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511 lines
15 KiB
C++
511 lines
15 KiB
C++
/**********************************************************************
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* File: strngs.c (Formerly strings.c)
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* Description: STRING class functions.
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* Author: Ray Smith
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* Created: Fri Feb 15 09:13:30 GMT 1991
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*
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* (C) Copyright 1991, Hewlett-Packard Ltd.
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** Licensed under the Apache License, Version 2.0 (the "License");
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** you may not use this file except in compliance with the License.
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** You may obtain a copy of the License at
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** http://www.apache.org/licenses/LICENSE-2.0
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** Unless required by applicable law or agreed to in writing, software
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** distributed under the License is distributed on an "AS IS" BASIS,
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** WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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** See the License for the specific language governing permissions and
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** limitations under the License.
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*
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**********************************************************************/
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#include "strngs.h"
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#include <assert.h>
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#include "genericvector.h"
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#include "helpers.h"
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#include "serialis.h"
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#include "tprintf.h"
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using tesseract::TFile;
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// Size of buffer needed to host the decimal representation of the maximum
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// possible length of an int (in 64 bits), being -<20 digits>.
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const int kMaxIntSize = 22;
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// Size of buffer needed to host the decimal representation of the maximum
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// possible length of a %.8g being -1.2345678e+999<nul> = 16.
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const int kMaxDoubleSize = 16;
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/**********************************************************************
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* STRING_HEADER provides metadata about the allocated buffer,
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* including total capacity and how much used (strlen with '\0').
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*
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* The implementation hides this header at the start of the data
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* buffer and appends the string on the end to keep sizeof(STRING)
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* unchanged from earlier versions so serialization is not affected.
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*
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* The collection of MACROS provide different implementations depending
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* on whether the string keeps track of its strlen or not so that this
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* feature can be added in later when consumers don't modify the string
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**********************************************************************/
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// Smallest string to allocate by default
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const int kMinCapacity = 16;
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char* STRING::AllocData(int used, int capacity) {
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data_ = (STRING_HEADER *)alloc_string(capacity + sizeof(STRING_HEADER));
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// header is the metadata for this memory block
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STRING_HEADER* header = GetHeader();
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header->capacity_ = capacity;
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header->used_ = used;
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return GetCStr();
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}
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void STRING::DiscardData() {
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free_string((char *)data_);
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}
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// This is a private method; ensure FixHeader is called (or used_ is well defined)
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// beforehand
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char* STRING::ensure_cstr(inT32 min_capacity) {
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STRING_HEADER* orig_header = GetHeader();
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if (min_capacity <= orig_header->capacity_)
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return ((char *)this->data_) + sizeof(STRING_HEADER);
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// if we are going to grow bigger, than double our existing
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// size, but if that still is not big enough then keep the
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// requested capacity
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if (min_capacity < 2 * orig_header->capacity_)
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min_capacity = 2 * orig_header->capacity_;
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int alloc = sizeof(STRING_HEADER) + min_capacity;
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STRING_HEADER* new_header = (STRING_HEADER*)(alloc_string(alloc));
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memcpy(&new_header[1], GetCStr(), orig_header->used_);
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new_header->capacity_ = min_capacity;
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new_header->used_ = orig_header->used_;
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// free old memory, then rebind to new memory
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DiscardData();
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data_ = new_header;
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assert(InvariantOk());
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return ((char *)data_) + sizeof(STRING_HEADER);
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}
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// This is const, but is modifying a mutable field
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// this way it can be used on const or non-const instances.
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void STRING::FixHeader() const {
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const STRING_HEADER* header = GetHeader();
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if (header->used_ < 0)
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header->used_ = strlen(GetCStr()) + 1;
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}
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STRING::STRING() {
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// Empty STRINGs contain just the "\0".
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memcpy(AllocData(1, kMinCapacity), "", 1);
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}
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STRING::STRING(const STRING& str) {
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str.FixHeader();
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const STRING_HEADER* str_header = str.GetHeader();
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int str_used = str_header->used_;
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char *this_cstr = AllocData(str_used, str_used);
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memcpy(this_cstr, str.GetCStr(), str_used);
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assert(InvariantOk());
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}
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STRING::STRING(const char* cstr) {
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if (cstr == NULL) {
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// Empty STRINGs contain just the "\0".
