VMProtect/third-party/scintilla/AutoComplete.cxx

284 lines
6.8 KiB
C++
Raw Normal View History

2023-05-14 16:21:09 +03:00
// Scintilla source code edit control
/** @file AutoComplete.cxx
** Defines the auto completion list box.
**/
// Copyright 1998-2003 by Neil Hodgson <neilh@scintilla.org>
// The License.txt file describes the conditions under which this software may be distributed.
#include "Platform.h"
#include "CharacterSet.h"
#include "AutoComplete.h"
#include "Scintilla.h"
#ifdef SCI_NAMESPACE
using namespace Scintilla;
#endif
AutoComplete::AutoComplete() :
active(false),
separator(' '),
typesep('?'),
ignoreCase(false),
chooseSingle(false),
lb(0),
posStart(0),
startLen(0),
cancelAtStartPos(true),
autoHide(true),
dropRestOfWord(false),
ignoreCaseBehaviour(SC_CASEINSENSITIVEBEHAVIOUR_RESPECTCASE),
widthLBDefault(100),
heightLBDefault(100),
autoSort(SC_ORDER_PRESORTED) {
lb = ListBox::Allocate();
}
AutoComplete::~AutoComplete() {
if (lb) {
lb->Destroy();
delete lb;
lb = 0;
}
}
bool AutoComplete::Active() const {
return active;
}
void AutoComplete::Start(Window &parent, int ctrlID,
int position, Point location, int startLen_,
int lineHeight, bool unicodeMode, int technology) {
if (active) {
Cancel();
}
lb->Create(parent, ctrlID, location, lineHeight, unicodeMode, technology);
lb->Clear();
active = true;
startLen = startLen_;
posStart = position;
}
void AutoComplete::SetStopChars(const char *stopChars_) {
stopChars = stopChars_;
}
bool AutoComplete::IsStopChar(char ch) {
return ch && (stopChars.find(ch) != std::string::npos);
}
void AutoComplete::SetFillUpChars(const char *fillUpChars_) {
fillUpChars = fillUpChars_;
}
bool AutoComplete::IsFillUpChar(char ch) {
return ch && (fillUpChars.find(ch) != std::string::npos);
}
void AutoComplete::SetSeparator(char separator_) {
separator = separator_;
}
char AutoComplete::GetSeparator() const {
return separator;
}
void AutoComplete::SetTypesep(char separator_) {
typesep = separator_;
}
char AutoComplete::GetTypesep() const {
return typesep;
}
struct Sorter {
AutoComplete *ac;
const char *list;
std::vector<int> indices;
Sorter(AutoComplete *ac_, const char *list_) : ac(ac_), list(list_) {
int i = 0;
while (list[i]) {
indices.push_back(i); // word start
while (list[i] != ac->GetTypesep() && list[i] != ac->GetSeparator() && list[i])
++i;
indices.push_back(i); // word end
if (list[i] == ac->GetTypesep()) {
while (list[i] != ac->GetSeparator() && list[i])
++i;
}
if (list[i] == ac->GetSeparator()) {
++i;
// preserve trailing separator as blank entry
if (!list[i]) {
indices.push_back(i);
indices.push_back(i);
}
}
}
indices.push_back(i); // index of last position
}
bool operator()(int a, int b) {
int lenA = indices[a * 2 + 1] - indices[a * 2];
int lenB = indices[b * 2 + 1] - indices[b * 2];
int len = std::min(lenA, lenB);
int cmp;
if (ac->ignoreCase)
cmp = CompareNCaseInsensitive(list + indices[a * 2], list + indices[b * 2], len);
else
cmp = strncmp(list + indices[a * 2], list + indices[b * 2], len);
if (cmp == 0)
cmp = lenA - lenB;
return cmp < 0;
}
};
void AutoComplete::SetList(const char *list) {
if (autoSort == SC_ORDER_PRESORTED) {
lb->SetList(list, separator, typesep);
sortMatrix.clear();
for (int i = 0; i < lb->Length(); ++i)
sortMatrix.push_back(i);
return;
}
Sorter IndexSort(this, list);
sortMatrix.clear();
