Mercurial > dwindows
view mac/dw.m @ 650:55b677d460e9
Added initial support for a MacOS Cocoa port.
author | bsmith@81767d24-ef19-dc11-ae90-00e081727c95 |
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date | Tue, 22 Feb 2011 17:15:15 +0000 |
parents | |
children | 270580896dac |
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/* * Dynamic Windows: * A GTK like implementation of the MacOS GUI using Cocoa * * (C) 2011 Brian Smith <brian@dbsoft.org> * * Using garbage collection so requires 10.5 or later. * clang -std=c99 -g -o dwtest -D__MAC__ -I. mac/dw.m -framework Cocoa -fobjc-gc-only */ #import <Cocoa/Cocoa.h> #import <WebKit/WebKit.h> #include "dw.h" #include <sys/utsname.h> #include <sys/socket.h> #include <sys/un.h> #include <sys/mman.h> #include <sys/time.h> #include <sys/stat.h> static void _do_resize(Box *thisbox, int x, int y); /* So basically to implement our event handlers... * it looks like we are going to have to subclass * basically everything. Was hoping to add methods * to the superclasses but it looks like you can * only add methods and no variables, which isn't * going to work. -Brian */ /* Subclass for a box type */ @interface DWBox : NSView { Box box; void *userdata; NSColor *bgcolor; } -(Box)box; -(void *)userdata; -(void)setBox:(Box)input; -(void)setUserdata:(void *)input; -(void)drawRect:(NSRect)rect; @end @implementation DWBox -(Box)box { return box; } -(void *)userdata { return userdata; } -(void)setBox:(Box)input { box = input; } -(void)setUserdata:(void *)input { userdata = input; } -(void)drawRect:(NSRect)rect { if(bgcolor) { [bgcolor set]; NSRectFill( [self bounds] ); } } @end /* Subclass for a top-level window */ @interface DWView : DWBox { } @end @implementation DWView -(void)windowWillClose:(NSNotification *)note { [[NSApplication sharedApplication] terminate:self]; } - (void)viewDidMoveToWindow { [[NSNotificationCenter defaultCenter] addObserver:self selector:@selector(windowResized:) name:NSWindowDidResizeNotification object:[self window]]; } - (void)dealloc { [[NSNotificationCenter defaultCenter] removeObserver:self]; [super dealloc]; } - (void)windowResized:(NSNotification *)notification; { NSSize size = [self frame].size; _do_resize(&box, size.width, size.height); } @end /* Subclass for a button type */ @interface DWButton : NSButton { void *userdata; } -(void *)userdata; -(void)setUserdata:(void *)input; @end @implementation DWButton -(void *)userdata { return userdata; } -(void)setUserdata:(void *)input { userdata = input; } @end /* Subclass for a progress type */ @interface DWPercent : NSProgressIndicator { void *userdata; } -(void *)userdata; -(void)setUserdata:(void *)input; @end @implementation DWPercent -(void *)userdata { return userdata; } -(void)setUserdata:(void *)input { userdata = input; } @end NSApplication *DWApp; NSRunLoop *DWRunLoop; typedef struct _sighandler { struct _sighandler *next; ULONG message; HWND window; int id; void *signalfunction; void *data; } SignalHandler; SignalHandler *Root = NULL; typedef struct { ULONG message; char name[30]; } SignalList; /* List of signals */ #define SIGNALMAX 16 SignalList SignalTranslate[SIGNALMAX] = { { 1, DW_SIGNAL_CONFIGURE }, { 2, DW_SIGNAL_KEY_PRESS }, { 3, DW_SIGNAL_BUTTON_PRESS }, { 4, DW_SIGNAL_BUTTON_RELEASE }, { 5, DW_SIGNAL_MOTION_NOTIFY }, { 6, DW_SIGNAL_DELETE }, { 7, DW_SIGNAL_EXPOSE }, { 8, DW_SIGNAL_CLICKED }, { 9, DW_SIGNAL_ITEM_ENTER }, { 10, DW_SIGNAL_ITEM_CONTEXT }, { 11, DW_SIGNAL_LIST_SELECT }, { 12, DW_SIGNAL_ITEM_SELECT }, { 13, DW_SIGNAL_SET_FOCUS }, { 14, DW_SIGNAL_VALUE_CHANGED }, { 15, DW_SIGNAL_SWITCH_PAGE }, { 16, DW_SIGNAL_TREE_EXPAND } }; /* This function adds a signal handler callback into the linked list. */ void _new_signal(ULONG message, HWND window, int id, void *signalfunction, void *data) { SignalHandler *new = malloc(sizeof(SignalHandler)); new->message = message; new->window = window; new->id = id; new->signalfunction = signalfunction; new->data = data; new->next = NULL; if (!Root) Root = new; else { SignalHandler *prev = NULL, *tmp = Root; while(tmp) { if(tmp->message == message && tmp->window == window && tmp->id == id && tmp->signalfunction == signalfunction) { tmp->data = data; free(new); return; } prev = tmp; tmp = tmp->next; } if(prev) prev->next = new; else Root = new; } } /* Finds the message number for a given signal name */ ULONG _findsigmessage(char *signame) { int z; for(z=0;z<SIGNALMAX;z++) { if(strcasecmp(signame, SignalTranslate[z].name) == 0) return SignalTranslate[z].message; } return 0L; } unsigned long _foreground = 0xAAAAAA, _background = 0; /* This function will recursively search a box and add up the total height of it */ static void _count_size(HWND thisbox, int type, int *xsize, int *xorigsize) { int size = 0, origsize = 0, z; DWBox *box = thisbox; Box _tmp = [box box]; Box *tmp = &_tmp; if(!tmp) { *xsize = *xorigsize = 0; return; } if(type == tmp->type) { /* If the box is going in the direction we want, then we * return the entire sum of the items. */ for(z=0;z<tmp->count;z++) { if(tmp->items[z].type == TYPEBOX) { int s, os; _count_size(tmp->items[z].hwnd, type, &s, &os); size += s; origsize += os; } else { size += (type == DW_HORZ ? tmp->items[z].width : tmp->items[z].height); origsize += (type == DW_HORZ ? tmp->items[z].origwidth : tmp->items[z].origheight); } } } else { /* If the box is not going in the direction we want, then we only * want to return the maximum value. */ int tmpsize = 0, tmporigsize = 0; for(z=0;z<tmp->count;z++) { if(tmp->items[z].type == TYPEBOX) _count_size(tmp->items[z].hwnd, type, &tmpsize, &tmporigsize); else { tmpsize = (type == DW_HORZ ? tmp->items[z].width : tmp->items[z].height); tmporigsize = (type == DW_HORZ ? tmp->items[z].origwidth : tmp->items[z].origheight); } if(tmpsize > size) size = tmpsize; } } *xsize = size; *xorigsize = origsize; } /* This function calculates how much space the widgets and boxes require * and does expansion as necessary. */ static int _resize_box(Box *thisbox, int *depth, int x, int y, int *usedx, int *usedy, int pass, int *usedpadx, int *usedpady) { int z, currentx = 0, currenty = 0; int uymax = 0, uxmax = 0; int upymax = 0, upxmax = 0; /* Used for the SIZEEXPAND */ int nux = *usedx, nuy = *usedy; int nupx = *usedpadx, nupy = *usedpady; (*usedx) += (thisbox->pad * 2); (*usedy) += (thisbox->pad * 2); for(z=0;z<thisbox->count;z++) { if(thisbox->items[z].type == TYPEBOX) { int initialx, initialy; DWBox *box = thisbox->items[z].hwnd; Box _tmp = [box box]; Box *tmp = &_tmp; initialx = x - (*usedx); initialy = y - (*usedy); if(tmp) { int newx, newy; int nux = *usedx, nuy = *usedy; int upx = *usedpadx + (tmp->pad*2), upy = *usedpady + (tmp->pad*2); /* On the second pass we know how big the box needs to be and how * much space we have, so we can calculate a ratio for the new box. */ if(pass == 2) { int deep = *depth + 1; _resize_box(tmp, &deep, x, y, &nux, &nuy, 1, &upx, &upy); tmp->upx = upx - *usedpadx; tmp->upy = upy - *usedpady; newx = x - nux; newy = y - nuy; tmp->width = thisbox->items[z].width = initialx - newx; tmp->height = thisbox->items[z].height = initialy - newy; tmp->parentxratio = thisbox->xratio; tmp->parentyratio = thisbox->yratio; tmp->parentpad = tmp->pad; /* Just in case */ tmp->xratio = thisbox->xratio; tmp->yratio = thisbox->yratio; if(thisbox->type == DW_VERT) { if((thisbox->items[z].width-((thisbox->items[z].pad*2)+(tmp->pad*2)))!=0) tmp->xratio = ((float)((thisbox->items[z].width * thisbox->xratio)-((thisbox->items[z].pad*2)+(tmp->pad*2))))/((float)(thisbox->items[z].width-((thisbox->items[z].pad*2)+(tmp->pad*2)))); } else { if((thisbox->items[z].width-tmp->upx)!=0) tmp->xratio = ((float)((thisbox->items[z].width * thisbox->xratio)-tmp->upx))/((float)(thisbox->items[z].width-tmp->upx)); } if(thisbox->type == DW_HORZ) { if((thisbox->items[z].height-((thisbox->items[z].pad*2)+(tmp->pad*2)))!=0) tmp->yratio = ((float)((thisbox->items[z].height * thisbox->yratio)-((thisbox->items[z].pad*2)+(tmp->pad*2))))/((float)(thisbox->items[z].height-((thisbox->items[z].pad*2)+(tmp->pad*2)))); } else { if((thisbox->items[z].height-tmp->upy)!=0) tmp->yratio = ((float)((thisbox->items[z].height * thisbox->yratio)-tmp->upy))/((float)(thisbox->items[z].height-tmp->upy)); } nux = *usedx; nuy = *usedy; upx = *usedpadx + (tmp->pad*2); upy = *usedpady + (tmp->pad*2); } [box setBox:_tmp]; (*depth)++; _resize_box(tmp, depth, x, y, &nux, &nuy, pass, &upx, &upy); (*depth)--; newx = x - nux; newy = y - nuy; tmp->minwidth = thisbox->items[z].width = initialx - newx; tmp->minheight = thisbox->items[z].height = initialy - newy; [box setBox:_tmp]; } } if(pass > 1 && *depth > 0) { if(thisbox->type == DW_VERT) { if((thisbox->minwidth-((thisbox->items[z].pad*2)+(thisbox->parentpad*2))) == 0) thisbox->items[z].xratio = 1.0; else thisbox->items[z].xratio = ((float)((thisbox->width * thisbox->parentxratio)-((thisbox->items[z].pad*2)+(thisbox->parentpad*2))))/((float)(thisbox->minwidth-((thisbox->items[z].pad*2)+(thisbox->parentpad*2)))); } else { if(thisbox->minwidth-thisbox->upx == 0) thisbox->items[z].xratio = 1.0; else thisbox->items[z].xratio = ((float)((thisbox->width * thisbox->parentxratio)-thisbox->upx))/((float)(thisbox->minwidth-thisbox->upx)); } if(thisbox->type == DW_HORZ) { if((thisbox->minheight-((thisbox->items[z].pad*2)+(thisbox->parentpad*2))) == 0) thisbox->items[z].yratio = 1.0; else thisbox->items[z].yratio = ((float)((thisbox->height * thisbox->parentyratio)-((thisbox->items[z].pad*2)+(thisbox->parentpad*2))))/((float)(thisbox->minheight-((thisbox->items[z].pad*2)+(thisbox->parentpad*2)))); } else { if(thisbox->minheight-thisbox->upy == 0) thisbox->items[z].yratio = 1.0; else thisbox->items[z].yratio = ((float)((thisbox->height * thisbox->parentyratio)-thisbox->upy))/((float)(thisbox->minheight-thisbox->upy)); } if(thisbox->items[z].type == TYPEBOX) { DWBox *box = thisbox->items[z].hwnd; Box _tmp = [box box]; Box *tmp = &_tmp; if(tmp) { tmp->parentxratio = thisbox->items[z].xratio; tmp->parentyratio = thisbox->items[z].yratio; } [box setBox:_tmp]; } } else { thisbox->items[z].xratio = thisbox->xratio; thisbox->items[z].yratio = thisbox->yratio; } if(thisbox->type == DW_VERT) { if((thisbox->items[z].width + (thisbox->items[z].pad*2)) > uxmax) uxmax = (thisbox->items[z].width + (thisbox->items[z].pad*2)); if(thisbox->items[z].hsize != SIZEEXPAND) { if(((thisbox->items[z].pad*2) + thisbox->items[z].width) > upxmax) upxmax = (thisbox->items[z].pad*2) + thisbox->items[z].width; } else { if(thisbox->items[z].pad*2 > upxmax) upxmax = thisbox->items[z].pad*2; } } else { if(thisbox->items[z].width == -1) { /* figure out how much space this item requires */ /* thisbox->items[z].width = */ } else { (*usedx) += thisbox->items[z].width + (thisbox->items[z].pad*2); if(thisbox->items[z].hsize != SIZEEXPAND) (*usedpadx) += (thisbox->items[z].pad*2) + thisbox->items[z].width; else (*usedpadx) += thisbox->items[z].pad*2; } } if(thisbox->type == DW_HORZ) { if((thisbox->items[z].height + (thisbox->items[z].pad*2)) > uymax) uymax = (thisbox->items[z].height + (thisbox->items[z].pad*2)); if(thisbox->items[z].vsize != SIZEEXPAND) { if(((thisbox->items[z].pad*2) + thisbox->items[z].height) > upymax) upymax = (thisbox->items[z].pad*2) + thisbox->items[z].height; } else { if(thisbox->items[z].pad*2 > upymax) upymax = thisbox->items[z].pad*2; } } else { if(thisbox->items[z].height == -1) { /* figure out how much space this item requires */ /* thisbox->items[z].height = */ } else { (*usedy) += thisbox->items[z].height + (thisbox->items[z].pad*2); if(thisbox->items[z].vsize != SIZEEXPAND) (*usedpady) += (thisbox->items[z].pad*2) + thisbox->items[z].height; else (*usedpady) += thisbox->items[z].pad*2; } } } (*usedx) += uxmax; (*usedy) += uymax; (*usedpadx) += upxmax; (*usedpady) += upymax; currentx += thisbox->pad; currenty += thisbox->pad; /* The second pass is for expansion and actual placement. */ if(pass > 1) { /* Any SIZEEXPAND items should be set to uxmax/uymax */ for(z=0;z<thisbox->count;z++) { if(thisbox->items[z].hsize == SIZEEXPAND && thisbox->type == DW_VERT) thisbox->items[z].width = uxmax-(thisbox->items[z].pad*2); if(thisbox->items[z].vsize == SIZEEXPAND && thisbox->type == DW_HORZ) thisbox->items[z].height = uymax-(thisbox->items[z].pad*2); /* Run this code segment again to finalize the sized after setting uxmax/uymax values. */ if(thisbox->items[z].type == TYPEBOX) { DWBox *box = thisbox->items[z].hwnd; Box _tmp = [box box]; Box *tmp = &_tmp; if(tmp) { if(*depth > 0) { float calcval; if(thisbox->type == DW_VERT) { calcval = (float)(tmp->minwidth-((thisbox->items[z].pad*2)+(thisbox->pad*2))); if(calcval == 0.0) tmp->xratio = thisbox->xratio; else tmp->xratio = ((float)((thisbox->items[z].width * thisbox->xratio)-((thisbox->items[z].pad*2)+(thisbox->pad*2))))/calcval; tmp->width = thisbox->items[z].width; } if(thisbox->type == DW_HORZ) { calcval = (float)(tmp->minheight-((thisbox->items[z].pad*2)+(thisbox->pad*2))); if(calcval == 0.0) tmp->yratio = thisbox->yratio; else tmp->yratio = ((float)((thisbox->items[z].height * thisbox->yratio)-((thisbox->items[z].pad*2)+(thisbox->pad*2))))/calcval; tmp->height = thisbox->items[z].height; } } [box setBox:_tmp]; (*depth)++; _resize_box(tmp, depth, x, y, &nux, &nuy, 3, &nupx, &nupy); (*depth)--; } } } for(z=0;z<(thisbox->count);z++) { int height = thisbox->items[z].height; int width = thisbox->items[z].width; int pad = thisbox->items[z].pad; NSView *handle = thisbox->items[z].hwnd; NSPoint point; NSSize size; int vectorx, vectory; /* When upxmax != pad*2 then ratios are incorrect. */ vectorx = (int)((width*thisbox->items[z].xratio)-width); vectory = (int)((height*thisbox->items[z].yratio)-height); if(width > 0 && height > 0) { /* This is a hack to fix rounding of the sizing */ if(*depth == 0) { vectorx++; vectory++; } /* If this item isn't going to expand... reset the vectors to 0 */ if(thisbox->items[z].vsize != SIZEEXPAND) vectory = 0; if(thisbox->items[z].hsize != SIZEEXPAND) vectorx = 0; point.x = currentx + pad; point.y = currenty + pad; size.width = width + vectorx; size.height = height + vectory; [handle setFrameOrigin:point]; [handle setFrameSize:size]; if(thisbox->type == DW_HORZ) currentx += width + vectorx + (pad * 2); if(thisbox->type == DW_VERT) currenty += height + vectory + (pad * 2); } } } return 0; } static void _do_resize(Box *thisbox, int x, int y) { if(x != 0 && y != 0) { if(thisbox) { int usedx = 0, usedy = 0, usedpadx = 0, usedpady = 0, depth = 0; _resize_box(thisbox, &depth, x, y, &usedx, &usedy, 1, &usedpadx, &usedpady); if(usedx-usedpadx == 0 || usedy-usedpady == 0) return; thisbox->xratio = ((float)(x-usedpadx))/((float)(usedx-usedpadx)); thisbox->yratio = ((float)(y-usedpady))/((float)(usedy-usedpady)); usedx = usedy = usedpadx = usedpady = depth = 0; _resize_box(thisbox, &depth, x, y, &usedx, &usedy, 2, &usedpadx, &usedpady); } } } static void _changebox(Box *thisbox, int percent, int type) { int z; for(z=0;z<thisbox->count;z++) { if(thisbox->items[z].type == TYPEBOX) { DWBox *box = thisbox->items[z].hwnd; Box _tmp = [box box]; Box *tmp = &_tmp; _changebox(tmp, percent, type); [box setBox:_tmp]; } else { if(type == DW_HORZ) { if(thisbox->items[z].hsize == SIZEEXPAND) thisbox->items[z].width = (int)(((float)thisbox->items[z].origwidth) * (((float)percent)/((float)100.0))); } else { if(thisbox->items[z].vsize == SIZEEXPAND) thisbox->items[z].height = (int)(((float)thisbox->items[z].origheight) * (((float)percent)/((float)100.0))); } } } } /* * Initializes the Dynamic Windows engine. * Parameters: * newthread: True if this is the only thread. * False if there is already a message loop running. */ int API dw_init(int newthread, int argc, char *argv[]) { /* Create the application object */ DWApp = [NSApplication sharedApplication]; /* Create a run loop for doing manual loops */ DWRunLoop = [NSRunLoop alloc]; /* This only works on 10.6 so we have a backup method */ NSString * applicationName = [[NSRunningApplication currentApplication] localizedName]; if(applicationName == nil) { applicationName = [[NSProcessInfo processInfo] processName]; } /* Create the main menu */ NSMenu * mainMenu = [[[NSMenu alloc] initWithTitle:@"MainMenu"] autorelease]; NSMenuItem * mitem = [mainMenu addItemWithTitle:@"Apple" action:NULL keyEquivalent:@""]; NSMenu * menu = [[[NSMenu alloc] initWithTitle:@"Apple"] autorelease]; [DWApp setMainMenu:mainMenu]; [DWApp performSelector:@selector(setAppleMenu:) withObject:menu]; /* Setup the Application menu */ NSMenuItem * item = [menu addItemWithTitle:[NSString stringWithFormat:@"%@ %@", NSLocalizedString(@"About", nil), applicationName] action:@selector(orderFrontStandardAboutPanel:) keyEquivalent:@""]; [item setTarget:DWApp]; [menu addItem:[NSMenuItem separatorItem]]; item = [menu addItemWithTitle:NSLocalizedString(@"Preferences...", nil) action:NULL keyEquivalent:@","]; [menu addItem:[NSMenuItem separatorItem]]; item = [menu addItemWithTitle:NSLocalizedString(@"Services", nil) action:NULL keyEquivalent:@""]; NSMenu * servicesMenu = [[[NSMenu alloc] initWithTitle:@"Services"] autorelease]; [menu setSubmenu:servicesMenu forItem:item]; [DWApp setServicesMenu:servicesMenu]; [menu addItem:[NSMenuItem separatorItem]]; item = [menu addItemWithTitle:[NSString stringWithFormat:@"%@ %@", NSLocalizedString(@"Hide", nil), applicationName] action:@selector(hide:) keyEquivalent:@"h"]; [item setTarget:DWApp]; item = [menu addItemWithTitle:NSLocalizedString(@"Hide Others", nil) action:@selector(hideOtherApplications:) keyEquivalent:@"h"]; [item setKeyEquivalentModifierMask:NSCommandKeyMask | NSAlternateKeyMask]; [item setTarget:DWApp]; item = [menu addItemWithTitle:NSLocalizedString(@"Show All", nil) action:@selector(unhideAllApplications:) keyEquivalent:@""]; [item setTarget:DWApp]; [menu addItem:[NSMenuItem separatorItem]]; item = [menu addItemWithTitle:[NSString stringWithFormat:@"%@ %@", NSLocalizedString(@"Quit", nil), applicationName] action:@selector(terminate:) keyEquivalent:@"q"]; [item setTarget:DWApp]; [mainMenu setSubmenu:menu forItem:mitem]; return 0; } /* * Runs a message loop for Dynamic Windows. */ void API dw_main(void) { [DWApp run]; } /* * Runs a message loop for Dynamic Windows, for a period of milliseconds. * Parameters: * milliseconds: Number of milliseconds to run the loop for. */ void API dw_main_sleep(int milliseconds) { double seconds = (double)milliseconds/1000.0; NSDate *time = [[NSDate alloc] initWithTimeIntervalSinceNow:seconds]; [DWRunLoop runUntilDate:time]; } /* * Processes a single message iteration and returns. */ void API dw_main_iteration(void) { [DWRunLoop limitDateForMode:NSDefaultRunLoopMode]; } /* * Cleanly terminates a DW session, should be signal handler safe. * Parameters: * exitcode: Exit code reported to the operating system. */ void API dw_exit(int exitcode) { exit(exitcode); } /* * Free's memory allocated by dynamic windows. * Parameters: * ptr: Pointer to dynamic windows allocated * memory to be free()'d. */ void API dw_free(void *ptr) { free(ptr); } /* * Returns a pointer to a static buffer which containes the * current user directory. Or the root directory (C:\ on * OS/2 and Windows). */ char *dw_user_dir(void) { static char _user_dir[1024] = ""; if(!_user_dir[0]) { char *home = getenv("HOME"); if(home) strcpy(_user_dir, home); else strcpy(_user_dir, "/"); } return _user_dir; } /* * Displays a Message Box with given text and title.. * Parameters: * title: The title of the message box. * flags: flags to indicate buttons and icon * format: printf style format string. * ...: Additional variables for use in the format. */ int API dw_messagebox(char *title, int flags, char *format, ...) { int iResponse; NSString *button1 = @"OK"; NSString *button2 = nil; NSString *button3 = nil; va_list args; char outbuf[1000]; va_start(args, format); vsprintf(outbuf, format, args); va_end(args); if(flags & DW_MB_OKCANCEL) { button2 = @"Cancel"; } else if(flags & DW_MB_YESNO) { button1 = @"Yes"; button2 = @"No"; } else if(flags & DW_MB_YESNOCANCEL) { button1 = @"Yes"; button2 = @"No"; button3 = @"Cancel"; } if(flags & DW_MB_ERROR) { iResponse = NSRunCriticalAlertPanel([ NSString stringWithUTF8String:title ], [ NSString stringWithUTF8String:outbuf ], button1, button2, button3); } else { iResponse = NSRunAlertPanel([ NSString stringWithUTF8String:title ], [ NSString stringWithUTF8String:outbuf ], button1, button2, button3); } switch(iResponse) { case NSAlertDefaultReturn: /* user pressed OK */ if(flags & DW_MB_YESNO || flags & DW_MB_YESNOCANCEL) { return DW_MB_RETURN_YES; } return DW_MB_RETURN_OK; case NSAlertAlternateReturn: /* user pressed Cancel */ if(flags & DW_MB_OKCANCEL) { return DW_MB_RETURN_CANCEL; } return DW_MB_RETURN_NO; case NSAlertOtherReturn: /* user pressed the third button */ return DW_MB_RETURN_CANCEL; case NSAlertErrorReturn: /* an error occurred */ break; } return 0; } /* * Opens a file dialog and queries user selection. * Parameters: * title: Title bar text for dialog. * defpath: The default path of the open dialog. * ext: Default file extention. * flags: DW_FILE_OPEN or DW_FILE_SAVE. * Returns: * NULL on error. A malloced buffer containing * the file path on success. * */ char * API dw_file_browse(char *title, char *defpath, char *ext, int flags) { NSLog(@"dw_file_browse() unimplemented\n"); return NULL; } /* * Gets the contents of the default clipboard as text. * Parameters: * None. * Returns: * Pointer to an allocated string of text or NULL if clipboard empty or contents could not * be converted to text. */ char *dw_clipboard_get_text() { NSLog(@"dw_clipboard_get_text() unimplemented\n"); return NULL; } /* * Sets the contents of the default clipboard to the supplied text. * Parameters: * Text. */ void dw_clipboard_set_text( char *str, int len ) { NSLog(@"dw_clipboard_set_text() unimplemented\n"); return; } /* * Allocates and initializes a dialog struct. * Parameters: * data: User defined data to be passed to functions. */ DWDialog * API dw_dialog_new(void *data) { NSLog(@"dw_dialog_new() unimplemented\n"); return NULL; } /* * Accepts a dialog struct and returns the given data to the * initial called of dw_dialog_wait(). * Parameters: * dialog: Pointer to a dialog struct aquired by dw_dialog_new). * result: Data to be returned by dw_dialog_wait(). */ int API dw_dialog_dismiss(DWDialog *dialog, void *result) { NSLog(@"dw_dialog_dismiss() unimplemented\n"); return 0; } /* * Accepts a dialog struct waits for dw_dialog_dismiss() to be * called by a signal handler with the given dialog struct. * Parameters: * dialog: Pointer to a dialog struct aquired by dw_dialog_new). */ void * API dw_dialog_wait(DWDialog *dialog) { NSLog(@"dw_dialog_wait() unimplemented\n"); return NULL; } /* * Create a new Box to be packed. * Parameters: * type: Either DW_VERT (vertical) or DW_HORZ (horizontal). * pad: Number of pixels to pad around the box. */ HWND API dw_box_new(int type, int pad) { DWBox *view = [[DWBox alloc] init]; Box newbox; memset(&newbox, 0, sizeof(Box)); newbox.pad = pad; newbox.type = type; [view setBox:newbox]; return view; } /* * Create a new Group Box to be packed. * Parameters: * type: Either DW_VERT (vertical) or DW_HORZ (horizontal). * pad: Number of pixels to pad around the box. * title: Text to be displayined in the group outline. */ HWND API dw_groupbox_new(int type, int pad, char *title) { DWBox *box = dw_box_new(type, pad); [box setFocusRingType:NSFocusRingTypeExterior]; return box; } /* * Pack windows (widgets) into a box from the end (or bottom). * Parameters: * box: Window handle of the box to be packed into. * item: Window handle of the item to be back. * width: Width in pixels of the item or -1 to be self determined. * height: Height in pixels of the item or -1 to be self determined. * hsize: TRUE if the window (widget) should expand horizontally to fill space given. * vsize: TRUE if the window (widget) should expand vertically to fill space given. * pad: Number of pixels of padding around the item. */ void API dw_box_pack_end(HWND box, HWND item, int width, int height, int hsize, int vsize, int pad) { NSObject *object = box; DWBox *view = box; DWBox *this = item; Box thisbox; int z; Item *tmpitem, *thisitem; /* Query the objects */ if([ object isKindOfClass:[ NSWindow class ] ]) { NSWindow *window = box; view = [window contentView]; } thisbox = [view box]; thisitem = thisbox.items; object = item; /* Duplicate the existing data */ tmpitem = malloc(sizeof(Item)*(thisbox.count+1)); for(z=0;z<thisbox.count;z++) { tmpitem[z+1] = thisitem[z]; } /* Sanity checks */ if(vsize && !height) height = 1; if(hsize && !width) width = 1; /* Fill in the item data appropriately */ if([ object isKindOfClass:[ DWBox class ] ]) tmpitem[0].type = TYPEBOX; else tmpitem[0].type = TYPEITEM; tmpitem[0].hwnd = item; tmpitem[0].origwidth = tmpitem[0].width = width; tmpitem[0].origheight = tmpitem[0].height = height; tmpitem[0].pad = pad; if(hsize) tmpitem[0].hsize = SIZEEXPAND; else tmpitem[0].hsize = SIZESTATIC; if(vsize) tmpitem[0].vsize = SIZEEXPAND; else tmpitem[0].vsize = SIZESTATIC; thisbox.items = tmpitem; /* Update the item count */ thisbox.count++; /* Add the item to the box */ [view setBox:thisbox]; [view addSubview:this]; /* Free the old data */ if(thisbox.count) free(thisitem); } /* * Pack windows (widgets) into a box from the start (or top). * Parameters: * box: Window handle of the box to be packed into. * item: Window handle of the item to be back. * width: Width in pixels of the item or -1 to be self determined. * height: Height in pixels of the item or -1 to be self determined. * hsize: TRUE if the window (widget) should expand horizontally to fill space given. * vsize: TRUE if the window (widget) should expand vertically to fill space given. * pad: Number of pixels of padding around the item. */ void API dw_box_pack_start(HWND box, HWND item, int width, int height, int hsize, int vsize, int pad) { NSObject *object = box; DWBox *view = box; DWBox *this = item; Box thisbox; int z; Item *tmpitem, *thisitem; /* Query the objects */ if([ object isKindOfClass:[ NSWindow class ] ]) { NSWindow *window = box; view = [window contentView]; } thisbox = [view box]; thisitem = thisbox.items; object = item; /* Duplicate the existing data */ tmpitem = malloc(sizeof(Item)*(thisbox.count+1)); for(z=0;z<thisbox.count;z++) { tmpitem[z] = thisitem[z]; } /* Sanity checks */ if(vsize && !height) height = 1; if(hsize && !width) width = 1; /* Fill in the item data appropriately */ if([ object isKindOfClass:[ DWBox class ] ]) tmpitem[thisbox.count].type = TYPEBOX; else tmpitem[thisbox.count].type = TYPEITEM; tmpitem[thisbox.count].hwnd = item; tmpitem[thisbox.count].origwidth = tmpitem[thisbox.count].width = width; tmpitem[thisbox.count].origheight = tmpitem[thisbox.count].height = height; tmpitem[thisbox.count].pad = pad; if(hsize) tmpitem[thisbox.count].hsize = SIZEEXPAND; else tmpitem[thisbox.count].hsize = SIZESTATIC; if(vsize) tmpitem[thisbox.count].vsize = SIZEEXPAND; else tmpitem[thisbox.count].vsize = SIZESTATIC; thisbox.items = tmpitem; /* Update the item count */ thisbox.count++; /* Add the item to the box */ [view setBox:thisbox]; [view addSubview:this]; /* Free the old data */ if(thisbox.count) free(thisitem); } /* * Create a new button window (widget) to be packed. * Parameters: * text: The text to be display by the static text widget. * id: An ID to be used with dw_window_from_id() or 0L. */ HWND API dw_button_new(char *text, ULONG id) { DWButton *button = [[DWButton alloc] init]; [button setTitle:[ NSString stringWithUTF8String:text ]]; [button setButtonType:NSMomentaryPushInButton]; [button setBezelStyle:NSThickerSquareBezelStyle]; /*[button setGradientType:NSGradientConvexWeak];*/ [button setTag:id]; return button; } /* * Create a new Entryfield window (widget) to be packed. * Parameters: * text: The default text to be in the entryfield widget. * id: An ID to be used with dw_window_from_id() or 0L. */ HWND API dw_entryfield_new(char *text, ULONG id) { NSTextField *entry = [[NSTextField alloc] init]; [entry setStringValue:[ NSString stringWithUTF8String:text ]]; [entry setTag:id]; return entry; } /* * Create a new Entryfield (password) window (widget) to be packed. * Parameters: * text: The default text to be in the entryfield widget. * id: An ID to be used with dw_window_from_id() or 0L. */ HWND API dw_entryfield_password_new(char *text, ULONG id) { NSSecureTextField *entry = [[NSSecureTextField alloc] init]; [entry setStringValue:[ NSString stringWithUTF8String:text ]]; [entry setTag:id]; return entry; } /* * Sets the entryfield character limit. * Parameters: * handle: Handle to the spinbutton to be set. * limit: Number of characters the entryfield will take. */ void API dw_entryfield_set_limit(HWND handle, ULONG limit) { NSLog(@"dw_entryfield_set_limit() unimplemented\n"); } /* * Create a new bitmap button window (widget) to be packed. * Parameters: * text: Bubble help text to be displayed. * id: An ID of a bitmap in the resource file. */ HWND API dw_bitmapbutton_new(char *text, ULONG id) { NSLog(@"dw_bitmapbutton_new() unimplemented\n"); return HWND_DESKTOP; } /* * Create a new bitmap button window (widget) to be packed from a file. * Parameters: * text: Bubble help text to be displayed. * id: An ID to be used with dw_window_from_id() or 0L. * filename: Name of the file, omit extention to have * DW pick the appropriate file extension. * (BMP on OS/2 or Windows, XPM on Unix) */ HWND API dw_bitmapbutton_new_from_file(char *text, unsigned long id, char *filename) { NSLog(@"dw_bitmapbutton_new_from_file() unimplemented\n"); return HWND_DESKTOP; } /* * Create a new bitmap button window (widget) to be packed from data. * Parameters: * text: Bubble help text to be displayed. * id: An ID to be used with dw_window_from_id() or 0L. * data: The contents of the image * (BMP or ICO on OS/2 or Windows, XPM on Unix) * len: length of str */ HWND API dw_bitmapbutton_new_from_data(char *text, unsigned long id, char *data, int len) { NSLog(@"dw_bitmapbutton_new_from_data() unimplemented\n"); return HWND_DESKTOP; } /* * Create a new spinbutton window (widget) to be packed. * Parameters: * text: The text to be display by the static text widget. * id: An ID to be used with dw_window_from_id() or 0L. */ HWND API dw_spinbutton_new(char *text, ULONG id) { NSLog(@"dw_spinbutton_new() unimplemented\n"); return HWND_DESKTOP; } /* * Sets the spinbutton value. * Parameters: * handle: Handle to the spinbutton to be set. * position: Current value of the spinbutton. */ void API dw_spinbutton_set_pos(HWND handle, long position) { NSLog(@"dw_spinbutton_set_pos() unimplemented\n"); } /* * Sets the spinbutton limits. * Parameters: * handle: Handle to the spinbutton to be set. * upper: Upper limit. * lower: Lower limit. */ void API dw_spinbutton_set_limits(HWND handle, long upper, long lower) { NSLog(@"dw_spinbutton_set_limits() unimplemented\n"); } /* * Returns the current value of the spinbutton. * Parameters: * handle: Handle to the spinbutton to be queried. */ long API dw_spinbutton_get_pos(HWND handle) { NSLog(@"dw_spinbutton_get_pos() unimplemented\n"); return 0; } /* * Create a new radiobutton window (widget) to be packed. * Parameters: * text: The text to be display by the static text widget. * id: An ID to be used with dw_window_from_id() or 0L. */ HWND API dw_radiobutton_new(char *text, ULONG id) { DWButton *button = dw_button_new(text, id); [button setButtonType:NSRadioButton]; return button; } /* * Create a new slider window (widget) to be packed. * Parameters: * vertical: TRUE or FALSE if slider is vertical. * increments: Number of increments available. * id: An ID to be used with dw_window_from_id() or 0L. */ HWND API dw_slider_new(int vertical, int increments, ULONG id) { NSLog(@"dw_slider_new() unimplemented\n"); return HWND_DESKTOP; } /* * Returns the position of the slider. * Parameters: * handle: Handle to the slider to be queried. */ unsigned int API dw_slider_get_pos(HWND handle) { NSLog(@"dw_slider_get_pos() unimplemented\n"); return 0; } /* * Sets the slider position. * Parameters: * handle: Handle to the slider to be set. * position: Position of the slider withing the range. */ void API dw_slider_set_pos(HWND handle, unsigned int position) { NSLog(@"dw_slider_set_pos() unimplemented\n"); } /* * Create a new scrollbar window (widget) to be packed. * Parameters: * vertical: TRUE or FALSE if scrollbar is vertical. * increments: Number of increments available. * id: An ID to be used with dw_window_from_id() or 0L. */ HWND API dw_scrollbar_new(int vertical, ULONG id) { NSLog(@"dw_scrollbar_new() unimplemented\n"); return HWND_DESKTOP; } /* * Returns the position of the scrollbar. * Parameters: * handle: Handle to the scrollbar to be queried. */ unsigned int API dw_scrollbar_get_pos(HWND handle) { NSLog(@"dw_scrollbar_get_pos() unimplemented\n"); return 0; } /* * Sets the scrollbar position. * Parameters: * handle: Handle to the scrollbar to be set. * position: Position of the scrollbar withing the range. */ void API dw_scrollbar_set_pos(HWND handle, unsigned int position) { NSLog(@"dw_scrollbar_set_pos() unimplemented\n"); } /* * Sets the scrollbar range. * Parameters: * handle: Handle to the scrollbar to be set. * range: Maximum range value. * visible: Visible area relative to the range. */ void API dw_scrollbar_set_range(HWND handle, unsigned int range, unsigned int visible) { NSLog(@"dw_scrollbar_set_range() unimplemented\n"); } /* * Create a new percent bar window (widget) to be packed. * Parameters: * id: An ID to be used with dw_window_from_id() or 0L. */ HWND API dw_percent_new(ULONG id) { DWPercent *percent = [[DWPercent alloc] init]; [percent setBezeled:YES]; [percent setMaxValue:100]; [percent setMinValue:0]; /*[percent setTag:id]; Why doesn't this work? */ return percent; } /* * Sets the percent bar position. * Parameters: * handle: Handle to the percent bar to be set. * position: Position of the percent bar withing the range. */ void API dw_percent_set_pos(HWND handle, unsigned int position) { DWPercent *percent = handle; [percent setDoubleValue:(double)position]; } /* * Create a new checkbox window (widget) to be packed. * Parameters: * text: The text to be display by the static text widget. * id: An ID to be used with dw_window_from_id() or 0L. */ HWND API dw_checkbox_new(char *text, ULONG id) { DWButton *button = dw_button_new(text, id); [button setButtonType:NSSwitchButton]; [button setBezelStyle:NSRegularSquareBezelStyle]; return button; } /* * Returns the state of the checkbox. * Parameters: * handle: Handle to the checkbox to be queried. */ int API dw_checkbox_get(HWND handle) { NSLog(@"dw_checkbox_set() unimplemented\n"); return 0; } /* * Sets the state of the checkbox. * Parameters: * handle: Handle to the checkbox to be queried. * value: TRUE for checked, FALSE for unchecked. */ void API dw_checkbox_set(HWND handle, int value) { NSLog(@"dw_checkbox_set() unimplemented\n"); } /* * Create a new listbox window (widget) to be packed. * Parameters: * id: An ID to be used with dw_window_from_id() or 0L. * multi: Multiple select TRUE or FALSE. */ HWND API dw_listbox_new(ULONG id, int multi) { NSLog(@"dw_listbox_new() unimplemented\n"); return HWND_DESKTOP; } /* * Appends the specified text to the listbox's (or combobox) entry list. * Parameters: * handle: Handle to the listbox to be appended to. * text: Text to append into listbox. */ void API dw_listbox_append(HWND handle, char *text) { NSLog(@"dw_listbox_append() unimplemented\n"); } /* * Inserts the specified text into the listbox's (or combobox) entry list. * Parameters: * handle: Handle to the listbox to be inserted into. * text: Text to insert into listbox. * pos: 0-based position to insert text */ void API dw_listbox_insert(HWND handle, char *text, int pos) { NSLog(@"dw_listbox_insert() unimplemented\n"); } /* * Appends the specified text items to the listbox's (or combobox) entry list. * Parameters: * handle: Handle to the listbox to be appended to. * text: Text strings to append into listbox. * count: Number of text strings to append */ void API dw_listbox_list_append(HWND handle, char **text, int count) { NSLog(@"dw_listbox_list_append() unimplemented\n"); } /* * Clears the listbox's (or combobox) list of all entries. * Parameters: * handle: Handle to the listbox to be cleared. */ void API dw_listbox_clear(HWND handle) { NSLog(@"dw_listbox_clear() unimplemented\n"); } /* * Returns the listbox's item count. * Parameters: * handle: Handle to the listbox to be cleared. */ int API dw_listbox_count(HWND handle) { NSLog(@"dw_listbox_count() unimplemented\n"); return 0; } /* * Sets the topmost item in the viewport. * Parameters: * handle: Handle to the listbox to be cleared. * top: Index to the top item. */ void API dw_listbox_set_top(HWND handle, int top) { NSLog(@"dw_listbox_set_top() unimplemented\n"); } /* * Copies the given index item's text into buffer. * Parameters: * handle: Handle to the listbox to be queried. * index: Index into the list to be queried. * buffer: Buffer where text will be copied. * length: Length of the buffer (including NULL). */ void API dw_listbox_get_text(HWND handle, unsigned int index, char *buffer, unsigned int length) { NSLog(@"dw_listbox_get_text() unimplemented\n"); } /* * Sets the text of a given listbox entry. * Parameters: * handle: Handle to the listbox to be queried. * index: Index into the list to be queried. * buffer: Buffer where text will be copied. */ void API dw_listbox_set_text(HWND handle, unsigned int index, char *buffer) { NSLog(@"dw_listbox_set_text() unimplemented\n"); } /* * Returns the index to the item in the list currently selected. * Parameters: * handle: Handle to the listbox to be queried. */ unsigned int API dw_listbox_selected(HWND handle) { NSLog(@"dw_listbox_selected() unimplemented\n"); return 0; } /* * Returns the index to the current selected item or -1 when done. * Parameters: * handle: Handle to the listbox to be queried. * where: Either the previous return or -1 to restart. */ int API dw_listbox_selected_multi(HWND handle, int where) { NSLog(@"dw_listbox_selected_multi() unimplemented\n"); return 0; } /* * Sets the selection state of a given index. * Parameters: * handle: Handle to the listbox to be set. * index: Item index. * state: TRUE if selected FALSE if unselected. */ void API dw_listbox_select(HWND handle, int index, int state) { NSLog(@"dw_listbox_select() unimplemented\n"); } /* * Deletes the item with given index from the list. * Parameters: * handle: Handle to the listbox to be set. * index: Item index. */ void API dw_listbox_delete(HWND handle, int index) { NSLog(@"dw_listbox_delete() unimplemented\n"); } /* * Create a new Combobox window (widget) to be packed. * Parameters: * text: The default text to be in the combpbox widget. * id: An ID to be used with dw_window_from_id() or 0L. */ HWND API dw_combobox_new(char *text, ULONG id) { NSLog(@"dw_combobox_new() unimplemented\n"); return HWND_DESKTOP; } /* * Create a new Multiline Editbox window (widget) to be packed. * Parameters: * id: An ID to be used with dw_window_from_id() or 0L. */ HWND API dw_mle_new(ULONG id) { NSLog(@"dw_mle_new() unimplemented\n"); return HWND_DESKTOP; } /* * Adds text to an MLE box and returns the current point. * Parameters: * handle: Handle to the MLE to be queried. * buffer: Text buffer to be