X-Git-Url: https://git.rrq.au/?a=blobdiff_plain;f=main.asm;h=086d1dc243dcfa4d8641d2eba627eedd804c1138;hb=03fd7979b12ff7cc5d074bb83c9d4e3fcdf616c3;hp=28cd430df50123520fb322304c3c765e84d788d6;hpb=393bd34286ed22c677fbbc70c5a3e70aa655c09f;p=rrq%2Fjonasforth.git diff --git a/main.asm b/main.asm index 28cd430..086d1dc 100644 --- a/main.asm +++ b/main.asm @@ -32,11 +32,16 @@ macro popr x { ;; ;; This macro also defines a label LABEL_entry. initial_latest_entry = 0 -macro header label, name { +macro header label, name, immediate { local .string_end label#_entry: dq initial_latest_entry + if immediate eq + db 0 + else + db 1 + end if db .string_end - ($ + 1) db name .string_end: @@ -46,21 +51,25 @@ initial_latest_entry = label#_entry } ;; Define a Forth word that is implemented in assembly. See 'header' for details. -macro forth_asm label, name { - header label, name +macro forth_asm label, name, immediate { + header label, name, immediate dq .start .start: } ;; Define a Forth word that is implemented in Forth. (The body will be a list of ;; 'dq' statements.) -macro forth label, name { - header label, name - dq docol +macro forth label, name, immediate { + header label, name, immediate + dq DOCOL } segment readable executable +entry main + +include "impl.asm" + main: cld ; Clear direction flag so LODSQ does the right thing. mov rbp, return_stack_top ; Initialize return stack @@ -73,13 +82,13 @@ program: dq MAIN ;; The codeword is the code that will be executed at the beginning of a forth ;; word. It needs to save the old RSI and update it to point to the next word to ;; execute. -docol: +header DOCOL, 'DOCOL' pushr rsi ; Save old value of RSI on return stack; we will continue execution there after we are done executing this word lea rsi, [rax + 8] ; RAX currently points to the address of the codeword, so we want to continue at RAX+8 next ; Execute word pointed to by RSI ;; This word is called at the end of a Forth definition. It just needs to -;; restore the old value of RSI (saved by 'docol') and resume execution. +;; restore the old value of RSI (saved by 'DOCOL') and resume execution. forth_asm EXIT, 'EXIT' popr rsi next @@ -95,37 +104,15 @@ forth_asm LIT, 'LIT' ;; dictionary entry for that word. If no such word exists, return 0. forth_asm FIND, 'FIND' mov [.rsi], rsi - pop [.search_length] - pop [.search_buffer] - ;; RSI contains the entry we are currently looking at + pop [find.search_length] + pop [find.search_buffer] mov rsi, [latest_entry] ; Start with the last added word + call find + push rsi -.loop: - movzx rcx, byte [rsi + 8] ; Length of word being looked at - cmp rcx, [.search_length] - jne .next ; If the words don't have the same length, we have the wrong word - - ;; Otherwise, we need to compare strings - lea rdx, [rsi + 8 + 1] ; Location of character being compared in entry - mov rdi, [.search_buffer] ; Location of character being compared in search buffer -.compare_char: - mov al, [rdx] - mov ah, [rdi] - cmp al, ah - jne .next ; They don't match; try again - inc rdx ; These characters match; look at the next ones - inc rdi - loop .compare_char - - jmp .found ; They match! We are done. - -.next: - mov rsi, [rsi] ; Look at the previous entry - cmp rsi, 0 - jnz .loop ; If there is no previous word, exit and return 0 - -.found: + mov rsi, [.rsi] + next push rsi mov rsi, [.rsi] @@ -135,7 +122,7 @@ forth_asm FIND, 'FIND' ;; entry. forth_asm TCFA, '>CFA' pop rax - add rax, 8 ; [rax] = length of name + add rax, 8 + 1 ; [rax] = length of name movzx rbx, byte [rax] inc rax add rax, rbx ; [rax] = codeword @@ -200,98 +187,25 @@ forth SPACE, 'SPACE' ;; size. The pointer is valid until the next call to READ_WORD. forth_asm READ_WORD, 'READ-WORD' mov [.rsi], rsi - mov [.rax], rax - -.skip_whitespace: - ;; Read characters into .char_buffer until one of them is not whitespace. - mov rax, 0 - mov rdi, 0 - mov rsi, .char_buffer - mov rdx, 1 - syscall - - cmp [.char_buffer], ' ' - je .skip_whitespace - cmp [.char_buffer], $A - je .skip_whitespace - -.alpha: - ;; We got a character that wasn't whitespace. Now read the actual word. - mov [.length], 0 - -.read_alpha: - mov al, [.char_buffer] - movzx rbx, [.length] - mov rsi, .buffer - add rsi, rbx - mov [rsi], al - inc [.length] - mov rax, 0 - mov rdi, 0 - mov rsi, .char_buffer - mov rdx, 1 - syscall - - cmp [.char_buffer], ' ' - je .end - cmp [.char_buffer], $A - jne .read_alpha - -.end: - push .buffer - movzx rax, [.length] - push rax + call read_word + push rdi ; Buffer + push rdx ; Length mov rsi, [.rsi] - mov rax, [.rax] - next ;; Takes a string on the stack and replaces it with the decimal number that the ;; string represents. forth_asm PARSE_NUMBER, 'PARSE-NUMBER' - pop [.length] ; Length - pop rdi ; String pointer - mov r8, 0 ; Result - - ;; Add (10^(rcx-1) * parse_char(rdi[length - rcx])) to the accumulated value - ;; for each rcx. - mov rcx, [.length] -.loop: - ;; First, calcuate 10^(rcx - 1) - mov rax, 1 - - mov r9, rcx - .exp_loop: - dec r9 - jz .break - mov rbx, 10 - mul rbx - jmp .exp_loop - .break: - - ;; Now, rax = 10^(rcx - 1). - - ;; We need to calulate the value of the character at rdi[length - rcx]. - mov rbx, rdi - add rbx, [.length] - sub rbx, rcx - movzx rbx, byte [rbx] - sub rbx, '0' - - ;; Multiply this value by rax to get (10^(rcx-1) * parse_char(rdi[length - rcx])), - ;; then add this to the result. - mul rbx - - ;; Add that value to r8 - add r8, rax - - dec rcx - jnz .loop + pop rcx ; Length + pop rdi ; String pointer - push r8 + push rsi + call parse_number + pop rsi + push rax ; Result next forth READ_NUMBER, 'READ-NUMBER' @@ -331,6 +245,89 @@ forth HELLO, 'HELLO' dq NEWLINE dq EXIT +;; Duplicate a pair of elements. +forth_asm PAIRDUP, '2DUP' + pop rbx + pop rax + push rax + push rbx + push rax + push rbx + next + +;; Swap the top two elements on the stack. +forth_asm SWAP, 'SWAP' + pop rax + pop rbx + push rax + push rbx + next + +;; Remove the top element from the stack. +forth_asm DROP, 'DROP' + add rsp, 8 + next + +forth_asm NOT_, 'NOT' + pop rax + cmp rax, 0 + jz .false +.true: + push 0 + next +.false: + push 1 + next + +;; The INTERPRET word reads and interprets user input. It's behavior depends on +;; the current STATE. It provides special handling for integers. +forth INTERPRET, 'INTERPRET' + ;; Read word + dq READ_WORD + dq PAIRDUP + ;; Stack is (word length word length). + dq FIND ; Try to find word + dq DUP_ + dq ZBRANCH, 8 * 22 ; Check if word is found + + ;; - Word is found - + + dq STATE, GET, ZBRANCH, 8 * 11 ; Check whether we are in compilation or immediate mode + + ;; (Word found, compilation mode) + dq DUP_, IS_IMMEDIATE, NOT_, ZBRANCH, 8 * 6 ; If the word is immediate, continue as we would in immediate mode + + ;; Otherwise, we want to compile this word + dq TCFA + dq COMMA + dq DROP, DROP + dq EXIT + + ;; (Word found, immediate mode) + ;; Execute word + dq TCFA + ;; Stack is (word length addr) + dq SWAP, DROP + dq SWAP, DROP + ;; Stack is (addr) + dq EXEC + dq EXIT + + ;; - No word is found, assume it is an integer literal - + ;; Stack is (word length addr) + dq DROP + dq PARSE_NUMBER + + dq STATE, GET, ZBRANCH, 8 * 5 ; Check whether we are in compilation or immediate mode + + ;; (Number, compilation mode) + dq LIT, LIT, COMMA + dq COMMA + dq EXIT + + ;; (Number, immediate mode) + dq EXIT + ;; .U prints the value on the stack as an unsigned integer in hexadecimal. forth_asm DOTU, '.U' mov [.length], 0 @@ -392,39 +389,205 @@ forth_asm DOTU, '.U' pop rsi next +;; Takes a value and an address, and stores the value at the given address. +forth_asm PUT, '!' + pop rbx ; Address + pop rax ; Value + mov [rbx], rax + next + +;; Takes an address and returns the value at the given address. +forth_asm GET, '@' + pop rax + mov rax, [rax] + push rax + next + +forth_asm PUT_BYTE, 'C!' + pop rbx + pop rax ; Value + mov [rbx], al + next + +forth_asm GET_BYTE, 'C@' + pop rax + movzx rax, byte [rax] + push rax + next + +;; Add two integers on the stack. +forth_asm PLUS, '+' + pop rax + pop rbx + add rax, rbx + push rax + next + +;; Calculate difference between two integers on the stack. The second number is +;; subtracted from the first. +forth_asm MINUS, '-' + pop rax + pop rbx + sub rbx, rax + push rbx + next + +;; Given two integers a and b on the stack, pushes the quotient and remainder of +;; division of a by b. +forth_asm TIMESMOD, '/MOD' + pop rbx ; b + pop rax ; a + mov rdx, 0 + div rbx + push rax ; a / b + push rdx ; a % b + next + +;; Get