jedi-academy/codemp/ui/ui_shared.c
2013-05-07 22:18:45 +10:00

10163 lines
237 KiB
C

//
// string allocation/managment
#ifndef CGAME
#include "ui_local.h"
#endif
#ifdef _XBOX
#include "../client/client.h"
#endif
#include "ui_shared.h"
#include "../game/bg_public.h"
#include "../game/anims.h"
#include "../ghoul2/G2.h"
extern stringID_table_t animTable [MAX_ANIMATIONS+1];
extern void UI_UpdateCharacterSkin( void );
#define SCROLL_TIME_START 500
#define SCROLL_TIME_ADJUST 150
#define SCROLL_TIME_ADJUSTOFFSET 40
#define SCROLL_TIME_FLOOR 20
typedef struct scrollInfo_s {
int nextScrollTime;
int nextAdjustTime;
int adjustValue;
int scrollKey;
float xStart;
float yStart;
itemDef_t *item;
qboolean scrollDir;
} scrollInfo_t;
#ifdef _XBOX
//extern void *Z_Malloc(int iSize, memtag_t eTag, qboolean bZeroit, int iAlign);
//extern void Z_TagFree(memtag_t eTag);
#endif
#ifndef CGAME // Defined in ui_main.c, not in the namespace
extern vmCvar_t ui_char_color_red;
extern vmCvar_t ui_char_color_green;
extern vmCvar_t ui_char_color_blue;
extern vmCvar_t se_language;
// Some extern functions hoisted from the middle of this file to get all the non-cgame,
// non-namespace stuff together
extern void UI_SaberDrawBlades( itemDef_t *item, vec3_t origin, vec3_t angles );
extern void UI_SaberLoadParms( void );
extern qboolean ui_saber_parms_parsed;
extern void UI_CacheSaberGlowGraphics( void );
#endif //
#include "../namespace_begin.h"
#ifdef CGAME
extern int trap_Key_GetCatcher( void ) ;
extern void trap_Key_SetCatcher( int catcher );
extern void trap_Cvar_Set( const char *var_name, const char *value );
#endif
//JLF DEMOCODE
#ifdef _XBOX
//support for attract mode demo timer
#define DEMO_TIME_MAX 45000 //g_demoTimeBeforeStart
int g_demoLastKeypress = 0; //milliseconds
bool g_ReturnToSplash = false;
bool g_runningDemo = false;
void G_DemoStart();
void G_DemoEnd();
void G_DemoFrame();
void G_DemoKeypress();
void PlayDemo();
//void UpdateDemoTimer();
bool TestDemoTimer();
//END DEMOCODE
//JLF used by sliders
#define TICK_COUNT 20
//JLF MORE PROTOTYPES
qboolean Item_HandleSelectionNext(itemDef_t * item);
qboolean Item_HandleSelectionPrev(itemDef_t * item);
#endif // _XBOX
qboolean Item_SetFocus(itemDef_t *item, float x, float y);
static scrollInfo_t scrollInfo;
static void (*captureFunc) (void *p) = 0;
static void *captureData = NULL;
static itemDef_t *itemCapture = NULL; // item that has the mouse captured ( if any )
displayContextDef_t *DC = NULL;
static qboolean g_waitingForKey = qfalse;
static qboolean g_editingField = qfalse;
static itemDef_t *g_bindItem = NULL;
static itemDef_t *g_editItem = NULL;
menuDef_t Menus[MAX_MENUS]; // defined menus
int menuCount = 0; // how many
menuDef_t *menuStack[MAX_OPEN_MENUS];
int openMenuCount = 0;
static qboolean debugMode = qfalse;
#define DOUBLE_CLICK_DELAY 300
static int lastListBoxClickTime = 0;
void Item_RunScript(itemDef_t *item, const char *s);
void Item_SetupKeywordHash(void);
void Menu_SetupKeywordHash(void);
int BindingIDFromName(const char *name);
qboolean Item_Bind_HandleKey(itemDef_t *item, int key, qboolean down);
itemDef_t *Menu_SetPrevCursorItem(menuDef_t *menu);
itemDef_t *Menu_SetNextCursorItem(menuDef_t *menu);
static qboolean Menu_OverActiveItem(menuDef_t *menu, float x, float y);
static void Item_TextScroll_BuildLines ( itemDef_t* item );
void Menu_SetItemText(const menuDef_t *menu,const char *itemName, const char *text);
extern qboolean ItemParse_asset_model_go( itemDef_t *item, const char *name,int *runTimeLength );
extern qboolean ItemParse_model_g2anim_go( itemDef_t *item, const char *animName );
#ifdef CGAME
#define MEM_POOL_SIZE 128 * 1024
#define UI_ALLOCATION_TAG TAG_CG_UI_ALLOC
#else
//#define MEM_POOL_SIZE 1024 * 1024
#define MEM_POOL_SIZE 2048 * 1024
#define UI_ALLOCATION_TAG TAG_UI_ALLOC
#endif
#ifndef _XBOX
static char memoryPool[MEM_POOL_SIZE];
#endif // _XBOX
static int allocPoint, outOfMemory;
typedef struct itemFlagsDef_s {
char *string;
int value;
} itemFlagsDef_t;
itemFlagsDef_t itemFlags [] = {
"WINDOW_INACTIVE", WINDOW_INACTIVE,
NULL, (int) NULL
};
char *styles [] = {
"WINDOW_STYLE_EMPTY",
"WINDOW_STYLE_FILLED",
"WINDOW_STYLE_GRADIENT",
"WINDOW_STYLE_SHADER",
"WINDOW_STYLE_TEAMCOLOR",
"WINDOW_STYLE_CINEMATIC",
NULL
};
char *alignment [] = {
"ITEM_ALIGN_LEFT",
"ITEM_ALIGN_CENTER",
"ITEM_ALIGN_RIGHT",
NULL
};
char *types [] = {
"ITEM_TYPE_TEXT",
"ITEM_TYPE_BUTTON",
"ITEM_TYPE_RADIOBUTTON",
"ITEM_TYPE_CHECKBOX",
"ITEM_TYPE_EDITFIELD",
"ITEM_TYPE_COMBO",
"ITEM_TYPE_LISTBOX",
"ITEM_TYPE_MODEL",
"ITEM_TYPE_OWNERDRAW",
"ITEM_TYPE_NUMERICFIELD",
"ITEM_TYPE_SLIDER",
"ITEM_TYPE_YESNO",
"ITEM_TYPE_MULTI",
"ITEM_TYPE_BIND",
"ITEM_TYPE_TEXTSCROLL",
NULL
};
extern int MenuFontToHandle(int iMenuFont);
/*
===============
UI_Alloc
===============
*/
void *UI_Alloc( int size ) {
#ifdef _XBOX
allocPoint += size;
return Z_Malloc(size, UI_ALLOCATION_TAG, qfalse, 4);
#else // _XBOX
char *p;
if ( allocPoint + size > MEM_POOL_SIZE ) {
outOfMemory = qtrue;
if (DC->Print) {
DC->Print("UI_Alloc: Failure. Out of memory!\n");
}
//DC->trap_Print(S_COLOR_YELLOW"WARNING: UI Out of Memory!\n");
return NULL;
}
p = &memoryPool[allocPoint];
allocPoint += ( size + 15 ) & ~15;
return p;
#endif
}
/*
===============
UI_InitMemory
===============
*/
void UI_InitMemory( void ) {
allocPoint = 0;
outOfMemory = qfalse;
#ifdef _XBOX
Z_TagFree(UI_ALLOCATION_TAG);
#endif
}
qboolean UI_OutOfMemory() {
return outOfMemory;
}
#define HASH_TABLE_SIZE 2048
/*
================
return a hash value for the string
================
*/
static long hashForString(const char *str) {
int i;
long hash;
char letter;
hash = 0;
i = 0;
while (str[i] != '\0') {
letter = tolower((unsigned char)str[i]);
hash+=(long)(letter)*(i+119);
i++;
}
hash &= (HASH_TABLE_SIZE-1);
return hash;
}
typedef struct stringDef_s {
struct stringDef_s *next;
const char *str;
} stringDef_t;
static int strPoolIndex = 0;
static char strPool[STRING_POOL_SIZE];
static int strHandleCount = 0;
static stringDef_t *strHandle[HASH_TABLE_SIZE];
const char *String_Alloc(const char *p) {
int len;
long hash;
stringDef_t *str, *last;
static const char *staticNULL = "";
if (p == NULL) {
return NULL;
}
if (*p == 0) {
return staticNULL;
}
hash = hashForString(p);
str = strHandle[hash];
while (str) {
if (strcmp(p, str->str) == 0) {
return str->str;
}
str = str->next;
}
len = strlen(p);
if (len + strPoolIndex + 1 < STRING_POOL_SIZE) {
int ph = strPoolIndex;
strcpy(&strPool[strPoolIndex], p);
strPoolIndex += len + 1;
str = strHandle[hash];
last = str;
while (last && last->next)
{
last = last->next;
}
str = (stringDef_t *) UI_Alloc(sizeof(stringDef_t));
str->next = NULL;
str->str = &strPool[ph];
if (last) {
last->next = str;
} else {
strHandle[hash] = str;
}
return &strPool[ph];
}
//Increase STRING_POOL_SIZE.
assert(0);
return NULL;
}
void String_Report() {
float f;
Com_Printf("Memory/String Pool Info\n");
Com_Printf("----------------\n");
f = strPoolIndex;
f /= STRING_POOL_SIZE;
f *= 100;
Com_Printf("String Pool is %.1f%% full, %i bytes out of %i used.\n", f, strPoolIndex, STRING_POOL_SIZE);
f = allocPoint;
f /= MEM_POOL_SIZE;
f *= 100;
Com_Printf("Memory Pool is %.1f%% full, %i bytes out of %i used.\n", f, allocPoint, MEM_POOL_SIZE);
}
/*
=================
String_Init
=================
*/
void String_Init() {
int i;
for (i = 0; i < HASH_TABLE_SIZE; i++) {
strHandle[i] = 0;
}
strHandleCount = 0;
strPoolIndex = 0;
menuCount = 0;
openMenuCount = 0;
UI_InitMemory();
Item_SetupKeywordHash();
Menu_SetupKeywordHash();
if (DC && DC->getBindingBuf) {
Controls_GetConfig();
}
}
/*
=================
PC_SourceWarning
=================
*/
void PC_SourceWarning(int handle, char *format, ...) {
int line;
char filename[128];
va_list argptr;
static char string[4096];
va_start (argptr, format);
Q_vsnprintf (string, sizeof(string), format, argptr);
va_end (argptr);
filename[0] = '\0';
line = 0;
trap_PC_SourceFileAndLine(handle, filename, &line);
Com_Printf(S_COLOR_YELLOW "WARNING: %s, line %d: %s\n", filename, line, string);
}
/*
=================
PC_SourceError
=================
*/
void PC_SourceError(int handle, char *format, ...) {
int line;
char filename[128];
va_list argptr;
static char string[4096];
va_start (argptr, format);
Q_vsnprintf (string, sizeof(string), format, argptr);
va_end (argptr);
filename[0] = '\0';
line = 0;
trap_PC_SourceFileAndLine(handle, filename, &line);
Com_Printf(S_COLOR_RED "ERROR: %s, line %d: %s\n", filename, line, string);
}
/*
=================
LerpColor
=================
*/
void LerpColor(vec4_t a, vec4_t b, vec4_t c, float t)
{
int i;
// lerp and clamp each component
for (i=0; i<4; i++)
{
c[i] = a[i] + t*(b[i]-a[i]);
if (c[i] < 0)
c[i] = 0;
else if (c[i] > 1.0)
c[i] = 1.0;
}
}
/*
=================
Float_Parse
=================
*/
qboolean Float_Parse(char **p, float *f) {
char *token;
token = COM_ParseExt((const char **)p, qfalse);
if (token && token[0] != 0) {
*f = atof(token);
return qtrue;
} else {
return qfalse;
}
}
/*
=================
PC_Float_Parse
=================
*/
qboolean PC_Float_Parse(int handle, float *f) {
pc_token_t token;
int negative = qfalse;
if (!trap_PC_ReadToken(handle, &token))
return qfalse;
if (token.string[0] == '-') {
if (!trap_PC_ReadToken(handle, &token))
return qfalse;
negative = qtrue;
}
if (token.type != TT_NUMBER) {
PC_SourceError(handle, "expected float but found %s\n", token.string);
return qfalse;
}
if (negative)
*f = -token.floatvalue;
else
*f = token.floatvalue;
return qtrue;
}
/*
=================
Color_Parse
=================
*/
qboolean Color_Parse(char **p, vec4_t *c) {
int i;
float f;
for (i = 0; i < 4; i++) {
if (!Float_Parse(p, &f)) {
return qfalse;
}
(*c)[i] = f;
}
return qtrue;
}
/*
=================
PC_Color_Parse
=================
*/
qboolean PC_Color_Parse(int handle, vec4_t *c) {
int i;
float f;
for (i = 0; i < 4; i++) {
if (!PC_Float_Parse(handle, &f)) {
return qfalse;
}
(*c)[i] = f;
}
return qtrue;
}
/*
=================
Int_Parse
=================
*/
qboolean Int_Parse(char **p, int *i) {
char *token;
token = COM_ParseExt((const char **)p, qfalse);
if (token && token[0] != 0) {
*i = atoi(token);
return qtrue;
} else {
return qfalse;
}
}
/*
=================
PC_Int_Parse
=================
*/
qboolean PC_Int_Parse(int handle, int *i) {
pc_token_t token;
int negative = qfalse;
if (!trap_PC_ReadToken(handle, &token))
return qfalse;
if (token.string[0] == '-') {
if (!trap_PC_ReadToken(handle, &token))
return qfalse;
negative = qtrue;
}
if (token.type != TT_NUMBER) {
PC_SourceError(handle, "expected integer but found %s\n", token.string);
return qfalse;
}
*i = token.intvalue;
if (negative)
*i = - *i;
return qtrue;
}
/*
=================
Rect_Parse
=================
*/
qboolean Rect_Parse(char **p, rectDef_t *r) {
if (Float_Parse(p, &r->x)) {
if (Float_Parse(p, &r->y)) {
if (Float_Parse(p, &r->w)) {
if (Float_Parse(p, &r->h)) {
return qtrue;
}
}
}
}
return qfalse;
}
/*
=================
PC_Rect_Parse
=================
*/
qboolean PC_Rect_Parse(int handle, rectDef_t *r) {
if (PC_Float_Parse(handle, &r->x)) {
if (PC_Float_Parse(handle, &r->y)) {
if (PC_Float_Parse(handle, &r->w)) {
if (PC_Float_Parse(handle, &r->h)) {
return qtrue;
}
}
}
}
return qfalse;
}
/*
=================
String_Parse
=================
*/
qboolean String_Parse(char **p, const char **out) {
char *token;
token = COM_ParseExt((const char **)p, qfalse);
if (token && token[0] != 0) {
*(out) = String_Alloc(token);
return *(out)!=NULL;
}
return qfalse;
}
/*
=================
PC_String_Parse
=================
*/
qboolean PC_String_Parse(int handle, const char **out)
{
static char* squiggy = "}";
pc_token_t token;
if (!trap_PC_ReadToken(handle, &token))
{
return qfalse;
}
// Save some memory by not return the end squiggy as an allocated string
if ( !Q_stricmp ( token.string, "}" ) )
{
*(out) = squiggy;
}
else
{
*(out) = String_Alloc(token.string);
}
return qtrue;
}
/*
=================
PC_Script_Parse
=================
*/
qboolean PC_Script_Parse(int handle, const char **out) {
char script[2048];
pc_token_t token;
script[0] = 0;
// scripts start with { and have ; separated command lists.. commands are command, arg..
// basically we want everything between the { } as it will be interpreted at run time
if (!trap_PC_ReadToken(handle, &token))
return qfalse;
if (Q_stricmp(token.string, "{") != 0) {
return qfalse;
}
while ( 1 ) {
if (!trap_PC_ReadToken(handle, &token))
return qfalse;
if (Q_stricmp(token.string, "}") == 0) {
*out = String_Alloc(script);
return qtrue;
}
if (token.string[1] != '\0') {
Q_strcat(script, 2048, va("\"%s\"", token.string));
} else {
Q_strcat(script, 2048, token.string);
}
Q_strcat(script, 2048, " ");
}
return qfalse; // bk001105 - LCC missing return value
}
// display, window, menu, item code
//
/*
==================
Init_Display
Initializes the display with a structure to all the drawing routines
==================
*/
void Init_Display(displayContextDef_t *dc) {
DC = dc;
}
// type and style painting
void GradientBar_Paint(rectDef_t *rect, vec4_t color) {
// gradient bar takes two paints
DC->setColor( color );
DC->drawHandlePic(rect->x, rect->y, rect->w, rect->h, DC->Assets.gradientBar);
DC->setColor( NULL );
}
/*
==================
Window_Init
Initializes a window structure ( windowDef_t ) with defaults
==================
*/
void Window_Init(Window *w) {
memset(w, 0, sizeof(windowDef_t));
w->borderSize = 1;
w->foreColor[0] = w->foreColor[1] = w->foreColor[2] = w->foreColor[3] = 1.0;
w->cinematic = -1;
}
void Fade(int *flags, float *f, float clamp, int *nextTime, int offsetTime, qboolean bFlags, float fadeAmount) {
if (*flags & (WINDOW_FADINGOUT | WINDOW_FADINGIN)) {
if (DC->realTime > *nextTime) {
*nextTime = DC->realTime + offsetTime;
if (*flags & WINDOW_FADINGOUT) {
*f -= fadeAmount;
if (bFlags && *f <= 0.0) {
*flags &= ~(WINDOW_FADINGOUT | WINDOW_VISIBLE);
}
} else {
*f += fadeAmount;
if (*f >= clamp) {
*f = clamp;
if (bFlags) {
*flags &= ~WINDOW_FADINGIN;
}
}
}
}
}
}
void Window_Paint(Window *w, float fadeAmount, float fadeClamp, float fadeCycle)
{
//float bordersize = 0;
vec4_t color;
rectDef_t fillRect = w->rect;
if (debugMode)
{
color[0] = color[1] = color[2] = color[3] = 1;
DC->drawRect(w->rect.x, w->rect.y, w->rect.w, w->rect.h, 1, color);
}
if (w == NULL || (w->style == 0 && w->border == 0))
{
return;
}
if (w->border != 0)
{
fillRect.x += w->borderSize;
fillRect.y += w->borderSize;
fillRect.w -= w->borderSize + 1;
fillRect.h -= w->borderSize + 1;
}
if (w->style == WINDOW_STYLE_FILLED)
{
// box, but possible a shader that needs filled
if (w->background)
{
Fade(&w->flags, &w->backColor[3], fadeClamp, &w->nextTime, fadeCycle, qtrue, fadeAmount);
DC->setColor(w->backColor);
DC->drawHandlePic(fillRect.x, fillRect.y, fillRect.w, fillRect.h, w->background);
DC->setColor(NULL);
}
else
{
DC->fillRect(fillRect.x, fillRect.y, fillRect.w, fillRect.h, w->backColor);
}
}
else if (w->style == WINDOW_STYLE_GRADIENT)
{
GradientBar_Paint(&fillRect, w->backColor);
// gradient bar
}
else if (w->style == WINDOW_STYLE_SHADER)
{
#ifndef CGAME
if (w->flags & WINDOW_PLAYERCOLOR)
{
vec4_t color;
color[0] = ui_char_color_red.integer/255.0f;
color[1] = ui_char_color_green.integer/255.0f;
color[2] = ui_char_color_blue.integer/255.0f;
color[3] = 1;
DC->setColor(color);
}
#endif //
if (w->flags & WINDOW_FORECOLORSET)
{
DC->setColor(w->foreColor);
}
DC->drawHandlePic(fillRect.x, fillRect.y, fillRect.w, fillRect.h, w->background);
DC->setColor(NULL);
}
else if (w->style == WINDOW_STYLE_TEAMCOLOR)
{
if (DC->getTeamColor)
{
DC->getTeamColor(&color);
DC->fillRect(fillRect.x, fillRect.y, fillRect.w, fillRect.h, color);
}
}
else if (w->style == WINDOW_STYLE_CINEMATIC)
{
if (w->cinematic == -1)
{
w->cinematic = DC->playCinematic(w->cinematicName, fillRect.x, fillRect.y, fillRect.w, fillRect.h);
if (w->cinematic == -1)
{
w->cinematic = -2;
}
}
if (w->cinematic >= 0)
{
DC->runCinematicFrame(w->cinematic);
DC->drawCinematic(w->cinematic, fillRect.x, fillRect.y, fillRect.w, fillRect.h);
}
}
if (w->border == WINDOW_BORDER_FULL)
{
// full
// HACK HACK HACK
if (w->style == WINDOW_STYLE_TEAMCOLOR)
{
if (color[0] > 0)
{
// red
color[0] = 1;
color[1] = color[2] = .5;
}
else
{
color[2] = 1;
color[0] = color[1] = .5;
}
color[3] = 1;
DC->drawRect(w->rect.x, w->rect.y, w->rect.w, w->rect.h, w->borderSize, color);
}
else
{
DC->drawRect(w->rect.x, w->rect.y, w->rect.w, w->rect.h, w->borderSize, w->borderColor);
}
}
else if (w->border == WINDOW_BORDER_HORZ)
{
// top/bottom
DC->setColor(w->borderColor);
DC->drawTopBottom(w->rect.x, w->rect.y, w->rect.w, w->rect.h, w->borderSize);
DC->setColor( NULL );
}
else if (w->border == WINDOW_BORDER_VERT)
{
// left right
DC->setColor(w->borderColor);
DC->drawSides(w->rect.x, w->rect.y, w->rect.w, w->rect.h, w->borderSize);
DC->setColor( NULL );
}
else if (w->border == WINDOW_BORDER_KCGRADIENT)
{
// this is just two gradient bars along each horz edge
rectDef_t r = w->rect;
r.h = w->borderSize;
GradientBar_Paint(&r, w->borderColor);
r.y = w->rect.y + w->rect.h - 1;
GradientBar_Paint(&r, w->borderColor);
}
}
void Item_SetScreenCoords(itemDef_t *item, float x, float y)
{
if (item == NULL)
{
return;
}
if (item->window.border != 0)
{
x += item->window.borderSize;
y += item->window.borderSize;
}
item->window.rect.x = x + item->window.rectClient.x;
item->window.rect.y = y + item->window.rectClient.y;
item->window.rect.w = item->window.rectClient.w;
item->window.rect.h = item->window.rectClient.h;
// force the text rects to recompute
item->textRect.w = 0;
item->textRect.h = 0;
switch ( item->type)
{
case ITEM_TYPE_TEXTSCROLL:
{
textScrollDef_t *scrollPtr = (textScrollDef_t*)item->typeData;
if ( scrollPtr )
{
scrollPtr->startPos = 0;
scrollPtr->endPos = 0;
}
Item_TextScroll_BuildLines ( item );
break;
}
}
}
// FIXME: consolidate this with nearby stuff
void Item_UpdatePosition(itemDef_t *item)
{
float x, y;
menuDef_t *menu;
if (item == NULL || item->parent == NULL)
{
return;
}
menu = (menuDef_t *) item->parent;
x = menu->window.rect.x;
y = menu->window.rect.y;
if (menu->window.border != 0)
{
x += menu->window.borderSize;
y += menu->window.borderSize;
}
Item_SetScreenCoords(item, x, y);
}
// menus
void Menu_UpdatePosition(menuDef_t *menu) {
int i;
float x, y;
if (menu == NULL) {
return;
}
x = menu->window.rect.x;
y = menu->window.rect.y;
if (menu->window.border != 0) {
x += menu->window.borderSize;
y += menu->window.borderSize;
}
for (i = 0; i < menu->itemCount; i++) {
Item_SetScreenCoords(menu->items[i], x, y);
}
}
void Menu_PostParse(menuDef_t *menu) {
if (menu == NULL) {
return;
}
if (menu->fullScreen) {
menu->window.rect.x = 0;
menu->window.rect.y = 0;
menu->window.rect.w = 640;
menu->window.rect.h = 480;
}
Menu_UpdatePosition(menu);
}
itemDef_t *Menu_ClearFocus(menuDef_t *menu) {
int i;
itemDef_t *ret = NULL;
if (menu == NULL) {
return NULL;
}
for (i = 0; i < menu->itemCount; i++) {
if (menu->items[i]->window.flags & WINDOW_HASFOCUS) {
ret = menu->items[i];
}
menu->items[i]->window.flags &= ~WINDOW_HASFOCUS;
if (menu->items[i]->leaveFocus) {
Item_RunScript(menu->items[i], menu->items[i]->leaveFocus);
}
}
return ret;
}
qboolean IsVisible(int flags) {
return (flags & WINDOW_VISIBLE && !(flags & WINDOW_FADINGOUT));
}
qboolean Rect_ContainsPoint(rectDef_t *rect, float x, float y) {
if (rect) {
if (x > rect->x && x < rect->x + rect->w && y > rect->y && y < rect->y + rect->h) {
return qtrue;
}
}
return qfalse;
}
int Menu_ItemsMatchingGroup(menuDef_t *menu, const char *name)
{
int i;
int count = 0;
for (i = 0; i < menu->itemCount; i++)
{
if ((!menu->items[i]->window.name) && (!menu->items[i]->window.group))
{
Com_Printf(S_COLOR_YELLOW"WARNING: item has neither name or group\n");
continue;
}
if (Q_stricmp(menu->items[i]->window.name, name) == 0 ||
(menu->items[i]->window.group && Q_stricmp(menu->items[i]->window.group, name) == 0))
{
count++;
}
}
return count;
}
itemDef_t *Menu_GetMatchingItemByNumber(menuDef_t *menu, int index, const char *name) {
int i;
int count = 0;
for (i = 0; i < menu->itemCount; i++) {
if (Q_stricmp(menu->items[i]->window.name, name) == 0 || (menu->items[i]->window.group && Q_stricmp(menu->items[i]->window.group, name) == 0)) {
if (count == index) {
return menu->items[i];
}
count++;
}
}
return NULL;
}
qboolean Script_SetColor ( itemDef_t *item, char **args )
{
const char *name;
int i;
float f;
vec4_t *out;
// expecting type of color to set and 4 args for the color
if (String_Parse(args, &name))
{
out = NULL;
if (Q_stricmp(name, "backcolor") == 0)
{
out = &item->window.backColor;
item->window.flags |= WINDOW_BACKCOLORSET;
}
else if (Q_stricmp(name, "forecolor") == 0)
{
out = &item->window.foreColor;
item->window.flags |= WINDOW_FORECOLORSET;
}
else if (Q_stricmp(name, "bordercolor") == 0)
{
out = &item->window.borderColor;
}
if (out)
{
for (i = 0; i < 4; i++)
{
if (!Float_Parse(args, &f))
{
return qtrue;
}
(*out)[i] = f;
}
}
}
return qtrue;
}
qboolean Script_SetAsset(itemDef_t *item, char **args)
{
const char *name;
// expecting name to set asset to
if (String_Parse(args, &name))
{
// check for a model
if (item->type == ITEM_TYPE_MODEL)
{
}
}
return qtrue;
}
qboolean Script_SetBackground(itemDef_t *item, char **args)
{
const char *name;
// expecting name to set asset to
if (String_Parse(args, &name))
{
item->window.background = DC->registerShaderNoMip(name);
}
return qtrue;
}
qboolean Script_SetItemRectCvar(itemDef_t *item, char **args)
{
const char *itemName;
const char *cvarName;
char cvarBuf[1024];
const char *holdVal;
char *holdBuf;
itemDef_t *item2=0;
menuDef_t *menu;
// expecting item group and cvar to get value from
if (String_Parse(args, &itemName) && String_Parse(args, &cvarName))
{
item2 = Menu_FindItemByName((menuDef_t *) item->parent, itemName);
if (item2)
{
// get cvar data
DC->getCVarString(cvarName, cvarBuf, sizeof(cvarBuf));
holdBuf = cvarBuf;
if (String_Parse(&holdBuf,&holdVal))
{
menu = (menuDef_t *) item->parent;
item2->window.rectClient.x = atof(holdVal) + menu->window.rect.x;
if (String_Parse(&holdBuf,&holdVal))
{
item2->window.rectClient.y = atof(holdVal) + menu->window.rect.y;
if (String_Parse(&holdBuf,&holdVal))
{
item2->window.rectClient.w = atof(holdVal);
if (String_Parse(&holdBuf,&holdVal))
{
item2->window.rectClient.h = atof(holdVal);
item2->window.rect.x = item2->window.rectClient.x;
item2->window.rect.y = item2->window.rectClient.y;
item2->window.rect.w = item2->window.rectClient.w;
item2->window.rect.h = item2->window.rectClient.h;
return qtrue;
}
}
}
}
}
}
// Default values in case things screw up
if (item2)
{
item2->window.rectClient.x = 0;
item2->window.rectClient.y = 0;
item2->window.rectClient.w = 0;
item2->window.rectClient.h = 0;
}
// Com_Printf(S_COLOR_YELLOW"WARNING: SetItemRectCvar: problems. Set cvar to 0's\n" );
return qtrue;
}
qboolean Script_SetItemBackground(itemDef_t *item, char **args)
{
const char *itemName;
const char *name;
// expecting name of shader
if (String_Parse(args, &itemName) && String_Parse(args, &name))
{
Menu_SetItemBackground((menuDef_t *) item->parent, itemName, name);
}
return qtrue;
}
qboolean Script_SetItemText(itemDef_t *item, char **args)
{
const char *itemName;
const char *text;
// expecting text
if (String_Parse(args, &itemName) && String_Parse(args, &text))
{
Menu_SetItemText((menuDef_t *) item->parent, itemName, text);
}
return qtrue;
}
itemDef_t *Menu_FindItemByName(menuDef_t *menu, const char *p) {
int i;
if (menu == NULL || p == NULL) {
return NULL;
}
for (i = 0; i < menu->itemCount; i++) {
if (Q_stricmp(p, menu->items[i]->window.name) == 0) {
return menu->items[i];
}
}
return NULL;
}
qboolean Script_SetTeamColor(itemDef_t *item, char **args)
{
if (DC->getTeamColor)
{
int i;
vec4_t color;
DC->getTeamColor(&color);
for (i = 0; i < 4; i++)
{
item->window.backColor[i] = color[i];
}
}
return qtrue;
}
qboolean Script_SetItemColor(itemDef_t *item, char **args)
{
const char *itemname;
const char *name;
vec4_t color;
int i;
vec4_t *out;
// expecting type of color to set and 4 args for the color
if (String_Parse(args, &itemname) && String_Parse(args, &name))
{
itemDef_t *item2;
int j,count;
char buff[1024];
// Is is specifying a cvar to get the item name from?
if (itemname[0] == '*')
{
itemname += 1;
DC->getCVarString(itemname, buff, sizeof(buff));
itemname = buff;
}
count = Menu_ItemsMatchingGroup((menuDef_t *) item->parent, itemname);
if (!Color_Parse(args, &color))
{
return qtrue;
}
for (j = 0; j < count; j++)
{
item2 = Menu_GetMatchingItemByNumber((menuDef_t *) item->parent, j, itemname);
if (item2 != NULL)
{
out = NULL;
if (Q_stricmp(name, "backcolor") == 0)
{
out = &item2->window.backColor;
}
else if (Q_stricmp(name, "forecolor") == 0)
{
out = &item2->window.foreColor;
item2->window.flags |= WINDOW_FORECOLORSET;
}
else if (Q_stricmp(name, "bordercolor") == 0)
{
out = &item2->window.borderColor;
}
if (out)
{
for (i = 0; i < 4; i++)
{
(*out)[i] = color[i];
}
}
}
}
}
return qtrue;
}
qboolean Script_SetItemColorCvar(itemDef_t *item, char **args)
{
const char *itemname;
char *colorCvarName,*holdBuf,*holdVal;
char cvarBuf[1024];
const char *name;
vec4_t color;
int i;
vec4_t *out;
// expecting type of color to set and 4 args for the color
if (String_Parse(args, &itemname) && String_Parse(args, &name))
{
itemDef_t *item2;
int j,count;
char buff[1024];
// Is is specifying a cvar to get the item name from?
if (itemname[0] == '*')
{
itemname += 1;
DC->getCVarString(itemname, buff, sizeof(buff));
itemname = buff;
}
count = Menu_ItemsMatchingGroup((menuDef_t *) item->parent, itemname);
// Get the cvar with the color
if (!String_Parse(args,(const char **) &colorCvarName))
{
return qtrue;
}
else
{
DC->getCVarString(colorCvarName, cvarBuf, sizeof(cvarBuf));
holdBuf = cvarBuf;
if (String_Parse(&holdBuf,(const char **) &holdVal))
{
color[0] = atof(holdVal);
if (String_Parse(&holdBuf,(const char **) &holdVal))
{
color[1] = atof(holdVal);
if (String_Parse(&holdBuf,(const char **) &holdVal))
{
color[2] = atof(holdVal);
if (String_Parse(&holdBuf,(const char **) &holdVal))
{
color[3] = atof(holdVal);
}
}
}
}
}
for (j = 0; j < count; j++)
{
item2 = Menu_GetMatchingItemByNumber((menuDef_t *) item->parent, j, itemname);
if (item2 != NULL)
{
out = NULL;
if (Q_stricmp(name, "backcolor") == 0)
{
out = &item2->window.backColor;
}
else if (Q_stricmp(name, "forecolor") == 0)
{
out = &item2->window.foreColor;
item2->window.flags |= WINDOW_FORECOLORSET;
}
else if (Q_stricmp(name, "bordercolor") == 0)
{
out = &item2->window.borderColor;
}
if (out)
{
for (i = 0; i < 4; i++)
{
(*out)[i] = color[i];
}
}
}
}
}
return qtrue;
}
qboolean Script_SetItemRect(itemDef_t *item, char **args)
{
const char *itemname;
rectDef_t *out;
rectDef_t rect;
menuDef_t *menu;
// expecting type of color to set and 4 args for the color
if (String_Parse(args, &itemname))
{
itemDef_t *item2;
int j;
int count = Menu_ItemsMatchingGroup((menuDef_t *) item->parent, itemname);
if (!Rect_Parse(args, &rect))
{
return qtrue;
}
menu = (menuDef_t *) item->parent;
for (j = 0; j < count; j++)
{
item2 = Menu_GetMatchingItemByNumber(menu, j, itemname);
if (item2 != NULL)
{
out = &item2->window.rect;
if (out)
{
item2->window.rect.x = rect.x + menu->window.rect.x;
item2->window.rect.y = rect.y + menu->window.rect.y;
item2->window.rect.w = rect.w;
item2->window.rect.h = rect.h;
}
}
}
}
return qtrue;
}
void Menu_ShowGroup (menuDef_t *menu, char *groupName, qboolean showFlag)
{
itemDef_t *item;
int count,j;
count = Menu_ItemsMatchingGroup( menu, groupName);
for (j = 0; j < count; j++)
{
item = Menu_GetMatchingItemByNumber( menu, j, groupName);
if (item != NULL)
{
if (showFlag)
{
item->window.flags |= WINDOW_VISIBLE;
}
else
{
item->window.flags &= ~(WINDOW_VISIBLE | WINDOW_HASFOCUS);
}
}
}
}
void Menu_ShowItemByName(menuDef_t *menu, const char *p, qboolean bShow) {
itemDef_t *item;
int i;
int count = Menu_ItemsMatchingGroup(menu, p);
for (i = 0; i < count; i++) {
item = Menu_GetMatchingItemByNumber(menu, i, p);
if (item != NULL) {
if (bShow) {
item->window.flags |= WINDOW_VISIBLE;
} else {
item->window.flags &= ~WINDOW_VISIBLE;
// stop cinematics playing in the window
if (item->window.cinematic >= 0) {
DC->stopCinematic(item->window.cinematic);
item->window.cinematic = -1;
}
}
}
}
}
void Menu_FadeItemByName(menuDef_t *menu, const char *p, qboolean fadeOut) {
itemDef_t *item;
int i;
int count = Menu_ItemsMatchingGroup(menu, p);
for (i = 0; i < count; i++) {
item = Menu_GetMatchingItemByNumber(menu, i, p);
if (item != NULL) {
if (fadeOut) {
item->window.flags |= (WINDOW_FADINGOUT | WINDOW_VISIBLE);
item->window.flags &= ~WINDOW_FADINGIN;
} else {
item->window.flags |= (WINDOW_VISIBLE | WINDOW_FADINGIN);
item->window.flags &= ~WINDOW_FADINGOUT;
}
}
}
}
menuDef_t *Menus_FindByName(const char *p) {
int i;
for (i = 0; i < menuCount; i++) {
if (Q_stricmp(Menus[i].window.name, p) == 0) {
return &Menus[i];
}
}
return NULL;
}
void Menus_ShowByName(const char *p) {
menuDef_t *menu = Menus_FindByName(p);
if (menu) {
Menus_Activate(menu);
}
}
void Menus_OpenByName(const char *p) {
Menus_ActivateByName(p);
}
static void Menu_RunCloseScript(menuDef_t *menu) {
if (menu && menu->window.flags & WINDOW_VISIBLE && menu->onClose) {
itemDef_t item;
item.parent = menu;
Item_RunScript(&item, menu->onClose);
}
}
void Menus_CloseByName ( const char *p )
{
menuDef_t *menu = Menus_FindByName(p);
// If the menu wasnt found just exit
if (menu == NULL)
{
return;
}
// Run the close script for the menu
Menu_RunCloseScript(menu);
// If this window had the focus then take it away
if ( menu->window.flags & WINDOW_HASFOCUS )
{
// If there is something still in the open menu list then
// set it to have focus now
if ( openMenuCount )
{
// Subtract one from the open menu count to prepare to
// remove the top menu from the list
openMenuCount -= 1;
// Set the top menu to have focus now
menuStack[openMenuCount]->window.flags |= WINDOW_HASFOCUS;
// Remove the top menu from the list
menuStack[openMenuCount] = NULL;
}
}
// Window is now invisible and doenst have focus
menu->window.flags &= ~(WINDOW_VISIBLE | WINDOW_HASFOCUS);
}
int FPMessageTime = 0;
void Menus_CloseAll()
{
int i;
g_waitingForKey = qfalse;
for (i = 0; i < menuCount; i++)
{
Menu_RunCloseScript ( &Menus[i] );
Menus[i].window.flags &= ~(WINDOW_HASFOCUS | WINDOW_VISIBLE);
}
// Clear the menu stack
openMenuCount = 0;
FPMessageTime = 0;
}
qboolean Script_Show(itemDef_t *item, char **args)
{
const char *name;
if (String_Parse(args, &name))
{
Menu_ShowItemByName((menuDef_t *) item->parent, name, qtrue);
}
return qtrue;
}
qboolean Script_Hide(itemDef_t *item, char **args)
{
const char *name;
if (String_Parse(args, &name))
{
Menu_ShowItemByName((menuDef_t *) item->parent, name, qfalse);
}
return qtrue;
}
qboolean Script_FadeIn(itemDef_t *item, char **args)
{
const char *name;
if (String_Parse(args, &name))
{
Menu_FadeItemByName((menuDef_t *) item->parent, name, qfalse);
}
return qtrue;
}
qboolean Script_FadeOut(itemDef_t *item, char **args)
{
const char *name;
if (String_Parse(args, &name))
{
Menu_FadeItemByName((menuDef_t *) item->parent, name, qtrue);
}
return qtrue;
}
qboolean Script_Open(itemDef_t *item, char **args)
{
const char *name;
if (String_Parse(args, &name))
{
Menus_OpenByName(name);
}
return qtrue;
}
qboolean Script_Close(itemDef_t *item, char **args)
{
const char *name;
if (String_Parse(args, &name))
{
if (Q_stricmp(name, "all") == 0)
{
Menus_CloseAll();
}
else
{
Menus_CloseByName(name);
}
}
return qtrue;
}
//void Menu_TransitionItemByName(menuDef_t *menu, const char *p, rectDef_t rectFrom, rectDef_t rectTo, int time, float amt)
void Menu_TransitionItemByName(menuDef_t *menu, const char *p, const rectDef_t *rectFrom, const rectDef_t *rectTo, int time, float amt)
{
itemDef_t *item;
int i;
int count = Menu_ItemsMatchingGroup(menu, p);
for (i = 0; i < count; i++)
{
item = Menu_GetMatchingItemByNumber(menu, i, p);
if (item != NULL)
{
if (!rectFrom)
{
rectFrom = &item->window.rect; //if there are more than one of these with the same name, they'll all use the FIRST one's FROM.
