705 lines
20 KiB
C++
705 lines
20 KiB
C++
//========= Copyright Valve Corporation, All rights reserved. ============//
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//
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// Purpose:
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//
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// $NoKeywords: $
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//
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//=============================================================================//
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//
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// Half-Life Model Viewer (c) 1999 by Mete Ciragan
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//
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// file: ViewerSettings.cpp
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// last modified: May 29 1999, Mete Ciragan
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// copyright: The programs and associated files contained in this
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// distribution were developed by Mete Ciragan. The programs
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// are not in the public domain, but they are freely
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// distributable without licensing fees. These programs are
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// provided without guarantee or warrantee expressed or
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// implied.
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//
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// version: 1.2
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//
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// email: mete@swissquake.ch
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// web: http://www.swissquake.ch/chumbalum-soft/
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//
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#include "ViewerSettings.h"
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#include "studiomodel.h"
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include "windows.h"
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ViewerSettings g_viewerSettings;
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ViewerSettings::ViewerSettings()
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{
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Q_memset( this, 0, sizeof( *this ) );
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}
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void InitViewerSettings ( const char *subkey )
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{
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ViewerSettings save = g_viewerSettings;
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memset (&g_viewerSettings, 0, sizeof (ViewerSettings));
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// Some values should survive. This is a crappy way to do settings in general. Sigh.
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{
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g_viewerSettings.faceposerToolsDriveMouth = save.faceposerToolsDriveMouth;
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}
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strcpy( g_viewerSettings.registrysubkey, subkey );
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g_pStudioModel->m_angles.Init( -90.0f, 0.0f, 0.0f );
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g_pStudioModel->m_origin.Init( 0.0f, 0.0f, 50.0f );
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g_viewerSettings.renderMode = RM_TEXTURED;
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g_viewerSettings.fov = 65.0f;
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g_viewerSettings.enableNormalMapping = true;
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g_viewerSettings.enableParallaxMapping = false;
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g_viewerSettings.showNormals = false;
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g_viewerSettings.showTangentFrame = false;
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g_viewerSettings.overlayWireframe = false;
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g_viewerSettings.enableSpecular = true;
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g_viewerSettings.playSounds = true;
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g_viewerSettings.bgColor[0] = 0.25f;
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g_viewerSettings.bgColor[1] = 0.25f;
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g_viewerSettings.bgColor[2] = 0.25f;
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g_viewerSettings.gColor[0] = 0.85f;
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g_viewerSettings.gColor[1] = 0.85f;
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g_viewerSettings.gColor[2] = 0.69f;
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g_viewerSettings.lColor[0] = 1.0f;
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g_viewerSettings.lColor[1] = 1.0f;
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g_viewerSettings.lColor[2] = 1.0f;
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g_viewerSettings.aColor[0] = 0.3f;
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g_viewerSettings.aColor[1] = 0.3f;
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g_viewerSettings.aColor[2] = 0.3f;
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g_viewerSettings.lightrot[0] = 0.0f;
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g_viewerSettings.lightrot[1] = 180.0f;
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g_viewerSettings.lightrot[2] = 0.0f;
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g_viewerSettings.speedScale = 1.0f;
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g_viewerSettings.application_mode = 0;
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g_viewerSettings.thumbnailsize = 128;
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g_viewerSettings.thumbnailsizeanim = 128;
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g_viewerSettings.m_iEditAttachment = -1;
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g_viewerSettings.highlightHitbox = -1;
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g_viewerSettings.highlightBone = -1;
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g_viewerSettings.speechapiindex = 0;
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g_viewerSettings.cclanguageid = 0;
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// default hlmv settings
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g_viewerSettings.xpos = 20;
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g_viewerSettings.ypos = 20;
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g_viewerSettings.width = 640;
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g_viewerSettings.height = 700;
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g_viewerSettings.originAxisLength = 10.0f;
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}
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bool RegReadVector( HKEY hKey, const char *szSubKey, Vector& value )
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{
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LONG lResult; // Registry function result code
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char szBuff[128]; // Temp. buffer
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DWORD dwType; // Type of key
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DWORD dwSize; // Size of element data
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dwSize = sizeof( szBuff );
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lResult = RegQueryValueEx(
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hKey, // handle to key
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szSubKey, // value name
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0, // reserved
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&dwType, // type buffer
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(LPBYTE)szBuff, // data buffer
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&dwSize ); // size of data buffer
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if (lResult != ERROR_SUCCESS) // Failure
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return false;
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if (sscanf( szBuff, "(%f %f %f)", &value[0], &value[1], &value[2] ) != 3)
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return false;
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return true;
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}
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bool RegReadQAngle( HKEY hKey, const char *szSubKey, QAngle& value )
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{
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Vector tmp;
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if (RegReadVector( hKey, szSubKey, tmp ))
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{
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value.Init( tmp.x, tmp.y, tmp.z );
