/* * version_sorter.c * version_sorter * * Created by K. Adam Christensen on 10/10/09. * Copyright 2009. All rights reserved. * */ #include #include #include #include #include #include #define min(a, b) ((a) < (b) ? (a) : (b)) typedef int compare_callback_t(const void *, const void *); struct version_number { const char *original; VALUE rb_version; uint64_t num_flags; int32_t size; union version_comp { uint32_t number; struct strchunk { uint16_t offset; uint16_t len; } string; } comp[1]; }; static int strchunk_cmp(const char *original_a, const struct strchunk *a, const char *original_b, const struct strchunk *b) { size_t len = min(a->len, b->len); int cmp = memcmp(original_a + a->offset, original_b + b->offset, len); return cmp ? cmp : (int)(a->len - b->len); } static int compare_version_number(const struct version_number *a, const struct version_number *b) { int n, max_n = min(a->size, b->size); for (n = 0; n < max_n; ++n) { int num_a = (a->num_flags & (1ull << n)) != 0; int num_b = (b->num_flags & (1ull << n)) != 0; if (num_a == num_b) { const union version_comp *ca = &a->comp[n]; const union version_comp *cb = &b->comp[n]; int cmp = 0; if (num_a) { cmp = (int)ca->number - (int)cb->number; } else { cmp = strchunk_cmp( a->original, &ca->string, b->original, &cb->string); } if (cmp) return cmp; } else { return num_a ? 1 : -1; } } if (a->size < b->size) return (b->num_flags & (1ull << n)) ? -1 : 1; if (a->size > b->size) return (a->num_flags & (1ull << n)) ? 1 : -1; return 0; } static int version_compare_cb(const void *a, const void *b) { return compare_version_number( (*(const struct version_number **)a), (*(const struct version_number **)b)); } static int version_compare_cb_r(const void *a, const void *b) { return -compare_version_number( (*(const struct version_number **)a), (*(const struct version_number **)b)); } static struct version_number * grow_version_number(struct version_number *version, int new_size) { return xrealloc(version, (sizeof(struct version_number) + sizeof(union version_comp) * new_size)); } static struct version_number * parse_version_number(const char *string) { struct version_number *version = NULL; uint64_t num_flags = 0x0; uint16_t offset; int comp_n = 0, comp_alloc = 4; version = grow_version_number(version, comp_alloc); for (offset = 0; string[offset] && comp_n < 64;) { if (comp_n >= comp_alloc) { comp_alloc += 4; version = grow_version_number(version, comp_alloc); } if (isdigit(string[offset])) { uint32_t number = 0; uint16_t start = offset; int overflown = 0; while (isdigit(string[offset])) { if (!overflown) { uint32_t old_number = number; number = (10 * number) + (string[offset] - '0'); if (number < old_number) overflown = 1; } offset++; } if (overflown) { version->comp[comp_n].string.offset = start; version->comp[comp_n].string.len = offset - start; } else { version->comp[comp_n].number = number; num_flags |= (1ull << comp_n); } comp_n++; continue; } if (string[offset] == '-' || isalpha(string[offset])) { uint16_t start = offset; if (string[offset] == '-') offset++; while (isalpha(string[offset])) offset++; version->comp[comp_n].string.offset = start; version->comp[comp_n].string.len = offset - start; comp_n++; continue; } offset++; } version->original = string; version->num_flags = num_flags; version->size = comp_n; return version; } static VALUE rb_version_sort_1(VALUE rb_self, VALUE rb_version_array, compare_callback_t cmp) { struct version_number **versions; long length, i; VALUE *rb_version_ptr; Check_Type(rb_version_array, T_ARRAY); length = RARRAY_LEN(rb_version_array); if (!length) return rb_ary_new(); versions = xcalloc(length, sizeof(struct version_number *)); for (i = 0; i < length; ++i) { VALUE rb_version, rb_version_string; rb_version = rb_ary_entry(rb_version_array, i); if (rb_block_given_p()) rb_version_string = rb_yield(rb_version); else rb_version_string = rb_version; versions[i] = parse_version_number(StringValueCStr(rb_version_string)); versions[i]->rb_version = rb_version; } qsort(versions, length, sizeof(struct version_number *), cmp); rb_version_ptr = RARRAY_PTR(rb_version_array); for (i = 0; i < length; ++i) { rb_version_ptr[i] = versions[i]->rb_version; xfree(versions[i]); } xfree(versions); return rb_version_array; } static VALUE rb_version_sort(VALUE rb_self, VALUE rb_versions) { return rb_version_sort_1(rb_self, rb_ary_dup(rb_versions), version_compare_cb); } static VALUE rb_version_sort_r(VALUE rb_self, VALUE rb_versions) { return rb_version_sort_1(rb_self, rb_ary_dup(rb_versions), version_compare_cb_r); } static VALUE rb_version_sort_bang(VALUE rb_self, VALUE rb_versions) { return rb_version_sort_1(rb_self, rb_versions, version_compare_cb); } static VALUE rb_version_sort_r_bang(VALUE rb_self, VALUE rb_versions) { return rb_version_sort_1(rb_self, rb_versions, version_compare_cb_r); } static VALUE rb_version_compare(VALUE rb_self, VALUE rb_version_a, VALUE rb_version_b) { struct version_number *version_a = parse_version_number(StringValueCStr(rb_version_a)); struct version_number *version_b = parse_version_number(StringValueCStr(rb_version_b)); return INT2NUM(version_compare_cb(&version_a, &version_b)); } void Init_version_sorter(void) { VALUE rb_mVersionSorter = rb_define_module("VersionSorter"); rb_define_module_function(rb_mVersionSorter, "sort", rb_version_sort, 1); rb_define_module_function(rb_mVersionSorter, "rsort", rb_version_sort_r, 1); rb_define_module_function(rb_mVersionSorter, "sort!", rb_version_sort_bang, 1); rb_define_module_function(rb_mVersionSorter, "rsort!", rb_version_sort_r_bang, 1); rb_define_module_function(rb_mVersionSorter, "compare", rb_version_compare, 2); }