}
item->window.flags |= (WINDOW_INTRANSITION | WINDOW_VISIBLE);
item->window.offsetTime = time;
memcpy(&item->window.rectClient, rectFrom, sizeof(rectDef_t));
memcpy(&item->window.rectEffects, rectTo, sizeof(rectDef_t));
item->window.rectEffects2.x = abs(rectTo->x - rectFrom->x) / amt;
item->window.rectEffects2.y = abs(rectTo->y - rectFrom->y) / amt;
item->window.rectEffects2.w = abs(rectTo->w - rectFrom->w) / amt;
item->window.rectEffects2.h = abs(rectTo->h - rectFrom->h) / amt;
Item_UpdatePosition(item);
}
}
}
/*
=================
Menu_Transition3ItemByName
=================
*/
//JLF
#define _TRANS3
#ifdef _TRANS3
void Menu_Transition3ItemByName(menuDef_t *menu, const char *p, const float minx, const float miny, const float minz,
const float maxx, const float maxy, const float maxz, const float fovtx, const float fovty,
const int time, const float amt)
{
itemDef_t *item;
int i;
int count = Menu_ItemsMatchingGroup(menu, p);
modelDef_t * modelptr;
for (i = 0; i < count; i++)
{
item = Menu_GetMatchingItemByNumber(menu, i, p);
if (item != NULL)
{
if ( item->type == ITEM_TYPE_MODEL)
{
modelptr = (modelDef_t*)item->typeData;
item->window.flags |= (WINDOW_INTRANSITIONMODEL | WINDOW_VISIBLE);
item->window.offsetTime = time;
modelptr->fov_x2 = fovtx;
modelptr->fov_y2 = fovty;
VectorSet(modelptr->g2maxs2, maxx, maxy, maxz);
VectorSet(modelptr->g2mins2, minx, miny, minz);
// //modelptr->g2maxs2.x= maxx;
// modelptr->g2maxs2.y= maxy;
// modelptr->g2maxs2.z= maxz;
// modelptr->g2mins2.x= minx;
// modelptr->g2mins2.y= miny;
// modelptr->g2mins2.z= minz;
// VectorSet(modelptr->g2maxs2, maxx, maxy, maxz);
modelptr->g2maxsEffect[0] = abs(modelptr->g2maxs2[0] - modelptr->g2maxs[0]) / amt;
modelptr->g2maxsEffect[1] = abs(modelptr->g2maxs2[1] - modelptr->g2maxs[1]) / amt;
modelptr->g2maxsEffect[2] = abs(modelptr->g2maxs2[2] - modelptr->g2maxs[2]) / amt;
modelptr->g2minsEffect[0] = abs(modelptr->g2mins2[0] - modelptr->g2mins[0]) / amt;
modelptr->g2minsEffect[1] = abs(modelptr->g2mins2[1] - modelptr->g2mins[1]) / amt;
modelptr->g2minsEffect[2] = abs(modelptr->g2mins2[2] - modelptr->g2mins[2]) / amt;
modelptr->fov_Effectx = abs(modelptr->fov_x2 - modelptr->fov_x) / amt;
modelptr->fov_Effecty = abs(modelptr->fov_y2 - modelptr->fov_y) / amt;
}
}
}
}
#endif
#define MAX_DEFERRED_SCRIPT 2048
char ui_deferredScript [ MAX_DEFERRED_SCRIPT ];
itemDef_t* ui_deferredScriptItem = NULL;
/*
=================
Script_Defer
Defers the rest of the script based on the defer condition. The deferred
portion of the script can later be run with the "rundeferred"
=================
*/
qboolean Script_Defer ( itemDef_t* item, char **args )
{
// Should the script be deferred?
if ( DC->deferScript ( (char**)args ) )
{
// Need the item the script was being run on
ui_deferredScriptItem = item;
// Save the rest of the script
Q_strncpyz ( ui_deferredScript, *args, MAX_DEFERRED_SCRIPT );
// No more running
return qfalse;
}
// Keep running the script, its ok
return qtrue;
}
/*
=================
Script_RunDeferred
Runs the last deferred script, there can only be one script deferred at a
time so be careful of recursion
=================
*/
qboolean Script_RunDeferred ( itemDef_t* item, char **args )
{
// Make sure there is something to run.
if ( !ui_deferredScript[0] || !ui_deferredScriptItem )
{
return qtrue;
}
// Run the deferred script now
Item_RunScript ( ui_deferredScriptItem, ui_deferredScript );
return qtrue;
}
qboolean Script_Transition(itemDef_t *item, char **args)
{
const char *name;
rectDef_t rectFrom, rectTo;
int time;
float amt;
if (String_Parse(args, &name))
{
if ( Rect_Parse(args, &rectFrom) && Rect_Parse(args, &rectTo) && Int_Parse(args, &time) && Float_Parse(args, &amt))
{
Menu_TransitionItemByName((menuDef_t *) item->parent, name, &rectFrom, &rectTo, time, amt);
}
}
return qtrue;
}
void Menu_OrbitItemByName(menuDef_t *menu, const char *p, float x, float y, float cx, float cy, int time)
{
itemDef_t *item;
int i;
int count = Menu_ItemsMatchingGroup(menu, p);
for (i = 0; i < count; i++) {
item = Menu_GetMatchingItemByNumber(menu, i, p);
if (item != NULL) {
item->window.flags |= (WINDOW_ORBITING | WINDOW_VISIBLE);
item->window.offsetTime = time;
item->window.rectEffects.x = cx;
item->window.rectEffects.y = cy;
item->window.rectClient.x = x;
item->window.rectClient.y = y;
Item_UpdatePosition(item);
}
}
}
void Menu_ItemDisable(menuDef_t *menu, char *name,int disableFlag)
{
int j,count;
itemDef_t *itemFound;
count = Menu_ItemsMatchingGroup(menu, name);
// Loop through all items that have this name
for (j = 0; j < count; j++)
{
itemFound = Menu_GetMatchingItemByNumber( menu, j, name);
if (itemFound != NULL)
{
itemFound->disabled = disableFlag;
// Just in case it had focus
itemFound->window.flags &= ~WINDOW_MOUSEOVER;
}
}
}
// Set item disable flags
qboolean Script_Disable(itemDef_t *item, char **args)
{
char *name;
int value;
menuDef_t *menu;
if (String_Parse(args, (const char **)&name))
{
char buff[1024];
// Is is specifying a cvar to get the item name from?
if (name[0] == '*')
{
name += 1;
DC->getCVarString(name, buff, sizeof(buff));
name = buff;
}
if ( Int_Parse(args, &value))
{
menu = Menu_GetFocused();
Menu_ItemDisable(menu, name,value);
}
}
return qtrue;
}
// Scale the given item instantly.
qboolean Script_Scale(itemDef_t *item, char **args)
{
const char *name;
float scale;
int j,count;
itemDef_t *itemFound;
rectDef_t rectTo;
if (String_Parse(args, &name))
{
char buff[1024];
// Is is specifying a cvar to get the item name from?
if (name[0] == '*')
{
name += 1;
DC->getCVarString(name, buff, sizeof(buff));
name = buff;
}
count = Menu_ItemsMatchingGroup((menuDef_t *) item->parent, name);
if ( Float_Parse(args, &scale))
{
for (j = 0; j < count; j++)
{
itemFound = Menu_GetMatchingItemByNumber( (menuDef_t *) item->parent, j, name);
if (itemFound != NULL)
{
rectTo.h = itemFound->window.rect.h * scale;
rectTo.w = itemFound->window.rect.w * scale;
rectTo.x = itemFound->window.rect.x + ((itemFound->window.rect.h - rectTo.h)/2);
rectTo.y = itemFound->window.rect.y + ((itemFound->window.rect.w - rectTo.w)/2);
Menu_TransitionItemByName((menuDef_t *) item->parent, name, 0, &rectTo, 1, 1);
}
}
}
}
return qtrue;
}
qboolean Script_Orbit(itemDef_t *item, char **args)
{
const char *name;
float cx, cy, x, y;
int time;
if (String_Parse(args, &name))
{
if ( Float_Parse(args, &x) && Float_Parse(args, &y) && Float_Parse(args, &cx) && Float_Parse(args, &cy) && Int_Parse(args, &time) )
{
Menu_OrbitItemByName((menuDef_t *) item->parent, name, x, y, cx, cy, time);
}
}
return qtrue;
}
qboolean Script_SetFocus(itemDef_t *item, char **args)
{
const char *name;
itemDef_t *focusItem;
if (String_Parse(args, &name)) {
focusItem = Menu_FindItemByName((menuDef_t *) item->parent, name);
if (focusItem && !(focusItem->window.flags & WINDOW_DECORATION) && !(focusItem->window.flags & WINDOW_HASFOCUS)) {
Menu_ClearFocus((menuDef_t *) item->parent);
//JLF
#ifdef _XBOX
Item_SetFocus(focusItem, 0,0);
#else
focusItem->window.flags |= WINDOW_HASFOCUS;
#endif
//END JLF
if (focusItem->onFocus) {
Item_RunScript(focusItem, focusItem->onFocus);
}
if (DC->Assets.itemFocusSound) {
DC->startLocalSound( DC->Assets.itemFocusSound, CHAN_LOCAL_SOUND );
}
}
}
return qtrue;
}
qboolean Script_SetPlayerModel(itemDef_t *item, char **args)
{
const char *name;
if (String_Parse(args, &name))
{
DC->setCVar("model", name);
}
return qtrue;
}
/*
=================
ParseRect
=================
*/
qboolean ParseRect(const char **p, rectDef_t *r)
{
if (!COM_ParseFloat(p, &r->x))
{
if (!COM_ParseFloat(p, &r->y))
{
if (!COM_ParseFloat(p, &r->w))
{
if (!COM_ParseFloat(p, &r->h))
{
return qtrue;
}
}
}
}
return qfalse;
}
/*
=================
Script_Transition2
uses current origin instead of specifing a starting origin
transition2 lfvscr 25 0 202 264 20 25
=================
*/
qboolean Script_Transition2(itemDef_t *item, char **args)
{
const char *name;
rectDef_t rectTo;
int time;
float amt;
if (String_Parse(args, &name))
{
if ( ParseRect((const char **) args, &rectTo) && Int_Parse(args, &time) && !COM_ParseFloat((const char **) args, &amt))
{
Menu_TransitionItemByName((menuDef_t *) item->parent, name, 0, &rectTo, time, amt);
}
else
{
Com_Printf(S_COLOR_YELLOW"WARNING: Script_Transition2: error parsing '%s'\n", name );
}
}
return qtrue;
}
#ifdef _TRANS3
/*
JLF
=================
Script_Transition3
used exclusively with model views
uses current origin instead of specifing a starting origin
transition3 lfvscr (min extent) (max extent) (fovx,y) 20 25
=================
*/
qboolean Script_Transition3(itemDef_t *item, char **args)
{
const char *name;
const char *value;
float minx, miny, minz, maxx, maxy, maxz, fovtx, fovty;
int time;
float amt;
if (String_Parse(args, &name))
{
if (String_Parse( args, &value))
{
minx = atof(value);
if (String_Parse( args, &value))
{
miny = atof(value);
if (String_Parse( args, &value))
{
minz = atof(value);
if (String_Parse( args, &value))
{
maxx = atof(value);
if (String_Parse( args, &value))
{
maxy = atof(value);
if (String_Parse( args, &value))
{
maxz = atof(value);
if (String_Parse( args, &value))
{
fovtx = atof(value);
if (String_Parse( args, &value))
{
fovty = atof(value);
if (String_Parse( args, &value))
{
time = atoi(value);
if (String_Parse( args, &value))
{
amt = atof(value);
//set up the variables
Menu_Transition3ItemByName((menuDef_t *) item->parent,
name,
minx, miny, minz,
maxx, maxy, maxz,
fovtx, fovty,
time, amt);
return qtrue;
}
}
}
}
}
}
}
}
}
}
}
Com_Printf(S_COLOR_YELLOW"WARNING: Script_Transition2: error parsing '%s'\n", name );
return qtrue;
}
#endif
qboolean Script_SetCvar(itemDef_t *item, char **args)
{
const char *cvar, *val;
if (String_Parse(args, &cvar) && String_Parse(args, &val))
{
DC->setCVar(cvar, val);
}
return qtrue;
}
qboolean Script_SetCvarToCvar(itemDef_t *item, char **args) {
const char *cvar, *val;
if (String_Parse(args, &cvar) && String_Parse(args, &val)) {
char cvarBuf[1024];
DC->getCVarString(val, cvarBuf, sizeof(cvarBuf));
DC->setCVar(cvar, cvarBuf);
}
return qtrue;
}
qboolean Script_Exec(itemDef_t *item, char **args) {
const char *val;
if (String_Parse(args, &val)) {
DC->executeText(EXEC_APPEND, va("%s ; ", val));
}
return qtrue;
}
qboolean Script_Play(itemDef_t *item, char **args) {
const char *val;
if (String_Parse(args, &val)) {
DC->startLocalSound(DC->registerSound(val), CHAN_AUTO);
}
return qtrue;
}
qboolean Script_playLooped(itemDef_t *item, char **args) {
const char *val;
if (String_Parse(args, &val)) {
DC->stopBackgroundTrack();
DC->startBackgroundTrack(val, val, qfalse);
}
return qtrue;
}
commandDef_t commandList[] =
{
{"fadein", &Script_FadeIn}, // group/name
{"fadeout", &Script_FadeOut}, // group/name
{"show", &Script_Show}, // group/name
{"hide", &Script_Hide}, // group/name
{"setcolor", &Script_SetColor}, // works on this
{"open", &Script_Open}, // nenu
{"close", &Script_Close}, // menu
{"setasset", &Script_SetAsset}, // works on this
{"setbackground", &Script_SetBackground}, // works on this
{"setitemrectcvar", &Script_SetItemRectCvar}, // group/name
{"setitembackground", &Script_SetItemBackground},// group/name
{"setitemtext", &Script_SetItemText}, // group/name
{"setitemcolor", &Script_SetItemColor}, // group/name
{"setitemcolorcvar", &Script_SetItemColorCvar},// group/name
{"setitemrect", &Script_SetItemRect}, // group/name
{"setteamcolor", &Script_SetTeamColor}, // sets this background color to team color
{"setfocus", &Script_SetFocus}, // sets focus
{"setplayermodel", &Script_SetPlayerModel}, // sets model
{"transition", &Script_Transition}, // group/name
{"setcvar", &Script_SetCvar}, // name
{"setcvartocvar", &Script_SetCvarToCvar}, // name
{"exec", &Script_Exec}, // group/name
{"play", &Script_Play}, // group/name
{"playlooped", &Script_playLooped}, // group/name
{"orbit", &Script_Orbit}, // group/name
{"scale", &Script_Scale}, // group/name
{"disable", &Script_Disable}, // group/name
{"defer", &Script_Defer}, //
{"rundeferred", &Script_RunDeferred}, //
{"transition2", &Script_Transition2}, // group/name
};
// Set all the items within a given menu, with the given itemName, to the given shader
void Menu_SetItemBackground(const menuDef_t *menu,const char *itemName, const char *background)
{
itemDef_t *item;
int j, count;
if (!menu) // No menu???
{
return;
}
count = Menu_ItemsMatchingGroup( (menuDef_t *) menu, itemName);
for (j = 0; j < count; j++)
{
item = Menu_GetMatchingItemByNumber( (menuDef_t *) menu, j, itemName);
if (item != NULL)
{
item->window.background = DC->registerShaderNoMip(background);
}
}
}
// Set all the items within a given menu, with the given itemName, to the given text
void Menu_SetItemText(const menuDef_t *menu,const char *itemName, const char *text)
{
itemDef_t *item;
int j, count;
if (!menu) // No menu???
{
return;
}
count = Menu_ItemsMatchingGroup( (menuDef_t *) menu, itemName);
for (j = 0; j < count; j++)
{
item = Menu_GetMatchingItemByNumber( (menuDef_t *) menu, j, itemName);
if (item != NULL)
{
if (text[0] == '*')
{
item->text = NULL; // Null this out because this would take presidence over cvar text.
item->cvar = text+1;
// Just copying what was in ItemParse_cvar()
if ( item->typeData)
{
editFieldDef_t *editPtr;
editPtr = (editFieldDef_t*)item->typeData;
editPtr->minVal = -1;
editPtr->maxVal = -1;
editPtr->defVal = -1;
}
}
else
{
item->text = text;
if ( item->type == ITEM_TYPE_TEXTSCROLL )
{
textScrollDef_t *scrollPtr = (textScrollDef_t*)item->typeData;
if ( scrollPtr )
{
scrollPtr->startPos = 0;
scrollPtr->endPos = 0;
}
Item_TextScroll_BuildLines ( item );
}
}
}
}
}
int scriptCommandCount = sizeof(commandList) / sizeof(commandDef_t);
void Item_RunScript(itemDef_t *item, const char *s)
{
char script[2048], *p;
int i;
qboolean bRan;
script[0] = 0;
if (item && s && s[0])
{
Q_strcat(script, 2048, s);
p = script;
while (1)
{
const char *command;
// expect command then arguments, ; ends command, NULL ends script
if (!String_Parse(&p, &command))
{
return;
}
if (command[0] == ';' && command[1] == '\0')
{
continue;
}
bRan = qfalse;
for (i = 0; i < scriptCommandCount; i++)
{
if (Q_stricmp(command, commandList[i].name) == 0)
{
// Allow a script command to stop processing the script
if ( !commandList[i].handler(item, &p) )
{
return;
}
bRan = qtrue;
break;
}
}
// not in our auto list, pass to handler
if (!bRan)
{
DC->runScript(&p);
}
}
}
}
qboolean Item_EnableShowViaCvar(itemDef_t *item, int flag) {
char script[2048], *p;
if (item && item->enableCvar && *item->enableCvar && item->cvarTest && *item->cvarTest) {
char buff[2048];
DC->getCVarString(item->cvarTest, buff, sizeof(buff));
Q_strncpyz(script, item->enableCvar, 2048);
p = script;
while (1) {
const char *val;
// expect value then ; or NULL, NULL ends list
if (!String_Parse(&p, &val)) {
return (item->cvarFlags & flag) ? qfalse : qtrue;
}
if (val[0] == ';' && val[1] == '\0') {
continue;
}
// enable it if any of the values are true
if (item->cvarFlags & flag) {
if (Q_stricmp(buff, val) == 0) {
return qtrue;
}
} else {
// disable it if any of the values are true
if (Q_stricmp(buff, val) == 0) {
return qfalse;
}
}
}
return (item->cvarFlags & flag) ? qfalse : qtrue;
}
return qtrue;
}
// will optionaly set focus to this item
qboolean Item_SetFocus(itemDef_t *item, float x, float y) {
int i;
itemDef_t *oldFocus;
sfxHandle_t *sfx = &DC->Assets.itemFocusSound;
qboolean playSound = qfalse;
menuDef_t *parent; // bk001206: = (menuDef_t*)item->parent;
// sanity check, non-null, not a decoration and does not already have the focus
if (item == NULL || item->window.flags & WINDOW_DECORATION || item->window.flags & WINDOW_HASFOCUS || !(item->window.flags & WINDOW_VISIBLE)) {
return qfalse;
}
// bk001206 - this can be NULL.
parent = (menuDef_t*)item->parent;
// items can be enabled and disabled
if (item->disabled)
{
return qfalse;
}
// items can be enabled and disabled based on cvars
if (item->cvarFlags & (CVAR_ENABLE | CVAR_DISABLE) && !Item_EnableShowViaCvar(item, CVAR_ENABLE)) {
return qfalse;
}
if (item->cvarFlags & (CVAR_SHOW | CVAR_HIDE) && !Item_EnableShowViaCvar(item, CVAR_SHOW)) {
return qfalse;
}
oldFocus = Menu_ClearFocus((menuDef_t *) item->parent);
if (item->type == ITEM_TYPE_TEXT) {
rectDef_t r;
r = item->textRect;
r.y -= r.h;
//JLFMOUSE
#ifndef _XBOX
if (Rect_ContainsPoint(&r, x, y))
#endif
{
item->window.flags |= WINDOW_HASFOCUS;
if (item->focusSound) {
sfx = &item->focusSound;
}
playSound = qtrue;
}
#ifndef _XBOX
else
#endif
{
if (oldFocus) {
oldFocus->window.flags |= WINDOW_HASFOCUS;
if (oldFocus->onFocus) {
Item_RunScript(oldFocus, oldFocus->onFocus);
}
}
}
} else {
item->window.flags |= WINDOW_HASFOCUS;
if (item->onFocus) {
Item_RunScript(item, item->onFocus);
}
if (item->focusSound) {
sfx = &item->focusSound;
}
playSound = qtrue;
}
if (playSound && sfx) {
DC->startLocalSound( *sfx, CHAN_LOCAL_SOUND );
}
for (i = 0; i < parent->itemCount; i++) {
if (parent->items[i] == item) {
parent->cursorItem = i;
break;
}
}
return qtrue;
}
int Item_TextScroll_MaxScroll ( itemDef_t *item )
{
textScrollDef_t *scrollPtr = (textScrollDef_t*)item->typeData;
int count = scrollPtr->iLineCount;
int max = count - (int)(item->window.rect.h / scrollPtr->lineHeight) + 1;
if (max < 0)
{
return 0;
}
return max;
}
int Item_TextScroll_ThumbPosition ( itemDef_t *item )
{
float max, pos, size;
textScrollDef_t *scrollPtr = (textScrollDef_t*)item->typeData;
max = Item_TextScroll_MaxScroll ( item );
size = item->window.rect.h - (SCROLLBAR_SIZE * 2) - 2;
if (max > 0)
{
pos = (size-SCROLLBAR_SIZE) / (float) max;
}
else
{
pos = 0;
}
pos *= scrollPtr->startPos;
return item->window.rect.y + 1 + SCROLLBAR_SIZE + pos;
}
int Item_TextScroll_ThumbDrawPosition ( itemDef_t *item )
{
int min, max;
if (itemCapture == item)
{
min = item->window.rect.y + SCROLLBAR_SIZE + 1;
max = item->window.rect.y + item->window.rect.h - 2*SCROLLBAR_SIZE - 1;
if (DC->cursory >= min + SCROLLBAR_SIZE/2 && DC->cursory <= max + SCROLLBAR_SIZE/2)
{
return DC->cursory - SCROLLBAR_SIZE/2;
}
return Item_TextScroll_ThumbPosition(item);
}
return Item_TextScroll_ThumbPosition(item);
}
int Item_TextScroll_OverLB ( itemDef_t *item, float x, float y )
{
rectDef_t r;
textScrollDef_t *scrollPtr;
int thumbstart;
int count;
scrollPtr = (textScrollDef_t*)item->typeData;
count = scrollPtr->iLineCount;
r.x = item->window.rect.x + item->window.rect.w - SCROLLBAR_SIZE;
r.y = item->window.rect.y;
r.h = r.w = SCROLLBAR_SIZE;
if (Rect_ContainsPoint(&r, x, y))
{
return WINDOW_LB_LEFTARROW;
}
r.y = item->window.rect.y + item->window.rect.h - SCROLLBAR_SIZE;
if (Rect_ContainsPoint(&r, x, y))
{
return WINDOW_LB_RIGHTARROW;
}
thumbstart = Item_TextScroll_ThumbPosition(item);
r.y = thumbstart;
if (Rect_ContainsPoint(&r, x, y))
{
return WINDOW_LB_THUMB;
}
r.y = item->window.rect.y + SCROLLBAR_SIZE;
r.h = thumbstart - r.y;
if (Rect_ContainsPoint(&r, x, y))
{
return WINDOW_LB_PGUP;
}
r.y = thumbstart + SCROLLBAR_SIZE;
r.h = item->window.rect.y + item->window.rect.h - SCROLLBAR_SIZE;
if (Rect_ContainsPoint(&r, x, y))
{
return WINDOW_LB_PGDN;
}
return 0;
}
void Item_TextScroll_MouseEnter (itemDef_t *item, float x, float y)
{
item->window.flags &= ~(WINDOW_LB_LEFTARROW | WINDOW_LB_RIGHTARROW | WINDOW_LB_THUMB | WINDOW_LB_PGUP | WINDOW_LB_PGDN);
item->window.flags |= Item_TextScroll_OverLB(item, x, y);
}
qboolean Item_TextScroll_HandleKey ( itemDef_t *item, int key, qboolean down, qboolean force)
{
textScrollDef_t *scrollPtr = (textScrollDef_t*)item->typeData;
int max;
int viewmax;
if (force || (Rect_ContainsPoint(&item->window.rect, DC->cursorx, DC->cursory) && item->window.flags & WINDOW_HASFOCUS))
{
max = Item_TextScroll_MaxScroll(item);
viewmax = (item->window.rect.h / scrollPtr->lineHeight);
if ( key == A_CURSOR_UP || key == A_KP_8 )
{
scrollPtr->startPos--;
if (scrollPtr->startPos < 0)
{
scrollPtr->startPos = 0;
}
return qtrue;
}
if ( key == A_CURSOR_DOWN || key == A_KP_2 )
{
scrollPtr->startPos++;
if (scrollPtr->startPos > max)
{
scrollPtr->startPos = max;
}
return qtrue;
}
// mouse hit
if (key == A_MOUSE1 || key == A_MOUSE2)
{
if (item->window.flags & WINDOW_LB_LEFTARROW)
{
scrollPtr->startPos--;
if (scrollPtr->startPos < 0)
{
scrollPtr->startPos = 0;
}
}
else if (item->window.flags & WINDOW_LB_RIGHTARROW)
{
// one down
scrollPtr->startPos++;
if (scrollPtr->startPos > max)
{
scrollPtr->startPos = max;
}
}
else if (item->window.flags & WINDOW_LB_PGUP)
{
// page up
scrollPtr->startPos -= viewmax;
if (scrollPtr->startPos < 0)
{
scrollPtr->startPos = 0;
}
}
else if (item->window.flags & WINDOW_LB_PGDN)
{
// page down
scrollPtr->startPos += viewmax;
if (scrollPtr->startPos > max)
{
scrollPtr->startPos = max;
}
}
else if (item->window.flags & WINDOW_LB_THUMB)
{
// Display_SetCaptureItem(item);
}
return qtrue;
}
if ( key == A_HOME || key == A_KP_7)
{
// home
scrollPtr->startPos = 0;
return qtrue;
}
if ( key == A_END || key == A_KP_1)
{
// end
scrollPtr->startPos = max;
return qtrue;
}
if (key == A_PAGE_UP || key == A_KP_9 )
{
scrollPtr->startPos -= viewmax;
if (scrollPtr->startPos < 0)
{
scrollPtr->startPos = 0;
}
return qtrue;
}
if ( key == A_PAGE_DOWN || key == A_KP_3 )
{
scrollPtr->startPos += viewmax;
if (scrollPtr->startPos > max)
{
scrollPtr->startPos = max;
}
return qtrue;
}
}
return qfalse;
}
int Item_ListBox_MaxScroll(itemDef_t *item) {
listBoxDef_t *listPtr = (listBoxDef_t*)item->typeData;
int count = DC->feederCount(item->special);
int max;
if (item->window.flags & WINDOW_HORIZONTAL) {
max = count - (item->window.rect.w / listPtr->elementWidth) + 1;
}
else {
max = count - (item->window.rect.h / listPtr->elementHeight) + 1;
}
if (max < 0) {
return 0;
}
return max;
}
int Item_ListBox_ThumbPosition(itemDef_t *item) {
float max, pos, size;
listBoxDef_t *listPtr = (listBoxDef_t*)item->typeData;
max = Item_ListBox_MaxScroll(item);
if (item->window.flags & WINDOW_HORIZONTAL) {
size = item->window.rect.w - (SCROLLBAR_SIZE * 2) - 2;
if (max > 0) {
pos = (size-SCROLLBAR_SIZE) / (float) max;
} else {
pos = 0;
}
pos *= listPtr->startPos;
return item->window.rect.x + 1 + SCROLLBAR_SIZE + pos;
}
else {
size = item->window.rect.h - (SCROLLBAR_SIZE * 2) - 2;
if (max > 0) {
pos = (size-SCROLLBAR_SIZE) / (float) max;
} else {
pos = 0;
}
pos *= listPtr->startPos;
return item->window.rect.y + 1 + SCROLLBAR_SIZE + pos;
}
}
int Item_ListBox_ThumbDrawPosition(itemDef_t *item)
{
int min, max;
if (itemCapture == item)
{
if (item->window.flags & WINDOW_HORIZONTAL)
{
min = item->window.rect.x + SCROLLBAR_SIZE + 1;
max = item->window.rect.x + item->window.rect.w - 2*SCROLLBAR_SIZE - 1;
if (DC->cursorx >= min + SCROLLBAR_SIZE/2 && DC->cursorx <= max + SCROLLBAR_SIZE/2)
{
return DC->cursorx - SCROLLBAR_SIZE/2;
}
else
{
return Item_ListBox_ThumbPosition(item);
}
}
else
{
min = item->window.rect.y + SCROLLBAR_SIZE + 1;
max = item->window.rect.y + item->window.rect.h - 2*SCROLLBAR_SIZE - 1;
if (DC->cursory >= min + SCROLLBAR_SIZE/2 && DC->cursory <= max + SCROLLBAR_SIZE/2)
{
return DC->cursory - SCROLLBAR_SIZE/2;
}
else
{
return Item_ListBox_ThumbPosition(item);
}
}
}
else
{
return Item_ListBox_ThumbPosition(item);
}
}
float Item_Slider_ThumbPosition(itemDef_t *item) {
float value, range, x;
editFieldDef_t *editDef = (editFieldDef_t *) item->typeData;
if (item->text) {
x = item->textRect.x + item->textRect.w + 8;
} else {
x = item->window.rect.x;
}
if (editDef == NULL && item->cvar) {
return x;
}
value = DC->getCVarValue(item->cvar);
if (value < editDef->minVal) {
value = editDef->minVal;
} else if (value > editDef->maxVal) {
value = editDef->maxVal;
}
range = editDef->maxVal - editDef->minVal;
value -= editDef->minVal;
value /= range;
//value /= (editDef->maxVal - editDef->minVal);
value *= SLIDER_WIDTH;
x += value;
// vm fuckage
//x = x + (((float)value / editDef->maxVal) * SLIDER_WIDTH);
return x;
}
int Item_Slider_OverSlider(itemDef_t *item, float x, float y) {
rectDef_t r;
r.x = Item_Slider_ThumbPosition(item) - (SLIDER_THUMB_WIDTH / 2);
r.y = item->window.rect.y - 2;
r.w = SLIDER_THUMB_WIDTH;
r.h = SLIDER_THUMB_HEIGHT;
if (Rect_ContainsPoint(&r, x, y)) {
return WINDOW_LB_THUMB;
}
return 0;
}
int Item_ListBox_OverLB(itemDef_t *item, float x, float y)
{
rectDef_t r;
listBoxDef_t *listPtr;
int thumbstart;
int count;
count = DC->feederCount(item->special);
listPtr = (listBoxDef_t*)item->typeData;
if (item->window.flags & WINDOW_HORIZONTAL)
{
// check if on left arrow
r.x = item->window.rect.x;
r.y = item->window.rect.y + item->window.rect.h - SCROLLBAR_SIZE;
r.h = r.w = SCROLLBAR_SIZE;
if (Rect_ContainsPoint(&r, x, y))
{
return WINDOW_LB_LEFTARROW;
}
// check if on right arrow
r.x = item->window.rect.x + item->window.rect.w - SCROLLBAR_SIZE;
if (Rect_ContainsPoint(&r, x, y))
{
return WINDOW_LB_RIGHTARROW;
}
// check if on thumb
thumbstart = Item_ListBox_ThumbPosition(item);
r.x = thumbstart;
if (Rect_ContainsPoint(&r, x, y))
{
return WINDOW_LB_THUMB;
}
r.x = item->window.rect.x + SCROLLBAR_SIZE;
r.w = thumbstart - r.x;
if (Rect_ContainsPoint(&r, x, y))
{
return WINDOW_LB_PGUP;
}
r.x = thumbstart + SCROLLBAR_SIZE;
r.w = item->window.rect.x + item->window.rect.w - SCROLLBAR_SIZE;
if (Rect_ContainsPoint(&r, x, y))
{
return WINDOW_LB_PGDN;
}
}
// Vertical Scroll
else
{
// Multiple rows and columns (since it's more than twice as wide as an element)
if (( item->window.rect.w > (listPtr->elementWidth*2)) && (listPtr->elementStyle == LISTBOX_IMAGE))
{
r.x = item->window.rect.x + item->window.rect.w - SCROLLBAR_SIZE;
r.y = item->window.rect.y;
r.h = r.w = SCROLLBAR_SIZE;
if (Rect_ContainsPoint(&r, x, y))
{
return WINDOW_LB_PGUP;
}
r.y = item->window.rect.y + item->window.rect.h - SCROLLBAR_SIZE;
if (Rect_ContainsPoint(&r, x, y))
{
return WINDOW_LB_PGDN;
}
thumbstart = Item_ListBox_ThumbPosition(item);
r.y = thumbstart;
if (Rect_ContainsPoint(&r, x, y))
{
return WINDOW_LB_THUMB;
}
}
else
{
r.x = item->window.rect.x + item->window.rect.w - SCROLLBAR_SIZE;
r.y = item->window.rect.y;
r.h = r.w = SCROLLBAR_SIZE;
if (Rect_ContainsPoint(&r, x, y))
{
return WINDOW_LB_LEFTARROW;
}
r.y = item->window.rect.y + item->window.rect.h - SCROLLBAR_SIZE;
if (Rect_ContainsPoint(&r, x, y))
{
return WINDOW_LB_RIGHTARROW;
}
thumbstart = Item_ListBox_ThumbPosition(item);
r.y = thumbstart;
if (Rect_ContainsPoint(&r, x, y))
{
return WINDOW_LB_THUMB;
}
r.y = item->window.rect.y + SCROLLBAR_SIZE;
r.h = thumbstart - r.y;
if (Rect_ContainsPoint(&r, x, y))
{
return WINDOW_LB_PGUP;
}
r.y = thumbstart + SCROLLBAR_SIZE;
r.h = item->window.rect.y + item->window.rect.h - SCROLLBAR_SIZE;
if (Rect_ContainsPoint(&r, x, y))
{
return WINDOW_LB_PGDN;
}
}
}
return 0;
}
void Item_ListBox_MouseEnter(itemDef_t *item, float x, float y)
{
rectDef_t r;
listBoxDef_t *listPtr = (listBoxDef_t*)item->typeData;
item->window.flags &= ~(WINDOW_LB_LEFTARROW | WINDOW_LB_RIGHTARROW | WINDOW_LB_THUMB | WINDOW_LB_PGUP | WINDOW_LB_PGDN);
item->window.flags |= Item_ListBox_OverLB(item, x, y);
if (item->window.flags & WINDOW_HORIZONTAL)
{
if (!(item->window.flags & (WINDOW_LB_LEFTARROW | WINDOW_LB_RIGHTARROW | WINDOW_LB_THUMB | WINDOW_LB_PGUP | WINDOW_LB_PGDN)))
{
// check for selection hit as we have exausted buttons and thumb
if (listPtr->elementStyle == LISTBOX_IMAGE)
{
r.x = item->window.rect.x;
r.y = item->window.rect.y;
r.h = item->window.rect.h - SCROLLBAR_SIZE;
r.w = item->window.rect.w - listPtr->drawPadding;
if (Rect_ContainsPoint(&r, x, y))
{
listPtr->cursorPos = (int)((x - r.x) / listPtr->elementWidth) + listPtr->startPos;
if (listPtr->cursorPos >= listPtr->endPos)
{
listPtr->cursorPos = listPtr->endPos;
}
}
}
else
{
// text hit..