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return true;
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}
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return false;
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}
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bool RegReadColor( HKEY hKey, const char *szSubKey, float value[4] )
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{
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LONG lResult; // Registry function result code
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char szBuff[128]; // Temp. buffer
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DWORD dwType; // Type of key
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DWORD dwSize; // Size of element data
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dwSize = sizeof( szBuff );
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lResult = RegQueryValueEx(
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hKey, // handle to key
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szSubKey, // value name
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0, // reserved
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&dwType, // type buffer
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(LPBYTE)szBuff, // data buffer
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&dwSize ); // size of data buffer
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if (lResult != ERROR_SUCCESS) // Failure
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return false;
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if (sscanf( szBuff, "(%f %f %f %f)", &value[0], &value[1], &value[2], &value[3] ) != 4)
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return false;
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return true;
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}
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bool RegWriteVector( HKEY hKey, const char *szSubKey, Vector& value )
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{
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LONG lResult; // Registry function result code
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char szBuff[128]; // Temp. buffer
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DWORD dwSize; // Size of element data
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sprintf( szBuff, "(%f %f %f)", value[0], value[1], value[2] );
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dwSize = strlen( szBuff );
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lResult = RegSetValueEx(
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hKey, // handle to key
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szSubKey, // value name
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0, // reserved
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REG_SZ, // type buffer
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(LPBYTE)szBuff, // data buffer
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dwSize ); // size of data buffer
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if (lResult != ERROR_SUCCESS) // Failure
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return false;
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return true;
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}
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bool RegWriteQAngle( HKEY hKey, const char *szSubKey, QAngle& value )
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{
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Vector tmp;
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tmp.Init( value.x, value.y, value.z );
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return RegWriteVector( hKey, szSubKey, tmp );
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}
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bool RegWriteColor( HKEY hKey, const char *szSubKey, float value[4] )
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{
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LONG lResult; // Registry function result code
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char szBuff[128]; // Temp. buffer
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DWORD dwSize; // Size of element data
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sprintf( szBuff, "(%f %f %f %f)", value[0], value[1], value[2], value[3] );
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dwSize = strlen( szBuff );
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lResult = RegSetValueEx(
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hKey, // handle to key
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szSubKey, // value name
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0, // reserved
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REG_SZ, // type buffer
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(LPBYTE)szBuff, // data buffer
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dwSize ); // size of data buffer
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if (lResult != ERROR_SUCCESS) // Failure
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return false;
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return true;
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}
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bool RegReadBool( HKEY hKey, const char *szSubKey, bool *value )
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{
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LONG lResult; // Registry function result code
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DWORD dwType; // Type of key
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DWORD dwSize; // Size of element data
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DWORD dwTemp;
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dwSize = sizeof( dwTemp );
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lResult = RegQueryValueEx(
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hKey, // handle to key
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szSubKey, // value name
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0, // reserved
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&dwType, // type buffer
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(LPBYTE)&dwTemp, // data buffer
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&dwSize ); // size of data buffer
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if (lResult != ERROR_SUCCESS) // Failure
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return false;
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if (dwType != REG_DWORD)
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return false;
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*value = (dwTemp != 0);
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return true;
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}
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bool RegReadInt( HKEY hKey, const char *szSubKey, int *value )
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{
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LONG lResult; // Registry function result code
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DWORD dwType; // Type of key
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DWORD dwSize; // Size of element data
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dwSize = sizeof( DWORD );
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lResult = RegQueryValueEx(
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hKey, // handle to key
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szSubKey, // value name
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0, // reserved
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&dwType, // type buffer
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(LPBYTE)value, // data buffer
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&dwSize ); // size of data buffer
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if (lResult != ERROR_SUCCESS) // Failure
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return false;
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if (dwType != REG_DWORD)
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return false;
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return true;
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}
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bool RegWriteInt( HKEY hKey, const char *szSubKey, int value )
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{
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LONG lResult; // Registry function result code
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DWORD dwSize; // Size of element data
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dwSize = sizeof( DWORD );
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lResult = RegSetValueEx(
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hKey, // handle to key
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szSubKey, // value name
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0, // reserved