imported. * startpoint: Point to start entering text. */ unsigned int API dw_mle_import(HWND handle, char *buffer, int startpoint) { NSLog(@"dw_mle_import() unimplemented\n"); return 0; } /* * Grabs text from an MLE box. * Parameters: * handle: Handle to the MLE to be queried. * buffer: Text buffer to be exported. * startpoint: Point to start grabbing text. * length: Amount of text to be grabbed. */ void API dw_mle_export(HWND handle, char *buffer, int startpoint, int length) { NSLog(@"dw_mle_export() unimplemented\n"); } /* * Obtains information about an MLE box. * Parameters: * handle: Handle to the MLE to be queried. * bytes: A pointer to a variable to return the total bytes. * lines: A pointer to a variable to return the number of lines. */ void API dw_mle_get_size(HWND handle, unsigned long *bytes, unsigned long *lines) { NSLog(@"dw_mle_get_size() unimplemented\n"); } /* * Deletes text from an MLE box. * Parameters: * handle: Handle to the MLE to be deleted from. * startpoint: Point to start deleting text. * length: Amount of text to be deleted. */ void API dw_mle_delete(HWND handle, int startpoint, int length) { NSLog(@"dw_mle_delete() unimplemented\n"); } /* * Clears all text from an MLE box. * Parameters: * handle: Handle to the MLE to be cleared. */ void API dw_mle_clear(HWND handle) { NSLog(@"dw_mle_clear() unimplemented\n"); } /* * Sets the visible line of an MLE box. * Parameters: * handle: Handle to the MLE to be positioned. * line: Line to be visible. */ void API dw_mle_set_visible(HWND handle, int line) { NSLog(@"dw_mle_clear() unimplemented\n"); } /* * Sets the editablity of an MLE box. * Parameters: * handle: Handle to the MLE. * state: TRUE if it can be edited, FALSE for readonly. */ void API dw_mle_set_editable(HWND handle, int state) { NSLog(@"dw_mle_set_editable() unimplemented\n"); } /* * Sets the word wrap state of an MLE box. * Parameters: * handle: Handle to the MLE. * state: TRUE if it wraps, FALSE if it doesn't. */ void API dw_mle_set_word_wrap(HWND handle, int state) { NSLog(@"dw_mle_set_word_wrap() unimplemented\n"); } /* * Sets the current cursor position of an MLE box. * Parameters: * handle: Handle to the MLE to be positioned. * point: Point to position cursor. */ void API dw_mle_set_cursor(HWND handle, int point) { NSLog(@"dw_mle_set_cursor() unimplemented\n"); } /* * Finds text in an MLE box. * Parameters: * handle: Handle to the MLE to be cleared. * text: Text to search for. * point: Start point of search. * flags: Search specific flags. */ int API dw_mle_search(HWND handle, char *text, int point, unsigned long flags) { NSLog(@"dw_mle_search() unimplemented\n"); return 0; } /* * Stops redrawing of an MLE box. * Parameters: * handle: Handle to the MLE to freeze. */ void API dw_mle_freeze(HWND handle) { NSLog(@"dw_mle_freeze() unimplemented\n"); } /* * Resumes redrawing of an MLE box. * Parameters: * handle: Handle to the MLE to thaw. */ void API dw_mle_thaw(HWND handle) { NSLog(@"dw_mle_thaw() unimplemented\n"); } /* * Create a new status text window (widget) to be packed. * Parameters: * text: The text to be display by the static text widget. * id: An ID to be used with dw_window_from_id() or 0L. */ HWND API dw_status_text_new(char *text, ULONG id) { NSLog(@"dw_status_text_new() unimplemented\n"); return HWND_DESKTOP; } /* * Create a new static text window (widget) to be packed. * Parameters: * text: The text to be display by the static text widget. * id: An ID to be used with dw_window_from_id() or 0L. */ HWND API dw_text_new(char *text, ULONG id) { NSLog(@"dw_text_new() unimplemented\n"); return HWND_DESKTOP; } /* * Creates a rendering context widget (window) to be packed. * Parameters: * id: An id to be used with dw_window_from_id. * Returns: * A handle to the widget or NULL on failure. */ HWND API dw_render_new(unsigned long id) { NSLog(@"dw_render_new() unimplemented\n"); return HWND_DESKTOP; } /* Sets the current foreground drawing color. * Parameters: * red: red value. * green: green value. * blue: blue value. */ void API dw_color_foreground_set(unsigned long value) { _foreground = value; } /* Sets the current background drawing color. * Parameters: * red: red value. * green: green value. * blue: blue value. */ void API dw_color_background_set(unsigned long value) { _background = value; } /* Allows the user to choose a color using the system's color chooser dialog. * Parameters: * value: current color * Returns: * The selected color or the current color if cancelled. */ unsigned long API dw_color_choose(unsigned long value) { NSLog(@"dw_color_choose() unimplemented\n"); return 0; } /* Draw a point on a window (preferably a render window). * Parameters: * handle: Handle to the window. * pixmap: Handle to the pixmap. (choose only one of these) * x: X coordinate. * y: Y coordinate. */ void API dw_draw_point(HWND handle, HPIXMAP pixmap, int x, int y) { NSLog(@"dw_draw_point() unimplemented\n"); } /* Draw a line on a window (preferably a render window). * Parameters: * handle: Handle to the window. * pixmap: Handle to the pixmap. (choose only one of these) * x1: First X coordinate. * y1: First Y coordinate. * x2: Second X coordinate. * y2: Second Y coordinate. */ void API dw_draw_line(HWND handle, HPIXMAP pixmap, int x1, int y1, int x2, int y2) { NSLog(@"dw_draw_line() unimplemented\n"); } /* Draw text on a window (preferably a render window). * Parameters: * handle: Handle to the window. * pixmap: Handle to the pixmap. (choose only one of these) * x: X coordinate. * y: Y coordinate. * text: Text to be displayed. */ void API dw_draw_text(HWND handle, HPIXMAP pixmap, int x, int y, char *text) { NSLog(@"dw_draw_line() unimplemented\n"); } /* Query the width and height of a text string. * Parameters: * handle: Handle to the window. * pixmap: Handle to the pixmap. (choose only one of these) * text: Text to be queried. * width: Pointer to a variable to be filled in with the width. * height Pointer to a variable to be filled in with the height. */ void API dw_font_text_extents_get(HWND handle, HPIXMAP pixmap, char *text, int *width, int *height) { NSLog(@"dw_font_text_extents_get() unimplemented\n"); } /* Draw a polygon on a window (preferably a render window). * Parameters: * handle: Handle to the window. * pixmap: Handle to the pixmap. (choose only one of these) * fill: Fill box TRUE or FALSE. * x: X coordinate. * y: Y coordinate. * width: Width of rectangle. * height: Height of rectangle. */ void API dw_draw_polygon( HWND handle, HPIXMAP pixmap, int fill, int npoints, int *x, int *y ) { NSLog(@"dw_draw_polygon() unimplemented\n"); } /* Draw a rectangle on a window (preferably a render window). * Parameters: * handle: Handle to the window. * pixmap: Handle to the pixmap. (choose only one of these) * fill: Fill box TRUE or FALSE. * x: X coordinate. * y: Y coordinate. * width: Width of rectangle. * height: Height of rectangle. */ void API dw_draw_rect(HWND handle, HPIXMAP pixmap, int fill, int x, int y, int width, int height) { NSLog(@"dw_draw_rect() unimplemented\n"); } /* * Create a tree object to be packed. * Parameters: * id: An ID to be used for getting the resource from the * resource file. */ HWND API dw_tree_new(ULONG id) { NSLog(@"dw_tree_new() unimplemented\n"); return HWND_DESKTOP; } /* * Inserts an item into a tree window (widget) after another item. * Parameters: * handle: Handle to the tree to be inserted. * item: Handle to the item to be positioned after. * title: The text title of the entry. * icon: Handle to coresponding icon. * parent: Parent handle or 0 if root. * itemdata: Item specific data. */ HTREEITEM API dw_tree_insert_after(HWND handle, HTREEITEM item, char *title, unsigned long icon, HTREEITEM parent, void *itemdata) { NSLog(@"dw_tree_insert_item_after() unimplemented\n"); return HWND_DESKTOP; } /* * Inserts an item into a tree window (widget). * Parameters: * handle: Handle to the tree to be inserted. * title: The text title of the entry. * icon: Handle to coresponding icon. * parent: Parent handle or 0 if root. * itemdata: Item specific data. */ HTREEITEM API dw_tree_insert(HWND handle, char *title, unsigned long icon, HTREEITEM parent, void *itemdata) { NSLog(@"dw_tree_insert_item() unimplemented\n"); return HWND_DESKTOP; } /* * Gets the text an item in a tree window (widget). * Parameters: * handle: Handle to the tree containing the item. * item: Handle of the item to be modified. */ char * API dw_tree_get_title(HWND handle, HTREEITEM item) { NSLog(@"dw_tree_get_title() unimplemented\n"); return NULL; } /* * Gets the text an item in a tree window (widget). * Parameters: * handle: Handle to the tree containing the item. * item: Handle of the item to be modified. */ HTREEITEM API dw_tree_get_parent(HWND handle, HTREEITEM item) { NSLog(@"dw_tree_get_parent() unimplemented\n"); return HWND_DESKTOP; } /* * Sets the text and icon of an item in a tree window (widget). * Parameters: * handle: Handle to the tree containing the item. * item: Handle of the item to be modified. * title: The text title of the entry. * icon: Handle to coresponding icon. */ void API dw_tree_item_change(HWND handle, HTREEITEM item, char *title, unsigned long icon) { NSLog(@"dw_tree_item_change() unimplemented\n"); } /* * Sets the item data of a tree item. * Parameters: * handle: Handle to the tree containing the item. * item: Handle of the item to be modified. * itemdata: User defined data to be associated with item. */ void API dw_tree_item_set_data(HWND handle, HTREEITEM item, void *itemdata) { NSLog(@"dw_tree_item_set_data() unimplemented\n"); } /* * Gets the item data of a tree item. * Parameters: * handle: Handle to the tree containing the item. * item: Handle of the item to be modified. */ void * API dw_tree_item_get_data(HWND handle, HTREEITEM item) { NSLog(@"dw_tree_item_get_data() unimplemented\n"); return NULL; } /* * Sets this item as the active selection. * Parameters: * handle: Handle to the tree window (widget) to be selected. * item: Handle to the item to be selected. */ void API dw_tree_item_select(HWND handle, HTREEITEM item) { NSLog(@"dw_tree_item_select() unimplemented\n"); } /* * Removes all nodes from a tree. * Parameters: * handle: Handle to the window (widget) to be cleared. */ void API dw_tree_clear(HWND handle) { NSLog(@"dw_tree_clear() unimplemented\n"); } /* * Expands a node on a tree. * Parameters: * handle: Handle to the tree window (widget). * item: Handle to node to be expanded. */ void API dw_tree_item_expand(HWND handle, HTREEITEM item) { NSLog(@"dw_tree_item_expand() unimplemented\n"); } /* * Collapses a node on a tree. * Parameters: * handle: Handle to the tree window (widget). * item: Handle to node to be collapsed. */ void API dw_tree_item_collapse(HWND handle, HTREEITEM item) { NSLog(@"dw_tree_item_collapse() unimplemented\n"); } /* * Removes a node from a tree. * Parameters: * handle: Handle to the window (widget) to be cleared. * item: Handle to node to be deleted. */ void API dw_tree_item_delete(HWND handle, HTREEITEM item) { NSLog(@"dw_tree_item_delete() unimplemented\n"); } /* * Create a container object to be packed. * Parameters: * id: An ID to be used for getting the resource from the * resource file. */ HWND API dw_container_new(ULONG id, int multi) { NSLog(@"dw_container_new() unimplemented\n"); return HWND_DESKTOP; } /* * Sets up the container columns. * Parameters: * handle: Handle to the container to be configured. * flags: An array of unsigned longs with column flags. * titles: An array of strings with column text titles. * count: The number of columns (this should match the arrays). * separator: The column number that contains the main separator. * (this item may only be used in OS/2) */ int API dw_container_setup(HWND handle, unsigned long *flags, char **titles, int count, int separator) { NSLog(@"dw_container_setup() unimplemented\n"); return 0; } /* * Sets up the filesystem columns, note: filesystem always has an icon/filename field. * Parameters: * handle: Handle to the container to be configured. * flags: An array of unsigned longs with column flags. * titles: An array of strings with column text titles. * count: The number of columns (this should match the arrays). */ int API dw_filesystem_setup(HWND handle, unsigned long *flags, char **titles, int count) { NSLog(@"dw_filesystem_setup() unimplemented\n"); return 0; } /* * Allocates memory used to populate a container. * Parameters: * handle: Handle to the container window (widget). * rowcount: The number of items to be populated. */ void * API dw_container_alloc(HWND handle, int rowcount) { NSLog(@"dw_container_alloc() unimplemented\n"); return NULL; } /* * Sets an item in specified row and column to the given data. * Parameters: * handle: Handle to the container window (widget). * pointer: Pointer to the allocated memory in dw_container_alloc(). * column: Zero based column of data being set. * row: Zero based row of data being set. * data: Pointer to the data to be added. */ void API dw_container_set_item(HWND handle, void *pointer, int column, int row, void *data) { NSLog(@"dw_container_set_item() unimplemented\n"); } /* * Changes an existing