syncfiles/macos/project.c

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// Copyright 2022 Dietrich Epp.
// This file is part of SyncFiles. SyncFiles is licensed under the terms of the
// Mozilla Public License, version 2.0. See LICENSE.txt for details.
#include "macos/project.h"
#include "lib/crc32.h"
#include "macos/choose_directory.h"
#include "macos/error.h"
#include "macos/main.h"
#include "macos/path.h"
#include "macos/resources.h"
#include "macos/tempfile.h"
#include <Aliases.h>
#include <MacMemory.h>
#include <MacWindows.h>
#include <string.h>
/*
Project format:
Header:
byte[32] magic
uint32 version
uint32 header length
uint32 header crc32
uint32 chunk count
ckinfo[] chunk info
byte[] chunk data
Chunk info:
uint32 chunk ID
uint32 byte offset
uint32 byte length
uint32 chunk crc32
Chunks: (names zero-padded)
"LOCA" local directory alias
"LOCP" local directory path
"REMA" destination directory alias
"REMP" destination directory path
Chunks are aligned to 16 byte boundaries, and the file is padded to a 16 byte
boundary. This is just to make it easier to read hexdumps.
*/
#define kVersion 0x10000
#define kMaxChunkCount 32
#define kMaxChunkSize (4 * 1024)
// clang-format off
// Magic cookie that identifies project files.
static const unsigned char kMagic[32] = {
// Identify the file type.
'S', 'y', 'n', 'c', 'F', 'i', 'l', 'e', 's',
' ', 'P', 'r', 'o', 'j', 'e', 'c', 't',
// Detect newline conversions.
0, 10, 0, 13, 0, 13, 10, 0,
// Detect encoding conversions (infinity in Roman and UTF-8).
0xb0, 0, 0xe2, 0x88, 0x9e, 0, 0
};
// clang-format on
struct ProjectHeader {
UInt8 magic[32];
UInt32 version;
UInt32 size;
UInt32 crc32;
UInt32 chunkCount;
};
struct ProjectChunk {
UInt32 id;
UInt32 offset;
UInt32 size;
UInt32 crc32;
};
static const UInt32 kProjectAliasChunks[2] = {'LOCA', 'REMA'};
static const UInt32 kProjectPathChunks[2] = {'LOCP', 'REMP'};
// Dimensions of controls.
enum {
kVBorder = 10,
kHBorder = 10,
kDirVSize = 62,
};
enum {
kControlChooseDirLocal,
kControlChooseDirRemote,
};
// FIXME: this is redundant.
enum {
kDirLocal,
kDirRemote,
};
struct ProjectDir {
int pathLength;
Handle path;
AliasHandle alias;
};
// A synchronization project.
struct Project {
int windowWidth;
int isActive;
// File reference to the project file, or fileRef == 0 otherwise.
short fileRef;
// Location of the project file, if vRefNum != 0. In a possible edge case,
// the fileSpec may be set even when fileRef is 0. This may happen if you
// save the project to a volume which does not support FSpExchangeFiles(),
// and the operation fails.
FSSpec fileSpec;
// Script code for the filename.
ScriptCode fileScript;
struct ProjectDir dirs[2];
};
// ProjectNewObject creates a new empty Project object.
static ProjectHandle ProjectNewObject(void)
{
ProjectHandle project;
project = (ProjectHandle)NewHandle(sizeof(struct Project));
if (project == NULL) {
ShowMemError();
return NULL;
}
memset(*project, 0, sizeof(struct Project));
return project;
}
// ProjectDelete deletes a Project object. It does not free any associated
// windows.
static void ProjectDelete(ProjectHandle project)
{
Handle h;
int i;
short fileRef;
fileRef = (*project)->fileRef;
if (fileRef != 0) {
FSClose(fileRef);
}
for (i = 0; i < 2; i++) {
h = (*project)->dirs[i].path;
if (h != NULL) {
DisposeHandle(h);
}
h = (Handle)(*project)->dirs[i].alias;
if (h != NULL) {
DisposeHandle(h);
}
}
DisposeHandle((Handle)project);
}
// ProjectCreateWindow creates a window for a given Project object.
