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1 /**
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2 * OpenAL cross platform audio library
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3 * Copyright (C) 1999-2010 by authors.
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4 * This library is free software; you can redistribute it and/or
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5 * modify it under the terms of the GNU Library General Public
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6 * License as published by the Free Software Foundation; either
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7 * version 2 of the License, or (at your option) any later version.
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8 *
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9 * This library is distributed in the hope that it will be useful,
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10 * but WITHOUT ANY WARRANTY; without even the implied warranty of
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11 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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12 * Library General Public License for more details.
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13 *
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14 * You should have received a copy of the GNU Library General Public
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15 * License along with this library; if not, write to the
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16 * Free Software Foundation, Inc., 59 Temple Place - Suite 330,
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17 * Boston, MA 02111-1307, USA.
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18 * Or go to http://www.gnu.org/copyleft/lgpl.html
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19 */
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20
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21 #include "config.h"
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22
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23 #include <math.h>
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24 #include <stdlib.h>
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25 #include <string.h>
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26 #include <ctype.h>
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27 #include <assert.h>
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28
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29 #include "alMain.h"
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30 #include "AL/al.h"
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31 #include "AL/alc.h"
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32 #include "alu.h"
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33
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34 static void SetSpeakerArrangement(const char *name, ALfloat SpeakerAngle[MAXCHANNELS],
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35 enum Channel Speaker2Chan[MAXCHANNELS], ALint chans)
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36 {
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37 char layout_str[256];
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38 char *confkey, *next;
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39 char *sep, *end;
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40 enum Channel val;
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41 int i;
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42
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43 if(!ConfigValueExists(NULL, name))
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44 name = "layout";
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45
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46 strncpy(layout_str, GetConfigValue(NULL, name, ""), sizeof(layout_str));
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47 layout_str[sizeof(layout_str)-1] = 0;
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48
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49 if(!layout_str[0])
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50 return;
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51
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52 next = confkey = layout_str;
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53 while(next && *next)
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54 {
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55 confkey = next;
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56 next = strchr(confkey, ',');
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57 if(next)
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58 {
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59 *next = 0;
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60 do {
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61 next++;
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62 } while(isspace(*next) || *next == ',');
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63 }
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64
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65 sep = strchr(confkey, '=');
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66 if(!sep || confkey == sep)
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67 continue;
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68
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69 end = sep - 1;
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70 while(isspace(*end) && end != confkey)
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71 end--;
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72 *(++end) = 0;
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73
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74 if(strcmp(confkey, "fl") == 0 || strcmp(confkey, "front-left") == 0)
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75 val = FRONT_LEFT;
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76 else if(strcmp(confkey, "fr") == 0 || strcmp(confkey, "front-right") == 0)
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77 val = FRONT_RIGHT;
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78 else if(strcmp(confkey, "fc") == 0 || strcmp(confkey, "front-center") == 0)
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79 val = FRONT_CENTER;
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80 else if(strcmp(confkey, "bl") == 0 || strcmp(confkey, "back-left") == 0)
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81 val = BACK_LEFT;
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82 else if(strcmp(confkey, "br") == 0 || strcmp(confkey, "back-right") == 0)
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83 val = BACK_RIGHT;
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84 else if(strcmp(confkey, "bc") == 0 || strcmp(confkey, "back-center") == 0)
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85 val = BACK_CENTER;
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86 else if(strcmp(confkey, "sl") == 0 || strcmp(confkey, "side-left") == 0)
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87 val = SIDE_LEFT;
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88 else if(strcmp(confkey, "sr") == 0 || strcmp(confkey, "side-right") == 0)
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89 val = SIDE_RIGHT;
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90 else
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91 {
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92 ERR("Unknown speaker for %s: \"%s\"\n", name, confkey);
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93 continue;
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94 }
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95
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96 *(sep++) = 0;
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97 while(isspace(*sep))
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98 sep++;
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99
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100 for(i = 0;i < chans;i++)
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101 {
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102 if(Speaker2Chan[i] == val)
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103 {
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104 long angle = strtol(sep, NULL, 10);
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105 if(angle >= -180 && angle <= 180)