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REG_DWORD, // type buffer
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(LPBYTE)&value, // data buffer
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dwSize ); // size of data buffer
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if (lResult != ERROR_SUCCESS) // Failure
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return false;
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return true;
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}
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bool RegReadFloat( HKEY hKey, const char *szSubKey, float *value )
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{
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LONG lResult; // Registry function result code
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char szBuff[128]; // Temp. buffer
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DWORD dwType; // Type of key
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DWORD dwSize; // Size of element data
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dwSize = sizeof( szBuff );
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lResult = RegQueryValueEx(
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hKey, // handle to key
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szSubKey, // value name
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0, // reserved
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&dwType, // type buffer
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(LPBYTE)szBuff, // data buffer
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&dwSize ); // size of data buffer
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if (lResult != ERROR_SUCCESS) // Failure
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return false;
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*value = atof( szBuff );
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return true;
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}
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bool RegWriteFloat( HKEY hKey, const char *szSubKey, float value )
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{
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LONG lResult; // Registry function result code
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char szBuff[128]; // Temp. buffer
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DWORD dwSize; // Size of element data
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sprintf( szBuff, "%f", value );
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dwSize = strlen( szBuff );
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lResult = RegSetValueEx(
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hKey, // handle to key
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szSubKey, // value name
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0, // reserved
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REG_SZ, // type buffer
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(LPBYTE)szBuff, // data buffer
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dwSize ); // size of data buffer
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if (lResult != ERROR_SUCCESS) // Failure
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return false;
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return true;
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}
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bool RegReadString( HKEY hKey, const char *szSubKey, char *string, int size )
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{
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LONG lResult; // Registry function result code
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DWORD dwType; // Type of key
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DWORD dwSize; // Size of element data
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dwSize = size;
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lResult = RegQueryValueEx(
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hKey, // handle to key
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szSubKey, // value name
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0, // reserved
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&dwType, // type buffer
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(LPBYTE)string, // data buffer
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&dwSize ); // size of data buffer
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if (lResult != ERROR_SUCCESS) // Failure
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return false;
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if (dwType != REG_SZ)
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return false;
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return true;
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}
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bool RegWriteString( HKEY hKey, const char *szSubKey, char *string )
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{
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LONG lResult; // Registry function result code
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DWORD dwSize; // Size of element data
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dwSize = strlen( string );
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lResult = RegSetValueEx(
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hKey, // handle to key
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szSubKey, // value name
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0, // reserved
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REG_SZ, // type buffer
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(LPBYTE)string, // data buffer
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dwSize ); // size of data buffer
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if (lResult != ERROR_SUCCESS) // Failure
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return false;
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return true;
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}
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LONG RegViewerSettingsKey( const char *filename, PHKEY phKey, LPDWORD lpdwDisposition )
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{
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if (strlen( filename ) == 0)
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return ERROR_KEY_DELETED;
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char szFileName[1024];
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strcpy( szFileName, filename );
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// strip out bogus characters
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for (char *cp = szFileName; *cp; cp++)
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{
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if (*cp == '\\' || *cp == '/' || *cp == ':')
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*cp = '.';
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}
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char szModelKey[1024];
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sprintf( szModelKey, "Software\\Valve\\%s\\%s", g_viewerSettings.registrysubkey, szFileName );
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return RegCreateKeyEx(
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HKEY_CURRENT_USER, // handle of open key
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szModelKey, // address of name of subkey to open
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0, // DWORD ulOptions, // reserved
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NULL, // Type of value
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REG_OPTION_NON_VOLATILE, // Store permanently in reg.
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KEY_ALL_ACCESS, // REGSAM samDesired, // security access mask
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NULL,
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phKey, // Key we are creating
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lpdwDisposition); // Type of creation
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}
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LONG RegViewerRootKey( PHKEY phKey, LPDWORD lpdwDisposition )
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{
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char szRootKey[1024];
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sprintf( szRootKey, "Software\\Valve\\%s", g_viewerSettings.registrysubkey );
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return RegCreateKeyEx(
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HKEY_CURRENT_USER, // handle of open key
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szRootKey, // address of name of subkey to open
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0, // DWORD ulOptions, // reserved
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NULL, // Type of value
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REG_OPTION_NON_VOLATILE, // Store permanently in reg.