static void ProjectCreateWindow(ProjectHandle project)
{
WindowRef window;
ControlRef control;
int i, windowWidth, controlWidth;
window = GetNewCWindow(rWIND_Project, NULL, (WindowPtr)-1);
if (window == NULL) {
EXIT_INTERNAL();
}
windowWidth = window->portRect.right - window->portRect.left;
SetWRefCon(window, (long)project);
(*project)->windowWidth = windowWidth;
for (i = 0; i < 2; i++) {
control = GetNewControl(rCNTL_ChooseFolder, window);
if (control == NULL) {
EXIT_INTERNAL();
}
controlWidth =
(*control)->contrlRect.right - (*control)->contrlRect.left;
MoveControl(control, windowWidth - controlWidth - kHBorder,
kVBorder + kDirVSize * i + 22);
SetControlReference(control, kControlChooseDirLocal + i);
}
ShowWindow(window);
}
void ProjectNew(void)
{
ProjectHandle project;
project = ProjectNewObject();
if (project == NULL) {
return;
}
ProjectCreateWindow(project);
}
// ProjectReadError displays an error message encountered when trying to read a
// project.
static void ProjectReadError(ProjectHandle project, ErrorCode err, OSErr osErr)
{
StrFileName name;
memcpy(name, (*project)->fileSpec.name, sizeof(StrFileName));
ShowError(kErrCouldNotReadProject, err, osErr, name);
}
typedef enum ProjectChunkStatus {
kChunkNotFound,
kChunkFound,
kChunkError,
} ProjectChunkStatus;
static ProjectChunkStatus ProjectReadChunk(ProjectHandle project, int nchunks,
struct ProjectChunk **chunks,
UInt32 chunkID, Handle *dataPtr,
long *sizePtr)
{
struct ProjectChunk *chunk, *end;
UInt32 offset, size, crc32, gotCRC32;
long count;
Handle h;
OSErr osErr;
short fileRef;
chunk = *chunks;
end = chunk + nchunks;
for (; chunk < end; chunk++) {
if (chunk->id == chunkID) {
goto found;
}
}
return kChunkNotFound;
found:
offset = chunk->offset;
size = chunk->size;
crc32 = chunk->crc32;
if (size > kMaxChunkSize) {
ProjectReadError(project, kErrProjectLarge, 0);
return kChunkError;
}
h = NewHandle(size);
if (h == NULL) {
ProjectReadError(project, kErrOutOfMemory, MemError());
return kChunkError;
}
if (size > 0) {
fileRef = (*project)->fileRef;
osErr = SetFPos(fileRef, fsFromStart, offset);
if (osErr != 0) {
DisposeHandle(h);
ProjectReadError(project, kErrNone, osErr);
return kChunkError;
}
count = size;
osErr = FSRead(fileRef, &count, *h);
if (osErr != 0) {
DisposeHandle(h);
ProjectReadError(project, kErrNone, osErr);
return kChunkError;
}
}
gotCRC32 = CRC32Update(0, *h, size);
if (crc32 != gotCRC32) {
DisposeHandle(h);
ProjectReadError(project, kErrProjectDamaged, 0);
return kChunkError;
}
*dataPtr = h;
*sizePtr = size;
return kChunkFound;
}
// ProjectRead reads the project from disk. Returns true on success.