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106 SpeakerAngle[i] = angle * M_PI/180.0f;
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107 else
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108 ERR("Invalid angle for speaker \"%s\": %ld\n", confkey, angle);
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109 break;
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110 }
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111 }
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112 }
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113
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114 for(i = 0;i < chans;i++)
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115 {
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116 int min = i;
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117 int i2;
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118
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119 for(i2 = i+1;i2 < chans;i2++)
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120 {
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121 if(SpeakerAngle[i2] < SpeakerAngle[min])
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122 min = i2;
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123 }
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124
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125 if(min != i)
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126 {
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127 ALfloat tmpf;
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128 enum Channel tmpc;
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129
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130 tmpf = SpeakerAngle[i];
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131 SpeakerAngle[i] = SpeakerAngle[min];
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132 SpeakerAngle[min] = tmpf;
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133
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134 tmpc = Speaker2Chan[i];
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135 Speaker2Chan[i] = Speaker2Chan[min];
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136 Speaker2Chan[min] = tmpc;
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137 }
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138 }
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139 }
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140
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141 static ALfloat aluLUTpos2Angle(ALint pos)
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142 {
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143 if(pos < QUADRANT_NUM)
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144 return aluAtan((ALfloat)pos / (ALfloat)(QUADRANT_NUM - pos));
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145 if(pos < 2 * QUADRANT_NUM)
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146 return M_PI_2 + aluAtan((ALfloat)(pos - QUADRANT_NUM) / (ALfloat)(2 * QUADRANT_NUM - pos));
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147 if(pos < 3 * QUADRANT_NUM)
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148 return aluAtan((ALfloat)(pos - 2 * QUADRANT_NUM) / (ALfloat)(3 * QUADRANT_NUM - pos)) - M_PI;
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149 return aluAtan((ALfloat)(pos - 3 * QUADRANT_NUM) / (ALfloat)(4 * QUADRANT_NUM - pos)) - M_PI_2;
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150 }
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151
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152 ALint aluCart2LUTpos(ALfloat re, ALfloat im)
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153 {
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154 ALint pos = 0;
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155 ALfloat denom = aluFabs(re) + aluFabs(im);
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156 if(denom > 0.0f)
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157 pos = (ALint)(QUADRANT_NUM*aluFabs(im) / denom + 0.5);
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158
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159 if(re < 0.0)
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160 pos = 2 * QUADRANT_NUM - pos;
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161 if(im < 0.0)
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162 pos = LUT_NUM - pos;
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163 return pos%LUT_NUM;
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164 }
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165
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166 ALvoid aluInitPanning(ALCdevice *Device)
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167 {
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168 ALfloat SpeakerAngle[MAXCHANNELS];
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169 enum Channel *Speaker2Chan;
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170 ALfloat Alpha, Theta;
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171 ALint pos;
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172 ALuint s;
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173
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174 Speaker2Chan = Device->Speaker2Chan;
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175 switch(Device->FmtChans)
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176 {
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177 case DevFmtMono:
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178 Device->NumChan = 1;
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179 Speaker2Chan[0] = FRONT_CENTER;
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180 SpeakerAngle[0] = 0.0f * M_PI/180.0f;
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181 break;
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182
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183 case DevFmtStereo:
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184 Device->NumChan = 2;
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185 Speaker2Chan[0] = FRONT_LEFT;
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186 Speaker2Chan[1] = FRONT_RIGHT;
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187 SpeakerAngle[0] = -90.0f * M_PI/180.0f;
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188 SpeakerAngle[1] = 90.0f * M_PI/180.0f;
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189 SetSpeakerArrangement("layout_STEREO", SpeakerAngle, Speaker2Chan, Device->NumChan);
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190 break;
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191
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192 case DevFmtQuad:
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193 Device->NumChan = 4;
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194 Speaker2Chan[0] = BACK_LEFT;
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195 Speaker2Chan[1] = FRONT_LEFT;
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196 Speaker2Chan[2] = FRONT_RIGHT;
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197 Speaker2Chan[3] = BACK_RIGHT;
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198 SpeakerAngle[0] = -135.0f * M_PI/180.0f;
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199 SpeakerAngle[1] = -45.0f * M_PI/180.0f;
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200 SpeakerAngle[2] = 45.0f * M_PI/180.0f;
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201 SpeakerAngle[3] = 135.0f * M_PI/180.0f;
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202 SetSpeakerArrangement("layout_QUAD", SpeakerAngle, Speaker2Chan, Device->NumChan);
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203 break;
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204
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205 case DevFmtX51:
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206 Device->NumChan = 5;
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207 Speaker2Chan[0] = BACK_LEFT;
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208 Speaker2Chan[1] = FRONT_LEFT;
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209 Speaker2Chan[2] = FRONT_CENTER;
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210 Speaker2Chan[3] = FRONT_RIGHT;
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211 Speaker2Chan[4] = BACK_RIGHT;
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212 SpeakerAngle[0] = -110.0f * M_PI/180.0f;
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213 SpeakerAngle[1] = -30.0f * M_PI/180.0f;