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KEY_ALL_ACCESS, // REGSAM samDesired, // security access mask
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NULL,
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phKey, // Key we are creating
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lpdwDisposition); // Type of creation
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}
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bool LoadViewerSettingsInt( char const *keyname, int *value )
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{
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LONG lResult; // Registry function result code
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DWORD dwDisposition; // Type of key opening event
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HKEY hModelKey;
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lResult = RegViewerSettingsKey( "hlfaceposer", &hModelKey, &dwDisposition);
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if (lResult != ERROR_SUCCESS) // Failure
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return false;
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// First time, just set to Valve default
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if (dwDisposition == REG_CREATED_NEW_KEY)
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{
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return false;
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}
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*value = 0;
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RegReadInt( hModelKey, keyname, value );
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return true;
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}
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bool SaveViewerSettingsInt ( const char *keyname, int value )
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{
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LONG lResult; // Registry function result code
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DWORD dwDisposition; // Type of key opening event
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HKEY hModelKey;
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lResult = RegViewerSettingsKey( "hlfaceposer", &hModelKey, &dwDisposition);
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if (lResult != ERROR_SUCCESS) // Failure
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return false;
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RegWriteInt( hModelKey, keyname, value );
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return true;
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}
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bool LoadViewerSettings (const char *filename, StudioModel *pModel )
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{
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LONG lResult; // Registry function result code
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DWORD dwDisposition; // Type of key opening event
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HKEY hModelKey;
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if (filename == NULL || pModel == NULL)
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return false;
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lResult = RegViewerSettingsKey( filename, &hModelKey, &dwDisposition);
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if (lResult != ERROR_SUCCESS) // Failure
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return false;
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// First time, just set to Valve default
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if (dwDisposition == REG_CREATED_NEW_KEY)
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{
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return false;
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}
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RegReadQAngle( hModelKey, "Rot", pModel->m_angles );
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RegReadVector( hModelKey, "Trans", pModel->m_origin );
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RegReadColor( hModelKey, "bgColor", g_viewerSettings.bgColor );
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RegReadColor( hModelKey, "gColor", g_viewerSettings.gColor );
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RegReadColor( hModelKey, "lColor", g_viewerSettings.lColor );