item in specified row and column to the given data. * Parameters: * handle: Handle to the container window (widget). * column: Zero based column of data being set. * row: Zero based row of data being set. * data: Pointer to the data to be added. */ void API dw_container_change_item(HWND handle, int column, int row, void *data) { NSLog(@"dw_container_change_item() unimplemented\n"); } /* * Changes an existing item in specified row and column to the given data. * Parameters: * handle: Handle to the container window (widget). * column: Zero based column of data being set. * row: Zero based row of data being set. * data: Pointer to the data to be added. */ void API dw_filesystem_change_item(HWND handle, int column, int row, void *data) { NSLog(@"dw_filesystem_change_item() unimplemented\n"); } /* * Changes an item in specified row and column to the given data. * Parameters: * handle: Handle to the container window (widget). * pointer: Pointer to the allocated memory in dw_container_alloc(). * column: Zero based column of data being set. * row: Zero based row of data being set. * data: Pointer to the data to be added. */ void API dw_filesystem_change_file(HWND handle, int row, char *filename, unsigned long icon) { NSLog(@"dw_filesystem_change_file() unimplemented\n"); } /* * Sets an item in specified row and column to the given data. * Parameters: * handle: Handle to the container window (widget). * pointer: Pointer to the allocated memory in dw_container_alloc(). * column: Zero based column of data being set. * row: Zero based row of data being set. * data: Pointer to the data to be added. */ void API dw_filesystem_set_file(HWND handle, void *pointer, int row, char *filename, unsigned long icon) { NSLog(@"dw_filesystem_set_file() unimplemented\n"); } /* * Sets an item in specified row and column to the given data. * Parameters: * handle: Handle to the container window (widget). * pointer: Pointer to the allocated memory in dw_container_alloc(). * column: Zero based column of data being set. * row: Zero based row of data being set. * data: Pointer to the data to be added. */ void API dw_filesystem_set_item(HWND handle, void *pointer, int column, int row, void *data) { NSLog(@"dw_filesystem_set_item() unimplemented\n"); } /* * Gets column type for a container column * Parameters: * handle: Handle to the container window (widget). * column: Zero based column. */ int API dw_container_get_column_type(HWND handle, int column) { NSLog(@"dw_container_get_column_type() unimplemented\n"); return 0; } /* * Gets column type for a filesystem container column * Parameters: * handle: Handle to the container window (widget). * column: Zero based column. */ int API dw_filesystem_get_column_type(HWND handle, int column) { NSLog(@"dw_filesystem_get_column_type() unimplemented\n"); return 0; } /* * Sets the width of a column in the container. * Parameters: * handle: Handle to window (widget) of container. * column: Zero based column of width being set. * width: Width of column in pixels. */ void API dw_container_set_column_width(HWND handle, int column, int width) { NSLog(@"dw_container_set_column_width() unimplemented\n"); } /* * Sets the title of a row in the container. * Parameters: * pointer: Pointer to the allocated memory in dw_container_alloc(). * row: Zero based row of data being set. * title: String title of the item. */ void API dw_container_set_row_title(void *pointer, int row, char *title) { NSLog(@"dw_container_set_row_title() unimplemented\n"); } /* * Sets the title of a row in the container. * Parameters: * handle: Handle to the container window (widget). * pointer: Pointer to the allocated memory in dw_container_alloc(). * rowcount: The number of rows to be inserted. */ void API dw_container_insert(HWND handle, void *pointer, int rowcount) { NSLog(@"dw_container_insert() unimplemented\n"); } /* * Removes all rows from a container. * Parameters: * handle: Handle to the window (widget) to be cleared. * redraw: TRUE to cause the container to redraw immediately. */ void API dw_container_clear(HWND handle, int redraw) { NSLog(@"dw_container_clear() unimplemented\n"); } /* * Removes the first x rows from a container. * Parameters: * handle: Handle to the window (widget) to be deleted from. * rowcount: The number of rows to be deleted. */ void API dw_container_delete(HWND handle, int rowcount) { NSLog(@"dw_container_delete() unimplemented\n"); } /* * Scrolls container up or down. * Parameters: * handle: Handle to the window (widget) to be scrolled. * direction: DW_SCROLL_UP, DW_SCROLL_DOWN, DW_SCROLL_TOP or * DW_SCROLL_BOTTOM. (rows is ignored for last two) * rows: The number of rows to be scrolled. */ void API dw_container_scroll(HWND handle, int direction, long rows) { NSLog(@"dw_container_scroll() unimplemented\n"); } /* * Starts a new query of a container. * Parameters: * handle: Handle to the window (widget) to be queried. * flags: If this parameter is DW_CRA_SELECTED it will only * return items that are currently selected. Otherwise * it will return all records in the container. */ char * API dw_container_query_start(HWND handle, unsigned long flags) { NSLog(@"dw_container_query_start() unimplemented\n"); return NULL; } /* * Continues an existing query of a container. * Parameters: * handle: Handle to the window (widget) to be queried. * flags: If this parameter is DW_CRA_SELECTED it will only * return items that are currently selected. Otherwise * it will return all records in the container. */ char * API dw_container_query_next(HWND handle, unsigned long flags) { NSLog(@"dw_container_query_next() unimplemented\n"); return NULL; } /* * Cursors the item with the text speficied, and scrolls to that item. * Parameters: * handle: Handle to the window (widget) to be queried. * text: Text usually returned by dw_container_query(). */ void API dw_container_cursor(HWND handle, char *text) { NSLog(@"dw_container_cursor() unimplemented\n"); } /* * Deletes the item with the text speficied. * Parameters: * handle: Handle to the window (widget). * text: Text usually returned by dw_container_query(). */ void API dw_container_delete_row(HWND handle, char *text) { NSLog(@"dw_container_delete_row() unimplemented\n"); } /* * Optimizes the column widths so that all data is visible. * Parameters: * handle: Handle to the window (widget) to be optimized. */ void API dw_container_optimize(HWND handle) { NSLog(@"dw_container_optimize() unimplemented\n"); } /* * Inserts an icon into the taskbar. * Parameters: * handle: Window handle that will handle taskbar icon messages. * icon: Icon handle to display in the taskbar. * bubbletext: Text to show when the mouse is above the icon. */ void API dw_taskbar_insert(HWND handle, unsigned long icon, char *bubbletext) { NSLog(@"dw_taskbar_insert() unimplemented\n"); } /* * Deletes an icon from the taskbar. * Parameters: * handle: Window handle that was used with dw_taskbar_insert(). * icon: Icon handle that was used with dw_taskbar_insert(). */ void API dw_taskbar_delete(HWND handle, unsigned long icon) { NSLog(@"dw_taskbar_delete() unimplemented\n"); } /* * Obtains an icon from a module (or header in GTK). * Parameters: * module: Handle to module (DLL) in OS/2 and Windows. * id: A unsigned long id int the resources on OS/2 and * Windows, on GTK this is converted to a pointer * to an embedded XPM. */ unsigned long API dw_icon_load(unsigned long module, unsigned long id) { NSLog(@"dw_icon_load() unimplemented\n"); return 0; } /* * Obtains an icon from a file. * Parameters: * filename: Name of the file, omit extention to have * DW pick the appropriate file extension. * (ICO on OS/2 or Windows, XPM on Unix) */ unsigned long API dw_icon_load_from_file(char *filename) { NSLog(@"dw_icon_load_from_file() unimplemented\n"); return 0; } /* * Obtains an icon from data * Parameters: * filename: Name of the file, omit extention to have * DW pick the appropriate file extension. * (ICO on OS/2 or Windows, XPM on Unix) */ unsigned long API dw_icon_load_from_data(char *data, int len) { NSLog(@"dw_icon_load_from_data() unimplemented\n"); return 0; } /* * Frees a loaded resource in OS/2 and Windows. * Parameters: * handle: Handle to icon returned by dw_icon_load(). */ void API dw_icon_free(unsigned long handle) { NSLog(@"dw_icon_free() unimplemented\n"); } /* * Create a new MDI Frame to be packed. * Parameters: * id: An ID to be used with dw_window_from_id or 0L. */ HWND API dw_mdi_new(unsigned long id) { NSLog(@"dw_mdi_new() unimplemented\n"); return HWND_DESKTOP; } /* * Creates a splitbar window (widget) with given parameters. * Parameters: * type: Value can be DW_VERT or DW_HORZ. * topleft: Handle to the window to be top or left. * bottomright: Handle to the window to be bottom or right. * Returns: * A handle to a splitbar window or NULL on failure. */ HWND API dw_splitbar_new(int type, HWND topleft, HWND bottomright, unsigned long id) { NSLog(@"dw_splitbar_new() unimplemented\n"); return HWND_DESKTOP; } /* * Sets the position of a splitbar (pecentage). * Parameters: * handle: The handle to the splitbar returned by dw_splitbar_new(). */ void API dw_splitbar_set(HWND handle, float percent) { NSLog(@"dw_splitbar_set() unimplemented\n"); } /* * Gets the position of a splitbar (pecentage). * Parameters: * handle: The handle to the splitbar returned by dw_splitbar_new(). */ float API dw_splitbar_get(HWND handle) { NSLog(@"dw_splitbar_get() unimplemented\n"); return 0.0; } /* * Create a bitmap object to be packed. * Parameters: * id: An ID to be used with dw_window_from_id() or 0L. */ HWND API dw_bitmap_new(ULONG id) { NSLog(@"dw_bitmap_new() unimplemented\n"); return HWND_DESKTOP; } /* * Creates a pixmap with given parameters. * Parameters: * handle: Window handle the pixmap is associated with. * width: Width of the pixmap in pixels. * height: Height of the pixmap in pixels. * depth: Color depth of the pixmap. * Returns: * A handle to a pixmap or NULL on failure. */ HPIXMAP API dw_pixmap_new(HWND handle, unsigned long width, unsigned long height, int depth) { NSLog(@"dw_pixmap_new() unimplemented\n"); return HWND_DESKTOP; } /* * Creates a pixmap from a file. * Parameters: * handle: Window handle the pixmap is associated with. * filename: Name of the file, omit extention to have * DW pick the appropriate file extension. * (BMP on OS/2 or Windows, XPM on Unix) * Returns: * A handle to a pixmap or NULL on failure. */ HPIXMAP API dw_pixmap_new_from_file(HWND handle, char *filename) { NSLog(@"dw_pixmap_new_from_file() unimplemented\n"); return HWND_DESKTOP; } /* * Creates a pixmap from memory. * Parameters: * handle: Window handle the pixmap is associated with. * data: Source of the image data * (BMP on OS/2 or Windows, XPM on Unix) * le: length of data * Returns: * A handle to a pixmap or NULL on failure. */ HPIXMAP API dw_pixmap_new_from_data(HWND handle, char *data, int len) { NSLog(@"dw_pixmap_new_from_data() unimplemented\n"); return HWND_DESKTOP; } /* * Creates a bitmap mask for rendering bitmaps with transparent backgrounds */ void API dw_pixmap_set_transparent_color( HPIXMAP pixmap, ULONG color ) { NSLog(@"dw_pixmap_set_transparent_color() unimplemented\n"); } /* * Creates a pixmap from internal resource graphic specified by id. * Parameters: * handle: Window handle the pixmap is associated with. * id: Resource ID associated with requested pixmap. * Returns: * A handle to a pixmap or NULL on failure. */ HPIXMAP API dw_pixmap_grab(HWND handle, ULONG id) { NSLog(@"dw_pixmap_grab() unimplemented\n"); return HWND_DESKTOP; } /* * Destroys an allocated pixmap. * Parameters: * pixmap: Handle to a pixmap returned by * dw_pixmap_new.. */ void API dw_pixmap_destroy(HPIXMAP pixmap) { NSLog(@"dw_pixmap_destroy() unimplemented\n"); } /* * Copies from one item to another. * Parameters: * dest: Destination window handle. * destp: Destination pixmap. (choose only one). * xdest: X coordinate of destination. * ydest: Y coordinate of destination. * width: Width of area to copy. * height: Height of area to copy. * src: Source window handle. * srcp: Source pixmap. (choose only one). * xsrc: X coordinate of source. * ysrc: Y coordinate of source. */ void API dw_pixmap_bitblt(HWND dest, HPIXMAP destp, int xdest, int ydest, int width, int height, HWND src, HPIXMAP srcp, int xsrc, int ysrc) { NSLog(@"dw_pixmap_bitblt() unimplemented\n"); } /* * Create a new static text window (widget) to be packed. * Not available under OS/2, eCS * Parameters: * text: The text to be display by the static text widget. * id: An ID to be used with dw_window_from_id() or 0L. */ HWND API dw_calendar_new(ULONG id) { NSLog(@"dw_calendar_new() unimplemented\n"); return HWND_DESKTOP; } /* * Sets the current date of a calendar * Parameters: * handle: The handle to the calendar returned by dw_calendar_new(). * year... */ void dw_calendar_set_date(HWND handle, unsigned int year, unsigned int month, unsigned int day) { NSLog(@"dw_calendar_set_date() unimplemented\n"); } /* * Gets the position of a splitbar (pecentage). * Parameters: * handle: The handle to the splitbar returned by dw_splitbar_new(). */ void dw_calendar_get_date(HWND