}
}
}
// Window Vertical Scroll
else if (!(item->window.flags & (WINDOW_LB_LEFTARROW | WINDOW_LB_RIGHTARROW | WINDOW_LB_THUMB | WINDOW_LB_PGUP | WINDOW_LB_PGDN)))
{
// Calc which element the mouse is over
r.x = item->window.rect.x;
r.y = item->window.rect.y;
r.w = item->window.rect.w - SCROLLBAR_SIZE;
r.h = item->window.rect.h - listPtr->drawPadding;
if (Rect_ContainsPoint(&r, x, y))
{
// Multiple rows and columns (since it's more than twice as wide as an element)
if (( item->window.rect.w > (listPtr->elementWidth*2)) && (listPtr->elementStyle == LISTBOX_IMAGE))
{
int row,column,rowLength;
row = (int)((y - 2 - r.y) / listPtr->elementHeight);
rowLength = (int) r.w / listPtr->elementWidth;
column = (int)((x - r.x) / listPtr->elementWidth);
listPtr->cursorPos = (row * rowLength)+column + listPtr->startPos;
if (listPtr->cursorPos >= listPtr->endPos)
{
listPtr->cursorPos = listPtr->endPos;
}
}
// single column
else
{
listPtr->cursorPos = (int)((y - 2 - r.y) / listPtr->elementHeight) + listPtr->startPos;
if (listPtr->cursorPos > listPtr->endPos)
{
listPtr->cursorPos = listPtr->endPos;
}
}
}
}
}
void Item_MouseEnter(itemDef_t *item, float x, float y) {
rectDef_t r;
if (item) {
r = item->textRect;
r.y -= r.h;
// in the text rect?
// items can be enabled and disabled
if (item->disabled)
{
return;
}
// items can be enabled and disabled based on cvars
if (item->cvarFlags & (CVAR_ENABLE | CVAR_DISABLE) && !Item_EnableShowViaCvar(item, CVAR_ENABLE)) {
return;
}
if (item->cvarFlags & (CVAR_SHOW | CVAR_HIDE) && !Item_EnableShowViaCvar(item, CVAR_SHOW)) {
return;
}
//JLFMOUSE
#ifndef _XBOX
if (Rect_ContainsPoint(&r, x, y))
#else
if (item->flags & WINDOW_HASFOCUS)
#endif
{
if (!(item->window.flags & WINDOW_MOUSEOVERTEXT)) {
Item_RunScript(item, item->mouseEnterText);
item->window.flags |= WINDOW_MOUSEOVERTEXT;
}
if (!(item->window.flags & WINDOW_MOUSEOVER)) {
Item_RunScript(item, item->mouseEnter);
item->window.flags |= WINDOW_MOUSEOVER;
}
} else {
// not in the text rect
if (item->window.flags & WINDOW_MOUSEOVERTEXT) {
// if we were
Item_RunScript(item, item->mouseExitText);
item->window.flags &= ~WINDOW_MOUSEOVERTEXT;
}
if (!(item->window.flags & WINDOW_MOUSEOVER)) {
Item_RunScript(item, item->mouseEnter);
item->window.flags |= WINDOW_MOUSEOVER;
}
if (item->type == ITEM_TYPE_LISTBOX) {
Item_ListBox_MouseEnter(item, x, y);
}
else if ( item->type == ITEM_TYPE_TEXTSCROLL )
{
Item_TextScroll_MouseEnter ( item, x, y );
}
}
}
}
void Item_MouseLeave(itemDef_t *item) {
if (item) {
if (item->window.flags & WINDOW_MOUSEOVERTEXT) {
Item_RunScript(item, item->mouseExitText);
item->window.flags &= ~WINDOW_MOUSEOVERTEXT;
}
Item_RunScript(item, item->mouseExit);
item->window.flags &= ~(WINDOW_LB_RIGHTARROW | WINDOW_LB_LEFTARROW);
}
}
itemDef_t *Menu_HitTest(menuDef_t *menu, float x, float y) {
int i;
for (i = 0; i < menu->itemCount; i++) {
if (Rect_ContainsPoint(&menu->items[i]->window.rect, x, y)) {
return menu->items[i];
}
}
return NULL;
}
void Item_SetMouseOver(itemDef_t *item, qboolean focus) {
if (item) {
if (focus) {
item->window.flags |= WINDOW_MOUSEOVER;
} else {
item->window.flags &= ~WINDOW_MOUSEOVER;
}
}
}
qboolean Item_OwnerDraw_HandleKey(itemDef_t *item, int key) {
if (item && DC->ownerDrawHandleKey)
{
// yep this is an ugly hack
if( key == A_MOUSE1 || key == A_MOUSE2 )
{
switch( item->window.ownerDraw )
{
case UI_FORCE_SIDE:
case UI_FORCE_RANK_HEAL:
case UI_FORCE_RANK_LEVITATION:
case UI_FORCE_RANK_SPEED:
case UI_FORCE_RANK_PUSH:
case UI_FORCE_RANK_PULL:
case UI_FORCE_RANK_TELEPATHY:
case UI_FORCE_RANK_GRIP:
case UI_FORCE_RANK_LIGHTNING:
case UI_FORCE_RANK_RAGE:
case UI_FORCE_RANK_PROTECT:
case UI_FORCE_RANK_ABSORB:
case UI_FORCE_RANK_TEAM_HEAL:
case UI_FORCE_RANK_TEAM_FORCE:
case UI_FORCE_RANK_DRAIN:
case UI_FORCE_RANK_SEE:
case UI_FORCE_RANK_SABERATTACK:
case UI_FORCE_RANK_SABERDEFEND:
case UI_FORCE_RANK_SABERTHROW:
if(!Rect_ContainsPoint(&item->window.rect, DC->cursorx, DC->cursory) )
{
return qfalse;
}
break;
}
}
return DC->ownerDrawHandleKey(item->window.ownerDraw, item->window.ownerDrawFlags, &item->special, key);
}
return qfalse;
}
#ifdef _XBOX
// Xbox-only key handlers
//JLF new func
qboolean Item_Button_HandleKey(itemDef_t *item, int key)
{
if ( key == A_CURSOR_RIGHT)
{
if (Item_HandleSelectionNext(item))
{
//Item processed it
return qtrue;
}
}
else if ( key == A_CURSOR_LEFT)
{
if (Item_HandleSelectionPrev(item))
{
//Item processed it
return qtrue;
}
}
return qfalse;
}
/*
=================
Item_Text_HandleKey
=================
*/
qboolean Item_Text_HandleKey(itemDef_t *item, int key)
{
//JLFSELECTIONRightLeft
if ( key == A_CURSOR_RIGHT)
{
if (Item_HandleSelectionNext(item))
{
//Item processed it
return qtrue;
}
}
else if ( key == A_CURSOR_LEFT)
{
if (Item_HandleSelectionPrev(item))
{
//Item processed it
return qtrue;
}
}
return qfalse;
}
#endif // _XBOX
qboolean Item_ListBox_HandleKey(itemDef_t *item, int key, qboolean down, qboolean force) {
listBoxDef_t *listPtr = (listBoxDef_t*)item->typeData;
int count = DC->feederCount(item->special);
int max, viewmax;
//JLFMOUSE
#ifndef _XBOX
if (force || (Rect_ContainsPoint(&item->window.rect, DC->cursorx, DC->cursory) && item->window.flags & WINDOW_HASFOCUS))
#else
if (force || item->window.flags & WINDOW_HASFOCUS)
#endif
{
max = Item_ListBox_MaxScroll(item);
if (item->window.flags & WINDOW_HORIZONTAL) {
viewmax = (item->window.rect.w / listPtr->elementWidth);
if ( key == A_CURSOR_LEFT || key == A_KP_4 )
{
if (!listPtr->notselectable) {
listPtr->cursorPos--;
#ifdef _XBOX
listPtr->startPos--;
#endif
if (listPtr->cursorPos < 0) {
listPtr->cursorPos = 0;
return qfalse;
}
if (listPtr->cursorPos < listPtr->startPos) {
listPtr->startPos = listPtr->cursorPos;
//JLF
#ifndef _XBOX
return qfalse;
#endif
}
if (listPtr->cursorPos >= listPtr->startPos + viewmax) {
listPtr->startPos = listPtr->cursorPos - viewmax + 1;
}
item->cursorPos = listPtr->cursorPos;
DC->feederSelection(item->special, item->cursorPos, NULL);
}
else {
listPtr->startPos--;
if (listPtr->startPos < 0)
listPtr->startPos = 0;
}
return qtrue;
}
if ( key == A_CURSOR_RIGHT || key == A_KP_6 )
{
if (!listPtr->notselectable) {
listPtr->cursorPos++;
if (listPtr->cursorPos < listPtr->startPos) {
listPtr->startPos = listPtr->cursorPos;
//JLF
#ifndef _XBOX
return qfalse;
#endif
}
if (listPtr->cursorPos >= count) {
listPtr->cursorPos = count-1;
return qfalse;
}
if (listPtr->cursorPos >= listPtr->startPos + viewmax) {
listPtr->startPos = listPtr->cursorPos - viewmax + 1;
}
item->cursorPos = listPtr->cursorPos;
DC->feederSelection(item->special, item->cursorPos, NULL);
}
else {
listPtr->startPos++;
if (listPtr->startPos >= count)
listPtr->startPos = count-1;
}
return qtrue;
}
}
// Vertical scroll
else {
// Multiple rows and columns (since it's more than twice as wide as an element)
if (( item->window.rect.w > (listPtr->elementWidth*2)) && (listPtr->elementStyle == LISTBOX_IMAGE))
{
viewmax = (item->window.rect.w / listPtr->elementWidth);
}
else
{
viewmax = (item->window.rect.h / listPtr->elementHeight);
}
if ( key == A_CURSOR_UP || key == A_KP_8 )
{
if (!listPtr->notselectable) {
listPtr->cursorPos--;
if (listPtr->cursorPos < 0) {
listPtr->cursorPos = 0;
return qfalse;
}
if (listPtr->cursorPos < listPtr->startPos) {
listPtr->startPos = listPtr->cursorPos;
//JLF
#ifndef _XBOX
return qfalse;
#endif
}
if (listPtr->cursorPos >= listPtr->startPos + viewmax) {
listPtr->startPos = listPtr->cursorPos - viewmax + 1;
}
item->cursorPos = listPtr->cursorPos;
DC->feederSelection(item->special, item->cursorPos, NULL);
}
else {
listPtr->startPos--;
if (listPtr->startPos < 0)
listPtr->startPos = 0;
}
return qtrue;
}
if ( key == A_CURSOR_DOWN || key == A_KP_2 )
{
if (!listPtr->notselectable) {
listPtr->cursorPos++;
if (listPtr->cursorPos < listPtr->startPos) {
listPtr->startPos = listPtr->cursorPos;
//JLF
#ifndef _XBOX
return qfalse;
#endif
}
if (listPtr->cursorPos >= count) {
listPtr->cursorPos = count-1;
return qfalse;
}
if (listPtr->cursorPos >= listPtr->startPos + viewmax) {
listPtr->startPos = listPtr->cursorPos - viewmax + 1;
}
item->cursorPos = listPtr->cursorPos;
DC->feederSelection(item->special, item->cursorPos, NULL);
}
else {
listPtr->startPos++;
if (listPtr->startPos > max)
listPtr->startPos = max;
}
return qtrue;
}
}
// mouse hit
if (key == A_MOUSE1 || key == A_MOUSE2) {
if (item->window.flags & WINDOW_LB_LEFTARROW) {
listPtr->startPos--;
if (listPtr->startPos < 0) {
listPtr->startPos = 0;
}
} else if (item->window.flags & WINDOW_LB_RIGHTARROW) {
// one down
listPtr->startPos++;
if (listPtr->startPos > max) {
listPtr->startPos = max;
}
} else if (item->window.flags & WINDOW_LB_PGUP) {
// page up
listPtr->startPos -= viewmax;
if (listPtr->startPos < 0) {
listPtr->startPos = 0;
}
} else if (item->window.flags & WINDOW_LB_PGDN) {
// page down
listPtr->startPos += viewmax;
if (listPtr->startPos > (max)) {
listPtr->startPos = (max);
}
} else if (item->window.flags & WINDOW_LB_THUMB) {
// Display_SetCaptureItem(item);
} else {
// select an item
#ifdef _XBOX
if (listPtr->doubleClick) {
#else
if (DC->realTime < lastListBoxClickTime && listPtr->doubleClick) {
#endif
Item_RunScript(item, listPtr->doubleClick);
}
lastListBoxClickTime = DC->realTime + DOUBLE_CLICK_DELAY;
// if (item->cursorPos != listPtr->cursorPos)
{
int prePos = item->cursorPos;
item->cursorPos = listPtr->cursorPos;
if (!DC->feederSelection(item->special, item->cursorPos, item))
{
item->cursorPos = listPtr->cursorPos = prePos;
}
}
}
return qtrue;
}
if ( key == A_HOME || key == A_KP_7) {
// home
listPtr->startPos = 0;
return qtrue;
}
if ( key == A_END || key == A_KP_1) {
// end
listPtr->startPos = max;
return qtrue;
}
if (key == A_PAGE_UP || key == A_KP_9 ) {
// page up
if (!listPtr->notselectable) {
listPtr->cursorPos -= viewmax;
if (listPtr->cursorPos < 0) {
listPtr->cursorPos = 0;
}
if (listPtr->cursorPos < listPtr->startPos) {
listPtr->startPos = listPtr->cursorPos;
}
if (listPtr->cursorPos >= listPtr->startPos + viewmax) {
listPtr->startPos = listPtr->cursorPos - viewmax + 1;
}
item->cursorPos = listPtr->cursorPos;
DC->feederSelection(item->special, item->cursorPos, NULL);
}
else {
listPtr->startPos -= viewmax;
if (listPtr->startPos < 0) {
listPtr->startPos = 0;
}
}
return qtrue;
}
if ( key == A_PAGE_DOWN || key == A_KP_3 ) {
// page down
if (!listPtr->notselectable) {
listPtr->cursorPos += viewmax;
if (listPtr->cursorPos < listPtr->startPos) {
listPtr->startPos = listPtr->cursorPos;
}
if (listPtr->cursorPos >= count) {
listPtr->cursorPos = count-1;
}
if (listPtr->cursorPos >= listPtr->startPos + viewmax) {
listPtr->startPos = listPtr->cursorPos - viewmax + 1;
}
item->cursorPos = listPtr->cursorPos;
DC->feederSelection(item->special, item->cursorPos, NULL);
}
else {
listPtr->startPos += viewmax;
if (listPtr->startPos > max) {
listPtr->startPos = max;
}
}
return qtrue;
}
}
return qfalse;
}
qboolean Item_YesNo_HandleKey(itemDef_t *item, int key) {
//JLFMOUSE MPMOVED
#ifndef _XBOX
if (Rect_ContainsPoint(&item->window.rect, DC->cursorx, DC->cursory) && item->window.flags & WINDOW_HASFOCUS && item->cvar)
#else
if (item->window.flags & WINDOW_HASFOCUS && item->cvar)
#endif
{
//JLFDPAD MPMOVED
#ifndef _XBOX
if (key == A_MOUSE1 || key == A_ENTER || key == A_MOUSE2 || key == A_MOUSE3)
#else
if ( key == A_CURSOR_RIGHT || key == A_CURSOR_LEFT)
#endif
//end JLFDPAD
{
DC->setCVar(item->cvar, va("%i", !DC->getCVarValue(item->cvar)));
return qtrue;
}
}
return qfalse;
}
int Item_Multi_CountSettings(itemDef_t *item) {
multiDef_t *multiPtr = (multiDef_t*)item->typeData;
if (multiPtr == NULL) {
return 0;
}
return multiPtr->count;
}
int Item_Multi_FindCvarByValue(itemDef_t *item) {
char buff[2048];
float value = 0;
int i;
multiDef_t *multiPtr = (multiDef_t*)item->typeData;
if (multiPtr) {
if (multiPtr->strDef) {
DC->getCVarString(item->cvar, buff, sizeof(buff));
} else {
value = DC->getCVarValue(item->cvar);
}
for (i = 0; i < multiPtr->count; i++) {
if (multiPtr->strDef) {
if (Q_stricmp(buff, multiPtr->cvarStr[i]) == 0) {
return i;
}
} else {
if (multiPtr->cvarValue[i] == value) {
return i;
}
}
}
}
return 0;
}
const char *Item_Multi_Setting(itemDef_t *item) {
char buff[2048];
float value = 0;
int i;
multiDef_t *multiPtr = (multiDef_t*)item->typeData;
if (multiPtr)
{
if (multiPtr->strDef)
{
if (item->cvar)
{
DC->getCVarString(item->cvar, buff, sizeof(buff));
}
}
else
{
if (item->cvar) // Was a cvar given?
{
value = DC->getCVarValue(item->cvar);
}
}
for (i = 0; i < multiPtr->count; i++)
{
if (multiPtr->strDef)
{
if (Q_stricmp(buff, multiPtr->cvarStr[i]) == 0)
{
return multiPtr->cvarList[i];
}
}
else
{
if (multiPtr->cvarValue[i] == value)
{
return multiPtr->cvarList[i];
}
}
}
}
return "";
}
qboolean Item_Multi_HandleKey(itemDef_t *item, int key)
{
multiDef_t *multiPtr = (multiDef_t*)item->typeData;
if (multiPtr)
{
//JLF MPMOVED
#ifndef _XBOX
if (Rect_ContainsPoint(&item->window.rect, DC->cursorx, DC->cursory) && item->window.flags & WINDOW_HASFOCUS)
#else
if (item->window.flags & WINDOW_HASFOCUS)// JLF* && item->cvar)
#endif
{
#ifndef _XBOX
if (key == A_MOUSE1 || key == A_ENTER || key == A_MOUSE2 || key == A_MOUSE3)
#else
//JLFDPAD MPMOVED
if ( key == A_CURSOR_RIGHT || key == A_CURSOR_LEFT)
//end JLFDPAD
#endif
{
int current = Item_Multi_FindCvarByValue(item);
int max = Item_Multi_CountSettings(item);
if (key == A_MOUSE2 || key == A_CURSOR_LEFT) // Xbox uses CURSOR_LEFT
{
current--;
if ( current < 0 )
{
current = max-1;
}
}
else
{
current++;
if ( current >= max )
{
current = 0;
}
}
if (multiPtr->strDef)
{
DC->setCVar(item->cvar, multiPtr->cvarStr[current]);
}
else
{
float value = multiPtr->cvarValue[current];
if (((float)((int) value)) == value)
{
DC->setCVar(item->cvar, va("%i", (int) value ));
}
else
{
DC->setCVar(item->cvar, va("%f", value ));
}
}
if (item->special)
{//its a feeder?
DC->feederSelection(item->special, current, item);
}
return qtrue;
}
}
}
return qfalse;
}
// Leaving an edit field so reset it so it prints from the beginning.
void Leaving_EditField(itemDef_t *item)
{
// switching fields so reset printed text of edit field
if ((g_editingField==qtrue) && (item->type==ITEM_TYPE_EDITFIELD))
{
editFieldDef_t *editPtr = (editFieldDef_t*)item->typeData;
if (editPtr)
{
editPtr->paintOffset = 0;
}
}
}
qboolean Item_TextField_HandleKey(itemDef_t *item, int key) {
char buff[2048];
int len;
itemDef_t *newItem = NULL;
editFieldDef_t *editPtr = (editFieldDef_t*)item->typeData;
if (item->cvar) {
buff[0] = 0;
DC->getCVarString(item->cvar, buff, sizeof(buff));
len = strlen(buff);
if (editPtr->maxChars && len > editPtr->maxChars) {
len = editPtr->maxChars;
}
if ( key & K_CHAR_FLAG ) {
key &= ~K_CHAR_FLAG;
if (key == 'h' - 'a' + 1 ) { // ctrl-h is backspace
if ( item->cursorPos > 0 ) {
memmove( &buff[item->cursorPos - 1], &buff[item->cursorPos], len + 1 - item->cursorPos);
item->cursorPos--;
if (item->cursorPos < editPtr->paintOffset) {
editPtr->paintOffset--;
}
}
DC->setCVar(item->cvar, buff);
return qtrue;
}
//
// ignore any non printable chars
//
if ( key < 32 || !item->cvar) {
return qtrue;
}
if (item->type == ITEM_TYPE_NUMERICFIELD) {
if (key < '0' || key > '9') {
return qfalse;
}
}
if (!DC->getOverstrikeMode()) {
if (( len == MAX_EDITFIELD - 1 ) || (editPtr->maxChars && len >= editPtr->maxChars)) {
return qtrue;
}
memmove( &buff[item->cursorPos + 1], &buff[item->cursorPos], len + 1 - item->cursorPos );
} else {
if (editPtr->maxChars && item->cursorPos >= editPtr->maxChars) {
return qtrue;
}
}
buff[item->cursorPos] = key;
//rww - nul-terminate!
if (item->cursorPos+1 < 2048)
{
buff[item->cursorPos+1] = 0;
}
else
{
buff[item->cursorPos] = 0;
}
DC->setCVar(item->cvar, buff);
if (item->cursorPos < len + 1) {
item->cursorPos++;
if (editPtr->maxPaintChars && item->cursorPos > editPtr->maxPaintChars) {
editPtr->paintOffset++;
}
}
} else {
if ( key == A_DELETE || key == A_KP_PERIOD ) {
if ( item->cursorPos < len ) {
memmove( buff + item->cursorPos, buff + item->cursorPos + 1, len - item->cursorPos);
DC->setCVar(item->cvar, buff);
}
return qtrue;
}
if ( key == A_CURSOR_RIGHT || key == A_KP_6 )
{
if (editPtr->maxPaintChars && item->cursorPos >= editPtr->maxPaintChars && item->cursorPos < len) {
item->cursorPos++;
editPtr->paintOffset++;
return qtrue;
}
if (item->cursorPos < len) {
item->cursorPos++;
}
return qtrue;
}
if ( key == A_CURSOR_LEFT || key == A_KP_4 )
{
if ( item->cursorPos > 0 ) {
item->cursorPos--;
}
if (item->cursorPos < editPtr->paintOffset) {
editPtr->paintOffset--;
}
return qtrue;
}
if ( key == A_HOME || key == A_KP_7) {// || ( tolower(key) == 'a' && trap_Key_IsDown( K_CTRL ) ) ) {
item->cursorPos = 0;
editPtr->paintOffset = 0;
return qtrue;
}
if ( key == A_END || key == A_KP_1) {// ( tolower(key) == 'e' && trap_Key_IsDown( K_CTRL ) ) ) {
item->cursorPos = len;
if(item->cursorPos > editPtr->maxPaintChars) {
editPtr->paintOffset = len - editPtr->maxPaintChars;
}
return qtrue;
}
if ( key == A_INSERT || key == A_KP_0 ) {
DC->setOverstrikeMode(!DC->getOverstrikeMode());
return qtrue;
}
}
if (key == A_TAB || key == A_CURSOR_DOWN || key == A_KP_2)
{
// switching fields so reset printed text of edit field
Leaving_EditField(item);
g_editingField = qfalse;
newItem = Menu_SetNextCursorItem((menuDef_t *) item->parent);
if (newItem && (newItem->type == ITEM_TYPE_EDITFIELD || newItem->type == ITEM_TYPE_NUMERICFIELD))
{
g_editItem = newItem;
g_editingField = qtrue;
}
}
if (key == A_CURSOR_UP || key == A_KP_8)
{
// switching fields so reset printed text of edit field
Leaving_EditField(item);
g_editingField = qfalse;
newItem = Menu_SetPrevCursorItem((menuDef_t *) item->parent);
if (newItem && (newItem->type == ITEM_TYPE_EDITFIELD || newItem->type == ITEM_TYPE_NUMERICFIELD))
{
g_editItem = newItem;
g_editingField = qtrue;
}
}
if ( key == A_ENTER || key == A_KP_ENTER || key == A_ESCAPE) {
return qfalse;
}
return qtrue;
}
return qfalse;
}
static void Scroll_TextScroll_AutoFunc (void *p)
{
scrollInfo_t *si = (scrollInfo_t*)p;
if (DC->realTime > si->nextScrollTime)
{
// need to scroll which is done by simulating a click to the item
// this is done a bit sideways as the autoscroll "knows" that the item is a listbox
// so it calls it directly
Item_TextScroll_HandleKey(si->item, si->scrollKey, qtrue, qfalse);
si->nextScrollTime = DC->realTime + si->adjustValue;
}
if (DC->realTime > si->nextAdjustTime)
{
si->nextAdjustTime = DC->realTime + SCROLL_TIME_ADJUST;
if (si->adjustValue > SCROLL_TIME_FLOOR)
{
si->adjustValue -= SCROLL_TIME_ADJUSTOFFSET;
}
}
}
static void Scroll_TextScroll_ThumbFunc(void *p)
{
scrollInfo_t *si = (scrollInfo_t*)p;
rectDef_t r;
int pos;
int max;
textScrollDef_t *scrollPtr = (textScrollDef_t*)si->item->typeData;
if (DC->cursory != si->yStart)
{
r.x = si->item->window.rect.x + si->item->window.rect.w - SCROLLBAR_SIZE - 1;
r.y = si->item->window.rect.y + SCROLLBAR_SIZE + 1;
r.h = si->item->window.rect.h - (SCROLLBAR_SIZE*2) - 2;
r.w = SCROLLBAR_SIZE;
max = Item_TextScroll_MaxScroll(si->item);
//
pos = (DC->cursory - r.y - SCROLLBAR_SIZE/2) * max / (r.h - SCROLLBAR_SIZE);
if (pos < 0)
{
pos = 0;
}
else if (pos > max)
{
pos = max;
}
scrollPtr->startPos = pos;
si->yStart = DC->cursory;
}
if (DC->realTime > si->nextScrollTime)
{
// need to scroll which is done by simulating a click to the item
// this is done a bit sideways as the autoscroll "knows" that the item is a listbox
// so it calls it directly
Item_TextScroll_HandleKey(si->item, si->scrollKey, qtrue, qfalse);
si->nextScrollTime = DC->realTime + si->adjustValue;
}
if (DC->realTime > si->nextAdjustTime)
{
si->nextAdjustTime = DC->realTime + SCROLL_TIME_ADJUST;
if (si->adjustValue > SCROLL_TIME_FLOOR)
{
si->adjustValue -= SCROLL_TIME_ADJUSTOFFSET;
}
}
}
static void Scroll_ListBox_AutoFunc(void *p) {
scrollInfo_t *si = (scrollInfo_t*)p;
if (DC->realTime > si->nextScrollTime) {
// need to scroll which is done by simulating a click to the item
// this is done a bit sideways as the autoscroll "knows" that the item is a listbox
// so it calls it directly
Item_ListBox_HandleKey(si->item, si->scrollKey, qtrue, qfalse);
si->nextScrollTime = DC->realTime + si->adjustValue;
}
if (DC->realTime > si->nextAdjustTime) {
si->nextAdjustTime = DC->realTime + SCROLL_TIME_ADJUST;
if (si->adjustValue > SCROLL_TIME_FLOOR) {
si->adjustValue -= SCROLL_TIME_ADJUSTOFFSET;
}
}
}
static void Scroll_ListBox_ThumbFunc(void *p) {
scrollInfo_t *si = (scrollInfo_t*)p;
rectDef_t r;
int pos, max;
listBoxDef_t *listPtr = (listBoxDef_t*)si->item->typeData;
if (si->item->window.flags & WINDOW_HORIZONTAL) {
if (DC->cursorx == si->xStart) {
return;
}
r.x = si->item->window.rect.x + SCROLLBAR_SIZE + 1;
r.y = si->item->window.rect.y + si->item->window.rect.h - SCROLLBAR_SIZE - 1;
r.h = SCROLLBAR_SIZE;
r.w = si->item->window.rect.w - (SCROLLBAR_SIZE*2) - 2;
max = Item_ListBox_MaxScroll(si->item);
//
pos = (DC->cursorx - r.x - SCROLLBAR_SIZE/2) * max / (r.w - SCROLLBAR_SIZE);
if (pos < 0) {
pos = 0;
}
else if (pos > max) {
pos = max;
}
listPtr->startPos = pos;
si->xStart = DC->cursorx;
}
else if (DC->cursory != si->yStart) {
r.x = si->item->window.rect.x + si->item->window.rect.w - SCROLLBAR_SIZE - 1;
r.y = si->item->window.rect.y + SCROLLBAR_SIZE + 1;
r.h = si->item->window.rect.h - (SCROLLBAR_SIZE*2) - 2;
r.w = SCROLLBAR_SIZE;
max = Item_ListBox_MaxScroll(si->item);
// Multiple rows and columns (since it's more than twice as wide as an element)
if (( si->item->window.rect.w > (listPtr->elementWidth*2)) && (listPtr->elementStyle == LISTBOX_IMAGE))
{
int rowLength, rowMax;
rowLength = si->item->window.rect.w / listPtr->elementWidth;
rowMax = max / rowLength;
pos = (DC->cursory - r.y - SCROLLBAR_SIZE/2) * rowMax / (r.h - SCROLLBAR_SIZE);
pos *= rowLength;
}
else
{
pos = (DC->cursory - r.y - SCROLLBAR_SIZE/2) * max / (r.h - SCROLLBAR_SIZE);
}
if (pos < 0) {
pos = 0;
}
else if (pos > max) {
pos = max;
}
listPtr->startPos = pos;
si->yStart = DC->cursory;
}
if (DC->realTime > si->nextScrollTime) {
// need to scroll which is done by simulating a click to the item
// this is done a bit sideways as the autoscroll "knows" that the item is a listbox
// so it calls it directly
Item_ListBox_HandleKey(si->item, si->scrollKey, qtrue, qfalse);
si->nextScrollTime = DC->realTime + si->adjustValue;
}
if (DC->realTime > si->nextAdjustTime) {
si->nextAdjustTime = DC->realTime + SCROLL_TIME_ADJUST;
if (si->adjustValue > SCROLL_TIME_FLOOR) {
si->adjustValue -= SCROLL_TIME_ADJUSTOFFSET;
}
}
}
static void Scroll_Slider_ThumbFunc(void *p) {
float x, value, cursorx;
scrollInfo_t *si = (scrollInfo_t*)p;
editFieldDef_t *editDef = (editFieldDef_t *) si->item->typeData;
if (si->item->text) {
x = si->item->textRect.x + si->item->textRect.w + 8;
} else {
x = si->item->window.rect.x;
}
cursorx = DC->cursorx;
if (cursorx < x) {
cursorx = x;
} else if (cursorx > x + SLIDER_WIDTH) {
cursorx = x + SLIDER_WIDTH;
}
value = cursorx - x;
value /= SLIDER_WIDTH;
value *= (editDef->maxVal - editDef->minVal);
value += editDef->minVal;
DC->setCVar(si->item->cvar, va("%f", value));
}
void Item_StartCapture(itemDef_t *item, int key)
{
int flags;
switch (item->type)
{
case ITEM_TYPE_EDITFIELD:
case ITEM_TYPE_NUMERICFIELD:
case ITEM_TYPE_LISTBOX:
{
flags = Item_ListBox_OverLB(item, DC->cursorx, DC->cursory);
if (flags & (WINDOW_LB_LEFTARROW | WINDOW_LB_RIGHTARROW)) {
scrollInfo.nextScrollTime = DC->realTime + SCROLL_TIME_START;
scrollInfo.nextAdjustTime = DC->realTime + SCROLL_TIME_ADJUST;
scrollInfo.adjustValue = SCROLL_TIME_START;
scrollInfo.scrollKey = key;
scrollInfo.scrollDir = (flags & WINDOW_LB_LEFTARROW) ? qtrue : qfalse;
scrollInfo.item = item;
captureData = &scrollInfo;
captureFunc = &Scroll_ListBox_AutoFunc;
itemCapture = item;
} else if (flags & WINDOW_LB_THUMB) {
scrollInfo.scrollKey = key;
scrollInfo.item = item;
scrollInfo.xStart = DC->cursorx;
scrollInfo.yStart = DC->cursory;
captureData = &scrollInfo;
captureFunc = &Scroll_ListBox_ThumbFunc;
itemCapture = item;
}
break;
}
case ITEM_TYPE_TEXTSCROLL:
flags = Item_TextScroll_OverLB (item, DC->cursorx, DC->cursory);
if (flags & (WINDOW_LB_LEFTARROW | WINDOW_LB_RIGHTARROW))
{
scrollInfo.nextScrollTime = DC->realTime + SCROLL_TIME_START;
scrollInfo.nextAdjustTime = DC->realTime + SCROLL_TIME_ADJUST;
scrollInfo.adjustValue = SCROLL_TIME_START;
scrollInfo.scrollKey = key;
scrollInfo.scrollDir = (flags & WINDOW_LB_LEFTARROW) ? qtrue : qfalse;
scrollInfo.item = item;
captureData = &scrollInfo;
captureFunc = &Scroll_TextScroll_AutoFunc;
itemCapture = item;
}
else if (flags & WINDOW_LB_THUMB)
{
scrollInfo.scrollKey = key;
scrollInfo.item = item;
scrollInfo.xStart = DC->cursorx;
scrollInfo.yStart = DC->cursory;
captureData = &scrollInfo;
captureFunc = &Scroll_TextScroll_ThumbFunc;
itemCapture = item;
}
break;
case ITEM_TYPE_SLIDER:
{
flags = Item_Slider_OverSlider(item, DC->cursorx, DC->cursory);
if (flags & WINDOW_LB_THUMB) {
scrollInfo.scrollKey = key;
scrollInfo.item = item;
scrollInfo.xStart = DC->cursorx;
scrollInfo.yStart = DC->cursory;
captureData = &scrollInfo;
captureFunc = &Scroll_Slider_ThumbFunc;
itemCapture = item;
}
break;
}
}
}
void Item_StopCapture(itemDef_t *item) {
}
qboolean Item_Slider_HandleKey(itemDef_t *item, int key, qboolean down) {
float x, value, width, work;
//DC->Print("slider handle key\n");
//JLF MPMOVED
#ifndef _XBOX
if (item->window.flags & WINDOW_HASFOCUS && item->cvar && Rect_ContainsPoint(&item->window.rect, DC->cursorx, DC->cursory)) {
if (key == A_MOUSE1 || key == A_ENTER || key == A_MOUSE2 || key == A_MOUSE3) {
editFieldDef_t *editDef = (editFieldDef_t *) item->typeData;
if (editDef) {
rectDef_t testRect;
width = SLIDER_WIDTH;
if (item->text) {
x = item->textRect.x + item->textRect.w + 8;
} else {
x = item->window.rect.x;
}
testRect = item->window.rect;
testRect.x = x;
value = (float)SLIDER_THUMB_WIDTH / 2;
testRect.x -= value;
//DC->Print("slider x: %f\n", testRect.x);
testRect.w = (SLIDER_WIDTH + (float)SLIDER_THUMB_WIDTH / 2);
//DC->Print("slider w: %f\n", testRect.w);
if (Rect_ContainsPoint(&testRect, DC->cursorx, DC->cursory)) {
work = DC->cursorx - x;
value = work / width;
value *= (editDef->maxVal - editDef->minVal);
// vm fuckage
// value = (((float)(DC->cursorx - x)/ SLIDER_WIDTH) * (editDef->maxVal - editDef->minVal));
value += editDef->minVal;
DC->setCVar(item->cvar, va("%f", value));
return qtrue;
}
}
}
}
#else //def _XBOX
//JLF
if (item->window.flags & WINDOW_HASFOCUS && item->cvar)
{
if (key == A_CURSOR_LEFT)
{
editFieldDef_t *editDef = (editFieldDef_s *) item->typeData;
if (editDef)
{
value = DC->getCVarValue(item->cvar);
value -= (editDef->maxVal-editDef->minVal)/TICK_COUNT;
if ( value < editDef->minVal)
value = editDef->minVal;
DC->setCVar(item->cvar, va("%f", value));
return qtrue;
}
}
if (key == A_CURSOR_RIGHT)
{
editFieldDef_t *editDef = (editFieldDef_s *) item->typeData;
if (editDef)
{
value = DC->getCVarValue(item->cvar);
value += (editDef->maxVal-editDef->minVal)/TICK_COUNT;
if ( value > editDef->maxVal)
value = editDef->maxVal;
DC->setCVar(item->cvar, va("%f", value));
return qtrue;
}
}
}
#endif
DC->Print("slider handle key exit\n");
return qfalse;
}
qboolean Item_HandleKey(itemDef_t *item, int key, qboolean down) {
if (itemCapture) {
Item_StopCapture(itemCapture);
itemCapture = NULL;
captureFunc = 0;
captureData = NULL;
} else {
// bk001206 - parentheses
if ( down && ( key == A_MOUSE1 || key == A_MOUSE2 || key == A_MOUSE3 ) ) {
Item_StartCapture(item, key);
}
}
if (!down) {
return qfalse;
}
switch (item->type) {
case ITEM_TYPE_BUTTON:
#ifdef _XBOX
return Item_Button_HandleKey(item, key);
#else
return qfalse;
#endif
break;
case ITEM_TYPE_RADIOBUTTON:
return qfalse;
break;
case ITEM_TYPE_CHECKBOX:
return qfalse;
break;
case ITEM_TYPE_EDITFIELD:
case ITEM_TYPE_NUMERICFIELD:
if (key == A_MOUSE1 || key == A_MOUSE2 || key == A_ENTER)
{
editFieldDef_t *editPtr = (editFieldDef_t*)item->typeData;
if (item->cvar && editPtr)
{
editPtr->paintOffset = 0;
}
//return Item_TextField_HandleKey(item, key);
}
return qfalse;
break;
case ITEM_TYPE_COMBO:
return qfalse;
break;
case ITEM_TYPE_LISTBOX:
return Item_ListBox_HandleKey(item, key, down, qfalse);
break;
case ITEM_TYPE_TEXTSCROLL:
return Item_TextScroll_HandleKey(item, key, down, qfalse);
break;
case ITEM_TYPE_YESNO:
return Item_YesNo_HandleKey(item, key);
break;
case ITEM_TYPE_MULTI:
return Item_Multi_HandleKey(item, key);
break;
case ITEM_TYPE_OWNERDRAW:
return Item_OwnerDraw_HandleKey(item, key);
break;
case ITEM_TYPE_BIND:
return Item_Bind_HandleKey(item, key, down);
break;
case ITEM_TYPE_SLIDER:
return Item_Slider_HandleKey(item, key, down);
break;
#ifdef _XBOX
case ITEM_TYPE_TEXT:
return Item_Text_HandleKey(item, key);
break;
#endif
//case ITEM_TYPE_IMAGE:
// Item_Image_Paint(item);
// break;
default:
return qfalse;
break;
}
//return qfalse;
}
//JLFACCEPT MPMOVED
/*
-----------------------------------------
Item_HandleAccept
If Item has an accept script, run it.
