annotate clojure/com/aurellem/gb/rlm_assembly.clj @ 378:5c4a30521d09

created efficient frame-metronome program
author Robert McIntyre <rlm@mit.edu>
date Wed, 11 Apr 2012 11:43:51 -0500
parents 1f14c1b8af7e
children f86bd04bd9fc
rev   line source
rlm@377 1 (ns com.aurellem.gb.rlm-assembly
rlm@377 2 "Version of main bootstrap program that is valid output for the
rlm@377 3 item-writer program."
rlm@377 4 (:use (com.aurellem.gb gb-driver assembly util vbm constants))
rlm@377 5 (:use (com.aurellem.run bootstrap-1))
rlm@377 6 (:import [com.aurellem.gb.gb_driver SaveState]))
rlm@377 7
rlm@377 8 ;; Specs for Main Bootstrap Program
rlm@377 9
rlm@377 10 ;; Number-Input
rlm@377 11 ;; Number input works using all eight buttons to
rlm@377 12 ;; spell out an 8 bit number. The order of buttons is
rlm@377 13 ;; [:d :u :l :r :start :select :b :a] --> 11111111
rlm@377 14 ;; [ :l :start :a] --> 00101001
rlm@377 15
rlm@377 16 ;;; MODE-SELECT
rlm@377 17 ;; The bootstrap program starts in MODE-SELECT mode.
rlm@377 18 ;; MODE-SELECT transitions to one of three modes depending
rlm@377 19 ;; on which buttons are pressed:
rlm@377 20 ;; 0 (no-buttons) : MODE-SELECT
rlm@377 21 ;; 8 [:start] : WRITE-BYTES
rlm@377 22 ;; 0xFF (all-buttons) : JUMP
rlm@377 23
rlm@377 24 ;;; WRITE-BYTES
rlm@377 25
rlm@377 26 ;; WRITE-BYTES mode writes sequences of arbitray values to
rlm@377 27 ;; arbitray memory locations. It expects you to enter a
rlm@377 28 ;; header of three bytes describing what to write:
rlm@377 29
rlm@377 30 ;; Byte 0 : Number of Bytes to Write
rlm@377 31 ;; Byte 1 : Start Address High Byte
rlm@377 32 ;; Byte 1 : Start Address Low Byte
rlm@377 33
rlm@377 34 ;; Then, you enter the number of bytes specified in Byte 0
rlm@377 35 ;; they are written to the start address in
rlm@377 36 ;; sequence. After the last byte is written control
rlm@377 37 ;; returns to MODE-SELECT mode.
rlm@377 38
rlm@377 39 ;; Example: to write the sequence [1 2 3 4] starting at
rlm@377 40 ;; address 0xC01F enter
rlm@377 41 ;; Byte 0 : 4 (will write four bytes)
rlm@377 42 ;; Byte 1 : 0xC0 (high byte of 0xC01F)
rlm@377 43 ;; Byte 2 : 0x1F (low byte of 0xC01F)
rlm@377 44 ;; Byte 3 : 1 (write 1 to 0xC01F)
rlm@377 45 ;; Byte 4 : 2 (write 2 to 0xC020)
rlm@377 46 ;; Byte 5 : 3 (write 3 to 0xC021)
rlm@377 47 ;; Byte 6 : 4 (write 4 to 0xC022)
rlm@377 48
rlm@377 49 ;;; JUMP
rlm@377 50 ;; JUMP mode jumps program control to any arbitray
rlm@377 51 ;; location. It expects you to enter two bytes which
rlm@377 52 ;; correspond to the high and low bytes of the memory
rlm@377 53 ;; address to which you want to jump.