static Boolean ProjectRead(ProjectHandle project)
{
struct ProjectHeader header;
struct ProjectChunk **chunks;
short fileRef;
long count, size;
ErrorCode err;
OSErr osErr;
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int nchunks, i, pathLength;
UInt32 headerCRC, gotCRC;
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Handle alias, path;
ProjectChunkStatus chunkStatus;
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FSSpec folderSpec;
Boolean wasChanged;
chunks = NULL;
err = kErrNone;
osErr = 0;
fileRef = (*project)->fileRef;
osErr = SetFPos(fileRef, fsFromStart, 0);
if (osErr != 0) {
goto error;
}
count = sizeof(header);
osErr = FSRead(fileRef, &count, &header);
if (osErr != 0) {
goto error;
}
if (count < sizeof(header) ||
memcmp(header.magic, kMagic, sizeof(kMagic)) != 0) {
err = kErrProjectDamaged;
goto error;
}
if (header.chunkCount > kMaxChunkCount) {
err = kErrProjectLarge;
goto error;
}
headerCRC = header.crc32;
header.crc32 = 0;
gotCRC = CRC32Update(0, &header, sizeof(header));
nchunks = header.chunkCount;
if (nchunks > 0) {
size = sizeof(struct ProjectChunk) * nchunks;
chunks = (struct ProjectChunk **)NewHandle(size);
if (chunks == NULL) {
err = kErrOutOfMemory;
osErr = MemError();
goto error;
}
count = size;
osErr = FSRead(fileRef, &count, *chunks);
if (osErr != 0) {
goto error;
}
if (count < size) {
err = kErrProjectDamaged;
goto error;
}
gotCRC = CRC32Update(gotCRC, *chunks, size);
}
if (headerCRC != gotCRC) {
err = kErrProjectDamaged;
goto error;
}
for (i = 0; i < 2; i++) {
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chunkStatus = ProjectReadChunk(project, nchunks, chunks,
kProjectAliasChunks[i], &alias, &size);
switch (chunkStatus) {
case kChunkError:
goto errorSilent;
2023-05-07 02:55:06 +00:00
case kChunkFound:
(*project)->dirs[i].alias = (AliasHandle)alias;
osErr = ResolveAlias(NULL, (AliasHandle)alias, &folderSpec,
&wasChanged);
err = (ErrorCode)(kErrLocalNotFound + i);
switch (osErr) {
case noErr:
osErr = GetDirPath(&folderSpec, &pathLength, &path);
if (osErr != 0) {
ShowError(err, kErrNone, osErr, NULL);
} else {
(*project)->dirs[i].pathLength = pathLength;
(*project)->dirs[i].path = path;
}
break;
case nsvErr:
ShowError(err, kErrNotMounted, 0, NULL);
break;
case fnfErr:
case dirNFErr:
ShowError(err, kErrNone, 0, NULL);
break;
default:
ShowError(err, kErrNone, osErr, NULL);
break;
}
break;
default:
chunkStatus = ProjectReadChunk(project, nchunks, chunks,
kProjectPathChunks[i], &path, &size);
switch (chunkStatus) {
case kChunkError:
goto errorSilent;
case kChunkFound:
(*project)->dirs[i].pathLength = size;
(*project)->dirs[i].path = path;
break;
default:
break;
}
break;
}
}
if (chunks != NULL) {
DisposeHandle((Handle)chunks);
}
return true;
error:
if (chunks != NULL) {
DisposeHandle((Handle)chunks);
}
ProjectReadError(project, err, osErr);
return false;
errorSilent:
if (chunks != NULL) {
DisposeHandle((Handle)chunks);
}
return false;
}
void ProjectOpen(FSSpec *spec, ScriptCode script)
{
ProjectHandle project;
struct Project *projectp;
short fileRef;
OSErr err;
err = FSpOpenDF(spec, fsRdWrPerm, &fileRef);
if (err != noErr) {
ShowError(kErrCouldNotReadProject, kErrNone, err, spec->name);
return;
}
project = ProjectNewObject();
if (project == NULL) {
FSClose(fileRef);
return;
}
projectp = *project;
projectp->fileRef = fileRef;
memcpy(&projectp->fileSpec, spec, sizeof(FSSpec));
projectp->fileScript = script;
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if (!ProjectRead(project)) {
// This will close the file.
