1 | /* AxMl.h */ |
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2 | |
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3 | #define headerName "AxMl.h" |
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4 | #define headerVersion "1.0.0" |
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5 | #define headerDate "February, 2002" |
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6 | |
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7 | |
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8 | #ifndef dnaml_h |
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9 | |
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10 | /* Compile time switches for various updates to program: |
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11 | * 0 gives original version |
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12 | * 1 gives new version |
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13 | */ |
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14 | |
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15 | #define ReturnSmoothedView 1 /* Propagate changes back after smooth */ |
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16 | #define BestInsertAverage 1 /* Build three taxon tree analytically */ |
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17 | #define DeleteCheckpointFile 0 /* Remove checkpoint file when done */ |
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18 | |
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19 | #define EQUALITIES 16 |
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20 | char map[EQUALITIES]; |
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21 | char* map2; |
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22 | #define Debug 0 |
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23 | |
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24 | /* Program constants and parameters */ |
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25 | |
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26 | #define maxlogf 1024 /* maximum number of user trees */ |
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27 | #define maxcategories 35 /* maximum number of site types */ |
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28 | |
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29 | #define smoothings 32 /* maximum smoothing passes through tree */ |
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30 | #define iterations 10 /* maximum iterations of makenewz per insert */ |
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31 | #define newzpercycle 1 /* iterations of makenewz per tree traversal */ |
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32 | #define nmlngth 10 /* number of characters in species name */ |
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33 | #define deltaz 0.00001 /* test of net branch length change in update */ |
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34 | #define zmin 1.0E-15 /* max branch prop. to -log(zmin) (= 34) */ |
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35 | #define zmax (1.0 - 1.0E-6) /* min branch prop. to 1.0-zmax (= 1.0E-6) */ |
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36 | #define defaultz 0.9 /* value of z assigned as starting point */ |
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37 | #define unlikely -1.0E300 /* low likelihood for initialization */ |
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38 | |
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39 | /* These values are used to rescale the lilelihoods at a given site so that |
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40 | * there is no floating point underflow. |
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41 | */ |
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42 | #define twotothe256 \ |
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43 | 115792089237316195423570985008687907853269984665640564039457584007913129639936.0 |
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44 | /* 2**256 (exactly) */ |
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45 | #define minlikelihood (1.0/twotothe256) /* 2**(-256) */ |
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46 | #define log_minlikelihood (-177.445678223345993274) /* log(1.0/twotothe256) */ |
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47 | |
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48 | /* The next two values are used for scaling the tree that is sketched in the |
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49 | * output file. |
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50 | */ |
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51 | #define down 2 |
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52 | #define over 60 |
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53 | |
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54 | #define checkpointname "checkpoint" |
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55 | |
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56 | #define badEval 1.0 |
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57 | #define badZ 0.0 |
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58 | #define badRear -1 |
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59 | #define badSigma -1.0 |
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60 | |
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61 | #define TRUE 1 |
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62 | #define FALSE 0 |
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63 | |
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64 | #define treeNone 0 |
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65 | #define treeNewick 1 |
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66 | #define treeProlog 2 |
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67 | #define treePHYLIP 3 |
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68 | #define treeMaxType 3 |
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69 | #define treeDefType treePHYLIP |
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70 | |
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71 | #define ABS(x) (((x)<0) ? (-(x)) : (x)) |
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72 | #define MIN(x,y) (((x)<(y)) ? (x) : (y)) |
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73 | #define MAX(x,y) (((x)>(y)) ? (x) : (y)) |
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74 | #define LOG(x) (((x)>0) ? log(x) : hang("log domain error")) |
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75 | #define NINT(x) ((int) ((x)>0 ? ((x)+0.5) : ((x)-0.5))) |
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76 | |
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77 | #if ! Vectorize |
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78 | typedef char yType; |
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79 | #else |
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80 | typedef int yType; |
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81 | #endif |
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82 | |
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83 | |
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84 | typedef int boolean; |
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85 | typedef double xtype; |
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86 | |
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87 | typedef struct likelihood_vector { |
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88 | xtype a, c, g, t; |
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89 | long exp; |
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90 | } likelivector; |
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91 | |
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92 | typedef struct xmantyp { |
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93 | struct xmantyp *prev; |
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94 | struct xmantyp *next; |
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95 | struct noderec *owner; |
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96 | likelivector *lv; |
