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1 #include <assert.h>
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2 #include <algorithm>
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3 #include "xform_node.h"
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4 #include "anim/anim.h"
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5 #include "anim/track.h"
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6
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7 static inline anm_interpolator track_interpolator(Interp in);
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8 static inline anm_extrapolator track_extrapolator(Extrap ex);
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9
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10 XFormNode::XFormNode()
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11 {
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12 anm = new anm_node;
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13 anm_init_node(anm);
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14 }
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15
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16 XFormNode::~XFormNode()
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17 {
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18 anm_destroy_node(anm);
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19 delete anm;
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20 }
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21
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22 void XFormNode::set_name(const char *name)
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23 {
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24 anm_set_node_name(anm, name);
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25 }
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26
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27 const char *XFormNode::get_name() const
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28 {
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29 return anm_get_node_name(anm);
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30 }
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31
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32 void XFormNode::set_interpolator(Interp in)
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33 {
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34 anm_set_interpolator(anm, track_interpolator(in));
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35 interp = in;
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36 }
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37
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38 Interp XFormNode::get_interpolator() const
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39 {
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40 return interp;
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41 }
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42
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43 void XFormNode::set_extrapolator(Extrap ex)
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44 {
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45 anm_set_extrapolator(anm, track_extrapolator(ex));
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46 extrap = ex;
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47 }
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48
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49 Extrap XFormNode::get_extrapolator() const
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50 {
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51 return extrap;
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52 }
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53
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54 void XFormNode::add_child(XFormNode *child)
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55 {
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56 children.push_back(child);
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57 anm_link_node(anm, child->anm);
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58 }
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59
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60 void XFormNode::remove_child(XFormNode *child)
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61 {
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62 std::vector<XFormNode*>::iterator it;
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63 it = std::find(children.begin(), children.end(), child);
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64 if(it != children.end()) {
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65 children.erase(it);
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66 anm_unlink_node(anm, child->anm);
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67 }
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68 }
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69
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70 int XFormNode::get_children_count() const
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71 {
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72 return (int)children.size();
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73 }
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74
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75 XFormNode *XFormNode::get_child(int idx)
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76 {
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77 if(idx >= 0 && idx < get_children_count()) {
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78 return children[idx];
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79 }
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80 return 0;
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81 }
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82
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83 const XFormNode *XFormNode::get_child(int idx) const
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84 {
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85 if(idx >= 0 && idx < get_children_count()) {
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86 return children[idx];
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87 }
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88 return 0;
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89 }
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90
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91 void XFormNode::set_position(const Vector3 &pos, long tmsec)
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92 {
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93 anm_set_position(anm, v3_cons(pos.x, pos.y, pos.z), ANM_MSEC2TM(tmsec));
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94 }
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95
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96 Vector3 XFormNode::get_node_position(long tmsec) const
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97 {
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98 vec3_t p = anm_get_node_position(anm, ANM_MSEC2TM(tmsec));
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99 return Vector3(p.x, p.y, p.z);
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100 }
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101
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102 void XFormNode::set_rotation(const Quaternion &quat, long tmsec)
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103 {
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104 anm_set_rotation(anm, quat_cons(quat.s, quat.v.x, quat.v.y, quat.v.z), ANM_MSEC2TM(tmsec));
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105 }
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106
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107 Quaternion XFormNode::get_node_rotation(long tmsec) const
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108 {
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109 quat_t q = anm_get_node_rotation(anm, ANM_MSEC2TM(tmsec));
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110 return Quaternion(q.w, q.x, q.y, q.z);
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111 }
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112
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113 void XFormNode::set_scaling(const Vector3 &pos, long tmsec)
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114 {
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115 anm_set_scaling(anm, v3_cons(pos.x, pos.y, pos.z), ANM_MSEC2TM(tmsec));
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116 }
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117
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118 Vector3 XFormNode::get_node_scaling(long tmsec) const
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119 {
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120 vec3_t s = anm_get_node_scaling(anm, ANM_MSEC2TM(tmsec));
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121 return Vector3(s.x, s.y, s.z);