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RegReadColor( hModelKey, "aColor", g_viewerSettings.aColor );
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RegReadQAngle( hModelKey, "lightrot", g_viewerSettings.lightrot );
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int iTemp;
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float flTemp;
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char szTemp[256];
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RegReadString( hModelKey, "sequence", szTemp, sizeof( szTemp ) );
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iTemp = pModel->LookupSequence( szTemp );
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pModel->SetSequence( iTemp );
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RegReadString( hModelKey, "overlaySequence0", szTemp, sizeof( szTemp ) );
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iTemp = pModel->LookupSequence( szTemp );
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RegReadFloat( hModelKey, "overlayWeight0", &flTemp );
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pModel->SetOverlaySequence( 0, iTemp, flTemp );
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RegReadString( hModelKey, "overlaySequence1", szTemp, sizeof( szTemp ) );
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iTemp = pModel->LookupSequence( szTemp );
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RegReadFloat( hModelKey, "overlayWeight1", &flTemp );
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pModel->SetOverlaySequence( 1, iTemp, flTemp );
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RegReadString( hModelKey, "overlaySequence2", szTemp, sizeof( szTemp ) );
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iTemp = pModel->LookupSequence( szTemp );
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RegReadFloat( hModelKey, "overlayWeight2", &flTemp );
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pModel->SetOverlaySequence( 2, iTemp, flTemp );
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RegReadString( hModelKey, "overlaySequence3", szTemp, sizeof( szTemp ) );
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iTemp = pModel->LookupSequence( szTemp );
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RegReadFloat( hModelKey, "overlayWeight3",&flTemp );
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pModel->SetOverlaySequence( 3, iTemp, flTemp );
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RegReadFloat( hModelKey, "speedscale", &g_viewerSettings.speedScale );
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|
if (g_viewerSettings.speedScale > 1.0)
|
|
g_viewerSettings.speedScale = 1.0;
|
|
|
|
RegReadInt( hModelKey, "viewermode", &g_viewerSettings.application_mode );
|
|
RegReadInt( hModelKey, "thumbnailsize", &g_viewerSettings.thumbnailsize );
|
|
RegReadInt( hModelKey, "thumbnailsizeanim", &g_viewerSettings.thumbnailsizeanim );
|
|
|
|
if ( g_viewerSettings.thumbnailsize == 0 )
|
|
{
|
|
g_viewerSettings.thumbnailsize = 128;
|
|
}
|
|
if ( g_viewerSettings.thumbnailsizeanim == 0 )
|
|
{
|
|
g_viewerSettings.thumbnailsizeanim = 128;
|
|
}
|
|
|
|
RegReadInt( hModelKey, "speechapiindex", &g_viewerSettings.speechapiindex );
|
|
RegReadInt( hModelKey, "cclanguageid", &g_viewerSettings.cclanguageid );
|
|
|
|
RegReadBool( hModelKey, "showground", &g_viewerSettings.showGround );
|
|
RegReadBool( hModelKey, "showbackground", &g_viewerSettings.showBackground );
|
|
RegReadBool( hModelKey, "showshadow", &g_viewerSettings.showShadow );
|
|
RegReadBool( hModelKey, "showillumpos", &g_viewerSettings.showIllumPosition );
|
|
RegReadBool( hModelKey, "enablenormalmapping", &g_viewerSettings.enableNormalMapping );
|
|
RegReadBool( hModelKey, "playsounds", &g_viewerSettings.playSounds );
|
|
RegReadBool( hModelKey, "showoriginaxis", &g_viewerSettings.showOriginAxis );
|
|
RegReadFloat( hModelKey, "originaxislength", &g_viewerSettings.originAxisLength );
|
|
|
|
char merge_buffer[32];
|
|
for ( int i = 0; i < HLMV_MAX_MERGED_MODELS; i++ )
|
|
{
|
|
Q_snprintf( merge_buffer, sizeof( merge_buffer ), "merge%d", i + 1 );
|
|
RegReadString( hModelKey, merge_buffer, g_viewerSettings.mergeModelFile[i], sizeof( g_viewerSettings.mergeModelFile[i] ) );
|
|
}
|
|
|
|
return true;
|
|
}
|
|
|
|
|
|
|
|
|
|
|
|
bool LoadViewerRootSettings( void )
|
|
{
|
|
LONG lResult; // Registry function result code
|
|
DWORD dwDisposition; // Type of key opening event
|
|
|
|
HKEY hRootKey;
|
|
lResult = RegViewerRootKey( &hRootKey, &dwDisposition);