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memcpy(AllocData(1, kMinCapacity), "", 1);
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} else {
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int len = strlen(cstr) + 1;
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char* this_cstr = AllocData(len, len);
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memcpy(this_cstr, cstr, len);
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}
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assert(InvariantOk());
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}
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STRING::STRING(const char *data, int length) {
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if (data == NULL) {
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// Empty STRINGs contain just the "\0".
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memcpy(AllocData(1, kMinCapacity), "", 1);
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} else {
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char* this_cstr = AllocData(length + 1, length + 1);
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memcpy(this_cstr, data, length);
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this_cstr[length] = '\0';
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}
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}
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STRING::~STRING() {
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DiscardData();
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}
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// TODO(rays) Change all callers to use TFile and remove the old functions.
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// Writes to the given file. Returns false in case of error.
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bool STRING::Serialize(FILE* fp) const {
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inT32 len = length();
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if (fwrite(&len, sizeof(len), 1, fp) != 1) return false;
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if (static_cast<int>(fwrite(GetCStr(), 1, len, fp)) != len) return false;
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return true;
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}
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// Writes to the given file. Returns false in case of error.
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bool STRING::Serialize(TFile* fp) const {
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inT32 len = length();
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if (fp->FWrite(&len, sizeof(len), 1) != 1) return false;
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if (fp->FWrite(GetCStr(), 1, len) != len) return false;
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return true;
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}
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// Reads from the given file. Returns false in case of error.
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// If swap is true, assumes a big/little-endian swap is needed.
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bool STRING::DeSerialize(bool swap, FILE* fp) {
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inT32 len;
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if (fread(&len, sizeof(len), 1, fp) != 1) return false;
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if (swap)
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ReverseN(&len, sizeof(len));
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truncate_at(len);
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if (static_cast<int>(fread(GetCStr(), 1, len, fp)) != len) return false;
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return true;
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}
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// Reads from the given file. Returns false in case of error.
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// If swap is true, assumes a big/little-endian swap is needed.
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bool STRING::DeSerialize(bool swap, TFile* fp) {
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inT32 len;
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if (fp->FRead(&len, sizeof(len), 1) != 1) return false;
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if (swap)
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ReverseN(&len, sizeof(len));
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truncate_at(len);
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if (fp->FRead(GetCStr(), 1, len) != len) return false;
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return true;
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}
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// As DeSerialize, but only seeks past the data - hence a static method.
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bool STRING::SkipDeSerialize(bool swap, tesseract::TFile* fp) {
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inT32 len;
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if (fp->FRead(&len, sizeof(len), 1) != 1) return false;
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if (swap) ReverseN(&len, sizeof(len));
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return fp->FRead(NULL, 1, len) == len;
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}
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BOOL8 STRING::contains(const char c) const {
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return (c != '\0') && (strchr (GetCStr(), c) != NULL);
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}
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inT32 STRING::length() const {
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FixHeader();
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return GetHeader()->used_ - 1;
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}
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const char* STRING::string() const {
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const STRING_HEADER* header = GetHeader();
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if (header->used_ == 0)
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return NULL;
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// mark header length unreliable because tesseract might
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// cast away the const and mutate the string directly.
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header->used_ = -1;
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return GetCStr();
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}
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const char* STRING::c_str() const {
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return string();
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}
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/******
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* The STRING_IS_PROTECTED interface adds additional support to migrate
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* code that needs to modify the STRING in ways not otherwise supported
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* without violating encapsulation.
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*
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* Also makes the [] operator return a const so it is immutable
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*/
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#if STRING_IS_PROTECTED
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const char& STRING::operator[](inT32 index) const {
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return GetCStr()[index];
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}
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void STRING::insert_range(inT32 index, const char* str, int len) {
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// if index is outside current range, then also grow size of string
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// to accmodate the requested range.
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STRING_HEADER* this_header = GetHeader();
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int used = this_header->used_;
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if (index > used)
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used = index;
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char* this_cstr = ensure_cstr(used + len + 1);
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if (index < used) {
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// move existing string from index to '\0' inclusive.
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memmove(this_cstr + index + len,
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this_cstr + index,
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this_header->used_ - index);
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} else if (len > 0) {
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// We are going to overwrite previous null terminator, so write the new one.