-------------------------------------------
*/
qboolean Item_HandleAccept(itemDef_t * item)
{
if (item->accept)
{
Item_RunScript(item, item->accept);
return qtrue;
}
return qfalse;
}
#ifdef _XBOX // Xbox-only event handlers
//JLFDPADSCRIPT MPMOVED
/*
-----------------------------------------
Item_HandleSelectionNext
If Item has an selectionNext script, run it.
-------------------------------------------
*/
qboolean Item_HandleSelectionNext(itemDef_t * item)
{
if (item->selectionNext)
{
Item_RunScript(item, item->selectionNext);
return qtrue;
}
return qfalse;
}
//JLFDPADSCRIPT MPMOVED
/*
-----------------------------------------
Item_HandleSelectionPrev
If Item has an selectionPrev script, run it.
-------------------------------------------
*/
qboolean Item_HandleSelectionPrev(itemDef_t * item)
{
if (item->selectionPrev)
{
Item_RunScript(item, item->selectionPrev);
return qtrue;
}
return qfalse;
}
//JLF END
#endif // _XBOX
void Item_Action(itemDef_t *item) {
if (item) {
Item_RunScript(item, item->action);
}
}
itemDef_t *Menu_SetPrevCursorItem(menuDef_t *menu) {
qboolean wrapped = qfalse;
int oldCursor = menu->cursorItem;
if (menu->cursorItem < 0) {
menu->cursorItem = menu->itemCount-1;
wrapped = qtrue;
}
while (menu->cursorItem > -1)
{
menu->cursorItem--;
if (menu->cursorItem < 0) {
if (wrapped)
{
break;
}
wrapped = qtrue;
menu->cursorItem = menu->itemCount -1;
}
if (Item_SetFocus(menu->items[menu->cursorItem], DC->cursorx, DC->cursory)) {
Menu_HandleMouseMove(menu, menu->items[menu->cursorItem]->window.rect.x + 1, menu->items[menu->cursorItem]->window.rect.y + 1);
return menu->items[menu->cursorItem];
}
}
menu->cursorItem = oldCursor;
return NULL;
}
itemDef_t *Menu_SetNextCursorItem(menuDef_t *menu) {
qboolean wrapped = qfalse;
int oldCursor = menu->cursorItem;
if (menu->cursorItem == -1) {
menu->cursorItem = 0;
wrapped = qtrue;
}
while (menu->cursorItem < menu->itemCount) {
menu->cursorItem++;
if (menu->cursorItem >= menu->itemCount && !wrapped) {
wrapped = qtrue;
menu->cursorItem = 0;
}
if (Item_SetFocus(menu->items[menu->cursorItem], DC->cursorx, DC->cursory)) {
Menu_HandleMouseMove(menu, menu->items[menu->cursorItem]->window.rect.x + 1, menu->items[menu->cursorItem]->window.rect.y + 1);
return menu->items[menu->cursorItem];
}
}
menu->cursorItem = oldCursor;
return NULL;
}
static void Window_CloseCinematic(windowDef_t *window) {
if (window->style == WINDOW_STYLE_CINEMATIC && window->cinematic >= 0) {
DC->stopCinematic(window->cinematic);
window->cinematic = -1;
}
}
static void Menu_CloseCinematics(menuDef_t *menu) {
if (menu) {
int i;
Window_CloseCinematic(&menu->window);
for (i = 0; i < menu->itemCount; i++) {
Window_CloseCinematic(&menu->items[i]->window);
if (menu->items[i]->type == ITEM_TYPE_OWNERDRAW) {
DC->stopCinematic(0-menu->items[i]->window.ownerDraw);
}
}
}
}
static void Display_CloseCinematics() {
int i;
for (i = 0; i < menuCount; i++) {
Menu_CloseCinematics(&Menus[i]);
}
}
void Menus_Activate(menuDef_t *menu) {
//JLFCALLOUT MPMOVED
#ifdef _XBOX
DC->setCVar("ui_hideAcallout" ,"0");
DC->setCVar("ui_hideBcallout" ,"0");
DC->setCVar("ui_hideCcallout" ,"0");
#endif
//JLF END
menu->window.flags |= (WINDOW_HASFOCUS | WINDOW_VISIBLE);
if (menu->onOpen) {
itemDef_t item;
item.parent = menu;
Item_RunScript(&item, menu->onOpen);
}
if (menu->soundName && *menu->soundName) {
// DC->stopBackgroundTrack(); // you don't want to do this since it will reset s_rawend
DC->startBackgroundTrack(menu->soundName, menu->soundName, qfalse);
}
menu->appearanceTime = 0;
Display_CloseCinematics();
}
int Display_VisibleMenuCount() {
int i, count;
count = 0;
for (i = 0; i < menuCount; i++) {
if (Menus[i].window.flags & (WINDOW_FORCED | WINDOW_VISIBLE)) {
count++;
}
}
return count;
}
void Menus_HandleOOBClick(menuDef_t *menu, int key, qboolean down) {
if (menu) {
//JLFMOUSE
#ifdef _XBOX
Menu_HandleMouseMove(menu, DC->cursorx, DC->cursory);
Menu_HandleKey(menu, key, down);
return;
#endif
int i;
// basically the behaviour we are looking for is if there are windows in the stack.. see if
// the cursor is within any of them.. if not close them otherwise activate them and pass the
// key on.. force a mouse move to activate focus and script stuff
if (down && menu->window.flags & WINDOW_OOB_CLICK) {
Menu_RunCloseScript(menu);
menu->window.flags &= ~(WINDOW_HASFOCUS | WINDOW_VISIBLE);
}
for (i = 0; i < menuCount; i++) {
if (Menu_OverActiveItem(&Menus[i], DC->cursorx, DC->cursory)) {
Menu_RunCloseScript(menu);
menu->window.flags &= ~(WINDOW_HASFOCUS | WINDOW_VISIBLE);
Menus_Activate(&Menus[i]);
Menu_HandleMouseMove(&Menus[i], DC->cursorx, DC->cursory);
Menu_HandleKey(&Menus[i], key, down);
}
}
if (Display_VisibleMenuCount() == 0) {
if (DC->Pause) {
DC->Pause(qfalse);
}
}
Display_CloseCinematics();
}
}
void Menu_HandleKey(menuDef_t *menu, int key, qboolean down) {
int i;
itemDef_t *item = NULL;
qboolean inHandler = qfalse;
if (inHandler) {
return;
}
inHandler = qtrue;
if (g_waitingForKey && down) {
Item_Bind_HandleKey(g_bindItem, key, down);
inHandler = qfalse;
return;
}
if (g_editingField && down)
{
if (!Item_TextField_HandleKey(g_editItem, key))
{
g_editingField = qfalse;
g_editItem = NULL;
inHandler = qfalse;
return;
}
else if (key == A_MOUSE1 || key == A_MOUSE2 || key == A_MOUSE3)
{
// switching fields so reset printed text of edit field
Leaving_EditField(g_editItem);
g_editingField = qfalse;
g_editItem = NULL;
Display_MouseMove(NULL, DC->cursorx, DC->cursory);
}
else if (key == A_TAB || key == A_CURSOR_UP || key == A_CURSOR_DOWN)
{
return;
}
}
if (menu == NULL) {
inHandler = qfalse;
return;
}
//JLFMOUSE
// see if the mouse is within the window bounds and if so is this a mouse click
#ifndef _XBOX
if (down && !(menu->window.flags & WINDOW_POPUP) && !Rect_ContainsPoint(&menu->window.rect, DC->cursorx, DC->cursory))
#else
if (down)
#endif
{
static qboolean inHandleKey = qfalse;
// bk001206 - parentheses
if (!inHandleKey && ( key == A_MOUSE1 || key == A_MOUSE2 || key == A_MOUSE3 ) ) {
inHandleKey = qtrue;
Menus_HandleOOBClick(menu, key, down);
inHandleKey = qfalse;
inHandler = qfalse;
return;
}
}
// get the item with focus
for (i = 0; i < menu->itemCount; i++) {
if (menu->items[i]->window.flags & WINDOW_HASFOCUS) {
item = menu->items[i];
}
}
// Ignore if disabled
if (item && item->disabled)
{
return;
}
if (item != NULL) {
if (Item_HandleKey(item, key, down))
{
#ifdef _XBOX
if (key == A_MOUSE1 || key == A_MOUSE2 ||(item->type == ITEM_TYPE_MULTI && (key == A_CURSOR_RIGHT || key == A_CURSOR_LEFT)))
{
#endif
// It is possible for an item to be disable after Item_HandleKey is run (like in Voice Chat)
if (!item->disabled)
{
Item_Action(item);
}
#ifdef _XBOX
}
#endif
inHandler = qfalse;
return;
}
}
if (!down) {
inHandler = qfalse;
return;
}
// default handling
switch ( key ) {
case A_F11:
if (DC->getCVarValue("developer")) {
debugMode ^= 1;
}
break;
case A_F12:
if (DC->getCVarValue("developer")) {
DC->executeText(EXEC_APPEND, "screenshot\n");
}
break;
case A_KP_8:
case A_CURSOR_UP:
Menu_SetPrevCursorItem(menu);
break;
case A_ESCAPE:
if (!g_waitingForKey && menu->onESC) {
itemDef_t it;
it.parent = menu;
Item_RunScript(&it, menu->onESC);
}
g_waitingForKey = qfalse;
break;
case A_TAB:
case A_KP_2:
case A_CURSOR_DOWN:
Menu_SetNextCursorItem(menu);
break;
case A_MOUSE1:
case A_MOUSE2:
if (item) {
if (item->type == ITEM_TYPE_TEXT) {
//JLFMOUSE
#ifndef _XBOX
if (Rect_ContainsPoint(&item->window.rect, DC->cursorx, DC->cursory))
#endif
{
Item_Action(item);
}
} else if (item->type == ITEM_TYPE_EDITFIELD || item->type == ITEM_TYPE_NUMERICFIELD) {
//JLFMOUSE
#ifndef _XBOX
if (Rect_ContainsPoint(&item->window.rect, DC->cursorx, DC->cursory))
#endif
{
Item_Action(item);
item->cursorPos = 0;
g_editingField = qtrue;
g_editItem = item;
DC->setOverstrikeMode(qtrue);
}
}
//JLFACCEPT
// add new types here as needed
/* Notes:
Most controls will use the dpad to move through the selection possibilies. Buttons are the only exception.
Buttons will be assumed to all be on one menu together. If the start or A button is pressed on a control focus, that
means that the menu is accepted and move onto the next menu. If the start or A button is pressed on a button focus it
should just process the action and not support the accept functionality.
*/
//JLFACCEPT MPMOVED
else if ( item->type == ITEM_TYPE_MULTI || item->type == ITEM_TYPE_YESNO || item->type == ITEM_TYPE_SLIDER)
{
if (Item_HandleAccept(item))
{
//Item processed it overriding the menu processing
return;
}
else if (menu->onAccept)
{
itemDef_t it;
it.parent = menu;
Item_RunScript(&it, menu->onAccept);
}
}
//END JLFACCEPT
else {
//JLFMOUSE
#ifndef _XBOX
if (Rect_ContainsPoint(&item->window.rect, DC->cursorx, DC->cursory))
#endif
{
Item_Action(item);
}
}
}
break;
case A_JOY0:
case A_JOY1:
case A_JOY2:
case A_JOY3:
case A_JOY4:
case A_AUX0:
case A_AUX1:
case A_AUX2:
case A_AUX3:
case A_AUX4:
case A_AUX5:
case A_AUX6:
case A_AUX7:
case A_AUX8:
case A_AUX9:
case A_AUX10:
case A_AUX11:
case A_AUX12:
case A_AUX13:
case A_AUX14:
case A_AUX15:
case A_AUX16:
break;
case A_KP_ENTER:
case A_ENTER:
if (item) {
if (item->type == ITEM_TYPE_EDITFIELD || item->type == ITEM_TYPE_NUMERICFIELD) {
item->cursorPos = 0;
g_editingField = qtrue;
g_editItem = item;
DC->setOverstrikeMode(qtrue);
} else {
Item_Action(item);
}
}
break;
}
inHandler = qfalse;
}
void ToWindowCoords(float *x, float *y, windowDef_t *window) {
if (window->border != 0) {
*x += window->borderSize;
*y += window->borderSize;
}
*x += window->rect.x;
*y += window->rect.y;
}
void Rect_ToWindowCoords(rectDef_t *rect, windowDef_t *window) {
ToWindowCoords(&rect->x, &rect->y, window);
}
void Item_SetTextExtents(itemDef_t *item, int *width, int *height, const char *text) {
const char *textPtr = (text) ? text : item->text;
if (textPtr == NULL ) {
return;
}
*width = item->textRect.w;
*height = item->textRect.h;
// keeps us from computing the widths and heights more than once
if (*width == 0 || (item->type == ITEM_TYPE_OWNERDRAW && item->textalignment == ITEM_ALIGN_CENTER)
#ifndef CGAME
|| (item->text && item->text[0]=='@' && item->asset != se_language.modificationCount ) //string package language changed
#endif
)
{
int originalWidth = DC->textWidth(textPtr, item->textscale, item->iMenuFont);
if (item->type == ITEM_TYPE_OWNERDRAW && (item->textalignment == ITEM_ALIGN_CENTER || item->textalignment == ITEM_ALIGN_RIGHT))
{
originalWidth += DC->ownerDrawWidth(item->window.ownerDraw, item->textscale);
}
else if (item->type == ITEM_TYPE_EDITFIELD && item->textalignment == ITEM_ALIGN_CENTER && item->cvar)
{
char buff[256];
DC->getCVarString(item->cvar, buff, 256);
originalWidth += DC->textWidth(buff, item->textscale, item->iMenuFont);
}
*width = DC->textWidth(textPtr, item->textscale, item->iMenuFont);
*height = DC->textHeight(textPtr, item->textscale, item->iMenuFont);
item->textRect.w = *width;
item->textRect.h = *height;
item->textRect.x = item->textalignx;
item->textRect.y = item->textaligny;
if (item->textalignment == ITEM_ALIGN_RIGHT) {
item->textRect.x = item->textalignx - originalWidth;
} else if (item->textalignment == ITEM_ALIGN_CENTER) {
item->textRect.x = item->textalignx - originalWidth / 2;
}
ToWindowCoords(&item->textRect.x, &item->textRect.y, &item->window);
#ifndef CGAME
if (item->text && item->text[0]=='@' )//string package
{//mark language
item->asset = se_language.modificationCount;
}
#endif
}
}
void Item_TextColor(itemDef_t *item, vec4_t *newColor) {
vec4_t lowLight;
menuDef_t *parent = (menuDef_t*)item->parent;
Fade(&item->window.flags, &item->window.foreColor[3], parent->fadeClamp, &item->window.nextTime, parent->fadeCycle, qtrue, parent->fadeAmount);
if (item->window.flags & WINDOW_HASFOCUS) {
lowLight[0] = 0.8 * parent->focusColor[0];
lowLight[1] = 0.8 * parent->focusColor[1];
lowLight[2] = 0.8 * parent->focusColor[2];
lowLight[3] = 0.8 * parent->focusColor[3];
LerpColor(parent->focusColor,lowLight,*newColor,0.5+0.5*sin((float)(DC->realTime / PULSE_DIVISOR)));
} else if (item->textStyle == ITEM_TEXTSTYLE_BLINK && !((DC->realTime/BLINK_DIVISOR) & 1)) {
lowLight[0] = 0.8 * item->window.foreColor[0];
lowLight[1] = 0.8 * item->window.foreColor[1];
lowLight[2] = 0.8 * item->window.foreColor[2];
lowLight[3] = 0.8 * item->window.foreColor[3];
LerpColor(item->window.foreColor,lowLight,*newColor,0.5+0.5*sin((float)(DC->realTime / PULSE_DIVISOR)));
} else {
memcpy(newColor, &item->window.foreColor, sizeof(vec4_t));
// items can be enabled and disabled based on cvars
}
if (item->disabled)
{
memcpy(newColor, &parent->disableColor, sizeof(vec4_t));
}
if (item->enableCvar && *item->enableCvar && item->cvarTest && *item->cvarTest) {
if (item->cvarFlags & (CVAR_ENABLE | CVAR_DISABLE) && !Item_EnableShowViaCvar(item, CVAR_ENABLE)) {
memcpy(newColor, &parent->disableColor, sizeof(vec4_t));
}
}
}
void Item_Text_AutoWrapped_Paint(itemDef_t *item) {
char text[2048];
const char *p, *textPtr, *newLinePtr;
char buff[2048];
int height, len, textWidth, newLine, newLineWidth; //int width;
float y;
vec4_t color;
textWidth = 0;
newLinePtr = NULL;
if (item->text == NULL) {
if (item->cvar == NULL) {
return;
}
else {
DC->getCVarString(item->cvar, text, sizeof(text));
textPtr = text;
}
}
else {
textPtr = item->text;
}
if (*textPtr == '@') // string reference
{
trap_SP_GetStringTextString( &textPtr[1], text, sizeof(text));
textPtr = text;
}
if (*textPtr == '\0') {
return;
}
Item_TextColor(item, &color);
//Item_SetTextExtents(item, &width, &height, textPtr);
//if (item->value == 0)
//{
// item->value = (int)(0.5 + (float)DC->textWidth(textPtr, item->textscale, item->font) / item->window.rect.w);
//}
height = DC->textHeight(textPtr, item->textscale, item->iMenuFont);
y = item->textaligny;
len = 0;
buff[0] = '\0';
newLine = 0;
newLineWidth = 0;
p = textPtr;
while (p) { //findmeste (this will break widechar languages)!
if (*p == ' ' || *p == '\t' || *p == '\n' || *p == '\0') {
newLine = len;
newLinePtr = p+1;
newLineWidth = textWidth;
}
textWidth = DC->textWidth(buff, item->textscale, 0);
if ( (newLine && textWidth > item->window.rect.w) || *p == '\n' || *p == '\0') {
if (len) {
if (item->textalignment == ITEM_ALIGN_LEFT) {
item->textRect.x = item->textalignx;
} else if (item->textalignment == ITEM_ALIGN_RIGHT) {
item->textRect.x = item->textalignx - newLineWidth;
} else if (item->textalignment == ITEM_ALIGN_CENTER) {
item->textRect.x = item->textalignx - newLineWidth / 2;
}
item->textRect.y = y;
ToWindowCoords(&item->textRect.x, &item->textRect.y, &item->window);
//
buff[newLine] = '\0';
DC->drawText(item->textRect.x, item->textRect.y, item->textscale, color, buff, 0, 0, item->textStyle, item->iMenuFont);
}
if (*p == '\0') {
break;
}
//
y += height + 5;
p = newLinePtr;
len = 0;
newLine = 0;
newLineWidth = 0;
continue;
}
buff[len++] = *p++;
buff[len] = '\0';
}
}
void Item_Text_Wrapped_Paint(itemDef_t *item) {
char text[1024];
const char *p, *start, *textPtr;
char buff[1024];
int width, height;
float x, y;
vec4_t color;
// now paint the text and/or any optional images
// default to left
if (item->text == NULL) {
if (item->cvar == NULL) {
return;
}
else {
DC->getCVarString(item->cvar, text, sizeof(text));
textPtr = text;
}
}
else {
textPtr = item->text;
}
if (*textPtr == '@') // string reference
{
trap_SP_GetStringTextString( &textPtr[1], text, sizeof(text));
textPtr = text;
}
if (*textPtr == '\0') {
return;
}
Item_TextColor(item, &color);
Item_SetTextExtents(item, &width, &height, textPtr);
x = item->textRect.x;
y = item->textRect.y;
start = textPtr;
p = strchr(textPtr, '\r');
while (p && *p) {
strncpy(buff, start, p-start+1);
buff[p-start] = '\0';
DC->drawText(x, y, item->textscale, color, buff, 0, 0, item->textStyle, item->iMenuFont);
y += height + 2;
start += p - start + 1;
p = strchr(p+1, '\r');
}
DC->drawText(x, y, item->textscale, color, start, 0, 0, item->textStyle, item->iMenuFont);
}
void Item_Text_Paint(itemDef_t *item) {
char text[1024];
const char *textPtr;
int height, width;
vec4_t color;
if (item->window.flags & WINDOW_WRAPPED) {
Item_Text_Wrapped_Paint(item);
return;
}
if (item->window.flags & WINDOW_AUTOWRAPPED) {
Item_Text_AutoWrapped_Paint(item);
return;
}
if (item->text == NULL) {
if (item->cvar == NULL) {
return;
}
else {
DC->getCVarString(item->cvar, text, sizeof(text));
textPtr = text;
}
}
else {
textPtr = item->text;
}
if (*textPtr == '@') // string reference
{
trap_SP_GetStringTextString( &textPtr[1], text, sizeof(text));
textPtr = text;
}
// this needs to go here as it sets extents for cvar types as well
Item_SetTextExtents(item, &width, &height, textPtr);
if (*textPtr == '\0') {
return;
}
Item_TextColor(item, &color);
DC->drawText(item->textRect.x, item->textRect.y, item->textscale, color, textPtr, 0, 0, item->textStyle, item->iMenuFont);
if (item->text2) // Is there a second line of text?
{
textPtr = item->text2;
if (*textPtr == '@') // string reference
{
trap_SP_GetStringTextString( &textPtr[1], text, sizeof(text));
textPtr = text;
}
Item_TextColor(item, &color);
DC->drawText(item->textRect.x + item->text2alignx, item->textRect.y + item->text2aligny, item->textscale, color, textPtr, 0, 0, item->textStyle,item->iMenuFont);
}
}
//float trap_Cvar_VariableValue( const char *var_name );
//void trap_Cvar_VariableStringBuffer( const char *var_name, char *buffer, int bufsize );
void Item_TextField_Paint(itemDef_t *item) {
char buff[1024];
vec4_t newColor, lowLight;
int offset;
menuDef_t *parent = (menuDef_t*)item->parent;
editFieldDef_t *editPtr = (editFieldDef_t*)item->typeData;
Item_Text_Paint(item);
buff[0] = '\0';
if (item->cvar) {
DC->getCVarString(item->cvar, buff, sizeof(buff));
if (buff[0] == '@') // string reference
{
trap_SP_GetStringTextString( &buff[1], buff, sizeof(buff));
}
}
parent = (menuDef_t*)item->parent;
if (item->window.flags & WINDOW_HASFOCUS) {
lowLight[0] = 0.8 * parent->focusColor[0];
lowLight[1] = 0.8 * parent->focusColor[1];
lowLight[2] = 0.8 * parent->focusColor[2];
lowLight[3] = 0.8 * parent->focusColor[3];
LerpColor(parent->focusColor,lowLight,newColor,0.5+0.5*sin((float)(DC->realTime / PULSE_DIVISOR)));
} else {
memcpy(&newColor, &item->window.foreColor, sizeof(vec4_t));
}
offset = (item->text && *item->text) ? 8 : 0;
if (item->window.flags & WINDOW_HASFOCUS && g_editingField) {
char cursor = DC->getOverstrikeMode() ? '_' : '|';
DC->drawTextWithCursor(item->textRect.x + item->textRect.w + offset, item->textRect.y, item->textscale, newColor, buff + editPtr->paintOffset, item->cursorPos - editPtr->paintOffset , cursor, item->window.rect.w, item->textStyle, item->iMenuFont);
} else {
DC->drawText(item->textRect.x + item->textRect.w + offset, item->textRect.y, item->textscale, newColor, buff + editPtr->paintOffset, 0, item->window.rect.w, item->textStyle,item->iMenuFont);
}
}
void Item_YesNo_Paint(itemDef_t *item) {
char sYES[20];
char sNO[20];
vec4_t newColor, lowLight;
float value;
menuDef_t *parent = (menuDef_t*)item->parent;
const char *yesnovalue;
value = (item->cvar) ? DC->getCVarValue(item->cvar) : 0;
if (item->window.flags & WINDOW_HASFOCUS) {
lowLight[0] = 0.8 * parent->focusColor[0];
lowLight[1] = 0.8 * parent->focusColor[1];
lowLight[2] = 0.8 * parent->focusColor[2];
lowLight[3] = 0.8 * parent->focusColor[3];
LerpColor(parent->focusColor,lowLight,newColor,0.5+0.5*sin((float)(DC->realTime / PULSE_DIVISOR)));
} else {
memcpy(&newColor, &item->window.foreColor, sizeof(vec4_t));
}
trap_SP_GetStringTextString("MENUS_YES",sYES, sizeof(sYES));
trap_SP_GetStringTextString("MENUS_NO", sNO, sizeof(sNO));
//JLFYESNO MPMOVED
if (item->invertYesNo)
yesnovalue = (value == 0) ? sYES : sNO;
else
yesnovalue = (value != 0) ? sYES : sNO;
if (item->text)
{
Item_Text_Paint(item);
//JLF MPMOVED
#ifdef _XBOX
if (item->xoffset == 0)
DC->drawText(item->textRect.x + item->textRect.w + item->xoffset + 8, item->textRect.y, item->textscale, newColor, yesnovalue, 0, 0,item->textStyle, item->iMenuFont);
else
#endif
DC->drawText(item->textRect.x + item->textRect.w + 8, item->textRect.y, item->textscale, newColor, yesnovalue, 0, 0, item->textStyle, item->iMenuFont);
}
else
{
//JLF MPMOVED
#ifdef _XBOX
DC->drawText(item->textRect.x + item->xoffset, item->textRect.y, item->textscale, newColor, yesnovalue , 0, 0, item->textStyle, item->iMenuFont);
#else
DC->drawText(item->textRect.x, item->textRect.y, item->textscale, newColor, yesnovalue , 0, 0, item->textStyle, item->iMenuFont);
#endif
}
/* JLF ORIGINAL CODE
if (item->text) {
Item_Text_Paint(item);
// DC->drawText(item->textRect.x + item->textRect.w + 8, item->textRect.y, item->textscale, newColor, (value != 0) ? sYES : sNO, 0, 0, item->textStyle);
DC->drawText(item->textRect.x + item->textRect.w + 8, item->textRect.y, item->textscale, newColor, (value != 0) ? sYES : sNO, 0, 0, item->textStyle,item->iMenuFont);
} else {
// DC->drawText(item->textRect.x, item->textRect.y, item->textscale, newColor, (value != 0) ? sYES : sNO, 0, 0, item->textStyle);
DC->drawText(item->textRect.x, item->textRect.y, item->textscale, newColor, (value != 0) ? sYES : sNO, 0, 0, item->textStyle,item->iMenuFont);
}
*/
}
void Item_Multi_Paint(itemDef_t *item) {
vec4_t newColor, lowLight;
const char *text = "";
menuDef_t *parent = (menuDef_t*)item->parent;
char temp[MAX_STRING_CHARS];
if (item->window.flags & WINDOW_HASFOCUS) {
lowLight[0] = 0.8 * parent->focusColor[0];
lowLight[1] = 0.8 * parent->focusColor[1];
lowLight[2] = 0.8 * parent->focusColor[2];
lowLight[3] = 0.8 * parent->focusColor[3];
LerpColor(parent->focusColor,lowLight,newColor,0.5+0.5*sin((float)(DC->realTime / PULSE_DIVISOR)));
} else {
memcpy(&newColor, &item->window.foreColor, sizeof(vec4_t));
}
text = Item_Multi_Setting(item);
if (*text == '@') // string reference
{
trap_SP_GetStringTextString( &text[1] , temp, sizeof(temp));
text = temp;
}
// Is is specifying a cvar to get the item name from?