rlm@377 54 ;; Byte 0 : Jump Address High Byte
rlm@377 55 ;; Byte 1 : Jump Address Low Byte
rlm@377 56
rlm@377 57 ;; Example: to jump to address 0x1234 enter
rlm@377 58 ;; Byte 0 : 0x12 (high byte of 0x1234)
rlm@377 59 ;; Byte 1 : 0x34 (low byte of 0x1234)
rlm@377 60
rlm@377 61
rlm@378 62 (defn ->signed-8-bit [n]
rlm@378 63 (if (< n 0)
rlm@378 64 (+ 256 n) n))
rlm@378 65
rlm@378 66 (defn frame-metronome []
rlm@378 67 (let [timing-loop
rlm@378 68 [0x47 ;; A->B
rlm@378 69
rlm@378 70 0x26
rlm@378 71 0xFE ;; load FF into H without repeats
rlm@378 72 0x24
rlm@378 73
rlm@378 74 0x2E
rlm@378 75 0x43 ;; load 44 into L without repeats
rlm@378 76 0x2C
rlm@378 77
rlm@378 78 0x7E] ;; (HL) -> A, now A = LY (vertical line coord)
rlm@378 79 jump-if-not-144
rlm@378 80 [0xFE
rlm@378 81 144 ;; compare LY (in A) with 144
rlm@378 82 0x20 ;; jump back to beginning if LY != 144 (not-v-blank)
rlm@378 83 (->signed-8-bit (+ -4 (- (count timing-loop))))]
rlm@378 84 continue-if-different
rlm@378 85 [0xB8 ;; compare A with B
rlm@378 86 0x28
rlm@378 87 (->signed-8-bit
rlm@378 88 (+ -3 (- (+ (count timing-loop) (count jump-if-not-144)))))]]
rlm@378 89 (concat timing-loop jump-if-not-144 continue-if-different)))
rlm@378 90
rlm@378 91 (defn test-frame-metronome []
rlm@378 92 (let [inc-C [0x0C 0x18
rlm@378 93 (->signed-8-bit
rlm@378 94 (+ -3 (- (count (frame-metronome)))))]
rlm@378 95 program (concat (frame-metronome) inc-C)
rlm@378 96 count-frames
rlm@378 97 (-> (tick (mid-game))
rlm@378 98 (IE! 0)
rlm@378 99 (BC! 0)
rlm@378 100 (set-memory-range pokemon-list-start program)
rlm@378 101 (PC! pokemon-list-start))
rlm@378 102 steps 151]
rlm@378 103 (assert
rlm@378 104 (= 151
rlm@378 105 (C (run-moves count-frames (repeat steps [])))))
rlm@378 106 count-frames))
rlm@378 107
rlm@377 108
rlm@377 109 (defn main-bootstrap-program [start-address]
rlm@378 110 (let [[start-high start-low] (disect-bytes-2 start-address)
rlm@378 111 ]
rlm@378 112 ))
rlm@378 113
rlm@378 114
rlm@378 115
rlm@378 116
rlm@378 117
rlm@378 118
rlm@378 119
rlm@378 120
rlm@378 121
rlm@377 122
rlm@377 123 ;;;;;; TESTS ;;;;;;
rlm@377 124
rlm@377 125 (defn bootstrap-base []
rlm@377 126 (let [program (main-bootstrap-program pokemon-list-start)]
rlm@377 127 ;; make sure program is valid output for item-writer
rlm@377 128 (bootstrap-pattern program)
rlm@377 129 (-> (tick (mid-game))
rlm@377 130 (set-memory-range pokemon-list-start program)
rlm@377 131 (PC! pokemon-list-start))))
rlm@377 132
rlm@377 133 (defn test-write-bytes-mode []
rlm@377 134 (let [target-address 0xC00F
rlm@377 135 [target-high target-low] (disect-bytes-2 target-address)
rlm@377 136 assembly [0xF3 0x18 0xFE 0x12]
rlm@377 137 get-mem-region #(subvec (vec (memory %))
rlm@377 138 target-address (+ target-address 20))
rlm@377 139 before (bootstrap-base)
rlm@377 140 after
rlm@377 141 (-> before
rlm@377 142 (step []) ; make sure it can handle blanks
rlm@377 143 (step []) ; at the beginning.
rlm@377 144 (step [])
rlm@377 145 (step [:start]) ; select WRITE-BYTES mode
rlm@377 146 (step (buttons 4)) ; write 4 bytes
rlm@377 147 (step (buttons target-high))
rlm@377 148 (step (buttons target-low))
rlm@377 149 (step (buttons (nth assembly 0)))
rlm@377 150 (step (buttons (nth assembly 1)))
rlm@377 151 (step (buttons (nth assembly 2)))
rlm@377 152 (step (buttons (nth assembly 3)))
rlm@377 153 (step [])
rlm@377 154 (step [])
rlm@377 155 (step []))]
rlm@377 156 (println "before :" (get-mem-region before))
rlm@377 157 (println "after :" (get-mem-region after))
rlm@377 158 (assert (= assembly (take 4 (get-mem-region after))))
rlm@377 159 after))
rlm@377 160
rlm@377 161 (defn test-jump-mode []
rlm@377 162 (let [target-address 0xC00F
rlm@377 163 [target-high target-low] (disect-bytes-2 target-address)
rlm@377 164 post-jump
rlm@377 165 (-> (test-write-bytes-mode)
rlm@377 166 (step [])
rlm@377 167 (step [])
rlm@377 168 (step [])
rlm@377 169 (step (buttons 0xFF)) ; Select JUMP mode.
rlm@377 170 (step (buttons target-high))
rlm@377 171 (step (buttons target-low)))
rlm@377 172 program-counters
rlm@377 173 (capture-program-counter
rlm@377 174 post-jump
rlm@377 175 10000)]
rlm@377 176 (println program-counters)
rlm@377 177 (assert (contains? (set program-counters) target-address))
rlm@377 178 post-jump))