notepad-plus-plus-legacy/scintilla/src/CellBuffer.cxx

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// Scintilla source code edit control
/** @file CellBuffer.cxx
** Manages a buffer of cells.
**/
// Copyright 1998-2001 by Neil Hodgson <neilh@scintilla.org>
// The License.txt file describes the conditions under which this software may be distributed.
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <stdarg.h>
#include "Platform.h"
#include "Scintilla.h"
#include "SplitVector.h"
#include "Partitioning.h"
#include "CellBuffer.h"
#ifdef SCI_NAMESPACE
using namespace Scintilla;
#endif
LineVector::LineVector() : starts(256), perLine(0) {
Init();
}
LineVector::~LineVector() {
starts.DeleteAll();
}
void LineVector::Init() {
starts.DeleteAll();
if (perLine) {
perLine->Init();
}
}
void LineVector::SetPerLine(PerLine *pl) {
perLine = pl;
}
void LineVector::InsertText(int line, int delta) {
starts.InsertText(line, delta);
}
void LineVector::InsertLine(int line, int position, bool lineStart) {
starts.InsertPartition(line, position);
if (perLine) {
if ((line > 0) && lineStart)
line--;
perLine->InsertLine(line);
}
}
void LineVector::SetLineStart(int line, int position) {
starts.SetPartitionStartPosition(line, position);
}
void LineVector::RemoveLine(int line) {
starts.RemovePartition(line);
if (perLine) {
perLine->RemoveLine(line);
}
}
int LineVector::LineFromPosition(int pos) const {
return starts.PartitionFromPosition(pos);
}
Action::Action() {
at = startAction;
position = 0;
data = 0;
lenData = 0;
mayCoalesce = false;
}
Action::~Action() {
Destroy();
}
void Action::Create(actionType at_, int position_, char *data_, int lenData_, bool mayCoalesce_) {
delete []data;
position = position_;
at = at_;
data = data_;
lenData = lenData_;
mayCoalesce = mayCoalesce_;
}
void Action::Destroy() {
delete []data;
data = 0;
}
void Action::Grab(Action *source) {
delete []data;
position = source->position;
at = source->at;
data = source->data;
lenData = source->lenData;
mayCoalesce = source->mayCoalesce;
// Ownership of source data transferred to this
source->position = 0;
source->at = startAction;
source->data = 0;
source->lenData = 0;
source->mayCoalesce = true;
}
// The undo history stores a sequence of user operations that represent the user's view of the
// commands executed on the text.
// Each user operation contains a sequence of text insertion and text deletion actions.
// All the user operations are stored in a list of individual actions with 'start' actions used
// as delimiters between user operations.
// Initially there is one start action in the history.
// As each action is performed, it is recorded in the history. The action may either become
// part of the current user operation or may start a new user operation. If it is to be part of the
// current operation, then it overwrites the current last action. If it is to be part of a new
// operation, it is appended after the current last action.
// After writing the new action, a new start action is appended at the end of the history.
// The decision of whether to start a new user operation is based upon two factors. If a
// compound operation has been explicitly started by calling BeginUndoAction and no matching
// EndUndoAction (these calls nest) has been called, then the action is coalesced into the current
// operation. If there is no outstanding BeginUndoAction call then a new operation is started
// unless it looks as if the new action is caused by the user typing or deleting a stream of text.
// Sequences that look like typing or deletion are coalesced into a single user operation.
UndoHistory::UndoHistory() {
lenActions = 100;
actions = new Action[lenActions];
maxAction = 0;
currentAction = 0;
undoSequenceDepth = 0;
savePoint = 0;
actions[currentAction].Create(startAction);
}
UndoHistory::~UndoHistory() {
delete []actions;
actions = 0;
}
void UndoHistory::EnsureUndoRoom() {
// Have to test that there is room for 2 more actions in the array
// as two actions may be created by the calling function
if (currentAction >= (lenActions - 2)) {
// Run out of undo nodes so extend the array
int lenActionsNew = lenActions * 2;
Action *actionsNew = new Action[lenActionsNew];
for (int act = 0; act <= currentAction; act++)
actionsNew[act].Grab(&actions[act]);
delete []actions;
lenActions = lenActionsNew;
actions = actionsNew;
}
}
void UndoHistory::AppendAction(actionType at, int position, char *data, int lengthData,
bool &startSequence, bool mayCoalesce) {
EnsureUndoRoom();
//Platform::DebugPrintf("%% %d action %d %d %d\n", at, position, lengthData, currentAction);
//Platform::DebugPrintf("^ %d action %d %d\n", actions[currentAction - 1].at,
// actions[currentAction - 1].position, actions[currentAction - 1].lenData);
if (currentAction < savePoint) {
savePoint = -1;
}
int oldCurrentAction = currentAction;
if (currentAction >= 1) {
if (0 == undoSequenceDepth) {
// Top level actions may not always be coalesced
int targetAct = -1;
const Action *actPrevious = &(actions[currentAction + targetAct]);
// Container actions may forward the coalesce state of Scintilla Actions.