else if (*text == '*')
{
DC->getCVarString(&text[1], temp, sizeof(temp));
text = temp;
}
if (item->text) {
Item_Text_Paint(item);
//JLF MPMOVED
#ifdef _XBOX
if ( item->xoffset)
DC->drawText(item->textRect.x + item->textRect.w + item->xoffset, item->textRect.y, item->textscale, newColor, text, 0,0, item->textStyle, item->iMenuFont);
else
#endif
DC->drawText(item->textRect.x + item->textRect.w + 8, item->textRect.y, item->textscale, newColor, text, 0, 0, item->textStyle,item->iMenuFont);
} else {
//JLF added xoffset
DC->drawText(item->textRect.x+item->xoffset, item->textRect.y, item->textscale, newColor, text, 0, 0, item->textStyle,item->iMenuFont);
}
}
typedef struct {
char *command;
int id;
int defaultbind1;
int defaultbind2;
int bind1;
int bind2;
} bind_t;
typedef struct
{
char* name;
float defaultvalue;
float value;
} configcvar_t;
static bind_t g_bindings[] =
{
{"+scores", A_TAB, -1, -1, -1},
{"+button2", A_ENTER, -1, -1, -1},
{"+speed", A_SHIFT, -1, -1, -1},
{"+forward", A_CURSOR_UP, -1, -1, -1},
{"+back", A_CURSOR_DOWN, -1, -1, -1},
{"+moveleft", ',', -1, -1, -1},
{"+moveright", '.', -1, -1, -1},
{"+moveup", A_SPACE, -1, -1, -1},
{"+movedown", 'c', -1, -1, -1},
{"+left", A_CURSOR_LEFT, -1, -1, -1},
{"+right", A_CURSOR_RIGHT, -1, -1, -1},
{"+strafe", A_ALT, -1, -1, -1},
{"+lookup", A_PAGE_DOWN, -1, -1, -1},
{"+lookdown", A_DELETE, -1, -1, -1},
{"+mlook", '/', -1, -1, -1},
{"centerview", A_END, -1, -1, -1},
// {"+zoom", -1, -1, -1, -1},
{"weapon 1", '1', -1, -1, -1},
{"weapon 2", '2', -1, -1, -1},
{"weapon 3", '3', -1, -1, -1},
{"weapon 4", '4', -1, -1, -1},
{"weapon 5", '5', -1, -1, -1},
{"weapon 6", '6', -1, -1, -1},
{"weapon 7", '7', -1, -1, -1},
{"weapon 8", '8', -1, -1, -1},
{"weapon 9", '9', -1, -1, -1},
{"weapon 10", '0', -1, -1, -1},
{"saberAttackCycle", 'l', -1, -1, -1},
{"weapon 11", -1, -1, -1, -1},
{"weapon 12", -1, -1, -1, -1},
{"weapon 13", -1, -1, -1, -1},
{"+attack", A_CTRL, -1, -1, -1},
{"+altattack", -1, -1, -1, -1},
{"+use", -1, -1, -1, -1},
{"engage_duel", 'h', -1, -1, -1},
{"taunt", 'u', -1, -1, -1},
{"bow", -1, -1, -1, -1},
{"meditate", -1, -1, -1, -1},
{"flourish", -1, -1, -1, -1},
{"gloat", -1, -1, -1, -1},
{"weapprev", '[', -1, -1, -1},
{"weapnext", ']', -1, -1, -1},
{"prevTeamMember", 'w', -1, -1, -1},
{"nextTeamMember", 'r', -1, -1, -1},
{"nextOrder", 't', -1, -1, -1},
{"confirmOrder", 'y', -1, -1, -1},
{"denyOrder", 'n', -1, -1, -1},
{"taskOffense", 'o', -1, -1, -1},
{"taskDefense", 'd', -1, -1, -1},
{"taskPatrol", 'p', -1, -1, -1},
{"taskCamp", 'c', -1, -1, -1},
{"taskFollow", 'f', -1, -1, -1},
{"taskRetrieve", 'v', -1, -1, -1},
{"taskEscort", 'e', -1, -1, -1},
{"taskOwnFlag", 'i', -1, -1, -1},
{"taskSuicide", 'k', -1, -1, -1},
{"tauntKillInsult", -1, -1, -1, -1},
{"tauntPraise", -1, -1, -1, -1},
{"tauntTaunt", -1, -1, -1, -1},
{"tauntDeathInsult",-1, -1, -1, -1},
{"tauntGauntlet", -1, -1, -1, -1},
{"scoresUp", A_INSERT, -1, -1, -1},
{"scoresDown", A_DELETE, -1, -1, -1},
{"messagemode", -1, -1, -1, -1},
{"messagemode2", -1, -1, -1, -1},
{"messagemode3", -1, -1, -1, -1},
{"messagemode4", -1, -1, -1, -1},
{"+use", -1, -1, -1, -1},
{"+force_jump", -1, -1, -1, -1},
{"force_throw", A_F1, -1, -1, -1},
{"force_pull", A_F2, -1, -1, -1},
{"force_speed", A_F3, -1, -1, -1},
{"force_distract", A_F4, -1, -1, -1},
{"force_heal", A_F5, -1, -1, -1},
{"+force_grip", A_F6, -1, -1, -1},
{"+force_lightning",A_F7, -1, -1, -1},
//mp only
{"+force_drain", -1, -1, -1, -1},
{"force_rage", -1, -1, -1, -1},
{"force_protect", -1, -1, -1, -1},
{"force_absorb", -1, -1, -1, -1},
{"force_healother", -1, -1, -1, -1},
{"force_forcepowerother", -1, -1, -1, -1},
{"force_seeing", -1, -1, -1, -1},
{"+useforce", -1, -1, -1, -1},
{"forcenext", -1, -1, -1, -1},
{"forceprev", -1, -1, -1, -1},
{"invnext", -1, -1, -1, -1},
{"invprev", -1, -1, -1, -1},
{"use_seeker", -1, -1, -1, -1},
{"use_field", -1, -1, -1, -1},
{"use_bacta", -1, -1, -1, -1},
{"use_electrobinoculars", -1, -1, -1, -1},
{"use_sentry", -1, -1, -1, -1},
{"cg_thirdperson !",-1, -1, -1, -1},
{"automap_button", -1, -1, -1, -1},
{"automap_toggle", -1, -1, -1, -1},
{"voicechat", -1, -1, -1, -1},
};
static const int g_bindCount = sizeof(g_bindings) / sizeof(bind_t);
/*
=================
Controls_GetKeyAssignment
=================
*/
static void Controls_GetKeyAssignment (char *command, int *twokeys)
{
int count;
int j;
char b[256];
twokeys[0] = twokeys[1] = -1;
count = 0;
for ( j = 0; j < MAX_KEYS; j++ )
{
DC->getBindingBuf( j, b, 256 );
if ( *b == 0 ) {
continue;
}
if ( !Q_stricmp( b, command ) ) {
twokeys[count] = j;
count++;
if (count == 2) {
break;
}
}
}
}
/*
=================
Controls_GetConfig
=================
*/
void Controls_GetConfig( void )
{
int i;
int twokeys[2];
// iterate each command, get its numeric binding
for (i=0; i < g_bindCount; i++)
{
Controls_GetKeyAssignment(g_bindings[i].command, twokeys);
g_bindings[i].bind1 = twokeys[0];
g_bindings[i].bind2 = twokeys[1];
}
//s_controls.invertmouse.curvalue = DC->getCVarValue( "m_pitch" ) < 0;
//s_controls.smoothmouse.curvalue = UI_ClampCvar( 0, 1, Controls_GetCvarValue( "m_filter" ) );
//s_controls.alwaysrun.curvalue = UI_ClampCvar( 0, 1, Controls_GetCvarValue( "cl_run" ) );
//s_controls.autoswitch.curvalue = UI_ClampCvar( 0, 1, Controls_GetCvarValue( "cg_autoswitch" ) );
//s_controls.sensitivity.curvalue = UI_ClampCvar( 2, 30, Controls_GetCvarValue( "sensitivity" ) );
//s_controls.joyenable.curvalue = UI_ClampCvar( 0, 1, Controls_GetCvarValue( "in_joystick" ) );
//s_controls.joythreshold.curvalue = UI_ClampCvar( 0.05, 0.75, Controls_GetCvarValue( "joy_threshold" ) );
//s_controls.freelook.curvalue = UI_ClampCvar( 0, 1, Controls_GetCvarValue( "cl_freelook" ) );
}
/*
=================
Controls_SetConfig
=================
*/
void Controls_SetConfig(qboolean restart)
{
int i;
// iterate each command, get its numeric binding
for (i=0; i < g_bindCount; i++)
{
if (g_bindings[i].bind1 != -1)
{
DC->setBinding( g_bindings[i].bind1, g_bindings[i].command );
if (g_bindings[i].bind2 != -1)
DC->setBinding( g_bindings[i].bind2, g_bindings[i].command );
}
}
//if ( s_controls.invertmouse.curvalue )
// DC->setCVar("m_pitch", va("%f),-fabs( DC->getCVarValue( "m_pitch" ) ) );
//else
// trap_Cvar_SetValue( "m_pitch", fabs( trap_Cvar_VariableValue( "m_pitch" ) ) );
//trap_Cvar_SetValue( "m_filter", s_controls.smoothmouse.curvalue );
//trap_Cvar_SetValue( "cl_run", s_controls.alwaysrun.curvalue );
//trap_Cvar_SetValue( "cg_autoswitch", s_controls.autoswitch.curvalue );
//trap_Cvar_SetValue( "sensitivity", s_controls.sensitivity.curvalue );
//trap_Cvar_SetValue( "in_joystick", s_controls.joyenable.curvalue );
//trap_Cvar_SetValue( "joy_threshold", s_controls.joythreshold.curvalue );
//trap_Cvar_SetValue( "cl_freelook", s_controls.freelook.curvalue );
//
// DC->executeText(EXEC_APPEND, "in_restart\n");
// ^--this is bad, it shows the cursor during map load, if you need to, add it as an exec cmd to use_joy or something.
}
int BindingIDFromName(const char *name) {
int i;
for (i=0; i < g_bindCount; i++)
{
if (Q_stricmp(name, g_bindings[i].command) == 0) {
return i;
}
}
return -1;
}
char g_nameBind1[32];
char g_nameBind2[32];
void BindingFromName(const char *cvar) {
int i, b1, b2;
char sOR[32];
// iterate each command, set its default binding
for (i=0; i < g_bindCount; i++)
{
if (Q_stricmp(cvar, g_bindings[i].command) == 0) {
b1 = g_bindings[i].bind1;
if (b1 == -1) {
break;
}
DC->keynumToStringBuf( b1, g_nameBind1, 32 );
// do NOT do this or it corrupts asian text!!! Q_strupr(g_nameBind1);
b2 = g_bindings[i].bind2;
if (b2 != -1)
{
DC->keynumToStringBuf( b2, g_nameBind2, 32 );
// do NOT do this or it corrupts asian text!!! Q_strupr(g_nameBind2);
trap_SP_GetStringTextString("MENUS_KEYBIND_OR",sOR, sizeof(sOR));
strcat( g_nameBind1, va(" %s ",sOR));
strcat( g_nameBind1, g_nameBind2 );
}
return;
}
}
strcpy(g_nameBind1, "???");
}
void Item_Slider_Paint(itemDef_t *item) {
vec4_t newColor, lowLight;
float x, y, value;
menuDef_t *parent = (menuDef_t*)item->parent;
value = (item->cvar) ? DC->getCVarValue(item->cvar) : 0;
if (item->window.flags & WINDOW_HASFOCUS) {
lowLight[0] = 0.8 * parent->focusColor[0];
lowLight[1] = 0.8 * parent->focusColor[1];
lowLight[2] = 0.8 * parent->focusColor[2];
lowLight[3] = 0.8 * parent->focusColor[3];
LerpColor(parent->focusColor,lowLight,newColor,0.5+0.5*sin((float)(DC->realTime / PULSE_DIVISOR)));
} else {
memcpy(&newColor, &item->window.foreColor, sizeof(vec4_t));
}
y = item->window.rect.y;
if (item->text) {
Item_Text_Paint(item);
x = item->textRect.x + item->textRect.w + 8;
} else {
x = item->window.rect.x;
}
DC->setColor(newColor);
DC->drawHandlePic( x, y, SLIDER_WIDTH, SLIDER_HEIGHT, DC->Assets.sliderBar );
x = Item_Slider_ThumbPosition(item);
DC->drawHandlePic( x - (SLIDER_THUMB_WIDTH / 2), y - 2, SLIDER_THUMB_WIDTH, SLIDER_THUMB_HEIGHT, DC->Assets.sliderThumb );
}
void Item_Bind_Paint(itemDef_t *item)
{
vec4_t newColor, lowLight;
float value;
int maxChars = 0;
float textScale,textWidth;
int textHeight,yAdj,startingXPos;
menuDef_t *parent = (menuDef_t*)item->parent;
editFieldDef_t *editPtr = (editFieldDef_t*)item->typeData;
if (editPtr)
{
maxChars = editPtr->maxPaintChars;
}
value = (item->cvar) ? DC->getCVarValue(item->cvar) : 0;
if (item->window.flags & WINDOW_HASFOCUS)
{
if (g_bindItem == item)
{
lowLight[0] = 0.8f * 1.0f;
lowLight[1] = 0.8f * 0.0f;
lowLight[2] = 0.8f * 0.0f;
lowLight[3] = 0.8f * 1.0f;
}
else
{
lowLight[0] = 0.8f * parent->focusColor[0];
lowLight[1] = 0.8f * parent->focusColor[1];
lowLight[2] = 0.8f * parent->focusColor[2];
lowLight[3] = 0.8f * parent->focusColor[3];
}
LerpColor(parent->focusColor,lowLight,newColor,0.5+0.5*sin((float)(DC->realTime / PULSE_DIVISOR)));
}
else
{
memcpy(&newColor, &item->window.foreColor, sizeof(vec4_t));
}
if (item->text)
{
Item_Text_Paint(item);
BindingFromName(item->cvar);
// If the text runs past the limit bring the scale down until it fits.
textScale = item->textscale;
textWidth = DC->textWidth(g_nameBind1,(float) textScale, item->iMenuFont);
startingXPos = (item->textRect.x + item->textRect.w + 8);
while ((startingXPos + textWidth) >= SCREEN_WIDTH)
{
textScale -= .05f;
textWidth = DC->textWidth(g_nameBind1,(float) textScale, item->iMenuFont);
}
// Try to adjust it's y placement if the scale has changed.
yAdj = 0;
if (textScale != item->textscale)
{
textHeight = DC->textHeight(g_nameBind1, item->textscale, item->iMenuFont);
yAdj = textHeight - DC->textHeight(g_nameBind1, textScale, item->iMenuFont);
}
DC->drawText(startingXPos, item->textRect.y + yAdj, textScale, newColor, g_nameBind1, 0, maxChars, item->textStyle,item->iMenuFont);
}
else
{
DC->drawText(item->textRect.x, item->textRect.y, item->textscale, newColor, (value != 0) ? "FIXME" : "FIXME", 0, maxChars, item->textStyle,item->iMenuFont);
}
}
qboolean Display_KeyBindPending() {
return g_waitingForKey;
}
qboolean Item_Bind_HandleKey(itemDef_t *item, int key, qboolean down) {
int id;
int i;
if (key == A_MOUSE1 && Rect_ContainsPoint(&item->window.rect, DC->cursorx, DC->cursory) && !g_waitingForKey)
{
if (down) {
g_waitingForKey = qtrue;
g_bindItem = item;
}
return qtrue;
}
else if (key == A_ENTER && !g_waitingForKey)
{
if (down)
{
g_waitingForKey = qtrue;
g_bindItem = item;
}
return qtrue;
}
else
{
if (!g_waitingForKey || g_bindItem == NULL) {
return qfalse;
}
if (key & K_CHAR_FLAG) {
return qtrue;
}
switch (key)
{
case A_ESCAPE:
g_waitingForKey = qfalse;
return qtrue;
case A_BACKSPACE:
id = BindingIDFromName(item->cvar);
if (id != -1)
{
if ( g_bindings[id].bind1 != -1 )
{
DC->setBinding ( g_bindings[id].bind1, "" );
}
if ( g_bindings[id].bind2 != -1 )
{
DC->setBinding ( g_bindings[id].bind2, "" );
}
g_bindings[id].bind1 = -1;
g_bindings[id].bind2 = -1;
}
Controls_SetConfig(qtrue);
g_waitingForKey = qfalse;
g_bindItem = NULL;
return qtrue;
case '`':
return qtrue;
}
}
if (key != -1)
{
for (i=0; i < g_bindCount; i++)
{
if (g_bindings[i].bind2 == key) {
g_bindings[i].bind2 = -1;
}
if (g_bindings[i].bind1 == key)
{
g_bindings[i].bind1 = g_bindings[i].bind2;
g_bindings[i].bind2 = -1;
}
}
}
id = BindingIDFromName(item->cvar);
if (id != -1) {
if (key == -1) {
if( g_bindings[id].bind1 != -1 ) {
DC->setBinding( g_bindings[id].bind1, "" );
g_bindings[id].bind1 = -1;
}
if( g_bindings[id].bind2 != -1 ) {
DC->setBinding( g_bindings[id].bind2, "" );
g_bindings[id].bind2 = -1;
}
}
else if (g_bindings[id].bind1 == -1) {
g_bindings[id].bind1 = key;
}
else if (g_bindings[id].bind1 != key && g_bindings[id].bind2 == -1) {
g_bindings[id].bind2 = key;
}
else {
DC->setBinding( g_bindings[id].bind1, "" );
DC->setBinding( g_bindings[id].bind2, "" );
g_bindings[id].bind1 = key;
g_bindings[id].bind2 = -1;
}
}
Controls_SetConfig(qtrue);
g_waitingForKey = qfalse;
return qtrue;
}
void UI_ScaleModelAxis(refEntity_t *ent)
{ // scale the model should we need to
if (ent->modelScale[0] && ent->modelScale[0] != 1.0f)
{
VectorScale( ent->axis[0], ent->modelScale[0] , ent->axis[0] );
ent->nonNormalizedAxes = qtrue;
}
if (ent->modelScale[1] && ent->modelScale[1] != 1.0f)
{
VectorScale( ent->axis[1], ent->modelScale[1] , ent->axis[1] );
ent->nonNormalizedAxes = qtrue;
}
if (ent->modelScale[2] && ent->modelScale[2] != 1.0f)
{
VectorScale( ent->axis[2], ent->modelScale[2] , ent->axis[2] );
ent->nonNormalizedAxes = qtrue;
}
}
#ifndef CGAME
#include "../namespace_end.h" // Yes, these are inverted. The whole file is in the namespace.
extern void UI_SaberAttachToChar( itemDef_t *item );
#include "../namespace_begin.h"
#endif
void Item_Model_Paint(itemDef_t *item)
{
float x, y, w, h;
refdef_t refdef;
refEntity_t ent;
vec3_t mins, maxs, origin;
vec3_t angles;
modelDef_t *modelPtr = (modelDef_t*)item->typeData;
if (modelPtr == NULL)
{
return;
}
// a moves datapad anim is playing
#ifndef CGAME
if (uiInfo.moveAnimTime && (uiInfo.moveAnimTime < uiInfo.uiDC.realTime))
{
modelDef_t *modelPtr;
modelPtr = (modelDef_t*)item->typeData;
if (modelPtr)
{
char modelPath[MAX_QPATH];
Com_sprintf( modelPath, sizeof( modelPath ), "models/players/%s/model.glm", UI_Cvar_VariableString ( "ui_char_model" ) );
//HACKHACKHACK: check for any multi-part anim sequences, and play the next anim, if needbe
switch( modelPtr->g2anim )
{
case BOTH_FORCEWALLREBOUND_FORWARD:
case BOTH_FORCEJUMP1:
ItemParse_model_g2anim_go( item, animTable[BOTH_FORCEINAIR1].name );
ItemParse_asset_model_go( item, modelPath, &uiInfo.moveAnimTime );
if ( !uiInfo.moveAnimTime )
{
uiInfo.moveAnimTime = 500;
}
uiInfo.moveAnimTime += uiInfo.uiDC.realTime;
break;
case BOTH_FORCEINAIR1:
ItemParse_model_g2anim_go( item, animTable[BOTH_FORCELAND1].name );
ItemParse_asset_model_go( item, modelPath, &uiInfo.moveAnimTime );
uiInfo.moveAnimTime += uiInfo.uiDC.realTime;
break;
case BOTH_FORCEWALLRUNFLIP_START:
ItemParse_model_g2anim_go( item, animTable[BOTH_FORCEWALLRUNFLIP_END].name );
ItemParse_asset_model_go( item, modelPath, &uiInfo.moveAnimTime );
uiInfo.moveAnimTime += uiInfo.uiDC.realTime;
break;
case BOTH_FORCELONGLEAP_START:
ItemParse_model_g2anim_go( item, animTable[BOTH_FORCELONGLEAP_LAND].name );
ItemParse_asset_model_go( item, modelPath, &uiInfo.moveAnimTime );
uiInfo.moveAnimTime += uiInfo.uiDC.realTime;
break;
case BOTH_KNOCKDOWN3://on front - into force getup
trap_S_StartLocalSound( uiInfo.uiDC.Assets.moveJumpSound, CHAN_LOCAL );
ItemParse_model_g2anim_go( item, animTable[BOTH_FORCE_GETUP_F1].name );
ItemParse_asset_model_go( item, modelPath, &uiInfo.moveAnimTime );
uiInfo.moveAnimTime += uiInfo.uiDC.realTime;
break;
case BOTH_KNOCKDOWN2://on back - kick forward getup
trap_S_StartLocalSound( uiInfo.uiDC.Assets.moveJumpSound, CHAN_LOCAL );
ItemParse_model_g2anim_go( item, animTable[BOTH_GETUP_BROLL_F].name );
ItemParse_asset_model_go( item, modelPath, &uiInfo.moveAnimTime );
uiInfo.moveAnimTime += uiInfo.uiDC.realTime;
break;
case BOTH_KNOCKDOWN1://on back - roll-away
trap_S_StartLocalSound( uiInfo.uiDC.Assets.moveRollSound, CHAN_LOCAL );
ItemParse_model_g2anim_go( item, animTable[BOTH_GETUP_BROLL_R].name );
ItemParse_asset_model_go( item, modelPath, &uiInfo.moveAnimTime );
uiInfo.moveAnimTime += uiInfo.uiDC.realTime;
break;
default:
ItemParse_model_g2anim_go( item, uiInfo.movesBaseAnim );
ItemParse_asset_model_go( item, modelPath, &uiInfo.moveAnimTime );
uiInfo.moveAnimTime = 0;
break;
}
UI_UpdateCharacterSkin();
//update saber models
UI_SaberAttachToChar( item );
}
}
#endif
// setup the refdef
memset( &refdef, 0, sizeof( refdef ) );
refdef.rdflags = RDF_NOWORLDMODEL;
AxisClear( refdef.viewaxis );
x = item->window.rect.x+1;
y = item->window.rect.y+1;
w = item->window.rect.w-2;
h = item->window.rect.h-2;
refdef.x = x * DC->xscale;
refdef.y = y * DC->yscale;
refdef.width = w * DC->xscale;
refdef.height = h * DC->yscale;
if (item->ghoul2)
{ //ghoul2 models don't have bounds, so we have to parse them.
VectorCopy(modelPtr->g2mins, mins);
VectorCopy(modelPtr->g2maxs, maxs);
if (!mins[0] && !mins[1] && !mins[2] &&
!maxs[0] && !maxs[1] && !maxs[2])
{ //we'll use defaults then I suppose.
VectorSet(mins, -16, -16, -24);
VectorSet(maxs, 16, 16, 32);
}
}
else
{
DC->modelBounds( item->asset, mins, maxs );
}
origin[2] = -0.5 * ( mins[2] + maxs[2] );
origin[1] = 0.5 * ( mins[1] + maxs[1] );
// calculate distance so the model nearly fills the box
if (qtrue)
{
float len = 0.5 * ( maxs[2] - mins[2] );
origin[0] = len / 0.268; // len / tan( fov/2 )
//origin[0] = len / tan(w/2);
}
else
{
origin[0] = item->textscale;
}
refdef.fov_x = (modelPtr->fov_x) ? modelPtr->fov_x : (int)((float)refdef.width / 640.0f * 90.0f);
refdef.fov_y = (modelPtr->fov_y) ? modelPtr->fov_y : atan2( refdef.height, refdef.width / tan( refdef.fov_x / 360 * M_PI ) ) * ( 360 / M_PI );
//refdef.fov_x = (int)((float)refdef.width / 640.0f * 90.0f);
//refdef.fov_y = atan2( refdef.height, refdef.width / tan( refdef.fov_x / 360 * M_PI ) ) * ( 360 / M_PI );
DC->clearScene();
refdef.time = DC->realTime;
// add the model
memset( &ent, 0, sizeof(ent) );
// use item storage to track
if ( (item->flags&ITF_ISANYSABER) && !(item->flags&ITF_ISCHARACTER) )
{//hack to put saber on it's side
if (modelPtr->rotationSpeed)
{
VectorSet( angles, modelPtr->angle+(float)refdef.time/modelPtr->rotationSpeed, 0, 90 );
}
else
{
VectorSet( angles, modelPtr->angle, 0, 90 );
}
}
else if (modelPtr->rotationSpeed)
{
VectorSet( angles, 0, modelPtr->angle + (float)refdef.time/modelPtr->rotationSpeed, 0 );
}
else
{
VectorSet( angles, 0, modelPtr->angle, 0 );
}
AnglesToAxis( angles, ent.axis );
if (item->ghoul2)
{
ent.ghoul2 = item->ghoul2;
ent.radius = 1000;
ent.customSkin = modelPtr->g2skin;
VectorCopy(modelPtr->g2scale, ent.modelScale);
UI_ScaleModelAxis(&ent);
#ifndef CGAME
if ( (item->flags&ITF_ISCHARACTER) )
{
ent.shaderRGBA[0] = ui_char_color_red.integer;
ent.shaderRGBA[1] = ui_char_color_green.integer;
ent.shaderRGBA[2] = ui_char_color_blue.integer;
ent.shaderRGBA[3] = 255;
// UI_TalkingHead(item);
}
if ( item->flags&ITF_ISANYSABER )
{//UGH, draw the saber blade!
