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1 (ns com.aurellem.gb.util
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2 (:use (com.aurellem.gb gb-driver vbm constants))
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3 (:import java.io.File)
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4 (:import [com.aurellem.gb.gb_driver SaveState]))
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5
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rlm@417
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6 (defn A
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7 ([state]
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8 (bit-shift-right (bit-and 0x0000FF00 (AF state)) 8))
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9 ([] (A @current-state)))
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10
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11 (defn B [state]
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12 (bit-shift-right (bit-and 0x0000FF00 (BC state)) 8))
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13
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14 (defn D [state]
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15 (bit-shift-right (bit-and 0x0000FF00 (DE state)) 8))
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16
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17 (defn H [state]
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18 (bit-shift-right (bit-and 0x0000FF00 (HL state)) 8))
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19
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20 (defn C [state]
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21 (bit-and 0xFF (BC state)))
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22 (defn F [state]
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23 (bit-and 0xFF (AF state)))
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24 (defn E [state]
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25 (bit-and 0xFF (DE state)))
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26 (defn L [state]
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27 (bit-and 0xFF (HL state)))
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28
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29 (defn binary-str [num]
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30 (format "%08d"
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31 (Integer/parseInt
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32 (Integer/toBinaryString num) 10)))
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33
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34 (defn bit-list
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35 "List the bits of n in order of decreasing significance."
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36 [n]
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37 ((fn this [coll n]
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38 (if (zero? n) coll
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39 (recur
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40 (conj coll (rem n 2))
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41 (int (/ n 2)))))
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42 [] n))
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43
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44
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45 (defn low-high
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46 [low high]
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47 (+ low (* 256 high)))
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48
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49
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50 (defn format-name
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51 "Convert the string of alphabetic/space characters into a keyword by
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52 replacing spaces with hyphens and converting to lowercase."
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53 [s]
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54 (if (nil? s) nil
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55 (keyword (.toLowerCase
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56 (apply str
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57 (map #(if (= % \space) "-" %) s))))))
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58
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59
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60 ;; used to decode item prices
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61
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62 (defn decode-bcd
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63 "Take a sequence of binary-coded digits (in written order) and return the number they represent."
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64 [digits]
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65 ((fn self [coll]
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66 (if (empty? coll) 0
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67 (+ (first coll) (* 100 (self (rest coll))))))
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68 (map
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69 #(+ (* 10 (int (/ % 16)))
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70 (rem % 16))
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71 (reverse digits))))
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72
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73
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74
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75
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76 (defn view-register [state name reg-fn]
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77 (println (format "%s: %s" name
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78 (binary-str (reg-fn state))))
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79 state)
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80
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81 (defn view-memory
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82 ([^SaveState state mem]
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83 (let [val (aget (memory state) mem)]
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84 (println (format "0x%04X = %s 0x%02X %d" mem
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85 (binary-str val) val val)))
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86 state)
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87 ([mem]
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88 (view-memory @current-state mem)))
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89
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90 (defn print-listing
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91 ([^SaveState state begin end]
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92 (dorun (map
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93 (fn [opcode line]
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94 (println (format "0x%04X: 0x%02X %s %d"
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95 line
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96 opcode (binary-str opcode)
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97 opcode)))
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98 (subvec (vec (memory state)) begin end)
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99 (range begin end)))
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100 state)
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101 ([begin end]
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102 (print-listing @current-state begin end)))
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103
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104 (defn print-pc
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105 ([^SaveState state]
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106 (println (format "PC: 0x%04X" (PC state)))
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107 state)
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108 ([] (print-pc @current-state)))
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109
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110 (defn print-op
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111 ([^SaveState state]
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112 (println (format "OP: 0x%02X" (aget (memory state) (PC state))))
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113 state)
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114 ([] (print-op @current-state)))
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115
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116 (defn d-tick
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117 ([] (d-tick 1))
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118 ([n] (d-tick n @current-state))
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119 ([n state]
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120 (reduce (fn [state _]
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121 (-> state print-pc print-op tick))
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122 state (range n))))
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123
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124 (defn print-interrupt
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125 [^SaveState state]
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126 (println (format "IE: %d" (IE state)))
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127 state)
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128
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129 (defn set-memory
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130 ([state location value]
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131 (set-state! state)
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132 (let [mem (memory state)]
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133 (aset mem location value)
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134 (write-memory! mem)
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135 (update-state)))
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136 ([location value]
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137 (set-memory @current-state location value)))
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138
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139 (defn set-memory-range
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140 ([state start values]
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141 (set-state! state)
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142 (let [mem (memory state)]
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143
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144 (dorun (map (fn [index val]
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145 (aset mem index val))
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146 (range start