ProjectDelete(project);
return;
}
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ProjectCreateWindow(project);
}
static Boolean ProjectHasDirectory(ProjectHandle project, int which)
{
struct Project *projectp = *project;
return projectp->dirs[which].alias != NULL ||
projectp->dirs[which].path != NULL;
}
void ProjectAdjustMenus(ProjectHandle project, MenuHandle fileMenu,
MenuHandle projectMenu)
{
if (fileMenu != NULL) {
EnableItem(fileMenu, iFile_Close);
EnableItem(fileMenu, iFile_Save);
EnableItem(fileMenu, iFile_SaveAs);
EnableItem(fileMenu, iFile_Revert);
}
if (projectMenu != NULL) {
if (ProjectHasDirectory(project, kDirLocal) &&
ProjectHasDirectory(project, kDirRemote)) {
EnableItem(projectMenu, iProject_Upload);
EnableItem(projectMenu, iProject_Download);
} else {
DisableItem(projectMenu, iProject_Upload);
DisableItem(projectMenu, iProject_Download);
}
}
}
static void ProjectClose(WindowRef window, ProjectHandle project)
{
KillControls(window);
DisposeWindow(window);
ProjectDelete(project);
}
#define kChunkCount 4
2022-11-16 23:30:59 +00:00
#define ALIGN(x) (((x) + 15) & ~(UInt32)15)
static OSErr ProjectWriteHeader(short refNum, int nchunks,
struct ProjectChunk *ckInfo)
{
Ptr ptr;
struct ProjectHeader *head;
UInt32 size;
long count;
OSErr err;
size = sizeof(struct ProjectHeader) + sizeof(struct ProjectChunk) * nchunks;
ptr = NewPtr(size);
if (ptr == NULL) {
return MemError();
}
head = (struct ProjectHeader *)ptr;
memcpy(head->magic, kMagic, sizeof(head->magic));
head->version = kVersion;
head->size = size;
head->crc32 = 0;
head->chunkCount = nchunks;
memcpy(ptr + sizeof(struct ProjectHeader), ckInfo,
nchunks * sizeof(struct ProjectChunk));
head->crc32 = CRC32Update(0, ptr, size);
count = size;
err = FSWrite(refNum, &count, ptr);
DisposePtr(ptr);
return err;
}
static OSErr ProjectFlush(short refNum)
{
ParamBlockRec pb;
memset(&pb, 0, sizeof(pb));
pb.ioParam.ioRefNum = refNum;
return PBFlushFileSync(&pb);
}
// ProjectWriteContent writes the project data to the given file.
static OSErr ProjectWriteContent(ProjectHandle project, short refNum)
{
UInt32 pad[4];
OSErr err;
Handle ckData[kChunkCount];
struct ProjectChunk ckInfo[kChunkCount];
UInt32 off;
Size size;
Handle h;
int i, nchunks;
long count;
// Gather all chunks.
nchunks = 0;
for (i = 0; i < 2; i++) {
h = (Handle)(*project)->dirs[i].alias;
if (h != NULL) {
ckData[nchunks] = h;
ckInfo[nchunks].id = kProjectAliasChunks[i];
nchunks++;
}
h = (*project)->dirs[i].path;
if (h != NULL) {
ckData[nchunks] = h;
ckInfo[nchunks].id = kProjectPathChunks[i];
nchunks++;
}
}
// Calculate chunk offsets.
off = sizeof(struct ProjectHeader) + sizeof(struct ProjectChunk) * nchunks;
for (i = 0; i < nchunks; i++) {
size = GetHandleSize(ckData[i]);
ckInfo[i].offset = off;
ckInfo[i].size = size;
ckInfo[i].crc32 = CRC32Update(0, *ckData[i], size);
off = ALIGN(off + size);
}
// Write file. Refer to IM: Files listing 1-9, page 1-24.
err = SetEOF(refNum, off);
if (err != noErr) {
return err;
}
err = ProjectWriteHeader(refNum, nchunks, ckInfo);
if (err != noErr) {
return err;
}
for (i = 0; i < 4; i++) {
pad[i] = 0;
}
for (i = 0; i < nchunks; i++) {
size = ckInfo[i].size;
count = size;
err = FSWrite(refNum, &count, *ckData[i]);
if (err != noErr) {
return err;
}
count = (-size) & 15;
if (count > 0) {
err = FSWrite(refNum, &count, pad);
if (err != noErr) {
return err;
}
}
}
return noErr;
}
// A SaveMode describes the exact type of save operation.
typedef enum {
// kSaveNew indicates that the file is new, it does not exist yet.
kSaveNew,
// kSaveReplace indicates that the file is being saved over an existing
// file.
kSaveReplace,
// kSaveUpdate indicates that the file is being updated in-place.
kSaveUpdate
} SaveMode;
// ProjectCloseFile closes any open files and sets the file ref to 0.
static void ProjectCloseFile(ProjectHandle project)
{
struct Project *projectp;
projectp = *project;
if (projectp->fileRef != 0) {
FSClose(projectp->fileRef);
}
}
// ProjectSetFile closes any open files and replaces them with the given file.
static void ProjectSetFile(ProjectHandle project, short fileRef, FSSpec *spec)
{
struct Project *projectp;
projectp = *project;
if (projectp->fileRef != 0) {
FSClose(projectp->fileRef);
}
projectp->fileRef = fileRef;
memcpy(&projectp->fileSpec, spec, sizeof(FSSpec));
}
// ProjectWrite writes the project to a file.