UI_SaberDrawBlades( item, origin, angles );
}
#endif
}
else
{
ent.hModel = item->asset;
}
VectorCopy( origin, ent.origin );
VectorCopy( ent.origin, ent.oldorigin );
// Set up lighting
VectorCopy( origin, ent.lightingOrigin );
ent.renderfx = RF_LIGHTING_ORIGIN | RF_NOSHADOW;
DC->addRefEntityToScene( &ent );
DC->renderScene( &refdef );
}
void Item_Image_Paint(itemDef_t *item) {
if (item == NULL) {
return;
}
DC->drawHandlePic(item->window.rect.x+1, item->window.rect.y+1, item->window.rect.w-2, item->window.rect.h-2, item->asset);
}
void Item_TextScroll_Paint(itemDef_t *item)
{
char cvartext[1024];
float x, y, size, count, thumb;
int i;
textScrollDef_t *scrollPtr = (textScrollDef_t*)item->typeData;
count = scrollPtr->iLineCount;
// draw scrollbar to right side of the window
x = item->window.rect.x + item->window.rect.w - SCROLLBAR_SIZE - 1;
y = item->window.rect.y + 1;
DC->drawHandlePic(x, y, SCROLLBAR_SIZE, SCROLLBAR_SIZE, DC->Assets.scrollBarArrowUp);
y += SCROLLBAR_SIZE - 1;
scrollPtr->endPos = scrollPtr->startPos;
size = item->window.rect.h - (SCROLLBAR_SIZE * 2);
DC->drawHandlePic(x, y, SCROLLBAR_SIZE, size+1, DC->Assets.scrollBar);
y += size - 1;
DC->drawHandlePic(x, y, SCROLLBAR_SIZE, SCROLLBAR_SIZE, DC->Assets.scrollBarArrowDown);
// thumb
thumb = Item_TextScroll_ThumbDrawPosition(item);
if (thumb > y - SCROLLBAR_SIZE - 1)
{
thumb = y - SCROLLBAR_SIZE - 1;
}
DC->drawHandlePic(x, thumb, SCROLLBAR_SIZE, SCROLLBAR_SIZE, DC->Assets.scrollBarThumb);
if (item->cvar)
{
DC->getCVarString(item->cvar, cvartext, sizeof(cvartext));
item->text = cvartext;
Item_TextScroll_BuildLines ( item );
}
// adjust size for item painting
size = item->window.rect.h - 2;
x = item->window.rect.x + item->textalignx + 1;
y = item->window.rect.y + item->textaligny + 1;
for (i = scrollPtr->startPos; i < count; i++)
{
const char *text;
text = scrollPtr->pLines[i];
if (!text)
{
continue;
}
DC->drawText(x + 4, y, item->textscale, item->window.foreColor, text, 0, 0, item->textStyle, item->iMenuFont);
size -= scrollPtr->lineHeight;
if (size < scrollPtr->lineHeight)
{
scrollPtr->drawPadding = scrollPtr->lineHeight - size;
break;
}
scrollPtr->endPos++;
y += scrollPtr->lineHeight;
}
}
#define COLOR_MAX 255.0f
// Draw routine for list boxes
void Item_ListBox_Paint(itemDef_t *item) {
float x, y, sizeWidth, count, i, i2,sizeHeight, thumb;
int startPos;
qhandle_t image;
qhandle_t optionalImage1, optionalImage2, optionalImage3;
listBoxDef_t *listPtr = (listBoxDef_t*)item->typeData;
//JLF MPMOVED
int numlines;
// the listbox is horizontal or vertical and has a fixed size scroll bar going either direction
// elements are enumerated from the DC and either text or image handles are acquired from the DC as well
// textscale is used to size the text, textalignx and textaligny are used to size image elements
// there is no clipping available so only the last completely visible item is painted
count = DC->feederCount(item->special);
//JLFLISTBOX MPMOVED
#ifdef _XBOX
listPtr->startPos = listPtr->cursorPos;
//item->cursorPos = listPtr->startPos;
#endif
//JLFLISTBOX MPMOVED
if (listPtr->startPos > (count?count-1:count))
{//probably changed feeders, so reset
listPtr->startPos = 0;
}
//JLF END
if (item->cursorPos > (count?count-1:count))
{//probably changed feeders, so reset
item->cursorPos = (count?count-1:count);
// NOTE : might consider moving this to any spot in here we change the cursor position
DC->feederSelection( item->special, item->cursorPos, NULL );
}
// default is vertical if horizontal flag is not here
if (item->window.flags & WINDOW_HORIZONTAL)
{
#ifdef _DEBUG
const char *text;
#endif
//JLF new variable (code just indented) MPMOVED
if (!listPtr->scrollhidden)
{
// draw scrollbar in bottom of the window
// bar
if (Item_ListBox_MaxScroll(item) > 0)
{
x = item->window.rect.x + 1;
y = item->window.rect.y + item->window.rect.h - SCROLLBAR_SIZE - 1;
DC->drawHandlePic(x, y, SCROLLBAR_SIZE, SCROLLBAR_SIZE, DC->Assets.scrollBarArrowLeft);
x += SCROLLBAR_SIZE - 1;
sizeWidth = item->window.rect.w - (SCROLLBAR_SIZE * 2);
DC->drawHandlePic(x, y, sizeWidth+1, SCROLLBAR_SIZE, DC->Assets.scrollBar);
x += sizeWidth - 1;
DC->drawHandlePic(x, y, SCROLLBAR_SIZE, SCROLLBAR_SIZE, DC->Assets.scrollBarArrowRight);
// thumb
thumb = Item_ListBox_ThumbDrawPosition(item);//Item_ListBox_ThumbPosition(item);
if (thumb > x - SCROLLBAR_SIZE - 1) {
thumb = x - SCROLLBAR_SIZE - 1;
}
DC->drawHandlePic(thumb, y, SCROLLBAR_SIZE, SCROLLBAR_SIZE, DC->Assets.scrollBarThumb);
}
else if (listPtr->startPos > 0)
{
listPtr->startPos = 0;
}
}
//JLF end
//
listPtr->endPos = listPtr->startPos;
sizeWidth = item->window.rect.w - 2;
// items
// size contains max available space
if (listPtr->elementStyle == LISTBOX_IMAGE)
{
// fit = 0;
x = item->window.rect.x + 1;
y = item->window.rect.y + 1;
for (i = listPtr->startPos; i < count; i++)
{
// always draw at least one
// which may overdraw the box if it is too small for the element
image = DC->feederItemImage(item->special, i);
if (image)
{
#ifndef CGAME
if (item->window.flags & WINDOW_PLAYERCOLOR)
{
vec4_t color;
color[0] = ui_char_color_red.integer/COLOR_MAX;
color[1] = ui_char_color_green.integer/COLOR_MAX;
color[2] = ui_char_color_blue.integer/COLOR_MAX;
color[3] = 1.0f;
DC->setColor(color);
}
#endif
DC->drawHandlePic(x+1, y+1, listPtr->elementWidth - 2, listPtr->elementHeight - 2, image);
}
if (i == item->cursorPos)
{
DC->drawRect(x, y, listPtr->elementWidth-1, listPtr->elementHeight-1, item->window.borderSize, item->window.borderColor);
}
sizeWidth -= listPtr->elementWidth;
if (sizeWidth < listPtr->elementWidth)
{
listPtr->drawPadding = sizeWidth; //listPtr->elementWidth - size;
break;
}
x += listPtr->elementWidth;
listPtr->endPos++;
// fit++;
}
}
else
{
//
}
#ifdef _DEBUG
// Show pic name
text = DC->feederItemText(item->special, item->cursorPos, 0, &optionalImage1, &optionalImage2, &optionalImage3);
if (text)
{
DC->drawText(item->window.rect.x, item->window.rect.y+item->window.rect.h, item->textscale, item->window.foreColor, text, 0, 0, item->textStyle, item->iMenuFont);
}
#endif
}
// A vertical list box
else
{
//JLF MPMOVED
numlines = item->window.rect.h / listPtr->elementHeight;
//JLFEND
//JLF new variable (code idented with if)
if (!listPtr->scrollhidden)
{
// draw scrollbar to right side of the window
x = item->window.rect.x + item->window.rect.w - SCROLLBAR_SIZE - 1;
y = item->window.rect.y + 1;
DC->drawHandlePic(x, y, SCROLLBAR_SIZE, SCROLLBAR_SIZE, DC->Assets.scrollBarArrowUp);
y += SCROLLBAR_SIZE - 1;
listPtr->endPos = listPtr->startPos;
sizeHeight = item->window.rect.h - (SCROLLBAR_SIZE * 2);
DC->drawHandlePic(x, y, SCROLLBAR_SIZE, sizeHeight+1, DC->Assets.scrollBar);
y += sizeHeight - 1;
DC->drawHandlePic(x, y, SCROLLBAR_SIZE, SCROLLBAR_SIZE, DC->Assets.scrollBarArrowDown);
// thumb
thumb = Item_ListBox_ThumbDrawPosition(item);//Item_ListBox_ThumbPosition(item);
if (thumb > y - SCROLLBAR_SIZE - 1) {
thumb = y - SCROLLBAR_SIZE - 1;
}
DC->drawHandlePic(x, thumb, SCROLLBAR_SIZE, SCROLLBAR_SIZE, DC->Assets.scrollBarThumb);
}
//JLF end
// adjust size for item painting
sizeWidth = item->window.rect.w - 2;
sizeHeight = item->window.rect.h - 2;
if (listPtr->elementStyle == LISTBOX_IMAGE)
{
// Multiple rows and columns (since it's more than twice as wide as an element)
if ( item->window.rect.w > (listPtr->elementWidth*2) )
{
startPos = listPtr->startPos;
x = item->window.rect.x + 1;
y = item->window.rect.y + 1;
// Next row
for (i2 = startPos; i2 < count; i2++)
{
x = item->window.rect.x + 1;
sizeWidth = item->window.rect.w - 2;
// print a row
for (i = startPos; i < count; i++)
{
// always draw at least one
// which may overdraw the box if it is too small for the element
image = DC->feederItemImage(item->special, i);
if (image)
{
#ifndef CGAME
if (item->window.flags & WINDOW_PLAYERCOLOR)
{
vec4_t color;
color[0] = ui_char_color_red.integer/COLOR_MAX;
color[1] = ui_char_color_green.integer/COLOR_MAX;
color[2] = ui_char_color_blue.integer/COLOR_MAX;
color[3] = 1.0f;
DC->setColor(color);
}
#endif
DC->drawHandlePic(x+1, y+1, listPtr->elementWidth - 2, listPtr->elementHeight - 2, image);
}
if (i == item->cursorPos)
{
DC->drawRect(x, y, listPtr->elementWidth-1, listPtr->elementHeight-1, item->window.borderSize, item->window.borderColor);
}
sizeWidth -= listPtr->elementWidth;
if (sizeWidth < listPtr->elementWidth)
{
listPtr->drawPadding = sizeWidth; //listPtr->elementWidth - size;
break;
}
x += listPtr->elementWidth;
listPtr->endPos++;
}
sizeHeight -= listPtr->elementHeight;
if (sizeHeight < listPtr->elementHeight)
{
listPtr->drawPadding = sizeHeight; //listPtr->elementWidth - size;
break;
}
// NOTE : Is endPos supposed to be valid or not? It was being used as a valid entry but I changed those
// few spots that were causing bugs
listPtr->endPos++;
startPos = listPtr->endPos;
y += listPtr->elementHeight;
}
}
// single column
else
{
x = item->window.rect.x + 1;
y = item->window.rect.y + 1;
for (i = listPtr->startPos; i < count; i++)
{
// always draw at least one
// which may overdraw the box if it is too small for the element
image = DC->feederItemImage(item->special, i);
if (image)
{
DC->drawHandlePic(x+1, y+1, listPtr->elementWidth - 2, listPtr->elementHeight - 2, image);
}
if (i == item->cursorPos)
{
DC->drawRect(x, y, listPtr->elementWidth - 1, listPtr->elementHeight - 1, item->window.borderSize, item->window.borderColor);
}
listPtr->endPos++;
sizeHeight -= listPtr->elementHeight;
if (sizeHeight < listPtr->elementHeight)
{
listPtr->drawPadding = listPtr->elementHeight - sizeHeight;
break;
}
y += listPtr->elementHeight;
// fit++;
}
}
}
else
{
x = item->window.rect.x + 1;
y = item->window.rect.y + 1;
//JLF MPMOVED
y = item->window.rect.y + 1 - listPtr->elementHeight;
#ifdef _XBOX
i = listPtr->startPos - (numlines/2);
#else
i = listPtr->startPos;
#endif
for (; i < count; i++)
//JLF END
{
const char *text;
// always draw at least one
// which may overdraw the box if it is too small for the element
if (listPtr->numColumns > 0) {
int j;//, subX = listPtr->elementHeight;
for (j = 0; j < listPtr->numColumns; j++)
{
char temp[MAX_STRING_CHARS];
int imageStartX = listPtr->columnInfo[j].pos;
text = DC->feederItemText(item->special, i, j, &optionalImage1, &optionalImage2, &optionalImage3);
if( !text )
{
continue;
}
if (text[0]=='@')
{
trap_SP_GetStringTextString( &text[1] , temp, sizeof(temp));
text = temp;
}
/*
if (optionalImage >= 0) {
DC->drawHandlePic(x + 4 + listPtr->columnInfo[j].pos, y - 1 + listPtr->elementHeight / 2, listPtr->columnInfo[j].width, listPtr->columnInfo[j].width, optionalImage);
}
else
*/
if ( text )
{
//JLF MPMOVED
#ifdef _XBOX
float fScaleA = item->textscale;
#endif
int textyOffset;
#ifdef _XBOX
textyOffset = DC->textHeight (text, fScaleA, item->iMenuFont);
textyOffset *= -1;
textyOffset /=2;
textyOffset += listPtr->elementHeight/2;
#else
textyOffset = 0;
#endif
// DC->drawText(x + 4 + listPtr->columnInfo[j].pos, y + listPtr->elementHeight, item->textscale, item->window.foreColor, text, 0, listPtr->columnInfo[j].maxChars, item->textStyle);
//WAS LAST DC->drawText(x + 4 + listPtr->columnInfo[j].pos, y, item->textscale, item->window.foreColor, text, 0, listPtr->columnInfo[j].maxChars, item->textStyle, item->iMenuFont);
DC->drawText(x + 4 + listPtr->columnInfo[j].pos, y + listPtr->elementHeight+ textyOffset + item->textaligny, item->textscale, item->window.foreColor, text, 0,listPtr->columnInfo[j].maxChars, item->textStyle, item->iMenuFont);
//JLF END
}
if ( j < listPtr->numColumns - 1 )
{
imageStartX = listPtr->columnInfo[j+1].pos;
}
DC->setColor( NULL );
if (optionalImage3 >= 0)
{
DC->drawHandlePic(imageStartX - listPtr->elementHeight*3, y+listPtr->elementHeight+2, listPtr->elementHeight, listPtr->elementHeight, optionalImage3);
}
if (optionalImage2 >= 0)
{
DC->drawHandlePic(imageStartX - listPtr->elementHeight*2, y+listPtr->elementHeight+2, listPtr->elementHeight, listPtr->elementHeight, optionalImage2);
}
if (optionalImage1 >= 0)
{
DC->drawHandlePic(imageStartX - listPtr->elementHeight, y+listPtr->elementHeight+2, listPtr->elementHeight, listPtr->elementHeight, optionalImage1);
}
}
}
else
{
#ifdef _XBOX
if (i >= 0)
{
#endif
text = DC->feederItemText(item->special, i, 0, &optionalImage1, &optionalImage2, &optionalImage3 );
if ( optionalImage1 >= 0 || optionalImage2 >= 0 || optionalImage3 >= 0)
{
//DC->drawHandlePic(x + 4 + listPtr->elementHeight, y, listPtr->columnInfo[j].width, listPtr->columnInfo[j].width, optionalImage);
}
else if (text)
{
// DC->drawText(x + 4, y + listPtr->elementHeight, item->textscale, item->window.foreColor, text, 0, 0, item->textStyle);
DC->drawText(x + 4, y + item->textaligny, item->textscale, item->window.foreColor, text, 0, 0, item->textStyle, item->iMenuFont);
}
#ifdef _XBOX
}
#endif
}
if (i == item->cursorPos)
{
DC->fillRect(x + 2, y + listPtr->elementHeight + 2, item->window.rect.w - SCROLLBAR_SIZE - 4, listPtr->elementHeight, item->window.outlineColor);
}
sizeHeight -= listPtr->elementHeight;
if (sizeHeight < listPtr->elementHeight)
{
listPtr->drawPadding = listPtr->elementHeight - sizeHeight;
break;
}
listPtr->endPos++;
y += listPtr->elementHeight;
// fit++;
}
}
}
}
void Item_OwnerDraw_Paint(itemDef_t *item) {
menuDef_t *parent;
if (item == NULL) {
return;
}
parent = (menuDef_t*)item->parent;
if (DC->ownerDrawItem) {
vec4_t color, lowLight;
menuDef_t *parent = (menuDef_t*)item->parent;
Fade(&item->window.flags, &item->window.foreColor[3], parent->fadeClamp, &item->window.nextTime, parent->fadeCycle, qtrue, parent->fadeAmount);
memcpy(&color, &item->window.foreColor, sizeof(color));
if (item->numColors > 0 && DC->getValue) {
// if the value is within one of the ranges then set color to that, otherwise leave at default
int i;
float f = DC->getValue(item->window.ownerDraw);
for (i = 0; i < item->numColors; i++) {
if (f >= item->colorRanges[i].low && f <= item->colorRanges[i].high) {
memcpy(&color, &item->colorRanges[i].color, sizeof(color));
break;
}
}
}
if (item->window.flags & WINDOW_HASFOCUS) {
lowLight[0] = 0.8 * parent->focusColor[0];
lowLight[1] = 0.8 * parent->focusColor[1];
lowLight[2] = 0.8 * parent->focusColor[2];
lowLight[3] = 0.8 * parent->focusColor[3];
LerpColor(parent->focusColor,lowLight,color,0.5+0.5*sin((float)(DC->realTime / PULSE_DIVISOR)));
} else if (item->textStyle == ITEM_TEXTSTYLE_BLINK && !((DC->realTime/BLINK_DIVISOR) & 1)) {
lowLight[0] = 0.8 * item->window.foreColor[0];
lowLight[1] = 0.8 * item->window.foreColor[1];
lowLight[2] = 0.8 * item->window.foreColor[2];
lowLight[3] = 0.8 * item->window.foreColor[3];
LerpColor(item->window.foreColor,lowLight,color,0.5+0.5*sin((float)(DC->realTime / PULSE_DIVISOR)));
}
if (item->disabled)
{
memcpy(color, parent->disableColor, sizeof(vec4_t)); // bk001207 - FIXME: Com_Memcpy
}
if (item->cvarFlags & (CVAR_ENABLE | CVAR_DISABLE) && !Item_EnableShowViaCvar(item, CVAR_ENABLE)) {
memcpy(color, parent->disableColor, sizeof(vec4_t)); // bk001207 - FIXME: Com_Memcpy
}
if (item->text) {
Item_Text_Paint(item);
if (item->text[0]) {
// +8 is an offset kludge to properly align owner draw items that have text combined with them
DC->ownerDrawItem(item->textRect.x + item->textRect.w + 8, item->window.rect.y, item->window.rect.w, item->window.rect.h, 0, item->textaligny, item->window.ownerDraw, item->window.ownerDrawFlags, item->alignment, item->special, item->textscale, color, item->window.background, item->textStyle,item->iMenuFont);
} else {
DC->ownerDrawItem(item->textRect.x + item->textRect.w, item->window.rect.y, item->window.rect.w, item->window.rect.h, 0, item->textaligny, item->window.ownerDraw, item->window.ownerDrawFlags, item->alignment, item->special, item->textscale, color, item->window.background, item->textStyle,item->iMenuFont);
}
} else {
DC->ownerDrawItem(item->window.rect.x, item->window.rect.y, item->window.rect.w, item->window.rect.h, item->textalignx, item->textaligny, item->window.ownerDraw, item->window.ownerDrawFlags, item->alignment, item->special, item->textscale, color, item->window.background, item->textStyle,item->iMenuFont);
}
}
}
void Item_Paint(itemDef_t *item)
{
vec4_t red;
menuDef_t *parent = (menuDef_t*)item->parent;
int xPos,textWidth;
vec4_t color = {1, 1, 1, 1};
red[0] = red[3] = 1;
red[1] = red[2] = 0;
if (item == NULL)
{
return;
}
if (item->window.flags & WINDOW_ORBITING)
{
if (DC->realTime > item->window.nextTime)
{
float rx, ry, a, c, s, w, h;
item->window.nextTime = DC->realTime + item->window.offsetTime;
// translate
w = item->window.rectClient.w / 2;
h = item->window.rectClient.h / 2;
rx = item->window.rectClient.x + w - item->window.rectEffects.x;
ry = item->window.rectClient.y + h - item->window.rectEffects.y;
a = 3 * M_PI / 180;
c = cos(a);
s = sin(a);
item->window.rectClient.x = (rx * c - ry * s) + item->window.rectEffects.x - w;
item->window.rectClient.y = (rx * s + ry * c) + item->window.rectEffects.y - h;
Item_UpdatePosition(item);
}
}
if (item->window.flags & WINDOW_INTRANSITION)
{
if (DC->realTime > item->window.nextTime)
{
int done = 0;
item->window.nextTime = DC->realTime + item->window.offsetTime;
// transition the x,y
if (item->window.rectClient.x == item->window.rectEffects.x)
{
done++;
}
else
{
if (item->window.rectClient.x < item->window.rectEffects.x)
{
item->window.rectClient.x += item->window.rectEffects2.x;
if (item->window.rectClient.x > item->window.rectEffects.x)
{
item->window.rectClient.x = item->window.rectEffects.x;
done++;
}
}
else
{
item->window.rectClient.x -= item->window.rectEffects2.x;
if (item->window.rectClient.x < item->window.rectEffects.x)
{
item->window.rectClient.x = item->window.rectEffects.x;
done++;
}
}
}
if (item->window.rectClient.y == item->window.rectEffects.y)
{
done++;
}
else
{
if (item->window.rectClient.y < item->window.rectEffects.y)
{
item->window.rectClient.y += item->window.rectEffects2.y;
if (item->window.rectClient.y > item->window.rectEffects.y)
{
item->window.rectClient.y = item->window.rectEffects.y;
done++;
}
}
else
{
item->window.rectClient.y -= item->window.rectEffects2.y;
if (item->window.rectClient.y < item->window.rectEffects.y)
{
item->window.rectClient.y = item->window.rectEffects.y;
done++;
}
}
}
if (item->window.rectClient.w == item->window.rectEffects.w)
{
done++;
}
else
{
if (item->window.rectClient.w < item->window.rectEffects.w)
{
item->window.rectClient.w += item->window.rectEffects2.w;
if (item->window.rectClient.w > item->window.rectEffects.w)
{
item->window.rectClient.w = item->window.rectEffects.w;
done++;
}
}
else
{
item->window.rectClient.w -= item->window.rectEffects2.w;
if (item->window.rectClient.w < item->window.rectEffects.w)
{
item->window.rectClient.w = item->window.rectEffects.w;
done++;
}
}
}
if (item->window.rectClient.h == item->window.rectEffects.h)
{
done++;
}
else
{
if (item->window.rectClient.h < item->window.rectEffects.h)
{
item->window.rectClient.h += item->window.rectEffects2.h;
if (item->window.rectClient.h > item->window.rectEffects.h)
{
item->window.rectClient.h = item->window.rectEffects.h;
done++;
}
}
else
{
item->window.rectClient.h -= item->window.rectEffects2.h;
if (item->window.rectClient.h < item->window.rectEffects.h)
{
item->window.rectClient.h = item->window.rectEffects.h;
done++;
}
}
}
Item_UpdatePosition(item);
if (done == 4)
{
item->window.flags &= ~WINDOW_INTRANSITION;
}
}
}
#ifdef _TRANS3
//JLF begin model transition stuff
if (item->window.flags & WINDOW_INTRANSITIONMODEL)
{
if ( item->type == ITEM_TYPE_MODEL)
{
//fields ing modelptr
// vec3_t g2mins2, g2maxs2, g2minsEffect, g2maxsEffect;
// float fov_x2, fov_y2, fov_Effectx, fov_Effecty;
modelDef_t * modelptr = (modelDef_t *)item->typeData;
if (DC->realTime > item->window.nextTime)
{
int done = 0;
item->window.nextTime = DC->realTime + item->window.offsetTime;
// transition the x,y,z max
if (modelptr->g2maxs[0] == modelptr->g2maxs2[0])
{
done++;
}
else
{
if (modelptr->g2maxs[0] < modelptr->g2maxs2[0])
{
modelptr->g2maxs[0] += modelptr->g2maxsEffect[0];
if (modelptr->g2maxs[0] > modelptr->g2maxs2[0])
{
modelptr->g2maxs[0] = modelptr->g2maxs2[0];
done++;
}
}
else
{
modelptr->g2maxs[0] -= modelptr->g2maxsEffect[0];
if (modelptr->g2maxs[0] < modelptr->g2maxs2[0])
{
modelptr->g2maxs[0] = modelptr->g2maxs2[0];
done++;
}
}
}
//y
if (modelptr->g2maxs[1] == modelptr->g2maxs2[1])
{
done++;
}
else
{
if (modelptr->g2maxs[1] < modelptr->g2maxs2[1])
{
modelptr->g2maxs[1] += modelptr->g2maxsEffect[1];
if (modelptr->g2maxs[1] > modelptr->g2maxs2[1])
{
modelptr->g2maxs[1] = modelptr->g2maxs2[1];
done++;
}
}
else
{
modelptr->g2maxs[1] -= modelptr->g2maxsEffect[1];
if (modelptr->g2maxs[1] < modelptr->g2maxs2[1])
{
modelptr->g2maxs[1] = modelptr->g2maxs2[1];
done++;
}
}
}
//z
if (modelptr->g2maxs[2] == modelptr->g2maxs2[2])
{
done++;
}
else
{
if (modelptr->g2maxs[2] < modelptr->g2maxs2[2])
{
modelptr->g2maxs[2] += modelptr->g2maxsEffect[2];
if (modelptr->g2maxs[2] > modelptr->g2maxs2[2])
{
modelptr->g2maxs[2] = modelptr->g2maxs2[2];
done++;
}
}
else
{
modelptr->g2maxs[2] -= modelptr->g2maxsEffect[2];
if (modelptr->g2maxs[2] < modelptr->g2maxs2[2])
{
modelptr->g2maxs[2] = modelptr->g2maxs2[2];
done++;
}
}
}
// transition the x,y,z min
if (modelptr->g2mins[0] == modelptr->g2mins2[0])
{
done++;
}
else
{
if (modelptr->g2mins[0] < modelptr->g2mins2[0])
{
modelptr->g2mins[0] += modelptr->g2minsEffect[0];
if (modelptr->g2mins[0] > modelptr->g2mins2[0])
{
modelptr->g2mins[0] = modelptr->g2mins2[0];
done++;
}
}
else
{
modelptr->g2mins[0] -= modelptr->g2minsEffect[0];
if (modelptr->g2mins[0] < modelptr->g2mins2[0])
{
modelptr->g2mins[0] = modelptr->g2mins2[0];
done++;
}
}
}
//y
if (modelptr->g2mins[1] == modelptr->g2mins2[1])
{
done++;
}
else
{
if (modelptr->g2mins[1] < modelptr->g2mins2[1])
{
modelptr->g2mins[1] += modelptr->g2minsEffect[1];
if (modelptr->g2mins[1] > modelptr->g2mins2[1])
{
modelptr->g2mins[1] = modelptr->g2mins2[1];
done++;
}
}
else
{
modelptr->g2mins[1] -= modelptr->g2minsEffect[1];
if (modelptr->g2mins[1] < modelptr->g2mins2[1])
{
modelptr->g2mins[1] = modelptr->g2mins2[1];
done++;
}
}
}
//z
if (modelptr->g2mins[2] == modelptr->g2mins2[2])
{
done++;
}
else
{
if (modelptr->g2mins[2] < modelptr->g2mins2[2])
{
modelptr->g2mins[2] += modelptr->g2minsEffect[2];
if (modelptr->g2mins[2] > modelptr->g2mins2[2])
{
modelptr->g2mins[2] = modelptr->g2mins2[2];
done++;
}
}
else
{
modelptr->g2mins[2] -= modelptr->g2minsEffect[2];
if (modelptr->g2mins[2] < modelptr->g2mins2[2])
{
modelptr->g2mins[2] = modelptr->g2mins2[2];
done++;
}
}
}
//fovx
if (modelptr->fov_x == modelptr->fov_x2)
{
done++;
}
else
{
if (modelptr->fov_x < modelptr->fov_x2)
{
modelptr->fov_x += modelptr->fov_Effectx;
if (modelptr->fov_x > modelptr->fov_x2)
{
modelptr->fov_x = modelptr->fov_x2;
done++;
}
}
else
{
modelptr->fov_x -= modelptr->fov_Effectx;
if (modelptr->fov_x < modelptr->fov_x2)
{
modelptr->fov_x = modelptr->fov_x2;
done++;
}
}
}
//fovy
if (modelptr->fov_y == modelptr->fov_y2)
{
done++;
}
else
{
if (modelptr->fov_y < modelptr->fov_y2)
{
modelptr->fov_y += modelptr->fov_Effecty;
if (modelptr->fov_y > modelptr->fov_y2)
{
modelptr->fov_y = modelptr->fov_y2;
done++;
}
}
else
{
modelptr->fov_y -= modelptr->fov_Effecty;
if (modelptr->fov_y < modelptr->fov_y2)
{
modelptr->fov_y = modelptr->fov_y2;
done++;
}
}
}
if (done == 5)
{
item->window.flags &= ~WINDOW_INTRANSITIONMODEL;
}
}
}
}
#endif
//JLF end transition stuff for models
if (item->window.ownerDrawFlags && DC->ownerDrawVisible) {
if (!DC->ownerDrawVisible(item->window.ownerDrawFlags)) {
item->window.flags &= ~WINDOW_VISIBLE;
} else {
item->window.flags |= WINDOW_VISIBLE;
}
}
if (item->cvarFlags & (CVAR_SHOW | CVAR_HIDE)) {
if (!Item_EnableShowViaCvar(item, CVAR_SHOW)) {
return;
}
}
if (item->window.flags & WINDOW_TIMEDVISIBLE) {
}
if (!(item->window.flags & WINDOW_VISIBLE))
{
return;
}
//JLFMOUSE
#ifndef _XBOX
if (item->window.flags & WINDOW_MOUSEOVER)
#else
if (item->window.flags & WINDOW_HASFOCUS)
#endif
{
if (item->descText && !Display_KeyBindPending())
{
// Make DOUBLY sure that this item should have desctext.
#ifndef _XBOX
// NOTE : we can't just check the mouse position on this, what if we TABBED
// to the current menu item -- in that case our mouse isn't over the item.
// Removing the WINDOW_MOUSEOVER flag just prevents the item's OnExit script from running
// if (!Rect_ContainsPoint(&item->window.rect, DC->cursorx, DC->cursory))
// { // It isn't something that should, because it isn't live anymore.
// item->window.flags &= ~WINDOW_MOUSEOVER;
// }
// else
#endif
//END JLFMOUSE
{ // Draw the desctext
const char *textPtr = item->descText;
if (*textPtr == '@') // string reference
{
char temp[MAX_STRING_CHARS];
trap_SP_GetStringTextString( &textPtr[1] , temp, sizeof(temp));
textPtr = temp;
}
Item_TextColor(item, &color);
{// stupid C language
float fDescScale = parent->descScale ? parent->descScale : 1;
float fDescScaleCopy = fDescScale;
int iYadj = 0;
while (1)
{
textWidth = DC->textWidth(textPtr,fDescScale, FONT_SMALL2);
if (parent->descAlignment == ITEM_ALIGN_RIGHT)
{
xPos = parent->descX - textWidth; // Right justify
}
else if (parent->descAlignment == ITEM_ALIGN_CENTER)
{
xPos = parent->descX - (textWidth/2); // Center justify
}
else // Left justify
{
xPos = parent->descX;
}
if (parent->descAlignment == ITEM_ALIGN_CENTER)
{
// only this one will auto-shrink the scale until we eventually fit...
//
if (xPos + textWidth > (SCREEN_WIDTH-4)) {
fDescScale -= 0.001f;
continue;
}
}
// Try to adjust it's y placement if the scale has changed...
//
if (fDescScale != fDescScaleCopy)
{
int iOriginalTextHeight = DC->textHeight(textPtr, fDescScaleCopy, FONT_MEDIUM);
iYadj = iOriginalTextHeight - DC->textHeight(textPtr, fDescScale, FONT_MEDIUM);
}
DC->drawText(xPos, parent->descY + iYadj, fDescScale, parent->descColor, textPtr, 0, 0, item->textStyle, FONT_SMALL2);
break;
}
}
}
}
}
// paint the rect first..
Window_Paint(&item->window, parent->fadeAmount , parent->fadeClamp, parent->fadeCycle);
// Draw box to show rectangle extents, in debug mode
if (debugMode)
{
vec4_t color;
color[1] = color[3] = 1;
color[0] = color[2] = 0;
DC->drawRect(
item->window.rect.x,
item->window.rect.y,
item->window.rect.w,
item->window.rect.h,
1,
color);
}
//DC->drawRect(item->window.rect.x, item->window.rect.y, item->window.rect.w, item->window.rect.h, 1, red);
switch (item->type) {
case ITEM_TYPE_OWNERDRAW:
Item_OwnerDraw_Paint(item);
break;
case ITEM_TYPE_TEXT:
case ITEM_TYPE_BUTTON:
Item_Text_Paint(item);
break;
case ITEM_TYPE_RADIOBUTTON:
break;
case ITEM_TYPE_CHECKBOX:
break;
case ITEM_TYPE_EDITFIELD:
case ITEM_TYPE_NUMERICFIELD:
Item_TextField_Paint(item);
break;
case ITEM_TYPE_COMBO:
break;
case ITEM_TYPE_LISTBOX:
Item_ListBox_Paint(item);
break;
case ITEM_TYPE_TEXTSCROLL:
Item_TextScroll_Paint ( item );
break;
//case ITEM_TYPE_IMAGE:
// Item_Image_Paint(item);
// break;
case ITEM_TYPE_MODEL:
Item_Model_Paint(item);
break;
case ITEM_TYPE_YESNO:
Item_YesNo_Paint(item);
break;
case ITEM_TYPE_MULTI:
Item_Multi_Paint(item);
break;
case ITEM_TYPE_BIND:
Item_Bind_Paint(item);
break;
case ITEM_TYPE_SLIDER:
Item_Slider_Paint(item);
break;
default:
break;
}
}
void Menu_Init(menuDef_t *menu) {
memset(menu, 0, sizeof(menuDef_t));
menu->cursorItem = -1;
menu->fadeAmount = DC->Assets.fadeAmount;
menu->fadeClamp = DC->Assets.fadeClamp;
menu->fadeCycle = DC->Assets.fadeCycle;
Window_Init(&menu->window);
}
itemDef_t *Menu_GetFocusedItem(menuDef_t *menu) {
int i;
if (menu) {
for (i = 0; i < menu->itemCount; i++) {
if (menu->items[i]->window.flags & WINDOW_HASFOCUS) {
return menu->items[i];
}
}
}
return NULL;
}
menuDef_t *Menu_GetFocused() {
int i;
for (i = 0; i < menuCount; i++) {
if (Menus[i].window.flags & WINDOW_HASFOCUS && Menus[i].window.flags & WINDOW_VISIBLE) {
return &Menus[i];
}
}
return NULL;
}
void Menu_ScrollFeeder(menuDef_t *menu, int feeder, qboolean down) {
if (menu) {
int i;
for (i = 0; i < menu->itemCount; i++) {
if (menu->items[i]->special == feeder) {
Item_ListBox_HandleKey(menu->items[i], (down) ? A_CURSOR_DOWN : A_CURSOR_UP, qtrue, qtrue);
return;
}
}
}
}
void Menu_SetFeederSelection(menuDef_t *menu, int feeder, int index, const char *name) {
if (menu == NULL) {
if (name == NULL) {
menu = Menu_GetFocused();
} else {
menu = Menus_FindByName(name);
}
}
if (menu) {
int i;
for (i = 0; i < menu->itemCount; i++) {
if (menu->items[i]->special == feeder) {
if (index == 0) {
listBoxDef_t *listPtr = (listBoxDef_t*)menu->items[i]->typeData;
listPtr->cursorPos = 0;
listPtr->startPos = 0;
}
menu->items[i]->cursorPos = index;
DC->feederSelection(menu->items[i]->special, menu->items[i]->cursorPos, NULL);
return;
}
}
}
}
qboolean Menus_AnyFullScreenVisible() {
int i;
for (i = 0; i < menuCount; i++) {
if (Menus[i].window.flags & WINDOW_VISIBLE && Menus[i].fullScreen) {
return qtrue;
}
}
return qfalse;
}
menuDef_t *Menus_ActivateByName(const char *p) {
int i;
menuDef_t *m = NULL;
menuDef_t *focus = Menu_GetFocused();
for (i = 0; i < menuCount; i++) {
if (Q_stricmp(Menus[i].window.name, p) == 0) {
m = &Menus[i];
Menus_Activate(m);
if (openMenuCount < MAX_OPEN_MENUS && focus != NULL) {
menuStack[openMenuCount++] = focus;
}
} else {
Menus[i].window.flags &= ~WINDOW_HASFOCUS;
}
}
Display_CloseCinematics();
// Want to handle a mouse move on the new menu in case your already over an item
Menu_HandleMouseMove ( m, DC->cursorx, DC->cursory );
return m;
}
void Item_Init(itemDef_t *item) {
memset(item, 0, sizeof(itemDef_t));
item->textscale = 0.55f;
Window_Init(&item->window);
}
void Menu_HandleMouseMove(menuDef_t *menu, float x, float y) {
//JLFMOUSE I THINK THIS JUST SETS THE FOCUS BASED ON THE MOUSE
#ifdef _XBOX
return ;
#endif
//END JLF
int i, pass;
qboolean focusSet = qfalse;
itemDef_t *overItem;
if (menu == NULL) {
return;
}
if (!(menu->window.flags & (WINDOW_VISIBLE | WINDOW_FORCED))) {
return;
}
if (itemCapture) {
//Item_MouseMove(itemCapture, x, y);
return;
}
if (g_waitingForKey || g_editingField) {
return;
}
// FIXME: this is the whole issue of focus vs. mouse over..
// need a better overall solution as i don't like going through everything twice
for (pass = 0; pass < 2; pass++) {
for (i = 0; i < menu->itemCount; i++) {
// turn off focus each item
// menu->items[i].window.flags &= ~WINDOW_HASFOCUS;
if (!(menu->items[i]->window.flags & (WINDOW_VISIBLE | WINDOW_FORCED))) {
continue;
}
if (menu->items[i]->disabled)
{
continue;
}
// items can be enabled and disabled based on cvars
if (menu->items[i]->cvarFlags & (CVAR_ENABLE | CVAR_DISABLE) && !Item_EnableShowViaCvar(menu->items[i], CVAR_ENABLE)) {
continue;
}
if (menu->items[i]->cvarFlags & (CVAR_SHOW | CVAR_HIDE) && !Item_EnableShowViaCvar(menu->items[i], CVAR_SHOW)) {
continue;
}
if (Rect_ContainsPoint(&menu->items[i]->window.rect, x, y)) {
if (pass == 1) {
overItem = menu->items[i];
if (overItem->type == ITEM_TYPE_TEXT && overItem->text) {
if (!Rect_ContainsPoint(&overItem->window.rect, x, y)) {
continue;
}
}
// if we are over an item
if (IsVisible(overItem->window.flags)) {
// different one
Item_MouseEnter(overItem, x, y);
// Item_SetMouseOver(overItem, qtrue);
// if item is not a decoration see if it can take focus
if (!focusSet) {
focusSet = Item_SetFocus(overItem, x, y);
}
}
}
} else if (menu->items[i]->window.flags & WINDOW_MOUSEOVER) {
Item_MouseLeave(menu->items[i]);
Item_SetMouseOver(menu->items[i], qfalse);
}
}
}
}
void Menu_Paint(menuDef_t *menu, qboolean forcePaint) {
int i;
if (menu == NULL) {
return;
}
if (!(menu->window.flags & WINDOW_VISIBLE) && !forcePaint) {
return;
}
if (menu->window.ownerDrawFlags && DC->ownerDrawVisible && !DC->ownerDrawVisible(menu->window.ownerDrawFlags)) {
return;
}
if (forcePaint) {
menu->window.flags |= WINDOW_FORCED;
}
// draw the background if necessary
if (menu->fullScreen) {
// implies a background shader
// FIXME: make sure we have a default shader if fullscreen is set with no background
DC->drawHandlePic( 0, 0, SCREEN_WIDTH, SCREEN_HEIGHT, menu->window.background );
} else if (menu->window.background) {
// this allows a background shader without being full screen
//UI_DrawHandlePic(menu->window.rect.x, menu->window.rect.y, menu->window.rect.w, menu->window.rect.h, menu->backgroundShader);
}
// paint the background and or border
Window_Paint(&menu->window, menu->fadeAmount, menu->fadeClamp, menu->fadeCycle );
// Loop through all items for the menu and paint them
for (i = 0; i < menu->itemCount; i++)
{
if (!menu->items[i]->appearanceSlot)
{
Item_Paint(menu->items[i]);
}
else // Timed order of appearance
{
if (menu->appearanceTime < DC->realTime) // Time to show another item
{
menu->appearanceTime = DC->realTime + menu->appearanceIncrement;
menu->appearanceCnt++;
}
if (menu->items[i]->appearanceSlot<=menu->appearanceCnt)
{
Item_Paint(menu->items[i]);
}
}
}
if (debugMode) {
vec4_t color;
color[0] = color[2] = color[3] = 1;
color[1] = 0;
DC->drawRect(menu->window.rect.x, menu->window.rect.y, menu->window.rect.w, menu->window.rect.h, 1, color);
}
}
/*
===============
Item_ValidateTypeData
===============
*/
void Item_ValidateTypeData(itemDef_t *item)
{
if (item->typeData)
{
return;
}
if (item->type == ITEM_TYPE_LISTBOX)
{
item->typeData = UI_Alloc(sizeof(listBoxDef_t));
memset(item->typeData, 0, sizeof(listBoxDef_t));
}
else if (item->type == ITEM_TYPE_EDITFIELD || item->type == ITEM_TYPE_NUMERICFIELD || item->type == ITEM_TYPE_YESNO || item->type == ITEM_TYPE_BIND || item->type == ITEM_TYPE_SLIDER || item->type == ITEM_TYPE_TEXT)
{
item->typeData = UI_Alloc(sizeof(editFieldDef_t));
memset(item->typeData, 0, sizeof(editFieldDef_t));
if (item->type == ITEM_TYPE_EDITFIELD)
{
if (!((editFieldDef_t *) item->typeData)->maxPaintChars)
{
((editFieldDef_t *) item->typeData)->maxPaintChars = MAX_EDITFIELD;
}
}
}
else if (item->type == ITEM_TYPE_MULTI)
{
item->typeData = UI_Alloc(sizeof(multiDef_t));
}
else if (item->type == ITEM_TYPE_MODEL)
{
item->typeData = UI_Alloc(sizeof(modelDef_t));
memset(item->typeData, 0, sizeof(modelDef_t));
}
else if (item->type == ITEM_TYPE_TEXTSCROLL )
{
item->typeData = UI_Alloc(sizeof(textScrollDef_t));
}
}
/*
===============
Keyword Hash
===============
*/
#define KEYWORDHASH_SIZE 512
typedef struct keywordHash_s
{
char *keyword;
qboolean (*func)(itemDef_t *item, int handle);
struct keywordHash_s *next;
} keywordHash_t;
int KeywordHash_Key(char *keyword) {
int register hash, i;
hash = 0;
for (i = 0; keyword[i] != '\0'; i++) {
if (keyword[i] >= 'A' && keyword[i] <= 'Z')
hash += (keyword[i] + ('a' - 'A')) * (119 + i);
else
hash += keyword[i] * (119 + i);
}
hash = (hash ^ (hash >> 10) ^ (hash >> 20)) & (KEYWORDHASH_SIZE-1);
return hash;
}
void KeywordHash_Add(keywordHash_t *table[], keywordHash_t *key) {
int hash;
hash = KeywordHash_Key(key->keyword);
/*
if (table[hash]) {
int collision = qtrue;
}
*/
key->next = table[hash];
table[hash] = key;
}
keywordHash_t *KeywordHash_Find(keywordHash_t *table[], char *keyword)
{
keywordHash_t *key;
int hash;
hash = KeywordHash_Key(keyword);
for (key = table[hash]; key; key = key->next) {
if (!Q_stricmp(key->keyword, keyword))
return key;
}
return NULL;
}
/*
===============
Item Keyword Parse functions
===============
*/
// name <string>
qboolean ItemParse_name( itemDef_t *item, int handle ) {
if (!PC_String_Parse(handle, &item->window.name)) {
return qfalse;
}
return qtrue;
}
// name <string>
qboolean ItemParse_focusSound( itemDef_t *item, int handle ) {
pc_token_t token;
if (!trap_PC_ReadToken(handle, &token)) {
return qfalse;
}
item->focusSound = DC->registerSound(token.string);
return qtrue;
}
// text <string>
qboolean ItemParse_text( itemDef_t *item, int handle ) {
if (!PC_String_Parse(handle, &item->text)) {
return qfalse;
}
return qtrue;
}
/*
===============
ItemParse_descText
text <string>
===============
*/
qboolean ItemParse_descText( itemDef_t *item, int handle)
{
if (!PC_String_Parse(handle, &item->descText))
{
return qfalse;
}
return qtrue;
}
/*
===============
ItemParse_text
text <string>
===============
*/
qboolean ItemParse_text2( itemDef_t *item, int handle)
{
if (!PC_String_Parse(handle, &item->text2))
{
return qfalse;
}
return qtrue;
}
/*
===============
ItemParse_text2alignx
===============
*/
qboolean ItemParse_text2alignx( itemDef_t *item, int handle)
{
if (!PC_Float_Parse(handle, &item->text2alignx))
{
return qfalse;
}
return qtrue;
}
/*
===============
ItemParse_text2aligny
===============
*/
qboolean ItemParse_text2aligny( itemDef_t *item, int handle)
{
if (!PC_Float_Parse(handle, &item->text2aligny))
{
return qfalse;
}
return qtrue;
}
// group <string>
qboolean ItemParse_group( itemDef_t *item, int handle ) {
if (!PC_String_Parse(handle, &item->window.group)) {
return qfalse;
}
return qtrue;
}
typedef struct uiG2PtrTracker_s uiG2PtrTracker_t;
struct uiG2PtrTracker_s
{
void *ghoul2;
uiG2PtrTracker_t *next;
};
uiG2PtrTracker_t *ui_G2PtrTracker = NULL;
//rww - UI G2 shared management functions.
