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1 ;;;; "Advanced Choreography" -- this is the final video for this project.
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2
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3 (ns com.aurellem.run.adv-choreo
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4 (:use (com.aurellem.gb saves gb-driver util constants
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5 items vbm characters money
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6 rlm-assembly))
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7 (:use (com.aurellem.run util music title save-corruption
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8 bootstrap-0 bootstrap-1 image
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9 ram-display final-cut basic-choreo))
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10 (:require clojure.string)
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11 (:import java.awt.image.BufferedImage)
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12 (:import (javax.imageio ImageWriteParam IIOImage ImageIO))
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13 (:import [com.aurellem.gb.gb_driver SaveState])
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14 (:import java.io.File))
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15
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16
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17
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18 ;; Use the gameboy's screen to display the new programming
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19 ;; instead of a side window. This will make it look much
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20 ;; cooler and create a terminal-like effect as the game is
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21 ;; being reprogramed. To do this, use a fixed data entry
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22 ;; region in ram, and run a program that translates this
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23 ;; region into the screen. Every time this data entry region
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24 ;; is full, run a program that copies the data to the
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25 ;; appropriate region in memory. This will cost ~15 seconds
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26 ;; at the beginning to set up, and then should have minimal
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27 ;; overhead (~5%) for the rest of the data transfer, but
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28 ;; will have a good psychological effect for the viewer
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29 ;; since he can see that something is actually happening in
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30 ;; the game.
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31
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32
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33 ;; Symbol size and type.
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34
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35 ;; use fonts from zophar's domain:
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36 ;; http://www.zophar.net/utilities/fonts/8x8-font-archive.html
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37
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38 ;; Green font on black background for matrix look.
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39
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40
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41 (defn program-data [base-address]
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42 (let [image-program
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43 (display-image-kernel
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44 base-address
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45
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46 ;;pinkie-pie-mark
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47 test-image-color
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48
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49 )
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50
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51
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52 music-base-address (+ (count image-program) base-address)
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53
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54 initial-music-data
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55 (midi-bytes pony-csv 0 0 0 0)
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56
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57 data-lengths
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58 (map (comp count :data)
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59 [(:kernel initial-music-data)
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60 (:voice-1 initial-music-data)
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61 (:voice-2 initial-music-data)]);; noise not needed
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62 addresses
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63 (map (partial + music-base-address) (reductions + 0 data-lengths))
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64
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65 final-music-data
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66 (apply (partial midi-bytes pony-csv) addresses)
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67
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68 music-program
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69 (concat
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70 (:data (:kernel final-music-data))
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71 (:data (:voice-1 final-music-data))
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72 (:data (:voice-2 final-music-data))
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73 (:data (:noise final-music-data)))]
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74
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75 (concat
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76 image-program ;; image program falls through to music program
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77
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78 (infinite-loop)
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79 ;;music-program
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80
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81 )))
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82
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83
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84
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85
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86 (def glyphs
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87 "The sixteen 8x8 glyphs which make up the \"terminal\" font."
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88 (mapv #(ImageIO/read
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89 (File. user-home (str "proj/vba-clojure/font/" % ".png")))
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90 ["0" "1" "2" "3" "4" "5" "6" "7" "8" "9" "A" "B" "C" "D" "E" "F"]))
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91
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92 (defn glyph-init-program
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93 [start-address]
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94 (let [zero-glyph (image->gb-image (glyphs 0))
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95
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96 ;; write same pallet information to all pallettes
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97 A (flatten
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98 [(write-byte LCD-control-register 0x00);; disable LCD protection
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99 (set-palettes bg-palette-select bg-palette-data
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100 (repeat 8 (first (:palettes zero-glyph))))
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101 (select-LCD-bank 0)
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102 (write-byte SCX-register 0)
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103 (write-byte SCY-register 0)])
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104 B (flatten
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105 [(write-data
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106 (+ start-address (count A))
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107 character-data-address
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108 (flatten
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109 (map (comp gb-tile->bytes first :tiles image->gb-image)
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110 glyphs)))
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111
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112
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113 (write-byte
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114 LCD-control-register
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115 (Integer/parseInt
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116 (str
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117 "1" ;; LCDC on/off
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118 "0" ;; Window code area
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119 "0" ;; Windowing on?