the location of the STATE variable. It can be set with '!' and read with +;; '@'. +forth STATE, 'STATE' + dq LIT, var_STATE + dq EXIT + +;; Get the location of the LATEST variable. It can be set with '!' and read with +;; '@'. +forth LATEST, 'LATEST' + dq LIT, latest_entry + dq EXIT + +;; Get the location at which compiled words are expected to be added. This +;; pointer is usually modified automatically when calling ',', but we can also +;; read it manually with 'HERE'. +forth HERE, 'HERE' + dq LIT, here + dq EXIT + +forth COMMA, ',' + dq HERE, GET, PUT ; Set the memory at the address pointed to by HERE + dq HERE, GET, LIT, 8, PLUS ; Calculate new address for HERE to point to + dq HERE, PUT ; Update HERE to point to the new address + dq EXIT + +;; Read user input until next " character is found. Push a string containing the +;; input on the stack as (buffer length). Note that the buffer is only valid +;; until the next call to S" and that no more than 255 character can be read. +forth_asm READ_STRING, 'S"' + push rsi + + mov [.length], 0 + +.read_char: + mov rax, 0 + mov rdi, 0 + mov rsi, .char_buffer + mov rdx, 1 + syscall + + mov al, [.char_buffer] + cmp al, '"' + je .done + + mov rdx, .buffer + add rdx, [.length] + mov [rdx], al + inc [.length] + jmp .read_char + +.done: + pop rsi + + push .buffer + push [.length] + + next + +;; CREATE inserts a new header in the dictionary, and updates LATEST so that it +;; points to the header. To compile a word, the user can then call ',' to +;; continue to append data after the header. +;; +;; It takes the name of the word as a string (address length) on the stack. +forth_asm CREATE, 'CREATE' + pop rcx ; Word string length + pop rdx ; Word string pointer + + mov rdi, [here] ; rdi = Address at which to insert this entry + mov rax, [latest_entry] ; rax = Address of the previous entry + mov [rdi], rax ; Insert link to previous entry + mov [latest_entry], rdi ; Update LATEST to point to this word + + add rdi, 8 + mov [rdi], byte 0 ; Insert immediate flag + + add rdi, 1 + mov [rdi], byte cl ; Insert length + + ;; Insert word string + add rdi, 1 + + push rsi + mov rsi, rdx ; rsi = Word string pointer + rep movsb + pop rsi + + ;; Update HERE + mov [here], rdi + + next + +;; Mark the last added word as immediate. +forth IMMEDIATE, 'IMMEDIATE', 1 + dq LIT, 1 + dq LATEST, GET + dq LIT, 8, PLUS + dq PUT_BYTE + dq EXIT + +;; Given the address of a word, return 0 if the given word is not immediate. +forth IS_IMMEDIATE, 'IMMEDIATE?' + dq LIT, 8, PLUS + dq GET_BYTE + dq EXIT + +;; Enter immediate mode, immediately +forth INTO_IMMEDIATE, '[', 1 + dq LIT, 0, STATE, PUT_BYTE + dq EXIT + +;; Enter compilation mode +forth OUTOF_IMMEDIATE, ']' + dq LIT, 1, STATE, PUT_BYTE + dq EXIT + +forth_asm TICK, "'" + lodsq + push rax + next + forth MAIN, 'MAIN' dq HELLO - dq READ_WORD, FIND, TCFA, EXEC - dq BRANCH, -8 * 5 + dq INTERPRET + dq BRANCH, -8 * 2 dq TERMINATE segment readable writable +;; The LATEST variable holds a pointer to the word that was last added to the +;; dictionary. This pointer is updated as new words are added, and its value is +;; used by FIND to look up words. latest_entry dq initial_latest_entry -SPACE_string db 'SPACE' -.length = $ - SPACE_string -HELLO_string db 'HELLO' -.length = $ - HELLO_string -DOTU_string db '.U' -.length = $ - DOTU_string -HELLA_string db 'HELLA' -.length = $ - HELLA_string - +;; The STATE variable is 0 when the interpreter is executing, and non-zero when +;; it is compiling. +var_STATE dq 0 -you_typed_string db 'You typed: ' -.length = $ - you_typed_string - -FIND.search_length dq ? -FIND.search_buffer dq ? FIND.rsi dq ? READ_WORD.rsi dq ? -READ_WORD.rax dq ? -READ_WORD.max_size = $FF -READ_WORD.buffer rb READ_WORD.max_size -READ_WORD.length db ? -READ_WORD.char_buffer db ? +READ_WORD.rbp dq ? + +READ_STRING.char_buffer db ? +READ_STRING.buffer rb $FF +READ_STRING.length dq ? DOTU.chars db '0123456789ABCDEF' DOTU.buffer rq 16 ; 64-bit number has no more than 16 digits in hex @@ -432,7 +595,9 @@ DOTU.rbuffer rq 16 DOTU.length dq ? DOTU.printed_length dq ? -PARSE_NUMBER.length dq ? +;; Reserve space for compiled words, accessed through HERE. +here dq here_top +here_top rq $4000 ;; Return stack rq $2000