ #define FLAG_U (1<<12) #define FLAG_w (1<<13) -/* XXX: FIXME: the following variables should be static, but gcc currently +/* The following variables should be static, but gcc currently * creates a much bigger object if we do this. [which version of gcc? --vda] */ /* 4.x, IIRC also 3.x --bernhard */ +/* Works for gcc 3.4.3. Sizes without and with "static": + # size busybox.t[34]/coreutils/diff.o + text data bss dec hex filename + 6969 8 305 7282 1c72 busybox.t3/coreutils/diff.o + 6969 8 305 7282 1c72 busybox.t4/coreutils/diff.o + --vda + */ /* This is the default number of lines of context. */ -int context = 3; -int status; -char *start; -const char *label1; -const char *label2; -struct stat stb1, stb2; -char **dl; -USE_FEATURE_DIFF_DIR(int dl_count;) +static int context = 3; +static int status; +static char *start; +static const char *label1; +static const char *label2; +static struct stat stb1, stb2; +static char **dl; +USE_FEATURE_DIFF_DIR(static int dl_count;) struct cand { int x; @@ -84,7 +91,7 @@ struct cand { int pred; }; -struct line { +static struct line { int serial; int value; } *file[2]; @@ -188,7 +195,7 @@ static int readhash(FILE * f) sum = 1; space = 0; - if (!(option_mask32 & FLAG_b) && !(option_mask32 & FLAG_w)) { + if (!(option_mask32 & (FLAG_b | FLAG_w))) { for (i = 0; (t = getc(f)) != '\n'; i++) { if (t == EOF) { if (i == 0) @@ -241,19 +248,18 @@ static int files_differ(FILE * f1, FILE * f2, int flags) { size_t i, j; - if ((flags & (D_EMPTY1 | D_EMPTY2)) || stb1.st_size != stb2.st_size || - (stb1.st_mode & S_IFMT) != (stb2.st_mode & S_IFMT)) + if ((flags & (D_EMPTY1 | D_EMPTY2)) || stb1.st_size != stb2.st_size + || (stb1.st_mode & S_IFMT) != (stb2.st_mode & S_IFMT) + ) { return 1; + } while (1) { i = fread(bb_common_bufsiz1, 1, BUFSIZ/2, f1); j = fread(bb_common_bufsiz1 + BUFSIZ/2, 1, BUFSIZ/2, f2); if (i != j) return 1; - if (i == 0 && j == 0) { - if (ferror(f1) || ferror(f2)) - return 1; - return 0; - } + if (i == 0) + return (ferror(f1) || ferror(f2)); if (memcmp(bb_common_bufsiz1, bb_common_bufsiz1 + BUFSIZ/2, i) != 0) return 1; @@ -337,11 +343,11 @@ static void equiv(struct line *a, int n, struct line *b, int m, int *c) static int isqrt(int n) { - int y, x = 1; + int y, x; if (n == 0) return 0; - + x = 1; do { y = x; x = n / x; @@ -647,7 +653,6 @@ static void fetch(long *f, int a, int b, FILE * lb, int ch) } } } - return; } @@ -828,66 +833,66 @@ static void output(char *file1, FILE * f1, char *file2, FILE * f2) } /* - * The following code uses an algorithm due to Harold Stone, - * which finds a pair of longest identical subsequences in - * the two files. + * The following code uses an algorithm due to Harold Stone, + * which finds a pair of longest identical subsequences in + * the two files. * - * The major goal is to generate the match vector J. - * J[i] is the index of the line in file1 corresponding - * to line i file0. J[i] = 0 if there is no - * such line in file1. + * The major goal is to generate the match vector J. + * J[i] is the index of the line in file1 corresponding + * to line i file0. J[i] = 0 if there is no + * such line in file1. * - * Lines are hashed so as to work in core. All potential - * matches are located by sorting the lines of each file - * on the hash (called ``value''). In particular, this - * collects the equivalence classes in file1 together. - * Subroutine equiv replaces the value of each line in - * file0 by the index of the first element of its - * matching equivalence in (the reordered) file1. - * To save space equiv squeezes file1 into a single - * array member in which the equivalence classes - * are simply concatenated, except that their first - * members are flagged by changing sign. + * Lines are hashed so as to work in core. All potential + * matches are located by sorting the lines of each file + * on the hash (called ``value''). In particular, this + * collects the equivalence classes in file1 together. + * Subroutine equiv replaces the value of each line in + * file0 by the index of the first element of its + * matching equivalence in (the reordered) file1. + * To