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120 "1" ;; BG tile base (1 = 0x8000)
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121 "0" ;; BG-1 or BG-2 ?
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122 "0" ;; OBJ-block composition
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123 "0" ;; OBJ-on flag
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124 "1") ;; no-effect
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125 2))])]
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126 (concat A B )))
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127
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128
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129
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130 (defn glyph-display-program
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131 [start-address
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132 max-glyphs]
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133 (let [data-start (+ 2 start-address)
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134 [max-glyphs-high max-glyphs-low]
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135 (disect-bytes-2 max-glyphs)
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136 load-data
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137 (flatten
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138 [;; data region
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139 0x18
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140 4
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141 0 0 ;; current num of glyphs-rendered
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142 0 0 ;; current row and column
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143 ;; save all registers
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144 0xC5 0xD5 0xE5 0xF5
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145
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146 ;; load data from data region into registers
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147
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148 0xF5 ;; push A
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149 0x21 ;; begin data load
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150 (reverse (disect-bytes-2 data-start))
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151
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152 0x2A 0x47 ;; glyphs-rendered -> BC
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153 0x2A 0x4F
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154
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155 0x16 max-glyphs-high ;; load max-glyphs
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156 0x1E max-glyphs-low ;; into DE
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157 ])
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158
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159 handle-glyph-count*
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160 (flatten
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161 [;; if glyphs-rendered = max-glyph count, go directly
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162 ;; to stack-cleanup
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163
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164 0x47 0xBA ;; compare B to D
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165 0x20 ;; skip next section B != D
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166 8 ;; this is equal to the number of instructions in the next
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167 ;; indented region!
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168
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169 0x79 0xBB ;; compare C to E
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170 0x20 ;; JR NZ, skip if C != E
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171 4
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172 0xF1 ;; pop AF for stack maintainance!
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173 0x18
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174 :stack-cleanup-low
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175 :stack-cleanup-high
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176 ])
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177
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178 display-glyph
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179
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180 (let [init*
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181 (flatten
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182 [0xF1 ;; pop A, now A is equal to key input
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183 ;; BC is current number of glyphs rendered.
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184 ;; each glyph is two characters, and the screen can hold up
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185 ;; to 360 characters. Thus, if the current glyphs is a
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186 ;; multiple of 180, the screen must be refreshed.
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187
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188 ;; DE contains max-glyphs and HL will be overwritten next
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189 ;; section, so both are free to use here.
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190 (repeat 100 0)
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191 ;; Reset HL to initial value
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192 0x21
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193 (reverse (disect-bytes-2 data-start))
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194 ;; load row and column into DE
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195 0x23 0x23 ;; HL += 2
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196 0x2A 0x57 ;; row -> D
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197 0x2A 0x5F ;; column -> E
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198
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199 ;; clear screen if we are at 0,0
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200 0x57 0xB3 ;; D->A, OR E A ==> (= D E 0)
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201 0x20 ;; skip clear-screen if D and E are not both zero
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202 :clear-screen-length
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203
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204 ])
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205 clear-screen
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206 (flatten
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207 [;; save all registers
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208 0xC5 0xD5 0xE5 0xF5
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209
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210 (select-LCD-bank 0)
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211 ;; write 0x00 to memory locations
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212 ;; 0x9800 to 0x9A34
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213 0x21
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214 0x00 0x98 ;; load 0x9800 into HL
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215
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216
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217 0x16 3 ;; 3 -> D
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218 0x1E 190 ;; 188 -> E
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219
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220 0x3E 0 ;; 0-> A
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221
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222 ;; begin of do-while loop
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223 0x22 ;; load 0 to 0x9800
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224 0x1D ;; dec E
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225 0x20
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226 (->signed-8-bit -4)
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227 0x15 ;; dec D
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228 0x1E 190 ;; 188 -> E
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229 0x20
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230 (->signed-8-bit -8)
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231 ;; end of do-while-loop
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232
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233
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234 ;; restore all registers
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235 0xF1 0xE1 0xD1 0xC1
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236 ])
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237
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238 init (replace
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239 {:clear-screen-length (count clear-screen)} init*)
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240 ]
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241
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242 (concat init clear-screen))
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243
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244 cleanup
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245 ;; restore all registers
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246 (flatten
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247 [0x03 ;; (inc glyphs-rednered) -> glyphs-rendered