//Insert the pointer into our chain so we can keep track of it for freeing.
void UI_InsertG2Pointer(void *ghoul2)
{
uiG2PtrTracker_t **nextFree = &ui_G2PtrTracker;
while ((*nextFree) && (*nextFree)->ghoul2)
{ //check if it has a ghoul2, if not we can reuse it.
nextFree = &((*nextFree)->next);
}
if (!nextFree)
{ //shouldn't happen
assert(0);
return;
}
if (!(*nextFree))
{ //if we aren't reusing a chain then allocate space for it.
(*nextFree) = (uiG2PtrTracker_t *)BG_Alloc(sizeof(uiG2PtrTracker_t));
(*nextFree)->next = NULL;
}
(*nextFree)->ghoul2 = ghoul2;
}
//Remove a ghoul2 pointer from the chain if it's there.
void UI_ClearG2Pointer(void *ghoul2)
{
uiG2PtrTracker_t *next = ui_G2PtrTracker;
if (!ghoul2)
{
return;
}
while (next)
{
if (next->ghoul2 == ghoul2)
{ //found it, set it to null so we can reuse this link.
next->ghoul2 = NULL;
break;
}
next = next->next;
}
}
//Called on shutdown, cleans up all the ghoul2 instances laying around.
void UI_CleanupGhoul2(void)
{
uiG2PtrTracker_t *next = ui_G2PtrTracker;
while (next)
{
if (next->ghoul2 && trap_G2_HaveWeGhoul2Models(next->ghoul2))
{ //found a g2 instance, clean it.
trap_G2API_CleanGhoul2Models(&next->ghoul2);
}
next = next->next;
}
#ifdef _XBOX
ui_G2PtrTracker = NULL;
#endif
}
// asset_model <string>
int UI_ParseAnimationFile(const char *filename, animation_t *animset, qboolean isHumanoid);
/*
===============
ItemParse_asset_model
asset_model <string>
===============
*/
qboolean ItemParse_asset_model_go( itemDef_t *item, const char *name,int *runTimeLength )
{
#ifndef CGAME
int g2Model;
modelDef_t *modelPtr;
Item_ValidateTypeData(item);
modelPtr = (modelDef_t*)item->typeData;
*runTimeLength =0.0f;
if (!Q_stricmp(&name[strlen(name) - 4], ".glm"))
{ //it's a ghoul2 model then
if ( item->ghoul2 )
{
UI_ClearG2Pointer(item->ghoul2); //remove from tracking list
trap_G2API_CleanGhoul2Models(&item->ghoul2); //remove ghoul info
item->flags &= ~ITF_G2VALID;
}
g2Model = trap_G2API_InitGhoul2Model(&item->ghoul2, name, 0, modelPtr->g2skin, 0, 0, 0);
if (g2Model >= 0)
{
UI_InsertG2Pointer(item->ghoul2); //remember it so we can free it when the ui shuts down.
item->flags |= ITF_G2VALID;
if (modelPtr->g2anim)
{ //does the menu request this model be playing an animation?
// DC->g2hilev_SetAnim(&item->ghoul2[0], "model_root", modelPtr->g2anim);
char GLAName[MAX_QPATH];
GLAName[0] = 0;
trap_G2API_GetGLAName(item->ghoul2, 0, GLAName);
if (GLAName[0])
{
int animIndex;
char *slash;
slash = Q_strrchr( GLAName, '/' );
if ( slash )
{ //If this isn't true the gla path must be messed up somehow.
strcpy(slash, "/animation.cfg");
animIndex = UI_ParseAnimationFile(GLAName, NULL, qfalse);
if (animIndex != -1)
{ //We parsed out the animation info for whatever model this is
animation_t *anim = &bgAllAnims[animIndex].anims[modelPtr->g2anim];
int sFrame = anim->firstFrame;
int eFrame = anim->firstFrame + anim->numFrames;
int flags = BONE_ANIM_OVERRIDE_FREEZE;
int time = DC->realTime;
float animSpeed = 50.0f / anim->frameLerp;
int blendTime = 150;
if (anim->loopFrames != -1)
{
flags |= BONE_ANIM_OVERRIDE_LOOP;
}
trap_G2API_SetBoneAnim(item->ghoul2, 0, "model_root", sFrame, eFrame, flags, animSpeed, time, -1, blendTime);
*runTimeLength =((anim->frameLerp * (anim->numFrames-2)));
}
}
}
}
if ( modelPtr->g2skin )
{
// DC->g2_SetSkin( &item->ghoul2[0], 0, modelPtr->g2skin );//this is going to set the surfs on/off matching the skin file
//trap_G2API_InitGhoul2Model(&item->ghoul2, name, 0, modelPtr->g2skin, 0, 0, 0);
//ahh, what are you doing?!
trap_G2API_SetSkin(item->ghoul2, 0, modelPtr->g2skin, modelPtr->g2skin);
}
}
/*
else
{
Com_Error(ERR_FATAL, "%s does not exist.", name);
}
*/
}
else if(!(item->asset))
{ //guess it's just an md3
item->asset = DC->registerModel(name);
item->flags &= ~ITF_G2VALID;
}
#endif
return qtrue;
}
qboolean ItemParse_asset_model( itemDef_t *item, int handle ) {
const char *temp;
modelDef_t *modelPtr;
int animRunLength;
pc_token_t token;
Item_ValidateTypeData(item);
modelPtr = (modelDef_t*)item->typeData;
if (!trap_PC_ReadToken(handle, &token)) {
return qfalse;
}
temp = token.string;
#ifndef CGAME
if (!Q_stricmp(token.string,"ui_char_model") )
{
char modelPath[MAX_QPATH];
char ui_char_model[MAX_QPATH];
trap_Cvar_VariableStringBuffer("ui_char_model", ui_char_model, sizeof(ui_char_model) );
Com_sprintf( modelPath, sizeof( modelPath ), "models/players/%s/model.glm", ui_char_model );
temp = modelPath;
}
#endif
return (ItemParse_asset_model_go( item, temp, &animRunLength ));
}
// asset_shader <string>
qboolean ItemParse_asset_shader( itemDef_t *item, int handle ) {
pc_token_t token;
if (!trap_PC_ReadToken(handle, &token)) {
return qfalse;
}
item->asset = DC->registerShaderNoMip(token.string);
return qtrue;
}
// model_origin <number> <number> <number>
qboolean ItemParse_model_origin( itemDef_t *item, int handle ) {
modelDef_t *modelPtr;
Item_ValidateTypeData(item);
modelPtr = (modelDef_t*)item->typeData;
if (PC_Float_Parse(handle, &modelPtr->origin[0])) {
if (PC_Float_Parse(handle, &modelPtr->origin[1])) {
if (PC_Float_Parse(handle, &modelPtr->origin[2])) {
return qtrue;
}
}
}
return qfalse;
}
// model_fovx <number>
qboolean ItemParse_model_fovx( itemDef_t *item, int handle ) {
modelDef_t *modelPtr;
Item_ValidateTypeData(item);
modelPtr = (modelDef_t*)item->typeData;
if (!PC_Float_Parse(handle, &modelPtr->fov_x)) {
return qfalse;
}
return qtrue;
}
// model_fovy <number>
qboolean ItemParse_model_fovy( itemDef_t *item, int handle ) {
modelDef_t *modelPtr;
Item_ValidateTypeData(item);
modelPtr = (modelDef_t*)item->typeData;
if (!PC_Float_Parse(handle, &modelPtr->fov_y)) {
return qfalse;
}
return qtrue;
}
// model_rotation <integer>
qboolean ItemParse_model_rotation( itemDef_t *item, int handle ) {
modelDef_t *modelPtr;
Item_ValidateTypeData(item);
modelPtr = (modelDef_t*)item->typeData;
if (!PC_Int_Parse(handle, &modelPtr->rotationSpeed)) {
return qfalse;
}
return qtrue;
}
// model_angle <integer>
qboolean ItemParse_model_angle( itemDef_t *item, int handle ) {
modelDef_t *modelPtr;
Item_ValidateTypeData(item);
modelPtr = (modelDef_t*)item->typeData;
if (!PC_Int_Parse(handle, &modelPtr->angle)) {
return qfalse;
}
return qtrue;
}
// model_g2mins <number> <number> <number>
qboolean ItemParse_model_g2mins( itemDef_t *item, int handle ) {
modelDef_t *modelPtr;
Item_ValidateTypeData(item);
modelPtr = (modelDef_t*)item->typeData;
if (PC_Float_Parse(handle, &modelPtr->g2mins[0])) {
if (PC_Float_Parse(handle, &modelPtr->g2mins[1])) {
if (PC_Float_Parse(handle, &modelPtr->g2mins[2])) {
return qtrue;
}
}
}
return qfalse;
}
// model_g2maxs <number> <number> <number>
qboolean ItemParse_model_g2maxs( itemDef_t *item, int handle ) {
modelDef_t *modelPtr;
Item_ValidateTypeData(item);
modelPtr = (modelDef_t*)item->typeData;
if (PC_Float_Parse(handle, &modelPtr->g2maxs[0])) {
if (PC_Float_Parse(handle, &modelPtr->g2maxs[1])) {
if (PC_Float_Parse(handle, &modelPtr->g2maxs[2])) {
return qtrue;
}
}
}
return qfalse;
}
// model_g2scale <number> <number> <number>
qboolean ItemParse_model_g2scale( itemDef_t *item, int handle ) {
modelDef_t *modelPtr;
Item_ValidateTypeData(item);
modelPtr = (modelDef_t*)item->typeData;
if (PC_Float_Parse(handle, &modelPtr->g2scale[0])) {
if (PC_Float_Parse(handle, &modelPtr->g2scale[1])) {
if (PC_Float_Parse(handle, &modelPtr->g2scale[2])) {
return qtrue;
}
}
}
return qfalse;
}
// model_g2skin <string>
qhandle_t trap_R_RegisterSkin( const char *name );
qboolean ItemParse_model_g2skin( itemDef_t *item, int handle ) {
modelDef_t *modelPtr;
pc_token_t token;
Item_ValidateTypeData(item);
modelPtr = (modelDef_t*)item->typeData;
if (!trap_PC_ReadToken(handle, &token)) {
return qfalse;
}
if (!token.string[0])
{ //it was parsed correctly so still return true.
return qtrue;
}
modelPtr->g2skin = trap_R_RegisterSkin(token.string);
return qtrue;
}
// model_g2anim <number>
qboolean ItemParse_model_g2anim( itemDef_t *item, int handle ) {
modelDef_t *modelPtr;
pc_token_t token;
int i = 0;
Item_ValidateTypeData(item);
modelPtr = (modelDef_t*)item->typeData;
if (!trap_PC_ReadToken(handle, &token)) {
return qfalse;
}
if ( !token.string[0])
{ //it was parsed correctly so still return true.
return qtrue;
}
while (i < MAX_ANIMATIONS)
{
if (!Q_stricmp(token.string, animTable[i].name))
{ //found it
modelPtr->g2anim = i;
return qtrue;
}
i++;
}
Com_Printf("Could not find '%s' in the anim table\n", token.string);
return qtrue;
}
// model_g2skin <string>
qboolean ItemParse_model_g2skin_go( itemDef_t *item, const char *skinName )
{
modelDef_t *modelPtr;
int defSkin;
Item_ValidateTypeData(item);
modelPtr = (modelDef_t*)item->typeData;
if (!skinName || !skinName[0])
{ //it was parsed correctly so still return true.
modelPtr->g2skin = 0;
trap_G2API_SetSkin(item->ghoul2, 0, 0, 0);
return qtrue;
}
// set skin
if ( item->ghoul2 )
{
defSkin = trap_R_RegisterSkin(skinName);
trap_G2API_SetSkin(item->ghoul2, 0, defSkin, defSkin);
}
return qtrue;
}
// model_g2anim <number>
qboolean ItemParse_model_g2anim_go( itemDef_t *item, const char *animName )
{
modelDef_t *modelPtr;
int i = 0;
Item_ValidateTypeData(item);
modelPtr = (modelDef_t*)item->typeData;
if (!animName || !animName[0])
{ //it was parsed correctly so still return true.
return qtrue;
}
while (i < MAX_ANIMATIONS)
{
if (!Q_stricmp(animName, animTable[i].name))
{ //found it
modelPtr->g2anim = animTable[i].id;
return qtrue;
}
i++;
}
Com_Printf("Could not find '%s' in the anim table\n", animName);
return qtrue;
}
// Get the cvar, get the values and stuff them in the rect structure.
qboolean ItemParse_rectcvar( itemDef_t *item, int handle )
{
char cvarBuf[1024];
const char *holdVal;
char *holdBuf;
// get Cvar name
pc_token_t token;
if (!trap_PC_ReadToken(handle, &token))
{
return qfalse;
}
// get cvar data
DC->getCVarString(token.string, cvarBuf, sizeof(cvarBuf));
holdBuf = cvarBuf;
if (String_Parse(&holdBuf,&holdVal))
{
item->window.rectClient.x = atof(holdVal);
if (String_Parse(&holdBuf,&holdVal))
{
item->window.rectClient.y = atof(holdVal);
if (String_Parse(&holdBuf,&holdVal))
{
item->window.rectClient.w = atof(holdVal);
if (String_Parse(&holdBuf,&holdVal))
{
item->window.rectClient.h = atof(holdVal);
return qtrue;
}
}
}
}
// There may be no cvar built for this, and that's okay. . . I guess.
return qtrue;
}
// rect <rectangle>
qboolean ItemParse_rect( itemDef_t *item, int handle ) {
if (!PC_Rect_Parse(handle, &item->window.rectClient)) {
return qfalse;
}
return qtrue;
}
/*
===============
ItemParse_flag
style <integer>
===============
*/
qboolean ItemParse_flag( itemDef_t *item, int handle)
{
int i;
pc_token_t token;
if (!trap_PC_ReadToken(handle, &token))
{
return qfalse;
}
i=0;
while (styles[i])
{
if (Q_stricmp(token.string,itemFlags[i].string)==0)
{
item->window.flags |= itemFlags[i].value;
break;
}
i++;
}
if (itemFlags[i].string == NULL)
{
Com_Printf(va( S_COLOR_YELLOW "Unknown item style value '%s'",token.string));
}
return qtrue;
}
/*
===============
ItemParse_style
style <integer>
===============
*/
qboolean ItemParse_style( itemDef_t *item, int handle)
{
if (!PC_Int_Parse(handle, &item->window.style))
{
Com_Printf(S_COLOR_YELLOW "Unknown item style value");
return qfalse;
}
return qtrue;
}
// decoration
qboolean ItemParse_decoration( itemDef_t *item, int handle ) {
item->window.flags |= WINDOW_DECORATION;
return qtrue;
}
// notselectable
qboolean ItemParse_notselectable( itemDef_t *item, int handle ) {
listBoxDef_t *listPtr;
Item_ValidateTypeData(item);
listPtr = (listBoxDef_t*)item->typeData;
if (item->type == ITEM_TYPE_LISTBOX && listPtr) {
listPtr->notselectable = qtrue;
}
return qtrue;
}
/*
===============
ItemParse_scrollhidden
scrollhidden
===============
*/
qboolean ItemParse_scrollhidden( itemDef_t *item , int handle)
{
listBoxDef_t *listPtr;
Item_ValidateTypeData(item);
listPtr = (listBoxDef_t*)item->typeData;
if (item->type == ITEM_TYPE_LISTBOX && listPtr)
{
listPtr->scrollhidden = qtrue;
}
return qtrue;
}
// manually wrapped
qboolean ItemParse_wrapped( itemDef_t *item, int handle ) {
item->window.flags |= WINDOW_WRAPPED;
return qtrue;
}
// auto wrapped
qboolean ItemParse_autowrapped( itemDef_t *item, int handle ) {
item->window.flags |= WINDOW_AUTOWRAPPED;
return qtrue;
}
// horizontalscroll
qboolean ItemParse_horizontalscroll( itemDef_t *item, int handle ) {
item->window.flags |= WINDOW_HORIZONTAL;
return qtrue;
}
/*
===============
ItemParse_type
type <integer>
===============
*/
qboolean ItemParse_type( itemDef_t *item, int handle )
{
// int i,holdInt;
if (!PC_Int_Parse(handle, &item->type))
{
return qfalse;
}
Item_ValidateTypeData(item);
return qtrue;
}
// elementwidth, used for listbox image elements
// uses textalignx for storage
qboolean ItemParse_elementwidth( itemDef_t *item, int handle ) {
listBoxDef_t *listPtr;
Item_ValidateTypeData(item);
listPtr = (listBoxDef_t*)item->typeData;
if (!PC_Float_Parse(handle, &listPtr->elementWidth)) {
return qfalse;
}
return qtrue;
}
// elementheight, used for listbox image elements
// uses textaligny for storage
qboolean ItemParse_elementheight( itemDef_t *item, int handle ) {
listBoxDef_t *listPtr;
Item_ValidateTypeData(item);
listPtr = (listBoxDef_t*)item->typeData;
if (!PC_Float_Parse(handle, &listPtr->elementHeight)) {
return qfalse;
}
return qtrue;
}
// feeder <float>
qboolean ItemParse_feeder( itemDef_t *item, int handle ) {
if (!PC_Float_Parse(handle, &item->special)) {
return qfalse;
}
return qtrue;
}
// elementtype, used to specify what type of elements a listbox contains
// uses textstyle for storage
qboolean ItemParse_elementtype( itemDef_t *item, int handle ) {
listBoxDef_t *listPtr;
Item_ValidateTypeData(item);
if (!item->typeData)
return qfalse;
listPtr = (listBoxDef_t*)item->typeData;
if (!PC_Int_Parse(handle, &listPtr->elementStyle)) {
return qfalse;
}
return qtrue;
}
// columns sets a number of columns and an x pos and width per..
qboolean ItemParse_columns( itemDef_t *item, int handle ) {
int num, i;
listBoxDef_t *listPtr;
Item_ValidateTypeData(item);
if (!item->typeData)
return qfalse;
listPtr = (listBoxDef_t*)item->typeData;
if (PC_Int_Parse(handle, &num)) {
if (num > MAX_LB_COLUMNS) {
num = MAX_LB_COLUMNS;
}
listPtr->numColumns = num;
for (i = 0; i < num; i++) {
int pos, width, maxChars;
if (PC_Int_Parse(handle, &pos) && PC_Int_Parse(handle, &width) && PC_Int_Parse(handle, &maxChars)) {
listPtr->columnInfo[i].pos = pos;
listPtr->columnInfo[i].width = width;
listPtr->columnInfo[i].maxChars = maxChars;
} else {
return qfalse;
}
}
} else {
return qfalse;
}
return qtrue;
}
qboolean ItemParse_border( itemDef_t *item, int handle ) {
if (!PC_Int_Parse(handle, &item->window.border)) {
return qfalse;
}
return qtrue;
}
qboolean ItemParse_bordersize( itemDef_t *item, int handle ) {
if (!PC_Float_Parse(handle, &item->window.borderSize)) {
return qfalse;
}
return qtrue;
}
qboolean ItemParse_visible( itemDef_t *item, int handle ) {
int i;
if (!PC_Int_Parse(handle, &i)) {
return qfalse;
}
if (i) {
item->window.flags |= WINDOW_VISIBLE;
}
return qtrue;
}
qboolean ItemParse_ownerdraw( itemDef_t *item, int handle ) {
if (!PC_Int_Parse(handle, &item->window.ownerDraw)) {
return qfalse;
}
item->type = ITEM_TYPE_OWNERDRAW;
return qtrue;
}
qboolean ItemParse_align( itemDef_t *item, int handle ) {
if (!PC_Int_Parse(handle, &item->alignment)) {
return qfalse;
}
return qtrue;
}
/*
===============
ItemParse_isCharacter
Sets item flag showing this is a character
===============
*/
qboolean ItemParse_isCharacter( itemDef_t *item, int handle )
{
int flag;
if (PC_Int_Parse(handle, &flag))
{
if ( flag )
{
item->flags |= ITF_ISCHARACTER;
}
else
{
item->flags &= ~ITF_ISCHARACTER;
}
return qtrue;
}
return qfalse;
}
/*
===============
ItemParse_textalign
===============
*/
qboolean ItemParse_textalign( itemDef_t *item, int handle )
{
if (!PC_Int_Parse(handle, &item->textalignment))
{
Com_Printf(S_COLOR_YELLOW "Unknown text alignment value");
return qfalse;
}
return qtrue;
}
qboolean ItemParse_textalignx( itemDef_t *item, int handle ) {
if (!PC_Float_Parse(handle, &item->textalignx)) {
return qfalse;
}
return qtrue;
}
qboolean ItemParse_textaligny( itemDef_t *item, int handle ) {
if (!PC_Float_Parse(handle, &item->textaligny)) {
return qfalse;
}
return qtrue;
}
qboolean ItemParse_textscale( itemDef_t *item, int handle ) {
if (!PC_Float_Parse(handle, &item->textscale)) {
return qfalse;
}
return qtrue;
}
qboolean ItemParse_textstyle( itemDef_t *item, int handle ) {
if (!PC_Int_Parse(handle, &item->textStyle)) {
return qfalse;
}
return qtrue;
}
/*
===============
ItemParse_invertyesno
===============
*/
//JLFYESNO MPMOVED
qboolean ItemParse_invertyesno( itemDef_t *item, int handle)
{
if (!PC_Int_Parse(handle, &item->invertYesNo))
{
return qfalse;
}
return qtrue;
}
/*
===============
ItemParse_xoffset (used for yes/no and multi)
===============
*/
qboolean ItemParse_xoffset( itemDef_t *item, int handle)
{
if (PC_Int_Parse(handle, &item->xoffset))
{
return qfalse;
}
return qtrue;
}
qboolean ItemParse_backcolor( itemDef_t *item, int handle ) {
int i;
float f;
for (i = 0; i < 4; i++) {
if (!PC_Float_Parse(handle, &f)) {
return qfalse;
}
item->window.backColor[i] = f;
}
return qtrue;
}
qboolean ItemParse_forecolor( itemDef_t *item, int handle ) {
int i;
float f;
for (i = 0; i < 4; i++) {
if (!PC_Float_Parse(handle, &f)) {
return qfalse;
}
if (f < 0)
{ //special case for player color
item->window.flags |= WINDOW_PLAYERCOLOR;
return qtrue;
}
item->window.foreColor[i] = f;
item->window.flags |= WINDOW_FORECOLORSET;
}
return qtrue;
}
qboolean ItemParse_bordercolor( itemDef_t *item, int handle ) {
int i;
float f;
for (i = 0; i < 4; i++) {
if (!PC_Float_Parse(handle, &f)) {
return qfalse;
}
item->window.borderColor[i] = f;
}
return qtrue;
}
qboolean ItemParse_outlinecolor( itemDef_t *item, int handle ) {
if (!PC_Color_Parse(handle, &item->window.outlineColor)){
return qfalse;
}
return qtrue;
}
qboolean ItemParse_background( itemDef_t *item, int handle ) {
pc_token_t token;
if (!trap_PC_ReadToken(handle, &token)) {
return qfalse;
}
item->window.background = DC->registerShaderNoMip(token.string);
return qtrue;
}
qboolean ItemParse_cinematic( itemDef_t *item, int handle ) {
if (!PC_String_Parse(handle, &item->window.cinematicName)) {
return qfalse;
}
return qtrue;
}
qboolean ItemParse_doubleClick( itemDef_t *item, int handle ) {
listBoxDef_t *listPtr;
Item_ValidateTypeData(item);
if (!item->typeData) {
return qfalse;
}
listPtr = (listBoxDef_t*)item->typeData;
if (!PC_Script_Parse(handle, &listPtr->doubleClick)) {
return qfalse;
}
return qtrue;
}
qboolean ItemParse_onFocus( itemDef_t *item, int handle ) {
if (!PC_Script_Parse(handle, &item->onFocus)) {
return qfalse;
}
return qtrue;
}
qboolean ItemParse_leaveFocus( itemDef_t *item, int handle ) {
if (!PC_Script_Parse(handle, &item->leaveFocus)) {
return qfalse;
}
return qtrue;
}
qboolean ItemParse_mouseEnter( itemDef_t *item, int handle ) {
if (!PC_Script_Parse(handle, &item->mouseEnter)) {
return qfalse;
}
return qtrue;
}
qboolean ItemParse_mouseExit( itemDef_t *item, int handle ) {
if (!PC_Script_Parse(handle, &item->mouseExit)) {
return qfalse;
}
return qtrue;
}
qboolean ItemParse_mouseEnterText( itemDef_t *item, int handle ) {
if (!PC_Script_Parse(handle, &item->mouseEnterText)) {
return qfalse;
}
return qtrue;
}
qboolean ItemParse_mouseExitText( itemDef_t *item, int handle ) {
if (!PC_Script_Parse(handle, &item->mouseExitText)) {
return qfalse;
}
return qtrue;
}
qboolean ItemParse_action( itemDef_t *item, int handle ) {
if (!PC_Script_Parse(handle, &item->action)) {
return qfalse;
}
return qtrue;
}
qboolean ItemParse_special( itemDef_t *item, int handle ) {
if (!PC_Float_Parse(handle, &item->special)) {
return qfalse;
}
return qtrue;
}
qboolean ItemParse_cvarTest( itemDef_t *item, int handle ) {
if (!PC_String_Parse(handle, &item->cvarTest)) {
return qfalse;
}
return qtrue;
}
qboolean ItemParse_cvar( itemDef_t *item, int handle )
{
Item_ValidateTypeData(item);
if (!PC_String_Parse(handle, &item->cvar))
{
return qfalse;
}
if ( item->typeData)
{
editFieldDef_t *editPtr;
switch ( item->type )
{
case ITEM_TYPE_EDITFIELD:
case ITEM_TYPE_NUMERICFIELD:
case ITEM_TYPE_YESNO:
case ITEM_TYPE_BIND:
case ITEM_TYPE_SLIDER:
case ITEM_TYPE_TEXT:
editPtr = (editFieldDef_t*)item->typeData;
editPtr->minVal = -1;
editPtr->maxVal = -1;
editPtr->defVal = -1;
break;
}
}
return qtrue;
}
qboolean ItemParse_font( itemDef_t *item, int handle )
{
Item_ValidateTypeData(item);
if (!PC_Int_Parse(handle, &item->iMenuFont))
{
return qfalse;
}
return qtrue;
}
qboolean ItemParse_maxChars( itemDef_t *item, int handle ) {
editFieldDef_t *editPtr;
int maxChars;
Item_ValidateTypeData(item);
if (!item->typeData)
return qfalse;
if (!PC_Int_Parse(handle, &maxChars)) {
return qfalse;
}
editPtr = (editFieldDef_t*)item->typeData;
editPtr->maxChars = maxChars;
return qtrue;
}
qboolean ItemParse_maxPaintChars( itemDef_t *item, int handle ) {
editFieldDef_t *editPtr;
int maxChars;
Item_ValidateTypeData(item);
if (!item->typeData)
return qfalse;
if (!PC_Int_Parse(handle, &maxChars)) {
return qfalse;
}
editPtr = (editFieldDef_t*)item->typeData;
editPtr->maxPaintChars = maxChars;
return qtrue;
}
qboolean ItemParse_maxLineChars( itemDef_t *item, int handle )
{
textScrollDef_t *scrollPtr;
int maxChars;
Item_ValidateTypeData(item);
if (!item->typeData)
return qfalse;
if (!PC_Int_Parse(handle, &maxChars))
{
return qfalse;
}
scrollPtr = (textScrollDef_t*)item->typeData;
scrollPtr->maxLineChars = maxChars;
return qtrue;
}
qboolean ItemParse_lineHeight( itemDef_t *item, int handle )
{
textScrollDef_t *scrollPtr;
int height;
Item_ValidateTypeData(item);
if (!item->typeData)
return qfalse;
if (!PC_Int_Parse(handle, &height))
{
return qfalse;
}
scrollPtr = (textScrollDef_t*)item->typeData;
scrollPtr->lineHeight = height;
return qtrue;
}
qboolean ItemParse_cvarFloat( itemDef_t *item, int handle ) {
editFieldDef_t *editPtr;
Item_ValidateTypeData(item);
if (!item->typeData)
return qfalse;
editPtr = (editFieldDef_t*)item->typeData;
if (PC_String_Parse(handle, &item->cvar) &&
PC_Float_Parse(handle, &editPtr->defVal) &&
PC_Float_Parse(handle, &editPtr->minVal) &&
PC_Float_Parse(handle, &editPtr->maxVal)) {
return qtrue;
}
return qfalse;
}
char currLanguage[32][128];
static const char languageString[32] = "@MENUS_MYLANGUAGE";
qboolean ItemParse_cvarStrList( itemDef_t *item, int handle ) {
pc_token_t token;
multiDef_t *multiPtr;
int pass;
Item_ValidateTypeData(item);
if (!item->typeData)
return qfalse;
multiPtr = (multiDef_t*)item->typeData;
multiPtr->count = 0;
multiPtr->strDef = qtrue;
if (!trap_PC_ReadToken(handle, &token))
{
return qfalse;
}
if (!Q_stricmp(token.string,"feeder") && item->special == FEEDER_PLAYER_SPECIES)
{
#ifndef CGAME
for (; multiPtr->count < uiInfo.playerSpeciesCount; multiPtr->count++)
{
multiPtr->cvarList[multiPtr->count] = String_Alloc(Q_strupr(va("@MENUS_%s",uiInfo.playerSpecies[multiPtr->count].Name ))); //look up translation
multiPtr->cvarStr[multiPtr->count] = uiInfo.playerSpecies[multiPtr->count].Name; //value
}
#endif
return qtrue;
}
// languages
if (!Q_stricmp(token.string,"feeder") && item->special == FEEDER_LANGUAGES)
{
#ifndef CGAME
for (; multiPtr->count < uiInfo.languageCount; multiPtr->count++)
{
// The displayed text
trap_GetLanguageName( (const int) multiPtr->count,(char *) currLanguage[multiPtr->count] ); // eg "English"
multiPtr->cvarList[multiPtr->count] = languageString;
// The cvar value that goes into se_language
trap_GetLanguageName( (const int) multiPtr->count,(char *) currLanguage[multiPtr->count] );
multiPtr->cvarStr[multiPtr->count] = currLanguage[multiPtr->count];
}
#endif
return qtrue;
}
if (*token.string != '{') {
return qfalse;
}
pass = 0;
while ( 1 ) {
char* psString;
// if (!trap_PC_ReadToken(handle, &token)) {
// PC_SourceError(handle, "end of file inside menu item\n");
// return qfalse;
// }
if (!PC_String_Parse(handle, (const char **)&psString))
{
PC_SourceError(handle, "end of file inside menu item\n");
return qfalse;
}
//a normal StringAlloc ptr
if (psString)
{
if (*psString == '}') {
return qtrue;
}
if (*psString == ',' || *psString == ';') {
continue;
}
}
if (pass == 0) {
multiPtr->cvarList[multiPtr->count] = psString;
pass = 1;
} else {
multiPtr->cvarStr[multiPtr->count] = psString;
pass = 0;
multiPtr->count++;
if (multiPtr->count >= MAX_MULTI_CVARS) {
return qfalse;
}
}
}
return qfalse; // bk001205 - LCC missing return value
}
qboolean ItemParse_cvarFloatList( itemDef_t *item, int handle )
{
pc_token_t token;
multiDef_t *multiPtr;
Item_ValidateTypeData(item);
if (!item->typeData)
{
return qfalse;
}
multiPtr = (multiDef_t*)item->typeData;
multiPtr->count = 0;
multiPtr->strDef = qfalse;
if (!trap_PC_ReadToken(handle, &token))
{
return qfalse;
}
if (*token.string != '{')
{
return qfalse;
}
while ( 1 )
{
char* string;
if ( !PC_String_Parse ( handle, (const char **)&string ) )
{
PC_SourceError(handle, "end of file inside menu item\n");
return qfalse;
}
//a normal StringAlloc ptr
if (string)
{
if (*string == '}')
{
return qtrue;
}
if (*string == ',' || *string == ';')
{
continue;
}
}
multiPtr->cvarList[multiPtr->count] = string;
if (!PC_Float_Parse(handle, &multiPtr->cvarValue[multiPtr->count]))
{
return qfalse;
}
multiPtr->count++;
if (multiPtr->count >= MAX_MULTI_CVARS)
{
return qfalse;
}
}
return qfalse; // bk001205 - LCC missing return value
}
qboolean ItemParse_addColorRange( itemDef_t *item, int handle ) {
colorRangeDef_t color;
if (PC_Float_Parse(handle, &color.low) &&
PC_Float_Parse(handle, &color.high) &&
PC_Color_Parse(handle, &color.color) ) {
if (item->numColors < MAX_COLOR_RANGES) {
memcpy(&item->colorRanges[item->numColors], &color, sizeof(color));
item->numColors++;
}
return qtrue;
}
return qfalse;
}
qboolean ItemParse_ownerdrawFlag( itemDef_t *item, int handle ) {
int i;
if (!PC_Int_Parse(handle, &i)) {
return qfalse;
}
item->window.ownerDrawFlags |= i;
return qtrue;
}
qboolean ItemParse_enableCvar( itemDef_t *item, int handle ) {
if (PC_Script_Parse(handle, &item->enableCvar)) {
item->cvarFlags = CVAR_ENABLE;
return qtrue;
}
return qfalse;
}
qboolean ItemParse_disableCvar( itemDef_t *item, int handle ) {
if (PC_Script_Parse(handle, &item->enableCvar)) {
item->cvarFlags = CVAR_DISABLE;
return qtrue;
}
return qfalse;
}
qboolean ItemParse_showCvar( itemDef_t *item, int handle ) {
if (PC_Script_Parse(handle, &item->enableCvar)) {
item->cvarFlags = CVAR_SHOW;
return qtrue;
}
return qfalse;
}
qboolean ItemParse_hideCvar( itemDef_t *item, int handle ) {
if (PC_Script_Parse(handle, &item->enableCvar)) {
item->cvarFlags = CVAR_HIDE;
return qtrue;
}
return qfalse;
}
/*
===============
ItemParse_align
===============
*/
qboolean ItemParse_Appearance_slot( itemDef_t *item, int handle )
{
if (!PC_Int_Parse(handle, &item->appearanceSlot))
{
return qfalse;
}
return qtrue;
}
qboolean ItemParse_isSaber( itemDef_t *item, int handle )
{
#ifndef CGAME
int i;
if (PC_Int_Parse(handle, &i))
{
if ( i )
{
item->flags |= ITF_ISSABER;
UI_CacheSaberGlowGraphics();
if ( !ui_saber_parms_parsed )
{
UI_SaberLoadParms();
}
}
else
{
item->flags &= ~ITF_ISSABER;
}
return qtrue;
}
#endif
return qfalse;
}
//extern void UI_SaberLoadParms( void );
//extern qboolean ui_saber_parms_parsed;
//extern void UI_CacheSaberGlowGraphics( void );
qboolean ItemParse_isSaber2( itemDef_t *item, int handle )
{
#ifndef CGAME
int i;
if (PC_Int_Parse(handle, &i))
{
if ( i )
{
item->flags |= ITF_ISSABER2;
UI_CacheSaberGlowGraphics();
if ( !ui_saber_parms_parsed )
{
UI_SaberLoadParms();
}
}
else
{
item->flags &= ~ITF_ISSABER2;
}
return qtrue;
}
#endif
return qfalse;
}
keywordHash_t itemParseKeywords[] = {
{"action", ItemParse_action, NULL },
{"addColorRange", ItemParse_addColorRange, NULL },
{"align", ItemParse_align, NULL },
{"autowrapped", ItemParse_autowrapped, NULL },
{"appearance_slot", ItemParse_Appearance_slot, NULL },
{"asset_model", ItemParse_asset_model, NULL },
{"asset_shader", ItemParse_asset_shader, NULL },
{"backcolor", ItemParse_backcolor, NULL },
{"background", ItemParse_background, NULL },
{"border", ItemParse_border, NULL },
{"bordercolor", ItemParse_bordercolor, NULL },
{"bordersize", ItemParse_bordersize, NULL },
{"cinematic", ItemParse_cinematic, NULL },
{"columns", ItemParse_columns, NULL },
{"cvar", ItemParse_cvar, NULL },
{"cvarFloat", ItemParse_cvarFloat, NULL },
{"cvarFloatList", ItemParse_cvarFloatList, NULL },
{"cvarStrList", ItemParse_cvarStrList, NULL },
{"cvarTest", ItemParse_cvarTest, NULL },
{"desctext", ItemParse_descText, NULL },
{"decoration", ItemParse_decoration, NULL },
{"disableCvar", ItemParse_disableCvar, NULL },
{"doubleclick", ItemParse_doubleClick, NULL },
{"elementheight", ItemParse_elementheight, NULL },
{"elementtype", ItemParse_elementtype, NULL },
{"elementwidth", ItemParse_elementwidth, NULL },
{"enableCvar", ItemParse_enableCvar, NULL },
{"feeder", ItemParse_feeder, NULL },
{"flag", ItemParse_flag, NULL },
{"focusSound", ItemParse_focusSound, NULL },
{"font", ItemParse_font, NULL },
{"forecolor", ItemParse_forecolor, NULL },
{"group", ItemParse_group, NULL },
{"hideCvar", ItemParse_hideCvar, NULL },
{"horizontalscroll", ItemParse_horizontalscroll, NULL },
{"isCharacter", ItemParse_isCharacter, NULL },
{"isSaber", ItemParse_isSaber, NULL },
{"isSaber2", ItemParse_isSaber2, NULL },
{"leaveFocus", ItemParse_leaveFocus, NULL },
{"maxChars", ItemParse_maxChars, NULL },
{"maxPaintChars", ItemParse_maxPaintChars, NULL },
{"model_angle", ItemParse_model_angle, NULL },
{"model_fovx", ItemParse_model_fovx, NULL },
{"model_fovy", ItemParse_model_fovy, NULL },
{"model_origin", ItemParse_model_origin, NULL },
{"model_rotation", ItemParse_model_rotation, NULL },
//rww - g2 begin
{"model_g2mins", ItemParse_model_g2mins, NULL },
{"model_g2maxs", ItemParse_model_g2maxs, NULL },
{"model_g2scale", ItemParse_model_g2scale, NULL },
{"model_g2skin", ItemParse_model_g2skin, NULL },
{"model_g2anim", ItemParse_model_g2anim, NULL },
//rww - g2 end
{"mouseEnter", ItemParse_mouseEnter, NULL },
{"mouseEnterText", ItemParse_mouseEnterText, NULL },
{"mouseExit", ItemParse_mouseExit, NULL },
{"mouseExitText", ItemParse_mouseExitText, NULL },
{"name", ItemParse_name, NULL },
{"notselectable", ItemParse_notselectable, NULL },
{"onFocus", ItemParse_onFocus, NULL },
{"outlinecolor", ItemParse_outlinecolor, NULL },
{"ownerdraw", ItemParse_ownerdraw, NULL },
{"ownerdrawFlag", ItemParse_ownerdrawFlag, NULL },
{"rect", ItemParse_rect, NULL },
{"rectcvar", ItemParse_rectcvar, NULL },
{"showCvar", ItemParse_showCvar, NULL },
{"special", ItemParse_special, NULL },
{"style", ItemParse_style, NULL },
{"text", ItemParse_text, NULL },
{"textalign", ItemParse_textalign, NULL },
{"textalignx", ItemParse_textalignx, NULL },
{"textaligny", ItemParse_textaligny, NULL },
{"textscale", ItemParse_textscale, NULL },
{"textstyle", ItemParse_textstyle, NULL },
{"text2", ItemParse_text2, NULL },
{"text2alignx", ItemParse_text2alignx, NULL },
{"text2aligny", ItemParse_text2aligny, NULL },
{"type", ItemParse_type, NULL },
{"visible", ItemParse_visible, NULL },
{"wrapped", ItemParse_wrapped, NULL },
// Text scroll specific
{"maxLineChars", ItemParse_maxLineChars, NULL },
{"lineHeight", ItemParse_lineHeight, NULL },
{"invertyesno", ItemParse_invertyesno, NULL },
//JLF MPMOVED
{"scrollhidden", ItemParse_scrollhidden, NULL },
{"xoffset ", ItemParse_xoffset, NULL },
//JLF end
{0, 0, 0 }
};
keywordHash_t *itemParseKeywordHash[KEYWORDHASH_SIZE];
/*
===============
Item_SetupKeywordHash
===============
*/
void Item_SetupKeywordHash(void) {
int i;
memset(itemParseKeywordHash, 0, sizeof(itemParseKeywordHash));
for (i = 0; itemParseKeywords[i].keyword; i++) {
KeywordHash_Add(itemParseKeywordHash, &itemParseKeywords[i]);
}
}
/*
===============
Item_Parse
===============
*/
qboolean Item_Parse(int handle, itemDef_t *item) {
pc_token_t token;
keywordHash_t *key;
if (!trap_PC_ReadToken(handle, &token))
return qfalse;
if (*token.string != '{') {
return qfalse;
}
while ( 1 ) {
if (!trap_PC_ReadToken(handle, &token)) {
PC_SourceError(handle, "end of file inside menu item\n");
return qfalse;
}
if (*token.string == '}') {
return qtrue;
}
key = KeywordHash_Find(itemParseKeywordHash, token.string);
if (!key) {
PC_SourceError(handle, "unknown menu item keyword %s", token.string);
continue;
}
if ( !key->func(item, handle) ) {
PC_SourceError(handle, "couldn't parse menu item keyword %s", token.string);
return qfalse;
}
}
return qfalse; // bk001205 - LCC missing return value
}
static void Item_TextScroll_BuildLines ( itemDef_t* item )
{
char text[2048];
#if 1
// new asian-aware line breaker... (pasted from elsewhere late @ night, hence aliasing-vars ;-)
//
textScrollDef_t* scrollPtr = (textScrollDef_t*) item->typeData;
const char *psText = item->text; // for copy/paste ease
int iBoxWidth = item->window.rect.w - SCROLLBAR_SIZE - 10;
// this could probably be simplified now, but it was converted from something else I didn't originally write,
// and it works anyway so wtf...