save space equiv squeezes file1 into a single + * array member in which the equivalence classes + * are simply concatenated, except that their first + * members are flagged by changing sign. * - * Next the indices that point into member are unsorted into - * array class according to the original order of file0. + * Next the indices that point into member are unsorted into + * array class according to the original order of file0. * - * The cleverness lies in routine stone. This marches - * through the lines of file0, developing a vector klist - * of "k-candidates". At step i a k-candidate is a matched - * pair of lines x,y (x in file0 y in file1) such that - * there is a common subsequence of length k - * between the first i lines of file0 and the first y - * lines of file1, but there is no such subsequence for - * any smaller y. x is the earliest possible mate to y - * that occurs in such a subsequence. + * The cleverness lies in routine stone. This marches + * through the lines of file0, developing a vector klist + * of "k-candidates". At step i a k-candidate is a matched + * pair of lines x,y (x in file0 y in file1) such that + * there is a common subsequence of length k + * between the first i lines of file0 and the first y + * lines of file1, but there is no such subsequence for + * any smaller y. x is the earliest possible mate to y + * that occurs in such a subsequence. * - * Whenever any of the members of the equivalence class of - * lines in file1 matable to a line in file0 has serial number - * less than the y of some k-candidate, that k-candidate - * with the smallest such y is replaced. The new - * k-candidate is chained (via pred) to the current - * k-1 candidate so that the actual subsequence can - * be recovered. When a member has serial number greater - * that the y of all k-candidates, the klist is extended. - * At the end, the longest subsequence is pulled out - * and placed in the array J by unravel + * Whenever any of the members of the equivalence class of + * lines in file1 matable to a line in file0 has serial number + * less than the y of some k-candidate, that k-candidate + * with the smallest such y is replaced. The new + * k-candidate is chained (via pred) to the current + * k-1 candidate so that the actual subsequence can + * be recovered. When a member has serial number greater + * that the y of all k-candidates, the klist is extended. + * At the end, the longest subsequence is pulled out + * and placed in the array J by unravel * - * With J in hand, the matches there recorded are - * checked against reality to assure that no spurious - * matches have crept in due to hashing. If they have, - * they are broken, and "jackpot" is recorded--a harmless - * matter except that a true match for a spuriously - * mated line may now be unnecessarily reported as a change. + * With J in hand, the matches there recorded are + * checked against reality to assure that no spurious + * matches have crept in due to hashing. If they have, + * they are broken, and "jackpot" is recorded--a harmless + * matter except that a true match for a spuriously + * mated line may now be unnecessarily reported as a change. * - * Much of the complexity of the program comes simply - * from trying to minimize core utilization and - * maximize the range of doable problems by dynamically - * allocating what is needed and reusing what is not. - * The core requirements for problems larger than somewhat - * are (in words) 2*length(file0) + length(file1) + - * 3*(number of k-candidates installed), typically about - * 6n words for files of length n. + * Much of the complexity of the program comes simply + * from trying to minimize core utilization and + * maximize the range of doable problems by dynamically + * allocating what is needed and reusing what is not. + * The core requirements for problems larger than somewhat + * are (in words) 2*length(file0) + length(file1) + + * 3*(number of k-candidates installed), typically about + * 6n words for files of length n. */ static unsigned diffreg(char * ofile1, char * ofile2, int flags) { |