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214 SpeakerAngle[2] = 0.0f * M_PI/180.0f;
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215 SpeakerAngle[3] = 30.0f * M_PI/180.0f;
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216 SpeakerAngle[4] = 110.0f * M_PI/180.0f;
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217 SetSpeakerArrangement("layout_51CHN", SpeakerAngle, Speaker2Chan, Device->NumChan);
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218 break;
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219
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220 case DevFmtX51Side:
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221 Device->NumChan = 5;
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222 Speaker2Chan[0] = SIDE_LEFT;
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223 Speaker2Chan[1] = FRONT_LEFT;
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224 Speaker2Chan[2] = FRONT_CENTER;
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225 Speaker2Chan[3] = FRONT_RIGHT;
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226 Speaker2Chan[4] = SIDE_RIGHT;
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227 SpeakerAngle[0] = -90.0f * M_PI/180.0f;
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228 SpeakerAngle[1] = -30.0f * M_PI/180.0f;
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229 SpeakerAngle[2] = 0.0f * M_PI/180.0f;
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230 SpeakerAngle[3] = 30.0f * M_PI/180.0f;
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231 SpeakerAngle[4] = 90.0f * M_PI/180.0f;
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232 SetSpeakerArrangement("layout_51SIDECHN", SpeakerAngle, Speaker2Chan, Device->NumChan);
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233 break;
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234
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235 case DevFmtX61:
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236 Device->NumChan = 6;
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237 Speaker2Chan[0] = SIDE_LEFT;
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238 Speaker2Chan[1] = FRONT_LEFT;
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239 Speaker2Chan[2] = FRONT_CENTER;
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240 Speaker2Chan[3] = FRONT_RIGHT;
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241 Speaker2Chan[4] = SIDE_RIGHT;
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242 Speaker2Chan[5] = BACK_CENTER;
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243 SpeakerAngle[0] = -90.0f * M_PI/180.0f;
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244 SpeakerAngle[1] = -30.0f * M_PI/180.0f;
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245 SpeakerAngle[2] = 0.0f * M_PI/180.0f;
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246 SpeakerAngle[3] = 30.0f * M_PI/180.0f;
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247 SpeakerAngle[4] = 90.0f * M_PI/180.0f;
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248 SpeakerAngle[5] = 180.0f * M_PI/180.0f;
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249 SetSpeakerArrangement("layout_61CHN", SpeakerAngle, Speaker2Chan, Device->NumChan);
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250 break;
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251
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252 case DevFmtX71:
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253 Device->NumChan = 7;
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254 Speaker2Chan[0] = BACK_LEFT;
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255 Speaker2Chan[1] = SIDE_LEFT;
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256 Speaker2Chan[2] = FRONT_LEFT;
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257 Speaker2Chan[3] = FRONT_CENTER;
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258 Speaker2Chan[4] = FRONT_RIGHT;
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259 Speaker2Chan[5] = SIDE_RIGHT;
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260 Speaker2Chan[6] = BACK_RIGHT;
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261 SpeakerAngle[0] = -150.0f * M_PI/180.0f;
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262 SpeakerAngle[1] = -90.0f * M_PI/180.0f;
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263 SpeakerAngle[2] = -30.0f * M_PI/180.0f;
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264 SpeakerAngle[3] = 0.0f * M_PI/180.0f;
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265 SpeakerAngle[4] = 30.0f * M_PI/180.0f;
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266 SpeakerAngle[5] = 90.0f * M_PI/180.0f;
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267 SpeakerAngle[6] = 150.0f * M_PI/180.0f;
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268 SetSpeakerArrangement("layout_71CHN", SpeakerAngle, Speaker2Chan, Device->NumChan);
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269 break;
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270 }
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271
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272 for(pos = 0; pos < LUT_NUM; pos++)
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273 {
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274 ALfloat *PanningLUT = Device->PanningLUT[pos];
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275
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rlm@0
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276 /* clear all values */
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277 for(s = 0; s < MAXCHANNELS; s++)
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278 PanningLUT[s] = 0.0f;
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279
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280 if(Device->NumChan == 1)
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281 {
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282 PanningLUT[Speaker2Chan[0]] = 1.0f;
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283 continue;
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284 }
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rlm@0
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285
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rlm@0
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286 /* source angle */
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rlm@0
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287 Theta = aluLUTpos2Angle(pos);
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rlm@0
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288
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rlm@0
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289 /* set panning values */
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rlm@0
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290 for(s = 0; s < Device->NumChan - 1; s++)
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rlm@0
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291 {
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rlm@0
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292 if(Theta >= SpeakerAngle[s] && Theta < SpeakerAngle[s+1])
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rlm@0
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293 {
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rlm@0
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294 /* source between speaker s and speaker s+1 */
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rlm@0
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295 Alpha = M_PI_2 * (Theta-SpeakerAngle[s]) /
|
|
rlm@0
|
296 (SpeakerAngle[s+1]-SpeakerAngle[s]);
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|
rlm@0
|
297 PanningLUT[Speaker2Chan[s]] = cos(Alpha);
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|
rlm@0
|
298 PanningLUT[Speaker2Chan[s+1]] = sin(Alpha);
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|
rlm@0
|
299 break;
|
|
rlm@0
|
300 }
|
|
rlm@0
|
301 }
|
|
rlm@0
|
302 if(s == Device->NumChan - 1)
|
|
rlm@0
|
303 {
|
|
rlm@0
|
304 /* source between last and first speaker */
|
|
rlm@0
|
305 if(Theta < SpeakerAngle[0])
|
|
rlm@0
|
306 Theta += 2.0f * M_PI;
|
|
rlm@0
|
307 Alpha = M_PI_2 * (Theta-SpeakerAngle[s]) /
|
|
rlm@0
|
308 (2.0f * M_PI + SpeakerAngle[0]-SpeakerAngle[s]);
|
|
rlm@0
|
309 PanningLUT[Speaker2Chan[s]] = cos(Alpha);
|
|
rlm@0
|
310 PanningLUT[Speaker2Chan[0]] = sin(Alpha);
|
|
rlm@0
|
311 }
|
|
rlm@0
|
312 }
|
|
rlm@0
|
313 }
|