//
const char *psCurrentTextReadPos;
const char *psReadPosAtLineStart;
const char *psBestLineBreakSrcPos;
const char *psLastGood_s; // needed if we get a full screen of chars with no punctuation or space (see usage notes)
qboolean bIsTrailingPunctuation;
unsigned int uiLetter;
if (*psText == '@') // string reference
{
trap_SP_GetStringTextString( &psText[1], text, sizeof(text));
psText = text;
}
psCurrentTextReadPos = psText;
psReadPosAtLineStart = psCurrentTextReadPos;
psBestLineBreakSrcPos = psCurrentTextReadPos;
scrollPtr->iLineCount = 0;
memset((char*)scrollPtr->pLines,0,sizeof(scrollPtr->pLines));
while (*psCurrentTextReadPos && (scrollPtr->iLineCount < MAX_TEXTSCROLL_LINES) )
{
char sLineForDisplay[2048]; // ott
// construct a line...
//
psCurrentTextReadPos = psReadPosAtLineStart;
sLineForDisplay[0] = '\0';
while ( *psCurrentTextReadPos )
{
int iAdvanceCount;
psLastGood_s = psCurrentTextReadPos;
// read letter...
//
uiLetter = trap_AnyLanguage_ReadCharFromString(psCurrentTextReadPos, &iAdvanceCount, &bIsTrailingPunctuation);
psCurrentTextReadPos += iAdvanceCount;
// concat onto string so far...
//
if (uiLetter == 32 && sLineForDisplay[0] == '\0')
{
psReadPosAtLineStart++;
continue; // unless it's a space at the start of a line, in which case ignore it.
}
if (uiLetter > 255)
{
Q_strcat(sLineForDisplay, sizeof(sLineForDisplay),va("%c%c",uiLetter >> 8, uiLetter & 0xFF));
}
else
{
Q_strcat(sLineForDisplay, sizeof(sLineForDisplay),va("%c",uiLetter & 0xFF));
}
if (uiLetter == '\n')
{
// explicit new line...
//
sLineForDisplay[ strlen(sLineForDisplay)-1 ] = '\0'; // kill the CR
psReadPosAtLineStart = psCurrentTextReadPos;
psBestLineBreakSrcPos = psCurrentTextReadPos;
// hack it to fit in with this code...
//
scrollPtr->pLines[ scrollPtr->iLineCount ] = String_Alloc ( sLineForDisplay );
break; // print this line
}
else
if ( DC->textWidth( sLineForDisplay, item->textscale, item->iMenuFont ) >= iBoxWidth )
{
// reached screen edge, so cap off string at bytepos after last good position...
//
if (uiLetter > 255 && bIsTrailingPunctuation && !trap_Language_UsesSpaces())
{
// Special case, don't consider line breaking if you're on an asian punctuation char of
// a language that doesn't use spaces...
//
uiLetter = uiLetter; // breakpoint line only
}
else
{
if (psBestLineBreakSrcPos == psReadPosAtLineStart)
{
// aarrrggh!!!!! we'll only get here is someone has fed in a (probably) garbage string,
// since it doesn't have a single space or punctuation mark right the way across one line
// of the screen. So far, this has only happened in testing when I hardwired a taiwanese
// string into this function while the game was running in english (which should NEVER happen
// normally). On the other hand I suppose it's entirely possible that some taiwanese string
// might have no punctuation at all, so...
//
psBestLineBreakSrcPos = psLastGood_s; // force a break after last good letter
}
sLineForDisplay[ psBestLineBreakSrcPos - psReadPosAtLineStart ] = '\0';
psReadPosAtLineStart = psCurrentTextReadPos = psBestLineBreakSrcPos;
// hack it to fit in with this code...
//
scrollPtr->pLines[ scrollPtr->iLineCount ] = String_Alloc( sLineForDisplay );
break; // print this line
}
}
// record last-good linebreak pos... (ie if we've just concat'd a punctuation point (western or asian) or space)
//
if (bIsTrailingPunctuation || uiLetter == ' ' || (uiLetter > 255 && !trap_Language_UsesSpaces()))
{
psBestLineBreakSrcPos = psCurrentTextReadPos;
}
}
/// arrgghh, this is gettng horrible now...
//
if (scrollPtr->pLines[ scrollPtr->iLineCount ] == NULL && strlen(sLineForDisplay))
{
// then this is the last line and we've just run out of text, no CR, no overflow etc...
//
scrollPtr->pLines[ scrollPtr->iLineCount ] = String_Alloc( sLineForDisplay );
}
scrollPtr->iLineCount++;
}
#else
// old version...
//
int width;
char* lineStart;
char* lineEnd;
float w;
float cw;
textScrollDef_t* scrollPtr = (textScrollDef_t*) item->typeData;
scrollPtr->iLineCount = 0;
width = scrollPtr->maxLineChars;
lineStart = (char*)item->text;
lineEnd = lineStart;
w = 0;
// Keep going as long as there are more lines
while ( scrollPtr->iLineCount < MAX_TEXTSCROLL_LINES )
{
// End of the road
if ( *lineEnd == '\0')
{
if ( lineStart < lineEnd )
{
scrollPtr->pLines[ scrollPtr->iLineCount++ ] = lineStart;
}
break;
}
// Force a line end if its a '\n'
else if ( *lineEnd == '\n' )
{
*lineEnd = '\0';
scrollPtr->pLines[ scrollPtr->iLineCount++ ] = lineStart;
lineStart = lineEnd + 1;
lineEnd = lineStart;
w = 0;
continue;
}
// Get the current character width
cw = DC->textWidth ( va("%c", *lineEnd), item->textscale, item->iMenuFont );
// Past the end of the boundary?
if ( w + cw > (item->window.rect.w - SCROLLBAR_SIZE - 10) )
{
// Past the end so backtrack to the word boundary
while ( *lineEnd != ' ' && *lineEnd != '\t' && lineEnd > lineStart )
{
lineEnd--;
}
*lineEnd = '\0';
scrollPtr->pLines[ scrollPtr->iLineCount++ ] = lineStart;
// Skip any whitespaces
lineEnd++;
while ( (*lineEnd == ' ' || *lineEnd == '\t') && *lineEnd )
{
lineEnd++;
}
lineStart = lineEnd;
w = 0;
}
else
{
w += cw;
lineEnd++;
}
}
#endif
}
// Item_InitControls
// init's special control types
void Item_InitControls(itemDef_t *item)
{
if (item == NULL)
{
return;
}
switch ( item->type )
{
case ITEM_TYPE_LISTBOX:
{
listBoxDef_t *listPtr = (listBoxDef_t*)item->typeData;
item->cursorPos = 0;
if (listPtr)
{
listPtr->cursorPos = 0;
listPtr->startPos = 0;
listPtr->endPos = 0;
listPtr->cursorPos = 0;
}
break;
}
}
}
/*
===============
Menu Keyword Parse functions
===============
*/
qboolean MenuParse_font( itemDef_t *item, int handle ) {
menuDef_t *menu = (menuDef_t*)item;
if (!PC_String_Parse(handle, &menu->font)) {
return qfalse;
}
if (!DC->Assets.fontRegistered) {
//DC->registerFont(menu->font, 48, &DC->Assets.textFont);
DC->Assets.qhMediumFont = DC->RegisterFont(menu->font);
DC->Assets.fontRegistered = qtrue;
}
return qtrue;
}
qboolean MenuParse_name( itemDef_t *item, int handle ) {
menuDef_t *menu = (menuDef_t*)item;
if (!PC_String_Parse(handle, &menu->window.name)) {
return qfalse;
}
if (Q_stricmp(menu->window.name, "main") == 0) {
// default main as having focus
//menu->window.flags |= WINDOW_HASFOCUS;
}
return qtrue;
}
qboolean MenuParse_fullscreen( itemDef_t *item, int handle ) {
menuDef_t *menu = (menuDef_t*)item;
if (!PC_Int_Parse(handle, (int*) &menu->fullScreen)) { // bk001206 - cast qboolean
return qfalse;
}
return qtrue;
}
qboolean MenuParse_rect( itemDef_t *item, int handle ) {
menuDef_t *menu = (menuDef_t*)item;
if (!PC_Rect_Parse(handle, &menu->window.rect)) {
return qfalse;
}
return qtrue;
}
/*
=================
MenuParse_style
=================
*/
qboolean MenuParse_style( itemDef_t *item, int handle)
{
menuDef_t *menu = (menuDef_t*)item;
if (!PC_Int_Parse(handle, &menu->window.style))
{
Com_Printf(S_COLOR_YELLOW "Unknown menu style value");
return qfalse;
}
return qtrue;
}
qboolean MenuParse_visible( itemDef_t *item, int handle ) {
int i;
menuDef_t *menu = (menuDef_t*)item;
if (!PC_Int_Parse(handle, &i)) {
return qfalse;
}
if (i) {
menu->window.flags |= WINDOW_VISIBLE;
}
return qtrue;
}
qboolean MenuParse_onOpen( itemDef_t *item, int handle ) {
menuDef_t *menu = (menuDef_t*)item;
if (!PC_Script_Parse(handle, &menu->onOpen)) {
return qfalse;
}
return qtrue;
}
qboolean MenuParse_onClose( itemDef_t *item, int handle ) {
menuDef_t *menu = (menuDef_t*)item;
if (!PC_Script_Parse(handle, &menu->onClose)) {
return qfalse;
}
return qtrue;
}
//JLFACCEPT MPMOVED
/*
=================
MenuParse_onAccept
=================
*/
qboolean MenuParse_onAccept( itemDef_t *item, int handle )
{
menuDef_t *menu = (menuDef_t*)item;
if (!PC_Script_Parse(handle, &menu->onAccept))
{
return qfalse;
}
return qtrue;
}
qboolean MenuParse_onESC( itemDef_t *item, int handle ) {
menuDef_t *menu = (menuDef_t*)item;
if (!PC_Script_Parse(handle, &menu->onESC)) {
return qfalse;
}
return qtrue;
}
qboolean MenuParse_border( itemDef_t *item, int handle ) {
menuDef_t *menu = (menuDef_t*)item;
if (!PC_Int_Parse(handle, &menu->window.border)) {
return qfalse;
}
return qtrue;
}
qboolean MenuParse_borderSize( itemDef_t *item, int handle ) {
menuDef_t *menu = (menuDef_t*)item;
if (!PC_Float_Parse(handle, &menu->window.borderSize)) {
return qfalse;
}
return qtrue;
}
qboolean MenuParse_backcolor( itemDef_t *item, int handle ) {
int i;
float f;
menuDef_t *menu = (menuDef_t*)item;
for (i = 0; i < 4; i++) {
if (!PC_Float_Parse(handle, &f)) {
return qfalse;
}
menu->window.backColor[i] = f;
}
return qtrue;
}
/*
=================
MenuParse_descAlignment
=================
*/
qboolean MenuParse_descAlignment( itemDef_t *item, int handle )
{
menuDef_t *menu = (menuDef_t*)item;
if (!PC_Int_Parse(handle, &menu->descAlignment))
{
Com_Printf(S_COLOR_YELLOW "Unknown desc alignment value");
return qfalse;
}
return qtrue;
}
/*
=================
MenuParse_descX
=================
*/
qboolean MenuParse_descX( itemDef_t *item, int handle )
{
menuDef_t *menu = (menuDef_t*)item;
if (!PC_Int_Parse(handle, &menu->descX))
{
return qfalse;
}
return qtrue;
}
/*
=================
MenuParse_descY
=================
*/
qboolean MenuParse_descY( itemDef_t *item, int handle )
{
menuDef_t *menu = (menuDef_t*)item;
if (!PC_Int_Parse(handle, &menu->descY))
{
return qfalse;
}
return qtrue;
}
/*
=================
MenuParse_descScale
=================
*/
qboolean MenuParse_descScale( itemDef_t *item, int handle)
{
menuDef_t *menu = (menuDef_t*)item;
if (!PC_Float_Parse(handle, &menu->descScale))
{
return qfalse;
}
return qtrue;
}
/*
=================
MenuParse_descColor
=================
*/
qboolean MenuParse_descColor( itemDef_t *item, int handle)
{
int i;
float f;
menuDef_t *menu = (menuDef_t*)item;
for (i = 0; i < 4; i++)
{
if (!PC_Float_Parse(handle, &f))
{
return qfalse;
}
menu->descColor[i] = f;
}
return qtrue;
}
qboolean MenuParse_forecolor( itemDef_t *item, int handle ) {
int i;
float f;
menuDef_t *menu = (menuDef_t*)item;
for (i = 0; i < 4; i++) {
if (!PC_Float_Parse(handle, &f)) {
return qfalse;
}
if (f < 0)
{ //special case for player color
menu->window.flags |= WINDOW_PLAYERCOLOR;
return qtrue;
}
menu->window.foreColor[i] = f;
menu->window.flags |= WINDOW_FORECOLORSET;
}
return qtrue;
}
qboolean MenuParse_bordercolor( itemDef_t *item, int handle ) {
int i;
float f;
menuDef_t *menu = (menuDef_t*)item;
for (i = 0; i < 4; i++) {
if (!PC_Float_Parse(handle, &f)) {
return qfalse;
}
menu->window.borderColor[i] = f;
}
return qtrue;
}
qboolean MenuParse_focuscolor( itemDef_t *item, int handle ) {
int i;
float f;
menuDef_t *menu = (menuDef_t*)item;
for (i = 0; i < 4; i++) {
if (!PC_Float_Parse(handle, &f)) {
return qfalse;
}
menu->focusColor[i] = f;
}
return qtrue;
}
qboolean MenuParse_disablecolor( itemDef_t *item, int handle ) {
int i;
float f;
menuDef_t *menu = (menuDef_t*)item;
for (i = 0; i < 4; i++) {
if (!PC_Float_Parse(handle, &f)) {
return qfalse;
}
menu->disableColor[i] = f;
}
return qtrue;
}
qboolean MenuParse_outlinecolor( itemDef_t *item, int handle ) {
menuDef_t *menu = (menuDef_t*)item;
if (!PC_Color_Parse(handle, &menu->window.outlineColor)){
return qfalse;
}
return qtrue;
}
qboolean MenuParse_background( itemDef_t *item, int handle ) {
pc_token_t token;
menuDef_t *menu = (menuDef_t*)item;
if (!trap_PC_ReadToken(handle, &token)) {
return qfalse;
}
menu->window.background = DC->registerShaderNoMip(token.string);
return qtrue;
}
qboolean MenuParse_cinematic( itemDef_t *item, int handle ) {
menuDef_t *menu = (menuDef_t*)item;
if (!PC_String_Parse(handle, &menu->window.cinematicName)) {
return qfalse;
}
return qtrue;
}
qboolean MenuParse_ownerdrawFlag( itemDef_t *item, int handle ) {
int i;
menuDef_t *menu = (menuDef_t*)item;
if (!PC_Int_Parse(handle, &i)) {
return qfalse;
}
menu->window.ownerDrawFlags |= i;
return qtrue;
}
qboolean MenuParse_ownerdraw( itemDef_t *item, int handle ) {
menuDef_t *menu = (menuDef_t*)item;
if (!PC_Int_Parse(handle, &menu->window.ownerDraw)) {
return qfalse;
}
return qtrue;
}
// decoration
qboolean MenuParse_popup( itemDef_t *item, int handle ) {
menuDef_t *menu = (menuDef_t*)item;
menu->window.flags |= WINDOW_POPUP;
return qtrue;
}
qboolean MenuParse_outOfBounds( itemDef_t *item, int handle ) {
menuDef_t *menu = (menuDef_t*)item;
menu->window.flags |= WINDOW_OOB_CLICK;
return qtrue;
}
qboolean MenuParse_soundLoop( itemDef_t *item, int handle ) {
menuDef_t *menu = (menuDef_t*)item;
if (!PC_String_Parse(handle, &menu->soundName)) {
return qfalse;
}
return qtrue;
}
qboolean MenuParse_fadeClamp( itemDef_t *item, int handle ) {
menuDef_t *menu = (menuDef_t*)item;
if (!PC_Float_Parse(handle, &menu->fadeClamp)) {
return qfalse;
}
return qtrue;
}
qboolean MenuParse_fadeAmount( itemDef_t *item, int handle ) {
menuDef_t *menu = (menuDef_t*)item;
if (!PC_Float_Parse(handle, &menu->fadeAmount)) {
return qfalse;
}
return qtrue;
}
qboolean MenuParse_fadeCycle( itemDef_t *item, int handle ) {
menuDef_t *menu = (menuDef_t*)item;
if (!PC_Int_Parse(handle, &menu->fadeCycle)) {
return qfalse;
}
return qtrue;
}
qboolean MenuParse_itemDef( itemDef_t *item, int handle ) {
menuDef_t *menu = (menuDef_t*)item;
if (menu->itemCount < MAX_MENUITEMS) {
menu->items[menu->itemCount] = (itemDef_t *) UI_Alloc(sizeof(itemDef_t));
Item_Init(menu->items[menu->itemCount]);
if (!Item_Parse(handle, menu->items[menu->itemCount])) {
return qfalse;
}
Item_InitControls(menu->items[menu->itemCount]);
menu->items[menu->itemCount++]->parent = menu;
}
return qtrue;
}
/*
=================
MenuParse_focuscolor
=================
*/
qboolean MenuParse_appearanceIncrement( itemDef_t *item, int handle )
{
menuDef_t *menu = (menuDef_t*)item;
if (!PC_Float_Parse(handle, &menu->appearanceIncrement))
{
return qfalse;
}
return qtrue;
}
keywordHash_t menuParseKeywords[] = {
{"appearanceIncrement", MenuParse_appearanceIncrement, NULL },
{"backcolor", MenuParse_backcolor, NULL },
{"background", MenuParse_background, NULL },
{"border", MenuParse_border, NULL },
{"bordercolor", MenuParse_bordercolor, NULL },
{"borderSize", MenuParse_borderSize, NULL },
{"cinematic", MenuParse_cinematic, NULL },
{"descAlignment", MenuParse_descAlignment,NULL },
{"desccolor", MenuParse_descColor, NULL },
{"descX", MenuParse_descX, NULL },
{"descY", MenuParse_descY, NULL },
{"descScale", MenuParse_descScale, NULL },
{"disablecolor", MenuParse_disablecolor, NULL },
{"fadeAmount", MenuParse_fadeAmount, NULL },
{"fadeClamp", MenuParse_fadeClamp, NULL },
{"fadeCycle", MenuParse_fadeCycle, NULL },
{"focuscolor", MenuParse_focuscolor, NULL },
{"font", MenuParse_font, NULL },
{"forecolor", MenuParse_forecolor, NULL },
{"fullscreen", MenuParse_fullscreen, NULL },
{"itemDef", MenuParse_itemDef, NULL },
{"name", MenuParse_name, NULL },
{"onClose", MenuParse_onClose, NULL },
//JLFACCEPT MPMOVED
{"onAccept", MenuParse_onAccept, NULL },
{"onESC", MenuParse_onESC, NULL },
{"outOfBoundsClick", MenuParse_outOfBounds, NULL },
{"onOpen", MenuParse_onOpen, NULL },
{"outlinecolor", MenuParse_outlinecolor, NULL },
{"ownerdraw", MenuParse_ownerdraw, NULL },
{"ownerdrawFlag", MenuParse_ownerdrawFlag,NULL },
{"popup", MenuParse_popup, NULL },
{"rect", MenuParse_rect, NULL },
{"soundLoop", MenuParse_soundLoop, NULL },
{"style", MenuParse_style, NULL },
{"visible", MenuParse_visible, NULL },
{0, 0, 0 }
};
keywordHash_t *menuParseKeywordHash[KEYWORDHASH_SIZE];
/*
===============
Menu_SetupKeywordHash
===============
*/
void Menu_SetupKeywordHash(void) {
int i;
memset(menuParseKeywordHash, 0, sizeof(menuParseKeywordHash));
for (i = 0; menuParseKeywords[i].keyword; i++) {
KeywordHash_Add(menuParseKeywordHash, &menuParseKeywords[i]);
}
}
/*
===============
Menu_Parse
===============
*/
qboolean Menu_Parse(int handle, menuDef_t *menu) {
pc_token_t token;
keywordHash_t *key;
if (!trap_PC_ReadToken(handle, &token))
return qfalse;
if (*token.string != '{') {
return qfalse;
}
while ( 1 ) {
if (!trap_PC_ReadToken(handle, &token)) {
PC_SourceError(handle, "end of file inside menu\n");
return qfalse;
}
if (*token.string == '}') {
return qtrue;
}
key = KeywordHash_Find(menuParseKeywordHash, token.string);
if (!key) {
PC_SourceError(handle, "unknown menu keyword %s", token.string);
continue;
}
if ( !key->func((itemDef_t*)menu, handle) ) {
PC_SourceError(handle, "couldn't parse menu keyword %s", token.string);
return qfalse;
}
}
return qfalse; // bk001205 - LCC missing return value
}
/*
===============
Menu_New
===============
*/
void Menu_New(int handle) {
menuDef_t *menu = &Menus[menuCount];
if (menuCount < MAX_MENUS) {
Menu_Init(menu);
if (Menu_Parse(handle, menu)) {
Menu_PostParse(menu);
menuCount++;
}
}
}
int Menu_Count() {
return menuCount;
}
void Menu_PaintAll() {
int i;
if (captureFunc) {
captureFunc(captureData);
}
for (i = 0; i < Menu_Count(); i++) {
Menu_Paint(&Menus[i], qfalse);
}
if (debugMode) {
vec4_t v = {1, 1, 1, 1};
DC->drawText(5, 25, .75, v, va("fps: %f", DC->FPS), 0, 0, 0, 0);
DC->drawText(5, 45, .75, v, va("x: %d y:%d", DC->cursorx,DC->cursory), 0, 0, 0, 0);
}
}
void Menu_Reset() {
menuCount = 0;
}
displayContextDef_t *Display_GetContext() {
return DC;
}
void *Display_CaptureItem(int x, int y) {
int i;
for (i = 0; i < menuCount; i++) {
// turn off focus each item
// menu->items[i].window.flags &= ~WINDOW_HASFOCUS;
if (Rect_ContainsPoint(&Menus[i].window.rect, x, y)) {
return &Menus[i];
}
}
return NULL;
}
// FIXME:
qboolean Display_MouseMove(void *p, int x, int y) {
//JLFMOUSE AGAIN I THINK THIS SHOULD BE MOOT
#ifdef _XBOX
return qtrue;
#endif
//END JLF
int i;
menuDef_t *menu = (menuDef_t *) p;
if (menu == NULL) {
menu = Menu_GetFocused();
if (menu) {
if (menu->window.flags & WINDOW_POPUP) {
Menu_HandleMouseMove(menu, x, y);
return qtrue;
}
}
for (i = 0; i < menuCount; i++) {
Menu_HandleMouseMove(&Menus[i], x, y);
}
} else {
menu->window.rect.x += x;
menu->window.rect.y += y;
Menu_UpdatePosition(menu);
}
return qtrue;
}
int Display_CursorType(int x, int y) {
int i;
for (i = 0; i < menuCount; i++) {
rectDef_t r2;
r2.x = Menus[i].window.rect.x - 3;
r2.y = Menus[i].window.rect.y - 3;
r2.w = r2.h = 7;
if (Rect_ContainsPoint(&r2, x, y)) {
return CURSOR_SIZER;
}
}
return CURSOR_ARROW;
}
void Display_HandleKey(int key, qboolean down, int x, int y) {
menuDef_t *menu = (menuDef_t *) Display_CaptureItem(x, y);
if (menu == NULL) {
menu = Menu_GetFocused();
}
if (menu) {
Menu_HandleKey(menu, key, down );
}
}
static void Window_CacheContents(windowDef_t *window) {
if (window) {
if (window->cinematicName) {
int cin = DC->playCinematic(window->cinematicName, 0, 0, 0, 0);
DC->stopCinematic(cin);
}
}
}
static void Item_CacheContents(itemDef_t *item) {
if (item) {
Window_CacheContents(&item->window);
}
}
static void Menu_CacheContents(menuDef_t *menu) {
if (menu) {
int i;
Window_CacheContents(&menu->window);
for (i = 0; i < menu->itemCount; i++) {
Item_CacheContents(menu->items[i]);
}
if (menu->soundName && *menu->soundName) {
DC->registerSound(menu->soundName);
}
}
}
void Display_CacheAll() {
int i;
for (i = 0; i < menuCount; i++) {
Menu_CacheContents(&Menus[i]);
}
}
static qboolean Menu_OverActiveItem(menuDef_t *menu, float x, float y) {
if (menu && menu->window.flags & (WINDOW_VISIBLE | WINDOW_FORCED)) {
//JLFMOUSE
#ifdef _XBOX
return qtrue;
#endif
if (Rect_ContainsPoint(&menu->window.rect, x, y)) {
int i;
for (i = 0; i < menu->itemCount; i++) {
// turn off focus each item
// menu->items[i].window.flags &= ~WINDOW_HASFOCUS;
if (!(menu->items[i]->window.flags & (WINDOW_VISIBLE | WINDOW_FORCED))) {
continue;
}
if (menu->items[i]->window.flags & WINDOW_DECORATION) {
continue;
}
if (Rect_ContainsPoint(&menu->items[i]->window.rect, x, y)) {
itemDef_t *overItem = menu->items[i];
if (overItem->type == ITEM_TYPE_TEXT && overItem->text) {
if (Rect_ContainsPoint(&overItem->window.rect, x, y)) {
return qtrue;
} else {
continue;
}
} else {
return qtrue;
}
}
}
}
}
return qfalse;
}
//JLF DEMOCODE MPMOVED
#ifdef _XBOX
void G_DemoStart()
{
// demoDelay = 0;
// lastChange = 0;
g_runningDemo = true;
// g_demoLastChange = 0;
extern void Menus_CloseAll();
Menus_CloseAll();
trap_Key_SetCatcher( trap_Key_GetCatcher() & ~KEYCATCH_UI );
#ifndef CGAME
trap_Key_ClearStates();
#endif
trap_Cvar_Set( "cl_paused", "0" );
// g_demoStartFade = 0;
// g_demoStartTransition = 0;
}
const char *attractMovieNames[] = {
"jk1",
"jk2",
"jk3",
"jk4",
"jk5",
};
extern int trap_Milliseconds( void );
const int numAttractMovies = sizeof(attractMovieNames) / sizeof(attractMovieNames[0]);
static int curAttractMovie = 0;
void G_DemoFrame()
{
bool keypressed = false;
if (g_runningDemo)
{
while (!keypressed)
keypressed = CIN_PlayAllFrames( "atvi.bik", 0, 0, 640, 480, 0, true );
G_DemoEnd();
}
else
{
menuDef_t* curMenu = Menu_GetFocused();
if (curMenu && curMenu->window.name &&
(!Q_stricmp(curMenu->window.name , "mainMenu") ||
!Q_stricmp(curMenu->window.name, "splashMenu")))
{
if (!g_demoLastKeypress)
g_demoLastKeypress = trap_Milliseconds();
else if (g_demoLastKeypress + DEMO_TIME_MAX < trap_Milliseconds())
G_DemoStart();
}
else
{
g_demoLastKeypress = trap_Milliseconds();
}
}
}
void G_DemoKeypress()
{
g_demoLastKeypress = trap_Milliseconds();
//JLF moved
// g_demoLastKeypress = Sys_Milliseconds();
}
void G_DemoEnd()
{
if (!g_runningDemo)
return;
//CIN_StopCinematic(1);
CIN_CloseAllVideos();
// Key_SetCatcher( KEYCATCH_UI );
Menus_CloseAll();
g_ReturnToSplash = true;
g_runningDemo = qfalse;
G_DemoKeypress();
trap_Key_SetCatcher( trap_Key_GetCatcher() & KEYCATCH_UI );
#ifndef CGAME
trap_Key_ClearStates();
#endif
trap_Cvar_Set( "cl_paused", "0" );
// g_demoStartFade = 0;
// g_demoStartTransition = 0;
// g_demoLastKeypress = 0;
}
void PlayDemo()
{
// bool keypressed = false;
G_DemoStart();
CIN_PlayAllFrames( attractMovieNames[curAttractMovie], 0, 0, 640, 480, 0, true );
curAttractMovie = (curAttractMovie + 1) % numAttractMovies;
// while (!keypressed)
// keypressed = CIN_PlayAllFrames( "atvi.bik", 0, 0, 640, 480, 0, true );
G_DemoEnd();
}
void UpdateDemoTimer()
{
g_demoLastKeypress = trap_Milliseconds();
}
bool TestDemoTimer()
{
//JLF TEMP DEBUG
return false;
menuDef_t* curMenu = Menu_GetFocused();
if (curMenu && curMenu->window.name &&
(!Q_stricmp(curMenu->window.name , "mainMenu") ||
!Q_stricmp(curMenu->window.name, "splashMenu")))
{
if (!g_demoLastKeypress)
g_demoLastKeypress = trap_Milliseconds();
else if (g_demoLastKeypress + DEMO_TIME_MAX < trap_Milliseconds())
return true;
}
return false;
}
//END DEMOCODE
#endif // _XBOX
#include "../namespace_end.h"