for (int i = 0; i < (int)IndexSort.indices.size() / 2; ++i)
sortMatrix.push_back(i);
std::sort(sortMatrix.begin(), sortMatrix.end(), IndexSort);
if (autoSort == SC_ORDER_CUSTOM || sortMatrix.size() < 2) {
lb->SetList(list, separator, typesep);
PLATFORM_ASSERT(lb->Length() == static_cast<int>(sortMatrix.size()));
return;
}
std::string sortedList;
char item[maxItemLen];
for (size_t i = 0; i < sortMatrix.size(); ++i) {
int wordLen = IndexSort.indices[sortMatrix[i] * 2 + 2] - IndexSort.indices[sortMatrix[i] * 2];
strncpy(item, list + IndexSort.indices[sortMatrix[i] * 2], wordLen);
if ((i+1) == sortMatrix.size()) {
// Last item so remove separator if present
if ((wordLen > 0) && (item[wordLen-1] == separator))
wordLen--;
} else {
// Item before last needs a separator
if ((wordLen == 0) || (item[wordLen-1] != separator)) {
item[wordLen] = separator;
wordLen++;
}
}
item[wordLen] = '\0';
sortedList += item;
}
for (int i = 0; i < (int)sortMatrix.size(); ++i)
sortMatrix[i] = i;
lb->SetList(sortedList.c_str(), separator, typesep);
}
int AutoComplete::GetSelection() const {
return lb->GetSelection();
}
std::string AutoComplete::GetValue(int item) const {
char value[maxItemLen];
lb->GetValue(item, value, sizeof(value));
return std::string(value);
}
void AutoComplete::Show(bool show) {
lb->Show(show);
if (show)
lb->Select(0);
}
void AutoComplete::Cancel() {
if (lb->Created()) {
lb->Clear();
lb->Destroy();
active = false;
}
}
void AutoComplete::Move(int delta) {
int count = lb->Length();
int current = lb->GetSelection();
current += delta;
if (current >= count)
current = count - 1;
if (current < 0)
current = 0;
lb->Select(current);
}
void AutoComplete::Select(const char *word) {
size_t lenWord = strlen(word);
int location = -1;
int start = 0; // lower bound of the api array block to search
int end = lb->Length() - 1; // upper bound of the api array block to search
while ((start <= end) && (location == -1)) { // Binary searching loop
int pivot = (start + end) / 2;
char item[maxItemLen];
lb->GetValue(sortMatrix[pivot], item, maxItemLen);
int cond;
if (ignoreCase)
cond = CompareNCaseInsensitive(word, item, lenWord);
else
cond = strncmp(word, item, lenWord);
if (!cond) {
// Find first match
while (pivot > start) {
lb->GetValue(sortMatrix[pivot-1], item, maxItemLen);
if (ignoreCase)
cond = CompareNCaseInsensitive(word, item, lenWord);
else
cond = strncmp(word, item, lenWord);
if (0 != cond)
break;
--pivot;
}
location = pivot;
if (ignoreCase
&& ignoreCaseBehaviour == SC_CASEINSENSITIVEBEHAVIOUR_RESPECTCASE) {
// Check for exact-case match
for (; pivot <= end; pivot++) {
lb->GetValue(sortMatrix[pivot], item, maxItemLen);
if (!strncmp(word, item, lenWord)) {
location = pivot;
break;
}
if (CompareNCaseInsensitive(word, item, lenWord))
break;
}
}
} else if (cond < 0) {
end = pivot - 1;
} else if (cond > 0) {
start = pivot + 1;
}
}
if (location == -1) {
if (autoHide)
Cancel();
else
lb->Select(-1);
} else {
if (autoSort == SC_ORDER_CUSTOM) {
// Check for a logically earlier match
char item[maxItemLen];
for (int i = location + 1; i <= end; ++i) {
lb->GetValue(sortMatrix[i], item, maxItemLen);
if (CompareNCaseInsensitive(word, item, lenWord))
break;
if (sortMatrix[i] < sortMatrix[location] && !strncmp(word, item, lenWord))
location = i;
}
}
lb->Select(sortMatrix[location]);
}
}