while ((actPrevious->at == containerAction) && actPrevious->mayCoalesce) {
targetAct--;
actPrevious = &(actions[currentAction + targetAct]);
}
// See if current action can be coalesced into previous action
// Will work if both are inserts or deletes and position is same
if (currentAction == savePoint) {
currentAction++;
} else if (!actions[currentAction].mayCoalesce) {
// Not allowed to coalesce if this set
currentAction++;
} else if (!mayCoalesce || !actPrevious->mayCoalesce) {
currentAction++;
} else if (at == containerAction || actions[currentAction].at == containerAction) {
; // A coalescible containerAction
} else if ((at != actPrevious->at) && (actPrevious->at != startAction)) {
currentAction++;
} else if ((at == insertAction) &&
(position != (actPrevious->position + actPrevious->lenData))) {
// Insertions must be immediately after to coalesce
currentAction++;
} else if (at == removeAction) {
if ((lengthData == 1) || (lengthData == 2)) {
if ((position + lengthData) == actPrevious->position) {
; // Backspace -> OK
} else if (position == actPrevious->position) {
; // Delete -> OK
} else {
// Removals must be at same position to coalesce
currentAction++;
}
} else {
// Removals must be of one character to coalesce
currentAction++;
}
} else {
// Action coalesced.
}
} else {
// Actions not at top level are always coalesced unless this is after return to top level
if (!actions[currentAction].mayCoalesce)
currentAction++;
}
} else {
currentAction++;
}
startSequence = oldCurrentAction != currentAction;
actions[currentAction].Create(at, position, data, lengthData, mayCoalesce);
currentAction++;
actions[currentAction].Create(startAction);
maxAction = currentAction;
}
void UndoHistory::BeginUndoAction() {
EnsureUndoRoom();
if (undoSequenceDepth == 0) {
if (actions[currentAction].at != startAction) {
currentAction++;
actions[currentAction].Create(startAction);
maxAction = currentAction;
}
actions[currentAction].mayCoalesce = false;
}
undoSequenceDepth++;
}
void UndoHistory::EndUndoAction() {
PLATFORM_ASSERT(undoSequenceDepth > 0);
EnsureUndoRoom();
undoSequenceDepth--;
if (0 == undoSequenceDepth) {
if (actions[currentAction].at != startAction) {
currentAction++;
actions[currentAction].Create(startAction);
maxAction = currentAction;
}
actions[currentAction].mayCoalesce = false;
}
}
void UndoHistory::DropUndoSequence() {
undoSequenceDepth = 0;
}
void UndoHistory::DeleteUndoHistory() {
for (int i = 1; i < maxAction; i++)
actions[i].Destroy();
maxAction = 0;
currentAction = 0;
actions[currentAction].Create(startAction);
savePoint = 0;
}
void UndoHistory::SetSavePoint() {
savePoint = currentAction;
}
bool UndoHistory::IsSavePoint() const {
return savePoint == currentAction;
}
bool UndoHistory::CanUndo() const {
return (currentAction > 0) && (maxAction > 0);
}
int UndoHistory::StartUndo() {
// Drop any trailing startAction
if (actions[currentAction].at == startAction && currentAction > 0)
currentAction--;
// Count the steps in this action
int act = currentAction;
while (actions[act].at != startAction && act > 0) {
act--;
}
return currentAction - act;
}
const Action &UndoHistory::GetUndoStep() const {
return actions[currentAction];
}
void UndoHistory::CompletedUndoStep() {
currentAction--;
}
bool UndoHistory::CanRedo() const {
return maxAction > currentAction;
}
int UndoHistory::StartRedo() {
// Drop any leading startAction
if (actions[currentAction].at == startAction && currentAction < maxAction)
currentAction++;
// Count the steps in this action
int act = currentAction;
while (actions[act].at != startAction && act < maxAction) {
act++;
}
return act - currentAction;
}
const Action &UndoHistory::GetRedoStep() const {
return actions[currentAction];
}
void UndoHistory::CompletedRedoStep() {
currentAction++;
}
CellBuffer::CellBuffer() {
readOnly = false;
collectingUndo = true;
}
CellBuffer::~CellBuffer() {
}
char CellBuffer::CharAt(int position) const {
return substance.ValueAt(position);
}
void CellBuffer::GetCharRange(char *buffer, int position, int lengthRetrieve) const {
if (lengthRetrieve < 0)
return;
if (position < 0)
return;
if ((position + lengthRetrieve) > substance.Length()) {
Platform::DebugPrintf("Bad GetCharRange %d for %d of %d\n", position,
lengthRetrieve, substance.Length());
return;
}
substance.GetRange(buffer, position, lengthRetrieve);
}
char CellBuffer::StyleAt(int position) const {
return style.ValueAt(position);
}
void CellBuffer::GetStyleRange(unsigned char *buffer, int position, int lengthRetrieve) const {
if (lengthRetrieve < 0)
return;
if (position < 0)
return;
if ((position + lengthRetrieve) > style.Length()) {
Platform::DebugPrintf("Bad GetStyleRange %d for %d of %d\n", position,