static OSErr ProjectWrite(ProjectHandle project, FSSpec *spec,
ScriptCode script, SaveMode mode)
{
HParamBlockRec hb;
CMovePBRec cm;
FSSpec temp;
OSErr err;
short refNum;
2023-04-20 06:07:14 +00:00
// See IM: Files, p. 1-25, Listing 1-10 "Updating a File Safely".
err = MakeTempFile(spec->vRefNum, &temp);
if (err != noErr) {
return err;
}
err = FSpCreate(&temp, kCreator, kTypeProject, script);
if (err != noErr) {
return err;
}
err = FSpOpenDF(&temp, fsRdWrPerm, &refNum);
if (err != noErr) {
goto error1;
}
err = ProjectWriteContent(project, refNum);
if (err != noErr) {
goto error2;
}
// For ordinary "Save", swap the file contents.
if (mode == kSaveUpdate) {
err = FSpExchangeFiles(&temp, spec);
if (err == noErr) {
err = FlushVol(NULL, spec->vRefNum);
if (err != noErr) {
FSClose(refNum);
return err;
}
ProjectSetFile(project, refNum, spec);
// FIXME: What error handling, here?
FSpDelete(&temp);
return noErr;
}
// paramErr: function not supported by volume.
if (err != paramErr) {
goto error2;
}
}
ProjectCloseFile(project);
if (mode != kSaveNew) {
// For replace or update, the file already exists.
err = FSpDelete(spec);
if (err != noErr && err != fnfErr) {
goto error2;
}
}
// Try move & rename.
memset(&hb, 0, sizeof(hb));
hb.copyParam.ioNamePtr = temp.name;
hb.copyParam.ioVRefNum = temp.vRefNum;
hb.copyParam.ioNewName = spec->name;
hb.copyParam.ioNewDirID = spec->parID;
hb.copyParam.ioDirID = temp.parID;
err = PBHMoveRenameSync(&hb);
if (err == noErr) {
goto done;
}
// paramErr: function not supported by volume.
if (err != paramErr) {
goto error2;
}
// Try move, then rename.
memset(&cm, 0, sizeof(cm));
cm.ioNamePtr = temp.name;
cm.ioVRefNum = temp.vRefNum;
cm.ioNewDirID = spec->parID;
cm.ioDirID = temp.parID;
err = PBCatMoveSync(&cm);
if (err != noErr) {
goto error2;
}
temp.parID = spec->parID;
err = FSpRename(&temp, spec->name);
if (err != noErr) {
goto error2;
}
done:
err = FlushVol(NULL, spec->vRefNum);
if (err != noErr) {
FSClose(refNum);
return err;
}
ProjectSetFile(project, refNum, spec);
return noErr;
error2:
FSClose(refNum);
error1:
FSpDelete(&temp);
return err;
}
// A SaveCommand distinguishes between Save and Save As.
typedef enum { kSave, kSaveAs } SaveCommand;
// ProjectSave handles the Save and SaveAs menu commands.
static void ProjectSave(WindowRef window, ProjectHandle project,
SaveCommand cmd)
{
// See listing 1-12 in IM: Files.
Str255 name;
StandardFileReply reply;
OSErr err;
FSSpec spec;
ScriptCode script;
if (cmd == kSaveAs || (*project)->fileSpec.vRefNum == 0) {
GetWTitle(window, name);
2023-04-20 06:07:14 +00:00
// FIXME: Move string to resource.