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122 }
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123
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124 // these take hierarchy into account
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125 Vector3 XFormNode::get_position(long tmsec) const
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126 {
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127 vec3_t v = anm_get_position(anm, ANM_MSEC2TM(tmsec));
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128 return Vector3(v.x, v.y, v.z);
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129 }
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130
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131 Quaternion XFormNode::get_rotation(long tmsec) const
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132 {
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133 quat_t q = anm_get_rotation(anm, tmsec);
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134 return Quaternion(q.w, q.x, q.y, q.z);
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135 }
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136
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137 Vector3 XFormNode::get_scaling(long tmsec) const
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138 {
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139 vec3_t v = anm_get_scaling(anm, ANM_MSEC2TM(tmsec));
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140 return Vector3(v.x, v.y, v.z);
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141 }
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142
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143 void XFormNode::set_pivot(const Vector3 &pivot)
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144 {
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145 anm_set_pivot(anm, v3_cons(pivot.x, pivot.y, pivot.z));
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146 }
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147
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148 Vector3 XFormNode::get_pivot() const
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149 {
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150 vec3_t p = anm_get_pivot(anm);
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151 return Vector3(p.x, p.y, p.z);
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152 }
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153
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154 void XFormNode::set_local_matrix(const Matrix4x4 &mat)
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155 {
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156 local_matrix = mat;
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157 }
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158
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159 const Matrix4x4 &XFormNode::get_local_matrix() const
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160 {
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161 return local_matrix;
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162 }
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163
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164 void XFormNode::set_bone_matrix(const Matrix4x4 &bmat)
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165 {
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166 bone_matrix = bmat;
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167 }
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168
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169 const Matrix4x4 &XFormNode::get_bone_matrix() const
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170 {
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171 return bone_matrix;
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172 }
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173
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174 #define FOO
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175
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176 void XFormNode::get_node_xform(long tmsec, Matrix4x4 *mat, Matrix4x4 *inv_mat) const
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177 {
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178 anm_time_t tm = ANM_MSEC2TM(tmsec);
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179
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180 if(mat) {
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181 anm_get_node_matrix(anm, (scalar_t(*)[4])mat, tm);
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182 #ifdef FOO
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183 *mat = local_matrix * *mat;
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184 #else
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185 *mat = *mat * local_matrix;
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186 #endif
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187 }
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188 if(inv_mat) {
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189 anm_get_inv_matrix(anm, (scalar_t(*)[4])inv_mat, tm);
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190 }
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191 }
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192
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193 void XFormNode::get_xform(long tmsec, Matrix4x4 *mat, Matrix4x4 *inv_mat) const
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194 {
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195 anm_time_t tm = ANM_MSEC2TM(tmsec);
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196
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197 if(mat) {
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198 anm_get_matrix(anm, (scalar_t(*)[4])mat, tm);
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199 #ifdef FOO
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200 *mat = local_matrix * *mat;
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201 #else
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202 *mat = *mat * local_matrix;
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203 #endif
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204 }
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205 if(inv_mat) {
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206 anm_get_inv_matrix(anm, (scalar_t(*)[4])inv_mat, tm);
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207 }
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208 }
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209
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210
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211 // ---- Track ----
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212
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213 Track::Track()
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214 {
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215 trk = new anm_track;
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216 anm_init_track(trk);
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217 }
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218
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219 Track::~Track()
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220 {
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221 anm_destroy_track(trk);
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222 delete trk;
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223 }
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224
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225 Track::Track(const Track &rhs)
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226 {
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227 trk = new anm_track;
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228 anm_init_track(trk);
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229 anm_copy_track(trk, rhs.trk);
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230 interp = rhs.interp;
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231 extrap = rhs.extrap;
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232 }
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233
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234 Track &Track::operator =(const Track &rhs)
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235 {
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236 if(&rhs == this) {
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237 return *this;
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238 }
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239
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240 anm_copy_track(trk, rhs.trk);
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241 interp = rhs.interp;
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242 extrap = rhs.extrap;
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243 return *this;
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244 }
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245