handle, unsigned int *year, unsigned int *month, unsigned int *day) { NSLog(@"dw_calendar_get_date() unimplemented\n"); } /* * Causes the embedded HTML widget to take action. * Parameters: * handle: Handle to the window. * action: One of the DW_HTML_* constants. */ void API dw_html_action(HWND handle, int action) { NSLog(@"dw_html_action() unimplemented\n"); } /* * Render raw HTML code in the embedded HTML widget.. * Parameters: * handle: Handle to the window. * string: String buffer containt HTML code to * be rendered. * Returns: * 0 on success. */ int API dw_html_raw(HWND handle, char *string) { WebView *html = handle; [[html mainFrame] loadHTMLString:[ NSString stringWithUTF8String:string ] baseURL:nil]; return 0; } /* * Render file or web page in the embedded HTML widget.. * Parameters: * handle: Handle to the window. * url: Universal Resource Locator of the web or * file object to be rendered. * Returns: * 0 on success. */ int API dw_html_url(HWND handle, char *url) { WebView *html = handle; [[html mainFrame] loadRequest:[NSURLRequest requestWithURL:[NSURL URLWithString:[ NSString stringWithUTF8String:url ]]]]; return 0; } /* * Create a new HTML window (widget) to be packed. * Not available under OS/2, eCS * Parameters: * text: The default text to be in the entryfield widget. * id: An ID to be used with dw_window_from_id() or 0L. */ HWND API dw_html_new(unsigned long id) { WebView *web = [[WebView alloc] init]; return web; } /* * Call a function from the window (widget)'s context. * Parameters: * handle: Window handle of the widget. * function: Function pointer to be called. * data: Pointer to the data to be passed to the function. */ void API dw_window_function(HWND handle, void *function, void *data) { NSLog(@"dw_window_function() unimplemented\n"); } /* * Returns the current X and Y coordinates of the mouse pointer. * Parameters: * x: Pointer to variable to store X coordinate. * y: Pointer to variable to store Y coordinate. */ void API dw_pointer_query_pos(long *x, long *y) { NSPoint mouseLoc; mouseLoc = [NSEvent mouseLocation]; if(x) { *x = mouseLoc.x; } if(y) { *y = mouseLoc.y; } } /* * Sets the X and Y coordinates of the mouse pointer. * Parameters: * x: X coordinate. * y: Y coordinate. */ void API dw_pointer_set_pos(long x, long y) { NSLog(@"dw_pointer_set_pos() unimplemented\n"); } /* * Create a menu object to be popped up. * Parameters: * id: An ID to be used for getting the resource from the * resource file. */ HMENUI API dw_menu_new(ULONG id) { NSMenu *menu = [[[NSMenu alloc] initWithTitle:@"Apple"] autorelease]; return menu; } /* * Create a menubar on a window. * Parameters: * location: Handle of a window frame to be attached to. */ HMENUI API dw_menubar_new(HWND location) { NSLog(@"dw_menubar_new() unimplemented\n"); return HWND_DESKTOP; } /* * Destroys a menu created with dw_menubar_new or dw_menu_new. * Parameters: * menu: Handle of a menu. */ void API dw_menu_destroy(HMENUI *menu) { NSMenu *thismenu = *menu; [thismenu dealloc]; } /* * Pops up a context menu at given x and y coordinates. * Parameters: * menu: The handle the the existing menu. * parent: Handle to the window initiating the popup. * x: X coordinate. * y: Y coordinate. */ void API dw_menu_popup(HMENUI *menu, HWND parent, int x, int y) { NSMenu *thismenu = (NSMenu *)menu; NSView *view = parent; NSEvent* fake = [[NSEvent alloc] mouseEventWithType:NSLeftMouseDown location:NSMakePoint(x,y) modifierFlags:0 timestamp:1 windowNumber:[[view window] windowNumber] context:[NSGraphicsContext currentContext] eventNumber:1 clickCount:1 pressure:0.0]; [NSMenu popUpContextMenu:thismenu withEvent:fake forView:view]; } char _removetilde(char *dest, char *src) { int z, cur=0; char accel = '\0'; for(z=0;z<strlen(src);z++) { if(src[z] != '~') { dest[cur] = src[z]; cur++; } else { dest[cur] = '_'; accel = src[z+1]; cur++; } } dest[cur] = 0; return accel; } /* * Adds a menuitem or submenu to an existing menu. * Parameters: * menu: The handle the the existing menu. * title: The title text on the menu item to be added. * id: An ID to be used for message passing. * flags: Extended attributes to set on the menu. * end: If TRUE memu is positioned at the end of the menu. * check: If TRUE menu is "check"able. * flags: Extended attributes to set on the menu. * submenu: Handle to an existing menu to be a submenu or NULL. */ HWND API dw_menu_append_item(HMENUI menux, char *title, ULONG id, ULONG flags, int end, int check, HMENUI submenu) { NSMenu *menu = menux; NSMenuItem *item = NULL; if(strlen(title) == 0) { [menu addItem:[NSMenuItem separatorItem]]; } else { char accel[2]; char *newtitle = malloc(strlen(title)+1); accel[0] = _removetilde(newtitle, title); accel[1] = 0; item = [menu addItemWithTitle:[ NSString stringWithUTF8String:newtitle ] action:NULL keyEquivalent:[ NSString stringWithUTF8String:accel ]]; free(newtitle); return item; } return item; } /* * Sets the state of a menu item check. * Deprecated; use dw_menu_item_set_state() * Parameters: * menu: The handle the the existing menu. * id: Menuitem id. * check: TRUE for checked FALSE for not checked. */ void API dw_menu_item_set_check(HMENUI menux, unsigned long id, int check) { NSLog(@"dw_menu_item_set_check() unimplemented\n"); } /* * Sets the state of a menu item. * Parameters: * menu: The handle to the existing menu. * id: Menuitem id. * flags: DW_MIS_ENABLED/DW_MIS_DISABLED * DW_MIS_CHECKED/DW_MIS_UNCHECKED */ void API dw_menu_item_set_state( HMENUI menux, unsigned long id, unsigned long state) { NSLog(@"dw_menu_item_set_state() unimplemented\n"); } /* * Create a notebook object to be packed. * Parameters: * id: An ID to be used for getting the resource from the * resource file. */ HWND API dw_notebook_new(ULONG id, int top) { NSLog(@"dw_notebook_new() unimplemented\n"); return HWND_DESKTOP; } /* * Adds a new page to specified notebook. * Parameters: * handle: Window (widget) handle. * flags: Any additional page creation flags. * front: If TRUE page is added at the beginning. */ unsigned long API dw_notebook_page_new(HWND handle, ULONG flags, int front) { NSLog(@"dw_notebook_page_new() unimplemented\n"); return 0; } /* * Remove a page from a notebook. * Parameters: * handle: Handle to the notebook widget. * pageid: ID of the page to be destroyed. */ void API dw_notebook_page_destroy(HWND handle, unsigned int pageid) { NSLog(@"dw_notebook_page_destroy() unimplemented\n"); } /* * Queries the currently visible page ID. * Parameters: * handle: Handle to the notebook widget. */ unsigned long API dw_notebook_page_get(HWND handle) { NSLog(@"dw_notebook_page_get() unimplemented\n"); return 0; } /* * Sets the currently visibale page ID. * Parameters: * handle: Handle to the notebook widget. * pageid: ID of the page to be made visible. */ void API dw_notebook_page_set(HWND handle, unsigned int pageid) { NSLog(@"dw_notebook_page_set() unimplemented\n"); } /* * Sets the text on the specified notebook tab. * Parameters: * handle: Notebook handle. * pageid: Page ID of the tab to set. * text: Pointer to the text to set. */ void API dw_notebook_page_set_text(HWND handle, ULONG pageid, char *text) { NSLog(@"dw_notebook_page_set_text() unimplemented\n"); } /* * Sets the text on the specified notebook tab status area. * Parameters: * handle: Notebook handle. * pageid: Page ID of the tab to set. * text: Pointer to the text to set. */ void API dw_notebook_page_set_status_text(HWND handle, ULONG pageid, char *text) { NSLog(@"dw_notebook_page_set_status_text() unimplemented\n"); } /* * Packs the specified box into the notebook page. * Parameters: * handle: Handle to the notebook to be packed. * pageid: Page ID in the notebook which is being packed. * page: Box handle to be packed. */ void API dw_notebook_pack(HWND handle, ULONG pageid, HWND page) { NSLog(@"dw_notebook_pack() unimplemented\n"); } /* * Create a new Window Frame. * Parameters: * owner: The Owner's window handle or HWND_DESKTOP. * title: The Window title. * flStyle: Style flags, see the PM reference. */ HWND API dw_window_new(HWND hwndOwner, char *title, ULONG flStyle) { NSRect frame = NSMakeRect(1,1,1,1); NSWindow *window = [[NSWindow alloc] initWithContentRect:frame styleMask:flStyle backing:NSBackingStoreBuffered defer:false]; [window setTitle:[ NSString stringWithUTF8String:title ]]; DWView *view = [[DWView alloc] init]; [window setContentView:view]; [window setDelegate:view]; [window makeKeyAndOrderFront:nil]; return (HWND)window; } /* * Changes the appearance of the mouse pointer. * Parameters: * handle: Handle to widget for which to change. * cursortype: ID of the pointer you want. */ void API dw_window_set_pointer(HWND handle, int pointertype) { NSLog(@"dw_window_set_pointer() unimplemented\n"); } /* * Makes the window visible. * Parameters: * handle: The window handle to make visible. */ int API dw_window_show(HWND handle) { NSObject *object = handle; if([ object isKindOfClass:[ NSWindow class ] ]) { NSWindow *window = handle; if([window isMiniaturized]) { [window deminiaturize:nil]; } [[window contentView] windowResized:nil]; } return 0; } /* * Makes the window invisible. * Parameters: * handle: The window handle to make visible. */ int API dw_window_hide(HWND handle) { NSLog(@"dw_window_hide() unimplemented\n"); return 0; } /* * Sets the colors used by a specified window (widget) handle. * Parameters: * handle: The window (widget) handle. * fore: Foreground color in DW_RGB format or a default color index. * back: Background color in DW_RGB format or a default color index. */ int API dw_window_set_color(HWND handle, ULONG fore, ULONG back) { NSLog(@"dw_window_set_color() unimplemented\n"); return -1; } /* * Sets the font used by a specified window (widget) handle. * Parameters: * handle: The window (widget) handle. * border: Size of the window border in pixels. */ int API dw_window_set_border(HWND handle, int border) { NSLog(@"dw_window_set_border() unimplemented\n"); return 0; } /* * Sets the style of a given window (widget). * Parameters: * handle: Window (widget) handle. * width: New width in pixels. * height: New height in pixels. */ void API dw_window_set_style(HWND handle, ULONG style, ULONG mask) { NSLog(@"dw_window_set_style() unimplemented\n"); } /* * Sets the default focus item for a window/dialog. * Parameters: * window: Toplevel window or dialog. * defaultitem: Handle to the dialog item to be default. */ void API dw_window_default(HWND window, HWND defaultitem) { NSLog(@"dw_window_default() unimplemented\n"); } /* * Sets window to click the default dialog item when an ENTER is pressed. * Parameters: * window: Window (widget) to look for the ENTER press. * next: Window (widget) to move to next (or click) */ void API dw_window_click_default(HWND window, HWND next) { NSLog(@"dw_window_click_default() unimplemented\n"); } /* * Captures the mouse input to this window. * Parameters: * handle: Handle to receive mouse input. */ void API dw_window_capture(HWND handle) { NSLog(@"dw_window_capture() unimplemented\n"); } /* * Releases previous mouse capture. */ void API dw_window_release(void) { NSLog(@"dw_window_release() unimplemented\n"); } /* * Tracks this window movement. * Parameters: * handle: Handle to frame to be tracked. */ void API dw_window_track(HWND handle) { NSLog(@"dw_window_track() unimplemented\n"); } /* * Changes a window's parent to newparent. * Parameters: * handle: The window handle to destroy. * newparent: The window's new parent window. */ void API dw_window_reparent(HWND handle, HWND newparent) { /* Is this even possible? */ NSLog(@"dw_window_reparent() unimplemented\n"); } /* * Sets the font used by a specified window (widget) handle. * Parameters: * handle: The window (widget) handle. * fontname: Name and size of the font in the form "size.fontname" */ int API dw_window_set_font(HWND handle, char *fontname) { NSLog(@"dw_window_set_font() unimplemented\n"); return 0; } /* * Destroys a window and all of it's children. * Parameters: * handle: The window handle to destroy. */ int API dw_window_destroy(HWND handle) { NSObject *object = handle; if([ object isKindOfClass:[ NSWindow class ] ]) { NSWindow *window = handle; [window close]; } return 0; } /* * Gets the text used for a given window. * Parameters: * handle: Handle to the window. * Returns: * text: The text associsated with a given window. */ char * API dw_window_get_text(HWND handle) { NSObject *object = handle; if([ object isKindOfClass:[ NSControl class ] ]) { NSControl *control = handle; NSString *nsstr = [ control stringValue]; return strdup([ nsstr UTF8String ]); } else if([ object isKindOfClass:[ NSWindow class ] ]) { NSWindow *window = handle; NSString *nsstr = [ window title]; return strdup([ nsstr UTF8String ]); } return NULL; } /* * Sets the text used for a given window. * Parameters: * handle: Handle to the window. * text: The text associsated with a given window. */ void API dw_window_set_text(HWND handle, char *text) { NSObject *object = handle; if([ object isKindOfClass:[ NSControl class ] ]) { NSControl *control = handle; [control setStringValue:[ NSString stringWithUTF8String:text ]]; } else if([ object isKindOfClass:[ NSWindow class ] ]) { NSWindow *window = handle; [window setTitle:[ NSString stringWithUTF8String:text ]]; } } /* * Disables given window (widget). * Parameters: * handle: Handle to the window. */ void API dw_window_disable(HWND handle) { NSObject *object = handle; if([ object isKindOfClass:[ NSControl class ] ]) { NSControl *control = handle; [control setEnabled:NO]; } } /* * Enables given window (widget). * Parameters: * handle: Handle to the window. */ void API dw_window_enable(HWND handle) { NSObject *object = handle; if([ object isKindOfClass:[ NSControl class ] ]) { NSControl *control = handle; [control setEnabled:YES]; } } /* * Sets the bitmap used for a given static window. * Parameters: * handle: Handle to the window. * id: An ID to be used to specify the icon, * (pass 0 if you use the filename param) * filename: a path to a file (Bitmap on OS/2 or * Windows and a pixmap on Unix, pass * NULL if you use the id param) */ void API dw_window_set_bitmap_from_data(HWND handle, unsigned long id, char *data, int len) { NSLog(@"dw_window_set_bitmap_from_data() unimplemented\n"); } /* * Sets the bitmap used for a given static window. * Parameters: * handle: Handle to the window. * id: An ID to be used to specify the icon, * (pass 0 if you use the filename param) * filename: a path to a file (Bitmap on OS/2 or * Windows and a pixmap on Unix, pass * NULL if you use the id param) */ void API dw_window_set_bitmap(HWND handle, unsigned long id, char *filename) { NSLog(@"dw_window_set_bitmap() unimplemented\n"); } /* * Sets the icon used for a given window. * Parameters: * handle: Handle to the window. * id: An ID to be used to specify the icon. */ void API dw_window_set_icon(HWND handle, ULONG id) { NSLog(@"dw_window_set_icon() unimplemented\n"); } /* * Gets the child window handle with specified ID. * Parameters: * handle: Handle to the parent window. * id: Integer ID of the child. */ HWND API dw_window_from_id(HWND handle, int id) { NSObject *object = handle; NSView *view = handle; if([ object isKindOfClass:[ NSWindow class ] ]) { NSWindow *window = handle; view = [window contentView]; } return [view viewWithTag:id]; } /* * Minimizes or Iconifies a top-level window. * Parameters: * handle: The window handle to minimize. */ int API dw_window_minimize(HWND handle) { NSWindow *window = handle; [window miniaturize:nil]; return 0; } /* Causes entire window to be invalidated and redrawn. * Parameters: * handle: Toplevel window handle to be redrawn. */ void API dw_window_redraw(HWND handle) { NSWindow *window = handle; [window flushWindow]; } /* * Makes the window topmost. * Parameters: * handle: The window handle to make topmost. */ int API dw_window_raise(HWND handle) { NSWindow *window = handle; [window orderFront:nil]; return 0; } /* * Makes the window bottommost. * Parameters: * handle: The window handle to make bottommost. */ int API dw_window_lower(HWND handle) { NSWindow *window = handle; [window orderBack:nil]; return 0; } /* * Sets the size of a given window (widget). * Parameters: * handle: Window (widget) handle. * width: New width in pixels. * height: New height in pixels. */ void API dw_window_set_size(HWND handle, ULONG width, ULONG height) { NSObject *object = handle; NSSize size; size.width = width; size.height = height; if([ object isKindOfClass:[ NSWindow class ] ]) { NSWindow *window = handle; [window setContentSize:size]; } } /* * Sets the position of a given window (widget). * Parameters: * handle: Window (widget) handle. * x: X location from the bottom left. * y: Y location from the bottom left. */ void API dw_window_set_pos(HWND handle, LONG x, LONG y) { NSObject *object = handle; NSPoint point; point.x = x; point.y = y; if([ object isKindOfClass:[ NSWindow class ] ]) { NSWindow *window = handle; [window setFrameOrigin:point]; } } /* * Sets the position and size of a given window (widget). * Parameters: * handle: Window (widget) handle. * x: X location from the bottom left. * y: Y location from the bottom left. * width: Width of the widget. * height: Height of the widget. */ void API dw_window_set_pos_size(HWND handle, LONG x, LONG y, ULONG width, ULONG height) { dw_window_set_pos(handle, x, y); dw_window_set_size(handle, width, height); } /* * Gets the position and size of a given window (widget). * Parameters: * handle: Window (widget) handle. * x: X location from the bottom left. * y: Y location from the bottom left. * width: Width of the widget. * height: Height of the widget. */ void API dw_window_get_pos_size(HWND handle, LONG *x, LONG *y, ULONG *width, ULONG *height) { NSObject *object = handle; if([ object isKindOfClass:[ NSWindow class ] ]) { NSWindow *window = handle; NSRect rect = [window frame]; if(x) *x = rect.origin.x; if(y) *y = rect.origin.y; if(width) *width = rect.size.width; if(height) *height = rect.size.height; return; } } /* * Returns the width of the screen. */ int API dw_screen_width(void) { NSRect screenRect = [[NSScreen mainScreen] frame]; return screenRect.size.width; } /* * Returns the height of the screen. */ int API dw_screen_height(void) { NSRect screenRect = [[NSScreen mainScreen] frame]; return screenRect.size.height; } /* This should return the current color depth */ unsigned long API dw_color_depth_get(void) { NSWindowDepth screenDepth = [[NSScreen mainScreen] depth]; return NSBitsPerPixelFromDepth(screenDepth); } /* * Returns some information about the current operating environment. * Parameters: * env: Pointer to a DWEnv struct. */ void dw_environment_query(DWEnv *env) { struct utsname name; char tempbuf[100]; int len, z; uname(&name); strcpy(env->osName, name.sysname); strcpy(tempbuf, name.release); env->MajorBuild = env->MinorBuild = 0; len = strlen(tempbuf); strcpy(env->buildDate, __DATE__); strcpy(env->buildTime, __TIME__); env->DWMajorVersion = DW_MAJOR_VERSION; env->DWMinorVersion = DW_MINOR_VERSION; env->DWSubVersion = DW_SUB_VERSION; for(z=1;z<len;z++) { if(tempbuf[z] == '.') { tempbuf[z] = '\0'; env->MajorVersion = atoi(&tempbuf[z-1]); env->MinorVersion = atoi(&tempbuf[z+1]); return; } } env->MajorVersion = atoi(tempbuf); env->MinorVersion = 0; } /* * Emits a beep. * Parameters: * freq: Frequency. * dur: Duration. */ void API dw_beep(int freq, int dur) { NSLog(@"dw_beep() unimplemented\n"); } /* Call this after drawing to the screen to make sure * anything you have drawn is visible. */ void API dw_flush(void) { } /* * Add a named user data item to a window handle. * Parameters: * window: Window handle of signal to be called back. * dataname: A string pointer identifying which signal to be hooked. * data: User data to be passed to the handler function. */ void dw_window_set_data(HWND window, char *dataname, void *data) { NSLog(@"dw_window_set_data() unimplemented\n"); } /* * Gets a named user data item to a window handle. * Parameters: * window: Window handle of signal to be called back. * dataname: A string pointer identifying which signal to be hooked. * data: User data to be passed to the handler function. */ void *dw_window_get_data(HWND window, char *dataname) { NSLog(@"dw_window_get_data() unimplemented\n"); return NULL; } /* * Add a callback to a timer event. * Parameters: * interval: Milliseconds to delay between calls. * sigfunc: The pointer to the function to be used as the callback. * data: User data to be passed to the handler function. * Returns: * Timer ID for use with dw_timer_disconnect(), 0 on error. */ int API dw_timer_connect(int interval, void *sigfunc, void *data) { NSLog(@"dw_timer_connect() unimplemented\n"); if(sigfunc) { int timerid = 0; /* = WinStartTimer(dwhab, NULLHANDLE, 0, interval)*/ if(timerid) { _new_signal(0, HWND_DESKTOP, timerid, sigfunc, data); return timerid; } } return 0; } /* * Removes timer callback. * Parameters: * id: Timer ID returned by dw_timer_connect(). */ void API dw_timer_disconnect(int id) { SignalHandler *prev = NULL, *tmp = Root; NSLog(@"dw_timer_disconnect() unimplemented\n"); /* 0 is an invalid timer ID */ if(!id) return; /*WinStopTimer(dwhab, NULLHANDLE, id);*/ while(tmp) { if(tmp->id == id) { if(prev) { prev->next = tmp->next; free(tmp); tmp = prev->next; } else { Root = tmp->next; free(tmp); tmp = Root; } } else { prev = tmp; tmp = tmp->next; } } } /* * Add a callback to a window event. * Parameters: * window: Window handle of signal to be called back. * signame: A string pointer identifying which signal to be hooked. * sigfunc: The pointer to the function to be used as the callback. * data: User data to be passed to the handler function. */ void API dw_signal_connect(HWND window, char *signame, void *sigfunc, void *data) { ULONG message = 0, id = 0; if(window && signame && sigfunc) { if((message = _findsigmessage(signame)) != 0) { _new_signal(message, window, id, sigfunc, data); } } } /* * Removes callbacks for a given window with given name. * Parameters: * window: Window handle of callback to be removed. */ void API dw_signal_disconnect_by_name(HWND window, char *signame) { SignalHandler *prev = NULL, *tmp = Root; ULONG message; if(!window || !signame || (message = _findsigmessage(signame)) == 0) return; while(tmp) { if(tmp->window == window && tmp->message == message) { if(prev) { prev->next = tmp->next; free(tmp); tmp = prev->next; } else { Root = tmp->next; free(tmp); tmp = Root; } } else { prev = tmp; tmp = tmp->next; } } } /* * Removes all callbacks for a given window. * Parameters: * window: Window handle of callback to be removed. */ void API dw_signal_disconnect_by_window(HWND window) { SignalHandler *prev = NULL, *tmp = Root; while(tmp) { if(tmp->window == window) { if(prev) { prev->next = tmp->next; free(tmp); tmp = prev->next; } else { Root = tmp->next; free(tmp); tmp = Root; } } else { prev = tmp; tmp = tmp->next; } } } /* * Removes all callbacks for a given window with specified data. * Parameters: * window: Window handle of callback to be removed. * data: Pointer to the data to be compared against. */ void API dw_signal_disconnect_by_data(HWND window, void *data) { SignalHandler *prev = NULL, *tmp = Root; while(tmp) { if(tmp->window == window && tmp->data == data) { if(prev) { prev->next = tmp->next; free(tmp); tmp = prev->next; } else { Root = tmp->next; free(tmp); tmp = Root; } } else { prev = tmp; tmp = tmp->next; } } } void _my_strlwr(char *buf) { int z, len = strlen(buf); for(z=0;z<len;z++) { if(buf[z] >= 'A' && buf[z] <= 'Z') buf[z] -= 'A' - 'a'; } } /* Open a shared library and return a handle. * Parameters: * name: Base name of the shared library. * handle: Pointer to a module handle, * will be filled in with the handle. */ int dw_module_load(char *name, HMOD *handle) { int len; char *newname; char errorbuf[1024]; if(!handle) return -1; if((len = strlen(name)) == 0) return -1; /* Lenth + "lib" + ".dylib" + NULL */ newname = malloc(len + 10); if(!newname) return -1; sprintf(newname, "lib%s.dylib", name); _my_strlwr(newname); *handle = dlopen(newname, RTLD_NOW); if(*handle == NULL) { strncpy(errorbuf, dlerror(), 1024); printf("%s\n", errorbuf); sprintf(newname, "lib%s.dylib", name); *handle = dlopen(newname, RTLD_NOW); } free(newname); return (NULL == *handle) ? -1 : 0; } /* Queries the address of a symbol within open handle. * Parameters: * handle: Module handle returned by dw_module_load() * name: Name of the symbol you want the address of. * func: A pointer to a function pointer, to obtain * the address. */ int dw_module_symbol(HMOD handle, char *name, void**func) { if(!func || !name) return -1; if(strlen(name) == 0) return -1; *func = (void*)dlsym(handle, name); return (NULL == *func); } /* Frees the shared library previously opened. * Parameters: * handle: Module handle returned by dw_module_load() */ int dw_module_close(HMOD handle) { if(handle) return dlclose(handle); return 0; } /* * Returns the handle to an unnamed mutex semaphore. */ HMTX dw_mutex_new(void) { HMTX mutex = malloc(sizeof(pthread_mutex_t)); pthread_mutex_init(mutex, NULL); return mutex; } /* * Closes a semaphore created by dw_mutex_new(). * Parameters: * mutex: The handle to the mutex returned by dw_mutex_new(). */ void dw_mutex_close(HMTX mutex) { if(mutex) { pthread_mutex_destroy(mutex); free(mutex); } } /* * Tries to gain access to the semaphore, if it can't it blocks. * Parameters: * mutex: The handle to the mutex returned by dw_mutex_new(). */ void dw_mutex_lock(HMTX mutex) { pthread_mutex_lock(mutex); } /* * Reliquishes the access to the semaphore. * Parameters: * mutex: The handle to the mutex returned by dw_mutex_new(). */ void dw_mutex_unlock(HMTX mutex) { pthread_mutex_unlock(mutex); } /* * Returns the handle to an unnamed event semaphore. */ HEV dw_event_new(void) { HEV eve = (HEV)malloc(sizeof(struct _dw_unix_event)); if(!eve) return NULL; /* We need to be careful here, mutexes on Linux are * FAST by default but are error checking on other * systems such as FreeBSD and OS/2, perhaps others. */ pthread_mutex_init (&(eve->mutex), NULL); pthread_mutex_lock (&(eve->mutex)); pthread_cond_init (&(eve->event), NULL); pthread_mutex_unlock (&(eve->mutex)); eve->alive = 1; eve->posted = 0; return eve; } /* * Resets a semaphore created by dw_event_new(). * Parameters: * eve: The handle to the event returned by dw_event_new(). */ int dw_event_reset (HEV eve) { if(!eve) return FALSE; pthread_mutex_lock (&(eve->mutex)); pthread_cond_broadcast (&(eve->event)); pthread_cond_init (&(eve->event), NULL); eve->posted = 0; pthread_mutex_unlock (&(eve->mutex)); return 0; } /* * Posts a semaphore created by dw_event_new(). Causing all threads * waiting on this event in dw_event_wait to continue. * Parameters: * eve: The handle to the event returned by dw_event_new(). */ int dw_event_post (HEV eve) { if(!eve) return FALSE; pthread_mutex_lock (&(eve->mutex)); pthread_cond_broadcast (&(eve->event)); eve->posted = 1; pthread_mutex_unlock (&(eve->mutex)); return 0; } /* * Waits on a semaphore created by dw_event_new(), until the * event gets posted or until the timeout expires. * Parameters: * eve: The handle to the event returned by dw_event_new(). */ int dw_event_wait(HEV eve, unsigned long timeout) { int rc; struct timeval now; struct timespec timeo; if(!eve) return FALSE; if(eve->posted) return 0; pthread_mutex_lock (&(eve->mutex)); gettimeofday(&now, 0); timeo.tv_sec = now.tv_sec + (timeout / 1000); timeo.tv_nsec = now.tv_usec * 1000; rc = pthread_cond_timedwait (&(eve->event), &(eve->mutex), &timeo); pthread_mutex_unlock (&(eve->mutex)); if(!rc) return 1; if(rc == ETIMEDOUT) return -1; return 0; } /* * Closes a semaphore created by dw_event_new(). * Parameters: * eve: The handle to the event returned by dw_event_new(). */ int dw_event_close(HEV *eve) { if(!eve || !