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this_cstr[this_header->used_ + len - 1] = '\0';
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// If the old header did not have the terminator,
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// then we need to account for it now that we've added it.
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// Otherwise it was already accounted for; we just moved it.
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if (this_header->used_ == 0)
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++this_header->used_;
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}
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// Write new string to index.
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// The string is already terminated from the conditions above.
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memcpy(this_cstr + index, str, len);
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this_header->used_ += len;
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assert(InvariantOk());
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}
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void STRING::erase_range(inT32 index, int len) {
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char* this_cstr = GetCStr();
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STRING_HEADER* this_header = GetHeader();
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memcpy(this_cstr+index, this_cstr+index+len,
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this_header->used_ - index - len);
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this_header->used_ -= len;
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assert(InvariantOk());
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}
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#else
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void STRING::truncate_at(inT32 index) {
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ASSERT_HOST(index >= 0);
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FixHeader();
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char* this_cstr = ensure_cstr(index + 1);
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this_cstr[index] = '\0';
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GetHeader()->used_ = index + 1;
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assert(InvariantOk());
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}
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char& STRING::operator[](inT32 index) const {
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// Code is casting away this const and mutating the string,
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// so mark used_ as -1 to flag it unreliable.
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GetHeader()->used_ = -1;
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return ((char *)GetCStr())[index];
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}
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#endif
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void STRING::split(const char c, GenericVector<STRING> *splited) {
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int start_index = 0;
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int len = length();
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for (int i = 0; i < len; i++) {
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if ((*this)[i] == c) {
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if (i != start_index) {
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(*this)[i] = '\0';
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splited->push_back(STRING(GetCStr() + start_index, i - start_index));
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(*this)[i] = c;
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}
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start_index = i + 1;
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}
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}
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if (len != start_index) {
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splited->push_back(STRING(GetCStr() + start_index, len - start_index));
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}
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}
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BOOL8 STRING::operator==(const STRING& str) const {
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FixHeader();
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str.FixHeader();
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const STRING_HEADER* str_header = str.GetHeader();
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const STRING_HEADER* this_header = GetHeader();
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int this_used = this_header->used_;
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int str_used = str_header->used_;
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return (this_used == str_used)
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&& (memcmp(GetCStr(), str.GetCStr(), this_used) == 0);
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}
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BOOL8 STRING::operator!=(const STRING& str) const {
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FixHeader();
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str.FixHeader();
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const STRING_HEADER* str_header = str.GetHeader();
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const STRING_HEADER* this_header = GetHeader();
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int this_used = this_header->used_;
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int str_used = str_header->used_;
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return (this_used != str_used)
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|| (memcmp(GetCStr(), str.GetCStr(), this_used) != 0);
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}
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BOOL8 STRING::operator!=(const char* cstr) const {
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FixHeader();
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const STRING_HEADER* this_header = GetHeader();
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if (cstr == NULL)
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return this_header->used_ > 1; // either '\0' or NULL
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else {
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inT32 length = strlen(cstr) + 1;
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return (this_header->used_ != length)
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|| (memcmp(GetCStr(), cstr, length) != 0);
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}
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}
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STRING& STRING::operator=(const STRING& str) {
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str.FixHeader();
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const STRING_HEADER* str_header = str.GetHeader();
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int str_used = str_header->used_;
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GetHeader()->used_ = 0; // clear since ensure doesn't need to copy data
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char* this_cstr = ensure_cstr(str_used);
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STRING_HEADER* this_header = GetHeader();
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memcpy(this_cstr, str.GetCStr(), str_used);
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this_header->used_ = str_used;
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assert(InvariantOk());
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return *this;
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}
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STRING & STRING::operator+=(const STRING& str) {
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FixHeader();
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str.FixHeader();
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const STRING_HEADER* str_header = str.GetHeader();
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const char* str_cstr = str.GetCStr();
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int str_used = str_header->used_;
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int this_used = GetHeader()->used_;
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char* this_cstr = ensure_cstr(this_used + str_used);
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STRING_HEADER* this_header = GetHeader(); // after ensure for realloc
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if (this_used > 1) {
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memcpy(this_cstr + this_used - 1, str_cstr, str_used);
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this_header->used_ += str_used - 1; // overwrite '\0'
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} else {
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memcpy(this_cstr, str_cstr, str_used);
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this_header->used_ = str_used;
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}
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assert(InvariantOk());
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return *this;
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}
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void STRING::add_str_int(const char* str, int number) {
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if (str != NULL)
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*this += str;
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// Allow space for the maximum possible length of inT64.