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246
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247 void Track::set_interpolator(Interp in)
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248 {
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249 anm_set_track_interpolator(trk, track_interpolator(in));
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250 interp = in;
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251 }
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252
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253 Interp Track::get_interpolator() const
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254 {
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255 return interp;
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256 }
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257
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258 void Track::set_extrapolator(Extrap ex)
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259 {
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260 anm_set_track_extrapolator(trk, track_extrapolator(ex));
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261 extrap = ex;
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262 }
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263
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264 Extrap Track::get_extrapolator() const
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265 {
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266 return extrap;
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267 }
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268
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269 void Track::set_default(double def)
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270 {
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271 anm_set_track_default(trk, def);
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272 }
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273
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274 void Track::set_value(float val, long tmsec)
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275 {
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276 anm_set_value(trk, ANM_MSEC2TM(tmsec), val);
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277 }
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278
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279 float Track::get_value(long tmsec) const
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280 {
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281 return anm_get_value(trk, ANM_MSEC2TM(tmsec));
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282 }
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283
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284 float Track::operator ()(long tmsec) const
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285 {
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286 return anm_get_value(trk, ANM_MSEC2TM(tmsec));
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287 }
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288
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289
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290 // ---- Track3 ----
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291
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292 void Track3::set_interpolator(Interp in)
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293 {
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294 for(int i=0; i<3; i++) {
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295 track[i].set_interpolator(in);
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296 }
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297 }
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298
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299 Interp Track3::get_interpolator() const
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300 {
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301 return track[0].get_interpolator();
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302 }
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303
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304 void Track3::set_extrapolator(Extrap ex)
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305 {
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306 for(int i=0; i<3; i++) {
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307 track[i].set_extrapolator(ex);
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308 }
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309 }
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310
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311 Extrap Track3::get_extrapolator() const
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312 {
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313 return track[0].get_extrapolator();
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314 }
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315
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316 void Track3::set_default(const Vector3 &def)
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317 {
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318 for(int i=0; i<3; i++) {
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319 track[i].set_default(def[i]);
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320 }
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321 }
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322
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323 void Track3::set_value(const Vector3 &val, long tmsec)
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324 {
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325 for(int i=0; i<3; i++) {
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326 track[i].set_value(val[i], tmsec);
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327 }
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328 }
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329
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330 Vector3 Track3::get_value(long tmsec) const
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331 {
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332 return Vector3(track[0](tmsec), track[1](tmsec), track[2](tmsec));
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333 }
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334
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335 Vector3 Track3::operator ()(long tmsec) const
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336 {
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337 return Vector3(track[0](tmsec), track[1](tmsec), track[2](tmsec));
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338 }
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339
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340
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341 static inline anm_interpolator track_interpolator(Interp in)
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342 {
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343 switch(in) {
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344 case INTERP_STEP:
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345 return ANM_INTERP_STEP;
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346 case INTERP_LINEAR:
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347 return ANM_INTERP_LINEAR;
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348 case INTERP_CUBIC:
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349 return ANM_INTERP_CUBIC;
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350 }
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351
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352 assert(0);
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353 return ANM_INTERP_STEP;
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354 }
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355
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356 static inline anm_extrapolator track_extrapolator(Extrap ex)
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357 {
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358 switch(ex) {
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359 case EXTRAP_EXTEND:
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360 return ANM_EXTRAP_EXTEND;
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361 case EXTRAP_CLAMP:
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362 return ANM_EXTRAP_CLAMP;
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363 case EXTRAP_REPEAT:
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364 return ANM_EXTRAP_REPEAT;
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365 }
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366
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367 assert(0);
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368 return ANM_EXTRAP_EXTEND;
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369 }
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370
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