(*eve)) return FALSE; pthread_mutex_lock (&((*eve)->mutex)); pthread_cond_destroy (&((*eve)->event)); pthread_mutex_unlock (&((*eve)->mutex)); pthread_mutex_destroy (&((*eve)->mutex)); free(*eve); *eve = NULL; return TRUE; } struct _seminfo { int fd; int waiting; }; static void _handle_sem(int *tmpsock) { fd_set rd; struct _seminfo *array = (struct _seminfo *)malloc(sizeof(struct _seminfo)); int listenfd = tmpsock[0]; int bytesread, connectcount = 1, maxfd, z, posted = 0; char command; sigset_t mask; sigfillset(&mask); /* Mask all allowed signals */ pthread_sigmask(SIG_BLOCK, &mask, NULL); /* problems */ if(tmpsock[1] == -1) { free(array); return; } array[0].fd = tmpsock[1]; array[0].waiting = 0; /* Free the memory allocated in dw_named_event_new. */ free(tmpsock); while(1) { FD_ZERO(&rd); FD_SET(listenfd, &rd); maxfd = listenfd; /* Added any connections to the named event semaphore */ for(z=0;z<connectcount;z++) { if(array[z].fd > maxfd) maxfd = array[z].fd; FD_SET(array[z].fd, &rd); } if(select(maxfd+1, &rd, NULL, NULL, NULL) == -1) return; if(FD_ISSET(listenfd, &rd)) { struct _seminfo *newarray; int newfd = accept(listenfd, 0, 0); if(newfd > -1) { /* Add new connections to the set */ newarray = (struct _seminfo *)malloc(sizeof(struct _seminfo)*(connectcount+1)); memcpy(newarray, array, sizeof(struct _seminfo)*(connectcount)); newarray[connectcount].fd = newfd; newarray[connectcount].waiting = 0; connectcount++; /* Replace old array with new one */ free(array); array = newarray; } } /* Handle any events posted to the semaphore */ for(z=0;z<connectcount;z++) { if(FD_ISSET(array[z].fd, &rd)) { if((bytesread = read(array[z].fd, &command, 1)) < 1) { struct _seminfo *newarray; /* Remove this connection from the set */ newarray = (struct _seminfo *)malloc(sizeof(struct _seminfo)*(connectcount-1)); if(!z) memcpy(newarray, &array[1], sizeof(struct _seminfo)*(connectcount-1)); else { memcpy(newarray, array, sizeof(struct _seminfo)*z); if(z!=(connectcount-1)) memcpy(&newarray[z], &array[z+1], sizeof(struct _seminfo)*(z-connectcount-1)); } connectcount--; /* Replace old array with new one */ free(array); array = newarray; } else if(bytesread == 1) { switch(command) { case 0: { /* Reset */ posted = 0; } break; case 1: /* Post */ { int s; char tmp = (char)0; posted = 1; for(s=0;s<connectcount;s++) { /* The semaphore has been posted so * we tell all the waiting threads to * continue. */ if(array[s].waiting) write(array[s].fd, &tmp, 1); } } break; case 2: /* Wait */ { char tmp = (char)0; array[z].waiting = 1; /* If we are posted exit immeditately */ if(posted) write(array[z].fd, &tmp, 1); } break; case 3: { /* Done Waiting */ array[z].waiting = 0; } break; } } } } } } /* Using domain sockets on unix for IPC */ /* Create a named event semaphore which can be * opened from other processes. * Parameters: * eve: Pointer to an event handle to receive handle. * name: Name given to semaphore which can be opened * by other processes. */ HEV dw_named_event_new(char *name) { struct sockaddr_un un; int ev, *tmpsock = (int *)malloc(sizeof(int)*2); HEV eve; DWTID dwthread; if(!tmpsock) return NULL; eve = (HEV)malloc(sizeof(struct _dw_unix_event)); if(!eve) { free(tmpsock); return NULL; } tmpsock[0] = socket(AF_UNIX, SOCK_STREAM, 0); ev = socket(AF_UNIX, SOCK_STREAM, 0); memset(&un, 0, sizeof(un)); un.sun_family=AF_UNIX; mkdir("/tmp/.dw", S_IWGRP|S_IWOTH); strcpy(un.sun_path, "/tmp/.dw/"); strcat(un.sun_path, name); /* just to be safe, this should be changed * to support multiple instances. */ remove(un.sun_path); bind(tmpsock[0], (struct sockaddr *)&un, sizeof(un)); listen(tmpsock[0], 0); connect(ev, (struct sockaddr *)&un, sizeof(un)); tmpsock[1] = accept(tmpsock[0], 0, 0); if(tmpsock[0] < 0 || tmpsock[1] < 0 || ev < 0) { if(tmpsock[0] > -1) close(tmpsock[0]); if(tmpsock[1] > -1) close(tmpsock[1]); if(ev > -1) close(ev); free(tmpsock); free(eve); return NULL; } /* Create a thread to handle this event semaphore */ pthread_create(&dwthread, NULL, (void *)_handle_sem, (void *)tmpsock); eve->alive = ev; return eve; } /* Open an already existing named event semaphore. * Parameters: * eve: Pointer to an event handle to receive handle. * name: Name given to semaphore which can be opened * by other processes. */ HEV dw_named_event_get(char *name) { struct sockaddr_un un; HEV eve; int ev = socket(AF_UNIX, SOCK_STREAM, 0); if(ev < 0) return NULL; eve = (HEV)malloc(sizeof(struct _dw_unix_event)); if(!eve) { close(ev); return NULL; } un.sun_family=AF_UNIX; mkdir("/tmp/.dw", S_IWGRP|S_IWOTH); strcpy(un.sun_path, "/tmp/.dw/"); strcat(un.sun_path, name); connect(ev, (struct sockaddr *)&un, sizeof(un)); eve->alive = ev; return eve; } /* Resets the event semaphore so threads who call wait * on this semaphore will block. * Parameters: * eve: Handle to the semaphore obtained by * an open or create call. */ int dw_named_event_reset(HEV eve) { /* signal reset */ char tmp = (char)0; if(!eve || eve->alive < 0) return 0; if(write(eve->alive, &tmp, 1) == 1) return 0; return 1; } /* Sets the posted state of an event semaphore, any threads * waiting on the semaphore will no longer block. * Parameters: * eve: Handle to the semaphore obtained by * an open or create call. */ int dw_named_event_post(HEV eve) { /* signal post */ char tmp = (char)1; if(!eve || eve->alive < 0) return 0; if(write(eve->alive, &tmp, 1) == 1) return 0; return 1; } /* Waits on the specified semaphore until it becomes * posted, or returns immediately if it already is posted. * Parameters: * eve: Handle to the semaphore obtained by * an open or create call. * timeout: Number of milliseconds before timing out * or -1 if indefinite. */ int dw_named_event_wait(HEV eve, unsigned long timeout) { fd_set rd; struct timeval tv, *useme; int retval = 0; char tmp; if(!eve || eve->alive < 0) return DW_ERROR_NON_INIT; /* Set the timout or infinite */ if(timeout == -1) useme = NULL; else { tv.tv_sec = timeout / 1000; tv.tv_usec = timeout % 1000; useme = &tv; } FD_ZERO(&rd); FD_SET(eve->alive, &rd); /* Signal wait */ tmp = (char)2; write(eve->alive, &tmp, 1); retval = select(eve->alive+1, &rd, NULL, NULL, useme); /* Signal done waiting. */ tmp = (char)3; write(eve->alive, &tmp, 1); if(retval == 0) return DW_ERROR_TIMEOUT; else if(retval == -1) return DW_ERROR_INTERRUPT; /* Clear the entry from the pipe so * we don't loop endlessly. :) */ read(eve->alive, &tmp, 1); return 0; } /* Release this semaphore, if there are no more open * handles on this semaphore the semaphore will be destroyed. * Parameters: * eve: Handle to the semaphore obtained by * an open or create call. */ int dw_named_event_close(HEV eve) { /* Finally close the domain socket, * cleanup will continue in _handle_sem. */ if(eve) { close(eve->alive); free(eve); } return 0; } /* * Setup thread independent color sets. */ void _dwthreadstart(void *data) { void (*threadfunc)(void *) = NULL; void **tmp = (void **)data; threadfunc = (void (*)(void *))tmp[0]; threadfunc(tmp[1]); free(tmp); } /* * Allocates a shared memory region with a name. * Parameters: * handle: A pointer to receive a SHM identifier. * dest: A pointer to a pointer to receive the memory address. * size: Size in bytes of the shared memory region to allocate. * name: A string pointer to a unique memory name. */ HSHM dw_named_memory_new(void **dest, int size, char *name) { char namebuf[1024]; struct _dw_unix_shm *handle = malloc(sizeof(struct _dw_unix_shm)); mkdir("/tmp/.dw", S_IWGRP|S_IWOTH); sprintf(namebuf, "/tmp/.dw/%s", name); if((handle->fd = open(namebuf, O_CREAT | O_RDWR, S_IRUSR | S_IWUSR)) < 0) { free(handle); return NULL; } ftruncate(handle->fd, size); /* attach the shared memory segment to our process's address space. */ *dest = mmap(NULL, size, PROT_READ | PROT_WRITE, MAP_SHARED, handle->fd, 0); if(*dest == MAP_FAILED) { close(handle->fd); *dest = NULL; free(handle); return NULL; } handle->size = size; handle->sid = getsid(0); handle->path = strdup(namebuf); return handle; } /* * Aquires shared memory region with a name. * Parameters: * dest: A pointer to a pointer to receive the memory address. * size: Size in bytes of the shared memory region to requested. * name: A string pointer to a unique memory name. */ HSHM dw_named_memory_get(void **dest, int size, char *name) { char namebuf[1024]; struct _dw_unix_shm *handle = malloc(sizeof(struct _dw_unix_shm)); mkdir("/tmp/.dw", S_IWGRP|S_IWOTH); sprintf(namebuf, "/tmp/.dw/%s", name); if((handle->fd = open(namebuf, O_RDWR)) < 0) { free(handle); return NULL; } /* attach the shared memory segment to our process's address space. */ *dest = mmap(NULL, size, PROT_READ | PROT_WRITE, MAP_SHARED, handle->fd, 0); if(*dest == MAP_FAILED) { close(handle->fd); *dest = NULL; free(handle); return NULL; } handle->size = size; handle->sid = -1; handle->path = NULL; return handle; } /* * Frees a shared memory region previously allocated. * Parameters: * handle: Handle obtained from DB_named_memory_allocate. * ptr: The memory address aquired with DB_named_memory_allocate. */ int dw_named_memory_free(HSHM handle, void *ptr) { struct _dw_unix_shm *h = handle; int rc = munmap(ptr, h->size); close(h->fd); if(h->path) { /* Only remove the actual file if we are the * creator of the file. */ if(h->sid != -1 && h->sid == getsid(0)) remove(h->path); free(h->path); } return rc; } /* * Creates a new thread with a starting point of func. * Parameters: * func: Function which will be run in the new thread. * data: Parameter(s) passed to the function. * stack: Stack size of new thread (OS/2 and Windows only). */ DWTID dw_thread_new(void *func, void *data, int stack) { DWTID thread; void **tmp = malloc(sizeof(void *) * 2); int rc; tmp[0] = func; tmp[1] = data; rc = pthread_create(&thread, NULL, (void *)_dwthreadstart, (void *)tmp); if(rc == 0) return thread; return (DWTID)-1; } /* * Ends execution of current thread immediately. */ void dw_thread_end(void) { pthread_exit(NULL); } /* * Returns the current thread's ID. */ DWTID dw_thread_id(void) { return (DWTID)pthread_self(); } #ifdef DWTEST int main(int argc, char *argv[]) { HWND window, box, vbox, hbox, button, text, checkbox, html; LONG x, y; ULONG width, height; dw_init(TRUE, argc, argv); window = dw_window_new(HWND_DESKTOP, "Dynamic Windows Test", DW_FCF_TITLEBAR | DW_FCF_SYSMENU | DW_FCF_MINMAX | DW_FCF_SIZEBORDER); box = dw_box_new(DW_VERT, 0); vbox = dw_groupbox_new(DW_VERT, 4, "Checks"); checkbox = dw_checkbox_new("Checkbox 1", 0); dw_box_pack_start(vbox, checkbox, 100, 25, TRUE, FALSE, 2); checkbox = dw_checkbox_new("Checkbox 2", 0); dw_box_pack_start(vbox, checkbox, 100, 25, TRUE, FALSE, 2); checkbox = dw_checkbox_new("Checkbox 3", 0); dw_box_pack_start(vbox, checkbox, 100, 25, TRUE, FALSE, 2); hbox = dw_box_new(DW_HORZ, 0); button = dw_button_new("Test Button", 0); /*dw_window_disable(button);*/ text = dw_entryfield_new("Entry", 0); dw_box_pack_start(hbox, button, 100, 40, TRUE, FALSE, 2); dw_box_pack_start(hbox, text, 100, 40, TRUE, FALSE, 2); dw_box_pack_start(vbox, hbox, 0, 0, TRUE, FALSE, 0); html = dw_html_new(0); dw_html_url(html, "http://dbsoft.org"); dw_box_pack_start(vbox, html, 0, 0, TRUE, TRUE, 0); dw_box_pack_start(box, vbox, 0, 0, TRUE, TRUE, 0); dw_box_pack_start(window, box, 0, 0, TRUE, TRUE, 0); dw_window_show(window); dw_window_set_pos_size(window, 400, 400, 500, 500); dw_window_get_pos_size(window, &x, &y, &width, &height); dw_messagebox("Dynamic Windows Information", DW_MB_OK | DW_MB_INFORMATION, "%d %d %d %d %d %d %d\n", (int)x, (int)y, (int)width, (int)height, (int)dw_screen_width(), (int)dw_screen_height(), (int)dw_color_depth_get()); dw_main(); return 0; } #endif