/* Copyright (C) 2011-2022 by The D Language Foundation, All Rights Reserved * written by Walter Bright * https://www.digitalmars.com * Distributed under the Boost Software License, Version 1.0. * https://www.boost.org/LICENSE_1_0.txt * https://github.com/dlang/dmd/blob/master/src/dmd/root/array.h */ #pragma once #include "dsystem.h" #include "object.h" #include "rmem.h" template struct Array { d_size_t length; private: DArray data; #define SMALLARRAYCAP 1 TYPE smallarray[SMALLARRAYCAP]; // inline storage for small arrays Array(const Array&); public: Array() { data.ptr = NULL; length = 0; data.length = 0; } ~Array() { if (data.ptr != &smallarray[0]) mem.xfree(data.ptr); } char *toChars() const { const char **buf = (const char **)mem.xmalloc(length * sizeof(const char *)); d_size_t len = 2; for (d_size_t u = 0; u < length; u++) { buf[u] = ((RootObject *)data.ptr[u])->toChars(); len += strlen(buf[u]) + 1; } char *str = (char *)mem.xmalloc(len); str[0] = '['; char *p = str + 1; for (d_size_t u = 0; u < length; u++) { if (u) *p++ = ','; len = strlen(buf[u]); memcpy(p,buf[u],len); p += len; } *p++ = ']'; *p = 0; mem.xfree(buf); return str; } void push(TYPE ptr) { reserve(1); data.ptr[length++] = ptr; } void append(Array *a) { insert(length, a); } void reserve(d_size_t nentries) { //printf("Array::reserve: length = %d, data.length = %d, nentries = %d\n", (int)length, (int)data.length, (int)nentries); if (data.length - length < nentries) { if (data.length == 0) { // Not properly initialized, someone memset it to zero if (nentries <= SMALLARRAYCAP) { data.length = SMALLARRAYCAP; data.ptr = SMALLARRAYCAP ? &smallarray[0] : NULL; } else { data.length = nentries; data.ptr = (TYPE *)mem.xmalloc(data.length * sizeof(TYPE)); } } else if (data.length == SMALLARRAYCAP) { data.length = length + nentries; data.ptr = (TYPE *)mem.xmalloc(data.length * sizeof(TYPE)); memcpy(data.ptr, &smallarray[0], length * sizeof(TYPE)); } else { /* Increase size by 1.5x to avoid excessive memory fragmentation */ d_size_t increment = length / 2; if (nentries > increment) // if 1.5 is not enough increment = nentries; data.length = length + increment; data.ptr = (TYPE *)mem.xrealloc(data.ptr, data.length * sizeof(TYPE)); } } } void remove(d_size_t i) { if (length - i - 1) memmove(data.ptr + i, data.ptr + i + 1, (length - i - 1) * sizeof(TYPE)); length--; } void insert(d_size_t index, Array *a) { if (a) { d_size_t d = a->length; reserve(d); if (length != index) memmove(data.ptr + index + d, data.ptr + index, (length - index) * sizeof(TYPE)); memcpy(data.ptr + index, a->data.ptr, d * sizeof(TYPE)); length += d; } } void insert(d_size_t index, TYPE ptr) { reserve(1); memmove(data.ptr + index + 1, data.ptr + index, (length - index) * sizeof(TYPE)); data.ptr[index] = ptr; length++; } void setDim(d_size_t newdim) { if (length < newdim) { reserve(newdim - length); } length = newdim; } d_size_t find(TYPE ptr) const { for (d_size_t i = 0; i < length; i++) { if (data.ptr[i] == ptr) return i; } return SIZE_MAX; } bool contains(TYPE ptr) const { return find(ptr) != SIZE_MAX; } TYPE& operator[] (d_size_t index) { #ifdef DEBUG assert(index < length); #endif return data.ptr[index]; } TYPE *tdata() { return data.ptr; } Array *copy() { Array *a = new Array(); a->setDim(length); memcpy(a->data.ptr, data.ptr, length * sizeof(TYPE)); return a; } void shift(TYPE ptr) { reserve(1); memmove(data.ptr + 1, data.ptr, length * sizeof(TYPE)); data.ptr[0] = ptr; length++; } void zero() { memset(data.ptr, 0, length * sizeof(TYPE)); } TYPE pop() { return data.ptr[--length]; } };