lengthRetrieve, style.Length());
return;
}
style.GetRange(reinterpret_cast<char *>(buffer), position, lengthRetrieve);
}
const char *CellBuffer::BufferPointer() {
return substance.BufferPointer();
}
// The char* returned is to an allocation owned by the undo history
const char *CellBuffer::InsertString(int position, const char *s, int insertLength, bool &startSequence) {
char *data = 0;
// InsertString and DeleteChars are the bottleneck though which all changes occur
if (!readOnly) {
if (collectingUndo) {
// Save into the undo/redo stack, but only the characters - not the formatting
// This takes up about half load time
data = new char[insertLength];
for (int i = 0; i < insertLength; i++) {
data[i] = s[i];
}
uh.AppendAction(insertAction, position, data, insertLength, startSequence);
}
BasicInsertString(position, s, insertLength);
}
return data;
}
bool CellBuffer::SetStyleAt(int position, char styleValue, char mask) {
styleValue &= mask;
char curVal = style.ValueAt(position);
if ((curVal & mask) != styleValue) {
style.SetValueAt(position, static_cast<char>((curVal & ~mask) | styleValue));
return true;
} else {
return false;
}
}
bool CellBuffer::SetStyleFor(int position, int lengthStyle, char styleValue, char mask) {
bool changed = false;
PLATFORM_ASSERT(lengthStyle == 0 ||
(lengthStyle > 0 && lengthStyle + position <= style.Length()));
while (lengthStyle--) {
char curVal = style.ValueAt(position);
if ((curVal & mask) != styleValue) {
style.SetValueAt(position, static_cast<char>((curVal & ~mask) | styleValue));
changed = true;
}
position++;
}
return changed;
}
// The char* returned is to an allocation owned by the undo history
const char *CellBuffer::DeleteChars(int position, int deleteLength, bool &startSequence) {
// InsertString and DeleteChars are the bottleneck though which all changes occur
PLATFORM_ASSERT(deleteLength > 0);
char *data = 0;
if (!readOnly) {
if (collectingUndo) {
// Save into the undo/redo stack, but only the characters - not the formatting
data = new char[deleteLength];
for (int i = 0; i < deleteLength; i++) {
data[i] = substance.ValueAt(position + i);
}
uh.AppendAction(removeAction, position, data, deleteLength, startSequence);
}
BasicDeleteChars(position, deleteLength);
}
return data;
}
int CellBuffer::Length() const {
return substance.Length();
}
void CellBuffer::Allocate(int newSize) {
substance.ReAllocate(newSize);
style.ReAllocate(newSize);
}
void CellBuffer::SetPerLine(PerLine *pl) {
lv.SetPerLine(pl);
}
int CellBuffer::Lines() const {
return lv.Lines();
}
int CellBuffer::LineStart(int line) const {
if (line < 0)
return 0;
else if (line >= Lines())
return Length();
else
return lv.LineStart(line);
}
bool CellBuffer::IsReadOnly() const {
return readOnly;
}
void CellBuffer::SetReadOnly(bool set) {
readOnly = set;
}
void CellBuffer::SetSavePoint() {
uh.SetSavePoint();
}
bool CellBuffer::IsSavePoint() {
return uh.IsSavePoint();
}
// Without undo
void CellBuffer::InsertLine(int line, int position, bool lineStart) {
lv.InsertLine(line, position, lineStart);
}
void CellBuffer::RemoveLine(int line) {
lv.RemoveLine(line);
}
void CellBuffer::BasicInsertString(int position, const char *s, int insertLength) {
if (insertLength == 0)
return;
PLATFORM_ASSERT(insertLength > 0);
substance.InsertFromArray(position, s, 0, insertLength);
style.InsertValue(position, insertLength, 0);
int lineInsert = lv.LineFromPosition(position) + 1;
bool atLineStart = lv.LineStart(lineInsert-1) == position;
// Point all the lines after the insertion point further along in the buffer
lv.InsertText(lineInsert-1, insertLength);
char chPrev = substance.ValueAt(position - 1);
char chAfter = substance.ValueAt(position + insertLength);
if (chPrev == '\r' && chAfter == '\n') {
// Splitting up a crlf pair at position
InsertLine(lineInsert, position, false);
lineInsert++;
}
char ch = ' ';
for (int i = 0; i < insertLength; i++) {
ch = s[i];
if (ch == '\r') {
InsertLine(lineInsert, (position + i) + 1, atLineStart);
lineInsert++;
} else if (ch == '\n') {
if (chPrev == '\r') {
// Patch up what was end of line
lv.SetLineStart(lineInsert - 1, (position + i) + 1);
} else {
InsertLine(lineInsert, (position + i) + 1, atLineStart);
lineInsert++;
}
}
chPrev = ch;
}
// Joining two lines where last insertion is cr and following substance starts with lf
if (chAfter == '\n') {
if (ch == '\r') {
// End of line already in buffer so drop the newly created one
RemoveLine(lineInsert - 1);
}
}
}
void CellBuffer::BasicDeleteChars(int position, int deleteLength) {
if (deleteLength == 0)
return;
if ((position == 0) && (deleteLength == substance.Length())) {
// If whole buffer is being deleted, faster to reinitialise lines data
// than to delete each line.