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97 | } xarray; |
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98 | |
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99 | |
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100 | |
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101 | int equalities = 0; |
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102 | |
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103 | typedef struct fgh{ |
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104 | double a, c, g, t; |
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105 | long exp; |
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106 | boolean set; |
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107 | } |
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108 | homType; |
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109 | |
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110 | |
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111 | typedef struct noderec { |
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112 | double z, z0; |
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113 | struct noderec *next; |
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114 | struct noderec *back; |
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115 | int number; |
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116 | xarray *x; |
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117 | int xcoord, ycoord, ymin, ymax; |
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118 | char name[nmlngth+1]; /* Space for null termination */ |
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119 | yType *tip; /* Pointer to sequence data */ |
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120 | |
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121 | /* AxML modification start*/ |
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122 | |
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123 | char *equalityVector; /* subtree equality vector for this node*/ |
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124 | homType mlv[EQUALITIES][maxcategories]; |
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125 | /* AxML modification end*/ |
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126 | |
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127 | |
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128 | } node, *nodeptr; |
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129 | |
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130 | |
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131 | |
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132 | typedef struct { |
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133 | double sumaq; |
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134 | double sumgq; |
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135 | double sumcq; |
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136 | double sumtq; |
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137 | int exp; |
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138 | } poutsa; |
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139 | |
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140 | typedef struct { |
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141 | double fx1a, fx1g, fx1c, fx1t, sumag, sumct, sumagct; |
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142 | int exp; |
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143 | } memP; |
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144 | |
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145 | |
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146 | typedef struct { |
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147 | double sumfx2rfx2y, fx2r, fx2y; |
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148 | double a, c, g, t; |
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149 | int exp; |
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150 | } memQ; |
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151 | |
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152 | typedef struct { |
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153 | int numsp; /* number of species (also tr->mxtips) */ |
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154 | int sites; /* number of input sequence positions */ |
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155 | yType **y; /* sequence data array */ |
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156 | boolean freqread; /* user base frequencies have been read */ |
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157 | /* To do: DNA specific values should get packaged into structure */ |
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158 | double freqa, freqc, freqg, freqt, /* base frequencies */ |
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159 | freqr, freqy, invfreqr, invfreqy, |
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160 | freqar, freqcy, freqgr, freqty; |
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161 | double ttratio, xi, xv, fracchange; /* transition/transversion */ |
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162 | /* End of DNA specific values */ |
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163 | int *wgt; /* weight per sequence pos */ |
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164 | int *wgt2; /* weight per pos (booted) */ |
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165 | int categs; /* number of rate categories */ |
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166 | double catrat[maxcategories+1]; /* rates per categories */ |
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167 | int *sitecat; /* category per sequence pos */ |
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168 | } rawdata; |
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169 | |
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170 | typedef struct { |
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171 | int *alias; /* site representing a pattern */ |
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172 | int *aliaswgt; /* weight by pattern */ |
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173 | int endsite; /* # of sequence patterns */ |
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174 | int wgtsum; /* sum of weights of positions */ |
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175 | int *patcat; /* category per pattern */ |
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176 | double *patrat; /* rates per pattern */ |
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177 | double *wr; /* weighted rate per pattern */ |
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178 | double *wr2; /* weight*rate**2 per pattern */ |
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179 | } cruncheddata; |
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180 | |
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181 | typedef struct { |
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182 | double likelihood; |
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183 | double *log_f; /* info for signif. of trees */ |
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184 | node **nodep; |
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185 | node *start; |
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186 | node *outgrnode; |
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187 | int mxtips; |
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188 | int ntips; |
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189 | int nextnode; |
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190 | int opt_level; |
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191 | int log_f_valid; /* log_f value sites */ |
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192 | int global; /* branches to cross in full tree */ |
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193 | int partswap; /* branches to cross in partial tree */ |
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194 | int outgr; /* sequence number to use in rooting tree */ |