|
|
|
|
if (lResult != ERROR_SUCCESS) // Failure
|
|
return false;
|
|
|
|
RegReadInt( hRootKey, "renderxpos", &g_viewerSettings.xpos );
|
|
RegReadInt( hRootKey, "renderypos", &g_viewerSettings.ypos );
|
|
RegReadInt( hRootKey, "renderwidth", &g_viewerSettings.width );
|
|
RegReadInt( hRootKey, "renderheight", &g_viewerSettings.height );
|
|
|
|
RegReadBool( hRootKey, "faceposerToolsDriveMouth", &g_viewerSettings.faceposerToolsDriveMouth );
|
|
|
|
return true;
|
|
}
|
|
|
|
|
|
|
|
bool SaveViewerSettings (const char *filename, StudioModel *pModel )
|
|
{
|
|
LONG lResult; // Registry function result code
|
|
DWORD dwDisposition; // Type of key opening event
|
|
|
|
if (filename == NULL || pModel == NULL)
|
|
return false;
|
|
|
|
HKEY hModelKey;
|
|
lResult = RegViewerSettingsKey( filename, &hModelKey, &dwDisposition);
|
|
|
|
if (lResult != ERROR_SUCCESS) // Failure
|
|
return false;
|
|
|
|
MDLCACHE_CRITICAL_SECTION_( g_pMDLCache );
|
|
CStudioHdr *hdr = pModel->GetStudioHdr();
|
|
if ( !hdr )
|
|
return false;
|
|
|
|
RegWriteQAngle( hModelKey, "Rot", pModel->m_angles );
|
|
RegWriteVector( hModelKey, "Trans", pModel->m_origin );
|
|
RegWriteColor( hModelKey, "bgColor", g_viewerSettings.bgColor );
|
|
RegWriteColor( hModelKey, "gColor", g_viewerSettings.gColor );
|
|
RegWriteColor( hModelKey, "lColor", g_viewerSettings.lColor );
|
|
RegWriteColor( hModelKey, "aColor", g_viewerSettings.aColor );
|
|
RegWriteQAngle( hModelKey, "lightrot", g_viewerSettings.lightrot );
|
|
RegWriteString( hModelKey, "sequence", hdr->pSeqdesc( pModel->GetSequence() ).pszLabel() );
|
|
RegWriteString( hModelKey, "overlaySequence0", hdr->pSeqdesc( pModel->GetOverlaySequence( 0 ) ).pszLabel() );
|
|
RegWriteFloat( hModelKey, "overlayWeight0", pModel->GetOverlaySequenceWeight( 0 ) );
|
|
RegWriteString( hModelKey, "overlaySequence1", hdr->pSeqdesc( pModel->GetOverlaySequence( 1 ) ).pszLabel() );
|
|
RegWriteFloat( hModelKey, "overlayWeight1", pModel->GetOverlaySequenceWeight( 1 ) );
|
|
RegWriteString( hModelKey, "overlaySequence2", hdr->pSeqdesc( pModel->GetOverlaySequence( 2 ) ).pszLabel() );
|
|
RegWriteFloat( hModelKey, "overlayWeight2", pModel->GetOverlaySequenceWeight( 2 ) );
|
|
RegWriteString( hModelKey, "overlaySequence3", hdr->pSeqdesc( pModel->GetOverlaySequence( 3 ) ).pszLabel() );
|
|
RegWriteFloat( hModelKey, "overlayWeight3", pModel->GetOverlaySequenceWeight( 3 ) );
|
|
RegWriteFloat( hModelKey, "speedscale", g_viewerSettings.speedScale );
|
|
RegWriteInt( hModelKey, "viewermode", g_viewerSettings.application_mode );
|
|
RegWriteInt( hModelKey, "thumbnailsize", g_viewerSettings.thumbnailsize );
|
|
RegWriteInt( hModelKey, "thumbnailsizeanim", g_viewerSettings.thumbnailsizeanim );
|
|
RegWriteInt( hModelKey, "speechapiindex", g_viewerSettings.speechapiindex );
|
|
RegWriteInt( hModelKey, "cclanguageid", g_viewerSettings.cclanguageid );
|
|
RegWriteInt( hModelKey, "showground", g_viewerSettings.showGround );
|
|
RegWriteInt( hModelKey, "showbackground", g_viewerSettings.showBackground );
|
|
RegWriteInt( hModelKey, "showshadow", g_viewerSettings.showShadow );
|
|
RegWriteInt( hModelKey, "showillumpos", g_viewerSettings.showIllumPosition );
|
|
RegWriteInt( hModelKey, "enablenormalmapping", g_viewerSettings.enableNormalMapping );
|
|
RegWriteInt( hModelKey, "playsounds", g_viewerSettings.playSounds );
|
|
RegWriteInt( hModelKey, "showoriginaxis", g_viewerSettings.showOriginAxis );
|
|
RegWriteFloat( hModelKey, "originaxislength", g_viewerSettings.originAxisLength );
|
|
|
|
char merge_buffer[32];
|
|
for ( int i = 0; i < HLMV_MAX_MERGED_MODELS; i++ )
|
|
{
|
|
Q_snprintf( merge_buffer, sizeof( merge_buffer ), "merge%d", i + 1 );
|
|
RegWriteString( hModelKey, merge_buffer, g_viewerSettings.mergeModelFile[i] );
|
|
}
|
|
|
|
return true;
|
|
}
|
|
|
|
bool SaveViewerRootSettings( void )
|
|
{
|
|
LONG lResult; // Registry function result code
|
|
DWORD dwDisposition; // Type of key opening event
|
|
|
|
HKEY hRootKey;
|
|
lResult = RegViewerRootKey( &hRootKey, &dwDisposition);
|
|
|
|
if (lResult != ERROR_SUCCESS) // Failure
|
|
return false;
|
|
|
|
RegWriteInt( hRootKey, "renderxpos", g_viewerSettings.xpos );
|
|
RegWriteInt( hRootKey, "renderypos", g_viewerSettings.ypos );
|
|
RegWriteInt( hRootKey, "renderwidth", g_viewerSettings.width );
|
|
RegWriteInt( hRootKey, "renderheight", g_viewerSettings.height );
|
|
|
|
RegWriteInt( hRootKey, "faceposerToolsDriveMouth", g_viewerSettings.faceposerToolsDriveMouth ? 1 : 0 );
|
|
|
|
return true;
|
|
}
|