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147 (+ start (count values))) values))
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148 (write-memory! mem)
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149 (update-state)))
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150 ([start values]
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151 (set-memory-range
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152 @current-state start values)))
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153
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154 (defn common-differences [& seqs]
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155 (let [backbone (range (count (first seqs)))]
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156 (sort-by
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157 first
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158 (filter
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159 (comp (partial apply distinct?) second)
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160 (zipmap backbone
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161 (apply (partial map list) seqs))))))
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162
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163 (defn memory-compare [& states]
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164 (apply common-differences
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165 (map (comp vec memory)
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166 states)))
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167
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168 (defn different-every-time [& seqs]
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169 (let [backbone (range (count (first seqs)))]
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170 (sort-by
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171 first
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172 (filter
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173 (comp (fn [seq] (not (contains? (set (map - seq (rest seq)))
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174 0))) second)
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175 (zipmap backbone
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176 (apply (partial map list) seqs))))))
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177
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178
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179 (defn harmonic-compare [& states]
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180 (apply different-every-time
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181 (map (comp vec memory)
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182 states)))
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183
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184 (defn mid-game []
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185 (read-state "mid-game"))
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186
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187 (defn watch-memory
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188 ([^SaveState state address]
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189 (set-state! state)
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190 (loop [] (step) (view-memory address) (recur)))
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191 ([address] (watch-memory @current-state address)))
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192
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193 (defn watch-fn
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194 ([^SaveState state state-fn]
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195 (set-state! state)
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196 (loop [] (step) (state-fn @current-state) (recur)))
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197 ([state-fn] (watch-fn @current-state state-fn)))
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198
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199 (defn disect-bytes-2
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200 "return a vector consiting of the last 16 bytes of the
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201 integer expressed as two 8 bit numbers (inside an integer)
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202 in the form [high-bits low-bits]."
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203 [num]
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204 [(bit-shift-right
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205 (bit-and num 0xFF00) 8)
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206 (bit-and num 0xFF)])
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207
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208 (defn disect-bytes-3
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209 "same as disect-bytes-2 except that it assumes the input is a
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210 24 bit number and returns [high-bits medium-bits low-bits]"
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211 [num]
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212 (vec
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213 (concat
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214 [(bit-shift-right (bit-and num 0xFF0000) 16)]
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215 (disect-bytes-2 num))))
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216
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217 (defn glue-bytes
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218 "Given two or three 8-bit numbers inside 32-bit integers,
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219 combine them into the integer number that they together
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220 represent."
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221 ([h l]
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222 (+ l (bit-shift-left h 8)))
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223
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224 ([h m l]
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225 (+ (glue-bytes m l)
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226 (bit-shift-left h 16))))
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227
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228 (def cartography
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229 (File. user-home
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230 "proj/vba-clojure/clojure/com/aurellem/exp/cartography"))
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231
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232 (defn print-D-memory
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233 ([^SaveState state]
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234 (let [descriptions
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235 (clojure.string/split-lines
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236 (slurp cartography))]
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237 (dorun
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238 (map
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239 (fn [line data desc]
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240 (printf "%04X %02X%s\n"
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241 line data (apply str
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242 (drop 20 desc))))
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243 (range pokemon-record-begin
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244 (inc D-memory-end))
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245
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246 (subvec (vec (memory state))
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247 pokemon-record-begin
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248 (inc D-memory-end))
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249 descriptions))))
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250 ([] (print-D-memory @current-state)))
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251
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252
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253 (defn signed-8-bits
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254 "the lower 8 bits of an integer interpreted as a signed 8
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255 bit number"
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256 [n]
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257 (let [lower-seven (bit-and n 127)]
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258 (if (bit-test n 7)
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259 (- lower-seven 128)
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260 lower-seven)))
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261
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262
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263 (defn capture-program-counter
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264 "records the program counter for each tick"
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265 [^SaveState state ticks]
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266 (let [i (atom 0)]
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267 (reduce (fn [[program-counters state] _]
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268 (swap! i inc)
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269 (if (= (rem @i 1000) 0) (println @i))
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270 [(conj program-counters (PC state))
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271 (tick state)])
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272 [[] state]
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273 (range ticks))))
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274
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275 (defn capture-program-counter
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276 "Records the program counter for each tick"
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277 [^SaveState state ticks]
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278 (tick state)
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279
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280 (loop [i 0
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281 pcs []]
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282 (if (= i ticks)
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283 (filter (partial < 0x2000)(sort (set pcs)))
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284 (do
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285 (com.aurellem.gb.Gb/tick)
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286 (recur (inc i)
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287 (conj pcs (first (registers))))))))
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288
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