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char num_buffer[kMaxIntSize];
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snprintf(num_buffer, kMaxIntSize - 1, "%d", number);
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num_buffer[kMaxIntSize - 1] = '\0';
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*this += num_buffer;
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}
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// Appends the given string and double (as a %.8g) to this.
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void STRING::add_str_double(const char* str, double number) {
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if (str != NULL)
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*this += str;
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// Allow space for the maximum possible length of %8g.
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char num_buffer[kMaxDoubleSize];
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snprintf(num_buffer, kMaxDoubleSize - 1, "%.8g", number);
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num_buffer[kMaxDoubleSize - 1] = '\0';
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*this += num_buffer;
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}
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STRING & STRING::operator=(const char* cstr) {
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STRING_HEADER* this_header = GetHeader();
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if (cstr) {
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int len = strlen(cstr) + 1;
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this_header->used_ = 0; // don't bother copying data if need to realloc
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char* this_cstr = ensure_cstr(len);
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this_header = GetHeader(); // for realloc
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memcpy(this_cstr, cstr, len);
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this_header->used_ = len;
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} else {
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// Reallocate to same state as default constructor.
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DiscardData();
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// Empty STRINGs contain just the "\0".
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memcpy(AllocData(1, kMinCapacity), "", 1);
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}
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assert(InvariantOk());
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return *this;
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}
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void STRING::assign(const char *cstr, int len) {
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STRING_HEADER* this_header = GetHeader();
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this_header->used_ = 0; // don't bother copying data if need to realloc
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char* this_cstr = ensure_cstr(len + 1); // +1 for '\0'
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this_header = GetHeader(); // for realloc
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memcpy(this_cstr, cstr, len);
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this_cstr[len] = '\0';
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this_header->used_ = len + 1;
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assert(InvariantOk());
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}
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STRING STRING::operator+(const STRING& str) const {
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STRING result(*this);
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result += str;
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assert(InvariantOk());
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return result;
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}
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STRING STRING::operator+(const char ch) const {
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STRING result;
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FixHeader();
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const STRING_HEADER* this_header = GetHeader();
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int this_used = this_header->used_;
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char* result_cstr = result.ensure_cstr(this_used + 1);
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STRING_HEADER* result_header = result.GetHeader();
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int result_used = result_header->used_;
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// copies '\0' but we'll overwrite that
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memcpy(result_cstr, GetCStr(), this_used);
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result_cstr[result_used] = ch; // overwrite old '\0'
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result_cstr[result_used + 1] = '\0'; // append on '\0'
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++result_header->used_;
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assert(InvariantOk());
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return result;
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}
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STRING& STRING::operator+=(const char *str) {
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if (!str || !*str) // empty string has no effect
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return *this;
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FixHeader();
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int len = strlen(str) + 1;
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int this_used = GetHeader()->used_;
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char* this_cstr = ensure_cstr(this_used + len);
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STRING_HEADER* this_header = GetHeader(); // after ensure for realloc
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// if we had non-empty string then append overwriting old '\0'
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// otherwise replace
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if (this_used > 0) {
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memcpy(this_cstr + this_used - 1, str, len);
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this_header->used_ += len - 1;
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} else {
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memcpy(this_cstr, str, len);
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this_header->used_ = len;
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}
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assert(InvariantOk());
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return *this;
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}
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STRING& STRING::operator+=(const char ch) {
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if (ch == '\0')
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return *this;
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FixHeader();
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int this_used = GetHeader()->used_;
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char* this_cstr = ensure_cstr(this_used + 1);
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STRING_HEADER* this_header = GetHeader();
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if (this_used > 0)
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--this_used; // undo old empty null if there was one
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this_cstr[this_used++] = ch; // append ch to end
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this_cstr[this_used++] = '\0'; // append '\0' after ch
|
|
this_header->used_ = this_used;
|
|
|
|
assert(InvariantOk());
|
|
return *this;
|
|
}
|