lv.Init();
} else {
// Have to fix up line positions before doing deletion as looking at text in buffer
// to work out which lines have been removed
int lineRemove = lv.LineFromPosition(position) + 1;
lv.InsertText(lineRemove-1, - (deleteLength));
char chPrev = substance.ValueAt(position - 1);
char chBefore = chPrev;
char chNext = substance.ValueAt(position);
bool ignoreNL = false;
if (chPrev == '\r' && chNext == '\n') {
// Move back one
lv.SetLineStart(lineRemove, position);
lineRemove++;
ignoreNL = true; // First \n is not real deletion
}
char ch = chNext;
for (int i = 0; i < deleteLength; i++) {
chNext = substance.ValueAt(position + i + 1);
if (ch == '\r') {
if (chNext != '\n') {
RemoveLine(lineRemove);
}
} else if (ch == '\n') {
if (ignoreNL) {
ignoreNL = false; // Further \n are real deletions
} else {
RemoveLine(lineRemove);
}
}
ch = chNext;
}
// May have to fix up end if last deletion causes cr to be next to lf
// or removes one of a crlf pair
char chAfter = substance.ValueAt(position + deleteLength);
if (chBefore == '\r' && chAfter == '\n') {
// Using lineRemove-1 as cr ended line before start of deletion
RemoveLine(lineRemove - 1);
lv.SetLineStart(lineRemove - 1, position + 1);
}
}
substance.DeleteRange(position, deleteLength);
style.DeleteRange(position, deleteLength);
}
bool CellBuffer::SetUndoCollection(bool collectUndo) {
collectingUndo = collectUndo;
uh.DropUndoSequence();
return collectingUndo;
}
bool CellBuffer::IsCollectingUndo() const {
return collectingUndo;
}
void CellBuffer::BeginUndoAction() {
uh.BeginUndoAction();
}
void CellBuffer::EndUndoAction() {
uh.EndUndoAction();
}
void CellBuffer::AddUndoAction(int token, bool mayCoalesce) {
bool startSequence;
uh.AppendAction(containerAction, token, 0, 0, startSequence, mayCoalesce);
}
void CellBuffer::DeleteUndoHistory() {
uh.DeleteUndoHistory();
}
bool CellBuffer::CanUndo() {
return uh.CanUndo();
}
int CellBuffer::StartUndo() {
return uh.StartUndo();
}
const Action &CellBuffer::GetUndoStep() const {
return uh.GetUndoStep();
}
void CellBuffer::PerformUndoStep() {
const Action &actionStep = uh.GetUndoStep();
if (actionStep.at == insertAction) {
BasicDeleteChars(actionStep.position, actionStep.lenData);
} else if (actionStep.at == removeAction) {
BasicInsertString(actionStep.position, actionStep.data, actionStep.lenData);
}
uh.CompletedUndoStep();
}
bool CellBuffer::CanRedo() {
return uh.CanRedo();
}
int CellBuffer::StartRedo() {
return uh.StartRedo();
}
const Action &CellBuffer::GetRedoStep() const {
return uh.GetRedoStep();
}
void CellBuffer::PerformRedoStep() {
const Action &actionStep = uh.GetRedoStep();
if (actionStep.at == insertAction) {
BasicInsertString(actionStep.position, actionStep.data, actionStep.lenData);
} else if (actionStep.at == removeAction) {
BasicDeleteChars(actionStep.position, actionStep.lenData);
}
uh.CompletedRedoStep();
}