/* Copyright (C) 2018 June McEnroe * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU Affero General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU Affero General Public License for more details. * * You should have received a copy of the GNU Affero General Public License * along with this program. If not, see . */ #include #include #include #include #include "edi.h" static struct Table *alloc(size_t cap) { size_t size = sizeof(struct Table) + sizeof(struct Slice) * cap; struct Table *table = malloc(size); if (!table) err(EX_OSERR, "malloc"); table->len = 0; return table; } struct Table *tableInsert(const struct Table *prev, size_t at, struct Slice slice) { if (!prev || !prev->len) { struct Table *next = alloc(1); next->slices[next->len++] = slice; return next; } struct Table *next = alloc(prev->len + 2); struct Span span = { 0, 0 }; for (size_t i = 0; i < prev->len; ++i) { span = spanNext(span, prev->slices[i].len); if (span.at == at) { next->slices[next->len++] = slice; next->slices[next->len++] = prev->slices[i]; } else if (span.at < at && span.to > at) { next->slices[next->len++] = (struct Slice) { prev->slices[i].ptr, at - span.at, }; next->slices[next->len++] = slice; next->slices[next->len++] = (struct Slice) { &prev->slices[i].ptr[at - span.at], prev->slices[i].len - (at - span.at), }; } else { next->slices[next->len++] = prev->slices[i]; } } if (span.to == at) { next->slices[next->len++] = slice; } return next; } struct Table *tableDelete(const struct Table *prev, struct Span del) { if (!prev || !prev->len) return alloc(0); struct Table *next = alloc(prev->len + 1); struct Span span = { 0, 0 }; for (size_t i = 0; i < prev->len; ++i) { span = spanNext(span, prev->slices[i].len); if (span.at >= del.at && span.to <= del.to) { (void)prev->slices[i]; } else if (span.at < del.at && span.to > del.to) { next->slices[next->len++] = (struct Slice) { prev->slices[i].ptr, del.at - span.at, }; next->slices[next->len++] = (struct Slice) { &prev->slices[i].ptr[del.to - span.at], prev->slices[i].len - (del.to - span.at), }; } else if (span.at < del.at && span.to > del.at) { next->slices[next->len++] = (struct Slice) { prev->slices[i].ptr, del.at - span.at, }; } else if (span.at < del.to && span.to > del.to) { next->slices[next->len++] = (struct Slice) { &prev->slices[i].ptr[del.to - span.at], prev->slices[i].len - (del.to - span.at), }; } else { next->slices[next->len++] = prev->slices[i]; } } return next; } #ifdef TEST #include static struct Span span(size_t at, size_t to) { return (struct Span) { at, to }; } static struct Slice slice(const wchar_t *str) { return (struct Slice) { str, wcslen(str) }; } static int eq(const struct Table *table, const wchar_t *str) { for (size_t i = 0; i < table->len; ++i) { if (wcsncmp(str, table->slices[i].ptr, table->slices[i].len)) { return 0; } str = &str[table->slices[i].len]; } return 1; } int main() { struct Table *abc = tableInsert(NULL, 0, slice(L"ABC")); assert(eq(abc, L"ABC")); assert(eq(tableInsert(abc, 0, slice(L"D")), L"DABC")); assert(eq(tableInsert(abc, 3, slice(L"D")), L"ABCD")); assert(eq(tableInsert(abc, 1, slice(L"D")), L"ADBC")); assert(eq(tableDelete(abc, span(0, 1)), L"BC")); assert(eq(tableDelete(abc, span(2, 3)), L"AB")); assert(eq(tableDelete(abc, span(1, 2)), L"AC")); assert(eq(tableDelete(abc, span(0, 3)), L"")); } #endif