StandardPutFile("\pSave project as:", name, &reply);
if (!reply.sfGood) {
return;
}
err = ProjectWrite(project, &reply.sfFile, reply.sfScript,
reply.sfReplacing ? kSaveReplace : kSaveNew);
if (err != noErr) {
goto error;
}
SetWTitle(window, reply.sfFile.name);
} else {
memcpy(&spec, &(*project)->fileSpec, sizeof(FSSpec));
script = (*project)->fileScript;
err = ProjectWrite(project, &spec, script, kSaveUpdate);
if (err != noErr) {
goto error;
}
}
return;
error:
ShowError(kErrCouldNotSaveProject, kErrNone, err, reply.sfFile.name);
}
void ProjectCommand(WindowRef window, ProjectHandle project, int menuID,
int item)
{
switch (menuID) {
case rMENU_File:
switch (item) {
case iFile_Close:
ProjectClose(window, project);
break;
case iFile_Save:
ProjectSave(window, project, kSave);
break;
case iFile_SaveAs:
ProjectSave(window, project, kSaveAs);
break;
}
break;
}
}
void ProjectUpdate(WindowRef window, ProjectHandle project)
{
struct Project *projectp;
Rect rect;
Handle text;
int i;
HLock((Handle)project);
projectp = *project;
rect = window->portRect;
EraseRect(&rect);
MoveTo(0, kVBorder + kDirVSize - 10);
LineTo(projectp->windowWidth, kVBorder + kDirVSize - 10);
for (i = 0; i < 2; i++) {
MoveTo(kHBorder, kVBorder + kDirVSize * i + 12);
DrawString(i == 0 ? "\pLocal Folder" : "\pRemote Folder");
text = projectp->dirs[i].path;
if (text != NULL) {
HLock(text);
MoveTo(kHBorder, kVBorder + kDirVSize * i + 36);
DrawText(*text, 0, projectp->dirs[i].pathLength);
HUnlock(text);
}
}
UpdateControls(window, window->visRgn);
HUnlock((Handle)project);
}
void ProjectActivate(WindowRef window, ProjectHandle project, int isActive)
{
struct Project *projectp;
projectp = *project;
if (projectp->isActive != isActive) {
projectp->isActive = isActive;
InvalRect(&window->portRect);
}
}
// VolumeDoesSupportIDs returns true if the volume supports file IDs. If the
// volume does not support file IDs, then we fall back to using paths to refer
// to project directories. This applies to the Basilisk II "Unix" volume. If you
// try to resolve an alias to a file on the Basilisk II "Unix" volume, you may
// get a different file than intended, because the directory IDs are not stable.
static Boolean VolumeDoesSupportIDs(short vRefNum)
{
HParamBlockRec hb;
GetVolParmsInfoBuffer parms;
OSErr err;
memset(&hb, 0, sizeof(hb));
hb.ioParam.ioVRefNum = vRefNum;
hb.ioParam.ioBuffer = (Ptr)&parms;
hb.ioParam.ioReqCount = sizeof(parms);
err = PBHGetVolParms(&hb, false);
if (err != noErr) {
ShowError(kErrVolumeQuery, kErrNone, err, NULL);
return false;
}
return (parms.vMAttrib & (1ul << bHasFileIDs)) != 0;
}
static void ProjectChooseDir(WindowRef window, ProjectHandle project,
int whichDir)
{
struct Project *projectp;
struct ProjectDir *dirp;
FSSpec directory;
AliasHandle alias;
Handle path;
int pathLength;
OSErr err;
if (!ChooseDirectory(&directory)) {
return;
}
if (VolumeDoesSupportIDs(directory.vRefNum)) {
err = NewAlias(NULL, &directory, &alias);
if (err != noErr) {
ShowError(kErrAlias, kErrNone, err, NULL);
return;
}
} else {
alias = NULL;
}
err = GetDirPath(&directory, &pathLength, &path);
if (err != noErr) {
ShowError(kErrDirPath, kErrNone, err, NULL);
if (alias != NULL) {
DisposeHandle((Handle)alias);
}
return;
}
projectp = *project;
dirp = &projectp->dirs[whichDir];
if (dirp->path != NULL) {
DisposeHandle(dirp->path);
}
dirp->pathLength = pathLength;
dirp->path = path;
if (dirp->alias != NULL) {
DisposeHandle((Handle)dirp->alias);
}
dirp->alias = alias;
InvalRect(&window->portRect);
}
void ProjectMouseDown(WindowRef window, ProjectHandle project,
EventRecord *event)
{
Point mouse;
GrafPtr savedPort;
ControlRef control;
ControlPartCode part;
long reference;
GetPort(&savedPort);
SetPort(window);
mouse = event->where;
GlobalToLocal(&mouse);
part = FindControl(mouse, window, &control);
switch (part) {
case kControlButtonPart:
reference = GetControlReference(control);
if (TrackControl(control, mouse, NULL) != 0) {
switch (reference) {
case kControlChooseDirLocal:
ProjectChooseDir(window, project, kDirLocal);
break;
case kControlChooseDirRemote:
ProjectChooseDir(window, project, kDirRemote);
break;
}
}
break;
}
SetPort(savedPort);
}