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248
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249 ;; Reset HL to initial value
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250 0x21
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251 (reverse (disect-bytes-2 data-start))
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252 0x78 0x22 ;; BC -> save glyphs-rendered
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253 0x79 0x22 ;;
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254
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255 0x7A 0x22 ;; D -> rows
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256 0x7B 0x22 ;; E -> columns
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257 ])
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258
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259 stack-cleanup
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260 [0xF1 0xE1 0xD1 0xC1]
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261
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262 [stack-cleanup-high
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263 stack-cleanup-low]
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264 (disect-bytes-2 (+ start-address (count load-data)
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265 (count handle-glyph-count*)
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266 (count cleanup)
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267 (count display-glyph)))
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268
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269 handle-glyph-count
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270 (replace {:stack-cleanup-high stack-cleanup-high
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271 :stack-cleanup-low stack-cleanup-low}
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272 handle-glyph-count*)]
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273 (println (+ (count display-glyph) (count cleanup)))
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274 (concat load-data
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275 handle-glyph-count
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276 display-glyph
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277 cleanup stack-cleanup)))
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278
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279 (def main-program-base-address 0xC000)
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280
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281 (defn glyph-bootstrap-program
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rlm@553
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282 [start-address delay-count total-glyph-count]
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rlm@553
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283 (let [init [0xAF 0x4F 0x47] ;; 0->A; 0->C; 0->B
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284 header (concat (frame-metronome) (read-user-input))
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285
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286 glyph-display (glyph-display-program
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287 (+ (count init)
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288 (count header)
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289 start-address)
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290 2000)
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291 ;;(- (count (program-data 0)) 100))
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292
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293 state-machine-start-address
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294 (+ start-address (count init) (count header) (count glyph-display))
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295 state-machine
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296 (bootstrap-state-machine state-machine-start-address)
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297
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298 return-to-header
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rlm@553
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299 (flatten
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300 [0xC3
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rlm@564
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301 (reverse (disect-bytes-2
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302 (+ (count init) start-address)))])]
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303 (concat init header glyph-display state-machine return-to-header)))
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304
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305
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306
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rlm@558
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307 (defn-memo begin-glyph-bootstrap
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308 ([] (begin-glyph-bootstrap (launch-main-bootstrap-program)))
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rlm@554
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309 ([script]
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rlm@554
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310 (let [glyph-init (glyph-init-program relocated-bootstrap-start)
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311 main-glyph-start (+ relocated-bootstrap-start
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312 (count glyph-init))
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313 glyph-program (glyph-bootstrap-program
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314 main-glyph-start 0 0)]
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rlm@554
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315 (->> script
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rlm@554
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316 (do-nothing 2)
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rlm@554
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317 ;; begin glyph program
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318 (write-RAM 0xFF1A [0 0 0]) ;; silence remnant music
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319
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320 (write-RAM
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321 relocated-bootstrap-start
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322 (concat glyph-init glyph-program))
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rlm@554
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323 (transfer-control relocated-bootstrap-start)
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324 (do-nothing 1)
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325
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326 ))))
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327
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328 (defn write-all-program-data
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329 ([] (write-all-program-data (begin-glyph-bootstrap)))
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330 ([script]
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331 (let [base-address main-program-base-address]
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332 (->> script
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333 (write-RAM base-address (program-data base-address))))))
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334
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335 (defn activate-program
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336 ([] (activate-program (write-all-program-data)))
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337 ([script]
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338 (->> script
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339 (transfer-control main-program-base-address)
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340 ;;(do-nothing 1800)
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341 (do-nothing 50)
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342 )))
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343
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344
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345 ;; possible screen writing programs
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346
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347 ;; (program needs to stop executing at some point)
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348 ;; maybe have total length counter or something?
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349
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350 ;; automatic counter that reads from program-start and clears the
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351 ;; screen every 360 (* 18 20) gliphs
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352
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353 ;; advantages -- very simple and low bandwidth
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354 ;; disadvantages -- hard to align counter
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355
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356 ;; implementation -- refactor main-bootstrap-program to provide a
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357 ;; state-machine code-section which can be recombined into another
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358 ;; program.
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