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195 | boolean prelabeled; /* the possible tip names are known */ |
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196 | boolean smoothed; |
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197 | boolean rooted; |
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198 | boolean userlen; /* use user-supplied branch lengths */ |
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199 | rawdata *rdta; /* raw data structure */ |
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200 | cruncheddata *cdta; /* crunched data structure */ |
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201 | //stmatak modif |
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202 | int eqDepth; /*indicates up to which tree depth het. eq. vectors shall be used */ |
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203 | //stamatk modif |
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204 | } tree; |
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205 | |
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206 | typedef struct conntyp { |
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207 | double z; /* branch length */ |
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208 | node *p, *q; /* parent and child sectors */ |
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209 | void *valptr; /* pointer to value of subtree */ |
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210 | int descend; /* pointer to first connect of child */ |
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211 | int sibling; /* next connect from same parent */ |
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212 | } connect, *connptr; |
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213 | |
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214 | typedef struct { |
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215 | double likelihood; |
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216 | double *log_f; /* info for signif. of trees */ |
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217 | connect *links; /* pointer to first connect (start) */ |
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218 | node *start; |
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219 | int nextlink; /* index of next available connect */ |
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220 | /* tr->start = tpl->links->p */ |
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221 | int ntips; |
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222 | int nextnode; |
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223 | int opt_level; /* degree of branch swapping explored */ |
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224 | int scrNum; /* position in sorted list of scores */ |
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225 | int tplNum; /* position in sorted list of trees */ |
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226 | int log_f_valid; /* log_f value sites */ |
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227 | boolean prelabeled; /* the possible tip names are known */ |
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228 | boolean smoothed; /* branch optimization converged? */ |
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229 | } topol; |
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230 | |
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231 | typedef struct { |
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232 | double best; /* highest score saved */ |
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233 | double worst; /* lowest score saved */ |
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234 | topol *start; /* starting tree for optimization */ |
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235 | topol **byScore; |
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236 | topol **byTopol; |
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237 | int nkeep; /* maximum topologies to save */ |
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238 | int nvalid; /* number of topologies saved */ |
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239 | int ninit; /* number of topologies initialized */ |
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240 | int numtrees; /* number of alternatives tested */ |
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241 | boolean improved; |
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242 | } bestlist; |
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243 | |
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244 | typedef struct { |
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245 | long boot; /* bootstrap random number seed */ |
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246 | int extra; /* extra output information switch */ |
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247 | boolean empf; /* use empirical base frequencies */ |
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248 | boolean interleaved; /* input data are in interleaved format */ |
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249 | long jumble; /* jumble random number seed */ |
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250 | int nkeep; /* number of best trees to keep */ |
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251 | int numutrees; /* number of user trees to read */ |
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252 | boolean prdata; /* echo data to output stream */ |
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253 | boolean qadd; /* test addition without full smoothing */ |
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254 | boolean restart; /* resume addition to partial tree */ |
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255 | boolean root; /* use user-supplied outgroup */ |
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256 | boolean trprint; /* print tree to output stream */ |
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257 | int trout; /* write tree to "treefile" */ |
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258 | boolean usertree; /* use user-supplied trees */ |
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259 | boolean userwgt; /* use user-supplied position weight mask */ |
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260 | } analdef; |
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261 | |
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262 | typedef struct { |
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263 | double tipmax; |
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264 | int tipy; |
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265 | } drawdata; |
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266 | |
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267 | void exit(); |
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268 | |
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269 | #define Malloc(x) malloc((unsigned) (x)) /* BSD */ |
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270 | /* #define Malloc(x) malloc((size_t) (x)) */ /* System V */ |
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271 | |
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272 | #define Free(x) (void) free((char *) (x)) /* BSD */ |
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273 | /* #define Free(x) free((void *) (x)) */ /* System V */ |
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274 | |
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275 | char *likelihood_key = "likelihood"; |
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276 | char *ntaxa_key = "ntaxa"; |
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277 | char *opt_level_key = "opt_level"; |
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278 | char *smoothed_key = "smoothed"; |
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279 | |
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280 | #define dnaml_h |
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281 | #endif /* #if undef dnaml_h */ |
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