From 4e946e3c1783e48133b861ee5542c88647d1eb6d Mon Sep 17 00:00:00 2001 From: Dimitri Sokolyuk Date: Wed, 25 Apr 2012 23:15:02 +0000 Subject: move docs to doc/ --- dcpu-16.txt | 143 ------------------------------------------------------------ 1 file changed, 143 deletions(-) delete mode 100644 dcpu-16.txt (limited to 'dcpu-16.txt') diff --git a/dcpu-16.txt b/dcpu-16.txt deleted file mode 100644 index 6b7a070..0000000 --- a/dcpu-16.txt +++ /dev/null @@ -1,143 +0,0 @@ -DCPU-16 Specification -Copyright 2012 Mojang -Version 1.1 (Check 0x10c.com for updated versions) - -* 16 bit unsigned words -* 0x10000 words of ram -* 8 registers (A, B, C, X, Y, Z, I, J) -* program counter (PC) -* stack pointer (SP) -* overflow (O) - -In this document, anything within [brackets] is shorthand for "the value of the RAM at the location of the value inside the brackets". -For example, SP means stack pointer, but [SP] means the value of the RAM at the location the stack pointer is pointing at. - -Whenever the CPU needs to read a word, it reads [PC], then increases PC by one. Shorthand for this is [PC++]. -In some cases, the CPU will modify a value before reading it, in this case the shorthand is [++PC]. - -Instructions are 1-3 words long and are fully defined by the first word. -In a basic instruction, the lower four bits of the first word of the instruction are the opcode, -and the remaining twelve bits are split into two six bit values, called a and b. -a is always handled by the processor before b, and is the lower six bits. -In bits (with the least significant being last), a basic instruction has the format: bbbbbbaaaaaaoooo - - - -Values: (6 bits) - 0x00-0x07: register (A, B, C, X, Y, Z, I or J, in that order) - 0x08-0x0f: [register] - 0x10-0x17: [next word + register] - 0x18: POP / [SP++] - 0x19: PEEK / [SP] - 0x1a: PUSH / [--SP] - 0x1b: SP - 0x1c: PC - 0x1d: O - 0x1e: [next word] - 0x1f: next word (literal) - 0x20-0x3f: literal value 0x00-0x1f (literal) - -* "next word" really means "[PC++]". These increase the word length of the instruction by 1. -* If any instruction tries to assign a literal value, the assignment fails silently. Other than that, the instruction behaves as normal. -* All values that read a word (0x10-0x17, 0x1e, and 0x1f) take 1 cycle to look up. The rest take 0 cycles. -* By using 0x18, 0x19, 0x1a as POP, PEEK and PUSH, there's a reverse stack starting at memory location 0xffff. Example: "SET PUSH, 10", "SET X, POP" - - - -Basic opcodes: (4 bits) - 0x0: non-basic instruction - see below - 0x1: SET a, b - sets a to b - 0x2: ADD a, b - sets a to a+b, sets O to 0x0001 if there's an overflow, 0x0 otherwise - 0x3: SUB a, b - sets a to a-b, sets O to 0xffff if there's an underflow, 0x0 otherwise - 0x4: MUL a, b - sets a to a*b, sets O to ((a*b)>>16)&0xffff - 0x5: DIV a, b - sets a to a/b, sets O to ((a<<16)/b)&0xffff. if b==0, sets a and O to 0 instead. - 0x6: MOD a, b - sets a to a%b. if b==0, sets a to 0 instead. - 0x7: SHL a, b - sets a to a<>16)&0xffff - 0x8: SHR a, b - sets a to a>>b, sets O to ((a<<16)>>b)&0xffff - 0x9: AND a, b - sets a to a&b - 0xa: BOR a, b - sets a to a|b - 0xb: XOR a, b - sets a to a^b - 0xc: IFE a, b - performs next instruction only if a==b - 0xd: IFN a, b - performs next instruction only if a!=b - 0xe: IFG a, b - performs next instruction only if a>b - 0xf: IFB a, b - performs next instruction only if (a&b)!=0 - -* SET, AND, BOR and XOR take 1 cycle, plus the cost of a and b -* ADD, SUB, MUL, SHR, and SHL take 2 cycles, plus the cost of a and b -* DIV and MOD take 3 cycles, plus the cost of a and b -* IFE, IFN, IFG, IFB take 2 cycles, plus the cost of a and b, plus 1 if the test fails - - - -Non-basic opcodes always have their lower four bits unset, have one value and a six bit opcode. -In binary, they have the format: aaaaaaoooooo0000 -The value (a) is in the same six bit format as defined earlier. - -Non-basic opcodes: (6 bits) - 0x00: reserved for future expansion - 0x01: JSR a - pushes the address of the next instruction to the stack, then sets PC to a - 0x02-0x3f: reserved - -* JSR takes 2 cycles, plus the cost of a. - - - -FAQ: - -Q: Why is there no JMP or RET? -A: They're not needed! "SET PC, " is a one-instruction JMP. - For small relative jumps in a single word, you can even do "ADD PC, " or "SUB PC, ". - For RET, simply do "SET PC, POP" - - -Q: How does the overflow (O) work? -A: O is set by certain instructions (see above), but never automatically read. You can use its value in instructions, however. - For example, to do a 32 bit add of 0x12345678 and 0xaabbccdd, do this: - SET [0x1000], 0x5678 ; low word - SET [0x1001], 0x1234 ; high word - ADD [0x1000], 0xccdd ; add low words, sets O to either 0 or 1 (in this case 1) - ADD [0x1001], O ; add O to the high word - ADD [0x1001], 0xaabb ; add high words, sets O again (to 0, as 0xaabb+0x1235 is lower than 0x10000) - -Q: How do I do 32 or 64 bit division using O? -A: This is left as an exercise for the reader. - -Q: How about a quick example? -A: Sure! Here's some sample assembler, and a memory dump of the compiled code: - - ; Try some basic stuff - SET A, 0x30 ; 7c01 0030 - SET [0x1000], 0x20 ; 7de1 1000 0020 - SUB A, [0x1000] ; 7803 1000 - IFN A, 0x10 ; c00d - SET PC, crash ; 7dc1 001a [*] - - ; Do a loopy thing - SET I, 10 ; a861 - SET A, 0x2000 ; 7c01 2000 - :loop SET [0x2000+I], [A] ; 2161 2000 - SUB I, 1 ; 8463 - IFN I, 0 ; 806d - SET PC, loop ; 7dc1 000d [*] - - ; Call a subroutine - SET X, 0x4 ; 9031 - JSR testsub ; 7c10 0018 [*] - SET PC, crash ; 7dc1 001a [*] - - :testsub SHL X, 4 ; 9037 - SET PC, POP ; 61c1 - - ; Hang forever. X should now be 0x40 if everything went right. - :crash SET PC, crash ; 7dc1 001a [*] - - ; [*]: Note that these can be one word shorter and one cycle faster by using the short form (0x00-0x1f) of literals, - ; but my assembler doesn't support short form labels yet. - - Full memory dump: - - 0000: 7c01 0030 7de1 1000 0020 7803 1000 c00d - 0008: 7dc1 001a a861 7c01 2000 2161 2000 8463 - 0010: 806d 7dc1 000d 9031 7c10 0018 7dc1 001a - 0018: 9037 61c1 7dc1 001a 0000 0000 0000 0000 - \ No newline at end of file -- cgit v1.2.3